Remove the usage of JsonWriter in WidevineKeySource

Uses protobuf JSON util instead.

packager/base/json_writer comes from Chromium base. We are going to
replace it with abseil, which does not have a JSON library.

The code is much more cleaner now.

This is unfortunately, at the expense of increased output binary size.
packager binary increases by another 100KB.

Change-Id: I83a9217a484cad3c41147ad9a75311384347c49c
This commit is contained in:
KongQun Yang 2018-05-04 14:31:33 -07:00
parent b209aeeb7a
commit ae82cd16f3
3 changed files with 143 additions and 266 deletions

View File

@ -8,16 +8,16 @@
#include "packager/base/base64.h" #include "packager/base/base64.h"
#include "packager/base/bind.h" #include "packager/base/bind.h"
#include "packager/base/json/json_reader.h"
#include "packager/base/json/json_writer.h"
#include "packager/base/strings/string_number_conversions.h" #include "packager/base/strings/string_number_conversions.h"
#include "packager/media/base/http_key_fetcher.h" #include "packager/media/base/http_key_fetcher.h"
#include "packager/media/base/network_util.h" #include "packager/media/base/network_util.h"
#include "packager/media/base/producer_consumer_queue.h" #include "packager/media/base/producer_consumer_queue.h"
#include "packager/media/base/protection_system_specific_info.h" #include "packager/media/base/protection_system_specific_info.h"
#include "packager/media/base/proto_json_util.h"
#include "packager/media/base/pssh_generator_util.h" #include "packager/media/base/pssh_generator_util.h"
#include "packager/media/base/rcheck.h" #include "packager/media/base/rcheck.h"
#include "packager/media/base/request_signer.h" #include "packager/media/base/request_signer.h"
#include "packager/media/base/widevine_common_encryption.pb.h"
#include "packager/media/base/widevine_pssh_generator.h" #include "packager/media/base/widevine_pssh_generator.h"
namespace shaka { namespace shaka {
@ -26,11 +26,6 @@ namespace {
const bool kEnableKeyRotation = true; const bool kEnableKeyRotation = true;
const char kLicenseStatusOK[] = "OK";
// Server may return INTERNAL_ERROR intermittently, which is a transient error
// and the next client request may succeed without problem.
const char kLicenseStatusTransientError[] = "INTERNAL_ERROR";
// Number of times to retry requesting keys in case of a transient error from // Number of times to retry requesting keys in case of a transient error from
// the server. // the server.
const int kNumTransientErrorRetries = 5; const int kNumTransientErrorRetries = 5;
@ -42,73 +37,24 @@ const int kDefaultCryptoPeriodCount = 10;
const int kGetKeyTimeoutInSeconds = 5 * 60; // 5 minutes. const int kGetKeyTimeoutInSeconds = 5 * 60; // 5 minutes.
const int kKeyFetchTimeoutInSeconds = 60; // 1 minute. const int kKeyFetchTimeoutInSeconds = 60; // 1 minute.
bool Base64StringToBytes(const std::string& base64_string, CommonEncryptionRequest::ProtectionScheme ToCommonEncryptionProtectionScheme(
std::vector<uint8_t>* bytes) { FourCC protection_scheme) {
DCHECK(bytes); switch (protection_scheme) {
std::string str; case FOURCC_cenc:
if (!base::Base64Decode(base64_string, &str)) return CommonEncryptionRequest::CENC;
return false; case FOURCC_cbcs:
bytes->assign(str.begin(), str.end()); case kAppleSampleAesProtectionScheme:
return true; // Treat sample aes as a variant of cbcs.
