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more refact

This commit is contained in:
Hongze Cheng 2022-05-07 06:57:31 +00:00
parent 80cfde72ad
commit 5d150204dd
7 changed files with 91 additions and 933 deletions
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4
include/common/tmsg.h
View File

@ -1563,7 +1563,7 @@ typedef struct SVCreateTbReq {
union {
struct {
tb_uid_t suid;
const void* pTag;
const uint8_t* pTag;
} ctb;
struct {
SSchemaWrapper schema;
@ -2597,7 +2597,7 @@ typedef struct {
int64_t uid;
int32_t sver;
uint64_t nData;
const void* pData;
const uint8_t* pData;
SVCreateTbReq cTbReq;
} SVSubmitBlk;

10
include/util/tencode.h
View File

@ -138,7 +138,7 @@ static int32_t tEncodeU64v(SCoder* pEncoder, uint64_t val);
static int32_t tEncodeI64v(SCoder* pEncoder, int64_t val);
static int32_t tEncodeFloat(SCoder* pEncoder, float val);
static int32_t tEncodeDouble(SCoder* pEncoder, double val);
static int32_t tEncodeBinary(SCoder* pEncoder, const void* val, uint64_t len);
static int32_t tEncodeBinary(SCoder* pEncoder, const uint8_t* val, uint64_t len);
static int32_t tEncodeCStrWithLen(SCoder* pEncoder, const char* val, uint64_t len);
static int32_t tEncodeCStr(SCoder* pEncoder, const char* val);
@ -162,7 +162,7 @@ static int32_t tDecodeU64v(SCoder* pDecoder, uint64_t* val);
static int32_t tDecodeI64v(SCoder* pDecoder, int64_t* val);
static int32_t tDecodeFloat(SCoder* pDecoder, float* val);
static int32_t tDecodeDouble(SCoder* pDecoder, double* val);
static int32_t tDecodeBinary(SCoder* pDecoder, const void** val, uint64_t* len);
static int32_t tDecodeBinary(SCoder* pDecoder, const uint8_t** val, uint64_t* len);
static int32_t tDecodeCStrAndLen(SCoder* pDecoder, const char** val, uint64_t* len);
static int32_t tDecodeCStr(SCoder* pDecoder, const char** val);
static int32_t tDecodeCStrTo(SCoder* pDecoder, char* val);
@ -292,7 +292,7 @@ static FORCE_INLINE int32_t tEncodeDouble(SCoder* pEncoder, double val) {
return tEncodeU64(pEncoder, v.ui);
}
static FORCE_INLINE int32_t tEncodeBinary(SCoder* pEncoder, const void* val, uint64_t len) {
static FORCE_INLINE int32_t tEncodeBinary(SCoder* pEncoder, const uint8_t* val, uint64_t len) {
if (tEncodeU64v(pEncoder, len) < 0) return -1;
if (pEncoder->data) {
if (TD_CODER_CHECK_CAPACITY_FAILED(pEncoder, len)) return -1;
@ -413,7 +413,7 @@ static FORCE_INLINE int32_t tDecodeDouble(SCoder* pDecoder, double* val) {
return 0;
}
static FORCE_INLINE int32_t tDecodeBinary(SCoder* pDecoder, const void** val, uint64_t* len) {
static FORCE_INLINE int32_t tDecodeBinary(SCoder* pDecoder, const uint8_t** val, uint64_t* len) {
if (tDecodeU64v(pDecoder, len) < 0) return -1;
if (TD_CODER_CHECK_CAPACITY_FAILED(pDecoder, *len)) return -1;
@ -426,7 +426,7 @@ static FORCE_INLINE int32_t tDecodeBinary(SCoder* pDecoder, const void** val, ui
}
static FORCE_INLINE int32_t tDecodeCStrAndLen(SCoder* pDecoder, const char** val, uint64_t* len) {
if (tDecodeBinary(pDecoder, (const void**)val, len) < 0) return -1;
if (tDecodeBinary(pDecoder, (const uint8_t**)val, len) < 0) return -1;
(*len) -= 1;
return 0;
}

8
source/dnode/vnode/inc/vnode.h
View File

@ -108,7 +108,7 @@ int32_t tsdbQuerySTableByTagCond(void *pMeta, uint64_t uid, TSKEY skey, con
int64_t tsdbGetNumOfRowsInMemTable(tsdbReaderT *pHandle);
bool tsdbNextDataBlock(tsdbReaderT pTsdbReadHandle);
void tsdbRetrieveDataBlockInfo(tsdbReaderT *pTsdbReadHandle, SDataBlockInfo *pBlockInfo);
int32_t tsdbRetrieveDataBlockStatisInfo(tsdbReaderT *pTsdbReadHandle, SColumnDataAgg ***pBlockStatis, bool* allHave);
int32_t tsdbRetrieveDataBlockStatisInfo(tsdbReaderT *pTsdbReadHandle, SColumnDataAgg ***pBlockStatis, bool *allHave);
SArray *tsdbRetrieveDataBlock(tsdbReaderT *pTsdbReadHandle, SArray *pColumnIdList);
void tsdbResetReadHandle(tsdbReaderT queryHandle, SQueryTableDataCond *pCond);
void tsdbDestroyTableGroup(STableGroupInfo *pGroupList);
@ -126,8 +126,8 @@ int tqReadHandleSetTbUidList(STqReadHandle *pHandle, const SArray *tbUidList
int tqReadHandleAddTbUidList(STqReadHandle *pHandle, const SArray *tbUidList);
int32_t tqReadHandleSetMsg(STqReadHandle *pHandle, SSubmitReq *pMsg, int64_t ver);
bool tqNextDataBlock(STqReadHandle *pHandle);
int32_t tqRetrieveDataBlock(SArray **ppCols, STqReadHandle *pHandle, uint64_t *pGroupId, uint64_t* pUid, int32_t *pNumOfRows,
int16_t *pNumOfCols);
int32_t tqRetrieveDataBlock(SArray **ppCols, STqReadHandle *pHandle, uint64_t *pGroupId, uint64_t *pUid,
int32_t *pNumOfRows, int16_t *pNumOfCols);
// need to reposition
@ -192,7 +192,7 @@ struct SMetaEntry {
int64_t ctime;
int32_t ttlDays;
tb_uid_t suid;
const void *pTags;
const uint8_t *pTags;
} ctbEntry;
struct {
int64_t ctime;

843
source/dnode/vnode/src/meta/metaTDBImpl.c
View File

@ -1,843 +0,0 @@
/*
* Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
*
* 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 <http://www.gnu.org/licenses/>.
