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/*
* Copyright 2021 The libgav1 Authors
*
* 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.
*/
#ifdef __cplusplus
#error Do not compile this file with a C++ compiler
#endif
// clang-format off
#include "src/gav1/decoder.h"
// Import the test frame #defines.
#include "src/decoder_test_data.h"
// clang-format on
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#define ASSERT_EQ(a, b) \
do { \
if ((a) != (b)) { \
fprintf(stderr, "Assertion failure: (%s) == (%s), at %s:%d\n", #a, #b, \
__FILE__, __LINE__); \
fprintf(stderr, "C DecoderTest failed\n"); \
exit(1); \
} \
} while (0)
#define ASSERT_NE(a, b) \
do { \
if ((a) == (b)) { \
fprintf(stderr, "Assertion failure: (%s) != (%s), at %s:%d\n", #a, #b, \
__FILE__, __LINE__); \
fprintf(stderr, "C DecoderTest failed\n"); \
exit(1); \
} \
} while (0)
#define ASSERT_TRUE(a) \
do { \
if (!(a)) { \
fprintf(stderr, "Assertion failure: %s, at %s:%d\n", #a, __FILE__, \
__LINE__); \
fprintf(stderr, "C DecoderTest failed\n"); \
exit(1); \
} \
} while (0)
#define ASSERT_FALSE(a) \
do { \
if (a) { \
fprintf(stderr, "Assertion failure: !(%s), at %s:%d\n", #a, __FILE__, \
__LINE__); \
fprintf(stderr, "C DecoderTest failed\n"); \
exit(1); \
} \
} while (0)
static const uint8_t kFrame1[] = {OBU_TEMPORAL_DELIMITER, OBU_SEQUENCE_HEADER,
OBU_FRAME_1};
static const uint8_t kFrame2[] = {OBU_TEMPORAL_DELIMITER, OBU_FRAME_2};
static const uint8_t kFrame1WithHdrCllAndHdrMdcv[] = {
OBU_TEMPORAL_DELIMITER, OBU_SEQUENCE_HEADER, OBU_METADATA_HDR_CLL,
OBU_METADATA_HDR_MDCV, OBU_FRAME_1};
static const uint8_t kFrame2WithItutT35[] = {
OBU_TEMPORAL_DELIMITER, OBU_METADATA_ITUT_T35, OBU_FRAME_2};
typedef struct DecoderTest {
Libgav1Decoder* decoder;
int frames_in_use;
void* buffer_private_data;
void* released_input_buffer;
} DecoderTest;
static void DecoderTestInit(DecoderTest* test) {
test->decoder = NULL;
test->frames_in_use = 0;
test->buffer_private_data = NULL;
test->released_input_buffer = NULL;
}
static void DecoderTestIncrementFramesInUse(DecoderTest* test) {
++test->frames_in_use;
}
static void DecoderTestDecrementFramesInUse(DecoderTest* test) {
--test->frames_in_use;
}
static void DecoderTestSetReleasedInputBuffer(DecoderTest* test,
void* released_input_buffer) {
test->released_input_buffer = released_input_buffer;
}
static void DecoderTestSetBufferPrivateData(DecoderTest* test,
void* buffer_private_data) {
test->buffer_private_data = buffer_private_data;
}
typedef struct FrameBufferPrivate {
uint8_t* data[3];
} FrameBufferPrivate;
static Libgav1StatusCode GetFrameBuffer(
void* callback_private_data, int bitdepth, Libgav1ImageFormat image_format,
int width, int height, int left_border, int right_border, int top_border,
int bottom_border, int stride_alignment, Libgav1FrameBuffer* frame_buffer) {
Libgav1FrameBufferInfo info;
Libgav1StatusCode status = Libgav1ComputeFrameBufferInfo(
bitdepth, image_format, width, height, left_border, right_border,
top_border, bottom_border, stride_alignment, &info);
if (status != kLibgav1StatusOk) return status;
FrameBufferPrivate* buffer_private =
(FrameBufferPrivate*)malloc(sizeof(FrameBufferPrivate));
if (buffer_private == NULL) return kLibgav1StatusOutOfMemory;
for (int i = 0; i < 3; ++i) {
const size_t size = (i == 0) ? info.y_buffer_size : info.uv_buffer_size;
buffer_private->data[i] = (uint8_t*)malloc(sizeof(uint8_t) * size);
if (buffer_private->data[i] == NULL) {
for (int j = 0; j < i; j++) {
free(buffer_private->data[j]);
}
free(buffer_private);
return kLibgav1StatusOutOfMemory;
}
}
uint8_t* const y_buffer = buffer_private->data[0];
uint8_t* const u_buffer =
(info.uv_buffer_size != 0) ? buffer_private->data[1] : NULL;
uint8_t* const v_buffer =
(info.uv_buffer_size != 0) ? buffer_private->data[2] : NULL;
status = Libgav1SetFrameBuffer(&info, y_buffer, u_buffer, v_buffer,
buffer_private, frame_buffer);
if (status != kLibgav1StatusOk) return status;
DecoderTest* const decoder_test = (DecoderTest*)callback_private_data;
DecoderTestIncrementFramesInUse(decoder_test);
DecoderTestSetBufferPrivateData(decoder_test, frame_buffer->private_data);
return kLibgav1StatusOk;
}
static void ReleaseFrameBuffer(void* callback_private_data,
void* buffer_private_data) {
