a62886b925
(This is a merge of http://go/wvgerrit/93829, http://go/wvgerrit/93830, http://go/wvgerrit/93832, http://go/wvgerrit/93833, and http://go/wvgerrit/93834 from the Widevine repo.) This implements the CDM code changes necessary to take advantage of Combined Decrypt Calls on OEMCrypto v16. The result of this is that WVCryptoPlugin is much lighter now because it can pass the full sample down to the core in one call, but CryptoSession is heavier, as it now has to handle more complex fallback logic when devices can't handle multiple subsamples at once. This patch also removes support for the 'cens' and 'cbc1' schema, which are being dropped in OEMCrypto v16. This fixes an overflow in the code for handling those schemas by removing it entirely. This patch also fixes the "in chunks" legacy decrypt path to use larger chunk sizes on devices with higher resource rating tiers. Bug: 135285640 Bug: 123435824 Bug: 138584971 Bug: 139257871 Bug: 78289910 Bug: 149361893 Test: no new CE CDM Unit Test failures Test: Google Play plays Test: Netflix plays Test: no new GTS failures Change-Id: Ic4952c9fa3bc7fd5ed08698e88254380a7a18514
426 lines
20 KiB
C++
426 lines
20 KiB
C++
// Copyright 2018 Google LLC. All Rights Reserved. This file and proprietary
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// source code may only be used and distributed under the Widevine Master
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// License Agreement.
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#ifndef WVCDM_CORE_CDM_ENGINE_H_
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#define WVCDM_CORE_CDM_ENGINE_H_
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#include <memory>
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#include <mutex>
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#include <string>
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#include <vector>
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#include "cdm_session_map.h"
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#include "certificate_provisioning.h"
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#include "clock.h"
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#include "crypto_session.h"
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#include "disallow_copy_and_assign.h"
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#include "file_store.h"
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#include "initialization_data.h"
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#include "metrics_collections.h"
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#include "oemcrypto_adapter.h"
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#include "service_certificate.h"
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#include "wv_cdm_constants.h"
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#include "wv_cdm_types.h"
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namespace wvcdm {
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class CdmClientPropertySet;
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class CdmEngineFactory;
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class CdmSession;
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class CryptoEngine;
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class UsagePropertySet;
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class WvCdmEventListener;
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// Keep expiration time for each key set
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using CdmReleaseKeySetMap =
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std::map<CdmKeySetId, std::pair<CdmSessionId, int64_t> >;
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class CdmEngine {
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public:
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virtual ~CdmEngine();
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// Session related methods
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virtual CdmResponseType OpenSession(const CdmKeySystem& key_system,
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CdmClientPropertySet* property_set,
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const CdmSessionId& forced_session_id,
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WvCdmEventListener* event_listener);
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virtual CdmResponseType OpenSession(const CdmKeySystem& key_system,
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CdmClientPropertySet* property_set,
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WvCdmEventListener* event_listener,
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CdmSessionId* session_id);
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virtual CdmResponseType CloseSession(const CdmSessionId& session_id);
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virtual bool IsOpenSession(const CdmSessionId& session_id);
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virtual CdmResponseType OpenKeySetSession(const CdmKeySetId& key_set_id,
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CdmClientPropertySet* property_set,
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WvCdmEventListener* event_listener);
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virtual CdmResponseType CloseKeySetSession(const CdmKeySetId& key_set_id);
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// License related methods
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// Construct a valid license request. The arguments are used as follows:
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// session_id: The Session ID of the session the request is being generated
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// for. This is ignored for license release requests.
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// key_set_id: The Key Set ID of the key set the request is being generated
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// for. This is ignored except for license release requests.
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// init_data: The initialization data from the media file, which is used to
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// build the key request. This is ignored for release and renewal
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// requests.
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// license_type: The type of license being requested. Never ignored.
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// app_parameters: Additional, application-specific parameters that factor
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// into the request generation. This is ignored for release
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// and renewal requests.
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// key_request: This must be non-null and point to a CdmKeyRequest. The
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// message field will be filled with the key request, the
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// type field will be filled with the key request type,
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// whether it is an initial request, renewal request,
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// release request, etc. The url field will be filled with
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// the default URL (if one is known) to send this key
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// request to.
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virtual CdmResponseType GenerateKeyRequest(
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const CdmSessionId& session_id, const CdmKeySetId& key_set_id,
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const InitializationData& init_data, const CdmLicenseType license_type,
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CdmAppParameterMap& app_parameters, CdmKeyRequest* key_request);
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// This API may
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// (a) accept license response, extract key info and load keys.
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// (b) accept a renewal response and update license policy information.