return CommonEncryptionRequest::CBCS;
case FOURCC_cbc1:
return CommonEncryptionRequest::CBC1;
case FOURCC_cens:
return CommonEncryptionRequest::CENS;
default:
LOG(WARNING) << "Ignore unrecognized protection scheme "
<< FourCCToString(protection_scheme);
return CommonEncryptionRequest::UNSPECIFIED;
} }
void BytesToBase64String(const std::vector<uint8_t>& bytes,
std::string* base64_string) {
DCHECK(base64_string);
base::Base64Encode(base::StringPiece(reinterpret_cast<const char*>
(bytes.data()), bytes.size()),
base64_string);
}
bool GetKeyFromTrack(const base::DictionaryValue& track_dict,
std::vector<uint8_t>* key) {
DCHECK(key);
std::string key_base64_string;
RCHECK(track_dict.GetString("key", &key_base64_string));
VLOG(2) << "Key:" << key_base64_string;
RCHECK(Base64StringToBytes(key_base64_string, key));
return true;
}
bool GetKeyIdFromTrack(const base::DictionaryValue& track_dict,
std::vector<uint8_t>* key_id) {
DCHECK(key_id);
std::string key_id_base64_string;
RCHECK(track_dict.GetString("key_id", &key_id_base64_string));
VLOG(2) << "Keyid:" << key_id_base64_string;
RCHECK(Base64StringToBytes(key_id_base64_string, key_id));
return true;
}
bool GetPsshDataFromTrack(const base::DictionaryValue& track_dict,
std::vector<uint8_t>* pssh_data) {
DCHECK(pssh_data);
const base::ListValue* pssh_list;
RCHECK(track_dict.GetList("pssh", &pssh_list));
// Invariant check. We don't want to crash in release mode if possible.
// The following code handles it gracefully if GetSize() does not return 1.
DCHECK_EQ(1u, pssh_list->GetSize());
const base::DictionaryValue* pssh_dict;
RCHECK(pssh_list->GetDictionary(0, &pssh_dict));
std::string drm_type;
RCHECK(pssh_dict->GetString("drm_type", &drm_type));
if (drm_type != "WIDEVINE") {
LOG(ERROR) << "Expecting drm_type 'WIDEVINE', get '" << drm_type << "'.";
return false;
}
std::string pssh_data_base64_string;
RCHECK(pssh_dict->GetString("data", &pssh_data_base64_string));
VLOG(2) << "Pssh Data:" << pssh_data_base64_string;
RCHECK(Base64StringToBytes(pssh_data_base64_string, pssh_data));
return true;
}
bool IsProtectionSchemeValid(FourCC protection_scheme) {
return protection_scheme == FOURCC_cenc || protection_scheme == FOURCC_cbcs ||
protection_scheme == FOURCC_cbc1 || protection_scheme == FOURCC_cens;
} }
} // namespace } // namespace
@ -145,22 +91,12 @@ WidevineKeySource::~WidevineKeySource() {
Status WidevineKeySource::FetchKeys(const std::vector<uint8_t>& content_id, Status WidevineKeySource::FetchKeys(const std::vector<uint8_t>& content_id,
const std::string& policy) { const std::string& policy) {
base::AutoLock scoped_lock(lock_); base::AutoLock scoped_lock(lock_);
request_dict_.Clear(); common_encryption_request_.reset(new CommonEncryptionRequest);
std::string content_id_base64_string; common_encryption_request_->set_content_id(content_id.data(),
BytesToBase64String(content_id, &content_id_base64_string); content_id.size());
request_dict_.SetString("content_id", content_id_base64_string); common_encryption_request_->set_policy(policy);
request_dict_.SetString("policy", policy); common_encryption_request_->set_protection_scheme(
ToCommonEncryptionProtectionScheme(protection_scheme_));
FourCC protection_scheme = protection_scheme_;
// Treat sample aes as a variant of cbcs.
if (protection_scheme == kAppleSampleAesProtectionScheme)
protection_scheme = FOURCC_cbcs;
if (IsProtectionSchemeValid(protection_scheme)) {
request_dict_.SetInteger("protection_scheme", protection_scheme);
} else {
LOG(WARNING) << "Ignore unrecognized protection scheme "
<< FourCCToString(protection_scheme);
}
return FetchKeysInternal(!kEnableKeyRotation, 0, false); return FetchKeysInternal(!kEnableKeyRotation, 0, false);
} }
@ -217,15 +153,12 @@ Status WidevineKeySource::FetchKeys(EmeInitDataType init_data_type,
const bool widevine_classic = const bool widevine_classic =
init_data_type == EmeInitDataType::WIDEVINE_CLASSIC; init_data_type == EmeInitDataType::WIDEVINE_CLASSIC;
base::AutoLock scoped_lock(lock_); base::AutoLock scoped_lock(lock_);
request_dict_.Clear(); common_encryption_request_.reset(new CommonEncryptionRequest);
if (widevine_classic) { if (widevine_classic) {
// Javascript/JSON does not support int64_t or unsigned numbers. Use double common_encryption_request_->set_asset_id(asset_id);
// instead as 32-bit integer can be lossless represented using double.
