src/pki/parse_name.cc - boringssl.git - Git at Google

 // Copyright 2016 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "parse_name.h"

 #include <cassert>

 #include "string_util.h"
 #include "parse_values.h"
 #include <openssl/bytestring.h>
 #include <openssl/mem.h>

 namespace bssl {

 namespace {

 // Returns a string containing the dotted numeric form of |oid|, or an empty
 // string on error.
 std::string OidToString(der::Input oid) {
   CBS cbs;
   CBS_init(&cbs, oid.UnsafeData(), oid.Length());
   bssl::UniquePtr<char> text(CBS_asn1_oid_to_text(&cbs));
   if (!text)
     return std::string();
   return text.get();
 }

 }  // namespace

 bool X509NameAttribute::ValueAsString(std::string* out) const {
   switch (value_tag) {
     case der::kTeletexString:
       return der::ParseTeletexStringAsLatin1(value, out);
     case der::kIA5String:
       return der::ParseIA5String(value, out);
     case der::kPrintableString:
       return der::ParsePrintableString(value, out);
     case der::kUtf8String:
       *out = value.AsString();
       return true;
     case der::kUniversalString:
       return der::ParseUniversalString(value, out);
     case der::kBmpString:
       return der::ParseBmpString(value, out);
     default:
       return false;
   }
 }

 bool X509NameAttribute::ValueAsStringWithUnsafeOptions(
     PrintableStringHandling printable_string_handling,
     std::string* out) const {
   if (printable_string_handling == PrintableStringHandling::kAsUTF8Hack &&
       value_tag == der::kPrintableString) {
     *out = value.AsString();
     return true;
   }
   return ValueAsString(out);
 }

 bool X509NameAttribute::ValueAsStringUnsafe(std::string* out) const {
   switch (value_tag) {
     case der::kIA5String:
     case der::kPrintableString:
     case der::kTeletexString:
     case der::kUtf8String:
       *out = value.AsString();
       return true;
     case der::kUniversalString:
       return der::ParseUniversalString(value, out);
     case der::kBmpString:
       return der::ParseBmpString(value, out);
     default:
       assert(0);  // NOTREACHED
       return false;
   }
 }

 bool X509NameAttribute::AsRFC2253String(std::string* out) const {
   std::string type_string;
   std::string value_string;
   // TODO(mattm): Add streetAddress and domainComponent here?
   if (type == der::Input(kTypeCommonNameOid)) {
     type_string = "CN";
   } else if (type == der::Input(kTypeSurnameOid)) {
     type_string = "SN";
   } else if (type == der::Input(kTypeCountryNameOid)) {
     type_string = "C";
   } else if (type == der::Input(kTypeLocalityNameOid)) {
     type_string = "L";
   } else if (type == der::Input(kTypeStateOrProvinceNameOid)) {
     type_string = "ST";
   } else if (type == der::Input(kTypeOrganizationNameOid)) {
     type_string = "O";
   } else if (type == der::Input(kTypeOrganizationUnitNameOid)) {
     type_string = "OU";
   } else if (type == der::Input(kTypeGivenNameOid)) {
     type_string = "givenName";
   } else if (type == der::Input(kTypeEmailAddressOid)) {
     type_string = "emailAddress";
   } else {
     type_string = OidToString(type);
     if (type_string.empty())
       return false;
     value_string =
         "#" + bssl::string_util::HexEncode(value.UnsafeData(), value.Length());
   }

   if (value_string.empty()) {
     std::string unescaped;
     if (!ValueAsStringUnsafe(&unescaped))
       return false;

     bool nonprintable = false;
     for (unsigned int i = 0; i < unescaped.length(); ++i) {
       unsigned char c = static_cast<unsigned char>(unescaped[i]);
       if (i == 0 && c == '#') {
         value_string += "\\#";
       } else if (i == 0 && c == ' ') {
         value_string += "\\ ";
       } else if (i == unescaped.length() - 1 && c == ' ') {
         value_string += "\\ ";
       } else if (c == ',' || c == '+' || c == '"' || c == '\\' || c == '<' ||
                  c == '>' || c == ';') {
         value_string += "\\";
         value_string += c;
       } else if (c < 32 || c > 126) {
         nonprintable = true;
         std::string h;
         h += c;
         value_string +=
             "\\" + bssl::string_util::HexEncode(
                        reinterpret_cast<const uint8_t*>(h.data()), h.length());
       } else {
         value_string += c;
       }
     }

     // If we have non-printable characters in a TeletexString, we hex encode
     // since we don't handle Teletex control codes.
     if (nonprintable && value_tag == der::kTeletexString)
       value_string =
           "#" + bssl::string_util::HexEncode(value.UnsafeData(), value.Length());
   }

