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Merge branch '3.0' into feature/tq

This commit is contained in:
Liu Jicong 2022-05-10 23:58:16 +08:00
parent ac460915d6 7e16b11761
commit 3b56457f68
114 changed files with 3381 additions and 3372 deletions
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8
cmake/cmake.define
View File

@ -75,6 +75,14 @@ IF (TD_WINDOWS)
SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} ${COMMON_FLAGS}")
ELSE ()
IF (${COVER} MATCHES "true")
MESSAGE(STATUS "Test coverage mode, add extra flags")
SET(GCC_COVERAGE_COMPILE_FLAGS "-fprofile-arcs -ftest-coverage")
SET(GCC_COVERAGE_LINK_FLAGS "-lgcov --coverage")
SET(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} ${GCC_COVERAGE_COMPILE_FLAGS} ${GCC_COVERAGE_LINK_FLAGS}")
SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} ${GCC_COVERAGE_COMPILE_FLAGS} ${GCC_COVERAGE_LINK_FLAGS}")
ENDIF ()
IF (${SANITIZER} MATCHES "true")
SET(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Werror -Werror=return-type -fPIC -gdwarf-2 -fsanitize=address -fsanitize=undefined -fno-sanitize-recover=all -fsanitize=float-divide-by-zero -fsanitize=float-cast-overflow -fno-sanitize=null -fno-sanitize=alignment -static-libasan -g3")
SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Werror -Werror=return-type -fPIC -gdwarf-2 -fsanitize=address -fsanitize=undefined -fno-sanitize-recover=all -fsanitize=float-divide-by-zero -fsanitize=float-cast-overflow -fno-sanitize=null -fno-sanitize=alignment -static-libasan -g3")

45
include/common/tdata.h Normal file
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@ -0,0 +1,45 @@
/*
* 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/>.
*/
#ifndef _TD_TDATA_H_
#define _TD_TDATA_H_
#ifdef __cplusplus
extern "C" {
#endif
#include "os.h"
typedef struct STaosData TDATA, tdata_t;
typedef enum {
TAOS_META_STABLE_DATA = 0, // super table meta
TAOS_META_TABLE_DATA, // non-super table meta
TAOS_TS_ROW_DATA, // row time-series data
TAOS_TS_COL_DATA, // col time-series data
TAOS_DATA_MAX
} ETaosDataT;
struct STaosData {
ETaosDataT type;
uint32_t nPayload;
uint8_t *pPayload;
};
#ifdef __cplusplus
}
#endif
#endif /*_TD_TDATA_H_*/

410
include/common/tdataformat.h
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@ -150,29 +150,6 @@ int32_t tdAddColToSchema(STSchemaBuilder *pBuilder, int8_t type, int8_t flags,
STSchema *tdGetSchemaFromBuilder(STSchemaBuilder *pBuilder);
// ----------------- Semantic timestamp key definition
#ifdef TD_2_0
typedef uint64_t TKEY;
#define TKEY_INVALID UINT64_MAX
#define TKEY_NULL TKEY_INVALID
#define TKEY_NEGATIVE_FLAG (((TKEY)1) << 63)
#define TKEY_DELETE_FLAG (((TKEY)1) << 62)
#define TKEY_VALUE_FILTER (~(TKEY_NEGATIVE_FLAG | TKEY_DELETE_FLAG))
#define TKEY_IS_NEGATIVE(tkey) (((tkey)&TKEY_NEGATIVE_FLAG) != 0)
#define TKEY_IS_DELETED(tkey) (((tkey)&TKEY_DELETE_FLAG) != 0)
#define tdSetTKEYDeleted(tkey) ((tkey) | TKEY_DELETE_FLAG)
#define tdGetTKEY(key) (((TKEY)TABS(key)) | (TKEY_NEGATIVE_FLAG & (TKEY)(key)))
#define tdGetKey(tkey) (((TSKEY)((tkey)&TKEY_VALUE_FILTER)) * (TKEY_IS_NEGATIVE(tkey) ? -1 : 1))
#define MIN_TS_KEY ((TSKEY)0x8000000000000001)
#define MAX_TS_KEY ((TSKEY)0x3fffffffffffffff)
#define TD_TO_TKEY(key) tdGetTKEY(((key) < MIN_TS_KEY) ? MIN_TS_KEY : (((key) > MAX_TS_KEY) ? MAX_TS_KEY : key))
#else
// typedef uint64_t TKEY;
#define TKEY TSKEY
@ -192,8 +169,6 @@ typedef uint64_t TKEY;
#define TD_TO_TKEY(key) tdGetTKEY(((key) < MIN_TS_KEY) ? MIN_TS_KEY : (((key) > MAX_TS_KEY) ? MAX_TS_KEY : key))
#endif
static FORCE_INLINE TKEY keyToTkey(TSKEY key) {
TSKEY lkey = key;
if (key > MAX_TS_KEY) {
@ -218,157 +193,6 @@ static FORCE_INLINE int32_t tkeyComparFn(const void *tkey1, const void *tkey2) {
}
}
#if 0
// ----------------- Data row structure
/* A data row, the format is like below:
* |<------------------------------------------------ len ---------------------------------->|
* |<-- Head -->|<--------- flen -------------->| |
* +---------------------+---------------------------------+---------------------------------+
* | uint16_t | int16_t | | |
* +----------+----------+---------------------------------+---------------------------------+
* | len | sversion | First part | Second part |
* +----------+----------+---------------------------------+---------------------------------+
*
* NOTE: timestamp in this row structure is TKEY instead of TSKEY
*/
typedef void *SDataRow;
#define TD_DATA_ROW_HEAD_SIZE (sizeof(uint16_t) + sizeof(int16_t))
#define dataRowLen(r) (*(TDRowLenT *)(r)) // 0~65535
#define dataRowEnd(r) POINTER_SHIFT(r, dataRowLen(r))
#define dataRowVersion(r) (*(int16_t *)POINTER_SHIFT(r, sizeof(int16_t)))
#define dataRowTuple(r) POINTER_SHIFT(r, TD_DATA_ROW_HEAD_SIZE)
#define dataRowTKey(r) (*(TKEY *)(dataRowTuple(r)))
#define dataRowKey(r) tdGetKey(dataRowTKey(r))
#define dataRowSetLen(r, l) (dataRowLen(r) = (l))
#define dataRowSetVersion(r, v) (dataRowVersion(r) = (v))
#define dataRowCpy(dst, r) memcpy((dst), (r), dataRowLen(r))
#define dataRowMaxBytesFromSchema(s) (schemaTLen(s) + TD_DATA_ROW_HEAD_SIZE)
#define dataRowDeleted(r) TKEY_IS_DELETED(dataRowTKey(r))
SDataRow tdNewDataRowFromSchema(STSchema *pSchema);
void tdFreeDataRow(SDataRow row);
void tdInitDataRow(SDataRow row, STSchema *pSchema);
SDataRow tdDataRowDup(SDataRow row);
// offset here not include dataRow header length
static FORCE_INLINE int32_t tdAppendDataColVal(SDataRow row, const void *value, bool isCopyVarData, int8_t type,
int32_t offset) {
assert(value != NULL);
int32_t toffset = offset + TD_DATA_ROW_HEAD_SIZE;
if (IS_VAR_DATA_TYPE(type)) {
*(VarDataOffsetT *)POINTER_SHIFT(row, toffset) = dataRowLen(row);
if (isCopyVarData) {
memcpy(POINTER_SHIFT(row, dataRowLen(row)), value, varDataTLen(value));
}
dataRowLen(row) += varDataTLen(value);
} else {
if (offset == 0) {
assert(type == TSDB_DATA_TYPE_TIMESTAMP);
TKEY tvalue = tdGetTKEY(*(TSKEY *)value);
memcpy(POINTER_SHIFT(row, toffset), (const void *)(&tvalue), TYPE_BYTES[type]);
} else {
memcpy(POINTER_SHIFT(row, toffset), value, TYPE_BYTES[type]);
}
}
return 0;
}
// offset here not include dataRow header length
static FORCE_INLINE int32_t tdAppendColVal(SDataRow row, const void *value, int8_t type, int32_t offset) {
return tdAppendDataColVal(row, value, true, type, offset);
}
// NOTE: offset here including the header size
static FORCE_INLINE void *tdGetRowDataOfCol(SDataRow row, int8_t type, int32_t offset) {
if (IS_VAR_DATA_TYPE(type)) {
return POINTER_SHIFT(row, *(VarDataOffsetT *)POINTER_SHIFT(row, offset));
} else {
return POINTER_SHIFT(row, offset);
}
}
static FORCE_INLINE void *tdGetPtrToCol(SDataRow row, STSchema *pSchema, int32_t idx) {
return POINTER_SHIFT(row, TD_DATA_ROW_HEAD_SIZE + pSchema->columns[idx].offset);
}
static FORCE_INLINE void *tdGetColOfRowBySchema(SDataRow row, STSchema *pSchema, int32_t idx) {
int16_t offset = TD_DATA_ROW_HEAD_SIZE + pSchema->columns[idx].offset;
int8_t type = pSchema->columns[idx].type;
return tdGetRowDataOfCol(row, type, offset);
}
static FORCE_INLINE bool tdIsColOfRowNullBySchema(SDataRow row, STSchema *pSchema, int32_t idx) {
int16_t offset = TD_DATA_ROW_HEAD_SIZE + pSchema->columns[idx].offset;
int8_t type = pSchema->columns[idx].type;
return isNull(tdGetRowDataOfCol(row, type, offset), type);
}
static FORCE_INLINE void tdSetColOfRowNullBySchema(SDataRow row, STSchema *pSchema, int32_t idx) {
int16_t offset = TD_DATA_ROW_HEAD_SIZE + pSchema->columns[idx].offset;
int8_t type = pSchema->columns[idx].type;
int16_t bytes = pSchema->columns[idx].bytes;
setNull(tdGetRowDataOfCol(row, type, offset), type, bytes);
}
static FORCE_INLINE void tdCopyColOfRowBySchema(SDataRow dst, STSchema *pDstSchema, int32_t dstIdx, SDataRow src,
STSchema *pSrcSchema, int32_t srcIdx) {
int8_t type = pDstSchema->columns[dstIdx].type;
assert(type == pSrcSchema->columns[srcIdx].type);
void *pData = tdGetPtrToCol(dst, pDstSchema, dstIdx);
void *value = tdGetPtrToCol(src, pSrcSchema, srcIdx);
switch (type) {
case TSDB_DATA_TYPE_BINARY:
case TSDB_DATA_TYPE_NCHAR:
*(VarDataOffsetT *)pData = *(VarDataOffsetT *)value;
pData = POINTER_SHIFT(dst, *(VarDataOffsetT *)pData);
value = POINTER_SHIFT(src, *(VarDataOffsetT *)value);
memcpy(pData, value, varDataTLen(value));
break;
case TSDB_DATA_TYPE_NULL:
case TSDB_DATA_TYPE_BOOL:
case TSDB_DATA_TYPE_TINYINT:
case TSDB_DATA_TYPE_UTINYINT:
*(uint8_t *)pData = *(uint8_t *)value;
break;
case TSDB_DATA_TYPE_SMALLINT:
case TSDB_DATA_TYPE_USMALLINT:
*(uint16_t *)pData = *(uint16_t *)value;
break;
case TSDB_DATA_TYPE_INT:
case TSDB_DATA_TYPE_UINT:
*(uint32_t *)pData = *(uint32_t *)value;
break;
case TSDB_DATA_TYPE_BIGINT:
case TSDB_DATA_TYPE_UBIGINT:
*(uint64_t *)pData = *(uint64_t *)value;
break;
case TSDB_DATA_TYPE_FLOAT:
SET_FLOAT_PTR(pData, value);
break;
case TSDB_DATA_TYPE_DOUBLE:
SET_DOUBLE_PTR(pData, value);
break;
case TSDB_DATA_TYPE_TIMESTAMP:
if (pSrcSchema->columns[srcIdx].colId == PRIMARYKEY_TIMESTAMP_COL_ID) {
*(TSKEY *)pData = tdGetKey(*(TKEY *)value);
} else {
*(TSKEY *)pData = *(TSKEY *)value;
}
break;
default:
memcpy(pData, value, pSrcSchema->columns[srcIdx].bytes);
}
}
#endif
// ----------------- Data column structure
// SDataCol arrangement: data => bitmap => dataOffset
typedef struct SDataCol {
@ -398,29 +222,6 @@ void *dataColSetOffset(SDataCol *pCol, int32_t nEle);
bool isNEleNull(SDataCol *pCol, int32_t nEle);
#if 0
// Get the data pointer from a column-wised data
static FORCE_INLINE const void *tdGetColDataOfRow(SDataCol *pCol, int32_t row) {
if (isAllRowsNull(pCol)) {
return getNullValue(pCol->type);
}
if (IS_VAR_DATA_TYPE(pCol->type)) {
return POINTER_SHIFT(pCol->pData, pCol->dataOff[row]);
} else {
return POINTER_SHIFT(pCol->pData, TYPE_BYTES[pCol->type] * row);
}
}
static FORCE_INLINE int32_t dataColGetNEleLen(SDataCol *pDataCol, int32_t rows) {
assert(rows > 0);
if (IS_VAR_DATA_TYPE(pDataCol->type)) {
return pDataCol->dataOff[rows - 1] + varDataTLen(tdGetColDataOfRow(pDataCol, rows - 1));
} else {
return TYPE_BYTES[pDataCol->type] * rows;
}
}
#endif
typedef struct {
col_id_t maxCols; // max number of columns
col_id_t numOfCols; // Total number of cols
@ -479,7 +280,8 @@ void tdResetDataCols(SDataCols *pCols);
int32_t tdInitDataCols(SDataCols *pCols, STSchema *pSchema);
SDataCols *tdDupDataCols(SDataCols *pCols, bool keepData);
SDataCols *tdFreeDataCols(SDataCols *pCols);
int32_t tdMergeDataCols(SDataCols *target, SDataCols *source, int32_t rowsToMerge, int32_t *pOffset, bool update, TDRowVerT maxVer);
int32_t tdMergeDataCols(SDataCols *target, SDataCols *source, int32_t rowsToMerge, int32_t *pOffset, bool update,
TDRowVerT maxVer);
// ----------------- K-V data row structure
/* |<-------------------------------------- len -------------------------------------------->|
@ -542,54 +344,6 @@ static FORCE_INLINE void *tdGetKVRowIdxOfCol(SKVRow row, int16_t colId) {
return taosbsearch(&colId, kvRowColIdx(row), kvRowNCols(row), sizeof(SColIdx), comparTagId, TD_EQ);
}
#if 0
// offset here not include kvRow header length
static FORCE_INLINE int32_t tdAppendKvColVal(SKVRow row, const void *value, bool isCopyValData, int16_t colId, int8_t type,
int32_t offset) {
assert(value != NULL);
int32_t toffset = offset + TD_KV_ROW_HEAD_SIZE;
SColIdx *pColIdx = (SColIdx *)POINTER_SHIFT(row, toffset);
char * ptr = (char *)POINTER_SHIFT(row, kvRowLen(row));
pColIdx->colId = colId;
pColIdx->offset = kvRowLen(row); // offset of pColIdx including the TD_KV_ROW_HEAD_SIZE
if (IS_VAR_DATA_TYPE(type)) {
if (isCopyValData) {
memcpy(ptr, value, varDataTLen(value));
}
kvRowLen(row) += varDataTLen(value);
} else {
if (offset == 0) {
assert(type == TSDB_DATA_TYPE_TIMESTAMP);
TKEY tvalue = tdGetTKEY(*(TSKEY *)value);
memcpy(ptr, (void *)(&tvalue), TYPE_BYTES[type]);
} else {
memcpy(ptr, value, TYPE_BYTES[type]);
}
kvRowLen(row) += TYPE_BYTES[type];
}
return 0;
}
// NOTE: offset here including the header size
static FORCE_INLINE void *tdGetKvRowDataOfCol(void *row, int32_t offset) { return POINTER_SHIFT(row, offset); }
static FORCE_INLINE void *tdGetKVRowValOfColEx(SKVRow row, int16_t colId, int32_t *nIdx) {
while (*nIdx < kvRowNCols(row)) {
SColIdx *pColIdx = kvRowColIdxAt(row, *nIdx);
if (pColIdx->colId == colId) {
++(*nIdx);
return tdGetKvRowDataOfCol(row, pColIdx->offset);
} else if (pColIdx->colId > colId) {
return NULL;
} else {
++(*nIdx);
}
}
return NULL;
}
#endif
// ----------------- K-V data row builder
typedef struct {
int16_t tCols;
@ -632,166 +386,6 @@ static FORCE_INLINE int32_t tdAddColToKVRow(SKVRowBuilder *pBuilder, col_id_t co
return 0;
}
#if 0
// ----------------- SMemRow appended with tuple row structure
/*
* |---------|------------------------------------------------- len ---------------------------------->|
* |<-------- Head ------>|<--------- flen -------------->| |
* |---------+---------------------+---------------------------------+---------------------------------+
* | uint8_t | uint16_t | int16_t | | |
* |---------+----------+----------+---------------------------------+---------------------------------+
* | flag | len | sversion | First part | Second part |
* +---------+----------+----------+---------------------------------+---------------------------------+
*
* NOTE: timestamp in this row structure is TKEY instead of TSKEY
*/
// ----------------- SMemRow appended with extended K-V data row structure
/* |--------------------|------------------------------------------------ len ---------------------------------->|
* |<------------- Head ------------>|<--------- flen -------------->| |
* |--------------------+----------+--------------------------------------------+---------------------------------+
* | uint8_t | int16_t | uint16_t | int16_t | | |
* |---------+----------+----------+----------+---------------------------------+---------------------------------+
* | flag | sversion | len | ncols | cols index | data part |
* |---------+----------+----------+----------+---------------------------------+---------------------------------+
*/
typedef void *SMemRow;
#define TD_MEM_ROW_TYPE_SIZE sizeof(uint8_t)
#define TD_MEM_ROW_KV_VER_SIZE sizeof(int16_t)
#define TD_MEM_ROW_KV_TYPE_VER_SIZE (TD_MEM_ROW_TYPE_SIZE + TD_MEM_ROW_KV_VER_SIZE)
#define TD_MEM_ROW_DATA_HEAD_SIZE (TD_MEM_ROW_TYPE_SIZE + TD_DATA_ROW_HEAD_SIZE)
#define TD_MEM_ROW_KV_HEAD_SIZE (TD_MEM_ROW_TYPE_SIZE + TD_MEM_ROW_KV_VER_SIZE + TD_KV_ROW_HEAD_SIZE)
#define SMEM_ROW_DATA 0x0U // SDataRow
#define SMEM_ROW_KV 0x01U // SKVRow
#define KVRatioConvert (0.9f)
#define memRowType(r) ((*(uint8_t *)(r)) & 0x01)
#define memRowSetType(r, t) ((*(uint8_t *)(r)) = (t)) // set the total byte in case of dirty memory
#define isDataRowT(t) (SMEM_ROW_DATA == (((uint8_t)(t)) & 0x01))
#define isDataRow(r) (SMEM_ROW_DATA == memRowType(r))
#define isKvRowT(t) (SMEM_ROW_KV == (((uint8_t)(t)) & 0x01))
#define isKvRow(r) (SMEM_ROW_KV == memRowType(r))
#define isUtilizeKVRow(k, d) ((k) < ((d)*KVRatioConvert))
#define memRowDataBody(r) POINTER_SHIFT(r, TD_MEM_ROW_TYPE_SIZE) // section after flag
#define memRowKvBody(r) \
POINTER_SHIFT(r, TD_MEM_ROW_KV_TYPE_VER_SIZE) // section after flag + sversion as to reuse SKVRow
#define memRowDataLen(r) (*(TDRowLenT *)memRowDataBody(r)) // 0~65535
#define memRowKvLen(r) (*(TDRowLenT *)memRowKvBody(r)) // 0~65535
#define memRowDataTLen(r) \
((TDRowLenT)(memRowDataLen(r) + TD_MEM_ROW_TYPE_SIZE)) // using uint32_t/int32_t to store the TLen
#define memRowKvTLen(r) ((TDRowLenT)(memRowKvLen(r) + TD_MEM_ROW_KV_TYPE_VER_SIZE))
#define memRowLen(r) (isDataRow(r) ? memRowDataLen(r) : memRowKvLen(r))
#define memRowTLen(r) (isDataRow(r) ? memRowDataTLen(r) : memRowKvTLen(r)) // using uint32_t/int32_t to store the TLen
static FORCE_INLINE char *memRowEnd(SMemRow row) {
if (isDataRow(row)) {
return (char *)dataRowEnd(memRowDataBody(row));
} else {
return (char *)kvRowEnd(memRowKvBody(row));
}
}
#define memRowDataVersion(r) dataRowVersion(memRowDataBody(r))
#define memRowKvVersion(r) (*(int16_t *)POINTER_SHIFT(r, TD_MEM_ROW_TYPE_SIZE))
#define memRowVersion(r) (isDataRow(r) ? memRowDataVersion(r) : memRowKvVersion(r)) // schema version
#define memRowSetKvVersion(r, v) (memRowKvVersion(r) = (v))
#define memRowTuple(r) (isDataRow(r) ? dataRowTuple(memRowDataBody(r)) : kvRowValues(memRowKvBody(r)))
#define memRowTKey(r) (isDataRow(r) ? dataRowTKey(memRowDataBody(r)) : kvRowTKey(memRowKvBody(r)))
#define memRowKey(r) (isDataRow(r) ? dataRowKey(memRowDataBody(r)) : kvRowKey(memRowKvBody(r)))
#define memRowKeys(r) (isDataRow(r) ? dataRowTuple(memRowDataBody(r)) : kvRowKeys(memRowKvBody(r)))
#define memRowSetTKey(r, k) \
do { \
if (isDataRow(r)) { \
dataRowTKey(memRowDataBody(r)) = (k); \
} else { \
kvRowTKey(memRowKvBody(r)) = (k); \
} \
} while (0)
#define memRowSetLen(r, l) (isDataRow(r) ? memRowDataLen(r) = (l) : memRowKvLen(r) = (l))
#define memRowSetVersion(r, v) (isDataRow(r) ? dataRowSetVersion(memRowDataBody(r), v) : memRowSetKvVersion(r, v))
#define memRowCpy(dst, r) memcpy((dst), (r), memRowTLen(r))
#define memRowMaxBytesFromSchema(s) (schemaTLen(s) + TD_MEM_ROW_DATA_HEAD_SIZE)
#define memRowDeleted(r) TKEY_IS_DELETED(memRowTKey(r))
SMemRow tdMemRowDup(SMemRow row);
void tdAppendMemRowToDataCol(SMemRow row, STSchema *pSchema, SDataCols *pCols, bool forceSetNull);
// NOTE: offset here including the header size
static FORCE_INLINE void *tdGetMemRowDataOfCol(void *row, int16_t colId, int8_t colType, uint16_t offset) {
if (isDataRow(row)) {
return tdGetRowDataOfCol(memRowDataBody(row), colType, offset);
} else {
return tdGetKVRowValOfCol(memRowKvBody(row), colId);
}
}
/**
* NOTE:
* 1. Applicable to scan columns one by one
* 2. offset here including the header size
*/
static FORCE_INLINE void *tdGetMemRowDataOfColEx(void *row, int16_t colId, int8_t colType, int32_t offset,
int32_t *kvNIdx) {
if (isDataRow(row)) {
return tdGetRowDataOfCol(memRowDataBody(row), colType, offset);
} else {
return tdGetKVRowValOfColEx(memRowKvBody(row), colId, kvNIdx);
}
}
static FORCE_INLINE int32_t tdAppendMemRowColVal(SMemRow row, const void *value, bool isCopyVarData, int16_t colId,
int8_t type, int32_t offset) {
if (isDataRow(row)) {
tdAppendDataColVal(memRowDataBody(row), value, isCopyVarData, type, offset);
} else {
tdAppendKvColVal(memRowKvBody(row), value, isCopyVarData, colId, type, offset);
}
return 0;
}
// make sure schema->flen appended for SDataRow
static FORCE_INLINE int32_t tdGetColAppendLen(uint8_t rowType, const void *value, int8_t colType) {
int32_t len = 0;
if (IS_VAR_DATA_TYPE(colType)) {
len += varDataTLen(value);
if (rowType == SMEM_ROW_KV) {
len += sizeof(SColIdx);
}
} else {
if (rowType == SMEM_ROW_KV) {
len += TYPE_BYTES[colType];
len += sizeof(SColIdx);
}
}
return len;
}
typedef struct {
int16_t colId;
uint8_t colType;
char * colVal;
} SColInfo;
static FORCE_INLINE void setSColInfo(SColInfo *colInfo, int16_t colId, uint8_t colType, char *colVal) {
colInfo->colId = colId;
colInfo->colType = colType;
colInfo->colVal = colVal;
}
SMemRow mergeTwoMemRows(void *buffer, SMemRow row1, SMemRow row2, STSchema *pSchema1, STSchema *pSchema2);
#endif
#ifdef __cplusplus
}