FrameBufferPrivate* buffer_private = (FrameBufferPrivate*)buffer_private_data;
for (int i = 0; i < 3; ++i) {
free(buffer_private->data[i]);
}
free(buffer_private);
DecoderTest* const decoder_test = (DecoderTest*)callback_private_data;
DecoderTestDecrementFramesInUse(decoder_test);
}
static void ReleaseInputBuffer(void* private_data, void* input_buffer) {
DecoderTestSetReleasedInputBuffer((DecoderTest*)private_data, input_buffer);
}
static void DecoderTestSetUp(DecoderTest* test) {
Libgav1DecoderSettings settings;
Libgav1DecoderSettingsInitDefault(&settings);
settings.frame_parallel = 0; // false
settings.get_frame_buffer = GetFrameBuffer;
settings.release_frame_buffer = ReleaseFrameBuffer;
settings.callback_private_data = test;
settings.release_input_buffer = ReleaseInputBuffer;
ASSERT_EQ(test->decoder, NULL);
ASSERT_EQ(Libgav1DecoderCreate(&settings, &test->decoder), kLibgav1StatusOk);
ASSERT_NE(test->decoder, NULL);
}
static void DecoderTestAPIFlowForNonFrameParallelMode(void) {
DecoderTest test;
DecoderTestInit(&test);
DecoderTestSetUp(&test);
Libgav1StatusCode status;
const Libgav1DecoderBuffer* buffer;
// Enqueue frame1 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame1, sizeof(kFrame1), 0,
(uint8_t*)&kFrame1);
ASSERT_EQ(status, kLibgav1StatusOk);
// In non-frame-parallel mode, decoding happens only in the DequeueFrame call.
// So there should be no frames in use yet.
ASSERT_EQ(test.frames_in_use, 0);
// Dequeue the output of frame1.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(test.released_input_buffer, &kFrame1);
// libgav1 has decoded frame1 and is holding a reference to it.
ASSERT_EQ(test.frames_in_use, 1);
ASSERT_EQ(test.buffer_private_data, buffer->buffer_private_data);
// Enqueue frame2 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame2, sizeof(kFrame2), 0,
(uint8_t*)&kFrame2);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 1);
// Dequeue the output of frame2.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(test.released_input_buffer, &kFrame2);
ASSERT_EQ(test.frames_in_use, 2);
ASSERT_EQ(test.buffer_private_data, buffer->buffer_private_data);
// Signal end of stream (method 1). This should ensure that all the references
// are released.
status = Libgav1DecoderSignalEOS(test.decoder);
// libgav1 should have released all the reference frames now.
ASSERT_EQ(test.frames_in_use, 0);
// Now, the decoder is ready to accept a new coded video sequence.
// Enqueue frame1 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame1, sizeof(kFrame1), 0,
(uint8_t*)&kFrame1);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 0);
// Dequeue the output of frame1.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(test.released_input_buffer, &kFrame1);
ASSERT_EQ(test.frames_in_use, 1);
ASSERT_EQ(test.buffer_private_data, buffer->buffer_private_data);
// Enqueue frame2 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame2, sizeof(kFrame2), 0,
(uint8_t*)&kFrame2);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 1);
// Dequeue the output of frame2.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(test.released_input_buffer, &kFrame2);
ASSERT_EQ(test.frames_in_use, 2);
ASSERT_EQ(test.buffer_private_data, buffer->buffer_private_data);
// Signal end of stream (method 2). This should ensure that all the references
// are released.
Libgav1DecoderDestroy(test.decoder);
test.decoder = NULL;
// libgav1 should have released all the frames now.
ASSERT_EQ(test.frames_in_use, 0);
}
static void
DecoderTestNonFrameParallelModeEnqueueMultipleFramesWithoutDequeuing(void) {
DecoderTest test;
DecoderTestInit(&test);
DecoderTestSetUp(&test);
Libgav1StatusCode status;
const Libgav1DecoderBuffer* buffer;
// Enqueue frame1 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame1, sizeof(kFrame1), 0,
(uint8_t*)&kFrame1);
ASSERT_EQ(status, kLibgav1StatusOk);
// Until the output of frame1 is dequeued, no other frames can be enqueued.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame2, sizeof(kFrame2), 0,
(uint8_t*)&kFrame2);
ASSERT_EQ(status, kLibgav1StatusTryAgain);
ASSERT_EQ(test.frames_in_use, 0);
// Dequeue the output of frame1.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(test.released_input_buffer, &kFrame1);
ASSERT_EQ(test.frames_in_use, 1);
// Delete the decoder instance.