*/
#include "vnodeInt.h"
#ifndef META_REFACT
typedef struct SPoolMem {
int64_t size;
struct SPoolMem *prev;
struct SPoolMem *next;
} SPoolMem;
#define META_TDB_SMA_TEST
static SPoolMem *openPool();
static void clearPool(SPoolMem *pPool);
static void closePool(SPoolMem *pPool);
static void *poolMalloc(void *arg, size_t size);
static void poolFree(void *arg, void *ptr);
struct SMetaDB {
TXN txn;
TENV *pEnv;
TDB *pTbDB;
TDB *pSchemaDB;
TDB *pNameIdx;
TDB *pStbIdx;
TDB *pNtbIdx;
TDB *pCtbIdx;
SPoolMem *pPool;
#ifdef META_TDB_SMA_TEST
TDB *pSmaDB;
TDB *pSmaIdx;
#endif
};
#pragma pack(push, 1)
typedef struct {
tb_uid_t uid;
int32_t sver;
} SSchemaDbKey;
#pragma pack(pop)
typedef struct {
char *name;
tb_uid_t uid;
} SNameIdxKey;
typedef struct {
tb_uid_t suid;
tb_uid_t uid;
} SCtbIdxKey;
typedef struct {
tb_uid_t uid;
int64_t smaUid;
} SSmaIdxKey;
static int metaEncodeTbInfo(void **buf, STbCfg *pTbCfg);
static void *metaDecodeTbInfo(void *buf, STbCfg *pTbCfg);
static int metaEncodeSchema(void **buf, SSchemaWrapper *pSW);
static void *metaDecodeSchema(void *buf, SSchemaWrapper *pSW);
static int metaEncodeSchemaEx(void **buf, SSchemaWrapper *pSW);
static void *metaDecodeSchemaEx(void *buf, SSchemaWrapper *pSW, bool isGetEx);
static SSchemaWrapper *metaGetTableSchemaImpl(SMeta *pMeta, tb_uid_t uid, int32_t sver, bool isinline, bool isGetEx);
static inline int metaUidCmpr(const void *arg1, int len1, const void *arg2, int len2) {
tb_uid_t uid1, uid2;
ASSERT(len1 == sizeof(tb_uid_t));
ASSERT(len2 == sizeof(tb_uid_t));
uid1 = ((tb_uid_t *)arg1)[0];
uid2 = ((tb_uid_t *)arg2)[0];
if (uid1 < uid2) {
return -1;
}
if (uid1 == uid2) {
return 0;
} else {
return 1;
}
}
static inline int metaSchemaKeyCmpr(const void *arg1, int len1, const void *arg2, int len2) {
int c;
SSchemaDbKey *pKey1 = (SSchemaDbKey *)arg1;
SSchemaDbKey *pKey2 = (SSchemaDbKey *)arg2;
c = metaUidCmpr(arg1, sizeof(tb_uid_t), arg2, sizeof(tb_uid_t));
if (c) return c;
if (pKey1->sver > pKey2->sver) {
return 1;
} else if (pKey1->sver == pKey2->sver) {
return 0;
} else {
return -1;
}
}
static inline int metaNameIdxCmpr(const void *arg1, int len1, const void *arg2, int len2) {
return strcmp((char *)arg1, (char *)arg2);
}
static inline int metaCtbIdxCmpr(const void *arg1, int len1, const void *arg2, int len2) {
int c;
SCtbIdxKey *pKey1 = (SCtbIdxKey *)arg1;
SCtbIdxKey *pKey2 = (SCtbIdxKey *)arg2;
c = metaUidCmpr(arg1, sizeof(tb_uid_t), arg2, sizeof(tb_uid_t));
if (c) return c;
return metaUidCmpr(&pKey1->uid, sizeof(tb_uid_t), &pKey2->uid, sizeof(tb_uid_t));
}
static inline int metaSmaIdxCmpr(const void *arg1, int len1, const void *arg2, int len2) {
int c;
SSmaIdxKey *pKey1 = (SSmaIdxKey *)arg1;
SSmaIdxKey *pKey2 = (SSmaIdxKey *)arg2;
c = metaUidCmpr(arg1, sizeof(tb_uid_t), arg2, sizeof(tb_uid_t));
if (c) return c;
return metaUidCmpr(&pKey1->smaUid, sizeof(int64_t), &pKey2->smaUid, sizeof(int64_t));
}
int metaOpenDB(SMeta *pMeta) {
SMetaDB *pMetaDb;
int ret;
// allocate DB handle
pMetaDb = taosMemoryCalloc(1, sizeof(*pMetaDb));
if (pMetaDb == NULL) {
// TODO
ASSERT(0);
return -1;
}
