blob: 3cd0e5c8b8c0707e9b98de173d829555a2ca0428 [file] [log] [blame]
// Copyright 2013 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.
#include "media/base/key_systems.h"
#include <stddef.h>
#include <memory>
#include <unordered_map>
#include "base/logging.h"
#include "base/stl_util.h"
#include "base/strings/string_util.h"
#include "base/threading/thread_checker.h"
#include "base/time/time.h"
#include "build/build_config.h"
#include "media/base/key_system_names.h"
#include "media/base/key_system_properties.h"
#include "media/base/media.h"
#include "media/base/media_client.h"
#include "media/base/media_switches.h"
#include "media/base/mime_util.h"
#include "media/media_buildflags.h"
#include "third_party/widevine/cdm/widevine_cdm_common.h"
namespace media {
const char kClearKeyKeySystem[] = "org.w3.clearkey";
// These names are used by UMA. Do not change them!
const char kClearKeyKeySystemNameForUMA[] = "ClearKey";
const char kUnknownKeySystemNameForUMA[] = "Unknown";
struct MimeTypeToCodecs {
const char* mime_type;
SupportedCodecs codecs;
};
// Mapping between containers and their codecs.
// Only audio codecs can belong to a "audio/*" mime_type, and only video codecs
// can belong to a "video/*" mime_type.
static const MimeTypeToCodecs kMimeTypeToCodecsMap[] = {
{"audio/webm", EME_CODEC_WEBM_AUDIO_ALL},
{"video/webm", EME_CODEC_WEBM_VIDEO_ALL},
{"audio/mp4", EME_CODEC_MP4_AUDIO_ALL},
{"video/mp4", EME_CODEC_MP4_VIDEO_ALL},
#if BUILDFLAG(USE_PROPRIETARY_CODECS)
#if BUILDFLAG(ENABLE_MSE_MPEG2TS_STREAM_PARSER)
{"video/mp2t", EME_CODEC_MP2T_VIDEO_ALL},
#endif // BUILDFLAG(ENABLE_MSE_MPEG2TS_STREAM_PARSER)
#endif // BUILDFLAG(USE_PROPRIETARY_CODECS)
}; // namespace media
EmeCodec ToAudioEmeCodec(AudioCodec codec) {
switch (codec) {
case kCodecAAC:
return EME_CODEC_AAC;
case kCodecVorbis:
return EME_CODEC_VORBIS;
case kCodecFLAC:
return EME_CODEC_FLAC;
case kCodecOpus:
return EME_CODEC_OPUS;
case kCodecEAC3:
return EME_CODEC_EAC3;
case kCodecAC3:
return EME_CODEC_AC3;
case kCodecMpegHAudio:
return EME_CODEC_MPEG_H_AUDIO;
default:
DVLOG(1) << "Unsupported AudioCodec " << codec;
return EME_CODEC_NONE;
}
}
EmeCodec ToVideoEmeCodec(VideoCodec codec, VideoCodecProfile profile) {
switch (codec) {
case kCodecH264:
return EME_CODEC_AVC1;
case kCodecVP8:
return EME_CODEC_VP8;
case kCodecVP9:
// ParseVideoCodecString() returns VIDEO_CODEC_PROFILE_UNKNOWN for "vp9"
// and "vp9.0". Since these codecs are essentially the same as profile 0,
// return EME_CODEC_VP9_PROFILE0.
if (profile == VP9PROFILE_PROFILE0 ||
profile == VIDEO_CODEC_PROFILE_UNKNOWN) {
return EME_CODEC_VP9_PROFILE0;
} else if (profile == VP9PROFILE_PROFILE2) {
return EME_CODEC_VP9_PROFILE2;
} else {
// Profile 1 and 3 not supported by EME. See https://crbug.com/898298.
return EME_CODEC_NONE;
}
case kCodecHEVC:
return EME_CODEC_HEVC;
case kCodecDolbyVision:
// Only profiles 0, 4, 5 and 7 are valid. Profile 0 is encoded based on
// AVC while profile 4, 5 and 7 are based on HEVC.