3
include/common/tglobal.h
View File

@ -121,6 +121,9 @@ extern char tsCompressor[];
extern int32_t tsDiskCfgNum;
extern SDiskCfg tsDiskCfg[];
// udf
extern bool tsStartUdfd;
// internal
extern int32_t tsTransPullupInterval;
extern int32_t tsMqRebalanceInterval;

3
include/common/tmsg.h
View File

@ -328,6 +328,9 @@ typedef struct {
int8_t alterType;
int32_t numOfFields;
SArray* pFields;
int32_t ttl;
int32_t commentLen;
char* comment;
} SMAlterStbReq;
int32_t tSerializeSMAlterStbReq(void* buf, int32_t bufLen, SMAlterStbReq* pReq);

1
include/common/tmsgcb.h
View File

@ -57,6 +57,7 @@ typedef struct {
RegisterBrokenLinkArgFp registerBrokenLinkArgFp;
ReleaseHandleFp releaseHandleFp;
ReportStartup reportStartupFp;
void* clientRpc;
} SMsgCb;
void tmsgSetDefaultMsgCb(const SMsgCb* pMsgCb);

1276
include/common/trow.h
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File diff suppressed because it is too large Load Diff

12
include/libs/executor/executor.h
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@ -22,6 +22,7 @@ extern "C" {
#include "query.h"
#include "tcommon.h"
#include "tmsgcb.h"
typedef void* qTaskInfo_t;
typedef void* DataSinkHandle;
@ -29,11 +30,12 @@ struct SRpcMsg;
struct SSubplan;
typedef struct SReadHandle {
void* reader;
void* meta;
void* config;
void* vnode;
void* mnd;
void* reader;
void* meta;
void* config;
void* vnode;
void* mnd;
SMsgCb* pMsgCb;
} SReadHandle;
#define STREAM_DATA_TYPE_SUBMIT_BLOCK 0x1

5
include/libs/function/functionMgt.h
View File

@ -31,13 +31,13 @@ typedef enum EFunctionType {
FUNCTION_TYPE_ELAPSED,
FUNCTION_TYPE_IRATE,
FUNCTION_TYPE_LAST_ROW,
FUNCTION_TYPE_LEASTSQUARES,
FUNCTION_TYPE_MAX,
FUNCTION_TYPE_MIN,
FUNCTION_TYPE_MODE,
FUNCTION_TYPE_PERCENTILE,
FUNCTION_TYPE_SPREAD,
FUNCTION_TYPE_STDDEV,
FUNCTION_TYPE_LEASTSQUARES,
FUNCTION_TYPE_SUM,
FUNCTION_TYPE_TWA,
FUNCTION_TYPE_HISTOGRAM,
@ -154,6 +154,7 @@ bool fmIsWindowClauseFunc(int32_t funcId);
bool fmIsSpecialDataRequiredFunc(int32_t funcId);
bool fmIsDynamicScanOptimizedFunc(int32_t funcId);
bool fmIsMultiResFunc(int32_t funcId);
bool fmIsRepeatScanFunc(int32_t funcId);
bool fmIsUserDefinedFunc(int32_t funcId);
typedef enum EFuncDataRequired {
@ -170,7 +171,7 @@ int32_t fmGetScalarFuncExecFuncs(int32_t funcId, SScalarFuncExecFuncs* pFpSet);
int32_t fmGetUdafExecFuncs(int32_t funcId, SFuncExecFuncs* pFpSet);
int32_t fmSetInvertFunc(int32_t funcId, SFuncExecFuncs* pFpSet);
int32_t fmSetNormalFunc(int32_t funcId, SFuncExecFuncs* pFpSet);
bool fmIsInvertible(int32_t funcId);
bool fmIsInvertible(int32_t funcId);
#ifdef __cplusplus
}

2
include/libs/nodes/nodes.h
View File

@ -179,6 +179,7 @@ typedef enum ENodeType {
QUERY_NODE_KILL_CONNECTION_STMT,
QUERY_NODE_KILL_QUERY_STMT,
QUERY_NODE_KILL_TRANSACTION_STMT,
QUERY_NODE_QUERY,
// logic plan node
QUERY_NODE_LOGIC_PLAN_SCAN,
@ -206,6 +207,7 @@ typedef enum ENodeType {
QUERY_NODE_PHYSICAL_PLAN_EXCHANGE,
QUERY_NODE_PHYSICAL_PLAN_SORT,
QUERY_NODE_PHYSICAL_PLAN_INTERVAL,
QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL,
QUERY_NODE_PHYSICAL_PLAN_FILL,
QUERY_NODE_PHYSICAL_PLAN_SESSION_WINDOW,
QUERY_NODE_PHYSICAL_PLAN_STATE_WINDOW,

2
include/libs/nodes/plannodes.h
View File

@ -274,6 +274,8 @@ typedef struct SIntervalPhysiNode {
int8_t slidingUnit;
} SIntervalPhysiNode;
typedef SIntervalPhysiNode SStreamIntervalPhysiNode;
typedef struct SFillPhysiNode {
SPhysiNode node;
EFillMode mode;

32
include/libs/nodes/querynodes.h
View File

@ -233,6 +233,7 @@ typedef struct SSelectStmt {
uint8_t precision;
bool isEmptyResult;
bool hasAggFuncs;
bool hasRepeatScanFuncs;
bool isTimeOrderQuery;
} SSelectStmt;
@ -294,6 +295,37 @@ typedef struct SExplainStmt {
SNode* pQuery;
} SExplainStmt;
typedef struct SCmdMsgInfo {
int16_t msgType;
SEpSet epSet;
void* pMsg;
int32_t msgLen;
void* pExtension; // todo remove it soon
} SCmdMsgInfo;
typedef enum EQueryExecMode {
QUERY_EXEC_MODE_LOCAL = 1,
QUERY_EXEC_MODE_RPC,
QUERY_EXEC_MODE_SCHEDULE,
QUERY_EXEC_MODE_EMPTY_RESULT
} EQueryExecMode;
typedef struct SQuery {
ENodeType type;
EQueryExecMode execMode;
bool haveResultSet;
SNode* pRoot;
int32_t numOfResCols;
SSchema* pResSchema;
int8_t precision;
SCmdMsgInfo* pCmdMsg;
int32_t msgType;
SArray* pDbList;
SArray* pTableList;
bool showRewrite;
int32_t placeholderNum;
} SQuery;
void nodesWalkSelectStmt(SSelectStmt* pSelect, ESqlClause clause, FNodeWalker walker, void* pContext);
void nodesRewriteSelectStmt(SSelectStmt* pSelect, ESqlClause clause, FNodeRewriter rewriter, void* pContext);

37
include/libs/parser/parser.h
View File

@ -48,36 +48,6 @@ typedef struct SParseContext {
bool isSuperUser;
} SParseContext;
typedef struct SCmdMsgInfo {
int16_t msgType;
SEpSet epSet;
void* pMsg;
int32_t msgLen;
void* pExtension; // todo remove it soon
} SCmdMsgInfo;
typedef enum EQueryExecMode {
QUERY_EXEC_MODE_LOCAL = 1,
QUERY_EXEC_MODE_RPC,
QUERY_EXEC_MODE_SCHEDULE,
QUERY_EXEC_MODE_EMPTY_RESULT
} EQueryExecMode;
typedef struct SQuery {
EQueryExecMode execMode;
bool haveResultSet;
SNode* pRoot;
int32_t numOfResCols;
SSchema* pResSchema;
int8_t precision;
SCmdMsgInfo* pCmdMsg;
int32_t msgType;
SArray* pDbList;
SArray* pTableList;
bool showRewrite;
int32_t placeholderNum;
} SQuery;
int32_t qParseQuerySql(SParseContext* pCxt, SQuery** pQuery);
bool isInsertSql(const char* pStr, size_t length);
@ -103,9 +73,10 @@ void destroyBoundColumnInfo(void* pBoundInfo);
int32_t qCreateSName(SName* pName, const char* pTableName, int32_t acctId, char* dbName, char* msgBuf,
int32_t msgBufLen);
void* smlInitHandle(SQuery *pQuery);
void smlDestroyHandle(void *pHandle);
int32_t smlBindData(void *handle, SArray *tags, SArray *colsFormat, SArray *colsSchema, SArray *cols, bool format, STableMeta *pTableMeta, char *tableName, char *msgBuf, int16_t msgBufLen);
void* smlInitHandle(SQuery* pQuery);
void smlDestroyHandle(void* pHandle);
int32_t smlBindData(void* handle, SArray* tags, SArray* colsFormat, SArray* colsSchema, SArray* cols, bool format,
STableMeta* pTableMeta, char* tableName, char* msgBuf, int16_t msgBufLen);
int32_t smlBuildOutput(void* handle, SHashObj* pVgHash);
#ifdef __cplusplus

6
include/libs/qcom/query.h
View File

@ -24,6 +24,7 @@ extern "C" {
#include "thash.h"
#include "tlog.h"
#include "tmsg.h"
#include "tmsgcb.h"
typedef enum {
JOB_TASK_STATUS_NULL = 0,
@ -149,7 +150,8 @@ int32_t cleanupTaskQueue();
*/
int32_t taosAsyncExec(__async_exec_fn_t execFn, void* execParam, int32_t* code);
int32_t asyncSendMsgToServerExt(void* pTransporter, SEpSet* epSet, int64_t* pTransporterId, const SMsgSendInfo* pInfo, bool persistHandle, void *ctx);
int32_t asyncSendMsgToServerExt(void* pTransporter, SEpSet* epSet, int64_t* pTransporterId, const SMsgSendInfo* pInfo,
bool persistHandle, void* ctx);
/**
* Asynchronously send message to server, after the response received, the callback will be incured.
@ -182,7 +184,7 @@ extern int32_t (*queryProcessMsgRsp[TDMT_MAX])(void* output, char* msg, int32_t
#define SET_META_TYPE_TABLE(t) (t) = META_TYPE_TABLE
#define SET_META_TYPE_BOTH_TABLE(t) (t) = META_TYPE_BOTH_TABLE
#define NEED_CLIENT_RM_TBLMETA_ERROR(_code) ((_code) == TSDB_CODE_TDB_INVALID_TABLE_ID || (_code) == TSDB_CODE_VND_TB_NOT_EXIST)
#define NEED_CLIENT_RM_TBLMETA_ERROR(_code) ((_code) == TSDB_CODE_PAR_TABLE_NOT_EXIST || (_code) == TSDB_CODE_VND_TB_NOT_EXIST)
#define NEED_CLIENT_REFRESH_VG_ERROR(_code) ((_code) == TSDB_CODE_VND_HASH_MISMATCH || (_code) == TSDB_CODE_VND_INVALID_VGROUP_ID)
#define NEED_CLIENT_REFRESH_TBLMETA_ERROR(_code) ((_code) == TSDB_CODE_TDB_TABLE_RECREATED)
#define NEED_CLIENT_HANDLE_ERROR(_code) (NEED_CLIENT_RM_TBLMETA_ERROR(_code) || NEED_CLIENT_REFRESH_VG_ERROR(_code) || NEED_CLIENT_REFRESH_TBLMETA_ERROR(_code))

2
include/util/taoserror.h
View File

@ -88,6 +88,7 @@ int32_t* taosGetErrno();
#define TSDB_CODE_CFG_NOT_FOUND TAOS_DEF_ERROR_CODE(0, 0x0114)
#define TSDB_CODE_REPEAT_INIT TAOS_DEF_ERROR_CODE(0, 0x0115)
#define TSDB_CODE_DUP_KEY TAOS_DEF_ERROR_CODE(0, 0x0116)
#define TSDB_CODE_NEED_RETRY TAOS_DEF_ERROR_CODE(0, 0x0117)
#define TSDB_CODE_REF_NO_MEMORY TAOS_DEF_ERROR_CODE(0, 0x0140)
#define TSDB_CODE_REF_FULL TAOS_DEF_ERROR_CODE(0, 0x0141)
@ -632,6 +633,7 @@ int32_t* taosGetErrno();
#define TSDB_CODE_PAR_INVALID_VAR_COLUMN_LEN TAOS_DEF_ERROR_CODE(0, 0x2642)
#define TSDB_CODE_PAR_INVALID_TAGS_NUM TAOS_DEF_ERROR_CODE(0, 0x2643)
#define TSDB_CODE_PAR_PERMISSION_DENIED TAOS_DEF_ERROR_CODE(0, 0x2644)
#define TSDB_CODE_PAR_INVALID_STREAM_QUERY TAOS_DEF_ERROR_CODE(0, 0x2645)
//planner
#define TSDB_CODE_PLAN_INTERNAL_ERROR TAOS_DEF_ERROR_CODE(0, 0x2700)

70
include/util/tskiplist2.h
View File

@ -1,70 +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/>.
*/
#ifndef _TD_UTIL_SKIPLIST2_H_
#define _TD_UTIL_SKIPLIST2_H_
#include "os.h"
#ifdef __cplusplus
extern "C" {
#endif
#define SL_MAX_LEVEL 15
typedef struct SSkipList2 SSkipList2;
typedef struct SSLCursor SSLCursor;
typedef struct SSLCfg SSLCfg;
typedef struct SSLNode SSLNode;
typedef int32_t (*tslCmprFn)(const void *pKey1, int32_t nKey1, const void *pKey2, int32_t nKey2);
// SSkipList2
int32_t slOpen(const SSLCfg *pCfg, SSkipList2 **ppSl);
int32_t slClose(SSkipList2 *pSl);
int32_t slClear(SSkipList2 *pSl);
// SSLCursor
int32_t slcOpen(SSkipList2 *pSl, SSLCursor *pSlc);
int32_t slcClose(SSLCursor *pSlc);
int32_t slcMoveTo(SSLCursor *pSlc, const void *pKey, int32_t nKey);
int32_t slcMoveToNext(SSLCursor *pSlc);
int32_t slcMoveToPrev(SSLCursor *pSlc);
int32_t slcMoveToFirst(SSLCursor *pSlc);
int32_t slcMoveToLast(SSLCursor *pSlc);
int32_t slcPut(SSLCursor *pSlc, const void *pKey, int32_t nKey, const void *pData, int32_t nData);
int32_t slcGet(SSLCursor *pSlc, const void **ppKey, int32_t *nKey, const void **ppData, int32_t *nData);
int32_t slcDrop(SSLCursor *pSlc);
// struct
struct SSLCfg {
int8_t maxLevel;
int32_t nKey;
int32_t nData;
tslCmprFn cmprFn;
void *pPool;
void *(*xMalloc)(void *, int32_t size);
void (*xFree)(void *, void *);
};
struct SSLCursor {
SSkipList2 *pSl;
SSLNode **forwards[SL_MAX_LEVEL];
};
#ifdef __cplusplus
}
#endif
#endif /*_TD_UTIL_SKIPLIST2_H_*/

