naiveproxy/net/cert/x509_util_mac.h

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2018-08-15 01:19:20 +03:00
// 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.
#ifndef NET_CERT_X509_UTIL_MAC_H_
#define NET_CERT_X509_UTIL_MAC_H_
#include <CoreFoundation/CFArray.h>
#include <Security/Security.h>
#include <string>
#include "base/mac/scoped_cftyperef.h"
#include "base/macros.h"
#include "base/memory/ref_counted.h"
#include "net/base/hash_value.h"
#include "net/base/net_export.h"
#include "net/cert/x509_certificate.h"
namespace net {
namespace x509_util {
// Tests that a given |cert_handle| is actually a valid X.509 certificate, and
// returns true if it is.
//
// On OS X, SecCertificateCreateFromData() does not return any errors if
// called with invalid data, as long as data is present. The actual decoding
// of the certificate does not happen until an API that requires a CSSM
// handle is called. While SecCertificateGetCLHandle is the most likely
// candidate, as it performs the parsing, it does not check whether the
// parsing was actually successful. Instead, SecCertificateGetSubject is
// used (supported since 10.3), as a means to check that the certificate
// parsed as a valid X.509 certificate.
NET_EXPORT bool IsValidSecCertificate(SecCertificateRef cert_handle);
// Creates a SecCertificate handle from the DER-encoded representation.
// Returns NULL on failure.
NET_EXPORT base::ScopedCFTypeRef<SecCertificateRef>
CreateSecCertificateFromBytes(const uint8_t* data, size_t length);
// Returns a SecCertificate representing |cert|, or NULL on failure.
NET_EXPORT base::ScopedCFTypeRef<SecCertificateRef>
CreateSecCertificateFromX509Certificate(const X509Certificate* cert);
// Creates an X509Certificate representing |sec_cert| with intermediates
// |sec_chain|.
NET_EXPORT scoped_refptr<X509Certificate>
CreateX509CertificateFromSecCertificate(
SecCertificateRef sec_cert,
const std::vector<SecCertificateRef>& sec_chain);
// Creates an X509Certificate with non-standard parsing options.
// Do not use without consulting //net owners.
NET_EXPORT scoped_refptr<X509Certificate>
CreateX509CertificateFromSecCertificate(
SecCertificateRef sec_cert,
const std::vector<SecCertificateRef>& sec_chain,
X509Certificate::UnsafeCreateOptions options);
// Returns true if the certificate is self-signed.
NET_EXPORT bool IsSelfSigned(SecCertificateRef cert_handle);
// Calculates the SHA-256 fingerprint of the certificate. Returns an empty
// (all zero) fingerprint on failure.
NET_EXPORT SHA256HashValue CalculateFingerprint256(SecCertificateRef cert);
// Creates a security policy for certificates used as client certificates
// in SSL.
// If a policy is successfully created, it will be stored in
// |*policy| and ownership transferred to the caller.
NET_EXPORT OSStatus CreateSSLClientPolicy(SecPolicyRef* policy);
// Create an SSL server policy. While certificate name validation will be
// performed by SecTrustEvaluate(), it has the following limitations:
// - Doesn't support IP addresses in dotted-quad literals (127.0.0.1)
// - Doesn't support IPv6 addresses
// - Doesn't support the iPAddress subjectAltName
// Providing the hostname is necessary in order to locate certain user or
// system trust preferences, such as those created by Safari. Preferences
// created by Keychain Access do not share this requirement.
// On success, stores the resultant policy in |*policy| and returns noErr.
NET_EXPORT OSStatus CreateSSLServerPolicy(const std::string& hostname,
SecPolicyRef* policy);
// Creates a security policy for basic X.509 validation. If the policy is
// successfully created, it will be stored in |*policy| and ownership
// transferred to the caller.
NET_EXPORT OSStatus CreateBasicX509Policy(SecPolicyRef* policy);
// Creates security policies to control revocation checking (OCSP and CRL).
// If |enable_revocation_checking| is true, revocation checking will be
// explicitly enabled.
// Otherwise, the policies returned will be explicitly prohibited from accessing
// the network or the local cache, if possible.