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// (c) accept a release response and release an offline license or secure
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// stop.
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// (d) accept a service certificate and cache that information for the
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// the lifetime of the session.
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//
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// |session_id| identifies the session that generated the request and can
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// process the response. Should be empty if a release response.
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// |key_data| is the license, renewal, release response or service
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// certificate response.
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// |license_type| must not be null. If the result is KEY_ADDED, this out
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// parameter indicates the type of license containd in
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// key_data. For any other return code, no value is provided.
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// |key_set_id| should be non-null and specified if license release.
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// If offline license or streaming license associated with
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// a secure stop, |key_set_id| should be non-null and will
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// be filled in on return. Use the |key_set_id| with
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// RestoreKeys (to reload offline session) or
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// GenerateKeyRequest (to release offline session/secure stop).
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// |key_set_id| will be cleared if release or streaming
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// (not associated with a secure stop).
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virtual CdmResponseType AddKey(const CdmSessionId& session_id,
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const CdmKeyResponse& key_data,
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CdmLicenseType* license_type,
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CdmKeySetId* key_set_id);
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virtual CdmResponseType RestoreKey(const CdmSessionId& session_id,
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const CdmKeySetId& key_set_id);
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// This method releases the crypto resources and policy resources associated
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// with the given session. This renders the session largely useless. It is
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// preferable to close the session outright. This method does not delete any
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// stored offline data associated with the session.
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virtual CdmResponseType RemoveKeys(const CdmSessionId& session_id);
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// This method removes all offline data associated with the session, such as
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// offline keys and usage info. It should be used with care, as it deletes the
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// info immediately and without using a release message, so the server is not
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// able to receive usage info or track releases for offline licenses.
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virtual CdmResponseType RemoveLicense(const CdmSessionId& session_id);
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// Construct valid renewal request for the current session keys.
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virtual CdmResponseType GenerateRenewalRequest(const CdmSessionId& session_id,
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CdmKeyRequest* key_request);
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// Accept renewal response and update key info.
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virtual CdmResponseType RenewKey(const CdmSessionId& session_id,
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const CdmKeyResponse& key_data);
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// Change the service certificate installed in a given session.
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virtual CdmResponseType SetSessionServiceCertificate(
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const CdmSessionId& session_id, const std::string& service_certificate);
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// Query system information
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virtual CdmResponseType QueryStatus(SecurityLevel security_level,
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const std::string& query_token,
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std::string* query_response);
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// Query session information
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virtual CdmResponseType QuerySessionStatus(const CdmSessionId& session_id,
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CdmQueryMap* query_response);
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virtual bool IsReleaseSession(const CdmSessionId& session_id);
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virtual bool IsOfflineSession(const CdmSessionId& session_id);
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// Query license information
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virtual CdmResponseType QueryKeyStatus(const CdmSessionId& session_id,
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CdmQueryMap* query_response);
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// Query security level support
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static bool IsSecurityLevelSupported(CdmSecurityLevel level);
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// Query the types of usage permitted for the specified key.
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virtual CdmResponseType QueryKeyAllowedUsage(const CdmSessionId& session_id,
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const std::string& key_id,
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CdmKeyAllowedUsage* key_usage);
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// Query the types of usage permitted for the specified key.
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// Apply the query across all sessions. If the key is found in more than
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// one session, return the allowed usage settings only if the usage settings
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// are identical for each instance of the key. Otherwise, clear the settings
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// and return KEY_CONFLICT_1.
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virtual CdmResponseType QueryKeyAllowedUsage(const std::string& key_id,
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CdmKeyAllowedUsage* key_usage);
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// Query OEMCrypto session ID
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virtual CdmResponseType QueryOemCryptoSessionId(
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const CdmSessionId& session_id, CdmQueryMap* query_response);
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// Generate and return a valid provisioning request.
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virtual CdmResponseType GetProvisioningRequest(
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CdmCertificateType cert_type, const std::string& cert_authority,
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const std::string& service_certificate, CdmProvisioningRequest* request,
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std::string* default_url);
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// Verify and process a provisioning response.
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virtual CdmResponseType HandleProvisioningResponse(
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const CdmProvisioningResponse& response, std::string* cert,
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std::string* wrapped_key);
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// Return true if there is a device certificate on the current
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// (origin-specific) file system.
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virtual bool IsProvisioned(CdmSecurityLevel security_level);
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// Remove device DRM certificate from the current (origin-specific) file
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// system. This will force the device to reprovision itself.
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virtual CdmResponseType Unprovision(CdmSecurityLevel security_level);
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// Return the list of key_set_ids stored on the current (origin-specific)
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// file system.