3
source/client/inc/clientInt.h
View File

@ -254,7 +254,7 @@ extern int (*handleRequestRspFp[TDMT_MAX])(void*, const SDataBuf* pMsg, int32_t
int genericRspCallback(void* param, const SDataBuf* pMsg, int32_t code);
SMsgSendInfo* buildMsgInfoImpl(SRequestObj* pReqObj);
void* createTscObj(const char* user, const char* auth, const char* db, SAppInstInfo* pAppInfo);
void* createTscObj(const char* user, const char* auth, const char* db, int32_t connType, SAppInstInfo* pAppInfo);
void destroyTscObj(void* pObj);
STscObj* acquireTscObj(int64_t rid);
int32_t releaseTscObj(int64_t rid);
@ -310,6 +310,7 @@ void hbMgrInitMqHbRspHandle();
SRequestObj* launchQueryImpl(SRequestObj* pRequest, SQuery* pQuery, int32_t code, bool keepQuery);
int32_t getQueryPlan(SRequestObj* pRequest, SQuery* pQuery, SArray** pNodeList);
int32_t scheduleQuery(SRequestObj* pRequest, SQueryPlan* pDag, SArray* pNodeList);
int32_t refreshMeta(STscObj* pTscObj, SRequestObj* pRequest);
#ifdef __cplusplus
}

1
source/client/inc/clientStmt.h
View File

@ -60,6 +60,7 @@ typedef struct SStmtBindInfo {
int32_t sBindRowNum;
int32_t sBindLastIdx;
int8_t tbType;
bool tagsCached;
void* boundTags;
char* tbName;
SName sname;

3
source/client/src/clientEnv.c
View File

@ -131,7 +131,7 @@ void destroyTscObj(void *pObj) {
taosMemoryFreeClear(pTscObj);
}
void *createTscObj(const char *user, const char *auth, const char *db, SAppInstInfo *pAppInfo) {
void *createTscObj(const char *user, const char *auth, const char *db, int32_t connType, SAppInstInfo *pAppInfo) {
STscObj *pObj = (STscObj *)taosMemoryCalloc(1, sizeof(STscObj));
if (NULL == pObj) {
terrno = TSDB_CODE_TSC_OUT_OF_MEMORY;
@ -145,6 +145,7 @@ void *createTscObj(const char *user, const char *auth, const char *db, SAppInstI
return NULL;
}
pObj->connType = connType;
pObj->pAppInfo = pAppInfo;
tstrncpy(pObj->user, user, sizeof(pObj->user));
memcpy(pObj->pass, auth, TSDB_PASSWORD_LEN);

13
source/client/src/clientImpl.c
View File

@ -25,7 +25,7 @@
#include "tref.h"
static int32_t initEpSetFromCfg(const char* firstEp, const char* secondEp, SCorEpSet* pEpSet);
static SMsgSendInfo* buildConnectMsg(SRequestObj* pRequest, int8_t connType);
static SMsgSendInfo* buildConnectMsg(SRequestObj* pRequest);
static void destroySendMsgInfo(SMsgSendInfo* pMsgBody);
static bool stringLengthCheck(const char* str, size_t maxsize) {
@ -491,7 +491,7 @@ int initEpSetFromCfg(const char* firstEp, const char* secondEp, SCorEpSet* pEpSe
STscObj* taosConnectImpl(const char* user, const char* auth, const char* db, __taos_async_fn_t fp, void* param,
SAppInstInfo* pAppInfo, int connType) {
STscObj* pTscObj = createTscObj(user, auth, db, pAppInfo);
STscObj* pTscObj = createTscObj(user, auth, db, connType, pAppInfo);
if (NULL == pTscObj) {
terrno = TSDB_CODE_TSC_OUT_OF_MEMORY;
return pTscObj;
@ -504,7 +504,7 @@ STscObj* taosConnectImpl(const char* user, const char* auth, const char* db, __t
return NULL;
}
SMsgSendInfo* body = buildConnectMsg(pRequest, connType);
SMsgSendInfo* body = buildConnectMsg(pRequest);
int64_t transporterId = 0;
asyncSendMsgToServer(pTscObj->pAppInfo->pTransporter, &pTscObj->pAppInfo->mgmtEp.epSet, &transporterId, body);
@ -527,7 +527,7 @@ STscObj* taosConnectImpl(const char* user, const char* auth, const char* db, __t
return pTscObj;
}
static SMsgSendInfo* buildConnectMsg(SRequestObj* pRequest, int8_t connType) {
static SMsgSendInfo* buildConnectMsg(SRequestObj* pRequest) {
SMsgSendInfo* pMsgSendInfo = taosMemoryCalloc(1, sizeof(SMsgSendInfo));
if (pMsgSendInfo == NULL) {
terrno = TSDB_CODE_TSC_OUT_OF_MEMORY;
@ -550,9 +550,10 @@ static SMsgSendInfo* buildConnectMsg(SRequestObj* pRequest, int8_t connType) {
}
taosMemoryFreeClear(db);
connectReq.connType = connType;
connectReq.pid = htonl(appInfo.pid);
connectReq.connType = pObj->connType;
connectReq.pid = htonl(appInfo.pid);
connectReq.startTime = htobe64(appInfo.startTime);
tstrncpy(connectReq.app, appInfo.appName, sizeof(connectReq.app));
tstrncpy(connectReq.user, pObj->user, sizeof(connectReq.user));
tstrncpy(connectReq.passwd, pObj->pass, sizeof(connectReq.passwd));

6
source/client/src/clientMain.c
View File

@ -563,7 +563,11 @@ const char *taos_get_server_info(TAOS *taos) {
}
void taos_query_a(TAOS *taos, const char *sql, __taos_async_fn_t fp, void *param) {
// TODO
if (taos == NULL || sql == NULL) {
// todo directly call fp
}
taos_query_l(taos, sql, (int32_t) strlen(sql));
}
void taos_fetch_rows_a(TAOS_RES *res, __taos_async_fn_t fp, void *param) {

2
source/client/src/clientSml.c
View File

@ -405,7 +405,7 @@ static int32_t smlModifyDBSchemas(SSmlHandle* info) {
code = catalogGetSTableMeta(info->pCatalog, info->taos->pAppInfo->pTransporter, &ep, &pName, &pTableMeta);
if (code == TSDB_CODE_TDB_INVALID_TABLE_ID || code == TSDB_CODE_MND_INVALID_STB) {
if (code == TSDB_CODE_PAR_TABLE_NOT_EXIST || code == TSDB_CODE_MND_INVALID_STB) {
SSchemaAction schemaAction = {0};
schemaAction.action = SCHEMA_ACTION_CREATE_STABLE;
memcpy(schemaAction.createSTable.sTableName, superTable, superTableLen);

53
source/client/src/clientStmt.c
View File

@ -29,6 +29,11 @@ int32_t stmtSwitchStatus(STscStmt* pStmt, STMT_STATUS newStatus) {
if (STMT_STATUS_EQ(INIT) || STMT_STATUS_EQ(BIND_COL)) {
code = TSDB_CODE_TSC_STMT_API_ERROR;
}
/*
if ((pStmt->sql.type == STMT_TYPE_MULTI_INSERT) && ()) {
code = TSDB_CODE_TSC_STMT_API_ERROR;
}
*/
break;
case STMT_BIND_COL:
if (STMT_STATUS_EQ(INIT) || STMT_STATUS_EQ(BIND)) {
@ -123,6 +128,7 @@ int32_t stmtSetBindInfo(TAOS_STMT* stmt, STableMeta* pTableMeta, void* tags) {
pStmt->bInfo.tbSuid = pTableMeta->suid;
pStmt->bInfo.tbType = pTableMeta->tableType;
pStmt->bInfo.boundTags = tags;
pStmt->bInfo.tagsCached = false;
return TSDB_CODE_SUCCESS;
}
@ -207,8 +213,6 @@ int32_t stmtParseSql(STscStmt* pStmt) {
STMT_ERR_RET(TSDB_CODE_TSC_STMT_CLAUSE_ERROR);
}
STMT_ERR_RET(stmtCacheBlock(pStmt));
return TSDB_CODE_SUCCESS;
}
@ -219,8 +223,10 @@ int32_t stmtCleanBindInfo(STscStmt* pStmt) {
pStmt->bInfo.needParse = true;
taosMemoryFreeClear(pStmt->bInfo.tbName);
destroyBoundColumnInfo(pStmt->bInfo.boundTags);
taosMemoryFreeClear(pStmt->bInfo.boundTags);
if (!pStmt->bInfo.tagsCached) {
destroyBoundColumnInfo(pStmt->bInfo.boundTags);
taosMemoryFreeClear(pStmt->bInfo.boundTags);
}
return TSDB_CODE_SUCCESS;
}
@ -275,6 +281,7 @@ int32_t stmtCleanSQLInfo(STscStmt* pStmt) {
qDestroyStmtDataBlock(pCache->pDataBlock);
destroyBoundColumnInfo(pCache->boundTags);
taosMemoryFreeClear(pCache->boundTags);
pIter = taosHashIterate(pStmt->sql.pTableCache, pIter);
}
@ -302,7 +309,15 @@ int32_t stmtGetFromCache(STscStmt* pStmt) {
STableMeta *pTableMeta = NULL;
SEpSet ep = getEpSet_s(&pStmt->taos->pAppInfo->mgmtEp);
STMT_ERR_RET(catalogGetTableMeta(pStmt->pCatalog, pStmt->taos->pAppInfo->pTransporter, &ep, &pStmt->bInfo.sname, &pTableMeta));
int32_t code = catalogGetTableMeta(pStmt->pCatalog, pStmt->taos->pAppInfo->pTransporter, &ep, &pStmt->bInfo.sname, &pTableMeta);
if (TSDB_CODE_PAR_TABLE_NOT_EXIST == code) {
STMT_ERR_RET(stmtCleanBindInfo(pStmt));
return TSDB_CODE_SUCCESS;
}
STMT_ERR_RET(code);
uint64_t uid = pTableMeta->uid;
uint64_t suid = pTableMeta->suid;
int8_t tableType = pTableMeta->tableType;
@ -328,6 +343,7 @@ int32_t stmtGetFromCache(STscStmt* pStmt) {
pStmt->bInfo.tbSuid = suid;
pStmt->bInfo.tbType = tableType;
pStmt->bInfo.boundTags = pCache->boundTags;
pStmt->bInfo.tagsCached = true;
return TSDB_CODE_SUCCESS;
}
@ -340,6 +356,7 @@ int32_t stmtGetFromCache(STscStmt* pStmt) {
pStmt->bInfo.tbSuid = suid;
pStmt->bInfo.tbType = tableType;
pStmt->bInfo.boundTags = pCache->boundTags;
pStmt->bInfo.tagsCached = true;
STableDataBlocks* pNewBlock = NULL;
STMT_ERR_RET(qRebuildStmtDataBlock(&pNewBlock, pCache->pDataBlock));
@ -448,10 +465,12 @@ int stmtSetTbTags(TAOS_STMT *stmt, TAOS_MULTI_BIND *tags) {
STMT_ERR_RET(stmtSwitchStatus(pStmt, STMT_SETTAGS));
if (pStmt->bInfo.needParse) {
STMT_ERR_RET(stmtParseSql(pStmt));
if (!pStmt->bInfo.needParse) {
return TSDB_CODE_SUCCESS;
}
STMT_ERR_RET(stmtParseSql(pStmt));
STableDataBlocks **pDataBlock = (STableDataBlocks**)taosHashGet(pStmt->exec.pBlockHash, (const char*)&pStmt->bInfo.tbUid, sizeof(pStmt->bInfo.tbUid));
if (NULL == pDataBlock) {
tscError("table uid %" PRIx64 "not found in exec blockHash", pStmt->bInfo.tbUid);
@ -501,8 +520,6 @@ int32_t stmtFetchColFields(STscStmt* pStmt, int32_t *fieldNum, TAOS_FIELD** fiel
int stmtBindBatch(TAOS_STMT *stmt, TAOS_MULTI_BIND *bind, int32_t colIdx) {
STscStmt* pStmt = (STscStmt*)stmt;
STMT_ERR_RET(stmtSwitchStatus(pStmt, STMT_BIND));
if (pStmt->bInfo.needParse && pStmt->sql.runTimes && pStmt->sql.type > 0 && STMT_TYPE_MULTI_INSERT != pStmt->sql.type) {
pStmt->bInfo.needParse = false;
}
@ -520,6 +537,8 @@ int stmtBindBatch(TAOS_STMT *stmt, TAOS_MULTI_BIND *bind, int32_t colIdx) {
STMT_ERR_RET(stmtParseSql(pStmt));
}
STMT_ERR_RET(stmtSwitchStatus(pStmt, STMT_BIND));
if (STMT_TYPE_QUERY == pStmt->sql.type) {
if (NULL == pStmt->sql.pQueryPlan) {
STMT_ERR_RET(getQueryPlan(pStmt->exec.pRequest, pStmt->sql.pQuery, &pStmt->sql.nodeList));
@ -586,6 +605,16 @@ int stmtExec(TAOS_STMT *stmt) {
STMT_ERR_RET(qBuildStmtOutput(pStmt->sql.pQuery, pStmt->exec.pVgHash, pStmt->exec.pBlockHash));
launchQueryImpl(pStmt->exec.pRequest, pStmt->sql.pQuery, TSDB_CODE_SUCCESS, true);
}
if (pStmt->exec.pRequest->code && NEED_CLIENT_HANDLE_ERROR(pStmt->exec.pRequest->code)) {
code = refreshMeta(pStmt->exec.pRequest->pTscObj, pStmt->exec.pRequest);
if (code) {
pStmt->exec.pRequest->code = code;
} else {
STMT_ERR_RET(stmtResetStmt(pStmt));
STMT_ERR_RET(TSDB_CODE_NEED_RETRY);
}
}
STMT_ERR_JRET(pStmt->exec.pRequest->code);
@ -613,13 +642,11 @@ int stmtClose(TAOS_STMT *stmt) {
const char *stmtErrstr(TAOS_STMT *stmt) {
STscStmt* pStmt = (STscStmt*)stmt;
if (stmt == NULL) {
if (stmt == NULL || NULL == pStmt->exec.pRequest) {
return (char*) tstrerror(terrno);
}
if (pStmt->exec.pRequest) {
pStmt->exec.pRequest->code = terrno;
}
pStmt->exec.pRequest->code = terrno;
return taos_errstr(pStmt->exec.pRequest);
}

14
source/common/src/tdata.c Normal file
View File

@ -0,0 +1,14 @@
/*
* 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/>.
*/

2
source/common/src/tdatablock.c
View File

@ -493,7 +493,7 @@ SSDataBlock* blockDataExtractBlock(SSDataBlock* pBlock, int32_t startIndex, int3
for (int32_t j = startIndex; j < (startIndex + rowCount); ++j) {
bool isNull = false;
if (pBlock->pBlockAgg == NULL) {
isNull = colDataIsNull_s(pColData, pBlock->info.rows);
isNull = colDataIsNull_s(pColData, j);
} else {
isNull = colDataIsNull(pColData, pBlock->info.rows, j, pBlock->pBlockAgg[i]);
}

