Merge cherrypicks of [6072697, 6072075, 6072758, 6072124, 6072885, 6072886, 6072887, 6072580, 6072581, 6072582, 6072583, 6072584, 6072132, 6072195, 6072133, 6072077, 6072134, 6072078, 6072211, 6072762, 6072763, 6072908, 6072909, 6072910, 6072911, 6072912, 6072913, 6072914, 6072930, 6072212, 6072743] into pi-qpr2-release
Change-Id: I389c3d1ac743425ecd737e2c001e862639f3c990
diff --git a/media/libaaudio/src/fifo/FifoControllerBase.cpp b/media/libaaudio/src/fifo/FifoControllerBase.cpp
index 14a2be1..51a8e34 100644
--- a/media/libaaudio/src/fifo/FifoControllerBase.cpp
+++ b/media/libaaudio/src/fifo/FifoControllerBase.cpp
@@ -38,7 +38,7 @@
fifo_frames_t FifoControllerBase::getReadIndex() {
// % works with non-power of two sizes
- return (fifo_frames_t) (getReadCounter() % mCapacity);
+ return (fifo_frames_t) ((uint64_t)getReadCounter() % mCapacity);
}
void FifoControllerBase::advanceReadIndex(fifo_frames_t numFrames) {
@@ -51,7 +51,7 @@
fifo_frames_t FifoControllerBase::getWriteIndex() {
// % works with non-power of two sizes
- return (fifo_frames_t) (getWriteCounter() % mCapacity);
+ return (fifo_frames_t) ((uint64_t)getWriteCounter() % mCapacity);
}
void FifoControllerBase::advanceWriteIndex(fifo_frames_t numFrames) {
diff --git a/media/libaaudio/tests/test_atomic_fifo.cpp b/media/libaaudio/tests/test_atomic_fifo.cpp
index 0085217..0edfebe 100644
--- a/media/libaaudio/tests/test_atomic_fifo.cpp
+++ b/media/libaaudio/tests/test_atomic_fifo.cpp
@@ -23,12 +23,12 @@
#include "fifo/FifoController.h"
using android::fifo_frames_t;
+using android::fifo_counter_t;
using android::FifoController;
using android::FifoBuffer;
using android::WrappingBuffer;
-//void foo() {
-TEST(test_fifi_controller, fifo_indices) {
+TEST(test_fifo_controller, fifo_indices) {
// Values are arbitrary primes designed to trigger edge cases.
constexpr int capacity = 83;
constexpr int threshold = 47;
@@ -73,18 +73,59 @@
ASSERT_EQ(threshold - advance2, fifoController.getEmptyFramesAvailable());
}
+TEST(test_fifo_controller, fifo_wrap_around_zero) {
+ constexpr int capacity = 7; // arbitrary prime
+ constexpr int threshold = capacity;
+ FifoController fifoController(capacity, threshold);
+ ASSERT_EQ(capacity, fifoController.getCapacity());
+ ASSERT_EQ(threshold, fifoController.getThreshold());
+
+ fifoController.setReadCounter(-10); // a bit less than negative capacity
+ for (int i = 0; i < 20; i++) {
+ EXPECT_EQ(i - 10, fifoController.getReadCounter());
+ EXPECT_GE(fifoController.getReadIndex(), 0);
+ EXPECT_LT(fifoController.getReadIndex(), capacity);
+ fifoController.advanceReadIndex(1);
+ }
+
+ fifoController.setWriteCounter(-10);
+ for (int i = 0; i < 20; i++) {
+ EXPECT_EQ(i - 10, fifoController.getWriteCounter());
+ EXPECT_GE(fifoController.getWriteIndex(), 0);
+ EXPECT_LT(fifoController.getWriteIndex(), capacity);
+ fifoController.advanceWriteIndex(1);
+ }
+}
+
+
// TODO consider using a template for other data types.
+
+// Create a big array and then use a region in the middle for the unit tests.
+// Then we can scan the rest of the array to see if it got clobbered.
+static constexpr fifo_frames_t kBigArraySize = 1024;
+static constexpr fifo_frames_t kFifoDataOffset = 128; // starting index of FIFO data
+static constexpr int16_t kSafeDataValue = 0x7654; // original value of BigArray
+
class TestFifoBuffer {
public:
explicit TestFifoBuffer(fifo_frames_t capacity, fifo_frames_t threshold = 0)
- : mFifoBuffer(sizeof(int16_t), capacity) {
+ : mFifoBuffer(sizeof(int16_t), capacity,
+ &mReadIndex,
+ &mWriteIndex,
+ &mVeryBigArray[kFifoDataOffset]) // address of start of FIFO data
+ {
+
+ // Assume a frame is one int16_t.
