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TDengine

taosdata / TDengine
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Star 22016
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T
TDengine
未验证 提交 93447107 编写于 作者: S Shengliang Guan 提交者: GitHub
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Merge pull request #18064 from taosdata/perf/insert_optimize 

perf: insert optimize
上级 e26c474f 33861a9d
隐藏空白更改
内联 并排
Showing with 229 addition and 38 deletion
source/dnode/vnode/src/inc/vnd.h
浏览文件 @ 93447107
...@@ -61,14 +61,14 @@ struct SVBufPoolNode { ...@@ -61,14 +61,14 @@ struct SVBufPoolNode {
}; };
struct SVBufPool { struct SVBufPool {
SVBufPool* next; SVBufPool* next;
SVnode* pVnode; SVnode* pVnode;
volatile int32_t nRef; TdThreadSpinlock* lock;
TdThreadSpinlock lock; volatile int32_t nRef;
int64_t size; int64_t size;
uint8_t* ptr; uint8_t* ptr;
SVBufPoolNode* pTail; SVBufPoolNode* pTail;
SVBufPoolNode node; SVBufPoolNode node;
}; };
int32_t vnodeOpenBufPool(SVnode* pVnode); int32_t vnodeOpenBufPool(SVnode* pVnode);
......
source/dnode/vnode/src/tsdb/tsdbMemTable.c
浏览文件 @ 93447107
...@@ -458,11 +458,10 @@ static void tbDataMovePosTo(STbData *pTbData, SMemSkipListNode **pos, TSDBKEY *p ...@@ -458,11 +458,10 @@ static void tbDataMovePosTo(STbData *pTbData, SMemSkipListNode **pos, TSDBKEY *p
} }
static FORCE_INLINE int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl) { static FORCE_INLINE int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl) {
int8_t level = 1; int8_t level = 1;
int8_t tlevel = TMIN(pSl->maxLevel, pSl->level + 1); int8_t tlevel = TMIN(pSl->maxLevel, pSl->level + 1);
const uint32_t factor = 4;
while ((taosRandR(&pSl->seed) % factor) == 0 && level < tlevel) { while ((taosRandR(&pSl->seed) & 0x3) == 0 && level < tlevel) {
level++; level++;
} }
......
source/dnode/vnode/src/tsdb/tsdbUtil.c
浏览文件 @ 93447107
...@@ -1015,6 +1015,191 @@ _err: ...@@ -1015,6 +1015,191 @@ _err:
return code; return code;
} }
static int32_t tBlockDataAppendBlockRow(SBlockData *pBlockData, SBlockData *pBlockDataFrom, int32_t iRow) {
int32_t code = 0;
SColVal cv = {0};
int32_t iColDataFrom = 0;
SColData *pColDataFrom =
(iColDataFrom < pBlockDataFrom->nColData) ? &((SColData *)pBlockDataFrom->aColData->pData)[iColDataFrom] : NULL;
for (int32_t iColDataTo = 0; iColDataTo < pBlockData->nColData; iColDataTo++) {
SColData *pColDataTo = &((SColData *)pBlockData->aColData->pData)[iColDataTo];
while (pColDataFrom && pColDataFrom->cid < pColDataTo->cid) {
iColDataFrom++;
pColDataFrom = (iColDataFrom < pBlockDataFrom->nColData)
? &((SColData *)pBlockDataFrom->aColData->pData)[iColDataFrom]
: NULL;
}
if (pColDataFrom == NULL || pColDataFrom->cid > pColDataTo->cid) {
code = tColDataAppendValue(pColDataTo, &COL_VAL_NONE(pColDataTo->cid, pColDataTo->type));
if (code) goto _exit;
} else {
tColDataGetValue(pColDataFrom, iRow, &cv);
code = tColDataAppendValue(pColDataTo, &cv);
if (code) goto _exit;
iColDataFrom++;
pColDataFrom = (iColDataFrom < pBlockDataFrom->nColData)
