/* * SCAN Name Abstraction * (C) 2008-2009,2015 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #include #include #include namespace Botan { namespace { std::string make_arg( const std::vector >& name, size_t start) { std::string output = name[start].second; size_t level = name[start].first; size_t paren_depth = 0; for(size_t i = start + 1; i != name.size(); ++i) { if(name[i].first <= name[start].first) break; if(name[i].first > level) { output += "(" + name[i].second; ++paren_depth; } else if(name[i].first < level) { output += ")," + name[i].second; --paren_depth; } else { if(output[output.size() - 1] != '(') output += ","; output += name[i].second; } level = name[i].first; } for(size_t i = 0; i != paren_depth; ++i) output += ")"; return output; } std::pair deref_aliases(const std::pair& in) { return std::make_pair(in.first, SCAN_Name::deref_alias(in.second)); } } SCAN_Name::SCAN_Name(std::string algo_spec, const std::string& extra) : SCAN_Name(algo_spec) { m_alg_name += extra; } SCAN_Name::SCAN_Name(const char* algo_spec) : SCAN_Name(std::string(algo_spec)) { } SCAN_Name::SCAN_Name(std::string algo_spec) : m_orig_algo_spec(algo_spec), m_alg_name(), m_args(), m_mode_info() { std::vector > name; size_t level = 0; std::pair accum = std::make_pair(level, ""); const std::string decoding_error = "Bad SCAN name '" + algo_spec + "': "; algo_spec = SCAN_Name::deref_alias(algo_spec); for(size_t i = 0; i != algo_spec.size(); ++i) { char c = algo_spec[i]; if(c == '/' || c == ',' || c == '(' || c == ')') { if(c == '(') ++level; else if(c == ')') { if(level == 0) throw Decoding_Error(decoding_error + "Mismatched parens"); --level; } if(c == '/' && level > 0) accum.second.push_back(c); else { if(accum.second != "") name.push_back(deref_aliases(accum)); accum = std::make_pair(level, ""); } } else accum.second.push_back(c); } if(accum.second != "") name.push_back(deref_aliases(accum)); if(level != 0) throw Decoding_Error(decoding_error + "Missing close paren"); if(name.size() == 0) throw Decoding_Error(decoding_error + "Empty name"); m_alg_name = name[0].second; bool in_modes = false; for(size_t i = 1; i != name.size(); ++i) { if(name[i].first == 0) { m_mode_info.push_back(make_arg(name, i)); in_modes = true; } else if(name[i].first == 1 && !in_modes) m_args.push_back(make_arg(name, i)); } } std::string SCAN_Name::all_arguments() const { std::string out; if(arg_count()) { out += "("; for(size_t i = 0; i != arg_count(); ++i) { out += arg(i); if(i != arg_count() - 1) out += ","; } out += ")"; } return out; } 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 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 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(m_args[i]); } mutex_type SCAN_Name::g_alias_map_mutex; std::map SCAN_Name::g_alias_map = { { "3DES", "TripleDES" }, { "ARC4", "RC4" }, { "CAST5", "CAST-128" }, { "DES-EDE", "TripleDES" }, { "EME-OAEP", "OAEP" }, { "EME-PKCS1-v1_5", "PKCS1v15" }, { "EME1", "OAEP" }, { "EMSA-PKCS1-v1_5", "EMSA_PKCS1" }, { "EMSA-PSS", "PSSR" }, { "EMSA2", "EMSA_X931" }, { "EMSA3", "EMSA_PKCS1" }, { "EMSA4", "PSSR" }, { "GOST-34.11", "GOST-R-34.11-94" }, { "MARK-4", "RC4(256)" }, { "OMAC", "CMAC" }, { "PSS-MGF1", "PSSR" }, { "SHA-1", "SHA-160" }, { "SHA1", "SHA-160" }, { "X9.31", "EMSA2" } }; void SCAN_Name::add_alias(const std::string& alias, const std::string& basename) { lock_guard_type lock(g_alias_map_mutex); if(g_alias_map.find(alias) == g_alias_map.end()) g_alias_map[alias] = basename; } std::string SCAN_Name::deref_alias(const std::string& alias) { lock_guard_type lock(g_alias_map_mutex); std::string name = alias; for(auto i = g_alias_map.find(name); i != g_alias_map.end(); i = g_alias_map.find(name)) name = i->second; return name; } }