// For reading and writing.
- mData = new int16_t[capacity];
if (threshold <= 0) {
threshold = capacity;
}
mFifoBuffer.setThreshold(threshold);
mThreshold = threshold;
+
+ for (fifo_frames_t i = 0; i < kBigArraySize; i++) {
+ mVeryBigArray[i] = kSafeDataValue;
+ }
}
void checkMisc() {
@@ -92,26 +133,70 @@
ASSERT_EQ(mThreshold, mFifoBuffer.getThreshold());
}
+ void verifyAddressInRange(void *p, void *valid, size_t numBytes) {
+ uintptr_t p_int = (uintptr_t) p;
+ uintptr_t valid_int = (uintptr_t) valid;
+ EXPECT_GE(p_int, valid_int);
+ EXPECT_LT(p_int, (valid_int + numBytes));
+ }
+
+ void verifyStorageIntegrity() {
+ for (fifo_frames_t i = 0; i < kFifoDataOffset; i++) {
+ EXPECT_EQ(mVeryBigArray[i], kSafeDataValue);
+ }
+ fifo_frames_t firstFrameAfter = kFifoDataOffset + mFifoBuffer.getBufferCapacityInFrames();
+ for (fifo_frames_t i = firstFrameAfter; i < kBigArraySize; i++) {
+ EXPECT_EQ(mVeryBigArray[i], kSafeDataValue);
+ }
+ }
+
// Verify that the available frames in each part add up correctly.
- void checkWrappingBuffer() {
+ void verifyWrappingBuffer() {
WrappingBuffer wrappingBuffer;
+
+
+ // Does the sum of the two parts match the available value returned?
+ // For EmptyRoom
fifo_frames_t framesAvailable =
mFifoBuffer.getFifoControllerBase()->getEmptyFramesAvailable();
fifo_frames_t wrapAvailable = mFifoBuffer.getEmptyRoomAvailable(&wrappingBuffer);
EXPECT_EQ(framesAvailable, wrapAvailable);
fifo_frames_t bothAvailable = wrappingBuffer.numFrames[0] + wrappingBuffer.numFrames[1];
EXPECT_EQ(framesAvailable, bothAvailable);
-
+ // For FullData
framesAvailable =
mFifoBuffer.getFifoControllerBase()->getFullFramesAvailable();
wrapAvailable = mFifoBuffer.getFullDataAvailable(&wrappingBuffer);
EXPECT_EQ(framesAvailable, wrapAvailable);
bothAvailable = wrappingBuffer.numFrames[0] + wrappingBuffer.numFrames[1];
EXPECT_EQ(framesAvailable, bothAvailable);
+
+ // Are frame counts in legal range?
+ fifo_frames_t capacity = mFifoBuffer.getBufferCapacityInFrames();
+ EXPECT_GE(wrappingBuffer.numFrames[0], 0);
+ EXPECT_LE(wrappingBuffer.numFrames[0], capacity);
+ EXPECT_GE(wrappingBuffer.numFrames[1], 0);
+ EXPECT_LE(wrappingBuffer.numFrames[1], capacity);
+
+ // Are addresses within the FIFO data area?
+ size_t validBytes = capacity * sizeof(int16_t);
+ if (wrappingBuffer.numFrames[0]) {
+ verifyAddressInRange(wrappingBuffer.data[0], mFifoStorage, validBytes);
+ uint8_t *last = ((uint8_t *)wrappingBuffer.data[0])
+ + mFifoBuffer.convertFramesToBytes(wrappingBuffer.numFrames[0]) - 1;
+ verifyAddressInRange(last, mFifoStorage, validBytes);
+ }
+ if (wrappingBuffer.numFrames[1]) {
+ verifyAddressInRange(wrappingBuffer.data[1], mFifoStorage, validBytes);
+ uint8_t *last = ((uint8_t *)wrappingBuffer.data[1])
+ + mFifoBuffer.convertFramesToBytes(wrappingBuffer.numFrames[1]) - 1;
+ verifyAddressInRange(last, mFifoStorage, validBytes);
+ }
+
}
// Write data but do not overflow.