request_dict_.SetDouble("asset_id", asset_id);
} else { } else {
std::string pssh_data_base64_string; common_encryption_request_->set_pssh_data(pssh_data.data(),
BytesToBase64String(pssh_data, &pssh_data_base64_string); pssh_data.size());
request_dict_.SetString("pssh_data", pssh_data_base64_string);
} }
return FetchKeysInternal(!kEnableKeyRotation, 0, widevine_classic); return FetchKeysInternal(!kEnableKeyRotation, 0, widevine_classic);
} }
@ -336,10 +269,8 @@ void WidevineKeySource::FetchKeysTask() {
Status WidevineKeySource::FetchKeysInternal(bool enable_key_rotation, Status WidevineKeySource::FetchKeysInternal(bool enable_key_rotation,
uint32_t first_crypto_period_index, uint32_t first_crypto_period_index,
bool widevine_classic) { bool widevine_classic) {
std::string request; CommonEncryptionRequest request;
FillRequest(enable_key_rotation, FillRequest(enable_key_rotation, first_crypto_period_index, &request);
first_crypto_period_index,
&request);
std::string message; std::string message;
Status status = GenerateKeyMessage(request, &message); Status status = GenerateKeyMessage(request, &message);
@ -357,23 +288,15 @@ Status WidevineKeySource::FetchKeysInternal(bool enable_key_rotation,
if (status.ok()) { if (status.ok()) {
VLOG(1) << "Retry [" << i << "] Response:" << raw_response; VLOG(1) << "Retry [" << i << "] Response:" << raw_response;
std::string response;
if (!DecodeResponse(raw_response, &response)) {
return Status(error::SERVER_ERROR,
"Failed to decode response '" + raw_response + "'.");
}
bool transient_error = false; bool transient_error = false;
if (ExtractEncryptionKey(enable_key_rotation, if (ExtractEncryptionKey(enable_key_rotation, widevine_classic,
widevine_classic, raw_response, &transient_error))
response,
&transient_error))
return Status::OK; return Status::OK;
if (!transient_error) { if (!transient_error) {
return Status( return Status(
error::SERVER_ERROR, error::SERVER_ERROR,
"Failed to extract encryption key from '" + response + "'."); "Failed to extract encryption key from '" + raw_response + "'.");
} }
} else if (status.error_code() != error::TIME_OUT) { } else if (status.error_code() != error::TIME_OUT) {
return status; return status;
@ -392,106 +315,50 @@ Status WidevineKeySource::FetchKeysInternal(bool enable_key_rotation,
void WidevineKeySource::FillRequest(bool enable_key_rotation, void WidevineKeySource::FillRequest(bool enable_key_rotation,
uint32_t first_crypto_period_index, uint32_t first_crypto_period_index,
std::string* request) { CommonEncryptionRequest* request) {
DCHECK(common_encryption_request_);
DCHECK(request); DCHECK(request);
DCHECK(!request_dict_.empty()); *request = *common_encryption_request_;
// Build tracks. request->add_tracks()->set_type("SD");
base::ListValue* tracks = new base::ListValue(); request->add_tracks()->set_type("HD");
request->add_tracks()->set_type("UHD1");
request->add_tracks()->set_type("UHD2");
request->add_tracks()->set_type("AUDIO");
base::DictionaryValue* track_sd = new base::DictionaryValue(); request->add_drm_types(ModularDrmType::WIDEVINE);
track_sd->SetString("type", "SD");
tracks->Append(track_sd);
base::DictionaryValue* track_hd = new base::DictionaryValue();
track_hd->SetString("type", "HD");
tracks->Append(track_hd);
base::DictionaryValue* track_uhd1 = new base::DictionaryValue();
track_uhd1->SetString("type", "UHD1");
tracks->Append(track_uhd1);
base::DictionaryValue* track_uhd2 = new base::DictionaryValue();
track_uhd2->SetString("type", "UHD2");
tracks->Append(track_uhd2);
base::DictionaryValue* track_audio = new base::DictionaryValue();
track_audio->SetString("type", "AUDIO");
tracks->Append(track_audio);
request_dict_.Set("tracks", tracks);
// Build DRM types.
