blob: 11077e7ad916a795e743f505b67c9e17ea84990d [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/midi/midi_message_queue.h"
#include <stddef.h>
#include <stdint.h>
#include "testing/gtest/include/gtest/gtest.h"
namespace midi {
namespace {
const uint8_t kGMOn[] = {0xf0, 0x7e, 0x7f, 0x09, 0x01, 0xf7};
const uint8_t kPartialGMOn1st[] = {0xf0};
const uint8_t kPartialGMOn2nd[] = {0x7e, 0x7f, 0x09, 0x01};
const uint8_t kPartialGMOn3rd[] = {0xf7};
const uint8_t kGSOn[] = {
0xf0, 0x41, 0x10, 0x42, 0x12, 0x40, 0x00, 0x7f, 0x00, 0x41, 0xf7,
};
const uint8_t kNoteOn[] = {0x90, 0x3c, 0x7f};
const uint8_t kPartialNoteOn1st[] = {0x90};
const uint8_t kPartialNoteOn2nd[] = {0x3c};
const uint8_t kPartialNoteOn3rd[] = {0x7f};
const uint8_t kNoteOnWithRunningStatus[] = {
0x90, 0x3c, 0x7f, 0x3c, 0x7f, 0x3c, 0x7f,
};
const uint8_t kChannelPressure[] = {0xd0, 0x01};
const uint8_t kChannelPressureWithRunningStatus[] = {
0xd0, 0x01, 0x01, 0x01,
};
const uint8_t kTimingClock[] = {0xf8};
const uint8_t kSystemCommonMessageTuneRequest[] = {0xf6};
const uint8_t kMTCFrame[] = {0xf1, 0x00};
const uint8_t kBrokenData1[] = {0x92};
const uint8_t kBrokenData2[] = {0xf7};
const uint8_t kBrokenData3[] = {0xf2, 0x00};
const uint8_t kDataByte0[] = {0x00};
const uint8_t kReservedMessage1[] = {0xf4};
const uint8_t kReservedMessage2[] = {0xf5};
const uint8_t kReservedMessage1WithDataBytes[] = {0xf4, 0x01, 0x01,
0x01, 0x01, 0x01};
template <typename T, size_t N>
void Add(MidiMessageQueue* queue, const T(&array)[N]) {
queue->Add(array, N);
}
template <typename T, size_t N>
::testing::AssertionResult ExpectEqualSequence(
const char* expr1, const char* expr2,
const T(&expected)[N], const std::vector<T>& actual) {
if (actual.size() != N) {
return ::testing::AssertionFailure()
<< "expected: " << ::testing::PrintToString(expected)
<< ", actual: " << ::testing::PrintToString(actual);
}
for (size_t i = 0; i < N; ++i) {
if (expected[i] != actual[i]) {
return ::testing::AssertionFailure()
<< "expected: " << ::testing::PrintToString(expected)
<< ", actual: " << ::testing::PrintToString(actual);
}
}
return ::testing::AssertionSuccess();
}
#define EXPECT_MESSAGE(expected, actual) \
EXPECT_PRED_FORMAT2(ExpectEqualSequence, expected, actual)
TEST(MidiMessageQueueTest, EmptyData) {
MidiMessageQueue queue(false);
std::vector<uint8_t> message;
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, RunningStatusDisabled) {
MidiMessageQueue queue(false);
Add(&queue, kGMOn);
Add(&queue, kBrokenData1);
Add(&queue, kNoteOnWithRunningStatus);
Add(&queue, kBrokenData2);
Add(&queue, kChannelPressureWithRunningStatus);
Add(&queue, kBrokenData3);
Add(&queue, kNoteOn);
Add(&queue, kBrokenData1);
Add(&queue, kGSOn);
Add(&queue, kBrokenData2);
Add(&queue, kTimingClock);
Add(&queue, kBrokenData3);
std::vector<uint8_t> message;
queue.Get(&message);
EXPECT_MESSAGE(kGMOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message) << "Running status should be ignored";
queue.Get(&message);
EXPECT_MESSAGE(kChannelPressure, message)
<< "Running status should be ignored";
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kGSOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, RunningStatusEnabled) {
MidiMessageQueue queue(true);
Add(&queue, kGMOn);
Add(&queue, kBrokenData1);
Add(&queue, kNoteOnWithRunningStatus);
Add(&queue, kBrokenData2);
Add(&queue, kChannelPressureWithRunningStatus);
Add(&queue, kBrokenData3);
Add(&queue, kNoteOn);
Add(&queue, kBrokenData1);
Add(&queue, kGSOn);
Add(&queue, kBrokenData2);
Add(&queue, kTimingClock);
Add(&queue, kDataByte0);
std::vector<uint8_t> message;
queue.Get(&message);
EXPECT_MESSAGE(kGMOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message)
<< "Running status should be converted into a canonical MIDI message";
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message)
<< "Running status should be converted into a canonical MIDI message";
queue.Get(&message);
EXPECT_MESSAGE(kChannelPressure, message);
queue.Get(&message);
EXPECT_MESSAGE(kChannelPressure, message)
<< "Running status should be converted into a canonical MIDI message";
queue.Get(&message);
EXPECT_MESSAGE(kChannelPressure, message)
<< "Running status should be converted into a canonical MIDI message";
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kGSOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message);
queue.Get(&message);
EXPECT_TRUE(message.empty())
<< "Running status must not be applied to real time messages";
}
TEST(MidiMessageQueueTest, RunningStatusEnabledWithRealTimeEvent) {
MidiMessageQueue queue(true);
const uint8_t kNoteOnWithRunningStatusWithTimingClock[] = {
0x90, 0xf8, 0x3c, 0xf8, 0x7f, 0xf8, 0x3c,
0xf8, 0x7f, 0xf8, 0x3c, 0xf8, 0x7f,
};
Add(&queue, kNoteOnWithRunningStatusWithTimingClock);
std::vector<uint8_t> message;
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message);
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message);
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message);
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, RunningStatusEnabledWithSystemCommonMessage) {
MidiMessageQueue queue(true);
const uint8_t kNoteOnWithRunningStatusWithSystemCommonMessage[] = {
0x90, 0x3c, 0x7f, 0xf1, 0x00, 0x3c, 0x7f, 0xf8, 0x90, 0x3c, 0x7f,
};
Add(&queue, kNoteOnWithRunningStatusWithSystemCommonMessage);
std::vector<uint8_t> message;
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kMTCFrame, message);
queue.Get(&message);
EXPECT_MESSAGE(kTimingClock, message) << "Running status should be reset";
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, Issue540016) {