Libgav1DecoderDestroy(test.decoder);
test.decoder = NULL;
ASSERT_EQ(test.frames_in_use, 0);
}
static void DecoderTestNonFrameParallelModeEOSBeforeDequeuingLastFrame(void) {
DecoderTest test;
DecoderTestInit(&test);
DecoderTestSetUp(&test);
Libgav1StatusCode status;
const Libgav1DecoderBuffer* buffer;
// Enqueue frame1 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame1, sizeof(kFrame1), 0,
(uint8_t*)&kFrame1);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 0);
// Dequeue the output of frame1.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(test.released_input_buffer, &kFrame1);
// Enqueue frame2 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame2, sizeof(kFrame2), 0,
(uint8_t*)&kFrame2);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 1);
// Signal end of stream before dequeuing the output of frame2.
status = Libgav1DecoderSignalEOS(test.decoder);
ASSERT_EQ(status, kLibgav1StatusOk);
// In this case, the output of the last frame that was enqueued is lost (which
// is intentional since end of stream was signaled without dequeueing it).
ASSERT_EQ(test.frames_in_use, 0);
Libgav1DecoderDestroy(test.decoder);
test.decoder = NULL;
}
static void DecoderTestNonFrameParallelModeInvalidFrameAfterEOS(void) {
DecoderTest test;
DecoderTestInit(&test);
DecoderTestSetUp(&test);
Libgav1StatusCode status;
const Libgav1DecoderBuffer* buffer = NULL;
// Enqueue frame1 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame1, sizeof(kFrame1), 0,
(uint8_t*)&kFrame1);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 0);
// Dequeue the output of frame1.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(test.released_input_buffer, &kFrame1);
ASSERT_EQ(test.frames_in_use, 1);
// Signal end of stream.
status = Libgav1DecoderSignalEOS(test.decoder);
// libgav1 should have released all the reference frames now.
ASSERT_EQ(test.frames_in_use, 0);
// Now, the decoder is ready to accept a new coded video sequence. But, we
// try to enqueue a frame that does not have a sequence header (which is not
// allowed).
// Enqueue frame2 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame2, sizeof(kFrame2), 0,
(uint8_t*)&kFrame2);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 0);
// Dequeue the output of frame2 (this will fail since no sequence header has
// been seen since the last EOS signal).
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusBitstreamError);
ASSERT_EQ(test.released_input_buffer, &kFrame2);
ASSERT_EQ(test.frames_in_use, 0);
Libgav1DecoderDestroy(test.decoder);
test.decoder = NULL;
}
static void DecoderTestMetadataObu(void) {
DecoderTest test;
DecoderTestInit(&test);
DecoderTestSetUp(&test);
Libgav1StatusCode status;
const Libgav1DecoderBuffer* buffer;
// Enqueue frame1 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame1WithHdrCllAndHdrMdcv,
sizeof(kFrame1WithHdrCllAndHdrMdcv), 0,
(uint8_t*)&kFrame1WithHdrCllAndHdrMdcv);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 0);
// Dequeue the output of frame1.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(buffer->has_hdr_cll, 1);
ASSERT_EQ(buffer->has_hdr_mdcv, 1);
ASSERT_EQ(buffer->has_itut_t35, 0);
ASSERT_EQ(test.released_input_buffer, &kFrame1WithHdrCllAndHdrMdcv);
ASSERT_EQ(test.frames_in_use, 1);
ASSERT_EQ(test.buffer_private_data, buffer->buffer_private_data);
// Enqueue frame2 for decoding.
status = Libgav1DecoderEnqueueFrame(test.decoder, kFrame2WithItutT35,
sizeof(kFrame2WithItutT35), 0,
(uint8_t*)&kFrame2WithItutT35);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_EQ(test.frames_in_use, 1);
// Dequeue the output of frame2.
status = Libgav1DecoderDequeueFrame(test.decoder, &buffer);
ASSERT_EQ(status, kLibgav1StatusOk);
ASSERT_NE(buffer, NULL);
ASSERT_EQ(buffer->has_hdr_cll, 0);
ASSERT_EQ(buffer->has_hdr_mdcv, 0);
ASSERT_EQ(buffer->has_itut_t35, 1);
ASSERT_NE(buffer->itut_t35.payload_bytes, NULL);
ASSERT_NE(buffer->itut_t35.payload_size, 0);
ASSERT_EQ(test.released_input_buffer, &kFrame2WithItutT35);
ASSERT_EQ(test.frames_in_use, 2);
ASSERT_EQ(test.buffer_private_data, buffer->buffer_private_data);
status = Libgav1DecoderSignalEOS(test.decoder);
ASSERT_EQ(test.frames_in_use, 0);
Libgav1DecoderDestroy(test.decoder);
}
int main(void) {
fprintf(stderr, "C DecoderTest started\n");
DecoderTestAPIFlowForNonFrameParallelMode();
DecoderTestNonFrameParallelModeEnqueueMultipleFramesWithoutDequeuing();
DecoderTestNonFrameParallelModeEOSBeforeDequeuingLastFrame();
DecoderTestNonFrameParallelModeInvalidFrameAfterEOS();
DecoderTestMetadataObu();
fprintf(stderr, "C DecoderTest passed\n");
return 0;
}
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