? &((SColData *)pBlockDataFrom->aColData->pData)[iColDataFrom]
: NULL;
}
}
_exit:
return code;
}
static int32_t tBlockDataAppendTPRow(SBlockData *pBlockData, STSRow *pRow, STSchema *pTSchema) {
int32_t code = 0;
int32_t iTColumn = 1;
STColumn *pTColumn = (iTColumn < pTSchema->numOfCols) ? &pTSchema->columns[iTColumn] : NULL;
void *pBitmap = pRow->statis ? tdGetBitmapAddrTp(pRow, pTSchema->flen) : NULL;
for (int32_t iColData = 0; iColData < pBlockData->nColData; iColData++) {
SColData *pColData = &((SColData *)pBlockData->aColData->pData)[iColData];
while (pTColumn && pTColumn->colId < pColData->cid) {
iTColumn++;
pTColumn = (iTColumn < pTSchema->numOfCols) ? &pTSchema->columns[iTColumn] : NULL;
}
if (pTColumn == NULL || pTColumn->colId > pColData->cid) {
code = tColDataAppendValue(pColData, &COL_VAL_NONE(pColData->cid, pColData->type));
if (code) goto _exit;
} else {
ASSERT(pTColumn->type == pColData->type);
SColVal cv = {.cid = pTColumn->colId, .type = pTColumn->type};
if (pRow->statis) {
TDRowValT vt = TD_VTYPE_MAX;
tdGetBitmapValTypeII(pBitmap, iTColumn - 1, &vt);
if (vt == TD_VTYPE_NORM) {
cv.flag = CV_FLAG_VALUE;
if (IS_VAR_DATA_TYPE(pTColumn->type)) {
void *pData = (char*)pRow + *(int32_t *)(pRow->data + pTColumn->offset - sizeof(TSKEY));
cv.value.nData = varDataLen(pData);
cv.value.pData = varDataVal(pData);
} else {
memcpy(&cv.value.val, pRow->data + pTColumn->offset - sizeof(TSKEY), pTColumn->bytes);
}
code = tColDataAppendValue(pColData, &cv);
if (code) goto _exit;
} else if (vt == TD_VTYPE_NONE) {
code = tColDataAppendValue(pColData, &COL_VAL_NONE(pColData->cid, pColData->type));
if (code) goto _exit;
} else if (vt == TD_VTYPE_NULL) {
code = tColDataAppendValue(pColData, &COL_VAL_NULL(pColData->cid, pColData->type));
if (code) goto _exit;
} else {
ASSERT(0);
}
} else {
cv.flag = CV_FLAG_VALUE;
if (IS_VAR_DATA_TYPE(pTColumn->type)) {
void *pData = (char*)pRow + *(int32_t *)(pRow->data + pTColumn->offset - sizeof(TSKEY));
cv.value.nData = varDataLen(pData);
cv.value.pData = varDataVal(pData);
} else {
memcpy(&cv.value.val, pRow->data + pTColumn->offset - sizeof(TSKEY), pTColumn->bytes);
}
code = tColDataAppendValue(pColData, &cv);
if (code) goto _exit;
}
iTColumn++;
pTColumn = (iTColumn < pTSchema->numOfCols) ? &pTSchema->columns[iTColumn] : NULL;
}
}
_exit:
return code;
}
static int32_t tBlockDataAppendKVRow(SBlockData *pBlockData, STSRow *pRow, STSchema *pTSchema) {
int32_t code = 0;
col_id_t kvIter = 0;
col_id_t nKvCols = tdRowGetNCols(pRow) - 1;
void *pColIdx = TD_ROW_COL_IDX(pRow);
void *pBitmap = tdGetBitmapAddrKv(pRow, tdRowGetNCols(pRow));
int32_t iTColumn = 1;
STColumn *pTColumn = (iTColumn < pTSchema->numOfCols) ? &pTSchema->columns[iTColumn] : NULL;
for (int32_t iColData = 0; iColData < pBlockData->nColData; iColData++) {
SColData *pColData = &((SColData *)pBlockData->aColData->pData)[iColData];
while (pTColumn && pTColumn->colId < pColData->cid) {
iTColumn++;
pTColumn = (iTColumn < pTSchema->numOfCols) ? &pTSchema->columns[iTColumn] : NULL;
}
if (pTColumn == NULL || pTColumn->colId > pColData->cid) {
