/* * Copyright (C) 2015 The Android Open Source Project * * 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. */ //#define LOG_NDEBUG 0 #define LOG_TAG "audio_utils_fifo" #include #include #include #include #include #include void audio_utils_fifo_init(struct audio_utils_fifo *fifo, size_t frameCount, size_t frameSize, void *buffer) { // We would need a 64-bit roundup to support larger frameCount. ALOG_ASSERT(fifo != NULL && frameCount > 0 && frameSize > 0 && buffer != NULL); fifo->mFrameCount = frameCount; fifo->mFrameCountP2 = roundup(frameCount); fifo->mFudgeFactor = fifo->mFrameCountP2 - fifo->mFrameCount; fifo->mFrameSize = frameSize; fifo->mBuffer = buffer; fifo->mFront = 0; fifo->mRear = 0; } void audio_utils_fifo_deinit(struct audio_utils_fifo *fifo __unused) { } // Return a new index as the sum of an old index (either mFront or mRear) and a specified increment. static inline int32_t audio_utils_fifo_sum(struct audio_utils_fifo *fifo, int32_t index, uint32_t increment) { if (fifo->mFudgeFactor) { uint32_t mask = fifo->mFrameCountP2 - 1; ALOG_ASSERT((index & mask) < fifo->mFrameCount); ALOG_ASSERT(/*0 <= increment &&*/ increment <= fifo->mFrameCountP2); if ((index & mask) + increment >= fifo->mFrameCount) { increment += fifo->mFudgeFactor; } index += increment; ALOG_ASSERT((index & mask) < fifo->mFrameCount); return index; } else { return index + increment; } } // Return the difference between two indices: rear - front, where 0 <= difference <= mFrameCount. static inline size_t audio_utils_fifo_diff(struct audio_utils_fifo *fifo, int32_t rear, int32_t front) { int32_t diff = rear - front; if (fifo->mFudgeFactor) { uint32_t mask = ~(fifo->mFrameCountP2 - 1); int32_t genDiff = (rear & mask) - (front & mask); if (genDiff != 0) { ALOG_ASSERT(genDiff == (int32_t) fifo->mFrameCountP2); diff -= fifo->mFudgeFactor; } } // FIFO should not be overfull ALOG_ASSERT(0 <= diff && diff <= (int32_t) fifo->mFrameCount); return (size_t) diff; } ssize_t audio_utils_fifo_write(struct audio_utils_fifo *fifo, const void *buffer, size_t count) { int32_t front = android_atomic_acquire_load(&fifo->mFront); int32_t rear = fifo->mRear; size_t availToWrite = fifo->mFrameCount - audio_utils_fifo_diff(fifo, rear, front); if (availToWrite > count) { availToWrite = count; } rear &= fifo->mFrameCountP2 - 1; size_t part1 = fifo->mFrameCount - rear; if (part1 > availToWrite) { part1 = availToWrite; } if (part1 > 0) { memcpy((char *) fifo->mBuffer + (rear * fifo->mFrameSize), buffer, part1 * fifo->mFrameSize); size_t part2 = availToWrite - part1; if (part2 > 0) { memcpy(fifo->mBuffer, (char *) buffer + (part1 * fifo->mFrameSize), part2 * fifo->mFrameSize); } android_atomic_release_store(audio_utils_fifo_sum(fifo, fifo->mRear, availToWrite), &fifo->mRear); } return availToWrite; } ssize_t audio_utils_fifo_read(struct audio_utils_fifo *fifo, void *buffer, size_t count) { int32_t rear = android_atomic_acquire_load(&fifo->mRear); int32_t front = fifo->mFront; size_t availToRead = audio_utils_fifo_diff(fifo, rear, front); if (availToRead > count) { availToRead = count; } front &= fifo->mFrameCountP2 - 1; size_t part1 = fifo->mFrameCount - front; if (part1 > availToRead) { part1 = availToRead; } if (part1 > 0) { memcpy(buffer, (char *) fifo->mBuffer + (front * fifo->mFrameSize), part1 * fifo->mFrameSize); size_t part2 = availToRead - part1; if (part2 > 0) { memcpy((char *) buffer + (part1 * fifo->mFrameSize), fifo->mBuffer, part2 * fifo->mFrameSize); } android_atomic_release_store(audio_utils_fifo_sum(fifo, fifo->mFront, availToRead), &fifo->mFront); } return availToRead; }