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// Copyright 2017 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/x509_certificate.h"
#include "base/numerics/safe_conversions.h"
#include "base/pickle.h"
#include "crypto/openssl_util.h"
#include "net/base/ip_address.h"
#include "net/cert/asn1_util.h"
#include "net/cert/internal/cert_errors.h"
#include "net/cert/internal/name_constraints.h"
#include "net/cert/internal/parse_name.h"
#include "net/cert/internal/parsed_certificate.h"
#include "net/cert/internal/signature_policy.h"
#include "net/cert/internal/verify_name_match.h"
#include "net/cert/internal/verify_signed_data.h"
#include "net/cert/x509_util.h"
#include "net/der/parser.h"
#include "third_party/boringssl/src/include/openssl/evp.h"
#include "third_party/boringssl/src/include/openssl/pkcs7.h"
#include "third_party/boringssl/src/include/openssl/pool.h"
#include "third_party/boringssl/src/include/openssl/sha.h"
namespace net {
namespace {
// Converts a GeneralizedTime struct to a base::Time, returning true on success
// or false if |generalized| was invalid or cannot be represented by
// base::Time.
bool GeneralizedTimeToBaseTime(const der::GeneralizedTime& generalized,
base::Time* result) {
base::Time::Exploded exploded = {0};
exploded.year = generalized.year;
exploded.month = generalized.month;
exploded.day_of_month = generalized.day;
exploded.hour = generalized.hours;
exploded.minute = generalized.minutes;
exploded.second = generalized.seconds;
return base::Time::FromUTCExploded(exploded, result);
}
ParseCertificateOptions DefaultParseCertificateOptions() {
ParseCertificateOptions options;
options.allow_invalid_serial_numbers = true;
return options;
}
// Sets |value| to the Value from a DER Sequence Tag-Length-Value and return
// true, or return false if the TLV was not a valid DER Sequence.
WARN_UNUSED_RESULT bool GetSequenceValue(const der::Input& tlv,
der::Input* value) {
der::Parser parser(tlv);
return parser.ReadTag(der::kSequence, value) && !parser.HasMore();
}
// Normalize |cert|'s Issuer and store it in |out_normalized_issuer|, returning
// true on success or false if there was a parsing error.
bool GetNormalizedCertIssuer(CRYPTO_BUFFER* cert,
std::string* out_normalized_issuer) {
der::Input tbs_certificate_tlv;
der::Input signature_algorithm_tlv;
der::BitString signature_value;
if (!ParseCertificate(
der::Input(CRYPTO_BUFFER_data(cert), CRYPTO_BUFFER_len(cert)),
&tbs_certificate_tlv, &signature_algorithm_tlv, &signature_value,
nullptr)) {
return false;
}
ParsedTbsCertificate tbs;
if (!ParseTbsCertificate(tbs_certificate_tlv,
DefaultParseCertificateOptions(), &tbs, nullptr))
return false;
der::Input issuer_value;
if (!GetSequenceValue(tbs.issuer_tlv, &issuer_value))
return false;
return NormalizeName(issuer_value, out_normalized_issuer);
}
// Fills |principal| from the DER encoded |name_tlv|, returning true on success
// or false if parsing failed or some of the values could not be converted to
// UTF-8.
bool ParsePrincipal(const der::Input& name_tlv, CertPrincipal* principal) {
RDNSequence rdns;
if (!ParseName(name_tlv, &rdns))
return false;
for (const RelativeDistinguishedName& rdn : rdns) {
for (const X509NameAttribute& name_attribute : rdn) {
if (name_attribute.type == TypeCommonNameOid()) {
if (principal->common_name.empty() &&
!name_attribute.ValueAsString(&principal->common_name)) {
return false;
}
} else if (name_attribute.type == TypeLocalityNameOid()) {
if (principal->locality_name.empty() &&
!name_attribute.ValueAsString(&principal->locality_name)) {
return false;
}
} else if (name_attribute.type == TypeStateOrProvinceNameOid()) {
if (principal->state_or_province_name.empty() &&
!name_attribute.ValueAsString(&principal->state_or_province_name)) {
return false;
}
} else if (name_attribute.type == TypeCountryNameOid()) {
if (principal->country_name.empty() &&
!name_attribute.ValueAsString(&principal->country_name)) {
return false;
}
} else if (name_attribute.type == TypeStreetAddressOid()) {
std::string s;
if (!name_attribute.ValueAsString(&s))
return false;
principal->street_addresses.push_back(s);
} else if (name_attribute.type == TypeOrganizationNameOid()) {
std::string s;
if (!name_attribute.ValueAsString(&s))
return false;
principal->organization_names.push_back(s);
} else if (name_attribute.type == TypeOrganizationUnitNameOid()) {
std::string s;
if (!name_attribute.ValueAsString(&s))
return false;
principal->organization_unit_names.push_back(s);
} else if (name_attribute.type == TypeDomainComponentOid()) {
std::string s;
if (!name_attribute.ValueAsString(&s))
return false;
principal->domain_components.push_back(s);
}
}
}
return true;
}
// Parses certificates from a PKCS#7 SignedData structure, appending them to
// |handles|.
