diff options
| author | René Korthaus <[email protected]> | 2015-12-23 11:52:19 +0100 |
|---|---|---|
| committer | Jack Lloyd <[email protected]> | 2016-01-08 19:09:51 -0500 |
| commit | d22bc10cd4f67924acd82bcd46a31e3de3b20ce3 (patch) | |
| tree | 58459585e6675cd799b6ef5900be026825cd6f9d | |
| parent | 2fbfdd7e5afb5e888fd8c0b56c6df09e2bdeaca7 (diff) | |
Mass-prefix member vars with m_
206 files changed, 3011 insertions, 2980 deletions
diff --git a/src/lib/asn1/alg_id.h b/src/lib/asn1/alg_id.h index 9e36fd120..1516e41ef 100644 --- a/src/lib/asn1/alg_id.h +++ b/src/lib/asn1/alg_id.h @@ -32,7 +32,10 @@ class BOTAN_DLL AlgorithmIdentifier : public ASN1_Object AlgorithmIdentifier(const OID&, const std::vector<byte>&); AlgorithmIdentifier(const std::string&, const std::vector<byte>&); + // public member variable: OID oid; + + // public member variable: std::vector<byte> parameters; }; diff --git a/src/lib/asn1/asn1_alt_name.cpp b/src/lib/asn1/asn1_alt_name.cpp index 131152521..bd23bdff1 100644 --- a/src/lib/asn1/asn1_alt_name.cpp +++ b/src/lib/asn1/asn1_alt_name.cpp @@ -58,12 +58,12 @@ void AlternativeName::add_attribute(const std::string& type, if(type.empty() || str.empty()) return; - auto range = alt_info.equal_range(type); + auto range = m_alt_info.equal_range(type); for(auto j = range.first; j != range.second; ++j) if(j->second == str) return; - multimap_insert(alt_info, type, str); + multimap_insert(m_alt_info, type, str); } /* @@ -74,7 +74,7 @@ void AlternativeName::add_othername(const OID& oid, const std::string& value, { if(value.empty()) return; - multimap_insert(othernames, oid, ASN1_String(value, type)); + multimap_insert(m_othernames, oid, ASN1_String(value, type)); } /* @@ -82,7 +82,7 @@ void AlternativeName::add_othername(const OID& oid, const std::string& value, */ std::multimap<std::string, std::string> AlternativeName::get_attributes() const { - return alt_info; + return m_alt_info; } /* @@ -90,7 +90,7 @@ std::multimap<std::string, std::string> AlternativeName::get_attributes() const */ std::multimap<OID, ASN1_String> AlternativeName::get_othernames() const { - return othernames; + return m_othernames; } /* @@ -100,10 +100,10 @@ std::multimap<std::string, std::string> AlternativeName::contents() const { std::multimap<std::string, std::string> names; - for(auto i = alt_info.begin(); i != alt_info.end(); ++i) + for(auto i = m_alt_info.begin(); i != m_alt_info.end(); ++i) multimap_insert(names, i->first, i->second); - for(auto i = othernames.begin(); i != othernames.end(); ++i) + for(auto i = m_othernames.begin(); i != m_othernames.end(); ++i) multimap_insert(names, OIDS::lookup(i->first), i->second.value()); return names; @@ -114,7 +114,7 @@ std::multimap<std::string, std::string> AlternativeName::contents() const */ bool AlternativeName::has_items() const { - return (alt_info.size() > 0 || othernames.size() > 0); + return (m_alt_info.size() > 0 || m_othernames.size() > 0); } namespace { @@ -154,12 +154,12 @@ void AlternativeName::encode_into(DER_Encoder& der) const { der.start_cons(SEQUENCE); - encode_entries(der, alt_info, "RFC822", ASN1_Tag(1)); - encode_entries(der, alt_info, "DNS", ASN1_Tag(2)); - encode_entries(der, alt_info, "URI", ASN1_Tag(6)); - encode_entries(der, alt_info, "IP", ASN1_Tag(7)); + encode_entries(der, m_alt_info, "RFC822", ASN1_Tag(1)); + encode_entries(der, m_alt_info, "DNS", ASN1_Tag(2)); + encode_entries(der, m_alt_info, "URI", ASN1_Tag(6)); + encode_entries(der, m_alt_info, "IP", ASN1_Tag(7)); - for(auto i = othernames.begin(); i != othernames.end(); ++i) + for(auto i = m_othernames.begin(); i != m_othernames.end(); ++i) { der.start_explicit(0) .encode(i->first) diff --git a/src/lib/asn1/asn1_alt_name.h b/src/lib/asn1/asn1_alt_name.h index 91ba2bcf1..3b4120fc3 100644 --- a/src/lib/asn1/asn1_alt_name.h +++ b/src/lib/asn1/asn1_alt_name.h @@ -38,8 +38,8 @@ class BOTAN_DLL AlternativeName : public ASN1_Object AlternativeName(const std::string& = "", const std::string& = "", const std::string& = "", const std::string& = ""); private: - std::multimap<std::string, std::string> alt_info; - std::multimap<OID, ASN1_String> othernames; + std::multimap<std::string, std::string> m_alt_info; + std::multimap<OID, ASN1_String> m_othernames; }; } diff --git a/src/lib/asn1/asn1_attribute.h b/src/lib/asn1/asn1_attribute.h index 371b0f99a..3abdaaeb9 100644 --- a/src/lib/asn1/asn1_attribute.h +++ b/src/lib/asn1/asn1_attribute.h @@ -23,7 +23,10 @@ class BOTAN_DLL Attribute : public ASN1_Object void encode_into(class DER_Encoder& to) const override; void decode_from(class BER_Decoder& from) override; + // public member variable: OID oid; + + // public member variable: std::vector<byte> parameters; Attribute() {} diff --git a/src/lib/asn1/asn1_obj.h b/src/lib/asn1/asn1_obj.h index f68ef675e..2bd2b1ed5 100644 --- a/src/lib/asn1/asn1_obj.h +++ b/src/lib/asn1/asn1_obj.h @@ -84,7 +84,10 @@ class BOTAN_DLL BER_Object public: void assert_is_a(ASN1_Tag, ASN1_Tag); + // public member variable: ASN1_Tag type_tag, class_tag; + + // public member variable: secure_vector<byte> value; }; diff --git a/src/lib/asn1/asn1_oid.cpp b/src/lib/asn1/asn1_oid.cpp index 3232d24e6..67af91afc 100644 --- a/src/lib/asn1/asn1_oid.cpp +++ b/src/lib/asn1/asn1_oid.cpp @@ -22,16 +22,16 @@ OID::OID(const std::string& oid_str) { try { - id = parse_asn1_oid(oid_str); + m_id = parse_asn1_oid(oid_str); } catch(...) { throw Invalid_OID(oid_str); } - if(id.size() < 2 || id[0] > 2) + if(m_id.size() < 2 || m_id[0] > 2) throw Invalid_OID(oid_str); - if((id[0] == 0 || id[0] == 1) && id[1] > 39) + if((m_id[0] == 0 || m_id[0] == 1) && m_id[1] > 39) throw Invalid_OID(oid_str); } } @@ -41,7 +41,7 @@ OID::OID(const std::string& oid_str) */ void OID::clear() { - id.clear(); + m_id.clear(); } /* @@ -50,10 +50,10 @@ void OID::clear() std::string OID::as_string() const { std::string oid_str; - for(size_t i = 0; i != id.size(); ++i) + for(size_t i = 0; i != m_id.size(); ++i) { - oid_str += std::to_string(id[i]); - if(i != id.size() - 1) + oid_str += std::to_string(m_id[i]); + if(i != m_id.size() - 1) oid_str += "."; } return oid_str; @@ -64,10 +64,10 @@ std::string OID::as_string() const */ bool OID::operator==(const OID& oid) const { - if(id.size() != oid.id.size()) + if(m_id.size() != oid.m_id.size()) return false; - for(size_t i = 0; i != id.size(); ++i) - if(id[i] != oid.id[i]) + for(size_t i = 0; i != m_id.size(); ++i) + if(m_id[i] != oid.m_id[i]) return false; return true; } @@ -77,7 +77,7 @@ bool OID::operator==(const OID& oid) const */ OID& OID::operator+=(u32bit component) { - id.push_back(component); + m_id.push_back(component); return (*this); } @@ -126,24 +126,24 @@ bool operator<(const OID& a, const OID& b) */ void OID::encode_into(DER_Encoder& der) const { - if(id.size() < 2) + if(m_id.size() < 2) throw Invalid_Argument("OID::encode_into: OID is invalid"); std::vector<byte> encoding; - encoding.push_back(40 * id[0] + id[1]); + encoding.push_back(40 * m_id[0] + m_id[1]); - for(size_t i = 2; i != id.size(); ++i) + for(size_t i = 2; i != m_id.size(); ++i) { - if(id[i] == 0) + if(m_id[i] == 0) encoding.push_back(0); else { - size_t blocks = high_bit(id[i]) + 6; + size_t blocks = high_bit(m_id[i]) + 6; blocks = (blocks - (blocks % 7)) / 7; for(size_t j = 0; j != blocks - 1; ++j) - encoding.push_back(0x80 | ((id[i] >> 7*(blocks-j-1)) & 0x7F)); - encoding.push_back(id[i] & 0x7F); + encoding.push_back(0x80 | ((m_id[i] >> 7*(blocks-j-1)) & 0x7F)); + encoding.push_back(m_id[i] & 0x7F); } } der.add_object(OBJECT_ID, UNIVERSAL, encoding); @@ -163,8 +163,8 @@ void OID::decode_from(BER_Decoder& decoder) clear(); - id.push_back(obj.value[0] / 40); - id.push_back(obj.value[0] % 40); + m_id.push_back(obj.value[0] / 40); + m_id.push_back(obj.value[0] % 40); size_t i = 0; while(i != obj.value.size() - 1) @@ -182,7 +182,7 @@ void OID::decode_from(BER_Decoder& decoder) if(!(obj.value[i] & 0x80)) break; } - id.push_back(component); + m_id.push_back(component); } } diff --git a/src/lib/asn1/asn1_oid.h b/src/lib/asn1/asn1_oid.h index 7cdb9f58f..5c3053ee0 100644 --- a/src/lib/asn1/asn1_oid.h +++ b/src/lib/asn1/asn1_oid.h @@ -27,13 +27,13 @@ class BOTAN_DLL OID : public ASN1_Object * Find out whether this OID is empty * @return true is no OID value is set */ - bool empty() const { return id.size() == 0; } + bool empty() const { return m_id.size() == 0; } /** * Get this OID as list (vector) of its components. * @return vector representing this OID */ - const std::vector<u32bit>& get_id() const { return id; } + const std::vector<u32bit>& get_id() const { return m_id; } /** * Get this OID as a string @@ -65,7 +65,7 @@ class BOTAN_DLL OID : public ASN1_Object */ OID(const std::string& str = ""); private: - std::vector<u32bit> id; + std::vector<u32bit> m_id; }; /** diff --git a/src/lib/asn1/asn1_str.cpp b/src/lib/asn1/asn1_str.cpp index 05be90e3d..809448888 100644 --- a/src/lib/asn1/asn1_str.cpp +++ b/src/lib/asn1/asn1_str.cpp @@ -62,22 +62,22 @@ ASN1_Tag choose_encoding(const std::string& str, /* * Create an ASN1_String */ -ASN1_String::ASN1_String(const std::string& str, ASN1_Tag t) : tag(t) +ASN1_String::ASN1_String(const std::string& str, ASN1_Tag t) : m_tag(t) { - iso_8859_str = Charset::transcode(str, LOCAL_CHARSET, LATIN1_CHARSET); - - if(tag == DIRECTORY_STRING) - tag = choose_encoding(iso_8859_str, "latin1"); - - if(tag != NUMERIC_STRING && - tag != PRINTABLE_STRING && - tag != VISIBLE_STRING && - tag != T61_STRING && - tag != IA5_STRING && - tag != UTF8_STRING && - tag != BMP_STRING) + m_iso_8859_str = Charset::transcode(str, LOCAL_CHARSET, LATIN1_CHARSET); + + if(m_tag == DIRECTORY_STRING) + m_tag = choose_encoding(m_iso_8859_str, "latin1"); + + if(m_tag != NUMERIC_STRING && + m_tag != PRINTABLE_STRING && + m_tag != VISIBLE_STRING && + m_tag != T61_STRING && + m_tag != IA5_STRING && + m_tag != UTF8_STRING && + m_tag != BMP_STRING) throw Invalid_Argument("ASN1_String: Unknown string type " + - std::to_string(tag)); + std::to_string(m_tag)); } /* @@ -85,8 +85,8 @@ ASN1_String::ASN1_String(const std::string& str, ASN1_Tag t) : tag(t) */ ASN1_String::ASN1_String(const std::string& str) { - iso_8859_str = Charset::transcode(str, LOCAL_CHARSET, LATIN1_CHARSET); - tag = choose_encoding(iso_8859_str, "latin1"); + m_iso_8859_str = Charset::transcode(str, LOCAL_CHARSET, LATIN1_CHARSET); + m_tag = choose_encoding(m_iso_8859_str, "latin1"); } /* @@ -94,7 +94,7 @@ ASN1_String::ASN1_String(const std::string& str) */ std::string ASN1_String::iso_8859() const { - return iso_8859_str; + return m_iso_8859_str; } /* @@ -102,7 +102,7 @@ std::string ASN1_String::iso_8859() const */ std::string ASN1_String::value() const { - return Charset::transcode(iso_8859_str, LATIN1_CHARSET, LOCAL_CHARSET); + return Charset::transcode(m_iso_8859_str, LATIN1_CHARSET, LOCAL_CHARSET); } /* @@ -110,7 +110,7 @@ std::string ASN1_String::value() const */ ASN1_Tag ASN1_String::tagging() const { - return tag; + return m_tag; } /* diff --git a/src/lib/asn1/asn1_str.h b/src/lib/asn1/asn1_str.h index 84458e517..69370036c 100644 --- a/src/lib/asn1/asn1_str.h +++ b/src/lib/asn1/asn1_str.h @@ -29,8 +29,8 @@ class BOTAN_DLL ASN1_String : public ASN1_Object ASN1_String(const std::string& = ""); ASN1_String(const std::string&, ASN1_Tag); private: - std::string iso_8859_str; - ASN1_Tag tag; + std::string m_iso_8859_str; + ASN1_Tag m_tag; }; } diff --git a/src/lib/asn1/ber_dec.cpp b/src/lib/asn1/ber_dec.cpp index 80dfba3bb..1d981cb8b 100644 --- a/src/lib/asn1/ber_dec.cpp +++ b/src/lib/asn1/ber_dec.cpp @@ -154,7 +154,7 @@ void BER_Object::assert_is_a(ASN1_Tag type_tag, ASN1_Tag class_tag) */ bool BER_Decoder::more_items() const { - if(source->end_of_data() && (pushed.type_tag == NO_OBJECT)) + if(m_source->end_of_data() && (m_pushed.type_tag == NO_OBJECT)) return false; return true; } @@ -164,7 +164,7 @@ bool BER_Decoder::more_items() const */ BER_Decoder& BER_Decoder::verify_end() { - if(!source->end_of_data() || (pushed.type_tag != NO_OBJECT)) + if(!m_source->end_of_data() || (m_pushed.type_tag != NO_OBJECT)) throw Invalid_State("BER_Decoder::verify_end called, but data remains"); return (*this); } @@ -176,7 +176,7 @@ BER_Decoder& BER_Decoder::raw_bytes(secure_vector<byte>& out) { out.clear(); byte buf; - while(source->read_byte(buf)) + while(m_source->read_byte(buf)) out.push_back(buf); return (*this); } @@ -185,7 +185,7 @@ BER_Decoder& BER_Decoder::raw_bytes(std::vector<byte>& out) { out.clear(); byte buf; - while(source->read_byte(buf)) + while(m_source->read_byte(buf)) out.push_back(buf); return (*this); } @@ -196,7 +196,7 @@ BER_Decoder& BER_Decoder::raw_bytes(std::vector<byte>& out) BER_Decoder& BER_Decoder::discard_remaining() { byte buf; - while(source->read_byte(buf)) + while(m_source->read_byte(buf)) ; return (*this); } @@ -208,23 +208,23 @@ BER_Object BER_Decoder::get_next_object() { BER_Object next; - if(pushed.type_tag != NO_OBJECT) + if(m_pushed.type_tag != NO_OBJECT) { - next = pushed; - pushed.class_tag = pushed.type_tag = NO_OBJECT; + next = m_pushed; + m_pushed.class_tag = m_pushed.type_tag = NO_OBJECT; return next; } - decode_tag(source, next.type_tag, next.class_tag); + decode_tag(m_source, next.type_tag, next.class_tag); if(next.type_tag == NO_OBJECT) return next; - const size_t length = decode_length(source); - if(!source->check_available(length)) + const size_t length = decode_length(m_source); + if(!m_source->check_available(length)) throw BER_Decoding_Error("Value truncated"); next.value.resize(length); - if(source->read(next.value.data(), length) != length) + if(m_source->read(next.value.data(), length) != length) throw BER_Decoding_Error("Value truncated"); if(next.type_tag == EOC && next.class_tag == UNIVERSAL) @@ -244,9 +244,9 @@ BER_Decoder& BER_Decoder::get_next(BER_Object& ber) */ void BER_Decoder::push_back(const BER_Object& obj) { - if(pushed.type_tag != NO_OBJECT) + if(m_pushed.type_tag != NO_OBJECT) throw Invalid_State("BER_Decoder: Only one push back is allowed"); - pushed = obj; + m_pushed = obj; } /* @@ -259,7 +259,7 @@ BER_Decoder BER_Decoder::start_cons(ASN1_Tag type_tag, obj.assert_is_a(type_tag, ASN1_Tag(class_tag | CONSTRUCTED)); BER_Decoder result(obj.value.data(), obj.value.size()); - result.parent = this; + result.m_parent = this; return result; } @@ -268,11 +268,11 @@ BER_Decoder BER_Decoder::start_cons(ASN1_Tag type_tag, */ BER_Decoder& BER_Decoder::end_cons() { - if(!parent) + if(!m_parent) throw Invalid_State("BER_Decoder::end_cons called with NULL parent"); - if(!source->end_of_data()) + if(!m_source->end_of_data()) throw Decoding_Error("BER_Decoder::end_cons called with data left"); - return (*parent); + return (*m_parent); } /* @@ -280,10 +280,10 @@ BER_Decoder& BER_Decoder::end_cons() */ BER_Decoder::BER_Decoder(DataSource& src) { - source = &src; - owns = false; - pushed.type_tag = pushed.class_tag = NO_OBJECT; - parent = nullptr; + m_source = &src; + m_owns = false; + m_pushed.type_tag = m_pushed.class_tag = NO_OBJECT; + m_parent = nullptr; } /* @@ -291,10 +291,10 @@ BER_Decoder::BER_Decoder(DataSource& src) */ BER_Decoder::BER_Decoder(const byte data[], size_t length) { - source = new DataSource_Memory(data, length); - owns = true; - pushed.type_tag = pushed.class_tag = NO_OBJECT; - parent = nullptr; + m_source = new DataSource_Memory(data, length); + m_owns = true; + m_pushed.type_tag = m_pushed.class_tag = NO_OBJECT; + m_parent = nullptr; } /* @@ -302,10 +302,10 @@ BER_Decoder::BER_Decoder(const byte data[], size_t length) */ BER_Decoder::BER_Decoder(const secure_vector<byte>& data) { - source = new DataSource_Memory(data); - owns = true; - pushed.type_tag = pushed.class_tag = NO_OBJECT; - parent = nullptr; + m_source = new DataSource_Memory(data); + m_owns = true; + m_pushed.type_tag = m_pushed.class_tag = NO_OBJECT; + m_parent = nullptr; } /* @@ -313,10 +313,10 @@ BER_Decoder::BER_Decoder(const secure_vector<byte>& data) */ BER_Decoder::BER_Decoder(const std::vector<byte>& data) { - source = new DataSource_Memory(data.data(), data.size()); - owns = true; - pushed.type_tag = pushed.class_tag = NO_OBJECT; - parent = nullptr; + m_source = new DataSource_Memory(data.data(), data.size()); + m_owns = true; + m_pushed.type_tag = m_pushed.class_tag = NO_OBJECT; + m_parent = nullptr; } /* @@ -324,15 +324,15 @@ BER_Decoder::BER_Decoder(const std::vector<byte>& data) */ BER_Decoder::BER_Decoder(const BER_Decoder& other) { - source = other.source; - owns = false; - if(other.owns) + m_source = other.m_source; + m_owns = false; + if(other.m_owns) { - other.owns = false; - owns = true; + other.m_owns = false; + m_owns = true; } - pushed.type_tag = pushed.class_tag = NO_OBJECT; - parent = other.parent; + m_pushed.type_tag = m_pushed.class_tag = NO_OBJECT; + m_parent = other.m_parent; } /* @@ -340,9 +340,9 @@ BER_Decoder::BER_Decoder(const BER_Decoder& other) */ BER_Decoder::~BER_Decoder() { - if(owns) - delete source; - source = nullptr; + if(m_owns) + delete m_source; + m_source = nullptr; } /* diff --git a/src/lib/asn1/ber_dec.h b/src/lib/asn1/ber_dec.h index 98cfcb10f..b755251c5 100644 --- a/src/lib/asn1/ber_dec.h +++ b/src/lib/asn1/ber_dec.h @@ -168,10 +168,10 @@ class BOTAN_DLL BER_Decoder BER_Decoder(const BER_Decoder&); ~BER_Decoder(); private: - BER_Decoder* parent; - DataSource* source; - BER_Object pushed; - mutable bool owns; + BER_Decoder* m_parent; + DataSource* m_source; + BER_Object m_pushed; + mutable bool m_owns; }; /* diff --git a/src/lib/asn1/der_enc.cpp b/src/lib/asn1/der_enc.cpp index f1bcf634e..871171153 100644 --- a/src/lib/asn1/der_enc.cpp +++ b/src/lib/asn1/der_enc.cpp @@ -70,21 +70,21 @@ secure_vector<byte> encode_length(size_t length) */ secure_vector<byte> DER_Encoder::DER_Sequence::get_contents() { - const ASN1_Tag real_class_tag = ASN1_Tag(class_tag | CONSTRUCTED); + const ASN1_Tag real_class_tag = ASN1_Tag(m_class_tag | CONSTRUCTED); - if(type_tag == SET) + if(m_type_tag == SET) { - std::sort(set_contents.begin(), set_contents.end()); - for(size_t i = 0; i != set_contents.size(); ++i) - contents += set_contents[i]; - set_contents.clear(); + std::sort(m_set_contents.begin(), m_set_contents.end()); + for(size_t i = 0; i != m_set_contents.size(); ++i) + m_contents += m_set_contents[i]; + m_set_contents.clear(); } secure_vector<byte> result; - result += encode_tag(type_tag, real_class_tag); - result += encode_length(contents.size()); - result += contents; - contents.clear(); + result += encode_tag(m_type_tag, real_class_tag); + result += encode_length(m_contents.size()); + result += m_contents; + m_contents.clear(); return result; } @@ -94,10 +94,10 @@ secure_vector<byte> DER_Encoder::DER_Sequence::get_contents() */ void DER_Encoder::DER_Sequence::add_bytes(const byte data[], size_t length) { - if(type_tag == SET) - set_contents.push_back(secure_vector<byte>(data, data + length)); + if(m_type_tag == SET) + m_set_contents.push_back(secure_vector<byte>(data, data + length)); else - contents += std::make_pair(data, length); + m_contents += std::make_pair(data, length); } /* @@ -105,14 +105,14 @@ void DER_Encoder::DER_Sequence::add_bytes(const byte data[], size_t length) */ ASN1_Tag DER_Encoder::DER_Sequence::tag_of() const { - return ASN1_Tag(type_tag | class_tag); + return ASN1_Tag(m_type_tag | m_class_tag); } /* * DER_Sequence Constructor */ DER_Encoder::DER_Sequence::DER_Sequence(ASN1_Tag t1, ASN1_Tag t2) : - type_tag(t1), class_tag(t2) + m_type_tag(t1), m_class_tag(t2) { } @@ -121,11 +121,11 @@ DER_Encoder::DER_Sequence::DER_Sequence(ASN1_Tag t1, ASN1_Tag t2) : */ secure_vector<byte> DER_Encoder::get_contents() { - if(subsequences.size() != 0) + if(m_subsequences.size() != 0) throw Invalid_State("DER_Encoder: Sequence hasn't been marked done"); secure_vector<byte> output; - std::swap(output, contents); + std::swap(output, m_contents); return output; } @@ -135,7 +135,7 @@ secure_vector<byte> DER_Encoder::get_contents() DER_Encoder& DER_Encoder::start_cons(ASN1_Tag type_tag, ASN1_Tag class_tag) { - subsequences.push_back(DER_Sequence(type_tag, class_tag)); + m_subsequences.push_back(DER_Sequence(type_tag, class_tag)); return (*this); } @@ -144,11 +144,11 @@ DER_Encoder& DER_Encoder::start_cons(ASN1_Tag type_tag, */ DER_Encoder& DER_Encoder::end_cons() { - if(subsequences.empty()) + if(m_subsequences.empty()) throw Invalid_State("DER_Encoder::end_cons: No such sequence"); - secure_vector<byte> seq = subsequences[subsequences.size()-1].get_contents(); - subsequences.pop_back(); + secure_vector<byte> seq = m_subsequences[m_subsequences.size()-1].get_contents(); + m_subsequences.pop_back(); raw_bytes(seq); return (*this); } @@ -192,10 +192,10 @@ DER_Encoder& DER_Encoder::raw_bytes(const std::vector<byte>& val) */ DER_Encoder& DER_Encoder::raw_bytes(const byte bytes[], size_t length) { - if(subsequences.size()) - subsequences[subsequences.size()-1].add_bytes(bytes, length); + if(m_subsequences.size()) + m_subsequences[m_subsequences.size()-1].add_bytes(bytes, length); else - contents += std::make_pair(bytes, length); + m_contents += std::make_pair(bytes, length); return (*this); } diff --git a/src/lib/asn1/der_enc.h b/src/lib/asn1/der_enc.h index dbb97d1aa..78cb4c38d 100644 --- a/src/lib/asn1/der_enc.h +++ b/src/lib/asn1/der_enc.h @@ -123,13 +123,13 @@ class BOTAN_DLL DER_Encoder void add_bytes(const byte[], size_t); DER_Sequence(ASN1_Tag, ASN1_Tag); private: - ASN1_Tag type_tag, class_tag; - secure_vector<byte> contents; - std::vector< secure_vector<byte> > set_contents; + ASN1_Tag m_type_tag, m_class_tag; + secure_vector<byte> m_contents; + std::vector< secure_vector<byte> > m_set_contents; }; - secure_vector<byte> contents; - std::vector<DER_Sequence> subsequences; + secure_vector<byte> m_contents; + std::vector<DER_Sequence> m_subsequences; }; } diff --git a/src/lib/asn1/x509_dn.cpp b/src/lib/asn1/x509_dn.cpp index 80bbe81a3..9c36cd695 100644 --- a/src/lib/asn1/x509_dn.cpp +++ b/src/lib/asn1/x509_dn.cpp @@ -58,13 +58,13 @@ void X509_DN::add_attribute(const OID& oid, const std::string& str) if(str.empty()) return; - auto range = dn_info.equal_range(oid); + auto range = m_dn_info.equal_range(oid); for(auto i = range.first; i != range.second; ++i) if(i->second.value() == str) return; - multimap_insert(dn_info, oid, ASN1_String(str)); - dn_bits.clear(); + multimap_insert(m_dn_info, oid, ASN1_String(str)); + m_dn_bits.clear(); } /* @@ -73,7 +73,7 @@ void X509_DN::add_attribute(const OID& oid, const std::string& str) std::multimap<OID, std::string> X509_DN::get_attributes() const { std::multimap<OID, std::string> retval; - for(auto i = dn_info.begin(); i != dn_info.end(); ++i) + for(auto i = m_dn_info.begin(); i != m_dn_info.end(); ++i) multimap_insert(retval, i->first, i->second.value()); return retval; } @@ -84,7 +84,7 @@ std::multimap<OID, std::string> X509_DN::get_attributes() const std::multimap<std::string, std::string> X509_DN::contents() const { std::multimap<std::string, std::string> retval; - for(auto i = dn_info.begin(); i != dn_info.end(); ++i) + for(auto i = m_dn_info.begin(); i != m_dn_info.end(); ++i) multimap_insert(retval, OIDS::lookup(i->first), i->second.value()); return retval; } @@ -96,7 +96,7 @@ std::vector<std::string> X509_DN::get_attribute(const std::string& attr) const { const OID oid = OIDS::lookup(deref_info_field(attr)); - auto range = dn_info.equal_range(oid); + auto range = m_dn_info.equal_range(oid); std::vector<std::string> values; for(auto i = range.first; i != range.second; ++i) @@ -109,7 +109,7 @@ std::vector<std::string> X509_DN::get_attribute(const std::string& attr) const */ std::vector<byte> X509_DN::get_bits() const { - return dn_bits; + return m_dn_bits; } /* @@ -227,8 +227,8 @@ void X509_DN::encode_into(DER_Encoder& der) const der.start_cons(SEQUENCE); - if(!dn_bits.empty()) - der.raw_bytes(dn_bits); + if(!m_dn_bits.empty()) + der.raw_bytes(m_dn_bits); else { do_ava(der, dn_info, PRINTABLE_STRING, "X520.Country"); @@ -275,7 +275,7 @@ void X509_DN::decode_from(BER_Decoder& source) } } - dn_bits = bits; + m_dn_bits = bits; } namespace { diff --git a/src/lib/asn1/x509_dn.h b/src/lib/asn1/x509_dn.h index cf1fbc03b..9daa68f1c 100644 --- a/src/lib/asn1/x509_dn.h +++ b/src/lib/asn1/x509_dn.h @@ -41,8 +41,8 @@ class BOTAN_DLL X509_DN : public ASN1_Object X509_DN(const std::multimap<OID, std::string>&); X509_DN(const std::multimap<std::string, std::string>&); private: - std::multimap<OID, ASN1_String> dn_info; - std::vector<byte> dn_bits; + std::multimap<OID, ASN1_String> m_dn_info; + std::vector<byte> m_dn_bits; }; bool BOTAN_DLL operator==(const X509_DN&, const X509_DN&); diff --git a/src/lib/base/scan_name.cpp b/src/lib/base/scan_name.cpp index 2b32dc7d3..4688d0871 100644 --- a/src/lib/base/scan_name.cpp +++ b/src/lib/base/scan_name.cpp @@ -63,7 +63,7 @@ deref_aliases(const std::pair<size_t, std::string>& in) SCAN_Name::SCAN_Name(std::string algo_spec, const std::string& extra) : SCAN_Name(algo_spec) { - alg_name += extra; + m_alg_name += extra; } SCAN_Name::SCAN_Name(const char* algo_spec) : SCAN_Name(std::string(algo_spec)) @@ -72,7 +72,7 @@ SCAN_Name::SCAN_Name(const char* algo_spec) : SCAN_Name(std::string(algo_spec)) SCAN_Name::SCAN_Name(std::string algo_spec) { - orig_algo_spec = algo_spec; + m_orig_algo_spec = algo_spec; std::vector<std::pair<size_t, std::string> > name; size_t level = 0; @@ -119,7 +119,7 @@ SCAN_Name::SCAN_Name(std::string algo_spec) if(name.size() == 0) throw Decoding_Error(decoding_error + "Empty name"); - alg_name = name[0].second; + m_alg_name = name[0].second; bool in_modes = false; @@ -127,11 +127,11 @@ SCAN_Name::SCAN_Name(std::string algo_spec) { if(name[i].first == 0) { - mode_info.push_back(make_arg(name, i)); + m_mode_info.push_back(make_arg(name, i)); in_modes = true; } else if(name[i].first == 1 && !in_modes) - args.push_back(make_arg(name, i)); + m_args.push_back(make_arg(name, i)); } } @@ -157,21 +157,21 @@ std::string SCAN_Name::arg(size_t i) const if(i >= arg_count()) throw Invalid_Argument("SCAN_Name::arg " + std::to_string(i) + " out of range for '" + as_string() + "'"); - return args[i]; + return m_args[i]; } std::string SCAN_Name::arg(size_t i, const std::string& def_value) const { if(i >= arg_count()) return def_value; - return args[i]; + return m_args[i]; } size_t SCAN_Name::arg_as_integer(size_t i, size_t def_value) const { if(i >= arg_count()) return def_value; - return to_u32bit(args[i]); + return to_u32bit(m_args[i]); } std::mutex SCAN_Name::g_alias_map_mutex; diff --git a/src/lib/base/scan_name.h b/src/lib/base/scan_name.h index cc89bf998..43441e19c 100644 --- a/src/lib/base/scan_name.h +++ b/src/lib/base/scan_name.h @@ -41,12 +41,12 @@ class BOTAN_DLL SCAN_Name /** * @return original input string */ - const std::string& as_string() const { return orig_algo_spec; } + const std::string& as_string() const { return m_orig_algo_spec; } /** * @return algorithm name */ - const std::string& algo_name() const { return alg_name; } + const std::string& algo_name() const { return m_alg_name; } /** * @return algorithm name plus any arguments @@ -61,7 +61,7 @@ class BOTAN_DLL SCAN_Name /** * @return number of arguments */ - size_t arg_count() const { return args.size(); } + size_t arg_count() const { return m_args.size(); } /** * @param lower is the lower bound @@ -95,13 +95,13 @@ class BOTAN_DLL SCAN_Name * @return cipher mode (if any) */ std::string cipher_mode() const - { return (mode_info.size() >= 1) ? mode_info[0] : ""; } + { return (m_mode_info.size() >= 1) ? m_mode_info[0] : ""; } /** * @return cipher mode padding (if any) */ std::string cipher_mode_pad() const - { return (mode_info.size() >= 2) ? mode_info[1] : ""; } + { return (m_mode_info.size() >= 2) ? m_mode_info[1] : ""; } static void add_alias(const std::string& alias, const std::string& basename); @@ -110,10 +110,10 @@ class BOTAN_DLL SCAN_Name static std::mutex g_alias_map_mutex; static std::map<std::string, std::string> g_alias_map; - std::string orig_algo_spec; - std::string alg_name; - std::vector<std::string> args; - std::vector<std::string> mode_info; + std::string m_orig_algo_spec; + std::string m_alg_name; + std::vector<std::string> m_args; + std::vector<std::string> m_mode_info; }; } diff --git a/src/lib/block/aes/aes.cpp b/src/lib/block/aes/aes.cpp index 0da4ff0a0..6cca701af 100644 --- a/src/lib/block/aes/aes.cpp +++ b/src/lib/block/aes/aes.cpp @@ -414,71 +414,71 @@ void aes_key_schedule(const byte key[], size_t length, void AES_128::encrypt_n(const byte in[], byte out[], size_t blocks) const { - aes_encrypt_n(in, out, blocks, EK, ME); + aes_encrypt_n(in, out, blocks, m_EK, m_ME); } void AES_128::decrypt_n(const byte in[], byte out[], size_t blocks) const { - aes_decrypt_n(in, out, blocks, DK, MD); + aes_decrypt_n(in, out, blocks, m_DK, m_MD); } void AES_128::key_schedule(const byte key[], size_t length) { - aes_key_schedule(key, length, EK, DK, ME, MD); + aes_key_schedule(key, length, m_EK, m_DK, m_ME, m_MD); } void AES_128::clear() { - zap(EK); - zap(DK); - zap(ME); - zap(MD); + zap(m_EK); + zap(m_DK); + zap(m_ME); + zap(m_MD); } void AES_192::encrypt_n(const byte in[], byte out[], size_t blocks) const { - aes_encrypt_n(in, out, blocks, EK, ME); + aes_encrypt_n(in, out, blocks, m_EK, m_ME); } void AES_192::decrypt_n(const byte in[], byte out[], size_t blocks) const { - aes_decrypt_n(in, out, blocks, DK, MD); + aes_decrypt_n(in, out, blocks, m_DK, m_MD); } void AES_192::key_schedule(const byte key[], size_t length) { - aes_key_schedule(key, length, EK, DK, ME, MD); + aes_key_schedule(key, length, m_EK, m_DK, m_ME, m_MD); } void AES_192::clear() { - zap(EK); - zap(DK); - zap(ME); - zap(MD); + zap(m_EK); + zap(m_DK); + zap(m_ME); + zap(m_MD); } void AES_256::encrypt_n(const byte in[], byte out[], size_t blocks) const { - aes_encrypt_n(in, out, blocks, EK, ME); + aes_encrypt_n(in, out, blocks, m_EK, m_ME); } void AES_256::decrypt_n(const byte in[], byte out[], size_t blocks) const { - aes_decrypt_n(in, out, blocks, DK, MD); + aes_decrypt_n(in, out, blocks, m_DK, m_MD); } void AES_256::key_schedule(const byte key[], size_t length) { - aes_key_schedule(key, length, EK, DK, ME, MD); + aes_key_schedule(key, length, m_EK, m_DK, m_ME, m_MD); } void AES_256::clear() { - zap(EK); - zap(DK); - zap(ME); - zap(MD); + zap(m_EK); + zap(m_DK); + zap(m_ME); + zap(m_MD); } } diff --git a/src/lib/block/aes/aes.h b/src/lib/block/aes/aes.h index f8b8d2938..82de4e63f 100644 --- a/src/lib/block/aes/aes.h +++ b/src/lib/block/aes/aes.h @@ -28,8 +28,8 @@ class BOTAN_DLL AES_128 : public Block_Cipher_Fixed_Params<16, 16> private: void key_schedule(const byte key[], size_t length) override; - secure_vector<u32bit> EK, DK; - secure_vector<byte> ME, MD; + secure_vector<u32bit> m_EK, m_DK; + secure_vector<byte> m_ME, m_MD; }; /** @@ -48,8 +48,8 @@ class BOTAN_DLL AES_192 : public Block_Cipher_Fixed_Params<16, 24> private: void key_schedule(const byte key[], size_t length) override; - secure_vector<u32bit> EK, DK; - secure_vector<byte> ME, MD; + secure_vector<u32bit> m_EK, m_DK; + secure_vector<byte> m_ME, m_MD; }; /** @@ -68,8 +68,8 @@ class BOTAN_DLL AES_256 : public Block_Cipher_Fixed_Params<16, 32> private: void key_schedule(const byte key[], size_t length) override; - secure_vector<u32bit> EK, DK; - secure_vector<byte> ME, MD; + secure_vector<u32bit> m_EK, m_DK; + secure_vector<byte> m_ME, m_MD; }; } diff --git a/src/lib/block/aes_ni/aes_ni.cpp b/src/lib/block/aes_ni/aes_ni.cpp index d359ec772..51b30881f 100644 --- a/src/lib/block/aes_ni/aes_ni.cpp +++ b/src/lib/block/aes_ni/aes_ni.cpp @@ -109,7 +109,7 @@ void AES_128_NI::encrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* key_mm = reinterpret_cast<const __m128i*>(EK.data()); + const __m128i* key_mm = reinterpret_cast<const __m128i*>(m_EK.data()); __m128i K0 = _mm_loadu_si128(key_mm); __m128i K1 = _mm_loadu_si128(key_mm + 1); @@ -185,7 +185,7 @@ void AES_128_NI::decrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* key_mm = reinterpret_cast<const __m128i*>(DK.data()); + const __m128i* key_mm = reinterpret_cast<const __m128i*>(m_DK.data()); __m128i K0 = _mm_loadu_si128(key_mm); __m128i K1 = _mm_loadu_si128(key_mm + 1); @@ -258,8 +258,8 @@ void AES_128_NI::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void AES_128_NI::key_schedule(const byte key[], size_t) { - EK.resize(44); - DK.resize(44); + m_EK.resize(44); + m_DK.resize(44); #define AES_128_key_exp(K, RCON) \ aes_128_key_expansion(K, _mm_aeskeygenassist_si128(K, RCON)) @@ -276,7 +276,7 @@ void AES_128_NI::key_schedule(const byte key[], size_t) __m128i K9 = AES_128_key_exp(K8, 0x1B); __m128i K10 = AES_128_key_exp(K9, 0x36); - __m128i* EK_mm = reinterpret_cast<__m128i*>(EK.data()); + __m128i* EK_mm = reinterpret_cast<__m128i*>(m_EK.data()); _mm_storeu_si128(EK_mm , K0); _mm_storeu_si128(EK_mm + 1, K1); _mm_storeu_si128(EK_mm + 2, K2); @@ -291,7 +291,7 @@ void AES_128_NI::key_schedule(const byte key[], size_t) // Now generate decryption keys - __m128i* DK_mm = reinterpret_cast<__m128i*>(DK.data()); + __m128i* DK_mm = reinterpret_cast<__m128i*>(m_DK.data()); _mm_storeu_si128(DK_mm , K10); _mm_storeu_si128(DK_mm + 1, _mm_aesimc_si128(K9)); _mm_storeu_si128(DK_mm + 2, _mm_aesimc_si128(K8)); @@ -310,8 +310,8 @@ void AES_128_NI::key_schedule(const byte key[], size_t) */ void AES_128_NI::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } /* @@ -322,7 +322,7 @@ void AES_192_NI::encrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* key_mm = reinterpret_cast<const __m128i*>(EK.data()); + const __m128i* key_mm = reinterpret_cast<const __m128i*>(m_EK.data()); __m128i K0 = _mm_loadu_si128(key_mm); __m128i K1 = _mm_loadu_si128(key_mm + 1); @@ -404,7 +404,7 @@ void AES_192_NI::decrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* key_mm = reinterpret_cast<const __m128i*>(DK.data()); + const __m128i* key_mm = reinterpret_cast<const __m128i*>(m_DK.data()); __m128i K0 = _mm_loadu_si128(key_mm); __m128i K1 = _mm_loadu_si128(key_mm + 1); @@ -483,19 +483,19 @@ void AES_192_NI::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void AES_192_NI::key_schedule(const byte key[], size_t) { - EK.resize(52); - DK.resize(52); + m_EK.resize(52); + m_DK.resize(52); __m128i K0 = _mm_loadu_si128(reinterpret_cast<const __m128i*>(key)); __m128i K1 = _mm_loadu_si128(reinterpret_cast<const __m128i*>(key + 8)); K1 = _mm_srli_si128(K1, 8); - load_le(EK.data(), key, 6); + load_le(m_EK.data(), key, 6); #define AES_192_key_exp(RCON, EK_OFF) \ aes_192_key_expansion(&K0, &K1, \ _mm_aeskeygenassist_si128(K1, RCON), \ - &EK[EK_OFF], EK_OFF == 48) + &m_EK[EK_OFF], EK_OFF == 48) AES_192_key_exp(0x01, 6); AES_192_key_exp(0x02, 12); @@ -509,9 +509,9 @@ void AES_192_NI::key_schedule(const byte key[], size_t) #undef AES_192_key_exp // Now generate decryption keys - const __m128i* EK_mm = reinterpret_cast<const __m128i*>(EK.data()); + const __m128i* EK_mm = reinterpret_cast<const __m128i*>(m_EK.data()); - __m128i* DK_mm = reinterpret_cast<__m128i*>(DK.data()); + __m128i* DK_mm = reinterpret_cast<__m128i*>(m_DK.data()); _mm_storeu_si128(DK_mm , _mm_loadu_si128(EK_mm + 12)); _mm_storeu_si128(DK_mm + 1, _mm_aesimc_si128(_mm_loadu_si128(EK_mm + 11))); _mm_storeu_si128(DK_mm + 2, _mm_aesimc_si128(_mm_loadu_si128(EK_mm + 10))); @@ -532,8 +532,8 @@ void AES_192_NI::key_schedule(const byte key[], size_t) */ void AES_192_NI::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } /* @@ -544,7 +544,7 @@ void AES_256_NI::encrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* key_mm = reinterpret_cast<const __m128i*>(EK.data()); + const __m128i* key_mm = reinterpret_cast<const __m128i*>(m_EK.data()); __m128i K0 = _mm_loadu_si128(key_mm); __m128i K1 = _mm_loadu_si128(key_mm + 1); @@ -632,7 +632,7 @@ void AES_256_NI::decrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* key_mm = reinterpret_cast<const __m128i*>(DK.data()); + const __m128i* key_mm = reinterpret_cast<const __m128i*>(m_DK.data()); __m128i K0 = _mm_loadu_si128(key_mm); __m128i K1 = _mm_loadu_si128(key_mm + 1); @@ -717,8 +717,8 @@ void AES_256_NI::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void AES_256_NI::key_schedule(const byte key[], size_t) { - EK.resize(60); - DK.resize(60); + m_EK.resize(60); + m_DK.resize(60); __m128i K0 = _mm_loadu_si128(reinterpret_cast<const __m128i*>(key)); __m128i K1 = _mm_loadu_si128(reinterpret_cast<const __m128i*>(key + 16)); @@ -743,7 +743,7 @@ void AES_256_NI::key_schedule(const byte key[], size_t) __m128i K14 = aes_128_key_expansion(K12, _mm_aeskeygenassist_si128(K13, 0x40)); - __m128i* EK_mm = reinterpret_cast<__m128i*>(EK.data()); + __m128i* EK_mm = reinterpret_cast<__m128i*>(m_EK.data()); _mm_storeu_si128(EK_mm , K0); _mm_storeu_si128(EK_mm + 1, K1); _mm_storeu_si128(EK_mm + 2, K2); @@ -761,7 +761,7 @@ void AES_256_NI::key_schedule(const byte key[], size_t) _mm_storeu_si128(EK_mm + 14, K14); // Now generate decryption keys - __m128i* DK_mm = reinterpret_cast<__m128i*>(DK.data()); + __m128i* DK_mm = reinterpret_cast<__m128i*>(m_DK.data()); _mm_storeu_si128(DK_mm , K14); _mm_storeu_si128(DK_mm + 1, _mm_aesimc_si128(K13)); _mm_storeu_si128(DK_mm + 2, _mm_aesimc_si128(K12)); @@ -784,8 +784,8 @@ void AES_256_NI::key_schedule(const byte key[], size_t) */ void AES_256_NI::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } #undef AES_ENC_4_ROUNDS diff --git a/src/lib/block/aes_ni/aes_ni.h b/src/lib/block/aes_ni/aes_ni.h index 0f85c3482..6f995490a 100644 --- a/src/lib/block/aes_ni/aes_ni.h +++ b/src/lib/block/aes_ni/aes_ni.h @@ -29,7 +29,7 @@ class BOTAN_DLL AES_128_NI : public Block_Cipher_Fixed_Params<16, 16> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK, DK; + secure_vector<u32bit> m_EK, m_DK; }; /** @@ -49,7 +49,7 @@ class BOTAN_DLL AES_192_NI : public Block_Cipher_Fixed_Params<16, 24> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK, DK; + secure_vector<u32bit> m_EK, m_DK; }; /** @@ -69,7 +69,7 @@ class BOTAN_DLL AES_256_NI : public Block_Cipher_Fixed_Params<16, 32> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK, DK; + secure_vector<u32bit> m_EK, m_DK; }; } diff --git a/src/lib/block/aes_ssse3/aes_ssse3.cpp b/src/lib/block/aes_ssse3/aes_ssse3.cpp index 373a5265a..fa0cb787c 100644 --- a/src/lib/block/aes_ssse3/aes_ssse3.cpp +++ b/src/lib/block/aes_ssse3/aes_ssse3.cpp @@ -344,7 +344,7 @@ void AES_128_SSSE3::encrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* keys = reinterpret_cast<const __m128i*>(EK.data()); + const __m128i* keys = reinterpret_cast<const __m128i*>(m_EK.data()); CT::poison(in, blocks * block_size()); @@ -366,7 +366,7 @@ void AES_128_SSSE3::decrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* keys = reinterpret_cast<const __m128i*>(DK.data()); + const __m128i* keys = reinterpret_cast<const __m128i*>(m_DK.data()); CT::poison(in, blocks * block_size()); @@ -390,11 +390,11 @@ void AES_128_SSSE3::key_schedule(const byte keyb[], size_t) __m128i key = _mm_loadu_si128(reinterpret_cast<const __m128i*>(keyb)); - EK.resize(11*4); - DK.resize(11*4); + m_EK.resize(11*4); + m_DK.resize(11*4); - __m128i* EK_mm = reinterpret_cast<__m128i*>(EK.data()); - __m128i* DK_mm = reinterpret_cast<__m128i*>(DK.data()); + __m128i* EK_mm = reinterpret_cast<__m128i*>(m_EK.data()); + __m128i* DK_mm = reinterpret_cast<__m128i*>(m_DK.data()); _mm_storeu_si128(DK_mm + 10, _mm_shuffle_epi8(key, sr[2])); @@ -420,8 +420,8 @@ void AES_128_SSSE3::key_schedule(const byte keyb[], size_t) void AES_128_SSSE3::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } /* @@ -432,7 +432,7 @@ void AES_192_SSSE3::encrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* keys = reinterpret_cast<const __m128i*>(EK.data()); + const __m128i* keys = reinterpret_cast<const __m128i*>(m_EK.data()); CT::poison(in, blocks * block_size()); @@ -454,7 +454,7 @@ void AES_192_SSSE3::decrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* keys = reinterpret_cast<const __m128i*>(DK.data()); + const __m128i* keys = reinterpret_cast<const __m128i*>(m_DK.data()); CT::poison(in, blocks * block_size()); @@ -476,11 +476,11 @@ void AES_192_SSSE3::key_schedule(const byte keyb[], size_t) __m128i rcon = _mm_set_epi32(0x702A9808, 0x4D7C7D81, 0x1F8391B9, 0xAF9DEEB6); - EK.resize(13*4); - DK.resize(13*4); + m_EK.resize(13*4); + m_DK.resize(13*4); - __m128i* EK_mm = reinterpret_cast<__m128i*>(EK.data()); - __m128i* DK_mm = reinterpret_cast<__m128i*>(DK.data()); + __m128i* EK_mm = reinterpret_cast<__m128i*>(m_EK.data()); + __m128i* DK_mm = reinterpret_cast<__m128i*>(m_DK.data()); __m128i key1 = _mm_loadu_si128(reinterpret_cast<const __m128i*>(keyb)); __m128i key2 = _mm_loadu_si128(reinterpret_cast<const __m128i*>((keyb + 8))); @@ -537,8 +537,8 @@ void AES_192_SSSE3::key_schedule(const byte keyb[], size_t) void AES_192_SSSE3::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } /* @@ -549,7 +549,7 @@ void AES_256_SSSE3::encrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* keys = reinterpret_cast<const __m128i*>(EK.data()); + const __m128i* keys = reinterpret_cast<const __m128i*>(m_EK.data()); CT::poison(in, blocks * block_size()); @@ -571,7 +571,7 @@ void AES_256_SSSE3::decrypt_n(const byte in[], byte out[], size_t blocks) const const __m128i* in_mm = reinterpret_cast<const __m128i*>(in); __m128i* out_mm = reinterpret_cast<__m128i*>(out); - const __m128i* keys = reinterpret_cast<const __m128i*>(DK.data()); + const __m128i* keys = reinterpret_cast<const __m128i*>(m_DK.data()); CT::poison(in, blocks * block_size()); @@ -593,11 +593,11 @@ void AES_256_SSSE3::key_schedule(const byte keyb[], size_t) __m128i rcon = _mm_set_epi32(0x702A9808, 0x4D7C7D81, 0x1F8391B9, 0xAF9DEEB6); - EK.resize(15*4); - DK.resize(15*4); + m_EK.resize(15*4); + m_DK.resize(15*4); - __m128i* EK_mm = reinterpret_cast<__m128i*>(EK.data()); - __m128i* DK_mm = reinterpret_cast<__m128i*>(DK.data()); + __m128i* EK_mm = reinterpret_cast<__m128i*>(m_EK.data()); + __m128i* DK_mm = reinterpret_cast<__m128i*>(m_DK.data()); __m128i key1 = _mm_loadu_si128(reinterpret_cast<const __m128i*>(keyb)); __m128i key2 = _mm_loadu_si128(reinterpret_cast<const __m128i*>((keyb + 16))); @@ -633,8 +633,8 @@ void AES_256_SSSE3::key_schedule(const byte keyb[], size_t) void AES_256_SSSE3::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } } diff --git a/src/lib/block/aes_ssse3/aes_ssse3.h b/src/lib/block/aes_ssse3/aes_ssse3.h index 49e0346e4..1d09b5f61 100644 --- a/src/lib/block/aes_ssse3/aes_ssse3.h +++ b/src/lib/block/aes_ssse3/aes_ssse3.h @@ -27,7 +27,7 @@ class BOTAN_DLL AES_128_SSSE3 : public Block_Cipher_Fixed_Params<16, 16> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK, DK; + secure_vector<u32bit> m_EK, m_DK; }; /** @@ -45,7 +45,7 @@ class BOTAN_DLL AES_192_SSSE3 : public Block_Cipher_Fixed_Params<16, 24> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK, DK; + secure_vector<u32bit> m_EK, m_DK; }; /** @@ -63,7 +63,7 @@ class BOTAN_DLL AES_256_SSSE3 : public Block_Cipher_Fixed_Params<16, 32> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK, DK; + secure_vector<u32bit> m_EK, m_DK; }; } diff --git a/src/lib/block/blowfish/blowfish.cpp b/src/lib/block/blowfish/blowfish.cpp index 0b0e685a8..e38668934 100644 --- a/src/lib/block/blowfish/blowfish.cpp +++ b/src/lib/block/blowfish/blowfish.cpp @@ -15,10 +15,10 @@ namespace Botan { */ void Blowfish::encrypt_n(const byte in[], byte out[], size_t blocks) const { - const u32bit* S1 = &S[0]; - const u32bit* S2 = &S[256]; - const u32bit* S3 = &S[512]; - const u32bit* S4 = &S[768]; + const u32bit* S1 = &m_S[0]; + const u32bit* S2 = &m_S[256]; + const u32bit* S3 = &m_S[512]; + const u32bit* S4 = &m_S[768]; for(size_t i = 0; i != blocks; ++i) { @@ -27,16 +27,16 @@ void Blowfish::encrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 16; j += 2) { - L ^= P[j]; + L ^= m_P[j]; R ^= ((S1[get_byte(0, L)] + S2[get_byte(1, L)]) ^ S3[get_byte(2, L)]) + S4[get_byte(3, L)]; - R ^= P[j+1]; + R ^= m_P[j+1]; L ^= ((S1[get_byte(0, R)] + S2[get_byte(1, R)]) ^ S3[get_byte(2, R)]) + S4[get_byte(3, R)]; } - L ^= P[16]; R ^= P[17]; + L ^= m_P[16]; R ^= m_P[17]; store_be(out, R, L); @@ -50,10 +50,10 @@ void Blowfish::encrypt_n(const byte in[], byte out[], size_t blocks) const */ void Blowfish::decrypt_n(const byte in[], byte out[], size_t blocks) const { - const u32bit* S1 = &S[0]; - const u32bit* S2 = &S[256]; - const u32bit* S3 = &S[512]; - const u32bit* S4 = &S[768]; + const u32bit* S1 = &m_S[0]; + const u32bit* S2 = &m_S[256]; + const u32bit* S3 = &m_S[512]; + const u32bit* S4 = &m_S[768]; for(size_t i = 0; i != blocks; ++i) { @@ -62,16 +62,16 @@ void Blowfish::decrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 17; j != 1; j -= 2) { - L ^= P[j]; + L ^= m_P[j]; R ^= ((S1[get_byte(0, L)] + S2[get_byte(1, L)]) ^ S3[get_byte(2, L)]) + S4[get_byte(3, L)]; - R ^= P[j-1]; + R ^= m_P[j-1]; L ^= ((S1[get_byte(0, R)] + S2[get_byte(1, R)]) ^ S3[get_byte(2, R)]) + S4[get_byte(3, R)]; } - L ^= P[1]; R ^= P[0]; + L ^= m_P[1]; R ^= m_P[0]; store_be(out, R, L); @@ -85,11 +85,11 @@ void Blowfish::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void Blowfish::key_schedule(const byte key[], size_t length) { - P.resize(18); - copy_mem(P.data(), P_INIT, 18); + m_P.resize(18); + copy_mem(m_P.data(), P_INIT, 18); - S.resize(1024); - copy_mem(S.data(), S_INIT, 1024); + m_S.resize(1024); + copy_mem(m_S.data(), S_INIT, 1024); const byte null_salt[16] = { 0 }; @@ -101,12 +101,12 @@ void Blowfish::key_expansion(const byte key[], const byte salt[16]) { for(size_t i = 0, j = 0; i != 18; ++i, j += 4) - P[i] ^= make_u32bit(key[(j ) % length], key[(j+1) % length], + m_P[i] ^= make_u32bit(key[(j ) % length], key[(j+1) % length], key[(j+2) % length], key[(j+3) % length]); u32bit L = 0, R = 0; - generate_sbox(P, L, R, salt, 0); - generate_sbox(S, L, R, salt, 2); + generate_sbox(m_P, L, R, salt, 0); + generate_sbox(m_S, L, R, salt, 2); } /* @@ -130,11 +130,11 @@ void Blowfish::eks_key_schedule(const byte key[], size_t length, throw Invalid_Argument("Requested Bcrypt work factor " + std::to_string(workfactor) + " too large"); - P.resize(18); - copy_mem(P.data(), P_INIT, 18); + m_P.resize(18); + copy_mem(m_P.data(), P_INIT, 18); - S.resize(1024); - copy_mem(S.data(), S_INIT, 1024); + m_S.resize(1024); + copy_mem(m_S.data(), S_INIT, 1024); key_expansion(key, length, salt); @@ -156,10 +156,10 @@ void Blowfish::generate_sbox(secure_vector<u32bit>& box, const byte salt[16], size_t salt_off) const { - const u32bit* S1 = &S[0]; - const u32bit* S2 = &S[256]; - const u32bit* S3 = &S[512]; - const u32bit* S4 = &S[768]; + const u32bit* S1 = &m_S[0]; + const u32bit* S2 = &m_S[256]; + const u32bit* S3 = &m_S[512]; + const u32bit* S4 = &m_S[768]; for(size_t i = 0; i != box.size(); i += 2) { @@ -168,16 +168,16 @@ void Blowfish::generate_sbox(secure_vector<u32bit>& box, for(size_t j = 0; j != 16; j += 2) { - L ^= P[j]; + L ^= m_P[j]; R ^= ((S1[get_byte(0, L)] + S2[get_byte(1, L)]) ^ S3[get_byte(2, L)]) + S4[get_byte(3, L)]; - R ^= P[j+1]; + R ^= m_P[j+1]; L ^= ((S1[get_byte(0, R)] + S2[get_byte(1, R)]) ^ S3[get_byte(2, R)]) + S4[get_byte(3, R)]; } - u32bit T = R; R = L ^ P[16]; L = T ^ P[17]; + u32bit T = R; R = L ^ m_P[16]; L = T ^ m_P[17]; box[i] = L; box[i+1] = R; } @@ -188,8 +188,8 @@ void Blowfish::generate_sbox(secure_vector<u32bit>& box, */ void Blowfish::clear() { - zap(P); - zap(S); + zap(m_P); + zap(m_S); } } diff --git a/src/lib/block/blowfish/blowfish.h b/src/lib/block/blowfish/blowfish.h index e1042465f..ef2ecc3c4 100644 --- a/src/lib/block/blowfish/blowfish.h +++ b/src/lib/block/blowfish/blowfish.h @@ -45,7 +45,7 @@ class BOTAN_DLL Blowfish : public Block_Cipher_Fixed_Params<8, 1, 56> static const u32bit P_INIT[18]; static const u32bit S_INIT[1024]; - secure_vector<u32bit> S, P; + secure_vector<u32bit> m_S, m_P; }; } diff --git a/src/lib/block/camellia/camellia.cpp b/src/lib/block/camellia/camellia.cpp index e9b10c528..ac5d57d4e 100644 --- a/src/lib/block/camellia/camellia.cpp +++ b/src/lib/block/camellia/camellia.cpp @@ -860,62 +860,62 @@ void key_schedule(secure_vector<u64bit>& SK, const byte key[], size_t length) void Camellia_128::encrypt_n(const byte in[], byte out[], size_t blocks) const { - Camellia_F::encrypt(in, out, blocks, SK, 9); + Camellia_F::encrypt(in, out, blocks, m_SK, 9); } void Camellia_192::encrypt_n(const byte in[], byte out[], size_t blocks) const { - Camellia_F::encrypt(in, out, blocks, SK, 12); + Camellia_F::encrypt(in, out, blocks, m_SK, 12); } void Camellia_256::encrypt_n(const byte in[], byte out[], size_t blocks) const { - Camellia_F::encrypt(in, out, blocks, SK, 12); + Camellia_F::encrypt(in, out, blocks, m_SK, 12); } void Camellia_128::decrypt_n(const byte in[], byte out[], size_t blocks) const { - Camellia_F::decrypt(in, out, blocks, SK, 9); + Camellia_F::decrypt(in, out, blocks, m_SK, 9); } void Camellia_192::decrypt_n(const byte in[], byte out[], size_t blocks) const { - Camellia_F::decrypt(in, out, blocks, SK, 12); + Camellia_F::decrypt(in, out, blocks, m_SK, 12); } void Camellia_256::decrypt_n(const byte in[], byte out[], size_t blocks) const { - Camellia_F::decrypt(in, out, blocks, SK, 12); + Camellia_F::decrypt(in, out, blocks, m_SK, 12); } void Camellia_128::key_schedule(const byte key[], size_t length) { - Camellia_F::key_schedule(SK, key, length); + Camellia_F::key_schedule(m_SK, key, length); } void Camellia_192::key_schedule(const byte key[], size_t length) { - Camellia_F::key_schedule(SK, key, length); + Camellia_F::key_schedule(m_SK, key, length); } void Camellia_256::key_schedule(const byte key[], size_t length) { - Camellia_F::key_schedule(SK, key, length); + Camellia_F::key_schedule(m_SK, key, length); } void Camellia_128::clear() { - zap(SK); + zap(m_SK); } void Camellia_192::clear() { - zap(SK); + zap(m_SK); } void Camellia_256::clear() { - zap(SK); + zap(m_SK); } } diff --git a/src/lib/block/camellia/camellia.h b/src/lib/block/camellia/camellia.h index 884cb2bd7..c83741d3c 100644 --- a/src/lib/block/camellia/camellia.h +++ b/src/lib/block/camellia/camellia.h @@ -27,7 +27,7 @@ class BOTAN_DLL Camellia_128 : public Block_Cipher_Fixed_Params<16, 16> private: void key_schedule(const byte key[], size_t length) override; - secure_vector<u64bit> SK; + secure_vector<u64bit> m_SK; }; /** @@ -45,7 +45,7 @@ class BOTAN_DLL Camellia_192 : public Block_Cipher_Fixed_Params<16, 24> private: void key_schedule(const byte key[], size_t length) override; - secure_vector<u64bit> SK; + secure_vector<u64bit> m_SK; }; /** @@ -63,7 +63,7 @@ class BOTAN_DLL Camellia_256 : public Block_Cipher_Fixed_Params<16, 32> private: void key_schedule(const byte key[], size_t length) override; - secure_vector<u64bit> SK; + secure_vector<u64bit> m_SK; }; } diff --git a/src/lib/block/cast/cast128.cpp b/src/lib/block/cast/cast128.cpp index 3973418a3..ce9e86794 100644 --- a/src/lib/block/cast/cast128.cpp +++ b/src/lib/block/cast/cast128.cpp @@ -55,22 +55,22 @@ void CAST_128::encrypt_n(const byte in[], byte out[], size_t blocks) const u32bit L = load_be<u32bit>(in, 0); u32bit R = load_be<u32bit>(in, 1); - R1(L, R, MK[ 0], RK[ 0]); - R2(R, L, MK[ 1], RK[ 1]); - R3(L, R, MK[ 2], RK[ 2]); - R1(R, L, MK[ 3], RK[ 3]); - R2(L, R, MK[ 4], RK[ 4]); - R3(R, L, MK[ 5], RK[ 5]); - R1(L, R, MK[ 6], RK[ 6]); - R2(R, L, MK[ 7], RK[ 7]); - R3(L, R, MK[ 8], RK[ 8]); - R1(R, L, MK[ 9], RK[ 9]); - R2(L, R, MK[10], RK[10]); - R3(R, L, MK[11], RK[11]); - R1(L, R, MK[12], RK[12]); - R2(R, L, MK[13], RK[13]); - R3(L, R, MK[14], RK[14]); - R1(R, L, MK[15], RK[15]); + R1(L, R, m_MK[ 0], m_RK[ 0]); + R2(R, L, m_MK[ 1], m_RK[ 1]); + R3(L, R, m_MK[ 2], m_RK[ 2]); + R1(R, L, m_MK[ 3], m_RK[ 3]); + R2(L, R, m_MK[ 4], m_RK[ 4]); + R3(R, L, m_MK[ 5], m_RK[ 5]); + R1(L, R, m_MK[ 6], m_RK[ 6]); + R2(R, L, m_MK[ 7], m_RK[ 7]); + R3(L, R, m_MK[ 8], m_RK[ 8]); + R1(R, L, m_MK[ 9], m_RK[ 9]); + R2(L, R, m_MK[10], m_RK[10]); + R3(R, L, m_MK[11], m_RK[11]); + R1(L, R, m_MK[12], m_RK[12]); + R2(R, L, m_MK[13], m_RK[13]); + R3(L, R, m_MK[14], m_RK[14]); + R1(R, L, m_MK[15], m_RK[15]); store_be(out, R, L); @@ -89,22 +89,22 @@ void CAST_128::decrypt_n(const byte in[], byte out[], size_t blocks) const u32bit L = load_be<u32bit>(in, 0); u32bit R = load_be<u32bit>(in, 1); - R1(L, R, MK[15], RK[15]); - R3(R, L, MK[14], RK[14]); - R2(L, R, MK[13], RK[13]); - R1(R, L, MK[12], RK[12]); - R3(L, R, MK[11], RK[11]); - R2(R, L, MK[10], RK[10]); - R1(L, R, MK[ 9], RK[ 9]); - R3(R, L, MK[ 8], RK[ 8]); - R2(L, R, MK[ 7], RK[ 7]); - R1(R, L, MK[ 6], RK[ 6]); - R3(L, R, MK[ 5], RK[ 5]); - R2(R, L, MK[ 4], RK[ 4]); - R1(L, R, MK[ 3], RK[ 3]); - R3(R, L, MK[ 2], RK[ 2]); - R2(L, R, MK[ 1], RK[ 1]); - R1(R, L, MK[ 0], RK[ 0]); + R1(L, R, m_MK[15], m_RK[15]); + R3(R, L, m_MK[14], m_RK[14]); + R2(L, R, m_MK[13], m_RK[13]); + R1(R, L, m_MK[12], m_RK[12]); + R3(L, R, m_MK[11], m_RK[11]); + R2(R, L, m_MK[10], m_RK[10]); + R1(L, R, m_MK[ 9], m_RK[ 9]); + R3(R, L, m_MK[ 8], m_RK[ 8]); + R2(L, R, m_MK[ 7], m_RK[ 7]); + R1(R, L, m_MK[ 6], m_RK[ 6]); + R3(L, R, m_MK[ 5], m_RK[ 5]); + R2(R, L, m_MK[ 4], m_RK[ 4]); + R1(L, R, m_MK[ 3], m_RK[ 3]); + R3(R, L, m_MK[ 2], m_RK[ 2]); + R2(L, R, m_MK[ 1], m_RK[ 1]); + R1(R, L, m_MK[ 0], m_RK[ 0]); store_be(out, R, L); @@ -118,26 +118,26 @@ void CAST_128::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void CAST_128::key_schedule(const byte key[], size_t length) { - MK.resize(48); - RK.resize(48); + m_MK.resize(48); + m_RK.resize(48); secure_vector<u32bit> X(4); for(size_t i = 0; i != length; ++i) X[i/4] = (X[i/4] << 8) + key[i]; - cast_ks(MK, X); + cast_ks(m_MK, X); secure_vector<u32bit> RK32(48); cast_ks(RK32, X); for(size_t i = 0; i != 16; ++i) - RK[i] = RK32[i] % 32; + m_RK[i] = RK32[i] % 32; } void CAST_128::clear() { - zap(MK); - zap(RK); + zap(m_MK); + zap(m_RK); } /* @@ -329,10 +329,10 @@ void CAST_128::cast_ks(secure_vector<u32bit>& K, class ByteReader { public: - byte operator()(size_t i) { return (X[i/4] >> (8*(3 - (i%4)))); } - ByteReader(const u32bit* x) : X(x) {} + byte operator()(size_t i) { return (m_X[i/4] >> (8*(3 - (i%4)))); } + ByteReader(const u32bit* x) : m_X(x) {} private: - const u32bit* X; + const u32bit* m_X; }; secure_vector<u32bit> Z(4); diff --git a/src/lib/block/cast/cast128.h b/src/lib/block/cast/cast128.h index 2a0f4462a..491dd56f2 100644 --- a/src/lib/block/cast/cast128.h +++ b/src/lib/block/cast/cast128.h @@ -31,8 +31,8 @@ class BOTAN_DLL CAST_128 : public Block_Cipher_Fixed_Params<8, 11, 16> static void cast_ks(secure_vector<u32bit>& ks, secure_vector<u32bit>& user_key); - secure_vector<u32bit> MK; - secure_vector<byte> RK; + secure_vector<u32bit> m_MK; + secure_vector<byte> m_RK; }; } diff --git a/src/lib/block/cast/cast256.cpp b/src/lib/block/cast/cast256.cpp index 7178dc5c1..637fdfee2 100644 --- a/src/lib/block/cast/cast256.cpp +++ b/src/lib/block/cast/cast256.cpp @@ -57,30 +57,30 @@ void CAST_256::encrypt_n(const byte in[], byte out[], size_t blocks) const u32bit C = load_be<u32bit>(in, 2); u32bit D = load_be<u32bit>(in, 3); - round1(C, D, MK[ 0], RK[ 0]); round2(B, C, MK[ 1], RK[ 1]); - round3(A, B, MK[ 2], RK[ 2]); round1(D, A, MK[ 3], RK[ 3]); - round1(C, D, MK[ 4], RK[ 4]); round2(B, C, MK[ 5], RK[ 5]); - round3(A, B, MK[ 6], RK[ 6]); round1(D, A, MK[ 7], RK[ 7]); - round1(C, D, MK[ 8], RK[ 8]); round2(B, C, MK[ 9], RK[ 9]); - round3(A, B, MK[10], RK[10]); round1(D, A, MK[11], RK[11]); - round1(C, D, MK[12], RK[12]); round2(B, C, MK[13], RK[13]); - round3(A, B, MK[14], RK[14]); round1(D, A, MK[15], RK[15]); - round1(C, D, MK[16], RK[16]); round2(B, C, MK[17], RK[17]); - round3(A, B, MK[18], RK[18]); round1(D, A, MK[19], RK[19]); - round1(C, D, MK[20], RK[20]); round2(B, C, MK[21], RK[21]); - round3(A, B, MK[22], RK[22]); round1(D, A, MK[23], RK[23]); - round1(D, A, MK[27], RK[27]); round3(A, B, MK[26], RK[26]); - round2(B, C, MK[25], RK[25]); round1(C, D, MK[24], RK[24]); - round1(D, A, MK[31], RK[31]); round3(A, B, MK[30], RK[30]); - round2(B, C, MK[29], RK[29]); round1(C, D, MK[28], RK[28]); - round1(D, A, MK[35], RK[35]); round3(A, B, MK[34], RK[34]); - round2(B, C, MK[33], RK[33]); round1(C, D, MK[32], RK[32]); - round1(D, A, MK[39], RK[39]); round3(A, B, MK[38], RK[38]); - round2(B, C, MK[37], RK[37]); round1(C, D, MK[36], RK[36]); - round1(D, A, MK[43], RK[43]); round3(A, B, MK[42], RK[42]); - round2(B, C, MK[41], RK[41]); round1(C, D, MK[40], RK[40]); - round1(D, A, MK[47], RK[47]); round3(A, B, MK[46], RK[46]); - round2(B, C, MK[45], RK[45]); round1(C, D, MK[44], RK[44]); + round1(C, D, m_MK[ 0], m_RK[ 0]); round2(B, C, m_MK[ 1], m_RK[ 1]); + round3(A, B, m_MK[ 2], m_RK[ 2]); round1(D, A, m_MK[ 3], m_RK[ 3]); + round1(C, D, m_MK[ 4], m_RK[ 4]); round2(B, C, m_MK[ 5], m_RK[ 5]); + round3(A, B, m_MK[ 6], m_RK[ 6]); round1(D, A, m_MK[ 7], m_RK[ 7]); + round1(C, D, m_MK[ 8], m_RK[ 8]); round2(B, C, m_MK[ 9], m_RK[ 9]); + round3(A, B, m_MK[10], m_RK[10]); round1(D, A, m_MK[11], m_RK[11]); + round1(C, D, m_MK[12], m_RK[12]); round2(B, C, m_MK[13], m_RK[13]); + round3(A, B, m_MK[14], m_RK[14]); round1(D, A, m_MK[15], m_RK[15]); + round1(C, D, m_MK[16], m_RK[16]); round2(B, C, m_MK[17], m_RK[17]); + round3(A, B, m_MK[18], m_RK[18]); round1(D, A, m_MK[19], m_RK[19]); + round1(C, D, m_MK[20], m_RK[20]); round2(B, C, m_MK[21], m_RK[21]); + round3(A, B, m_MK[22], m_RK[22]); round1(D, A, m_MK[23], m_RK[23]); + round1(D, A, m_MK[27], m_RK[27]); round3(A, B, m_MK[26], m_RK[26]); + round2(B, C, m_MK[25], m_RK[25]); round1(C, D, m_MK[24], m_RK[24]); + round1(D, A, m_MK[31], m_RK[31]); round3(A, B, m_MK[30], m_RK[30]); + round2(B, C, m_MK[29], m_RK[29]); round1(C, D, m_MK[28], m_RK[28]); + round1(D, A, m_MK[35], m_RK[35]); round3(A, B, m_MK[34], m_RK[34]); + round2(B, C, m_MK[33], m_RK[33]); round1(C, D, m_MK[32], m_RK[32]); + round1(D, A, m_MK[39], m_RK[39]); round3(A, B, m_MK[38], m_RK[38]); + round2(B, C, m_MK[37], m_RK[37]); round1(C, D, m_MK[36], m_RK[36]); + round1(D, A, m_MK[43], m_RK[43]); round3(A, B, m_MK[42], m_RK[42]); + round2(B, C, m_MK[41], m_RK[41]); round1(C, D, m_MK[40], m_RK[40]); + round1(D, A, m_MK[47], m_RK[47]); round3(A, B, m_MK[46], m_RK[46]); + round2(B, C, m_MK[45], m_RK[45]); round1(C, D, m_MK[44], m_RK[44]); store_be(out, A, B, C, D); @@ -101,30 +101,30 @@ void CAST_256::decrypt_n(const byte in[], byte out[], size_t blocks) const u32bit C = load_be<u32bit>(in, 2); u32bit D = load_be<u32bit>(in, 3); - round1(C, D, MK[44], RK[44]); round2(B, C, MK[45], RK[45]); - round3(A, B, MK[46], RK[46]); round1(D, A, MK[47], RK[47]); - round1(C, D, MK[40], RK[40]); round2(B, C, MK[41], RK[41]); - round3(A, B, MK[42], RK[42]); round1(D, A, MK[43], RK[43]); - round1(C, D, MK[36], RK[36]); round2(B, C, MK[37], RK[37]); - round3(A, B, MK[38], RK[38]); round1(D, A, MK[39], RK[39]); - round1(C, D, MK[32], RK[32]); round2(B, C, MK[33], RK[33]); - round3(A, B, MK[34], RK[34]); round1(D, A, MK[35], RK[35]); - round1(C, D, MK[28], RK[28]); round2(B, C, MK[29], RK[29]); - round3(A, B, MK[30], RK[30]); round1(D, A, MK[31], RK[31]); - round1(C, D, MK[24], RK[24]); round2(B, C, MK[25], RK[25]); - round3(A, B, MK[26], RK[26]); round1(D, A, MK[27], RK[27]); - round1(D, A, MK[23], RK[23]); round3(A, B, MK[22], RK[22]); - round2(B, C, MK[21], RK[21]); round1(C, D, MK[20], RK[20]); - round1(D, A, MK[19], RK[19]); round3(A, B, MK[18], RK[18]); - round2(B, C, MK[17], RK[17]); round1(C, D, MK[16], RK[16]); - round1(D, A, MK[15], RK[15]); round3(A, B, MK[14], RK[14]); - round2(B, C, MK[13], RK[13]); round1(C, D, MK[12], RK[12]); - round1(D, A, MK[11], RK[11]); round3(A, B, MK[10], RK[10]); - round2(B, C, MK[ 9], RK[ 9]); round1(C, D, MK[ 8], RK[ 8]); - round1(D, A, MK[ 7], RK[ 7]); round3(A, B, MK[ 6], RK[ 6]); - round2(B, C, MK[ 5], RK[ 5]); round1(C, D, MK[ 4], RK[ 4]); - round1(D, A, MK[ 3], RK[ 3]); round3(A, B, MK[ 2], RK[ 2]); - round2(B, C, MK[ 1], RK[ 1]); round1(C, D, MK[ 0], RK[ 0]); + round1(C, D, m_MK[44], m_RK[44]); round2(B, C, m_MK[45], m_RK[45]); + round3(A, B, m_MK[46], m_RK[46]); round1(D, A, m_MK[47], m_RK[47]); + round1(C, D, m_MK[40], m_RK[40]); round2(B, C, m_MK[41], m_RK[41]); + round3(A, B, m_MK[42], m_RK[42]); round1(D, A, m_MK[43], m_RK[43]); + round1(C, D, m_MK[36], m_RK[36]); round2(B, C, m_MK[37], m_RK[37]); + round3(A, B, m_MK[38], m_RK[38]); round1(D, A, m_MK[39], m_RK[39]); + round1(C, D, m_MK[32], m_RK[32]); round2(B, C, m_MK[33], m_RK[33]); + round3(A, B, m_MK[34], m_RK[34]); round1(D, A, m_MK[35], m_RK[35]); + round1(C, D, m_MK[28], m_RK[28]); round2(B, C, m_MK[29], m_RK[29]); + round3(A, B, m_MK[30], m_RK[30]); round1(D, A, m_MK[31], m_RK[31]); + round1(C, D, m_MK[24], m_RK[24]); round2(B, C, m_MK[25], m_RK[25]); + round3(A, B, m_MK[26], m_RK[26]); round1(D, A, m_MK[27], m_RK[27]); + round1(D, A, m_MK[23], m_RK[23]); round3(A, B, m_MK[22], m_RK[22]); + round2(B, C, m_MK[21], m_RK[21]); round1(C, D, m_MK[20], m_RK[20]); + round1(D, A, m_MK[19], m_RK[19]); round3(A, B, m_MK[18], m_RK[18]); + round2(B, C, m_MK[17], m_RK[17]); round1(C, D, m_MK[16], m_RK[16]); + round1(D, A, m_MK[15], m_RK[15]); round3(A, B, m_MK[14], m_RK[14]); + round2(B, C, m_MK[13], m_RK[13]); round1(C, D, m_MK[12], m_RK[12]); + round1(D, A, m_MK[11], m_RK[11]); round3(A, B, m_MK[10], m_RK[10]); + round2(B, C, m_MK[ 9], m_RK[ 9]); round1(C, D, m_MK[ 8], m_RK[ 8]); + round1(D, A, m_MK[ 7], m_RK[ 7]); round3(A, B, m_MK[ 6], m_RK[ 6]); + round2(B, C, m_MK[ 5], m_RK[ 5]); round1(C, D, m_MK[ 4], m_RK[ 4]); + round1(D, A, m_MK[ 3], m_RK[ 3]); round3(A, B, m_MK[ 2], m_RK[ 2]); + round2(B, C, m_MK[ 1], m_RK[ 1]); round1(C, D, m_MK[ 0], m_RK[ 0]); store_be(out, A, B, C, D); @@ -178,8 +178,8 @@ void CAST_256::key_schedule(const byte key[], size_t length) 0x07, 0x18, 0x09, 0x1A, 0x0B, 0x1C, 0x0D, 0x1E, 0x0F, 0x00, 0x11, 0x02 }; - MK.resize(48); - RK.resize(48); + m_MK.resize(48); + m_RK.resize(48); secure_vector<u32bit> K(8); for(size_t i = 0; i != length; ++i) @@ -207,21 +207,21 @@ void CAST_256::key_schedule(const byte key[], size_t length) round1(A, B, KEY_MASK[4*i+14], KEY_ROT[(4*i+14) % 32]); round2(H, A, KEY_MASK[4*i+15], KEY_ROT[(4*i+15) % 32]); - RK[i ] = (A % 32); - RK[i+1] = (C % 32); - RK[i+2] = (E % 32); - RK[i+3] = (G % 32); - MK[i ] = H; - MK[i+1] = F; - MK[i+2] = D; - MK[i+3] = B; + m_RK[i ] = (A % 32); + m_RK[i+1] = (C % 32); + m_RK[i+2] = (E % 32); + m_RK[i+3] = (G % 32); + m_MK[i ] = H; + m_MK[i+1] = F; + m_MK[i+2] = D; + m_MK[i+3] = B; } } void CAST_256::clear() { - zap(MK); - zap(RK); + zap(m_MK); + zap(m_RK); } } diff --git a/src/lib/block/cast/cast256.h b/src/lib/block/cast/cast256.h index 9f7546711..2e7d5cddd 100644 --- a/src/lib/block/cast/cast256.h +++ b/src/lib/block/cast/cast256.h @@ -27,8 +27,8 @@ class BOTAN_DLL CAST_256 : public Block_Cipher_Fixed_Params<16, 4, 32, 4> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> MK; - secure_vector<byte> RK; + secure_vector<u32bit> m_MK; + secure_vector<byte> m_RK; }; } diff --git a/src/lib/block/des/des.cpp b/src/lib/block/des/des.cpp index 6d2bcfe1e..88671df8d 100644 --- a/src/lib/block/des/des.cpp +++ b/src/lib/block/des/des.cpp @@ -154,7 +154,7 @@ void DES::encrypt_n(const byte in[], byte out[], size_t blocks) const u32bit L = static_cast<u32bit>(T >> 32); u32bit R = static_cast<u32bit>(T); - des_encrypt(L, R, round_key.data()); + des_encrypt(L, R, m_round_key.data()); T = (DES_FPTAB1[get_byte(0, L)] << 5) | (DES_FPTAB1[get_byte(1, L)] << 3) | (DES_FPTAB1[get_byte(2, L)] << 1) | (DES_FPTAB2[get_byte(3, L)] << 1) | @@ -184,7 +184,7 @@ void DES::decrypt_n(const byte in[], byte out[], size_t blocks) const u32bit L = static_cast<u32bit>(T >> 32); u32bit R = static_cast<u32bit>(T); - des_decrypt(L, R, round_key.data()); + des_decrypt(L, R, m_round_key.data()); T = (DES_FPTAB1[get_byte(0, L)] << 5) | (DES_FPTAB1[get_byte(1, L)] << 3) | (DES_FPTAB1[get_byte(2, L)] << 1) | (DES_FPTAB2[get_byte(3, L)] << 1) | @@ -205,13 +205,13 @@ void DES::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void DES::key_schedule(const byte key[], size_t) { - round_key.resize(32); - des_key_schedule(round_key.data(), key); + m_round_key.resize(32); + des_key_schedule(m_round_key.data(), key); } void DES::clear() { - zap(round_key); + zap(m_round_key); } /* @@ -229,9 +229,9 @@ void TripleDES::encrypt_n(const byte in[], byte out[], size_t blocks) const u32bit L = static_cast<u32bit>(T >> 32); u32bit R = static_cast<u32bit>(T); - des_encrypt(L, R, &round_key[0]); - des_decrypt(R, L, &round_key[32]); - des_encrypt(L, R, &round_key[64]); + des_encrypt(L, R, &m_round_key[0]); + des_decrypt(R, L, &m_round_key[32]); + des_encrypt(L, R, &m_round_key[64]); T = (DES_FPTAB1[get_byte(0, L)] << 5) | (DES_FPTAB1[get_byte(1, L)] << 3) | (DES_FPTAB1[get_byte(2, L)] << 1) | (DES_FPTAB2[get_byte(3, L)] << 1) | @@ -262,9 +262,9 @@ void TripleDES::decrypt_n(const byte in[], byte out[], size_t blocks) const u32bit L = static_cast<u32bit>(T >> 32); u32bit R = static_cast<u32bit>(T); - des_decrypt(L, R, &round_key[64]); - des_encrypt(R, L, &round_key[32]); - des_decrypt(L, R, &round_key[0]); + des_decrypt(L, R, &m_round_key[64]); + des_encrypt(R, L, &m_round_key[32]); + des_decrypt(L, R, &m_round_key[0]); T = (DES_FPTAB1[get_byte(0, L)] << 5) | (DES_FPTAB1[get_byte(1, L)] << 3) | (DES_FPTAB1[get_byte(2, L)] << 1) | (DES_FPTAB2[get_byte(3, L)] << 1) | @@ -285,19 +285,19 @@ void TripleDES::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void TripleDES::key_schedule(const byte key[], size_t length) { - round_key.resize(3*32); - des_key_schedule(&round_key[0], key); - des_key_schedule(&round_key[32], key + 8); + m_round_key.resize(3*32); + des_key_schedule(&m_round_key[0], key); + des_key_schedule(&m_round_key[32], key + 8); if(length == 24) - des_key_schedule(&round_key[64], key + 16); + des_key_schedule(&m_round_key[64], key + 16); else - copy_mem(&round_key[64], &round_key[0], 32); + copy_mem(&m_round_key[64], &m_round_key[0], 32); } void TripleDES::clear() { - zap(round_key); + zap(m_round_key); } } diff --git a/src/lib/block/des/des.h b/src/lib/block/des/des.h index 1a2fdc5c9..8ea132ac1 100644 --- a/src/lib/block/des/des.h +++ b/src/lib/block/des/des.h @@ -27,7 +27,7 @@ class BOTAN_DLL DES : public Block_Cipher_Fixed_Params<8, 8> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> round_key; + secure_vector<u32bit> m_round_key; }; /** @@ -45,7 +45,7 @@ class BOTAN_DLL TripleDES : public Block_Cipher_Fixed_Params<8, 16, 24, 8> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> round_key; + secure_vector<u32bit> m_round_key; }; /* diff --git a/src/lib/block/des/desx.cpp b/src/lib/block/des/desx.cpp index f6538748c..76a50f9a2 100644 --- a/src/lib/block/des/desx.cpp +++ b/src/lib/block/des/desx.cpp @@ -16,9 +16,9 @@ void DESX::encrypt_n(const byte in[], byte out[], size_t blocks) const { for(size_t i = 0; i != blocks; ++i) { - xor_buf(out, in, K1.data(), BLOCK_SIZE); - des.encrypt(out); - xor_buf(out, K2.data(), BLOCK_SIZE); + xor_buf(out, in, m_K1.data(), BLOCK_SIZE); + m_des.encrypt(out); + xor_buf(out, m_K2.data(), BLOCK_SIZE); in += BLOCK_SIZE; out += BLOCK_SIZE; @@ -32,9 +32,9 @@ void DESX::decrypt_n(const byte in[], byte out[], size_t blocks) const { for(size_t i = 0; i != blocks; ++i) { - xor_buf(out, in, K2.data(), BLOCK_SIZE); - des.decrypt(out); - xor_buf(out, K1.data(), BLOCK_SIZE); + xor_buf(out, in, m_K2.data(), BLOCK_SIZE); + m_des.decrypt(out); + xor_buf(out, m_K1.data(), BLOCK_SIZE); in += BLOCK_SIZE; out += BLOCK_SIZE; @@ -46,16 +46,16 @@ void DESX::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void DESX::key_schedule(const byte key[], size_t) { - K1.assign(key, key + 8); - des.set_key(key + 8, 8); - K2.assign(key + 16, key + 24); + m_K1.assign(key, key + 8); + m_des.set_key(key + 8, 8); + m_K2.assign(key + 16, key + 24); } void DESX::clear() { - des.clear(); - zap(K1); - zap(K2); + m_des.clear(); + zap(m_K1); + zap(m_K2); } } diff --git a/src/lib/block/des/desx.h b/src/lib/block/des/desx.h index 0f155b241..06ca91c9f 100644 --- a/src/lib/block/des/desx.h +++ b/src/lib/block/des/desx.h @@ -26,8 +26,8 @@ class BOTAN_DLL DESX : public Block_Cipher_Fixed_Params<8, 24> BlockCipher* clone() const override { return new DESX; } private: void key_schedule(const byte[], size_t) override; - secure_vector<byte> K1, K2; - DES des; + secure_vector<byte> m_K1, m_K2; + DES m_des; }; } diff --git a/src/lib/block/gost_28147/gost_28147.cpp b/src/lib/block/gost_28147/gost_28147.cpp index b8c3b7280..5fa232478 100644 --- a/src/lib/block/gost_28147/gost_28147.cpp +++ b/src/lib/block/gost_28147/gost_28147.cpp @@ -12,12 +12,12 @@ namespace Botan { byte GOST_28147_89_Params::sbox_entry(size_t row, size_t col) const { - byte x = sboxes[4 * col + (row / 2)]; + byte x = m_sboxes[4 * col + (row / 2)]; return (row % 2 == 0) ? (x >> 4) : (x & 0x0F); } -GOST_28147_89_Params::GOST_28147_89_Params(const std::string& n) : name(n) +GOST_28147_89_Params::GOST_28147_89_Params(const std::string& n) : m_name(n) { // Encoded in the packed fromat from RFC 4357 @@ -39,18 +39,18 @@ GOST_28147_89_Params::GOST_28147_89_Params(const std::string& n) : name(n) 0x03, 0x25, 0xEB, 0xFE, 0x9C, 0x6D, 0xF8, 0x6D, 0x2E, 0xAB, 0xDE, 0x20, 0xBA, 0x89, 0x3C, 0x92, 0xF8, 0xD3, 0x53, 0xBC }; - if(name == "R3411_94_TestParam") - sboxes = GOST_R_3411_TEST_PARAMS; - else if(name == "R3411_CryptoPro") - sboxes = GOST_R_3411_CRYPTOPRO_PARAMS; + if(m_name == "R3411_94_TestParam") + m_sboxes = GOST_R_3411_TEST_PARAMS; + else if(m_name == "R3411_CryptoPro") + m_sboxes = GOST_R_3411_CRYPTOPRO_PARAMS; else - throw Invalid_Argument("GOST_28147_89_Params: Unknown " + name); + throw Invalid_Argument("GOST_28147_89_Params: Unknown " + m_name); } /* * GOST Constructor */ -GOST_28147_89::GOST_28147_89(const GOST_28147_89_Params& param) : SBOX(1024) +GOST_28147_89::GOST_28147_89(const GOST_28147_89_Params& param) : m_SBOX(1024) { // Convert the parallel 4x4 sboxes into larger word-based sboxes for(size_t i = 0; i != 4; ++i) @@ -58,7 +58,7 @@ GOST_28147_89::GOST_28147_89(const GOST_28147_89_Params& param) : SBOX(1024) { const u32bit T = (param.sbox_entry(2*i , j % 16)) | (param.sbox_entry(2*i+1, j / 16) << 4); - SBOX[256*i+j] = rotate_left(T, (11+8*i) % 32); + m_SBOX[256*i+j] = rotate_left(T, (11+8*i) % 32); } } @@ -71,9 +71,9 @@ std::string GOST_28147_89::name() const constructor, but can't break binary compat. */ std::string sbox_name = ""; - if(SBOX[0] == 0x00072000) + if(m_SBOX[0] == 0x00072000) sbox_name = "R3411_94_TestParam"; - else if(SBOX[0] == 0x0002D000) + else if(m_SBOX[0] == 0x0002D000) sbox_name = "R3411_CryptoPro"; else throw Internal_Error("GOST-28147 unrecognized sbox value"); @@ -86,17 +86,17 @@ std::string GOST_28147_89::name() const */ #define GOST_2ROUND(N1, N2, R1, R2) \ do { \ - u32bit T0 = N1 + EK[R1]; \ - N2 ^= SBOX[get_byte(3, T0)] | \ - SBOX[get_byte(2, T0)+256] | \ - SBOX[get_byte(1, T0)+512] | \ - SBOX[get_byte(0, T0)+768]; \ + u32bit T0 = N1 + m_EK[R1]; \ + N2 ^= m_SBOX[get_byte(3, T0)] | \ + m_SBOX[get_byte(2, T0)+256] | \ + m_SBOX[get_byte(1, T0)+512] | \ + m_SBOX[get_byte(0, T0)+768]; \ \ - u32bit T1 = N2 + EK[R2]; \ - N1 ^= SBOX[get_byte(3, T1)] | \ - SBOX[get_byte(2, T1)+256] | \ - SBOX[get_byte(1, T1)+512] | \ - SBOX[get_byte(0, T1)+768]; \ + u32bit T1 = N2 + m_EK[R2]; \ + N1 ^= m_SBOX[get_byte(3, T1)] | \ + m_SBOX[get_byte(2, T1)+256] | \ + m_SBOX[get_byte(1, T1)+512] | \ + m_SBOX[get_byte(0, T1)+768]; \ } while(0) /* @@ -163,14 +163,14 @@ void GOST_28147_89::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void GOST_28147_89::key_schedule(const byte key[], size_t) { - EK.resize(8); + m_EK.resize(8); for(size_t i = 0; i != 8; ++i) - EK[i] = load_le<u32bit>(key, i); + m_EK[i] = load_le<u32bit>(key, i); } void GOST_28147_89::clear() { - zap(EK); + zap(m_EK); } } diff --git a/src/lib/block/gost_28147/gost_28147.h b/src/lib/block/gost_28147/gost_28147.h index 3cf1c4578..d87559b57 100644 --- a/src/lib/block/gost_28147/gost_28147.h +++ b/src/lib/block/gost_28147/gost_28147.h @@ -31,7 +31,7 @@ class BOTAN_DLL GOST_28147_89_Params /** * @return name of this parameter set */ - std::string param_name() const { return name; } + std::string param_name() const { return m_name; } /** * Default GOST parameters are the ones given in GOST R 34.11 for @@ -42,8 +42,8 @@ class BOTAN_DLL GOST_28147_89_Params */ GOST_28147_89_Params(const std::string& name = "R3411_94_TestParam"); private: - const byte* sboxes; - std::string name; + const byte* m_sboxes; + std::string m_name; }; /** @@ -58,7 +58,7 @@ class BOTAN_DLL GOST_28147_89 : public Block_Cipher_Fixed_Params<8, 32> void clear() override; std::string name() const override; - BlockCipher* clone() const override { return new GOST_28147_89(SBOX); } + BlockCipher* clone() const override { return new GOST_28147_89(m_SBOX); } /** * @param params the sbox parameters to use @@ -66,7 +66,7 @@ class BOTAN_DLL GOST_28147_89 : public Block_Cipher_Fixed_Params<8, 32> GOST_28147_89(const GOST_28147_89_Params& params); private: GOST_28147_89(const std::vector<u32bit>& other_SBOX) : - SBOX(other_SBOX), EK(8) {} + m_SBOX(other_SBOX), m_EK(8) {} void key_schedule(const byte[], size_t) override; @@ -74,9 +74,9 @@ class BOTAN_DLL GOST_28147_89 : public Block_Cipher_Fixed_Params<8, 32> * The sbox is not secret, this is just a larger expansion of it * which we generate at runtime for faster execution */ - std::vector<u32bit> SBOX; + std::vector<u32bit> m_SBOX; - secure_vector<u32bit> EK; + secure_vector<u32bit> m_EK; }; } diff --git a/src/lib/block/idea/idea.cpp b/src/lib/block/idea/idea.cpp index 8069e16f7..4182c59a7 100644 --- a/src/lib/block/idea/idea.cpp +++ b/src/lib/block/idea/idea.cpp @@ -113,7 +113,7 @@ void idea_op(const byte in[], byte out[], size_t blocks, const u16bit K[52]) */ void IDEA::encrypt_n(const byte in[], byte out[], size_t blocks) const { - idea_op(in, out, blocks, EK.data()); + idea_op(in, out, blocks, m_EK.data()); } /* @@ -121,7 +121,7 @@ void IDEA::encrypt_n(const byte in[], byte out[], size_t blocks) const */ void IDEA::decrypt_n(const byte in[], byte out[], size_t blocks) const { - idea_op(in, out, blocks, DK.data()); + idea_op(in, out, blocks, m_DK.data()); } /* @@ -129,54 +129,54 @@ void IDEA::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void IDEA::key_schedule(const byte key[], size_t) { - EK.resize(52); - DK.resize(52); + m_EK.resize(52); + m_DK.resize(52); CT::poison(key, 16); - CT::poison(EK.data(), 52); - CT::poison(DK.data(), 52); + CT::poison(m_EK.data(), 52); + CT::poison(m_DK.data(), 52); for(size_t i = 0; i != 8; ++i) - EK[i] = load_be<u16bit>(key, i); + m_EK[i] = load_be<u16bit>(key, i); for(size_t i = 1, j = 8, offset = 0; j != 52; i %= 8, ++i, ++j) { - EK[i+7+offset] = static_cast<u16bit>((EK[(i % 8) + offset] << 9) | - (EK[((i+1) % 8) + offset] >> 7)); + m_EK[i+7+offset] = static_cast<u16bit>((m_EK[(i % 8) + offset] << 9) | + (m_EK[((i+1) % 8) + offset] >> 7)); offset += (i == 8) ? 8 : 0; } - DK[51] = mul_inv(EK[3]); - DK[50] = -EK[2]; - DK[49] = -EK[1]; - DK[48] = mul_inv(EK[0]); + m_DK[51] = mul_inv(m_EK[3]); + m_DK[50] = -m_EK[2]; + m_DK[49] = -m_EK[1]; + m_DK[48] = mul_inv(m_EK[0]); for(size_t i = 1, j = 4, counter = 47; i != 8; ++i, j += 6) { - DK[counter--] = EK[j+1]; - DK[counter--] = EK[j]; - DK[counter--] = mul_inv(EK[j+5]); - DK[counter--] = -EK[j+3]; - DK[counter--] = -EK[j+4]; - DK[counter--] = mul_inv(EK[j+2]); + m_DK[counter--] = m_EK[j+1]; + m_DK[counter--] = m_EK[j]; + m_DK[counter--] = mul_inv(m_EK[j+5]); + m_DK[counter--] = -m_EK[j+3]; + m_DK[counter--] = -m_EK[j+4]; + m_DK[counter--] = mul_inv(m_EK[j+2]); } - DK[5] = EK[47]; - DK[4] = EK[46]; - DK[3] = mul_inv(EK[51]); - DK[2] = -EK[50]; - DK[1] = -EK[49]; - DK[0] = mul_inv(EK[48]); + m_DK[5] = m_EK[47]; + m_DK[4] = m_EK[46]; + m_DK[3] = mul_inv(m_EK[51]); + m_DK[2] = -m_EK[50]; + m_DK[1] = -m_EK[49]; + m_DK[0] = mul_inv(m_EK[48]); CT::unpoison(key, 16); - CT::unpoison(EK.data(), 52); - CT::unpoison(DK.data(), 52); + CT::unpoison(m_EK.data(), 52); + CT::unpoison(m_DK.data(), 52); } void IDEA::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } } diff --git a/src/lib/block/idea/idea.h b/src/lib/block/idea/idea.h index 68d4d61b0..59f98da9e 100644 --- a/src/lib/block/idea/idea.h +++ b/src/lib/block/idea/idea.h @@ -28,17 +28,17 @@ class BOTAN_DLL IDEA : public Block_Cipher_Fixed_Params<8, 16> /** * @return const reference to encryption subkeys */ - const secure_vector<u16bit>& get_EK() const { return EK; } + const secure_vector<u16bit>& get_EK() const { return m_EK; } /** * @return const reference to decryption subkeys */ - const secure_vector<u16bit>& get_DK() const { return DK; } + const secure_vector<u16bit>& get_DK() const { return m_DK; } private: void key_schedule(const byte[], size_t) override; - secure_vector<u16bit> EK, DK; + secure_vector<u16bit> m_EK, m_DK; }; } diff --git a/src/lib/block/kasumi/kasumi.cpp b/src/lib/block/kasumi/kasumi.cpp index 604d2d21a..014987bc6 100644 --- a/src/lib/block/kasumi/kasumi.cpp +++ b/src/lib/block/kasumi/kasumi.cpp @@ -119,7 +119,7 @@ void KASUMI::encrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 8; j += 2) { - const u16bit* K = &EK[8*j]; + const u16bit* K = &m_EK[8*j]; u16bit R = B1 ^ (rotate_left(B0, 1) & K[0]); u16bit L = B0 ^ (rotate_left(R, 1) | K[1]); @@ -163,7 +163,7 @@ void KASUMI::decrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 8; j += 2) { - const u16bit* K = &EK[8*(6-j)]; + const u16bit* K = &m_EK[8*(6-j)]; u16bit L = B2, R = B3; @@ -210,24 +210,24 @@ void KASUMI::key_schedule(const byte key[], size_t) K[i+8] = K[i] ^ RC[i]; } - EK.resize(64); + m_EK.resize(64); for(size_t i = 0; i != 8; ++i) { - EK[8*i ] = rotate_left(K[(i+0) % 8 ], 2); - EK[8*i+1] = rotate_left(K[(i+2) % 8 + 8], 1); - EK[8*i+2] = rotate_left(K[(i+1) % 8 ], 5); - EK[8*i+3] = K[(i+4) % 8 + 8]; - EK[8*i+4] = rotate_left(K[(i+5) % 8 ], 8); - EK[8*i+5] = K[(i+3) % 8 + 8]; - EK[8*i+6] = rotate_left(K[(i+6) % 8 ], 13); - EK[8*i+7] = K[(i+7) % 8 + 8]; + m_EK[8*i ] = rotate_left(K[(i+0) % 8 ], 2); + m_EK[8*i+1] = rotate_left(K[(i+2) % 8 + 8], 1); + m_EK[8*i+2] = rotate_left(K[(i+1) % 8 ], 5); + m_EK[8*i+3] = K[(i+4) % 8 + 8]; + m_EK[8*i+4] = rotate_left(K[(i+5) % 8 ], 8); + m_EK[8*i+5] = K[(i+3) % 8 + 8]; + m_EK[8*i+6] = rotate_left(K[(i+6) % 8 ], 13); + m_EK[8*i+7] = K[(i+7) % 8 + 8]; } } void KASUMI::clear() { - zap(EK); + zap(m_EK); } } diff --git a/src/lib/block/kasumi/kasumi.h b/src/lib/block/kasumi/kasumi.h index 9f86279af..83b936766 100644 --- a/src/lib/block/kasumi/kasumi.h +++ b/src/lib/block/kasumi/kasumi.h @@ -27,7 +27,7 @@ class BOTAN_DLL KASUMI : public Block_Cipher_Fixed_Params<8, 16> private: void key_schedule(const byte[], size_t) override; - secure_vector<u16bit> EK; + secure_vector<u16bit> m_EK; }; } diff --git a/src/lib/block/mars/mars.cpp b/src/lib/block/mars/mars.cpp index 1c41134d3..4605be415 100644 --- a/src/lib/block/mars/mars.cpp +++ b/src/lib/block/mars/mars.cpp @@ -235,34 +235,34 @@ void MARS::encrypt_n(const byte in[], byte out[], size_t blocks) const { for(size_t i = 0; i != blocks; ++i) { - u32bit A = load_le<u32bit>(in, 0) + EK[0]; - u32bit B = load_le<u32bit>(in, 1) + EK[1]; - u32bit C = load_le<u32bit>(in, 2) + EK[2]; - u32bit D = load_le<u32bit>(in, 3) + EK[3]; + u32bit A = load_le<u32bit>(in, 0) + m_EK[0]; + u32bit B = load_le<u32bit>(in, 1) + m_EK[1]; + u32bit C = load_le<u32bit>(in, 2) + m_EK[2]; + u32bit D = load_le<u32bit>(in, 3) + m_EK[3]; forward_mix(A, B, C, D); - encrypt_round(A, B, C, D, EK[ 4], EK[ 5]); - encrypt_round(B, C, D, A, EK[ 6], EK[ 7]); - encrypt_round(C, D, A, B, EK[ 8], EK[ 9]); - encrypt_round(D, A, B, C, EK[10], EK[11]); - encrypt_round(A, B, C, D, EK[12], EK[13]); - encrypt_round(B, C, D, A, EK[14], EK[15]); - encrypt_round(C, D, A, B, EK[16], EK[17]); - encrypt_round(D, A, B, C, EK[18], EK[19]); - - encrypt_round(A, D, C, B, EK[20], EK[21]); - encrypt_round(B, A, D, C, EK[22], EK[23]); - encrypt_round(C, B, A, D, EK[24], EK[25]); - encrypt_round(D, C, B, A, EK[26], EK[27]); - encrypt_round(A, D, C, B, EK[28], EK[29]); - encrypt_round(B, A, D, C, EK[30], EK[31]); - encrypt_round(C, B, A, D, EK[32], EK[33]); - encrypt_round(D, C, B, A, EK[34], EK[35]); + encrypt_round(A, B, C, D, m_EK[ 4], m_EK[ 5]); + encrypt_round(B, C, D, A, m_EK[ 6], m_EK[ 7]); + encrypt_round(C, D, A, B, m_EK[ 8], m_EK[ 9]); + encrypt_round(D, A, B, C, m_EK[10], m_EK[11]); + encrypt_round(A, B, C, D, m_EK[12], m_EK[13]); + encrypt_round(B, C, D, A, m_EK[14], m_EK[15]); + encrypt_round(C, D, A, B, m_EK[16], m_EK[17]); + encrypt_round(D, A, B, C, m_EK[18], m_EK[19]); + + encrypt_round(A, D, C, B, m_EK[20], m_EK[21]); + encrypt_round(B, A, D, C, m_EK[22], m_EK[23]); + encrypt_round(C, B, A, D, m_EK[24], m_EK[25]); + encrypt_round(D, C, B, A, m_EK[26], m_EK[27]); + encrypt_round(A, D, C, B, m_EK[28], m_EK[29]); + encrypt_round(B, A, D, C, m_EK[30], m_EK[31]); + encrypt_round(C, B, A, D, m_EK[32], m_EK[33]); + encrypt_round(D, C, B, A, m_EK[34], m_EK[35]); reverse_mix(A, B, C, D); - A -= EK[36]; B -= EK[37]; C -= EK[38]; D -= EK[39]; + A -= m_EK[36]; B -= m_EK[37]; C -= m_EK[38]; D -= m_EK[39]; store_le(out, A, B, C, D); @@ -278,34 +278,34 @@ void MARS::decrypt_n(const byte in[], byte out[], size_t blocks) const { for(size_t i = 0; i != blocks; ++i) { - u32bit A = load_le<u32bit>(in, 3) + EK[39]; - u32bit B = load_le<u32bit>(in, 2) + EK[38]; - u32bit C = load_le<u32bit>(in, 1) + EK[37]; - u32bit D = load_le<u32bit>(in, 0) + EK[36]; + u32bit A = load_le<u32bit>(in, 3) + m_EK[39]; + u32bit B = load_le<u32bit>(in, 2) + m_EK[38]; + u32bit C = load_le<u32bit>(in, 1) + m_EK[37]; + u32bit D = load_le<u32bit>(in, 0) + m_EK[36]; forward_mix(A, B, C, D); - decrypt_round(A, B, C, D, EK[35], EK[34]); - decrypt_round(B, C, D, A, EK[33], EK[32]); - decrypt_round(C, D, A, B, EK[31], EK[30]); - decrypt_round(D, A, B, C, EK[29], EK[28]); - decrypt_round(A, B, C, D, EK[27], EK[26]); - decrypt_round(B, C, D, A, EK[25], EK[24]); - decrypt_round(C, D, A, B, EK[23], EK[22]); - decrypt_round(D, A, B, C, EK[21], EK[20]); - - decrypt_round(A, D, C, B, EK[19], EK[18]); - decrypt_round(B, A, D, C, EK[17], EK[16]); - decrypt_round(C, B, A, D, EK[15], EK[14]); - decrypt_round(D, C, B, A, EK[13], EK[12]); - decrypt_round(A, D, C, B, EK[11], EK[10]); - decrypt_round(B, A, D, C, EK[ 9], EK[ 8]); - decrypt_round(C, B, A, D, EK[ 7], EK[ 6]); - decrypt_round(D, C, B, A, EK[ 5], EK[ 4]); + decrypt_round(A, B, C, D, m_EK[35], m_EK[34]); + decrypt_round(B, C, D, A, m_EK[33], m_EK[32]); + decrypt_round(C, D, A, B, m_EK[31], m_EK[30]); + decrypt_round(D, A, B, C, m_EK[29], m_EK[28]); + decrypt_round(A, B, C, D, m_EK[27], m_EK[26]); + decrypt_round(B, C, D, A, m_EK[25], m_EK[24]); + decrypt_round(C, D, A, B, m_EK[23], m_EK[22]); + decrypt_round(D, A, B, C, m_EK[21], m_EK[20]); + + decrypt_round(A, D, C, B, m_EK[19], m_EK[18]); + decrypt_round(B, A, D, C, m_EK[17], m_EK[16]); + decrypt_round(C, B, A, D, m_EK[15], m_EK[14]); + decrypt_round(D, C, B, A, m_EK[13], m_EK[12]); + decrypt_round(A, D, C, B, m_EK[11], m_EK[10]); + decrypt_round(B, A, D, C, m_EK[ 9], m_EK[ 8]); + decrypt_round(C, B, A, D, m_EK[ 7], m_EK[ 6]); + decrypt_round(D, C, B, A, m_EK[ 5], m_EK[ 4]); reverse_mix(A, B, C, D); - A -= EK[3]; B -= EK[2]; C -= EK[1]; D -= EK[0]; + A -= m_EK[3]; B -= m_EK[2]; C -= m_EK[1]; D -= m_EK[0]; store_le(out, D, C, B, A); @@ -325,7 +325,7 @@ void MARS::key_schedule(const byte key[], size_t length) T[length / 4] = static_cast<u32bit>(length) / 4; - EK.resize(40); + m_EK.resize(40); for(u32bit i = 0; i != 4; ++i) { @@ -364,29 +364,29 @@ void MARS::key_schedule(const byte key[], size_t length) T[14] = rotate_left(T[14] + SBOX[T[13] % 512], 9); } - EK[10*i + 0] = T[ 0]; - EK[10*i + 1] = T[ 4]; - EK[10*i + 2] = T[ 8]; - EK[10*i + 3] = T[12]; - EK[10*i + 4] = T[ 1]; - EK[10*i + 5] = T[ 5]; - EK[10*i + 6] = T[ 9]; - EK[10*i + 7] = T[13]; - EK[10*i + 8] = T[ 2]; - EK[10*i + 9] = T[ 6]; + m_EK[10*i + 0] = T[ 0]; + m_EK[10*i + 1] = T[ 4]; + m_EK[10*i + 2] = T[ 8]; + m_EK[10*i + 3] = T[12]; + m_EK[10*i + 4] = T[ 1]; + m_EK[10*i + 5] = T[ 5]; + m_EK[10*i + 6] = T[ 9]; + m_EK[10*i + 7] = T[13]; + m_EK[10*i + 8] = T[ 2]; + m_EK[10*i + 9] = T[ 6]; } for(size_t i = 5; i != 37; i += 2) { - const u32bit key3 = EK[i] & 3; - EK[i] |= 3; - EK[i] ^= rotate_left(SBOX[265 + key3], EK[i-1] % 32) & gen_mask(EK[i]); + const u32bit key3 = m_EK[i] & 3; + m_EK[i] |= 3; + m_EK[i] ^= rotate_left(SBOX[265 + key3], m_EK[i-1] % 32) & gen_mask(m_EK[i]); } } void MARS::clear() { - zap(EK); + zap(m_EK); } } diff --git a/src/lib/block/mars/mars.h b/src/lib/block/mars/mars.h index 250fd2731..5d53f6e26 100644 --- a/src/lib/block/mars/mars.h +++ b/src/lib/block/mars/mars.h @@ -27,7 +27,7 @@ class BOTAN_DLL MARS : public Block_Cipher_Fixed_Params<16, 16, 32, 4> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK; + secure_vector<u32bit> m_EK; }; } diff --git a/src/lib/block/misty1/misty1.cpp b/src/lib/block/misty1/misty1.cpp index 490eec826..7f8ac7c76 100644 --- a/src/lib/block/misty1/misty1.cpp +++ b/src/lib/block/misty1/misty1.cpp @@ -113,7 +113,7 @@ void MISTY1::encrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 12; j += 3) { - const u16bit* RK = &EK[8 * j]; + const u16bit* RK = &m_EK[8 * j]; B1 ^= B0 & RK[0]; B0 ^= B1 | RK[1]; @@ -137,10 +137,10 @@ void MISTY1::encrypt_n(const byte in[], byte out[], size_t blocks) const B1 ^= T0; } - B1 ^= B0 & EK[96]; - B0 ^= B1 | EK[97]; - B3 ^= B2 & EK[98]; - B2 ^= B3 | EK[99]; + B1 ^= B0 & m_EK[96]; + B0 ^= B1 | m_EK[97]; + B3 ^= B2 & m_EK[98]; + B2 ^= B3 | m_EK[99]; store_be(out, B2, B3, B0, B1); @@ -163,7 +163,7 @@ void MISTY1::decrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 12; j += 3) { - const u16bit* RK = &DK[8 * j]; + const u16bit* RK = &m_DK[8 * j]; B2 ^= B3 | RK[0]; B3 ^= B2 & RK[1]; @@ -187,10 +187,10 @@ void MISTY1::decrypt_n(const byte in[], byte out[], size_t blocks) const B3 ^= T0; } - B2 ^= B3 | DK[96]; - B3 ^= B2 & DK[97]; - B0 ^= B1 | DK[98]; - B1 ^= B0 & DK[99]; + B2 ^= B3 | m_DK[96]; + B3 ^= B2 & m_DK[97]; + B0 ^= B1 | m_DK[98]; + B1 ^= B0 & m_DK[99]; store_be(out, B0, B1, B2, B3); @@ -241,20 +241,20 @@ void MISTY1::key_schedule(const byte key[], size_t length) 0x1C, 0x05, 0x00, 0x15, 0x1D, 0x02, 0x11, 0x19, 0x07, 0x13, 0x1B, 0x04, 0x04, 0x0A, 0x0E, 0x00 }; - EK.resize(100); - DK.resize(100); + m_EK.resize(100); + m_DK.resize(100); for(size_t i = 0; i != 100; ++i) { - EK[i] = KS[EK_ORDER[i]]; - DK[i] = KS[DK_ORDER[i]]; + m_EK[i] = KS[EK_ORDER[i]]; + m_DK[i] = KS[DK_ORDER[i]]; } } void MISTY1::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } } diff --git a/src/lib/block/misty1/misty1.h b/src/lib/block/misty1/misty1.h index 56153f929..5c7754086 100644 --- a/src/lib/block/misty1/misty1.h +++ b/src/lib/block/misty1/misty1.h @@ -27,7 +27,7 @@ class BOTAN_DLL MISTY1 : public Block_Cipher_Fixed_Params<8, 16> private: void key_schedule(const byte[], size_t) override; - secure_vector<u16bit> EK, DK; + secure_vector<u16bit> m_EK, m_DK; }; } diff --git a/src/lib/block/noekeon/noekeon.cpp b/src/lib/block/noekeon/noekeon.cpp index d63ec3129..01f7491f3 100644 --- a/src/lib/block/noekeon/noekeon.cpp +++ b/src/lib/block/noekeon/noekeon.cpp @@ -95,7 +95,7 @@ void Noekeon::encrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 16; ++j) { A0 ^= RC[j]; - theta(A0, A1, A2, A3, EK.data()); + theta(A0, A1, A2, A3, m_EK.data()); A1 = rotate_left(A1, 1); A2 = rotate_left(A2, 5); @@ -109,7 +109,7 @@ void Noekeon::encrypt_n(const byte in[], byte out[], size_t blocks) const } A0 ^= RC[16]; - theta(A0, A1, A2, A3, EK.data()); + theta(A0, A1, A2, A3, m_EK.data()); store_be(out, A0, A1, A2, A3); @@ -132,7 +132,7 @@ void Noekeon::decrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 16; j != 0; --j) { - theta(A0, A1, A2, A3, DK.data()); + theta(A0, A1, A2, A3, m_DK.data()); A0 ^= RC[j]; A1 = rotate_left(A1, 1); @@ -146,7 +146,7 @@ void Noekeon::decrypt_n(const byte in[], byte out[], size_t blocks) const A3 = rotate_right(A3, 2); } - theta(A0, A1, A2, A3, DK.data()); + theta(A0, A1, A2, A3, m_DK.data()); A0 ^= RC[0]; store_be(out, A0, A1, A2, A3); @@ -184,19 +184,19 @@ void Noekeon::key_schedule(const byte key[], size_t) A0 ^= RC[16]; - DK.resize(4); - DK[0] = A0; - DK[1] = A1; - DK[2] = A2; - DK[3] = A3; + m_DK.resize(4); + m_DK[0] = A0; + m_DK[1] = A1; + m_DK[2] = A2; + m_DK[3] = A3; theta(A0, A1, A2, A3); - EK.resize(4); - EK[0] = A0; - EK[1] = A1; - EK[2] = A2; - EK[3] = A3; + m_EK.resize(4); + m_EK[0] = A0; + m_EK[1] = A1; + m_EK[2] = A2; + m_EK[3] = A3; } /* @@ -204,8 +204,8 @@ void Noekeon::key_schedule(const byte key[], size_t) */ void Noekeon::clear() { - zap(EK); - zap(DK); + zap(m_EK); + zap(m_DK); } } diff --git a/src/lib/block/noekeon/noekeon.h b/src/lib/block/noekeon/noekeon.h index 7b5b6d11b..4a3b9de0c 100644 --- a/src/lib/block/noekeon/noekeon.h +++ b/src/lib/block/noekeon/noekeon.h @@ -33,16 +33,16 @@ class BOTAN_DLL Noekeon : public Block_Cipher_Fixed_Params<16, 16> /** * @return const reference to encryption subkeys */ - const secure_vector<u32bit>& get_EK() const { return EK; } + const secure_vector<u32bit>& get_EK() const { return m_EK; } /** * @return const reference to decryption subkeys */ - const secure_vector<u32bit>& get_DK() const { return DK; } + const secure_vector<u32bit>& get_DK() const { return m_DK; } private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK, DK; + secure_vector<u32bit> m_EK, m_DK; }; } diff --git a/src/lib/block/rc2/rc2.cpp b/src/lib/block/rc2/rc2.cpp index bcd8475e3..112c6561d 100644 --- a/src/lib/block/rc2/rc2.cpp +++ b/src/lib/block/rc2/rc2.cpp @@ -24,24 +24,24 @@ void RC2::encrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 16; ++j) { - R0 += (R1 & ~R3) + (R2 & R3) + K[4*j]; + R0 += (R1 & ~R3) + (R2 & R3) + m_K[4*j]; R0 = rotate_left(R0, 1); - R1 += (R2 & ~R0) + (R3 & R0) + K[4*j + 1]; + R1 += (R2 & ~R0) + (R3 & R0) + m_K[4*j + 1]; R1 = rotate_left(R1, 2); - R2 += (R3 & ~R1) + (R0 & R1) + K[4*j + 2]; + R2 += (R3 & ~R1) + (R0 & R1) + m_K[4*j + 2]; R2 = rotate_left(R2, 3); - R3 += (R0 & ~R2) + (R1 & R2) + K[4*j + 3]; + R3 += (R0 & ~R2) + (R1 & R2) + m_K[4*j + 3]; R3 = rotate_left(R3, 5); if(j == 4 || j == 10) { - R0 += K[R3 % 64]; - R1 += K[R0 % 64]; - R2 += K[R1 % 64]; - R3 += K[R2 % 64]; + R0 += m_K[R3 % 64]; + R1 += m_K[R0 % 64]; + R2 += m_K[R1 % 64]; + R3 += m_K[R2 % 64]; } } @@ -67,23 +67,23 @@ void RC2::decrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 16; ++j) { R3 = rotate_right(R3, 5); - R3 -= (R0 & ~R2) + (R1 & R2) + K[63 - (4*j + 0)]; + R3 -= (R0 & ~R2) + (R1 & R2) + m_K[63 - (4*j + 0)]; R2 = rotate_right(R2, 3); - R2 -= (R3 & ~R1) + (R0 & R1) + K[63 - (4*j + 1)]; + R2 -= (R3 & ~R1) + (R0 & R1) + m_K[63 - (4*j + 1)]; R1 = rotate_right(R1, 2); - R1 -= (R2 & ~R0) + (R3 & R0) + K[63 - (4*j + 2)]; + R1 -= (R2 & ~R0) + (R3 & R0) + m_K[63 - (4*j + 2)]; R0 = rotate_right(R0, 1); - R0 -= (R1 & ~R3) + (R2 & R3) + K[63 - (4*j + 3)]; + R0 -= (R1 & ~R3) + (R2 & R3) + m_K[63 - (4*j + 3)]; if(j == 4 || j == 10) { - R3 -= K[R2 % 64]; - R2 -= K[R1 % 64]; - R1 -= K[R0 % 64]; - R0 -= K[R3 % 64]; + R3 -= m_K[R2 % 64]; + R2 -= m_K[R1 % 64]; + R1 -= m_K[R0 % 64]; + R0 -= m_K[R3 % 64]; } } @@ -134,13 +134,13 @@ void RC2::key_schedule(const byte key[], size_t length) for(s32bit i = 127-length; i >= 0; --i) L[i] = TABLE[L[i+1] ^ L[i+length]]; - K.resize(64); - load_le<u16bit>(K.data(), L.data(), 64); + m_K.resize(64); + load_le<u16bit>(m_K.data(), L.data(), 64); } void RC2::clear() { - zap(K); + zap(m_K); } /* diff --git a/src/lib/block/rc2/rc2.h b/src/lib/block/rc2/rc2.h index 11956f408..76391791a 100644 --- a/src/lib/block/rc2/rc2.h +++ b/src/lib/block/rc2/rc2.h @@ -34,7 +34,7 @@ class BOTAN_DLL RC2 : public Block_Cipher_Fixed_Params<8, 1, 32> private: void key_schedule(const byte[], size_t) override; - secure_vector<u16bit> K; + secure_vector<u16bit> m_K; }; } diff --git a/src/lib/block/rc5/rc5.cpp b/src/lib/block/rc5/rc5.cpp index a32efd775..a02a45e9f 100644 --- a/src/lib/block/rc5/rc5.cpp +++ b/src/lib/block/rc5/rc5.cpp @@ -21,20 +21,20 @@ void RC5::encrypt_n(const byte in[], byte out[], size_t blocks) const u32bit A = load_le<u32bit>(in, 0); u32bit B = load_le<u32bit>(in, 1); - A += S[0]; B += S[1]; - for(size_t j = 0; j != rounds; j += 4) + A += m_S[0]; B += m_S[1]; + for(size_t j = 0; j != m_rounds; j += 4) { - A = rotate_left(A ^ B, B % 32) + S[2*j+2]; - B = rotate_left(B ^ A, A % 32) + S[2*j+3]; + A = rotate_left(A ^ B, B % 32) + m_S[2*j+2]; + B = rotate_left(B ^ A, A % 32) + m_S[2*j+3]; - A = rotate_left(A ^ B, B % 32) + S[2*j+4]; - B = rotate_left(B ^ A, A % 32) + S[2*j+5]; + A = rotate_left(A ^ B, B % 32) + m_S[2*j+4]; + B = rotate_left(B ^ A, A % 32) + m_S[2*j+5]; - A = rotate_left(A ^ B, B % 32) + S[2*j+6]; - B = rotate_left(B ^ A, A % 32) + S[2*j+7]; + A = rotate_left(A ^ B, B % 32) + m_S[2*j+6]; + B = rotate_left(B ^ A, A % 32) + m_S[2*j+7]; - A = rotate_left(A ^ B, B % 32) + S[2*j+8]; - B = rotate_left(B ^ A, A % 32) + S[2*j+9]; + A = rotate_left(A ^ B, B % 32) + m_S[2*j+8]; + B = rotate_left(B ^ A, A % 32) + m_S[2*j+9]; } store_le(out, A, B); @@ -54,21 +54,21 @@ void RC5::decrypt_n(const byte in[], byte out[], size_t blocks) const u32bit A = load_le<u32bit>(in, 0); u32bit B = load_le<u32bit>(in, 1); - for(size_t j = rounds; j != 0; j -= 4) + for(size_t j = m_rounds; j != 0; j -= 4) { - B = rotate_right(B - S[2*j+1], A % 32) ^ A; - A = rotate_right(A - S[2*j ], B % 32) ^ B; + B = rotate_right(B - m_S[2*j+1], A % 32) ^ A; + A = rotate_right(A - m_S[2*j ], B % 32) ^ B; - B = rotate_right(B - S[2*j-1], A % 32) ^ A; - A = rotate_right(A - S[2*j-2], B % 32) ^ B; + B = rotate_right(B - m_S[2*j-1], A % 32) ^ A; + A = rotate_right(A - m_S[2*j-2], B % 32) ^ B; - B = rotate_right(B - S[2*j-3], A % 32) ^ A; - A = rotate_right(A - S[2*j-4], B % 32) ^ B; + B = rotate_right(B - m_S[2*j-3], A % 32) ^ A; + A = rotate_right(A - m_S[2*j-4], B % 32) ^ B; - B = rotate_right(B - S[2*j-5], A % 32) ^ A; - A = rotate_right(A - S[2*j-6], B % 32) ^ B; + B = rotate_right(B - m_S[2*j-5], A % 32) ^ A; + A = rotate_right(A - m_S[2*j-6], B % 32) ^ B; } - B -= S[1]; A -= S[0]; + B -= m_S[1]; A -= m_S[0]; store_le(out, A, B); @@ -82,14 +82,14 @@ void RC5::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void RC5::key_schedule(const byte key[], size_t length) { - S.resize(2*rounds + 2); + m_S.resize(2*m_rounds + 2); const size_t WORD_KEYLENGTH = (((length - 1) / 4) + 1); - const size_t MIX_ROUNDS = 3 * std::max(WORD_KEYLENGTH, S.size()); + const size_t MIX_ROUNDS = 3 * std::max(WORD_KEYLENGTH, m_S.size()); - S[0] = 0xB7E15163; - for(size_t i = 1; i != S.size(); ++i) - S[i] = S[i-1] + 0x9E3779B9; + m_S[0] = 0xB7E15163; + for(size_t i = 1; i != m_S.size(); ++i) + m_S[i] = m_S[i-1] + 0x9E3779B9; secure_vector<u32bit> K(8); @@ -100,16 +100,16 @@ void RC5::key_schedule(const byte key[], size_t length) for(size_t i = 0; i != MIX_ROUNDS; ++i) { - A = rotate_left(S[i % S.size()] + A + B, 3); + A = rotate_left(m_S[i % m_S.size()] + A + B, 3); B = rotate_left(K[i % WORD_KEYLENGTH] + A + B, (A + B) % 32); - S[i % S.size()] = A; + m_S[i % m_S.size()] = A; K[i % WORD_KEYLENGTH] = B; } } void RC5::clear() { - zap(S); + zap(m_S); } /* @@ -117,17 +117,17 @@ void RC5::clear() */ std::string RC5::name() const { - return "RC5(" + std::to_string(rounds) + ")"; + return "RC5(" + std::to_string(m_rounds) + ")"; } /* * RC5 Constructor */ -RC5::RC5(size_t r) : rounds(r) +RC5::RC5(size_t r) : m_rounds(r) { - if(rounds < 8 || rounds > 32 || (rounds % 4 != 0)) + if(m_rounds < 8 || m_rounds > 32 || (m_rounds % 4 != 0)) throw Invalid_Argument("RC5: Invalid number of rounds " + - std::to_string(rounds)); + std::to_string(m_rounds)); } } diff --git a/src/lib/block/rc5/rc5.h b/src/lib/block/rc5/rc5.h index b8ff1c3f7..cb76d51f1 100644 --- a/src/lib/block/rc5/rc5.h +++ b/src/lib/block/rc5/rc5.h @@ -23,7 +23,7 @@ class BOTAN_DLL RC5 : public Block_Cipher_Fixed_Params<8, 1, 32> void clear() override; std::string name() const override; - BlockCipher* clone() const override { return new RC5(rounds); } + BlockCipher* clone() const override { return new RC5(m_rounds); } /** * @param rounds the number of RC5 rounds to run. Must be between @@ -33,8 +33,8 @@ class BOTAN_DLL RC5 : public Block_Cipher_Fixed_Params<8, 1, 32> private: void key_schedule(const byte[], size_t) override; - size_t rounds; - secure_vector<u32bit> S; + size_t m_rounds; + secure_vector<u32bit> m_S; }; } diff --git a/src/lib/block/rc6/rc6.cpp b/src/lib/block/rc6/rc6.cpp index 48fb1c32e..426b86ebd 100644 --- a/src/lib/block/rc6/rc6.cpp +++ b/src/lib/block/rc6/rc6.cpp @@ -22,7 +22,7 @@ void RC6::encrypt_n(const byte in[], byte out[], size_t blocks) const u32bit C = load_le<u32bit>(in, 2); u32bit D = load_le<u32bit>(in, 3); - B += S[0]; D += S[1]; + B += m_S[0]; D += m_S[1]; for(size_t j = 0; j != 20; j += 4) { @@ -30,26 +30,26 @@ void RC6::encrypt_n(const byte in[], byte out[], size_t blocks) const T1 = rotate_left(B*(2*B+1), 5); T2 = rotate_left(D*(2*D+1), 5); - A = rotate_left(A ^ T1, T2 % 32) + S[2*j+2]; - C = rotate_left(C ^ T2, T1 % 32) + S[2*j+3]; + A = rotate_left(A ^ T1, T2 % 32) + m_S[2*j+2]; + C = rotate_left(C ^ T2, T1 % 32) + m_S[2*j+3]; T1 = rotate_left(C*(2*C+1), 5); T2 = rotate_left(A*(2*A+1), 5); - B = rotate_left(B ^ T1, T2 % 32) + S[2*j+4]; - D = rotate_left(D ^ T2, T1 % 32) + S[2*j+5]; + B = rotate_left(B ^ T1, T2 % 32) + m_S[2*j+4]; + D = rotate_left(D ^ T2, T1 % 32) + m_S[2*j+5]; T1 = rotate_left(D*(2*D+1), 5); T2 = rotate_left(B*(2*B+1), 5); - C = rotate_left(C ^ T1, T2 % 32) + S[2*j+6]; - A = rotate_left(A ^ T2, T1 % 32) + S[2*j+7]; + C = rotate_left(C ^ T1, T2 % 32) + m_S[2*j+6]; + A = rotate_left(A ^ T2, T1 % 32) + m_S[2*j+7]; T1 = rotate_left(A*(2*A+1), 5); T2 = rotate_left(C*(2*C+1), 5); - D = rotate_left(D ^ T1, T2 % 32) + S[2*j+8]; - B = rotate_left(B ^ T2, T1 % 32) + S[2*j+9]; + D = rotate_left(D ^ T1, T2 % 32) + m_S[2*j+8]; + B = rotate_left(B ^ T2, T1 % 32) + m_S[2*j+9]; } - A += S[42]; C += S[43]; + A += m_S[42]; C += m_S[43]; store_le(out, A, B, C, D); @@ -70,7 +70,7 @@ void RC6::decrypt_n(const byte in[], byte out[], size_t blocks) const u32bit C = load_le<u32bit>(in, 2); u32bit D = load_le<u32bit>(in, 3); - C -= S[43]; A -= S[42]; + C -= m_S[43]; A -= m_S[42]; for(size_t j = 0; j != 20; j += 4) { @@ -78,26 +78,26 @@ void RC6::decrypt_n(const byte in[], byte out[], size_t blocks) const T1 = rotate_left(A*(2*A+1), 5); T2 = rotate_left(C*(2*C+1), 5); - B = rotate_right(B - S[41 - 2*j], T1 % 32) ^ T2; - D = rotate_right(D - S[40 - 2*j], T2 % 32) ^ T1; + B = rotate_right(B - m_S[41 - 2*j], T1 % 32) ^ T2; + D = rotate_right(D - m_S[40 - 2*j], T2 % 32) ^ T1; T1 = rotate_left(D*(2*D+1), 5); T2 = rotate_left(B*(2*B+1), 5); - A = rotate_right(A - S[39 - 2*j], T1 % 32) ^ T2; - C = rotate_right(C - S[38 - 2*j], T2 % 32) ^ T1; + A = rotate_right(A - m_S[39 - 2*j], T1 % 32) ^ T2; + C = rotate_right(C - m_S[38 - 2*j], T2 % 32) ^ T1; T1 = rotate_left(C*(2*C+1), 5); T2 = rotate_left(A*(2*A+1), 5); - D = rotate_right(D - S[37 - 2*j], T1 % 32) ^ T2; - B = rotate_right(B - S[36 - 2*j], T2 % 32) ^ T1; + D = rotate_right(D - m_S[37 - 2*j], T1 % 32) ^ T2; + B = rotate_right(B - m_S[36 - 2*j], T2 % 32) ^ T1; T1 = rotate_left(B*(2*B+1), 5); T2 = rotate_left(D*(2*D+1), 5); - C = rotate_right(C - S[35 - 2*j], T1 % 32) ^ T2; - A = rotate_right(A - S[34 - 2*j], T2 % 32) ^ T1; + C = rotate_right(C - m_S[35 - 2*j], T1 % 32) ^ T2; + A = rotate_right(A - m_S[34 - 2*j], T2 % 32) ^ T1; } - D -= S[1]; B -= S[0]; + D -= m_S[1]; B -= m_S[0]; store_le(out, A, B, C, D); @@ -111,14 +111,14 @@ void RC6::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void RC6::key_schedule(const byte key[], size_t length) { - S.resize(44); + m_S.resize(44); const size_t WORD_KEYLENGTH = (((length - 1) / 4) + 1); - const size_t MIX_ROUNDS = 3 * std::max(WORD_KEYLENGTH, S.size()); + const size_t MIX_ROUNDS = 3 * std::max(WORD_KEYLENGTH, m_S.size()); - S[0] = 0xB7E15163; - for(size_t i = 1; i != S.size(); ++i) - S[i] = S[i-1] + 0x9E3779B9; + m_S[0] = 0xB7E15163; + for(size_t i = 1; i != m_S.size(); ++i) + m_S[i] = m_S[i-1] + 0x9E3779B9; secure_vector<u32bit> K(8); @@ -128,16 +128,16 @@ void RC6::key_schedule(const byte key[], size_t length) u32bit A = 0, B = 0; for(size_t i = 0; i != MIX_ROUNDS; ++i) { - A = rotate_left(S[i % S.size()] + A + B, 3); + A = rotate_left(m_S[i % m_S.size()] + A + B, 3); B = rotate_left(K[i % WORD_KEYLENGTH] + A + B, (A + B) % 32); - S[i % S.size()] = A; + m_S[i % m_S.size()] = A; K[i % WORD_KEYLENGTH] = B; } } void RC6::clear() { - zap(S); + zap(m_S); } } diff --git a/src/lib/block/rc6/rc6.h b/src/lib/block/rc6/rc6.h index 1ff7304ed..a84d06a9b 100644 --- a/src/lib/block/rc6/rc6.h +++ b/src/lib/block/rc6/rc6.h @@ -27,7 +27,7 @@ class BOTAN_DLL RC6 : public Block_Cipher_Fixed_Params<16, 1, 32> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> S; + secure_vector<u32bit> m_S; }; } diff --git a/src/lib/block/safer/safer_sk.cpp b/src/lib/block/safer/safer_sk.cpp index a8781697d..8dec0b897 100644 --- a/src/lib/block/safer/safer_sk.cpp +++ b/src/lib/block/safer/safer_sk.cpp @@ -94,15 +94,15 @@ void SAFER_SK::encrypt_n(const byte in[], byte out[], size_t blocks) const byte A = in[0], B = in[1], C = in[2], D = in[3], E = in[4], F = in[5], G = in[6], H = in[7], X, Y; - for(size_t j = 0; j != 16*rounds; j += 16) + for(size_t j = 0; j != 16*m_rounds; j += 16) { - A = EXP[A ^ EK[j ]]; B = LOG[B + EK[j+1]]; - C = LOG[C + EK[j+2]]; D = EXP[D ^ EK[j+3]]; - E = EXP[E ^ EK[j+4]]; F = LOG[F + EK[j+5]]; - G = LOG[G + EK[j+6]]; H = EXP[H ^ EK[j+7]]; + A = EXP[A ^ m_EK[j ]]; B = LOG[B + m_EK[j+1]]; + C = LOG[C + m_EK[j+2]]; D = EXP[D ^ m_EK[j+3]]; + E = EXP[E ^ m_EK[j+4]]; F = LOG[F + m_EK[j+5]]; + G = LOG[G + m_EK[j+6]]; H = EXP[H ^ m_EK[j+7]]; - A += EK[j+ 8]; B ^= EK[j+ 9]; C ^= EK[j+10]; D += EK[j+11]; - E += EK[j+12]; F ^= EK[j+13]; G ^= EK[j+14]; H += EK[j+15]; + A += m_EK[j+ 8]; B ^= m_EK[j+ 9]; C ^= m_EK[j+10]; D += m_EK[j+11]; + E += m_EK[j+12]; F ^= m_EK[j+13]; G ^= m_EK[j+14]; H += m_EK[j+15]; B += A; D += C; F += E; H += G; A += B; C += D; E += F; G += H; C += A; G += E; D += B; H += F; A += C; E += G; B += D; F += H; @@ -110,10 +110,10 @@ void SAFER_SK::encrypt_n(const byte in[], byte out[], size_t blocks) const A += B; F = C + G; E = C + F; C = X; G = Y; } - out[0] = A ^ EK[16*rounds+0]; out[1] = B + EK[16*rounds+1]; - out[2] = C + EK[16*rounds+2]; out[3] = D ^ EK[16*rounds+3]; - out[4] = E ^ EK[16*rounds+4]; out[5] = F + EK[16*rounds+5]; - out[6] = G + EK[16*rounds+6]; out[7] = H ^ EK[16*rounds+7]; + out[0] = A ^ m_EK[16*m_rounds+0]; out[1] = B + m_EK[16*m_rounds+1]; + out[2] = C + m_EK[16*m_rounds+2]; out[3] = D ^ m_EK[16*m_rounds+3]; + out[4] = E ^ m_EK[16*m_rounds+4]; out[5] = F + m_EK[16*m_rounds+5]; + out[6] = G + m_EK[16*m_rounds+6]; out[7] = H ^ m_EK[16*m_rounds+7]; in += BLOCK_SIZE; out += BLOCK_SIZE; @@ -130,24 +130,24 @@ void SAFER_SK::decrypt_n(const byte in[], byte out[], size_t blocks) const byte A = in[0], B = in[1], C = in[2], D = in[3], E = in[4], F = in[5], G = in[6], H = in[7]; - A ^= EK[16*rounds+0]; B -= EK[16*rounds+1]; C -= EK[16*rounds+2]; - D ^= EK[16*rounds+3]; E ^= EK[16*rounds+4]; F -= EK[16*rounds+5]; - G -= EK[16*rounds+6]; H ^= EK[16*rounds+7]; + A ^= m_EK[16*m_rounds+0]; B -= m_EK[16*m_rounds+1]; C -= m_EK[16*m_rounds+2]; + D ^= m_EK[16*m_rounds+3]; E ^= m_EK[16*m_rounds+4]; F -= m_EK[16*m_rounds+5]; + G -= m_EK[16*m_rounds+6]; H ^= m_EK[16*m_rounds+7]; - for(s32bit j = 16*(rounds-1); j >= 0; j -= 16) + for(s32bit j = 16*(m_rounds-1); j >= 0; j -= 16) { byte T = E; E = B; B = C; C = T; T = F; F = D; D = G; G = T; A -= E; B -= F; C -= G; D -= H; E -= A; F -= B; G -= C; H -= D; A -= C; E -= G; B -= D; F -= H; C -= A; G -= E; D -= B; H -= F; A -= B; C -= D; E -= F; G -= H; B -= A; D -= C; F -= E; H -= G; - A = LOG[A - EK[j+8 ] + 256]; B = EXP[B ^ EK[j+9 ]]; - C = EXP[C ^ EK[j+10]]; D = LOG[D - EK[j+11] + 256]; - E = LOG[E - EK[j+12] + 256]; F = EXP[F ^ EK[j+13]]; - G = EXP[G ^ EK[j+14]]; H = LOG[H - EK[j+15] + 256]; + A = LOG[A - m_EK[j+8 ] + 256]; B = EXP[B ^ m_EK[j+9 ]]; + C = EXP[C ^ m_EK[j+10]]; D = LOG[D - m_EK[j+11] + 256]; + E = LOG[E - m_EK[j+12] + 256]; F = EXP[F ^ m_EK[j+13]]; + G = EXP[G ^ m_EK[j+14]]; H = LOG[H - m_EK[j+15] + 256]; - A ^= EK[j+0]; B -= EK[j+1]; C -= EK[j+2]; D ^= EK[j+3]; - E ^= EK[j+4]; F -= EK[j+5]; G -= EK[j+6]; H ^= EK[j+7]; + A ^= m_EK[j+0]; B -= m_EK[j+1]; C -= m_EK[j+2]; D ^= m_EK[j+3]; + E ^= m_EK[j+4]; F -= m_EK[j+5]; G -= m_EK[j+6]; H ^= m_EK[j+7]; } out[0] = A; out[1] = B; out[2] = C; out[3] = D; @@ -203,28 +203,28 @@ void SAFER_SK::key_schedule(const byte key[], size_t) 0x07, 0x08, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x11, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F }; - EK.resize(16 * rounds + 8); + m_EK.resize(16 * m_rounds + 8); secure_vector<byte> KB(18); for(size_t i = 0; i != 8; ++i) { KB[ 8] ^= KB[i] = rotate_left(key[i], 5); - KB[17] ^= KB[i+9] = EK[i] = key[i+8]; + KB[17] ^= KB[i+9] = m_EK[i] = key[i+8]; } - for(size_t i = 0; i != rounds; ++i) + for(size_t i = 0; i != m_rounds; ++i) { for(size_t j = 0; j != 18; ++j) KB[j] = rotate_left(KB[j], 6); for(size_t j = 0; j != 16; ++j) - EK[16*i+j+8] = KB[KEY_INDEX[16*i+j]] + BIAS[16*i+j]; + m_EK[16*i+j+8] = KB[KEY_INDEX[16*i+j]] + BIAS[16*i+j]; } } void SAFER_SK::clear() { - zap(EK); + zap(m_EK); } /* @@ -232,7 +232,7 @@ void SAFER_SK::clear() */ std::string SAFER_SK::name() const { - return "SAFER-SK(" + std::to_string(rounds) + ")"; + return "SAFER-SK(" + std::to_string(m_rounds) + ")"; } /* @@ -240,15 +240,15 @@ std::string SAFER_SK::name() const */ BlockCipher* SAFER_SK::clone() const { - return new SAFER_SK(rounds); + return new SAFER_SK(m_rounds); } /* * SAFER-SK Constructor */ -SAFER_SK::SAFER_SK(size_t r) : rounds(r) +SAFER_SK::SAFER_SK(size_t r) : m_rounds(r) { - if(rounds > 13 || rounds == 0) + if(m_rounds > 13 || m_rounds == 0) throw Invalid_Argument(name() + ": Invalid number of rounds"); } diff --git a/src/lib/block/safer/safer_sk.h b/src/lib/block/safer/safer_sk.h index 74241d4e6..2746963c4 100644 --- a/src/lib/block/safer/safer_sk.h +++ b/src/lib/block/safer/safer_sk.h @@ -33,8 +33,8 @@ class BOTAN_DLL SAFER_SK : public Block_Cipher_Fixed_Params<8, 16> private: void key_schedule(const byte[], size_t) override; - size_t rounds; - secure_vector<byte> EK; + size_t m_rounds; + secure_vector<byte> m_EK; }; } diff --git a/src/lib/block/seed/seed.cpp b/src/lib/block/seed/seed.cpp index 23e2a18c0..6e0aaa41f 100644 --- a/src/lib/block/seed/seed.cpp +++ b/src/lib/block/seed/seed.cpp @@ -219,15 +219,15 @@ void SEED::encrypt_n(const byte in[], byte out[], size_t blocks) const { u32bit T0, T1; - T0 = B2 ^ K[2*j]; - T1 = SEED_G(B2 ^ B3 ^ K[2*j+1]); + T0 = B2 ^ m_K[2*j]; + T1 = SEED_G(B2 ^ B3 ^ m_K[2*j+1]); T0 = SEED_G(T1 + T0); T1 = SEED_G(T1 + T0); B1 ^= T1; B0 ^= T0 + T1; - T0 = B0 ^ K[2*j+2]; - T1 = SEED_G(B0 ^ B1 ^ K[2*j+3]); + T0 = B0 ^ m_K[2*j+2]; + T1 = SEED_G(B0 ^ B1 ^ m_K[2*j+3]); T0 = SEED_G(T1 + T0); T1 = SEED_G(T1 + T0); B3 ^= T1; @@ -257,15 +257,15 @@ void SEED::decrypt_n(const byte in[], byte out[], size_t blocks) const { u32bit T0, T1; - T0 = B2 ^ K[30-2*j]; - T1 = SEED_G(B2 ^ B3 ^ K[31-2*j]); + T0 = B2 ^ m_K[30-2*j]; + T1 = SEED_G(B2 ^ B3 ^ m_K[31-2*j]); T0 = SEED_G(T1 + T0); T1 = SEED_G(T1 + T0); B1 ^= T1; B0 ^= T0 + T1; - T0 = B0 ^ K[28-2*j]; - T1 = SEED_G(B0 ^ B1 ^ K[29-2*j]); + T0 = B0 ^ m_K[28-2*j]; + T1 = SEED_G(B0 ^ B1 ^ m_K[29-2*j]); T0 = SEED_G(T1 + T0); T1 = SEED_G(T1 + T0); B3 ^= T1; @@ -296,19 +296,19 @@ void SEED::key_schedule(const byte key[], size_t) for(size_t i = 0; i != 4; ++i) WK[i] = load_be<u32bit>(key, i); - K.resize(32); + m_K.resize(32); for(size_t i = 0; i != 16; i += 2) { - K[2*i ] = SEED_G(WK[0] + WK[2] - RC[i]); - K[2*i+1] = SEED_G(WK[1] - WK[3] + RC[i]) ^ K[2*i]; + m_K[2*i ] = SEED_G(WK[0] + WK[2] - RC[i]); + m_K[2*i+1] = SEED_G(WK[1] - WK[3] + RC[i]) ^ m_K[2*i]; byte T = get_byte(3, WK[0]); WK[0] = (WK[0] >> 8) | (get_byte(3, WK[1]) << 24); WK[1] = (WK[1] >> 8) | (T << 24); - K[2*i+2] = SEED_G(WK[0] + WK[2] - RC[i+1]); - K[2*i+3] = SEED_G(WK[1] - WK[3] + RC[i+1]) ^ K[2*i+2]; + m_K[2*i+2] = SEED_G(WK[0] + WK[2] - RC[i+1]); + m_K[2*i+3] = SEED_G(WK[1] - WK[3] + RC[i+1]) ^ m_K[2*i+2]; T = get_byte(0, WK[3]); WK[3] = (WK[3] << 8) | get_byte(0, WK[2]); @@ -318,7 +318,7 @@ void SEED::key_schedule(const byte key[], size_t) void SEED::clear() { - zap(K); + zap(m_K); } } diff --git a/src/lib/block/seed/seed.h b/src/lib/block/seed/seed.h index 299b0c398..66462e7d7 100644 --- a/src/lib/block/seed/seed.h +++ b/src/lib/block/seed/seed.h @@ -27,7 +27,7 @@ class BOTAN_DLL SEED : public Block_Cipher_Fixed_Params<16, 16> private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> K; + secure_vector<u32bit> m_K; }; } diff --git a/src/lib/block/serpent/serpent.cpp b/src/lib/block/serpent/serpent.cpp index c0a65ed33..c35e3e338 100644 --- a/src/lib/block/serpent/serpent.cpp +++ b/src/lib/block/serpent/serpent.cpp @@ -43,10 +43,10 @@ inline void i_transform(u32bit& B0, u32bit& B1, u32bit& B2, u32bit& B3) * XOR a key block with a data block */ #define key_xor(round, B0, B1, B2, B3) \ - B0 ^= round_key[4*round ]; \ - B1 ^= round_key[4*round+1]; \ - B2 ^= round_key[4*round+2]; \ - B3 ^= round_key[4*round+3]; + B0 ^= m_round_key[4*round ]; \ + B1 ^= m_round_key[4*round+1]; \ + B2 ^= m_round_key[4*round+2]; \ + B3 ^= m_round_key[4*round+3]; /* * Serpent Encryption @@ -193,12 +193,12 @@ void Serpent::key_schedule(const byte key[], size_t length) SBoxE6(W[128],W[129],W[130],W[131]); SBoxE5(W[132],W[133],W[134],W[135]); SBoxE4(W[136],W[137],W[138],W[139]); - round_key.assign(W.begin() + 8, W.end()); + m_round_key.assign(W.begin() + 8, W.end()); } void Serpent::clear() { - zap(round_key); + zap(m_round_key); } } diff --git a/src/lib/block/serpent/serpent.h b/src/lib/block/serpent/serpent.h index 7fdf4600d..b9864cf89 100644 --- a/src/lib/block/serpent/serpent.h +++ b/src/lib/block/serpent/serpent.h @@ -30,7 +30,7 @@ class BOTAN_DLL Serpent : public Block_Cipher_Fixed_Params<16, 16, 32, 8> * @return const reference to the key schedule */ const secure_vector<u32bit>& get_round_keys() const - { return round_key; } + { return m_round_key; } /** * For use by subclasses that implement the key schedule @@ -38,12 +38,12 @@ class BOTAN_DLL Serpent : public Block_Cipher_Fixed_Params<16, 16, 32, 8> */ void set_round_keys(const u32bit ks[132]) { - round_key.assign(&ks[0], &ks[132]); + m_round_key.assign(&ks[0], &ks[132]); } private: void key_schedule(const byte key[], size_t length) override; - secure_vector<u32bit> round_key; + secure_vector<u32bit> m_round_key; }; } diff --git a/src/lib/block/tea/tea.cpp b/src/lib/block/tea/tea.cpp index 01f342607..457171e1d 100644 --- a/src/lib/block/tea/tea.cpp +++ b/src/lib/block/tea/tea.cpp @@ -24,8 +24,8 @@ void TEA::encrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 32; ++j) { S += 0x9E3779B9; - L += ((R << 4) + K[0]) ^ (R + S) ^ ((R >> 5) + K[1]); - R += ((L << 4) + K[2]) ^ (L + S) ^ ((L >> 5) + K[3]); + L += ((R << 4) + m_K[0]) ^ (R + S) ^ ((R >> 5) + m_K[1]); + R += ((L << 4) + m_K[2]) ^ (L + S) ^ ((L >> 5) + m_K[3]); } store_be(out, L, R); @@ -48,8 +48,8 @@ void TEA::decrypt_n(const byte in[], byte out[], size_t blocks) const u32bit S = 0xC6EF3720; for(size_t j = 0; j != 32; ++j) { - R -= ((L << 4) + K[2]) ^ (L + S) ^ ((L >> 5) + K[3]); - L -= ((R << 4) + K[0]) ^ (R + S) ^ ((R >> 5) + K[1]); + R -= ((L << 4) + m_K[2]) ^ (L + S) ^ ((L >> 5) + m_K[3]); + L -= ((R << 4) + m_K[0]) ^ (R + S) ^ ((R >> 5) + m_K[1]); S -= 0x9E3779B9; } @@ -65,14 +65,14 @@ void TEA::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void TEA::key_schedule(const byte key[], size_t) { - K.resize(4); + m_K.resize(4); for(size_t i = 0; i != 4; ++i) - K[i] = load_be<u32bit>(key, i); + m_K[i] = load_be<u32bit>(key, i); } void TEA::clear() { - zap(K); + zap(m_K); } } diff --git a/src/lib/block/tea/tea.h b/src/lib/block/tea/tea.h index 3c5b4773e..fd2b5fe36 100644 --- a/src/lib/block/tea/tea.h +++ b/src/lib/block/tea/tea.h @@ -26,7 +26,7 @@ class BOTAN_DLL TEA : public Block_Cipher_Fixed_Params<8, 16> BlockCipher* clone() const override { return new TEA; } private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> K; + secure_vector<u32bit> m_K; }; } diff --git a/src/lib/block/twofish/twofish.cpp b/src/lib/block/twofish/twofish.cpp index ffdf4b198..336d73a03 100644 --- a/src/lib/block/twofish/twofish.cpp +++ b/src/lib/block/twofish/twofish.cpp @@ -21,42 +21,42 @@ void Twofish::encrypt_n(const byte in[], byte out[], size_t blocks) const { for(size_t i = 0; i != blocks; ++i) { - u32bit A = load_le<u32bit>(in, 0) ^ RK[0]; - u32bit B = load_le<u32bit>(in, 1) ^ RK[1]; - u32bit C = load_le<u32bit>(in, 2) ^ RK[2]; - u32bit D = load_le<u32bit>(in, 3) ^ RK[3]; + u32bit A = load_le<u32bit>(in, 0) ^ m_RK[0]; + u32bit B = load_le<u32bit>(in, 1) ^ m_RK[1]; + u32bit C = load_le<u32bit>(in, 2) ^ m_RK[2]; + u32bit D = load_le<u32bit>(in, 3) ^ m_RK[3]; for(size_t j = 0; j != 16; j += 2) { u32bit X, Y; - X = SB[ get_byte(3, A)] ^ SB[256+get_byte(2, A)] ^ - SB[512+get_byte(1, A)] ^ SB[768+get_byte(0, A)]; - Y = SB[ get_byte(0, B)] ^ SB[256+get_byte(3, B)] ^ - SB[512+get_byte(2, B)] ^ SB[768+get_byte(1, B)]; + X = m_SB[ get_byte(3, A)] ^ m_SB[256+get_byte(2, A)] ^ + m_SB[512+get_byte(1, A)] ^ m_SB[768+get_byte(0, A)]; + Y = m_SB[ get_byte(0, B)] ^ m_SB[256+get_byte(3, B)] ^ + m_SB[512+get_byte(2, B)] ^ m_SB[768+get_byte(1, B)]; X += Y; - Y += X + RK[2*j + 9]; - X += RK[2*j + 8]; + Y += X + m_RK[2*j + 9]; + X += m_RK[2*j + 8]; C = rotate_right(C ^ X, 1); D = rotate_left(D, 1) ^ Y; - X = SB[ get_byte(3, C)] ^ SB[256+get_byte(2, C)] ^ - SB[512+get_byte(1, C)] ^ SB[768+get_byte(0, C)]; - Y = SB[ get_byte(0, D)] ^ SB[256+get_byte(3, D)] ^ - SB[512+get_byte(2, D)] ^ SB[768+get_byte(1, D)]; + X = m_SB[ get_byte(3, C)] ^ m_SB[256+get_byte(2, C)] ^ + m_SB[512+get_byte(1, C)] ^ m_SB[768+get_byte(0, C)]; + Y = m_SB[ get_byte(0, D)] ^ m_SB[256+get_byte(3, D)] ^ + m_SB[512+get_byte(2, D)] ^ m_SB[768+get_byte(1, D)]; X += Y; - Y += X + RK[2*j + 11]; - X += RK[2*j + 10]; + Y += X + m_RK[2*j + 11]; + X += m_RK[2*j + 10]; A = rotate_right(A ^ X, 1); B = rotate_left(B, 1) ^ Y; } - C ^= RK[4]; - D ^= RK[5]; - A ^= RK[6]; - B ^= RK[7]; + C ^= m_RK[4]; + D ^= m_RK[5]; + A ^= m_RK[6]; + B ^= m_RK[7]; store_le(out, C, D, A, B); @@ -72,42 +72,42 @@ void Twofish::decrypt_n(const byte in[], byte out[], size_t blocks) const { for(size_t i = 0; i != blocks; ++i) { - u32bit A = load_le<u32bit>(in, 0) ^ RK[4]; - u32bit B = load_le<u32bit>(in, 1) ^ RK[5]; - u32bit C = load_le<u32bit>(in, 2) ^ RK[6]; - u32bit D = load_le<u32bit>(in, 3) ^ RK[7]; + u32bit A = load_le<u32bit>(in, 0) ^ m_RK[4]; + u32bit B = load_le<u32bit>(in, 1) ^ m_RK[5]; + u32bit C = load_le<u32bit>(in, 2) ^ m_RK[6]; + u32bit D = load_le<u32bit>(in, 3) ^ m_RK[7]; for(size_t j = 0; j != 16; j += 2) { u32bit X, Y; - X = SB[ get_byte(3, A)] ^ SB[256+get_byte(2, A)] ^ - SB[512+get_byte(1, A)] ^ SB[768+get_byte(0, A)]; - Y = SB[ get_byte(0, B)] ^ SB[256+get_byte(3, B)] ^ - SB[512+get_byte(2, B)] ^ SB[768+get_byte(1, B)]; + X = m_SB[ get_byte(3, A)] ^ m_SB[256+get_byte(2, A)] ^ + m_SB[512+get_byte(1, A)] ^ m_SB[768+get_byte(0, A)]; + Y = m_SB[ get_byte(0, B)] ^ m_SB[256+get_byte(3, B)] ^ + m_SB[512+get_byte(2, B)] ^ m_SB[768+get_byte(1, B)]; X += Y; - Y += X + RK[39 - 2*j]; - X += RK[38 - 2*j]; + Y += X + m_RK[39 - 2*j]; + X += m_RK[38 - 2*j]; C = rotate_left(C, 1) ^ X; D = rotate_right(D ^ Y, 1); - X = SB[ get_byte(3, C)] ^ SB[256+get_byte(2, C)] ^ - SB[512+get_byte(1, C)] ^ SB[768+get_byte(0, C)]; - Y = SB[ get_byte(0, D)] ^ SB[256+get_byte(3, D)] ^ - SB[512+get_byte(2, D)] ^ SB[768+get_byte(1, D)]; + X = m_SB[ get_byte(3, C)] ^ m_SB[256+get_byte(2, C)] ^ + m_SB[512+get_byte(1, C)] ^ m_SB[768+get_byte(0, C)]; + Y = m_SB[ get_byte(0, D)] ^ m_SB[256+get_byte(3, D)] ^ + m_SB[512+get_byte(2, D)] ^ m_SB[768+get_byte(1, D)]; X += Y; - Y += X + RK[37 - 2*j]; - X += RK[36 - 2*j]; + Y += X + m_RK[37 - 2*j]; + X += m_RK[36 - 2*j]; A = rotate_left(A, 1) ^ X; B = rotate_right(B ^ Y, 1); } - C ^= RK[0]; - D ^= RK[1]; - A ^= RK[2]; - B ^= RK[3]; + C ^= m_RK[0]; + D ^= m_RK[1]; + A ^= m_RK[2]; + B ^= m_RK[3]; store_le(out, C, D, A, B); @@ -121,8 +121,8 @@ void Twofish::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void Twofish::key_schedule(const byte key[], size_t length) { - SB.resize(1024); - RK.resize(40); + m_SB.resize(1024); + m_RK.resize(40); secure_vector<byte> S(16); @@ -133,10 +133,10 @@ void Twofish::key_schedule(const byte key[], size_t length) { for(size_t i = 0; i != 256; ++i) { - SB[ i] = MDS0[Q0[Q0[i]^S[ 0]]^S[ 4]]; - SB[256+i] = MDS1[Q0[Q1[i]^S[ 1]]^S[ 5]]; - SB[512+i] = MDS2[Q1[Q0[i]^S[ 2]]^S[ 6]]; - SB[768+i] = MDS3[Q1[Q1[i]^S[ 3]]^S[ 7]]; + m_SB[ i] = MDS0[Q0[Q0[i]^S[ 0]]^S[ 4]]; + m_SB[256+i] = MDS1[Q0[Q1[i]^S[ 1]]^S[ 5]]; + m_SB[512+i] = MDS2[Q1[Q0[i]^S[ 2]]^S[ 6]]; + m_SB[768+i] = MDS3[Q1[Q1[i]^S[ 3]]^S[ 7]]; } for(size_t i = 0; i != 40; i += 2) @@ -152,18 +152,18 @@ void Twofish::key_schedule(const byte key[], size_t length) Y = rotate_left(Y, 8); X += Y; Y += X; - RK[i] = X; - RK[i+1] = rotate_left(Y, 9); + m_RK[i] = X; + m_RK[i+1] = rotate_left(Y, 9); } } else if(length == 24) { for(size_t i = 0; i != 256; ++i) { - SB[ i] = MDS0[Q0[Q0[Q1[i]^S[ 0]]^S[ 4]]^S[ 8]]; - SB[256+i] = MDS1[Q0[Q1[Q1[i]^S[ 1]]^S[ 5]]^S[ 9]]; - SB[512+i] = MDS2[Q1[Q0[Q0[i]^S[ 2]]^S[ 6]]^S[10]]; - SB[768+i] = MDS3[Q1[Q1[Q0[i]^S[ 3]]^S[ 7]]^S[11]]; + m_SB[ i] = MDS0[Q0[Q0[Q1[i]^S[ 0]]^S[ 4]]^S[ 8]]; + m_SB[256+i] = MDS1[Q0[Q1[Q1[i]^S[ 1]]^S[ 5]]^S[ 9]]; + m_SB[512+i] = MDS2[Q1[Q0[Q0[i]^S[ 2]]^S[ 6]]^S[10]]; + m_SB[768+i] = MDS3[Q1[Q1[Q0[i]^S[ 3]]^S[ 7]]^S[11]]; } for(size_t i = 0; i != 40; i += 2) @@ -179,18 +179,18 @@ void Twofish::key_schedule(const byte key[], size_t length) Y = rotate_left(Y, 8); X += Y; Y += X; - RK[i] = X; - RK[i+1] = rotate_left(Y, 9); + m_RK[i] = X; + m_RK[i+1] = rotate_left(Y, 9); } } else if(length == 32) { for(size_t i = 0; i != 256; ++i) { - SB[ i] = MDS0[Q0[Q0[Q1[Q1[i]^S[ 0]]^S[ 4]]^S[ 8]]^S[12]]; - SB[256+i] = MDS1[Q0[Q1[Q1[Q0[i]^S[ 1]]^S[ 5]]^S[ 9]]^S[13]]; - SB[512+i] = MDS2[Q1[Q0[Q0[Q0[i]^S[ 2]]^S[ 6]]^S[10]]^S[14]]; - SB[768+i] = MDS3[Q1[Q1[Q0[Q1[i]^S[ 3]]^S[ 7]]^S[11]]^S[15]]; + m_SB[ i] = MDS0[Q0[Q0[Q1[Q1[i]^S[ 0]]^S[ 4]]^S[ 8]]^S[12]]; + m_SB[256+i] = MDS1[Q0[Q1[Q1[Q0[i]^S[ 1]]^S[ 5]]^S[ 9]]^S[13]]; + m_SB[512+i] = MDS2[Q1[Q0[Q0[Q0[i]^S[ 2]]^S[ 6]]^S[10]]^S[14]]; + m_SB[768+i] = MDS3[Q1[Q1[Q0[Q1[i]^S[ 3]]^S[ 7]]^S[11]]^S[15]]; } for(size_t i = 0; i != 40; i += 2) @@ -206,8 +206,8 @@ void Twofish::key_schedule(const byte key[], size_t length) Y = rotate_left(Y, 8); X += Y; Y += X; - RK[i] = X; - RK[i+1] = rotate_left(Y, 9); + m_RK[i] = X; + m_RK[i+1] = rotate_left(Y, 9); } } } @@ -238,8 +238,8 @@ void Twofish::rs_mul(byte S[4], byte key, size_t offset) */ void Twofish::clear() { - zap(SB); - zap(RK); + zap(m_SB); + zap(m_RK); } } diff --git a/src/lib/block/twofish/twofish.h b/src/lib/block/twofish/twofish.h index c6af1a030..c3dd7fec0 100644 --- a/src/lib/block/twofish/twofish.h +++ b/src/lib/block/twofish/twofish.h @@ -39,7 +39,7 @@ class BOTAN_DLL Twofish : public Block_Cipher_Fixed_Params<16, 16, 32, 8> static const byte EXP_TO_POLY[255]; static const byte POLY_TO_EXP[255]; - secure_vector<u32bit> SB, RK; + secure_vector<u32bit> m_SB, m_RK; }; } diff --git a/src/lib/block/xtea/xtea.cpp b/src/lib/block/xtea/xtea.cpp index 59060dff7..333406d9b 100644 --- a/src/lib/block/xtea/xtea.cpp +++ b/src/lib/block/xtea/xtea.cpp @@ -63,7 +63,7 @@ void XTEA::encrypt_n(const byte in[], byte out[], size_t blocks) const { while(blocks >= 4) { - xtea_encrypt_4(in, out, &(this->EK[0])); + xtea_encrypt_4(in, out, &(this->m_EK[0])); in += 4 * BLOCK_SIZE; out += 4 * BLOCK_SIZE; blocks -= 4; @@ -76,8 +76,8 @@ void XTEA::encrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 32; ++j) { - L += (((R << 4) ^ (R >> 5)) + R) ^ EK[2*j]; - R += (((L << 4) ^ (L >> 5)) + L) ^ EK[2*j+1]; + L += (((R << 4) ^ (R >> 5)) + R) ^ m_EK[2*j]; + R += (((L << 4) ^ (L >> 5)) + L) ^ m_EK[2*j+1]; } store_be(out, L, R); @@ -94,7 +94,7 @@ void XTEA::decrypt_n(const byte in[], byte out[], size_t blocks) const { while(blocks >= 4) { - xtea_decrypt_4(in, out, &(this->EK[0])); + xtea_decrypt_4(in, out, &(this->m_EK[0])); in += 4 * BLOCK_SIZE; out += 4 * BLOCK_SIZE; blocks -= 4; @@ -107,8 +107,8 @@ void XTEA::decrypt_n(const byte in[], byte out[], size_t blocks) const for(size_t j = 0; j != 32; ++j) { - R -= (((L << 4) ^ (L >> 5)) + L) ^ EK[63 - 2*j]; - L -= (((R << 4) ^ (R >> 5)) + R) ^ EK[62 - 2*j]; + R -= (((L << 4) ^ (L >> 5)) + L) ^ m_EK[63 - 2*j]; + L -= (((R << 4) ^ (R >> 5)) + R) ^ m_EK[62 - 2*j]; } store_be(out, L, R); @@ -123,7 +123,7 @@ void XTEA::decrypt_n(const byte in[], byte out[], size_t blocks) const */ void XTEA::key_schedule(const byte key[], size_t) { - EK.resize(64); + m_EK.resize(64); secure_vector<u32bit> UK(4); for(size_t i = 0; i != 4; ++i) @@ -132,15 +132,15 @@ void XTEA::key_schedule(const byte key[], size_t) u32bit D = 0; for(size_t i = 0; i != 64; i += 2) { - EK[i ] = D + UK[D % 4]; + m_EK[i ] = D + UK[D % 4]; D += 0x9E3779B9; - EK[i+1] = D + UK[(D >> 11) % 4]; + m_EK[i+1] = D + UK[(D >> 11) % 4]; } } void XTEA::clear() { - zap(EK); + zap(m_EK); } } diff --git a/src/lib/block/xtea/xtea.h b/src/lib/block/xtea/xtea.h index ea5c39418..3baccc866 100644 --- a/src/lib/block/xtea/xtea.h +++ b/src/lib/block/xtea/xtea.h @@ -28,11 +28,11 @@ class BOTAN_DLL XTEA : public Block_Cipher_Fixed_Params<8, 16> /** * @return const reference to the key schedule */ - const secure_vector<u32bit>& get_EK() const { return EK; } + const secure_vector<u32bit>& get_EK() const { return m_EK; } private: void key_schedule(const byte[], size_t) override; - secure_vector<u32bit> EK; + secure_vector<u32bit> m_EK; }; } diff --git a/src/lib/cert/cvc/asn1_eac_str.cpp b/src/lib/cert/cvc/asn1_eac_str.cpp index 2472eee17..0134399d8 100644 --- a/src/lib/cert/cvc/asn1_eac_str.cpp +++ b/src/lib/cert/cvc/asn1_eac_str.cpp @@ -19,9 +19,9 @@ namespace Botan { /* * Create an ASN1_EAC_String */ -ASN1_EAC_String::ASN1_EAC_String(const std::string& str, ASN1_Tag t) : tag(t) +ASN1_EAC_String::ASN1_EAC_String(const std::string& str, ASN1_Tag t) : m_tag(t) { - iso_8859_str = Charset::transcode(str, LOCAL_CHARSET, LATIN1_CHARSET); + m_iso_8859_str = Charset::transcode(str, LOCAL_CHARSET, LATIN1_CHARSET); if(!sanity_check()) throw Invalid_Argument("ASN1_EAC_String contains illegal characters"); @@ -32,7 +32,7 @@ ASN1_EAC_String::ASN1_EAC_String(const std::string& str, ASN1_Tag t) : tag(t) */ std::string ASN1_EAC_String::iso_8859() const { - return iso_8859_str; + return m_iso_8859_str; } /* @@ -40,7 +40,7 @@ std::string ASN1_EAC_String::iso_8859() const */ std::string ASN1_EAC_String::value() const { - return Charset::transcode(iso_8859_str, LATIN1_CHARSET, LOCAL_CHARSET); + return Charset::transcode(m_iso_8859_str, LATIN1_CHARSET, LOCAL_CHARSET); } /* @@ -48,7 +48,7 @@ std::string ASN1_EAC_String::value() const */ ASN1_Tag ASN1_EAC_String::tagging() const { - return tag; + return m_tag; } /* @@ -67,14 +67,14 @@ void ASN1_EAC_String::decode_from(BER_Decoder& source) { BER_Object obj = source.get_next_object(); - if(obj.type_tag != this->tag) + if(obj.type_tag != m_tag) { std::stringstream ss; ss << "ASN1_EAC_String tag mismatch, tag was " << std::hex << obj.type_tag << " expected " - << std::hex << this->tag; + << std::hex << m_tag; throw Decoding_Error(ss.str()); } @@ -99,8 +99,8 @@ void ASN1_EAC_String::decode_from(BER_Decoder& source) // p. 43 bool ASN1_EAC_String::sanity_check() const { - const byte* rep = reinterpret_cast<const byte*>(iso_8859_str.data()); - const size_t rep_len = iso_8859_str.size(); + const byte* rep = reinterpret_cast<const byte*>(m_iso_8859_str.data()); + const size_t rep_len = m_iso_8859_str.size(); for(size_t i = 0; i != rep_len; ++i) { diff --git a/src/lib/cert/cvc/asn1_eac_tm.cpp b/src/lib/cert/cvc/asn1_eac_tm.cpp index 83a6ef391..9c65fcf6a 100644 --- a/src/lib/cert/cvc/asn1_eac_tm.cpp +++ b/src/lib/cert/cvc/asn1_eac_tm.cpp @@ -54,19 +54,19 @@ u32bit dec_two_digit(byte b1, byte b2) * Create an EAC_Time */ EAC_Time::EAC_Time(const std::chrono::system_clock::time_point& time, - ASN1_Tag t) : tag(t) + ASN1_Tag t) : m_tag(t) { calendar_point cal = calendar_value(time); - year = cal.year; - month = cal.month; - day = cal.day; + m_year = cal.year; + m_month = cal.month; + m_day = cal.day; } /* * Create an EAC_Time */ -EAC_Time::EAC_Time(const std::string& t_spec, ASN1_Tag t) : tag(t) +EAC_Time::EAC_Time(const std::string& t_spec, ASN1_Tag t) : m_tag(t) { set_to(t_spec); } @@ -75,7 +75,7 @@ EAC_Time::EAC_Time(const std::string& t_spec, ASN1_Tag t) : tag(t) * Create an EAC_Time */ EAC_Time::EAC_Time(u32bit y, u32bit m, u32bit d, ASN1_Tag t) : - year(y), month(m), day(d), tag(t) + m_year(y), m_month(m), m_day(d), m_tag(t) { } @@ -86,7 +86,7 @@ void EAC_Time::set_to(const std::string& time_str) { if(time_str == "") { - year = month = day = 0; + m_year = m_month = m_day = 0; return; } @@ -110,9 +110,9 @@ void EAC_Time::set_to(const std::string& time_str) if(params.size() != 3) throw Invalid_Argument("Invalid time specification " + time_str); - year = to_u32bit(params[0]); - month = to_u32bit(params[1]); - day = to_u32bit(params[2]); + m_year = to_u32bit(params[0]); + m_month = to_u32bit(params[1]); + m_day = to_u32bit(params[2]); if(!passes_sanity_check()) throw Invalid_Argument("Invalid time specification " + time_str); @@ -124,7 +124,7 @@ void EAC_Time::set_to(const std::string& time_str) */ void EAC_Time::encode_into(DER_Encoder& der) const { - der.add_object(tag, APPLICATION, + der.add_object(m_tag, APPLICATION, encoded_eac_time()); } @@ -136,7 +136,7 @@ std::string EAC_Time::as_string() const if(time_is_set() == false) throw Invalid_State("EAC_Time::as_string: No time set"); - return std::to_string(year * 10000 + month * 100 + day); + return std::to_string(m_year * 10000 + m_month * 100 + m_day); } /* @@ -144,7 +144,7 @@ std::string EAC_Time::as_string() const */ bool EAC_Time::time_is_set() const { - return (year != 0); + return (m_year != 0); } /* @@ -158,9 +158,9 @@ std::string EAC_Time::readable_string() const // desired format: "%04d/%02d/%02d" std::stringstream output; output << std::setfill('0') - << std::setw(4) << year << "/" - << std::setw(2) << month << "/" - << std::setw(2) << day; + << std::setw(4) << m_year << "/" + << std::setw(2) << m_month << "/" + << std::setw(2) << m_day; return output.str(); } @@ -169,11 +169,11 @@ std::string EAC_Time::readable_string() const */ bool EAC_Time::passes_sanity_check() const { - if(year < 2000 || year > 2099) + if(m_year < 2000 || m_year > 2099) return false; - if(month == 0 || month > 12) + if(m_month == 0 || m_month > 12) return false; - if(day == 0 || day > 31) + if(m_day == 0 || m_day > 31) return false; return true; @@ -184,17 +184,17 @@ bool EAC_Time::passes_sanity_check() const */ void EAC_Time::add_years(u32bit years) { - year += years; + m_year += years; } void EAC_Time::add_months(u32bit months) { - year += months/12; - month += months % 12; - if(month > 12) + m_year += months/12; + m_month += months % 12; + if(m_month > 12) { - year += 1; - month -= 12; + m_year += 1; + m_month -= 12; } } @@ -208,12 +208,12 @@ s32bit EAC_Time::cmp(const EAC_Time& other) const const s32bit EARLIER = -1, LATER = 1, SAME_TIME = 0; - if(year < other.year) return EARLIER; - if(year > other.year) return LATER; - if(month < other.month) return EARLIER; - if(month > other.month) return LATER; - if(day < other.day) return EARLIER; - if(day > other.day) return LATER; + if(m_year < other.m_year) return EARLIER; + if(m_year > other.m_year) return LATER; + if(m_month < other.m_month) return EARLIER; + if(m_month > other.m_month) return LATER; + if(m_day < other.m_day) return EARLIER; + if(m_day > other.m_day) return LATER; return SAME_TIME; } @@ -258,7 +258,7 @@ void EAC_Time::decode_from(BER_Decoder& source) { BER_Object obj = source.get_next_object(); - if(obj.type_tag != this->tag) + if(obj.type_tag != m_tag) throw BER_Decoding_Error("Tag mismatch when decoding"); if(obj.value.size() != 6) @@ -271,9 +271,9 @@ void EAC_Time::decode_from(BER_Decoder& source) u32bit tmp_year = dec_two_digit(obj.value[0], obj.value[1]); u32bit tmp_mon = dec_two_digit(obj.value[2], obj.value[3]); u32bit tmp_day = dec_two_digit(obj.value[4], obj.value[5]); - year = tmp_year + 2000; - month = tmp_mon; - day = tmp_day; + m_year = tmp_year + 2000; + m_month = tmp_mon; + m_day = tmp_day; } catch (Invalid_Argument) { @@ -288,9 +288,9 @@ void EAC_Time::decode_from(BER_Decoder& source) std::vector<byte> EAC_Time::encoded_eac_time() const { std::vector<byte> result; - result += enc_two_digit(year); - result += enc_two_digit(month); - result += enc_two_digit(day); + result += enc_two_digit(m_year); + result += enc_two_digit(m_month); + result += enc_two_digit(m_day); return result; } diff --git a/src/lib/cert/cvc/cvc_ado.cpp b/src/lib/cert/cvc/cvc_ado.cpp index 21a345808..f803c6bf3 100644 --- a/src/lib/cert/cvc/cvc_ado.cpp +++ b/src/lib/cert/cvc/cvc_ado.cpp @@ -27,7 +27,7 @@ EAC1_1_ADO::EAC1_1_ADO(const std::string& in) void EAC1_1_ADO::force_decode() { std::vector<byte> inner_cert; - BER_Decoder(tbs_bits) + BER_Decoder(m_tbs_bits) .start_cons(ASN1_Tag(33)) .raw_bytes(inner_cert) .end_cons() @@ -42,7 +42,7 @@ void EAC1_1_ADO::force_decode() DataSource_Memory req_source(req_bits); m_req = EAC1_1_Req(req_source); - sig_algo = m_req.sig_algo; + m_sig_algo = m_req.m_sig_algo; } std::vector<byte> EAC1_1_ADO::make_signed(PK_Signer& signer, @@ -101,7 +101,7 @@ void EAC1_1_ADO::encode(Pipe& out, X509_Encoding encoding) const out.write(DER_Encoder() .start_cons(ASN1_Tag(7), APPLICATION) - .raw_bytes(tbs_bits) + .raw_bytes(m_tbs_bits) .encode(concat_sig, OCTET_STRING, ASN1_Tag(55), APPLICATION) .end_cons() .get_contents()); @@ -109,7 +109,7 @@ void EAC1_1_ADO::encode(Pipe& out, X509_Encoding encoding) const std::vector<byte> EAC1_1_ADO::tbs_data() const { - return tbs_bits; + return m_tbs_bits; } bool EAC1_1_ADO::operator==(EAC1_1_ADO const& rhs) const diff --git a/src/lib/cert/cvc/cvc_cert.cpp b/src/lib/cert/cvc/cvc_cert.cpp index cf6bc409a..280a8acda 100644 --- a/src/lib/cert/cvc/cvc_cert.cpp +++ b/src/lib/cert/cvc/cvc_cert.cpp @@ -36,7 +36,7 @@ void EAC1_1_CVC::force_decode() std::vector<byte> enc_pk; std::vector<byte> enc_chat_val; size_t cpi; - BER_Decoder tbs_cert(tbs_bits); + BER_Decoder tbs_cert(m_tbs_bits); tbs_cert.decode(cpi, ASN1_Tag(41), APPLICATION) .decode(m_car) .start_cons(ASN1_Tag(73)) @@ -57,11 +57,11 @@ void EAC1_1_CVC::force_decode() if(cpi != 0) throw Decoding_Error("EAC1_1 certificate's cpi was not 0"); - m_pk = decode_eac1_1_key(enc_pk, sig_algo); + m_pk = decode_eac1_1_key(enc_pk, m_sig_algo); m_chat_val = enc_chat_val[0]; - self_signed = (m_car.iso_8859() == m_chr.iso_8859()); + m_self_signed = (m_car.iso_8859() == m_chr.iso_8859()); } /* @@ -70,7 +70,7 @@ void EAC1_1_CVC::force_decode() EAC1_1_CVC::EAC1_1_CVC(DataSource& in) { init(in); - self_signed = false; + m_self_signed = false; do_decode(); } @@ -78,7 +78,7 @@ EAC1_1_CVC::EAC1_1_CVC(const std::string& in) { DataSource_Stream stream(in, true); init(stream); - self_signed = false; + m_self_signed = false; do_decode(); } diff --git a/src/lib/cert/cvc/cvc_gen_cert.h b/src/lib/cert/cvc/cvc_gen_cert.h index 6bdf116f3..2c3bca73d 100644 --- a/src/lib/cert/cvc/cvc_gen_cert.h +++ b/src/lib/cert/cvc/cvc_gen_cert.h @@ -85,7 +85,7 @@ class EAC1_1_gen_CVC : public EAC1_1_obj<Derived> // CRTP continuation from EAC1 protected: ECDSA_PublicKey* m_pk; ASN1_Chr m_chr; - bool self_signed; + bool m_self_signed; static void decode_info(DataSource& source, std::vector<byte> & res_tbs_bits, @@ -100,7 +100,7 @@ template<typename Derived> ASN1_Chr EAC1_1_gen_CVC<Derived>::get_chr() const template<typename Derived> bool EAC1_1_gen_CVC<Derived>::is_self_signed() const { - return self_signed; + return m_self_signed; } template<typename Derived> @@ -135,7 +135,7 @@ template<typename Derived> std::vector<byte> EAC1_1_gen_CVC<Derived>::build_cert template<typename Derived> std::vector<byte> EAC1_1_gen_CVC<Derived>::tbs_data() const { - return build_cert_body(EAC1_1_obj<Derived>::tbs_bits); + return build_cert_body(EAC1_1_obj<Derived>::m_tbs_bits); } template<typename Derived> void EAC1_1_gen_CVC<Derived>::encode(Pipe& out, X509_Encoding encoding) const @@ -144,7 +144,7 @@ template<typename Derived> void EAC1_1_gen_CVC<Derived>::encode(Pipe& out, X509_ std::vector<byte> der = DER_Encoder() .start_cons(ASN1_Tag(33), APPLICATION) .start_cons(ASN1_Tag(78), APPLICATION) - .raw_bytes(EAC1_1_obj<Derived>::tbs_bits) + .raw_bytes(EAC1_1_obj<Derived>::m_tbs_bits) .end_cons() .encode(concat_sig, OCTET_STRING, ASN1_Tag(55), APPLICATION) .end_cons() diff --git a/src/lib/cert/cvc/cvc_req.cpp b/src/lib/cert/cvc/cvc_req.cpp index e142a5ac6..1cb6b50ac 100644 --- a/src/lib/cert/cvc/cvc_req.cpp +++ b/src/lib/cert/cvc/cvc_req.cpp @@ -20,7 +20,7 @@ bool EAC1_1_Req::operator==(EAC1_1_Req const& rhs) const void EAC1_1_Req::force_decode() { std::vector<byte> enc_pk; - BER_Decoder tbs_cert(tbs_bits); + BER_Decoder tbs_cert(m_tbs_bits); size_t cpi; tbs_cert.decode(cpi, ASN1_Tag(41), APPLICATION) .start_cons(ASN1_Tag(73)) @@ -32,13 +32,13 @@ void EAC1_1_Req::force_decode() if(cpi != 0) throw Decoding_Error("EAC1_1 requests cpi was not 0"); - m_pk = decode_eac1_1_key(enc_pk, sig_algo); + m_pk = decode_eac1_1_key(enc_pk, m_sig_algo); } EAC1_1_Req::EAC1_1_Req(DataSource& in) { init(in); - self_signed = true; + m_self_signed = true; do_decode(); } @@ -46,7 +46,7 @@ EAC1_1_Req::EAC1_1_Req(const std::string& in) { DataSource_Stream stream(in, true); init(stream); - self_signed = true; + m_self_signed = true; do_decode(); } diff --git a/src/lib/cert/cvc/cvc_self.h b/src/lib/cert/cvc/cvc_self.h index 005703636..d56e96c40 100644 --- a/src/lib/cert/cvc/cvc_self.h +++ b/src/lib/cert/cvc/cvc_self.h @@ -24,11 +24,22 @@ class BOTAN_DLL EAC1_1_CVC_Options { public: + // public member variable: ASN1_Car car; + + // public member variable: ASN1_Chr chr; + + // public member variable: byte holder_auth_templ; + + // public member variable: ASN1_Ced ced; + + // public member variable: ASN1_Cex cex; + + // public member variable: std::string hash_alg; }; diff --git a/src/lib/cert/cvc/eac_asn_obj.h b/src/lib/cert/cvc/eac_asn_obj.h index e102c65fb..b4dcb6342 100644 --- a/src/lib/cert/cvc/eac_asn_obj.h +++ b/src/lib/cert/cvc/eac_asn_obj.h @@ -74,19 +74,19 @@ class BOTAN_DLL EAC_Time : public ASN1_Object * Get the year value of this objects. * @return year value */ - u32bit get_year() const { return year; } + u32bit get_year() const { return m_year; } /** * Get the month value of this objects. * @return month value */ - u32bit get_month() const { return month; } + u32bit get_month() const { return m_month; } /** * Get the day value of this objects. * @return day value */ - u32bit get_day() const { return day; } + u32bit get_day() const { return m_day; } EAC_Time(const std::chrono::system_clock::time_point& time, ASN1_Tag tag = ASN1_Tag(0)); @@ -101,8 +101,8 @@ class BOTAN_DLL EAC_Time : public ASN1_Object private: std::vector<byte> encoded_eac_time() const; bool passes_sanity_check() const; - u32bit year, month, day; - ASN1_Tag tag; + u32bit m_year, m_month, m_day; + ASN1_Tag m_tag; }; /** @@ -188,8 +188,8 @@ class BOTAN_DLL ASN1_EAC_String: public ASN1_Object protected: bool sanity_check() const; private: - std::string iso_8859_str; - ASN1_Tag tag; + std::string m_iso_8859_str; + ASN1_Tag m_tag; }; /** diff --git a/src/lib/cert/cvc/eac_obj.h b/src/lib/cert/cvc/eac_obj.h index b1e353ddf..a6e676076 100644 --- a/src/lib/cert/cvc/eac_obj.h +++ b/src/lib/cert/cvc/eac_obj.h @@ -39,11 +39,11 @@ class EAC1_1_obj : public EAC_Signed_Object { try { - Derived::decode_info(in, tbs_bits, m_sig); + Derived::decode_info(in, m_tbs_bits, m_sig); } catch(Decoding_Error) { - throw Decoding_Error(PEM_label_pref + " decoding failed"); + throw Decoding_Error(m_PEM_label_pref + " decoding failed"); } } diff --git a/src/lib/cert/cvc/signed_obj.cpp b/src/lib/cert/cvc/signed_obj.cpp index 4a0f12008..1e3849663 100644 --- a/src/lib/cert/cvc/signed_obj.cpp +++ b/src/lib/cert/cvc/signed_obj.cpp @@ -41,7 +41,7 @@ std::string EAC_Signed_Object::PEM_encode() const */ AlgorithmIdentifier EAC_Signed_Object::signature_algorithm() const { - return sig_algo; + return m_sig_algo; } bool EAC_Signed_Object::check_signature(Public_Key& pub_key, @@ -50,7 +50,7 @@ bool EAC_Signed_Object::check_signature(Public_Key& pub_key, try { std::vector<std::string> sig_info = - split_on(OIDS::lookup(sig_algo.oid), '/'); + split_on(OIDS::lookup(m_sig_algo.oid), '/'); if(sig_info.size() != 2 || sig_info[0] != pub_key.algo_name()) { @@ -83,12 +83,12 @@ void EAC_Signed_Object::do_decode() catch(Decoding_Error& e) { const std::string what = e.what(); - throw Decoding_Error(PEM_label_pref + " decoding failed (" + what + ")"); + throw Decoding_Error(m_PEM_label_pref + " decoding failed (" + what + ")"); } catch(Invalid_Argument& e) { const std::string what = e.what(); - throw Decoding_Error(PEM_label_pref + " decoding failed (" + what + ")"); + throw Decoding_Error(m_PEM_label_pref + " decoding failed (" + what + ")"); } } diff --git a/src/lib/cert/cvc/signed_obj.h b/src/lib/cert/cvc/signed_obj.h index aa6ace4b7..b3fe20f31 100644 --- a/src/lib/cert/cvc/signed_obj.h +++ b/src/lib/cert/cvc/signed_obj.h @@ -82,10 +82,10 @@ class BOTAN_DLL EAC_Signed_Object void do_decode(); EAC_Signed_Object() {} - AlgorithmIdentifier sig_algo; - std::vector<byte> tbs_bits; - std::string PEM_label_pref; - std::vector<std::string> PEM_labels_allowed; + AlgorithmIdentifier m_sig_algo; + std::vector<byte> m_tbs_bits; + std::string m_PEM_label_pref; + std::vector<std::string> m_PEM_labels_allowed; private: virtual void force_decode() = 0; }; diff --git a/src/lib/cert/x509/crl_ent.cpp b/src/lib/cert/x509/crl_ent.cpp index 1f2069baa..d6923f714 100644 --- a/src/lib/cert/x509/crl_ent.cpp +++ b/src/lib/cert/x509/crl_ent.cpp @@ -18,20 +18,20 @@ namespace Botan { * Create a CRL_Entry */ CRL_Entry::CRL_Entry(bool t_on_unknown_crit) : - throw_on_unknown_critical(t_on_unknown_crit) + m_throw_on_unknown_critical(t_on_unknown_crit) { - reason = UNSPECIFIED; + m_reason = UNSPECIFIED; } /* * Create a CRL_Entry */ CRL_Entry::CRL_Entry(const X509_Certificate& cert, CRL_Code why) : - throw_on_unknown_critical(false) + m_throw_on_unknown_critical(false) { - serial = cert.serial_number(); - time = X509_Time(std::chrono::system_clock::now()); - reason = why; + m_serial = cert.serial_number(); + m_time = X509_Time(std::chrono::system_clock::now()); + m_reason = why; } /* @@ -63,11 +63,11 @@ void CRL_Entry::encode_into(DER_Encoder& der) const { Extensions extensions; - extensions.add(new Cert_Extension::CRL_ReasonCode(reason)); + extensions.add(new Cert_Extension::CRL_ReasonCode(m_reason)); der.start_cons(SEQUENCE) - .encode(BigInt::decode(serial)) - .encode(time) + .encode(BigInt::decode(m_serial)) + .encode(m_time) .start_cons(SEQUENCE) .encode(extensions) .end_cons() @@ -80,24 +80,24 @@ void CRL_Entry::encode_into(DER_Encoder& der) const void CRL_Entry::decode_from(BER_Decoder& source) { BigInt serial_number_bn; - reason = UNSPECIFIED; + m_reason = UNSPECIFIED; BER_Decoder entry = source.start_cons(SEQUENCE); - entry.decode(serial_number_bn).decode(time); + entry.decode(serial_number_bn).decode(m_time); if(entry.more_items()) { - Extensions extensions(throw_on_unknown_critical); + Extensions extensions(m_throw_on_unknown_critical); entry.decode(extensions); Data_Store info; extensions.contents_to(info, info); - reason = CRL_Code(info.get1_u32bit("X509v3.CRLReasonCode")); + m_reason = CRL_Code(info.get1_u32bit("X509v3.CRLReasonCode")); } entry.end_cons(); - serial = BigInt::encode(serial_number_bn); + m_serial = BigInt::encode(serial_number_bn); } } diff --git a/src/lib/cert/x509/crl_ent.h b/src/lib/cert/x509/crl_ent.h index 42cb25fe3..1b8f4b7cd 100644 --- a/src/lib/cert/x509/crl_ent.h +++ b/src/lib/cert/x509/crl_ent.h @@ -46,19 +46,19 @@ class BOTAN_DLL CRL_Entry : public ASN1_Object * Get the serial number of the certificate associated with this entry. * @return certificate's serial number */ - std::vector<byte> serial_number() const { return serial; } + std::vector<byte> serial_number() const { return m_serial; } /** * Get the revocation date of the certificate associated with this entry * @return certificate's revocation date */ - X509_Time expire_time() const { return time; } + X509_Time expire_time() const { return m_time; } /** * Get the entries reason code * @return reason code */ - CRL_Code reason_code() const { return reason; } + CRL_Code reason_code() const { return m_reason; } /** * Construct an empty CRL entry. @@ -74,10 +74,10 @@ class BOTAN_DLL CRL_Entry : public ASN1_Object CRL_Code reason = UNSPECIFIED); private: - bool throw_on_unknown_critical; - std::vector<byte> serial; - X509_Time time; - CRL_Code reason; + bool m_throw_on_unknown_critical; + std::vector<byte> m_serial; + X509_Time m_time; + CRL_Code m_reason; }; /** diff --git a/src/lib/cert/x509/pkcs10.cpp b/src/lib/cert/x509/pkcs10.cpp index cb4be6d5f..40a9894cc 100644 --- a/src/lib/cert/x509/pkcs10.cpp +++ b/src/lib/cert/x509/pkcs10.cpp @@ -48,7 +48,7 @@ PKCS10_Request::PKCS10_Request(const std::vector<byte>& in) : */ void PKCS10_Request::force_decode() { - BER_Decoder cert_req_info(tbs_bits); + BER_Decoder cert_req_info(m_tbs_bits); size_t version; cert_req_info.decode(version); @@ -59,14 +59,14 @@ void PKCS10_Request::force_decode() X509_DN dn_subject; cert_req_info.decode(dn_subject); - info.add(dn_subject.contents()); + m_info.add(dn_subject.contents()); BER_Object public_key = cert_req_info.get_next_object(); if(public_key.type_tag != SEQUENCE || public_key.class_tag != CONSTRUCTED) throw BER_Bad_Tag("PKCS10_Request: Unexpected tag for public key", public_key.type_tag, public_key.class_tag); - info.add("X509.Certificate.public_key", + m_info.add("X509.Certificate.public_key", PEM_Code::encode( ASN1::put_in_sequence(unlock(public_key.value)), "PUBLIC KEY" @@ -108,13 +108,13 @@ void PKCS10_Request::handle_attribute(const Attribute& attr) { ASN1_String email; value.decode(email); - info.add("RFC822", email.value()); + m_info.add("RFC822", email.value()); } else if(attr.oid == OIDS::lookup("PKCS9.ChallengePassword")) { ASN1_String challenge_password; value.decode(challenge_password); - info.add("PKCS9.ChallengePassword", challenge_password.value()); + m_info.add("PKCS9.ChallengePassword", challenge_password.value()); } else if(attr.oid == OIDS::lookup("PKCS9.ExtensionRequest")) { @@ -122,7 +122,7 @@ void PKCS10_Request::handle_attribute(const Attribute& attr) value.decode(extensions).verify_end(); Data_Store issuer_info; - extensions.contents_to(info, issuer_info); + extensions.contents_to(m_info, issuer_info); } } @@ -131,7 +131,7 @@ void PKCS10_Request::handle_attribute(const Attribute& attr) */ std::string PKCS10_Request::challenge_password() const { - return info.get1("PKCS9.ChallengePassword"); + return m_info.get1("PKCS9.ChallengePassword"); } /* @@ -139,7 +139,7 @@ std::string PKCS10_Request::challenge_password() const */ X509_DN PKCS10_Request::subject_dn() const { - return create_dn(info); + return create_dn(m_info); } /* @@ -147,7 +147,7 @@ X509_DN PKCS10_Request::subject_dn() const */ std::vector<byte> PKCS10_Request::raw_public_key() const { - DataSource_Memory source(info.get1("X509.Certificate.public_key")); + DataSource_Memory source(m_info.get1("X509.Certificate.public_key")); return unlock(PEM_Code::decode_check_label(source, "PUBLIC KEY")); } @@ -156,7 +156,7 @@ std::vector<byte> PKCS10_Request::raw_public_key() const */ Public_Key* PKCS10_Request::subject_public_key() const { - DataSource_Memory source(info.get1("X509.Certificate.public_key")); + DataSource_Memory source(m_info.get1("X509.Certificate.public_key")); return X509::load_key(source); } @@ -165,7 +165,7 @@ Public_Key* PKCS10_Request::subject_public_key() const */ AlternativeName PKCS10_Request::subject_alt_name() const { - return create_alt_name(info); + return create_alt_name(m_info); } /* @@ -173,7 +173,7 @@ AlternativeName PKCS10_Request::subject_alt_name() const */ Key_Constraints PKCS10_Request::constraints() const { - return Key_Constraints(info.get1_u32bit("X509v3.KeyUsage", NO_CONSTRAINTS)); + return Key_Constraints(m_info.get1_u32bit("X509v3.KeyUsage", NO_CONSTRAINTS)); } /* @@ -181,7 +181,7 @@ Key_Constraints PKCS10_Request::constraints() const */ std::vector<OID> PKCS10_Request::ex_constraints() const { - std::vector<std::string> oids = info.get("X509v3.ExtendedKeyUsage"); + std::vector<std::string> oids = m_info.get("X509v3.ExtendedKeyUsage"); std::vector<OID> result; for(size_t i = 0; i != oids.size(); ++i) @@ -194,7 +194,7 @@ std::vector<OID> PKCS10_Request::ex_constraints() const */ bool PKCS10_Request::is_CA() const { - return (info.get1_u32bit("X509v3.BasicConstraints.is_ca") > 0); + return (m_info.get1_u32bit("X509v3.BasicConstraints.is_ca") > 0); } /* @@ -202,7 +202,7 @@ bool PKCS10_Request::is_CA() const */ u32bit PKCS10_Request::path_limit() const { - return info.get1_u32bit("X509v3.BasicConstraints.path_constraint", 0); + return m_info.get1_u32bit("X509v3.BasicConstraints.path_constraint", 0); } } diff --git a/src/lib/cert/x509/pkcs10.h b/src/lib/cert/x509/pkcs10.h index 6aa66fbfd..999395f93 100644 --- a/src/lib/cert/x509/pkcs10.h +++ b/src/lib/cert/x509/pkcs10.h @@ -102,7 +102,7 @@ class BOTAN_DLL PKCS10_Request : public X509_Object void force_decode() override; void handle_attribute(const Attribute&); - Data_Store info; + Data_Store m_info; }; } diff --git a/src/lib/cert/x509/x509_ca.cpp b/src/lib/cert/x509/x509_ca.cpp index d329bfdd8..46c8c65f2 100644 --- a/src/lib/cert/x509/x509_ca.cpp +++ b/src/lib/cert/x509/x509_ca.cpp @@ -26,12 +26,12 @@ namespace Botan { */ X509_CA::X509_CA(const X509_Certificate& c, const Private_Key& key, - const std::string& hash_fn) : cert(c) + const std::string& hash_fn) : m_cert(c) { - if(!cert.is_CA_cert()) + if(!m_cert.is_CA_cert()) throw Invalid_Argument("X509_CA: This certificate is not for a CA"); - signer = choose_sig_format(key, hash_fn, ca_sig_algo); + m_signer = choose_sig_format(key, hash_fn, m_ca_sig_algo); } /* @@ -39,7 +39,7 @@ X509_CA::X509_CA(const X509_Certificate& c, */ X509_CA::~X509_CA() { - delete signer; + delete m_signer; } /* @@ -67,7 +67,7 @@ X509_Certificate X509_CA::sign_request(const PKCS10_Request& req, extensions.add(new Cert_Extension::Key_Usage(constraints), true); - extensions.add(new Cert_Extension::Authority_Key_ID(cert.subject_key_id())); + extensions.add(new Cert_Extension::Authority_Key_ID(m_cert.subject_key_id())); extensions.add(new Cert_Extension::Subject_Key_ID(req.raw_public_key())); extensions.add( @@ -76,10 +76,10 @@ X509_Certificate X509_CA::sign_request(const PKCS10_Request& req, extensions.add( new Cert_Extension::Extended_Key_Usage(req.ex_constraints())); - return make_cert(signer, rng, ca_sig_algo, + return make_cert(m_signer, rng, m_ca_sig_algo, req.raw_public_key(), not_before, not_after, - cert.subject_dn(), req.subject_dn(), + m_cert.subject_dn(), req.subject_dn(), extensions); } @@ -177,16 +177,16 @@ X509_CRL X509_CA::make_crl(const std::vector<CRL_Entry>& revoked, Extensions extensions; extensions.add( - new Cert_Extension::Authority_Key_ID(cert.subject_key_id())); + new Cert_Extension::Authority_Key_ID(m_cert.subject_key_id())); extensions.add(new Cert_Extension::CRL_Number(crl_number)); // clang-format off const std::vector<byte> crl = X509_Object::make_signed( - signer, rng, ca_sig_algo, + m_signer, rng, m_ca_sig_algo, DER_Encoder().start_cons(SEQUENCE) .encode(X509_CRL_VERSION-1) - .encode(ca_sig_algo) - .encode(cert.issuer_dn()) + .encode(m_ca_sig_algo) + .encode(m_cert.issuer_dn()) .encode(X509_Time(current_time)) .encode(X509_Time(expire_time)) .encode_if(revoked.size() > 0, @@ -212,7 +212,7 @@ X509_CRL X509_CA::make_crl(const std::vector<CRL_Entry>& revoked, */ X509_Certificate X509_CA::ca_certificate() const { - return cert; + return m_cert; } /* diff --git a/src/lib/cert/x509/x509_ca.h b/src/lib/cert/x509/x509_ca.h index 2e05258e3..6ea51cd06 100644 --- a/src/lib/cert/x509/x509_ca.h +++ b/src/lib/cert/x509/x509_ca.h @@ -107,9 +107,9 @@ class BOTAN_DLL X509_CA u32bit crl_number, u32bit next_update, RandomNumberGenerator& rng) const; - AlgorithmIdentifier ca_sig_algo; - X509_Certificate cert; - PK_Signer* signer; + AlgorithmIdentifier m_ca_sig_algo; + X509_Certificate m_cert; + PK_Signer* m_signer; }; /** diff --git a/src/lib/cert/x509/x509_crl.cpp b/src/lib/cert/x509/x509_crl.cpp index 8b6d1522b..64cb1b308 100644 --- a/src/lib/cert/x509/x509_crl.cpp +++ b/src/lib/cert/x509/x509_crl.cpp @@ -19,7 +19,7 @@ namespace Botan { * Load a X.509 CRL */ X509_CRL::X509_CRL(DataSource& in, bool touc) : - X509_Object(in, "X509 CRL/CRL"), throw_on_unknown_critical(touc) + X509_Object(in, "X509 CRL/CRL"), m_throw_on_unknown_critical(touc) { do_decode(); } @@ -28,13 +28,13 @@ X509_CRL::X509_CRL(DataSource& in, bool touc) : * Load a X.509 CRL */ X509_CRL::X509_CRL(const std::string& in, bool touc) : - X509_Object(in, "CRL/X509 CRL"), throw_on_unknown_critical(touc) + X509_Object(in, "CRL/X509 CRL"), m_throw_on_unknown_critical(touc) { do_decode(); } X509_CRL::X509_CRL(const std::vector<byte>& in, bool touc) : - X509_Object(in, "CRL/X509 CRL"), throw_on_unknown_critical(touc) + X509_Object(in, "CRL/X509 CRL"), m_throw_on_unknown_critical(touc) { do_decode(); } @@ -62,11 +62,11 @@ bool X509_CRL::is_revoked(const X509_Certificate& cert) const bool is_revoked = false; - for(size_t i = 0; i != revoked.size(); ++i) + for(size_t i = 0; i != m_revoked.size(); ++i) { - if(cert_serial == revoked[i].serial_number()) + if(cert_serial == m_revoked[i].serial_number()) { - if(revoked[i].reason_code() == REMOVE_FROM_CRL) + if(m_revoked[i].reason_code() == REMOVE_FROM_CRL) is_revoked = false; else is_revoked = true; @@ -81,7 +81,7 @@ bool X509_CRL::is_revoked(const X509_Certificate& cert) const */ void X509_CRL::force_decode() { - BER_Decoder tbs_crl(tbs_bits); + BER_Decoder tbs_crl(m_tbs_bits); size_t version; tbs_crl.decode_optional(version, INTEGER, UNIVERSAL); @@ -93,17 +93,17 @@ void X509_CRL::force_decode() AlgorithmIdentifier sig_algo_inner; tbs_crl.decode(sig_algo_inner); - if(sig_algo != sig_algo_inner) + if(m_sig_algo != sig_algo_inner) throw X509_CRL_Error("Algorithm identifier mismatch"); X509_DN dn_issuer; tbs_crl.decode(dn_issuer); - info.add(dn_issuer.contents()); + m_info.add(dn_issuer.contents()); X509_Time start, end; tbs_crl.decode(start).decode(end); - info.add("X509.CRL.start", start.to_string()); - info.add("X509.CRL.end", end.to_string()); + m_info.add("X509.CRL.start", start.to_string()); + m_info.add("X509.CRL.end", end.to_string()); BER_Object next = tbs_crl.get_next_object(); @@ -113,9 +113,9 @@ void X509_CRL::force_decode() while(cert_list.more_items()) { - CRL_Entry entry(throw_on_unknown_critical); + CRL_Entry entry(m_throw_on_unknown_critical); cert_list.decode(entry); - revoked.push_back(entry); + m_revoked.push_back(entry); } next = tbs_crl.get_next_object(); } @@ -125,11 +125,11 @@ void X509_CRL::force_decode() { BER_Decoder crl_options(next.value); - Extensions extensions(throw_on_unknown_critical); + Extensions extensions(m_throw_on_unknown_critical); crl_options.decode(extensions).verify_end(); - extensions.contents_to(info, info); + extensions.contents_to(m_info, m_info); next = tbs_crl.get_next_object(); } @@ -145,7 +145,7 @@ void X509_CRL::force_decode() */ std::vector<CRL_Entry> X509_CRL::get_revoked() const { - return revoked; + return m_revoked; } /* @@ -153,7 +153,7 @@ std::vector<CRL_Entry> X509_CRL::get_revoked() const */ X509_DN X509_CRL::issuer_dn() const { - return create_dn(info); + return create_dn(m_info); } /* @@ -161,7 +161,7 @@ X509_DN X509_CRL::issuer_dn() const */ std::vector<byte> X509_CRL::authority_key_id() const { - return info.get1_memvec("X509v3.AuthorityKeyIdentifier"); + return m_info.get1_memvec("X509v3.AuthorityKeyIdentifier"); } /* @@ -169,7 +169,7 @@ std::vector<byte> X509_CRL::authority_key_id() const */ u32bit X509_CRL::crl_number() const { - return info.get1_u32bit("X509v3.CRLNumber"); + return m_info.get1_u32bit("X509v3.CRLNumber"); } /* @@ -177,7 +177,7 @@ u32bit X509_CRL::crl_number() const */ X509_Time X509_CRL::this_update() const { - return X509_Time(info.get1("X509.CRL.start"), ASN1_Tag::UTC_OR_GENERALIZED_TIME); + return X509_Time(m_info.get1("X509.CRL.start"), ASN1_Tag::UTC_OR_GENERALIZED_TIME); } /* @@ -185,7 +185,7 @@ X509_Time X509_CRL::this_update() const */ X509_Time X509_CRL::next_update() const { - return X509_Time(info.get1("X509.CRL.end"), ASN1_Tag::UTC_OR_GENERALIZED_TIME); + return X509_Time(m_info.get1("X509.CRL.end"), ASN1_Tag::UTC_OR_GENERALIZED_TIME); } } diff --git a/src/lib/cert/x509/x509_crl.h b/src/lib/cert/x509/x509_crl.h index a9a8e80cf..b3c0c1349 100644 --- a/src/lib/cert/x509/x509_crl.h +++ b/src/lib/cert/x509/x509_crl.h @@ -101,9 +101,9 @@ class BOTAN_DLL X509_CRL : public X509_Object private: void force_decode() override; - bool throw_on_unknown_critical; - std::vector<CRL_Entry> revoked; - Data_Store info; + bool m_throw_on_unknown_critical; + std::vector<CRL_Entry> m_revoked; + Data_Store m_info; }; } diff --git a/src/lib/cert/x509/x509_ext.cpp b/src/lib/cert/x509/x509_ext.cpp index a05d27d3e..78c75f271 100644 --- a/src/lib/cert/x509/x509_ext.cpp +++ b/src/lib/cert/x509/x509_ext.cpp @@ -54,14 +54,14 @@ Extensions::Extensions(const Extensions& extensions) : ASN1_Object() */ Extensions& Extensions::operator=(const Extensions& other) { - for(size_t i = 0; i != extensions.size(); ++i) - delete extensions[i].first; - extensions.clear(); + for(size_t i = 0; i != m_extensions.size(); ++i) + delete m_extensions[i].first; + m_extensions.clear(); - for(size_t i = 0; i != other.extensions.size(); ++i) - extensions.push_back( - std::make_pair(other.extensions[i].first->copy(), - other.extensions[i].second)); + for(size_t i = 0; i != other.m_extensions.size(); ++i) + m_extensions.push_back( + std::make_pair(other.m_extensions[i].first->copy(), + other.m_extensions[i].second)); m_throw_on_unknown_critical = other.m_throw_on_unknown_critical; @@ -78,7 +78,7 @@ OID Certificate_Extension::oid_of() const void Extensions::add(Certificate_Extension* extn, bool critical) { - extensions.push_back(std::make_pair(extn, critical)); + m_extensions.push_back(std::make_pair(extn, critical)); } /* @@ -86,10 +86,10 @@ void Extensions::add(Certificate_Extension* extn, bool critical) */ void Extensions::encode_into(DER_Encoder& to_object) const { - for(size_t i = 0; i != extensions.size(); ++i) + for(size_t i = 0; i != m_extensions.size(); ++i) { - const Certificate_Extension* ext = extensions[i].first; - const bool is_critical = extensions[i].second; + const Certificate_Extension* ext = m_extensions[i].first; + const bool is_critical = m_extensions[i].second; const bool should_encode = ext->should_encode(); @@ -109,9 +109,9 @@ void Extensions::encode_into(DER_Encoder& to_object) const */ void Extensions::decode_from(BER_Decoder& from_source) { - for(size_t i = 0; i != extensions.size(); ++i) - delete extensions[i].first; - extensions.clear(); + for(size_t i = 0; i != m_extensions.size(); ++i) + delete m_extensions[i].first; + m_extensions.clear(); BER_Decoder sequence = from_source.start_cons(SEQUENCE); @@ -146,7 +146,7 @@ void Extensions::decode_from(BER_Decoder& from_source) oid.as_string() + ": " + e.what()); } - extensions.push_back(std::make_pair(ext, critical)); + m_extensions.push_back(std::make_pair(ext, critical)); } } @@ -159,8 +159,8 @@ void Extensions::decode_from(BER_Decoder& from_source) void Extensions::contents_to(Data_Store& subject_info, Data_Store& issuer_info) const { - for(size_t i = 0; i != extensions.size(); ++i) - extensions[i].first->contents_to(subject_info, issuer_info); + for(size_t i = 0; i != m_extensions.size(); ++i) + m_extensions[i].first->contents_to(subject_info, issuer_info); } /* @@ -168,8 +168,8 @@ void Extensions::contents_to(Data_Store& subject_info, */ Extensions::~Extensions() { - for(size_t i = 0; i != extensions.size(); ++i) - delete extensions[i].first; + for(size_t i = 0; i != m_extensions.size(); ++i) + delete m_extensions[i].first; } namespace Cert_Extension { @@ -351,7 +351,7 @@ void Authority_Key_ID::contents_to(Data_Store&, Data_Store& issuer) const */ std::vector<byte> Alternative_Name::encode_inner() const { - return DER_Encoder().encode(alt_name).get_contents_unlocked(); + return DER_Encoder().encode(m_alt_name).get_contents_unlocked(); } /* @@ -359,7 +359,7 @@ std::vector<byte> Alternative_Name::encode_inner() const */ void Alternative_Name::decode_inner(const std::vector<byte>& in) { - BER_Decoder(in).decode(alt_name); + BER_Decoder(in).decode(m_alt_name); } /* @@ -371,13 +371,13 @@ void Alternative_Name::contents_to(Data_Store& subject_info, std::multimap<std::string, std::string> contents = get_alt_name().contents(); - if(oid_name_str == "X509v3.SubjectAlternativeName") + if(m_oid_name_str == "X509v3.SubjectAlternativeName") subject_info.add(contents); - else if(oid_name_str == "X509v3.IssuerAlternativeName") + else if(m_oid_name_str == "X509v3.IssuerAlternativeName") issuer_info.add(contents); else throw Internal_Error("In Alternative_Name, unknown type " + - oid_name_str); + m_oid_name_str); } /* @@ -386,8 +386,8 @@ void Alternative_Name::contents_to(Data_Store& subject_info, Alternative_Name::Alternative_Name(const AlternativeName& alt_name, const std::string& oid_name_str) { - this->alt_name = alt_name; - this->oid_name_str = oid_name_str; + this->m_alt_name = alt_name; + this->m_oid_name_str = oid_name_str; } /* @@ -444,6 +444,7 @@ namespace { class Policy_Information : public ASN1_Object { public: + // public member variable: OID oid; Policy_Information() {} diff --git a/src/lib/cert/x509/x509_ext.h b/src/lib/cert/x509/x509_ext.h index 0ce49231a..5816dc699 100644 --- a/src/lib/cert/x509/x509_ext.h +++ b/src/lib/cert/x509/x509_ext.h @@ -75,7 +75,7 @@ class BOTAN_DLL Extensions : public ASN1_Object private: static Certificate_Extension* get_extension(const OID&); - std::vector<std::pair<Certificate_Extension*, bool> > extensions; + std::vector<std::pair<Certificate_Extension*, bool> > m_extensions; bool m_throw_on_unknown_critical; }; @@ -188,22 +188,22 @@ class BOTAN_DLL Authority_Key_ID : public Certificate_Extension class BOTAN_DLL Alternative_Name : public Certificate_Extension { public: - AlternativeName get_alt_name() const { return alt_name; } + AlternativeName get_alt_name() const { return m_alt_name; } protected: Alternative_Name(const AlternativeName&, const std::string& oid_name); Alternative_Name(const std::string&, const std::string&); private: - std::string oid_name() const override { return oid_name_str; } + std::string oid_name() const override { return m_oid_name_str; } - bool should_encode() const override { return alt_name.has_items(); } + bool should_encode() const override { return m_alt_name.has_items(); } std::vector<byte> encode_inner() const override; void decode_inner(const std::vector<byte>&) override; void contents_to(Data_Store&, Data_Store&) const override; - std::string oid_name_str; - AlternativeName alt_name; + std::string m_oid_name_str; + AlternativeName m_alt_name; }; /** diff --git a/src/lib/cert/x509/x509_obj.cpp b/src/lib/cert/x509/x509_obj.cpp index e908e8cab..983be40b2 100644 --- a/src/lib/cert/x509/x509_obj.cpp +++ b/src/lib/cert/x509/x509_obj.cpp @@ -48,12 +48,12 @@ X509_Object::X509_Object(const std::vector<byte>& vec, const std::string& labels */ void X509_Object::init(DataSource& in, const std::string& labels) { - PEM_labels_allowed = split_on(labels, '/'); - if(PEM_labels_allowed.size() < 1) + m_PEM_labels_allowed = split_on(labels, '/'); + if(m_PEM_labels_allowed.size() < 1) throw Invalid_Argument("Bad labels argument to X509_Object"); - PEM_label_pref = PEM_labels_allowed[0]; - std::sort(PEM_labels_allowed.begin(), PEM_labels_allowed.end()); + m_PEM_label_pref = m_PEM_labels_allowed[0]; + std::sort(m_PEM_labels_allowed.begin(), m_PEM_labels_allowed.end()); try { if(ASN1::maybe_BER(in) && !PEM_Code::matches(in)) @@ -66,8 +66,8 @@ void X509_Object::init(DataSource& in, const std::string& labels) std::string got_label; DataSource_Memory ber(PEM_Code::decode(in, got_label)); - if(!std::binary_search(PEM_labels_allowed.begin(), - PEM_labels_allowed.end(), got_label)) + if(!std::binary_search(m_PEM_labels_allowed.begin(), + m_PEM_labels_allowed.end(), got_label)) throw Decoding_Error("Invalid PEM label: " + got_label); BER_Decoder dec(ber); @@ -76,7 +76,7 @@ void X509_Object::init(DataSource& in, const std::string& labels) } catch(Decoding_Error& e) { - throw Decoding_Error(PEM_label_pref + " decoding failed: " + e.what()); + throw Decoding_Error(m_PEM_label_pref + " decoding failed: " + e.what()); } } @@ -85,10 +85,10 @@ void X509_Object::encode_into(DER_Encoder& to) const { to.start_cons(SEQUENCE) .start_cons(SEQUENCE) - .raw_bytes(tbs_bits) + .raw_bytes(m_tbs_bits) .end_cons() - .encode(sig_algo) - .encode(sig, BIT_STRING) + .encode(m_sig_algo) + .encode(m_sig, BIT_STRING) .end_cons(); } @@ -99,10 +99,10 @@ void X509_Object::decode_from(BER_Decoder& from) { from.start_cons(SEQUENCE) .start_cons(SEQUENCE) - .raw_bytes(tbs_bits) + .raw_bytes(m_tbs_bits) .end_cons() - .decode(sig_algo) - .decode(sig, BIT_STRING) + .decode(m_sig_algo) + .decode(m_sig, BIT_STRING) .verify_end() .end_cons(); } @@ -122,7 +122,7 @@ std::vector<byte> X509_Object::BER_encode() const */ std::string X509_Object::PEM_encode() const { - return PEM_Code::encode(BER_encode(), PEM_label_pref); + return PEM_Code::encode(BER_encode(), m_PEM_label_pref); } /* @@ -130,7 +130,7 @@ std::string X509_Object::PEM_encode() const */ std::vector<byte> X509_Object::tbs_data() const { - return ASN1::put_in_sequence(tbs_bits); + return ASN1::put_in_sequence(m_tbs_bits); } /* @@ -138,7 +138,7 @@ std::vector<byte> X509_Object::tbs_data() const */ std::vector<byte> X509_Object::signature() const { - return sig; + return m_sig; } /* @@ -146,7 +146,7 @@ std::vector<byte> X509_Object::signature() const */ AlgorithmIdentifier X509_Object::signature_algorithm() const { - return sig_algo; + return m_sig_algo; } /* @@ -155,11 +155,11 @@ AlgorithmIdentifier X509_Object::signature_algorithm() const std::string X509_Object::hash_used_for_signature() const { std::vector<std::string> sig_info = - split_on(OIDS::lookup(sig_algo.oid), '/'); + split_on(OIDS::lookup(m_sig_algo.oid), '/'); if(sig_info.size() != 2) throw Internal_Error("Invalid name format found for " + - sig_algo.oid.as_string()); + m_sig_algo.oid.as_string()); std::vector<std::string> pad_and_hash = parse_algorithm_name(sig_info[1]); @@ -176,10 +176,10 @@ std::string X509_Object::hash_used_for_signature() const bool X509_Object::check_signature(const Public_Key* pub_key) const { if(!pub_key) - throw Exception("No key provided for " + PEM_label_pref + " signature check"); + throw Exception("No key provided for " + m_PEM_label_pref + " signature check"); std::unique_ptr<const Public_Key> key(pub_key); return check_signature(*key); - } +} /* * Check the signature on an object @@ -188,7 +188,7 @@ bool X509_Object::check_signature(const Public_Key& pub_key) const { try { std::vector<std::string> sig_info = - split_on(OIDS::lookup(sig_algo.oid), '/'); + split_on(OIDS::lookup(m_sig_algo.oid), '/'); if(sig_info.size() != 2 || sig_info[0] != pub_key.algo_name()) return false; @@ -234,12 +234,12 @@ void X509_Object::do_decode() } catch(Decoding_Error& e) { - throw Decoding_Error(PEM_label_pref + " decoding failed (" + + throw Decoding_Error(m_PEM_label_pref + " decoding failed (" + e.what() + ")"); } catch(Invalid_Argument& e) { - throw Decoding_Error(PEM_label_pref + " decoding failed (" + + throw Decoding_Error(m_PEM_label_pref + " decoding failed (" + e.what() + ")"); } } diff --git a/src/lib/cert/x509/x509_obj.h b/src/lib/cert/x509/x509_obj.h index ec6bd530c..eb929451c 100644 --- a/src/lib/cert/x509/x509_obj.h +++ b/src/lib/cert/x509/x509_obj.h @@ -93,14 +93,14 @@ class BOTAN_DLL X509_Object : public ASN1_Object void do_decode(); X509_Object() {} - AlgorithmIdentifier sig_algo; - std::vector<byte> tbs_bits, sig; + AlgorithmIdentifier m_sig_algo; + std::vector<byte> m_tbs_bits, m_sig; private: virtual void force_decode() = 0; void init(DataSource&, const std::string&); - std::vector<std::string> PEM_labels_allowed; - std::string PEM_label_pref; + std::vector<std::string> m_PEM_labels_allowed; + std::string m_PEM_label_pref; }; } diff --git a/src/lib/cert/x509/x509cert.cpp b/src/lib/cert/x509/x509cert.cpp index 7e5199c00..cb24a7a03 100644 --- a/src/lib/cert/x509/x509cert.cpp +++ b/src/lib/cert/x509/x509cert.cpp @@ -44,7 +44,7 @@ std::vector<std::string> lookup_oids(const std::vector<std::string>& in) X509_Certificate::X509_Certificate(DataSource& in) : X509_Object(in, "CERTIFICATE/X509 CERTIFICATE") { - self_signed = false; + m_self_signed = false; do_decode(); } @@ -54,7 +54,7 @@ X509_Certificate::X509_Certificate(DataSource& in) : X509_Certificate::X509_Certificate(const std::string& in) : X509_Object(in, "CERTIFICATE/X509 CERTIFICATE") { - self_signed = false; + m_self_signed = false; do_decode(); } @@ -64,7 +64,7 @@ X509_Certificate::X509_Certificate(const std::string& in) : X509_Certificate::X509_Certificate(const std::vector<byte>& in) : X509_Object(in, "CERTIFICATE/X509 CERTIFICATE") { - self_signed = false; + m_self_signed = false; do_decode(); } @@ -79,7 +79,7 @@ void X509_Certificate::force_decode() X509_DN dn_issuer, dn_subject; X509_Time start, end; - BER_Decoder tbs_cert(tbs_bits); + BER_Decoder tbs_cert(m_tbs_bits); tbs_cert.decode_optional(version, ASN1_Tag(0), ASN1_Tag(CONSTRUCTED | CONTEXT_SPECIFIC)) @@ -95,16 +95,16 @@ void X509_Certificate::force_decode() if(version > 2) throw Decoding_Error("Unknown X.509 cert version " + std::to_string(version)); - if(sig_algo != sig_algo_inner) + if(m_sig_algo != sig_algo_inner) throw Decoding_Error("Algorithm identifier mismatch"); - self_signed = (dn_subject == dn_issuer); + m_self_signed = (dn_subject == dn_issuer); - subject.add(dn_subject.contents()); - issuer.add(dn_issuer.contents()); + m_subject.add(dn_subject.contents()); + m_issuer.add(dn_issuer.contents()); - subject.add("X509.Certificate.dn_bits", ASN1::put_in_sequence(dn_subject.get_bits())); - issuer.add("X509.Certificate.dn_bits", ASN1::put_in_sequence(dn_issuer.get_bits())); + m_subject.add("X509.Certificate.dn_bits", ASN1::put_in_sequence(dn_subject.get_bits())); + m_issuer.add("X509.Certificate.dn_bits", ASN1::put_in_sequence(dn_issuer.get_bits())); BER_Object public_key = tbs_cert.get_next_object(); if(public_key.type_tag != SEQUENCE || public_key.class_tag != CONSTRUCTED) @@ -124,7 +124,7 @@ void X509_Certificate::force_decode() BER_Decoder(v3_exts_data.value).decode(extensions).verify_end(); - extensions.contents_to(subject, issuer); + extensions.contents_to(m_subject, m_issuer); } else if(v3_exts_data.type_tag != NO_OBJECT) throw BER_Bad_Tag("Unknown tag in X.509 cert", @@ -133,30 +133,30 @@ void X509_Certificate::force_decode() if(tbs_cert.more_items()) throw Decoding_Error("TBSCertificate has more items that expected"); - subject.add("X509.Certificate.version", version); - subject.add("X509.Certificate.serial", BigInt::encode(serial_bn)); - subject.add("X509.Certificate.start", start.to_string()); - subject.add("X509.Certificate.end", end.to_string()); + m_subject.add("X509.Certificate.version", version); + m_subject.add("X509.Certificate.serial", BigInt::encode(serial_bn)); + m_subject.add("X509.Certificate.start", start.to_string()); + m_subject.add("X509.Certificate.end", end.to_string()); - issuer.add("X509.Certificate.v2.key_id", v2_issuer_key_id); - subject.add("X509.Certificate.v2.key_id", v2_subject_key_id); + m_issuer.add("X509.Certificate.v2.key_id", v2_issuer_key_id); + m_subject.add("X509.Certificate.v2.key_id", v2_subject_key_id); - subject.add("X509.Certificate.public_key", + m_subject.add("X509.Certificate.public_key", hex_encode(public_key.value)); - if(self_signed && version == 0) + if(m_self_signed && version == 0) { - subject.add("X509v3.BasicConstraints.is_ca", 1); - subject.add("X509v3.BasicConstraints.path_constraint", Cert_Extension::NO_CERT_PATH_LIMIT); + m_subject.add("X509v3.BasicConstraints.is_ca", 1); + m_subject.add("X509v3.BasicConstraints.path_constraint", Cert_Extension::NO_CERT_PATH_LIMIT); } if(is_CA_cert() && - !subject.has_value("X509v3.BasicConstraints.path_constraint")) + !m_subject.has_value("X509v3.BasicConstraints.path_constraint")) { const size_t limit = (x509_version() < 3) ? Cert_Extension::NO_CERT_PATH_LIMIT : 0; - subject.add("X509v3.BasicConstraints.path_constraint", limit); + m_subject.add("X509v3.BasicConstraints.path_constraint", limit); } } @@ -165,7 +165,7 @@ void X509_Certificate::force_decode() */ u32bit X509_Certificate::x509_version() const { - return (subject.get1_u32bit("X509.Certificate.version") + 1); + return (m_subject.get1_u32bit("X509.Certificate.version") + 1); } /* @@ -173,7 +173,7 @@ u32bit X509_Certificate::x509_version() const */ std::string X509_Certificate::start_time() const { - return subject.get1("X509.Certificate.start"); + return m_subject.get1("X509.Certificate.start"); } /* @@ -181,7 +181,7 @@ std::string X509_Certificate::start_time() const */ std::string X509_Certificate::end_time() const { - return subject.get1("X509.Certificate.end"); + return m_subject.get1("X509.Certificate.end"); } /* @@ -190,7 +190,7 @@ std::string X509_Certificate::end_time() const std::vector<std::string> X509_Certificate::subject_info(const std::string& what) const { - return subject.get(X509_DN::deref_info_field(what)); + return m_subject.get(X509_DN::deref_info_field(what)); } /* @@ -199,7 +199,7 @@ X509_Certificate::subject_info(const std::string& what) const std::vector<std::string> X509_Certificate::issuer_info(const std::string& what) const { - return issuer.get(X509_DN::deref_info_field(what)); + return m_issuer.get(X509_DN::deref_info_field(what)); } /* @@ -213,7 +213,7 @@ Public_Key* X509_Certificate::subject_public_key() const std::vector<byte> X509_Certificate::subject_public_key_bits() const { - return hex_decode(subject.get1("X509.Certificate.public_key")); + return hex_decode(m_subject.get1("X509.Certificate.public_key")); } /* @@ -221,7 +221,7 @@ std::vector<byte> X509_Certificate::subject_public_key_bits() const */ bool X509_Certificate::is_CA_cert() const { - if(!subject.get1_u32bit("X509v3.BasicConstraints.is_ca")) + if(!m_subject.get1_u32bit("X509v3.BasicConstraints.is_ca")) return false; return allowed_usage(Key_Constraints(KEY_CERT_SIGN)); @@ -275,7 +275,7 @@ bool X509_Certificate::allowed_usage(Usage_Type usage) const */ u32bit X509_Certificate::path_limit() const { - return subject.get1_u32bit("X509v3.BasicConstraints.path_constraint", 0); + return m_subject.get1_u32bit("X509v3.BasicConstraints.path_constraint", 0); } /* @@ -283,7 +283,7 @@ u32bit X509_Certificate::path_limit() const */ Key_Constraints X509_Certificate::constraints() const { - return Key_Constraints(subject.get1_u32bit("X509v3.KeyUsage", + return Key_Constraints(m_subject.get1_u32bit("X509v3.KeyUsage", NO_CONSTRAINTS)); } @@ -292,7 +292,7 @@ Key_Constraints X509_Certificate::constraints() const */ std::vector<std::string> X509_Certificate::ex_constraints() const { - return lookup_oids(subject.get("X509v3.ExtendedKeyUsage")); + return lookup_oids(m_subject.get("X509v3.ExtendedKeyUsage")); } /* @@ -300,17 +300,17 @@ std::vector<std::string> X509_Certificate::ex_constraints() const */ std::vector<std::string> X509_Certificate::policies() const { - return lookup_oids(subject.get("X509v3.CertificatePolicies")); + return lookup_oids(m_subject.get("X509v3.CertificatePolicies")); } std::string X509_Certificate::ocsp_responder() const { - return subject.get1("OCSP.responder", ""); + return m_subject.get1("OCSP.responder", ""); } std::string X509_Certificate::crl_distribution_point() const { - return subject.get1("CRL.DistributionPoint", ""); + return m_subject.get1("CRL.DistributionPoint", ""); } /* @@ -318,7 +318,7 @@ std::string X509_Certificate::crl_distribution_point() const */ std::vector<byte> X509_Certificate::authority_key_id() const { - return issuer.get1_memvec("X509v3.AuthorityKeyIdentifier"); + return m_issuer.get1_memvec("X509v3.AuthorityKeyIdentifier"); } /* @@ -326,7 +326,7 @@ std::vector<byte> X509_Certificate::authority_key_id() const */ std::vector<byte> X509_Certificate::subject_key_id() const { - return subject.get1_memvec("X509v3.SubjectKeyIdentifier"); + return m_subject.get1_memvec("X509v3.SubjectKeyIdentifier"); } /* @@ -334,27 +334,27 @@ std::vector<byte> X509_Certificate::subject_key_id() const */ std::vector<byte> X509_Certificate::serial_number() const { - return subject.get1_memvec("X509.Certificate.serial"); + return m_subject.get1_memvec("X509.Certificate.serial"); } X509_DN X509_Certificate::issuer_dn() const { - return create_dn(issuer); + return create_dn(m_issuer); } std::vector<byte> X509_Certificate::raw_issuer_dn() const { - return issuer.get1_memvec("X509.Certificate.dn_bits"); + return m_issuer.get1_memvec("X509.Certificate.dn_bits"); } X509_DN X509_Certificate::subject_dn() const { - return create_dn(subject); + return create_dn(m_subject); } std::vector<byte> X509_Certificate::raw_subject_dn() const { - return subject.get1_memvec("X509.Certificate.dn_bits"); + return m_subject.get1_memvec("X509.Certificate.dn_bits"); } std::string X509_Certificate::fingerprint(const std::string& hash_name) const @@ -402,25 +402,25 @@ bool X509_Certificate::matches_dns_name(const std::string& name) const */ bool X509_Certificate::operator==(const X509_Certificate& other) const { - return (sig == other.sig && - sig_algo == other.sig_algo && - self_signed == other.self_signed && - issuer == other.issuer && - subject == other.subject); + return (m_sig == other.m_sig && + m_sig_algo == other.m_sig_algo && + m_self_signed == other.m_self_signed && + m_issuer == other.m_issuer && + m_subject == other.m_subject); } bool X509_Certificate::operator<(const X509_Certificate& other) const { /* If signature values are not equal, sort by lexicographic ordering of that */ - if(sig != other.sig) + if(m_sig != other.m_sig) { - if(sig < other.sig) + if(m_sig < other.m_sig) return true; return false; } // Then compare the signed contents - return tbs_bits < other.tbs_bits; + return m_tbs_bits < other.m_tbs_bits; } /* diff --git a/src/lib/cert/x509/x509cert.h b/src/lib/cert/x509/x509cert.h index 578360a80..144ceb909 100644 --- a/src/lib/cert/x509/x509cert.h +++ b/src/lib/cert/x509/x509cert.h @@ -129,7 +129,7 @@ class BOTAN_DLL X509_Certificate : public X509_Object * Check whether this certificate is self signed. * @return true if this certificate is self signed */ - bool is_self_signed() const { return self_signed; } + bool is_self_signed() const { return m_self_signed; } /** * Check whether this certificate is a CA certificate. @@ -238,8 +238,8 @@ class BOTAN_DLL X509_Certificate : public X509_Object X509_Certificate() {} - Data_Store subject, issuer; - bool self_signed; + Data_Store m_subject, m_issuer; + bool m_self_signed; }; /** diff --git a/src/lib/entropy/cryptoapi_rng/es_capi.cpp b/src/lib/entropy/cryptoapi_rng/es_capi.cpp index 88c8488ad..8d682698a 100644 --- a/src/lib/entropy/cryptoapi_rng/es_capi.cpp +++ b/src/lib/entropy/cryptoapi_rng/es_capi.cpp @@ -21,33 +21,33 @@ class CSP_Handle public: CSP_Handle(u64bit capi_provider) { - valid = false; + m_valid = false; DWORD prov_type = (DWORD)capi_provider; - if(CryptAcquireContext(&handle, 0, 0, + if(CryptAcquireContext(&m_handle, 0, 0, prov_type, CRYPT_VERIFYCONTEXT)) - valid = true; + m_valid = true; } ~CSP_Handle() { if(is_valid()) - CryptReleaseContext(handle, 0); + CryptReleaseContext(m_handle, 0); } size_t gen_random(byte out[], size_t n) const { - if(is_valid() && CryptGenRandom(handle, static_cast<DWORD>(n), out)) + if(is_valid() && CryptGenRandom(m_handle, static_cast<DWORD>(n), out)) return n; return 0; } - bool is_valid() const { return valid; } + bool is_valid() const { return m_valid; } - HCRYPTPROV get_handle() const { return handle; } + HCRYPTPROV get_handle() const { return m_handle; } private: - HCRYPTPROV handle; - bool valid; + HCRYPTPROV m_handle; + bool m_valid; }; } @@ -59,9 +59,9 @@ void Win32_CAPI_EntropySource::poll(Entropy_Accumulator& accum) { secure_vector<byte>& buf = accum.get_io_buf(BOTAN_SYSTEM_RNG_POLL_REQUEST); - for(size_t i = 0; i != prov_types.size(); ++i) + for(size_t i = 0; i != m_prov_types.size(); ++i) { - CSP_Handle csp(prov_types[i]); + CSP_Handle csp(m_prov_types[i]); if(size_t got = csp.gen_random(buf.data(), buf.size())) { @@ -80,14 +80,14 @@ Win32_CAPI_EntropySource::Win32_CAPI_EntropySource(const std::string& provs) for(size_t i = 0; i != capi_provs.size(); ++i) { - if(capi_provs[i] == "RSA_FULL") prov_types.push_back(PROV_RSA_FULL); - if(capi_provs[i] == "INTEL_SEC") prov_types.push_back(PROV_INTEL_SEC); - if(capi_provs[i] == "FORTEZZA") prov_types.push_back(PROV_FORTEZZA); - if(capi_provs[i] == "RNG") prov_types.push_back(PROV_RNG); + if(capi_provs[i] == "RSA_FULL") m_prov_types.push_back(PROV_RSA_FULL); + if(capi_provs[i] == "INTEL_SEC") m_prov_types.push_back(PROV_INTEL_SEC); + if(capi_provs[i] == "FORTEZZA") m_prov_types.push_back(PROV_FORTEZZA); + if(capi_provs[i] == "RNG") m_prov_types.push_back(PROV_RNG); } - if(prov_types.size() == 0) - prov_types.push_back(PROV_RSA_FULL); + if(m_prov_types.size() == 0) + m_prov_types.push_back(PROV_RSA_FULL); } } diff --git a/src/lib/entropy/cryptoapi_rng/es_capi.h b/src/lib/entropy/cryptoapi_rng/es_capi.h index eb63183e9..9410e05b8 100644 --- a/src/lib/entropy/cryptoapi_rng/es_capi.h +++ b/src/lib/entropy/cryptoapi_rng/es_capi.h @@ -29,7 +29,7 @@ class Win32_CAPI_EntropySource : public Entropy_Source */ Win32_CAPI_EntropySource(const std::string& provs = ""); private: - std::vector<u64bit> prov_types; + std::vector<u64bit> m_prov_types; }; } diff --git a/src/lib/entropy/egd/es_egd.cpp b/src/lib/entropy/egd/es_egd.cpp index ba43cc86d..9bc6de6fe 100644 --- a/src/lib/entropy/egd/es_egd.cpp +++ b/src/lib/entropy/egd/es_egd.cpp @@ -25,7 +25,7 @@ namespace Botan { EGD_EntropySource::EGD_Socket::EGD_Socket(const std::string& path) : - socket_path(path), m_fd(-1) + m_socket_path(path), m_fd(-1) { } @@ -69,7 +69,7 @@ size_t EGD_EntropySource::EGD_Socket::read(byte outbuf[], size_t length) if(m_fd < 0) { - m_fd = open_socket(socket_path); + m_fd = open_socket(m_socket_path); if(m_fd < 0) return 0; } @@ -121,14 +121,14 @@ void EGD_EntropySource::EGD_Socket::close() EGD_EntropySource::EGD_EntropySource(const std::vector<std::string>& paths) { for(size_t i = 0; i != paths.size(); ++i) - sockets.push_back(EGD_Socket(paths[i])); + m_sockets.push_back(EGD_Socket(paths[i])); } EGD_EntropySource::~EGD_EntropySource() { - for(size_t i = 0; i != sockets.size(); ++i) - sockets[i].close(); - sockets.clear(); + for(size_t i = 0; i != m_sockets.size(); ++i) + m_sockets[i].close(); + m_sockets.clear(); } /** @@ -140,9 +140,9 @@ void EGD_EntropySource::poll(Entropy_Accumulator& accum) secure_vector<byte>& buf = accum.get_io_buf(BOTAN_SYSTEM_RNG_POLL_REQUEST); - for(size_t i = 0; i != sockets.size(); ++i) + for(size_t i = 0; i != m_sockets.size(); ++i) { - size_t got = sockets[i].read(buf.data(), buf.size()); + size_t got = m_sockets[i].read(buf.data(), buf.size()); if(got) { diff --git a/src/lib/entropy/egd/es_egd.h b/src/lib/entropy/egd/es_egd.h index 0b497a8bd..e03fcf009 100644 --- a/src/lib/entropy/egd/es_egd.h +++ b/src/lib/entropy/egd/es_egd.h @@ -38,12 +38,12 @@ class EGD_EntropySource : public Entropy_Source private: static int open_socket(const std::string& path); - std::string socket_path; + std::string m_socket_path; int m_fd; // cached fd }; std::mutex m_mutex; - std::vector<EGD_Socket> sockets; + std::vector<EGD_Socket> m_sockets; }; } diff --git a/src/lib/filters/buf_filt.cpp b/src/lib/filters/buf_filt.cpp index 6fb367e5f..9306c1ef8 100644 --- a/src/lib/filters/buf_filt.cpp +++ b/src/lib/filters/buf_filt.cpp @@ -16,16 +16,16 @@ namespace Botan { * Buffered_Filter Constructor */ Buffered_Filter::Buffered_Filter(size_t b, size_t f) : - main_block_mod(b), final_minimum(f) + m_main_block_mod(b), m_final_minimum(f) { - if(main_block_mod == 0) - throw Invalid_Argument("main_block_mod == 0"); + if(m_main_block_mod == 0) + throw Invalid_Argument("m_main_block_mod == 0"); - if(final_minimum > main_block_mod) - throw Invalid_Argument("final_minimum > main_block_mod"); + if(m_final_minimum > m_main_block_mod) + throw Invalid_Argument("m_final_minimum > m_main_block_mod"); - buffer.resize(2 * main_block_mod); - buffer_pos = 0; + m_buffer.resize(2 * m_main_block_mod); + m_buffer_pos = 0; } /* @@ -36,32 +36,32 @@ void Buffered_Filter::write(const byte input[], size_t input_size) if(!input_size) return; - if(buffer_pos + input_size >= main_block_mod + final_minimum) + if(m_buffer_pos + input_size >= m_main_block_mod + m_final_minimum) { - size_t to_copy = std::min<size_t>(buffer.size() - buffer_pos, input_size); + size_t to_copy = std::min<size_t>(m_buffer.size() - m_buffer_pos, input_size); - copy_mem(&buffer[buffer_pos], input, to_copy); - buffer_pos += to_copy; + copy_mem(&m_buffer[m_buffer_pos], input, to_copy); + m_buffer_pos += to_copy; input += to_copy; input_size -= to_copy; size_t total_to_consume = - round_down(std::min(buffer_pos, - buffer_pos + input_size - final_minimum), - main_block_mod); + round_down(std::min(m_buffer_pos, + m_buffer_pos + input_size - m_final_minimum), + m_main_block_mod); - buffered_block(buffer.data(), total_to_consume); + buffered_block(m_buffer.data(), total_to_consume); - buffer_pos -= total_to_consume; + m_buffer_pos -= total_to_consume; - copy_mem(buffer.data(), buffer.data() + total_to_consume, buffer_pos); + copy_mem(m_buffer.data(), m_buffer.data() + total_to_consume, m_buffer_pos); } - if(input_size >= final_minimum) + if(input_size >= m_final_minimum) { - size_t full_blocks = (input_size - final_minimum) / main_block_mod; - size_t to_copy = full_blocks * main_block_mod; + size_t full_blocks = (input_size - m_final_minimum) / m_main_block_mod; + size_t to_copy = full_blocks * m_main_block_mod; if(to_copy) { @@ -72,8 +72,8 @@ void Buffered_Filter::write(const byte input[], size_t input_size) } } - copy_mem(&buffer[buffer_pos], input, input_size); - buffer_pos += input_size; + copy_mem(&m_buffer[m_buffer_pos], input, input_size); + m_buffer_pos += input_size; } /* @@ -81,23 +81,23 @@ void Buffered_Filter::write(const byte input[], size_t input_size) */ void Buffered_Filter::end_msg() { - if(buffer_pos < final_minimum) + if(m_buffer_pos < m_final_minimum) throw Exception("Buffered filter end_msg without enough input"); - size_t spare_blocks = (buffer_pos - final_minimum) / main_block_mod; + size_t spare_blocks = (m_buffer_pos - m_final_minimum) / m_main_block_mod; if(spare_blocks) { - size_t spare_bytes = main_block_mod * spare_blocks; - buffered_block(buffer.data(), spare_bytes); - buffered_final(&buffer[spare_bytes], buffer_pos - spare_bytes); + size_t spare_bytes = m_main_block_mod * spare_blocks; + buffered_block(m_buffer.data(), spare_bytes); + buffered_final(&m_buffer[spare_bytes], m_buffer_pos - spare_bytes); } else { - buffered_final(buffer.data(), buffer_pos); + buffered_final(m_buffer.data(), m_buffer_pos); } - buffer_pos = 0; + m_buffer_pos = 0; } } diff --git a/src/lib/filters/buf_filt.h b/src/lib/filters/buf_filt.h index f9d996ab0..2ec7c4d30 100644 --- a/src/lib/filters/buf_filt.h +++ b/src/lib/filters/buf_filt.h @@ -70,22 +70,22 @@ class BOTAN_DLL Buffered_Filter /** * @return block size of inputs */ - size_t buffered_block_size() const { return main_block_mod; } + size_t buffered_block_size() const { return m_main_block_mod; } /** * @return current position in the buffer */ - size_t current_position() const { return buffer_pos; } + size_t current_position() const { return m_buffer_pos; } /** * Reset the buffer position */ - void buffer_reset() { buffer_pos = 0; } + void buffer_reset() { m_buffer_pos = 0; } private: - size_t main_block_mod, final_minimum; + size_t m_main_block_mod, m_final_minimum; - secure_vector<byte> buffer; - size_t buffer_pos; + secure_vector<byte> m_buffer; + size_t m_buffer_pos; }; } diff --git a/src/lib/filters/codec_filt/b64_filt.cpp b/src/lib/filters/codec_filt/b64_filt.cpp index a4656dbe6..fe6314d52 100644 --- a/src/lib/filters/codec_filt/b64_filt.cpp +++ b/src/lib/filters/codec_filt/b64_filt.cpp @@ -17,12 +17,12 @@ namespace Botan { * Base64_Encoder Constructor */ Base64_Encoder::Base64_Encoder(bool breaks, size_t length, bool t_n) : - line_length(breaks ? length : 0), - trailing_newline(t_n && breaks), - in(48), - out(64), - position(0), - out_position(0) + m_line_length(breaks ? length : 0), + m_trailing_newline(t_n && breaks), + m_in(48), + m_out(64), + m_position(0), + m_out_position(0) { } @@ -34,13 +34,13 @@ void Base64_Encoder::encode_and_send(const byte input[], size_t length, { while(length) { - const size_t proc = std::min(length, in.size()); + const size_t proc = std::min(length, m_in.size()); size_t consumed = 0; - size_t produced = base64_encode(reinterpret_cast<char*>(out.data()), input, + size_t produced = base64_encode(reinterpret_cast<char*>(m_out.data()), input, proc, consumed, final_inputs); - do_output(out.data(), produced); + do_output(m_out.data(), produced); // FIXME: s/proc/consumed/? input += proc; @@ -53,22 +53,22 @@ void Base64_Encoder::encode_and_send(const byte input[], size_t length, */ void Base64_Encoder::do_output(const byte input[], size_t length) { - if(line_length == 0) + if(m_line_length == 0) send(input, length); else { size_t remaining = length, offset = 0; while(remaining) { - size_t sent = std::min(line_length - out_position, remaining); + size_t sent = std::min(m_line_length - m_out_position, remaining); send(input + offset, sent); - out_position += sent; + m_out_position += sent; remaining -= sent; offset += sent; - if(out_position == line_length) + if(m_out_position == m_line_length) { send('\n'); - out_position = 0; + m_out_position = 0; } } } @@ -79,22 +79,22 @@ void Base64_Encoder::do_output(const byte input[], size_t length) */ void Base64_Encoder::write(const byte input[], size_t length) { - buffer_insert(in, position, input, length); - if(position + length >= in.size()) + buffer_insert(m_in, m_position, input, length); + if(m_position + length >= m_in.size()) { - encode_and_send(in.data(), in.size()); - input += (in.size() - position); - length -= (in.size() - position); - while(length >= in.size()) + encode_and_send(m_in.data(), m_in.size()); + input += (m_in.size() - m_position); + length -= (m_in.size() - m_position); + while(length >= m_in.size()) { - encode_and_send(input, in.size()); - input += in.size(); - length -= in.size(); + encode_and_send(input, m_in.size()); + input += m_in.size(); + length -= m_in.size(); } - copy_mem(in.data(), input, length); - position = 0; + copy_mem(m_in.data(), input, length); + m_position = 0; } - position += length; + m_position += length; } /* @@ -102,19 +102,19 @@ void Base64_Encoder::write(const byte input[], size_t length) */ void Base64_Encoder::end_msg() { - encode_and_send(in.data(), position, true); + encode_and_send(m_in.data(), m_position, true); - if(trailing_newline || (out_position && line_length)) + if(m_trailing_newline || (m_out_position && m_line_length)) send('\n'); - out_position = position = 0; + m_out_position = m_position = 0; } /* * Base64_Decoder Constructor */ Base64_Decoder::Base64_Decoder(Decoder_Checking c) : - checking(c), in(64), out(48), position(0) + m_checking(c), m_in(64), m_out(48), m_position(0) { } @@ -125,32 +125,32 @@ void Base64_Decoder::write(const byte input[], size_t length) { while(length) { - size_t to_copy = std::min<size_t>(length, in.size() - position); + size_t to_copy = std::min<size_t>(length, m_in.size() - m_position); if(to_copy == 0) { - in.resize(in.size()*2); - out.resize(out.size()*2); + m_in.resize(m_in.size()*2); + m_out.resize(m_out.size()*2); } - copy_mem(&in[position], input, to_copy); - position += to_copy; + copy_mem(&m_in[m_position], input, to_copy); + m_position += to_copy; size_t consumed = 0; - size_t written = base64_decode(out.data(), - reinterpret_cast<const char*>(in.data()), - position, + size_t written = base64_decode(m_out.data(), + reinterpret_cast<const char*>(m_in.data()), + m_position, consumed, false, - checking != FULL_CHECK); + m_checking != FULL_CHECK); - send(out, written); + send(m_out, written); - if(consumed != position) + if(consumed != m_position) { - copy_mem(in.data(), in.data() + consumed, position - consumed); - position = position - consumed; + copy_mem(m_in.data(), m_in.data() + consumed, m_position - consumed); + m_position = m_position - consumed; } else - position = 0; + m_position = 0; length -= to_copy; input += to_copy; @@ -163,18 +163,18 @@ void Base64_Decoder::write(const byte input[], size_t length) void Base64_Decoder::end_msg() { size_t consumed = 0; - size_t written = base64_decode(out.data(), - reinterpret_cast<const char*>(in.data()), - position, + size_t written = base64_decode(m_out.data(), + reinterpret_cast<const char*>(m_in.data()), + m_position, consumed, true, - checking != FULL_CHECK); + m_checking != FULL_CHECK); - send(out, written); + send(m_out, written); - const bool not_full_bytes = consumed != position; + const bool not_full_bytes = consumed != m_position; - position = 0; + m_position = 0; if(not_full_bytes) throw Invalid_Argument("Base64_Decoder: Input not full bytes"); diff --git a/src/lib/filters/codec_filt/b64_filt.h b/src/lib/filters/codec_filt/b64_filt.h index 8ab428076..c827bcfdd 100644 --- a/src/lib/filters/codec_filt/b64_filt.h +++ b/src/lib/filters/codec_filt/b64_filt.h @@ -45,10 +45,10 @@ class BOTAN_DLL Base64_Encoder : public Filter bool final_inputs = false); void do_output(const byte output[], size_t length); - const size_t line_length; - const bool trailing_newline; - std::vector<byte> in, out; - size_t position, out_position; + const size_t m_line_length; + const bool m_trailing_newline; + std::vector<byte> m_in, m_out; + size_t m_position, m_out_position; }; /** @@ -78,9 +78,9 @@ class BOTAN_DLL Base64_Decoder : public Filter */ Base64_Decoder(Decoder_Checking checking = NONE); private: - const Decoder_Checking checking; - std::vector<byte> in, out; - size_t position; + const Decoder_Checking m_checking; + std::vector<byte> m_in, m_out; + size_t m_position; }; } diff --git a/src/lib/filters/codec_filt/hex_filt.cpp b/src/lib/filters/codec_filt/hex_filt.cpp index e1a7dc9a5..2003055b4 100644 --- a/src/lib/filters/codec_filt/hex_filt.cpp +++ b/src/lib/filters/codec_filt/hex_filt.cpp @@ -23,21 +23,21 @@ const size_t HEX_CODEC_BUFFER_SIZE = 256; * Hex_Encoder Constructor */ Hex_Encoder::Hex_Encoder(bool breaks, size_t length, Case c) : - casing(c), line_length(breaks ? length : 0) + m_casing(c), m_line_length(breaks ? length : 0) { - in.resize(HEX_CODEC_BUFFER_SIZE); - out.resize(2*in.size()); - counter = position = 0; + m_in.resize(HEX_CODEC_BUFFER_SIZE); + m_out.resize(2*m_in.size()); + m_counter = m_position = 0; } /* * Hex_Encoder Constructor */ -Hex_Encoder::Hex_Encoder(Case c) : casing(c), line_length(0) +Hex_Encoder::Hex_Encoder(Case c) : m_casing(c), m_line_length(0) { - in.resize(HEX_CODEC_BUFFER_SIZE); - out.resize(2*in.size()); - counter = position = 0; + m_in.resize(HEX_CODEC_BUFFER_SIZE); + m_out.resize(2*m_in.size()); + m_counter = m_position = 0; } /* @@ -45,26 +45,26 @@ Hex_Encoder::Hex_Encoder(Case c) : casing(c), line_length(0) */ void Hex_Encoder::encode_and_send(const byte block[], size_t length) { - hex_encode(reinterpret_cast<char*>(out.data()), + hex_encode(reinterpret_cast<char*>(m_out.data()), block, length, - casing == Uppercase); + m_casing == Uppercase); - if(line_length == 0) - send(out, 2*length); + if(m_line_length == 0) + send(m_out, 2*length); else { size_t remaining = 2*length, offset = 0; while(remaining) { - size_t sent = std::min(line_length - counter, remaining); - send(&out[offset], sent); - counter += sent; + size_t sent = std::min(m_line_length - m_counter, remaining); + send(&m_out[offset], sent); + m_counter += sent; remaining -= sent; offset += sent; - if(counter == line_length) + if(m_counter == m_line_length) { send('\n'); - counter = 0; + m_counter = 0; } } } @@ -75,22 +75,22 @@ void Hex_Encoder::encode_and_send(const byte block[], size_t length) */ void Hex_Encoder::write(const byte input[], size_t length) { - buffer_insert(in, position, input, length); - if(position + length >= in.size()) + buffer_insert(m_in, m_position, input, length); + if(m_position + length >= m_in.size()) { - encode_and_send(in.data(), in.size()); - input += (in.size() - position); - length -= (in.size() - position); - while(length >= in.size()) + encode_and_send(m_in.data(), m_in.size()); + input += (m_in.size() - m_position); + length -= (m_in.size() - m_position); + while(length >= m_in.size()) { - encode_and_send(input, in.size()); - input += in.size(); - length -= in.size(); + encode_and_send(input, m_in.size()); + input += m_in.size(); + length -= m_in.size(); } - copy_mem(in.data(), input, length); - position = 0; + copy_mem(m_in.data(), input, length); + m_position = 0; } - position += length; + m_position += length; } /* @@ -98,20 +98,20 @@ void Hex_Encoder::write(const byte input[], size_t length) */ void Hex_Encoder::end_msg() { - encode_and_send(in.data(), position); - if(counter && line_length) + encode_and_send(m_in.data(), m_position); + if(m_counter && m_line_length) send('\n'); - counter = position = 0; + m_counter = m_position = 0; } /* * Hex_Decoder Constructor */ -Hex_Decoder::Hex_Decoder(Decoder_Checking c) : checking(c) +Hex_Decoder::Hex_Decoder(Decoder_Checking c) : m_checking(c) { - in.resize(HEX_CODEC_BUFFER_SIZE); - out.resize(in.size() / 2); - position = 0; + m_in.resize(HEX_CODEC_BUFFER_SIZE); + m_out.resize(m_in.size() / 2); + m_position = 0; } /* @@ -121,26 +121,26 @@ void Hex_Decoder::write(const byte input[], size_t length) { while(length) { - size_t to_copy = std::min<size_t>(length, in.size() - position); - copy_mem(&in[position], input, to_copy); - position += to_copy; + size_t to_copy = std::min<size_t>(length, m_in.size() - m_position); + copy_mem(&m_in[m_position], input, to_copy); + m_position += to_copy; size_t consumed = 0; - size_t written = hex_decode(out.data(), - reinterpret_cast<const char*>(in.data()), - position, + size_t written = hex_decode(m_out.data(), + reinterpret_cast<const char*>(m_in.data()), + m_position, consumed, - checking != FULL_CHECK); + m_checking != FULL_CHECK); - send(out, written); + send(m_out, written); - if(consumed != position) + if(consumed != m_position) { - copy_mem(in.data(), in.data() + consumed, position - consumed); - position = position - consumed; + copy_mem(m_in.data(), m_in.data() + consumed, m_position - consumed); + m_position = m_position - consumed; } else - position = 0; + m_position = 0; length -= to_copy; input += to_copy; @@ -153,17 +153,17 @@ void Hex_Decoder::write(const byte input[], size_t length) void Hex_Decoder::end_msg() { size_t consumed = 0; - size_t written = hex_decode(out.data(), - reinterpret_cast<const char*>(in.data()), - position, + size_t written = hex_decode(m_out.data(), + reinterpret_cast<const char*>(m_in.data()), + m_position, consumed, - checking != FULL_CHECK); + m_checking != FULL_CHECK); - send(out, written); + send(m_out, written); - const bool not_full_bytes = consumed != position; + const bool not_full_bytes = consumed != m_position; - position = 0; + m_position = 0; if(not_full_bytes) throw Invalid_Argument("Hex_Decoder: Input not full bytes"); diff --git a/src/lib/filters/codec_filt/hex_filt.h b/src/lib/filters/codec_filt/hex_filt.h index 6130e729c..2399c3ec5 100644 --- a/src/lib/filters/codec_filt/hex_filt.h +++ b/src/lib/filters/codec_filt/hex_filt.h @@ -47,10 +47,10 @@ class BOTAN_DLL Hex_Encoder : public Filter private: void encode_and_send(const byte[], size_t); - const Case casing; - const size_t line_length; - std::vector<byte> in, out; - size_t position, counter; + const Case m_casing; + const size_t m_line_length; + std::vector<byte> m_in, m_out; + size_t m_position, m_counter; }; /** @@ -71,9 +71,9 @@ class BOTAN_DLL Hex_Decoder : public Filter */ Hex_Decoder(Decoder_Checking checking = NONE); private: - const Decoder_Checking checking; - std::vector<byte> in, out; - size_t position; + const Decoder_Checking m_checking; + std::vector<byte> m_in, m_out; + size_t m_position; }; } diff --git a/src/lib/filters/data_snk.cpp b/src/lib/filters/data_snk.cpp index f56c2d869..df35b12bf 100644 --- a/src/lib/filters/data_snk.cpp +++ b/src/lib/filters/data_snk.cpp @@ -17,10 +17,10 @@ namespace Botan { */ void DataSink_Stream::write(const byte out[], size_t length) { - sink.write(reinterpret_cast<const char*>(out), length); - if(!sink.good()) + m_sink.write(reinterpret_cast<const char*>(out), length); + if(!m_sink.good()) throw Stream_IO_Error("DataSink_Stream: Failure writing to " + - identifier); + m_identifier); } /* @@ -28,9 +28,9 @@ void DataSink_Stream::write(const byte out[], size_t length) */ DataSink_Stream::DataSink_Stream(std::ostream& out, const std::string& name) : - identifier(name), - sink_p(nullptr), - sink(out) + m_identifier(name), + m_sink_p(nullptr), + m_sink(out) { } @@ -39,14 +39,14 @@ DataSink_Stream::DataSink_Stream(std::ostream& out, */ DataSink_Stream::DataSink_Stream(const std::string& path, bool use_binary) : - identifier(path), - sink_p(new std::ofstream(path, + m_identifier(path), + m_sink_p(new std::ofstream(path, use_binary ? std::ios::binary : std::ios::out)), - sink(*sink_p) + m_sink(*m_sink_p) { - if(!sink.good()) + if(!m_sink.good()) { - delete sink_p; + delete m_sink_p; throw Stream_IO_Error("DataSink_Stream: Failure opening " + path); } } @@ -56,7 +56,7 @@ DataSink_Stream::DataSink_Stream(const std::string& path, */ DataSink_Stream::~DataSink_Stream() { - delete sink_p; + delete m_sink_p; } } diff --git a/src/lib/filters/data_snk.h b/src/lib/filters/data_snk.h index 15e2de6ef..56b292e46 100644 --- a/src/lib/filters/data_snk.h +++ b/src/lib/filters/data_snk.h @@ -33,7 +33,7 @@ class BOTAN_DLL DataSink : public Filter class BOTAN_DLL DataSink_Stream : public DataSink { public: - std::string name() const override { return identifier; } + std::string name() const override { return m_identifier; } void write(const byte[], size_t) override; @@ -56,10 +56,10 @@ class BOTAN_DLL DataSink_Stream : public DataSink ~DataSink_Stream(); private: - const std::string identifier; + const std::string m_identifier; - std::ostream* sink_p; - std::ostream& sink; + std::ostream* m_sink_p; + std::ostream& m_sink; }; } diff --git a/src/lib/filters/filter.cpp b/src/lib/filters/filter.cpp index 0bbde2853..18ea02b9e 100644 --- a/src/lib/filters/filter.cpp +++ b/src/lib/filters/filter.cpp @@ -16,10 +16,10 @@ namespace Botan { */ Filter::Filter() { - next.resize(1); - port_num = 0; - filter_owns = 0; - owned = false; + m_next.resize(1); + m_port_num = 0; + m_filter_owns = 0; + m_owned = false; } /* @@ -32,18 +32,18 @@ void Filter::send(const byte input[], size_t length) bool nothing_attached = true; for(size_t j = 0; j != total_ports(); ++j) - if(next[j]) + if(m_next[j]) { - if(write_queue.size()) - next[j]->write(write_queue.data(), write_queue.size()); - next[j]->write(input, length); + if(m_write_queue.size()) + m_next[j]->write(m_write_queue.data(), m_write_queue.size()); + m_next[j]->write(input, length); nothing_attached = false; } if(nothing_attached) - write_queue += std::make_pair(input, length); + m_write_queue += std::make_pair(input, length); else - write_queue.clear(); + m_write_queue.clear(); } /* @@ -53,8 +53,8 @@ void Filter::new_msg() { start_msg(); for(size_t j = 0; j != total_ports(); ++j) - if(next[j]) - next[j]->new_msg(); + if(m_next[j]) + m_next[j]->new_msg(); } /* @@ -64,8 +64,8 @@ void Filter::finish_msg() { end_msg(); for(size_t j = 0; j != total_ports(); ++j) - if(next[j]) - next[j]->finish_msg(); + if(m_next[j]) + m_next[j]->finish_msg(); } /* @@ -78,7 +78,7 @@ void Filter::attach(Filter* new_filter) Filter* last = this; while(last->get_next()) last = last->get_next(); - last->next[last->current_port()] = new_filter; + last->m_next[last->current_port()] = new_filter; } } @@ -89,7 +89,7 @@ void Filter::set_port(size_t new_port) { if(new_port >= total_ports()) throw Invalid_Argument("Filter: Invalid port number"); - port_num = new_port; + m_port_num = new_port; } /* @@ -97,8 +97,8 @@ void Filter::set_port(size_t new_port) */ Filter* Filter::get_next() const { - if(port_num < next.size()) - return next[port_num]; + if(m_port_num < m_next.size()) + return m_next[m_port_num]; return nullptr; } @@ -107,16 +107,16 @@ Filter* Filter::get_next() const */ void Filter::set_next(Filter* filters[], size_t size) { - next.clear(); + m_next.clear(); - port_num = 0; - filter_owns = 0; + m_port_num = 0; + m_filter_owns = 0; while(size && filters && (filters[size-1] == nullptr)) --size; if(filters && size) - next.assign(filters, filters + size); + m_next.assign(filters, filters + size); } /* @@ -124,7 +124,7 @@ void Filter::set_next(Filter* filters[], size_t size) */ size_t Filter::total_ports() const { - return next.size(); + return m_next.size(); } } diff --git a/src/lib/filters/filter.h b/src/lib/filters/filter.h index 9e28655c2..359a76ac0 100644 --- a/src/lib/filters/filter.h +++ b/src/lib/filters/filter.h @@ -115,7 +115,7 @@ class BOTAN_DLL Filter friend class Fanout_Filter; size_t total_ports() const; - size_t current_port() const { return port_num; } + size_t current_port() const { return m_port_num; } /** * Set the active port @@ -123,7 +123,7 @@ class BOTAN_DLL Filter */ void set_port(size_t new_port); - size_t owns() const { return filter_owns; } + size_t owns() const { return m_filter_owns; } /** * Attach another filter to this one @@ -138,12 +138,12 @@ class BOTAN_DLL Filter void set_next(Filter* filters[], size_t count); Filter* get_next() const; - secure_vector<byte> write_queue; - std::vector<Filter*> next; - size_t port_num, filter_owns; + secure_vector<byte> m_write_queue; + std::vector<Filter*> m_next; + size_t m_port_num, m_filter_owns; // true if filter belongs to a pipe --> prohibit filter sharing! - bool owned; + bool m_owned; }; /** @@ -155,7 +155,7 @@ class BOTAN_DLL Fanout_Filter : public Filter /** * Increment the number of filters past us that we own */ - void incr_owns() { ++filter_owns; } + void incr_owns() { ++m_filter_owns; } void set_port(size_t n) { Filter::set_port(n); } @@ -165,9 +165,9 @@ class BOTAN_DLL Fanout_Filter : public Filter private: friend class Threaded_Fork; - using Filter::write_queue; + using Filter::m_write_queue; using Filter::total_ports; - using Filter::next; + using Filter::m_next; }; /** diff --git a/src/lib/filters/out_buf.cpp b/src/lib/filters/out_buf.cpp index 34fbd84ed..e0d649a5b 100644 --- a/src/lib/filters/out_buf.cpp +++ b/src/lib/filters/out_buf.cpp @@ -65,10 +65,10 @@ void Output_Buffers::add(SecureQueue* queue) { BOTAN_ASSERT(queue, "queue was provided"); - BOTAN_ASSERT(buffers.size() < buffers.max_size(), + BOTAN_ASSERT(m_buffers.size() < m_buffers.max_size(), "Room was available in container"); - buffers.push_back(queue); + m_buffers.push_back(queue); } /* @@ -76,17 +76,17 @@ void Output_Buffers::add(SecureQueue* queue) */ void Output_Buffers::retire() { - for(size_t i = 0; i != buffers.size(); ++i) - if(buffers[i] && buffers[i]->size() == 0) + for(size_t i = 0; i != m_buffers.size(); ++i) + if(m_buffers[i] && m_buffers[i]->size() == 0) { - delete buffers[i]; - buffers[i] = nullptr; + delete m_buffers[i]; + m_buffers[i] = nullptr; } - while(buffers.size() && !buffers[0]) + while(m_buffers.size() && !m_buffers[0]) { - buffers.pop_front(); - offset = offset + Pipe::message_id(1); + m_buffers.pop_front(); + m_offset = m_offset + Pipe::message_id(1); } } @@ -95,12 +95,12 @@ void Output_Buffers::retire() */ SecureQueue* Output_Buffers::get(Pipe::message_id msg) const { - if(msg < offset) + if(msg < m_offset) return nullptr; BOTAN_ASSERT(msg < message_count(), "Message number is in range"); - return buffers[msg-offset]; + return m_buffers[msg-m_offset]; } /* @@ -108,7 +108,7 @@ SecureQueue* Output_Buffers::get(Pipe::message_id msg) const */ Pipe::message_id Output_Buffers::message_count() const { - return (offset + buffers.size()); + return (m_offset + m_buffers.size()); } /* @@ -116,7 +116,7 @@ Pipe::message_id Output_Buffers::message_count() const */ Output_Buffers::Output_Buffers() { - offset = 0; + m_offset = 0; } /* @@ -124,8 +124,8 @@ Output_Buffers::Output_Buffers() */ Output_Buffers::~Output_Buffers() { - for(size_t j = 0; j != buffers.size(); ++j) - delete buffers[j]; + for(size_t j = 0; j != m_buffers.size(); ++j) + delete m_buffers[j]; } } diff --git a/src/lib/filters/out_buf.h b/src/lib/filters/out_buf.h index 4617d9464..4898ca105 100644 --- a/src/lib/filters/out_buf.h +++ b/src/lib/filters/out_buf.h @@ -36,8 +36,8 @@ class Output_Buffers private: class SecureQueue* get(Pipe::message_id) const; - std::deque<SecureQueue*> buffers; - Pipe::message_id offset; + std::deque<SecureQueue*> m_buffers; + Pipe::message_id m_offset; }; } diff --git a/src/lib/filters/pipe.cpp b/src/lib/filters/pipe.cpp index 15ace9ffc..a4962f891 100644 --- a/src/lib/filters/pipe.cpp +++ b/src/lib/filters/pipe.cpp @@ -56,8 +56,8 @@ Pipe::Pipe(std::initializer_list<Filter*> args) */ Pipe::~Pipe() { - destruct(pipe); - delete outputs; + destruct(m_pipe); + delete m_outputs; } /* @@ -65,10 +65,10 @@ Pipe::~Pipe() */ void Pipe::init() { - outputs = new Output_Buffers; - pipe = nullptr; - default_read = 0; - inside_msg = false; + m_outputs = new Output_Buffers; + m_pipe = nullptr; + m_default_read = 0; + m_inside_msg = false; } /* @@ -76,9 +76,9 @@ void Pipe::init() */ void Pipe::reset() { - destruct(pipe); - pipe = nullptr; - inside_msg = false; + destruct(m_pipe); + m_pipe = nullptr; + m_inside_msg = false; } /* @@ -89,7 +89,7 @@ void Pipe::destruct(Filter* to_kill) if(!to_kill || dynamic_cast<SecureQueue*>(to_kill)) return; for(size_t j = 0; j != to_kill->total_ports(); ++j) - destruct(to_kill->next[j]); + destruct(to_kill->m_next[j]); delete to_kill; } @@ -108,7 +108,7 @@ void Pipe::set_default_msg(message_id msg) { if(msg >= message_count()) throw Invalid_Argument("Pipe::set_default_msg: msg number is too high"); - default_read = msg; + m_default_read = msg; } /* @@ -157,13 +157,13 @@ void Pipe::process_msg(DataSource& input) */ void Pipe::start_msg() { - if(inside_msg) + if(m_inside_msg) throw Invalid_State("Pipe::start_msg: Message was already started"); - if(pipe == nullptr) - pipe = new Null_Filter; - find_endpoints(pipe); - pipe->new_msg(); - inside_msg = true; + if(m_pipe == nullptr) + m_pipe = new Null_Filter; + find_endpoints(m_pipe); + m_pipe->new_msg(); + m_inside_msg = true; } /* @@ -171,18 +171,18 @@ void Pipe::start_msg() */ void Pipe::end_msg() { - if(!inside_msg) + if(!m_inside_msg) throw Invalid_State("Pipe::end_msg: Message was already ended"); - pipe->finish_msg(); - clear_endpoints(pipe); - if(dynamic_cast<Null_Filter*>(pipe)) + m_pipe->finish_msg(); + clear_endpoints(m_pipe); + if(dynamic_cast<Null_Filter*>(m_pipe)) { - delete pipe; - pipe = nullptr; + delete m_pipe; + m_pipe = nullptr; } - inside_msg = false; + m_inside_msg = false; - outputs->retire(); + m_outputs->retire(); } /* @@ -191,13 +191,13 @@ void Pipe::end_msg() void Pipe::find_endpoints(Filter* f) { for(size_t j = 0; j != f->total_ports(); ++j) - if(f->next[j] && !dynamic_cast<SecureQueue*>(f->next[j])) - find_endpoints(f->next[j]); + if(f->m_next[j] && !dynamic_cast<SecureQueue*>(f->m_next[j])) + find_endpoints(f->m_next[j]); else { SecureQueue* q = new SecureQueue; - f->next[j] = q; - outputs->add(q); + f->m_next[j] = q; + m_outputs->add(q); } } @@ -209,9 +209,9 @@ void Pipe::clear_endpoints(Filter* f) if(!f) return; for(size_t j = 0; j != f->total_ports(); ++j) { - if(f->next[j] && dynamic_cast<SecureQueue*>(f->next[j])) - f->next[j] = nullptr; - clear_endpoints(f->next[j]); + if(f->m_next[j] && dynamic_cast<SecureQueue*>(f->m_next[j])) + f->m_next[j] = nullptr; + clear_endpoints(f->m_next[j]); } } @@ -220,19 +220,19 @@ void Pipe::clear_endpoints(Filter* f) */ void Pipe::append(Filter* filter) { - if(inside_msg) + if(m_inside_msg) throw Invalid_State("Cannot append to a Pipe while it is processing"); if(!filter) return; if(dynamic_cast<SecureQueue*>(filter)) throw Invalid_Argument("Pipe::append: SecureQueue cannot be used"); - if(filter->owned) + if(filter->m_owned) throw Invalid_Argument("Filters cannot be shared among multiple Pipes"); - filter->owned = true; + filter->m_owned = true; - if(!pipe) pipe = filter; - else pipe->attach(filter); + if(!m_pipe) m_pipe = filter; + else m_pipe->attach(filter); } /* @@ -240,19 +240,19 @@ void Pipe::append(Filter* filter) */ void Pipe::prepend(Filter* filter) { - if(inside_msg) + if(m_inside_msg) throw Invalid_State("Cannot prepend to a Pipe while it is processing"); if(!filter) return; if(dynamic_cast<SecureQueue*>(filter)) throw Invalid_Argument("Pipe::prepend: SecureQueue cannot be used"); - if(filter->owned) + if(filter->m_owned) throw Invalid_Argument("Filters cannot be shared among multiple Pipes"); - filter->owned = true; + filter->m_owned = true; - if(pipe) filter->attach(pipe); - pipe = filter; + if(m_pipe) filter->attach(m_pipe); + m_pipe = filter; } /* @@ -260,24 +260,24 @@ void Pipe::prepend(Filter* filter) */ void Pipe::pop() { - if(inside_msg) + if(m_inside_msg) throw Invalid_State("Cannot pop off a Pipe while it is processing"); - if(!pipe) + if(!m_pipe) return; - if(pipe->total_ports() > 1) + if(m_pipe->total_ports() > 1) throw Invalid_State("Cannot pop off a Filter with multiple ports"); - Filter* f = pipe; + Filter* f = m_pipe; size_t owns = f->owns(); - pipe = pipe->next[0]; + m_pipe = m_pipe->m_next[0]; delete f; while(owns--) { - f = pipe; - pipe = pipe->next[0]; + f = m_pipe; + m_pipe = m_pipe->m_next[0]; delete f; } } @@ -287,7 +287,7 @@ void Pipe::pop() */ Pipe::message_id Pipe::message_count() const { - return outputs->message_count(); + return m_outputs->message_count(); } /* diff --git a/src/lib/filters/pipe.h b/src/lib/filters/pipe.h index 3f8d4d04c..7a30bb6a3 100644 --- a/src/lib/filters/pipe.h +++ b/src/lib/filters/pipe.h @@ -232,7 +232,7 @@ class BOTAN_DLL Pipe : public DataSource /** * @return currently set default message */ - size_t default_msg() const { return default_read; } + size_t default_msg() const { return m_default_read; } /** * Set the default message @@ -311,10 +311,10 @@ class BOTAN_DLL Pipe : public DataSource message_id get_message_no(const std::string&, message_id) const; - Filter* pipe; - class Output_Buffers* outputs; - message_id default_read; - bool inside_msg; + Filter* m_pipe; + class Output_Buffers* m_outputs; + message_id m_default_read; + bool m_inside_msg; }; /** diff --git a/src/lib/filters/pipe_rw.cpp b/src/lib/filters/pipe_rw.cpp index 796f9100e..4d31f43f5 100644 --- a/src/lib/filters/pipe_rw.cpp +++ b/src/lib/filters/pipe_rw.cpp @@ -34,9 +34,9 @@ Pipe::message_id Pipe::get_message_no(const std::string& func_name, */ void Pipe::write(const byte input[], size_t length) { - if(!inside_msg) + if(!m_inside_msg) throw Invalid_State("Cannot write to a Pipe while it is not processing"); - pipe->write(input, length); + m_pipe->write(input, length); } /* @@ -73,7 +73,7 @@ void Pipe::write(DataSource& source) */ size_t Pipe::read(byte output[], size_t length, message_id msg) { - return outputs->read(output, length, get_message_no("read", msg)); + return m_outputs->read(output, length, get_message_no("read", msg)); } /* @@ -130,7 +130,7 @@ std::string Pipe::read_all_as_string(message_id msg) */ size_t Pipe::remaining(message_id msg) const { - return outputs->remaining(get_message_no("remaining", msg)); + return m_outputs->remaining(get_message_no("remaining", msg)); } /* @@ -139,7 +139,7 @@ size_t Pipe::remaining(message_id msg) const size_t Pipe::peek(byte output[], size_t length, size_t offset, message_id msg) const { - return outputs->peek(output, length, offset, get_message_no("peek", msg)); + return m_outputs->peek(output, length, offset, get_message_no("peek", msg)); } /* @@ -160,12 +160,12 @@ size_t Pipe::peek(byte& out, size_t offset, message_id msg) const size_t Pipe::get_bytes_read() const { - return outputs->get_bytes_read(DEFAULT_MESSAGE); + return m_outputs->get_bytes_read(DEFAULT_MESSAGE); } size_t Pipe::get_bytes_read(message_id msg) const { - return outputs->get_bytes_read(msg); + return m_outputs->get_bytes_read(msg); } bool Pipe::check_available(size_t n) diff --git a/src/lib/filters/secqueue.cpp b/src/lib/filters/secqueue.cpp index 120e8dd0d..4546ae398 100644 --- a/src/lib/filters/secqueue.cpp +++ b/src/lib/filters/secqueue.cpp @@ -17,42 +17,42 @@ namespace Botan { class SecureQueueNode { public: - SecureQueueNode() : buffer(DEFAULT_BUFFERSIZE) - { next = nullptr; start = end = 0; } + SecureQueueNode() : m_buffer(DEFAULT_BUFFERSIZE) + { m_next = nullptr; m_start = m_end = 0; } - ~SecureQueueNode() { next = nullptr; start = end = 0; } + ~SecureQueueNode() { m_next = nullptr; m_start = m_end = 0; } size_t write(const byte input[], size_t length) { - size_t copied = std::min<size_t>(length, buffer.size() - end); - copy_mem(buffer.data() + end, input, copied); - end += copied; + size_t copied = std::min<size_t>(length, m_buffer.size() - m_end); + copy_mem(m_buffer.data() + m_end, input, copied); + m_end += copied; return copied; } size_t read(byte output[], size_t length) { - size_t copied = std::min(length, end - start); - copy_mem(output, buffer.data() + start, copied); - start += copied; + size_t copied = std::min(length, m_end - m_start); + copy_mem(output, m_buffer.data() + m_start, copied); + m_start += copied; return copied; } size_t peek(byte output[], size_t length, size_t offset = 0) { - const size_t left = end - start; + const size_t left = m_end - m_start; if(offset >= left) return 0; size_t copied = std::min(length, left - offset); - copy_mem(output, buffer.data() + start + offset, copied); + copy_mem(output, m_buffer.data() + m_start + offset, copied); return copied; } - size_t size() const { return (end - start); } + size_t size() const { return (m_end - m_start); } private: friend class SecureQueue; - SecureQueueNode* next; - secure_vector<byte> buffer; - size_t start, end; + SecureQueueNode* m_next; + secure_vector<byte> m_buffer; + size_t m_start, m_end; }; /* @@ -78,8 +78,8 @@ SecureQueue::SecureQueue(const SecureQueue& input) : SecureQueueNode* temp = input.m_head; while(temp) { - write(&temp->buffer[temp->start], temp->end - temp->start); - temp = temp->next; + write(&temp->m_buffer[temp->m_start], temp->m_end - temp->m_start); + temp = temp->m_next; } } @@ -91,7 +91,7 @@ void SecureQueue::destroy() SecureQueueNode* temp = m_head; while(temp) { - SecureQueueNode* holder = temp->next; + SecureQueueNode* holder = temp->m_next; delete temp; temp = holder; } @@ -108,8 +108,8 @@ SecureQueue& SecureQueue::operator=(const SecureQueue& input) SecureQueueNode* temp = input.m_head; while(temp) { - write(&temp->buffer[temp->start], temp->end - temp->start); - temp = temp->next; + write(&temp->m_buffer[temp->m_start], temp->m_end - temp->m_start); + temp = temp->m_next; } return (*this); } @@ -128,8 +128,8 @@ void SecureQueue::write(const byte input[], size_t length) length -= n; if(length) { - m_tail->next = new SecureQueueNode; - m_tail = m_tail->next; + m_tail->m_next = new SecureQueueNode; + m_tail = m_tail->m_next; } } } @@ -148,7 +148,7 @@ size_t SecureQueue::read(byte output[], size_t length) length -= n; if(m_head->size() == 