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// Copyright 2012 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef BSSL_PKI_X509_CERTIFICATE_H_
#define BSSL_PKI_X509_CERTIFICATE_H_
#include "fillins/openssl_util.h"
#include "fillins/time.h"
#include <stddef.h>
#include <string.h>
#include <string>
#include <vector>
#include <openssl/span.h>
#include <memory>
#include <string_view>
#include "fillins/hash_value.h"
#include "x509_cert_types.h"
#include <openssl/base.h>
namespace base {
class Pickle;
class PickleIterator;
}
namespace bssl {
class X509Certificate;
typedef std::vector<std::shared_ptr<X509Certificate> > CertificateList;
// A X.509 certificate represents a particular identity or end-entity
// certificate, such as an SSL server identity or an SSL client certificate. An
// X509Certificate contains this leaf certificate accessible via cert_buffer().
// An X509Certificate may also contain 0 or more intermediary X.509 certificates
// that are used to build a path to a root certificate. These are accessed via
// intermediate_buffers().
class OPENSSL_EXPORT X509Certificate
{
public:
enum PublicKeyType {
kPublicKeyTypeUnknown,
kPublicKeyTypeRSA,
kPublicKeyTypeDSA,
kPublicKeyTypeECDSA,
kPublicKeyTypeDH,
kPublicKeyTypeECDH
};
enum Format {
// The data contains a single DER-encoded certificate, or a PEM-encoded
// DER certificate with the PEM encoding block name of "CERTIFICATE".
// Any subsequent blocks will be ignored.
FORMAT_SINGLE_CERTIFICATE = 1 << 0,
// The data contains a sequence of one or more PEM-encoded, DER
// certificates, with the PEM encoding block name of "CERTIFICATE".
// All PEM blocks will be parsed, until the first error is encountered.
FORMAT_PEM_CERT_SEQUENCE = 1 << 1,
// The data contains a PKCS#7 SignedData structure, whose certificates
// member is to be used to initialize the certificate and intermediates.
// The data may further be encoded using PEM, specifying block names of
// either "PKCS7" or "CERTIFICATE".
FORMAT_PKCS7 = 1 << 2,
// Automatically detect the format.
FORMAT_AUTO = FORMAT_SINGLE_CERTIFICATE | FORMAT_PEM_CERT_SEQUENCE |
FORMAT_PKCS7,
};
// Create an X509Certificate from a CRYPTO_BUFFER containing the DER-encoded
// representation. Returns NULL on failure to parse or extract data from the
// the certificate. Note that this does not guarantee the certificate is
// fully parsed and validated, only that the members of this class, such as
// subject, issuer, expiry times, and serial number, could be successfully
// initialized from the certificate.
static std::shared_ptr<X509Certificate> CreateFromBuffer(
bssl::UniquePtr<CRYPTO_BUFFER> cert_buffer,
std::vector<bssl::UniquePtr<CRYPTO_BUFFER>> intermediates);
// Options for configuring certificate parsing.
// Do not use without consulting //net owners.
struct UnsafeCreateOptions {
bool printable_string_is_utf8 = false;
};
// Create an X509Certificate with non-standard parsing options.
// Do not use without consulting //net owners.
static std::shared_ptr<X509Certificate> CreateFromBufferUnsafeOptions(
bssl::UniquePtr<CRYPTO_BUFFER> cert_buffer,
std::vector<bssl::UniquePtr<CRYPTO_BUFFER>> intermediates,
UnsafeCreateOptions options);
// Create an X509Certificate from a chain of DER encoded certificates. The
// first certificate in the chain is the end-entity certificate to which a
// handle is returned. The other certificates in the chain are intermediate
// certificates.
static std::shared_ptr<X509Certificate> CreateFromDERCertChain(
const std::vector<std::string_view>& der_certs);
// Create an X509Certificate from a chain of DER encoded certificates with
// non-standard parsing options.
// Do not use without consulting //net owners.
static std::shared_ptr<X509Certificate> CreateFromDERCertChainUnsafeOptions(
const std::vector<std::string_view>& der_certs,
UnsafeCreateOptions options);
// Create an X509Certificate from the DER-encoded representation.
// Returns NULL on failure.
static std::shared_ptr<X509Certificate> CreateFromBytes(
bssl::Span<const uint8_t> data);
// Create an X509Certificate with non-standard parsing options.
