/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include "tstreamFileState.h" #include "streamBackendRocksdb.h" #include "taos.h" #include "tcommon.h" #include "thash.h" #include "tsimplehash.h" #define FLUSH_RATIO 0.5 #define FLUSH_NUM 4 #define DEFAULT_MAX_STREAM_BUFFER_SIZE (128 * 1024 * 1024); struct SStreamFileState { SList* usedBuffs; SList* freeBuffs; SSHashObj* rowBuffMap; void* pFileStore; int32_t rowSize; int32_t keyLen; uint64_t preCheckPointVersion; uint64_t checkPointVersion; TSKEY maxTs; TSKEY deleteMark; TSKEY flushMark; uint64_t maxRowCount; uint64_t curRowCount; GetTsFun getTs; }; typedef SRowBuffPos SRowBuffInfo; SStreamFileState* streamFileStateInit(int64_t memSize, uint32_t keySize, uint32_t rowSize, GetTsFun fp, void* pFile, TSKEY delMark) { if (memSize <= 0) { memSize = DEFAULT_MAX_STREAM_BUFFER_SIZE; } if (rowSize == 0) { goto _error; } SStreamFileState* pFileState = taosMemoryCalloc(1, sizeof(SStreamFileState)); if (!pFileState) { goto _error; } pFileState->maxRowCount = TMAX((uint64_t)memSize / rowSize, FLUSH_NUM * 2); pFileState->usedBuffs = tdListNew(POINTER_BYTES); pFileState->freeBuffs = tdListNew(POINTER_BYTES); _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); int32_t cap = TMIN(10240, pFileState->maxRowCount); pFileState->rowBuffMap = tSimpleHashInit(cap, hashFn); if (!pFileState->usedBuffs || !pFileState->freeBuffs || !pFileState->rowBuffMap) { goto _error; } pFileState->keyLen = keySize; pFileState->rowSize = rowSize; pFileState->preCheckPointVersion = 0; pFileState->checkPointVersion = 1; pFileState->pFileStore = pFile; pFileState->getTs = fp; pFileState->maxRowCount = TMAX((uint64_t)memSize / rowSize, FLUSH_NUM * 2); pFileState->curRowCount = 0; pFileState->deleteMark = delMark; pFileState->flushMark = INT64_MIN; pFileState->maxTs = INT64_MIN; recoverSnapshot(pFileState); return pFileState; _error: streamFileStateDestroy(pFileState); return NULL; } void destroyRowBuffPos(SRowBuffPos* pPos) { taosMemoryFreeClear(pPos->pKey); taosMemoryFreeClear(pPos->pRowBuff); taosMemoryFree(pPos); } void destroyRowBuffPosPtr(void* ptr) { if (!ptr) { return; } SRowBuffPos* pPos = *(SRowBuffPos**)ptr; if (!pPos->beUsed) { destroyRowBuffPos(pPos); } } void destroyRowBuffAllPosPtr(void* ptr) { if (!ptr) { return; } SRowBuffPos* pPos = *(SRowBuffPos**)ptr; destroyRowBuffPos(pPos); } void destroyRowBuff(void* ptr) { if (!ptr) { return; } taosMemoryFree(*(void**)ptr); } void streamFileStateDestroy(SStreamFileState* pFileState) { if (!pFileState) { return; } tdListFreeP(pFileState->usedBuffs, destroyRowBuffAllPosPtr); tdListFreeP(pFileState->freeBuffs, destroyRowBuff); tSimpleHashCleanup(pFileState->rowBuffMap); taosMemoryFree(pFileState); } void clearExpiredRowBuff(SStreamFileState* pFileState, TSKEY ts, bool all) { SListIter iter = {0}; tdListInitIter(pFileState->usedBuffs, &iter, TD_LIST_FORWARD); SListNode* pNode = NULL; while ((pNode = tdListNext(&iter)) != NULL) { SRowBuffPos* pPos = *(SRowBuffPos**)(pNode->data); if (all || (pFileState->getTs(pPos->pKey) < ts)) { ASSERT(pPos->pRowBuff != NULL); tdListAppend(pFileState->freeBuffs, &(pPos->pRowBuff)); pPos->pRowBuff = NULL; if (!all) { tSimpleHashRemove(pFileState->rowBuffMap, pPos->pKey, pFileState->keyLen); } destroyRowBuffPos(pPos); tdListPopNode(pFileState->usedBuffs, pNode); taosMemoryFreeClear(pNode); } } } void