base::ListValue* drm_types = new base::ListValue();
drm_types->AppendString("WIDEVINE");
request_dict_.Set("drm_types", drm_types);
// Build key rotation fields.
if (enable_key_rotation) { if (enable_key_rotation) {
// Javascript/JSON does not support int64_t or unsigned numbers. Use double request->set_first_crypto_period_index(first_crypto_period_index);
// instead as 32-bit integer can be lossless represented using double. request->set_crypto_period_count(crypto_period_count_);
request_dict_.SetDouble("first_crypto_period_index",
first_crypto_period_index);
request_dict_.SetInteger("crypto_period_count", crypto_period_count_);
} }
// Set group id if present. if (!group_id_.empty())
if (!group_id_.empty()) { request->set_group_id(group_id_.data(), group_id_.size());
std::string group_id_base64;
BytesToBase64String(group_id_, &group_id_base64);
request_dict_.SetString("group_id", group_id_base64);
} }
base::JSONWriter::WriteWithOptions( Status WidevineKeySource::GenerateKeyMessage(
request_dict_, const CommonEncryptionRequest& request,
// Write doubles that have no fractional part as a normal integer, i.e.
// without using exponential notation or appending a '.0'.
base::JSONWriter::OPTIONS_OMIT_DOUBLE_TYPE_PRESERVATION, request);
}
Status WidevineKeySource::GenerateKeyMessage(const std::string& request,
std::string* message) { std::string* message) {
DCHECK(message); DCHECK(message);
std::string request_base64_string; SignedModularDrmRequest signed_request;
base::Base64Encode(request, &request_base64_string); signed_request.set_request(MessageToJsonString(request));
base::DictionaryValue request_dict;
request_dict.SetString("request", request_base64_string);
// Sign the request. // Sign the request.
if (signer_) { if (signer_) {
std::string signature; std::string signature;
if (!signer_->GenerateSignature(request, &signature)) if (!signer_->GenerateSignature(signed_request.request(), &signature))
return Status(error::INTERNAL_ERROR, "Signature generation failed."); return Status(error::INTERNAL_ERROR, "Signature generation failed.");
std::string signature_base64_string; signed_request.set_signature(signature);
base::Base64Encode(signature, &signature_base64_string); signed_request.set_signer(signer_->signer_name());
request_dict.SetString("signature", signature_base64_string);
request_dict.SetString("signer", signer_->signer_name());
} }
base::JSONWriter::Write(request_dict, message); *message = MessageToJsonString(signed_request);
return Status::OK; return Status::OK;
} }
bool WidevineKeySource::DecodeResponse(
const std::string& raw_response,
std::string* response) {
DCHECK(response);
// Extract base64 formatted response from JSON formatted raw response.