- void writeData(fifo_frames_t numFrames) {
+ void writeMultipleDataFrames(fifo_frames_t numFrames) {
fifo_frames_t framesAvailable =
mFifoBuffer.getFifoControllerBase()->getEmptyFramesAvailable();
fifo_frames_t framesToWrite = std::min(framesAvailable, numFrames);
@@ -122,8 +207,8 @@
ASSERT_EQ(framesToWrite, actual);
}
- // Read data but do not underflow.
- void verifyData(fifo_frames_t numFrames) {
+ // Read whatever data is available, Do not underflow.
+ void verifyMultipleDataFrames(fifo_frames_t numFrames) {
fifo_frames_t framesAvailable =
mFifoBuffer.getFifoControllerBase()->getFullFramesAvailable();
fifo_frames_t framesToRead = std::min(framesAvailable, numFrames);
@@ -134,20 +219,35 @@
}
}
+ // Read specified number of frames
+ void verifyRequestedData(fifo_frames_t numFrames) {
+ fifo_frames_t framesAvailable =
+ mFifoBuffer.getFifoControllerBase()->getFullFramesAvailable();
+ ASSERT_LE(numFrames, framesAvailable);
+ fifo_frames_t framesToRead = std::min(framesAvailable, numFrames);
+ fifo_frames_t actual = mFifoBuffer.read(mData, framesToRead);
+ ASSERT_EQ(actual, numFrames);
+ for (int i = 0; i < actual; i++) {
+ ASSERT_EQ(mNextVerifyIndex++, mData[i]);
+ }
+ }
+
// Wrap around the end of the buffer.
void checkWrappingWriteRead() {
constexpr int frames1 = 43;
constexpr int frames2 = 15;
- writeData(frames1);
- checkWrappingBuffer();
- verifyData(frames1);
- checkWrappingBuffer();
+ writeMultipleDataFrames(frames1);
+ verifyWrappingBuffer();
+ verifyRequestedData(frames1);
+ verifyWrappingBuffer();
- writeData(frames2);
- checkWrappingBuffer();
- verifyData(frames2);
- checkWrappingBuffer();
+ writeMultipleDataFrames(frames2);
+ verifyWrappingBuffer();
+ verifyRequestedData(frames2);
+ verifyWrappingBuffer();
+
+ verifyStorageIntegrity();
}
// Write and Read a specific amount of data.
@@ -156,10 +256,12 @@
// Wrap around with the smaller region in the second half.
const int frames1 = capacity - 4;
const int frames2 = 7; // arbitrary, small
- writeData(frames1);
- verifyData(frames1);
- writeData(frames2);
- verifyData(frames2);
+ writeMultipleDataFrames(frames1);
+ verifyRequestedData(frames1);
+ writeMultipleDataFrames(frames2);
+ verifyRequestedData(frames2);
+
+ verifyStorageIntegrity();
}
// Write and Read a specific amount of data.
@@ -168,10 +270,12 @@
// Wrap around with the larger region in the second half.
const int frames1 = capacity - 4;
const int frames2 = capacity - 9; // arbitrary, large
- writeData(frames1);
- verifyData(frames1);
- writeData(frames2);
- verifyData(frames2);
+ writeMultipleDataFrames(frames1);
+ verifyRequestedData(frames1);
+ writeMultipleDataFrames(frames2);
+ verifyRequestedData(frames2);
+
+ verifyStorageIntegrity();
}
// Randomly read or write up to the maximum amount of data.
@@ -180,30 +284,67 @@
fifo_frames_t framesEmpty =
mFifoBuffer.getFifoControllerBase()->getEmptyFramesAvailable();
fifo_frames_t numFrames = (fifo_frames_t)(drand48() * framesEmpty);
- writeData(numFrames);
+ writeMultipleDataFrames(numFrames);
fifo_frames_t framesFull =
mFifoBuffer.getFifoControllerBase()->getFullFramesAvailable();
numFrames = (fifo_frames_t)(drand48() * framesFull);
- verifyData(numFrames);
+ verifyMultipleDataFrames(numFrames);
}
+
+ verifyStorageIntegrity();
+ }
+
+ // Write and Read a specific amount of data.
+ void checkNegativeCounters() {
+ fifo_counter_t counter = -9876;
+ mFifoBuffer.setWriteCounter(counter);
+ mFifoBuffer.setReadCounter(counter);
+ checkWrappingWriteRead();
+ }
+
+ // Wrap over the boundary at 0x7FFFFFFFFFFFFFFF
+ // Note that the behavior of a signed overflow is technically undefined.