// open the ENV
ret = tdbEnvOpen(pMeta->path, 4096, 256, &(pMetaDb->pEnv));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
// open table DB
ret = tdbDbOpen("table.db", sizeof(tb_uid_t), TDB_VARIANT_LEN, metaUidCmpr, pMetaDb->pEnv, &(pMetaDb->pTbDB));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
#ifdef META_TDB_SMA_TEST
ret = tdbDbOpen("sma.db", sizeof(int64_t), TDB_VARIANT_LEN, metaUidCmpr, pMetaDb->pEnv, &(pMetaDb->pSmaDB));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
#endif
// open schema DB
ret = tdbDbOpen("schema.db", sizeof(SSchemaDbKey), TDB_VARIANT_LEN, metaSchemaKeyCmpr, pMetaDb->pEnv,
&(pMetaDb->pSchemaDB));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
ret = tdbDbOpen("name.idx", TDB_VARIANT_LEN, 0, metaNameIdxCmpr, pMetaDb->pEnv, &(pMetaDb->pNameIdx));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
ret = tdbDbOpen("stb.idx", sizeof(tb_uid_t), 0, metaUidCmpr, pMetaDb->pEnv, &(pMetaDb->pStbIdx));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
ret = tdbDbOpen("ntb.idx", sizeof(tb_uid_t), 0, metaUidCmpr, pMetaDb->pEnv, &(pMetaDb->pNtbIdx));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
ret = tdbDbOpen("ctb.idx", sizeof(SCtbIdxKey), 0, metaCtbIdxCmpr, pMetaDb->pEnv, &(pMetaDb->pCtbIdx));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
#ifdef META_TDB_SMA_TEST
ret = tdbDbOpen("sma.idx", sizeof(SSmaIdxKey), 0, metaSmaIdxCmpr, pMetaDb->pEnv, &(pMetaDb->pSmaIdx));
if (ret < 0) {
// TODO
ASSERT(0);
return -1;
}
#endif
pMetaDb->pPool = openPool();
tdbTxnOpen(&pMetaDb->txn, 0, poolMalloc, poolFree, pMetaDb->pPool, TDB_TXN_WRITE | TDB_TXN_READ_UNCOMMITTED);
tdbBegin(pMetaDb->pEnv, NULL);
pMeta->pDB = pMetaDb;
return 0;
}
void metaCloseDB(SMeta *pMeta) {
if (pMeta->pDB) {
tdbCommit(pMeta->pDB->pEnv, &pMeta->pDB->txn);
tdbTxnClose(&pMeta->pDB->txn);
clearPool(pMeta->pDB->pPool);
#ifdef META_TDB_SMA_TEST
tdbDbClose(pMeta->pDB->pSmaIdx);
#endif
tdbDbClose(pMeta->pDB->pCtbIdx);
tdbDbClose(pMeta->pDB->pNtbIdx);
tdbDbClose(pMeta->pDB->pStbIdx);
tdbDbClose(pMeta->pDB->pNameIdx);
#ifdef META_TDB_SMA_TEST
tdbDbClose(pMeta->pDB->pSmaDB);
#endif
tdbDbClose(pMeta->pDB->pSchemaDB);
tdbDbClose(pMeta->pDB->pTbDB);
taosMemoryFree(pMeta->pDB);
}
}
int metaSaveTableToDB(SMeta *pMeta, STbCfg *pTbCfg, STbDdlH *pHandle) {
tb_uid_t uid;
SMetaDB *pMetaDb;
void *pKey;
void *pVal;
int kLen;
int vLen;
int ret;
char buf[512];
void *pBuf;
SCtbIdxKey ctbIdxKey;
SSchemaDbKey schemaDbKey;
SSchemaWrapper schemaWrapper;
pMetaDb = pMeta->pDB;
// TODO: make this operation pre-process
if (pTbCfg->type == META_SUPER_TABLE) {
uid = pTbCfg->stbCfg.suid;
} else {
uid = metaGenerateUid(pMeta);
}
// check name and uid unique
if (tdbDbGet(pMetaDb->pTbDB, &uid, sizeof(uid), NULL, NULL) == 0) {
return -1;
}
if (tdbDbGet(pMetaDb->pNameIdx, pTbCfg->name, strlen(pTbCfg->name) + 1, NULL, NULL) == 0) {
return -1;
}
// save to table.db
pKey = &uid;
kLen = sizeof(uid);
pVal = pBuf = buf;
metaEncodeTbInfo(&pBuf, pTbCfg);
vLen = POINTER_DISTANCE(pBuf, buf);
ret = tdbDbInsert(pMetaDb->pTbDB, pKey, kLen, pVal, vLen, &pMetaDb->txn);