std::unique_ptr<base::Value> root(base::JSONReader::Read(raw_response));
if (!root) {
LOG(ERROR) << "'" << raw_response << "' is not in JSON format.";
return false;
}
const base::DictionaryValue* response_dict = NULL;
RCHECK(root->GetAsDictionary(&response_dict));
std::string response_base64_string;
RCHECK(response_dict->GetString("response", &response_base64_string));
RCHECK(base::Base64Decode(response_base64_string, response));
return true;
}
bool WidevineKeySource::ExtractEncryptionKey( bool WidevineKeySource::ExtractEncryptionKey(
bool enable_key_rotation, bool enable_key_rotation,
bool widevine_classic, bool widevine_classic,
@ -500,46 +367,45 @@ bool WidevineKeySource::ExtractEncryptionKey(
DCHECK(transient_error); DCHECK(transient_error);
*transient_error = false; *transient_error = false;
std::unique_ptr<base::Value> root(base::JSONReader::Read(response)); SignedModularDrmResponse signed_response_proto;
if (!root) { if (!JsonStringToMessage(response, &signed_response_proto)) {
LOG(ERROR) << "'" << response << "' is not in JSON format."; LOG(ERROR) << "Failed to convert JSON to proto: " << response;
return false; return false;
} }
const base::DictionaryValue* license_dict = NULL; CommonEncryptionResponse response_proto;
RCHECK(root->GetAsDictionary(&license_dict)); if (!JsonStringToMessage(signed_response_proto.response(), &response_proto)) {
LOG(ERROR) << "Failed to convert JSON to proto: "
<< signed_response_proto.response();
return false;
}
std::string license_status; if (response_proto.status() != CommonEncryptionResponse::OK) {
RCHECK(license_dict->GetString("status", &license_status));
if (license_status != kLicenseStatusOK) {
LOG(ERROR) << "Received non-OK license response: " << response; LOG(ERROR) << "Received non-OK license response: " << response;
*transient_error = (license_status == kLicenseStatusTransientError); // Server may return INTERNAL_ERROR intermittently, which is a transient
// error and the next client request may succeed without problem.
*transient_error =
(response_proto.status() == CommonEncryptionResponse::INTERNAL_ERROR);
return false; return false;
} }
const base::ListValue* tracks; RCHECK(enable_key_rotation
RCHECK(license_dict->GetList("tracks", &tracks)); ? response_proto.tracks_size() >= crypto_period_count_
// Should have at least one track per crypto_period. : response_proto.tracks_size() >= 1);
RCHECK(enable_key_rotation ? tracks->GetSize() >= 1 * crypto_period_count_
: tracks->GetSize() >= 1);
int current_crypto_period_index = first_crypto_period_index_; uint32_t current_crypto_period_index = first_crypto_period_index_;
EncryptionKeyMap encryption_key_map; EncryptionKeyMap encryption_key_map;
for (size_t i = 0; i < tracks->GetSize(); ++i) { for (const auto& track : response_proto.tracks()) {
const base::DictionaryValue* track_dict; VLOG(2) << "track " << track.ShortDebugString();
RCHECK(tracks->GetDictionary(i, &track_dict));
if (enable_key_rotation) { if (enable_key_rotation) {
int crypto_period_index; if (track.crypto_period_index() != current_crypto_period_index) {
RCHECK( if (track.crypto_period_index() != current_crypto_period_index + 1) {
track_dict->GetInteger("crypto_period_index", &crypto_period_index));
if (crypto_period_index != current_crypto_period_index) {
if (crypto_period_index != current_crypto_period_index + 1) {
LOG(ERROR) << "Expecting crypto period index " LOG(ERROR) << "Expecting crypto period index "
<< current_crypto_period_index << " or " << current_crypto_period_index << " or "
<< current_crypto_period_index + 1 << "; Seen " << current_crypto_period_index + 1 << "; Seen "
<< crypto_period_index << " at track " << i; << track.crypto_period_index();
return false; return false;
} }
if (!PushToKeyPool(&encryption_key_map)) if (!PushToKeyPool(&encryption_key_map))
@ -548,24 +414,25 @@ bool WidevineKeySource::ExtractEncryptionKey(
} }
} }
std::string stream_label; const std::string& stream_label = track.type();
RCHECK(track_dict->GetString("type", &stream_label));
RCHECK(encryption_key_map.find(stream_label) == encryption_key_map.end()); RCHECK(encryption_key_map.find(stream_label) == encryption_key_map.end());
VLOG(2) << "drm label:" << stream_label;
std::unique_ptr<EncryptionKey> encryption_key(new EncryptionKey()); std::unique_ptr<EncryptionKey> encryption_key(new EncryptionKey());
encryption_key->key.assign(track.key().begin(), track.key().end());
if (!GetKeyFromTrack(*track_dict, &encryption_key->key))
return false;
// Get key ID and PSSH data for CENC content only. // Get key ID and PSSH data for CENC content only.