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virtual CdmResponseType ListStoredLicenses(
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CdmSecurityLevel security_level, std::vector<std::string>* key_set_ids);
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// Return the list of IDs associated with usage records for the
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// current (origin-specific) file system. At least one parameter
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// |ksids| or |provider_session_tokens| needs to be supplied.
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virtual CdmResponseType ListUsageIds(
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const std::string& app_id, CdmSecurityLevel security_level,
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std::vector<std::string>* ksids,
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std::vector<std::string>* provider_session_tokens);
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// Delete the usage record for the given key_set_id. This removes the
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// usage record in the file system and the OEMCrypto usage record.
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virtual CdmResponseType DeleteUsageRecord(const std::string& app_id,
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CdmSecurityLevel security_level,
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const std::string& key_set_id);
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// Get offline license status: active, release or unknown
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virtual CdmResponseType GetOfflineLicenseState(
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const std::string& key_set_id, CdmSecurityLevel security_level,
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CdmOfflineLicenseState* license_state);
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// Remove offline license with the given key_set_id
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virtual CdmResponseType RemoveOfflineLicense(const std::string& key_set_id,
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CdmSecurityLevel security_level);
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// Usage related methods for streaming licenses
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// Retrieve a random usage info from the list of all usage infos for this app
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// id. If |error_detail| is not null, an additional error code may be provided
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// in the event of an error.
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virtual CdmResponseType GetUsageInfo(const std::string& app_id,
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int* error_detail,
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CdmUsageInfo* usage_info);
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// Retrieve the usage info for the specified pst.
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// Returns UNKNOWN_ERROR if no usage info was found.
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// id. If |error_detail| is not null, an additional error code may be provided
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// in the event of an error.
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virtual CdmResponseType GetUsageInfo(const std::string& app_id,
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const CdmSecureStopId& ssid,
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int* error_detail,
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CdmUsageInfo* usage_info);
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// Remove all usage records for the current origin.
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virtual CdmResponseType RemoveAllUsageInfo(const std::string& app_id,
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CdmSecurityLevel security_level);
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// Remove all usage records for the current origin. Span all
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// security levels.
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virtual CdmResponseType RemoveAllUsageInfo(const std::string& app_id);
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virtual CdmResponseType RemoveUsageInfo(
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const std::string& app_id, const CdmSecureStopId& secure_stop_id);
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virtual CdmResponseType ReleaseUsageInfo(
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const CdmUsageInfoReleaseMessage& message);
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virtual CdmResponseType LoadUsageSession(const CdmKeySetId& key_set_id,
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CdmKeyMessage* release_message);
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// Decryption and key related methods
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// Accept encrypted buffer and return decrypted data.
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virtual CdmResponseType DecryptV16(
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const CdmSessionId& session_id,
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const CdmDecryptionParametersV16& parameters);
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// Generic crypto operations - provides basic crypto operations that an
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// application can use outside of content stream processing
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// Encrypts a buffer of app-level data.
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virtual CdmResponseType GenericEncrypt(const std::string& session_id,
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const std::string& in_buffer,
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const std::string& key_id,
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const std::string& iv,
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CdmEncryptionAlgorithm algorithm,
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std::string* out_buffer);
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// Decrypts a buffer of app-level data.
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virtual CdmResponseType GenericDecrypt(const std::string& session_id,
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const std::string& in_buffer,
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const std::string& key_id,
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const std::string& iv,
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CdmEncryptionAlgorithm algorithm,
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std::string* out_buffer);
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// Computes the signature for a message.
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virtual CdmResponseType GenericSign(const std::string& session_id,
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const std::string& message,
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const std::string& key_id,
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CdmSigningAlgorithm algorithm,
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std::string* signature);
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// Verifies the signature on a buffer of app-level data.
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virtual CdmResponseType GenericVerify(const std::string& session_id,
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const std::string& message,
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const std::string& key_id,
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CdmSigningAlgorithm algorithm,
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const std::string& signature);
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virtual size_t SessionSize() const { return session_map_.Size(); }
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static CdmResponseType ParseDecryptHashString(const std::string& hash_string,
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CdmSessionId* id,
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uint32_t* frame_number,
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std::string* hash);
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virtual CdmResponseType SetDecryptHash(const CdmSessionId& session_id,
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uint32_t frame_number,
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const std::string& hash);
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virtual CdmResponseType GetDecryptHashError(const CdmSessionId& session_id,
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std::string* hash_error_string);
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// Is the key known to any session?