0) { - SecureQueueNode* holder = m_head->next; + SecureQueueNode* holder = m_head->m_next; delete m_head; m_head = holder; } @@ -169,7 +169,7 @@ size_t SecureQueue::peek(byte output[], size_t length, size_t offset) const if(offset >= current->size()) { offset -= current->size(); - current = current->next; + current = current->m_next; } else break; @@ -183,7 +183,7 @@ size_t SecureQueue::peek(byte output[], size_t length, size_t offset) const output += n; got += n; length -= n; - current = current->next; + current = current->m_next; } return got; } @@ -207,7 +207,7 @@ size_t SecureQueue::size() const while(current) { count += current->size(); - current = current->next; + current = current->m_next; } return count; } diff --git a/src/lib/filters/threaded_fork.cpp b/src/lib/filters/threaded_fork.cpp index a6bb4c713..5ee802593 100644 --- a/src/lib/filters/threaded_fork.cpp +++ b/src/lib/filters/threaded_fork.cpp @@ -77,7 +77,7 @@ std::string Threaded_Fork::name() const void Threaded_Fork::set_next(Filter* f[], size_t n) { Fork::set_next(f, n); - n = next.size(); + n = m_next.size(); if(n < m_threads.size()) m_threads.resize(n); @@ -89,26 +89,26 @@ void Threaded_Fork::set_next(Filter* f[], size_t n) m_threads.push_back( std::shared_ptr<std::thread>( new std::thread( - std::bind(&Threaded_Fork::thread_entry, this, next[i])))); + std::bind(&Threaded_Fork::thread_entry, this, m_next[i])))); } } } void Threaded_Fork::send(const byte input[], size_t length) { - if(write_queue.size()) - thread_delegate_work(write_queue.data(), write_queue.size()); + if(m_write_queue.size()) + thread_delegate_work(m_write_queue.data(), m_write_queue.size()); thread_delegate_work(input, length); bool nothing_attached = true; for(size_t j = 0; j != total_ports(); ++j) - if(next[j]) + if(m_next[j]) nothing_attached = false; if(nothing_attached) - write_queue += std::make_pair(input, length); + m_write_queue += std::make_pair(input, length); else - write_queue.clear(); + m_write_queue.clear(); } void Threaded_Fork::thread_delegate_work(const byte input[], size_t length) diff --git a/src/lib/hash/checksum/adler32/adler32.cpp b/src/lib/hash/checksum/adler32/adler32.cpp index f368b627c..304c664dd 100644 --- a/src/lib/hash/checksum/adler32/adler32.cpp +++ b/src/lib/hash/checksum/adler32/adler32.cpp @@ -61,12 +61,12 @@ void Adler32::add_data(const byte input[], size_t length) while(length >= PROCESS_AMOUNT) { - adler32_update(input, PROCESS_AMOUNT, S1, S2); + adler32_update(input, PROCESS_AMOUNT, m_S1, m_S2); input += PROCESS_AMOUNT; length -= PROCESS_AMOUNT; } - adler32_update(input, length, S1, S2); + adler32_update(input, length, m_S1, m_S2); } /* @@ -74,7 +74,7 @@ void Adler32::add_data(const byte input[], size_t length) */ void Adler32::final_result(byte output[]) { - store_be(output, S2, S1); + store_be(output, m_S2, m_S1); clear(); } diff --git a/src/lib/hash/checksum/adler32/adler32.h b/src/lib/hash/checksum/adler32/adler32.h index 307236d6d..c42c184c9 100644 --- a/src/lib/hash/checksum/adler32/adler32.h +++ b/src/lib/hash/checksum/adler32/adler32.h @@ -22,14 +22,14 @@ class BOTAN_DLL Adler32 : public HashFunction size_t output_length() const override { return 4; } HashFunction* clone() const override { return new Adler32; } - void clear() override { S1 = 1; S2 = 0; } + void clear() override { m_S1 = 1; m_S2 = 0; } Adler32() { clear(); } ~Adler32() { clear(); } private: void add_data(const byte[], size_t) override; void final_result(byte[]) override; - u16bit S1, S2; + u16bit m_S1, m_S2; }; } diff --git a/src/lib/hash/checksum/crc24/crc24.cpp b/src/lib/hash/checksum/crc24/crc24.cpp index 1484f643d..6f1eea453 100644 --- a/src/lib/hash/checksum/crc24/crc24.cpp +++ b/src/lib/hash/checksum/crc24/crc24.cpp @@ -60,7 +60,7 @@ void CRC24::add_data(const byte input[], size_t length) 0x00FA48FA, 0x007C0401, 0x0042FA2F, 0x00C4B6D4, 0x00C82F22, 0x004E63D9, 0x00D11CCE, 0x00575035, 0x005BC9C3, 0x00DD8538 }; - u32bit tmp = crc; + u32bit tmp = m_crc; while(length >= 16) { tmp = TABLE[((tmp >> 16) ^ input[ 0]) & 0xFF] ^ (tmp << 8); @@ -86,7 +86,7 @@ void CRC24::add_data(const byte input[], size_t length) for(size_t i = 0; i != length; ++i) tmp = TABLE[((tmp >> 16) ^ input[i]) & 0xFF] ^ (tmp << 8); - crc = tmp; + m_crc = tmp; } /* @@ -95,7 +95,7 @@ void CRC24::add_data(const byte input[], size_t length) void CRC24::final_result(byte output[]) { for(size_t i = 0; i != 3; ++i) - output[i] = get_byte(i+1, crc); + output[i] = get_byte(i+1, m_crc); clear(); } diff --git a/src/lib/hash/checksum/crc24/crc24.h b/src/lib/hash/checksum/crc24/crc24.h index 8df8bd727..8e9ce9315 100644 --- a/src/lib/hash/checksum/crc24/crc24.h +++ b/src/lib/hash/checksum/crc24/crc24.h @@ -22,14 +22,14 @@ class BOTAN_DLL CRC24 : public HashFunction size_t output_length() const override { return 3; } HashFunction* clone() const override { return new CRC24; } - void clear() override { crc = 0xB704CE; } + void clear() override { m_crc = 0xB704CE; } CRC24() { clear(); } ~CRC24() { clear(); } private: void add_data(const byte[], size_t) override; void final_result(byte[]) override; - u32bit crc; + u32bit m_crc; }; } diff --git a/src/lib/hash/checksum/crc32/crc32.cpp b/src/lib/hash/checksum/crc32/crc32.cpp index 10d989cc6..ca8c87c5f 100644 --- a/src/lib/hash/checksum/crc32/crc32.cpp +++ b/src/lib/hash/checksum/crc32/crc32.cpp @@ -60,7 +60,7 @@ void CRC32::add_data(const byte input[], size_t length) 0x54DE5729, 0x23D967BF, 0xB3667A2E, 0xC4614AB8, 0x5D681B02, 0x2A6F2B94, 0xB40BBE37, 0xC30C8EA1, 0x5A05DF1B, 0x2D02EF8D }; - u32bit tmp = crc; + u32bit tmp = m_crc; while(length >= 16) { tmp = TABLE[(tmp ^ input[ 0]) & 0xFF] ^ (tmp >> 8); @@ -86,7 +86,7 @@ void CRC32::add_data(const byte input[], size_t length) for(size_t i = 0; i != length; ++i) tmp = TABLE[(tmp ^ input[i]) & 0xFF] ^ (tmp >> 8); - crc = tmp; + m_crc = tmp; } /* @@ -94,8 +94,8 @@ void CRC32::add_data(const byte input[], size_t length) */ void CRC32::final_result(byte output[]) { - crc ^= 0xFFFFFFFF; - store_be(crc, output); + m_crc ^= 0xFFFFFFFF; + store_be(m_crc, output); clear(); } diff --git a/src/lib/hash/checksum/crc32/crc32.h b/src/lib/hash/checksum/crc32/crc32.h index 8ae95d42a..98c9a020c 100644 --- a/src/lib/hash/checksum/crc32/crc32.h +++ b/src/lib/hash/checksum/crc32/crc32.h @@ -22,14 +22,14 @@ class BOTAN_DLL CRC32 : public HashFunction size_t output_length() const override { return 4; } HashFunction* clone() const override { return new CRC32; } - void clear() override { crc = 0xFFFFFFFF; } + void clear() override { m_crc = 0xFFFFFFFF; } CRC32() { clear(); } ~CRC32() { clear(); } private: void add_data(const byte[], size_t) override; void final_result(byte[]) override; - u32bit crc; + u32bit m_crc; }; } diff --git a/src/lib/hash/gost_3411/gost_3411.cpp b/src/lib/hash/gost_3411/gost_3411.cpp index f8c9c0069..17c590a5c 100644 --- a/src/lib/hash/gost_3411/gost_3411.cpp +++ b/src/lib/hash/gost_3411/gost_3411.cpp @@ -13,22 +13,22 @@ namespace Botan { * GOST 34.11 Constructor */ GOST_34_11::GOST_34_11() : - cipher(GOST_28147_89_Params("R3411_CryptoPro")), - buffer(32), - sum(32), - hash(32) + m_cipher(GOST_28147_89_Params("R3411_CryptoPro")), + m_buffer(32), + m_sum(32), + m_hash(32) { - count = 0; - position = 0; + m_count = 0; + m_position = 0; } void GOST_34_11::clear() { - cipher.clear(); - zeroise(sum); - zeroise(hash); - count = 0; - position = 0; + m_cipher.clear(); + zeroise(m_sum); + zeroise(m_hash); + m_count = 0; + m_position = 0; } /** @@ -36,18 +36,18 @@ void GOST_34_11::clear() */ void GOST_34_11::add_data(const byte input[], size_t length) { - count += length; + m_count += length; - if(position) + if(m_position) { - buffer_insert(buffer, position, input, length); + buffer_insert(m_buffer, m_position, input, length); - if(position + length >= hash_block_size()) + if(m_position + length >= hash_block_size()) { - compress_n(buffer.data(), 1); - input += (hash_block_size() - position); - length -= (hash_block_size() - position); - position = 0; + compress_n(m_buffer.data(), 1); + input += (hash_block_size() - m_position); + length -= (hash_block_size() - m_position); + m_position = 0; } } @@ -57,8 +57,8 @@ void GOST_34_11::add_data(const byte input[], size_t length) if(full_blocks) compress_n(input, full_blocks); - buffer_insert(buffer, position, input + full_blocks * hash_block_size(), remaining); - position += remaining; + buffer_insert(m_buffer, m_position, input + full_blocks * hash_block_size(), remaining); + m_position += remaining; } /** @@ -70,15 +70,15 @@ void GOST_34_11::compress_n(const byte input[], size_t blocks) { for(u16bit j = 0, carry = 0; j != 32; ++j) { - u16bit s = sum[j] + input[32*i+j] + carry; + u16bit s = m_sum[j] + input[32*i+j] + carry; carry = get_byte(0, s); - sum[j] = get_byte(1, s); + m_sum[j] = get_byte(1, s); } byte S[32] = { 0 }; u64bit U[4], V[4]; - load_be(U, hash.data(), 4); + load_be(U, m_hash.data(), 4); load_be(V, input + 32*i, 4); for(size_t j = 0; j != 4; ++j) @@ -90,8 +90,8 @@ void GOST_34_11::compress_n(const byte input[], size_t blocks) for(size_t l = 0; l != 8; ++l) key[4*l+k] = get_byte(l, U[k]) ^ get_byte(l, V[k]); - cipher.set_key(key, 32); - cipher.encrypt(&hash[8*j], S + 8*j); + m_cipher.set_key(key, 32); + m_cipher.encrypt(&m_hash[8*j], S + 8*j); if(j == 3) break; @@ -165,7 +165,7 @@ void GOST_34_11::compress_n(const byte input[], size_t blocks) S[30] = S2[0]; S[31] = S2[1]; - xor_buf(S, hash.data(), 32); + xor_buf(S, m_hash.data(), 32); // 61 rounds of psi S2[ 0] = S[ 2] ^ S[ 6] ^ S[14] ^ S[20] ^ S[22] ^ S[26] ^ S[28] ^ S[30]; @@ -207,7 +207,7 @@ void GOST_34_11::compress_n(const byte input[], size_t blocks) S2[30] = S[ 2] ^ S[ 4] ^ S[ 8] ^ S[14] ^ S[16] ^ S[18] ^ S[22] ^ S[24] ^ S[28] ^ S[30]; S2[31] = S[ 3] ^ S[ 5] ^ S[ 9] ^ S[15] ^ S[17] ^ S[19] ^ S[23] ^ S[25] ^ S[29] ^ S[31]; - copy_mem(hash.data(), S2, 32); + copy_mem(m_hash.data(), S2, 32); } } @@ -216,22 +216,22 @@ void GOST_34_11::compress_n(const byte input[], size_t blocks) */ void GOST_34_11::final_result(byte out[]) { - if(position) + if(m_position) { - clear_mem(buffer.data() + position, buffer.size() - position); - compress_n(buffer.data(), 1); + clear_mem(m_buffer.data() + m_position, m_buffer.size() - m_position); + compress_n(m_buffer.data(), 1); } secure_vector<byte> length_buf(32); - const u64bit bit_count = count * 8; + const u64bit bit_count = m_count * 8; store_le(bit_count, length_buf.data()); - secure_vector<byte> sum_buf = sum; + secure_vector<byte> sum_buf = m_sum; compress_n(length_buf.data(), 1); compress_n(sum_buf.data(), 1); - copy_mem(out, hash.data(), 32); + copy_mem(out, m_hash.data(), 32); clear(); } diff --git a/src/lib/hash/gost_3411/gost_3411.h b/src/lib/hash/gost_3411/gost_3411.h index 2ad96dbdb..326873d38 100644 --- a/src/lib/hash/gost_3411/gost_3411.h +++ b/src/lib/hash/gost_3411/gost_3411.h @@ -33,10 +33,10 @@ class BOTAN_DLL GOST_34_11 : public HashFunction void add_data(const byte[], size_t) override; void final_result(byte[]) override; - GOST_28147_89 cipher; - secure_vector<byte> buffer, sum, hash; - size_t position; - u64bit count; + GOST_28147_89 m_cipher; + secure_vector<byte> m_buffer, m_sum, m_hash; + size_t m_position; + u64bit m_count; }; } diff --git a/src/lib/hash/has160/has160.cpp b/src/lib/hash/has160/has160.cpp index 6b12e10ad..114b5f8b5 100644 --- a/src/lib/hash/has160/has160.cpp +++ b/src/lib/hash/has160/has160.cpp @@ -60,78 +60,78 @@ void HAS_160::compress_n(const byte input[], size_t blocks) { using namespace HAS_160_F; - u32bit A = digest[0], B = digest[1], C = digest[2], - D = digest[3], E = digest[4]; + u32bit A = m_digest[0], B = m_digest[1], C = m_digest[2], + D = m_digest[3], E = m_digest[4]; for(size_t i = 0; i != blocks; ++i) { - load_le(X.data(), input, 16); - - X[16] = X[ 0] ^ X[ 1] ^ X[ 2] ^ X[ 3]; - X[17] = X[ 4] ^ X[ 5] ^ X[ 6] ^ X[ 7]; - X[18] = X[ 8] ^ X[ 9] ^ X[10] ^ X[11]; - X[19] = X[12] ^ X[13] ^ X[14] ^ X[15]; - F1(A,B,C,D,E,X[18], 5); F1(E,A,B,C,D,X[ 0],11); - F1(D,E,A,B,C,X[ 1], 7); F1(C,D,E,A,B,X[ 2],15); - F1(B,C,D,E,A,X[ 3], 6); F1(A,B,C,D,E,X[19],13); - F1(E,A,B,C,D,X[ 4], 8); F1(D,E,A,B,C,X[ 5],14); - F1(C,D,E,A,B,X[ 6], 7); F1(B,C,D,E,A,X[ 7],12); - F1(A,B,C,D,E,X[16], 9); F1(E,A,B,C,D,X[ 8],11); - F1(D,E,A,B,C,X[ 9], 8); F1(C,D,E,A,B,X[10],15); - F1(B,C,D,E,A,X[11], 6); F1(A,B,C,D,E,X[17],12); - F1(E,A,B,C,D,X[12], 9); F1(D,E,A,B,C,X[13],14); - F1(C,D,E,A,B,X[14], 5); F1(B,C,D,E,A,X[15],13); - - X[16] = X[ 3] ^ X[ 6] ^ X[ 9] ^ X[12]; - X[17] = X[ 2] ^ X[ 5] ^ X[ 8] ^ X[15]; - X[18] = X[ 1] ^ X[ 4] ^ X[11] ^ X[14]; - X[19] = X[ 0] ^ X[ 7] ^ X[10] ^ X[13]; - F2(A,B,C,D,E,X[18], 5); F2(E,A,B,C,D,X[ 3],11); - F2(D,E,A,B,C,X[ 6], 7); F2(C,D,E,A,B,X[ 9],15); - F2(B,C,D,E,A,X[12], 6); F2(A,B,C,D,E,X[19],13); - F2(E,A,B,C,D,X[15], 8); F2(D,E,A,B,C,X[ 2],14); - F2(C,D,E,A,B,X[ 5], 7); F2(B,C,D,E,A,X[ 8],12); - F2(A,B,C,D,E,X[16], 9); F2(E,A,B,C,D,X[11],11); - F2(D,E,A,B,C,X[14], 8); F2(C,D,E,A,B,X[ 1],15); - F2(B,C,D,E,A,X[ 4], 6); F2(A,B,C,D,E,X[17],12); - F2(E,A,B,C,D,X[ 7], 9); F2(D,E,A,B,C,X[10],14); - F2(C,D,E,A,B,X[13], 5); F2(B,C,D,E,A,X[ 0],13); - - X[16] = X[ 5] ^ X[ 7] ^ X[12] ^ X[14]; - X[17] = X[ 0] ^ X[ 2] ^ X[ 9] ^ X[11]; - X[18] = X[ 4] ^ X[ 6] ^ X[13] ^ X[15]; - X[19] = X[ 1] ^ X[ 3] ^ X[ 8] ^ X[10]; - F3(A,B,C,D,E,X[18], 5); F3(E,A,B,C,D,X[12],11); - F3(D,E,A,B,C,X[ 5], 7); F3(C,D,E,A,B,X[14],15); - F3(B,C,D,E,A,X[ 7], 6); F3(A,B,C,D,E,X[19],13); - F3(E,A,B,C,D,X[ 0], 8); F3(D,E,A,B,C,X[ 9],14); - F3(C,D,E,A,B,X[ 2], 7); F3(B,C,D,E,A,X[11],12); - F3(A,B,C,D,E,X[16], 9); F3(E,A,B,C,D,X[ 4],11); - F3(D,E,A,B,C,X[13], 8); F3(C,D,E,A,B,X[ 6],15); - F3(B,C,D,E,A,X[15], 6); F3(A,B,C,D,E,X[17],12); - F3(E,A,B,C,D,X[ 8], 9); F3(D,E,A,B,C,X[ 1],14); - F3(C,D,E,A,B,X[10], 5); F3(B,C,D,E,A,X[ 3],13); - - X[16] = X[ 2] ^ X[ 7] ^ X[ 8] ^ X[13]; - X[17] = X[ 3] ^ X[ 4] ^ X[ 9] ^ X[14]; - X[18] = X[ 0] ^ X[ 5] ^ X[10] ^ X[15]; - X[19] = X[ 1] ^ X[ 6] ^ X[11] ^ X[12]; - F4(A,B,C,D,E,X[18], 5); F4(E,A,B,C,D,X[ 7],11); - F4(D,E,A,B,C,X[ 2], 7); F4(C,D,E,A,B,X[13],15); - F4(B,C,D,E,A,X[ 8], 6); F4(A,B,C,D,E,X[19],13); - F4(E,A,B,C,D,X[ 3], 8); F4(D,E,A,B,C,X[14],14); - F4(C,D,E,A,B,X[ 9], 7); F4(B,C,D,E,A,X[ 4],12); - F4(A,B,C,D,E,X[16], 9); F4(E,A,B,C,D,X[15],11); - F4(D,E,A,B,C,X[10], 8); F4(C,D,E,A,B,X[ 5],15); - F4(B,C,D,E,A,X[ 0], 6); F4(A,B,C,D,E,X[17],12); - F4(E,A,B,C,D,X[11], 9); F4(D,E,A,B,C,X[ 6],14); - F4(C,D,E,A,B,X[ 1], 5); F4(B,C,D,E,A,X[12],13); - - A = (digest[0] += A); - B = (digest[1] += B); - C = (digest[2] += C); - D = (digest[3] += D); - E = (digest[4] += E); + load_le(m_X.data(), input, 16); + + m_X[16] = m_X[ 0] ^ m_X[ 1] ^ m_X[ 2] ^ m_X[ 3]; + m_X[17] = m_X[ 4] ^ m_X[ 5] ^ m_X[ 6] ^ m_X[ 7]; + m_X[18] = m_X[ 8] ^ m_X[ 9] ^ m_X[10] ^ m_X[11]; + m_X[19] = m_X[12] ^ m_X[13] ^ m_X[14] ^ m_X[15]; + F1(A,B,C,D,E,m_X[18], 5); F1(E,A,B,C,D,m_X[ 0],11); + F1(D,E,A,B,C,m_X[ 1], 7); F1(C,D,E,A,B,m_X[ 2],15); + F1(B,C,D,E,A,m_X[ 3], 6); F1(A,B,C,D,E,m_X[19],13); + F1(E,A,B,C,D,m_X[ 4], 8); F1(D,E,A,B,C,m_X[ 5],14); + F1(C,D,E,A,B,m_X[ 6], 7); F1(B,C,D,E,A,m_X[ 7],12); + F1(A,B,C,D,E,m_X[16], 9); F1(E,A,B,C,D,m_X[ 8],11); + F1(D,E,A,B,C,m_X[ 9], 8); F1(C,D,E,A,B,m_X[10],15); + F1(B,C,D,E,A,m_X[11], 6); F1(A,B,C,D,E,m_X[17],12); + F1(E,A,B,C,D,m_X[12], 9); F1(D,E,A,B,C,m_X[13],14); + F1(C,D,E,A,B,m_X[14], 5); F1(B,C,D,E,A,m_X[15],13); + + m_X[16] = m_X[ 3] ^ m_X[ 6] ^ m_X[ 9] ^ m_X[12]; + m_X[17] = m_X[ 2] ^ m_X[ 5] ^ m_X[ 8] ^ m_X[15]; + m_X[18] = m_X[ 1] ^ m_X[ 4] ^ m_X[11] ^ m_X[14]; + m_X[19] = m_X[ 0] ^ m_X[ 7] ^ m_X[10] ^ m_X[13]; + F2(A,B,C,D,E,m_X[18], 5); F2(E,A,B,C,D,m_X[ 3],11); + F2(D,E,A,B,C,m_X[ 6], 7); F2(C,D,E,A,B,m_X[ 9],15); + F2(B,C,D,E,A,m_X[12], 6); F2(A,B,C,D,E,m_X[19],13); + F2(E,A,B,C,D,m_X[15], 8); F2(D,E,A,B,C,m_X[ 2],14); + F2(C,D,E,A,B,m_X[ 5], 7); F2(B,C,D,E,A,m_X[ 8],12); + F2(A,B,C,D,E,m_X[16], 9); F2(E,A,B,C,D,m_X[11],11); + F2(D,E,A,B,C,m_X[14], 8); F2(C,D,E,A,B,m_X[ 1],15); + F2(B,C,D,E,A,m_X[ 4], 6); F2(A,B,C,D,E,m_X[17],12); + F2(E,A,B,C,D,m_X[ 7], 9); F2(D,E,A,B,C,m_X[10],14); + F2(C,D,E,A,B,m_X[13], 5); F2(B,C,D,E,A,m_X[ 0],13); + + m_X[16] = m_X[ 5] ^ m_X[ 7] ^ m_X[12] ^ m_X[14]; + m_X[17] = m_X[ 0] ^ m_X[ 2] ^ m_X[ 9] ^ m_X[11]; + m_X[18] = m_X[ 4] ^ m_X[ 6] ^ m_X[13] ^ m_X[15]; + m_X[19] = m_X[ 1] ^ m_X[ 3] ^ m_X[ 8] ^ m_X[10]; + F3(A,B,C,D,E,m_X[18], 5); F3(E,A,B,C,D,m_X[12],11); + F3(D,E,A,B,C,m_X[ 5], 7); F3(C,D,E,A,B,m_X[14],15); + F3(B,C,D,E,A,m_X[ 7], 6); F3(A,B,C,D,E,m_X[19],13); + F3(E,A,B,C,D,m_X[ 0], 8); F3(D,E,A,B,C,m_X[ 9],14); + F3(C,D,E,A,B,m_X[ 2], 7); F3(B,C,D,E,A,m_X[11],12); + F3(A,B,C,D,E,m_X[16], 9); F3(E,A,B,C,D,m_X[ 4],11); + F3(D,E,A,B,C,m_X[13], 8); F3(C,D,E,A,B,m_X[ 6],15); + F3(B,C,D,E,A,m_X[15], 6); F3(A,B,C,D,E,m_X[17],12); + F3(E,A,B,C,D,m_X[ 8], 9); F3(D,E,A,B,C,m_X[ 1],14); + F3(C,D,E,A,B,m_X[10], 5); F3(B,C,D,E,A,m_X[ 3],13); + + m_X[16] = m_X[ 2] ^ m_X[ 7] ^ m_X[ 8] ^ m_X[13]; + m_X[17] = m_X[ 3] ^ m_X[ 4] ^ m_X[ 9] ^ m_X[14]; + m_X[18] = m_X[ 0] ^ m_X[ 5] ^ m_X[10] ^ m_X[15]; + m_X[19] = m_X[ 1] ^ m_X[ 6] ^ m_X[11] ^ m_X[12]; + F4(A,B,C,D,E,m_X[18], 5); F4(E,A,B,C,D,m_X[ 7],11); + F4(D,E,A,B,C,m_X[ 2], 7); F4(C,D,E,A,B,m_X[13],15); + F4(B,C,D,E,A,m_X[ 8], 6); F4(A,B,C,D,E,m_X[19],13); + F4(E,A,B,C,D,m_X[ 3], 8); F4(D,E,A,B,C,m_X[14],14); + F4(C,D,E,A,B,m_X[ 9], 7); F4(B,C,D,E,A,m_X[ 4],12); + F4(A,B,C,D,E,m_X[16], 9); F4(E,A,B,C,D,m_X[15],11); + F4(D,E,A,B,C,m_X[10], 8); F4(C,D,E,A,B,m_X[ 5],15); + F4(B,C,D,E,A,m_X[ 0], 6); F4(A,B,C,D,E,m_X[17],12); + F4(E,A,B,C,D,m_X[11], 9); F4(D,E,A,B,C,m_X[ 6],14); + F4(C,D,E,A,B,m_X[ 1], 5); F4(B,C,D,E,A,m_X[12],13); + + A = (m_digest[0] += A); + B = (m_digest[1] += B); + C = (m_digest[2] += C); + D = (m_digest[3] += D); + E = (m_digest[4] += E); input += hash_block_size(); } @@ -142,7 +142,7 @@ void HAS_160::compress_n(const byte input[], size_t blocks) */ void HAS_160::copy_out(byte output[]) { - copy_out_vec_le(output, output_length(), digest); + copy_out_vec_le(output, output_length(), m_digest); } /* @@ -151,12 +151,12 @@ void HAS_160::copy_out(byte output[]) void HAS_160::clear() { MDx_HashFunction::clear(); - zeroise(X); - digest[0] = 0x67452301; - digest[1] = 0xEFCDAB89; - digest[2] = 0x98BADCFE; - digest[3] = 0x10325476; - digest[4] = 0xC3D2E1F0; + zeroise(m_X); + m_digest[0] = 0x67452301; + m_digest[1] = 0xEFCDAB89; + m_digest[2] = 0x98BADCFE; + m_digest[3] = 0x10325476; + m_digest[4] = 0xC3D2E1F0; } } diff --git a/src/lib/hash/has160/has160.h b/src/lib/hash/has160/has160.h index 75d0bda90..ca9be03b0 100644 --- a/src/lib/hash/has160/has160.h +++ b/src/lib/hash/has160/has160.h @@ -25,13 +25,13 @@ class BOTAN_DLL HAS_160 : public MDx_HashFunction void clear() override; - HAS_160() : MDx_HashFunction(64, false, true), X(20), digest(5) + HAS_160() : MDx_HashFunction(64, false, true), m_X(20), m_digest(5) { clear(); } private: void compress_n(const byte[], size_t blocks) override; void copy_out(byte[]) override; - secure_vector<u32bit> X, digest; + secure_vector<u32bit> m_X, m_digest; }; } diff --git a/src/lib/hash/keccak/keccak.cpp b/src/lib/hash/keccak/keccak.cpp index 39d0c822b..c0b430a8f 100644 --- a/src/lib/hash/keccak/keccak.cpp +++ b/src/lib/hash/keccak/keccak.cpp @@ -99,10 +99,10 @@ void keccak_f_1600(u64bit A[25]) } Keccak_1600::Keccak_1600(size_t output_bits) : - output_bits(output_bits), - bitrate(1600 - 2*output_bits), - S(25), - S_pos(0) + m_output_bits(output_bits), + m_bitrate(1600 - 2*output_bits), + m_S(25), + m_S_pos(0) { // We only support the parameters for the SHA-3 proposal @@ -114,18 +114,18 @@ Keccak_1600::Keccak_1600(size_t output_bits) : std::string Keccak_1600::name() const { - return "Keccak-1600(" + std::to_string(output_bits) + ")"; + return "Keccak-1600(" + std::to_string(m_output_bits) + ")"; } HashFunction* Keccak_1600::clone() const { - return new Keccak_1600(output_bits); + return new Keccak_1600(m_output_bits); } void Keccak_1600::clear() { - zeroise(S); - S_pos = 0; + zeroise(m_S); + m_S_pos = 0; } void Keccak_1600::add_data(const byte input[], size_t length) @@ -135,47 +135,47 @@ void Keccak_1600::add_data(const byte input[], size_t length) while(length) { - size_t to_take = std::min(length, bitrate / 8 - S_pos); + size_t to_take = std::min(length, m_bitrate / 8 - m_S_pos); length -= to_take; - while(to_take && S_pos % 8) + while(to_take && m_S_pos % 8) { - S[S_pos / 8] ^= static_cast<u64bit>(input[0]) << (8 * (S_pos % 8)); + m_S[m_S_pos / 8] ^= static_cast<u64bit>(input[0]) << (8 * (m_S_pos % 8)); - ++S_pos; + ++m_S_pos; ++input; --to_take; } while(to_take && to_take % 8 == 0) { - S[S_pos / 8] ^= load_le<u64bit>(input, 0); - S_pos += 8; + m_S[m_S_pos / 8] ^= load_le<u64bit>(input, 0); + m_S_pos += 8; input += 8; to_take -= 8; } while(to_take) { - S[S_pos / 8] ^= static_cast<u64bit>(input[0]) << (8 * (S_pos % 8)); + m_S[m_S_pos / 8] ^= static_cast<u64bit>(input[0]) << (8 * (m_S_pos % 8)); - ++S_pos; + ++m_S_pos; ++input; --to_take; } - if(S_pos == bitrate / 8) + if(m_S_pos == m_bitrate / 8) { - keccak_f_1600(S.data()); - S_pos = 0; + keccak_f_1600(m_S.data()); + m_S_pos = 0; } } } void Keccak_1600::final_result(byte output[]) { - std::vector<byte> padding(bitrate / 8 - S_pos); + std::vector<byte> padding(m_bitrate / 8 - m_S_pos); padding[0] = 0x01; padding[padding.size()-1] |= 0x80; @@ -186,8 +186,8 @@ void Keccak_1600::final_result(byte output[]) * We never have to run the permutation again because we only support * limited output lengths */ - for(size_t i = 0; i != output_bits/8; ++i) - output[i] = get_byte(7 - (i % 8), S[i/8]); + for(size_t i = 0; i != m_output_bits/8; ++i) + output[i] = get_byte(7 - (i % 8), m_S[i/8]); clear(); } diff --git a/src/lib/hash/keccak/keccak.h b/src/lib/hash/keccak/keccak.h index 0e7d3d5d1..c08b6c4e4 100644 --- a/src/lib/hash/keccak/keccak.h +++ b/src/lib/hash/keccak/keccak.h @@ -27,8 +27,8 @@ class BOTAN_DLL Keccak_1600 : public HashFunction */ Keccak_1600(size_t output_bits = 512); - size_t hash_block_size() const override { return bitrate / 8; } - size_t output_length() const override { return output_bits / 8; } + size_t hash_block_size() const override { return m_bitrate / 8; } + size_t output_length() const override { return m_output_bits / 8; } HashFunction* clone() const override; std::string name() const override; @@ -37,9 +37,9 @@ class BOTAN_DLL Keccak_1600 : public HashFunction void add_data(const byte input[], size_t length) override; void final_result(byte out[]) override; - size_t output_bits, bitrate; - secure_vector<u64bit> S; - size_t S_pos; + size_t m_output_bits, m_bitrate; + secure_vector<u64bit> m_S; + size_t m_S_pos; }; } diff --git a/src/lib/hash/md2/md2.cpp b/src/lib/hash/md2/md2.cpp index 8fe016962..f5e222610 100644 --- a/src/lib/hash/md2/md2.cpp +++ b/src/lib/hash/md2/md2.cpp @@ -38,26 +38,26 @@ void MD2::hash(const byte input[]) 0x31, 0x44, 0x50, 0xB4, 0x8F, 0xED, 0x1F, 0x1A, 0xDB, 0x99, 0x8D, 0x33, 0x9F, 0x11, 0x83, 0x14 }; - buffer_insert(X, 16, input, hash_block_size()); - xor_buf(&X[32], X.data(), &X[16], hash_block_size()); + buffer_insert(m_X, 16, input, hash_block_size()); + xor_buf(&m_X[32], m_X.data(), &m_X[16], hash_block_size()); byte T = 0; for(size_t i = 0; i != 18; ++i) { for(size_t k = 0; k != 48; k += 8) { - T = X[k ] ^= SBOX[T]; T = X[k+1] ^= SBOX[T]; - T = X[k+2] ^= SBOX[T]; T = X[k+3] ^= SBOX[T]; - T = X[k+4] ^= SBOX[T]; T = X[k+5] ^= SBOX[T]; - T = X[k+6] ^= SBOX[T]; T = X[k+7] ^= SBOX[T]; + T = m_X[k ] ^= SBOX[T]; T = m_X[k+1] ^= SBOX[T]; + T = m_X[k+2] ^= SBOX[T]; T = m_X[k+3] ^= SBOX[T]; + T = m_X[k+4] ^= SBOX[T]; T = m_X[k+5] ^= SBOX[T]; + T = m_X[k+6] ^= SBOX[T]; T = m_X[k+7] ^= SBOX[T]; } T += static_cast<byte>(i); } - T = checksum[15]; + T = m_checksum[15]; for(size_t i = 0; i != hash_block_size(); ++i) - T = checksum[i] ^= SBOX[input[i] ^ T]; + T = m_checksum[i] ^= SBOX[input[i] ^ T]; } /** @@ -65,23 +65,23 @@ void MD2::hash(const byte input[]) */ void MD2::add_data(const byte input[], size_t length) { - buffer_insert(buffer, position, input, length); + buffer_insert(m_buffer, m_position, input, length); - if(position + length >= hash_block_size()) + if(m_position + length >= hash_block_size()) { - hash(buffer.data()); - input += (hash_block_size() - position); - length -= (hash_block_size() - position); + hash(m_buffer.data()); + input += (hash_block_size() - m_position); + length -= (hash_block_size() - m_position); while(length >= hash_block_size()) { hash(input); input += hash_block_size(); length -= hash_block_size(); } - copy_mem(buffer.data(), input, length); - position = 0; + copy_mem(m_buffer.data(), input, length); + m_position = 0; } - position += length; + m_position += length; } /** @@ -89,12 +89,12 @@ void MD2::add_data(const byte input[], size_t length) */ void MD2::final_result(byte output[]) { - for(size_t i = position; i != hash_block_size(); ++i) - buffer[i] = static_cast<byte>(hash_block_size() - position); + for(size_t i = m_position; i != hash_block_size(); ++i) + m_buffer[i] = static_cast<byte>(hash_block_size() - m_position); - hash(buffer.data()); - hash(checksum.data()); - copy_mem(output, X.data(), output_length()); + hash(m_buffer.data()); + hash(m_checksum.data()); + copy_mem(output, m_X.data(), output_length()); clear(); } @@ -103,10 +103,10 @@ void MD2::final_result(byte output[]) */ void MD2::clear() { - zeroise(X); - zeroise(checksum); - zeroise(buffer); - position = 0; + zeroise(m_X); + zeroise(m_checksum); + zeroise(m_buffer); + m_position = 0; } } diff --git a/src/lib/hash/md2/md2.h b/src/lib/hash/md2/md2.h index 62f1b8a9f..8209d49d2 100644 --- a/src/lib/hash/md2/md2.h +++ b/src/lib/hash/md2/md2.h @@ -25,15 +25,15 @@ class BOTAN_DLL MD2 : public HashFunction void clear() override; - MD2() : X(48), checksum(16), buffer(16) + MD2() : m_X(48), m_checksum(16), m_buffer(16) { clear(); } private: void add_data(const byte[], size_t) override; void hash(const byte[]); void final_result(byte[]) override; - secure_vector<byte> X, checksum, buffer; - size_t position; + secure_vector<byte> m_X, m_checksum, m_buffer; + size_t m_position; }; } diff --git a/src/lib/hash/md4/md4.cpp b/src/lib/hash/md4/md4.cpp index 6f4503ac0..d22f2d1ac 100644 --- a/src/lib/hash/md4/md4.cpp +++ b/src/lib/hash/md4/md4.cpp @@ -45,43 +45,43 @@ inline void HH(u32bit& A, u32bit B, u32bit C, u32bit D, u32bit M, byte S) */ void MD4::compress_n(const byte input[], size_t blocks) { - u32bit A = digest[0], B = digest[1], C = digest[2], D = digest[3]; + u32bit A = m_digest[0], B = m_digest[1], C = m_digest[2], D = m_digest[3]; for(size_t i = 0; i != blocks; ++i) { - load_le(M.data(), input, M.size()); - - FF(A,B,C,D,M[ 0], 3); FF(D,A,B,C,M[ 1], 7); - FF(C,D,A,B,M[ 2],11); FF(B,C,D,A,M[ 3],19); - FF(A,B,C,D,M[ 4], 3); FF(D,A,B,C,M[ 5], 7); - FF(C,D,A,B,M[ 6],11); FF(B,C,D,A,M[ 7],19); - FF(A,B,C,D,M[ 8], 3); FF(D,A,B,C,M[ 9], 7); - FF(C,D,A,B,M[10],11); FF(B,C,D,A,M[11],19); - FF(A,B,C,D,M[12], 3); FF(D,A,B,C,M[13], 7); - FF(C,D,A,B,M[14],11); FF(B,C,D,A,M[15],19); - - GG(A,B,C,D,M[ 0], 3); GG(D,A,B,C,M[ 4], 5); - GG(C,D,A,B,M[ 8], 9); GG(B,C,D,A,M[12],13); - GG(A,B,C,D,M[ 1], 3); GG(D,A,B,C,M[ 5], 5); - GG(C,D,A,B,M[ 9], 9); GG(B,C,D,A,M[13],13); - GG(A,B,C,D,M[ 2], 3); GG(D,A,B,C,M[ 6], 5); - GG(C,D,A,B,M[10], 9); GG(B,C,D,A,M[14],13); - GG(A,B,C,D,M[ 3], 3); GG(D,A,B,C,M[ 7], 5); - GG(C,D,A,B,M[11], 9); GG(B,C,D,A,M[15],13); - - HH(A,B,C,D,M[ 0], 3); HH(D,A,B,C,M[ 8], 9); - HH(C,D,A,B,M[ 4],11); HH(B,C,D,A,M[12],15); - HH(A,B,C,D,M[ 2], 3); HH(D,A,B,C,M[10], 9); - HH(C,D,A,B,M[ 6],11); HH(B,C,D,A,M[14],15); - HH(A,B,C,D,M[ 1], 3); HH(D,A,B,C,M[ 9], 9); - HH(C,D,A,B,M[ 5],11); HH(B,C,D,A,M[13],15); - HH(A,B,C,D,M[ 3], 3); HH(D,A,B,C,M[11], 9); - HH(C,D,A,B,M[ 7],11); HH(B,C,D,A,M[15],15); - - A = (digest[0] += A); - B = (digest[1] += B); - C = (digest[2] += C); - D = (digest[3] += D); + load_le(m_M.data(), input, m_M.size()); + + FF(A,B,C,D,m_M[ 0], 3); FF(D,A,B,C,m_M[ 1], 7); + FF(C,D,A,B,m_M[ 2],11); FF(B,C,D,A,m_M[ 3],19); + FF(A,B,C,D,m_M[ 4], 3); FF(D,A,B,C,m_M[ 5], 7); + FF(C,D,A,B,m_M[ 6],11); FF(B,C,D,A,m_M[ 7],19); + FF(A,B,C,D,m_M[ 8], 3); FF(D,A,B,C,m_M[ 9], 7); + FF(C,D,A,B,m_M[10],11); FF(B,C,D,A,m_M[11],19); + FF(A,B,C,D,m_M[12], 3); FF(D,A,B,C,m_M[13], 7); + FF(C,D,A,B,m_M[14],11); FF(B,C,D,A,m_M[15],19); + + GG(A,B,C,D,m_M[ 0], 3); GG(D,A,B,C,m_M[ 4], 5); + GG(C,D,A,B,m_M[ 8], 9); GG(B,C,D,A,m_M[12],13); + GG(A,B,C,D,m_M[ 1], 3); GG(D,A,B,C,m_M[ 5], 5); + GG(C,D,A,B,m_M[ 9], 9); GG(B,C,D,A,m_M[13],13); + GG(A,B,C,D,m_M[ 2], 3); GG(D,A,B,C,m_M[ 6], 5); + GG(C,D,A,B,m_M[10], 9); GG(B,C,D,A,m_M[14],13); + GG(A,B,C,D,m_M[ 3], 3); GG(D,A,B,C,m_M[ 7], 5); + GG(C,D,A,B,m_M[11], 9); GG(B,C,D,A,m_M[15],13); + + HH(A,B,C,D,m_M[ 0], 3); HH(D,A,B,C,m_M[ 8], 9); + HH(C,D,A,B,m_M[ 4],11); HH(B,C,D,A,m_M[12],15); + HH(A,B,C,D,m_M[ 2], 3); HH(D,A,B,C,m_M[10], 9); + HH(C,D,A,B,m_M[ 6],11); HH(B,C,D,A,m_M[14],15); + HH(A,B,C,D,m_M[ 1], 3); HH(D,A,B,C,m_M[ 9], 9); + HH(C,D,A,B,m_M[ 5],11); HH(B,C,D,A,m_M[13],15); + HH(A,B,C,D,m_M[ 3], 3); HH(D,A,B,C,m_M[11], 9); + HH(C,D,A,B,m_M[ 7],11); HH(B,C,D,A,m_M[15],15); + + A = (m_digest[0] += A); + B = (m_digest[1] += B); + C = (m_digest[2] += C); + D = (m_digest[3] += D); input += hash_block_size(); } @@ -92,7 +92,7 @@ void MD4::compress_n(const byte input[], size_t blocks) */ void MD4::copy_out(byte output[]) { - copy_out_vec_le(output, output_length(), digest); + copy_out_vec_le(output, output_length(), m_digest); } /* @@ -101,11 +101,11 @@ void MD4::copy_out(byte output[]) void MD4::clear() { MDx_HashFunction::clear(); - zeroise(M); - digest[0] = 0x67452301; - digest[1] = 0xEFCDAB89; - digest[2] = 0x98BADCFE; - digest[3] = 0x10325476; + zeroise(m_M); + m_digest[0] = 0x67452301; + m_digest[1] = 0xEFCDAB89; + m_digest[2] = 0x98BADCFE; + m_digest[3] = 0x10325476; } } diff --git a/src/lib/hash/md4/md4.h b/src/lib/hash/md4/md4.h index 182da4ab2..a0e481773 100644 --- a/src/lib/hash/md4/md4.h +++ b/src/lib/hash/md4/md4.h @@ -24,7 +24,7 @@ class BOTAN_DLL MD4 : public MDx_HashFunction void clear() override; - MD4() : MDx_HashFunction(64, false, true), M(16), digest(4) + MD4() : MDx_HashFunction(64, false, true), m_M(16), m_digest(4) { clear(); } protected: void compress_n(const byte input[], size_t blocks) override; @@ -33,12 +33,12 @@ class BOTAN_DLL MD4 : public MDx_HashFunction /** * The message buffer, exposed for use by subclasses (x86 asm) */ - secure_vector<u32bit> M; + secure_vector<u32bit> m_M; /** * The digest value, exposed for use by subclasses (x86 asm) */ - secure_vector<u32bit> digest; + secure_vector<u32bit> m_digest; }; } diff --git a/src/lib/hash/md5/md5.cpp b/src/lib/hash/md5/md5.cpp index 89ca52419..439dbde7b 100644 --- a/src/lib/hash/md5/md5.cpp +++ b/src/lib/hash/md5/md5.cpp @@ -58,52 +58,52 @@ inline void II(u32bit& A, u32bit B, u32bit C, u32bit D, u32bit msg, */ void MD5::compress_n(const byte input[], size_t blocks) { - u32bit A = digest[0], B = digest[1], C = digest[2], D = digest[3]; + u32bit A = m_digest[0], B = m_digest[1], C = m_digest[2], D = m_digest[3]; for(size_t i = 0; i != blocks; ++i) { - load_le(M.data(), input, M.size()); - - FF(A,B,C,D,M[ 0], 7,0xD76AA478); FF(D,A,B,C,M[ 1],12,0xE8C7B756); - FF(C,D,A,B,M[ 2],17,0x242070DB); FF(B,C,D,A,M[ 3],22,0xC1BDCEEE); - FF(A,B,C,D,M[ 4], 7,0xF57C0FAF); FF(D,A,B,C,M[ 5],12,0x4787C62A); - FF(C,D,A,B,M[ 6],17,0xA8304613); FF(B,C,D,A,M[ 7],22,0xFD469501); - FF(A,B,C,D,M[ 8], 7,0x698098D8); FF(D,A,B,C,M[ 9],12,0x8B44F7AF); - FF(C,D,A,B,M[10],17,0xFFFF5BB1); FF(B,C,D,A,M[11],22,0x895CD7BE); - FF(A,B,C,D,M[12], 7,0x6B901122); FF(D,A,B,C,M[13],12,0xFD987193); - FF(C,D,A,B,M[14],17,0xA679438E); FF(B,C,D,A,M[15],22,0x49B40821); - - GG(A,B,C,D,M[ 1], 5,0xF61E2562); GG(D,A,B,C,M[ 6], 9,0xC040B340); - GG(C,D,A,B,M[11],14,0x265E5A51); GG(B,C,D,A,M[ 0],20,0xE9B6C7AA); - GG(A,B,C,D,M[ 5], 5,0xD62F105D); GG(D,A,B,C,M[10], 9,0x02441453); - GG(C,D,A,B,M[15],14,0xD8A1E681); GG(B,C,D,A,M[ 4],20,0xE7D3FBC8); - GG(A,B,C,D,M[ 9], 5,0x21E1CDE6); GG(D,A,B,C,M[14], 9,0xC33707D6); - GG(C,D,A,B,M[ 3],14,0xF4D50D87); GG(B,C,D,A,M[ 8],20,0x455A14ED); - GG(A,B,C,D,M[13], 5,0xA9E3E905); GG(D,A,B,C,M[ 2], 9,0xFCEFA3F8); - GG(C,D,A,B,M[ 7],14,0x676F02D9); GG(B,C,D,A,M[12],20,0x8D2A4C8A); - - HH(A,B,C,D,M[ 5], 4,0xFFFA3942); HH(D,A,B,C,M[ 8],11,0x8771F681); - HH(C,D,A,B,M[11],16,0x6D9D6122); HH(B,C,D,A,M[14],23,0xFDE5380C); - HH(A,B,C,D,M[ 1], 4,0xA4BEEA44); HH(D,A,B,C,M[ 4],11,0x4BDECFA9); - HH(C,D,A,B,M[ 7],16,0xF6BB4B60); HH(B,C,D,A,M[10],23,0xBEBFBC70); - HH(A,B,C,D,M[13], 4,0x289B7EC6); HH(D,A,B,C,M[ 0],11,0xEAA127FA); - HH(C,D,A,B,M[ 3],16,0xD4EF3085); HH(B,C,D,A,M[ 6],23,0x04881D05); - HH(A,B,C,D,M[ 9], 4,0xD9D4D039); HH(D,A,B,C,M[12],11,0xE6DB99E5); - HH(C,D,A,B,M[15],16,0x1FA27CF8); HH(B,C,D,A,M[ 2],23,0xC4AC5665); - - II(A,B,C,D,M[ 0], 6,0xF4292244); II(D,A,B,C,M[ 7],10,0x432AFF97); - II(C,D,A,B,M[14],15,0xAB9423A7); II(B,C,D,A,M[ 5],21,0xFC93A039); - II(A,B,C,D,M[12], 6,0x655B59C3); II(D,A,B,C,M[ 3],10,0x8F0CCC92); - II(C,D,A,B,M[10],15,0xFFEFF47D); II(B,C,D,A,M[ 1],21,0x85845DD1); - II(A,B,C,D,M[ 8], 6,0x6FA87E4F); II(D,A,B,C,M[15],10,0xFE2CE6E0); - II(C,D,A,B,M[ 6],15,0xA3014314); II(B,C,D,A,M[13],21,0x4E0811A1); - II(A,B,C,D,M[ 4], 6,0xF7537E82); II(D,A,B,C,M[11],10,0xBD3AF235); - II(C,D,A,B,M[ 2],15,0x2AD7D2BB); II(B,C,D,A,M[ 9],21,0xEB86D391); - - A = (digest[0] += A); - B = (digest[1] += B); - C = (digest[2] += C); - D = (digest[3] += D); + load_le(m_M.data(), input, m_M.size()); + + FF(A,B,C,D,m_M[ 0], 7,0xD76AA478); FF(D,A,B,C,m_M[ 1],12,0xE8C7B756); + FF(C,D,A,B,m_M[ 2],17,0x242070DB); FF(B,C,D,A,m_M[ 3],22,0xC1BDCEEE); + FF(A,B,C,D,m_M[ 4], 7,0xF57C0FAF); FF(D,A,B,C,m_M[ 5],12,0x4787C62A); + FF(C,D,A,B,m_M[ 6],17,0xA8304613); FF(B,C,D,A,m_M[ 7],22,0xFD469501); + FF(A,B,C,D,m_M[ 8], 7,0x698098D8); FF(D,A,B,C,m_M[ 9],12,0x8B44F7AF); + FF(C,D,A,B,m_M[10],17,0xFFFF5BB1); FF(B,C,D,A,m_M[11],22,0x895CD7BE); + FF(A,B,C,D,m_M[12], 7,0x6B901122); FF(D,A,B,C,m_M[13],12,0xFD987193); + FF(C,D,A,B,m_M[14],17,0xA679438E); FF(B,C,D,A,m_M[15],22,0x49B40821); + + GG(A,B,C,D,m_M[ 1], 5,0xF61E2562); GG(D,A,B,C,m_M[ 6], 9,0xC040B340); + GG(C,D,A,B,m_M[11],14,0x265E5A51); GG(B,C,D,A,m_M[ 0],20,0xE9B6C7AA); + GG(A,B,C,D,m_M[ 5], 5,0xD62F105D); GG(D,A,B,C,m_M[10], 9,0x02441453); + GG(C,D,A,B,m_M[15],14,0xD8A1E681); GG(B,C,D,A,m_M[ 4],20,0xE7D3FBC8); + GG(A,B,C,D,m_M[ 9], 5,0x21E1CDE6); GG(D,A,B,C,m_M[14], 9,0xC33707D6); + GG(C,D,A,B,m_M[ 3],14,0xF4D50D87); GG(B,C,D,A,m_M[ 8],20,0x455A14ED); + GG(A,B,C,D,m_M[13], 5,0xA9E3E905); GG(D,A,B,C,m_M[ 2], 9,0xFCEFA3F8); + GG(C,D,A,B,m_M[ 7],14,0x676F02D9); GG(B,C,D,A,m_M[12],20,0x8D2A4C8A); + + HH(A,B,C,D,m_M[ 5], 4,0xFFFA3942); HH(D,A,B,C,m_M[ 8],11,0x8771F681); + HH(C,D,A,B,m_M[11],16,0x6D9D6122); HH(B,C,D,A,m_M[14],23,0xFDE5380C); + HH(A,B,C,D,m_M[ 1], 4,0xA4BEEA44); HH(D,A,B,C,m_M[ 4],11,0x4BDECFA9); + HH(C,D,A,B,m_M[ 7],16,0xF6BB4B60); HH(B,C,D,A,m_M[10],23,0xBEBFBC70); + HH(A,B,C,D,m_M[13], 4,0x289B7EC6); HH(D,A,B,C,m_M[ 0],11,0xEAA127FA); + HH(C,D,A,B,m_M[ 3],16,0xD4EF3085); HH(B,C,D,A,m_M[ 6],23,0x04881D05); + HH(A,B,C,D,m_M[ 9], 4,0xD9D4D039); HH(D,A,B,C,m_M[12],11,0xE6DB99E5); + HH(C,D,A,B,m_M[15],16,0x1FA27CF8); HH(B,C,D,A,m_M[ 2],23,0xC4AC5665); + + II(A,B,C,D,m_M[ 0], 6,0xF4292244); II(D,A,B,C,m_M[ 7],10,0x432AFF97); + II(C,D,A,B,m_M[14],15,0xAB9423A7); II(B,C,D,A,m_M[ 5],21,0xFC93A039); + II(A,B,C,D,m_M[12], 6,0x655B59C3); II(D,A,B,C,m_M[ 3],10,0x8F0CCC92); + II(C,D,A,B,m_M[10],15,0xFFEFF47D); II(B,C,D,A,m_M[ 1],21,0x85845DD1); + II(A,B,C,D,m_M[ 8], 6,0x6FA87E4F); II(D,A,B,C,m_M[15],10,0xFE2CE6E0); + II(C,D,A,B,m_M[ 6],15,0xA3014314); II(B,C,D,A,m_M[13],21,0x4E0811A1); + II(A,B,C,D,m_M[ 4], 6,0xF7537E82); II(D,A,B,C,m_M[11],10,0xBD3AF235); + II(C,D,A,B,m_M[ 2],15,0x2AD7D2BB); II(B,C,D,A,m_M[ 9],21,0xEB86D391); + + A = (m_digest[0] += A); + B = (m_digest[1] += B); + C = (m_digest[2] += C); + D = (m_digest[3] += D); input += hash_block_size(); } @@ -114,7 +114,7 @@ void MD5::compress_n(const byte input[], size_t blocks) */ void MD5::copy_out(byte output[]) { - copy_out_vec_le(output, output_length(), digest); + copy_out_vec_le(output, output_length(), m_digest); } /* @@ -123,11 +123,11 @@ void MD5::copy_out(byte output[]) void MD5::clear() { MDx_HashFunction::clear(); - zeroise(M); - digest[0] = 0x67452301; - digest[1] = 0xEFCDAB89; - digest[2] = 0x98BADCFE; - digest[3] = 0x10325476; + zeroise(m_M); + m_digest[0] = 0x67452301; + m_digest[1] = 0xEFCDAB89; + m_digest[2] = 0x98BADCFE; + m_digest[3] = 0x10325476; } } diff --git a/src/lib/hash/md5/md5.h b/src/lib/hash/md5/md5.h index 9c5e548c0..b0465c838 100644 --- a/src/lib/hash/md5/md5.h +++ b/src/lib/hash/md5/md5.h @@ -24,7 +24,7 @@ class BOTAN_DLL MD5 : public MDx_HashFunction void clear() override; - MD5() : MDx_HashFunction(64, false, true), M(16), digest(4) + MD5() : MDx_HashFunction(64, false, true), m_M(16), m_digest(4) { clear(); } protected: void compress_n(const byte[], size_t blocks) override; @@ -33,12 +33,12 @@ class BOTAN_DLL MD5 : public MDx_HashFunction /** * The message buffer, exposed for use by subclasses (x86 asm) */ - secure_vector<u32bit> M; + secure_vector<u32bit> m_M; /** * The digest value, exposed for use by subclasses (x86 asm) */ - secure_vector<u32bit> digest; + secure_vector<u32bit> m_digest; }; } diff --git a/src/lib/hash/mdx_hash/mdx_hash.cpp b/src/lib/hash/mdx_hash/mdx_hash.cpp index bd754d3cc..f21b4ac34 100644 --- a/src/lib/hash/mdx_hash/mdx_hash.cpp +++ b/src/lib/hash/mdx_hash/mdx_hash.cpp @@ -18,12 +18,12 @@ MDx_HashFunction::MDx_HashFunction(size_t block_len, bool byte_end, bool bit_end, size_t cnt_size) : - buffer(block_len), + m_buffer(block_len), BIG_BYTE_ENDIAN(byte_end), BIG_BIT_ENDIAN(bit_end), COUNT_SIZE(cnt_size) { - count = position = 0; + m_count = m_position = 0; } /* @@ -31,8 +31,8 @@ MDx_HashFunction::MDx_HashFunction(size_t block_len, */ void MDx_HashFunction::clear() { - zeroise(buffer); - count = position = 0; + zeroise(m_buffer); + m_count = m_position = 0; } /* @@ -40,29 +40,29 @@ void MDx_HashFunction::clear() */ void MDx_HashFunction::add_data(const byte input[], size_t length) { - count += length; + m_count += length; - if(position) + if(m_position) { - buffer_insert(buffer, position, input, length); + buffer_insert(m_buffer, m_position, input, length); - if(position + length >= buffer.size()) + if(m_position + length >= m_buffer.size()) { - compress_n(buffer.data(), 1); - input += (buffer.size() - position); - length -= (buffer.size() - position); - position = 0; + compress_n(m_buffer.data(), 1); + input += (m_buffer.size() - m_position); + length -= (m_buffer.size() - m_position); + m_position = 0; } } - const size_t full_blocks = length / buffer.size(); - const size_t remaining = length % buffer.size(); + const size_t full_blocks = length / m_buffer.size(); + const size_t remaining = length % m_buffer.size(); if(full_blocks) compress_n(input, full_blocks); - buffer_insert(buffer, position, input + full_blocks * buffer.size(), remaining); - position += remaining; + buffer_insert(m_buffer, m_position, input + full_blocks * m_buffer.size(), remaining); + m_position += remaining; } /* @@ -70,19 +70,19 @@ void MDx_HashFunction::add_data(const byte input[], size_t length) */ void MDx_HashFunction::final_result(byte output[]) { - buffer[position] = (BIG_BIT_ENDIAN ? 0x80 : 0x01); - for(size_t i = position+1; i != buffer.size(); ++i) - buffer[i] = 0; + m_buffer[m_position] = (BIG_BIT_ENDIAN ? 0x80 : 0x01); + for(size_t i = m_position+1; i != m_buffer.size(); ++i) + m_buffer[i] = 0; - if(position >= buffer.size() - COUNT_SIZE) + if(m_position >= m_buffer.size() - COUNT_SIZE) { - compress_n(buffer.data(), 1); - zeroise(buffer); + compress_n(m_buffer.data(), 1); + zeroise(m_buffer); } - write_count(&buffer[buffer.size() - COUNT_SIZE]); + write_count(&m_buffer[m_buffer.size() - COUNT_SIZE]); - compress_n(buffer.data(), 1); + compress_n(m_buffer.data(), 1); copy_out(output); clear(); } @@ -97,7 +97,7 @@ void MDx_HashFunction::write_count(byte out[]) if(COUNT_SIZE >= output_length() || COUNT_SIZE >= hash_block_size()) throw Invalid_Argument("MDx_HashFunction: COUNT_SIZE is too big"); - const u64bit bit_count = count * 8; + const u64bit bit_count = m_count * 8; if(BIG_BYTE_ENDIAN) store_be(bit_count, out + COUNT_SIZE - 8); diff --git a/src/lib/hash/mdx_hash/mdx_hash.h b/src/lib/hash/mdx_hash/mdx_hash.h index 2652d9ea6..4b2f9bad0 100644 --- a/src/lib/hash/mdx_hash/mdx_hash.h +++ b/src/lib/hash/mdx_hash/mdx_hash.h @@ -29,7 +29,7 @@ class BOTAN_DLL MDx_HashFunction : public HashFunction bool big_bit_endian, size_t counter_size = 8); - size_t hash_block_size() const override { return buffer.size(); } + size_t hash_block_size() const override { return m_buffer.size(); } protected: void add_data(const byte input[], size_t length) override; void final_result(byte output[]) override; @@ -55,9 +55,9 @@ class BOTAN_DLL MDx_HashFunction : public HashFunction */ virtual void write_count(byte out[]); private: - secure_vector<byte> buffer; - u64bit count; - size_t position; + secure_vector<byte> m_buffer; + u64bit m_count; + size_t m_position; const bool BIG_BYTE_ENDIAN, BIG_BIT_ENDIAN; const size_t COUNT_SIZE; diff --git a/src/lib/hash/par_hash/par_hash.cpp b/src/lib/hash/par_hash/par_hash.cpp index 5e970ab13..5645a99c7 100644 --- a/src/lib/hash/par_hash/par_hash.cpp +++ b/src/lib/hash/par_hash/par_hash.cpp @@ -12,24 +12,24 @@ namespace Botan { Parallel* Parallel::make(const Spec& spec) { - std::vector<std::unique_ptr<HashFunction>> hashes; + std::vector<std::unique_ptr<HashFunction>> m_hashes; for(size_t i = 0; i != spec.arg_count(); ++i) { auto h = HashFunction::create(spec.arg(i)); if(!h) return nullptr; - hashes.push_back(std::move(h)); + m_hashes.push_back(std::move(h)); } Parallel* p = new Parallel; - std::swap(p->hashes, hashes); + std::swap(p->m_hashes, m_hashes); return p; } void Parallel::add_data(const byte input[], size_t length) { - for(auto&& hash : hashes) + for(auto&& hash : m_hashes) hash->update(input, length); } @@ -37,7 +37,7 @@ void Parallel::final_result(byte out[]) { u32bit offset = 0; - for(auto&& hash : hashes) + for(auto&& hash : m_hashes) { hash->final(out + offset); offset += hash->output_length(); @@ -48,7 +48,7 @@ size_t Parallel::output_length() const { size_t sum = 0; - for(auto&& hash : hashes) + for(auto&& hash : m_hashes) sum += hash->output_length(); return sum; } @@ -57,7 +57,7 @@ std::string Parallel::name() const { std::vector<std::string> names; - for(auto&& hash : hashes) + for(auto&& hash : m_hashes) names.push_back(hash->name()); return "Parallel(" + string_join(names, ',') + ")"; @@ -67,7 +67,7 @@ HashFunction* Parallel::clone() const { std::vector<HashFunction*> hash_copies; - for(auto&& hash : hashes) + for(auto&& hash : m_hashes) hash_copies.push_back(hash->clone()); return new Parallel(hash_copies); @@ -75,7 +75,7 @@ HashFunction* Parallel::clone() const void Parallel::clear() { - for(auto&& hash : hashes) + for(auto&& hash : m_hashes) hash->clear(); } @@ -84,7 +84,7 @@ Parallel::Parallel(const std::vector<HashFunction*>& in) for(size_t i = 0; i != in.size(); ++i) { std::unique_ptr<HashFunction> h(in[i]->clone()); - hashes.push_back(std::move(h)); + m_hashes.push_back(std::move(h)); } } diff --git a/src/lib/hash/par_hash/par_hash.h b/src/lib/hash/par_hash/par_hash.h index 0410e6826..432fed466 100644 --- a/src/lib/hash/par_hash/par_hash.h +++ b/src/lib/hash/par_hash/par_hash.h @@ -40,7 +40,7 @@ class BOTAN_DLL Parallel : public HashFunction void add_data(const byte[], size_t) override; void final_result(byte[]) override; - std::vector<std::unique_ptr<HashFunction>> hashes; + std::vector<std::unique_ptr<HashFunction>> m_hashes; }; } diff --git a/src/lib/hash/rmd128/rmd128.cpp b/src/lib/hash/rmd128/rmd128.cpp index 394bf2acf..e520fa0c3 100644 --- a/src/lib/hash/rmd128/rmd128.cpp +++ b/src/lib/hash/rmd128/rmd128.cpp @@ -66,84 +66,84 @@ void RIPEMD_128::compress_n(const byte input[], size_t blocks) for(size_t i = 0; i != blocks; ++i) { - load_le(M.data(), input, M.size()); - - u32bit A1 = digest[0], A2 = A1, B1 = digest[1], B2 = B1, - C1 = digest[2], C2 = C1, D1 = digest[3], D2 = D1; - - F1(A1,B1,C1,D1,M[ 0],11 ); F4(A2,B2,C2,D2,M[ 5], 8,MAGIC5); - F1(D1,A1,B1,C1,M[ 1],14 ); F4(D2,A2,B2,C2,M[14], 9,MAGIC5); - F1(C1,D1,A1,B1,M[ 2],15 ); F4(C2,D2,A2,B2,M[ 7], 9,MAGIC5); - F1(B1,C1,D1,A1,M[ 3],12 ); F4(B2,C2,D2,A2,M[ 0],11,MAGIC5); - F1(A1,B1,C1,D1,M[ 4], 5 ); F4(A2,B2,C2,D2,M[ 9],13,MAGIC5); - F1(D1,A1,B1,C1,M[ 5], 8 ); F4(D2,A2,B2,C2,M[ 2],15,MAGIC5); - F1(C1,D1,A1,B1,M[ 6], 7 ); F4(C2,D2,A2,B2,M[11],15,MAGIC5); - F1(B1,C1,D1,A1,M[ 7], 9 ); F4(B2,C2,D2,A2,M[ 4], 5,MAGIC5); - F1(A1,B1,C1,D1,M[ 8],11 ); F4(A2,B2,C2,D2,M[13], 7,MAGIC5); - F1(D1,A1,B1,C1,M[ 9],13 ); F4(D2,A2,B2,C2,M[ 6], 7,MAGIC5); - F1(C1,D1,A1,B1,M[10],14 ); F4(C2,D2,A2,B2,M[15], 8,MAGIC5); - F1(B1,C1,D1,A1,M[11],15 ); F4(B2,C2,D2,A2,M[ 8],11,MAGIC5); - F1(A1,B1,C1,D1,M[12], 6 ); F4(A2,B2,C2,D2,M[ 1],14,MAGIC5); - F1(D1,A1,B1,C1,M[13], 7 ); F4(D2,A2,B2,C2,M[10],14,MAGIC5); - F1(C1,D1,A1,B1,M[14], 9 ); F4(C2,D2,A2,B2,M[ 3],12,MAGIC5); - F1(B1,C1,D1,A1,M[15], 8 ); F4(B2,C2,D2,A2,M[12], 6,MAGIC5); - - F2(A1,B1,C1,D1,M[ 7], 7,MAGIC2); F3(A2,B2,C2,D2,M[ 6], 9,MAGIC6); - F2(D1,A1,B1,C1,M[ 4], 6,MAGIC2); F3(D2,A2,B2,C2,M[11],13,MAGIC6); - F2(C1,D1,A1,B1,M[13], 8,MAGIC2); F3(C2,D2,A2,B2,M[ 3],15,MAGIC6); - F2(B1,C1,D1,A1,M[ 1],13,MAGIC2); F3(B2,C2,D2,A2,M[ 7], 7,MAGIC6); - F2(A1,B1,C1,D1,M[10],11,MAGIC2); F3(A2,B2,C2,D2,M[ 0],12,MAGIC6); - F2(D1,A1,B1,C1,M[ 6], 9,MAGIC2); F3(D2,A2,B2,C2,M[13], 8,MAGIC6); - F2(C1,D1,A1,B1,M[15], 7,MAGIC2); F3(C2,D2,A2,B2,M[ 5], 9,MAGIC6); - F2(B1,C1,D1,A1,M[ 3],15,MAGIC2); F3(B2,C2,D2,A2,M[10],11,MAGIC6); - F2(A1,B1,C1,D1,M[12], 7,MAGIC2); F3(A2,B2,C2,D2,M[14], 7,MAGIC6); - F2(D1,A1,B1,C1,M[ 0],12,MAGIC2); F3(D2,A2,B2,C2,M[15], 7,MAGIC6); - F2(C1,D1,A1,B1,M[ 9],15,MAGIC2); F3(C2,D2,A2,B2,M[ 8],12,MAGIC6); - F2(B1,C1,D1,A1,M[ 5], 9,MAGIC2); F3(B2,C2,D2,A2,M[12], 7,MAGIC6); - F2(A1,B1,C1,D1,M[ 2],11,MAGIC2); F3(A2,B2,C2,D2,M[ 4], 6,MAGIC6); - F2(D1,A1,B1,C1,M[14], 7,MAGIC2); F3(D2,A2,B2,C2,M[ 9],15,MAGIC6); - F2(C1,D1,A1,B1,M[11],13,MAGIC2); F3(C2,D2,A2,B2,M[ 1],13,MAGIC6); - F2(B1,C1,D1,A1,M[ 8],12,MAGIC2); F3(B2,C2,D2,A2,M[ 2],11,MAGIC6); - - F3(A1,B1,C1,D1,M[ 3],11,MAGIC3); F2(A2,B2,C2,D2,M[15], 9,MAGIC7); - F3(D1,A1,B1,C1,M[10],13,MAGIC3); F2(D2,A2,B2,C2,M[ 5], 7,MAGIC7); - F3(C1,D1,A1,B1,M[14], 6,MAGIC3); F2(C2,D2,A2,B2,M[ 1],15,MAGIC7); - F3(B1,C1,D1,A1,M[ 4], 7,MAGIC3); F2(B2,C2,D2,A2,M[ 3],11,MAGIC7); - F3(A1,B1,C1,D1,M[ 9],14,MAGIC3); F2(A2,B2,C2,D2,M[ 7], 8,MAGIC7); - F3(D1,A1,B1,C1,M[15], 9,MAGIC3); F2(D2,A2,B2,C2,M[14], 6,MAGIC7); - F3(C1,D1,A1,B1,M[ 8],13,MAGIC3); F2(C2,D2,A2,B2,M[ 6], 6,MAGIC7); - F3(B1,C1,D1,A1,M[ 1],15,MAGIC3); F2(B2,C2,D2,A2,M[ 9],14,MAGIC7); - F3(A1,B1,C1,D1,M[ 2],14,MAGIC3); F2(A2,B2,C2,D2,M[11],12,MAGIC7); - F3(D1,A1,B1,C1,M[ 7], 8,MAGIC3); F2(D2,A2,B2,C2,M[ 8],13,MAGIC7); - F3(C1,D1,A1,B1,M[ 0],13,MAGIC3); F2(C2,D2,A2,B2,M[12], 5,MAGIC7); - F3(B1,C1,D1,A1,M[ 6], 6,MAGIC3); F2(B2,C2,D2,A2,M[ 2],14,MAGIC7); - F3(A1,B1,C1,D1,M[13], 5,MAGIC3); F2(A2,B2,C2,D2,M[10],13,MAGIC7); - F3(D1,A1,B1,C1,M[11],12,MAGIC3); F2(D2,A2,B2,C2,M[ 0],13,MAGIC7); - F3(C1,D1,A1,B1,M[ 5], 7,MAGIC3); F2(C2,D2,A2,B2,M[ 4], 7,MAGIC7); - F3(B1,C1,D1,A1,M[12], 5,MAGIC3); F2(B2,C2,D2,A2,M[13], 5,MAGIC7); - - F4(A1,B1,C1,D1,M[ 1],11,MAGIC4); F1(A2,B2,C2,D2,M[ 8],15 ); - F4(D1,A1,B1,C1,M[ 9],12,MAGIC4); F1(D2,A2,B2,C2,M[ 6], 5 ); - F4(C1,D1,A1,B1,M[11],14,MAGIC4); F1(C2,D2,A2,B2,M[ 4], 8 ); - F4(B1,C1,D1,A1,M[10],15,MAGIC4); F1(B2,C2,D2,A2,M[ 1],11 ); - F4(A1,B1,C1,D1,M[ 0],14,MAGIC4); F1(A2,B2,C2,D2,M[ 3],14 ); - F4(D1,A1,B1,C1,M[ 8],15,MAGIC4); F1(D2,A2,B2,C2,M[11],14 ); - F4(C1,D1,A1,B1,M[12], 9,MAGIC4); F1(C2,D2,A2,B2,M[15], 6 ); - F4(B1,C1,D1,A1,M[ 4], 8,MAGIC4); F1(B2,C2,D2,A2,M[ 0],14 ); - F4(A1,B1,C1,D1,M[13], 9,MAGIC4); F1(A2,B2,C2,D2,M[ 5], 6 ); - F4(D1,A1,B1,C1,M[ 3],14,MAGIC4); F1(D2,A2,B2,C2,M[12], 9 ); - F4(C1,D1,A1,B1,M[ 7], 5,MAGIC4); F1(C2,D2,A2,B2,M[ 2],12 ); - F4(B1,C1,D1,A1,M[15], 6,MAGIC4); F1(B2,C2,D2,A2,M[13], 9 ); - F4(A1,B1,C1,D1,M[14], 8,MAGIC4); F1(A2,B2,C2,D2,M[ 9],12 ); - F4(D1,A1,B1,C1,M[ 5], 6,MAGIC4); F1(D2,A2,B2,C2,M[ 7], 5 ); - F4(C1,D1,A1,B1,M[ 6], 5,MAGIC4); F1(C2,D2,A2,B2,M[10],15 ); - F4(B1,C1,D1,A1,M[ 2],12,MAGIC4); F1(B2,C2,D2,A2,M[14], 8 ); - - D2 = digest[1] + C1 + D2; - digest[1] = digest[2] + D1 + A2; - digest[2] = digest[3] + A1 + B2; - digest[3] = digest[0] + B1 + C2; - digest[0] = D2; + load_le(m_M.data(), input, m_M.size()); + + u32bit A1 = m_digest[0], A2 = A1, B1 = m_digest[1], B2 = B1, + C1 = m_digest[2], C2 = C1, D1 = m_digest[3], D2 = D1; + + F1(A1,B1,C1,D1,m_M[ 0],11 ); F4(A2,B2,C2,D2,m_M[ 5], 8,MAGIC5); + F1(D1,A1,B1,C1,m_M[ 1],14 ); F4(D2,A2,B2,C2,m_M[14], 9,MAGIC5); + F1(C1,D1,A1,B1,m_M[ 2],15 ); F4(C2,D2,A2,B2,m_M[ 7], 9,MAGIC5); + F1(B1,C1,D1,A1,m_M[ 3],12 ); F4(B2,C2,D2,A2,m_M[ 0],11,MAGIC5); + F1(A1,B1,C1,D1,m_M[ 4], 5 ); F4(A2,B2,C2,D2,m_M[ 9],13,MAGIC5); + F1(D1,A1,B1,C1,m_M[ 5], 8 ); F4(D2,A2,B2,C2,m_M[ 2],15,MAGIC5); + F1(C1,D1,A1,B1,m_M[ 6], 7 ); F4(C2,D2,A2,B2,m_M[11],15,MAGIC5); + F1(B1,C1,D1,A1,m_M[ 7], 9 ); F4(B2,C2,D2,A2,m_M[ 4], 5,MAGIC5); + F1(A1,B1,C1,D1,m_M[ 8],11 ); F4(A2,B2,C2,D2,m_M[13], 7,MAGIC5); + F1(D1,A1,B1,C1,m_M[ 9],13 ); F4(D2,A2,B2,C2,m_M[ 6], 7,MAGIC5); + F1(C1,D1,A1,B1,m_M[10],14 ); F4(C2,D2,A2,B2,m_M[15], 8,MAGIC5); + F1(B1,C1,D1,A1,m_M[11],15 ); F4(B2,C2,D2,A2,m_M[ 8],11,MAGIC5); + F1(A1,B1,C1,D1,m_M[12], 6 ); F4(A2,B2,C2,D2,m_M[ 1],14,MAGIC5); + F1(D1,A1,B1,C1,m_M[13], 7 ); F4(D2,A2,B2,C2,m_M[10],14,MAGIC5); + F1(C1,D1,A1,B1,m_M[14], 9 ); F4(C2,D2,A2,B2,m_M[ 3],12,MAGIC5); + F1(B1,C1,D1,A1,m_M[15], 8 ); F4(B2,C2,D2,A2,m_M[12], 6,MAGIC5); + + F2(A1,B1,C1,D1,m_M[ 7], 7,MAGIC2); F3(A2,B2,C2,D2,m_M[ 6], 9,MAGIC6); + F2(D1,A1,B1,C1,m_M[ 4], 6,MAGIC2); F3(D2,A2,B2,C2,m_M[11],13,MAGIC6); + F2(C1,D1,A1,B1,m_M[13], 8,MAGIC2); F3(C2,D2,A2,B2,m_M[ 3],15,MAGIC6); + F2(B1,C1,D1,A1,m_M[ 1],13,MAGIC2); F3(B2,C2,D2,A2,m_M[ 7], 7,MAGIC6); + F2(A1,B1,C1,D1,m_M[10],11,MAGIC2); F3(A2,B2,C2,D2,m_M[ 0],12,MAGIC6); + F2(D1,A1,B1,C1,m_M[ 6], 9,MAGIC2); F3(D2,A2,B2,C2,m_M[13], 8,MAGIC6); + F2(C1,D1,A1,B1,m_M[15], 7,MAGIC2); F3(C2,D2,A2,B2,m_M[ 5], 9,MAGIC6); + F2(B1,C1,D1,A1,m_M[ 3],15,MAGIC2); F3(B2,C2,D2,A2,m_M[10],11,MAGIC6); + F2(A1,B1,C1,D1,m_M[12], 7,MAGIC2); F3(A2,B2,C2,D2,m_M[14], 7,MAGIC6); + F2(D1,A1,B1,C1,m_M[ 0],12,MAGIC2); F3(D2,A2,B2,C2,m_M[15], 7,MAGIC6); + F2(C1,D1,A1,B1,m_M[ 9],15,MAGIC2); F3(C2,D2,A2,B2,m_M[ 8],12,MAGIC6); + F2(B1,C1,D1,A1,m_M[ 5], 9,MAGIC2); F3(B2,C2,D2,A2,m_M[12], 7,MAGIC6); + F2(A1,B1,C1,D1,m_M[ 2],11,MAGIC2); F3(A2,B2,C2,D2,m_M[ 4], 6,MAGIC6); + F2(D1,A1,B1,C1,m_M[14], 7,MAGIC2); F3(D2,A2,B2,C2,m_M[ 9],15,MAGIC6); + F2(C1,D1,A1,B1,m_M[11],13,MAGIC2); F3(C2,D2,A2,B2,m_M[ 1],13,MAGIC6); + F2(B1,C1,D1,A1,m_M[ 8],12,MAGIC2); F3(B2,C2,D2,A2,m_M[ 2],11,MAGIC6); + + F3(A1,B1,C1,D1,m_M[ 3],11,MAGIC3); F2(A2,B2,C2,D2,m_M[15], 9,MAGIC7); + F3(D1,A1,B1,C1,m_M[10],13,MAGIC3); F2(D2,A2,B2,C2,m_M[ 5], 7,MAGIC7); + F3(C1,D1,A1,B1,m_M[14], 6,MAGIC3); F2(C2,D2,A2,B2,m_M[ 1],15,MAGIC7); + F3(B1,C1,D1,A1,m_M[ 4], 7,MAGIC3); F2(B2,C2,D2,A2,m_M[ 3],11,MAGIC7); + F3(A1,B1,C1,D1,m_M[ 9],14,MAGIC3); F2(A2,B2,C2,D2,m_M[ 7], 8,MAGIC7); + F3(D1,A1,B1,C1,m_M[15], 9,MAGIC3); F2(D2,A2,B2,C2,m_M[14], 6,MAGIC7); + F3(C1,D1,A1,B1,m_M[ 8],13,MAGIC3); F2(C2,D2,A2,B2,m_M[ 6], 6,MAGIC7); + F3(B1,C1,D1,A1,m_M[ 1],15,MAGIC3); F2(B2,C2,D2,A2,m_M[ 9],14,MAGIC7); + F3(A1,B1,C1,D1,m_M[ 2],14,MAGIC3); F2(A2,B2,C2,D2,m_M[11],12,MAGIC7); + F3(D1,A1,B1,C1,m_M[ 7], 8,MAGIC3); F2(D2,A2,B2,C2,m_M[ 8],13,MAGIC7); + F3(C1,D1,A1,B1,m_M[ 0],13,MAGIC3); F2(C2,D2,A2,B2,m_M[12], 5,MAGIC7); + F3(B1,C1,D1,A1,m_M[ 6], 6,MAGIC3); F2(B2,C2,D2,A2,m_M[ 2],14,MAGIC7); + F3(A1,B1,C1,D1,m_M[13], 5,MAGIC3); F2(A2,B2,C2,D2,m_M[10],13,MAGIC7); + F3(D1,A1,B1,C1,m_M[11],12,MAGIC3); F2(D2,A2,B2,C2,m_M[ 0],13,MAGIC7); + F3(C1,D1,A1,B1,m_M[ 5], 7,MAGIC3); F2(C2,D2,A2,B2,m_M[ 4], 7,MAGIC7); + F3(B1,C1,D1,A1,m_M[12], 5,MAGIC3); F2(B2,C2,D2,A2,m_M[13], 5,MAGIC7); + + F4(A1,B1,C1,D1,m_M[ 1],11,MAGIC4); F1(A2,B2,C2,D2,m_M[ 8],15 ); + F4(D1,A1,B1,C1,m_M[ 9],12,MAGIC4); F1(D2,A2,B2,C2,m_M[ 6], 5 ); + F4(C1,D1,A1,B1,m_M[11],14,MAGIC4); F1(C2,D2,A2,B2,m_M[ 4], 8 ); + F4(B1,C1,D1,A1,m_M[10],15,MAGIC4); F1(B2,C2,D2,A2,m_M[ 1],11 ); + F4(A1,B1,C1,D1,m_M[ 0],14,MAGIC4); F1(A2,B2,C2,D2,m_M[ 3],14 ); + F4(D1,A1,B1,C1,m_M[ 8],15,MAGIC4); F1(D2,A2,B2,C2,m_M[11],14 ); + F4(C1,D1,A1,B1,m_M[12], 9,MAGIC4); F1(C2,D2,A2,B2,m_M[15], 6 ); + F4(B1,C1,D1,A1,m_M[ 4], 8,MAGIC4); F1(B2,C2,D2,A2,m_M[ 0],14 ); + F4(A1,B1,C1,D1,m_M[13], 9,MAGIC4); F1(A2,B2,C2,D2,m_M[ 5], 6 ); + F4(D1,A1,B1,C1,m_M[ 3],14,MAGIC4); F1(D2,A2,B2,C2,m_M[12], 9 ); + F4(C1,D1,A1,B1,m_M[ 7], 5,MAGIC4); F1(C2,D2,A2,B2,m_M[ 2],12 ); + F4(B1,C1,D1,A1,m_M[15], 6,MAGIC4); F1(B2,C2,D2,A2,m_M[13], 9 ); + F4(A1,B1,C1,D1,m_M[14], 8,MAGIC4); F1(A2,B2,C2,D2,m_M[ 9],12 ); + F4(D1,A1,B1,C1,m_M[ 5], 6,MAGIC4); F1(D2,A2,B2,C2,m_M[ 7], 5 ); + F4(C1,D1,A1,B1,m_M[ 6], 5,MAGIC4); F1(C2,D2,A2,B2,m_M[10],15 ); + F4(B1,C1,D1,A1,m_M[ 2],12,MAGIC4); F1(B2,C2,D2,A2,m_M[14], 8 ); + + D2 = m_digest[1] + C1 + D2; + m_digest[1] = m_digest[2] + D1 + A2; + m_digest[2] = m_digest[3] + A1 + B2; + m_digest[3] = m_digest[0] + B1 + C2; + m_digest[0] = D2; input += hash_block_size(); } @@ -154,7 +154,7 @@ void RIPEMD_128::compress_n(const byte input[], size_t blocks) */ void RIPEMD_128::copy_out(byte output[]) { - copy_out_vec_le(output, output_length(), digest); + copy_out_vec_le(output, output_length(), m_digest); } /* @@ -163,11 +163,11 @@ void RIPEMD_128::copy_out(byte output[]) void RIPEMD_128::clear() { MDx_HashFunction::clear(); - zeroise(M); - digest[0] = 0x67452301; - digest[1] = 0xEFCDAB89; - digest[2] = 0x98BADCFE; - digest[3] = 0x10325476; + zeroise(m_M); + m_digest[0] = 0x67452301; + m_digest[1] = 0xEFCDAB89; + m_digest[2] = 0x98BADCFE; + m_digest[3] = 0x10325476; } } diff --git a/src/lib/hash/rmd128/rmd128.h b/src/lib/hash/rmd128/rmd128.h index ea1eb2286..e4ef551ea 100644 --- a/src/lib/hash/rmd128/rmd128.h +++ b/src/lib/hash/rmd128/rmd128.h @@ -24,13 +24,13 @@ class BOTAN_DLL RIPEMD_128 : public MDx_HashFunction void clear() override; - RIPEMD_128() : MDx_HashFunction(64, false, true), M(16), digest(4) + RIPEMD_128() : MDx_HashFunction(64, false, true), m_M(16), m_digest(4) { clear(); } private: void compress_n(const byte[], size_t blocks) override; void copy_out(byte[]) override; - secure_vector<u32bit> M, digest; + secure_vector<u32bit> m_M, m_digest; }; } diff --git a/src/lib/hash/rmd160/rmd160.cpp b/src/lib/hash/rmd160/rmd160.cpp index 56d063338..a48b97882 100644 --- a/src/lib/hash/rmd160/rmd160.cpp +++ b/src/lib/hash/rmd160/rmd160.cpp @@ -80,103 +80,103 @@ void RIPEMD_160::compress_n(const byte input[], size_t blocks) for(size_t i = 0; i != blocks; ++i) { - load_le(M.data(), input, M.size()); - - u32bit A1 = digest[0], A2 = A1, B1 = digest[1], B2 = B1, - C1 = digest[2], C2 = C1, D1 = digest[3], D2 = D1, - E1 = digest[4], E2 = E1; - - F1(A1,B1,C1,D1,E1,M[ 0],11 ); F5(A2,B2,C2,D2,E2,M[ 5], 8,MAGIC6); - F1(E1,A1,B1,C1,D1,M[ 1],14 ); F5(E2,A2,B2,C2,D2,M[14], 9,MAGIC6); - F1(D1,E1,A1,B1,C1,M[ 2],15 ); F5(D2,E2,A2,B2,C2,M[ 7], 9,MAGIC6); - F1(C1,D1,E1,A1,B1,M[ 3],12 ); F5(C2,D2,E2,A2,B2,M[ 0],11,MAGIC6); - F1(B1,C1,D1,E1,A1,M[ 4], 5 ); F5(B2,C2,D2,E2,A2,M[ 9],13,MAGIC6); - F1(A1,B1,C1,D1,E1,M[ 5], 8 ); F5(A2,B2,C2,D2,E2,M[ 2],15,MAGIC6); - F1(E1,A1,B1,C1,D1,M[ 6], 7 ); F5(E2,A2,B2,C2,D2,M[11],15,MAGIC6); - F1(D1,E1,A1,B1,C1,M[ 7], 9 ); F5(D2,E2,A2,B2,C2,M[ 4], 5,MAGIC6); - F1(C1,D1,E1,A1,B1,M[ 8],11 ); F5(C2,D2,E2,A2,B2,M[13], 7,MAGIC6); - F1(B1,C1,D1,E1,A1,M[ 9],13 ); F5(B2,C2,D2,E2,A2,M[ 6], 7,MAGIC6); - F1(A1,B1,C1,D1,E1,M[10],14 ); F5(A2,B2,C2,D2,E2,M[15], 8,MAGIC6); - F1(E1,A1,B1,C1,D1,M[11],15 ); F5(E2,A2,B2,C2,D2,M[ 8],11,MAGIC6); - F1(D1,E1,A1,B1,C1,M[12], 6 ); F5(D2,E2,A2,B2,C2,M[ 1],14,MAGIC6); - F1(C1,D1,E1,A1,B1,M[13], 7 ); F5(C2,D2,E2,A2,B2,M[10],14,MAGIC6); - F1(B1,C1,D1,E1,A1,M[14], 9 ); F5(B2,C2,D2,E2,A2,M[ 3],12,MAGIC6); - F1(A1,B1,C1,D1,E1,M[15], 8 ); F5(A2,B2,C2,D2,E2,M[12], 6,MAGIC6); - - F2(E1,A1,B1,C1,D1,M[ 7], 7,MAGIC2); F4(E2,A2,B2,C2,D2,M[ 6], 9,MAGIC7); - F2(D1,E1,A1,B1,C1,M[ 4], 6,MAGIC2); F4(D2,E2,A2,B2,C2,M[11],13,MAGIC7); - F2(C1,D1,E1,A1,B1,M[13], 8,MAGIC2); F4(C2,D2,E2,A2,B2,M[ 3],15,MAGIC7); - F2(B1,C1,D1,E1,A1,M[ 1],13,MAGIC2); F4(B2,C2,D2,E2,A2,M[ 7], 7,MAGIC7); - F2(A1,B1,C1,D1,E1,M[10],11,MAGIC2); F4(A2,B2,C2,D2,E2,M[ 0],12,MAGIC7); - F2(E1,A1,B1,C1,D1,M[ 6], 9,MAGIC2); F4(E2,A2,B2,C2,D2,M[13], 8,MAGIC7); - F2(D1,E1,A1,B1,C1,M[15], 7,MAGIC2); F4(D2,E2,A2,B2,C2,M[ 5], 9,MAGIC7); - F2(C1,D1,E1,A1,B1,M[ 3],15,MAGIC2); F4(C2,D2,E2,A2,B2,M[10],11,MAGIC7); - F2(B1,C1,D1,E1,A1,M[12], 7,MAGIC2); F4(B2,C2,D2,E2,A2,M[14], 7,MAGIC7); - F2(A1,B1,C1,D1,E1,M[ 0],12,MAGIC2); F4(A2,B2,C2,D2,E2,M[15], 7,MAGIC7); - F2(E1,A1,B1,C1,D1,M[ 9],15,MAGIC2); F4(E2,A2,B2,C2,D2,M[ 8],12,MAGIC7); - F2(D1,E1,A1,B1,C1,M[ 5], 9,MAGIC2); F4(D2,E2,A2,B2,C2,M[12], 7,MAGIC7); - F2(C1,D1,E1,A1,B1,M[ 2],11,MAGIC2); F4(C2,D2,E2,A2,B2,M[ 4], 6,MAGIC7); - F2(B1,C1,D1,E1,A1,M[14], 7,MAGIC2); F4(B2,C2,D2,E2,A2,M[ 9],15,MAGIC7); - F2(A1,B1,C1,D1,E1,M[11],13,MAGIC2); F4(A2,B2,C2,D2,E2,M[ 1],13,MAGIC7); - F2(E1,A1,B1,C1,D1,M[ 8],12,MAGIC2); F4(E2,A2,B2,C2,D2,M[ 2],11,MAGIC7); - - F3(D1,E1,A1,B1,C1,M[ 3],11,MAGIC3); F3(D2,E2,A2,B2,C2,M[15], 9,MAGIC8); - F3(C1,D1,E1,A1,B1,M[10],13,MAGIC3); F3(C2,D2,E2,A2,B2,M[ 5], 7,MAGIC8); - F3(B1,C1,D1,E1,A1,M[14], 6,MAGIC3); F3(B2,C2,D2,E2,A2,M[ 1],15,MAGIC8); - F3(A1,B1,C1,D1,E1,M[ 4], 7,MAGIC3); F3(A2,B2,C2,D2,E2,M[ 3],11,MAGIC8); - F3(E1,A1,B1,C1,D1,M[ 9],14,MAGIC3); F3(E2,A2,B2,C2,D2,M[ 7], 8,MAGIC8); - F3(D1,E1,A1,B1,C1,M[15], 9,MAGIC3); F3(D2,E2,A2,B2,C2,M[14], 6,MAGIC8); - F3(C1,D1,E1,A1,B1,M[ 8],13,MAGIC3); F3(C2,D2,E2,A2,B2,M[ 6], 6,MAGIC8); - F3(B1,C1,D1,E1,A1,M[ 1],15,MAGIC3); F3(B2,C2,D2,E2,A2,M[ 9],14,MAGIC8); - F3(A1,B1,C1,D1,E1,M[ 2],14,MAGIC3); F3(A2,B2,C2,D2,E2,M[11],12,MAGIC8); - F3(E1,A1,B1,C1,D1,M[ 7], 8,MAGIC3); F3(E2,A2,B2,C2,D2,M[ 8],13,MAGIC8); - F3(D1,E1,A1,B1,C1,M[ 0],13,MAGIC3); F3(D2,E2,A2,B2,C2,M[12], 5,MAGIC8); - F3(C1,D1,E1,A1,B1,M[ 6], 6,MAGIC3); F3(C2,D2,E2,A2,B2,M[ 2],14,MAGIC8); - F3(B1,C1,D1,E1,A1,M[13], 5,MAGIC3); F3(B2,C2,D2,E2,A2,M[10],13,MAGIC8); - F3(A1,B1,C1,D1,E1,M[11],12,MAGIC3); F3(A2,B2,C2,D2,E2,M[ 0],13,MAGIC8); - F3(E1,A1,B1,C1,D1,M[ 5], 7,MAGIC3); F3(E2,A2,B2,C2,D2,M[ 4], 7,MAGIC8); - F3(D1,E1,A1,B1,C1,M[12], 5,MAGIC3); F3(D2,E2,A2,B2,C2,M[13], 5,MAGIC8); - - F4(C1,D1,E1,A1,B1,M[ 1],11,MAGIC4); F2(C2,D2,E2,A2,B2,M[ 8],15,MAGIC9); - F4(B1,C1,D1,E1,A1,M[ 9],12,MAGIC4); F2(B2,C2,D2,E2,A2,M[ 6], 5,MAGIC9); - F4(A1,B1,C1,D1,E1,M[11],14,MAGIC4); F2(A2,B2,C2,D2,E2,M[ 4], 8,MAGIC9); - F4(E1,A1,B1,C1,D1,M[10],15,MAGIC4); F2(E2,A2,B2,C2,D2,M[ 1],11,MAGIC9); - F4(D1,E1,A1,B1,C1,M[ 0],14,MAGIC4); F2(D2,E2,A2,B2,C2,M[ 3],14,MAGIC9); - F4(C1,D1,E1,A1,B1,M[ 8],15,MAGIC4); F2(C2,D2,E2,A2,B2,M[11],14,MAGIC9); - F4(B1,C1,D1,E1,A1,M[12], 9,MAGIC4); F2(B2,C2,D2,E2,A2,M[15], 6,MAGIC9); - F4(A1,B1,C1,D1,E1,M[ 4], 8,MAGIC4); F2(A2,B2,C2,D2,E2,M[ 0],14,MAGIC9); - F4(E1,A1,B1,C1,D1,M[13], 9,MAGIC4); F2(E2,A2,B2,C2,D2,M[ 5], 6,MAGIC9); - F4(D1,E1,A1,B1,C1,M[ 3],14,MAGIC4); F2(D2,E2,A2,B2,C2,M[12], 9,MAGIC9); - F4(C1,D1,E1,A1,B1,M[ 7], 5,MAGIC4); F2(C2,D2,E2,A2,B2,M[ 2],12,MAGIC9); - F4(B1,C1,D1,E1,A1,M[15], 6,MAGIC4); F2(B2,C2,D2,E2,A2,M[13], 9,MAGIC9); - F4(A1,B1,C1,D1,E1,M[14], 8,MAGIC4); F2(A2,B2,C2,D2,E2,M[ 9],12,MAGIC9); - F4(E1,A1,B1,C1,D1,M[ 5], 6,MAGIC4); F2(E2,A2,B2,C2,D2,M[ 7], 5,MAGIC9); - F4(D1,E1,A1,B1,C1,M[ 6], 5,MAGIC4); F2(D2,E2,A2,B2,C2,M[10],15,MAGIC9); - F4(C1,D1,E1,A1,B1,M[ 2],12,MAGIC4); F2(C2,D2,E2,A2,B2,M[14], 8,MAGIC9); - - F5(B1,C1,D1,E1,A1,M[ 4], 9,MAGIC5); F1(B2,C2,D2,E2,A2,M[12], 8 ); - F5(A1,B1,C1,D1,E1,M[ 0],15,MAGIC5); F1(A2,B2,C2,D2,E2,M[15], 5 ); - F5(E1,A1,B1,C1,D1,M[ 5], 5,MAGIC5); F1(E2,A2,B2,C2,D2,M[10],12 ); - F5(D1,E1,A1,B1,C1,M[ 9],11,MAGIC5); F1(D2,E2,A2,B2,C2,M[ 4], 9 ); - F5(C1,D1,E1,A1,B1,M[ 7], 6,MAGIC5); F1(C2,D2,E2,A2,B2,M[ 1],12 ); - F5(B1,C1,D1,E1,A1,M[12], 8,MAGIC5); F1(B2,C2,D2,E2,A2,M[ 5], 5 ); - F5(A1,B1,C1,D1,E1,M[ 2],13,MAGIC5); F1(A2,B2,C2,D2,E2,M[ 8],14 ); - F5(E1,A1,B1,C1,D1,M[10],12,MAGIC5); F1(E2,A2,B2,C2,D2,M[ 7], 6 ); - F5(D1,E1,A1,B1,C1,M[14], 5,MAGIC5); F1(D2,E2,A2,B2,C2,M[ 6], 8 ); - F5(C1,D1,E1,A1,B1,M[ 1],12,MAGIC5); F1(C2,D2,E2,A2,B2,M[ 2],13 ); - F5(B1,C1,D1,E1,A1,M[ 3],13,MAGIC5); F1(B2,C2,D2,E2,A2,M[13], 6 ); - F5(A1,B1,C1,D1,E1,M[ 8],14,MAGIC5); F1(A2,B2,C2,D2,E2,M[14], 5 ); - F5(E1,A1,B1,C1,D1,M[11],11,MAGIC5); F1(E2,A2,B2,C2,D2,M[ 0],15 ); - F5(D1,E1,A1,B1,C1,M[ 6], 8,MAGIC5); F1(D2,E2,A2,B2,C2,M[ 3],13 ); - F5(C1,D1,E1,A1,B1,M[15], 5,MAGIC5); F1(C2,D2,E2,A2,B2,M[ 9],11 ); - F5(B1,C1,D1,E1,A1,M[13], 6,MAGIC5); F1(B2,C2,D2,E2,A2,M[11],11 ); - - C1 = digest[1] + C1 + D2; - digest[1] = digest[2] + D1 + E2; - digest[2] = digest[3] + E1 + A2; - digest[3] = digest[4] + A1 + B2; - digest[4] = digest[0] + B1 + C2; - digest[0] = C1; + load_le(m_M.data(), input, m_M.size()); + + u32bit A1 = m_digest[0], A2 = A1, B1 = m_digest[1], B2 = B1, + C1 = m_digest[2], C2 = C1, D1 = m_digest[3], D2 = D1, + E1 = m_digest[4], E2 = E1; + + F1(A1,B1,C1,D1,E1,m_M[ 0],11 ); F5(A2,B2,C2,D2,E2,m_M[ 5], 8,MAGIC6); + F1(E1,A1,B1,C1,D1,m_M[ 1],14 ); F5(E2,A2,B2,C2,D2,m_M[14], 9,MAGIC6); + F1(D1,E1,A1,B1,C1,m_M[ 2],15 ); F5(D2,E2,A2,B2,C2,m_M[ 7], 9,MAGIC6); + F1(C1,D1,E1,A1,B1,m_M[ 3],12 ); F5(C2,D2,E2,A2,B2,m_M[ 0],11,MAGIC6); + F1(B1,C1,D1,E1,A1,m_M[ 4], 5 ); F5(B2,C2,D2,E2,A2,m_M[ 9],13,MAGIC6); + F1(A1,B1,C1,D1,E1,m_M[ 5], 8 ); F5(A2,B2,C2,D2,E2,m_M[ 2],15,MAGIC6); + F1(E1,A1,B1,C1,D1,m_M[ 6], 7 ); F5(E2,A2,B2,C2,D2,m_M[11],15,MAGIC6); + F1(D1,E1,A1,B1,C1,m_M[ 7], 9 ); F5(D2,E2,A2,B2,C2,m_M[ 4], 5,MAGIC6); + F1(C1,D1,E1,A1,B1,m_M[ 8],11 ); F5(C2,D2,E2,A2,B2,m_M[13], 7,MAGIC6); + F1(B1,C1,D1,E1,A1,m_M[ 9],13 ); F5(B2,C2,D2,E2,A2,m_M[ 6], 7,MAGIC6); + F1(A1,B1,C1,D1,E1,m_M[10],14 ); F5(A2,B2,C2,D2,E2,m_M[15], 8,MAGIC6); + F1(E1,A1,B1,C1,D1,m_M[11],15 ); F5(E2,A2,B2,C2,D2,m_M[ 8],11,MAGIC6); + F1(D1,E1,A1,B1,C1,m_M[12], 6 ); F5(D2,E2,A2,B2,C2,m_M[ 1],14,MAGIC6); + F1(C1,D1,E1,A1,B1,m_M[13], 7 ); F5(C2,D2,E2,A2,B2,m_M[10],14,MAGIC6); + F1(B1,C1,D1,E1,A1,m_M[14], 9 ); F5(B2,C2,D2,E2,A2,m_M[ 3],12,MAGIC6); + F1(A1,B1,C1,D1,E1,m_M[15], 8 ); F5(A2,B2,C2,D2,E2,m_M[12], 6,MAGIC6); + + F2(E1,A1,B1,C1,D1,m_M[ 7], 7,MAGIC2); F4(E2,A2,B2,C2,D2,m_M[ 6], 9,MAGIC7); + F2(D1,E1,A1,B1,C1,m_M[ 4], 6,MAGIC2); F4(D2,E2,A2,B2,C2,m_M[11],13,MAGIC7); + F2(C1,D1,E1,A1,B1,m_M[13], 8,MAGIC2); F4(C2,D2,E2,A2,B2,m_M[ 3],15,MAGIC7); + F2(B1,C1,D1,E1,A1,m_M[ 1],13,MAGIC2); F4(B2,C2,D2,E2,A2,m_M[ 7], 7,MAGIC7); + F2(A1,B1,C1,D1,E1,m_M[10],11,MAGIC2); F4(A2,B2,C2,D2,E2,m_M[ 0],12,MAGIC7); + F2(E1,A1,B1,C1,D1,m_M[ 6], 9,MAGIC2); F4(E2,A2,B2,C2,D2,m_M[13], 8,MAGIC7); + F2(D1,E1,A1,B1,C1,m_M[15], 7,MAGIC2); F4(D2,E2,A2,B2,C2,m_M[ 5], 9,MAGIC7); + F2(C1,D1,E1,A1,B1,m_M[ 3],15,MAGIC2); F4(C2,D2,E2,A2,B2,m_M[10],11,MAGIC7); + F2(B1,C1,D1,E1,A1,m_M[12], 7,MAGIC2); F4(B2,C2,D2,E2,A2,m_M[14], 7,MAGIC7); + F2(A1,B1,C1,D1,E1,m_M[ 0],12,MAGIC2); F4(A2,B2,C2,D2,E2,m_M[15], 7,MAGIC7); + F2(E1,A1,B1,C1,D1,m_M[ 9],15,MAGIC2); F4(E2,A2,B2,C2,D2,m_M[ 8],12,MAGIC7); + F2(D1,E1,A1,B1,C1,m_M[ 5], 9,MAGIC2); F4(D2,E2,A2,B2,C2,m_M[12], 7,MAGIC7); + F2(C1,D1,E1,A1,B1,m_M[ 2],11,MAGIC2); F4(C2,D2,E2,A2,B2,m_M[ 4], 6,MAGIC7); + F2(B1,C1,D1,E1,A1,m_M[14], 7,MAGIC2); F4(B2,C2,D2,E2,A2,m_M[ 9],15,MAGIC7); + F2(A1,B1,C1,D1,E1,m_M[11],13,MAGIC2); F4(A2,B2,C2,D2,E2,m_M[ 1],13,MAGIC7); + F2(E1,A1,B1,C1,D1,m_M[ 8],12,MAGIC2); F4(E2,A2,B2,C2,D2,m_M[ 2],11,MAGIC7); + + F3(D1,E1,A1,B1,C1,m_M[ 3],11,MAGIC3); F3(D2,E2,A2,B2,C2,m_M[15], 9,MAGIC8); + F3(C1,D1,E1,A1,B1,m_M[10],13,MAGIC3); F3(C2,D2,E2,A2,B2,m_M[ 5], 7,MAGIC8); + F3(B1,C1,D1,E1,A1,m_M[14], 6,MAGIC3); F3(B2,C2,D2,E2,A2,m_M[ 1],15,MAGIC8); + F3(A1,B1,C1,D1,E1,m_M[ 4], 7,MAGIC3); F3(A2,B2,C2,D2,E2,m_M[ 3],11,MAGIC8); + F3(E1,A1,B1,C1,D1,m_M[ 9],14,MAGIC3); F3(E2,A2,B2,C2,D2,m_M[ 7], 8,MAGIC8); + F3(D1,E1,A1,B1,C1,m_M[15], 9,MAGIC3); F3(D2,E2,A2,B2,C2,m_M[14], 6,MAGIC8); + F3(C1,D1,E1,A1,B1,m_M[ 8],13,MAGIC3); F3(C2,D2,E2,A2,B2,m_M[ 6], 6,MAGIC8); + F3(B1,C1,D1,E1,A1,m_M[ 1],15,MAGIC3); F3(B2,C2,D2,E2,A2,m_M[ 9],14,MAGIC8); + F3(A1,B1,C1,D1,E1,m_M[ 2],14,MAGIC3); F3(A2,B2,C2,D2,E2,m_M[11],12,MAGIC8); + F3(E1,A1,B1,C1,D1,m_M[ 7], 8,MAGIC3); F3(E2,A2,B2,C2,D2,m_M[ 8],13,MAGIC8); + F3(D1,E1,A1,B1,C1,m_M[ 0],13,MAGIC3); F3(D2,E2,A2,B2,C2,m_M[12], 5,MAGIC8); + F3(C1,D1,E1,A1,B1,m_M[ 6], 6,MAGIC3); F3(C2,D2,E2,A2,B2,m_M[ 2],14,MAGIC8); + F3(B1,C1,D1,E1,A1,m_M[13], 5,MAGIC3); F3(B2,C2,D2,E2,A2,m_M[10],13,MAGIC8); + F3(A1,B1,C1,D1,E1,m_M[11],12,MAGIC3); F3(A2,B2,C2,D2,E2,m_M[ 0],13,MAGIC8); + F3(E1,A1,B1,C1,D1,m_M[ 5], 7,MAGIC3); F3(E2,A2,B2,C2,D2,m_M[ 4], 7,MAGIC8); + F3(D1,E1,A1,B1,C1,m_M[12], 5,MAGIC3); F3(D2,E2,A2,B2,C2,m_M[13], 5,MAGIC8); + + F4(C1,D1,E1,A1,B1,m_M[ 1],11,MAGIC4); F2(C2,D2,E2,A2,B2,m_M[ 8],15,MAGIC9); + F4(B1,C1,D1,E1,A1,m_M[ 9],12,MAGIC4); F2(B2,C2,D2,E2,A2,m_M[ 6], 5,MAGIC9); + F4(A1,B1,C1,D1,E1,m_M[11],14,MAGIC4); F2(A2,B2,C2,D2,E2,m_M[ 4], 8,MAGIC9); + F4(E1,A1,B1,C1,D1,m_M[10],15,MAGIC4); F2(E2,A2,B2,C2,D2,m_M[ 1],11,MAGIC9); + F4(D1,E1,A1,B1,C1,m_M[ 0],14,MAGIC4); F2(D2,E2,A2,B2,C2,m_M[ 3],14,MAGIC9); + F4(C1,D1,E1,A1,B1,m_M[ 8],15,MAGIC4); F2(C2,D2,E2,A2,B2,m_M[11],14,MAGIC9); + F4(B1,C1,D1,E1,A1,m_M[12], 9,MAGIC4); F2(B2,C2,D2,E2,A2,m_M[15], 6,MAGIC9); + F4(A1,B1,C1,D1,E1,m_M[ 4], 8,MAGIC4); F2(A2,B2,C2,D2,E2,m_M[ 0],14,MAGIC9); + F4(E1,A1,B1,C1,D1,m_M[13], 9,MAGIC4); F2(E2,A2,B2,C2,D2,m_M[ 5], 6,MAGIC9); + F4(D1,E1,A1,B1,C1,m_M[ 3],14,MAGIC4); F2(D2,E2,A2,B2,C2,m_M[12], 9,MAGIC9); + F4(C1,D1,E1,A1,B1,m_M[ 7], 5,MAGIC4); F2(C2,D2,E2,A2,B2,m_M[ 2],12,MAGIC9); + F4(B1,C1,D1,E1,A1,m_M[15], 6,MAGIC4); F2(B2,C2,D2,E2,A2,m_M[13], 9,MAGIC9); + F4(A1,B1,C1,D1,E1,m_M[14], 8,MAGIC4); F2(A2,B2,C2,D2,E2,m_M[ 9],12,MAGIC9); + F4(E1,A1,B1,C1,D1,m_M[ 5], 6,MAGIC4); F2(E2,A2,B2,C2,D2,m_M[ 7], 5,MAGIC9); + F4(D1,E1,A1,B1,C1,m_M[ 6], 5,MAGIC4); F2(D2,E2,A2,B2,C2,m_M[10],15,MAGIC9); + F4(C1,D1,E1,A1,B1,m_M[ 2],12,MAGIC4); F2(C2,D2,E2,A2,B2,m_M[14], 8,MAGIC9); + + F5(B1,C1,D1,E1,A1,m_M[ 4], 9,MAGIC5); F1(B2,C2,D2,E2,A2,m_M[12], 8 ); + F5(A1,B1,C1,D1,E1,m_M[ 0],15,MAGIC5); F1(A2,B2,C2,D2,E2,m_M[15], 5 ); + F5(E1,A1,B1,C1,D1,m_M[ 5], 5,MAGIC5); F1(E2,A2,B2,C2,D2,m_M[10],12 ); + F5(D1,E1,A1,B1,C1,m_M[ 9],11,MAGIC5); F1(D2,E2,A2,B2,C2,m_M[ 4], 9 ); + F5(C1,D1,E1,A1,B1,m_M[ 7], 6,MAGIC5); F1(C2,D2,E2,A2,B2,m_M[ 1],12 ); + F5(B1,C1,D1,E1,A1,m_M[12], 8,MAGIC5); F1(B2,C2,D2,E2,A2,m_M[ 5], 5 ); + F5(A1,B1,C1,D1,E1,m_M[ 2],13,MAGIC5); F1(A2,B2,C2,D2,E2,m_M[ 8],14 ); + F5(E1,A1,B1,C1,D1,m_M[10],12,MAGIC5); F1(E2,A2,B2,C2,D2,m_M[ 7], 6 ); + F5(D1,E1,A1,B1,C1,m_M[14], 5,MAGIC5); F1(D2,E2,A2,B2,C2,m_M[ 6], 8 ); + F5(C1,D1,E1,A1,B1,m_M[ 1],12,MAGIC5); F1(C2,D2,E2,A2,B2,m_M[ 2],13 ); + F5(B1,C1,D1,E1,A1,m_M[ 3],13,MAGIC5); F1(B2,C2,D2,E2,A2,m_M[13], 6 ); + F5(A1,B1,C1,D1,E1,m_M[ 8],14,MAGIC5); F1(A2,B2,C2,D2,E2,m_M[14], 5 ); + F5(E1,A1,B1,C1,D1,m_M[11],11,MAGIC5); F1(E2,A2,B2,C2,D2,m_M[ 0],15 ); + F5(D1,E1,A1,B1,C1,m_M[ 6], 8,MAGIC5); F1(D2,E2,A2,B2,C2,m_M[ 3],13 ); + F5(C1,D1,E1,A1,B1,m_M[15], 5,MAGIC5); F1(C2,D2,E2,A2,B2,m_M[ 9],11 ); + F5(B1,C1,D1,E1,A1,m_M[13], 6,MAGIC5); F1(B2,C2,D2,E2,A2,m_M[11],11 ); + + C1 = m_digest[1] + C1 + D2; + m_digest[1] = m_digest[2] + D1 + E2; + m_digest[2] = m_digest[3] + E1 + A2; + m_digest[3] = m_digest[4] + A1 + B2; + m_digest[4] = m_digest[0] + B1 + C2; + m_digest[0] = C1; input += hash_block_size(); } @@ -187,7 +187,7 @@ void RIPEMD_160::compress_n(const byte input[], size_t blocks) */ void RIPEMD_160::copy_out(byte output[]) { - copy_out_vec_le(output, output_length(), digest); + copy_out_vec_le(output, output_length(), m_digest); } /* @@ -196,12 +196,12 @@ void RIPEMD_160::copy_out(byte output[]) void RIPEMD_160::clear() { MDx_HashFunction::clear(); - zeroise(M); - digest[0] = 0x67452301; - digest[1] = 0xEFCDAB89; - digest[2] = 0x98BADCFE; - digest[3] = 0x10325476; - digest[4] = 0xC3D2E1F0; + zeroise(m_M); + m_digest[0] = 0x67452301; + m_digest[1] = 0xEFCDAB89; + m_digest[2] = 0x98BADCFE; + m_digest[3] = 0x10325476; + m_digest[4] = 0xC3D2E1F0; } } diff --git a/src/lib/hash/rmd160/rmd160.h b/src/lib/hash/rmd160/rmd160.h index ad7182404..4ee6863de 100644 --- a/src/lib/hash/rmd160/rmd160.h +++ b/src/lib/hash/rmd160/rmd160.h @@ -24,13 +24,13 @@ class BOTAN_DLL RIPEMD_160 : public MDx_HashFunction void clear() override; - RIPEMD_160() : MDx_HashFunction(64, false, true), M(16), digest(5) + RIPEMD_160() : MDx_HashFunction(64, false, true), m_M(16), m_digest(5) { clear(); } private: void compress_n(const byte[], size_t blocks) override; void copy_out(byte[]) override; - secure_vector<u32bit> M, digest; + secure_vector<u32bit> m_M, m_digest; }; } diff --git a/src/lib/hash/sha1/sha160.cpp b/src/lib/hash/sha1/sha160.cpp index 39d14f486..21e87465a 100644 --- a/src/lib/hash/sha1/sha160.cpp +++ b/src/lib/hash/sha1/sha160.cpp @@ -60,74 +60,74 @@ void SHA_160::compress_n(const byte input[], size_t blocks) { using namespace SHA1_F; - u32bit A = digest[0], B = digest[1], C = digest[2], - D = digest[3], E = digest[4]; + u32bit A = m_digest[0], B = m_digest[1], C = m_digest[2], + D = m_digest[3], E = m_digest[4]; for(size_t i = 0; i != blocks; ++i) { - load_be(W.data(), input, 16); + load_be(m_W.data(), input, 16); for(size_t j = 16; j != 80; j += 8) { - W[j ] = rotate_left((W[j-3] ^ W[j-8] ^ W[j-14] ^ W[j-16]), 1); - W[j+1] = rotate_left((W[j-2] ^ W[j-7] ^ W[j-13] ^ W[j-15]), 1); - W[j+2] = rotate_left((W[j-1] ^ W[j-6] ^ W[j-12] ^ W[j-14]), 1); - W[j+3] = rotate_left((W[j ] ^ W[j-5] ^ W[j-11] ^ W[j-13]), 1); - W[j+4] = rotate_left((W[j+1] ^ W[j-4] ^ W[j-10] ^ W[j-12]), 1); - W[j+5] = rotate_left((W[j+2] ^ W[j-3] ^ W[j- 9] ^ W[j-11]), 1); - W[j+6] = rotate_left((W[j+3] ^ W[j-2] ^ W[j- 8] ^ W[j-10]), 1); - W[j+7] = rotate_left((W[j+4] ^ W[j-1] ^ W[j- 7] ^ W[j- 9]), 1); + m_W[j ] = rotate_left((m_W[j-3] ^ m_W[j-8] ^ m_W[j-14] ^ m_W[j-16]), 1); + m_W[j+1] = rotate_left((m_W[j-2] ^ m_W[j-7] ^ m_W[j-13] ^ m_W[j-15]), 1); + m_W[j+2] = rotate_left((m_W[j-1] ^ m_W[j-6] ^ m_W[j-12] ^ m_W[j-14]), 1); + m_W[j+3] = rotate_left((m_W[j ] ^ m_W[j-5] ^ m_W[j-11] ^ m_W[j-13]), 1); + m_W[j+4] = rotate_left((m_W[j+1] ^ m_W[j-4] ^ m_W[j-10] ^ m_W[j-12]), 1); + m_W[j+5] = rotate_left((m_W[j+2] ^ m_W[j-3] ^ m_W[j- 9] ^ m_W[j-11]), 1); + m_W[j+6] = rotate_left((m_W[j+3] ^ m_W[j-2] ^ m_W[j- 8] ^ m_W[j-10]), 1); + m_W[j+7] = rotate_left((m_W[j+4] ^ m_W[j-1] ^ m_W[j- 7] ^ m_W[j- 9]), 1); } - F1(A, B, C, D, E, W[ 0]); F1(E, A, B, C, D, W[ 1]); - F1(D, E, A, B, C, W[ 2]); F1(C, D, E, A, B, W[ 3]); - F1(B, C, D, E, A, W[ 4]); F1(A, B, C, D, E, W[ 5]); - F1(E, A, B, C, D, W[ 6]); F1(D, E, A, B, C, W[ 7]); - F1(C, D, E, A, B, W[ 8]); F1(B, C, D, E, A, W[ 9]); - F1(A, B, C, D, E, W[10]); F1(E, A, B, C, D, W[11]); - F1(D, E, A, B, C, W[12]); F1(C, D, E, A, B, W[13]); - F1(B, C, D, E, A, W[14]); F1(A, B, C, D, E, W[15]); - F1(E, A, B, C, D, W[16]); F1(D, E, A, B, C, W[17]); - F1(C, D, E, A, B, W[18]); F1(B, C, D, E, A, W[19]); - - F2(A, B, C, D, E, W[20]); F2(E, A, B, C, D, W[21]); - F2(D, E, A, B, C, W[22]); F2(C, D, E, A, B, W[23]); - F2(B, C, D, E, A, W[24]); F2(A, B, C, D, E, W[25]); - F2(E, A, B, C, D, W[26]); F2(D, E, A, B, C, W[27]); - F2(C, D, E, A, B, W[28]); F2(B, C, D, E, A, W[29]); - F2(A, B, C, D, E, W[30]); F2(E, A, B, C, D, W[31]); - F2(D, E, A, B, C, W[32]); F2(C, D, E, A, B, W[33]); - F2(B, C, D, E, A, W[34]); F2(A, B, C, D, E, W[35]); - F2(E, A, B, C, D, W[36]); F2(D, E, A, B, C, W[37]); - F2(C, D, E, A, B, W[38]); F2(B, C, D, E, A, W[39]); - - F3(A, B, C, D, E, W[40]); F3(E, A, B, C, D, W[41]); - F3(D, E, A, B, C, W[42]); F3(C, D, E, A, B, W[43]); - F3(B, C, D, E, A, W[44]); F3(A, B, C, D, E, W[45]); - F3(E, A, B, C, D, W[46]); F3(D, E, A, B, C, W[47]); - F3(C, D, E, A, B, W[48]); F3(B, C, D, E, A, W[49]); - F3(A, B, C, D, E, W[50]); F3(E, A, B, C, D, W[51]); - F3(D, E, A, B, C, W[52]); F3(C, D, E, A, B, W[53]); - F3(B, C, D, E, A, W[54]); F3(A, B, C, D, E, W[55]); - F3(E, A, B, C, D, W[56]); F3(D, E, A, B, C, W[57]); - F3(C, D, E, A, B, W[58]); F3(B, C, D, E, A, W[59]); - - F4(A, B, C, D, E, W[60]); F4(E, A, B, C, D, W[61]); - F4(D, E, A, B, C, W[62]); F4(C, D, E, A, B, W[63]); - F4(B, C, D, E, A, W[64]); F4(A, B, C, D, E, W[65]); - F4(E, A, B, C, D, W[66]); F4(D, E, A, B, C, W[67]); - F4(C, D, E, A, B, W[68]); F4(B, C, D, E, A, W[69]); - F4(A, B, C, D, E, W[70]); F4(E, A, B, C, D, W[71]); - F4(D, E, A, B, C, W[72]); F4(C, D, E, A, B, W[73]); - F4(B, C, D, E, A, W[74]); F4(A, B, C, D, E, W[75]); - F4(E, A, B, C, D, W[76]); F4(D, E, A, B, C, W[77]); - F4(C, D, E, A, B, W[78]); F4(B, C, D, E, A, W[79]); - - A = (digest[0] += A); - B = (digest[1] += B); - C = (digest[2] += C); - D = (digest[3] += D); - E = (digest[4] += E); + F1(A, B, C, D, E, m_W[ 0]); F1(E, A, B, C, D, m_W[ 1]); + F1(D, E, A, B, C, m_W[ 2]); F1(C, D, E, A, B, m_W[ 3]); + F1(B, C, D, E, A, m_W[ 4]); F1(A, B, C, D, E, m_W[ 5]); + F1(E, A, B, C, D, m_W[ 6]); F1(D, E, A, B, C, m_W[ 7]); + F1(C, D, E, A, B, m_W[ 8]); F1(B, C, D, E, A, m_W[ 9]); + F1(A, B, C, D, E, m_W[10]); F1(E, A, B, C, D, m_W[11]); + F1(D, E, A, B, C, m_W[12]); F1(C, D, E, A, B, m_W[13]); + F1(B, C, D, E, A, m_W[14]); F1(A, B, C, D, E, m_W[15]); + F1(E, A, B, C, D, m_W[16]); F1(D, E, A, B, C, m_W[17]); + F1(C, D, E, A, B, m_W[18]); F1(B, C, D, E, A, m_W[19]); + + F2(A, B, C, D, E, m_W[20]); F2(E, A, B, C, D, m_W[21]); + F2(D, E, A, B, C, m_W[22]); F2(C, D, E, A, B, m_W[23]); + F2(B, C, D, E, A, m_W[24]); F2(A, B, C, D, E, m_W[25]); + F2(E, A, B, C, D, m_W[26]); F2(D, E, A, B, C, m_W[27]); + F2(C, D, E, A, B, m_W[28]); F2(B, C, D, E, A, m_W[29]); + F2(A, B, C, D, E, m_W[30]); F2(E, A, B, C, D, m_W[31]); + F2(D, E, A, B, C, m_W[32]); F2(C, D, E, A, B, m_W[33]); + F2(B, C, D, E, A, m_W[34]); F2(A, B, C, D, E, m_W[35]); + F2(E, A, B, C, D, m_W[36]); F2(D, E, A, B, C, m_W[37]); + F2(C, D, E, A, B, m_W[38]); F2(B, C, D, E, A, m_W[39]); + + F3(A, B, C, D, E, m_W[40]); F3(E, A, B, C, D, m_W[41]); + F3(D, E, A, B, C, m_W[42]); F3(C, D, E, A, B, m_W[43]); + F3(B, C, D, E, A, m_W[44]); F3(A, B, C, D, E, m_W[45]); + F3(E, A, B, C, D, m_W[46]); F3(D, E, A, B, C, m_W[47]); + F3(C, D, E, A, B, m_W[48]); F3(B, C, D, E, A, m_W[49]); + F3(A, B, C, D, E, m_W[50]); F3(E, A, B, C, D, m_W[51]); + F3(D, E, A, B, C, m_W[52]); F3(C, D, E, A, B, m_W[53]); + F3(B, C, D, E, A, m_W[54]); F3(A, B, C, D, E, m_W[55]); + F3(E, A, B, C, D, m_W[56]); F3(D, E, A, B, C, m_W[57]); + F3(C, D, E, A, B, m_W[58]); F3(B, C, D, E, A, m_W[59]); + + F4(A, B, C, D, E, m_W[60]); F4(E, A, B, C, D, m_W[61]); + F4(D, E, A, B, C, m_W[62]); F4(C, D, E, A, B, m_W[63]); + F4(B, C, D, E, A, m_W[64]); F4(A, B, C, D, E, m_W[65]); + F4(E, A, B, C, D, m_W[66]); F4(D, E, A, B, C, m_W[67]); + F4(C, D, E, A, B, m_W[68]); F4(B, C, D, E, A, m_W[69]); + F4(A, B, C, D, E, m_W[70]); F4(E, A, B, C, D, m_W[71]); + F4(D, E, A, B, C, m_W[72]); F4(C, D, E, A, B, m_W[73]); + F4(B, C, D, E, A, m_W[74]); F4(A, B, C, D, E, m_W[75]); + F4(E, A, B, C, D, m_W[76]); F4(D, E, A, B, C, m_W[77]); + F4(C, D, E, A, B, m_W[78]); F4(B, C, D, E, A, m_W[79]); + + A = (m_digest[0] += A); + B = (m_digest[1] += B); + C = (m_digest[2] += C); + D = (m_digest[3] += D); + E = (m_digest[4] += E); input += hash_block_size(); } @@ -138,7 +138,7 @@ void SHA_160::compress_n(const byte input[], size_t blocks) */ void SHA_160::copy_out(byte output[]) { - copy_out_vec_be(output, output_length(), digest); + copy_out_vec_be(output, output_length(), m_digest); } /* @@ -147,12 +147,12 @@ void SHA_160::copy_out(byte output[]) void SHA_160::clear() { MDx_HashFunction::clear(); - zeroise(W); - digest[0] = 0x67452301; - digest[1] = 0xEFCDAB89; - digest[2] = 0x98BADCFE; - digest[3] = 0x10325476; - digest[4] = 0xC3D2E1F0; + zeroise(m_W); + m_digest[0] = 0x67452301; + m_digest[1] = 0xEFCDAB89; + m_digest[2] = 0x98BADCFE; + m_digest[3] = 0x10325476; + m_digest[4] = 0xC3D2E1F0; } } diff --git a/src/lib/hash/sha1/sha160.h b/src/lib/hash/sha1/sha160.h index 6328d74c4..2f5d9b16e 100644 --- a/src/lib/hash/sha1/sha160.h +++ b/src/lib/hash/sha1/sha160.h @@ -24,7 +24,7 @@ class BOTAN_DLL SHA_160 : public MDx_HashFunction void clear() override; - SHA_160() : MDx_HashFunction(64, true, true), digest(5), W(80) + SHA_160() : MDx_HashFunction(64, true, true), m_digest(5), m_W(80) { clear(); } @@ -36,7 +36,7 @@ class BOTAN_DLL SHA_160 : public MDx_HashFunction * @param W_size how big to make W */ SHA_160(size_t W_size) : - MDx_HashFunction(64, true, true), digest(5), W(W_size) + MDx_HashFunction(64, true, true), m_digest(5), m_W(W_size) { clear(); } @@ -47,12 +47,12 @@ class BOTAN_DLL SHA_160 : public MDx_HashFunction /** * The digest value, exposed for use by subclasses (asm, SSE2) */ - secure_vector<u32bit> digest; + secure_vector<u32bit> m_digest; /** * The message buffer, exposed for use by subclasses (asm, SSE2) */ - secure_vector<u32bit> W; + secure_vector<u32bit> m_W; }; } diff --git a/src/lib/hash/sha1_sse2/sha1_sse2.cpp b/src/lib/hash/sha1_sse2/sha1_sse2.cpp index 2e0688185..14ad88bc4 100644 --- a/src/lib/hash/sha1_sse2/sha1_sse2.cpp +++ b/src/lib/hash/sha1_sse2/sha1_sse2.cpp @@ -161,11 +161,11 @@ void SHA_160_SSE2::compress_n(const byte input_bytes[], size_t blocks) const __m128i K40_59 = _mm_set1_epi32(0x8F1BBCDC); const __m128i K60_79 = _mm_set1_epi32(0xCA62C1D6); - u32bit A = digest[0], - B = digest[1], - C = digest[2], - D = digest[3], - E = digest[4]; + u32bit A = m_digest[0], + B = m_digest[1], + C = m_digest[2], + D = m_digest[3], + E = m_digest[4]; const __m128i* input = reinterpret_cast<const __m128i*>(input_bytes); @@ -316,11 +316,11 @@ void SHA_160_SSE2::compress_n(const byte input_bytes[], size_t blocks) F4(C, D, E, A, B, GET_P_32(P3, 2)); F4(B, C, D, E, A, GET_P_32(P3, 3)); - A = (digest[0] += A); - B = (digest[1] += B); - C = (digest[2] += C); - D = (digest[3] += D); - E = (digest[4] += E); + A = (m_digest[0] += A); + B = (m_digest[1] += B); + C = (m_digest[2] += C); + D = (m_digest[3] += D); + E = (m_digest[4] += E); input += (hash_block_size() / 16); } diff --git a/src/lib/hash/sha2_32/sha2_32.cpp b/src/lib/hash/sha2_32/sha2_32.cpp index 5215164cf..46551431c 100644 --- a/src/lib/hash/sha2_32/sha2_32.cpp +++ b/src/lib/hash/sha2_32/sha2_32.cpp @@ -161,7 +161,7 @@ void compress(secure_vector<u32bit>& digest, */ void SHA_224::compress_n(const byte input[], size_t blocks) { - SHA2_32::compress(digest, input, blocks); + SHA2_32::compress(m_digest, input, blocks); } /* @@ -169,7 +169,7 @@ void SHA_224::compress_n(const byte input[], size_t blocks) */ void SHA_224::copy_out(byte output[]) { - copy_out_vec_be(output, output_length(), digest); + copy_out_vec_be(output, output_length(), m_digest); } /* @@ -178,14 +178,14 @@ void SHA_224::copy_out(byte output[]) void SHA_224::clear() { MDx_HashFunction::clear(); - digest[0] = 0xC1059ED8; - digest[1] = 0x367CD507; - digest[2] = 0x3070DD17; - digest[3] = 0xF70E5939; - digest[4] = 0xFFC00B31; - digest[5] = 0x68581511; - digest[6] = 0x64F98FA7; - digest[7] = 0xBEFA4FA4; + m_digest[0] = 0xC1059ED8; + m_digest[1] = 0x367CD507; + m_digest[2] = 0x3070DD17; + m_digest[3] = 0xF70E5939; + m_digest[4] = 0xFFC00B31; + m_digest[5] = 0x68581511; + m_digest[6] = 0x64F98FA7; + m_digest[7] = 0xBEFA4FA4; } /* @@ -193,7 +193,7 @@ void SHA_224::clear() */ void SHA_256::compress_n(const byte input[], size_t blocks) { - SHA2_32::compress(digest, input, blocks); + SHA2_32::compress(m_digest, input, blocks); } /* @@ -201,7 +201,7 @@ void SHA_256::compress_n(const byte input[], size_t blocks) */ void SHA_256::copy_out(byte output[]) { - copy_out_vec_be(output, output_length(), digest); + copy_out_vec_be(output, output_length(), m_digest); } /* @@ -210,14 +210,14 @@ void SHA_256::copy_out(byte output[]) void SHA_256::clear() { MDx_HashFunction::clear(); - digest[0] = 0x6A09E667; - digest[1] = 0xBB67AE85; - digest[2] = 0x3C6EF372; - digest[3] = 0xA54FF53A; - digest[4] = 0x510E527F; - digest[5] = 0x9B05688C; - digest[6] = 0x1F83D9AB; - digest[7] = 0x5BE0CD19; + m_digest[0] = 0x6A09E667; + m_digest[1] = 0xBB67AE85; + m_digest[2] = 0x3C6EF372; + m_digest[3] = 0xA54FF53A; + m_digest[4] = 0x510E527F; + m_digest[5] = 0x9B05688C; + m_digest[6] = 0x1F83D9AB; + m_digest[7] = 0x5BE0CD19; } } diff --git a/src/lib/hash/sha2_32/sha2_32.h b/src/lib/hash/sha2_32/sha2_32.h index e51087dc1..46d022ae8 100644 --- a/src/lib/hash/sha2_32/sha2_32.h +++ b/src/lib/hash/sha2_32/sha2_32.h @@ -25,13 +25,13 @@ class BOTAN_DLL SHA_224 : public MDx_HashFunction void clear() override; - SHA_224() : MDx_HashFunction(64, true, true), digest(8) + SHA_224() : MDx_HashFunction(64, true, true), m_digest(8) { clear(); } private: void compress_n(const byte[], size_t blocks) override; void copy_out(byte[]) override; - secure_vector<u32bit> digest; + secure_vector<u32bit> m_digest; }; /** @@ -46,13 +46,13 @@ class BOTAN_DLL SHA_256 : public MDx_HashFunction void clear() override; - SHA_256() : MDx_HashFunction(64, true, true), digest(8) + SHA_256() : MDx_HashFunction(64, true, true), m_digest(8) { clear(); } private: void compress_n(const byte[], size_t blocks) override; void copy_out(byte[]) override; - secure_vector<u32bit> digest; + secure_vector<u32bit> m_digest; }; } diff --git a/src/lib/hash/skein/skein_512.cpp b/src/lib/hash/skein/skein_512.cpp index fe95dd7a5..ad0817da7 100644 --- a/src/lib/hash/skein/skein_512.cpp +++ b/src/lib/hash/skein/skein_512.cpp @@ -19,12 +19,12 @@ Skein_512* Skein_512::make(const Spec& spec) Skein_512::Skein_512(size_t arg_output_bits, const std::string& arg_personalization) : - personalization(arg_personalization), - output_bits(arg_output_bits), + m_personalization(arg_personalization), + m_output_bits(arg_output_bits), m_threefish(new Threefish_512), - T(2), buffer(64), buf_pos(0) + m_T(2), m_buffer(64), m_buf_pos(0) { - if(output_bits == 0 || output_bits % 8 != 0 || output_bits > 512) + if(m_output_bits == 0 || m_output_bits % 8 != 0 || m_output_bits > 512) throw Invalid_Argument("Bad output bits size for Skein-512"); initial_block(); @@ -32,30 +32,30 @@ Skein_512::Skein_512(size_t arg_output_bits, std::string Skein_512::name() const { - if(personalization != "") - return "Skein-512(" + std::to_string(output_bits) + "," + - personalization + ")"; - return "Skein-512(" + std::to_string(output_bits) + ")"; + if(m_personalization != "") + return "Skein-512(" + std::to_string(m_output_bits) + "," + + m_personalization + ")"; + return "Skein-512(" + std::to_string(m_output_bits) + ")"; } HashFunction* Skein_512::clone() const { - return new Skein_512(output_bits, personalization); + return new Skein_512(m_output_bits, m_personalization); } void Skein_512::clear() { - zeroise(buffer); - buf_pos = 0; + zeroise(m_buffer); + m_buf_pos = 0; initial_block(); } void Skein_512::reset_tweak(type_code type, bool final) { - T[0] = 0; + m_T[0] = 0; - T[1] = (static_cast<u64bit>(type) << 56) | + m_T[1] = (static_cast<u64bit>(type) << 56) | (static_cast<u64bit>(1) << 62) | (static_cast<u64bit>(final) << 63); } @@ -68,24 +68,24 @@ void Skein_512::initial_block() // ASCII("SHA3") followed by version (0x0001) code byte config_str[32] = { 0x53, 0x48, 0x41, 0x33, 0x01, 0x00, 0 }; - store_le(u32bit(output_bits), config_str + 8); + store_le(u32bit(m_output_bits), config_str + 8); reset_tweak(SKEIN_CONFIG, true); ubi_512(config_str, sizeof(config_str)); - if(personalization != "") + if(m_personalization != "") { /* This is a limitation of this implementation, and not of the algorithm specification. Could be fixed relatively easily, but doesn't seem worth the trouble. */ - if(personalization.length() > 64) + if(m_personalization.length() > 64) throw Invalid_Argument("Skein personalization must be less than 64 bytes"); - const byte* bits = reinterpret_cast<const byte*>(personalization.data()); + const byte* bits = reinterpret_cast<const byte*>(m_personalization.data()); reset_tweak(SKEIN_PERSONALIZATION, true); - ubi_512(bits, personalization.length()); + ubi_512(bits, m_personalization.length()); } reset_tweak(SKEIN_MSG, false); @@ -98,7 +98,7 @@ void Skein_512::ubi_512(const byte msg[], size_t msg_len) do { const size_t to_proc = std::min<size_t>(msg_len, 64); - T[0] += to_proc; + m_T[0] += to_proc; load_le(M.data(), msg, to_proc / 8); @@ -108,10 +108,10 @@ void Skein_512::ubi_512(const byte msg[], size_t msg_len) M[to_proc/8] |= static_cast<u64bit>(msg[8*(to_proc/8)+j]) << (8*j); } - m_threefish->skein_feedfwd(M, T); + m_threefish->skein_feedfwd(M, m_T); // clear first flag if set - T[1] &= ~(static_cast<u64bit>(1) << 62); + m_T[1] &= ~(static_cast<u64bit>(1) << 62); msg_len -= to_proc; msg += to_proc; @@ -123,16 +123,16 @@ void Skein_512::add_data(const byte input[], size_t length) if(length == 0) return; - if(buf_pos) + if(m_buf_pos) { - buffer_insert(buffer, buf_pos, input, length); - if(buf_pos + length > 64) + buffer_insert(m_buffer, m_buf_pos, input, length); + if(m_buf_pos + length > 64) { - ubi_512(buffer.data(), buffer.size()); + ubi_512(m_buffer.data(), m_buffer.size()); - input += (64 - buf_pos); - length -= (64 - buf_pos); - buf_pos = 0; + input += (64 - m_buf_pos); + length -= (64 - m_buf_pos); + m_buf_pos = 0; } } @@ -143,27 +143,27 @@ void Skein_512::add_data(const byte input[], size_t length) length -= full_blocks * 64; - buffer_insert(buffer, buf_pos, input + full_blocks * 64, length); - buf_pos += length; + buffer_insert(m_buffer, m_buf_pos, input + full_blocks * 64, length); + m_buf_pos += length; } void Skein_512::final_result(byte out[]) { - T[1] |= (static_cast<u64bit>(1) << 63); // final block flag + m_T[1] |= (static_cast<u64bit>(1) << 63); // final block flag - for(size_t i = buf_pos; i != buffer.size(); ++i) - buffer[i] = 0; + for(size_t i = m_buf_pos; i != m_buffer.size(); ++i) + m_buffer[i] = 0; - ubi_512(buffer.data(), buf_pos); + ubi_512(m_buffer.data(), m_buf_pos); const byte counter[8] = { 0 }; reset_tweak(SKEIN_OUTPUT, true); ubi_512(counter, sizeof(counter)); - copy_out_vec_le(out, output_bits / 8, m_threefish->m_K); + copy_out_vec_le(out, m_output_bits / 8, m_threefish->m_K); - buf_pos = 0; + m_buf_pos = 0; initial_block(); } diff --git a/src/lib/hash/skein/skein_512.h b/src/lib/hash/skein/skein_512.h index dceb34854..9d3c69fb2 100644 --- a/src/lib/hash/skein/skein_512.h +++ b/src/lib/hash/skein/skein_512.h @@ -30,7 +30,7 @@ class BOTAN_DLL Skein_512 : public HashFunction const std::string& personalization = ""); size_t hash_block_size() const override { return 64; } - size_t output_length() const override { return output_bits / 8; } + size_t output_length() const override { return m_output_bits / 8; } static Skein_512* make(const Spec& spec); @@ -57,13 +57,13 @@ class BOTAN_DLL Skein_512 : public HashFunction void initial_block(); void reset_tweak(type_code type, bool final); - std::string personalization; - size_t output_bits; + std::string m_personalization; + size_t m_output_bits; std::unique_ptr<Threefish_512> m_threefish; - secure_vector<u64bit> T; - secure_vector<byte> buffer; - size_t buf_pos; + secure_vector<u64bit> m_T; + secure_vector<byte> m_buffer; + size_t m_buf_pos; }; } diff --git a/src/lib/hash/tiger/tiger.cpp b/src/lib/hash/tiger/tiger.cpp index 79708a902..1da38291c 100644 --- a/src/lib/hash/tiger/tiger.cpp +++ b/src/lib/hash/tiger/tiger.cpp @@ -44,26 +44,26 @@ inline void mix(secure_vector<u64bit>& X) */ void Tiger::compress_n(const byte input[], size_t blocks) { - u64bit A = digest[0], B = digest[1], C = digest[2]; + u64bit A = m_digest[0], B = m_digest[1], C = m_digest[2]; for(size_t i = 0; i != blocks; ++i) { - load_le(X.data(), input, X.size()); + load_le(m_X.data(), input, m_X.size()); - pass(A, B, C, X, 5); mix(X); - pass(C, A, B, X, 7); mix(X); - pass(B, C, A, X, 9); + pass(A, B, C, m_X, 5); mix(m_X); + pass(C, A, B, m_X, 7); mix(m_X); + pass(B, C, A, m_X, 9); - for(size_t j = 3; j != passes; ++j) + for(size_t j = 3; j != m_passes; ++j) { - mix(X); - pass(A, B, C, X, 9); + mix(m_X); + pass(A, B, C, m_X, 9); u64bit T = A; A = C; C = B; B = T; } - A = (digest[0] ^= A); - B = digest[1] = B - digest[1]; - C = (digest[2] += C); + A = (m_digest[0] ^= A); + B = m_digest[1] = B - m_digest[1]; + C = (m_digest[2] += C); input += hash_block_size(); } @@ -74,7 +74,7 @@ void Tiger::compress_n(const byte input[], size_t blocks) */ void Tiger::copy_out(byte output[]) { - copy_out_vec_le(output, output_length(), digest); + copy_out_vec_le(output, output_length(), m_digest); } /* @@ -147,10 +147,10 @@ void Tiger::pass(u64bit& A, u64bit& B, u64bit& C, void Tiger::clear() { MDx_HashFunction::clear(); - zeroise(X); - digest[0] = 0x0123456789ABCDEF; - digest[1] = 0xFEDCBA9876543210; - digest[2] = 0xF096A5B4C3B2E187; + zeroise(m_X); + m_digest[0] = 0x0123456789ABCDEF; + m_digest[1] = 0xFEDCBA9876543210; + m_digest[2] = 0xF096A5B4C3B2E187; } /* @@ -159,7 +159,7 @@ void Tiger::clear() std::string Tiger::name() const { return "Tiger(" + std::to_string(output_length()) + "," + - std::to_string(passes) + ")"; + std::to_string(m_passes) + ")"; } /* @@ -167,10 +167,10 @@ std::string Tiger::name() const */ Tiger::Tiger(size_t hash_len, size_t passes) : MDx_HashFunction(64, false, false), - X(8), - digest(3), - hash_len(hash_len), - passes(passes) + m_X(8), + m_digest(3), + m_hash_len(hash_len), + m_passes(passes) { if(output_length() != 16 && output_length() != 20 && output_length() != 24) throw Invalid_Argument("Tiger: Illegal hash output size: " + diff --git a/src/lib/hash/tiger/tiger.h b/src/lib/hash/tiger/tiger.h index 986186dda..6634b544f 100644 --- a/src/lib/hash/tiger/tiger.h +++ b/src/lib/hash/tiger/tiger.h @@ -19,11 +19,11 @@ class BOTAN_DLL Tiger : public MDx_HashFunction { public: std::string name() const override; - size_t output_length() const override { return hash_len; } + size_t output_length() const override { return m_hash_len; } HashFunction* clone() const override { - return new Tiger(output_length(), passes); + return new Tiger(output_length(), m_passes); } void clear() override; @@ -46,8 +46,8 @@ class BOTAN_DLL Tiger : public MDx_HashFunction static const u64bit SBOX3[256]; static const u64bit SBOX4[256]; - secure_vector<u64bit> X, digest; - const size_t hash_len, passes; + secure_vector<u64bit> m_X, m_digest; + const size_t m_hash_len, m_passes; }; } diff --git a/src/lib/hash/whirlpool/whirlpool.cpp b/src/lib/hash/whirlpool/whirlpool.cpp index 9bebdfa7c..5bf4c5246 100644 --- a/src/lib/hash/whirlpool/whirlpool.cpp +++ b/src/lib/hash/whirlpool/whirlpool.cpp @@ -24,15 +24,15 @@ void Whirlpool::compress_n(const byte in[], size_t blocks) for(size_t i = 0; i != blocks; ++i) { - load_be(M.data(), in, M.size()); + load_be(m_M.data(), in, m_M.size()); u64bit K0, K1, K2, K3, K4, K5, K6, K7; - K0 = digest[0]; K1 = digest[1]; K2 = digest[2]; K3 = digest[3]; - K4 = digest[4]; K5 = digest[5]; K6 = digest[6]; K7 = digest[7]; + K0 = m_digest[0]; K1 = m_digest[1]; K2 = m_digest[2]; K3 = m_digest[3]; + K4 = m_digest[4]; K5 = m_digest[5]; K6 = m_digest[6]; K7 = m_digest[7]; u64bit B0, B1, B2, B3, B4, B5, B6, B7; - B0 = K0 ^ M[0]; B1 = K1 ^ M[1]; B2 = K2 ^ M[2]; B3 = K3 ^ M[3]; - B4 = K4 ^ M[4]; B5 = K5 ^ M[5]; B6 = K6 ^ M[6]; B7 = K7 ^ M[7]; + B0 = K0 ^ m_M[0]; B1 = K1 ^ m_M[1]; B2 = K2 ^ m_M[2]; B3 = K3 ^ m_M[3]; + B4 = K4 ^ m_M[4]; B5 = K5 ^ m_M[5]; B6 = K6 ^ m_M[6]; B7 = K7 ^ m_M[7]; for(size_t j = 0; j != 10; ++j) { @@ -110,14 +110,14 @@ void Whirlpool::compress_n(const byte in[], size_t blocks) B4 = T4; B5 = T5; B6 = T6; B7 = T7; } - digest[0] ^= B0 ^ M[0]; - digest[1] ^= B1 ^ M[1]; - digest[2] ^= B2 ^ M[2]; - digest[3] ^= B3 ^ M[3]; - digest[4] ^= B4 ^ M[4]; - digest[5] ^= B5 ^ M[5]; - digest[6] ^= B6 ^ M[6]; - digest[7] ^= B7 ^ M[7]; + m_digest[0] ^= B0 ^ m_M[0]; + m_digest[1] ^= B1 ^ m_M[1]; + m_digest[2] ^= B2 ^ m_M[2]; + m_digest[3] ^= B3 ^ m_M[3]; + m_digest[4] ^= B4 ^ m_M[4]; + m_digest[5] ^= B5 ^ m_M[5]; + m_digest[6] ^= B6 ^ m_M[6]; + m_digest[7] ^= B7 ^ m_M[7]; in += hash_block_size(); } @@ -128,7 +128,7 @@ void Whirlpool::compress_n(const byte in[], size_t blocks) */ void Whirlpool::copy_out(byte output[]) { - copy_out_vec_be(output, output_length(), digest); + copy_out_vec_be(output, output_length(), m_digest); } /* @@ -137,8 +137,8 @@ void Whirlpool::copy_out(byte output[]) void Whirlpool::clear() { MDx_HashFunction::clear(); - zeroise(M); - zeroise(digest); + zeroise(m_M); + zeroise(m_digest); } } diff --git a/src/lib/hash/whirlpool/whrlpool.h b/src/lib/hash/whirlpool/whrlpool.h index ba91da080..c59d16cda 100644 --- a/src/lib/hash/whirlpool/whrlpool.h +++ b/src/lib/hash/whirlpool/whrlpool.h @@ -24,7 +24,7 @@ class BOTAN_DLL Whirlpool : public MDx_HashFunction void clear() override; - Whirlpool() : MDx_HashFunction(64, true, true, 32), M(8), digest(8) + Whirlpool() : MDx_HashFunction(64, true, true, 32), m_M(8), m_digest(8) { clear(); } private: void compress_n(const byte[], size_t blocks) override; @@ -39,7 +39,7 @@ class BOTAN_DLL Whirlpool : public MDx_HashFunction static const u64bit C6[256]; static const u64bit C7[256]; - secure_vector<u64bit> M, digest; + secure_vector<u64bit> m_M, m_digest; }; } diff --git a/src/lib/math/numbertheory/def_powm.h b/src/lib/math/numbertheory/def_powm.h index ef5d6e39b..d60ca8173 100644 --- a/src/lib/math/numbertheory/def_powm.h +++ b/src/lib/math/numbertheory/def_powm.h @@ -29,11 +29,11 @@ class Fixed_Window_Exponentiator : public Modular_Exponentiator Fixed_Window_Exponentiator(const BigInt&, Power_Mod::Usage_Hints); private: - Modular_Reducer reducer; - BigInt exp; - size_t window_bits; - std::vector<BigInt> g; - Power_Mod::Usage_Hints hints; + Modular_Reducer m_reducer; + BigInt m_exp; + size_t m_window_bits; + std::vector<BigInt> m_g; + Power_Mod::Usage_Hints m_hints; }; /** diff --git a/src/lib/math/numbertheory/dsa_gen.cpp b/src/lib/math/numbertheory/dsa_gen.cpp index 60151355a..1f922fd49 100644 --- a/src/lib/math/numbertheory/dsa_gen.cpp +++ b/src/lib/math/numbertheory/dsa_gen.cpp @@ -61,19 +61,19 @@ bool generate_dsa_primes(RandomNumberGenerator& rng, class Seed { public: - Seed(const std::vector<byte>& s) : seed(s) {} + Seed(const std::vector<byte>& s) : m_seed(s) {} - operator std::vector<byte>& () { return seed; } + operator std::vector<byte>& () { return m_seed; } Seed& operator++() { - for(size_t j = seed.size(); j > 0; --j) - if(++seed[j-1]) + for(size_t j = m_seed.size(); j > 0; --j) + if(++m_seed[j-1]) break; return (*this); } private: - std::vector<byte> seed; + std::vector<byte> m_seed; }; Seed seed(seed_c); diff --git a/src/lib/math/numbertheory/powm_fw.cpp b/src/lib/math/numbertheory/powm_fw.cpp index 14474104e..02e9bbe83 100644 --- a/src/lib/math/numbertheory/powm_fw.cpp +++ b/src/lib/math/numbertheory/powm_fw.cpp @@ -16,7 +16,7 @@ namespace Botan { */ void Fixed_Window_Exponentiator::set_exponent(const BigInt& e) { - exp = e; + m_exp = e; } /* @@ -24,14 +24,14 @@ void Fixed_Window_Exponentiator::set_exponent(const BigInt& e) */ void Fixed_Window_Exponentiator::set_base(const BigInt& base) { - window_bits = Power_Mod::window_bits(exp.bits(), base.bits(), hints); + m_window_bits = Power_Mod::window_bits(m_exp.bits(), base.bits(), m_hints); - g.resize((1 << window_bits)); - g[0] = 1; - g[1] = base; + m_g.resize((1 << m_window_bits)); + m_g[0] = 1; + m_g[1] = base; - for(size_t i = 2; i != g.size(); ++i) - g[i] = reducer.multiply(g[i-1], g[0]); + for(size_t i = 2; i != m_g.size(); ++i) + m_g[i] = m_reducer.multiply(m_g[i-1], m_g[0]); } /* @@ -39,18 +39,18 @@ void Fixed_Window_Exponentiator::set_base(const BigInt& base) */ BigInt Fixed_Window_Exponentiator::execute() const { - const size_t exp_nibbles = (exp.bits() + window_bits - 1) / window_bits; + const size_t exp_nibbles = (m_exp.bits() + m_window_bits - 1) / m_window_bits; BigInt x = 1; for(size_t i = exp_nibbles; i > 0; --i) { - for(size_t j = 0; j != window_bits; ++j) - x = reducer.square(x); + for(size_t j = 0; j != m_window_bits; ++j) + x = m_reducer.square(x); - const u32bit nibble = exp.get_substring(window_bits*(i-1), window_bits); + const u32bit nibble = m_exp.get_substring(m_window_bits*(i-1), m_window_bits); - x = reducer.multiply(x, g[nibble]); + x = m_reducer.multiply(x, m_g[nibble]); } return x; } @@ -61,9 +61,9 @@ BigInt Fixed_Window_Exponentiator::execute() const Fixed_Window_Exponentiator::Fixed_Window_Exponentiator(const BigInt& n, Power_Mod::Usage_Hints hints) { - reducer = Modular_Reducer(n); - this->hints = hints; - window_bits = 0; + m_reducer = Modular_Reducer(n); + m_hints = hints; + m_window_bits = 0; } } diff --git a/src/lib/math/numbertheory/reducer.cpp b/src/lib/math/numbertheory/reducer.cpp index 332895d63..d5f1666e1 100644 --- a/src/lib/math/numbertheory/reducer.cpp +++ b/src/lib/math/numbertheory/reducer.cpp @@ -18,12 +18,12 @@ Modular_Reducer::Modular_Reducer(const BigInt& mod) if(mod <= 0) throw Invalid_Argument("Modular_Reducer: modulus must be positive"); - modulus = mod; - mod_words = modulus.sig_words(); + m_modulus = mod; + m_mod_words = m_modulus.sig_words(); - modulus_2 = Botan::square(modulus); + m_modulus_2 = Botan::square(m_modulus); - mu = BigInt::power_of_2(2 * MP_WORD_BITS * mod_words) / modulus; + m_mu = BigInt::power_of_2(2 * MP_WORD_BITS * m_mod_words) / m_modulus; } /* @@ -31,50 +31,50 @@ Modular_Reducer::Modular_Reducer(const BigInt& mod) */ BigInt Modular_Reducer::reduce(const BigInt& x) const { - if(mod_words == 0) + if(m_mod_words == 0) throw Invalid_State("Modular_Reducer: Never initalized"); - if(x.cmp(modulus, false) < 0) + if(x.cmp(m_modulus, false) < 0) { if(x.is_negative()) - return x + modulus; // make positive + return x + m_modulus; // make positive return x; } - else if(x.cmp(modulus_2, false) < 0) + else if(x.cmp(m_modulus_2, false) < 0) { BigInt t1 = x; t1.set_sign(BigInt::Positive); - t1 >>= (MP_WORD_BITS * (mod_words - 1)); - t1 *= mu; + t1 >>= (MP_WORD_BITS * (m_mod_words - 1)); + t1 *= m_mu; - t1 >>= (MP_WORD_BITS * (mod_words + 1)); - t1 *= modulus; + t1 >>= (MP_WORD_BITS * (m_mod_words + 1)); + t1 *= m_modulus; - t1.mask_bits(MP_WORD_BITS * (mod_words + 1)); + t1.mask_bits(MP_WORD_BITS * (m_mod_words + 1)); BigInt t2 = x; t2.set_sign(BigInt::Positive); - t2.mask_bits(MP_WORD_BITS * (mod_words + 1)); + t2.mask_bits(MP_WORD_BITS * (m_mod_words + 1)); t2 -= t1; if(t2.is_negative()) { - t2 += BigInt::power_of_2(MP_WORD_BITS * (mod_words + 1)); + t2 += BigInt::power_of_2(MP_WORD_BITS * (m_mod_words + 1)); } - while(t2 >= modulus) - t2 -= modulus; + while(t2 >= m_modulus) + t2 -= m_modulus; if(x.is_positive()) return t2; else - return (modulus - t2); + return (m_modulus - t2); } else { // too big, fall back to normal division - return (x % modulus); + return (x % m_modulus); } } diff --git a/src/lib/math/numbertheory/reducer.h b/src/lib/math/numbertheory/reducer.h index b45e0e186..248de3e2f 100644 --- a/src/lib/math/numbertheory/reducer.h +++ b/src/lib/math/numbertheory/reducer.h @@ -18,7 +18,7 @@ namespace Botan { class BOTAN_DLL Modular_Reducer { public: - const BigInt& get_modulus() const { return modulus; } + const BigInt& get_modulus() const { return m_modulus; } BigInt reduce(const BigInt& x) const; @@ -47,13 +47,13 @@ class BOTAN_DLL Modular_Reducer BigInt cube(const BigInt& x) const { return multiply(x, this->square(x)); } - bool initialized() const { return (mod_words != 0); } + bool initialized() const { return (m_mod_words != 0); } - Modular_Reducer() { mod_words = 0; } + Modular_Reducer() { m_mod_words = 0; } Modular_Reducer(const BigInt& mod); private: - BigInt modulus, modulus_2, mu; - size_t mod_words; + BigInt m_modulus, m_modulus_2, m_mu; + size_t m_mod_words; }; } diff --git a/src/lib/misc/fpe_fe1/fpe_fe1.cpp b/src/lib/misc/fpe_fe1/fpe_fe1.cpp index 197dbb21a..c59e41e78 100644 --- a/src/lib/misc/fpe_fe1/fpe_fe1.cpp +++ b/src/lib/misc/fpe_fe1/fpe_fe1.cpp @@ -85,42 +85,42 @@ class FPE_Encryptor BigInt operator()(size_t i, const BigInt& R); private: - std::unique_ptr<MessageAuthenticationCode> mac; - std::vector<byte> mac_n_t; + std::unique_ptr<MessageAuthenticationCode> m_mac; + std::vector<byte> m_mac_n_t; }; FPE_Encryptor::FPE_Encryptor(const SymmetricKey& key, const BigInt& n, const std::vector<byte>& tweak) { - mac.reset(new HMAC(new SHA_256)); - mac->set_key(key); + m_mac.reset(new HMAC(new SHA_256)); + m_mac->set_key(key); std::vector<byte> n_bin = BigInt::encode(n); if(n_bin.size() > MAX_N_BYTES) throw Exception("N is too large for FPE encryption"); - mac->update_be(static_cast<u32bit>(n_bin.size())); - mac->update(n_bin.data(), n_bin.size()); + m_mac->update_be(static_cast<u32bit>(n_bin.size())); + m_mac->update(n_bin.data(), n_bin.size()); - mac->update_be(static_cast<u32bit>(tweak.size())); - mac->update(tweak.data(), tweak.size()); + m_mac->update_be(static_cast<u32bit>(tweak.size())); + m_mac->update(tweak.data(), tweak.size()); - mac_n_t = unlock(mac->final()); + m_mac_n_t = unlock(m_mac->final()); } BigInt FPE_Encryptor::operator()(size_t round_no, const BigInt& R) { secure_vector<byte> r_bin = BigInt::encode_locked(R); - mac->update(mac_n_t); - mac->update_be(static_cast<u32bit>(round_no)); + m_mac->update(m_mac_n_t); + m_mac->update_be(static_cast<u32bit>(round_no)); - mac->update_be(static_cast<u32bit>(r_bin.size())); - mac->update(r_bin.data(), r_bin.size()); + m_mac->update_be(static_cast<u32bit>(r_bin.size())); + m_mac->update(r_bin.data(), r_bin.size()); - secure_vector<byte> X = mac->final(); + secure_vector<byte> X = m_mac->final(); return BigInt(X.data(), X.size()); } diff --git a/src/lib/misc/srp6/srp6_files.cpp b/src/lib/misc/srp6/srp6_files.cpp index c028767ad..14ab1ac61 100644 --- a/src/lib/misc/srp6/srp6_files.cpp +++ b/src/lib/misc/srp6/srp6_files.cpp @@ -45,7 +45,7 @@ SRP6_Authenticator_File::SRP6_Authenticator_File(const std::string& filename) else continue; // unknown group, ignored - entries[username] = SRP6_Data(v, salt, group_id); + m_entries[username] = SRP6_Data(v, salt, group_id); } } @@ -54,9 +54,9 @@ bool SRP6_Authenticator_File::lookup_user(const std::string& username, std::vector<byte>& salt, std::string& group_id) const { - std::map<std::string, SRP6_Data>::const_iterator i = entries.find(username); + std::map<std::string, SRP6_Data>::const_iterator i = m_entries.find(username); - if(i == entries.end()) + if(i == m_entries.end()) return false; v = i->second.v; diff --git a/src/lib/misc/srp6/srp6_files.h b/src/lib/misc/srp6/srp6_files.h index 45c3b0bfe..a3b979b87 100644 --- a/src/lib/misc/srp6/srp6_files.h +++ b/src/lib/misc/srp6/srp6_files.h @@ -40,12 +40,17 @@ class BOTAN_DLL SRP6_Authenticator_File const std::string& group_id) : v(v), salt(salt), group_id(group_id) {} + // public member variable: BigInt v; + + // public member variable: std::vector<byte> salt; + + // public member variable: std::string group_id; }; - std::map<std::string, SRP6_Data> entries; + std::map<std::string, SRP6_Data> m_entries; }; } diff --git a/src/lib/misc/tss/tss.cpp b/src/lib/misc/tss/tss.cpp index 6904f9f0a..e1727dc33 100644 --- a/src/lib/misc/tss/tss.cpp +++ b/src/lib/misc/tss/tss.cpp @@ -105,7 +105,7 @@ HashFunction* get_rtss_hash_by_id(byte id) RTSS_Share::RTSS_Share(const std::string& hex_input) { - contents = hex_decode_locked(hex_input); + m_contents = hex_decode_locked(hex_input); } byte RTSS_Share::share_id() const @@ -113,12 +113,12 @@ byte RTSS_Share::share_id() const if(!initialized()) throw Invalid_State("RTSS_Share::share_id not initialized"); - return contents[20]; + return m_contents[20]; } std::string RTSS_Share::to_string() const { - return hex_encode(contents.data(), contents.size()); + return hex_encode(m_contents.data(), m_contents.size()); } std::vector<RTSS_Share> @@ -137,16 +137,16 @@ RTSS_Share::split(byte M, byte N, // Create RTSS header in each share for(byte i = 0; i != N; ++i) { - shares[i].contents += std::make_pair(identifier, 16); - shares[i].contents += rtss_hash_id(hash.name()); - shares[i].contents += M; - shares[i].contents += get_byte(0, S_len); - shares[i].contents += get_byte(1, S_len); + shares[i].m_contents += std::make_pair(identifier, 16); + shares[i].m_contents += rtss_hash_id(hash.name()); + shares[i].m_contents += M; + shares[i].m_contents += get_byte(0, S_len); + shares[i].m_contents += get_byte(1, S_len); } // Choose sequential values for X starting from 1 for(byte i = 0; i != N; ++i) - shares[i].contents.push_back(i+1); + shares[i].m_contents.push_back(i+1); // secret = S || H(S) secure_vector<byte> secret(S, S + S_len); @@ -170,7 +170,7 @@ RTSS_Share::split(byte M, byte N, X_i = gfp_mul(X_i, X); } - shares[j].contents.push_back(sum); + shares[j].m_contents.push_back(sum); } } @@ -191,18 +191,18 @@ RTSS_Share::reconstruct(const std::vector<RTSS_Share>& shares) if(shares[i].size() < RTSS_HEADER_SIZE) throw Decoding_Error("Missing or malformed RTSS header"); - if(!same_mem(&shares[0].contents[0], - &shares[i].contents[0], RTSS_HEADER_SIZE)) + if(!same_mem(&shares[0].m_contents[0], + &shares[i].m_contents[0], RTSS_HEADER_SIZE)) throw Decoding_Error("Different RTSS headers detected"); } - if(shares.size() < shares[0].contents[17]) + if(shares.size() < shares[0].m_contents[17]) throw Decoding_Error("Insufficient shares to do TSS reconstruction"); - u16bit secret_len = make_u16bit(shares[0].contents[18], - shares[0].contents[19]); + u16bit secret_len = make_u16bit(shares[0].m_contents[18], + shares[0].m_contents[19]); - byte hash_id = shares[0].contents[16]; + byte hash_id = shares[0].m_contents[16]; std::unique_ptr<HashFunction> hash(get_rtss_hash_by_id(hash_id)); @@ -215,7 +215,7 @@ RTSS_Share::reconstruct(const std::vector<RTSS_Share>& shares) for(size_t i = RTSS_HEADER_SIZE + 1; i != shares[0].size(); ++i) { for(size_t j = 0; j != V.size(); ++j) - V[j] = shares[j].contents[i]; + V[j] = shares[j].m_contents[i]; byte r = 0; for(size_t k = 0; k != shares.size(); ++k) diff --git a/src/lib/misc/tss/tss.h b/src/lib/misc/tss/tss.h index 09a5dbe19..68eb5158f 100644 --- a/src/lib/misc/tss/tss.h +++ b/src/lib/misc/tss/tss.h @@ -61,14 +61,14 @@ class BOTAN_DLL RTSS_Share /** * @return size of this share in bytes */ - size_t size() const { return contents.size(); } + size_t size() const { return m_contents.size(); } /** * @return if this TSS share was initialized or not */ - bool initialized() const { return (contents.size() > 0); } + bool initialized() const { return (m_contents.size() > 0); } private: - secure_vector<byte> contents; + secure_vector<byte> m_contents; }; } diff --git a/src/lib/modes/aead/gcm/gcm.cpp b/src/lib/modes/aead/gcm/gcm.cpp index a77c3e4d4..1dc5efe4f 100644 --- a/src/lib/modes/aead/gcm/gcm.cpp +++ b/src/lib/modes/aead/gcm/gcm.cpp @@ -162,7 +162,7 @@ GCM_Mode::GCM_Mode(BlockCipher* cipher, size_t tag_size) : m_tag_size(tag_size), m_cipher_name(cipher->name()) { - if(cipher->block_size() != BS) + if(cipher->block_size() != m_BS) throw Invalid_Argument("GCM requires a 128 bit cipher so cannot be used with " + cipher->name()); @@ -187,7 +187,7 @@ std::string GCM_Mode::name() const size_t GCM_Mode::update_granularity() const { - return BS; + return m_BS; } Key_Length_Specification GCM_Mode::key_spec() const @@ -199,10 +199,10 @@ void GCM_Mode::key_schedule(const byte key[], size_t keylen) { m_ctr->set_key(key, keylen); - const std::vector<byte> zeros(BS); + const std::vector<byte> zeros(m_BS); m_ctr->set_iv(zeros.data(), zeros.size()); - secure_vector<byte> H(BS); + secure_vector<byte> H(m_BS); m_ctr->encipher(H); m_ghash->set_key(H); } @@ -217,7 +217,7 @@ secure_vector<byte> GCM_Mode::start_raw(const byte nonce[], size_t nonce_len) if(!valid_nonce_length(nonce_len)) throw Invalid_IV_Length(name(), nonce_len); - secure_vector<byte> y0(BS); + secure_vector<byte> y0(m_BS); if(nonce_len == 12) { @@ -231,7 +231,7 @@ secure_vector<byte> GCM_Mode::start_raw(const byte nonce[], size_t nonce_len) m_ctr->set_iv(y0.data(), y0.size()); - secure_vector<byte> m_enc_y0(BS); + secure_vector<byte> m_enc_y0(m_BS); m_ctr->encipher(m_enc_y0); m_ghash->start(m_enc_y0.data(), m_enc_y0.size()); diff --git a/src/lib/modes/aead/gcm/gcm.h b/src/lib/modes/aead/gcm/gcm.h index 8e7ae8b7f..88afbb43c 100644 --- a/src/lib/modes/aead/gcm/gcm.h +++ b/src/lib/modes/aead/gcm/gcm.h @@ -39,7 +39,7 @@ class BOTAN_DLL GCM_Mode : public AEAD_Mode protected: GCM_Mode(BlockCipher* cipher, size_t tag_size); - const size_t BS = 16; + const size_t m_BS = 16; const size_t m_tag_size; const std::string m_cipher_name; diff --git a/src/lib/pbkdf/pbkdf2/pbkdf2.cpp b/src/lib/pbkdf/pbkdf2/pbkdf2.cpp index 30cf7cbdf..94c587f05 100644 --- a/src/lib/pbkdf/pbkdf2/pbkdf2.cpp +++ b/src/lib/pbkdf/pbkdf2/pbkdf2.cpp @@ -122,7 +122,7 @@ PKCS5_PBKDF2::pbkdf(byte key[], size_t key_len, size_t iterations, std::chrono::milliseconds msec) const { - return pbkdf2(*mac.get(), key, key_len, passphrase, salt, salt_len, iterations, msec); + return pbkdf2(*m_mac.get(), key, key_len, passphrase, salt, salt_len, iterations, msec); } diff --git a/src/lib/pbkdf/pbkdf2/pbkdf2.h b/src/lib/pbkdf/pbkdf2/pbkdf2.h index d74410b89..5a03e9ff5 100644 --- a/src/lib/pbkdf/pbkdf2/pbkdf2.h +++ b/src/lib/pbkdf/pbkdf2/pbkdf2.h @@ -30,12 +30,12 @@ class BOTAN_DLL PKCS5_PBKDF2 : public PBKDF public: std::string name() const override { - return "PBKDF2(" + mac->name() + ")"; + return "PBKDF2(" + m_mac->name() + ")"; } PBKDF* clone() const override { - return new PKCS5_PBKDF2(mac->clone()); + return new PKCS5_PBKDF2(m_mac->clone()); } size_t pbkdf(byte output_buf[], size_t output_len, @@ -48,11 +48,11 @@ class BOTAN_DLL PKCS5_PBKDF2 : public PBKDF * Create a PKCS #5 instance using the specified message auth code * @param mac_fn the MAC object to use as PRF */ - PKCS5_PBKDF2(MessageAuthenticationCode* mac_fn) : mac(mac_fn) {} + PKCS5_PBKDF2(MessageAuthenticationCode* mac_fn) : m_mac(mac_fn) {} static PKCS5_PBKDF2* make(const Spec& spec); private: - std::unique_ptr<MessageAuthenticationCode> mac; + std::unique_ptr<MessageAuthenticationCode> m_mac; }; } diff --git a/src/lib/pk_pad/emsa_pkcs1/emsa_pkcs1.cpp b/src/lib/pk_pad/emsa_pkcs1/emsa_pkcs1.cpp index 940f91c9a..e990ef8af 100644 --- a/src/lib/pk_pad/emsa_pkcs1/emsa_pkcs1.cpp +++ b/src/lib/pk_pad/emsa_pkcs1/emsa_pkcs1.cpp @@ -93,13 +93,13 @@ EMSA_PKCS1v15::EMSA_PKCS1v15(HashFunction* hash) : m_hash(hash) void EMSA_PKCS1v15_Raw::update(const byte input[], size_t length) { - message += std::make_pair(input, length); + m_message += std::make_pair(input, length); } secure_vector<byte> EMSA_PKCS1v15_Raw::raw_data() { secure_vector<byte> ret; - std::swap(ret, message); + std::swap(ret, m_message); return ret; } diff --git a/src/lib/pk_pad/emsa_pkcs1/emsa_pkcs1.h b/src/lib/pk_pad/emsa_pkcs1/emsa_pkcs1.h index 19886f80c..fa3fc2ae2 100644 --- a/src/lib/pk_pad/emsa_pkcs1/emsa_pkcs1.h +++ b/src/lib/pk_pad/emsa_pkcs1/emsa_pkcs1.h @@ -61,7 +61,7 @@ class BOTAN_DLL EMSA_PKCS1v15_Raw : public EMSA size_t) override; private: - secure_vector<byte> message; + secure_vector<byte> m_message; }; } diff --git a/src/lib/pk_pad/emsa_pssr/pssr.cpp b/src/lib/pk_pad/emsa_pssr/pssr.cpp index 36b0ab64c..ddd8c5f0b 100644 --- a/src/lib/pk_pad/emsa_pssr/pssr.cpp +++ b/src/lib/pk_pad/emsa_pssr/pssr.cpp @@ -30,7 +30,7 @@ PSSR* PSSR::make(const Spec& request) */ void PSSR::update(const byte input[], size_t length) { - hash->update(input, length); + m_hash->update(input, length); } /* @@ -38,7 +38,7 @@ void PSSR::update(const byte input[], size_t length) */ secure_vector<byte> PSSR::raw_data() { - return hash->final(); + return m_hash->final(); } /* @@ -48,28 +48,28 @@ secure_vector<byte> PSSR::encoding_of(const secure_vector<byte>& msg, size_t output_bits, RandomNumberGenerator& rng) { - const size_t HASH_SIZE = hash->output_length(); + const size_t HASH_SIZE = m_hash->output_length(); if(msg.size() != HASH_SIZE) throw Encoding_Error("PSSR::encoding_of: Bad input length"); - if(output_bits < 8*HASH_SIZE + 8*SALT_SIZE + 9) + if(output_bits < 8*HASH_SIZE + 8*m_SALT_SIZE + 9) throw Encoding_Error("PSSR::encoding_of: Output length is too small"); const size_t output_length = (output_bits + 7) / 8; - secure_vector<byte> salt = rng.random_vec(SALT_SIZE); + secure_vector<byte> salt = rng.random_vec(m_SALT_SIZE); for(size_t j = 0; j != 8; ++j) - hash->update(0); - hash->update(msg); - hash->update(salt); - secure_vector<byte> H = hash->final(); + m_hash->update(0); + m_hash->update(msg); + m_hash->update(salt); + secure_vector<byte> H = m_hash->final(); secure_vector<byte> EM(output_length); - EM[output_length - HASH_SIZE - SALT_SIZE - 2] = 0x01; - buffer_insert(EM, output_length - 1 - HASH_SIZE - SALT_SIZE, salt); - mgf1_mask(*hash, H.data(), HASH_SIZE, EM.data(), output_length - HASH_SIZE - 1); + EM[output_length - HASH_SIZE - m_SALT_SIZE - 2] = 0x01; + buffer_insert(EM, output_length - 1 - HASH_SIZE - m_SALT_SIZE, salt); + mgf1_mask(*m_hash, H.data(), HASH_SIZE, EM.data(), output_length - HASH_SIZE - 1); EM[0] &= 0xFF >> (8 * ((output_bits + 7) / 8) - output_bits); buffer_insert(EM, output_length - 1 - HASH_SIZE, H); EM[output_length-1] = 0xBC; @@ -83,7 +83,7 @@ secure_vector<byte> PSSR::encoding_of(const secure_vector<byte>& msg, bool PSSR::verify(const secure_vector<byte>& const_coded, const secure_vector<byte>& raw, size_t key_bits) { - const size_t HASH_SIZE = hash->output_length(); + const size_t HASH_SIZE = m_hash->output_length(); const size_t KEY_BYTES = (key_bits + 7) / 8; if(key_bits < 8*HASH_SIZE + 9) @@ -116,7 +116,7 @@ bool PSSR::verify(const secure_vector<byte>& const_coded, const byte* H = &coded[DB_size]; const size_t H_size = HASH_SIZE; - mgf1_mask(*hash, H, H_size, DB, DB_size); + mgf1_mask(*m_hash, H, H_size, DB, DB_size); DB[0] &= 0xFF >> TOP_BITS; size_t salt_offset = 0; @@ -131,21 +131,21 @@ bool PSSR::verify(const secure_vector<byte>& const_coded, return false; for(size_t j = 0; j != 8; ++j) - hash->update(0); - hash->update(raw); - hash->update(&DB[salt_offset], DB_size - salt_offset); - secure_vector<byte> H2 = hash->final(); + m_hash->update(0); + m_hash->update(raw); + m_hash->update(&DB[salt_offset], DB_size - salt_offset); + secure_vector<byte> H2 = m_hash->final(); return same_mem(H, H2.data(), HASH_SIZE); } PSSR::PSSR(HashFunction* h) : - SALT_SIZE(h->output_length()), hash(h) + m_SALT_SIZE(h->output_length()), m_hash(h) { } PSSR::PSSR(HashFunction* h, size_t salt_size) : - SALT_SIZE(salt_size), hash(h) + m_SALT_SIZE(salt_size), m_hash(h) { } diff --git a/src/lib/pk_pad/emsa_pssr/pssr.h b/src/lib/pk_pad/emsa_pssr/pssr.h index 066c580d8..399090389 100644 --- a/src/lib/pk_pad/emsa_pssr/pssr.h +++ b/src/lib/pk_pad/emsa_pssr/pssr.h @@ -45,8 +45,8 @@ class BOTAN_DLL PSSR : public EMSA const secure_vector<byte>& raw, size_t key_bits) override; - size_t SALT_SIZE; - std::unique_ptr<HashFunction> hash; + size_t m_SALT_SIZE; + std::unique_ptr<HashFunction> m_hash; }; } diff --git a/src/lib/pk_pad/emsa_raw/emsa_raw.cpp b/src/lib/pk_pad/emsa_raw/emsa_raw.cpp index 4560bd3c3..8d3bbdbc3 100644 --- a/src/lib/pk_pad/emsa_raw/emsa_raw.cpp +++ b/src/lib/pk_pad/emsa_raw/emsa_raw.cpp @@ -14,7 +14,7 @@ namespace Botan { */ void EMSA_Raw::update(const byte input[], size_t length) { - message += std::make_pair(input, length); + m_message += std::make_pair(input, length); } /* @@ -23,7 +23,7 @@ void EMSA_Raw::update(const byte input[], size_t length) secure_vector<byte> EMSA_Raw::raw_data() { secure_vector<byte> output; - std::swap(message, output); + std::swap(m_message, output); return output; } diff --git a/src/lib/pk_pad/emsa_raw/emsa_raw.h b/src/lib/pk_pad/emsa_raw/emsa_raw.h index d1d6ac912..8eb6dc788 100644 --- a/src/lib/pk_pad/emsa_raw/emsa_raw.h +++ b/src/lib/pk_pad/emsa_raw/emsa_raw.h @@ -27,7 +27,7 @@ class BOTAN_DLL EMSA_Raw : public EMSA bool verify(const secure_vector<byte>&, const secure_vector<byte>&, size_t) override; - secure_vector<byte> message; + secure_vector<byte> m_message; }; } diff --git a/src/lib/prov/openssl/openssl_block.cpp b/src/lib/prov/openssl/openssl_block.cpp index a35919e3a..b7d9ba7c8 100644 --- a/src/lib/prov/openssl/openssl_block.cpp +++ b/src/lib/prov/openssl/openssl_block.cpp @@ -18,84 +18,84 @@ class OpenSSL_BlockCipher : public BlockCipher { public: void clear(); - std::string name() const { return cipher_name; } + std::string name() const { return m_cipher_name; } BlockCipher* clone() const; - size_t block_size() const { return block_sz; } + size_t block_size() const { return m_block_sz; } OpenSSL_BlockCipher(const EVP_CIPHER*, const std::string&); OpenSSL_BlockCipher(const EVP_CIPHER*, const std::string&, size_t, size_t, size_t); - Key_Length_Specification key_spec() const { return cipher_key_spec; } + Key_Length_Specification key_spec() const { return m_cipher_key_spec; } ~OpenSSL_BlockCipher(); private: void encrypt_n(const byte in[], byte out[], size_t blocks) const { int out_len = 0; - EVP_EncryptUpdate(&encrypt, out, &out_len, in, blocks * block_sz); + EVP_EncryptUpdate(&m_encrypt, out, &out_len, in, blocks * m_block_sz); } void decrypt_n(const byte in[], byte out[], size_t blocks) const { int out_len = 0; - EVP_DecryptUpdate(&decrypt, out, &out_len, in, blocks * block_sz); + EVP_DecryptUpdate(&m_decrypt, out, &out_len, in, blocks * m_block_sz); } void key_schedule(const byte[], size_t); - size_t block_sz; - Key_Length_Specification cipher_key_spec; - std::string cipher_name; - mutable EVP_CIPHER_CTX encrypt, decrypt; + size_t m_block_sz; + Key_Length_Specification m_cipher_key_spec; + std::string m_cipher_name; + mutable EVP_CIPHER_CTX m_encrypt, m_decrypt; }; OpenSSL_BlockCipher::OpenSSL_BlockCipher(const EVP_CIPHER* algo, const std::string& algo_name) : - block_sz(EVP_CIPHER_block_size(algo)), - cipher_key_spec(EVP_CIPHER_key_length(algo)), - cipher_name(algo_name) + m_block_sz(EVP_CIPHER_block_size(algo)), + m_cipher_key_spec(EVP_CIPHER_key_length(algo)), + m_cipher_name(algo_name) { if(EVP_CIPHER_mode(algo) != EVP_CIPH_ECB_MODE) throw Invalid_Argument("OpenSSL_BlockCipher: Non-ECB EVP was passed in"); - EVP_CIPHER_CTX_init(&encrypt); - EVP_CIPHER_CTX_init(&decrypt); + EVP_CIPHER_CTX_init(&m_encrypt); + EVP_CIPHER_CTX_init(&m_decrypt); - EVP_EncryptInit_ex(&encrypt, algo, nullptr, nullptr, nullptr); - EVP_DecryptInit_ex(&decrypt, algo, nullptr, nullptr, nullptr); + EVP_EncryptInit_ex(&m_encrypt, algo, nullptr, nullptr, nullptr); + EVP_DecryptInit_ex(&m_decrypt, algo, nullptr, nullptr, nullptr); - EVP_CIPHER_CTX_set_padding(&encrypt, 0); - EVP_CIPHER_CTX_set_padding(&decrypt, 0); + EVP_CIPHER_CTX_set_padding(&m_encrypt, 0); + EVP_CIPHER_CTX_set_padding(&m_decrypt, 0); } OpenSSL_BlockCipher::OpenSSL_BlockCipher(const EVP_CIPHER* algo, const std::string& algo_name, size_t key_min, size_t key_max, size_t key_mod) : - block_sz(EVP_CIPHER_block_size(algo)), - cipher_key_spec(key_min, key_max, key_mod), - cipher_name(algo_name) + m_block_sz(EVP_CIPHER_block_size(algo)), + m_cipher_key_spec(key_min, key_max, key_mod), + m_cipher_name(algo_name) { if(EVP_CIPHER_mode(algo) != EVP_CIPH_ECB_MODE) throw Invalid_Argument("OpenSSL_BlockCipher: Non-ECB EVP was passed in"); - EVP_CIPHER_CTX_init(&encrypt); - EVP_CIPHER_CTX_init(&decrypt); + EVP_CIPHER_CTX_init(&m_encrypt); + EVP_CIPHER_CTX_init(&m_decrypt); - EVP_EncryptInit_ex(&encrypt, algo, nullptr, nullptr, nullptr); - EVP_DecryptInit_ex(&decrypt, algo, nullptr, nullptr, nullptr); + EVP_EncryptInit_ex(&m_encrypt, algo, nullptr, nullptr, nullptr); + EVP_DecryptInit_ex(&m_decrypt, algo, nullptr, nullptr, nullptr); - EVP_CIPHER_CTX_set_padding(&encrypt, 0); - EVP_CIPHER_CTX_set_padding(&decrypt, 0); + EVP_CIPHER_CTX_set_padding(&m_encrypt, 0); + EVP_CIPHER_CTX_set_padding(&m_decrypt, 0); } OpenSSL_BlockCipher::~OpenSSL_BlockCipher() { - EVP_CIPHER_CTX_cleanup(&encrypt); - EVP_CIPHER_CTX_cleanup(&decrypt); + EVP_CIPHER_CTX_cleanup(&m_encrypt); + EVP_CIPHER_CTX_cleanup(&m_decrypt); } /* @@ -105,18 +105,18 @@ void OpenSSL_BlockCipher::key_schedule(const byte key[], size_t length) { secure_vector<byte> full_key(key, key + length); - if(cipher_name == "TripleDES" && length == 16) + if(m_cipher_name == "TripleDES" && length == 16) { full_key += std::make_pair(key, 8); } else - if(EVP_CIPHER_CTX_set_key_length(&encrypt, length) == 0 || - EVP_CIPHER_CTX_set_key_length(&decrypt, length) == 0) + if(EVP_CIPHER_CTX_set_key_length(&m_encrypt, length) == 0 || + EVP_CIPHER_CTX_set_key_length(&m_decrypt, length) == 0) throw Invalid_Argument("OpenSSL_BlockCipher: Bad key length for " + - cipher_name); + m_cipher_name); - EVP_EncryptInit_ex(&encrypt, nullptr, nullptr, full_key.data(), nullptr); - EVP_DecryptInit_ex(&decrypt, nullptr, nullptr, full_key.data(), nullptr); + EVP_EncryptInit_ex(&m_encrypt, nullptr, nullptr, full_key.data(), nullptr); + EVP_DecryptInit_ex(&m_decrypt, nullptr, nullptr, full_key.data(), nullptr); } /* @@ -124,11 +124,11 @@ void OpenSSL_BlockCipher::key_schedule(const byte key[], size_t length) */ BlockCipher* OpenSSL_BlockCipher::clone() const { - return new OpenSSL_BlockCipher(EVP_CIPHER_CTX_cipher(&encrypt), - cipher_name, - cipher_key_spec.minimum_keylength(), - cipher_key_spec.maximum_keylength(), - cipher_key_spec.keylength_multiple()); + return new OpenSSL_BlockCipher(EVP_CIPHER_CTX_cipher(&m_encrypt), + m_cipher_name, + m_cipher_key_spec.minimum_keylength(), + m_cipher_key_spec.maximum_keylength(), + m_cipher_key_spec.keylength_multiple()); } /* @@ -136,16 +136,16 @@ BlockCipher* OpenSSL_BlockCipher::clone() const */ void OpenSSL_BlockCipher::clear() { - const EVP_CIPHER* algo = EVP_CIPHER_CTX_cipher(&encrypt); - - EVP_CIPHER_CTX_cleanup(&encrypt); - EVP_CIPHER_CTX_cleanup(&decrypt); - EVP_CIPHER_CTX_init(&encrypt); - EVP_CIPHER_CTX_init(&decrypt); - EVP_EncryptInit_ex(&encrypt, algo, nullptr, nullptr, nullptr); - EVP_DecryptInit_ex(&decrypt, algo, nullptr, nullptr, nullptr); - EVP_CIPHER_CTX_set_padding(&encrypt, 0); - EVP_CIPHER_CTX_set_padding(&decrypt, 0); + const EVP_CIPHER* algo = EVP_CIPHER_CTX_cipher(&m_encrypt); + + EVP_CIPHER_CTX_cleanup(&m_encrypt); + EVP_CIPHER_CTX_cleanup(&m_decrypt); + EVP_CIPHER_CTX_init(&m_encrypt); + EVP_CIPHER_CTX_init(&m_decrypt); + EVP_EncryptInit_ex(&m_encrypt, algo, nullptr, nullptr, nullptr); + EVP_DecryptInit_ex(&m_decrypt, algo, nullptr, nullptr, nullptr); + EVP_CIPHER_CTX_set_padding(&m_encrypt, 0); + EVP_CIPHER_CTX_set_padding(&m_decrypt, 0); } std::function<BlockCipher* (const BlockCipher::Spec&)> diff --git a/src/lib/pubkey/dh/dh.cpp b/src/lib/pubkey/dh/dh.cpp index 3888166bb..9eb4e5cd0 100644 --- a/src/lib/pubkey/dh/dh.cpp +++ b/src/lib/pubkey/dh/dh.cpp @@ -18,8 +18,8 @@ namespace Botan { */ DH_PublicKey::DH_PublicKey(const DL_Group& grp, const BigInt& y1) { - group = grp; - y = y1; + m_group = grp; + m_y = y1; } /* @@ -27,7 +27,7 @@ DH_PublicKey::DH_PublicKey(const DL_Group& grp, const BigInt& y1) */ std::vector<byte> DH_PublicKey::public_value() const { - return unlock(BigInt::encode_1363(y, group_p().bytes())); + return unlock(BigInt::encode_1363(m_y, group_p().bytes())); } /* @@ -37,19 +37,19 @@ DH_PrivateKey::DH_PrivateKey(RandomNumberGenerator& rng, const DL_Group& grp, const BigInt& x_arg) { - group = grp; - x = x_arg; + m_group = grp; + m_x = x_arg; - if(x == 0) + if(m_x == 0) { const BigInt& p = group_p(); - x.randomize(rng, dl_exponent_size(p.bits())); + m_x.randomize(rng, dl_exponent_size(p.bits())); } - if(y == 0) - y = power_mod(group_g(), x, group_p()); + if(m_y == 0) + m_y = power_mod(group_g(), m_x, group_p()); - if(x == 0) + if(m_x == 0) gen_check(rng); else load_check(rng); @@ -63,8 +63,8 @@ DH_PrivateKey::DH_PrivateKey(const AlgorithmIdentifier& alg_id, RandomNumberGenerator& rng) : DL_Scheme_PrivateKey(alg_id, key_bits, DL_Group::ANSI_X9_42) { - if(y == 0) - y = power_mod(group_g(), x, group_p()); + if(m_y == 0) + m_y = power_mod(group_g(), m_x, group_p()); load_check(rng); } diff --git a/src/lib/pubkey/dl_algo/dl_algo.cpp b/src/lib/pubkey/dl_algo/dl_algo.cpp index 4d179fe50..d85249750 100644 --- a/src/lib/pubkey/dl_algo/dl_algo.cpp +++ b/src/lib/pubkey/dl_algo/dl_algo.cpp @@ -15,41 +15,41 @@ namespace Botan { size_t DL_Scheme_PublicKey::estimated_strength() const { - return dl_work_factor(group.get_p().bits()); + return dl_work_factor(m_group.get_p().bits()); } AlgorithmIdentifier DL_Scheme_PublicKey::algorithm_identifier() const { return AlgorithmIdentifier(get_oid(), - group.DER_encode(group_format())); + m_group.DER_encode(group_format())); } std::vector<byte> DL_Scheme_PublicKey::x509_subject_public_key() const { - return DER_Encoder().encode(y).get_contents_unlocked(); + return DER_Encoder().encode(m_y).get_contents_unlocked(); } DL_Scheme_PublicKey::DL_Scheme_PublicKey(const AlgorithmIdentifier& alg_id, const secure_vector<byte>& key_bits, DL_Group::Format format) { - group.BER_decode(alg_id.parameters, format); + m_group.BER_decode(alg_id.parameters, format); - BER_Decoder(key_bits).decode(y); + BER_Decoder(key_bits).decode(m_y); } secure_vector<byte> DL_Scheme_PrivateKey::pkcs8_private_key() const { - return DER_Encoder().encode(x).get_contents(); + return DER_Encoder().encode(m_x).get_contents(); } DL_Scheme_PrivateKey::DL_Scheme_PrivateKey(const AlgorithmIdentifier& alg_id, const secure_vector<byte>& key_bits, DL_Group::Format format) { - group.BER_decode(alg_id.parameters, format); + m_group.BER_decode(alg_id.parameters, format); - BER_Decoder(key_bits).decode(x); + BER_Decoder(key_bits).decode(m_x); } /* @@ -58,9 +58,9 @@ DL_Scheme_PrivateKey::DL_Scheme_PrivateKey(const AlgorithmIdentifier& alg_id, bool DL_Scheme_PublicKey::check_key(RandomNumberGenerator& rng, bool strong) const { - if(y < 2 || y >= group_p()) + if(m_y < 2 || m_y >= group_p()) return false; - if(!group.verify_group(rng, strong)) + if(!m_group.verify_group(rng, strong)) return false; return true; } @@ -74,15 +74,15 @@ bool DL_Scheme_PrivateKey::check_key(RandomNumberGenerator& rng, const BigInt& p = group_p(); const BigInt& g = group_g(); - if(y < 2 || y >= p || x < 2 || x >= p) + if(m_y < 2 || m_y >= p || m_x < 2 || m_x >= p) return false; - if(!group.verify_group(rng, strong)) + if(!m_group.verify_group(rng, strong)) return false; if(!strong) return true; - if(y != power_mod(g, x, p)) + if(m_y != power_mod(g, m_x, p)) return false; return true; diff --git a/src/lib/pubkey/dl_algo/dl_algo.h b/src/lib/pubkey/dl_algo/dl_algo.h index 18886e5dc..705cce8b3 100644 --- a/src/lib/pubkey/dl_algo/dl_algo.h +++ b/src/lib/pubkey/dl_algo/dl_algo.h @@ -29,30 +29,30 @@ class BOTAN_DLL DL_Scheme_PublicKey : public virtual Public_Key * Get the DL domain parameters of this key. * @return DL domain parameters of this key */ - const DL_Group& get_domain() const { return group; } + const DL_Group& get_domain() const { return m_group; } /** * Get the public value y with y = g^x mod p where x is the secret key. */ - const BigInt& get_y() const { return y; } + const BigInt& get_y() const { return m_y; } /** * Get the prime p of the underlying DL group. * @return prime p */ - const BigInt& group_p() const { return group.get_p(); } + const BigInt& group_p() const { return m_group.get_p(); } /** * Get the prime q of the underlying DL group. * @return prime q */ - const BigInt& group_q() const { return group.get_q(); } + const BigInt& group_q() const { return m_group.get_q(); } /** * Get the generator g of the underlying DL group. * @return generator g */ - const BigInt& group_g() const { return group.get_g(); } + const BigInt& group_g() const { return m_group.get_g(); } /** * Get the underlying groups encoding format. @@ -72,12 +72,12 @@ class BOTAN_DLL DL_Scheme_PublicKey : public virtual Public_Key /** * The DL public key */ - BigInt y; + BigInt m_y; /** * The DL group */ - DL_Group group; + DL_Group m_group; }; /** @@ -93,7 +93,7 @@ class BOTAN_DLL DL_Scheme_PrivateKey : public virtual DL_Scheme_PublicKey, * Get the secret key x. * @return secret key */ - const BigInt& get_x() const { return x; } + const BigInt& get_x() const { return m_x; } secure_vector<byte> pkcs8_private_key() const override; @@ -107,7 +107,7 @@ class BOTAN_DLL DL_Scheme_PrivateKey : public virtual DL_Scheme_PublicKey, /** * The DL private key */ - BigInt x; + BigInt m_x; }; } diff --git a/src/lib/pubkey/dl_group/dl_group.cpp b/src/lib/pubkey/dl_group/dl_group.cpp index ed9b60c7c..40660e62a 100644 --- a/src/lib/pubkey/dl_group/dl_group.cpp +++ b/src/lib/pubkey/dl_group/dl_group.cpp @@ -20,7 +20,7 @@ namespace Botan { */ DL_Group::DL_Group() { - initialized = false; + m_initialized = false; } /* @@ -48,35 +48,35 @@ DL_Group::DL_Group(RandomNumberGenerator& rng, if(type == Strong) { - p = random_safe_prime(rng, pbits); - q = (p - 1) / 2; - g = 2; + m_p = random_safe_prime(rng, pbits); + m_q = (m_p - 1) / 2; + m_g = 2; } else if(type == Prime_Subgroup) { if(!qbits) qbits = dl_exponent_size(pbits); - q = random_prime(rng, qbits); + m_q = random_prime(rng, qbits); BigInt X; - while(p.bits() != pbits || !is_prime(p, rng)) + while(m_p.bits() != pbits || !is_prime(m_p, rng)) { X.randomize(rng, pbits); - p = X - (X % (2*q) - 1); + m_p = X - (X % (2*m_q) - 1); } - g = make_dsa_generator(p, q); + m_g = make_dsa_generator(m_p, m_q); } else if(type == DSA_Kosherizer) { qbits = qbits ? qbits : ((pbits <= 1024) ? 160 : 256); - generate_dsa_primes(rng, p, q, pbits, qbits); + generate_dsa_primes(rng, m_p, m_q, pbits, qbits); - g = make_dsa_generator(p, q); + m_g = make_dsa_generator(m_p, m_q); } - initialized = true; + m_initialized = true; } /* @@ -86,13 +86,13 @@ DL_Group::DL_Group(RandomNumberGenerator& rng, const std::vector<byte>& seed, size_t pbits, size_t qbits) { - if(!generate_dsa_primes(rng, p, q, pbits, qbits, seed)) + if(!generate_dsa_primes(rng, m_p, m_q, pbits, qbits, seed)) throw Invalid_Argument("DL_Group: The seed given does not " "generate a DSA group"); - g = make_dsa_generator(p, q); + m_g = make_dsa_generator(m_p, m_q); - initialized = true; + m_initialized = true; } /* @@ -123,11 +123,11 @@ void DL_Group::initialize(const BigInt& p1, const BigInt& q1, const BigInt& g1) if(q1 < 0 || q1 >= p1) throw Invalid_Argument("DL_Group: Subgroup invalid"); - p = p1; - g = g1; - q = q1; + m_p = p1; + m_g = g1; + m_q = q1; - initialized = true; + m_initialized = true; } /* @@ -135,7 +135,7 @@ void DL_Group::initialize(const BigInt& p1, const BigInt& q1, const BigInt& g1) */ void DL_Group::init_check() const { - if(!initialized) + if(!m_initialized) throw Invalid_State("DLP group cannot be used uninitialized"); } @@ -147,16 +147,16 @@ bool DL_Group::verify_group(RandomNumberGenerator& rng, { init_check(); - if(g < 2 || p < 3 || q < 0) + if(m_g < 2 || m_p < 3 || m_q < 0) return false; - if((q != 0) && ((p - 1) % q != 0)) + if((m_q != 0) && ((m_p - 1) % m_q != 0)) return false; const size_t prob = (strong) ? 56 : 10; - if(!is_prime(p, rng, prob)) + if(!is_prime(m_p, rng, prob)) return false; - if((q > 0) && !is_prime(q, rng, prob)) + if((m_q > 0) && !is_prime(m_q, rng, prob)) return false; return true; } @@ -167,7 +167,7 @@ bool DL_Group::verify_group(RandomNumberGenerator& rng, const BigInt& DL_Group::get_p() const { init_check(); - return p; + return m_p; } /* @@ -176,7 +176,7 @@ const BigInt& DL_Group::get_p() const const BigInt& DL_Group::get_g() const { init_check(); - return g; + return m_g; } /* @@ -185,9 +185,9 @@ const BigInt& DL_Group::get_g() const const BigInt& DL_Group::get_q() const { init_check(); - if(q == 0) + if(m_q == 0) throw Invalid_State("DLP group has no q prime specified"); - return q; + return m_q; } /* @@ -197,16 +197,16 @@ std::vector<byte> DL_Group::DER_encode(Format format) const { init_check(); - if((q == 0) && (format != PKCS_3)) + if((m_q == 0) && (format != PKCS_3)) throw Encoding_Error("The ANSI DL parameter formats require a subgroup"); if(format == ANSI_X9_57) { return DER_Encoder() .start_cons(SEQUENCE) - .encode(p) - .encode(q) - .encode(g) + .encode(m_p) + .encode(m_q) + .encode(m_g) .end_cons() .get_contents_unlocked(); } @@ -214,9 +214,9 @@ std::vector<byte> DL_Group::DER_encode(Format format) const { return DER_Encoder() .start_cons(SEQUENCE) - .encode(p) - .encode(g) - .encode(q) + .encode(m_p) + .encode(m_g) + .encode(m_q) .end_cons() .get_contents_unlocked(); } @@ -224,8 +224,8 @@ std::vector<byte> DL_Group::DER_encode(Format format) const { return DER_Encoder() .start_cons(SEQUENCE) - .encode(p) - .encode(g) + .encode(m_p) + .encode(m_g) .end_cons() .get_contents_unlocked(); } diff --git a/src/lib/pubkey/dl_group/dl_group.h b/src/lib/pubkey/dl_group/dl_group.h index 7201054f2..8bdd205da 100644 --- a/src/lib/pubkey/dl_group/dl_group.h +++ b/src/lib/pubkey/dl_group/dl_group.h @@ -161,8 +161,8 @@ class BOTAN_DLL DL_Group void init_check() const; void initialize(const BigInt&, const BigInt&, const BigInt&); - bool initialized; - BigInt p, q, g; + bool m_initialized; + BigInt m_p, m_q, m_g; }; } diff --git a/src/lib/pubkey/dlies/dlies.cpp b/src/lib/pubkey/dlies/dlies.cpp index 708064d27..86cd51e19 100644 --- a/src/lib/pubkey/dlies/dlies.cpp +++ b/src/lib/pubkey/dlies/dlies.cpp @@ -16,12 +16,12 @@ DLIES_Encryptor::DLIES_Encryptor(const PK_Key_Agreement_Key& key, KDF* kdf_obj, MessageAuthenticationCode* mac_obj, size_t mac_kl) : - ka(key, "Raw"), - kdf(kdf_obj), - mac(mac_obj), - mac_keylen(mac_kl) + m_ka(key, "Raw"), + m_kdf(kdf_obj), + m_mac(mac_obj), + m_mac_keylen(mac_kl) { - my_key = key.public_value(); + m_my_key = key.public_value(); } /* @@ -32,31 +32,31 @@ std::vector<byte> DLIES_Encryptor::enc(const byte in[], size_t length, { if(length > maximum_input_size()) throw Invalid_Argument("DLIES: Plaintext too large"); - if(other_key.empty()) + if(m_other_key.empty()) throw Invalid_State("DLIES: The other key was never set"); - secure_vector<byte> out(my_key.size() + length + mac->output_length()); - buffer_insert(out, 0, my_key); - buffer_insert(out, my_key.size(), in, length); + secure_vector<byte> out(m_my_key.size() + length + m_mac->output_length()); + buffer_insert(out, 0, m_my_key); + buffer_insert(out, m_my_key.size(), in, length); - secure_vector<byte> vz(my_key.begin(), my_key.end()); - vz += ka.derive_key(0, other_key).bits_of(); + secure_vector<byte> vz(m_my_key.begin(), m_my_key.end()); + vz += m_ka.derive_key(0, m_other_key).bits_of(); - const size_t K_LENGTH = length + mac_keylen; - secure_vector<byte> K = kdf->derive_key(K_LENGTH, vz); + const size_t K_LENGTH = length + m_mac_keylen; + secure_vector<byte> K = m_kdf->derive_key(K_LENGTH, vz); if(K.size() != K_LENGTH) throw Encoding_Error("DLIES: KDF did not provide sufficient output"); - byte* C = &out[my_key.size()]; + byte* C = &out[m_my_key.size()]; - mac->set_key(K.data(), mac_keylen); - xor_buf(C, &K[mac_keylen], length); + m_mac->set_key(K.data(), m_mac_keylen); + xor_buf(C, &K[m_mac_keylen], length); - mac->update(C, length); + m_mac->update(C, length); for(size_t j = 0; j != 8; ++j) - mac->update(0); + m_mac->update(0); - mac->final(C + length); + m_mac->final(C + length); return unlock(out); } @@ -66,7 +66,7 @@ std::vector<byte> DLIES_Encryptor::enc(const byte in[], size_t length, */ void DLIES_Encryptor::set_other_key(const std::vector<byte>& ok) { - other_key = ok; + m_other_key = ok; } /* @@ -84,12 +84,12 @@ DLIES_Decryptor::DLIES_Decryptor(const PK_Key_Agreement_Key& key, KDF* kdf_obj, MessageAuthenticationCode* mac_obj, size_t mac_kl) : - ka(key, "Raw"), - kdf(kdf_obj), - mac(mac_obj), - mac_keylen(mac_kl) + m_ka(key, "Raw"), + m_kdf(kdf_obj), + m_mac(mac_obj), + m_mac_keylen(mac_kl) { - my_key = key.public_value(); + m_my_key = key.public_value(); } /* @@ -97,35 +97,35 @@ DLIES_Decryptor::DLIES_Decryptor(const PK_Key_Agreement_Key& key, */ secure_vector<byte> DLIES_Decryptor::dec(const byte msg[], size_t length) const { - if(length < my_key.size() + mac->output_length()) + if(length < m_my_key.size() + m_mac->output_length()) throw Decoding_Error("DLIES decryption: ciphertext is too short"); - const size_t CIPHER_LEN = length - my_key.size() - mac->output_length(); + const size_t CIPHER_LEN = length - m_my_key.size() - m_mac->output_length(); - std::vector<byte> v(msg, msg + my_key.size()); + std::vector<byte> v(msg, msg + m_my_key.size()); - secure_vector<byte> C(msg + my_key.size(), msg + my_key.size() + CIPHER_LEN); + secure_vector<byte> C(msg + m_my_key.size(), msg + m_my_key.size() + CIPHER_LEN); - secure_vector<byte> T(msg + my_key.size() + CIPHER_LEN, - msg + my_key.size() + CIPHER_LEN + mac->output_length()); + secure_vector<byte> T(msg + m_my_key.size() + CIPHER_LEN, + msg + m_my_key.size() + CIPHER_LEN + m_mac->output_length()); - secure_vector<byte> vz(msg, msg + my_key.size()); - vz += ka.derive_key(0, v).bits_of(); + secure_vector<byte> vz(msg, msg + m_my_key.size()); + vz += m_ka.derive_key(0, v).bits_of(); - const size_t K_LENGTH = C.size() + mac_keylen; - secure_vector<byte> K = kdf->derive_key(K_LENGTH, vz); + const size_t K_LENGTH = C.size() + m_mac_keylen; + secure_vector<byte> K = m_kdf->derive_key(K_LENGTH, vz); if(K.size() != K_LENGTH) throw Encoding_Error("DLIES: KDF did not provide sufficient output"); - mac->set_key(K.data(), mac_keylen); - mac->update(C); + m_mac->set_key(K.data(), m_mac_keylen); + m_mac->update(C); for(size_t j = 0; j != 8; ++j) - mac->update(0); - secure_vector<byte> T2 = mac->final(); + m_mac->update(0); + secure_vector<byte> T2 = m_mac->final(); if(T != T2) throw Decoding_Error("DLIES: message authentication failed"); - xor_buf(C, K.data() + mac_keylen, C.size()); + xor_buf(C, K.data() + m_mac_keylen, C.size()); return C; } diff --git a/src/lib/pubkey/dlies/dlies.h b/src/lib/pubkey/dlies/dlies.h index ed5928080..dd8838a28 100644 --- a/src/lib/pubkey/dlies/dlies.h +++ b/src/lib/pubkey/dlies/dlies.h @@ -32,12 +32,12 @@ class BOTAN_DLL DLIES_Encryptor : public PK_Encryptor size_t maximum_input_size() const override; - std::vector<byte> other_key, my_key; + std::vector<byte> m_other_key, m_my_key; - PK_Key_Agreement ka; - std::unique_ptr<KDF> kdf; - std::unique_ptr<MessageAuthenticationCode> mac; - size_t mac_keylen; + PK_Key_Agreement m_ka; + std::unique_ptr<KDF> m_kdf; + std::unique_ptr<MessageAuthenticationCode> m_mac; + size_t m_mac_keylen; }; /** @@ -54,12 +54,12 @@ class BOTAN_DLL DLIES_Decryptor : public PK_Decryptor private: secure_vector<byte> dec(const byte[], size_t) const override; - std::vector<byte> my_key; + std::vector<byte> m_my_key; - PK_Key_Agreement ka; - std::unique_ptr<KDF> kdf; - std::unique_ptr<MessageAuthenticationCode> mac; - size_t mac_keylen; + PK_Key_Agreement m_ka; + std::unique_ptr<KDF> m_kdf; + std::unique_ptr<MessageAuthenticationCode> m_mac; + size_t m_mac_keylen; }; } diff --git a/src/lib/pubkey/dsa/dsa.cpp b/src/lib/pubkey/dsa/dsa.cpp index ec0830533..63b7bd07e 100644 --- a/src/lib/pubkey/dsa/dsa.cpp +++ b/src/lib/pubkey/dsa/dsa.cpp @@ -20,8 +20,8 @@ namespace Botan { */ DSA_PublicKey::DSA_PublicKey(const DL_Group& grp, const BigInt& y1) { - group = grp; - y = y1; + m_group = grp; + m_y = y1; } /* @@ -31,13 +31,13 @@ DSA_PrivateKey::DSA_PrivateKey(RandomNumberGenerator& rng, const DL_Group& grp, const BigInt& x_arg) { - group = grp; - x = x_arg; + m_group = grp; + m_x = x_arg; - if(x == 0) - x = BigInt::random_integer(rng, 2, group_q() - 1); + if(m_x == 0) + m_x = BigInt::random_integer(rng, 2, group_q() - 1); - y = power_mod(group_g(), x, group_p()); + m_y = power_mod(group_g(), m_x, group_p()); if(x_arg == 0) gen_check(rng); @@ -50,7 +50,7 @@ DSA_PrivateKey::DSA_PrivateKey(const AlgorithmIdentifier& alg_id, RandomNumberGenerator& rng) : DL_Scheme_PrivateKey(alg_id, key_bits, DL_Group::ANSI_X9_57) { - y = power_mod(group_g(), x, group_p()); + m_y = power_mod(group_g(), m_x, group_p()); load_check(rng); } @@ -60,7 +60,7 @@ DSA_PrivateKey::DSA_PrivateKey(const AlgorithmIdentifier& alg_id, */ bool DSA_PrivateKey::check_key(RandomNumberGenerator& rng, bool strong) const { - if(!DL_Scheme_PrivateKey::check_key(rng, strong) || x >= group_q()) + if(!DL_Scheme_PrivateKey::check_key(rng, strong) || m_x >= group_q()) return false; if(!strong) @@ -80,25 +80,25 @@ class DSA_Signature_Operation : public PK_Ops::Signature_with_EMSA typedef DSA_PrivateKey Key_Type; DSA_Signature_Operation(const DSA_PrivateKey& dsa, const std::string& emsa) : PK_Ops::Signature_with_EMSA(emsa), - q(dsa.group_q()), - x(dsa.get_x()), - powermod_g_p(dsa.group_g(), dsa.group_p()), - mod_q(dsa.group_q()), + m_q(dsa.group_q()), + m_x(dsa.get_x()), + m_powermod_g_p(dsa.group_g(), dsa.group_p()), + m_mod_q(dsa.group_q()), m_hash(hash_for_deterministic_signature(emsa)) { } size_t message_parts() const override { return 2; } - size_t message_part_size() const override { return q.bytes(); } - size_t max_input_bits() const override { return q.bits(); } + size_t message_part_size() const override { return m_q.bytes(); } + size_t max_input_bits() const override { return m_q.bits(); } secure_vector<byte> raw_sign(const byte msg[], size_t msg_len, RandomNumberGenerator& rng) override; private: - const BigInt& q; - const BigInt& x; - Fixed_Base_Power_Mod powermod_g_p; - Modular_Reducer mod_q; + const BigInt& m_q; + const BigInt& m_x; + Fixed_Base_Power_Mod m_powermod_g_p; + Modular_Reducer m_mod_q; std::string m_hash; }; @@ -108,23 +108,23 @@ DSA_Signature_Operation::raw_sign(const byte msg[], size_t msg_len, { BigInt i(msg, msg_len); - while(i >= q) - i -= q; + while(i >= m_q) + i -= m_q; - const BigInt k = generate_rfc6979_nonce(x, q, i, m_hash); + const BigInt k = generate_rfc6979_nonce(m_x, m_q, i, m_hash); auto future_r = std::async(std::launch::async, - [&]() { return mod_q.reduce(powermod_g_p(k)); }); + [&]() { return m_mod_q.reduce(m_powermod_g_p(k)); }); - BigInt s = inverse_mod(k, q); + BigInt s = inverse_mod(k, m_q); const BigInt r = future_r.get(); - s = mod_q.multiply(s, mul_add(x, r, i)); + s = m_mod_q.multiply(s, mul_add(m_x, r, i)); // With overwhelming probability, a bug rather than actual zero r/s BOTAN_ASSERT(s != 0, "invalid s"); BOTAN_ASSERT(r != 0, "invalid r"); - secure_vector<byte> output(2*q.bytes()); + secure_vector<byte> output(2*m_q.bytes()); r.binary_encode(&output[output.size() / 2 - r.bytes()]); s.binary_encode(&output[output.size() - s.bytes()]); return output; @@ -140,54 +140,54 @@ class DSA_Verification_Operation : public PK_Ops::Verification_with_EMSA DSA_Verification_Operation(const DSA_PublicKey& dsa, const std::string& emsa) : PK_Ops::Verification_with_EMSA(emsa), - q(dsa.group_q()), y(dsa.get_y()) + m_q(dsa.group_q()), m_y(dsa.get_y()) { - powermod_g_p = Fixed_Base_Power_Mod(dsa.group_g(), dsa.group_p()); - powermod_y_p = Fixed_Base_Power_Mod(y, dsa.group_p()); - mod_p = Modular_Reducer(dsa.group_p()); - mod_q = Modular_Reducer(dsa.group_q()); + m_powermod_g_p = Fixed_Base_Power_Mod(dsa.group_g(), dsa.group_p()); + m_powermod_y_p = Fixed_Base_Power_Mod(m_y, dsa.group_p()); + m_mod_p = Modular_Reducer(dsa.group_p()); + m_mod_q = Modular_Reducer(dsa.group_q()); } size_t message_parts() const override { return 2; } - size_t message_part_size() const override { return q.bytes(); } - size_t max_input_bits() const override { return q.bits(); } + size_t message_part_size() const override { return m_q.bytes(); } + size_t max_input_bits() const override { return m_q.bits(); } bool with_recovery() const override { return false; } bool verify(const byte msg[], size_t msg_len, const byte sig[], size_t sig_len) override; private: - const BigInt& q; - const BigInt& y; + const BigInt& m_q; + const BigInt& m_y; - Fixed_Base_Power_Mod powermod_g_p, powermod_y_p; - Modular_Reducer mod_p, mod_q; + Fixed_Base_Power_Mod m_powermod_g_p, m_powermod_y_p; + Modular_Reducer m_mod_p, m_mod_q; }; bool DSA_Verification_Operation::verify(const byte msg[], size_t msg_len, const byte sig[], size_t sig_len) { - if(sig_len != 2*q.bytes() || msg_len > q.bytes()) + if(sig_len != 2*m_q.bytes() || msg_len > m_q.bytes()) return false; - BigInt r(sig, q.bytes()); - BigInt s(sig + q.bytes(), q.bytes()); + BigInt r(sig, m_q.bytes()); + BigInt s(sig + m_q.bytes(), m_q.bytes()); BigInt i(msg, msg_len); - if(r <= 0 || r >= q || s <= 0 || s >= q) + if(r <= 0 || r >= m_q || s <= 0 || s >= m_q) return false; - s = inverse_mod(s, q); + s = inverse_mod(s, m_q); auto future_s_i = std::async(std::launch::async, - [&]() { return powermod_g_p(mod_q.multiply(s, i)); }); + [&]() { return m_powermod_g_p(m_mod_q.multiply(s, i)); }); - BigInt s_r = powermod_y_p(mod_q.multiply(s, r)); + BigInt s_r = m_powermod_y_p(m_mod_q.multiply(s, r)); BigInt s_i = future_s_i.get(); - s = mod_p.multiply(s_i, s_r); + s = m_mod_p.multiply(s_i, s_r); - return (mod_q.reduce(s) == r); + return (m_mod_q.reduce(s) == r); } BOTAN_REGISTER_PK_SIGNATURE_OP("DSA", DSA_Signature_Operation); diff --git a/src/lib/pubkey/ec_group/ec_group.cpp b/src/lib/pubkey/ec_group/ec_group.cpp index fc46675bd..c264d7314 100644 --- a/src/lib/pubkey/ec_group/ec_group.cpp +++ b/src/lib/pubkey/ec_group/ec_group.cpp @@ -23,7 +23,7 @@ EC_Group::EC_Group(const OID& domain_oid) throw Lookup_Error("No ECC domain data for " + domain_oid.as_string()); *this = EC_Group(pem); - oid = domain_oid.as_string(); + m_oid = domain_oid.as_string(); } EC_Group::EC_Group(const std::string& str) @@ -75,13 +75,13 @@ EC_Group::EC_Group(const std::vector<byte>& ber_data) .decode_octet_string_bigint(b) .end_cons() .decode(sv_base_point, OCTET_STRING) - .decode(order) - .decode(cofactor) + .decode(m_order) + .decode(m_cofactor) .end_cons() .verify_end(); - curve = CurveGFp(p, a, b); - base_point = OS2ECP(sv_base_point, curve); + m_curve = CurveGFp(p, a, b); + m_base_point = OS2ECP(sv_base_point, m_curve); } else throw Decoding_Error("Unexpected tag while decoding ECC domain params"); @@ -95,24 +95,24 @@ EC_Group::DER_encode(EC_Group_Encoding form) const const size_t ecpVers1 = 1; OID curve_type("1.2.840.10045.1.1"); - const size_t p_bytes = curve.get_p().bytes(); + const size_t p_bytes = m_curve.get_p().bytes(); return DER_Encoder() .start_cons(SEQUENCE) .encode(ecpVers1) .start_cons(SEQUENCE) .encode(curve_type) - .encode(curve.get_p()) + .encode(m_curve.get_p()) .end_cons() .start_cons(SEQUENCE) - .encode(BigInt::encode_1363(curve.get_a(), p_bytes), + .encode(BigInt::encode_1363(m_curve.get_a(), p_bytes), OCTET_STRING) - .encode(BigInt::encode_1363(curve.get_b(), p_bytes), + .encode(BigInt::encode_1363(m_curve.get_b(), p_bytes), OCTET_STRING) .end_cons() - .encode(EC2OSP(base_point, PointGFp::UNCOMPRESSED), OCTET_STRING) - .encode(order) - .encode(cofactor) + .encode(EC2OSP(m_base_point, PointGFp::UNCOMPRESSED), OCTET_STRING) + .encode(m_order) + .encode(m_cofactor) .end_cons() .get_contents_unlocked(); } diff --git a/src/lib/pubkey/ec_group/ec_group.h b/src/lib/pubkey/ec_group/ec_group.h index 67ade0c65..c7e52b238 100644 --- a/src/lib/pubkey/ec_group/ec_group.h +++ b/src/lib/pubkey/ec_group/ec_group.h @@ -43,11 +43,11 @@ class BOTAN_DLL EC_Group const PointGFp& base_point, const BigInt& order, const BigInt& cofactor) : - curve(curve), - base_point(base_point), - order(order), - cofactor(cofactor), - oid("") + m_curve(curve), + m_base_point(base_point), + m_order(order), + m_cofactor(cofactor), + m_oid("") {} /** @@ -86,33 +86,33 @@ class BOTAN_DLL EC_Group * Return domain parameter curve * @result domain parameter curve */ - const CurveGFp& get_curve() const { return curve; } + const CurveGFp& get_curve() const { return m_curve; } /** * Return group base point * @result base point */ - const PointGFp& get_base_point() const { return base_point; } + const PointGFp& get_base_point() const { return m_base_point; } /** * Return the order of the base point * @result order of the base point */ - const BigInt& get_order() const { return order; } + const BigInt& get_order() const { return m_order; } /** * Return the cofactor * @result the cofactor */ - const BigInt& get_cofactor() const { return cofactor; } + const BigInt& get_cofactor() const { return m_cofactor; } - bool initialized() const { return !base_point.is_zero(); } + bool initialized() const { return !m_base_point.is_zero(); } /** * Return the OID of these domain parameters * @result the OID */ - std::string get_oid() const { return oid; } + std::string get_oid() const { return m_oid; } bool operator==(const EC_Group& other) const { @@ -128,10 +128,10 @@ class BOTAN_DLL EC_Group static const char* PEM_for_named_group(const std::string& name); private: - CurveGFp curve; - PointGFp base_point; - BigInt order, cofactor; - std::string oid; + CurveGFp m_curve; + PointGFp m_base_point; + BigInt m_order, m_cofactor; + std::string m_oid; }; inline bool operator!=(const EC_Group& lhs, diff --git a/src/lib/pubkey/ecc_key/ecc_key.cpp b/src/lib/pubkey/ecc_key/ecc_key.cpp index b0c053688..a3f0ea93d 100644 --- a/src/lib/pubkey/ecc_key/ecc_key.cpp +++ b/src/lib/pubkey/ecc_key/ecc_key.cpp @@ -25,8 +25,8 @@ size_t EC_PublicKey::estimated_strength() const EC_PublicKey::EC_PublicKey(const EC_Group& dom_par, const PointGFp& pub_point) : - domain_params(dom_par), public_key(pub_point), - domain_encoding(EC_DOMPAR_ENC_EXPLICIT) + m_domain_params(dom_par), m_public_key(pub_point), + m_domain_encoding(EC_DOMPAR_ENC_EXPLICIT) { if(domain().get_curve() != public_point().get_curve()) throw Invalid_Argument("EC_PublicKey: curve mismatch in constructor"); @@ -35,10 +35,10 @@ EC_PublicKey::EC_PublicKey(const EC_Group& dom_par, EC_PublicKey::EC_PublicKey(const AlgorithmIdentifier& alg_id, const secure_vector<byte>& key_bits) { - domain_params = EC_Group(alg_id.parameters); - domain_encoding = EC_DOMPAR_ENC_EXPLICIT; + m_domain_params = EC_Group(alg_id.parameters); + m_domain_encoding = EC_DOMPAR_ENC_EXPLICIT; - public_key = OS2ECP(key_bits, domain().get_curve()); + m_public_key = OS2ECP(key_bits, domain().get_curve()); } bool EC_PublicKey::check_key(RandomNumberGenerator&, @@ -64,20 +64,20 @@ void EC_PublicKey::set_parameter_encoding(EC_Group_Encoding form) form != EC_DOMPAR_ENC_OID) throw Invalid_Argument("Invalid encoding form for EC-key object specified"); - if((form == EC_DOMPAR_ENC_OID) && (domain_params.get_oid() == "")) + if((form == EC_DOMPAR_ENC_OID) && (m_domain_params.get_oid() == "")) throw Invalid_Argument("Invalid encoding form OID specified for " "EC-key object whose corresponding domain " "parameters are without oid"); - domain_encoding = form; + m_domain_encoding = form; } const BigInt& EC_PrivateKey::private_value() const { - if(private_key == 0) + if(m_private_key == 0) throw Invalid_State("EC_PrivateKey::private_value - uninitialized"); - return private_key; + return m_private_key; } /** @@ -87,17 +87,17 @@ EC_PrivateKey::EC_PrivateKey(RandomNumberGenerator& rng, const EC_Group& ec_group, const BigInt& x) { - domain_params = ec_group; - domain_encoding = EC_DOMPAR_ENC_EXPLICIT; + m_domain_params = ec_group; + m_domain_encoding = EC_DOMPAR_ENC_EXPLICIT; if(x == 0) - private_key = BigInt::random_integer(rng, 1, domain().get_order()); + m_private_key = BigInt::random_integer(rng, 1, domain().get_order()); else - private_key = x; + m_private_key = x; - public_key = domain().get_base_point() * private_key; + m_public_key = domain().get_base_point() * m_private_key; - BOTAN_ASSERT(public_key.on_the_curve(), + BOTAN_ASSERT(m_public_key.on_the_curve(), "Generated public key point was on the curve"); } @@ -106,7 +106,7 @@ secure_vector<byte> EC_PrivateKey::pkcs8_private_key() const return DER_Encoder() .start_cons(SEQUENCE) .encode(static_cast<size_t>(1)) - .encode(BigInt::encode_1363(private_key, private_key.bytes()), + .encode(BigInt::encode_1363(m_private_key, m_private_key.bytes()), OCTET_STRING) .end_cons() .get_contents(); @@ -115,8 +115,8 @@ secure_vector<byte> EC_PrivateKey::pkcs8_private_key() const EC_PrivateKey::EC_PrivateKey(const AlgorithmIdentifier& alg_id, const secure_vector<byte>& key_bits) { - domain_params = EC_Group(alg_id.parameters); - domain_encoding = EC_DOMPAR_ENC_EXPLICIT; + m_domain_params = EC_Group(alg_id.parameters); + m_domain_encoding = EC_DOMPAR_ENC_EXPLICIT; OID key_parameters; secure_vector<byte> public_key_bits; @@ -124,7 +124,7 @@ EC_PrivateKey::EC_PrivateKey(const AlgorithmIdentifier& alg_id, BER_Decoder(key_bits) .start_cons(SEQUENCE) .decode_and_check<size_t>(1, "Unknown version code for ECC key") - .decode_octet_string_bigint(private_key) + .decode_octet_string_bigint(m_private_key) .decode_optional(key_parameters, ASN1_Tag(0), PRIVATE) .decode_optional_string(public_key_bits, BIT_STRING, 1, PRIVATE) .end_cons(); @@ -134,14 +134,14 @@ EC_PrivateKey::EC_PrivateKey(const AlgorithmIdentifier& alg_id, if(public_key_bits.empty()) { - public_key = domain().get_base_point() * private_key; + m_public_key = domain().get_base_point() * m_private_key; - BOTAN_ASSERT(public_key.on_the_curve(), + BOTAN_ASSERT(m_public_key.on_the_curve(), "Public point derived from loaded key was on the curve"); } else { - public_key = OS2ECP(public_key_bits, domain().get_curve()); + m_public_key = OS2ECP(public_key_bits, domain().get_curve()); // OS2ECP verifies that the point is on the curve } } diff --git a/src/lib/pubkey/ecc_key/ecc_key.h b/src/lib/pubkey/ecc_key/ecc_key.h index 6764df0f0..3557d0266 100644 --- a/src/lib/pubkey/ecc_key/ecc_key.h +++ b/src/lib/pubkey/ecc_key/ecc_key.h @@ -41,7 +41,7 @@ class BOTAN_DLL EC_PublicKey : public virtual Public_Key * domain parameters of this point are not set * @result the public point of this key */ - const PointGFp& public_point() const { return public_key; } + const PointGFp& public_point() const { return m_public_key; } AlgorithmIdentifier algorithm_identifier() const override; @@ -56,7 +56,7 @@ class BOTAN_DLL EC_PublicKey : public virtual Public_Key * domain parameters of this point are not set * @result the domain parameters of this key */ - const EC_Group& domain() const { return domain_params; } + const EC_Group& domain() const { return m_domain_params; } /** * Set the domain parameter encoding to be used when encoding this key. @@ -76,16 +76,16 @@ class BOTAN_DLL EC_PublicKey : public virtual Public_Key * @result the encoding to use */ EC_Group_Encoding domain_format() const - { return domain_encoding; } + { return m_domain_encoding; } size_t estimated_strength() const override; protected: - EC_PublicKey() : domain_encoding(EC_DOMPAR_ENC_EXPLICIT) {} + EC_PublicKey() : m_domain_encoding(EC_DOMPAR_ENC_EXPLICIT) {} - EC_Group domain_params; - PointGFp public_key; - EC_Group_Encoding domain_encoding; + EC_Group m_domain_params; + PointGFp m_public_key; + EC_Group_Encoding m_domain_encoding; }; /** @@ -112,7 +112,7 @@ class BOTAN_DLL EC_PrivateKey : public virtual EC_PublicKey, protected: EC_PrivateKey() {} - BigInt private_key; + BigInt m_private_key; }; } diff --git a/src/lib/pubkey/ecdh/ecdh.cpp b/src/lib/pubkey/ecdh/ecdh.cpp index 6b589df9b..55e215bc1 100644 --- a/src/lib/pubkey/ecdh/ecdh.cpp +++ b/src/lib/pubkey/ecdh/ecdh.cpp @@ -26,23 +26,23 @@ class ECDH_KA_Operation : public PK_Ops::Key_Agreement_with_KDF ECDH_KA_Operation(const ECDH_PrivateKey& key, const std::string& kdf) : PK_Ops::Key_Agreement_with_KDF(kdf), - curve(key.domain().get_curve()), - cofactor(key.domain().get_cofactor()) + m_curve(key.domain().get_curve()), + m_cofactor(key.domain().get_cofactor()) { - l_times_priv = inverse_mod(cofactor, key.domain().get_order()) * key.private_value(); + m_l_times_priv = inverse_mod(m_cofactor, key.domain().get_order()) * key.private_value(); } secure_vector<byte> raw_agree(const byte w[], size_t w_len) override { - PointGFp point = OS2ECP(w, w_len, curve); - PointGFp S = (cofactor * point) * l_times_priv; + PointGFp point = OS2ECP(w, w_len, m_curve); + PointGFp S = (m_cofactor * point) * m_l_times_priv; BOTAN_ASSERT(S.on_the_curve(), "ECDH agreed value was on the curve"); - return BigInt::encode_1363(S.get_affine_x(), curve.get_p().bytes()); + return BigInt::encode_1363(S.get_affine_x(), m_curve.get_p().bytes()); } private: - const CurveGFp& curve; - const BigInt& cofactor; - BigInt l_times_priv; + const CurveGFp& m_curve; + const BigInt& m_cofactor; + BigInt m_l_times_priv; }; } diff --git a/src/lib/pubkey/elgamal/elgamal.cpp b/src/lib/pubkey/elgamal/elgamal.cpp index 4ff3cc47a..10dc195a8 100644 --- a/src/lib/pubkey/elgamal/elgamal.cpp +++ b/src/lib/pubkey/elgamal/elgamal.cpp @@ -19,8 +19,8 @@ namespace Botan { */ ElGamal_PublicKey::ElGamal_PublicKey(const DL_Group& grp, const BigInt& y1) { - group = grp; - y = y1; + m_group = grp; + m_y = y1; } /* @@ -30,13 +30,13 @@ ElGamal_PrivateKey::ElGamal_PrivateKey(RandomNumberGenerator& rng, const DL_Group& grp, const BigInt& x_arg) { - group = grp; - x = x_arg; + m_group = grp; + m_x = x_arg; - if(x == 0) - x.randomize(rng, dl_exponent_size(group_p().bits())); + if(m_x == 0) + m_x.randomize(rng, dl_exponent_size(group_p().bits())); - y = power_mod(group_g(), x, group_p()); + m_y = power_mod(group_g(), m_x, group_p()); if(x_arg == 0) gen_check(rng); @@ -49,7 +49,7 @@ ElGamal_PrivateKey::ElGamal_PrivateKey(const AlgorithmIdentifier& alg_id, RandomNumberGenerator& rng) : DL_Scheme_PrivateKey(alg_id, key_bits, DL_Group::ANSI_X9_42) { - y = power_mod(group_g(), x, group_p()); + m_y = power_mod(group_g(), m_x, group_p()); load_check(rng); } @@ -78,7 +78,7 @@ class ElGamal_Encryption_Operation : public PK_Ops::Encryption_with_EME public: typedef ElGamal_PublicKey Key_Type; - size_t max_raw_input_bits() const override { return mod_p.get_modulus().bits() - 1; } + size_t max_raw_input_bits() const override { return m_mod_p.get_modulus().bits() - 1; } ElGamal_Encryption_Operation(const ElGamal_PublicKey& key, const std::string& eme); @@ -86,8 +86,8 @@ class ElGamal_Encryption_Operation : public PK_Ops::Encryption_with_EME RandomNumberGenerator& rng) override; private: - Fixed_Base_Power_Mod powermod_g_p, powermod_y_p; - Modular_Reducer mod_p; + Fixed_Base_Power_Mod m_powermod_g_p, m_powermod_y_p; + Modular_Reducer m_mod_p; }; ElGamal_Encryption_Operation::ElGamal_Encryption_Operation(const ElGamal_PublicKey& key, @@ -96,16 +96,16 @@ ElGamal_Encryption_Operation::ElGamal_Encryption_Operation(const ElGamal_PublicK { const BigInt& p = key.group_p(); - powermod_g_p = Fixed_Base_Power_Mod(key.group_g(), p); - powermod_y_p = Fixed_Base_Power_Mod(key.get_y(), p); - mod_p = Modular_Reducer(p); + m_powermod_g_p = Fixed_Base_Power_Mod(key.group_g(), p); + m_powermod_y_p = Fixed_Base_Power_Mod(key.get_y(), p); + m_mod_p = Modular_Reducer(p); } secure_vector<byte> ElGamal_Encryption_Operation::raw_encrypt(const byte msg[], size_t msg_len, RandomNumberGenerator& rng) { - const BigInt& p = mod_p.get_modulus(); + const BigInt& p = m_mod_p.get_modulus(); BigInt m(msg, msg_len); @@ -114,8 +114,8 @@ ElGamal_Encryption_Operation::raw_encrypt(const byte msg[], size_t msg_len, BigInt k(rng, dl_exponent_size(p.bits())); - BigInt a = powermod_g_p(k); - BigInt b = mod_p.multiply(m, powermod_y_p(k)); + BigInt a = m_powermod_g_p(k); + BigInt b = m_mod_p.multiply(m, m_powermod_y_p(k)); secure_vector<byte> output(2*p.bytes()); a.binary_encode(&output[p.bytes() - a.bytes()]); @@ -132,32 +132,32 @@ class ElGamal_Decryption_Operation : public PK_Ops::Decryption_with_EME typedef ElGamal_PrivateKey Key_Type; size_t max_raw_input_bits() const override - { return mod_p.get_modulus().bits() - 1; } + { return m_mod_p.get_modulus().bits() - 1; } ElGamal_Decryption_Operation(const ElGamal_PrivateKey& key, const std::string& eme); secure_vector<byte> raw_decrypt(const byte msg[], size_t msg_len) override; private: - Fixed_Exponent_Power_Mod powermod_x_p; - Modular_Reducer mod_p; - Blinder blinder; + Fixed_Exponent_Power_Mod m_powermod_x_p; + Modular_Reducer m_mod_p; + Blinder m_blinder; }; ElGamal_Decryption_Operation::ElGamal_Decryption_Operation(const ElGamal_PrivateKey& key, const std::string& eme) : PK_Ops::Decryption_with_EME(eme), - powermod_x_p(Fixed_Exponent_Power_Mod(key.get_x(), key.group_p())), - mod_p(Modular_Reducer(key.group_p())), - blinder(key.group_p(), + m_powermod_x_p(Fixed_Exponent_Power_Mod(key.get_x(), key.group_p())), + m_mod_p(Modular_Reducer(key.group_p())), + m_blinder(key.group_p(), [](const BigInt& k) { return k; }, - [this](const BigInt& k) { return powermod_x_p(k); }) + [this](const BigInt& k) { return m_powermod_x_p(k); }) { } secure_vector<byte> ElGamal_Decryption_Operation::raw_decrypt(const byte msg[], size_t msg_len) { - const BigInt& p = mod_p.get_modulus(); + const BigInt& p = m_mod_p.get_modulus(); const size_t p_bytes = p.bytes(); @@ -170,11 +170,11 @@ ElGamal_Decryption_Operation::raw_decrypt(const byte msg[], size_t msg_len) if(a >= p || b >= p) throw Invalid_Argument("ElGamal decryption: Invalid message"); - a = blinder.blind(a); + a = m_blinder.blind(a); - BigInt r = mod_p.multiply(b, inverse_mod(powermod_x_p(a), p)); + BigInt r = m_mod_p.multiply(b, inverse_mod(m_powermod_x_p(a), p)); - return BigInt::encode_locked(blinder.unblind(r)); + return BigInt::encode_locked(m_blinder.unblind(r)); } BOTAN_REGISTER_PK_ENCRYPTION_OP("ElGamal", ElGamal_Encryption_Operation); diff --git a/src/lib/pubkey/gost_3410/gost_3410.cpp b/src/lib/pubkey/gost_3410/gost_3410.cpp index f04692d12..51db47619 100644 --- a/src/lib/pubkey/gost_3410/gost_3410.cpp +++ b/src/lib/pubkey/gost_3410/gost_3410.cpp @@ -55,7 +55,7 @@ GOST_3410_PublicKey::GOST_3410_PublicKey(const AlgorithmIdentifier& alg_id, // The parameters also includes hash and cipher OIDs BER_Decoder(alg_id.parameters).start_cons(SEQUENCE).decode(ecc_param_id); - domain_params = EC_Group(ecc_param_id); + m_domain_params = EC_Group(ecc_param_id); secure_vector<byte> bits; BER_Decoder(key_bits).decode(bits, OCTET_STRING); @@ -72,9 +72,9 @@ GOST_3410_PublicKey::GOST_3410_PublicKey(const AlgorithmIdentifier& alg_id, BigInt x(bits.data(), part_size); BigInt y(&bits[part_size], part_size); - public_key = PointGFp(domain().get_curve(), x, y); + m_public_key = PointGFp(domain().get_curve(), x, y); - BOTAN_ASSERT(public_key.on_the_curve(), + BOTAN_ASSERT(m_public_key.on_the_curve(), "Loaded GOST 34.10 public key is on the curve"); } @@ -160,28 +160,28 @@ class GOST_3410_Verification_Operation : public PK_Ops::Verification_with_EMSA GOST_3410_Verification_Operation(const GOST_3410_PublicKey& gost, const std::string& emsa) : PK_Ops::Verification_with_EMSA(emsa), - base_point(gost.domain().get_base_point()), - public_point(gost.public_point()), - order(gost.domain().get_order()) {} + m_base_point(gost.domain().get_base_point()), + m_public_point(gost.public_point()), + m_order(gost.domain().get_order()) {} size_t message_parts() const override { return 2; } - size_t message_part_size() const override { return order.bytes(); } - size_t max_input_bits() const override { return order.bits(); } + size_t message_part_size() const override { return m_order.bytes(); } + size_t max_input_bits() const override { return m_order.bits(); } bool with_recovery() const override { return false; } bool verify(const byte msg[], size_t msg_len, const byte sig[], size_t sig_len) override; private: - const PointGFp& base_point; - const PointGFp& public_point; - const BigInt& order; + const PointGFp& m_base_point; + const PointGFp& m_public_point; + const BigInt& m_order; }; bool GOST_3410_Verification_Operation::verify(const byte msg[], size_t msg_len, const byte sig[], size_t sig_len) { - if(sig_len != order.bytes()*2) + if(sig_len != m_order.bytes()*2) return false; BigInt e = decode_le(msg, msg_len); @@ -189,20 +189,20 @@ bool GOST_3410_Verification_Operation::verify(const byte msg[], size_t msg_len, BigInt s(sig, sig_len / 2); BigInt r(sig + sig_len / 2, sig_len / 2); - if(r <= 0 || r >= order || s <= 0 || s >= order) + if(r <= 0 || r >= m_order || s <= 0 || s >= m_order) return false; - e %= order; + e %= m_order; if(e == 0) e = 1; - BigInt v = inverse_mod(e, order); + BigInt v = inverse_mod(e, m_order); - BigInt z1 = (s*v) % order; - BigInt z2 = (-r*v) % order; + BigInt z1 = (s*v) % m_order; + BigInt z2 = (-r*v) % m_order; - PointGFp R = multi_exponentiate(base_point, z1, - public_point, z2); + PointGFp R = multi_exponentiate(m_base_point, z1, + m_public_point, z2); if(R.is_zero()) return false; diff --git a/src/lib/pubkey/if_algo/if_algo.cpp b/src/lib/pubkey/if_algo/if_algo.cpp index 9c49b8dd4..a79cad116 100644 --- a/src/lib/pubkey/if_algo/if_algo.cpp +++ b/src/lib/pubkey/if_algo/if_algo.cpp @@ -15,7 +15,7 @@ namespace Botan { size_t IF_Scheme_PublicKey::estimated_strength() const { - return if_work_factor(n.bits()); + return if_work_factor(m_n.bits()); } AlgorithmIdentifier IF_Scheme_PublicKey::algorithm_identifier() const @@ -28,8 +28,8 @@ std::vector<byte> IF_Scheme_PublicKey::x509_subject_public_key() const { return DER_Encoder() .start_cons(SEQUENCE) - .encode(n) - .encode(e) + .encode(m_n) + .encode(m_e) .end_cons() .get_contents_unlocked(); } @@ -39,8 +39,8 @@ IF_Scheme_PublicKey::IF_Scheme_PublicKey(const AlgorithmIdentifier&, { BER_Decoder(key_bits) .start_cons(SEQUENCE) - .decode(n) - .decode(e) + .decode(m_n) + .decode(m_e) .verify_end() .end_cons(); } @@ -50,7 +50,7 @@ IF_Scheme_PublicKey::IF_Scheme_PublicKey(const AlgorithmIdentifier&, */ bool IF_Scheme_PublicKey::check_key(RandomNumberGenerator&, bool) const { - if(n < 35 || n.is_even() || e < 2) + if(m_n < 35 || m_n.is_even() || m_e < 2) return false; return true; } @@ -60,14 +60,14 @@ secure_vector<byte> IF_Scheme_PrivateKey::pkcs8_private_key() const return DER_Encoder() .start_cons(SEQUENCE) .encode(static_cast<size_t>(0)) - .encode(n) - .encode(e) - .encode(d) - .encode(p) - .encode(q) - .encode(d1) - .encode(d2) - .encode(c) + .encode(m_n) + .encode(m_e) + .encode(m_d) + .encode(m_p) + .encode(m_q) + .encode(m_d1) + .encode(m_d2) + .encode(m_c) .end_cons() .get_contents(); } @@ -79,14 +79,14 @@ IF_Scheme_PrivateKey::IF_Scheme_PrivateKey(RandomNumberGenerator& rng, BER_Decoder(key_bits) .start_cons(SEQUENCE) .decode_and_check<size_t>(0, "Unknown PKCS #1 key format version") - .decode(n) - .decode(e) - .decode(d) - .decode(p) - .decode(q) - .decode(d1) - .decode(d2) - .decode(c) + .decode(m_n) + .decode(m_e) + .decode(m_d) + .decode(m_p) + .decode(m_q) + .decode(m_d1) + .decode(m_d2) + .decode(m_c) .end_cons(); load_check(rng); @@ -99,24 +99,24 @@ IF_Scheme_PrivateKey::IF_Scheme_PrivateKey(RandomNumberGenerator& rng, const BigInt& d_exp, const BigInt& mod) { - p = prime1; - q = prime2; - e = exp; - d = d_exp; - n = mod.is_nonzero() ? mod : p * q; + m_p = prime1; + m_q = prime2; + m_e = exp; + m_d = d_exp; + m_n = mod.is_nonzero() ? mod : m_p * m_q; - if(d == 0) + if(m_d == 0) { - BigInt inv_for_d = lcm(p - 1, q - 1); - if(e.is_even()) + BigInt inv_for_d = lcm(m_p - 1, m_q - 1); + if(m_e.is_even()) inv_for_d >>= 1; - d = inverse_mod(e, inv_for_d); + m_d = inverse_mod(m_e, inv_for_d); } - d1 = d % (p - 1); - d2 = d % (q - 1); - c = inverse_mod(q, p); + m_d1 = m_d % (m_p - 1); + m_d2 = m_d % (m_q - 1); + m_c = inverse_mod(m_q, m_p); load_check(rng); } @@ -127,15 +127,15 @@ IF_Scheme_PrivateKey::IF_Scheme_PrivateKey(RandomNumberGenerator& rng, bool IF_Scheme_PrivateKey::check_key(RandomNumberGenerator& rng, bool strong) const { - if(n < 35 || n.is_even() || e < 2 || d < 2 || p < 3 || q < 3 || p*q != n) + if(m_n < 35 || m_n.is_even() || m_e < 2 || m_d < 2 || m_p < 3 || m_q < 3 || m_p*m_q != m_n) return false; - if(d1 != d % (p - 1) || d2 != d % (q - 1) || c != inverse_mod(q, p)) + if(m_d1 != m_d % (m_p - 1) || m_d2 != m_d % (m_q - 1) || m_c != inverse_mod(m_q, m_p)) return false; const size_t prob = (strong) ? 