// 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_HTTP_TRANSPORT_SECURITY_STATE_H_ #define NET_HTTP_TRANSPORT_SECURITY_STATE_H_ #include #include #include #include #include #include "base/gtest_prod_util.h" #include "base/threading/non_thread_safe.h" #include "base/time/time.h" #include "net/base/net_export.h" #include "net/cert/x509_cert_types.h" #include "net/cert/x509_certificate.h" #include "url/gurl.h" class GURL; namespace net { class HostPortPair; class SSLInfo; // Tracks which hosts have enabled strict transport security and/or public // key pins. // // This object manages the in-memory store. Register a Delegate with // |SetDelegate| to persist the state to disk. // // HTTP strict transport security (HSTS) is defined in // http://tools.ietf.org/html/ietf-websec-strict-transport-sec, and // HTTP-based dynamic public key pinning (HPKP) is defined in // http://tools.ietf.org/html/ietf-websec-key-pinning. class NET_EXPORT TransportSecurityState : NON_EXPORTED_BASE(public base::NonThreadSafe) { public: class NET_EXPORT Delegate { public: // This function may not block and may be called with internal locks held. // Thus it must not reenter the TransportSecurityState object. virtual void StateIsDirty(TransportSecurityState* state) = 0; protected: virtual ~Delegate() {} }; // A STSState describes the strict transport security state (required // upgrade to HTTPS). class NET_EXPORT STSState { public: enum UpgradeMode { // These numbers must match those in hsts_view.js, function modeToString. MODE_FORCE_HTTPS = 0, MODE_DEFAULT = 1, }; STSState(); ~STSState(); // The absolute time (UTC) when the |upgrade_mode| (and other state) was // observed. base::Time last_observed; // The absolute time (UTC) when |upgrade_mode| (and other state) // expires. base::Time expiry; UpgradeMode upgrade_mode; // Are subdomains subject to this policy state? bool include_subdomains; // The domain which matched during a search for this STSState entry. // Updated by |GetDynamicSTSState| and |GetStaticDomainState|. std::string domain; // ShouldUpgradeToSSL returns true iff HTTP requests should be internally // redirected to HTTPS (also if WS should be upgraded to WSS). bool ShouldUpgradeToSSL() const; // ShouldSSLErrorsBeFatal returns true iff HTTPS errors should cause // hard-fail behavior (e.g. if HSTS is set for the domain). bool ShouldSSLErrorsBeFatal() const; }; class NET_EXPORT STSStateIterator { public: explicit STSStateIterator(const TransportSecurityState& state); ~STSStateIterator(); bool HasNext() const { return iterator_ != end_; } void Advance() { ++iterator_; } const std::string& hostname() const { return iterator_->first; } const STSState& domain_state() const { return iterator_->second; } private: std::map::const_iterator iterator_; std::map::const_iterator end_; }; // A PKPState describes the public key pinning state. class NET_EXPORT PKPState { public: PKPState(); ~PKPState(); // The absolute time (UTC) when the |spki_hashes| (and other state) were // observed. base::Time last_observed; // The absolute time (UTC) when the |spki_hashes| expire. base::Time expiry; // Optional; hashes of pinned SubjectPublicKeyInfos. HashValueVector spki_hashes; // Optional; hashes of static known-bad SubjectPublicKeyInfos which MUST // NOT intersect with the set of SPKIs in the TLS server's certificate // chain. HashValueVector bad_spki_hashes; // Are subdomains subject to this policy state? bool include_subdomains; // The domain which matched during a search for this DomainState entry. // Updated by |GetDynamicPKPState| and |GetStaticDomainState|. std::string domain; // An optional URI indicating where reports should be sent when this // pin is violated, or empty when omitted. GURL report_uri; // Takes a set of SubjectPublicKeyInfo |hashes| and returns true if: // 1) |bad_static_spki_hashes| does not intersect |hashes|; AND // 2) Both |static_spki_hashes| and |dynamic_spki_hashes| are empty // or at least one of them intersects |hashes|. // // |{dynamic,static}_spki_hashes| contain trustworthy public key hashes, // any one of which is sufficient to validate the certificate chain in // question. The public keys could be of a root CA, intermediate CA, or // leaf certificate, depending on the security vs. disaster recovery // tradeoff selected. (Pinning only to leaf certifiates increases // security because you no longer trust any CAs, but it hampers disaster // recovery because you can't just get a new certificate signed by the // CA.) // // |bad_static_spki_hashes| contains public keys that we don't want to // trust. bool CheckPublicKeyPins(const