450
source/common/src/tdataformat.c
View File

@ -129,50 +129,6 @@ void *tdDecodeSchema(void *buf, STSchema **pRSchema) {
return buf;
}
#if 0
int32_t tEncodeSTColumn(SCoder *pEncoder, const STColumn *pCol) {
if (tEncodeI16(pEncoder, pCol->colId) < 0) return -1;
if (tEncodeI8(pEncoder, pCol->type) < 0) return -1;
if (tEncodeI8(pEncoder, pCol->sma) < 0) return -1;
if (tEncodeI32(pEncoder, pCol->bytes) < 0) return -1;
if (tEncodeI32(pEncoder, pCol->offset) < 0) return -1;
return pEncoder->pos;
}
int32_t tDecodeSTColumn(SCoder *pDecoder, STColumn *pCol) {
if (tDecodeI16(pDecoder, &pCol->colId) < 0) return -1;
if (tDecodeI8(pDecoder, &pCol->type) < 0) return -1;
if (tDecodeI8(pDecoder, &pCol->sma) < 0) return -1;
if (tDecodeI32(pDecoder, &pCol->bytes) < 0) return -1;
if (tDecodeI32(pDecoder, &pCol->offset) < 0) return -1;
return 0;
}
int32_t tEncodeSchema(SCoder *pEncoder, const STSchema *pSchema) {
if (tEncodeI32(pEncoder, pSchema->numOfCols) < 0) return -1;
if (tEncodeI16(pEncoder, pSchema->version) < 0) return -1;
if (tEncodeU16(pEncoder, pSchema->flen) < 0) return -1;
if (tEncodeI32(pEncoder, pSchema->vlen) < 0) return -1;
if (tEncodeI32(pEncoder, pSchema->tlen) < 0) return -1;
for (int32_t i = 0; i < schemaNCols(pSchema); i++) {
const STColumn *pCol = schemaColAt(pSchema, i);
if (tEncodeSTColumn(pEncoder, pCol) < 0) return -1;
}
return 0;
}
int32_t tDecodeSchema(SCoder *pDecoder, STSchema *pSchema) {
if (tDecodeI32(pDecoder, &pSchema->numOfCols) < 0) return -1;
if (tDecodeI16(pDecoder, &pSchema->version) < 0) return -1;
if (tDecodeU16(pDecoder, &pSchema->flen) < 0) return -1;
if (tDecodeI32(pDecoder, &pSchema->vlen) < 0) return -1;
if (tDecodeI32(pDecoder, &pSchema->tlen) < 0) return -1;
return 0;
}
#endif
int tdInitTSchemaBuilder(STSchemaBuilder *pBuilder, schema_ver_t version) {
if (pBuilder == NULL) return -1;
@ -260,49 +216,6 @@ STSchema *tdGetSchemaFromBuilder(STSchemaBuilder *pBuilder) {
return pSchema;
}
#if 0
/**
* Initialize a data row
*/
void tdInitDataRow(SDataRow row, STSchema *pSchema) {
dataRowSetLen(row, TD_DATA_ROW_HEAD_SIZE + schemaFLen(pSchema));
dataRowSetVersion(row, schemaVersion(pSchema));
}
SDataRow tdNewDataRowFromSchema(STSchema *pSchema) {
int32_t size = dataRowMaxBytesFromSchema(pSchema);
SDataRow row = taosMemoryMalloc(size);
if (row == NULL) return NULL;
tdInitDataRow(row, pSchema);
return row;
}
/**
* Free the SDataRow object
*/
void tdFreeDataRow(SDataRow row) {
if (row) taosMemoryFree(row);
}
SDataRow tdDataRowDup(SDataRow row) {
SDataRow trow = taosMemoryMalloc(dataRowLen(row));
if (trow == NULL) return NULL;
dataRowCpy(trow, row);
return trow;
}
SMemRow tdMemRowDup(SMemRow row) {
SMemRow trow = taosMemoryMalloc(memRowTLen(row));
if (trow == NULL) return NULL;
memRowCpy(trow, row);
return trow;
}
#endif
void dataColInit(SDataCol *pDataCol, STColumn *pCol, int maxPoints) {
pDataCol->type = colType(pCol);
pDataCol->colId = colColId(pCol);
@ -312,39 +225,6 @@ void dataColInit(SDataCol *pDataCol, STColumn *pCol, int maxPoints) {
pDataCol->len = 0;
}
#if 0
// value from timestamp should be TKEY here instead of TSKEY
int dataColAppendVal(SDataCol *pCol, const void *value, int numOfRows, int maxPoints) {
ASSERT(pCol != NULL && value != NULL);
if (isAllRowsNull(pCol)) {
if (isNull(value, pCol->type)) {
// all null value yet, just return
return 0;
}
if (tdAllocMemForCol(pCol, maxPoints) < 0) return -1;
if (numOfRows > 0) {
// Find the first not null value, fill all previouse values as NULL
dataColSetNEleNull(pCol, numOfRows);
}
}
if (IS_VAR_DATA_TYPE(pCol->type)) {
// set offset
pCol->dataOff[numOfRows] = pCol->len;
// Copy data
memcpy(POINTER_SHIFT(pCol->pData, pCol->len), value, varDataTLen(value));
// Update the length
pCol->len += varDataTLen(value);
} else {
ASSERT(pCol->len == TYPE_BYTES[pCol->type] * numOfRows);
memcpy(POINTER_SHIFT(pCol->pData, pCol->len), value, pCol->bytes);
pCol->len += pCol->bytes;
}
return 0;
}
#endif
static FORCE_INLINE const void *tdGetColDataOfRowUnsafe(SDataCol *pCol, int row) {
if (IS_VAR_DATA_TYPE(pCol->type)) {
return POINTER_SHIFT(pCol->pData, pCol->dataOff[row]);
@ -361,31 +241,6 @@ bool isNEleNull(SDataCol *pCol, int nEle) {
return true;
}
#if 0
static FORCE_INLINE void dataColSetNullAt(SDataCol *pCol, int index) {
if (IS_VAR_DATA_TYPE(pCol->type)) {
pCol->dataOff[index] = pCol->len;
char *ptr = POINTER_SHIFT(pCol->pData, pCol->len);
setVardataNull(ptr, pCol->type);
pCol->len += varDataTLen(ptr);
} else {
setNull(POINTER_SHIFT(pCol->pData, TYPE_BYTES[pCol->type] * index), pCol->type, pCol->bytes);
pCol->len += TYPE_BYTES[pCol->type];
}
}
static void dataColSetNEleNull(SDataCol *pCol, int nEle, int8_t bitmapMode) {
if (IS_VAR_DATA_TYPE(pCol->type)) {
pCol->len = 0;
for (int i = 0; i < nEle; ++i) {
dataColSetNullAt(pCol, i);
}
} else {
setNullN(pCol->pData, pCol->type, pCol->bytes, nEle);
pCol->len = TYPE_BYTES[pCol->type] * nEle;
}
}
#endif
void *dataColSetOffset(SDataCol *pCol, int nEle) {
ASSERT(((pCol->type == TSDB_DATA_TYPE_BINARY) || (pCol->type == TSDB_DATA_TYPE_NCHAR)));
@ -483,42 +338,6 @@ SDataCols *tdFreeDataCols(SDataCols *pCols) {
return NULL;
}
#if 0
SDataCols *tdDupDataCols(SDataCols *pDataCols, bool keepData) {
SDataCols *pRet = tdNewDataCols(pDataCols->maxCols, pDataCols->maxPoints);
if (pRet == NULL) return NULL;
pRet->numOfCols = pDataCols->numOfCols;
pRet->sversion = pDataCols->sversion;
if (keepData) pRet->numOfRows = pDataCols->numOfRows;
for (int i = 0; i < pDataCols->numOfCols; i++) {
pRet->cols[i].type = pDataCols->cols[i].type;
pRet->cols[i].bitmap = pDataCols->cols[i].bitmap;
pRet->cols[i].colId = pDataCols->cols[i].colId;
pRet->cols[i].bytes = pDataCols->cols[i].bytes;
pRet->cols[i].offset = pDataCols->cols[i].offset;
if (keepData) {
if (pDataCols->cols[i].len > 0) {
if (tdAllocMemForCol(&pRet->cols[i], pRet->maxPoints) < 0) {
tdFreeDataCols(pRet);
return NULL;
}
pRet->cols[i].len = pDataCols->cols[i].len;
memcpy(pRet->cols[i].pData, pDataCols->cols[i].pData, pDataCols->cols[i].len);
if (IS_VAR_DATA_TYPE(pRet->cols[i].type)) {
int dataOffSize = sizeof(VarDataOffsetT) * pDataCols->maxPoints;
memcpy(pRet->cols[i].dataOff, pDataCols->cols[i].dataOff, dataOffSize);
}
}
}
}
return pRet;
}
#endif
void tdResetDataCols(SDataCols *pCols) {
if (pCols != NULL) {
pCols->numOfRows = 0;
@ -528,180 +347,6 @@ void tdResetDataCols(SDataCols *pCols) {
}
}
}
#if 0
static void tdAppendDataRowToDataCol(SDataRow row, STSchema *pSchema, SDataCols *pCols, bool forceSetNull) {
ASSERT(pCols->numOfRows == 0 || dataColsKeyLast(pCols) < dataRowKey(row));
int rcol = 0;
int dcol = 0;
while (dcol < pCols->numOfCols) {
bool setCol = 0;
SDataCol *pDataCol = &(pCols->cols[dcol]);
if (rcol >= schemaNCols(pSchema)) {
dataColAppendVal(pDataCol, getNullValue(pDataCol->type), pCols->numOfRows, pCols->maxPoints);
dcol++;
continue;
}
STColumn *pRowCol = schemaColAt(pSchema, rcol);
if (pRowCol->colId == pDataCol->colId) {
void *value = tdGetRowDataOfCol(row, pRowCol->type, pRowCol->offset + TD_DATA_ROW_HEAD_SIZE);
if(!isNull(value, pDataCol->type)) setCol = 1;
dataColAppendVal(pDataCol, value, pCols->numOfRows, pCols->maxPoints);
dcol++;
rcol++;
} else if (pRowCol->colId < pDataCol->colId) {
rcol++;
} else {
if(forceSetNull || setCol) {
dataColAppendVal(pDataCol, getNullValue(pDataCol->type), pCols->numOfRows, pCols->maxPoints);
}
dcol++;
}
}
pCols->numOfRows++;
}
static void tdAppendKVRowToDataCol(SKVRow row, STSchema *pSchema, SDataCols *pCols, bool forceSetNull) {
ASSERT(pCols->numOfRows == 0 || dataColsKeyLast(pCols) < kvRowKey(row));
int rcol = 0;
int dcol = 0;
int nRowCols = kvRowNCols(row);
while (dcol < pCols->numOfCols) {
bool setCol = 0;
SDataCol *pDataCol = &(pCols->cols[dcol]);
if (rcol >= nRowCols || rcol >= schemaNCols(pSchema)) {
dataColAppendVal(pDataCol, getNullValue(pDataCol->type), pCols->numOfRows, pCols->maxPoints);
++dcol;
continue;
}
SColIdx *colIdx = kvRowColIdxAt(row, rcol);
if (colIdx->colId == pDataCol->colId) {
void *value = tdGetKvRowDataOfCol(row, colIdx->offset);
if(!isNull(value, pDataCol->type)) setCol = 1;
dataColAppendVal(pDataCol, value, pCols->numOfRows, pCols->maxPoints);
++dcol;
++rcol;
} else if (colIdx->colId < pDataCol->colId) {
++rcol;
} else {
if(forceSetNull || setCol) {
dataColAppendVal(pDataCol, getNullValue(pDataCol->type), pCols->numOfRows, pCols->maxPoints);
}
++dcol;
}
}
pCols->numOfRows++;
}
void tdAppendMemRowToDataCol(SMemRow row, STSchema *pSchema, SDataCols *pCols, bool forceSetNull) {
if (isDataRow(row)) {
tdAppendDataRowToDataCol(memRowDataBody(row), pSchema, pCols, forceSetNull);
} else if (isKvRow(row)) {
tdAppendKVRowToDataCol(memRowKvBody(row), pSchema, pCols, forceSetNull);
} else {
ASSERT(0);
}
}
int tdMergeDataCols(SDataCols *target, SDataCols *source, int rowsToMerge, int *pOffset, bool forceSetNull) {
ASSERT(rowsToMerge > 0 && rowsToMerge <= source->numOfRows);
ASSERT(target->numOfCols == source->numOfCols);
int offset = 0;
if (pOffset == NULL) {
pOffset = &offset;
}
SDataCols *pTarget = NULL;
if ((target->numOfRows == 0) || (dataColsKeyLast(target) < dataColsKeyAtRow(source, *pOffset))) { // No overlap
ASSERT(target->numOfRows + rowsToMerge <= target->maxPoints);
for (int i = 0; i < rowsToMerge; i++) {
for (int j = 0; j < source->numOfCols; j++) {
if (source->cols[j].len > 0 || target->cols[j].len > 0) {
dataColAppendVal(target->cols + j, tdGetColDataOfRow(source->cols + j, i + (*pOffset)), target->numOfRows,
target->maxPoints);
}
}
target->numOfRows++;
}
(*pOffset) += rowsToMerge;
} else {
pTarget = tdDupDataCols(target, true);
if (pTarget == NULL) goto _err;
int iter1 = 0;
tdMergeTwoDataCols(target, pTarget, &iter1, pTarget->numOfRows, source, pOffset, source->numOfRows,
pTarget->numOfRows + rowsToMerge, forceSetNull);
}
tdFreeDataCols(pTarget);
return 0;
_err:
tdFreeDataCols(pTarget);
return -1;
}
// src2 data has more priority than src1
static void tdMergeTwoDataCols(SDataCols *target, SDataCols *src1, int *iter1, int limit1, SDataCols *src2, int *iter2,
int limit2, int tRows, bool forceSetNull) {
tdResetDataCols(target);
ASSERT(limit1 <= src1->numOfRows && limit2 <= src2->numOfRows);
while (target->numOfRows < tRows) {
if (*iter1 >= limit1 && *iter2 >= limit2) break;
TSKEY key1 = (*iter1 >= limit1) ? INT64_MAX : dataColsKeyAt(src1, *iter1);
TKEY tkey1 = (*iter1 >= limit1) ? TKEY_NULL : dataColsTKeyAt(src1, *iter1);
TSKEY key2 = (*iter2 >= limit2) ? INT64_MAX : dataColsKeyAt(src2, *iter2);
TKEY tkey2 = (*iter2 >= limit2) ? TKEY_NULL : dataColsTKeyAt(src2, *iter2);
ASSERT(tkey1 == TKEY_NULL || (!TKEY_IS_DELETED(tkey1)));
if (key1 < key2) {
for (int i = 0; i < src1->numOfCols; i++) {
ASSERT(target->cols[i].type == src1->cols[i].type);
if (src1->cols[i].len > 0 || target->cols[i].len > 0) {
dataColAppendVal(&(target->cols[i]), tdGetColDataOfRow(src1->cols + i, *iter1), target->numOfRows,
target->maxPoints);
}
}
target->numOfRows++;
(*iter1)++;
} else if (key1 >= key2) {
if ((key1 > key2) || (key1 == key2 && !TKEY_IS_DELETED(tkey2))) {
for (int i = 0; i < src2->numOfCols; i++) {
ASSERT(target->cols[i].type == src2->cols[i].type);
if (src2->cols[i].len > 0 && !isNull(src2->cols[i].pData, src2->cols[i].type)) {
dataColAppendVal(&(target->cols[i]), tdGetColDataOfRow(src2->cols + i, *iter2), target->numOfRows,
target->maxPoints);
} else if(!forceSetNull && key1 == key2 && src1->cols[i].len > 0) {
dataColAppendVal(&(target->cols[i]), tdGetColDataOfRow(src1->cols + i, *iter1), target->numOfRows,
target->maxPoints);
} else if(target->cols[i].len > 0) {
dataColSetNullAt(&target->cols[i], target->numOfRows);
}
}
target->numOfRows++;
}
(*iter2)++;
if (key1 == key2) (*iter1)++;
}
ASSERT(target->numOfRows <= target->maxPoints);
}
}
#endif
SKVRow tdKVRowDup(SKVRow row) {
SKVRow trow = taosMemoryMalloc(kvRowLen(row));
@ -859,98 +504,3 @@ SKVRow tdGetKVRowFromBuilder(SKVRowBuilder *pBuilder) {
return row;
}
#if 0
SMemRow mergeTwoMemRows(void *buffer, SMemRow row1, SMemRow row2, STSchema *pSchema1, STSchema *pSchema2) {
#if 0
ASSERT(memRowKey(row1) == memRowKey(row2));
ASSERT(schemaVersion(pSchema1) == memRowVersion(row1));
ASSERT(schemaVersion(pSchema2) == memRowVersion(row2));
ASSERT(schemaVersion(pSchema1) >= schemaVersion(pSchema2));
#endif
SArray *stashRow = taosArrayInit(pSchema1->numOfCols, sizeof(SColInfo));
if (stashRow == NULL) {
return NULL;
}
SMemRow pRow = buffer;
SDataRow dataRow = memRowDataBody(pRow);
memRowSetType(pRow, SMEM_ROW_DATA);
dataRowSetVersion(dataRow, schemaVersion(pSchema1)); // use latest schema version
dataRowSetLen(dataRow, (TDRowLenT)(TD_DATA_ROW_HEAD_SIZE + pSchema1->flen));
TDRowLenT dataLen = 0, kvLen = TD_MEM_ROW_KV_HEAD_SIZE;
int32_t i = 0; // row1
int32_t j = 0; // row2
int32_t nCols1 = schemaNCols(pSchema1);
int32_t nCols2 = schemaNCols(pSchema2);
SColInfo colInfo = {0};
int32_t kvIdx1 = 0, kvIdx2 = 0;
while (i < nCols1) {
STColumn *pCol = schemaColAt(pSchema1, i);
void * val1 = tdGetMemRowDataOfColEx(row1, pCol->colId, pCol->type, TD_DATA_ROW_HEAD_SIZE + pCol->offset, &kvIdx1);
// if val1 != NULL, use val1;
if (val1 != NULL && !isNull(val1, pCol->type)) {
tdAppendColVal(dataRow, val1, pCol->type, pCol->offset);
kvLen += tdGetColAppendLen(SMEM_ROW_KV, val1, pCol->type);
setSColInfo(&colInfo, pCol->colId, pCol->type, val1);
taosArrayPush(stashRow, &colInfo);
++i; // next col
continue;
}
void *val2 = NULL;
while (j < nCols2) {
STColumn *tCol = schemaColAt(pSchema2, j);
if (tCol->colId < pCol->colId) {
++j;
continue;
}
if (tCol->colId == pCol->colId) {
val2 = tdGetMemRowDataOfColEx(row2, tCol->colId, tCol->type, TD_DATA_ROW_HEAD_SIZE + tCol->offset, &kvIdx2);
} else if (tCol->colId > pCol->colId) {
// set NULL
}
break;
} // end of while(j<nCols2)
if (val2 == NULL) {
val2 = (void *)getNullValue(pCol->type);
}
tdAppendColVal(dataRow, val2, pCol->type, pCol->offset);
if (!isNull(val2, pCol->type)) {
kvLen += tdGetColAppendLen(SMEM_ROW_KV, val2, pCol->type);
setSColInfo(&colInfo, pCol->colId, pCol->type, val2);
taosArrayPush(stashRow, &colInfo);
}
++i; // next col
}
dataLen = memRowTLen(pRow);
if (kvLen < dataLen) {
// scan stashRow and generate SKVRow
memset(buffer, 0, sizeof(dataLen));
SMemRow tRow = buffer;
memRowSetType(tRow, SMEM_ROW_KV);
SKVRow kvRow = (SKVRow)memRowKvBody(tRow);
int16_t nKvNCols = (int16_t) taosArrayGetSize(stashRow);
kvRowSetLen(kvRow, (TDRowLenT)(TD_KV_ROW_HEAD_SIZE + sizeof(SColIdx) * nKvNCols));
kvRowSetNCols(kvRow, nKvNCols);
memRowSetKvVersion(tRow, pSchema1->version);
int32_t toffset = 0;
int16_t k;
for (k = 0; k < nKvNCols; ++k) {
SColInfo *pColInfo = taosArrayGet(stashRow, k);
tdAppendKvColVal(kvRow, pColInfo->colVal, true, pColInfo->colId, pColInfo->colType, toffset);
toffset += sizeof(SColIdx);
}
ASSERT(kvLen == memRowTLen(tRow));
}
taosArrayDestroy(stashRow);
return buffer;
}
#endif

6
source/common/src/tglobal.c
View File

@ -169,6 +169,9 @@ uint32_t tsMaxRange = 500; // max range
uint32_t tsCurRange = 100; // range
char tsCompressor[32] = "ZSTD_COMPRESSOR"; // ZSTD_COMPRESSOR or GZIP_COMPRESSOR
// udf
bool tsStartUdfd = true;
// internal
int32_t tsTransPullupInterval = 6;
int32_t tsMqRebalanceInterval = 2;
@ -441,6 +444,7 @@ static int32_t taosAddServerCfg(SConfig *pCfg) {
if (cfgAddInt32(pCfg, "transPullupInterval", tsTransPullupInterval, 1, 10000, 1) != 0) return -1;
if (cfgAddInt32(pCfg, "mqRebalanceInterval", tsMqRebalanceInterval, 1, 10000, 1) != 0) return -1;
if (cfgAddBool(pCfg, "startUdfd", tsStartUdfd, 0) != 0) return -1;
return 0;
}
@ -581,6 +585,8 @@ static int32_t taosSetServerCfg(SConfig *pCfg) {
tsTransPullupInterval = cfgGetItem(pCfg, "transPullupInterval")->i32;
tsMqRebalanceInterval = cfgGetItem(pCfg, "mqRebalanceInterval")->i32;
tsStartUdfd = cfgGetItem(pCfg, "startUdfd")->bval;
if (tsQueryBufferSize >= 0) {
tsQueryBufferSizeBytes = tsQueryBufferSize * 1048576UL;
}

