blob: 54e7ffce84d62a03b126d02a81e989150851a7a7 [file] [log] [blame]
// Copyright 2016 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <vector>
#include "starboard/blitter.h"
#include "starboard/decode_target.h"
#include "starboard/player.h"
#include "starboard/testing/fake_graphics_context_provider.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace starboard {
namespace nplb {
namespace {
#if SB_HAS(PLAYER_WITH_URL)
// This test does not apply. See player_create_with_url_test.cc instead.
#else // SB_HAS(PLAYER_WITH_URL)
using ::starboard::testing::FakeGraphicsContextProvider;
class SbPlayerTest : public ::testing::Test {
protected:
FakeGraphicsContextProvider fake_graphics_context_provider_;
};
void DummyDeallocateSampleFunc(SbPlayer player,
void* context,
const void* sample_buffer) {}
void DummyDecoderStatusFunc(SbPlayer player,
void* context,
SbMediaType type,
SbPlayerDecoderState state,
int ticket) {}
void DummyStatusFunc(SbPlayer player,
void* context,
SbPlayerState state,
int ticket) {}
#if SB_HAS(PLAYER_ERROR_MESSAGE)
void DummyErrorFunc(SbPlayer player,
void* context,
SbPlayerError error,
const char* message) {}
#endif // SB_HAS(PLAYER_ERROR_MESSAGE)
SbMediaAudioHeader GetDefaultAudioHeader() {
SbMediaAudioHeader audio_header;
audio_header.format_tag = 0xff;
audio_header.number_of_channels = 2;
audio_header.samples_per_second = 22050;
audio_header.block_alignment = 4;
audio_header.bits_per_sample = 32;
audio_header.audio_specific_config_size = 0;
audio_header.average_bytes_per_second = audio_header.samples_per_second *
audio_header.number_of_channels *
audio_header.bits_per_sample / 8;
return audio_header;
}
TEST_F(SbPlayerTest, SunnyDay) {
SbMediaAudioHeader audio_header = GetDefaultAudioHeader();
SbMediaVideoCodec kVideoCodec = kSbMediaVideoCodecH264;
SbDrmSystem kDrmSystem = kSbDrmSystemInvalid;
SbPlayerOutputMode output_modes[] = {kSbPlayerOutputModeDecodeToTexture,
kSbPlayerOutputModePunchOut};
for (int i = 0; i < SB_ARRAY_SIZE_INT(output_modes); ++i) {
SbPlayerOutputMode output_mode = output_modes[i];
if (!SbPlayerOutputModeSupported(output_mode, kVideoCodec, kDrmSystem)) {
continue;
}
SbPlayer player = SbPlayerCreate(
fake_graphics_context_provider_.window(), kSbMediaVideoCodecH264,
kSbMediaAudioCodecAac,
#if SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
SB_PLAYER_NO_DURATION,
#endif // SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
kSbDrmSystemInvalid, &audio_header, DummyDeallocateSampleFunc,
DummyDecoderStatusFunc, DummyStatusFunc,
#if SB_HAS(PLAYER_ERROR_MESSAGE)
DummyErrorFunc,
#endif // SB_HAS(PLAYER_ERROR_MESSAGE)
NULL /* context */, output_mode,
fake_graphics_context_provider_.decoder_target_provider());
EXPECT_TRUE(SbPlayerIsValid(player));
if (output_mode == kSbPlayerOutputModeDecodeToTexture) {
SbDecodeTarget current_frame = SbPlayerGetCurrentFrame(player);
}
SbPlayerDestroy(player);
}
}
#if SB_API_VERSION >= SB_NULL_CALLBACKS_INVALID_RETURN_API_VERSION
TEST_F(SbPlayerTest, NullCallbacks) {
SbMediaAudioHeader audio_header = GetDefaultAudioHeader();
SbMediaVideoCodec kVideoCodec = kSbMediaVideoCodecH264;
SbDrmSystem kDrmSystem = kSbDrmSystemInvalid;
SbPlayerOutputMode output_modes[] = {kSbPlayerOutputModeDecodeToTexture,
kSbPlayerOutputModePunchOut};
for (int i = 0; i < SB_ARRAY_SIZE_INT(output_modes); ++i) {
SbPlayerOutputMode output_mode = output_modes[i];
if (!SbPlayerOutputModeSupported(output_mode, kVideoCodec, kDrmSystem)) {
continue;
}
{
SbPlayer player = SbPlayerCreate(
fake_graphics_context_provider_.window(), kSbMediaVideoCodecH264,
kSbMediaAudioCodecAac,
#if SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
SB_PLAYER_NO_DURATION,
#endif // SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
kSbDrmSystemInvalid, &audio_header, NULL /* deallocate_sample_func */,
DummyDecoderStatusFunc, DummyStatusFunc,