streamFileStateClear(SStreamFileState* pFileState) { pFileState->flushMark = INT64_MIN; pFileState->maxTs = INT64_MIN; tSimpleHashClear(pFileState->rowBuffMap); clearExpiredRowBuff(pFileState, 0, true); } bool needClearDiskBuff(SStreamFileState* pFileState) { return pFileState->flushMark > 0; } void popUsedBuffs(SStreamFileState* pFileState, SStreamSnapshot* pFlushList, uint64_t max, bool used) { uint64_t i = 0; SListIter iter = {0}; tdListInitIter(pFileState->usedBuffs, &iter, TD_LIST_FORWARD); SListNode* pNode = NULL; while ((pNode = tdListNext(&iter)) != NULL && i < max) { SRowBuffPos* pPos = *(SRowBuffPos**)pNode->data; if (pPos->beUsed == used) { tdListAppend(pFlushList, &pPos); pFileState->flushMark = TMAX(pFileState->flushMark, pFileState->getTs(pPos->pKey)); tSimpleHashRemove(pFileState->rowBuffMap, pPos->pKey, pFileState->keyLen); tdListPopNode(pFileState->usedBuffs, pNode); taosMemoryFreeClear(pNode); i++; } } qInfo("do stream state flush %d rows to disck. is used: %d", listNEles(pFlushList), used); } int32_t flushRowBuff(SStreamFileState* pFileState) { SStreamSnapshot* pFlushList = tdListNew(POINTER_BYTES); if (!pFlushList) { return TSDB_CODE_OUT_OF_MEMORY; } uint64_t num = (uint64_t)(pFileState->curRowCount * FLUSH_RATIO); num = TMAX(num, FLUSH_NUM); popUsedBuffs(pFileState, pFlushList, num, false); if (isListEmpty(pFlushList)) { popUsedBuffs(pFileState, pFlushList, num, true); } flushSnapshot(pFileState, pFlushList, false); SListIter fIter = {0}; tdListInitIter(pFlushList, &fIter, TD_LIST_FORWARD); SListNode* pNode = NULL; while ((pNode = tdListNext(&fIter)) != NULL) { SRowBuffPos* pPos = *(SRowBuffPos**)pNode->data; ASSERT(pPos->pRowBuff != NULL); tdListAppend(pFileState->freeBuffs, &pPos->pRowBuff); pPos->pRowBuff = NULL; } tdListFreeP(pFlushList, destroyRowBuffPosPtr); return TSDB_CODE_SUCCESS; } int32_t clearRowBuff(SStreamFileState* pFileState) { clearExpiredRowBuff(pFileState, pFileState->maxTs - pFileState->deleteMark, false); if (isListEmpty(pFileState->freeBuffs)) { return flushRowBuff(pFileState); } return TSDB_CODE_SUCCESS; } void* getFreeBuff(SList* lists, int32_t buffSize) { SListNode* pNode = tdListPopHead(lists); if (!pNode) { return NULL; } void* ptr = *(void**)pNode->data; memset(ptr, 0, buffSize); taosMemoryFree(pNode); return ptr; } SRowBuffPos* getNewRowPos(SStreamFileState* pFileState) { SRowBuffPos* pPos = taosMemoryCalloc(1, sizeof(SRowBuffPos)); pPos->pKey = taosMemoryCalloc(1, pFileState->keyLen); void* pBuff = getFreeBuff(pFileState->freeBuffs, pFileState->rowSize); if (pBuff) { pPos->pRowBuff = pBuff; goto _end; } if (pFileState->curRowCount < pFileState->maxRowCount) { pBuff = taosMemoryCalloc(1, pFileState->rowSize); if (pBuff) { pPos->pRowBuff = pBuff; pFileState->curRowCount++; goto _end; } } int32_t code = clearRowBuff(pFileState); ASSERT(code == 0); pPos->pRowBuff = getFreeBuff(pFileState->freeBuffs, pFileState->rowSize); _end: tdListAppend(pFileState->usedBuffs, &pPos); ASSERT(pPos->pRowBuff != NULL); return pPos; } int32_t getRowBuff(SStreamFileState* pFileState, void* pKey, int32_t keyLen, void** pVal, int32_t* pVLen) { pFileState->maxTs = TMAX(pFileState->maxTs, pFileState->getTs(pKey)); SRowBuffPos** pos = tSimpleHashGet(pFileState->rowBuffMap, pKey, keyLen); if (pos) { *pVLen = pFileState->rowSize; *pVal = *pos; (*pos)->beUsed = true; return TSDB_CODE_SUCCESS; } SRowBuffPos* pNewPos = getNewRowPos(pFileState); pNewPos->beUsed = true; ASSERT(pNewPos->pRowBuff); memcpy(pNewPos->pKey, pKey, keyLen); TSKEY ts = pFileState->getTs(pKey); if (ts > pFileState->maxTs - pFileState->deleteMark && ts < pFileState->flushMark) { int32_t len = 0; void* pVal = NULL; int32_t code = streamStateGet_rocksdb(pFileState->pFileStore, pKey, &pVal, &len); qDebug("===stream===get %" PRId64 " from disc, res %d", ts, code); if (code == TSDB_CODE_SUCCESS) { memcpy(pNewPos->pRowBuff, pVal, len); } taosMemoryFree(pVal); } tSimpleHashPut(pFileState->rowBuffMap, pKey, keyLen, &pNewPos, POINTER_BYTES); if (pVal) { *pVLen = pFileState->rowSize; *pVal = pNewPos; } return TSDB_CODE_SUCCESS; } int32_t deleteRowBuff(SStreamFileState* pFileState, const void* pKey, int32_t keyLen) { int32_t code_buff = tSimpleHashRemove(pFileState->rowBuffMap, pKey, keyLen); int32_t code_rocks = streamStateDel_rocksdb(pFileState->pFileStore, pKey); return code_buff == TSDB_CODE_SUCCESS ? code_buff : code_rocks; } int32_t getRowBuffByPos(SStreamFileState* pFileState, SRowBuffPos* pPos, void** pVal) { if (pPos->pRowBuff) { (*pVal) = pPos->pRowBuff; return TSDB_CODE_SUCCESS; } pPos->pRowBuff = getFreeBuff(pFileState->freeBuffs, pFileState->rowSize); if (!pPos->pRowBuff) { int32_t code = clearRowBuff(pFileState); ASSERT(code == 0); pPos->pRowBuff = getFreeBuff(pFileState->freeBuffs, pFileState->rowSize); ASSERT(pPos->pRowBuff); } int32_t len = 0; void* pBuff = NULL; streamStateGet_rocksdb(pFileState->pFileStore, pPos->pKey, &pBuff, &len); memcpy(pPos->pRowBuff, pBuff, len); taosMemoryFree(pBuff); (*pVal) = pPos->pRowBuff; tdListPrepend(pFileState->usedBuffs, &pPos); return TSDB_CODE_SUCCESS; } bool hasRowBuff(SStreamFileState* pFileState, void* pKey, int32_t keyLen) { SRowBuffPos** pos = tSimpleHashGet(pFileState->rowBuffMap, pKey, keyLen); if (pos) { return true; } return false; } void releaseRowBuffPos(SRowBuffPos* pBuff) { pBuff->beUsed = false; } SStreamSnapshot* getSnapshot(SStreamFileState* pFileState) { clearExpiredRowBuff(pFileState, pFileState->maxTs - pFileState->deleteMark, false); return pFileState->usedBuffs; } void streamFileStateDecode(TSKEY* key, void* pBuff, int32_t len) { pBuff = taosDecodeFixedI64(pBuff, key); } void streamFileStateEncode(TSKEY* key, void** pVal, int32_t* pLen) { *pLen = sizeof(TSKEY); (*pVal) = taosMemoryCalloc(1, *pLen); void* buff = *pVal; taosEncodeFixedI64(&buff, *key); } int32_t flushSnapshot(SStreamFileState* pFileState, SStreamSnapshot* pSnapshot, bool flushState) { int32_t code = TSDB_CODE_SUCCESS; SListIter iter = {0}; tdListInitIter(pSnapshot, &iter, TD_LIST_FORWARD); const int32_t BATCH_LIMIT = 256; SListNode* pNode = NULL; void* batch = streamStateCreateBatch(); while ((pNode = tdListNext(&iter)) != NULL && code == TSDB_CODE_SUCCESS) { SRowBuffPos* pPos = *(SRowBuffPos**)pNode->data; ASSERT(pPos->pRowBuff && pFileState->rowSize > 0); if (streamStateGetBatchSize(batch) >= BATCH_LIMIT) { code = streamStatePutBatch_rocksdb(pFileState->pFileStore, batch); streamStateClearBatch(batch); } SStateKey sKey = {.key = *((SWinKey*)pPos->pKey), .opNum = ((SStreamState*)pFileState->pFileStore)->number}; code = streamStatePutBatch(pFileState->pFileStore, "state", batch, &sKey, pPos->pRowBuff, pFileState->rowSize); qDebug("===stream===put %" PRId64 " to disc, res %d", sKey.key.ts, code); } if (streamStateGetBatchSize(batch) > 0) { code = streamStatePutBatch_rocksdb(pFileState->pFileStore, batch); } streamStateClearBatch(batch); if (flushState) { const char* taskKey = "streamFileState"; { char keyBuf[128] = {0}; void* valBuf = NULL; int32_t len = 0; sprintf(keyBuf, "%s:%" PRId64 "", taskKey, ((SStreamState*)pFileState->pFileStore)->checkPointId); streamFileStateEncode(&pFileState->flushMark, &valBuf, &len); code = streamStatePutBatch(pFileState->pFileStore, "default", batch, keyBuf, valBuf, len); taosMemoryFree(valBuf); } { char keyBuf[128] = {0}; char valBuf[64] = {0}; int32_t len = 0; memcpy(keyBuf, taskKey, strlen(taskKey)); len = sprintf(valBuf, "%" PRId64 "", ((SStreamState*)pFileState->pFileStore)->checkPointId); code = streamStatePutBatch(pFileState->pFileStore, "default", batch, keyBuf, valBuf, len); } streamStatePutBatch_rocksdb(pFileState->pFileStore, batch); } streamStateDestroyBatch(batch); return code; } int32_t forceRemoveCheckpoint(SStreamFileState* pFileState, int64_t checkpointId) { const char* taskKey = "streamFileState"; char keyBuf[128] = {0}; sprintf(keyBuf, "%s:%" PRId64 "", taskKey, checkpointId); return streamDefaultDel_rocksdb(pFileState->pFileStore, keyBuf); } int32_t getSnapshotIdList(SStreamFileState* pFileState, SArray* list) { const char* taskKey = "streamFileState"; return streamDefaultIterGet_rocksdb(pFileState->pFileStore, taskKey, NULL, list); } int32_t deleteExpiredCheckPoint(SStreamFileState* pFileState, TSKEY mark) { int32_t code = TSDB_CODE_SUCCESS; const char* taskKey = "streamFileState"; int64_t maxCheckPointId = 0; { char buf[128] = {0}; void* val = NULL; int32_t len = 0; memcpy(buf, taskKey, strlen(taskKey)); code = streamDefaultGet_rocksdb(pFileState->pFileStore, buf, &val, &len); if (code != 0) { return TSDB_CODE_FAILED; } sscanf(val, "%" PRId64 "", &maxCheckPointId); } for (int64_t i = maxCheckPointId; i > 0; i--) { char buf[128] = {0}; void* val = 0; int32_t len = 0; sprintf(buf, "%s:%" PRId64 "", taskKey, i); code = streamDefaultGet_rocksdb(pFileState->pFileStore, buf, &val, &len); if (code != 0) { return TSDB_CODE_FAILED; } TSKEY ts; sscanf(val, "%" PRId64 "", &ts); if (ts < mark) { // statekey winkey.ts < mark forceRemoveCheckpoint(pFileState, i); break; } else { } } return code; } int32_t recoverSnapshot(SStreamFileState* pFileState) { int32_t code = TSDB_CODE_SUCCESS; deleteExpiredCheckPoint(pFileState, pFileState->maxTs - pFileState->deleteMark); void* pStVal = NULL; int32_t len = 0; SWinKey key = {.groupId = 0, .ts = 0}; SStreamStateCur* pCur = streamStateSeekToLast_rocksdb(pFileState->pFileStore, &key); if (pCur == NULL) { return -1; } while (code == TSDB_CODE_SUCCESS) { if (pFileState->curRowCount == pFileState->maxRowCount) { break; } void* pVal = NULL; int32_t pVLen = 0; SRowBuffPos* pNewPos = getNewRowPos(pFileState); code = streamStateGetKVByCur_rocksdb(pCur, pNewPos->pKey, (const void**)&pVal, &pVLen); if (code != TSDB_CODE_SUCCESS || pFileState->getTs(pNewPos->pKey) < pFileState->flushMark) { destroyRowBuffPos(pNewPos); SListNode* pNode = tdListPopTail(pFileState->usedBuffs); taosMemoryFreeClear(pNode); break; } memcpy(pNewPos->pRowBuff, pVal, pVLen); code = tSimpleHashPut(pFileState->rowBuffMap, pNewPos->pKey, pFileState->rowSize, &pNewPos, POINTER_BYTES); if (code != TSDB_CODE_SUCCESS) { destroyRowBuffPos(pNewPos); break; } code = streamStateCurPrev_rocksdb(pFileState->pFileStore, pCur); } streamStateFreeCur(pCur); return TSDB_CODE_SUCCESS; }