// Do not use without consulting //net owners.
static std::shared_ptr<X509Certificate> CreateFromBytesUnsafeOptions(
bssl::Span<const uint8_t> data,
UnsafeCreateOptions options);
// Create an X509Certificate from the representation stored in the given
// pickle. The data for this object is found relative to the given
// pickle_iter, which should be passed to the pickle's various Read* methods.
// Returns NULL on failure.
static std::shared_ptr<X509Certificate> CreateFromPickle(
base::PickleIterator* pickle_iter);
// Create an X509Certificate from the representation stored in the given
// pickle with non-standard parsing options.
// Do not use without consulting //net owners.
static std::shared_ptr<X509Certificate> CreateFromPickleUnsafeOptions(
base::PickleIterator* pickle_iter,
UnsafeCreateOptions options);
// Parses all of the certificates possible from |data|. |format| is a
// bit-wise OR of Format, indicating the possible formats the
// certificates may have been serialized as. If an error occurs, an empty
// collection will be returned.
static CertificateList CreateCertificateListFromBytes(
bssl::Span<const uint8_t> data,
int format);
// Return a X509Certificate object representing the same certificate but
// with a different set of intermediates. If |intermediates| are the same as
// |intermediate_ca_certs_|, it will return a reference to the same
// X509Certificate object rather than cloning.
std::shared_ptr<X509Certificate> CloneWithDifferentIntermediates(
std::vector<bssl::UniquePtr<CRYPTO_BUFFER>> intermediates);
X509Certificate(const X509Certificate&) = delete;
X509Certificate& operator=(const X509Certificate&) = delete;
// Appends a representation of this object to the given pickle.
// The Pickle contains the certificate and any certificates that were
// stored in |intermediate_ca_certs_| at the time it was serialized.
// The format is [int count], [data - this certificate],
// [data - intermediate1], ... [data - intermediateN].
// All certificates are stored in DER form.
void Persist(base::Pickle* pickle) const;
// The serial number, DER encoded, possibly including a leading 00 byte.
const std::string& serial_number() const { return parsed_.serial_number_; }
// The subject of the certificate. For HTTPS server certificates, this
// represents the web server. The common name of the subject should match
// the host name of the web server.
const CertPrincipal& subject() const { return parsed_.subject_; }
// The issuer of the certificate.
const CertPrincipal& issuer() const { return parsed_.issuer_; }
// Time period during which the certificate is valid. More precisely, this
// certificate is invalid before the |valid_start| date and invalid after
// the |valid_expiry| date.
// If we were unable to parse either date from the certificate (or if the cert
// lacks either date), the date will be null (i.e., is_null() will be true).
const absl::Time& valid_start() const { return parsed_.valid_start_; }
const absl::Time& valid_expiry() const { return parsed_.valid_expiry_; }
// Gets the subjectAltName extension field from the certificate, if any.
// For future extension; currently this only returns those name types that
// are required for HTTP certificate name verification - see VerifyHostname.
// Returns true if any dNSName or iPAddress SAN was present. If |dns_names|
// is non-null, it will be set to all dNSNames present. If |ip_addrs| is
// non-null, it will be set to all iPAddresses present.
bool GetSubjectAltName(std::vector<std::string>* dns_names,
std::vector<std::string>* ip_addrs) const;
// Convenience method that returns whether this certificate has expired as of
// now.
bool HasExpired() const;
// Returns true if this object and |other| represent the same certificate.
// Does not consider any associated intermediates.
bool EqualsExcludingChain(const X509Certificate* other) const;
// Returns true if this object and |other| represent the same certificate
// and intermediates.
bool EqualsIncludingChain(const X509Certificate* other) const;
// Do any of the given issuer names appear in this cert's chain of trust?
// |valid_issuers| is a list of DER-encoded X.509 DistinguishedNames.
bool IsIssuedByEncoded(const std::vector<std::string>& valid_issuers) const;
// Verifies that |hostname| matches this certificate.
// Does not verify that the certificate is valid, only that the certificate
// matches this host.
bool VerifyNameMatch(const std::string& hostname) const;
// Returns the PEM encoded data from a DER encoded certificate. If the
// return value is true, then the PEM encoded certificate is written to
// |pem_encoded|.
static bool GetPEMEncodedFromDER(std::string_view der_encoded,
std::string* pem_encoded);
// Returns the PEM encoded data from a CRYPTO_BUFFER. If the return value is
// true, then the PEM encoded certificate is written to |pem_encoded|.
static bool GetPEMEncoded(const CRYPTO_BUFFER* cert_buffer,
std::string* pem_encoded);
// Encodes the entire certificate chain (this certificate and any
// intermediate certificates stored in |intermediate_ca_certs_|) as a series
// of PEM encoded strings. Returns true if all certificates were encoded,
// storing the result in |*pem_encoded|, with this certificate stored as
// the first element.