   *out = type_string + "=" + value_string;
   return true;
 }

 bool ReadRdn(der::Parser* parser, RelativeDistinguishedName* out) {
   while (parser->HasMore()) {
     der::Parser attr_type_and_value;
     if (!parser->ReadSequence(&attr_type_and_value))
       return false;
     // Read the attribute type, which must be an OBJECT IDENTIFIER.
     der::Input type;
     if (!attr_type_and_value.ReadTag(der::kOid, &type))
       return false;

     // Read the attribute value.
     der::Tag tag;
     der::Input value;
     if (!attr_type_and_value.ReadTagAndValue(&tag, &value))
       return false;

     // There should be no more elements in the sequence after reading the
     // attribute type and value.
     if (attr_type_and_value.HasMore())
       return false;

     out->push_back(X509NameAttribute(type, tag, value));
   }

   // RFC 5280 section 4.1.2.4
   // RelativeDistinguishedName ::= SET SIZE (1..MAX) OF AttributeTypeAndValue
   return out->size() != 0;
 }

 bool ParseName(const der::Input& name_tlv, RDNSequence* out) {
   der::Parser name_parser(name_tlv);
   der::Input name_value;
   if (!name_parser.ReadTag(der::kSequence, &name_value))
     return false;
   return ParseNameValue(name_value, out);
 }

 bool ParseNameValue(const der::Input& name_value, RDNSequence* out) {
   der::Parser rdn_sequence_parser(name_value);
   while (rdn_sequence_parser.HasMore()) {
     der::Parser rdn_parser;
     if (!rdn_sequence_parser.ReadConstructed(der::kSet, &rdn_parser))
       return false;
     RelativeDistinguishedName type_and_values;
     if (!ReadRdn(&rdn_parser, &type_and_values))
       return false;
     out->push_back(type_and_values);
   }

   return true;
 }

 bool ConvertToRFC2253(const RDNSequence& rdn_sequence, std::string* out) {
   std::string rdns_string;
   size_t size = rdn_sequence.size();
   for (size_t i = 0; i < size; ++i) {
     RelativeDistinguishedName rdn = rdn_sequence[size - i - 1];
     std::string rdn_string;
     for (const auto& atv : rdn) {
       if (!rdn_string.empty())
         rdn_string += "+";
       std::string atv_string;
       if (!atv.AsRFC2253String(&atv_string))
         return false;
       rdn_string += atv_string;
     }
     if (!rdns_string.empty())
       rdns_string += ",";
     rdns_string += rdn_string;
   }

   *out = rdns_string;
   return true;
 }

 }  // namespace net
	// Copyright 2016 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "parse_name.h"

	#include <cassert>

	#include "string_util.h"
	#include "parse_values.h"
	#include <openssl/bytestring.h>
	#include <openssl/mem.h>

	namespace bssl {

	namespace {

	// Returns a string containing the dotted numeric form of \|oid\|, or an empty
	// string on error.
	std::string OidToString(der::Input oid) {
	CBS cbs;
	CBS_init(&cbs, oid.UnsafeData(), oid.Length());
	bssl::UniquePtr<char> text(CBS_asn1_oid_to_text(&cbs));
	if (!text)
	return std::string();
	return text.get();
	}

	} // namespace

	bool X509NameAttribute::ValueAsString(std::string* out) const {
	switch (value_tag) {
	case der::kTeletexString:
	return der::ParseTeletexStringAsLatin1(value, out);
	case der::kIA5String:
	return der::ParseIA5String(value, out);
	case der::kPrintableString:
	return der::ParsePrintableString(value, out);
	case der::kUtf8String:
	*out = value.AsString();
	return true;
	case der::kUniversalString:
	return der::ParseUniversalString(value, out);
	case der::kBmpString:
	return der::ParseBmpString(value, out);
	default:
	return false;
	}
	}

	bool X509NameAttribute::ValueAsStringWithUnsafeOptions(
	PrintableStringHandling printable_string_handling,
	std::string* out) const {
	if (printable_string_handling == PrintableStringHandling::kAsUTF8Hack &&
	value_tag == der::kPrintableString) {
	*out = value.AsString();
	return true;
	}
	return ValueAsString(out);
	}

	bool X509NameAttribute::ValueAsStringUnsafe(std::string* out) const {
	switch (value_tag) {
	case der::kIA5String:
	case der::kPrintableString:
	case der::kTeletexString:
	case der::kUtf8String:
	*out = value.AsString();
	return true;
	case der::kUniversalString:
	return der::ParseUniversalString(value, out);
	case der::kBmpString:
	return der::ParseBmpString(value, out);
	default:
	assert(0); // NOTREACHED
	return false;
	}
	}