56 : 12; - if(!is_prime(p, rng, prob) || !is_prime(q, rng, prob)) + if(!is_prime(m_p, rng, prob) || !is_prime(m_q, rng, prob)) return false; return true; } diff --git a/src/lib/pubkey/if_algo/if_algo.h b/src/lib/pubkey/if_algo/if_algo.h index dec731af3..46dbd51a9 100644 --- a/src/lib/pubkey/if_algo/if_algo.h +++ b/src/lib/pubkey/if_algo/if_algo.h @@ -24,7 +24,7 @@ class BOTAN_DLL IF_Scheme_PublicKey : public virtual Public_Key const secure_vector<byte>& key_bits); IF_Scheme_PublicKey(const BigInt& n, const BigInt& e) : - n(n), e(e) {} + m_n(n), m_e(e) {} bool check_key(RandomNumberGenerator& rng, bool) const override; @@ -35,21 +35,21 @@ class BOTAN_DLL IF_Scheme_PublicKey : public virtual Public_Key /** * @return public modulus */ - const BigInt& get_n() const { return n; } + const BigInt& get_n() const { return m_n; } /** * @return public exponent */ - const BigInt& get_e() const { return e; } + const BigInt& get_e() const { return m_e; } - size_t max_input_bits() const override { return (n.bits() - 1); } + size_t max_input_bits() const override { return (m_n.bits() - 1); } size_t estimated_strength() const override; protected: IF_Scheme_PublicKey() {} - BigInt n, e; + BigInt m_n, m_e; }; /** @@ -76,30 +76,30 @@ class BOTAN_DLL IF_Scheme_PrivateKey : public virtual IF_Scheme_PublicKey, * Get the first prime p. * @return prime p */ - const BigInt& get_p() const { return p; } + const BigInt& get_p() const { return m_p; } /** * Get the second prime q. * @return prime q */ - const BigInt& get_q() const { return q; } + const BigInt& get_q() const { return m_q; } /** * Get d with exp * d = 1 mod (p - 1, q - 1). * @return d */ - const BigInt& get_d() const { return d; } + const BigInt& get_d() const { return m_d; } - const BigInt& get_c() const { return c; } - const BigInt& get_d1() const { return d1; } - const BigInt& get_d2() const { return d2; } + const BigInt& get_c() const { return m_c; } + const BigInt& get_d1() const { return m_d1; } + const BigInt& get_d2() const { return m_d2; } secure_vector<byte> pkcs8_private_key() const override; protected: IF_Scheme_PrivateKey() {} - BigInt d, p, q, d1, d2, c; + BigInt m_d, m_p, m_q, m_d1, m_d2, m_c; }; } diff --git a/src/lib/pubkey/mce/polyn_gf2m.h b/src/lib/pubkey/mce/polyn_gf2m.h index 5d012f27b..938c1f553 100644 --- a/src/lib/pubkey/mce/polyn_gf2m.h +++ b/src/lib/pubkey/mce/polyn_gf2m.h @@ -147,8 +147,13 @@ struct polyn_gf2m static polyn_gf2m gcd_aux(polyn_gf2m& p1, polyn_gf2m& p2); public: + // public member variable: int m_deg; + + // public member variable: secure_vector<gf2m> coeff; + + // public member variable: std::shared_ptr<GF2m_Field> msp_field; }; diff --git a/src/lib/pubkey/nr/nr.cpp b/src/lib/pubkey/nr/nr.cpp index ed90c2345..64e08a111 100644 --- a/src/lib/pubkey/nr/nr.cpp +++ b/src/lib/pubkey/nr/nr.cpp @@ -24,8 +24,8 @@ NR_PublicKey::NR_PublicKey(const AlgorithmIdentifier& alg_id, */ NR_PublicKey::NR_PublicKey(const DL_Group& grp, const BigInt& y1) { - group = grp; - y = y1; + m_group = grp; + m_y = y1; } /* @@ -35,13 +35,13 @@ NR_PrivateKey::NR_PrivateKey(RandomNumberGenerator& rng, const DL_Group& grp, const BigInt& x_arg) { - group = grp; - x = x_arg; + m_group = grp; + m_x = x_arg; - if(x == 0) - x = BigInt::random_integer(rng, 2, group_q() - 1); + if(m_x == 0) + m_x = BigInt::random_integer(rng, 2, group_q() - 1); - y = power_mod(group_g(), x, group_p()); + m_y = power_mod(group_g(), m_x, group_p()); if(x_arg == 0) gen_check(rng); @@ -54,7 +54,7 @@ NR_PrivateKey::NR_PrivateKey(const AlgorithmIdentifier& alg_id, RandomNumberGenerator& rng) : DL_Scheme_PrivateKey(alg_id, key_bits, DL_Group::ANSI_X9_57) { - y = power_mod(group_g(), x, group_p()); + m_y = power_mod(group_g(), m_x, group_p()); load_check(rng); } @@ -64,7 +64,7 @@ NR_PrivateKey::NR_PrivateKey(const AlgorithmIdentifier& alg_id, */ bool NR_PrivateKey::check_key(RandomNumberGenerator& rng, bool strong) const { - if(!DL_Scheme_PrivateKey::check_key(rng, strong) || x >= group_q()) + if(!DL_Scheme_PrivateKey::check_key(rng, strong) || m_x >= group_q()) return false; if(!strong) @@ -84,24 +84,24 @@ class NR_Signature_Operation : public PK_Ops::Signature_with_EMSA typedef NR_PrivateKey Key_Type; NR_Signature_Operation(const NR_PrivateKey& nr, const std::string& emsa) : PK_Ops::Signature_with_EMSA(emsa), - q(nr.group_q()), - x(nr.get_x()), - powermod_g_p(nr.group_g(), nr.group_p()), - mod_q(nr.group_q()) + m_q(nr.group_q()), + m_x(nr.get_x()), + m_powermod_g_p(nr.group_g(), nr.group_p()), + m_mod_q(nr.group_q()) { } size_t message_parts() const override { return 2; } - size_t message_part_size() const override { return q.bytes(); } - size_t max_input_bits() const override { return (q.bits() - 1); } + size_t message_part_size() const override { return m_q.bytes(); } + size_t max_input_bits() const override { return (m_q.bits() - 1); } secure_vector<byte> raw_sign(const byte msg[], size_t msg_len, RandomNumberGenerator& rng) override; private: - const BigInt& q; - const BigInt& x; - Fixed_Base_Power_Mod powermod_g_p; - Modular_Reducer mod_q; + const BigInt& m_q; + const BigInt& m_x; + Fixed_Base_Power_Mod m_powermod_g_p; + Modular_Reducer m_mod_q; }; secure_vector<byte> @@ -112,7 +112,7 @@ NR_Signature_Operation::raw_sign(const byte msg[], size_t msg_len, BigInt f(msg, msg_len); - if(f >= q) + if(f >= m_q) throw Invalid_Argument("NR_Signature_Operation: Input is out of range"); BigInt c, d; @@ -121,14 +121,14 @@ NR_Signature_Operation::raw_sign(const byte msg[], size_t msg_len, { BigInt k; do - k.randomize(rng, q.bits()); - while(k >= q); + k.randomize(rng, m_q.bits()); + while(k >= m_q); - c = mod_q.reduce(powermod_g_p(k) + f); - d = mod_q.reduce(k - x * c); + c = m_mod_q.reduce(m_powermod_g_p(k) + f); + d = m_mod_q.reduce(k - m_x * c); } - secure_vector<byte> output(2*q.bytes()); + secure_vector<byte> output(2*m_q.bytes()); c.binary_encode(&output[output.size() / 2 - c.bytes()]); d.binary_encode(&output[output.size() - d.bytes()]); return output; @@ -144,33 +144,33 @@ class NR_Verification_Operation : public PK_Ops::Verification_with_EMSA typedef NR_PublicKey Key_Type; NR_Verification_Operation(const NR_PublicKey& nr, const std::string& emsa) : PK_Ops::Verification_with_EMSA(emsa), - q(nr.group_q()), y(nr.get_y()) + m_q(nr.group_q()), m_y(nr.get_y()) { - powermod_g_p = Fixed_Base_Power_Mod(nr.group_g(), nr.group_p()); - powermod_y_p = Fixed_Base_Power_Mod(y, nr.group_p()); - mod_p = Modular_Reducer(nr.group_p()); - mod_q = Modular_Reducer(nr.group_q()); + m_powermod_g_p = Fixed_Base_Power_Mod(nr.group_g(), nr.group_p()); + m_powermod_y_p = Fixed_Base_Power_Mod(m_y, nr.group_p()); + m_mod_p = Modular_Reducer(nr.group_p()); + m_mod_q = Modular_Reducer(nr.group_q()); } size_t message_parts() const override { return 2; } - size_t message_part_size() const override { return q.bytes(); } - size_t max_input_bits() const override { return (q.bits() - 1); } + size_t message_part_size() const override { return m_q.bytes(); } + size_t max_input_bits() const override { return (m_q.bits() - 1); } bool with_recovery() const override { return true; } secure_vector<byte> verify_mr(const byte msg[], size_t msg_len) override; private: - const BigInt& q; - const BigInt& y; + const BigInt& m_q; + const BigInt& m_y; - Fixed_Base_Power_Mod powermod_g_p, powermod_y_p; - Modular_Reducer mod_p, mod_q; + Fixed_Base_Power_Mod m_powermod_g_p, m_powermod_y_p; + Modular_Reducer m_mod_p, m_mod_q; }; secure_vector<byte> NR_Verification_Operation::verify_mr(const byte msg[], size_t msg_len) { - const BigInt& q = mod_q.get_modulus(); + const BigInt& q = m_mod_q.get_modulus(); if(msg_len != 2*q.bytes()) throw Invalid_Argument("NR verification: Invalid signature"); @@ -181,11 +181,11 @@ NR_Verification_Operation::verify_mr(const byte msg[], size_t msg_len) if(c.is_zero() || c >= q || d >= q) throw Invalid_Argument("NR verification: Invalid signature"); - auto future_y_c = std::async(std::launch::async, powermod_y_p, c); - BigInt g_d = powermod_g_p(d); + auto future_y_c = std::async(std::launch::async, m_powermod_y_p, c); + BigInt g_d = m_powermod_g_p(d); - BigInt i = mod_p.multiply(g_d, future_y_c.get()); - return BigInt::encode_locked(mod_q.reduce(c - i)); + BigInt i = m_mod_p.multiply(g_d, future_y_c.get()); + return BigInt::encode_locked(m_mod_q.reduce(c - i)); } } diff --git a/src/lib/pubkey/rsa/rsa.cpp b/src/lib/pubkey/rsa/rsa.cpp index 57fab94c5..8d75d4a29 100644 --- a/src/lib/pubkey/rsa/rsa.cpp +++ b/src/lib/pubkey/rsa/rsa.cpp @@ -27,19 +27,19 @@ RSA_PrivateKey::RSA_PrivateKey(RandomNumberGenerator& rng, if(exp < 3 || exp % 2 == 0) throw Invalid_Argument(algo_name() + ": Invalid encryption exponent"); - e = exp; + m_e = exp; do { - p = random_prime(rng, (bits + 1) / 2, e); - q = random_prime(rng, bits - p.bits(), e); - n = p * q; - } while(n.bits() != bits); + m_p = random_prime(rng, (bits + 1) / 2, m_e); + m_q = random_prime(rng, bits - m_p.bits(), m_e); + m_n = m_p * m_q; + } while(m_n.bits() != bits); - d = inverse_mod(e, lcm(p - 1, q - 1)); - d1 = d % (p - 1); - d2 = d % (q - 1); - c = inverse_mod(q, p); + m_d = inverse_mod(m_e, lcm(m_p - 1, m_q - 1)); + m_d1 = m_d % (m_p - 1); + m_d2 = m_d % (m_q - 1); + m_c = inverse_mod(m_q, m_p); gen_check(rng); } @@ -55,7 +55,7 @@ bool RSA_PrivateKey::check_key(RandomNumberGenerator& rng, bool strong) const if(!strong) return true; - if((e * d) % lcm(p - 1, q - 1) != 1) + if((m_e * m_d) % lcm(m_p - 1, m_q - 1) != 1) return false; return KeyPair::signature_consistency_check(rng, *this, "EMSA4(SHA-1)"); @@ -69,25 +69,25 @@ namespace { class RSA_Private_Operation { protected: - size_t get_max_input_bits() const { return (n.bits() - 1); } + size_t get_max_input_bits() const { return (m_n.bits() - 1); } RSA_Private_Operation(const RSA_PrivateKey& rsa) : - n(rsa.get_n()), - q(rsa.get_q()), - c(rsa.get_c()), + m_n(rsa.get_n()), + m_q(rsa.get_q()), + m_c(rsa.get_c()), m_powermod_e_n(rsa.get_e(), rsa.get_n()), m_powermod_d1_p(rsa.get_d1(), rsa.get_p()), m_powermod_d2_q(rsa.get_d2(), rsa.get_q()), m_mod_p(rsa.get_p()), - m_blinder(n, + m_blinder(m_n, [this](const BigInt& k) { return m_powermod_e_n(k); }, - [this](const BigInt& k) { return inverse_mod(k, n); }) + [this](const BigInt& k) { return inverse_mod(k, m_n); }) { } BigInt blinded_private_op(const BigInt& m) const { - if(m >= n) + if(m >= m_n) throw Invalid_Argument("RSA private op - input is too large"); return m_blinder.unblind(private_op(m_blinder.blind(m))); @@ -99,14 +99,14 @@ class RSA_Private_Operation BigInt j2 = m_powermod_d2_q(m); BigInt j1 = future_j1.get(); - j1 = m_mod_p.reduce(sub_mul(j1, j2, c)); + j1 = m_mod_p.reduce(sub_mul(j1, j2, m_c)); - return mul_add(j1, q, j2); + return mul_add(j1, m_q, j2); } - const BigInt& n; - const BigInt& q; - const BigInt& c; + const BigInt& m_n; + const BigInt& m_q; + const BigInt& m_c; Fixed_Exponent_Power_Mod m_powermod_e_n, m_powermod_d1_p, m_powermod_d2_q; Modular_Reducer m_mod_p; Blinder m_blinder; @@ -133,7 +133,7 @@ class RSA_Signature_Operation : public PK_Ops::Signature_with_EMSA, const BigInt x = blinded_private_op(m); const BigInt c = m_powermod_e_n(x); BOTAN_ASSERT(m == c, "RSA sign consistency check"); - return BigInt::encode_1363(x, n.bytes()); + return BigInt::encode_1363(x, m_n.bytes()); } }; @@ -180,7 +180,7 @@ class RSA_KEM_Decryption_Operation : public PK_Ops::KEM_Decryption_with_KDF, const BigInt x = blinded_private_op(m); const BigInt c = m_powermod_e_n(x); BOTAN_ASSERT(m == c, "RSA KEM consistency check"); - return BigInt::encode_1363(x, n.bytes()); + return BigInt::encode_1363(x, m_n.bytes()); } }; diff --git a/src/lib/pubkey/rw/rw.cpp b/src/lib/pubkey/rw/rw.cpp index aa92578af..bf6b647a1 100644 --- a/src/lib/pubkey/rw/rw.cpp +++ b/src/lib/pubkey/rw/rw.cpp @@ -28,19 +28,19 @@ RW_PrivateKey::RW_PrivateKey(RandomNumberGenerator& rng, if(exp < 2 || exp % 2 == 1) throw Invalid_Argument(algo_name() + ": Invalid encryption exponent"); - e = exp; + m_e = exp; do { - p = random_prime(rng, (bits + 1) / 2, e / 2, 3, 4); - q = random_prime(rng, bits - p.bits(), e / 2, ((p % 8 == 3) ? 7 : 3), 8); - n = p * q; - } while(n.bits() != bits); + m_p = random_prime(rng, (bits + 1) / 2, m_e / 2, 3, 4); + m_q = random_prime(rng, bits - m_p.bits(), m_e / 2, ((m_p % 8 == 3) ? 7 : 3), 8); + m_n = m_p * m_q; + } while(m_n.bits() != bits); - d = inverse_mod(e, lcm(p - 1, q - 1) >> 1); - d1 = d % (p - 1); - d2 = d % (q - 1); - c = inverse_mod(q, p); + m_d = inverse_mod(m_e, lcm(m_p - 1, m_q - 1) >> 1); + m_d1 = m_d % (m_p - 1); + m_d2 = m_d % (m_q - 1); + m_c = inverse_mod(m_q, m_p); gen_check(rng); } @@ -56,7 +56,7 @@ bool RW_PrivateKey::check_key(RandomNumberGenerator& rng, bool strong) const if(!strong) return true; - if((e * d) % (lcm(p - 1, q - 1) / 2) != 1) + if((m_e * m_d) % (lcm(m_p - 1, m_q - 1) / 2) != 1) return false; return KeyPair::signature_consistency_check(rng, *this, "EMSA2(SHA-1)"); @@ -75,32 +75,32 @@ class RW_Signature_Operation : public PK_Ops::Signature_with_EMSA RW_Signature_Operation(const RW_PrivateKey& rw, const std::string& emsa) : PK_Ops::Signature_with_EMSA(emsa), - n(rw.get_n()), - e(rw.get_e()), - q(rw.get_q()), - c(rw.get_c()), - powermod_d1_p(rw.get_d1(), rw.get_p()), - powermod_d2_q(rw.get_d2(), rw.get_q()), - mod_p(rw.get_p()), - blinder(n, - [this](const BigInt& k) { return power_mod(k, e, n); }, - [this](const BigInt& k) { return inverse_mod(k, n); }) + m_n(rw.get_n()), + m_e(rw.get_e()), + m_q(rw.get_q()), + m_c(rw.get_c()), + m_powermod_d1_p(rw.get_d1(), rw.get_p()), + m_powermod_d2_q(rw.get_d2(), rw.get_q()), + m_mod_p(rw.get_p()), + m_blinder(m_n, + [this](const BigInt& k) { return power_mod(k, m_e, m_n); }, + [this](const BigInt& k) { return inverse_mod(k, m_n); }) { } - size_t max_input_bits() const override { return (n.bits() - 1); } + size_t max_input_bits() const override { return (m_n.bits() - 1); } secure_vector<byte> raw_sign(const byte msg[], size_t msg_len, RandomNumberGenerator& rng) override; private: - const BigInt& n; - const BigInt& e; - const BigInt& q; - const BigInt& c; - - Fixed_Exponent_Power_Mod powermod_d1_p, powermod_d2_q; - Modular_Reducer mod_p; - Blinder blinder; + const BigInt& m_n; + const BigInt& m_e; + const BigInt& m_q; + const BigInt& m_c; + + Fixed_Exponent_Power_Mod m_powermod_d1_p, m_powermod_d2_q; + Modular_Reducer m_mod_p; + Blinder m_blinder; }; secure_vector<byte> @@ -109,23 +109,23 @@ RW_Signature_Operation::raw_sign(const byte msg[], size_t msg_len, { BigInt i(msg, msg_len); - if(i >= n || i % 16 != 12) + if(i >= m_n || i % 16 != 12) throw Invalid_Argument("Rabin-Williams: invalid input"); - if(jacobi(i, n) != 1) + if(jacobi(i, m_n) != 1) i >>= 1; - i = blinder.blind(i); + i = m_blinder.blind(i); - auto future_j1 = std::async(std::launch::async, powermod_d1_p, i); - const BigInt j2 = powermod_d2_q(i); + auto future_j1 = std::async(std::launch::async, m_powermod_d1_p, i); + const BigInt j2 = m_powermod_d2_q(i); BigInt j1 = future_j1.get(); - j1 = mod_p.reduce(sub_mul(j1, j2, c)); + j1 = m_mod_p.reduce(sub_mul(j1, j2, m_c)); - const BigInt r = blinder.unblind(mul_add(j1, q, j2)); + const BigInt r = m_blinder.unblind(mul_add(j1, m_q, j2)); - return BigInt::encode_1363(std::min(r, n - r), n.bytes()); + return BigInt::encode_1363(std::min(r, m_n - r), m_n.bytes()); } /** @@ -138,17 +138,17 @@ class RW_Verification_Operation : public PK_Ops::Verification_with_EMSA RW_Verification_Operation(const RW_PublicKey& rw, const std::string& emsa) : PK_Ops::Verification_with_EMSA(emsa), - n(rw.get_n()), powermod_e_n(rw.get_e(), rw.get_n()) + m_n(rw.get_n()), m_powermod_e_n(rw.get_e(), rw.get_n()) {} - size_t max_input_bits() const override { return (n.bits() - 1); } + size_t max_input_bits() const override { return (m_n.bits() - 1); } bool with_recovery() const override { return true; } secure_vector<byte> verify_mr(const byte msg[], size_t msg_len) override; private: - const BigInt& n; - Fixed_Exponent_Power_Mod powermod_e_n; + const BigInt& m_n; + Fixed_Exponent_Power_Mod m_powermod_e_n; }; secure_vector<byte> @@ -156,16 +156,16 @@ RW_Verification_Operation::verify_mr(const byte msg[], size_t msg_len) { BigInt m(msg, msg_len); - if((m > (n >> 1)) || m.is_negative()) + if((m > (m_n >> 1)) || m.is_negative()) throw Invalid_Argument("RW signature verification: m > n / 2 || m < 0"); - BigInt r = powermod_e_n(m); + BigInt r = m_powermod_e_n(m); if(r % 16 == 12) return BigInt::encode_locked(r); if(r % 8 == 6) return BigInt::encode_locked(2*r); - r = n - r; + r = m_n - r; if(r % 16 == 12) return BigInt::encode_locked(r); if(r % 8 == 6) diff --git a/src/lib/stream/rc4/rc4.cpp b/src/lib/stream/rc4/rc4.cpp index 9a6268b8c..895f38091 100644 --- a/src/lib/stream/rc4/rc4.cpp +++ b/src/lib/stream/rc4/rc4.cpp @@ -23,16 +23,16 @@ RC4* RC4::make(const Spec& spec) */ void RC4::cipher(const byte in[], byte out[], size_t length) { - while(length >= buffer.size() - position) + while(length >= m_buffer.size() - m_position) { - xor_buf(out, in, &buffer[position], buffer.size() - position); - length -= (buffer.size() - position); - in += (buffer.size() - position); - out += (buffer.size() - position); + xor_buf(out, in, &m_buffer[m_position], m_buffer.size() - m_position); + length -= (m_buffer.size() - m_position); + in += (m_buffer.size() - m_position); + out += (m_buffer.size() - m_position); generate(); } - xor_buf(out, in, &buffer[position], length); - position += length; + xor_buf(out, in, &m_buffer[m_position], length); + m_position += length; } /* @@ -41,26 +41,26 @@ void RC4::cipher(const byte in[], byte out[], size_t length) void RC4::generate() { byte SX, SY; - for(size_t i = 0; i != buffer.size(); i += 4) + for(size_t i = 0; i != m_buffer.size(); i += 4) { - SX = state[X+1]; Y = (Y + SX) % 256; SY = state[Y]; - state[X+1] = SY; state[Y] = SX; - buffer[i] = state[(SX + SY) % 256]; - - SX = state[X+2]; Y = (Y + SX) % 256; SY = state[Y]; - state[X+2] = SY; state[Y] = SX; - buffer[i+1] = state[(SX + SY) % 256]; - - SX = state[X+3]; Y = (Y + SX) % 256; SY = state[Y]; - state[X+3] = SY; state[Y] = SX; - buffer[i+2] = state[(SX + SY) % 256]; - - X = (X + 4) % 256; - SX = state[X]; Y = (Y + SX) % 256; SY = state[Y]; - state[X] = SY; state[Y] = SX; - buffer[i+3] = state[(SX + SY) % 256]; + SX = m_state[m_X+1]; m_Y = (m_Y + SX) % 256; SY = m_state[m_Y]; + m_state[m_X+1] = SY; m_state[m_Y] = SX; + m_buffer[i] = m_state[(SX + SY) % 256]; + + SX = m_state[m_X+2]; m_Y = (m_Y + SX) % 256; SY = m_state[m_Y]; + m_state[m_X+2] = SY; m_state[m_Y] = SX; + m_buffer[i+1] = m_state[(SX + SY) % 256]; + + SX = m_state[m_X+3]; m_Y = (m_Y + SX) % 256; SY = m_state[m_Y]; + m_state[m_X+3] = SY; m_state[m_Y] = SX; + m_buffer[i+2] = m_state[(SX + SY) % 256]; + + m_X = (m_X + 4) % 256; + SX = m_state[m_X]; m_Y = (m_Y + SX) % 256; SY = m_state[m_Y]; + m_state[m_X] = SY; m_state[m_Y] = SX; + m_buffer[i+3] = m_state[(SX + SY) % 256]; } - position = 0; + m_position = 0; } /* @@ -68,24 +68,24 @@ void RC4::generate() */ void RC4::key_schedule(const byte key[], size_t length) { - state.resize(256); - buffer.resize(256); + m_state.resize(256); + m_buffer.resize(256); - position = X = Y = 0; + m_position = m_X = m_Y = 0; for(size_t i = 0; i != 256; ++i) - state[i] = static_cast<byte>(i); + m_state[i] = static_cast<byte>(i); for(size_t i = 0, state_index = 0; i != 256; ++i) { - state_index = (state_index + key[i % length] + state[i]) % 256; - std::swap(state[i], state[state_index]); + state_index = (state_index + key[i % length] + m_state[i]) % 256; + std::swap(m_state[i], m_state[state_index]); } - for(size_t i = 0; i <= SKIP; i += buffer.size()) + for(size_t i = 0; i <= m_SKIP; i += m_buffer.size()) generate(); - position += (SKIP % buffer.size()); + m_position += (m_SKIP % m_buffer.size()); } /* @@ -93,9 +93,9 @@ void RC4::key_schedule(const byte key[], size_t length) */ std::string RC4::name() const { - if(SKIP == 0) return "RC4"; - if(SKIP == 256) return "MARK-4"; - else return "RC4_skip(" + std::to_string(SKIP) + ")"; + if(m_SKIP == 0) return "RC4"; + if(m_SKIP == 256) return "MARK-4"; + else return "RC4_skip(" + std::to_string(m_SKIP) + ")"; } /* @@ -103,14 +103,14 @@ std::string RC4::name() const */ void RC4::clear() { - zap(state); - zap(buffer); - position = X = Y = 0; + zap(m_state); + zap(m_buffer); + m_position = m_X = m_Y = 0; } /* * RC4 Constructor */ -RC4::RC4(size_t s) : SKIP(s) {} +RC4::RC4(size_t s) : m_SKIP(s) {} } diff --git a/src/lib/stream/rc4/rc4.h b/src/lib/stream/rc4/rc4.h index 9c4b2717c..c8c81d1a2 100644 --- a/src/lib/stream/rc4/rc4.h +++ b/src/lib/stream/rc4/rc4.h @@ -24,7 +24,7 @@ class BOTAN_DLL RC4 : public StreamCipher void clear() override; std::string name() const override; - StreamCipher* clone() const override { return new RC4(SKIP); } + StreamCipher* clone() const override { return new RC4(m_SKIP); } Key_Length_Specification key_spec() const override { @@ -43,12 +43,12 @@ class BOTAN_DLL RC4 : public StreamCipher void key_schedule(const byte[], size_t) override; void generate(); - const size_t SKIP; - byte X = 0; - byte Y = 0; - secure_vector<byte> state; - secure_vector<byte> buffer; - size_t position = 0; + const size_t m_SKIP; + byte m_X = 0; + byte m_Y = 0; + secure_vector<byte> m_state; + secure_vector<byte> m_buffer; + size_t m_position = 0; }; } diff --git a/src/lib/tls/tls_extensions.cpp b/src/lib/tls/tls_extensions.cpp index 3ca5be671..421c9e38c 100644 --- a/src/lib/tls/tls_extensions.cpp +++ b/src/lib/tls/tls_extensions.cpp @@ -91,7 +91,7 @@ std::vector<byte> Extensions::serialize() const { std::vector<byte> buf(2); // 2 bytes for length field - for(auto& extn : extensions) + for(auto& extn : m_extensions) { if(extn.second->empty()) continue; @@ -124,7 +124,7 @@ std::vector<byte> Extensions::serialize() const std::set<Handshake_Extension_Type> Extensions::extension_types() const { std::set<Handshake_Extension_Type> offers; - for(auto i = extensions.begin(); i != extensions.end(); ++i) + for(auto i = m_extensions.begin(); i != m_extensions.end(); ++i) offers.insert(i->first); return offers; } @@ -150,8 +150,8 @@ Server_Name_Indicator::Server_Name_Indicator(TLS_Data_Reader& reader, if(name_type == 0) // DNS { - sni_host_name = reader.get_string(2, 1, 65535); - name_bytes -= (2 + sni_host_name.size()); + m_sni_host_name = reader.get_string(2, 1, 65535); + name_bytes -= (2 + m_sni_host_name.size()); } else // some other unknown name type { @@ -165,7 +165,7 @@ std::vector<byte> Server_Name_Indicator::serialize() const { std::vector<byte> buf; - size_t name_len = sni_host_name.size(); + size_t name_len = m_sni_host_name.size(); buf.push_back(get_byte<u16bit>(0, name_len+3)); buf.push_back(get_byte<u16bit>(1, name_len+3)); @@ -175,8 +175,8 @@ std::vector<byte> Server_Name_Indicator::serialize() const buf.push_back(get_byte<u16bit>(1, name_len)); buf += std::make_pair( - reinterpret_cast<const byte*>(sni_host_name.data()), - sni_host_name.size()); + reinterpret_cast<const byte*>(m_sni_host_name.data()), + m_sni_host_name.size()); return buf; } @@ -184,9 +184,9 @@ std::vector<byte> Server_Name_Indicator::serialize() const SRP_Identifier::SRP_Identifier(TLS_Data_Reader& reader, u16bit extension_size) { - srp_identifier = reader.get_string(1, 1, 255); + m_srp_identifier = reader.get_string(1, 1, 255); - if(srp_identifier.size() + 1 != extension_size) + if(m_srp_identifier.size() + 1 != extension_size) throw Decoding_Error("Bad encoding for SRP identifier extension"); } @@ -195,9 +195,9 @@ std::vector<byte> SRP_Identifier::serialize() const std::vector<byte> buf; const byte* srp_bytes = - reinterpret_cast<const byte*>(srp_identifier.data()); + reinterpret_cast<const byte*>(m_srp_identifier.data()); - append_tls_length_value(buf, srp_bytes, srp_identifier.size(), 1); + append_tls_length_value(buf, srp_bytes, m_srp_identifier.size(), 1); return buf; } @@ -205,16 +205,16 @@ std::vector<byte> SRP_Identifier::serialize() const Renegotiation_Extension::Renegotiation_Extension(TLS_Data_Reader& reader, u16bit extension_size) { - reneg_data = reader.get_range<byte>(1, 0, 255); + m_reneg_data = reader.get_range<byte>(1, 0, 255); - if(reneg_data.size() + 1 != extension_size) + if(m_reneg_data.size() + 1 != extension_size) throw Decoding_Error("Bad encoding for secure renegotiation extn"); } std::vector<byte> Renegotiation_Extension::serialize() const { std::vector<byte> buf; - append_tls_length_value(buf, reneg_data, 1); + append_tls_length_value(buf, m_reneg_data, 1); return buf; } diff --git a/src/lib/tls/tls_extensions.h b/src/lib/tls/tls_extensions.h index 8c28fab31..51d76ccbd 100644 --- a/src/lib/tls/tls_extensions.h +++ b/src/lib/tls/tls_extensions.h @@ -80,18 +80,18 @@ class Server_Name_Indicator : public Extension Handshake_Extension_Type type() const override { return static_type(); } Server_Name_Indicator(const std::string& host_name) : - sni_host_name(host_name) {} + m_sni_host_name(host_name) {} Server_Name_Indicator(TLS_Data_Reader& reader, u16bit extension_size); - std::string host_name() const { return sni_host_name; } + std::string host_name() const { return m_sni_host_name; } std::vector<byte> serialize() const override; - bool empty() const override { return sni_host_name.empty(); } + bool empty() const override { return m_sni_host_name.empty(); } private: - std::string sni_host_name; + std::string m_sni_host_name; }; /** @@ -106,18 +106,18 @@ class SRP_Identifier : public Extension Handshake_Extension_Type type() const override { return static_type(); } SRP_Identifier(const std::string& identifier) : - srp_identifier(identifier) {} + m_srp_identifier(identifier) {} SRP_Identifier(TLS_Data_Reader& reader, u16bit extension_size); - std::string identifier() const { return srp_identifier; } + std::string identifier() const { return m_srp_identifier; } std::vector<byte> serialize() const override; - bool empty() const override { return srp_identifier.empty(); } + bool empty() const override { return m_srp_identifier.empty(); } private: - std::string srp_identifier; + std::string m_srp_identifier; }; /** @@ -134,19 +134,19 @@ class Renegotiation_Extension : public Extension Renegotiation_Extension() {} Renegotiation_Extension(const std::vector<byte>& bits) : - reneg_data(bits) {} + m_reneg_data(bits) {} Renegotiation_Extension(TLS_Data_Reader& reader, u16bit extension_size); const std::vector<byte>& renegotiation_info() const - { return reneg_data; } + { return m_reneg_data; } std::vector<byte> serialize() const override; bool empty() const override { return false; } // always send this private: - std::vector<byte> reneg_data; + std::vector<byte> m_reneg_data; }; /** @@ -409,9 +409,9 @@ class Extensions { Handshake_Extension_Type type = T::static_type(); - auto i = extensions.find(type); + auto i = m_extensions.find(type); - if(i != extensions.end()) + if(i != m_extensions.end()) return dynamic_cast<T*>(i->second.get()); return nullptr; } @@ -424,7 +424,7 @@ class Extensions void add(Extension* extn) { - extensions[extn->type()].reset(extn); + m_extensions[extn->type()].reset(extn); } std::vector<byte> serialize() const; @@ -439,7 +439,7 @@ class Extensions Extensions(const Extensions&) {} Extensions& operator=(const Extensions&) { return (*this); } - std::map<Handshake_Extension_Type, std::unique_ptr<Extension>> extensions; + std::map<Handshake_Extension_Type, std::unique_ptr<Extension>> m_extensions; }; } diff --git a/src/lib/tls/tls_handshake_hash.cpp b/src/lib/tls/tls_handshake_hash.cpp index 615767cc2..00b8d744c 100644 --- a/src/lib/tls/tls_handshake_hash.cpp +++ b/src/lib/tls/tls_handshake_hash.cpp @@ -29,7 +29,7 @@ secure_vector<byte> Handshake_Hash::final(Protocol_Version version, }; std::unique_ptr<HashFunction> hash(HashFunction::create(choose_hash())); - hash->update(data); + hash->update(m_data); return hash->final(); } diff --git a/src/lib/tls/tls_handshake_hash.h b/src/lib/tls/tls_handshake_hash.h index 050f3a454..d0f5c882f 100644 --- a/src/lib/tls/tls_handshake_hash.h +++ b/src/lib/tls/tls_handshake_hash.h @@ -23,19 +23,19 @@ class Handshake_Hash { public: void update(const byte in[], size_t length) - { data += std::make_pair(in, length); } + { m_data += std::make_pair(in, length); } void update(const std::vector<byte>& in) - { data += in; } + { m_data += in; } secure_vector<byte> final(Protocol_Version version, const std::string& mac_algo) const; - const std::vector<byte>& get_contents() const { return data; } + const std::vector<byte>& get_contents() const { return m_data; } - void reset() { data.clear(); } + void reset() { m_data.clear(); } private: - std::vector<byte> data; + std::vector<byte> m_data; }; } diff --git a/src/lib/tls/tls_session_key.cpp b/src/lib/tls/tls_session_key.cpp index ffadf3e33..0e796aa23 100644 --- a/src/lib/tls/tls_session_key.cpp +++ b/src/lib/tls/tls_session_key.cpp @@ -43,7 +43,7 @@ Session_Keys::Session_Keys(const Handshake_State* state, if(resuming) { // This is actually the master secret saved as part of the session - master_sec = pre_master_secret; + m_master_sec = pre_master_secret; } else { @@ -61,7 +61,7 @@ Session_Keys::Session_Keys(const Handshake_State* state, salt += state->server_hello()->random(); } - master_sec = prf->derive_key(48, pre_master_secret, salt); + m_master_sec = prf->derive_key(48, pre_master_secret, salt); } secure_vector<byte> salt; @@ -69,26 +69,26 @@ Session_Keys::Session_Keys(const Handshake_State* state, salt += state->server_hello()->random(); salt += state->client_hello()->random(); - SymmetricKey keyblock = prf->derive_key(prf_gen, master_sec, salt); + SymmetricKey keyblock = prf->derive_key(prf_gen, m_master_sec, salt); const byte* key_data = keyblock.begin(); - c_mac = SymmetricKey(key_data, mac_keylen); + m_c_mac = SymmetricKey(key_data, mac_keylen); key_data += mac_keylen; - s_mac = SymmetricKey(key_data, mac_keylen); + m_s_mac = SymmetricKey(key_data, mac_keylen); key_data += mac_keylen; - c_cipher = SymmetricKey(key_data, cipher_keylen); + m_c_cipher = SymmetricKey(key_data, cipher_keylen); key_data += cipher_keylen; - s_cipher = SymmetricKey(key_data, cipher_keylen); + m_s_cipher = SymmetricKey(key_data, cipher_keylen); key_data += cipher_keylen; - c_iv = InitializationVector(key_data, cipher_nonce_bytes); + m_c_iv = InitializationVector(key_data, cipher_nonce_bytes); key_data += cipher_nonce_bytes; - s_iv = InitializationVector(key_data, cipher_nonce_bytes); + m_s_iv = InitializationVector(key_data, cipher_nonce_bytes); } } diff --git a/src/lib/tls/tls_session_key.h b/src/lib/tls/tls_session_key.h index 6b74f907d..23c4a78fb 100644 --- a/src/lib/tls/tls_session_key.h +++ b/src/lib/tls/tls_session_key.h @@ -20,16 +20,16 @@ namespace TLS { class Session_Keys { public: - SymmetricKey client_cipher_key() const { return c_cipher; } - SymmetricKey server_cipher_key() const { return s_cipher; } + SymmetricKey client_cipher_key() const { return m_c_cipher; } + SymmetricKey server_cipher_key() const { return m_s_cipher; } - SymmetricKey client_mac_key() const { return c_mac; } - SymmetricKey server_mac_key() const { return s_mac; } + SymmetricKey client_mac_key() const { return m_c_mac; } + SymmetricKey server_mac_key() const { return m_s_mac; } - InitializationVector client_iv() const { return c_iv; } - InitializationVector server_iv() const { return s_iv; } + InitializationVector client_iv() const { return m_c_iv; } + InitializationVector server_iv() const { return m_s_iv; } - const secure_vector<byte>& master_secret() const { return master_sec; } + const secure_vector<byte>& master_secret() const { return m_master_sec; } Session_Keys() {} @@ -38,9 +38,9 @@ class Session_Keys bool resuming); private: - secure_vector<byte> master_sec; - SymmetricKey c_cipher, s_cipher, c_mac, s_mac; - InitializationVector c_iv, s_iv; + secure_vector<byte> m_master_sec; + SymmetricKey m_c_cipher, m_s_cipher, m_c_mac, m_s_mac; + InitializationVector m_c_iv, m_s_iv; }; } diff --git a/src/lib/utils/data_src.cpp b/src/lib/utils/data_src.cpp index b79f83d40..fd1f118e0 100644 --- a/src/lib/utils/data_src.cpp +++ b/src/lib/utils/data_src.cpp @@ -55,15 +55,15 @@ size_t DataSource::discard_next(size_t n) */ size_t DataSource_Memory::read(byte out[], size_t length) { - size_t got = std::min<size_t>(source.size() - offset, length); - copy_mem(out, source.data() + offset, got); - offset += got; + size_t got = std::min<size_t>(m_source.size() - m_offset, length); + copy_mem(out, m_source.data() + m_offset, got); + m_offset += got; return got; } bool DataSource_Memory::check_available(size_t n) { - return (n <= (source.size() - offset)); + return (n <= (m_source.size() - m_offset)); } /* @@ -72,11 +72,11 @@ bool DataSource_Memory::check_available(size_t n) size_t DataSource_Memory::peek(byte out[], size_t length, size_t peek_offset) const { - const size_t bytes_left = source.size() - offset; + const size_t bytes_left = m_source.size() - m_offset; if(peek_offset >= bytes_left) return 0; size_t got = std::min(bytes_left - peek_offset, length); - copy_mem(out, &source[offset + peek_offset], got); + copy_mem(out, &m_source[m_offset + peek_offset], got); return got; } @@ -85,18 +85,18 @@ size_t DataSource_Memory::peek(byte out[], size_t length, */ bool DataSource_Memory::end_of_data() const { - return (offset == source.size()); + return (m_offset == m_source.size()); } /* * DataSource_Memory Constructor */ DataSource_Memory::DataSource_Memory(const std::string& in) : - source(reinterpret_cast<const byte*>(in.data()), + m_source(reinterpret_cast<const byte*>(in.data()), reinterpret_cast<const byte*>(in.data()) + in.length()), - offset(0) + m_offset(0) { - offset = 0; + m_offset = 0; } /* @@ -104,21 +104,21 @@ DataSource_Memory::DataSource_Memory(const std::string& in) : */ size_t DataSource_Stream::read(byte out[], size_t length) { - source.read(reinterpret_cast<char*>(out), length); - if(source.bad()) + m_source.read(reinterpret_cast<char*>(out), length); + if(m_source.bad()) throw Stream_IO_Error("DataSource_Stream::read: Source failure"); - size_t got = source.gcount(); - total_read += got; + size_t got = m_source.gcount(); + m_total_read += got; return got; } bool DataSource_Stream::check_available(size_t n) { - const std::streampos orig_pos = source.tellg(); - source.seekg(0, std::ios::end); - const size_t avail = source.tellg() - orig_pos; - source.seekg(orig_pos); + const std::streampos orig_pos = m_source.tellg(); + m_source.seekg(0, std::ios::end); + const size_t avail = m_source.tellg() - orig_pos; + m_source.seekg(orig_pos); return (avail >= n); } @@ -135,23 +135,23 @@ size_t DataSource_Stream::peek(byte out[], size_t length, size_t offset) const if(offset) { secure_vector<byte> buf(offset); - source.read(reinterpret_cast<char*>(buf.data()), buf.size()); - if(source.bad()) + m_source.read(reinterpret_cast<char*>(buf.data()), buf.size()); + if(m_source.bad()) throw Stream_IO_Error("DataSource_Stream::peek: Source failure"); - got = source.gcount(); + got = m_source.gcount(); } if(got == offset) { - source.read(reinterpret_cast<char*>(out), length); - if(source.bad()) + m_source.read(reinterpret_cast<char*>(out), length); + if(m_source.bad()) throw Stream_IO_Error("DataSource_Stream::peek: Source failure"); - got = source.gcount(); + got = m_source.gcount(); } - if(source.eof()) - source.clear(); - source.seekg(total_read, std::ios::beg); + if(m_source.eof()) + m_source.clear(); + m_source.seekg(m_total_read, std::ios::beg); return got; } @@ -161,7 +161,7 @@ size_t DataSource_Stream::peek(byte out[], size_t length, size_t offset) const */ bool DataSource_Stream::end_of_data() const { - return (!source.good()); + return (!m_source.good()); } /* @@ -169,7 +169,7 @@ bool DataSource_Stream::end_of_data() const */ std::string DataSource_Stream::id() const { - return identifier; + return m_identifier; } /* @@ -177,15 +177,15 @@ std::string DataSource_Stream::id() const */ DataSource_Stream::DataSource_Stream(const std::string& path, bool use_binary) : - identifier(path), - source_p(new std::ifstream(path, + m_identifier(path), + m_source_p(new std::ifstream(path, use_binary ? std::ios::binary : std::ios::in)), - source(*source_p), - total_read(0) + m_source(*m_source_p), + m_total_read(0) { - if(!source.good()) + if(!m_source.good()) { - delete source_p; + delete m_source_p; throw Stream_IO_Error("DataSource: Failure opening file " + path); } } @@ -195,10 +195,10 @@ DataSource_Stream::DataSource_Stream(const std::string& path, */ DataSource_Stream::DataSource_Stream(std::istream& in, const std::string& name) : - identifier(name), - source_p(nullptr), - source(in), - total_read(0) + m_identifier(name), + m_source_p(nullptr), + m_source(in), + m_total_read(0) { } @@ -207,7 +207,7 @@ DataSource_Stream::DataSource_Stream(std::istream& in, */ DataSource_Stream::~DataSource_Stream() { - delete source_p; + delete m_source_p; } } diff --git a/src/lib/utils/data_src.h b/src/lib/utils/data_src.h index 2b6998448..0a6ce0a8c 100644 --- a/src/lib/utils/data_src.h +++ b/src/lib/utils/data_src.h @@ -116,26 +116,26 @@ class BOTAN_DLL DataSource_Memory : public DataSource * @param length the length of the byte array */ DataSource_Memory(const byte in[], size_t length) : - source(in, in + length), offset(0) {} + m_source(in, in + length), m_offset(0) {} /** * Construct a memory source that reads from a secure_vector * @param in the MemoryRegion to read from */ DataSource_Memory(const secure_vector<byte>& in) : - source(in), offset(0) {} + m_source(in), m_offset(0) {} /** * Construct a memory source that reads from a std::vector * @param in the MemoryRegion to read from */ DataSource_Memory(const std::vector<byte>& in) : - source(in.begin(), in.end()), offset(0) {} + m_source(in.begin(), in.end()), m_offset(0) {} - size_t get_bytes_read() const override { return offset; } + size_t get_bytes_read() const override { return m_offset; } private: - secure_vector<byte> source; - size_t offset; + secure_vector<byte> m_source; + size_t m_offset; }; /** @@ -166,13 +166,13 @@ class BOTAN_DLL DataSource_Stream : public DataSource ~DataSource_Stream(); - size_t get_bytes_read() const override { return total_read; } + size_t get_bytes_read() const override { return m_total_read; } private: - const std::string identifier; + const std::string m_identifier; - std::istream* source_p; - std::istream& source; - size_t total_read; + std::istream* m_source_p; + std::istream& m_source; + size_t m_total_read; }; } diff --git a/src/lib/utils/datastor/datastor.cpp b/src/lib/utils/datastor/datastor.cpp index 69c1bf453..6f1b71082 100644 --- a/src/lib/utils/datastor/datastor.cpp +++ b/src/lib/utils/datastor/datastor.cpp @@ -18,7 +18,7 @@ namespace Botan { */ bool Data_Store::operator==(const Data_Store& other) const { - return (contents == other.contents); + return (m_contents == other.m_contents); } /* @@ -26,7 +26,7 @@ bool Data_Store::operator==(const Data_Store& other) const */ bool Data_Store::has_value(const std::string& key) const { - return (contents.lower_bound(key) != contents.end()); + return (m_contents.lower_bound(key) != m_contents.end()); } /* @@ -37,7 +37,7 @@ std::multimap<std::string, std::string> Data_Store::search_for( { std::multimap<std::string, std::string> out; - for(auto i = contents.begin(); i != contents.end(); ++i) + for(auto i = m_contents.begin(); i != m_contents.end(); ++i) if(predicate(i->first, i->second)) out.insert(std::make_pair(i->first, i->second)); @@ -50,7 +50,7 @@ std::multimap<std::string, std::string> Data_Store::search_for( std::vector<std::string> Data_Store::get(const std::string& looking_for) const { std::vector<std::string> out; - auto range = contents.equal_range(looking_for); + auto range = m_contents.equal_range(looking_for); for(auto i = range.first; i != range.second; ++i) out.push_back(i->second); return out; @@ -125,7 +125,7 @@ u32bit Data_Store::get1_u32bit(const std::string& key, */ void Data_Store::add(const std::string& key, const std::string& val) { - multimap_insert(contents, key, val); + multimap_insert(m_contents, key, val); } /* @@ -157,7 +157,7 @@ void Data_Store::add(const std::multimap<std::string, std::string>& in) std::multimap<std::string, std::string>::const_iterator i = in.begin(); while(i != in.end()) { - contents.insert(*i); + m_contents.insert(*i); ++i; } } diff --git a/src/lib/utils/datastor/datastor.h b/src/lib/utils/datastor/datastor.h index 66bb0e650..3b25e1fe4 100644 --- a/src/lib/utils/datastor/datastor.h +++ b/src/lib/utils/datastor/datastor.h @@ -49,7 +49,7 @@ class BOTAN_DLL Data_Store void add(const std::string&, const secure_vector<byte>&); void add(const std::string&, const std::vector<byte>&); private: - std::multimap<std::string, std::string> contents; + std::multimap<std::string, std::string> m_contents; }; } diff --git a/src/lib/utils/dyn_load/dyn_load.cpp b/src/lib/utils/dyn_load/dyn_load.cpp index 3448acf6a..c0795942b 100644 --- a/src/lib/utils/dyn_load/dyn_load.cpp +++ b/src/lib/utils/dyn_load/dyn_load.cpp @@ -30,31 +30,31 @@ void raise_runtime_loader_exception(const std::string& lib_name, Dynamically_Loaded_Library::Dynamically_Loaded_Library( const std::string& library) : - lib_name(library), lib(nullptr) + m_lib_name(library), m_lib(nullptr) { #if defined(BOTAN_TARGET_OS_HAS_DLOPEN) - lib = ::dlopen(lib_name.c_str(), RTLD_LAZY); + m_lib = ::dlopen(m_lib_name.c_str(), RTLD_LAZY); - if(!lib) - raise_runtime_loader_exception(lib_name, dlerror()); + if(!m_lib) + raise_runtime_loader_exception(m_lib_name, dlerror()); #elif defined(BOTAN_TARGET_OS_HAS_LOADLIBRARY) - lib = ::LoadLibraryA(lib_name.c_str()); + m_lib = ::LoadLibraryA(m_lib_name.c_str()); - if(!lib) - raise_runtime_loader_exception(lib_name, "LoadLibrary failed"); + if(!m_lib) + raise_runtime_loader_exception(m_lib_name, "LoadLibrary failed"); #endif - if(!lib) - raise_runtime_loader_exception(lib_name, "Dynamic load not supported"); + if(!m_lib) + raise_runtime_loader_exception(m_lib_name, "Dynamic load not supported"); } Dynamically_Loaded_Library::~Dynamically_Loaded_Library() { #if defined(BOTAN_TARGET_OS_HAS_DLOPEN) - ::dlclose(lib); + ::dlclose(m_lib); #elif defined(BOTAN_TARGET_OS_HAS_LOADLIBRARY) - ::FreeLibrary((HMODULE)lib); + ::FreeLibrary((HMODULE)m_lib); #endif } @@ -63,15 +63,15 @@ void* Dynamically_Loaded_Library::resolve_symbol(const std::string& symbol) void* addr = nullptr; #if defined(BOTAN_TARGET_OS_HAS_DLOPEN) - addr = ::dlsym(lib, symbol.c_str()); + addr = ::dlsym(m_lib, symbol.c_str()); #elif defined(BOTAN_TARGET_OS_HAS_LOADLIBRARY) - addr = reinterpret_cast<void*>(::GetProcAddress((HMODULE)lib, + addr = reinterpret_cast<void*>(::GetProcAddress((HMODULE)m_lib, symbol.c_str())); #endif if(!addr) throw Exception("Failed to resolve symbol " + symbol + - " in " + lib_name); + " in " + m_lib_name); return addr; } diff --git a/src/lib/utils/dyn_load/dyn_load.h b/src/lib/utils/dyn_load/dyn_load.h index 32227f76f..7a9f4a83c 100644 --- a/src/lib/utils/dyn_load/dyn_load.h +++ b/src/lib/utils/dyn_load/dyn_load.h @@ -58,8 +58,8 @@ class Dynamically_Loaded_Library Dynamically_Loaded_Library(const Dynamically_Loaded_Library&); Dynamically_Loaded_Library& operator=(const Dynamically_Loaded_Library&); - std::string lib_name; - void* lib; + std::string m_lib_name; + void* m_lib; }; } diff --git a/src/lib/utils/simd/simd_sse2/simd_sse2.h b/src/lib/utils/simd/simd_sse2/simd_sse2.h index 9e85bd45b..1757b5976 100644 --- a/src/lib/utils/simd/simd_sse2/simd_sse2.h +++ b/src/lib/utils/simd/simd_sse2/simd_sse2.h @@ -20,17 +20,17 @@ class SIMD_SSE2 public: SIMD_SSE2(const u32bit B[4]) { - reg = _mm_loadu_si128(reinterpret_cast<const __m128i*>(B)); + m_reg = _mm_loadu_si128(reinterpret_cast<const __m128i*>(B)); } SIMD_SSE2(u32bit B0, u32bit B1, u32bit B2, u32bit B3) { - reg = _mm_set_epi32(B0, B1, B2, B3); + m_reg = _mm_set_epi32(B0, B1, B2, B3); } SIMD_SSE2(u32bit B) { - reg = _mm_set1_epi32(B); + m_reg = _mm_set1_epi32(B); } static SIMD_SSE2 load_le(const void* in) @@ -45,7 +45,7 @@ class SIMD_SSE2 void store_le(byte out[]) const { - _mm_storeu_si128(reinterpret_cast<__m128i*>(out), reg); + _mm_storeu_si128(reinterpret_cast<__m128i*>(out), m_reg); } void store_be(byte out[]) const @@ -55,8 +55,8 @@ class SIMD_SSE2 void rotate_left(size_t rot) { - reg = _mm_or_si128(_mm_slli_epi32(reg, static_cast<int>(rot)), - _mm_srli_epi32(reg, static_cast<int>(32-rot))); + m_reg = _mm_or_si128(_mm_slli_epi32(m_reg, static_cast<int>(rot)), + _mm_srli_epi32(m_reg, static_cast<int>(32-rot))); } void rotate_right(size_t rot) @@ -66,73 +66,73 @@ class SIMD_SSE2 void operator+=(const SIMD_SSE2& other) { - reg = _mm_add_epi32(reg, other.reg); + m_reg = _mm_add_epi32(m_reg, other.m_reg); } SIMD_SSE2 operator+(const SIMD_SSE2& other) const { - return _mm_add_epi32(reg, other.reg); + return _mm_add_epi32(m_reg, other.m_reg); } void operator-=(const SIMD_SSE2& other) { - reg = _mm_sub_epi32(reg, other.reg); + m_reg = _mm_sub_epi32(m_reg, other.m_reg); } SIMD_SSE2 operator-(const SIMD_SSE2& other) const { - return _mm_sub_epi32(reg, other.reg); + return _mm_sub_epi32(m_reg, other.m_reg); } void operator^=(const SIMD_SSE2& other) { - reg = _mm_xor_si128(reg, other.reg); + m_reg = _mm_xor_si128(m_reg, other.m_reg); } SIMD_SSE2 operator^(const SIMD_SSE2& other) const { - return _mm_xor_si128(reg, other.reg); + return _mm_xor_si128(m_reg, other.m_reg); } void operator|=(const SIMD_SSE2& other) { - reg = _mm_or_si128(reg, other.reg); + m_reg = _mm_or_si128(m_reg, other.m_reg); } SIMD_SSE2 operator&(const SIMD_SSE2& other) { - return _mm_and_si128(reg, other.reg); + return _mm_and_si128(m_reg, other.m_reg); } void operator&=(const SIMD_SSE2& other) { - reg = _mm_and_si128(reg, other.reg); + m_reg = _mm_and_si128(m_reg, other.m_reg); } SIMD_SSE2 operator<<(size_t shift) const { - return _mm_slli_epi32(reg, static_cast<int>(shift)); + return _mm_slli_epi32(m_reg, static_cast<int>(shift)); } SIMD_SSE2 operator>>(size_t shift) const { - return _mm_srli_epi32(reg, static_cast<int>(shift)); + return _mm_srli_epi32(m_reg, static_cast<int>(shift)); } SIMD_SSE2 operator~() const { - return _mm_xor_si128(reg, _mm_set1_epi32(0xFFFFFFFF)); + return _mm_xor_si128(m_reg, _mm_set1_epi32(0xFFFFFFFF)); } // (~reg) & other SIMD_SSE2 andc(const SIMD_SSE2& other) { - return _mm_andnot_si128(reg, other.reg); + return _mm_andnot_si128(m_reg, other.m_reg); } SIMD_SSE2 bswap() const { - __m128i T = reg; + __m128i T = m_reg; T = _mm_shufflehi_epi16(T, _MM_SHUFFLE(2, 3, 0, 1)); T = _mm_shufflelo_epi16(T, _MM_SHUFFLE(2, 3, 0, 1)); @@ -144,20 +144,20 @@ class SIMD_SSE2 static void transpose(SIMD_SSE2& B0, SIMD_SSE2& B1, SIMD_SSE2& B2, SIMD_SSE2& B3) { - __m128i T0 = _mm_unpacklo_epi32(B0.reg, B1.reg); - __m128i T1 = _mm_unpacklo_epi32(B2.reg, B3.reg); - __m128i T2 = _mm_unpackhi_epi32(B0.reg, B1.reg); - __m128i T3 = _mm_unpackhi_epi32(B2.reg, B3.reg); - B0.reg = _mm_unpacklo_epi64(T0, T1); - B1.reg = _mm_unpackhi_epi64(T0, T1); - B2.reg = _mm_unpacklo_epi64(T2, T3); - B3.reg = _mm_unpackhi_epi64(T2, T3); + __m128i T0 = _mm_unpacklo_epi32(B0.m_reg, B1.m_reg); + __m128i T1 = _mm_unpacklo_epi32(B2.m_reg, B3.m_reg); + __m128i T2 = _mm_unpackhi_epi32(B0.m_reg, B1.m_reg); + __m128i T3 = _mm_unpackhi_epi32(B2.m_reg, B3.m_reg); + B0.m_reg = _mm_unpacklo_epi64(T0, T1); + B1.m_reg = _mm_unpackhi_epi64(T0, T1); + B2.m_reg = _mm_unpacklo_epi64(T2, T3); + B3.m_reg = _mm_unpackhi_epi64(T2, T3); } private: - SIMD_SSE2(__m128i in) { reg = in; } + SIMD_SSE2(__m128i in) { m_reg = in; } - __m128i reg; + __m128i m_reg; }; } diff --git a/src/tests/test_rng.h b/src/tests/test_rng.h index 83ae9698a..f168a07db 100644 --- a/src/tests/test_rng.h +++ b/src/tests/test_rng.h @@ -18,15 +18,15 @@ namespace Botan_Tests { class Fixed_Output_RNG : public Botan::RandomNumberGenerator { public: - bool is_seeded() const override { return !buf.empty(); } + bool is_seeded() const override { return !m_buf.empty(); } uint8_t random() { if(!is_seeded()) throw Test_Error("Fixed output RNG ran out of bytes, test bug?"); - uint8_t out = buf.front(); - buf.pop_front(); + uint8_t out = m_buf.front(); + m_buf.pop_front(); return out; } @@ -42,7 +42,7 @@ class Fixed_Output_RNG : public Botan::RandomNumberGenerator void add_entropy(const uint8_t b[], size_t s) override { - buf.insert(buf.end(), b, b + s); + m_buf.insert(m_buf.end(), b, b + s); } std::string name() const override { return "Fixed_Output_RNG"; } @@ -51,20 +51,20 @@ class Fixed_Output_RNG : public Botan::RandomNumberGenerator Fixed_Output_RNG(const std::vector<uint8_t>& in) { - buf.insert(buf.end(), in.begin(), in.end()); + m_buf.insert(m_buf.end(), in.begin(), in.end()); } Fixed_Output_RNG(const std::string& in_str) { std::vector<uint8_t> in = Botan::hex_decode(in_str); - buf.insert(buf.end(), in.begin(), in.end()); + m_buf.insert(m_buf.end(), in.begin(), in.end()); } Fixed_Output_RNG() {} protected: - size_t remaining() const { return buf.size(); } + size_t remaining() const { return m_buf.size(); } private: - std::deque<uint8_t> buf; + std::deque<uint8_t> m_buf; }; } |