19
source/common/src/tmsg.c
View File

@ -607,6 +607,11 @@ int32_t tSerializeSMAlterStbReq(void *buf, int32_t bufLen, SMAlterStbReq *pReq)
if (tEncodeI32(&encoder, pField->bytes) < 0) return -1;
if (tEncodeCStr(&encoder, pField->name) < 0) return -1;
}
if (tEncodeI32(&encoder, pReq->ttl) < 0) return -1;
if (tEncodeI32(&encoder, pReq->commentLen) < 0) return -1;
if (pReq->commentLen > 0) {
if (tEncodeCStr(&encoder, pReq->comment) < 0) return -1;
}
tEndEncode(&encoder);
int32_t tlen = encoder.pos;
@ -639,6 +644,14 @@ int32_t tDeserializeSMAlterStbReq(void *buf, int32_t bufLen, SMAlterStbReq *pReq
}
}
if (tDecodeI32(&decoder, &pReq->ttl) < 0) return -1;
if (tDecodeI32(&decoder, &pReq->commentLen) < 0) return -1;
if (pReq->commentLen > 0) {
pReq->comment = taosMemoryMalloc(pReq->commentLen);
if (pReq->comment == NULL) return -1;
if (tDecodeCStrTo(&decoder, pReq->comment) < 0) return -1;
}
tEndDecode(&decoder);
tDecoderClear(&decoder);
return 0;
@ -1233,21 +1246,21 @@ int32_t tDeserializeSGetUserAuthRspImpl(SDecoder *pDecoder, SGetUserAuthRsp *pRs
for (int32_t i = 0; i < numOfCreatedDbs; ++i) {
char db[TSDB_DB_FNAME_LEN] = {0};
if (tDecodeCStrTo(pDecoder, db) < 0) return -1;
int32_t len = strlen(db) + 1;
int32_t len = strlen(db);
taosHashPut(pRsp->createdDbs, db, len, db, len);
}
for (int32_t i = 0; i < numOfReadDbs; ++i) {
char db[TSDB_DB_FNAME_LEN] = {0};
if (tDecodeCStrTo(pDecoder, db) < 0) return -1;
int32_t len = strlen(db) + 1;
int32_t len = strlen(db);
taosHashPut(pRsp->readDbs, db, len, db, len);
}
for (int32_t i = 0; i < numOfWriteDbs; ++i) {
char db[TSDB_DB_FNAME_LEN] = {0};
if (tDecodeCStrTo(pDecoder, db) < 0) return -1;
int32_t len = strlen(db) + 1;
int32_t len = strlen(db);
taosHashPut(pRsp->writeDbs, db, len, db, len);
}