	bool X509NameAttribute::AsRFC2253String(std::string* out) const {
	std::string type_string;
	std::string value_string;
	// TODO(mattm): Add streetAddress and domainComponent here?
	if (type == der::Input(kTypeCommonNameOid)) {
	type_string = "CN";
	} else if (type == der::Input(kTypeSurnameOid)) {
	type_string = "SN";
	} else if (type == der::Input(kTypeCountryNameOid)) {
	type_string = "C";
	} else if (type == der::Input(kTypeLocalityNameOid)) {
	type_string = "L";
	} else if (type == der::Input(kTypeStateOrProvinceNameOid)) {
	type_string = "ST";
	} else if (type == der::Input(kTypeOrganizationNameOid)) {
	type_string = "O";
	} else if (type == der::Input(kTypeOrganizationUnitNameOid)) {
	type_string = "OU";
	} else if (type == der::Input(kTypeGivenNameOid)) {
	type_string = "givenName";
	} else if (type == der::Input(kTypeEmailAddressOid)) {
	type_string = "emailAddress";
	} else {
	type_string = OidToString(type);
	if (type_string.empty())
	return false;
	value_string =
	"#" + bssl::string_util::HexEncode(value.UnsafeData(), value.Length());
	}

	if (value_string.empty()) {
	std::string unescaped;
	if (!ValueAsStringUnsafe(&unescaped))
	return false;

	bool nonprintable = false;
	for (unsigned int i = 0; i < unescaped.length(); ++i) {
	unsigned char c = static_cast<unsigned char>(unescaped[i]);
	if (i == 0 && c == '#') {
	value_string += "\\#";
	} else if (i == 0 && c == ' ') {
	value_string += "\\ ";
	} else if (i == unescaped.length() - 1 && c == ' ') {
	value_string += "\\ ";
	} else if (c == ',' \|\| c == '+' \|\| c == '"' \|\| c == '\\' \|\| c == '<' \|\|
	c == '>' \|\| c == ';') {
	value_string += "\\";
	value_string += c;
	} else if (c < 32 \|\| c > 126) {
	nonprintable = true;
	std::string h;
	h += c;
	value_string +=
	"\\" + bssl::string_util::HexEncode(
	reinterpret_cast<const uint8_t*>(h.data()), h.length());
	} else {
	value_string += c;
	}
	}

	// If we have non-printable characters in a TeletexString, we hex encode
	// since we don't handle Teletex control codes.
	if (nonprintable && value_tag == der::kTeletexString)
	value_string =
	"#" + bssl::string_util::HexEncode(value.UnsafeData(), value.Length());
	}

	*out = type_string + "=" + value_string;
	return true;
	}

	bool ReadRdn(der::Parser* parser, RelativeDistinguishedName* out) {
	while (parser->HasMore()) {
	der::Parser attr_type_and_value;
	if (!parser->ReadSequence(&attr_type_and_value))
	return false;
	// Read the attribute type, which must be an OBJECT IDENTIFIER.
	der::Input type;
	if (!attr_type_and_value.ReadTag(der::kOid, &type))
	return false;

	// Read the attribute value.
	der::Tag tag;
	der::Input value;
	if (!attr_type_and_value.ReadTagAndValue(&tag, &value))
	return false;

	// There should be no more elements in the sequence after reading the
	// attribute type and value.
	if (attr_type_and_value.HasMore())
	return false;

	out->push_back(X509NameAttribute(type, tag, value));
	}

	// RFC 5280 section 4.1.2.4
	// RelativeDistinguishedName ::= SET SIZE (1..MAX) OF AttributeTypeAndValue
	return out->size() != 0;
	}

	bool ParseName(const der::Input& name_tlv, RDNSequence* out) {
	der::Parser name_parser(name_tlv);
	der::Input name_value;
	if (!name_parser.ReadTag(der::kSequence, &name_value))
	return false;
	return ParseNameValue(name_value, out);
	}

	bool ParseNameValue(const der::Input& name_value, RDNSequence* out) {
	der::Parser rdn_sequence_parser(name_value);
	while (rdn_sequence_parser.HasMore()) {
	der::Parser rdn_parser;
	if (!rdn_sequence_parser.ReadConstructed(der::kSet, &rdn_parser))
	return false;
	RelativeDistinguishedName type_and_values;
	if (!ReadRdn(&rdn_parser, &type_and_values))
	return false;
	out->push_back(type_and_values);
	}

	return true;
	}

	bool ConvertToRFC2253(const RDNSequence& rdn_sequence, std::string* out) {
	std::string rdns_string;
	size_t size = rdn_sequence.size();
	for (size_t i = 0; i < size; ++i) {
	RelativeDistinguishedName rdn = rdn_sequence[size - i - 1];
	std::string rdn_string;
	for (const auto& atv : rdn) {
	if (!rdn_string.empty())
	rdn_string += "+";
	std::string atv_string;
	if (!atv.AsRFC2253String(&atv_string))
	return false;
	rdn_string += atv_string;
	}
	if (!rdns_string.empty())
	rdns_string += ",";
	rdns_string += rdn_string;
	}

	*out = rdns_string;
	return true;
	}

	} // namespace net