void CreateOSCertHandlesFromPKCS7Bytes(
const char* data,
size_t length,
X509Certificate::OSCertHandles* handles) {
crypto::EnsureOpenSSLInit();
crypto::OpenSSLErrStackTracer err_cleaner(FROM_HERE);
CBS der_data;
CBS_init(&der_data, reinterpret_cast<const uint8_t*>(data), length);
STACK_OF(CRYPTO_BUFFER)* certs = sk_CRYPTO_BUFFER_new_null();
if (PKCS7_get_raw_certificates(certs, &der_data,
x509_util::GetBufferPool())) {
for (size_t i = 0; i < sk_CRYPTO_BUFFER_num(certs); ++i) {
handles->push_back(sk_CRYPTO_BUFFER_value(certs, i));
}
}
// |handles| took ownership of the individual buffers, so only free the list
// itself.
sk_CRYPTO_BUFFER_free(certs);
}
} // namespace
bool X509Certificate::Initialize() {
der::Input tbs_certificate_tlv;
der::Input signature_algorithm_tlv;
der::BitString signature_value;
if (!ParseCertificate(der::Input(CRYPTO_BUFFER_data(cert_handle_),
CRYPTO_BUFFER_len(cert_handle_)),
&tbs_certificate_tlv, &signature_algorithm_tlv,
&signature_value, nullptr)) {
return false;
}
ParsedTbsCertificate tbs;
if (!ParseTbsCertificate(tbs_certificate_tlv,
DefaultParseCertificateOptions(), &tbs, nullptr))
return false;
if (!ParsePrincipal(tbs.subject_tlv, &subject_) ||
!ParsePrincipal(tbs.issuer_tlv, &issuer_)) {
return false;
}
if (!GeneralizedTimeToBaseTime(tbs.validity_not_before, &valid_start_) ||
!GeneralizedTimeToBaseTime(tbs.validity_not_after, &valid_expiry_)) {
return false;
}
serial_number_ = tbs.serial_number.AsString();
return true;
}
bool X509Certificate::GetSubjectAltName(
std::vector<std::string>* dns_names,
std::vector<std::string>* ip_addrs) const {
if (dns_names)
dns_names->clear();
if (ip_addrs)
ip_addrs->clear();
der::Input tbs_certificate_tlv;
der::Input signature_algorithm_tlv;
der::BitString signature_value;
if (!ParseCertificate(der::Input(CRYPTO_BUFFER_data(cert_handle_),
CRYPTO_BUFFER_len(cert_handle_)),
&tbs_certificate_tlv, &signature_algorithm_tlv,
&signature_value, nullptr)) {
return false;
}
ParsedTbsCertificate tbs;
if (!ParseTbsCertificate(tbs_certificate_tlv,
DefaultParseCertificateOptions(), &tbs, nullptr))
return false;
if (!tbs.has_extensions)
return false;
std::map<der::Input, ParsedExtension> extensions;
if (!ParseExtensions(tbs.extensions_tlv, &extensions))
return false;
ParsedExtension subject_alt_names_extension;
if (!ConsumeExtension(SubjectAltNameOid(), &extensions,
&subject_alt_names_extension)) {
return false;
}
std::unique_ptr<GeneralNames> subject_alt_names =
GeneralNames::Create(subject_alt_names_extension.value);
if (!subject_alt_names)
return false;
if (dns_names)
*dns_names = subject_alt_names->dns_names;
if (ip_addrs) {
for (const IPAddress& addr : subject_alt_names->ip_addresses) {
ip_addrs->push_back(
std::string(reinterpret_cast<const char*>(addr.bytes().data()),
addr.bytes().size()));
}
}
return !subject_alt_names->dns_names.empty() ||
!subject_alt_names->ip_addresses.empty();
