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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/cert/asn1_util.h"
#include "net/cert/internal/parse_certificate.h"
#include "net/der/input.h"
#include "net/der/parser.h"
namespace net {
namespace asn1 {
namespace {
// Parses input |in| which should point to the beginning of a Certificate, and
// sets |*tbs_certificate| ready to parse the Subject. If parsing
// fails, this function returns false and |*tbs_certificate| is left in an
// undefined state.
bool SeekToSubject(der::Input in, der::Parser* tbs_certificate) {
// From RFC 5280, section 4.1
// Certificate ::= SEQUENCE {
// tbsCertificate TBSCertificate,
// signatureAlgorithm AlgorithmIdentifier,
// signatureValue BIT STRING }
// TBSCertificate ::= SEQUENCE {
// version [0] EXPLICIT Version DEFAULT v1,
// serialNumber CertificateSerialNumber,
// signature AlgorithmIdentifier,
// issuer Name,
// validity Validity,
// subject Name,
// subjectPublicKeyInfo SubjectPublicKeyInfo,
// ... }
der::Parser parser(in);
der::Parser certificate;
if (!parser.ReadSequence(&certificate))
return false;
// We don't allow junk after the certificate.
if (parser.HasMore())
return false;
if (!certificate.ReadSequence(tbs_certificate))
return false;
bool unused;
if (!tbs_certificate->SkipOptionalTag(
der::kTagConstructed | der::kTagContextSpecific | 0, &unused)) {
return false;
}
// serialNumber
if (!tbs_certificate->SkipTag(der::kInteger))
return false;
// signature
if (!tbs_certificate->SkipTag(der::kSequence))
return false;
// issuer
if (!tbs_certificate->SkipTag(der::kSequence))
return false;
// validity
if (!tbs_certificate->SkipTag(der::kSequence))
return false;
return true;
}
// Parses input |in| which should point to the beginning of a Certificate, and
// sets |*tbs_certificate| ready to parse the SubjectPublicKeyInfo. If parsing
// fails, this function returns false and |*tbs_certificate| is left in an
// undefined state.
bool SeekToSPKI(der::Input in, der::Parser* tbs_certificate) {
return SeekToSubject(in, tbs_certificate) &&
// Skip over Subject.
tbs_certificate->SkipTag(der::kSequence);
}
// Parses input |in| which should point to the beginning of a
// Certificate. If parsing fails, this function returns false, with
// |*extensions_present| and |*extensions_parser| left in an undefined
// state. If parsing succeeds and extensions are present, this function
// sets |*extensions_present| to true and sets |*extensions_parser|
// ready to parse the Extensions. If extensions are not present, it sets
// |*extensions_present| to false and |*extensions_parser| is left in an
// undefined state.
bool SeekToExtensions(der::Input in,
bool* extensions_present,
der::Parser* extensions_parser) {
bool present;
der::Parser tbs_cert_parser;
if (!SeekToSPKI(in, &tbs_cert_parser))
return false;
// From RFC 5280, section 4.1
// TBSCertificate ::= SEQUENCE {
// ...
// subjectPublicKeyInfo SubjectPublicKeyInfo,
// issuerUniqueID [1] IMPLICIT UniqueIdentifier OPTIONAL,
// subjectUniqueID [2] IMPLICIT UniqueIdentifier OPTIONAL,
// extensions [3] EXPLICIT Extensions OPTIONAL }
// subjectPublicKeyInfo
if (!tbs_cert_parser.SkipTag(der::kSequence))
return false;
// issuerUniqueID
if (!tbs_cert_parser.SkipOptionalTag(
der::kTagConstructed | der::kTagContextSpecific | 1, &present)) {
return false;
}
// subjectUniqueID
if (!tbs_cert_parser.SkipOptionalTag(
der::kTagConstructed | der::kTagContextSpecific | 2, &present)) {
return false;
}
der::Input extensions;
if (!tbs_cert_parser.ReadOptionalTag(
der::kTagConstructed | der::kTagContextSpecific | 3, &extensions,
&present)) {
return false;
}
if (!present) {
*extensions_present = false;
return true;
}
// Extensions ::= SEQUENCE SIZE (1..MAX) OF Extension
// Extension ::= SEQUENCE {
// extnID OBJECT IDENTIFIER,
// critical BOOLEAN DEFAULT FALSE,
// extnValue OCTET STRING }
// |extensions| was EXPLICITly tagged, so we still need to remove the
// ASN.1 SEQUENCE header.