#if SB_HAS(PLAYER_ERROR_MESSAGE)
DummyErrorFunc,
#endif // SB_HAS(PLAYER_ERROR_MESSAGE)
NULL /* context */, output_mode,
fake_graphics_context_provider_.decoder_target_provider());
EXPECT_FALSE(SbPlayerIsValid(player));
SbPlayerDestroy(player);
}
{
SbPlayer player = SbPlayerCreate(
fake_graphics_context_provider_.window(), kSbMediaVideoCodecH264,
kSbMediaAudioCodecAac,
#if SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
SB_PLAYER_NO_DURATION,
#endif // SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
kSbDrmSystemInvalid, &audio_header, DummyDeallocateSampleFunc,
NULL /* decoder_status_func */, DummyStatusFunc,
#if SB_HAS(PLAYER_ERROR_MESSAGE)
DummyErrorFunc,
#endif // SB_HAS(PLAYER_ERROR_MESSAGE)
NULL /* context */, output_mode,
fake_graphics_context_provider_.decoder_target_provider());
EXPECT_FALSE(SbPlayerIsValid(player));
SbPlayerDestroy(player);
}
{
SbPlayer player = SbPlayerCreate(
fake_graphics_context_provider_.window(), kSbMediaVideoCodecH264,
kSbMediaAudioCodecAac,
#if SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
SB_PLAYER_NO_DURATION,
#endif // SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
kSbDrmSystemInvalid, &audio_header, DummyDeallocateSampleFunc,
DummyDecoderStatusFunc, NULL /*status_func */,
#if SB_HAS(PLAYER_ERROR_MESSAGE)
DummyErrorFunc,
#endif // SB_HAS(PLAYER_ERROR_MESSAGE)
NULL /* context */, output_mode,
fake_graphics_context_provider_.decoder_target_provider());
EXPECT_FALSE(SbPlayerIsValid(player));
SbPlayerDestroy(player);
}
#if SB_HAS(PLAYER_ERROR_MESSAGE)
{
SbPlayer player = SbPlayerCreate(
fake_graphics_context_provider_.window(), kSbMediaVideoCodecH264,
kSbMediaAudioCodecAac,
#if SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
SB_PLAYER_NO_DURATION,
#endif // SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
kSbDrmSystemInvalid, &audio_header, DummyDeallocateSampleFunc,
DummyDecoderStatusFunc, DummyStatusFunc, NULL /*error_func */,
NULL /* context */, output_mode,
fake_graphics_context_provider_.decoder_target_provider());
EXPECT_FALSE(SbPlayerIsValid(player));
SbPlayerDestroy(player);
}
#endif // SB_HAS(PLAYER_ERROR_MESSAGE)
}
}
#endif // SB_API_VERSION >= SB_NULL_CALLBACKS_INVALID_RETURN_API_VERSION
#if SB_HAS(AUDIOLESS_VIDEO)
TEST_F(SbPlayerTest, Audioless) {
SbMediaVideoCodec kVideoCodec = kSbMediaVideoCodecH264;
SbDrmSystem kDrmSystem = kSbDrmSystemInvalid;
SbPlayerOutputMode output_modes[] = {kSbPlayerOutputModeDecodeToTexture,
kSbPlayerOutputModePunchOut};
for (int i = 0; i < SB_ARRAY_SIZE_INT(output_modes); ++i) {
SbPlayerOutputMode output_mode = output_modes[i];
if (!SbPlayerOutputModeSupported(output_mode, kVideoCodec, kDrmSystem)) {
continue;
}
SbPlayer player = SbPlayerCreate(
fake_graphics_context_provider_.window(), kVideoCodec,
kSbMediaAudioCodecNone,
#if SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
SB_PLAYER_NO_DURATION,
#endif // SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
kSbDrmSystemInvalid, NULL /* audio_header */, DummyDeallocateSampleFunc,
DummyDecoderStatusFunc, DummyStatusFunc,
#if SB_HAS(PLAYER_ERROR_MESSAGE)
DummyErrorFunc,
#endif // SB_HAS(PLAYER_ERROR_MESSAGE)
NULL /* context */, output_mode,
fake_graphics_context_provider_.decoder_target_provider());
EXPECT_TRUE(SbPlayerIsValid(player));
if (output_mode == kSbPlayerOutputModeDecodeToTexture) {
SbDecodeTarget current_frame = SbPlayerGetCurrentFrame(player);
}
SbPlayerDestroy(player);
}
}
#endif // SB_HAS(AUDIOLESS_VIDEO)
#if SB_API_VERSION >= SB_AUDIO_ONLY_VIDEO_API_VERSION
TEST_F(SbPlayerTest, AudioOnly) {
SbMediaAudioHeader audio_header = GetDefaultAudioHeader();
SbMediaAudioCodec kAudioCodec = kSbMediaAudioCodecAac;
SbMediaVideoCodec kVideoCodec = kSbMediaVideoCodecH264;
SbDrmSystem kDrmSystem = kSbDrmSystemInvalid;
SbPlayerOutputMode output_modes[] = {kSbPlayerOutputModeDecodeToTexture,
kSbPlayerOutputModePunchOut};