HashValueVector& hashes, std::string* failure_log) const; // Returns true if any of the HashValueVectors |static_spki_hashes|, // |bad_static_spki_hashes|, or |dynamic_spki_hashes| contains any // items. bool HasPublicKeyPins() const; // ShouldSSLErrorsBeFatal returns true iff HTTPS errors should cause // hard-fail behavior (e.g. if HSTS is set for the domain). bool ShouldSSLErrorsBeFatal() const; }; class NET_EXPORT PKPStateIterator { public: explicit PKPStateIterator(const TransportSecurityState& state); ~PKPStateIterator(); bool HasNext() const { return iterator_ != end_; } void Advance() { ++iterator_; } const std::string& hostname() const { return iterator_->first; } const PKPState& domain_state() const { return iterator_->second; } private: std::map::const_iterator iterator_; std::map::const_iterator end_; }; // An interface for asynchronously sending HPKP violation reports. class NET_EXPORT ReportSender { public: // Sends the given serialized |report| to |report_uri|. virtual void Send(const GURL& report_uri, const std::string& report) = 0; protected: virtual ~ReportSender() {} }; // Indicates whether or not a public key pin check should send a // report if a violation is detected. enum PublicKeyPinReportStatus { ENABLE_PIN_REPORTS, DISABLE_PIN_REPORTS }; TransportSecurityState(); ~TransportSecurityState(); // These functions search for static and dynamic STS and PKP states, and // invoke the functions of the same name on them. These functions are the // primary public interface; direct access to STS and PKP states is best // left to tests. bool ShouldSSLErrorsBeFatal(const std::string& host); bool ShouldUpgradeToSSL(const std::string& host); bool CheckPublicKeyPins(const HostPortPair& host_port_pair, bool is_issued_by_known_root, const HashValueVector& hashes, const X509Certificate* served_certificate_chain, const X509Certificate* validated_certificate_chain, const PublicKeyPinReportStatus report_status, std::string* failure_log); bool HasPublicKeyPins(const std::string& host); // Assign a |Delegate| for persisting the transport security state. If // |NULL|, state will not be persisted. The caller retains // ownership of |delegate|. // Note: This is only used for serializing/deserializing the // TransportSecurityState. void SetDelegate(Delegate* delegate); void SetReportSender(ReportSender* report_sender); // Clears all dynamic data (e.g. HSTS and HPKP data). // // Does NOT persist changes using the Delegate, as this function is only // used to clear any dynamic data prior to re-loading it from a file. // Note: This is only used for serializing/deserializing the // TransportSecurityState. void ClearDynamicData(); // Inserts |state| into |enabled_sts_hosts_| under the key |hashed_host|. // |hashed_host| is already in the internal representation. // Note: This is only used for serializing/deserializing the // TransportSecurityState. void AddOrUpdateEnabledSTSHosts(const std::string& hashed_host, const STSState& state); // Inserts |state| into |enabled_pkp_hosts_| under the key |hashed_host|. // |hashed_host| is already in the internal representation. // Note: This is only used for serializing/deserializing the // TransportSecurityState. void AddOrUpdateEnabledPKPHosts(const std::string& hashed_host, const PKPState& state); // Deletes all dynamic data (e.g. HSTS or HPKP data) created since a given // time. // // If any entries are deleted, the new state will be persisted through // the Delegate (if any). void DeleteAllDynamicDataSince(const base::Time& time); // Deletes any dynamic data stored for |host| (e.g. HSTS or HPKP data). // If |host| doesn't have an exact entry then no action is taken. Does // not delete static (i.e. preloaded) data. Returns true iff an entry // was deleted. // // If an entry is deleted, the new state will be persisted through // the Delegate (if any). bool DeleteDynamicDataForHost(const std::string& host); // Returns true and updates |*sts_result| and |*pkp_result| iff there is a // static (built-in) state for |host|. If multiple entries match |host|, // the most specific match determines the return value. bool GetStaticDomainState(const std::string& host, STSState* sts_result, PKPState* pkp_result) const; // Returns true and updates |*result| iff |host| has HSTS (respectively, HPKP) // state. If multiple HSTS (respectively, HPKP) entries match |host|, the // most specific match determines the HSTS (respectively, HPKP) return value. // // Note that these methods are not const because they opportunistically remove // entries that have expired. bool GetDynamicSTSState(const