934
source/common/src/trow.c
View File

@ -33,6 +33,7 @@ const uint8_t tdVTypeByte[2][3] = {{
// declaration
static uint8_t tdGetBitmapByte(uint8_t byte);
static int32_t tdCompareColId(const void *arg1, const void *arg2);
// static void dataColSetNEleNull(SDataCol *pCol, int nEle);
@ -916,4 +917,937 @@ SDataCols *tdDupDataCols(SDataCols *pDataCols, bool keepData) {
}
return pRet;
}
void tdSRowPrint(STSRow *row, STSchema *pSchema, const char *tag) {
STSRowIter iter = {0};
tdSTSRowIterInit(&iter, pSchema);
tdSTSRowIterReset(&iter, row);
printf("%s >>>", tag);
for (int i = 0; i < pSchema->numOfCols; ++i) {
STColumn *stCol = pSchema->columns + i;
SCellVal sVal = {255, NULL};
if (!tdSTSRowIterNext(&iter, stCol->colId, stCol->type, &sVal)) {
break;
}
ASSERT(sVal.valType == 0 || sVal.valType == 1 || sVal.valType == 2);
tdSCellValPrint(&sVal, stCol->type);
}
printf("\n");
}
void tdSCellValPrint(SCellVal *pVal, int8_t colType) {
if (tdValTypeIsNull(pVal->valType)) {
printf("NULL ");
return;
} else if (tdValTypeIsNone(pVal->valType)) {
printf("NONE ");
return;
}
switch (colType) {
case TSDB_DATA_TYPE_BOOL:
printf("%s ", (*(int8_t *)pVal->val) == 0 ? "false" : "true");
break;
case TSDB_DATA_TYPE_TINYINT:
printf("%" PRIi8 " ", *(int8_t *)pVal->val);
break;
case TSDB_DATA_TYPE_SMALLINT:
printf("%" PRIi16 " ", *(int16_t *)pVal->val);
break;
case TSDB_DATA_TYPE_INT:
printf("%" PRIi32 " ", *(int32_t *)pVal->val);
break;
case TSDB_DATA_TYPE_BIGINT:
printf("%" PRIi64 " ", *(int64_t *)pVal->val);
break;
case TSDB_DATA_TYPE_FLOAT:
printf("%f ", *(float *)pVal->val);
break;
case TSDB_DATA_TYPE_DOUBLE:
printf("%lf ", *(double *)pVal->val);
break;
case TSDB_DATA_TYPE_VARCHAR:
printf("VARCHAR ");
break;
case TSDB_DATA_TYPE_TIMESTAMP:
printf("%" PRIi64 " ", *(int64_t *)pVal->val);
break;
case TSDB_DATA_TYPE_NCHAR:
printf("NCHAR ");
break;
case TSDB_DATA_TYPE_UTINYINT:
printf("%" PRIu8 " ", *(uint8_t *)pVal->val);
break;
case TSDB_DATA_TYPE_USMALLINT:
printf("%" PRIu16 " ", *(uint16_t *)pVal->val);
break;
case TSDB_DATA_TYPE_UINT:
printf("%" PRIu32 " ", *(uint32_t *)pVal->val);
break;
case TSDB_DATA_TYPE_UBIGINT:
printf("%" PRIu64 " ", *(uint64_t *)pVal->val);
break;
case TSDB_DATA_TYPE_JSON:
printf("JSON ");
break;
case TSDB_DATA_TYPE_VARBINARY:
printf("VARBIN ");
break;
case TSDB_DATA_TYPE_DECIMAL:
printf("DECIMAL ");
break;
case TSDB_DATA_TYPE_BLOB:
printf("BLOB ");
break;
case TSDB_DATA_TYPE_MEDIUMBLOB:
printf("MedBLOB ");
break;
// case TSDB_DATA_TYPE_BINARY:
// printf("BINARY ");
// break;
case TSDB_DATA_TYPE_MAX:
printf("UNDEF ");
break;
default:
printf("UNDEF ");
break;
}
}
int32_t dataColGetNEleLen(SDataCol *pDataCol, int32_t rows, int8_t bitmapMode) {
ASSERT(rows > 0);
int32_t result = 0;
if (IS_VAR_DATA_TYPE(pDataCol->type)) {
result += pDataCol->dataOff[rows - 1];
SCellVal val = {0};
if (tdGetColDataOfRow(&val, pDataCol, rows - 1, bitmapMode) < 0) {
TASSERT(0);
}
// Currently, count the varDataTLen in of Null/None cols considering back compatibility test for 2.4
result += varDataTLen(val.val);
// TODO: later on, don't save Null/None for VarDataT for 3.0
// if (tdValTypeIsNorm(val.valType)) {
// result += varDataTLen(val.val);
// }
} else {
result += TYPE_BYTES[pDataCol->type] * rows;
}
ASSERT(pDataCol->len == result);
return result;
}
bool tdSKvRowGetVal(STSRow *pRow, col_id_t colId, uint32_t offset, col_id_t colIdx, SCellVal *pVal) {
if (colId == PRIMARYKEY_TIMESTAMP_COL_ID) {
tdRowSetVal(pVal, TD_VTYPE_NORM, TD_ROW_KEY_ADDR(pRow));
return true;
}
void *pBitmap = tdGetBitmapAddrKv(pRow, tdRowGetNCols(pRow));
tdGetKvRowValOfCol(pVal, pRow, pBitmap, offset, colIdx);
return true;
}
bool tdSTpRowGetVal(STSRow *pRow, col_id_t colId, col_type_t colType, int32_t flen, uint32_t offset, col_id_t colIdx,
SCellVal *pVal) {
if (colId == PRIMARYKEY_TIMESTAMP_COL_ID) {
tdRowSetVal(pVal, TD_VTYPE_NORM, TD_ROW_KEY_ADDR(pRow));
return true;
}
void *pBitmap = tdGetBitmapAddrTp(pRow, flen);
tdGetTpRowValOfCol(pVal, pRow, pBitmap, colType, offset - sizeof(TSKEY), colIdx);
return true;
}
int32_t tdGetColDataOfRow(SCellVal *pVal, SDataCol *pCol, int32_t row, int8_t bitmapMode) {
if (isAllRowsNone(pCol)) {
pVal->valType = TD_VTYPE_NULL;
#ifdef TD_SUPPORT_READ2
pVal->val = (void *)getNullValue(pCol->type);
#else
pVal->val = NULL;
#endif
return TSDB_CODE_SUCCESS;
}
if (TD_COL_ROWS_NORM(pCol)) {
pVal->valType = TD_VTYPE_NORM;
} else if (tdGetBitmapValType(pCol->pBitmap, row, &(pVal->valType), bitmapMode) < 0) {
return terrno;
}
if (tdValTypeIsNorm(pVal->valType)) {
if (IS_VAR_DATA_TYPE(pCol->type)) {
pVal->val = POINTER_SHIFT(pCol->pData, pCol->dataOff[row]);
} else {
pVal->val = POINTER_SHIFT(pCol->pData, TYPE_BYTES[pCol->type] * row);
}
} else {
pVal->valType = TD_VTYPE_NULL;
#ifdef TD_SUPPORT_READ2
pVal->val = (void *)getNullValue(pCol->type);
#else
pVal->val = NULL;
#endif
}
return TSDB_CODE_SUCCESS;
}
bool tdSTSRowIterNext(STSRowIter *pIter, col_id_t colId, col_type_t colType, SCellVal *pVal) {
if (colId == PRIMARYKEY_TIMESTAMP_COL_ID) {
pVal->val = &pIter->pRow->ts;
pVal->valType = TD_VTYPE_NORM;
return true;
}
if (TD_IS_TP_ROW(pIter->pRow)) {
STColumn *pCol = NULL;
STSchema *pSchema = pIter->pSchema;
while (pIter->colIdx < pSchema->numOfCols) {
pCol = &pSchema->columns[pIter->colIdx]; // 1st column of schema is primary TS key
if (colId == pCol->colId) {
break;
} else if (pCol->colId < colId) {
++pIter->colIdx;
continue;
} else {
return false;
}
}
tdGetTpRowDataOfCol(pIter, pCol->type, pCol->offset - sizeof(TSKEY), pVal);
++pIter->colIdx;
} else if (TD_IS_KV_ROW(pIter->pRow)) {
return tdGetKvRowValOfColEx(pIter, colId, colType, &pIter->kvIdx, pVal);
} else {
pVal->valType = TD_VTYPE_NONE;
terrno = TSDB_CODE_INVALID_PARA;
if (COL_REACH_END(colId, pIter->maxColId)) return false;
}
return true;
}
bool tdGetKvRowValOfColEx(STSRowIter *pIter, col_id_t colId, col_type_t colType, col_id_t *nIdx, SCellVal *pVal) {
STSRow *pRow = pIter->pRow;
SKvRowIdx *pKvIdx = NULL;
bool colFound = false;
col_id_t kvNCols = tdRowGetNCols(pRow) - 1;
while (*nIdx < kvNCols) {
pKvIdx = (SKvRowIdx *)POINTER_SHIFT(TD_ROW_COL_IDX(pRow), *nIdx * sizeof(SKvRowIdx));
if (pKvIdx->colId == colId) {
++(*nIdx);
pVal->val = POINTER_SHIFT(pRow, pKvIdx->offset);
colFound = true;
break;
} else if (pKvIdx->colId > colId) {
pVal->valType = TD_VTYPE_NONE;
return true;
} else {
++(*nIdx);
}
}
if (!colFound) {
if (colId <= pIter->maxColId) {
pVal->valType = TD_VTYPE_NONE;
return true;
} else {
return false;
}
}
#ifdef TD_SUPPORT_BITMAP
int16_t colIdx = -1;
if (pKvIdx) colIdx = POINTER_DISTANCE(TD_ROW_COL_IDX(pRow), pKvIdx) / sizeof(SKvRowIdx);
if (tdGetBitmapValType(pIter->pBitmap, colIdx, &pVal->valType, 0) != TSDB_CODE_SUCCESS) {
pVal->valType = TD_VTYPE_NONE;
}
#else
pVal->valType = isNull(pVal->val, colType) ? TD_VTYPE_NULL : TD_VTYPE_NORM;
#endif
return true;
}
bool tdGetTpRowDataOfCol(STSRowIter *pIter, col_type_t colType, int32_t offset, SCellVal *pVal) {
STSRow *pRow = pIter->pRow;
if (IS_VAR_DATA_TYPE(colType)) {
pVal->val = POINTER_SHIFT(pRow, *(VarDataOffsetT *)POINTER_SHIFT(TD_ROW_DATA(pRow), offset));
} else {
pVal->val = POINTER_SHIFT(TD_ROW_DATA(pRow), offset);
}
#ifdef TD_SUPPORT_BITMAP
if (tdGetBitmapValType(pIter->pBitmap, pIter->colIdx - 1, &pVal->valType, 0) != TSDB_CODE_SUCCESS) {
pVal->valType = TD_VTYPE_NONE;
}
#else
pVal->valType = isNull(pVal->val, colType) ? TD_VTYPE_NULL : TD_VTYPE_NORM;
#endif
return true;
}
static FORCE_INLINE int32_t compareKvRowColId(const void *key1, const void *key2) {
if (*(int16_t *)key1 > ((SColIdx *)key2)->colId) {
return 1;
} else if (*(int16_t *)key1 < ((SColIdx *)key2)->colId) {
return -1;
} else {
return 0;
}
}
bool tdSTSRowGetVal(STSRowIter *pIter, col_id_t colId, col_type_t colType, SCellVal *pVal) {
if (colId == PRIMARYKEY_TIMESTAMP_COL_ID) {
pVal->val = &pIter->pRow->ts;
pVal->valType = TD_VTYPE_NORM;
return true;
}
STSRow *pRow = pIter->pRow;
int16_t colIdx = -1;
if (TD_IS_TP_ROW(pRow)) {
STSchema *pSchema = pIter->pSchema;
STColumn *pCol =
(STColumn *)taosbsearch(&colId, pSchema->columns, pSchema->numOfCols, sizeof(STColumn), tdCompareColId, TD_EQ);
if (!pCol) {
pVal->valType = TD_VTYPE_NONE;
if (COL_REACH_END(colId, pIter->maxColId)) return false;
return true;
}
#ifdef TD_SUPPORT_BITMAP
colIdx = POINTER_DISTANCE(pCol, pSchema->columns) / sizeof(STColumn);
#endif
tdGetTpRowValOfCol(pVal, pRow, pIter->pBitmap, pCol->type, pCol->offset - sizeof(TSKEY), colIdx - 1);
} else if (TD_IS_KV_ROW(pRow)) {
SKvRowIdx *pIdx = (SKvRowIdx *)taosbsearch(&colId, TD_ROW_COL_IDX(pRow), tdRowGetNCols(pRow), sizeof(SKvRowIdx),
compareKvRowColId, TD_EQ);
#ifdef TD_SUPPORT_BITMAP
if (pIdx) {
colIdx = POINTER_DISTANCE(TD_ROW_COL_IDX(pRow), pIdx) / sizeof(SKvRowIdx);
}
#endif
tdGetKvRowValOfCol(pVal, pRow, pIter->pBitmap, pIdx ? pIdx->offset : -1, colIdx);
} else {
if (COL_REACH_END(colId, pIter->maxColId)) return false;
pVal->valType = TD_VTYPE_NONE;
}
return true;
}
static int32_t tdCompareColId(const void *arg1, const void *arg2) {
int32_t colId = *(int32_t *)arg1;
STColumn *pCol = (STColumn *)arg2;
if (colId < pCol->colId) {
return -1;
} else if (colId == pCol->colId) {
return 0;
} else {
return 1;
}
}
int32_t tdGetBitmapValTypeII(const void *pBitmap, int16_t colIdx, TDRowValT *pValType) {
if (!pBitmap || colIdx < 0) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
int16_t nBytes = colIdx / TD_VTYPE_PARTS;
int16_t nOffset = colIdx & TD_VTYPE_OPTR;
char *pDestByte = (char *)POINTER_SHIFT(pBitmap, nBytes);
// use literal value directly and not use formula to simplify the codes
switch (nOffset) {
case 0:
*pValType = (((*pDestByte) & 0xC0) >> 6);
break;
case 1:
*pValType = (((*pDestByte) & 0x30) >> 4);
break;
case 2:
*pValType = (((*pDestByte) & 0x0C) >> 2);
break;
case 3:
*pValType = ((*pDestByte) & 0x03);
break;
default:
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
return TSDB_CODE_SUCCESS;
}
int32_t tdGetBitmapValTypeI(const void *pBitmap, int16_t colIdx, TDRowValT *pValType) {
if (!pBitmap || colIdx < 0) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
int16_t nBytes = colIdx / TD_VTYPE_PARTS_I;
int16_t nOffset = colIdx & TD_VTYPE_OPTR_I;
char *pDestByte = (char *)POINTER_SHIFT(pBitmap, nBytes);
// use literal value directly and not use formula to simplify the codes
switch (nOffset) {
case 0:
*pValType = (((*pDestByte) & 0x80) >> 7);
break;
case 1:
*pValType = (((*pDestByte) & 0x40) >> 6);
break;
case 2:
*pValType = (((*pDestByte) & 0x20) >> 5);
break;
case 3:
*pValType = (((*pDestByte) & 0x10) >> 4);
break;
case 4:
*pValType = (((*pDestByte) & 0x08) >> 3);
break;
case 5:
*pValType = (((*pDestByte) & 0x04) >> 2);
break;
case 6:
*pValType = (((*pDestByte) & 0x02) >> 1);
break;
case 7:
*pValType = ((*pDestByte) & 0x01);
break;
default:
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
return TSDB_CODE_SUCCESS;
}
int32_t tdSetBitmapValTypeI(void *pBitmap, int16_t colIdx, TDRowValT valType) {
if (!pBitmap || colIdx < 0) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
int16_t nBytes = colIdx / TD_VTYPE_PARTS_I;
int16_t nOffset = colIdx & TD_VTYPE_OPTR_I;
char *pDestByte = (char *)POINTER_SHIFT(pBitmap, nBytes);
// use literal value directly and not use formula to simplify the codes
switch (nOffset) {
case 0:
*pDestByte = ((*pDestByte) & 0x7F) | (valType << 7);
// set the value and clear other partitions for offset 0
// *pDestByte |= (valType << 7);
break;
case 1:
*pDestByte = ((*pDestByte) & 0xBF) | (valType << 6);
// *pDestByte |= (valType << 6);
break;
case 2:
*pDestByte = ((*pDestByte) & 0xDF) | (valType << 5);
// *pDestByte |= (valType << 5);
break;
case 3:
*pDestByte = ((*pDestByte) & 0xEF) | (valType << 4);
// *pDestByte |= (valType << 4);
break;
case 4:
*pDestByte = ((*pDestByte) & 0xF7) | (valType << 3);
// *pDestByte |= (valType << 3);
break;
case 5:
*pDestByte = ((*pDestByte) & 0xFB) | (valType << 2);
// *pDestByte |= (valType << 2);
break;
case 6:
*pDestByte = ((*pDestByte) & 0xFD) | (valType << 1);
// *pDestByte |= (valType << 1);
break;
case 7:
*pDestByte = ((*pDestByte) & 0xFE) | valType;
// *pDestByte |= (valType);
break;
default:
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
return TSDB_CODE_SUCCESS;
}
int32_t tdGetKvRowValOfCol(SCellVal *output, STSRow *pRow, void *pBitmap, int32_t offset, int16_t colIdx) {
#ifdef TD_SUPPORT_BITMAP
TASSERT(colIdx < tdRowGetNCols(pRow) - 1);
if (tdGetBitmapValType(pBitmap, colIdx, &output->valType, 0) != TSDB_CODE_SUCCESS) {
output->valType = TD_VTYPE_NONE;
return terrno;
}
if (tdValTypeIsNorm(output->valType)) {
if (offset < 0) {
terrno = TSDB_CODE_INVALID_PARA;
output->valType = TD_VTYPE_NONE;
return terrno;
}
output->val = POINTER_SHIFT(pRow, offset);
}
#else
TASSERT(0);
if (offset < 0) {
terrno = TSDB_CODE_INVALID_PARA;
output->valType = TD_VTYPE_NONE;
return terrno;
}
output->val = POINTER_SHIFT(pRow, offset);
output->valType = isNull(output->val, colType) ? TD_VTYPE_NULL : TD_VTYPE_NORM;
#endif
return TSDB_CODE_SUCCESS;
}
int32_t tdGetTpRowValOfCol(SCellVal *output, STSRow *pRow, void *pBitmap, int8_t colType, int32_t offset,
int16_t colIdx) {
#ifdef TD_SUPPORT_BITMAP
if (tdGetBitmapValType(pBitmap, colIdx, &output->valType, 0) != TSDB_CODE_SUCCESS) {
output->valType = TD_VTYPE_NONE;
return terrno;
}
if (tdValTypeIsNorm(output->valType)) {
if (IS_VAR_DATA_TYPE(colType)) {
output->val = POINTER_SHIFT(pRow, *(VarDataOffsetT *)POINTER_SHIFT(TD_ROW_DATA(pRow), offset));
} else {
output->val = POINTER_SHIFT(TD_ROW_DATA(pRow), offset);
}
}
#else
if (IS_VAR_DATA_TYPE(colType)) {
output->val = POINTER_SHIFT(pRow, *(VarDataOffsetT *)POINTER_SHIFT(TD_ROW_DATA(pRow), offset));
} else {
output->val = POINTER_SHIFT(TD_ROW_DATA(pRow), offset);
}
output->valType = isNull(output->val, colType) ? TD_VTYPE_NULL : TD_VTYPE_NORM;
#endif
return TSDB_CODE_SUCCESS;
}
int32_t tdAppendColValToRow(SRowBuilder *pBuilder, col_id_t colId, int8_t colType, TDRowValT valType, const void *val,
bool isCopyVarData, int32_t offset, col_id_t colIdx) {
STSRow *pRow = pBuilder->pBuf;
if (!val) {
#ifdef TD_SUPPORT_BITMAP
if (tdValTypeIsNorm(valType)) {
terrno = TSDB_CODE_INVALID_PTR;
return terrno;
}
#else
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
#endif
}
// TS KEY is stored in STSRow.ts and not included in STSRow.data field.
if (colId == PRIMARYKEY_TIMESTAMP_COL_ID) {
TD_ROW_KEY(pRow) = *(TSKEY *)val;
// The primary TS key is Norm all the time, thus its valType is not stored in bitmap.
return TSDB_CODE_SUCCESS;
}
// TODO: We can avoid the type judegement by FP, but would prevent the inline scheme.
if (TD_IS_TP_ROW(pRow)) {
tdAppendColValToTpRow(pBuilder, valType, val, isCopyVarData, colType, colIdx, offset);
} else {
tdAppendColValToKvRow(pBuilder, valType, val, isCopyVarData, colType, colIdx, offset, colId);
}
return TSDB_CODE_SUCCESS;
}
int32_t tdAppendColValToKvRow(SRowBuilder *pBuilder, TDRowValT valType, const void *val, bool isCopyVarData,
int8_t colType, int16_t colIdx, int32_t offset, col_id_t colId) {
if ((offset < (int32_t)sizeof(SKvRowIdx)) || (colIdx < 1)) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
offset -= sizeof(SKvRowIdx);
--colIdx;
#ifdef TD_SUPPORT_BITMAP
if (tdSetBitmapValType(pBuilder->pBitmap, colIdx, valType, 0) != TSDB_CODE_SUCCESS) {
return terrno;
}
#endif
STSRow *row = pBuilder->pBuf;
// No need to store None/Null values.
if (tdValIsNorm(valType, val, colType)) {
// ts key stored in STSRow.ts
SKvRowIdx *pColIdx = (SKvRowIdx *)POINTER_SHIFT(TD_ROW_COL_IDX(row), offset);
char *ptr = (char *)POINTER_SHIFT(row, TD_ROW_LEN(row));
pColIdx->colId = colId;
pColIdx->offset = TD_ROW_LEN(row); // the offset include the TD_ROW_HEAD_LEN
if (IS_VAR_DATA_TYPE(colType)) {
if (isCopyVarData) {
memcpy(ptr, val, varDataTLen(val));
}
TD_ROW_LEN(row) += varDataTLen(val);
} else {
memcpy(ptr, val, TYPE_BYTES[colType]);
TD_ROW_LEN(row) += TYPE_BYTES[colType];
}
}
#ifdef TD_SUPPORT_BACK2
// NULL/None value
else {
SKvRowIdx *pColIdx = (SKvRowIdx *)POINTER_SHIFT(TD_ROW_COL_IDX(row), offset);
char *ptr = (char *)POINTER_SHIFT(row, TD_ROW_LEN(row));
pColIdx->colId = colId;
pColIdx->offset = TD_ROW_LEN(row); // the offset include the TD_ROW_HEAD_LEN
const void *nullVal = getNullValue(colType);
if (IS_VAR_DATA_TYPE(colType)) {
if (isCopyVarData) {
memcpy(ptr, nullVal, varDataTLen(nullVal));
}
TD_ROW_LEN(row) += varDataTLen(nullVal);
} else {
memcpy(ptr, nullVal, TYPE_BYTES[colType]);
TD_ROW_LEN(row) += TYPE_BYTES[colType];
}
}
#endif
return 0;
}
int32_t tdAppendColValToTpRow(SRowBuilder *pBuilder, TDRowValT valType, const void *val, bool isCopyVarData,
int8_t colType, int16_t colIdx, int32_t offset) {
if ((offset < (int32_t)sizeof(TSKEY)) || (colIdx < 1)) {
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
offset -= sizeof(TSKEY);
--colIdx;
#ifdef TD_SUPPORT_BITMAP
if (tdSetBitmapValType(pBuilder->pBitmap, colIdx, valType, 0) != TSDB_CODE_SUCCESS) {
return terrno;
}
#endif
STSRow *row = pBuilder->pBuf;
// 1. No need to set flen part for Null/None, just use bitmap. When upsert for the same primary TS key, the bitmap
// should be updated simultaneously if Norm val overwrite Null/None cols.
// 2. When consume STSRow in memory by taos client/tq, the output of Null/None cols should both be Null.
if (tdValIsNorm(valType, val, colType)) {
// TODO: The layout of new data types imported since 3.0 like blob/medium blob is the same with binary/nchar.
if (IS_VAR_DATA_TYPE(colType)) {
// ts key stored in STSRow.ts
*(VarDataOffsetT *)POINTER_SHIFT(TD_ROW_DATA(row), offset) = TD_ROW_LEN(row);
if (isCopyVarData) {
memcpy(POINTER_SHIFT(row, TD_ROW_LEN(row)), val, varDataTLen(val));
}
TD_ROW_LEN(row) += varDataTLen(val);
} else {
memcpy(POINTER_SHIFT(TD_ROW_DATA(row), offset), val, TYPE_BYTES[colType]);
}
}
#ifdef TD_SUPPORT_BACK2
// NULL/None value
else {
// TODO: Null value for new data types imported since 3.0 need to be defined.
const void *nullVal = getNullValue(colType);
if (IS_VAR_DATA_TYPE(colType)) {
// ts key stored in STSRow.ts
*(VarDataOffsetT *)POINTER_SHIFT(TD_ROW_DATA(row), offset) = TD_ROW_LEN(row);
if (isCopyVarData) {
memcpy(POINTER_SHIFT(row, TD_ROW_LEN(row)), nullVal, varDataTLen(nullVal));
}
TD_ROW_LEN(row) += varDataTLen(nullVal);
} else {
memcpy(POINTER_SHIFT(TD_ROW_DATA(row), offset), nullVal, TYPE_BYTES[colType]);
}
}
#endif
return 0;
}
int32_t tdSRowSetExtendedInfo(SRowBuilder *pBuilder, int32_t nCols, int32_t nBoundCols, int32_t flen,
int32_t allNullLen, int32_t boundNullLen) {
if ((boundNullLen > 0) && (allNullLen > 0) && (nBoundCols > 0)) {
uint32_t tpLen = allNullLen;
uint32_t kvLen = sizeof(col_id_t) + sizeof(SKvRowIdx) * nBoundCols + boundNullLen;
if (isSelectKVRow(kvLen, tpLen)) {
pBuilder->rowType = TD_ROW_KV;
} else {
pBuilder->rowType = TD_ROW_TP;
}
} else {
pBuilder->rowType = TD_ROW_TP;
}
pBuilder->flen = flen;
pBuilder->nCols = nCols;
pBuilder->nBoundCols = nBoundCols;
if (pBuilder->flen <= 0 || pBuilder->nCols <= 0) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
#ifdef TD_SUPPORT_BITMAP
// the primary TS key is stored separatedly
pBuilder->nBitmaps = (col_id_t)TD_BITMAP_BYTES(pBuilder->nCols - 1);
if (nBoundCols > 0) {
pBuilder->nBoundBitmaps = (col_id_t)TD_BITMAP_BYTES(pBuilder->nBoundCols - 1);
} else {
pBuilder->nBoundBitmaps = 0;
}
#else
pBuilder->nBitmaps = 0;
pBuilder->nBoundBitmaps = 0;
#endif
return TSDB_CODE_SUCCESS;
}
int32_t tdSRowResetBuf(SRowBuilder *pBuilder, void *pBuf) {
pBuilder->pBuf = (STSRow *)pBuf;
if (!pBuilder->pBuf) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
TD_ROW_SET_INFO(pBuilder->pBuf, 0);
TD_ROW_SET_TYPE(pBuilder->pBuf, pBuilder->rowType);
TASSERT(pBuilder->nBitmaps > 0 && pBuilder->flen > 0);
uint32_t len = 0;
switch (pBuilder->rowType) {
case TD_ROW_TP:
#ifdef TD_SUPPORT_BITMAP
pBuilder->pBitmap = tdGetBitmapAddrTp(pBuilder->pBuf, pBuilder->flen);
memset(pBuilder->pBitmap, TD_VTYPE_NONE_BYTE_II, pBuilder->nBitmaps);
#endif
// the primary TS key is stored separatedly
len = TD_ROW_HEAD_LEN + pBuilder->flen - sizeof(TSKEY) + pBuilder->nBitmaps;
TD_ROW_SET_LEN(pBuilder->pBuf, len);
TD_ROW_SET_SVER(pBuilder->pBuf, pBuilder->sver);
break;
case TD_ROW_KV:
#ifdef TD_SUPPORT_BITMAP
pBuilder->pBitmap = tdGetBitmapAddrKv(pBuilder->pBuf, pBuilder->nBoundCols);
memset(pBuilder->pBitmap, TD_VTYPE_NONE_BYTE_II, pBuilder->nBoundBitmaps);
#endif
len = TD_ROW_HEAD_LEN + TD_ROW_NCOLS_LEN + (pBuilder->nBoundCols - 1) * sizeof(SKvRowIdx) +
pBuilder->nBoundBitmaps; // add
TD_ROW_SET_LEN(pBuilder->pBuf, len);
TD_ROW_SET_SVER(pBuilder->pBuf, pBuilder->sver);
TD_ROW_SET_NCOLS(pBuilder->pBuf, pBuilder->nBoundCols);
break;
default:
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
return TSDB_CODE_SUCCESS;
}
int32_t tdSRowGetBuf(SRowBuilder *pBuilder, void *pBuf) {
pBuilder->pBuf = (STSRow *)pBuf;
if (!pBuilder->pBuf) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
TASSERT(pBuilder->nBitmaps > 0 && pBuilder->flen > 0);
uint32_t len = 0;
switch (pBuilder->rowType) {
case TD_ROW_TP:
#ifdef TD_SUPPORT_BITMAP
pBuilder->pBitmap = tdGetBitmapAddrTp(pBuilder->pBuf, pBuilder->flen);
#endif
break;
case TD_ROW_KV:
#ifdef TD_SUPPORT_BITMAP
pBuilder->pBitmap = tdGetBitmapAddrKv(pBuilder->pBuf, pBuilder->nBoundCols);
#endif
break;
default:
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
return TSDB_CODE_SUCCESS;
}
int32_t tdSRowInitEx(SRowBuilder *pBuilder, void *pBuf, uint32_t allNullLen, uint32_t boundNullLen, int32_t nCols,
int32_t nBoundCols, int32_t flen) {
if (tdSRowSetExtendedInfo(pBuilder, allNullLen, boundNullLen, nCols, nBoundCols, flen) < 0) {
return terrno;
}
return tdSRowResetBuf(pBuilder, pBuf);
}
void tdSRowReset(SRowBuilder *pBuilder) {
pBuilder->rowType = TD_ROW_TP;
pBuilder->pBuf = NULL;
pBuilder->nBoundCols = -1;
pBuilder->nCols = -1;
pBuilder->flen = -1;
pBuilder->pBitmap = NULL;
}
int32_t tdSRowSetTpInfo(SRowBuilder *pBuilder, int32_t nCols, int32_t flen) {
pBuilder->flen = flen;
pBuilder->nCols = nCols;
if (pBuilder->flen <= 0 || pBuilder->nCols <= 0) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
#ifdef TD_SUPPORT_BITMAP
// the primary TS key is stored separatedly
pBuilder->nBitmaps = (int16_t)TD_BITMAP_BYTES(pBuilder->nCols - 1);
#else
pBuilder->nBitmaps = 0;
pBuilder->nBoundBitmaps = 0;
#endif
return TSDB_CODE_SUCCESS;
}
int32_t tdSRowSetInfo(SRowBuilder *pBuilder, int32_t nCols, int32_t nBoundCols, int32_t flen) {
pBuilder->flen = flen;
pBuilder->nCols = nCols;
pBuilder->nBoundCols = nBoundCols;
if (pBuilder->flen <= 0 || pBuilder->nCols <= 0) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
#ifdef TD_SUPPORT_BITMAP
// the primary TS key is stored separatedly
pBuilder->nBitmaps = (int16_t)TD_BITMAP_BYTES(pBuilder->nCols - 1);
if (nBoundCols > 0) {
pBuilder->nBoundBitmaps = (int16_t)TD_BITMAP_BYTES(pBuilder->nBoundCols - 1);
} else {
pBuilder->nBoundBitmaps = 0;
}
#else
pBuilder->nBitmaps = 0;
pBuilder->nBoundBitmaps = 0;
#endif
return TSDB_CODE_SUCCESS;
}
int32_t tdGetBitmapValType(const void *pBitmap, int16_t colIdx, TDRowValT *pValType, int8_t bitmapMode) {
switch (bitmapMode) {
case 0:
tdGetBitmapValTypeII(pBitmap, colIdx, pValType);
break;
case -1:
case 1:
tdGetBitmapValTypeI(pBitmap, colIdx, pValType);
break;
default:
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return TSDB_CODE_FAILED;
}
return TSDB_CODE_SUCCESS;
}
bool tdIsBitmapValTypeNorm(const void *pBitmap, int16_t idx, int8_t bitmapMode) {
TDRowValT valType = 0;
tdGetBitmapValType(pBitmap, idx, &valType, bitmapMode);
if (tdValTypeIsNorm(valType)) {
return true;
}
return false;
}
int32_t tdSetBitmapValTypeII(void *pBitmap, int16_t colIdx, TDRowValT valType) {
if (!pBitmap || colIdx < 0) {
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
int16_t nBytes = colIdx / TD_VTYPE_PARTS;
int16_t nOffset = colIdx & TD_VTYPE_OPTR;
char *pDestByte = (char *)POINTER_SHIFT(pBitmap, nBytes);
// use literal value directly and not use formula to simplify the codes
switch (nOffset) {
case 0:
*pDestByte = ((*pDestByte) & 0x3F) | (valType << 6);
// set the value and clear other partitions for offset 0
// *pDestByte |= (valType << 6);
break;
case 1:
*pDestByte = ((*pDestByte) & 0xCF) | (valType << 4);
// *pDestByte |= (valType << 4);
break;
case 2:
*pDestByte = ((*pDestByte) & 0xF3) | (valType << 2);
// *pDestByte |= (valType << 2);
break;
case 3:
*pDestByte = ((*pDestByte) & 0xFC) | valType;
// *pDestByte |= (valType);
break;
default:
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return terrno;
}
return TSDB_CODE_SUCCESS;
}
int32_t tdSetBitmapValType(void *pBitmap, int16_t colIdx, TDRowValT valType, int8_t bitmapMode) {
switch (bitmapMode) {
case 0:
tdSetBitmapValTypeII(pBitmap, colIdx, valType);
break;
case -1:
case 1:
tdSetBitmapValTypeI(pBitmap, colIdx, valType);
break;
default:
TASSERT(0);
terrno = TSDB_CODE_INVALID_PARA;
return TSDB_CODE_FAILED;
}
return TSDB_CODE_SUCCESS;
}
void *tdGetBitmapAddr(STSRow *pRow, uint8_t rowType, uint32_t flen, col_id_t nKvCols) {
#ifdef TD_SUPPORT_BITMAP
switch (rowType) {
case TD_ROW_TP:
return tdGetBitmapAddrTp(pRow, flen);
case TD_ROW_KV:
return tdGetBitmapAddrKv(pRow, nKvCols);
default:
break;
}
#endif
return NULL;
}
void tdSTSRowIterReset(STSRowIter *pIter, STSRow *pRow) {
pIter->pRow = pRow;
pIter->pBitmap = tdGetBitmapAddr(pRow, pRow->type, pIter->pSchema->flen, tdRowGetNCols(pRow));
pIter->offset = 0;
pIter->colIdx = PRIMARYKEY_TIMESTAMP_COL_ID;
pIter->kvIdx = 0;
}
void tdSTSRowIterInit(STSRowIter *pIter, STSchema *pSchema) {
pIter->pSchema = pSchema;
pIter->maxColId = pSchema->columns[pSchema->numOfCols - 1].colId;
}

6
source/dnode/mgmt/implement/inc/dmImp.h
View File

@ -26,8 +26,10 @@ int32_t dmOpenNode(SMgmtWrapper *pWrapper);
void dmCloseNode(SMgmtWrapper *pWrapper);
// dmTransport.c
int32_t dmInitTrans(SDnode *pDnode);
void dmCleanupTrans(SDnode *pDnode);
int32_t dmInitServer(SDnode *pDnode);
void dmCleanupServer(SDnode *pDnode);
int32_t dmInitClient(SDnode *pDnode);
void dmCleanupClient(SDnode *pDnode);
SProcCfg dmGenProcCfg(SMgmtWrapper *pWrapper);
SMsgCb dmGetMsgcb(SMgmtWrapper *pWrapper);
int32_t dmInitMsgHandle(SDnode *pDnode);