if (!widevine_classic) { if (!widevine_classic) {
if (!GetKeyIdFromTrack(*track_dict, &encryption_key->key_id)) encryption_key->key_id.assign(track.key_id().begin(),
return false; track.key_id().end());
std::vector<uint8_t> pssh_data; if (track.pssh_size() != 1) {
if (!GetPsshDataFromTrack(*track_dict, &pssh_data)) LOG(ERROR) << "Expecting one and only one pssh, seeing "
<< track.pssh_size();
return false; return false;
}
const auto& pssh_proto = track.pssh(0);
const std::vector<uint8_t> pssh_data(pssh_proto.data().begin(),
pssh_proto.data().end());
PsshBoxBuilder pssh_builder; PsshBoxBuilder pssh_builder;
pssh_builder.add_key_id(encryption_key->key_id); pssh_builder.add_key_id(encryption_key->key_id);

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@ -10,12 +10,14 @@
#include <map> #include <map>
#include <memory> #include <memory>
#include "packager/base/synchronization/waitable_event.h" #include "packager/base/synchronization/waitable_event.h"
#include "packager/base/values.h"
#include "packager/media/base/closure_thread.h" #include "packager/media/base/closure_thread.h"
#include "packager/media/base/fourccs.h" #include "packager/media/base/fourccs.h"
#include "packager/media/base/key_source.h" #include "packager/media/base/key_source.h"
namespace shaka { namespace shaka {
class CommonEncryptionRequest;
namespace media { namespace media {
class KeyFetcher; class KeyFetcher;
@ -91,13 +93,11 @@ class WidevineKeySource : public KeySource {
// |request| should not be NULL. // |request| should not be NULL.
void FillRequest(bool enable_key_rotation, void FillRequest(bool enable_key_rotation,
uint32_t first_crypto_period_index, uint32_t first_crypto_period_index,
std::string* request); CommonEncryptionRequest* request);
// Base64 escape and format the request. Optionally sign the request if a // Get request in JSON string. Optionally sign the request if a signer is
// signer is provided. |message| should not be NULL. Return OK on success. // provided. |message| should not be NULL. Return OK on success.
Status GenerateKeyMessage(const std::string& request, std::string* message); Status GenerateKeyMessage(const CommonEncryptionRequest& request,
// Decode |response| from JSON formatted |raw_response|. std::string* message);
// |response| should not be NULL.
bool DecodeResponse(const std::string& raw_response, std::string* response);
// Extract encryption key from |response|, which is expected to be properly // Extract encryption key from |response|, which is expected to be properly
// formatted. |transient_error| will be set to true if it fails and the // formatted. |transient_error| will be set to true if it fails and the
// failure is because of a transient error from the server. |transient_error| // failure is because of a transient error from the server. |transient_error|
@ -116,9 +116,9 @@ class WidevineKeySource : public KeySource {
std::unique_ptr<KeyFetcher> key_fetcher_; std::unique_ptr<KeyFetcher> key_fetcher_;
std::string server_url_; std::string server_url_;
std::unique_ptr<RequestSigner> signer_; std::unique_ptr<RequestSigner> signer_;
base::DictionaryValue request_dict_; std::unique_ptr<CommonEncryptionRequest> common_encryption_request_;
const uint32_t crypto_period_count_; const int crypto_period_count_;
