/* * 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 . */ #define _DEFAULT_SOURCE #include "sdbInt.h" const char *sdbTableName(ESdbType type) { switch (type) { case SDB_TRANS: return "trans"; case SDB_CLUSTER: return "cluster"; case SDB_MNODE: return "mnode"; case SDB_QNODE: return "qnode"; case SDB_SNODE: return "snode"; case SDB_BNODE: return "bnode"; case SDB_DNODE: return "dnode"; case SDB_USER: return "user"; case SDB_AUTH: return "auth"; case SDB_ACCT: return "acct"; case SDB_TOPIC: return "topic"; case SDB_VGROUP: return "vgId"; case SDB_STB: return "stb"; case SDB_DB: return "db"; case SDB_FUNC: return "func"; default: return "undefine"; } } void sdbPrintOper(SSdb *pSdb, SSdbRow *pRow, const char *oper) { EKeyType keyType = pSdb->keyTypes[pRow->type]; if (keyType == SDB_KEY_BINARY) { mTrace("%s:%s, refCount:%d oper:%s row:%p", sdbTableName(pRow->type), (char *)pRow->pObj, pRow->refCount, oper, pRow->pObj); } else if (keyType == SDB_KEY_INT32) { mTrace("%s:%d, refCount:%d oper:%s row:%p", sdbTableName(pRow->type), *(int32_t *)pRow->pObj, pRow->refCount, oper, pRow->pObj); } else if (keyType == SDB_KEY_INT64) { mTrace("%s:%" PRId64 ", refCount:%d oper:%s row:%p", sdbTableName(pRow->type), *(int64_t *)pRow->pObj, pRow->refCount, oper, pRow->pObj); } else { } } static SHashObj *sdbGetHash(SSdb *pSdb, int32_t type) { if (type >= SDB_MAX || type <= SDB_START) { terrno = TSDB_CODE_SDB_INVALID_TABLE_TYPE; return NULL; } SHashObj *hash = pSdb->hashObjs[type]; if (hash == NULL) { terrno = TSDB_CODE_SDB_APP_ERROR; return NULL; } return hash; } static int32_t sdbGetkeySize(SSdb *pSdb, ESdbType type, void *pKey) { int32_t keySize; EKeyType keyType = pSdb->keyTypes[type]; if (keyType == SDB_KEY_INT32) { keySize = sizeof(int32_t); } else if (keyType == SDB_KEY_BINARY) { keySize = strlen(pKey) + 1; } else { keySize = sizeof(int64_t); } return keySize; } static int32_t sdbInsertRow(SSdb *pSdb, SHashObj *hash, SSdbRaw *pRaw, SSdbRow *pRow, int32_t keySize) { int32_t code = 0; SRWLatch *pLock = &pSdb->locks[pRow->type]; taosWLockLatch(pLock); SSdbRow *pOldRow = taosHashGet(hash, pRow->pObj, keySize); if (pOldRow != NULL) { taosWUnLockLatch(pLock); sdbFreeRow(pSdb, pRow); terrno = TSDB_CODE_SDB_OBJ_ALREADY_THERE; return terrno; } pRow->refCount = 0; pRow->status = pRaw->status; sdbPrintOper(pSdb, pRow, "insertRow"); if (taosHashPut(hash, pRow->pObj, keySize, &pRow, sizeof(void *)) != 0) { taosWUnLockLatch(pLock); sdbFreeRow(pSdb, pRow); terrno = TSDB_CODE_SDB_OBJ_ALREADY_THERE; return terrno; } taosWUnLockLatch(pLock); if (pSdb->keyTypes[pRow->type] == SDB_KEY_INT32) { pSdb->maxId[pRow->type] = MAX(pSdb->maxId[pRow->type], *((int32_t *)pRow->pObj)); } SdbInsertFp insertFp = pSdb->insertFps[pRow->type]; if (insertFp != NULL) { code = (*insertFp)(pSdb, pRow->pObj); if (code != 0) { taosWLockLatch(pLock); taosHashRemove(hash, pRow->pObj, keySize); taosWUnLockLatch(pLock); sdbFreeRow(pSdb, pRow); terrno = code; return