if (profile == DOLBYVISION_PROFILE0) {
return EME_CODEC_DOLBY_VISION_AVC;
} else if (profile == DOLBYVISION_PROFILE4 ||
profile == DOLBYVISION_PROFILE5 ||
profile == DOLBYVISION_PROFILE7) {
return EME_CODEC_DOLBY_VISION_HEVC;
} else {
return EME_CODEC_NONE;
}
case kCodecAV1:
return EME_CODEC_AV1;
default:
DVLOG(1) << "Unsupported VideoCodec " << codec;
return EME_CODEC_NONE;
}
}
class ClearKeyProperties : public KeySystemProperties {
public:
std::string GetKeySystemName() const override { return kClearKeyKeySystem; }
bool IsSupportedInitDataType(EmeInitDataType init_data_type) const override {
return init_data_type == EmeInitDataType::CENC ||
init_data_type == EmeInitDataType::WEBM ||
init_data_type == EmeInitDataType::KEYIDS;
}
media::EmeConfigRule GetEncryptionSchemeConfigRule(
media::EncryptionMode encryption_scheme) const override {
switch (encryption_scheme) {
case media::EncryptionMode::kCenc:
case media::EncryptionMode::kCbcs:
return media::EmeConfigRule::SUPPORTED;
case media::EncryptionMode::kUnencrypted:
break;
}
NOTREACHED();
return media::EmeConfigRule::NOT_SUPPORTED;
}
SupportedCodecs GetSupportedCodecs() const override {
// On Android, Vorbis, VP8, AAC and AVC1 are supported in MediaCodec:
// http://developer.android.com/guide/appendix/media-formats.html
// VP9 support is device dependent.
return EME_CODEC_WEBM_ALL | EME_CODEC_MP4_ALL;
}
EmeConfigRule GetRobustnessConfigRule(
EmeMediaType media_type,
const std::string& requested_robustness) const override {
return requested_robustness.empty() ? EmeConfigRule::SUPPORTED
: EmeConfigRule::NOT_SUPPORTED;
}
EmeSessionTypeSupport GetPersistentLicenseSessionSupport() const override {
return EmeSessionTypeSupport::NOT_SUPPORTED;
}
EmeSessionTypeSupport GetPersistentUsageRecordSessionSupport()
const override {
return EmeSessionTypeSupport::NOT_SUPPORTED;
}
EmeFeatureSupport GetPersistentStateSupport() const override {
return EmeFeatureSupport::NOT_SUPPORTED;
}
EmeFeatureSupport GetDistinctiveIdentifierSupport() const override {
return EmeFeatureSupport::NOT_SUPPORTED;
}
bool UseAesDecryptor() const override { return true; }
};
// Returns whether the |key_system| is known to Chromium and is thus likely to
// be implemented in an interoperable way.
// True is always returned for a |key_system| that begins with "x-".
//
// As with other web platform features, advertising support for a key system
// implies that it adheres to a defined and interoperable specification.
//
// To ensure interoperability, implementations of a specific |key_system| string
// must conform to a specification for that identifier that defines
// key system-specific behaviors not fully defined by the EME specification.
// That specification should be provided by the owner of the domain that is the
// reverse of the |key_system| string.
// This involves more than calling a library, SDK, or platform API.
// KeySystemsImpl must be populated appropriately, and there will likely be glue
// code to adapt to the API of the library, SDK, or platform API.
//
// Chromium mainline contains this data and glue code for specific key systems,
// which should help ensure interoperability with other implementations using
// these key systems.
//
// If you need to add support for other key systems, ensure that you have
// obtained the specification for how to integrate it with EME, implemented the
// appropriate glue/adapter code, and added all the appropriate data to
// KeySystemsImpl. Only then should you change this function.
static bool IsPotentiallySupportedKeySystem(const std::string& key_system) {
// Known and supported key systems.
if (key_system == kWidevineKeySystem)
return true;
if (key_system == kClearKeyKeySystem)
return true;
// External Clear Key is known and supports suffixes for testing.
if (IsExternalClearKey(key_system))
return true;
// Chromecast defines behaviors for Cast clients within its reverse domain.
const char kChromecastRoot[] = "com.chromecast";
if (IsChildKeySystemOf(key_system, kChromecastRoot))
return true;
// Implementations that do not have a specification or appropriate glue code
// can use the "x-" prefix to avoid conflicting with and advertising support
// for real key system names. Use is discouraged.
const char kExcludedPrefix[] = "x-";
return base::StartsWith(key_system, kExcludedPrefix,
base::CompareCase::SENSITIVE);
}
class KeySystemsImpl : public KeySystems {
public:
static KeySystemsImpl* GetInstance();
void UpdateIfNeeded();
std::string GetKeySystemNameForUMA(const std::string& key_system) const;
// These two functions are for testing purpose only.