code = tColDataAppendValue(pColData, &COL_VAL_NONE(pColData->cid, pColData->type));
if (code) goto _exit;
} else {
ASSERT(pTColumn->type == pColData->type);
SColVal cv = {.cid = pTColumn->colId, .type = pTColumn->type};
TDRowValT vt = TD_VTYPE_NONE; // default is NONE
SKvRowIdx *pKvIdx = NULL;
while (kvIter < nKvCols) {
pKvIdx = (SKvRowIdx *)POINTER_SHIFT(pColIdx, kvIter * sizeof(SKvRowIdx));
if (pKvIdx->colId == pTColumn->colId) {
tdGetBitmapValTypeII(pBitmap, kvIter, &vt);
++kvIter;
break;
} else if (pKvIdx->colId > pTColumn->colId) {
vt = TD_VTYPE_NONE;
break;
} else {
++kvIter;
}
}
if (vt == TD_VTYPE_NORM) {
cv.flag = CV_FLAG_VALUE;
void *pData = POINTER_SHIFT(pRow, pKvIdx->offset);
if (IS_VAR_DATA_TYPE(pTColumn->type)) {
cv.value.nData = varDataLen(pData);
cv.value.pData = varDataVal(pData);
} else {
memcpy(&cv.value.val, pData, pTColumn->bytes);
}
code = tColDataAppendValue(pColData, &cv);
if (code) goto _exit;
} else if (vt == TD_VTYPE_NONE) {
code = tColDataAppendValue(pColData, &COL_VAL_NONE(pColData->cid, pColData->type));
if (code) goto _exit;
} else if (vt == TD_VTYPE_NULL) {
code = tColDataAppendValue(pColData, &COL_VAL_NULL(pColData->cid, pColData->type));
if (code) goto _exit;
} else {
ASSERT(0);
}
iTColumn++;
pTColumn = (iTColumn < pTSchema->numOfCols) ? &pTSchema->columns[iTColumn] : NULL;
}
}
_exit:
return code;
}
int32_t tBlockDataAppendRow(SBlockData *pBlockData, TSDBROW *pRow, STSchema *pTSchema, int64_t uid) { int32_t tBlockDataAppendRow(SBlockData *pBlockData, TSDBROW *pRow, STSchema *pTSchema, int64_t uid) {
int32_t code = 0; int32_t code = 0;
...@@ -1036,27 +1221,20 @@ int32_t tBlockDataAppendRow(SBlockData *pBlockData, TSDBROW *pRow, STSchema *pTS ...@@ -1036,27 +1221,20 @@ int32_t tBlockDataAppendRow(SBlockData *pBlockData, TSDBROW *pRow, STSchema *pTS
if (code) goto _err; if (code) goto _err;
pBlockData->aTSKEY[pBlockData->nRow] = TSDBROW_TS(pRow); pBlockData->aTSKEY[pBlockData->nRow] = TSDBROW_TS(pRow);
// OTHER SColVal cv = {0};
SRowIter rIter = {0}; if (pRow->type == 0) {
SColVal *pColVal; if (TD_IS_TP_ROW(pRow->pTSRow)) {
code = tBlockDataAppendTPRow(pBlockData, pRow->pTSRow, pTSchema);
tRowIterInit(&rIter, pRow, pTSchema);
pColVal = tRowIterNext(&rIter);
for (int32_t iColData = 0; iColData < pBlockData->nColData; iColData++) {
SColData *pColData = &((SColData *)pBlockData->aColData->pData)[iColData];
while (pColVal && pColVal->cid < pColData->cid) {
pColVal = tRowIterNext(&rIter);
}
if (pColVal == NULL || pColVal->cid > pColData->cid) {
code = tColDataAppendValue(pColData, &COL_VAL_NONE(pColData->cid, pColData->type));
if (code) goto _err; if (code) goto _err;
} else { } else if (TD_IS_KV_ROW(pRow->pTSRow)) {
code = tColDataAppendValue(pColData, pColVal); code = tBlockDataAppendKVRow(pBlockData, pRow->pTSRow, pTSchema);
if (code) goto _err; if (code) goto _err;
pColVal = tRowIterNext(&rIter); } else {
ASSERT(0);
} }
} else {
code = tBlockDataAppendBlockRow(pBlockData, pRow->pBlockData, pRow->iRow);
if (code) goto _err;
} }
pBlockData->nRow++; pBlockData->nRow++;
......