if (ret < 0) {
return -1;
}
// save to schema.db for META_SUPER_TABLE and META_NORMAL_TABLE
if (pTbCfg->type != META_CHILD_TABLE) {
schemaDbKey.uid = uid;
schemaDbKey.sver = 0; // TODO
pKey = &schemaDbKey;
kLen = sizeof(schemaDbKey);
if (pTbCfg->type == META_SUPER_TABLE) {
schemaWrapper.nCols = pTbCfg->stbCfg.nCols;
schemaWrapper.pSchema = pTbCfg->stbCfg.pSchema;
} else {
schemaWrapper.nCols = pTbCfg->ntbCfg.nCols;
schemaWrapper.pSchema = pTbCfg->ntbCfg.pSchema;
}
pVal = pBuf = buf;
metaEncodeSchemaEx(&pBuf, &schemaWrapper);
vLen = POINTER_DISTANCE(pBuf, buf);
ret = tdbDbInsert(pMetaDb->pSchemaDB, pKey, kLen, pVal, vLen, &pMeta->pDB->txn);
if (ret < 0) {
return -1;
}
}
// update name.idx
int nameLen = strlen(pTbCfg->name);
memcpy(buf, pTbCfg->name, nameLen + 1);
((tb_uid_t *)(buf + nameLen + 1))[0] = uid;
pKey = buf;
kLen = nameLen + 1 + sizeof(uid);
pVal = NULL;
vLen = 0;
ret = tdbDbInsert(pMetaDb->pNameIdx, pKey, kLen, pVal, vLen, &pMetaDb->txn);
if (ret < 0) {
return -1;
}
// update other index
if (pTbCfg->type == META_SUPER_TABLE) {
pKey = &uid;
kLen = sizeof(uid);
pVal = NULL;
vLen = 0;
ret = tdbDbInsert(pMetaDb->pStbIdx, pKey, kLen, pVal, vLen, &pMetaDb->txn);
if (ret < 0) {
return -1;
}
} else if (pTbCfg->type == META_CHILD_TABLE) {
ctbIdxKey.suid = pTbCfg->ctbCfg.suid;
ctbIdxKey.uid = uid;
pKey = &ctbIdxKey;
kLen = sizeof(ctbIdxKey);
pVal = NULL;
vLen = 0;
ret = tdbDbInsert(pMetaDb->pCtbIdx, pKey, kLen, pVal, vLen, &pMetaDb->txn);
if (ret < 0) {
return -1;
}
// child table handle for rsma
if (pHandle && pHandle->fp) {
if (((*pHandle->fp)(pHandle->ahandle, &pHandle->result, &ctbIdxKey.suid, &uid)) < 0) {
return -1;
};
}
} else if (pTbCfg->type == META_NORMAL_TABLE) {
pKey = &uid;
kLen = sizeof(uid);
pVal = NULL;
vLen = 0;
ret = tdbDbInsert(pMetaDb->pNtbIdx, pKey, kLen, pVal, vLen, &pMetaDb->txn);
if (ret < 0) {
return -1;
}
}
if (pMeta->pDB->pPool->size > 0) {
metaCommit(pMeta);
}
return 0;
}
int metaRemoveTableFromDb(SMeta *pMeta, tb_uid_t uid) {
// TODO
ASSERT(0);
return 0;
}
static SSchemaWrapper *metaGetTableSchemaImpl(SMeta *pMeta, tb_uid_t uid, int32_t sver, bool isinline, bool isGetEx) {
void *pKey;
void *pVal;
int kLen;
int vLen;
int ret;
SSchemaDbKey schemaDbKey;
SSchemaWrapper *pSchemaWrapper;
void *pBuf;
// fetch
schemaDbKey.uid = uid;
schemaDbKey.sver = sver;
pKey = &schemaDbKey;
kLen = sizeof(schemaDbKey);
pVal = NULL;
ret = tdbDbGet(pMeta->pDB->pSchemaDB, pKey, kLen, &pVal, &vLen);
if (ret < 0) {
return NULL;
}
// decode
pBuf = pVal;
pSchemaWrapper = taosMemoryMalloc(sizeof(*pSchemaWrapper));
metaDecodeSchemaEx(pBuf, pSchemaWrapper, isGetEx);
tdbFree(pVal);
return pSchemaWrapper;
}
struct SMSmaCursor {
TDBC *pCur;
tb_uid_t uid;
void *pKey;
void *pVal;
int kLen;
int vLen;
};
STSmaWrapper *metaGetSmaInfoByTable(SMeta *pMeta, tb_uid_t uid) {
// TODO
// ASSERT(0);
// return NULL;
#ifdef META_TDB_SMA_TEST
STSmaWrapper *pSW = NULL;
SMSmaCursor *pCur = metaOpenSmaCursor(pMeta, uid);
if (pCur == NULL) {
return NULL;
}
void *pBuf = NULL;
SSmaIdxKey *pSmaIdxKey = NULL;
while (true) {
// TODO: lock during iterate?