FourCC protection_scheme_; FourCC protection_scheme_;
base::Lock lock_; base::Lock lock_;
bool key_production_started_; bool key_production_started_;

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@ -52,26 +52,25 @@ const char kLicenseStatusTransientError[] = "INTERNAL_ERROR";
const char kLicenseStatusUnknownError[] = "UNKNOWN_ERROR"; const char kLicenseStatusUnknownError[] = "UNKNOWN_ERROR";
const char kExpectedRequestMessageFormat[] = const char kExpectedRequestMessageFormat[] =
"{\"content_id\":\"%s\",\"drm_types\":[\"WIDEVINE\"],\"policy\":\"%s\"," R"({"content_id":"%s","policy":"%s",)"
"\"protection_scheme\":%d," R"("tracks":[{"type":"SD"},{"type":"HD"},{"type":"UHD1"},)"
"\"tracks\":[{\"type\":\"SD\"},{\"type\":\"HD\"},{\"type\":\"UHD1\"}," R"({"type":"UHD2"},{"type":"AUDIO"}],)"
"{\"type\":\"UHD2\"},{\"type\":\"AUDIO\"}]}"; R"("drm_types":["WIDEVINE"],"protection_scheme":"%s"})";
const char kExpectedRequestMessageWithAssetIdFormat[] = const char kExpectedRequestMessageWithAssetIdFormat[] =
"{\"asset_id\":%u,\"drm_types\":[\"WIDEVINE\"]," R"({"tracks":[{"type":"SD"},{"type":"HD"},{"type":"UHD1"},)"
"\"tracks\":[{\"type\":\"SD\"},{\"type\":\"HD\"},{\"type\":\"UHD1\"}," R"({"type":"UHD2"},{"type":"AUDIO"}],)"
"{\"type\":\"UHD2\"},{\"type\":\"AUDIO\"}]}"; R"("drm_types":["WIDEVINE"],"asset_id":%u})";
const char kExpectedRequestMessageWithPsshFormat[] = const char kExpectedRequestMessageWithPsshFormat[] =
"{\"drm_types\":[\"WIDEVINE\"],\"pssh_data\":\"%s\"," R"({"tracks":[{"type":"SD"},{"type":"HD"},{"type":"UHD1"},)"
"\"tracks\":[{\"type\":\"SD\"},{\"type\":\"HD\"},{\"type\":\"UHD1\"}," R"({"type":"UHD2"},{"type":"AUDIO"}],)"
"{\"type\":\"UHD2\"},{\"type\":\"AUDIO\"}]}"; R"("drm_types":["WIDEVINE"],"pssh_data":"%s"})";
const char kExpectedSignedMessageFormat[] = const char kExpectedSignedMessageFormat[] =
"{\"request\":\"%s\",\"signature\":\"%s\",\"signer\":\"%s\"}"; R"({"request":"%s","signature":"%s","signer":"%s"})";
const char kTrackFormat[] = const char kTrackFormat[] = R"({"type":"%s","key_id":"%s","key":"%s",)"
"{\"type\":\"%s\",\"key_id\":\"%s\",\"key\":" R"("pssh":[{"drm_type":"WIDEVINE","data":"%s"}]})";
"\"%s\",\"pssh\":[{\"drm_type\":\"WIDEVINE\",\"data\":\"%s\"}]}"; const char kClassicTrackFormat[] = R"({"type":"%s","key":"%s"})";
const char kClassicTrackFormat[] = "{\"type\":\"%s\",\"key\":\"%s\"}"; const char kLicenseResponseFormat[] = R"({"status":"%s","tracks":[%s]})";
const char kLicenseResponseFormat[] = "{\"status\":\"%s\",\"tracks\":[%s]}"; const char kHttpResponseFormat[] = R"({"response":"%s"})";
const char kHttpResponseFormat[] = "{\"response\":\"%s\"}";
const uint8_t kRequestPsshBox[] = { const uint8_t kRequestPsshBox[] = {
0, 0, 0, 44, 'p', 's', 's', 'h', 0, 0, 0, 0, 0, 0, 44, 'p', 's', 's', 'h', 0, 0, 0,
0, 0xed, 0xef, 0x8b, 0xa9, 0x79, 0xd6, 0x4a, 0xce, 0xa3, 0xc8, 0, 0xed, 0xef, 0x8b, 0xa9, 0x79, 0xd6, 0x4a, 0xce, 0xa3, 0xc8,
@ -187,11 +186,21 @@ class WidevineKeySourceTest : public Test {
} }
protected: protected:
FourCC GetExpectedProtectionScheme() { std::string GetExpectedProtectionScheme() {
switch (protection_scheme_) {
case FOURCC_cenc:
return "CENC";
case FOURCC_cbcs:
case kAppleSampleAesProtectionScheme:
// Apple SAMPLE-AES is considered as a variation of cbcs. // Apple SAMPLE-AES is considered as a variation of cbcs.