void AddCodecMaskForTesting(EmeMediaType media_type,
const std::string& codec,
uint32_t mask);
void AddMimeTypeCodecMaskForTesting(const std::string& mime_type,
uint32_t mask);
// Implementation of KeySystems interface.
bool IsSupportedKeySystem(const std::string& key_system) const override;
bool CanUseAesDecryptor(const std::string& key_system) const override;
bool IsSupportedInitDataType(const std::string& key_system,
EmeInitDataType init_data_type) const override;
EmeConfigRule GetEncryptionSchemeConfigRule(
const std::string& key_system,
EncryptionMode encryption_scheme) const override;
EmeConfigRule GetContentTypeConfigRule(
const std::string& key_system,
EmeMediaType media_type,
const std::string& container_mime_type,
const std::vector<std::string>& codecs) const override;
EmeConfigRule GetRobustnessConfigRule(
const std::string& key_system,
EmeMediaType media_type,
const std::string& requested_robustness) const override;
EmeSessionTypeSupport GetPersistentLicenseSessionSupport(
const std::string& key_system) const override;
EmeSessionTypeSupport GetPersistentUsageRecordSessionSupport(
const std::string& key_system) const override;
EmeFeatureSupport GetPersistentStateSupport(
const std::string& key_system) const override;
EmeFeatureSupport GetDistinctiveIdentifierSupport(
const std::string& key_system) const override;
private:
KeySystemsImpl();
~KeySystemsImpl() override;
void InitializeUMAInfo();
void UpdateSupportedKeySystems();
void AddSupportedKeySystems(
std::vector<std::unique_ptr<KeySystemProperties>> key_systems);
void RegisterMimeType(const std::string& mime_type, SupportedCodecs codecs);
bool IsValidMimeTypeCodecsCombination(const std::string& mime_type,
SupportedCodecs codecs) const;
typedef std::unordered_map<std::string, std::unique_ptr<KeySystemProperties>>
KeySystemPropertiesMap;
typedef std::unordered_map<std::string, SupportedCodecs> MimeTypeToCodecsMap;
typedef std::unordered_map<std::string, EmeCodec> CodecMap;
typedef std::unordered_map<std::string, EmeInitDataType> InitDataTypesMap;
// TODO(sandersd): Separate container enum from codec mask value.
// http://crbug.com/417440
// Potentially pass EmeMediaType and a container enum.
SupportedCodecs GetCodecMaskForMimeType(
const std::string& container_mime_type) const;
// Converts a full |codec_string| (e.g. vp09.02.10.10) to an EmeCodec. Returns
// EME_CODEC_NONE is the |codec_string| is invalid or not supported by EME.
EmeCodec GetEmeCodecForString(EmeMediaType media_type,
const std::string& container_mime_type,
const std::string& codec_string) const;
// Map from key system string to KeySystemProperties instance.
KeySystemPropertiesMap key_system_properties_map_;
// This member should only be modified by RegisterMimeType().
MimeTypeToCodecsMap mime_type_to_codecs_map_;
// For unit test only.
CodecMap codec_map_for_testing_;
SupportedCodecs audio_codec_mask_;
SupportedCodecs video_codec_mask_;
// Makes sure all methods are called from the same thread.
base::ThreadChecker thread_checker_;
DISALLOW_COPY_AND_ASSIGN(KeySystemsImpl);
};
KeySystemsImpl* KeySystemsImpl::GetInstance() {
static KeySystemsImpl* key_systems = new KeySystemsImpl();
key_systems->UpdateIfNeeded();
return key_systems;
}
// Because we use a thread-safe static, the key systems info must be populated
// when the instance is constructed.
KeySystemsImpl::KeySystemsImpl()
: audio_codec_mask_(EME_CODEC_AUDIO_ALL),
video_codec_mask_(EME_CODEC_VIDEO_ALL) {
for (size_t i = 0; i < base::size(kMimeTypeToCodecsMap); ++i) {
RegisterMimeType(kMimeTypeToCodecsMap[i].mime_type,
kMimeTypeToCodecsMap[i].codecs);
}
// Always update supported key systems during construction.
