// // (c) Yuri Kiryanov, openh323@kiryanov.com // for www.Openh323.org by Equivalence // // Portions: 1998-1999, Be Incorporated // Be Sample Code License /*---------------------- Be Sample Code License ---------------------- Copyright 1991-1999, Be Incorporated. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions, and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. The name of the author may not be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE AUTHOR "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF TITLE, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include "BlockFIFO.h" #if NDEBUG #define FPRINTF(x) #else #define FPRINTF(x) fprintf x #endif // if we decice to make the FIFO thread safe, use these macros #define ENTER_GET #define LEAVE_GET #define ENTER_PUT #define LEAVE_PUT BBlockFIFO::BBlockFIFO(size_t blockSize, int32 blockCountPerBuffer, int32 bufferCount, uint32 placementFlags, uint32 lockFlags, const char * name) { char tname[64]; if (!name) { sprintf(tname, "FIFO(0x%6lx,%ld,%ld)", blockSize, blockCountPerBuffer, bufferCount); name = tname; } strncpy(_mName, name, 32); _mName[31] = 0; _mBuffer = 0; _mFlags = 0; _mBlockSize = blockSize; _mBufferSize = blockCountPerBuffer * blockSize; _mAreaSize = _mBufferSize * bufferCount; _mGetOff = 0; _mPutOff = 0; _mGetSem = -1; _mPutSem = -1; _mInitErr = B_OK; size_t s = (_mAreaSize + B_PAGE_SIZE-1) & -B_PAGE_SIZE; if ((blockSize < 1) || (blockCountPerBuffer < 1) || (bufferCount < 2) || (s < B_PAGE_SIZE) || (s > 0x1000000UL)) { _mInitErr = B_BAD_VALUE; } else { void * addr = 0; _mArea = create_area(name, &addr, placementFlags, s, lockFlags, B_READ_AREA | B_WRITE_AREA); if (_mArea < 0) { _mInitErr = _mArea; } else { _mBuffer = (char *)addr; _mInitErr = Reset(); } } } BBlockFIFO::~BBlockFIFO() { if (_mArea > -1) delete_area(_mArea); if (_mGetSem > -1) delete_sem(_mGetSem); if (_mPutSem > -1) delete_sem(_mPutSem); } status_t BBlockFIFO::InitCheck() { return _mInitErr; } status_t BBlockFIFO::Reset() { if (_mInitErr < 0) return _mInitErr; if (_mGetSem > -1) delete_sem(_mGetSem); if (_mPutSem > -1) delete_sem(_mPutSem); ENTER_GET ENTER_PUT char name[32]; sprintf(name, "%.27s Get", _mName); _mGetSem = create_sem(0, name); sprintf(name, "%.27s Put", _mName); _mPutSem = create_sem(_mAreaSize, name); if (_mGetSem < 0) _mInitErr = _mGetSem; if (_mPutSem < 0) _mInitErr = _mPutSem; _mGetOff = 0; _mPutOff = 0; _mFlags = 0; LEAVE_PUT LEAVE_GET return _mInitErr; } int32 BBlockFIFO::SizeAvailableToGet() { ENTER_GET // there's always a race with put, so don't pretend to protect it int32 s = _mPutOff - _mGetOff; if (s < 0) s += _mAreaSize; LEAVE_GET return s; } int32 BBlockFIFO::SizeAvailableToPut() { ENTER_PUT // there's always a race with get, so don't pretend to protect it int32 s = _mGetOff - _mPutOff; if (s <= 0) s += _mAreaSize; LEAVE_PUT return s; } int32 BBlockFIFO::BeginGet(const void **outData, size_t requestSize, bigtime_t timeout) { if (!outData) { FPRINTF((stderr, "BAD_VALUE: outData is NULL\n")); return B_BAD_VALUE; } ENTER_GET //FPRINTF((stderr, "requestSize %ld _mBlockSize %ld _mAreaSize %ld _mGetOff %ld\n", // requestSize, _mBlockSize, _mAreaSize, _mGetOff)); if (requestSize > _mBlockSize) { requestSize = _mBlockSize; } size_t o = _mGetOff + requestSize; if (o > _mAreaSize) { o = _mAreaSize; } int32 req = o-_mGetOff; if (_mFlags & flagEndOfData) { int32 