}
bool X509Certificate::IsIssuedByEncoded(
const std::vector<std::string>& valid_issuers) {
std::vector<std::string> normalized_issuers;
for (const auto& raw_issuer : valid_issuers) {
der::Input issuer_value;
std::string normalized_issuer;
if (!GetSequenceValue(der::Input(&raw_issuer), &issuer_value) ||
!NormalizeName(issuer_value, &normalized_issuer)) {
continue;
}
normalized_issuers.push_back(std::move(normalized_issuer));
}
std::string normalized_cert_issuer;
if (!GetNormalizedCertIssuer(cert_handle_, &normalized_cert_issuer))
return false;
if (std::find(normalized_issuers.begin(), normalized_issuers.end(),
normalized_cert_issuer) != normalized_issuers.end())
return true;
for (CRYPTO_BUFFER* intermediate : intermediate_ca_certs_) {
if (!GetNormalizedCertIssuer(intermediate, &normalized_cert_issuer))
return false;
if (std::find(normalized_issuers.begin(), normalized_issuers.end(),
normalized_cert_issuer) != normalized_issuers.end())
return true;
}
return false;
}
// static
bool X509Certificate::GetDEREncoded(X509Certificate::OSCertHandle cert_handle,
std::string* encoded) {
if (!cert_handle)
return false;
encoded->assign(
reinterpret_cast<const char*>(CRYPTO_BUFFER_data(cert_handle)),
CRYPTO_BUFFER_len(cert_handle));
return true;
}
// static
void X509Certificate::GetPublicKeyInfo(OSCertHandle cert_handle,
size_t* size_bits,
PublicKeyType* type) {
*type = kPublicKeyTypeUnknown;
*size_bits = 0;
base::StringPiece spki;
if (!asn1::ExtractSPKIFromDERCert(
base::StringPiece(
reinterpret_cast<const char*>(CRYPTO_BUFFER_data(cert_handle)),
CRYPTO_BUFFER_len(cert_handle)),
&spki)) {
return;
}
bssl::UniquePtr<EVP_PKEY> pkey;
crypto::OpenSSLErrStackTracer err_tracer(FROM_HERE);
CBS cbs;
CBS_init(&cbs, reinterpret_cast<const uint8_t*>(spki.data()), spki.size());
pkey.reset(EVP_parse_public_key(&cbs));
if (!pkey)
return;
switch (pkey->type) {
case EVP_PKEY_RSA:
*type = kPublicKeyTypeRSA;
break;
case EVP_PKEY_DSA:
*type = kPublicKeyTypeDSA;
break;
case EVP_PKEY_EC:
*type = kPublicKeyTypeECDSA;
break;
case EVP_PKEY_DH:
*type = kPublicKeyTypeDH;
break;
}
*size_bits = base::saturated_cast<size_t>(EVP_PKEY_bits(pkey.get()));
}
// static
bool X509Certificate::IsSameOSCert(X509Certificate::OSCertHandle a,
X509Certificate::OSCertHandle b) {
DCHECK(a && b);
if (a == b)
return true;
return CRYPTO_BUFFER_len(a) == CRYPTO_BUFFER_len(b) &&
memcmp(CRYPTO_BUFFER_data(a), CRYPTO_BUFFER_data(b),
CRYPTO_BUFFER_len(a)) == 0;
}
// static
X509Certificate::OSCertHandle X509Certificate::CreateOSCertHandleFromBytes(
const char* data,
size_t length) {
der::Input tbs_certificate_tlv;
der::Input signature_algorithm_tlv;
der::BitString signature_value;
// Do a bare minimum of DER parsing here to make sure the input is not
// completely crazy. (This is required for at least
// CreateCertificateListFromBytes with FORMAT_AUTO, if not more.)
