// Copyright (c) 2011 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_BASE_CERT_VERIFIER_H_ #define NET_BASE_CERT_VERIFIER_H_ #pragma once #include <map> #include <string> #include "base/basictypes.h" #include "base/memory/scoped_ptr.h" #include "base/threading/non_thread_safe.h" #include "base/time.h" #include "net/base/cert_database.h" #include "net/base/cert_verify_result.h" #include "net/base/completion_callback.h" #include "net/base/net_export.h" #include "net/base/x509_cert_types.h" namespace net { class CertVerifierJob; class CertVerifierWorker; class X509Certificate; // CachedCertVerifyResult contains the result of a certificate verification. struct CachedCertVerifyResult { CachedCertVerifyResult(); ~CachedCertVerifyResult(); // Returns true if |current_time| is greater than or equal to |expiry|. bool HasExpired(base::Time current_time) const; int error; // The return value of CertVerifier::Verify. CertVerifyResult result; // The output of CertVerifier::Verify. // The time at which the certificate verification result expires. base::Time expiry; }; // CertVerifier represents a service for verifying certificates. // // CertVerifier can handle multiple requests at a time, so when canceling a // request the RequestHandle that was returned by Verify() needs to be // given. A simpler alternative for consumers that only have 1 outstanding // request at a time is to create a SingleRequestCertVerifier wrapper around // CertVerifier (which will automatically cancel the single request when it // goes out of scope). class NET_EXPORT CertVerifier : public base::NonThreadSafe, public CertDatabase::Observer { public: // Opaque type used to cancel a request. typedef void* RequestHandle; // CertVerifier must not call base::Time::Now() directly. It must call // time_service_->Now(). This allows unit tests to mock the current time. class TimeService { public: virtual ~TimeService() {} virtual base::Time Now() = 0; }; CertVerifier(); // Used by unit tests to mock the current time. Takes ownership of // |time_service|. explicit CertVerifier(TimeService* time_service); // When the verifier is destroyed, all certificate verifications requests are // canceled, and their completion callbacks will not be called. ~CertVerifier(); // Verifies the given certificate against the given hostname. Returns OK if // successful or an error code upon failure. // // The |*verify_result| structure, including the |verify_result->cert_status| // bitmask, is always filled out regardless of the return value. If the // certificate has multiple errors, the corresponding status flags are set in // |verify_result->cert_status|, and the error code for the most serious // error is returned. // // |flags| is bitwise OR'd of X509Certificate::VerifyFlags. // If VERIFY_REV_CHECKING_ENABLED is set in |flags|, certificate revocation // checking is performed. // // If VERIFY_EV_CERT is set in |flags| too, EV certificate verification is // performed. If |flags| is VERIFY_EV_CERT (that is, // VERIFY_REV_CHECKING_ENABLED is not set), EV certificate verification will // not be performed. // // |callback| must not be null. ERR_IO_PENDING is returned if the operation // could not be completed synchronously, in which case the result code will // be passed to the callback when available. // // If |out_req| is non-NULL, then |*out_req| will be filled with a handle to // the async request. This handle is not valid after the request has // completed. int Verify(X509Certificate* cert, const std::string& hostname, int flags, CertVerifyResult* verify_result, CompletionCallback* callback, RequestHandle* out_req); // Cancels the specified request. |req| is the handle returned by Verify(). // After a request is canceled, its completion callback will not be called. void CancelRequest(RequestHandle req); // Clears the verification result cache. void ClearCache(); size_t GetCacheSize() const; uint64 requests() const { return requests_; } uint64 cache_hits() const { return cache_hits_; } uint64 inflight_joins() const { return inflight_joins_; } private: friend class CertVerifierWorker; // Calls HandleResult. // Input parameters of a certificate verification request. struct RequestParams { bool operator==(const RequestParams& other) const { // |flags| is compared before |cert_fingerprint| and |hostname| under // assumption that integer comparisons are faster than memory and string // comparisons. return (flags == other.flags && memcmp(cert_fingerprint.data, other.cert_fingerprint.data, sizeof(cert_fingerprint.data)) == 0 && hostname == other.hostname); } bool operator<(const RequestParams& other) const { // |flags| is compared before |cert_fingerprint| and |hostname| under // assumption that integer comparisons are faster than memory and string // comparisons. if (flags != other.flags) return flags < other.flags; int rv = memcmp(cert_fingerprint.data, other.cert_fingerprint.data, sizeof(cert_fingerprint.data)); if (rv != 0) return rv < 0; return hostname < other.hostname; } SHA1Fingerprint cert_fingerprint; std::string hostname; int flags; }; void HandleResult(X509Certificate* cert, const std::string& hostname, int flags, int error, const CertVerifyResult& verify_result); // CertDatabase::Observer methods: virtual void OnCertTrustChanged(const X509Certificate* cert); // cache_ maps from a request to a cached result. The cached result may // have expired and the size of |cache_| must be <= kMaxCacheEntries. std::map<RequestParams, CachedCertVerifyResult> cache_; // inflight_ maps from a request to an active verification which is taking // place. std::map<RequestParams, CertVerifierJob*> inflight_; scoped_ptr<TimeService> time_service_; uint64 requests_; uint64 cache_hits_; uint64 inflight_joins_; DISALLOW_COPY_AND_ASSIGN(CertVerifier); }; // This class represents the task of verifying a certificate. It wraps // CertVerifier to verify only a single certificate at a time and cancels this // request when going out of scope. class SingleRequestCertVerifier { public: // |cert_verifier| must remain valid for the lifetime of |this|. explicit SingleRequestCertVerifier(CertVerifier* cert_verifier); // If a completion callback is pending when the verifier is destroyed, the // certificate verification is canceled, and the completion callback will // not be called. ~SingleRequestCertVerifier(); // Verifies the given certificate, filling out the |verify_result| object // upon success. See CertVerifier::Verify() for details. int Verify(X509Certificate* cert, const std::string& hostname, int flags, CertVerifyResult* verify_result, CompletionCallback* callback); private: // Callback for when the request to |cert_verifier_| completes, so we // dispatch to the user's callback. void OnVerifyCompletion(int result); // The actual certificate verifier that will handle the request. CertVerifier* const cert_verifier_; // The current request (if any). CertVerifier::RequestHandle cur_request_; CompletionCallback* cur_request_callback_; // Completion callback for when request to |cert_verifier_| completes. CompletionCallbackImpl<SingleRequestCertVerifier> callback_; DISALLOW_COPY_AND_ASSIGN(SingleRequestCertVerifier); }; } // namespace net #endif // NET_BASE_CERT_VERIFIER_H_