der::Parser explicit_extensions_parser(extensions);
if (!explicit_extensions_parser.ReadSequence(extensions_parser))
return false;
if (explicit_extensions_parser.HasMore())
return false;
*extensions_present = true;
return true;
}
} // namespace
bool ExtractSubjectFromDERCert(base::StringPiece cert,
base::StringPiece* subject_out) {
der::Parser parser;
if (!SeekToSubject(der::Input(cert), &parser))
return false;
der::Input subject;
if (!parser.ReadRawTLV(&subject))
return false;
*subject_out = subject.AsStringPiece();
return true;
}
bool ExtractSPKIFromDERCert(base::StringPiece cert,
base::StringPiece* spki_out) {
der::Parser parser;
if (!SeekToSPKI(der::Input(cert), &parser))
return false;
der::Input spki;
if (!parser.ReadRawTLV(&spki))
return false;
*spki_out = spki.AsStringPiece();
return true;
}
bool ExtractSubjectPublicKeyFromSPKI(base::StringPiece spki,
base::StringPiece* spk_out) {
// From RFC 5280, Section 4.1
// SubjectPublicKeyInfo ::= SEQUENCE {
// algorithm AlgorithmIdentifier,
// subjectPublicKey BIT STRING }
//
// AlgorithmIdentifier ::= SEQUENCE {
// algorithm OBJECT IDENTIFIER,
// parameters ANY DEFINED BY algorithm OPTIONAL }
// Step into SubjectPublicKeyInfo sequence.
der::Parser parser((der::Input(spki)));
der::Parser spki_parser;
if (!parser.ReadSequence(&spki_parser))
return false;
// Step over algorithm field (a SEQUENCE).
if (!spki_parser.SkipTag(der::kSequence))
return false;
// Extract the subjectPublicKey field.
der::Input spk;
if (!spki_parser.ReadTag(der::kBitString, &spk))
return false;
*spk_out = spk.AsStringPiece();
return true;
}
bool HasTLSFeatureExtension(base::StringPiece cert) {
bool present;
der::Parser extensions_parser;
if (!SeekToExtensions(der::Input(cert), &present, &extensions_parser))
return false;
if (!present)
return false;
while (extensions_parser.HasMore()) {
der::Parser extension_parser;
if (!extensions_parser.ReadSequence(&extension_parser))
return false;
der::Input oid;
if (!extension_parser.ReadTag(der::kOid, &oid))
return false;
// kTLSFeatureExtensionOID is the DER encoding of the OID for the
// X.509 TLS Feature Extension.
static const uint8_t kTLSFeatureExtensionOID[] = {0x2B, 0x06, 0x01, 0x05,
0x05, 0x07, 0x01, 0x18};
if (oid == der::Input(kTLSFeatureExtensionOID))
return true;
}
return false;
}
bool ExtractSignatureAlgorithmsFromDERCert(
base::StringPiece cert,
base::StringPiece* cert_signature_algorithm_sequence,
base::StringPiece* tbs_signature_algorithm_sequence) {
// From RFC 5280, section 4.1
// Certificate ::= SEQUENCE {
// tbsCertificate TBSCertificate,
// signatureAlgorithm AlgorithmIdentifier,
// signatureValue BIT STRING }
// TBSCertificate ::= SEQUENCE {
// version [0] EXPLICIT Version DEFAULT v1,
// serialNumber CertificateSerialNumber,
// signature AlgorithmIdentifier,
// issuer Name,
// validity Validity,
// subject Name,
// subjectPublicKeyInfo SubjectPublicKeyInfo,
// ... }
der::Parser parser((der::Input(cert)));
der::Parser certificate;
if (!parser.ReadSequence(&certificate))
return false;
der::Parser tbs_certificate;
if (!certificate.ReadSequence(&tbs_certificate))
return false;
bool unused;
if (!tbs_certificate.SkipOptionalTag(
der::kTagConstructed | der::kTagContextSpecific | 0, &unused)) {
return false;
}
// serialNumber
if (!tbs_certificate.SkipTag(der::kInteger))
return false;
// signature
der::Input tbs_algorithm;
if (!tbs_certificate.ReadRawTLV(&tbs_algorithm))
return false;
der::Input cert_algorithm;
if (!certificate.ReadRawTLV(&cert_algorithm))
return false;
*cert_signature_algorithm_sequence = cert_algorithm.AsStringPiece();
*tbs_signature_algorithm_sequence = tbs_algorithm.AsStringPiece();
return true;
}
} // namespace asn1
} // namespace net
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