// Copyright (c) 2012 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/mp4/aac.h" #include "testing/gtest/include/gtest/gtest.h" namespace media { namespace mp4 { TEST(AACTest, BasicProfileTest) { AAC aac; uint8 buffer[] = {0x12, 0x10}; std::vector data; data.assign(buffer, buffer + sizeof(buffer)); EXPECT_TRUE(aac.Parse(data)); EXPECT_EQ(aac.GetOutputSamplesPerSecond(false), 44100); EXPECT_EQ(aac.GetChannelLayout(false), CHANNEL_LAYOUT_STEREO); } TEST(AACTest, ExtensionTest) { AAC aac; uint8 buffer[] = {0x13, 0x08, 0x56, 0xe5, 0x9d, 0x48, 0x80}; std::vector data; data.assign(buffer, buffer + sizeof(buffer)); EXPECT_TRUE(aac.Parse(data)); EXPECT_EQ(aac.GetOutputSamplesPerSecond(false), 48000); EXPECT_EQ(aac.GetOutputSamplesPerSecond(true), 48000); EXPECT_EQ(aac.GetChannelLayout(false), CHANNEL_LAYOUT_STEREO); } // Test implicit SBR with mono channel config. // Mono channel layout should only be reported if SBR is not // specified. Otherwise stereo should be reported. // See ISO-14496-3 Section 1.6.6.1.2 for details about this special casing. TEST(AACTest, ImplicitSBR_ChannelConfig0) { AAC aac; uint8 buffer[] = {0x13, 0x08}; std::vector data; data.assign(buffer, buffer + sizeof(buffer)); EXPECT_TRUE(aac.Parse(data)); // Test w/o implict SBR. EXPECT_EQ(aac.GetOutputSamplesPerSecond(false), 24000); EXPECT_EQ(aac.GetChannelLayout(false), CHANNEL_LAYOUT_MONO); // Test implicit SBR. EXPECT_EQ(aac.GetOutputSamplesPerSecond(true), 48000); EXPECT_EQ(aac.GetChannelLayout(true), CHANNEL_LAYOUT_STEREO); } // Tests implicit SBR with a stereo channel config. TEST(AACTest, ImplicitSBR_ChannelConfig1) { AAC aac; uint8 buffer[] = {0x13, 0x10}; std::vector data; data.assign(buffer, buffer + sizeof(buffer)); EXPECT_TRUE(aac.Parse(data)); // Test w/o implict SBR. EXPECT_EQ(aac.GetOutputSamplesPerSecond(false), 24000); EXPECT_EQ(aac.GetChannelLayout(false), CHANNEL_LAYOUT_STEREO); // Test implicit SBR. EXPECT_EQ(aac.GetOutputSamplesPerSecond(true), 48000); EXPECT_EQ(aac.GetChannelLayout(true), CHANNEL_LAYOUT_STEREO); } TEST(AACTest, SixChannelTest) { AAC aac; uint8 buffer[] = {0x11, 0xb0}; std::vector data; data.assign(buffer, buffer + sizeof(buffer)); EXPECT_TRUE(aac.Parse(data)); EXPECT_EQ(aac.GetOutputSamplesPerSecond(false), 48000); EXPECT_EQ(aac.GetChannelLayout(false), CHANNEL_LAYOUT_5_1); } TEST(AACTest, DataTooShortTest) { AAC aac; std::vector data; EXPECT_FALSE(aac.Parse(data)); data.push_back(0x12); EXPECT_FALSE(aac.Parse(data)); } TEST(AACTest, IncorrectProfileTest) { AAC aac; uint8 buffer[] = {0x0, 0x08}; std::vector data; data.assign(buffer, buffer + sizeof(buffer)); EXPECT_FALSE(aac.Parse(data)); data[0] = 0x08; EXPECT_TRUE(aac.Parse(data)); data[0] = 0x28; EXPECT_FALSE(aac.Parse(data)); } TEST(AACTest, IncorrectFrequencyTest) { AAC aac; uint8 buffer[] = {0x0f, 0x88}; std::vector data; data.assign(buffer, buffer + sizeof(buffer)); EXPECT_FALSE(aac.Parse(data)); data[0] = 0x0e; data[1] = 0x08; EXPECT_TRUE(aac.Parse(data)); } TEST(AACTest, IncorrectChannelTest) { AAC aac; uint8 buffer[] = {0x0e, 0x00}; std::vector data; data.assign(buffer, buffer + sizeof(buffer)); EXPECT_FALSE(aac.Parse(data)); data[1] = 0x08; EXPECT_TRUE(aac.Parse(data)); } } // namespace mp4 } // namespace media