UpdateSupportedKeySystems();
}
KeySystemsImpl::~KeySystemsImpl() = default;
SupportedCodecs KeySystemsImpl::GetCodecMaskForMimeType(
const std::string& container_mime_type) const {
auto iter = mime_type_to_codecs_map_.find(container_mime_type);
if (iter == mime_type_to_codecs_map_.end())
return EME_CODEC_NONE;
DCHECK(IsValidMimeTypeCodecsCombination(container_mime_type, iter->second));
return iter->second;
}
EmeCodec KeySystemsImpl::GetEmeCodecForString(
EmeMediaType media_type,
const std::string& container_mime_type,
const std::string& codec_string) const {
// This is not checked because MimeUtil declares "vp9" and "vp9.0" as
// ambiguous, but they have always been supported by EME.
// TODO(xhwang): Find out whether we should fix MimeUtil about these cases.
bool is_ambiguous = true;
// For testing only.
auto iter = codec_map_for_testing_.find(codec_string);
if (iter != codec_map_for_testing_.end())
return iter->second;
if (media_type == EmeMediaType::AUDIO) {
AudioCodec audio_codec = kUnknownAudioCodec;
ParseAudioCodecString(container_mime_type, codec_string, &is_ambiguous,
&audio_codec);
DVLOG(3) << "Audio codec = " << audio_codec;
return ToAudioEmeCodec(audio_codec);
}
DCHECK_EQ(media_type, EmeMediaType::VIDEO);
// In general EmeCodec doesn't care about codec profiles and assumes the same
// level of profile support as Chromium, which is checked in
// KeySystemConfigSelector::IsSupportedContentType(). However, there are a few
// exceptions where we need to know the profile. For example, for VP9, there
// are older CDMs only supporting profile 0, hence EmeCodec differentiate
// between VP9 profile 0 and higher profiles.
VideoCodec video_codec = kUnknownVideoCodec;
VideoCodecProfile profile = VIDEO_CODEC_PROFILE_UNKNOWN;
uint8_t level = 0;
VideoColorSpace color_space;
ParseVideoCodecString(container_mime_type, codec_string, &is_ambiguous,
&video_codec, &profile, &level, &color_space);
DVLOG(3) << "Video codec = " << video_codec << ", profile = " << profile;
return ToVideoEmeCodec(video_codec, profile);
}
void KeySystemsImpl::UpdateIfNeeded() {
if (GetMediaClient() && GetMediaClient()->IsKeySystemsUpdateNeeded())
UpdateSupportedKeySystems();
}
void KeySystemsImpl::UpdateSupportedKeySystems() {
DCHECK(thread_checker_.CalledOnValidThread());
key_system_properties_map_.clear();
std::vector<std::unique_ptr<KeySystemProperties>> key_systems_properties;
// Add key systems supported by the MediaClient implementation.
if (GetMediaClient()) {
GetMediaClient()->AddSupportedKeySystems(&key_systems_properties);
} else {
DVLOG(1) << __func__ << " No media client to provide key systems";
}
// Clear Key is always supported.
key_systems_properties.emplace_back(new ClearKeyProperties());
AddSupportedKeySystems(std::move(key_systems_properties));
}
// Returns whether distinctive identifiers and persistent state can be reliably
// blocked for |properties| (and therefore be safely configurable).
static bool CanBlock(const KeySystemProperties& properties) {
// When AesDecryptor is used, we are sure we can block.
if (properties.UseAesDecryptor())
return true;
// For External Clear Key, it is either implemented as a library CDM (Clear
// Key CDM), which is covered above, or by using AesDecryptor remotely, e.g.
// via MojoCdm. In both cases, we can block. This is only used for testing.
if (base::FeatureList::IsEnabled(media::kExternalClearKeyForTesting) &&
IsExternalClearKey(properties.GetKeySystemName()))
return true;
#if BUILDFLAG(ENABLE_LIBRARY_CDMS)
// When library CDMs are enabled, we are either using AesDecryptor, or using
// the library CDM hosted in a sandboxed process. In both cases distinctive
// identifiers and persistent state can be reliably blocked.
return true;
#else
// For other platforms assume the CDM can and will do anything. So we cannot
// block.
return false;
#endif
}
void KeySystemsImpl::AddSupportedKeySystems(
std::vector<std::unique_ptr<KeySystemProperties>> key_systems) {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(key_system_properties_map_.empty());
for (auto& properties : key_systems) {
DCHECK(!properties->GetKeySystemName().empty());
DCHECK(properties->GetPersistentLicenseSessionSupport() !=
EmeSessionTypeSupport::INVALID);
DCHECK(properties->GetPersistentUsageRecordSessionSupport() !=
EmeSessionTypeSupport::INVALID);
DCHECK(properties->GetPersistentStateSupport() !=
EmeFeatureSupport::INVALID);
DCHECK(properties->GetDistinctiveIdentifierSupport() !=
EmeFeatureSupport::INVALID);
if (!IsPotentiallySupportedKeySystem(properties->GetKeySystemName())) {
// If you encounter this path, see the comments for the function above.
