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/*
* Various string utils and parsing functions
* (C) 1999-2007,2013,2014,2015,2018 Jack Lloyd
* (C) 2015 Simon Warta (Kullo GmbH)
* (C) 2017 René Korthaus, Rohde & Schwarz Cybersecurity
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include <botan/parsing.h>
#include <botan/exceptn.h>
#include <botan/charset.h>
#include <botan/loadstor.h>
#include <algorithm>
#include <cctype>
#include <limits>
#include <set>
namespace Botan {
uint16_t to_uint16(const std::string& str)
{
const uint32_t x = to_u32bit(str);
if(x >> 16)
throw Invalid_Argument("Integer value exceeds 16 bit range");
return static_cast<uint16_t>(x);
}
uint32_t to_u32bit(const std::string& str)
{
// std::stoul is not strict enough. Ensure that str is digit only [0-9]*
for(const char chr : str)
{
if(chr < '0' || chr > '9')
{
std::string chrAsString(1, chr);
throw Invalid_Argument("String contains non-digit char: " + chrAsString);
}
}
const unsigned long int x = std::stoul(str);
if(sizeof(unsigned long int) > 4)
{
// x might be uint64
if (x > std::numeric_limits<uint32_t>::max())
{
throw Invalid_Argument("Integer value of " + str + " exceeds 32 bit range");
}
}
return static_cast<uint32_t>(x);
}
/*
* Convert a string into a time duration
*/
uint32_t timespec_to_u32bit(const std::string& timespec)
{
if(timespec.empty())
return 0;
const char suffix = timespec[timespec.size()-1];
std::string value = timespec.substr(0, timespec.size()-1);
uint32_t scale = 1;
if(Charset::is_digit(suffix))
value += suffix;
else if(suffix == 's')
scale = 1;
else if(suffix == 'm')
scale = 60;
else if(suffix == 'h')
scale = 60 * 60;
else if(suffix == 'd')
scale = 24 * 60 * 60;
else if(suffix == 'y')
scale = 365 * 24 * 60 * 60;
else
throw Decoding_Error("timespec_to_u32bit: Bad input " + timespec);
return scale * to_u32bit(value);
}
/*
* Parse a SCAN-style algorithm name
*/
std::vector<std::string> parse_algorithm_name(const std::string& namex)
{
if(namex.find('(') == std::string::npos &&
namex.find(')') == std::string::npos)
return std::vector<std::string>(1, namex);
std::string name = namex, substring;
std::vector<std::string> elems;
size_t level = 0;
elems.push_back(name.substr(0, name.find('(')));
name = name.substr(name.find('('));
for(auto i = name.begin(); i != name.end(); ++i)
{
char c = *i;
if(c == '(')
++level;
if(c == ')')
{
if(level == 1 && i == name.end() - 1)
{
if(elems.size() == 1)
elems.push_back(substring.substr(1));
else
elems.push_back(substring);
return elems;
}
if(level == 0 || (level == 1 && i != name.end() - 1))
throw Invalid_Algorithm_Name(namex);
--level;
}
if(c == ',' && level == 1)
{
if(elems.size() == 1)
elems.push_back(substring.substr(1));
else
elems.push_back(substring);
substring.clear();
}
else
substring += c;
}
if(!substring.empty())
throw Invalid_Algorithm_Name(namex);
return elems;
}
std::vector<std::string> split_on(const std::string& str, char delim)
{
return split_on_pred(str, [delim](char c) { return c == delim; });
}
std::vector<std::string> split_on_pred(const std::string& str,
std::function<bool (char)> pred)
{
std::vector<std::string> elems;
if(str.empty()) return elems;
std::string substr;
for(auto i = str.begin(); i != str.end(); ++i)
{
if(pred(*i))
{
if(!substr.empty())
elems.push_back(substr);
substr.clear();
}
else
substr += *i;
}
if(substr.empty())
throw Invalid_Argument("Unable to split string: " + str);
elems.push_back(substr);
return elems;
}
/*
* Join a string
*/
std::string string_join(const std::vector<std::string>& strs, char delim)
{
std::string out = "";
for(size_t i = 0; i != strs.size(); ++i)
{
if(i != 0)
out += delim;
out += strs[i];
}
return out;
}
/*
* Parse an ASN.1 OID string
*/
std::vector<uint32_t> parse_asn1_oid(const std::string& oid)
{
std::string substring;
std::vector<uint32_t> oid_elems;
for(auto i = oid.begin(); i != oid.end(); ++i)
{
char c = *i;
if(c == '.')