for (int i = 0; i < SB_ARRAY_SIZE_INT(output_modes); ++i) {
SbPlayerOutputMode output_mode = output_modes[i];
if (!SbPlayerOutputModeSupported(output_mode, kVideoCodec, kDrmSystem)) {
continue;
}
SbPlayer player = SbPlayerCreate(
fake_graphics_context_provider_.window(), kSbMediaVideoCodecNone,
kAudioCodec,
#if SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
SB_PLAYER_NO_DURATION,
#endif // SB_API_VERSION < SB_DEPRECATE_SB_MEDIA_TIME_API_VERSION
kSbDrmSystemInvalid, &audio_header, DummyDeallocateSampleFunc,
DummyDecoderStatusFunc, DummyStatusFunc,
#if SB_HAS(PLAYER_ERROR_MESSAGE)
DummyErrorFunc,
#endif // SB_HAS(PLAYER_ERROR_MESSAGE)
NULL /* context */, output_mode,
fake_graphics_context_provider_.decoder_target_provider());
EXPECT_TRUE(SbPlayerIsValid(player));
if (output_mode == kSbPlayerOutputModeDecodeToTexture) {
SbDecodeTarget current_frame = SbPlayerGetCurrentFrame(player);
}
SbPlayerDestroy(player);
}
}
#endif // SB_API_VERSION >= SB_AUDIO_ONLY_VIDEO_API_VERSION
#if SB_API_VERSION >= SB_MULTI_PLAYER_API_VERSION
TEST_F(SbPlayerTest, MultiPlayer) {
SbMediaAudioHeader audio_header = GetDefaultAudioHeader();
SbDrmSystem kDrmSystem = kSbDrmSystemInvalid;
constexpr SbPlayerOutputMode kOutputModes[] = {
kSbPlayerOutputModeDecodeToTexture, kSbPlayerOutputModePunchOut};
constexpr SbMediaAudioCodec kAudioCodecs[] = {
kSbMediaAudioCodecNone,
kSbMediaAudioCodecAac, kSbMediaAudioCodecOpus, kSbMediaAudioCodecVorbis,
};
// TODO: turn this into a macro.
// Perform a check to determine if new audio codecs have been added to the
// SbMediaAudioCodec enum, but not the array |audio_codecs|. If the compiler
// warns about a missing case here, the value must be added to |audio_codecs|.
SbMediaAudioCodec audio_codec = kAudioCodecs[0];
switch (audio_codec) {
case kAudioCodecs[0]:
case kAudioCodecs[1]:
case kAudioCodecs[2]:
case kAudioCodecs[3]:
break;
}
constexpr SbMediaVideoCodec kVideoCodecs[] = {
kSbMediaVideoCodecNone,
kSbMediaVideoCodecH264, kSbMediaVideoCodecH265, kSbMediaVideoCodecMpeg2,
kSbMediaVideoCodecTheora, kSbMediaVideoCodecVc1, kSbMediaVideoCodecVp10,
kSbMediaVideoCodecVp8, kSbMediaVideoCodecVp9,
};
// TODO: turn this into a macro.
// Perform a check to determine if new video codecs have been added to the
// SbMediaVideoCodec enum, but not the array |video_codecs|. If the compiler
// warns about a missing case here, the value must be added to |video_codecs|.
SbMediaVideoCodec video_codec = kVideoCodecs[0];
switch (video_codec) {
case kVideoCodecs[0]:
case kVideoCodecs[1]:
case kVideoCodecs[2]:
case kVideoCodecs[3]:
case kVideoCodecs[4]:
case kVideoCodecs[5]:
case kVideoCodecs[6]:
case kVideoCodecs[7]:
case kVideoCodecs[8]:
break;
}
const int kMaxPlayersPerConfig = 16;
std::vector<SbPlayer> created_players;
int number_of_players = 0;
for (int i = 0; i < kMaxPlayersPerConfig; ++i) {
for (int j = 0; j < SB_ARRAY_SIZE_INT(kOutputModes); ++j) {
for (int k = 0; k < SB_ARRAY_SIZE_INT(kAudioCodecs); ++k) {
for (int l = 0; l < SB_ARRAY_SIZE_INT(kVideoCodecs); ++l) {
created_players.push_back(SbPlayerCreate(
fake_graphics_context_provider_.window(), kVideoCodecs[l],
kAudioCodecs[k], kSbDrmSystemInvalid, &audio_header,
DummyDeallocateSampleFunc, DummyDecoderStatusFunc,
DummyStatusFunc, DummyErrorFunc, NULL /* context */,
kOutputModes[j],
fake_graphics_context_provider_.decoder_target_provider()));
if (!SbPlayerIsValid(created_players.back())) {
created_players.pop_back();
}
}
}
}
if (created_players.size() == number_of_players) {
break;
}
number_of_players = created_players.size();
}
SB_DLOG(INFO) << "Created " << number_of_players << " players in total.";
for (auto player : created_players) {
SbPlayerDestroy(player);
}
}
#endif // SB_API_VERSION >= SB_MULTI_PLAYER_API_VERSION
#endif // SB_HAS(PLAYER_WITH_URL)
} // namespace
} // namespace nplb
} // namespace starboard