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virtual bool IsKeyLoaded(const KeyId& key_id);
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virtual bool FindSessionForKey(const KeyId& key_id, CdmSessionId* sessionId);
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// Used for notifying the Max-Res Engine of resolution changes.
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// Return false if no match is found for session_id.
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virtual bool NotifyResolution(const CdmSessionId& session_id, uint32_t width,
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uint32_t height);
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// Timer expiration method. This method is not re-entrant -- there can be
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// only one timer.
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// This method triggers appropriate event callbacks from |event_listener_|,
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// which is assumed to be asynchronous -- i.e. an event should be dispatched
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// to another thread which does the actual work. In particular, if a
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// synchronous listener calls OpenSession or CloseSession, the thread will
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// dead lock.
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virtual void OnTimerEvent();
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// Fills the |engine_metrics| parameter with the current snapshot of metrics
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// data. Returns true if the metrics data is populated, false otherwise.
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// |engine_metrics| is owned by the caller and must not be null.
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// The CdmEngine implementation is a placeholder. Just return false.
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virtual bool GetMetricsSnapshot(drm_metrics::WvCdmMetrics* /* metrics */) {
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return false;
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}
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virtual CdmResponseType ValidateServiceCertificate(const std::string& cert);
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// Setter and getter for the |app_package_name| identifier for this instance
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// of the CdmEngine. This is used to identify the package name.
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virtual void SetAppPackageName(const std::string& app_package_name) {
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app_package_name_ = app_package_name;
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}
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virtual const std::string& GetAppPackageName() { return app_package_name_; }
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virtual void SetSpoid(const std::string& spoid) { spoid_ = spoid; }
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protected:
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friend class CdmEngineFactory;
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friend class ParallelCdmTest;
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friend class WvCdmEnginePreProvTest;
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friend class WvCdmTestBase;
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friend class WvGenericCryptoTest;
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friend class TestLicenseHolder;
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CdmEngine(FileSystem* file_system,
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std::shared_ptr<metrics::EngineMetrics> metrics);
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private:
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// private methods
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CdmResponseType OpenSession(const CdmKeySystem& key_system,
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CdmClientPropertySet* property_set,
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WvCdmEventListener* event_listener,
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const CdmSessionId* forced_session_id,
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CdmSessionId* session_id);
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bool ValidateKeySystem(const CdmKeySystem& key_system);
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CdmResponseType GetUsageInfo(const std::string& app_id,
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SecurityLevel requested_security_level,
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int* error_detail, CdmUsageInfo* usage_info);
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void OnKeyReleaseEvent(const CdmKeySetId& key_set_id);
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std::string MapHdcpVersion(CryptoSession::HdcpCapability version);
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void CloseExpiredReleaseSessions();
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// instance variables
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/*
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* The metrics group must be the first variable declared to ensure
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* that it is the last member destroyed so that no child members
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* try to use a reference to it after it is destroyed. This will
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* ensure that all data has been properly recorded in the group before
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* it is published.
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*/
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std::shared_ptr<metrics::EngineMetrics> metrics_;
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std::string app_package_name_;
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CdmSessionMap session_map_;
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CdmReleaseKeySetMap release_key_sets_;
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std::unique_ptr<CertificateProvisioning> cert_provisioning_;
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SecurityLevel cert_provisioning_requested_security_level_;
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FileSystem* file_system_;
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Clock clock_;
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std::string spoid_;
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// Usage related variables
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// Used to isolate a single active usage information license. Loading,
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// creating or releasing a different usage licenses through the engine
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// API will release the handle to previously active secure stop license.
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std::unique_ptr<CdmSession> usage_session_;
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std::unique_ptr<UsagePropertySet> usage_property_set_;
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int64_t last_usage_information_update_time_;
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// Protect release_key_sets_ from non-thread-safe operations.
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std::mutex release_key_sets_lock_;
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// TODO(b/124471172): Replace with two sets of locks, one to protect
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// the CdmSessionMap and a per-session lock to control access to
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// session usage/destruction.
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// Locks the session map |session_map_| and session usage/destruction
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// between session management calls (OpenSession, CloseSession, etc),
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// periodic timer calls (OnTimerEvent), and calls to Decrypt.
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// The layer above the CDM implementation is expected to handle thread
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// synchronization to make sure other functions that access sessions do not
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// occur simultaneously with OpenSession or CloseSession.
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// This mutex must be recursive because it is sometimes held while callbacks
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// occur that may subsequently call back into CdmEngine.
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std::recursive_mutex session_map_lock_;
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CORE_DISALLOW_COPY_AND_ASSIGN(CdmEngine);
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};
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} // namespace wvcdm
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#endif // WVCDM_CORE_CDM_ENGINE_H_
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