if (!ParseCertificate(
der::Input(reinterpret_cast<const uint8_t*>(data), length),
&tbs_certificate_tlv, &signature_algorithm_tlv, &signature_value,
nullptr)) {
return nullptr;
}
return CRYPTO_BUFFER_new(reinterpret_cast<const uint8_t*>(data), length,
x509_util::GetBufferPool());
}
// static
X509Certificate::OSCertHandles X509Certificate::CreateOSCertHandlesFromBytes(
const char* data,
size_t length,
Format format) {
OSCertHandles results;
switch (format) {
case FORMAT_SINGLE_CERTIFICATE: {
OSCertHandle handle = CreateOSCertHandleFromBytes(data, length);
if (handle)
results.push_back(handle);
break;
}
case FORMAT_PKCS7: {
CreateOSCertHandlesFromPKCS7Bytes(data, length, &results);
break;
}
default: {
NOTREACHED() << "Certificate format " << format << " unimplemented";
break;
}
}
return results;
}
// static
X509Certificate::OSCertHandle X509Certificate::DupOSCertHandle(
OSCertHandle cert_handle) {
CRYPTO_BUFFER_up_ref(cert_handle);
return cert_handle;
}
// static
void X509Certificate::FreeOSCertHandle(OSCertHandle cert_handle) {
CRYPTO_BUFFER_free(cert_handle);
}
// static
SHA256HashValue X509Certificate::CalculateFingerprint256(OSCertHandle cert) {
SHA256HashValue sha256;
SHA256(CRYPTO_BUFFER_data(cert), CRYPTO_BUFFER_len(cert), sha256.data);
return sha256;
}
// static
SHA256HashValue X509Certificate::CalculateCAFingerprint256(
const OSCertHandles& intermediates) {
SHA256HashValue sha256;
memset(sha256.data, 0, sizeof(sha256.data));
SHA256_CTX sha256_ctx;
SHA256_Init(&sha256_ctx);
for (CRYPTO_BUFFER* cert : intermediates) {
SHA256_Update(&sha256_ctx, CRYPTO_BUFFER_data(cert),
CRYPTO_BUFFER_len(cert));
}
SHA256_Final(sha256.data, &sha256_ctx);
return sha256;
}
// static
bool X509Certificate::IsSelfSigned(OSCertHandle cert_handle) {
der::Input tbs_certificate_tlv;
der::Input signature_algorithm_tlv;
der::BitString signature_value;
if (!ParseCertificate(der::Input(CRYPTO_BUFFER_data(cert_handle),
CRYPTO_BUFFER_len(cert_handle)),
&tbs_certificate_tlv, &signature_algorithm_tlv,
&signature_value, nullptr)) {
return false;
}
ParsedTbsCertificate tbs;
if (!ParseTbsCertificate(tbs_certificate_tlv,
DefaultParseCertificateOptions(), &tbs, nullptr)) {
return false;
}
der::Input subject_value;
std::string normalized_subject;
if (!GetSequenceValue(tbs.subject_tlv, &subject_value) ||
!NormalizeName(subject_value, &normalized_subject)) {
return false;
}
der::Input issuer_value;
std::string normalized_issuer;
if (!GetSequenceValue(tbs.issuer_tlv, &issuer_value) ||
!NormalizeName(issuer_value, &normalized_issuer)) {
return false;
}
if (normalized_subject != normalized_issuer)
return false;
std::unique_ptr<SignatureAlgorithm> signature_algorithm =
SignatureAlgorithm::Create(signature_algorithm_tlv, nullptr /* errors */);
if (!signature_algorithm)
return false;
SimpleSignaturePolicy signature_policy(1024);
CertErrors unused_errors;
return VerifySignedData(*signature_algorithm, tbs_certificate_tlv,
signature_value, tbs.spki_tlv, &signature_policy,
&unused_errors);
}
// static
X509Certificate::OSCertHandle X509Certificate::ReadOSCertHandleFromPickle(
base::PickleIterator* pickle_iter) {
const char* data;
int length;
if (!pickle_iter->ReadData(&data, &length))
return NULL;
return CreateOSCertHandleFromBytes(data, length);
}
// static
bool X509Certificate::WriteOSCertHandleToPickle(OSCertHandle cert_handle,
base::Pickle* pickle) {
return pickle->WriteData(
reinterpret_cast<const char*>(CRYPTO_BUFFER_data(cert_handle)),
CRYPTO_BUFFER_len(cert_handle));
}
} // namespace net
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