DLOG(ERROR) << "Unsupported name '" << properties->GetKeySystemName()
<< "'. See code comments.";
continue;
}
// Supporting persistent state is a prerequisite for supporting persistent
// sessions.
if (properties->GetPersistentStateSupport() ==
EmeFeatureSupport::NOT_SUPPORTED) {
DCHECK(properties->GetPersistentLicenseSessionSupport() ==
EmeSessionTypeSupport::NOT_SUPPORTED);
DCHECK(properties->GetPersistentUsageRecordSessionSupport() ==
EmeSessionTypeSupport::NOT_SUPPORTED);
}
// If distinctive identifiers are not supported, then no other features can
// require them.
if (properties->GetDistinctiveIdentifierSupport() ==
EmeFeatureSupport::NOT_SUPPORTED) {
DCHECK(properties->GetPersistentLicenseSessionSupport() !=
EmeSessionTypeSupport::SUPPORTED_WITH_IDENTIFIER);
DCHECK(properties->GetPersistentUsageRecordSessionSupport() !=
EmeSessionTypeSupport::SUPPORTED_WITH_IDENTIFIER);
}
if (!CanBlock(*properties)) {
DCHECK(properties->GetDistinctiveIdentifierSupport() ==
EmeFeatureSupport::ALWAYS_ENABLED);
DCHECK(properties->GetPersistentStateSupport() ==
EmeFeatureSupport::ALWAYS_ENABLED);
}
DCHECK_EQ(key_system_properties_map_.count(properties->GetKeySystemName()),
0u)
<< "Key system '" << properties->GetKeySystemName()
<< "' already registered";
#if defined(OS_ANDROID)
// Ensure that the renderer can access the decoders necessary to use the
// key system.
if (!properties->UseAesDecryptor() && !HasPlatformDecoderSupport()) {
DLOG(WARNING) << properties->GetKeySystemName() << " not registered";
continue;
}
#endif // defined(OS_ANDROID)
DVLOG(1) << __func__
<< ": Adding key system:" << properties->GetKeySystemName();
key_system_properties_map_[properties->GetKeySystemName()] =
std::move(properties);
}
}
// Adds the MIME type with the codec mask after verifying the validity.
// Only this function should modify |mime_type_to_codecs_map_|.
void KeySystemsImpl::RegisterMimeType(const std::string& mime_type,
SupportedCodecs codecs) {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(!mime_type_to_codecs_map_.count(mime_type));
DCHECK(IsValidMimeTypeCodecsCombination(mime_type, codecs))
<< ": mime_type = " << mime_type << ", codecs = " << codecs;
mime_type_to_codecs_map_[mime_type] = codecs;
}
// Returns whether |mime_type| follows a valid format and the specified codecs
// are of the correct type based on |*_codec_mask_|.
// Only audio/ or video/ MIME types with their respective codecs are allowed.
bool KeySystemsImpl::IsValidMimeTypeCodecsCombination(
const std::string& mime_type,
SupportedCodecs codecs) const {
DCHECK(thread_checker_.CalledOnValidThread());
if (codecs == EME_CODEC_NONE)
return true;
if (base::StartsWith(mime_type, "audio/", base::CompareCase::SENSITIVE))
return !(codecs & ~audio_codec_mask_);
if (base::StartsWith(mime_type, "video/", base::CompareCase::SENSITIVE))
return !(codecs & ~video_codec_mask_);
return false;
}
bool KeySystemsImpl::IsSupportedInitDataType(
const std::string& key_system,
EmeInitDataType init_data_type) const {
DCHECK(thread_checker_.CalledOnValidThread());
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
NOTREACHED();
return false;
}
return key_system_iter->second->IsSupportedInitDataType(init_data_type);
}
EmeConfigRule KeySystemsImpl::GetEncryptionSchemeConfigRule(
const std::string& key_system,
EncryptionMode encryption_scheme) const {
DCHECK(thread_checker_.CalledOnValidThread());
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
NOTREACHED();
return EmeConfigRule::NOT_SUPPORTED;
}
return key_system_iter->second->GetEncryptionSchemeConfigRule(
encryption_scheme);
}
std::string KeySystemsImpl::GetKeySystemNameForUMA(
const std::string& key_system) const {
DCHECK(thread_checker_.CalledOnValidThread());
// Here we maintain a short list of known key systems to facilitate UMA
// reporting. Mentioned key systems are not necessarily supported by
// the current platform.
