Audio VTS: Allow 4GB buffer prepareToWrite/Read to succeed on 64 bits am: ce607879ba

am: 5b122a7408

Change-Id: Ifd8600fd7d24657dff4ed5b6f563806509c8029b
This commit is contained in:
Mikhail Naganov 2017-10-11 01:35:41 +00:00 committed by android-build-merger
commit d4cb163f12

View file

@ -1004,27 +1004,34 @@ TEST_P(InputStreamTest, SetGain) {
"InputStream::setGain");
}
static void testPrepareForReading(IStreamIn* stream, uint32_t frameSize,
uint32_t framesCount) {
static void testPrepareForReading(IStreamIn* stream, uint32_t frameSize, uint32_t framesCount,
bool allowSucceed) {
Result res;
// Ignore output parameters as the call should fail
// Ignore output parameters.
ASSERT_OK(stream->prepareForReading(
frameSize, framesCount,
[&res](auto r, auto&, auto&, auto&, auto&) { res = r; }));
EXPECT_RESULT(Result::INVALID_ARGUMENTS, res);
if (allowSucceed) {
auto status = {
Result::INVALID_ARGUMENTS, Result::OK,
};
EXPECT_RESULT(status, res);
} else {
EXPECT_RESULT(Result::INVALID_ARGUMENTS, res);
};
}
TEST_P(InputStreamTest, PrepareForReadingWithZeroBuffer) {
doc::test(
"Preparing a stream for reading with a 0 sized buffer should fail");
testPrepareForReading(stream.get(), 0, 0);
testPrepareForReading(stream.get(), 0, 0, false /*allowSucceed*/);
}
TEST_P(InputStreamTest, PrepareForReadingWithHugeBuffer) {
doc::test(
"Preparing a stream for reading with a 2^32 sized buffer should fail");
testPrepareForReading(stream.get(), 1,
std::numeric_limits<uint32_t>::max());
testPrepareForReading(stream.get(), 1, std::numeric_limits<uint32_t>::max(),
false /*allowSucceed*/);
}
TEST_P(InputStreamTest, PrepareForReadingCheckOverflow) {
@ -1032,7 +1039,8 @@ TEST_P(InputStreamTest, PrepareForReadingCheckOverflow) {
"Preparing a stream for reading with a overflowing sized buffer should "
"fail");
auto uintMax = std::numeric_limits<uint32_t>::max();
testPrepareForReading(stream.get(), uintMax, uintMax);
// In O, the test fails for 32-bit HAL, and succeeds for 64-bit HAL.
testPrepareForReading(stream.get(), uintMax, uintMax, true /*allowSucceed*/);
}
TEST_P(InputStreamTest, GetInputFramesLost) {
@ -1072,27 +1080,34 @@ TEST_P(OutputStreamTest, setVolume) {
"setVolume");
}
static void testPrepareForWriting(IStreamOut* stream, uint32_t frameSize,
uint32_t framesCount) {
static void testPrepareForWriting(IStreamOut* stream, uint32_t frameSize, uint32_t framesCount,
bool allowSucceed) {
Result res;
// Ignore output parameters as the call should fail
// Ignore output parameters.
ASSERT_OK(stream->prepareForWriting(
frameSize, framesCount,
[&res](auto r, auto&, auto&, auto&, auto&) { res = r; }));
EXPECT_RESULT(Result::INVALID_ARGUMENTS, res);
if (allowSucceed) {
auto status = {
Result::INVALID_ARGUMENTS, Result::OK,
};
EXPECT_RESULT(status, res);
} else {
EXPECT_RESULT(Result::INVALID_ARGUMENTS, res);
};
}
TEST_P(OutputStreamTest, PrepareForWriteWithZeroBuffer) {
doc::test(
"Preparing a stream for writing with a 0 sized buffer should fail");
testPrepareForWriting(stream.get(), 0, 0);
testPrepareForWriting(stream.get(), 0, 0, false /*allowSucceed*/);
}
TEST_P(OutputStreamTest, PrepareForWriteWithHugeBuffer) {
doc::test(
"Preparing a stream for writing with a 2^32 sized buffer should fail");
testPrepareForWriting(stream.get(), 1,
std::numeric_limits<uint32_t>::max());
testPrepareForWriting(stream.get(), 1, std::numeric_limits<uint32_t>::max(),
false /*allowSucceed*/);
}
TEST_P(OutputStreamTest, PrepareForWritingCheckOverflow) {
@ -1100,7 +1115,8 @@ TEST_P(OutputStreamTest, PrepareForWritingCheckOverflow) {
"Preparing a stream for writing with a overflowing sized buffer should "
"fail");
auto uintMax = std::numeric_limits<uint32_t>::max();
testPrepareForWriting(stream.get(), uintMax, uintMax);
// In O, the test fails for 32-bit HAL, and succeeds for 64-bit HAL.
testPrepareForWriting(stream.get(), uintMax, uintMax, true /*allowSucceed*/);
}
struct Capability {