{
if(substring.empty())
throw Invalid_OID(oid);
oid_elems.push_back(to_u32bit(substring));
substring.clear();
}
else
substring += c;
}
if(substring.empty())
throw Invalid_OID(oid);
oid_elems.push_back(to_u32bit(substring));
if(oid_elems.size() < 2)
throw Invalid_OID(oid);
return oid_elems;
}
/*
* X.500 String Comparison
*/
bool x500_name_cmp(const std::string& name1, const std::string& name2)
{
auto p1 = name1.begin();
auto p2 = name2.begin();
while((p1 != name1.end()) && Charset::is_space(*p1)) ++p1;
while((p2 != name2.end()) && Charset::is_space(*p2)) ++p2;
while(p1 != name1.end() && p2 != name2.end())
{
if(Charset::is_space(*p1))
{
if(!Charset::is_space(*p2))
return false;
while((p1 != name1.end()) && Charset::is_space(*p1)) ++p1;
while((p2 != name2.end()) && Charset::is_space(*p2)) ++p2;
if(p1 == name1.end() && p2 == name2.end())
return true;
if(p1 == name1.end() || p2 == name2.end())
return false;
}
if(!Charset::caseless_cmp(*p1, *p2))
return false;
++p1;
++p2;
}
while((p1 != name1.end()) && Charset::is_space(*p1)) ++p1;
while((p2 != name2.end()) && Charset::is_space(*p2)) ++p2;
if((p1 != name1.end()) || (p2 != name2.end()))
return false;
return true;
}
/*
* Convert a decimal-dotted string to binary IP
*/
uint32_t string_to_ipv4(const std::string& str)
{
std::vector<std::string> parts = split_on(str, '.');
if(parts.size() != 4)
throw Decoding_Error("Invalid IP string " + str);
uint32_t ip = 0;
for(auto part = parts.begin(); part != parts.end(); ++part)
{
uint32_t octet = to_u32bit(*part);
if(octet > 255)
throw Decoding_Error("Invalid IP string " + str);
ip = (ip << 8) | (octet & 0xFF);
}
return ip;
}
/*
* Convert an IP address to decimal-dotted string
*/
std::string ipv4_to_string(uint32_t ip)
{
std::string str;
for(size_t i = 0; i != sizeof(ip); ++i)
{
if(i)
str += ".";
str += std::to_string(get_byte(i, ip));
}
return str;
}
std::string erase_chars(const std::string& str, const std::set<char>& chars)
{
std::string out;
for(auto c: str)
if(chars.count(c) == 0)
out += c;
return out;
}
std::string replace_chars(const std::string& str,
const std::set<char>& chars,
char to_char)
{
std::string out = str;
for(size_t i = 0; i != out.size(); ++i)
if(chars.count(out[i]))
out[i] = to_char;
return out;
}
std::string replace_char(const std::string& str, char from_char, char to_char)
{
std::string out = str;
for(size_t i = 0; i != out.size(); ++i)
if(out[i] == from_char)
out[i] = to_char;
return out;
}
namespace {
std::string tolower_string(const std::string& in)
{
std::string s = in;
for(size_t i = 0; i != s.size(); ++i)
{
if(std::isalpha(static_cast<unsigned char>(s[i])))
s[i] = std::tolower(static_cast<unsigned char>(s[i]));
}
return s;
}
}
bool host_wildcard_match(const std::string& issued_, const std::string& host_)
{
const std::string issued = tolower_string(issued_);
const std::string host = tolower_string(host_);
if(host.empty() || issued.empty())
return false;
/*
If there are embedded nulls in your issued name
Well I feel bad for you son
*/
if(std::count(issued.begin(), issued.end(), char(0)) > 0)
return false;
// If more than one wildcard, then issued name is invalid
const size_t stars = std::count(issued.begin(), issued.end(), '*');
if(stars > 1)
return false;
// '*' is not a valid character in DNS names so should not appear on the host side
if(std::count(host.begin(), host.end(), '*') != 0)
return false;
// Similarly a DNS name can't end in .
if(host[host.size() - 1] == '.')
return false;
// And a host can't have an empty name component, so reject that
if(host.find("..") != std::string::npos)
return false;
// Exact match: accept
if(issued == host)
{
return true;
}
/*
Otherwise it might be a wildcard
If the issued size is strictly longer than the hostname size it
couldn't possibly be a match, even if the issued value is a
wildcard. The only exception is when the wildcard ends up empty
(eg www.example.com matches www*.example.com)
*/
if(issued.size() > host.size() + 1)
{
return false;
}
// If no * at all then not a wildcard, and so not a match
if(stars != 1)
{
return false;
}
/*
Now walk through the issued string, making sure every character
matches. When we come to the (singular) '*', jump forward in the
hostname by the corresponding amount. We know exactly how much
space the wildcard takes because it must be exactly `len(host) -
len(issued) + 1 chars`.
We also verify that the '*' comes in the leftmost component, and
doesn't skip over any '.' in the hostname.
*/
size_t dots_seen = 0;
size_t host_idx = 0;
for(size_t i = 0; i != issued.size(); ++i)
{
dots_seen += (issued[i] == '.');
if(issued[i] == '*')
{
// Fail: wildcard can only come in leftmost component
if(dots_seen > 0)
{
return false;
}
/*
Since there is only one * we know the tail of the issued and
hostname must be an exact match. In this case advance host_idx
to match.
*/
const size_t advance = (host.size() - issued.size() + 1);
if(host_idx + advance > host.size()) // shouldn't happen
return false;
// Can't be any intervening .s that we would have skipped
if(std::count(host.begin() + host_idx,
host.begin() + host_idx + advance, '.') != 0)
return false;
host_idx += advance;
}
else
{
if(issued[i] != host[host_idx])
{
return false;
}
host_idx += 1;
}
}
// Wildcard issued name must have at least 3 components
if(dots_seen < 2)
{
return false;
}
return true;
}
}
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