if (key_system == kWidevineKeySystem)
return kWidevineKeySystemNameForUMA;
if (key_system == kClearKeyKeySystem)
return kClearKeyKeySystemNameForUMA;
return kUnknownKeySystemNameForUMA;
}
void KeySystemsImpl::AddCodecMaskForTesting(EmeMediaType media_type,
const std::string& codec,
uint32_t mask) {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(!codec_map_for_testing_.count(codec));
codec_map_for_testing_[codec] = static_cast<EmeCodec>(mask);
if (media_type == EmeMediaType::AUDIO) {
audio_codec_mask_ |= mask;
} else {
video_codec_mask_ |= mask;
}
}
void KeySystemsImpl::AddMimeTypeCodecMaskForTesting(
const std::string& mime_type,
uint32_t codecs_mask) {
RegisterMimeType(mime_type, static_cast<EmeCodec>(codecs_mask));
}
bool KeySystemsImpl::IsSupportedKeySystem(const std::string& key_system) const {
DCHECK(thread_checker_.CalledOnValidThread());
if (!key_system_properties_map_.count(key_system))
return false;
return true;
}
bool KeySystemsImpl::CanUseAesDecryptor(const std::string& key_system) const {
DCHECK(thread_checker_.CalledOnValidThread());
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
DLOG(ERROR) << key_system << " is not a known key system";
return false;
}
return key_system_iter->second->UseAesDecryptor();
}
EmeConfigRule KeySystemsImpl::GetContentTypeConfigRule(
const std::string& key_system,
EmeMediaType media_type,
const std::string& container_mime_type,
const std::vector<std::string>& codecs) const {
DCHECK(thread_checker_.CalledOnValidThread());
// Make sure the container MIME type matches |media_type|.
switch (media_type) {
case EmeMediaType::AUDIO:
if (!base::StartsWith(container_mime_type, "audio/",
base::CompareCase::SENSITIVE))
return EmeConfigRule::NOT_SUPPORTED;
break;
case EmeMediaType::VIDEO:
if (!base::StartsWith(container_mime_type, "video/",
base::CompareCase::SENSITIVE))
return EmeConfigRule::NOT_SUPPORTED;
break;
}
// Double check whether the key system is supported.
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
NOTREACHED()
<< "KeySystemConfigSelector should've checked key system support";
return EmeConfigRule::NOT_SUPPORTED;
}
// Look up the key system's supported codecs and secure codecs.
SupportedCodecs key_system_codec_mask =
key_system_iter->second->GetSupportedCodecs();
SupportedCodecs key_system_hw_secure_codec_mask =
key_system_iter->second->GetSupportedHwSecureCodecs();
// Check that the container is supported by the key system. (This check is
// necessary because |codecs| may be empty.)
SupportedCodecs mime_type_codec_mask =
GetCodecMaskForMimeType(container_mime_type);
if ((key_system_codec_mask & mime_type_codec_mask) == 0) {
DVLOG(2) << "Container " << container_mime_type << " not supported by "
<< key_system;
return EmeConfigRule::NOT_SUPPORTED;
}
// Check that the codecs are supported by the key system and container based
// on the following rule:
// SupportedCodecs | SupportedSecureCodecs | Result
// yes | yes | SUPPORTED
// yes | no | HW_SECURE_CODECS_NOT_ALLOWED
// no | any | NOT_SUPPORTED
EmeConfigRule support = EmeConfigRule::SUPPORTED;
for (size_t i = 0; i < codecs.size(); i++) {
EmeCodec codec =
GetEmeCodecForString(media_type, container_mime_type, codecs[i]);
if (codec == EME_CODEC_NONE) {
DVLOG(2) << "Unsupported codec string \"" << codecs[i] << "\"";
return EmeConfigRule::NOT_SUPPORTED;
}
// Currently all EmeCodecs only have one bit set. In case there could be
// codecs with multiple bits set, e.g. to cover multiple profiles, we check
// (codec & mask) == codec instead of (codec & mask) != 0 to make sure all
// bits are set. Same below.
if ((codec & key_system_codec_mask & mime_type_codec_mask) != codec) {
DVLOG(2) << "Container/codec pair (" << container_mime_type << " / "
<< codecs[i] << ") not supported by " << key_system;
return EmeConfigRule::NOT_SUPPORTED;
}
// Check whether the codec supports a hardware-secure mode. The goal is to
// prevent mixing of non-hardware-secure codecs with hardware-secure codecs,
// since the mode is fixed at CDM creation.