terrno; } } return 0; } static int32_t sdbUpdateRow(SSdb *pSdb, SHashObj *hash, SSdbRaw *pRaw, SSdbRow *pNewRow, int32_t keySize) { int32_t code = 0; SRWLatch *pLock = &pSdb->locks[pNewRow->type]; taosRLockLatch(pLock); SSdbRow **ppOldRow = taosHashGet(hash, pNewRow->pObj, keySize); if (ppOldRow == NULL || *ppOldRow == NULL) { taosRUnLockLatch(pLock); return sdbInsertRow(pSdb, hash, pRaw, pNewRow, keySize); } SSdbRow *pOldRow = *ppOldRow; pOldRow->status = pRaw->status; taosRUnLockLatch(pLock); SdbUpdateFp updateFp = pSdb->updateFps[pNewRow->type]; if (updateFp != NULL) { code = (*updateFp)(pSdb, pOldRow->pObj, pNewRow->pObj); } sdbFreeRow(pSdb, pNewRow); return code; } static int32_t sdbDeleteRow(SSdb *pSdb, SHashObj *hash, SSdbRaw *pRaw, SSdbRow *pRow, int32_t keySize) { int32_t code = 0; SRWLatch *pLock = &pSdb->locks[pRow->type]; taosWLockLatch(pLock); SSdbRow **ppOldRow = taosHashGet(hash, pRow->pObj, keySize); if (ppOldRow == NULL || *ppOldRow == NULL) { taosWUnLockLatch(pLock); sdbFreeRow(pSdb, pRow); terrno = TSDB_CODE_SDB_OBJ_NOT_THERE; return terrno; } SSdbRow *pOldRow = *ppOldRow; pOldRow->status = pRaw->status; taosHashRemove(hash, pOldRow->pObj, keySize); taosWUnLockLatch(pLock); // sdbRelease(pSdb, pOldRow->pObj); sdbFreeRow(pSdb, pRow); return code; } int32_t sdbWriteNotFree(SSdb *pSdb, SSdbRaw *pRaw) { SHashObj *hash = sdbGetHash(pSdb, pRaw->type); if (hash == NULL) return terrno; SdbDecodeFp decodeFp = pSdb->decodeFps[pRaw->type]; SSdbRow *pRow = (*decodeFp)(pRaw); if (pRow == NULL) { return terrno; } pRow->type = pRaw->type; int32_t keySize = sdbGetkeySize(pSdb, pRow->type, pRow->pObj); int32_t code = TSDB_CODE_SDB_INVALID_ACTION_TYPE; switch (pRaw->status) { case SDB_STATUS_CREATING: code = sdbInsertRow(pSdb, hash, pRaw, pRow, keySize); break; case SDB_STATUS_UPDATING: case SDB_STATUS_READY: case SDB_STATUS_DROPPING: code = sdbUpdateRow(pSdb, hash, pRaw, pRow, keySize); break; case SDB_STATUS_DROPPED: code = sdbDeleteRow(pSdb, hash, pRaw, pRow, keySize); break; } return code; } int32_t sdbWrite(SSdb *pSdb, SSdbRaw *pRaw) { int32_t code = sdbWriteNotFree(pSdb, pRaw); sdbFreeRaw(pRaw); return code; } void *sdbAcquire(SSdb *pSdb, ESdbType type, void *pKey) { SHashObj *hash = sdbGetHash(pSdb, type); if (hash == NULL) return NULL; void *pRet = NULL; int32_t keySize = sdbGetkeySize(pSdb, type, pKey); SRWLatch *pLock = &pSdb->locks[type]; taosRLockLatch(pLock); SSdbRow **ppRow = taosHashGet(hash, pKey, keySize); if (ppRow == NULL || *ppRow == NULL) { taosRUnLockLatch(pLock); terrno = TSDB_CODE_SDB_OBJ_NOT_THERE; return NULL; } SSdbRow *pRow = *ppRow; switch (pRow->status) { case SDB_STATUS_READY: case SDB_STATUS_UPDATING: atomic_add_fetch_32(&pRow->refCount, 1); pRet = pRow->pObj; sdbPrintOper(pSdb, pRow, "acquireRow"); break; case SDB_STATUS_CREATING: terrno = TSDB_CODE_SDB_OBJ_CREATING; break; case SDB_STATUS_DROPPING: terrno = TSDB_CODE_SDB_OBJ_DROPPING; break; default: terrno = TSDB_CODE_SDB_APP_ERROR; break; } taosRUnLockLatch(pLock); return pRet; } void sdbRelease(SSdb *pSdb, void *pObj) { if (pObj == NULL) return; SSdbRow *pRow = (SSdbRow *)((char *)pObj - sizeof(SSdbRow)); if (pRow->type >= SDB_MAX || pRow->type <= SDB_START) return; SRWLatch *pLock = &pSdb->locks[pRow->type]; taosRLockLatch(pLock); int32_t ref = atomic_sub_fetch_32(&pRow->refCount, 1); sdbPrintOper(pSdb, pRow, "releaseRow"); if (ref <= 0 && pRow->status == SDB_STATUS_DROPPED) { sdbFreeRow(pSdb, pRow); } taosRUnLockLatch(pLock); } void *sdbFetch(SSdb *pSdb, ESdbType type, void *pIter, void **ppObj) { *ppObj = NULL; SHashObj *hash = sdbGetHash(pSdb, type); if (hash == NULL) return NULL; SRWLatch *pLock = &pSdb->locks[type]; taosRLockLatch(pLock); if (pIter != NULL) { SSdbRow *pLastRow = *(SSdbRow **)pIter; int32_t ref = atomic_load_32(&pLastRow->refCount); if (ref <= 0 && pLastRow->status == SDB_STATUS_DROPPED) { sdbFreeRow(pSdb, pLastRow); } } SSdbRow **ppRow = taosHashIterate(hash, pIter); while (ppRow != NULL) { SSdbRow *pRow = *ppRow; if (pRow == NULL || pRow->status != SDB_STATUS_READY) { ppRow = taosHashIterate(hash, ppRow); continue; } atomic_add_fetch_32(&pRow->refCount, 1); sdbPrintOper(pSdb, pRow, "fetchRow"); *ppObj = pRow->pObj; break; } taosRUnLockLatch(pLock); return ppRow; } void sdbCancelFetch(SSdb *pSdb, void *pIter) { if (pIter == NULL) return; SSdbRow *pRow = *(SSdbRow **)pIter; SHashObj *hash = sdbGetHash(pSdb, pRow->type); if (hash == NULL) return; SRWLatch *pLock = &pSdb->locks[pRow->type]; taosRLockLatch(pLock); taosHashCancelIterate(hash, pIter); taosRUnLockLatch(pLock); } void sdbTraverse(SSdb *pSdb, ESdbType type, sdbTraverseFp fp, void *p1, void *p2, void *p3) { SHashObj *hash = sdbGetHash(pSdb, type); if (hash == NULL) return; SRWLatch *pLock = &pSdb->locks[type]; taosRLockLatch(pLock); SSdbRow **ppRow = taosHashIterate(hash, NULL); while (ppRow != NULL) { SSdbRow *pRow = *ppRow; if (pRow->status == SDB_STATUS_READY) { bool isContinue = (*fp)(pSdb->pMnode, pRow->pObj, p1, p2, p3); if (!isContinue) { taosHashCancelIterate(hash, ppRow); break; } } ppRow = taosHashIterate(hash, ppRow); } taosRUnLockLatch(pLock); } int32_t sdbGetSize(SSdb *pSdb, ESdbType type) { SHashObj *hash = sdbGetHash(pSdb, type); if (hash == NULL) return 0; SRWLatch *pLock = &pSdb->locks[type]; taosRLockLatch(pLock); int32_t size = taosHashGetSize(hash); taosRUnLockLatch(pLock); return size; } int32_t sdbGetMaxId(SSdb *pSdb, ESdbType type) { SHashObj *hash = sdbGetHash(pSdb, type); if (hash == NULL) return -1; if (pSdb->keyTypes[type] != SDB_KEY_INT32) return -1; int32_t maxId = 0; SRWLatch *pLock = &pSdb->locks[type]; taosRLockLatch(pLock); SSdbRow **ppRow = taosHashIterate(hash, NULL); while (ppRow != NULL) { SSdbRow *pRow = *ppRow; int32_t id = *(int32_t *)pRow->pObj; maxId = MAX(id, maxId); ppRow = taosHashIterate(hash, ppRow); } taosRUnLockLatch(pLock); maxId = MAX(maxId, pSdb->maxId[type]); return maxId + 1; }