43
source/dnode/mgmt/implement/src/dmExec.c
View File

@ -213,10 +213,12 @@ static int32_t dmOpenNodes(SDnode *pDnode) {
}
pWrapper->procType = DND_PROC_CHILD;
if (dmInitClient(pDnode) != 0) {
return -1;
}
SMsgCb msgCb = pDnode->data.msgCb;
msgCb.pWrapper = pWrapper;
tmsgSetDefaultMsgCb(&msgCb);
pDnode->data.msgCb = dmGetMsgcb(pWrapper);
tmsgSetDefaultMsgCb(&pDnode->data.msgCb);
if (dmOpenNode(pWrapper) != 0) {
dError("node:%s, failed to open since %s", pWrapper->name, terrstr());
@ -234,6 +236,15 @@ static int32_t dmOpenNodes(SDnode *pDnode) {
pWrapper->procType = DND_PROC_SINGLE;
}
if (n == DNODE) {
if (dmInitClient(pDnode) != 0) {
return -1;
}
pDnode->data.msgCb = dmGetMsgcb(pWrapper);
tmsgSetDefaultMsgCb(&pDnode->data.msgCb);
}
if (dmOpenNode(pWrapper) != 0) {
dError("node:%s, failed to open since %s", pWrapper->name, terrstr());
return -1;
@ -281,21 +292,21 @@ static void dmProcessProcHandle(void *handle) {
}
static void dmWatchNodes(SDnode *pDnode) {
taosThreadMutexLock(&pDnode->mutex);
if (pDnode->ptype == DND_PROC_PARENT) {
for (EDndNodeType n = DNODE + 1; n < NODE_END; ++n) {
SMgmtWrapper *pWrapper = &pDnode->wrappers[n];
if (!pWrapper->required) continue;
if (pWrapper->procType != DND_PROC_PARENT) continue;
if (pDnode->ntype == NODE_END) continue;
if (pDnode->ptype != DND_PROC_PARENT) return;
if (pDnode->ntype == NODE_END) return;
if (pWrapper->procId <= 0 || !taosProcExist(pWrapper->procId)) {
dWarn("node:%s, process:%d is killed and needs to be restarted", pWrapper->name, pWrapper->procId);
if (pWrapper->procObj) {
taosProcCloseHandles(pWrapper->procObj, dmProcessProcHandle);
}
dmNewNodeProc(pWrapper, n);
taosThreadMutexLock(&pDnode->mutex);
for (EDndNodeType n = DNODE + 1; n < NODE_END; ++n) {
SMgmtWrapper *pWrapper = &pDnode->wrappers[n];
if (!pWrapper->required) continue;
if (pWrapper->procType != DND_PROC_PARENT) continue;
if (pWrapper->procId <= 0 || !taosProcExist(pWrapper->procId)) {
dWarn("node:%s, process:%d is killed and needs to be restarted", pWrapper->name, pWrapper->procId);
if (pWrapper->procObj) {
taosProcCloseHandles(pWrapper->procObj, dmProcessProcHandle);
}
dmNewNodeProc(pWrapper, n);
}
}
taosThreadMutexUnlock(&pDnode->mutex);

5
source/dnode/mgmt/implement/src/dmHandle.c
View File

@ -242,7 +242,7 @@ static int32_t dmInitMgmt(SMgmtWrapper *pWrapper) {
return -1;
}
if (dmInitTrans(pDnode) != 0) {
if (dmInitServer(pDnode) != 0) {
dError("failed to init transport since %s", terrstr());
return -1;
}
@ -275,7 +275,8 @@ static void dmCleanupMgmt(SMgmtWrapper *pWrapper) {
}
taosWUnLockLatch(&pDnode->data.latch);
dmCleanupTrans(pDnode);
dmCleanupClient(pDnode);
dmCleanupServer(pDnode);
dInfo("dnode-mgmt is cleaned up");
}

3
source/dnode/mgmt/implement/src/dmObj.c
View File

@ -124,9 +124,6 @@ SDnode *dmCreate(const SDnodeOpt *pOption) {
goto _OVER;
}
pDnode->data.msgCb = dmGetMsgcb(&pDnode->wrappers[DNODE]);
tmsgSetDefaultMsgCb(&pDnode->data.msgCb);
dInfo("dnode is created, data:%p", pDnode);
code = 0;

133
source/dnode/mgmt/implement/src/dmTransport.c
View File

@ -16,6 +16,8 @@
#define _DEFAULT_SOURCE
#include "dmImp.h"
#include "qworker.h"
#define INTERNAL_USER "_dnd"
#define INTERNAL_CKEY "_key"
#define INTERNAL_SECRET "_pwd"
@ -85,17 +87,14 @@ static void dmProcessRpcMsg(SMgmtWrapper *pWrapper, SRpcMsg *pRpc, SEpSet *pEpSe
if ((pMsg = taosAllocateQitem(sizeof(SNodeMsg))) == NULL) goto _OVER;
if (dmBuildMsg(pMsg, pRpc) != 0) goto _OVER;
if (pWrapper->procType == DND_PROC_SINGLE) {
if (pWrapper->procType != DND_PROC_PARENT) {
dTrace("msg:%p, created, type:%s handle:%p user:%s", pMsg, TMSG_INFO(msgType), pRpc->handle, pMsg->user);
code = (*msgFp)(pWrapper, pMsg);
} else if (pWrapper->procType == DND_PROC_PARENT) {
} else {
dTrace("msg:%p, created and put into child queue, type:%s handle:%p code:0x%04x user:%s contLen:%d", pMsg,
TMSG_INFO(msgType), pRpc->handle, pMsg->rpcMsg.code & 0XFFFF, pMsg->user, pRpc->contLen);
code = taosProcPutToChildQ(pWrapper->procObj, pMsg, sizeof(SNodeMsg), pRpc->pCont, pRpc->contLen,
(isReq && (pMsg->rpcMsg.code == 0)) ? pRpc->handle : NULL, pRpc->refId, PROC_FUNC_REQ);
} else {
dTrace("msg:%p, should not processed in child process, handle:%p user:%s", pMsg, pRpc->handle, pMsg->user);
ASSERT(1);
}
_OVER:
@ -108,7 +107,7 @@ _OVER:
} else {
dError("msg:%p, type:%s handle:%p failed to process since 0x%04x:%s", pMsg, TMSG_INFO(msgType), pRpc->handle,
code & 0XFFFF, terrstr());
if (msgType & 1U) {
if (isReq) {
if (terrno != 0) code = terrno;
if (code == TSDB_CODE_NODE_NOT_DEPLOYED || code == TSDB_CODE_NODE_OFFLINE) {
if (msgType > TDMT_MND_MSG && msgType < TDMT_VND_MSG) {
@ -130,22 +129,27 @@ _OVER:
}
static void dmProcessMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet) {
SDnodeTrans * pTrans = &pDnode->trans;
SDnodeTrans *pTrans = &pDnode->trans;
tmsg_t msgType = pMsg->msgType;
bool isReq = msgType & 1u;
SMsgHandle * pHandle = &pTrans->msgHandles[TMSG_INDEX(msgType)];
SMsgHandle *pHandle = &pTrans->msgHandles[TMSG_INDEX(msgType)];
SMgmtWrapper *pWrapper = pHandle->pNdWrapper;
if (msgType == TDMT_DND_SERVER_STATUS) {
dTrace("server status req will be processed, handle:%p, app:%p", pMsg->handle, pMsg->ahandle);
dmProcessServerStatusReq(pDnode, pMsg);
return;
}
if (msgType == TDMT_DND_NET_TEST) {
dTrace("net test req will be processed, handle:%p, app:%p", pMsg->handle, pMsg->ahandle);
dmProcessServerStatusReq(pDnode, pMsg);
return;
switch (msgType) {
case TDMT_DND_SERVER_STATUS:
dTrace("server status req will be processed, handle:%p, app:%p", pMsg->handle, pMsg->ahandle);
dmProcessServerStatusReq(pDnode, pMsg);
return;
case TDMT_DND_NET_TEST:
dTrace("net test req will be processed, handle:%p, app:%p", pMsg->handle, pMsg->ahandle);
dmProcessNetTestReq(pDnode, pMsg);
return;
case TDMT_MND_SYSTABLE_RETRIEVE_RSP:
case TDMT_VND_FETCH_RSP:
dTrace("retrieve rsp is received");
qWorkerProcessFetchRsp(NULL, NULL, pMsg);
pMsg->pCont = NULL; // already freed in qworker
return;
}
if (pDnode->status != DND_STAT_RUNNING) {
@ -233,16 +237,6 @@ int32_t dmInitMsgHandle(SDnode *pDnode) {
return 0;
}
static inline int32_t dmSendRpcReq(SDnode *pDnode, const SEpSet *pEpSet, SRpcMsg *pReq) {
if (pDnode->trans.clientRpc == NULL) {
terrno = TSDB_CODE_NODE_OFFLINE;
return -1;
}
rpcSendRequest(pDnode->trans.clientRpc, pEpSet, pReq, NULL);
return 0;
}
static void dmSendRpcRedirectRsp(SDnode *pDnode, const SRpcMsg *pReq) {
SEpSet epSet = {0};
dmGetMnodeEpSet(pDnode, &epSet);
@ -288,28 +282,20 @@ void dmSendToMnodeRecv(SDnode *pDnode, SRpcMsg *pReq, SRpcMsg *pRsp) {
}
static inline int32_t dmSendReq(SMgmtWrapper *pWrapper, const SEpSet *pEpSet, SRpcMsg *pReq) {
if (pWrapper->pDnode->status != DND_STAT_RUNNING) {
SDnode *pDnode = pWrapper->pDnode;
if (pDnode->status != DND_STAT_RUNNING) {
terrno = TSDB_CODE_NODE_OFFLINE;
dError("failed to send rpc msg since %s, handle:%p", terrstr(), pReq->handle);
return -1;
}
if (pWrapper->procType != DND_PROC_CHILD) {
return dmSendRpcReq(pWrapper->pDnode, pEpSet, pReq);
} else {
char *pHead = taosMemoryMalloc(sizeof(SRpcMsg) + sizeof(SEpSet));
if (pHead == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
}
memcpy(pHead, pReq, sizeof(SRpcMsg));
memcpy(pHead + sizeof(SRpcMsg), pEpSet, sizeof(SEpSet));
taosProcPutToParentQ(pWrapper->procObj, pHead, sizeof(SRpcMsg) + sizeof(SEpSet), pReq->pCont, pReq->contLen,
PROC_FUNC_REQ);
taosMemoryFree(pHead);
return 0;
if (pDnode->trans.clientRpc == NULL) {
terrno = TSDB_CODE_NODE_OFFLINE;
return -1;
}
rpcSendRequest(pDnode->trans.clientRpc, pEpSet, pReq, NULL);
return 0;
}
static inline void dmSendRsp(SMgmtWrapper *pWrapper, const SRpcMsg *pRsp) {
@ -396,9 +382,10 @@ static void dmConsumeParentQueue(SMgmtWrapper *pWrapper, SRpcMsg *pMsg, int16_t
pMsg->pCont = pCont;
if (ftype == PROC_FUNC_REQ) {
ASSERT(1);
dTrace("msg:%p, get from parent queue, send req:%s handle:%p code:0x%04x, app:%p", pMsg, TMSG_INFO(pMsg->msgType),
pMsg->handle, code, pMsg->ahandle);
dmSendRpcReq(pWrapper->pDnode, (SEpSet *)((char *)pMsg + sizeof(SRpcMsg)), pMsg);
dmSendReq(pWrapper, (SEpSet *)((char *)pMsg + sizeof(SRpcMsg)), pMsg);
} else if (ftype == PROC_FUNC_RSP) {
dTrace("msg:%p, get from parent queue, rsp handle:%p code:0x%04x, app:%p", pMsg, pMsg->handle, code, pMsg->ahandle);
pMsg->refId = taosProcRemoveHandle(pWrapper->procObj, pMsg->handle);
@ -421,23 +408,25 @@ static void dmConsumeParentQueue(SMgmtWrapper *pWrapper, SRpcMsg *pMsg, int16_t
}
SProcCfg dmGenProcCfg(SMgmtWrapper *pWrapper) {
SProcCfg cfg = {.childConsumeFp = (ProcConsumeFp)dmConsumeChildQueue,
.childMallocHeadFp = (ProcMallocFp)taosAllocateQitem,
.childFreeHeadFp = (ProcFreeFp)taosFreeQitem,
.childMallocBodyFp = (ProcMallocFp)rpcMallocCont,
.childFreeBodyFp = (ProcFreeFp)rpcFreeCont,
.parentConsumeFp = (ProcConsumeFp)dmConsumeParentQueue,
.parentMallocHeadFp = (ProcMallocFp)taosMemoryMalloc,
.parentFreeHeadFp = (ProcFreeFp)taosMemoryFree,
.parentMallocBodyFp = (ProcMallocFp)rpcMallocCont,
.parentFreeBodyFp = (ProcFreeFp)rpcFreeCont,
.shm = pWrapper->procShm,
.parent = pWrapper,
.name = pWrapper->name};
SProcCfg cfg = {
.childConsumeFp = (ProcConsumeFp)dmConsumeChildQueue,
.childMallocHeadFp = (ProcMallocFp)taosAllocateQitem,
.childFreeHeadFp = (ProcFreeFp)taosFreeQitem,
.childMallocBodyFp = (ProcMallocFp)rpcMallocCont,
.childFreeBodyFp = (ProcFreeFp)rpcFreeCont,
.parentConsumeFp = (ProcConsumeFp)dmConsumeParentQueue,
.parentMallocHeadFp = (ProcMallocFp)taosMemoryMalloc,
.parentFreeHeadFp = (ProcFreeFp)taosMemoryFree,
.parentMallocBodyFp = (ProcMallocFp)rpcMallocCont,
.parentFreeBodyFp = (ProcFreeFp)rpcFreeCont,
.shm = pWrapper->procShm,
.parent = pWrapper,
.name = pWrapper->name,
};
return cfg;
}
bool rpcRfp(int32_t code) {
static bool rpcRfp(int32_t code) {
if (code == TSDB_CODE_RPC_REDIRECT) {
return true;
} else {
@ -445,7 +434,7 @@ bool rpcRfp(int32_t code) {
}
}
static int32_t dmInitClient(SDnode *pDnode) {
int32_t dmInitClient(SDnode *pDnode) {
SDnodeTrans *pTrans = &pDnode->trans;
SRpcInit rpcInit = {0};
@ -471,11 +460,15 @@ static int32_t dmInitClient(SDnode *pDnode) {
return -1;
}
pDnode->data.msgCb = dmGetMsgcb(&pDnode->wrappers[DNODE]);
tmsgSetDefaultMsgCb(&pDnode->data.msgCb);
dDebug("dnode rpc client is initialized");
return 0;
}
static void dmCleanupClient(SDnode *pDnode) {
void dmCleanupClient(SDnode *pDnode) {
SDnodeTrans *pTrans = &pDnode->trans;
if (pTrans->clientRpc) {
rpcClose(pTrans->clientRpc);
@ -517,7 +510,7 @@ static inline int32_t dmRetrieveUserAuthInfo(SDnode *pDnode, char *user, char *s
SAuthReq authReq = {0};
tstrncpy(authReq.user, user, TSDB_USER_LEN);
int32_t contLen = tSerializeSAuthReq(NULL, 0, &authReq);
void * pReq = rpcMallocCont(contLen);
void *pReq = rpcMallocCont(contLen);
tSerializeSAuthReq(pReq, contLen, &authReq);
SRpcMsg rpcMsg = {.pCont = pReq, .contLen = contLen, .msgType = TDMT_MND_AUTH, .ahandle = (void *)9528};
@ -543,7 +536,7 @@ static inline int32_t dmRetrieveUserAuthInfo(SDnode *pDnode, char *user, char *s
return rpcRsp.code;
}
static int32_t dmInitServer(SDnode *pDnode) {
int32_t dmInitServer(SDnode *pDnode) {
SDnodeTrans *pTrans = &pDnode->trans;
SRpcInit rpcInit = {0};
@ -569,7 +562,7 @@ static int32_t dmInitServer(SDnode *pDnode) {
return 0;
}
static void dmCleanupServer(SDnode *pDnode) {
void dmCleanupServer(SDnode *pDnode) {
SDnodeTrans *pTrans = &pDnode->trans;
if (pTrans->serverRpc) {
rpcClose(pTrans->serverRpc);
@ -578,17 +571,6 @@ static void dmCleanupServer(SDnode *pDnode) {
}
}
int32_t dmInitTrans(SDnode *pDnode) {
if (dmInitServer(pDnode) != 0) return -1;
if (dmInitClient(pDnode) != 0) return -1;
return 0;
}
void dmCleanupTrans(SDnode *pDnode) {
dmCleanupServer(pDnode);
dmCleanupClient(pDnode);
}
SMsgCb dmGetMsgcb(SMgmtWrapper *pWrapper) {
SMsgCb msgCb = {
.sendReqFp = dmSendReq,
@ -598,6 +580,7 @@ SMsgCb dmGetMsgcb(SMgmtWrapper *pWrapper) {
.releaseHandleFp = dmReleaseHandle,
.reportStartupFp = dmReportStartupByWrapper,
.pWrapper = pWrapper,
.clientRpc = pWrapper->pDnode->trans.clientRpc,
};
return msgCb;
}

2
source/dnode/mgmt/interface/inc/dmInt.h
View File

@ -37,7 +37,7 @@ void dmSetMsgHandle(SMgmtWrapper *pWrapper, tmsg_t msgType, NodeMsgFp nodeMsgF
void dmReportStartup(SDnode *pDnode, const char *pName, const char *pDesc);
void dmReportStartupByWrapper(SMgmtWrapper *pWrapper, const char *pName, const char *pDesc);
void dmProcessServerStatusReq(SDnode *pDnode, SRpcMsg *pMsg);
void dmProcessNettestReq(SDnode *pDnode, SRpcMsg *pMsg);
void dmProcessNetTestReq(SDnode *pDnode, SRpcMsg *pMsg);
void dmGetMonitorSysInfo(SMonSysInfo *pInfo);
// dmFile.c

10
source/dnode/mgmt/interface/src/dmInt.c
View File

@ -171,16 +171,17 @@ static void dmGetServerStatus(SDnode *pDnode, SServerStatusRsp *pStatus) {
}
}
void dmProcessNettestReq(SDnode *pDnode, SRpcMsg *pRpc) {
void dmProcessNetTestReq(SDnode *pDnode, SRpcMsg *pReq) {
dDebug("net test req is received");
SRpcMsg rsp = {.handle = pRpc->handle, .refId = pRpc->refId, .ahandle = pRpc->ahandle, .code = 0};
rsp.pCont = rpcMallocCont(pRpc->contLen);
SRpcMsg rsp = {.handle = pReq->handle, .refId = pReq->refId, .ahandle = pReq->ahandle, .code = 0};
rsp.pCont = rpcMallocCont(pReq->contLen);
if (rsp.pCont == NULL) {
rsp.code = TSDB_CODE_OUT_OF_MEMORY;
} else {
rsp.contLen = pRpc->contLen;
rsp.contLen = pReq->contLen;
}
rpcSendResponse(&rsp);
rpcFreeCont(pReq->pCont);
}
void dmProcessServerStatusReq(SDnode *pDnode, SRpcMsg *pReq) {
@ -208,6 +209,7 @@ void dmProcessServerStatusReq(SDnode *pDnode, SRpcMsg *pReq) {
_OVER:
rpcSendResponse(&rspMsg);
rpcFreeCont(pReq->pCont);
}
void dmGetMonitorSysInfo(SMonSysInfo *pInfo) {

1
source/dnode/mgmt/mgmt_vnode/src/vmHandle.c
View File

@ -289,7 +289,6 @@ void vmInitMsgHandle(SMgmtWrapper *pWrapper) {
dmSetMsgHandle(pWrapper, TDMT_VND_QUERY, vmProcessQueryMsg, DEFAULT_HANDLE);
dmSetMsgHandle(pWrapper, TDMT_VND_QUERY_CONTINUE, vmProcessQueryMsg, DEFAULT_HANDLE);
dmSetMsgHandle(pWrapper, TDMT_VND_FETCH, vmProcessFetchMsg, DEFAULT_HANDLE);
dmSetMsgHandle(pWrapper, TDMT_VND_FETCH_RSP, vmProcessFetchMsg, DEFAULT_HANDLE);
dmSetMsgHandle(pWrapper, TDMT_VND_ALTER_TABLE, vmProcessWriteMsg, DEFAULT_HANDLE);
dmSetMsgHandle(pWrapper, TDMT_VND_UPDATE_TAG_VAL, vmProcessWriteMsg, DEFAULT_HANDLE);
dmSetMsgHandle(pWrapper, TDMT_VND_TABLE_META, vmProcessFetchMsg, DEFAULT_HANDLE);