if (tdbDbcNext(pCur->pCur, &pCur->pKey, &pCur->kLen, NULL, &pCur->vLen) == 0) {
pSmaIdxKey = pCur->pKey;
ASSERT(pSmaIdxKey != NULL);
void *pSmaVal = metaGetSmaInfoByIndex(pMeta, pSmaIdxKey->smaUid, false);
if (pSmaVal == NULL) {
tsdbWarn("no tsma exists for indexUid: %" PRIi64, pSmaIdxKey->smaUid);
continue;
}
if ((pSW == NULL) && ((pSW = taosMemoryCalloc(1, sizeof(*pSW))) == NULL)) {
tdbFree(pSmaVal);
metaCloseSmaCursor(pCur);
return NULL;
}
++pSW->number;
STSma *tptr = (STSma *)taosMemoryRealloc(pSW->tSma, pSW->number * sizeof(STSma));
if (tptr == NULL) {
tdbFree(pSmaVal);
metaCloseSmaCursor(pCur);
tdDestroyTSmaWrapper(pSW);
taosMemoryFreeClear(pSW);
return NULL;
}
pSW->tSma = tptr;
pBuf = pSmaVal;
if (tDecodeTSma(pBuf, pSW->tSma + pSW->number - 1) == NULL) {
tdbFree(pSmaVal);
metaCloseSmaCursor(pCur);
tdDestroyTSmaWrapper(pSW);
taosMemoryFreeClear(pSW);
return NULL;
}
tdbFree(pSmaVal);
continue;
}
break;
}
metaCloseSmaCursor(pCur);
return pSW;
#endif
}
int metaRemoveSmaFromDb(SMeta *pMeta, int64_t indexUid) {
// TODO
ASSERT(0);
#ifndef META_TDB_SMA_TEST
DBT key = {0};
key.data = (void *)indexName;
key.size = strlen(indexName);
metaDBWLock(pMeta->pDB);
// TODO: No guarantee of consistence.
// Use transaction or DB->sync() for some guarantee.
pMeta->pDB->pSmaDB->del(pMeta->pDB->pSmaDB, NULL, &key, 0);
metaDBULock(pMeta->pDB);
#endif
return 0;
}
int metaSaveSmaToDB(SMeta *pMeta, STSma *pSmaCfg) {
// TODO
// ASSERT(0);
#ifdef META_TDB_SMA_TEST
int32_t ret = 0;
SMetaDB *pMetaDb = pMeta->pDB;
void *pBuf = NULL, *qBuf = NULL;
void *key = {0}, *val = {0};
// save sma info
int32_t len = tEncodeTSma(NULL, pSmaCfg);
pBuf = taosMemoryCalloc(1, len);
if (pBuf == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
}
key = (void *)&pSmaCfg->indexUid;
qBuf = pBuf;
tEncodeTSma(&qBuf, pSmaCfg);
val = pBuf;
int32_t kLen = sizeof(pSmaCfg->indexUid);
int32_t vLen = POINTER_DISTANCE(qBuf, pBuf);
ret = tdbDbInsert(pMeta->pDB->pSmaDB, key, kLen, val, vLen, &pMetaDb->txn);
if (ret < 0) {
taosMemoryFreeClear(pBuf);
return -1;
}
// add sma idx
SSmaIdxKey smaIdxKey;
smaIdxKey.uid = pSmaCfg->tableUid;
smaIdxKey.smaUid = pSmaCfg->indexUid;
key = &smaIdxKey;
kLen = sizeof(smaIdxKey);
val = NULL;
vLen = 0;
ret = tdbDbInsert(pMeta->pDB->pSmaIdx, key, kLen, val, vLen, &pMetaDb->txn);
if (ret < 0) {
taosMemoryFreeClear(pBuf);
return -1;
}
// release
taosMemoryFreeClear(pBuf);
if (pMeta->pDB->pPool->size > 0) {
metaCommit(pMeta);
}
#endif
return 0;
}
/**
* @brief
*
* @param pMeta
* @param uid 0 means iterate all uids.
* @return SMSmaCursor*
*/
SMSmaCursor *metaOpenSmaCursor(SMeta *pMeta, tb_uid_t uid) {
// TODO
// ASSERT(0);
// return NULL;
#ifdef META_TDB_SMA_TEST
SMSmaCursor *pCur = NULL;
SMetaDB *pDB = pMeta->pDB;
int ret;
pCur = (SMSmaCursor *)taosMemoryCalloc(1, sizeof(*pCur));
if (pCur == NULL) {
return NULL;
}
pCur->uid = uid;
ret = tdbDbcOpen(pDB->pSmaIdx, &(pCur->pCur));
if ((ret != 0) || (pCur->pCur == NULL)) {
taosMemoryFree(pCur);
return NULL;
}
if (uid != 0) {
// TODO: move to the specific uid
}
return pCur;
#endif
}
/**
* @brief
*
* @param pCur
* @return int64_t smaIndexUid
*/
int64_t metaSmaCursorNext(SMSmaCursor *pCur) {
// TODO
// ASSERT(0);
// return NULL;
#ifdef META_TDB_SMA_TEST
int ret;
void *pBuf;
SSmaIdxKey *smaIdxKey;
ret = tdbDbcNext(pCur->pCur, &pCur->pKey, &pCur->kLen, &pCur->pVal, &pCur->vLen);
if (ret < 0) {
return 0;
}
smaIdxKey = pCur->pKey;
return smaIdxKey->smaUid;
#endif
}
void metaCloseSmaCursor(SMSmaCursor *pCur) {
// TODO
// ASSERT(0);
#ifdef META_TDB_SMA_TEST
if (pCur) {
if (pCur->pCur) {
tdbDbcClose(pCur->pCur);
}
taosMemoryFree(pCur);
}
#endif
}
static int metaEncodeSchema(void **buf, SSchemaWrapper *pSW) {
int tlen = 0;
SSchema *pSchema;