+ void checkHalfWrap() {
+ fifo_counter_t counter = INT64_MAX - 10;
+ mFifoBuffer.setWriteCounter(counter);
+ mFifoBuffer.setReadCounter(counter);
+ ASSERT_GT(mFifoBuffer.getWriteCounter(), 0);
+ checkWrappingWriteRead();
+ ASSERT_LT(mFifoBuffer.getWriteCounter(), 0); // did we wrap past INT64_MAX?
+ }
+
+ // Wrap over the boundary at 0xFFFFFFFFFFFFFFFF
+ void checkFullWrap() {
+ fifo_counter_t counter = -10;
+ mFifoBuffer.setWriteCounter(counter);
+ mFifoBuffer.setReadCounter(counter);
+ ASSERT_LT(mFifoBuffer.getWriteCounter(), 0);
+ writeMultipleDataFrames(20);
+ ASSERT_GT(mFifoBuffer.getWriteCounter(), 0); // did we wrap past zero?
+ verifyStorageIntegrity();
}
FifoBuffer mFifoBuffer;
- int16_t *mData;
fifo_frames_t mNextWriteIndex = 0;
fifo_frames_t mNextVerifyIndex = 0;
fifo_frames_t mThreshold;
+
+ fifo_counter_t mReadIndex = 0;
+ fifo_counter_t mWriteIndex = 0;
+ int16_t mVeryBigArray[kBigArraySize]; // Use the middle of this array for the FIFO.
+ int16_t *mFifoStorage = &mVeryBigArray[kFifoDataOffset]; // Start here for storage.
+ int16_t mData[kBigArraySize]{};
};
-TEST(test_fifo_buffer, fifo_read_write) {
+TEST(test_fifo_buffer, fifo_write_read) {
constexpr int capacity = 51; // arbitrary
TestFifoBuffer tester(capacity);
tester.checkMisc();
tester.checkWriteRead();
}
-TEST(test_fifo_buffer, fifo_wrapping_read_write) {
+TEST(test_fifo_buffer, fifo_wrapping_write_read) {
constexpr int capacity = 59; // arbitrary, a little bigger this time
TestFifoBuffer tester(capacity);
tester.checkWrappingWriteRead();
@@ -227,3 +368,21 @@
TestFifoBuffer tester(capacity, threshold);
tester.checkRandomWriteRead();
}
+
+TEST(test_fifo_buffer, fifo_negative_counters) {
+ constexpr int capacity = 49; // arbitrary
+ TestFifoBuffer tester(capacity);
+ tester.checkNegativeCounters();
+}
+
+TEST(test_fifo_buffer, fifo_half_wrap) {
+ constexpr int capacity = 57; // arbitrary
+ TestFifoBuffer tester(capacity);
+ tester.checkHalfWrap();
+}
+
+TEST(test_fifo_buffer, fifo_full_wrap) {
+ constexpr int capacity = 57; // arbitrary
+ TestFifoBuffer tester(capacity);
+ tester.checkFullWrap();
+}
diff --git a/media/libaudiohal/HalDeathHandlerHidl.cpp b/media/libaudiohal/HalDeathHandlerHidl.cpp
index 1e3ab58..6e33523 100644
--- a/media/libaudiohal/HalDeathHandlerHidl.cpp
+++ b/media/libaudiohal/HalDeathHandlerHidl.cpp
@@ -54,7 +54,7 @@
handler.second();
}
ALOGE("HAL server crashed, audio server is restarting");
- exit(1);
+ _exit(1); // Avoid calling atexit handlers, as this code runs on a thread from RPC threadpool.
}
} // namespace android
diff --git a/services/audioflinger/AudioFlinger.cpp b/services/audioflinger/AudioFlinger.cpp
index bdd39c6..687b5a6 100644
--- a/services/audioflinger/AudioFlinger.cpp
+++ b/services/audioflinger/AudioFlinger.cpp
@@ -3001,6 +3001,8 @@
}
{
+ Mutex::Autolock _l(mLock);
+
if (!EffectsFactoryHalInterface::isNullUuid(&pDesc->uuid)) {
// if uuid is specified, request effect descriptor
lStatus = mEffectsFactoryHal->getDescriptor(&pDesc->uuid, &desc);
@@ -3056,6 +3058,8 @@
desc = d;
}
}
+ }
+ {
// Do not allow auxiliary effects on a session different from 0 (output mix)
if (sessionId != AUDIO_SESSION_OUTPUT_MIX &&