// If the policies are successfully created, they will be appended to
// |policies|.
NET_EXPORT OSStatus CreateRevocationPolicies(bool enable_revocation_checking,
CFMutableArrayRef policies);
// CSSM functions are deprecated as of OSX 10.7, but have no replacement.
// https://bugs.chromium.org/p/chromium/issues/detail?id=590914#c1
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdeprecated-declarations"
// Wrapper for a CSSM_DATA_PTR that was obtained via one of the CSSM field
// accessors (such as CSSM_CL_CertGet[First/Next]Value or
// CSSM_CL_CertGet[First/Next]CachedValue).
class CSSMFieldValue {
public:
CSSMFieldValue();
CSSMFieldValue(CSSM_CL_HANDLE cl_handle,
const CSSM_OID* oid,
CSSM_DATA_PTR field);
~CSSMFieldValue();
CSSM_OID_PTR oid() const { return oid_; }
CSSM_DATA_PTR field() const { return field_; }
// Returns the field as if it was an arbitrary type - most commonly, by
// interpreting the field as a specific CSSM/CDSA parsed type, such as
// CSSM_X509_SUBJECT_PUBLIC_KEY_INFO or CSSM_X509_ALGORITHM_IDENTIFIER.
// An added check is applied to ensure that the current field is large
// enough to actually contain the requested type.
template <typename T> const T* GetAs() const {
if (!field_ || field_->Length < sizeof(T))
return NULL;
return reinterpret_cast<const T*>(field_->Data);
}
void Reset(CSSM_CL_HANDLE cl_handle,
CSSM_OID_PTR oid,
CSSM_DATA_PTR field);
private:
CSSM_CL_HANDLE cl_handle_;
CSSM_OID_PTR oid_;
CSSM_DATA_PTR field_;
DISALLOW_COPY_AND_ASSIGN(CSSMFieldValue);
};
// CSSMCachedCertificate is a container class that is used to wrap the
// CSSM_CL_CertCache APIs and provide safe and efficient access to
// certificate fields in their CSSM form.
//
// To provide efficient access to certificate/CRL fields, CSSM provides an
// API/SPI to "cache" a certificate/CRL. The exact meaning of a cached
// certificate is not defined by CSSM, but is documented to generally be some
// intermediate or parsed form of the certificate. In the case of Apple's
// CSSM CL implementation, the intermediate form is the parsed certificate
// stored in an internal format (which happens to be NSS). By caching the
// certificate, callers that wish to access multiple fields (such as subject,
// issuer, and validity dates) do not need to repeatedly parse the entire
// certificate, nor are they forced to convert all fields from their NSS types
// to their CSSM equivalents. This latter point is especially helpful when
// running on OS X 10.5, as it will fail to convert some fields that reference
// unsupported algorithms, such as ECC.
class CSSMCachedCertificate {
public:
CSSMCachedCertificate();
~CSSMCachedCertificate();
// Initializes the CSSMCachedCertificate by caching the specified
// |os_cert_handle|. On success, returns noErr.
// Note: Once initialized, the cached certificate should only be accessed
// from a single thread.
OSStatus Init(SecCertificateRef os_cert_handle);
// Fetches the first value for the field associated with |field_oid|.
// If |field_oid| is a valid OID and is present in the current certificate,
// returns CSSM_OK and stores the first value in |field|. If additional
// values are associated with |field_oid|, they are ignored.
OSStatus GetField(const CSSM_OID* field_oid, CSSMFieldValue* field) const;
private:
CSSM_CL_HANDLE cl_handle_;
CSSM_HANDLE cached_cert_handle_;
};
// Compares two OIDs by value.
inline bool CSSMOIDEqual(const CSSM_OID* oid1, const CSSM_OID* oid2) {
return oid1->Length == oid2->Length &&
(memcmp(oid1->Data, oid2->Data, oid1->Length) == 0);
}
#pragma clang diagnostic pop // "-Wdeprecated-declarations"
} // namespace x509_util
} // namespace net
#endif // NET_CERT_X509_UTIL_MAC_H_