tlen += taosEncodeFixedU32(buf, pSW->nCols);
for (int i = 0; i < pSW->nCols; i++) {
pSchema = pSW->pSchema + i;
tlen += taosEncodeFixedI8(buf, pSchema->type);
tlen += taosEncodeFixedI8(buf, pSchema->flags);
tlen += taosEncodeFixedI16(buf, pSchema->colId);
tlen += taosEncodeFixedI32(buf, pSchema->bytes);
tlen += taosEncodeString(buf, pSchema->name);
}
return tlen;
}
static void *metaDecodeSchema(void *buf, SSchemaWrapper *pSW) {
SSchema *pSchema;
buf = taosDecodeFixedU32(buf, &pSW->nCols);
pSW->pSchema = (SSchema *)taosMemoryMalloc(sizeof(SSchema) * pSW->nCols);
for (int i = 0; i < pSW->nCols; i++) {
pSchema = pSW->pSchema + i;
buf = taosDecodeFixedI8(buf, &pSchema->type);
buf = taosSkipFixedLen(buf, sizeof(int8_t));
buf = taosDecodeFixedI16(buf, &pSchema->colId);
buf = taosDecodeFixedI32(buf, &pSchema->bytes);
buf = taosDecodeStringTo(buf, pSchema->name);
}
return buf;
}
static int metaEncodeSchemaEx(void **buf, SSchemaWrapper *pSW) {
int tlen = 0;
SSchema *pSchema;
tlen += taosEncodeFixedU32(buf, pSW->nCols);
for (int i = 0; i < pSW->nCols; ++i) {
pSchema = pSW->pSchema + i;
tlen += taosEncodeFixedI8(buf, pSchema->type);
tlen += taosEncodeFixedI8(buf, pSchema->flags);
tlen += taosEncodeFixedI16(buf, pSchema->colId);
tlen += taosEncodeFixedI32(buf, pSchema->bytes);
tlen += taosEncodeString(buf, pSchema->name);
}
return tlen;
}
static void *metaDecodeSchemaEx(void *buf, SSchemaWrapper *pSW, bool isGetEx) {
buf = taosDecodeFixedU32(buf, &pSW->nCols);
if (isGetEx) {
pSW->pSchema = (SSchema *)taosMemoryMalloc(sizeof(SSchema) * pSW->nCols);
for (int i = 0; i < pSW->nCols; i++) {
SSchema *pSchema = pSW->pSchema + i;
buf = taosDecodeFixedI8(buf, &pSchema->type);
buf = taosDecodeFixedI8(buf, &pSchema->flags);
buf = taosDecodeFixedI16(buf, &pSchema->colId);
buf = taosDecodeFixedI32(buf, &pSchema->bytes);
buf = taosDecodeStringTo(buf, pSchema->name);
}
} else {
pSW->pSchema = (SSchema *)taosMemoryMalloc(sizeof(SSchema) * pSW->nCols);
for (int i = 0; i < pSW->nCols; i++) {
SSchema *pSchema = pSW->pSchema + i;
buf = taosDecodeFixedI8(buf, &pSchema->type);
buf = taosSkipFixedLen(buf, sizeof(int8_t));
buf = taosDecodeFixedI16(buf, &pSchema->colId);
buf = taosDecodeFixedI32(buf, &pSchema->bytes);
buf = taosDecodeStringTo(buf, pSchema->name);
}
}
return buf;
}
static int metaEncodeTbInfo(void **buf, STbCfg *pTbCfg) {
int tsize = 0;
tsize += taosEncodeString(buf, pTbCfg->name);
tsize += taosEncodeFixedU32(buf, pTbCfg->ttl);
tsize += taosEncodeFixedU32(buf, pTbCfg->keep);
tsize += taosEncodeFixedU8(buf, pTbCfg->info);
if (pTbCfg->type == META_SUPER_TABLE) {
SSchemaWrapper sw = {.nCols = pTbCfg->stbCfg.nTagCols, .pSchema = pTbCfg->stbCfg.pTagSchema};
tsize += metaEncodeSchema(buf, &sw);
} else if (pTbCfg->type == META_CHILD_TABLE) {
tsize += taosEncodeFixedU64(buf, pTbCfg->ctbCfg.suid);
tsize += tdEncodeKVRow(buf, pTbCfg->ctbCfg.pTag);
} else if (pTbCfg->type == META_NORMAL_TABLE) {
// TODO
} else {
ASSERT(0);
}
return tsize;
}
static void *metaDecodeTbInfo(void *buf, STbCfg *pTbCfg) {
buf = taosDecodeString(buf, &(pTbCfg->name));
buf = taosDecodeFixedU32(buf, &(pTbCfg->ttl));
buf = taosDecodeFixedU32(buf, &(pTbCfg->keep));
buf = taosDecodeFixedU8(buf, &(pTbCfg->info));
if (pTbCfg->type == META_SUPER_TABLE) {
SSchemaWrapper sw;
buf = metaDecodeSchema(buf, &sw);
pTbCfg->stbCfg.nTagCols = sw.nCols;
pTbCfg->stbCfg.pTagSchema = sw.pSchema;
} else if (pTbCfg->type == META_CHILD_TABLE) {
buf = taosDecodeFixedU64(buf, &(pTbCfg->ctbCfg.suid));
buf = tdDecodeKVRow(buf, &(pTbCfg->ctbCfg.pTag));
} else if (pTbCfg->type == META_NORMAL_TABLE) {
// TODO
} else {
ASSERT(0);
}
return buf;
}
int metaCommit(SMeta *pMeta) {
TXN *pTxn = &pMeta->pDB->txn;
// Commit current txn
tdbCommit(pMeta->pDB->pEnv, pTxn);