source/dnode/vnode/src/vnd/vnodeBufPool.c
浏览文件 @ 93447107
...@@ -27,10 +27,21 @@ static int vnodeBufPoolCreate(SVnode *pVnode, int64_t size, SVBufPool **ppPool) ...@@ -27,10 +27,21 @@ static int vnodeBufPoolCreate(SVnode *pVnode, int64_t size, SVBufPool **ppPool)
return -1; return -1;
} }
if (taosThreadSpinInit(&pPool->lock, 0) != 0) { if (VND_IS_RSMA(pVnode)) {
taosMemoryFree(pPool); pPool->lock = taosMemoryMalloc(sizeof(TdThreadSpinlock));
terrno = TAOS_SYSTEM_ERROR(errno); if (!pPool->lock) {
return -1; taosMemoryFree(pPool);
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
}
if (taosThreadSpinInit(pPool->lock, 0) != 0) {
taosMemoryFree((void*)pPool->lock);
taosMemoryFree(pPool);
terrno = TAOS_SYSTEM_ERROR(errno);
return -1;
}
} else {
pPool->lock = NULL;
} }
pPool->next = NULL; pPool->next = NULL;
...@@ -49,7 +60,10 @@ static int vnodeBufPoolCreate(SVnode *pVnode, int64_t size, SVBufPool **ppPool) ...@@ -49,7 +60,10 @@ static int vnodeBufPoolCreate(SVnode *pVnode, int64_t size, SVBufPool **ppPool)
static int vnodeBufPoolDestroy(SVBufPool *pPool) { static int vnodeBufPoolDestroy(SVBufPool *pPool) {
vnodeBufPoolReset(pPool); vnodeBufPoolReset(pPool);
taosThreadSpinDestroy(&pPool->lock); if (pPool->lock) {
taosThreadSpinDestroy(pPool->lock);
taosMemoryFree((void*)pPool->lock);
}
taosMemoryFree(pPool); taosMemoryFree(pPool);
return 0; return 0;
} }
...@@ -114,7 +128,7 @@ void *vnodeBufPoolMalloc(SVBufPool *pPool, int size) { ...@@ -114,7 +128,7 @@ void *vnodeBufPoolMalloc(SVBufPool *pPool, int size) {
void *p = NULL; void *p = NULL;
ASSERT(pPool != NULL); ASSERT(pPool != NULL);
taosThreadSpinLock(&pPool->lock); if (pPool->lock) taosThreadSpinLock(pPool->lock);
if (pPool->node.size >= pPool->ptr - pPool->node.data + size) { if (pPool->node.size >= pPool->ptr - pPool->node.data + size) {
// allocate from the anchor node // allocate from the anchor node
p = pPool->ptr; p = pPool->ptr;
...@@ -125,7 +139,7 @@ void *vnodeBufPoolMalloc(SVBufPool *pPool, int size) { ...@@ -125,7 +139,7 @@ void *vnodeBufPoolMalloc(SVBufPool *pPool, int size) {
pNode = taosMemoryMalloc(sizeof(*pNode) + size); pNode = taosMemoryMalloc(sizeof(*pNode) + size);
if (pNode == NULL) { if (pNode == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY; terrno = TSDB_CODE_OUT_OF_MEMORY;
taosThreadSpinUnlock(&pPool->lock); if (pPool->lock) taosThreadSpinUnlock(pPool->lock);
return NULL; return NULL;
} }
...@@ -138,7 +152,7 @@ void *vnodeBufPoolMalloc(SVBufPool *pPool, int size) { ...@@ -138,7 +152,7 @@ void *vnodeBufPoolMalloc(SVBufPool *pPool, int size) {
pPool->size = pPool->size + sizeof(*pNode) + size; pPool->size = pPool->size + sizeof(*pNode) + size;
} }
taosThreadSpinUnlock(&pPool->lock); if (pPool->lock) taosThreadSpinUnlock(pPool->lock);
return p; return p;
} }
......
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