tg = _mPutOff-_mGetOff; if (tg < 0) tg += _mAreaSize; if (tg < req) { req = tg; if (req == 0) return 0; o = _mGetOff + req; } } status_t err = acquire_sem_etc(_mGetSem, req, B_TIMEOUT, timeout); if (err < B_OK) { if (((err == B_TIMED_OUT) || (err == B_BAD_SEM_ID)) && (_mFlags & flagEndOfData)) { int32 tg = _mPutOff-_mGetOff; if (tg < 0) tg += _mAreaSize; if (tg < req) { req = tg; if (req == 0) return 0; o = _mGetOff + req; } goto got_it; } LEAVE_GET return err; } got_it: *outData = _mBuffer + _mGetOff; if (o == _mAreaSize) _mPendingGet = 0; else _mPendingGet = o; atomic_or(&_mFlags, flagPendingGet); return req; } int32 BBlockFIFO::EndGet() { if (!(atomic_and(&_mFlags, ~flagPendingGet) & flagPendingGet)) return B_ERROR; int32 o = _mPendingGet - _mGetOff; _mGetOff = _mPendingGet; if (o < 0) o += _mAreaSize; // part of buffer is now free to put into again status_t err = release_sem_etc(_mPutSem, o, B_DO_NOT_RESCHEDULE); LEAVE_GET return err; } int32 BBlockFIFO::BeginPut(void **outData, size_t requestSize, bigtime_t timeout) { if (!outData) { FPRINTF((stderr, "BAD_VALUE: outData == NULL\n")); return B_BAD_VALUE; } if (_mFlags & flagEndOfData) { FPRINTF((stderr, "EPERM: end of data\n")); return EPERM; } ENTER_GET if (requestSize > _mBufferSize) { requestSize = _mBufferSize; } ssize_t o = _mPutOff + requestSize; if (o > (ssize_t)_mAreaSize) { o = _mAreaSize; } int32 req = o-_mPutOff; status_t err = acquire_sem_etc(_mPutSem, req, B_TIMEOUT, timeout); if (err < B_OK) { LEAVE_PUT FPRINTF((stderr, "BeginPut: acquire_sem_etc() returns %ld (req is %ld)\n", err, req)); return err; } *outData = _mBuffer + _mPutOff; if (o == (ssize_t)_mAreaSize) _mPendingPut = 0; else _mPendingPut = o; atomic_or(&_mFlags, flagPendingPut); return req; } int32 BBlockFIFO::EndPut(bool atEndOfData) { if (!(atomic_and(&_mFlags, ~flagPendingPut) & flagPendingPut)) return B_ERROR; int32 o = _mPendingPut - _mPutOff; _mPutOff = _mPendingPut; if (o < 0) o += _mAreaSize; // part of buffer is now full to get from again status_t err = release_sem_etc(_mGetSem, o, B_DO_NOT_RESCHEDULE); if (atEndOfData) { atomic_or(&_mFlags, flagEndOfData); delete_sem(_mGetSem); _mGetSem = -1; } LEAVE_PUT return err; } int32 BBlockFIFO::CopyNextBlockOut(void *destination, size_t requestSize, bigtime_t timeout) { if (destination == 0) return B_BAD_VALUE; if (requestSize == 0) return 0; char * d = (char *)destination; ssize_t total = 0; while (requestSize > 0) { const void * ptr; ssize_t got = BeginGet(&ptr, requestSize, timeout); if (got < 0) { FPRINTF((stderr, "BeginGet returns %ld\n", got)); return (total > 0 ? total : got); } requestSize -= got; memcpy(d, ptr, got); (void)EndGet(); d += got; total += got; } return total; } int32 BBlockFIFO::CopyNextBufferIn(const void *source, size_t requestSize, bigtime_t timeout, bool atEndOfData) { if (source == 0) { FPRINTF((stderr, "BAD_VALUE: source == NULL\n")); return B_BAD_VALUE; } if (requestSize == 0) { if (atEndOfData) { ENTER_PUT atomic_or(&_mFlags, flagEndOfData); delete_sem(_mGetSem); _mGetSem = -1; LEAVE_PUT } return 0; } char * s = (char *)source; int32 total = 0; while (requestSize > 0) { void * ptr; int got = BeginPut(&ptr, requestSize, timeout); if (got < 0) return (total > 0 ? total : got); requestSize -= got; memcpy(ptr, s, got); s += got; total += got; (void)EndPut((requestSize == 0) ? atEndOfData : false); } return total; }