tdbTxnClose(pTxn);
clearPool(pMeta->pDB->pPool);
// start a new txn
tdbTxnOpen(&pMeta->pDB->txn, 0, poolMalloc, poolFree, pMeta->pDB->pPool, TDB_TXN_WRITE | TDB_TXN_READ_UNCOMMITTED);
tdbBegin(pMeta->pDB->pEnv, pTxn);
return 0;
}
static SPoolMem *openPool() {
SPoolMem *pPool = (SPoolMem *)tdbOsMalloc(sizeof(*pPool));
pPool->prev = pPool->next = pPool;
pPool->size = 0;
return pPool;
}
static void clearPool(SPoolMem *pPool) {
SPoolMem *pMem;
do {
pMem = pPool->next;
if (pMem == pPool) break;
pMem->next->prev = pMem->prev;
pMem->prev->next = pMem->next;
pPool->size -= pMem->size;
tdbOsFree(pMem);
} while (1);
assert(pPool->size == 0);
}
static void closePool(SPoolMem *pPool) {
clearPool(pPool);
tdbOsFree(pPool);
}
static void *poolMalloc(void *arg, size_t size) {
void *ptr = NULL;
SPoolMem *pPool = (SPoolMem *)arg;
SPoolMem *pMem;
pMem = (SPoolMem *)tdbOsMalloc(sizeof(*pMem) + size);
if (pMem == NULL) {
assert(0);
}
pMem->size = sizeof(*pMem) + size;
pMem->next = pPool->next;
pMem->prev = pPool;
pPool->next->prev = pMem;
pPool->next = pMem;
pPool->size += pMem->size;
ptr = (void *)(&pMem[1]);
return ptr;
}
static void poolFree(void *arg, void *ptr) {
SPoolMem *pPool = (SPoolMem *)arg;
SPoolMem *pMem;
pMem = &(((SPoolMem *)ptr)[-1]);
pMem->next->prev = pMem->prev;
pMem->prev->next = pMem->next;
pPool->size -= pMem->size;
tdbOsFree(pMem);
}
#endif

109
source/dnode/vnode/src/tsdb/tsdbMemTable2.c
View File

@ -63,6 +63,8 @@ struct SMemSkipListCurosr {
SMemSkipListNode *pNodeC;
};
#define HASH_BUCKET(SUID, UID, NBUCKET) (TABS((SUID) + (UID)) % (NBUCKET))
#define SL_NODE_SIZE(l) (sizeof(SMemSkipListNode) + sizeof(SMemSkipListNode *) * (l)*2)
#define SL_NODE_HALF_SIZE(l) (sizeof(SMemSkipListNode) + sizeof(SMemSkipListNode *) * (l))
#define SL_NODE_FORWARD(n, l) ((n)->forwards[l])
@ -71,6 +73,8 @@ struct SMemSkipListCurosr {
#define SL_HEAD_NODE(sl) ((sl)->pHead)
#define SL_TAIL_NODE(sl) ((SMemSkipListNode *)&SL_NODE_FORWARD(SL_HEAD_NODE(sl), (sl)->maxLevel))
#define SL_HEAD_NODE_FORWARD(n, l) SL_NODE_FORWARD(n, l)
#define SL_TAIL_NODE_BACKWARD(n, l) SL_NODE_FORWARD(n, l)
// SMemTable
int32_t tsdbMemTableCreate2(STsdb *pTsdb, SMemTable **ppMemTb) {
@ -115,19 +119,14 @@ int32_t tsdbInsertData2(SMemTable *pMemTb, int64_t version, const SVSubmitBlk *p
STsdb *pTsdb = pMemTb->pTsdb;
SVnode *pVnode = pTsdb->pVnode;
SVBufPool *pPool = pVnode->inUse;
int32_t hash;
int32_t tlen;
uint8_t buf[16];
int32_t rlen;
const uint8_t *p;
SMemSkipListNode *pSlNode;
const STSRow *pTSRow;
SMemSkipListCurosr slc = {0};
tb_uid_t suid = pSubmitBlk->suid;
tb_uid_t uid = pSubmitBlk->uid;
int32_t iBucket;
// search hash
hash = (pSubmitBlk->suid + pSubmitBlk->uid) % pMemTb->nBucket;
for (pMemData = pMemTb->pBuckets[hash]; pMemData; pMemData = pMemData->pHashNext) {
if (pMemData->suid == pSubmitBlk->suid && pMemData->uid == pSubmitBlk->uid) break;
// search SMemData by hash
iBucket = HASH_BUCKET(suid, uid, pMemTb->nBucket);
for (pMemData = pMemTb->pBuckets[iBucket]; pMemData; pMemData = pMemData->pHashNext) {
if (pMemData->suid == suid && pMemData->uid == uid) break;
}
// create pMemData if need
@ -143,8 +142,8 @@ int32_t tsdbInsertData2(SMemTable *pMemTb, int64_t version, const SVSubmitBlk *p
}
pMemData->pHashNext = NULL;
pMemData->suid = pSubmitBlk->suid;
pMemData->uid = pSubmitBlk->uid;
pMemData->suid = suid;
pMemData->uid = uid;
pMemData->minKey = TSKEY_MAX;
pMemData->maxKey = TSKEY_MIN;
pMemData->minVer = -1;
@ -159,55 +158,61 @@ int32_t tsdbInsertData2(SMemTable *pMemTb, int64_t version, const SVSubmitBlk *p
pHead->level = maxLevel;
pTail->level = maxLevel;
for (int iLevel = 0; iLevel < maxLevel; iLevel++) {
SL_NODE_FORWARD(pHead, iLevel) = pTail;
SL_NODE_FORWARD(pTail, iLevel) = pHead;