std::string& host, STSState* result); bool GetDynamicPKPState(const std::string& host, PKPState* result); // Processes an HSTS header value from the host, adding entries to // dynamic state if necessary. bool AddHSTSHeader(const std::string& host, const std::string& value); // Processes an HPKP header value from the host, adding entries to // dynamic state if necessary. ssl_info is used to check that // the specified pins overlap with the certificate chain. bool AddHPKPHeader(const std::string& host, const std::string& value, const SSLInfo& ssl_info); // Adds explicitly-specified data as if it was processed from an // HSTS header (used for net-internals and unit tests). void AddHSTS(const std::string& host, const base::Time& expiry, bool include_subdomains); // Adds explicitly-specified data as if it was processed from an // HPKP header (used for net-internals and unit tests). void AddHPKP(const std::string& host, const base::Time& expiry, bool include_subdomains, const HashValueVector& hashes, const GURL& report_uri); // Parses |value| as a Public-Key-Pins-Report-Only header value and // sends a HPKP report for |host_port_pair| if |ssl_info| violates the // pin. Returns true if |value| parses and includes a valid // report-uri, and false otherwise. bool ProcessHPKPReportOnlyHeader(const std::string& value, const HostPortPair& host_port_pair, const SSLInfo& ssl_info); // Returns true iff we have any static public key pins for the |host| and // iff its set of required pins is the set we expect for Google // properties. // // If |host| matches both an exact entry and is a subdomain of another // entry, the exact match determines the return value. static bool IsGooglePinnedProperty(const std::string& host); // The maximum number of seconds for which we'll cache an HSTS request. static const long int kMaxHSTSAgeSecs; private: friend class TransportSecurityStateTest; FRIEND_TEST_ALL_PREFIXES(HttpSecurityHeadersTest, UpdateDynamicPKPOnly); FRIEND_TEST_ALL_PREFIXES(HttpSecurityHeadersTest, UpdateDynamicPKPMaxAge0); FRIEND_TEST_ALL_PREFIXES(HttpSecurityHeadersTest, NoClobberPins); typedef std::map STSStateMap; typedef std::map PKPStateMap; // Send an UMA report on pin validation failure, if the host is in a // statically-defined list of domains. // // TODO(palmer): This doesn't really belong here, and should be moved into // the exactly one call site. This requires unifying |struct HSTSPreload| // (an implementation detail of this class) with a more generic // representation of first-class DomainStates, and exposing the preloads // to the caller with |GetStaticDomainState|. static void ReportUMAOnPinFailure(const std::string& host); // IsBuildTimely returns true if the current build is new enough ensure that // built in security information (i.e. HSTS preloading and pinning // information) is timely. static bool IsBuildTimely(); // Helper method for actually checking pins. bool CheckPublicKeyPinsImpl( const HostPortPair& host_port_pair, const HashValueVector& hashes, const X509Certificate* served_certificate_chain, const X509Certificate* validated_certificate_chain, const PublicKeyPinReportStatus report_status, std::string* failure_log); // If a Delegate is present, notify it that the internal state has // changed. void DirtyNotify(); // Adds HSTS state to |host|. void AddHSTSInternal(const std::string& host, STSState::UpgradeMode upgrade_mode, const base::Time& expiry, bool include_subdomains); // Adds HPKP state to |host|. void AddHPKPInternal(const std::string& host, const base::Time& last_observed, const base::Time& expiry, bool include_subdomains, const HashValueVector& hashes, const GURL& report_uri); // Enable TransportSecurity for |host|. |state| supercedes any previous // state for the |host|, including static entries. // // The new state for |host| is persisted using the Delegate (if any). void EnableSTSHost(const std::string& host, const STSState& state); void EnablePKPHost(const std::string& host, const PKPState& state); // The sets of hosts that have enabled TransportSecurity. |domain| will always // be empty for a STSState or PKPState in these maps; the domain // comes from the map keys instead. In addition, |upgrade_mode| in the // STSState is never MODE_DEFAULT and |HasPublicKeyPins| in the PKPState // always returns true. STSStateMap enabled_sts_hosts_; PKPStateMap enabled_pkp_hosts_; Delegate* delegate_; ReportSender* report_sender_; // True if static pins should be used. bool enable_static_pins_; DISALLOW_COPY_AND_ASSIGN(TransportSecurityState); }; } // namespace net #endif // NET_HTTP_TRANSPORT_SECURITY_STATE_H_