const uint8_t kData[] = {0xf4, 0x3a};
MidiMessageQueue queue(false);
Add(&queue, kData);
std::vector<uint8_t> message;
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, ReconstructNonSysExMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
Add(&queue, kPartialNoteOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn3rd);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, ReconstructBrokenNonSysExMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
Add(&queue, kPartialNoteOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, ReconstructSysExMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
Add(&queue, kPartialGMOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn3rd);
queue.Get(&message);
EXPECT_MESSAGE(kGMOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, ReconstructBrokenSysExMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
Add(&queue, kPartialGMOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, OneByteMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
Add(&queue, kSystemCommonMessageTuneRequest);
Add(&queue, kSystemCommonMessageTuneRequest);
Add(&queue, kSystemCommonMessageTuneRequest);
Add(&queue, kSystemCommonMessageTuneRequest);
Add(&queue, kNoteOn);
Add(&queue, kSystemCommonMessageTuneRequest);
Add(&queue, kNoteOn);
Add(&queue, kNoteOn);
Add(&queue, kSystemCommonMessageTuneRequest);
queue.Get(&message);
EXPECT_MESSAGE(kSystemCommonMessageTuneRequest, message);
queue.Get(&message);
EXPECT_MESSAGE(kSystemCommonMessageTuneRequest, message);
queue.Get(&message);
EXPECT_MESSAGE(kSystemCommonMessageTuneRequest, message);
queue.Get(&message);
EXPECT_MESSAGE(kSystemCommonMessageTuneRequest, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kSystemCommonMessageTuneRequest, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kSystemCommonMessageTuneRequest, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, OneByteMessageInjectedInNonSysExMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
Add(&queue, kPartialNoteOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kSystemCommonMessageTuneRequest);
queue.Get(&message);
EXPECT_MESSAGE(kSystemCommonMessageTuneRequest, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, OneByteMessageInjectedInSysExMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
Add(&queue, kPartialGMOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kSystemCommonMessageTuneRequest);
queue.Get(&message);
EXPECT_MESSAGE(kSystemCommonMessageTuneRequest, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, ReservedMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
Add(&queue, kReservedMessage1);
Add(&queue, kNoteOn);
Add(&queue, kReservedMessage2);
Add(&queue, kNoteOn);
Add(&queue, kReservedMessage1WithDataBytes);
Add(&queue, kNoteOn);
Add(&queue, kReservedMessage2);
Add(&queue, kReservedMessage1WithDataBytes);
Add(&queue, kNoteOn);
Add(&queue, kReservedMessage1WithDataBytes);
Add(&queue, kReservedMessage2);
Add(&queue, kNoteOn);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
Add(&queue, kReservedMessage1);
queue.Get(&message);
EXPECT_TRUE(message.empty());
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kNoteOn);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage2);
queue.Get(&message);
EXPECT_TRUE(message.empty());
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kNoteOn);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage1WithDataBytes);
queue.Get(&message);
EXPECT_TRUE(message.empty());
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kNoteOn);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage2);
Add(&queue, kReservedMessage1WithDataBytes);
queue.Get(&message);
EXPECT_TRUE(message.empty());
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kNoteOn);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage1WithDataBytes);
Add(&queue, kReservedMessage2);
queue.Get(&message);
EXPECT_TRUE(message.empty());
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kNoteOn);
queue.Get(&message);
EXPECT_MESSAGE(kNoteOn, message);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, ReservedMessageInjectedInNonSysExMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
// Inject |kReservedMessage1|
Add(&queue, kPartialNoteOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage1);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
// Inject |kReservedMessage2|
Add(&queue, kPartialNoteOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage2);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
// Inject |kReservedMessage1WithDataBytes|
Add(&queue, kPartialNoteOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage1WithDataBytes);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialNoteOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
TEST(MidiMessageQueueTest, ReservedMessageInjectedInSysExMessage) {
MidiMessageQueue queue(true);
std::vector<uint8_t> message;
// Inject |kReservedMessage1|
Add(&queue, kPartialGMOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage1);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
// Inject |kReservedMessage2|
Add(&queue, kPartialGMOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage2);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
// Inject |kReservedMessage1WithDataBytes|
Add(&queue, kPartialGMOn1st);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn2nd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kReservedMessage1WithDataBytes);
queue.Get(&message);
EXPECT_TRUE(message.empty());
Add(&queue, kPartialGMOn3rd);
queue.Get(&message);
EXPECT_TRUE(message.empty());
}
} // namespace
} // namespace midi