if (protection_scheme_ == kAppleSampleAesProtectionScheme) return "CBCS";
return FOURCC_cbcs; case FOURCC_cbc1:
return protection_scheme_; return "CBC1";
case FOURCC_cens:
return "CENS";
default:
return "UNKNOWN";
}
} }
void CreateWidevineKeySource() { void CreateWidevineKeySource() {
@ -330,7 +339,7 @@ class WidevineKeySourceParameterizedTest
TEST_P(WidevineKeySourceParameterizedTest, HttpFetchFailure) { TEST_P(WidevineKeySourceParameterizedTest, HttpFetchFailure) {
std::string expected_message = base::StringPrintf( std::string expected_message = base::StringPrintf(
kExpectedRequestMessageFormat, Base64Encode(kContentId).c_str(), kPolicy, kExpectedRequestMessageFormat, Base64Encode(kContentId).c_str(), kPolicy,
GetExpectedProtectionScheme()); GetExpectedProtectionScheme().c_str());
EXPECT_CALL(*mock_request_signer_, EXPECT_CALL(*mock_request_signer_,
GenerateSignature(StrEq(expected_message), _)) GenerateSignature(StrEq(expected_message), _))
.WillOnce(DoAll(SetArgPointee<1>(kMockSignature), Return(true))); .WillOnce(DoAll(SetArgPointee<1>(kMockSignature), Return(true)));
@ -447,16 +456,17 @@ TEST_P(WidevineKeySourceParameterizedTest, LicenseStatusClassicOK) {
namespace { namespace {
const char kCryptoPeriodRequestMessageFormat[] = const char kCryptoPeriodRequestMessageFormat[] =
"{\"content_id\":\"%s\",\"crypto_period_count\":%u,\"drm_types\":[" R"({"content_id":"%s","policy":"%s",)"
"\"WIDEVINE\"],\"first_crypto_period_index\":%u,\"policy\":\"%s\"," R"("tracks":[{"type":"SD"},{"type":"HD"},{"type":"UHD1"},)"
"\"protection_scheme\":%d," R"({"type":"UHD2"},{"type":"AUDIO"}],)"
"\"tracks\":[{\"type\":\"SD\"},{\"type\":\"HD\"},{\"type\":\"UHD1\"}," R"("drm_types":["WIDEVINE"],)"
"{\"type\":\"UHD2\"},{\"type\":\"AUDIO\"}]}"; R"("first_crypto_period_index":%u,"crypto_period_count":%u,)"
R"("protection_scheme":"%s"})";
const char kCryptoPeriodTrackFormat[] = const char kCryptoPeriodTrackFormat[] =
"{\"type\":\"%s\",\"key_id\":\"%s\",\"key\":" R"({"type":"%s","key_id":"%s","key":"%s",)"
"\"%s\",\"pssh\":[{\"drm_type\":\"WIDEVINE\",\"data\":\"\"}], " R"("pssh":[{"drm_type":"WIDEVINE","data":""}], )"
"\"crypto_period_index\":%u}"; R"("crypto_period_index":%u})";
std::string GetMockKey(const std::string& track_type, uint32_t index) { std::string GetMockKey(const std::string& track_type, uint32_t index) {
// The key must be 16 characters, in case the key is needed to generate a // The key must be 16 characters, in case the key is needed to generate a
@ -515,8 +525,8 @@ TEST_P(WidevineKeySourceParameterizedTest, KeyRotationTest) {
kFirstCryptoPeriodIndex - 1 + i * kCryptoPeriodCount; kFirstCryptoPeriodIndex - 1 + i * kCryptoPeriodCount;
std::string expected_message = base::StringPrintf( std::string expected_message = base::StringPrintf(
kCryptoPeriodRequestMessageFormat, Base64Encode(kContentId).c_str(), kCryptoPeriodRequestMessageFormat, Base64Encode(kContentId).c_str(),
kCryptoPeriodCount, first_crypto_period_index, kPolicy, kPolicy, first_crypto_period_index, kCryptoPeriodCount,
GetExpectedProtectionScheme()); GetExpectedProtectionScheme().c_str());
EXPECT_CALL(*mock_request_signer_, GenerateSignature(expected_message, _)) EXPECT_CALL(*mock_request_signer_, GenerateSignature(expected_message, _))
.WillOnce(DoAll(SetArgPointee<1>(kMockSignature), Return(true))); .WillOnce(DoAll(SetArgPointee<1>(kMockSignature), Return(true)));