bool GetPEMEncodedChain(std::vector<std::string>* pem_encoded) const;
// Sets |*size_bits| to be the length of the public key in bits, and sets
// |*type| to one of the |PublicKeyType| values. In case of
// |kPublicKeyTypeUnknown|, |*size_bits| will be set to 0.
static void GetPublicKeyInfo(const CRYPTO_BUFFER* cert_buffer,
size_t* size_bits,
PublicKeyType* type);
// Returns the CRYPTO_BUFFER holding this certificate's DER encoded data. The
// data is not guaranteed to be valid DER or to encode a valid Certificate
// object.
CRYPTO_BUFFER* cert_buffer() const { return cert_buffer_.get(); }
// Returns the associated intermediate certificates that were specified
// during creation of this object, if any. The intermediates are not
// guaranteed to be valid DER or to encode valid Certificate objects.
// Ownership follows the "get" rule: it is the caller's responsibility to
// retain the elements of the result.
const std::vector<bssl::UniquePtr<CRYPTO_BUFFER>>& intermediate_buffers()
const {
return intermediate_ca_certs_;
}
// Creates all possible CRYPTO_BUFFERs from |data| encoded in a specific
// |format|. Returns an empty collection on failure.
static std::vector<bssl::UniquePtr<CRYPTO_BUFFER>> CreateCertBuffersFromBytes(
bssl::Span<const uint8_t> data,
Format format);
// Calculates the SHA-256 fingerprint of the certificate. Returns an empty
// (all zero) fingerprint on failure.
static SHA256HashValue CalculateFingerprint256(
const CRYPTO_BUFFER* cert_buffer);
// Calculates the SHA-256 fingerprint for the complete chain, including the
// leaf certificate and all intermediate CA certificates. Returns an empty
// (all zero) fingerprint on failure.
SHA256HashValue CalculateChainFingerprint256() const;
// Returns true if the certificate is self-signed.
static bool IsSelfSigned(CRYPTO_BUFFER* cert_buffer);
private:
friend class TestRootCerts; // For unit tests
class ParsedFields {
public:
ParsedFields();
ParsedFields(const ParsedFields&);
ParsedFields(ParsedFields&&);
~ParsedFields();
bool Initialize(const CRYPTO_BUFFER* cert_buffer,
UnsafeCreateOptions options);
// The subject of the certificate.
CertPrincipal subject_;
// The issuer of the certificate.
CertPrincipal issuer_;
// This certificate is not valid before |valid_start_|
absl::Time valid_start_;
// This certificate is not valid after |valid_expiry_|
absl::Time valid_expiry_;
// The serial number of this certificate, DER encoded.
std::string serial_number_;
};
// Construct an X509Certificate from a CRYPTO_BUFFER containing the
// DER-encoded representation.
X509Certificate(ParsedFields parsed,
bssl::UniquePtr<CRYPTO_BUFFER> cert_buffer,
std::vector<bssl::UniquePtr<CRYPTO_BUFFER>> intermediates);
// Copy |other|, except with a different set of intermediates.
X509Certificate(const X509Certificate& other,
std::vector<bssl::UniquePtr<CRYPTO_BUFFER>> intermediates);
~X509Certificate();
// Verifies that |hostname| matches one of the certificate names or IP
// addresses supplied, based on TLS name matching rules - specifically,
// following http://tools.ietf.org/html/rfc6125.
// The members of |cert_san_dns_names| and |cert_san_ipaddrs| must be filled
// from the dNSName and iPAddress components of the subject alternative name
// extension, if present. Note these IP addresses are NOT ascii-encoded:
// they must be 4 or 16 bytes of network-ordered data, for IPv4 and IPv6
// addresses, respectively.
static bool VerifyHostname(const std::string& hostname,
const std::vector<std::string>& cert_san_dns_names,
const std::vector<std::string>& cert_san_ip_addrs);
// Fields that were parsed from |cert_buffer_|.
const ParsedFields parsed_;
// A handle to the DER encoded certificate data.
const bssl::UniquePtr<CRYPTO_BUFFER> cert_buffer_;
// Untrusted intermediate certificates associated with this certificate
// that may be needed for chain building.
const std::vector<bssl::UniquePtr<CRYPTO_BUFFER>> intermediate_ca_certs_;
};
} // namespace net
#endif // BSSL_PKI_X509_CERTIFICATE_H_