//
// Because the check for regular codec support is early-exit, we don't have
// to consider codecs that are only supported in hardware-secure mode. We
// could do so, and make use of HW_SECURE_CODECS_REQUIRED, if it turns out
// that hardware-secure-only codecs actually exist and are useful.
if ((codec & key_system_hw_secure_codec_mask) != codec)
support = EmeConfigRule::HW_SECURE_CODECS_NOT_ALLOWED;
}
return support;
}
EmeConfigRule KeySystemsImpl::GetRobustnessConfigRule(
const std::string& key_system,
EmeMediaType media_type,
const std::string& requested_robustness) const {
DCHECK(thread_checker_.CalledOnValidThread());
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
NOTREACHED();
return EmeConfigRule::NOT_SUPPORTED;
}
return key_system_iter->second->GetRobustnessConfigRule(media_type,
requested_robustness);
}
EmeSessionTypeSupport KeySystemsImpl::GetPersistentLicenseSessionSupport(
const std::string& key_system) const {
DCHECK(thread_checker_.CalledOnValidThread());
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
NOTREACHED();
return EmeSessionTypeSupport::INVALID;
}
return key_system_iter->second->GetPersistentLicenseSessionSupport();
}
EmeSessionTypeSupport KeySystemsImpl::GetPersistentUsageRecordSessionSupport(
const std::string& key_system) const {
DCHECK(thread_checker_.CalledOnValidThread());
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
NOTREACHED();
return EmeSessionTypeSupport::INVALID;
}
return key_system_iter->second->GetPersistentUsageRecordSessionSupport();
}
EmeFeatureSupport KeySystemsImpl::GetPersistentStateSupport(
const std::string& key_system) const {
DCHECK(thread_checker_.CalledOnValidThread());
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
NOTREACHED();
return EmeFeatureSupport::INVALID;
}
return key_system_iter->second->GetPersistentStateSupport();
}
EmeFeatureSupport KeySystemsImpl::GetDistinctiveIdentifierSupport(
const std::string& key_system) const {
DCHECK(thread_checker_.CalledOnValidThread());
auto key_system_iter = key_system_properties_map_.find(key_system);
if (key_system_iter == key_system_properties_map_.end()) {
NOTREACHED();
return EmeFeatureSupport::INVALID;
}
return key_system_iter->second->GetDistinctiveIdentifierSupport();
}
KeySystems* KeySystems::GetInstance() {
return KeySystemsImpl::GetInstance();
}
//------------------------------------------------------------------------------
bool IsSupportedKeySystemWithInitDataType(const std::string& key_system,
EmeInitDataType init_data_type) {
return KeySystemsImpl::GetInstance()->IsSupportedInitDataType(key_system,
init_data_type);
}
std::string GetKeySystemNameForUMA(const std::string& key_system) {
return KeySystemsImpl::GetInstance()->GetKeySystemNameForUMA(key_system);
}
bool CanUseAesDecryptor(const std::string& key_system) {
return KeySystemsImpl::GetInstance()->CanUseAesDecryptor(key_system);
}
// These two functions are for testing purpose only. The declaration in the
// header file is guarded by "#if defined(UNIT_TEST)" so that they can be used
// by tests but not non-test code. However, this .cc file is compiled as part of
// "media" where "UNIT_TEST" is not defined. So we need to specify
// "MEDIA_EXPORT" here again so that they are visible to tests.
MEDIA_EXPORT void AddCodecMaskForTesting(EmeMediaType media_type,
const std::string& codec,
uint32_t mask) {
KeySystemsImpl::GetInstance()->AddCodecMaskForTesting(media_type, codec,
mask);
}
MEDIA_EXPORT void AddMimeTypeCodecMaskForTesting(const std::string& mime_type,
uint32_t mask) {
KeySystemsImpl::GetInstance()->AddMimeTypeCodecMaskForTesting(mime_type,
mask);
}
} // namespace media