SL_HEAD_NODE_FORWARD(pHead, iLevel) = pTail;
SL_TAIL_NODE_BACKWARD(pTail, iLevel) = pHead;
}
// add to MemTable
hash = (pMemData->suid + pMemData->uid) % pMemTb->nBucket;
pMemData->pHashNext = pMemTb->pBuckets[hash];
pMemTb->pBuckets[hash] = pMemData;
// add to hash
if (pMemTb->nHash >= pMemTb->nBucket) {
// rehash (todo)
}
iBucket = HASH_BUCKET(suid, uid, pMemTb->nBucket);
pMemData->pHashNext = pMemTb->pBuckets[iBucket];
pMemTb->pBuckets[iBucket] = pMemData;
pMemTb->nHash++;
// sort organize (todo)
}
// loop to insert data to skiplist
#if 0
tsdbMemSkipListCursorOpen(&slc, &pMemData->sl);
p = pSubmitBlk->pData;
for (;;) {
if (p - (uint8_t *)pSubmitBlk->pData >= pSubmitBlk->nData) break;
// do insert data to SMemData
SMemSkipListCurosr slc = {0};
const uint8_t *p = pSubmitBlk->pData;
const uint8_t *pt = p;
p = tGetBinary(p, &pTSRow, &rlen);
// tsdbMemSkipListCursorOpen(&slc, &pMemData->sl);
for (; p - pSubmitBlk->pData < pSubmitBlk->nData;) {
// if (p - (uint8_t *)pSubmitBlk->pData >= pSubmitBlk->nData) break;
// check the row (todo)
// const uint8_t *pt = p;
// p = tGetBinary(p, &pTSRow, &rlen);
// move the cursor to position to write (todo)
int32_t c;
tsdbMemSkipListCursorMoveTo(&slc, pTSRow, version, &c);
ASSERT(c);
// // check the row (todo)
// encode row
int8_t level = tsdbMemSkipListRandLevel(&pMemData->sl);
int32_t tsize = SL_NODE_SIZE(level) + sizeof(version) + (p - pt);
pSlNode = vnodeBufPoolMalloc(pPool, tsize);
pSlNode->level = level;
// // move the cursor to position to write (todo)
// int32_t c;
// tsdbMemSkipListCursorMoveTo(&slc, pTSRow, version, &c);
// ASSERT(c);
uint8_t *pData = SL_NODE_DATA(pSlNode);
*(int64_t *)pData = version;
pData += sizeof(version);
memcpy(pData, pt, p - pt);
// // encode row
// int8_t level = tsdbMemSkipListRandLevel(&pMemData->sl);
// int32_t tsize = SL_NODE_SIZE(level) + sizeof(version) + (p - pt);
// pSlNode = vnodeBufPoolMalloc(pPool, tsize);
// pSlNode->level = level;
// insert row
tsdbMemSkipListCursorPut(&slc, pSlNode);
// uint8_t *pData = SL_NODE_DATA(pSlNode);
// *(int64_t *)pData = version;
// pData += sizeof(version);
// memcpy(pData, pt, p - pt);
// // insert row
// tsdbMemSkipListCursorPut(&slc, pSlNode);
// // update status
// if (pTSRow->ts < pMemData->minKey) pMemData->minKey = pTSRow->ts;
// if (pTSRow->ts > pMemData->maxKey) pMemData->maxKey = pTSRow->ts;
}
// tsdbMemSkipListCursorClose(&slc);
// update status
if (pTSRow->ts < pMemData->minKey) pMemData->minKey = pTSRow->ts;
if (pTSRow->ts > pMemData->maxKey) pMemData->maxKey = pTSRow->ts;
}
tsdbMemSkipListCursorClose(&slc);
#endif
if (pMemData->minVer == -1) pMemData->minVer = version;
if (pMemData->maxVer == -1 || pMemData->maxVer < version) pMemData->maxVer = version;
@ -218,7 +223,3 @@ int32_t tsdbInsertData2(SMemTable *pMemTb, int64_t version, const SVSubmitBlk *p
return 0;
}
// SMemData
// SMemSkipList

4
source/libs/executor/CMakeLists.txt
View File

@ -17,6 +17,6 @@ target_include_directories(
PRIVATE "${CMAKE_CURRENT_SOURCE_DIR}/inc"
)
#if(${BUILD_TEST})
if(${BUILD_TEST})
ADD_SUBDIRECTORY(test)
#endif(${BUILD_TEST})
endif(${BUILD_TEST})

4
source/libs/sync/src/syncMessage.c
View File

@ -411,7 +411,7 @@ SyncPing* syncPingDeserialize3(void* buf, int32_t bufLen) {
}
uint64_t len;
char* data = NULL;
if (tDecodeBinary(&decoder, (const void**)(&data), &len) < 0) {
if (tDecodeBinary(&decoder, (const uint8_t**)(&data), &len) < 0) {
return NULL;
}
assert(len = pMsg->dataLen);
@ -670,7 +670,7 @@ SyncPingReply* syncPingReplyDeserialize3(void* buf, int32_t bufLen) {
}
uint64_t len;
char* data = NULL;
if (tDecodeBinary(&decoder, (const void**)(&data), &len) < 0) {
if (tDecodeBinary(&decoder, (const uint8_t**)(&data), &len) < 0) {
return NULL;
}
assert(len = pMsg->dataLen);