4
source/dnode/mnode/impl/src/mndDb.c
View File

@ -1550,10 +1550,8 @@ static void dumpDbInfoData(SSDataBlock *pBlock, SDbObj *pDb, SShowObj *pShow, in
pColInfo = taosArrayGet(pBlock->pDataBlock, cols++);
colDataAppend(pColInfo, rows, (const char *)t, false);
// single stable model
int8_t m = 0;
pColInfo = taosArrayGet(pBlock->pDataBlock, cols++);
colDataAppend(pColInfo, rows, (const char *)&m, false);
colDataAppend(pColInfo, rows, (const char *)&pDb->cfg.numOfStables, false);
pColInfo = taosArrayGet(pBlock->pDataBlock, cols);
colDataAppend(pColInfo, rows, (const char *)b, false);

2
source/dnode/mnode/impl/src/mndQuery.c
View File

@ -20,7 +20,7 @@
int32_t mndProcessQueryMsg(SNodeMsg *pReq) {
SMnode *pMnode = pReq->pNode;
SReadHandle handle = {.mnd = pMnode};
SReadHandle handle = {.mnd = pMnode, .pMsgCb = &pMnode->msgCb};
mTrace("msg:%p, in query queue is processing", pReq);
switch (pReq->rpcMsg.msgType) {

4
source/dnode/mnode/impl/src/mndUser.c
View File

@ -459,7 +459,7 @@ static int32_t mndProcessAlterUserReq(SNodeMsg *pReq) {
}
if (alterReq.alterType == TSDB_ALTER_USER_ADD_READ_DB || alterReq.alterType == TSDB_ALTER_USER_ADD_ALL_DB) {
if (strcmp(alterReq.dbname, "*") != 0) {
if (strcmp(alterReq.dbname, "1.*") != 0) {
int32_t len = strlen(alterReq.dbname) + 1;
SDbObj *pDb = mndAcquireDb(pMnode, alterReq.dbname);
if (pDb == NULL) {
@ -483,7 +483,7 @@ static int32_t mndProcessAlterUserReq(SNodeMsg *pReq) {
}
if (alterReq.alterType == TSDB_ALTER_USER_ADD_WRITE_DB || alterReq.alterType == TSDB_ALTER_USER_ADD_ALL_DB) {
if (strcmp(alterReq.dbname, "*") != 0) {
if (strcmp(alterReq.dbname, "1.*") != 0) {
int32_t len = strlen(alterReq.dbname) + 1;
SDbObj *pDb = mndAcquireDb(pMnode, alterReq.dbname);
if (pDb == NULL) {

4
source/dnode/mnode/impl/test/user/user.cpp
View File

@ -367,8 +367,8 @@ TEST_F(MndTestUser, 03_Alter_User) {
EXPECT_EQ(numOfReadDbs, 1);
EXPECT_EQ(numOfWriteDbs, 0);
char* dbname = (char*)taosHashGet(authRsp.readDbs, "1.d2", 5);
EXPECT_STREQ(dbname, "1.d2");
char* dbname = (char*)taosHashGet(authRsp.readDbs, "1.d2", 4);
EXPECT_TRUE(dbname != NULL);
taosHashCleanup(authRsp.readDbs);
taosHashCleanup(authRsp.writeDbs);

2
source/dnode/qnode/src/qnode.c
View File

@ -51,7 +51,7 @@ int32_t qndGetLoad(SQnode *pQnode, SQnodeLoad *pLoad) { return 0; }
int32_t qndProcessQueryMsg(SQnode *pQnode, SRpcMsg *pMsg) {
qTrace("message in qnode query queue is processing");
SReadHandle handle = {0};
SReadHandle handle = {.pMsgCb = &pQnode->msgCb};
switch (pMsg->msgType) {
case TDMT_VND_QUERY: {

3
source/dnode/vnode/src/inc/vnodeInt.h
View File

@ -34,6 +34,7 @@
#include "tlockfree.h"
#include "tlosertree.h"
#include "tmallocator.h"
#include "tmsgcb.h"
#include "tskiplist.h"
#include "tstream.h"
#include "ttime.h"
@ -121,7 +122,7 @@ int32_t tqProcessPollReq(STQ* pTq, SRpcMsg* pMsg, int32_t workerId);
// sma
int32_t tsdbRegisterRSma(STsdb* pTsdb, SMeta* pMeta, SVCreateStbReq* pReq);
int32_t tsdbRegisterRSma(STsdb* pTsdb, SMeta* pMeta, SVCreateStbReq* pReq, SMsgCb* pMsgCb);
int32_t tsdbFetchTbUidList(STsdb* pTsdb, STbUidStore** ppStore, tb_uid_t suid, tb_uid_t uid);
int32_t tsdbUpdateTbUidList(STsdb* pTsdb, STbUidStore* pUidStore);
void tsdbUidStoreDestory(STbUidStore* pStore);

3
source/dnode/vnode/src/tq/tq.c
View File

@ -380,6 +380,7 @@ int32_t tqDeserializeConsumer(STQ* pTq, const STqSerializedHead* pHead, STqConsu
SReadHandle handle = {
.reader = pReadHandle,
.meta = pTq->pVnode->pMeta,
.pMsgCb = &pTq->pVnode->msgCb,
};
pTopic->buffer.output[j].pReadHandle = pReadHandle;
pTopic->buffer.output[j].task = qCreateStreamExecTaskInfo(pTopic->qmsg, &handle);
@ -859,6 +860,7 @@ int32_t tqProcessVgChangeReq(STQ* pTq, char* msg, int32_t msgLen) {
SReadHandle handle = {
.reader = pExec->pExecReader[i],
.meta = pTq->pVnode->pMeta,
.pMsgCb = &pTq->pVnode->msgCb,
};
pExec->task[i] = qCreateStreamExecTaskInfo(pExec->qmsg, &handle);
ASSERT(pExec->task[i]);
@ -916,6 +918,7 @@ int32_t tqExpandTask(STQ* pTq, SStreamTask* pTask, int32_t parallel) {
SReadHandle handle = {
.reader = pStreamReader,
.meta = pTq->pVnode->pMeta,
.pMsgCb = &pTq->pVnode->msgCb,
};
pTask->exec.runners[i].inputHandle = pStreamReader;
pTask->exec.runners[i].executor = qCreateStreamExecTaskInfo(pTask->exec.qmsg, &handle);

58
source/dnode/vnode/src/tsdb/tsdbCommit.c
View File

@ -211,7 +211,7 @@ int tsdbCommit(STsdb *pRepo) {
void tsdbGetRtnSnap(STsdb *pRepo, SRtn *pRtn) {
STsdbKeepCfg *pCfg = REPO_KEEP_CFG(pRepo);
TSKEY minKey, midKey, maxKey, now;
TSKEY minKey, midKey, maxKey, now;
now = taosGetTimestamp(pCfg->precision);
minKey = now - pCfg->keep2 * tsTickPerDay[pCfg->precision];
@ -1386,34 +1386,7 @@ static void tsdbLoadAndMergeFromCache(SDataCols *pDataCols, int *iter, SCommitIt
tSkipListIterNext(pCommitIter->pIter);
} else {
#if 0
if (update != TD_ROW_OVERWRITE_UPDATE) {
// copy disk data
for (int i = 0; i < pDataCols->numOfCols; ++i) {
// TODO: dataColAppendVal may fail
SCellVal sVal = {0};
if (tdGetColDataOfRow(&sVal, pDataCols->cols + i, *iter, pDataCols->bitmapMode) < 0) {
TASSERT(0);
}
tdAppendValToDataCol(pTarget->cols + i, sVal.valType, sVal.val, pTarget->numOfRows, pTarget->maxPoints, pTarget->bitmapMode);
}
if (update == TD_ROW_DISCARD_UPDATE) pTarget->numOfRows++;
}
if (update != TD_ROW_DISCARD_UPDATE) {
// copy mem data
if (pSchema == NULL || schemaVersion(pSchema) != TD_ROW_SVER(row)) {
pSchema = tsdbGetTableSchemaImpl(pCommitIter->pTable, false, false, TD_ROW_SVER(row));
ASSERT(pSchema != NULL);
}
tdAppendSTSRowToDataCol(row, pSchema, pTarget, update == TD_ROW_OVERWRITE_UPDATE);
}
++(*iter);
tSkipListIterNext(pCommitIter->pIter);
#endif
if(lastKey != key1) {
if (lastKey != key1) {
lastKey = key1;
++pTarget->numOfRows;
}
@ -1484,29 +1457,4 @@ static bool tsdbCanAddSubBlock(SCommitH *pCommith, SBlock *pBlock, SMergeInfo *p
}
return false;
}
// int tsdbApplyRtn(STsdbRepo *pRepo) {
// SRtn rtn;
// SFSIter fsiter;
// STsdbFS * pfs = REPO_FS(pRepo);
// SDFileSet *pSet;
// // Get retention snapshot
// tsdbGetRtnSnap(pRepo, &rtn);
// tsdbFSIterInit(&fsiter, pfs, TSDB_FS_ITER_FORWARD);
// while ((pSet = tsdbFSIterNext(&fsiter))) {
// if (pSet->fid < rtn.minFid) {
// tsdbInfo("vgId:%d FSET %d at level %d disk id %d expires, remove it", REPO_ID(pRepo), pSet->fid,
// TSDB_FSET_LEVEL(pSet), TSDB_FSET_ID(pSet));
// continue;
// }
// if (tsdbApplyRtnOnFSet(pRepo, pSet, &rtn) < 0) {
// return -1;
// }
// }
// return 0;
// }
}

11
source/dnode/vnode/src/tsdb/tsdbMemTable.c
View File

@ -248,11 +248,13 @@ int tsdbLoadDataFromCache(STable *pTable, SSkipListIterator *pIter, TSKEY maxKey
pMergeInfo->nOperations++;
pMergeInfo->keyFirst = TMIN(pMergeInfo->keyFirst, rowKey);
pMergeInfo->keyLast = TMAX(pMergeInfo->keyLast, rowKey);
lastKey = rowKey;
if (pCols) {
++pCols->numOfRows;
if (lastKey != TSKEY_INITIAL_VAL) {
++pCols->numOfRows;
}
tsdbAppendTableRowToCols(pTable, pCols, &pSchema, row, false);
}
lastKey = rowKey;
} else {
tsdbAppendTableRowToCols(pTable, pCols, &pSchema, row, true);
}
@ -326,6 +328,11 @@ int tsdbInsertTableData(STsdb *pTsdb, SSubmitMsgIter *pMsgIter, SSubmitBlk *pBlo
tSkipListPutBatchByIter(pTbData->pData, &blkIter, (iter_next_fn_t)tGetSubmitBlkNext);
#ifdef TD_DEBUG_PRINT_ROW
printf("!!! %s:%d table %" PRIi64 " has %d rows in skiplist\n\n", __func__, __LINE__, pTbData->uid,
SL_SIZE(pTbData->pData));
#endif
// Set statistics
keyMax = TD_ROW_KEY(blkIter.row);

224
source/dnode/vnode/src/tsdb/tsdbMemTable2.c
View File

@ -21,16 +21,19 @@ typedef struct SMemSkipList SMemSkipList;
typedef struct SMemSkipListNode SMemSkipListNode;
typedef struct SMemSkipListCurosr SMemSkipListCurosr;
#define SL_MAX_LEVEL 5
struct SMemTable {
STsdb *pTsdb;
TSKEY minKey;
TSKEY maxKey;
int64_t minVer;
int64_t maxVer;
int64_t nRows;
int32_t nHash;
int32_t nBucket;
SMemData **pBuckets;
STsdb *pTsdb;
TSKEY minKey;
TSKEY maxKey;
int64_t minVer;
int64_t maxVer;
int64_t nRows;
int32_t nHash;
int32_t nBucket;
SMemData **pBuckets;
SMemSkipListCurosr *pSlc;
};
struct SMemSkipListNode {
@ -60,9 +63,15 @@ struct SMemData {
struct SMemSkipListCurosr {
SMemSkipList *pSl;
SMemSkipListNode *pNodeC;
SMemSkipListNode *pNodes[SL_MAX_LEVEL];
};
typedef struct {
int64_t version;
uint32_t szRow;
const STSRow *pRow;
} STsdbRow;
#define HASH_BUCKET(SUID, UID, NBUCKET) (TABS((SUID) + (UID)) % (NBUCKET))
#define SL_NODE_SIZE(l) (sizeof(SMemSkipListNode) + sizeof(SMemSkipListNode *) * (l)*2)
@ -76,7 +85,19 @@ struct SMemSkipListCurosr {
#define SL_HEAD_NODE_FORWARD(n, l) SL_NODE_FORWARD(n, l)
#define SL_TAIL_NODE_BACKWARD(n, l) SL_NODE_FORWARD(n, l)
static int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl);
static int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl);
static int32_t tsdbEncodeRow(SEncoder *pEncoder, const STsdbRow *pRow);
static int32_t tsdbDecodeRow(SDecoder *pDecoder, STsdbRow *pRow);
static int32_t tsdbMemSkipListCursorCreate(int8_t maxLevel, SMemSkipListCurosr **ppSlc);
static void tsdbMemSkipListCursorDestroy(SMemSkipListCurosr *pSlc);
static void tsdbMemSkipListCursorInit(SMemSkipListCurosr *pSlc, SMemSkipList *pSl);
static void tsdbMemSkipListCursorPut(SMemSkipListCurosr *pSlc, SMemSkipListNode *pNode);
static int32_t tsdbMemSkipListCursorMoveTo(SMemSkipListCurosr *pSlc, int64_t version, TSKEY ts, int32_t flags);
static void tsdbMemSkipListCursorMoveToFirst(SMemSkipListCurosr *pSlc);
static void tsdbMemSkipListCursorMoveToLast(SMemSkipListCurosr *pSlc);
static int32_t tsdbMemSkipListCursorMoveToNext(SMemSkipListCurosr *pSlc);
static int32_t tsdbMemSkipListCursorMoveToPrev(SMemSkipListCurosr *pSlc);
static SMemSkipListNode *tsdbMemSkipListNodeCreate(SVBufPool *pPool, SMemSkipList *pSl, const STsdbRow *pTRow);
// SMemTable
int32_t tsdbMemTableCreate2(STsdb *pTsdb, SMemTable **ppMemTb) {
@ -102,6 +123,11 @@ int32_t tsdbMemTableCreate2(STsdb *pTsdb, SMemTable **ppMemTb) {
taosMemoryFree(pMemTb);
return -1;
}
if (tsdbMemSkipListCursorCreate(pTsdb->pVnode->config.tsdbCfg.slLevel, &pMemTb->pSlc) < 0) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
taosMemoryFree(pMemTb->pBuckets);
taosMemoryFree(pMemTb);
}
*ppMemTb = pMemTb;
return 0;
@ -110,6 +136,7 @@ int32_t tsdbMemTableCreate2(STsdb *pTsdb, SMemTable **ppMemTb) {
int32_t tsdbMemTableDestroy2(STsdb *pTsdb, SMemTable *pMemTb) {
if (pMemTb) {
// loop to destroy the contents (todo)
tsdbMemSkipListCursorDestroy(pMemTb->pSlc);
taosMemoryFree(pMemTb->pBuckets);
taosMemoryFree(pMemTb);
}
@ -177,52 +204,42 @@ int32_t tsdbInsertData2(SMemTable *pMemTb, int64_t version, const SVSubmitBlk *p
}
// do insert data to SMemData
SMemSkipListCurosr slc = {0};
const STSRow *pRow;
uint32_t szRow;
SDecoder decoder = {0};
SMemSkipListNode *forwards[SL_MAX_LEVEL];
SMemSkipListNode *pNode;
int32_t iRow;
STsdbRow tRow = {.version = version};
SEncoder ec = {0};
SDecoder dc = {0};
tDecoderInit(&decoder, pSubmitBlk->pData, pSubmitBlk->nData);
for (;;) {
if (tDecodeIsEnd(&decoder)) break;
tDecoderInit(&dc, pSubmitBlk->pData, pSubmitBlk->nData);
tsdbMemSkipListCursorInit(pMemTb->pSlc, &pMemData->sl);
for (iRow = 0;; iRow++) {
if (tDecodeIsEnd(&dc)) break;
if (tDecodeBinary(&decoder, (const uint8_t **)&pRow, &szRow) < 0) {
// decode row
if (tDecodeBinary(&dc, (const uint8_t **)&tRow.pRow, &tRow.szRow) < 0) {
terrno = TSDB_CODE_INVALID_MSG;
return -1;
}
// check the row (todo)
// // move the cursor to position to write (todo)
// int32_t c;
// tsdbMemSkipListCursorMoveTo(&slc, pTSRow, version, &c);
// ASSERT(c);
// move cursor
tsdbMemSkipListCursorMoveTo(pMemTb->pSlc, version, tRow.pRow->ts, 0);
// encode row
int8_t level = tsdbMemSkipListRandLevel(&pMemData->sl);
int32_t tsize = SL_NODE_SIZE(level) + sizeof(version) + (0 /*todo*/);
SMemSkipListNode *pNode = vnodeBufPoolMalloc(pPool, tsize);
pNode = tsdbMemSkipListNodeCreate(pPool, &pMemData->sl, &tRow);
if (pNode == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
}
pNode->level = level;
// uint8_t *pData = SL_NODE_DATA(pSlNode);
// *(int64_t *)pData = version;
// pData += sizeof(version);
// memcpy(pData, pt, p - pt);
// // insert row
// tsdbMemSkipListCursorPut(&slc, pSlNode);
// put the node
tsdbMemSkipListCursorPut(pMemTb->pSlc, pNode);
// update status
if (pRow->ts < pMemData->minKey) pMemData->minKey = pRow->ts;
if (pRow->ts > pMemData->maxKey) pMemData->maxKey = pRow->ts;
if (tRow.pRow->ts < pMemData->minKey) pMemData->minKey = tRow.pRow->ts;
if (tRow.pRow->ts > pMemData->maxKey) pMemData->maxKey = tRow.pRow->ts;
}
tDecoderClear(&decoder);
// tsdbMemSkipListCursorClose(&slc);
tDecoderClear(&dc);
// update status
if (pMemData->minVer == -1) pMemData->minVer = version;
@ -236,17 +253,128 @@ int32_t tsdbInsertData2(SMemTable *pMemTb, int64_t version, const SVSubmitBlk *p
return 0;
}
static int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl) {
static FORCE_INLINE int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl) {
int8_t level = 1;
int8_t tlevel;
int8_t tlevel = TMIN(pSl->maxLevel, pSl->level + 1);
const uint32_t factor = 4;
if (pSl->size) {
tlevel = TMIN(pSl->maxLevel, pSl->level + 1);
while ((taosRandR(&pSl->seed) % factor) == 0 && level < tlevel) {
level++;
}
while ((taosRandR(&pSl->seed) % factor) == 0 && level < tlevel) {
level++;
}
return level;
}
static FORCE_INLINE int32_t tsdbEncodeRow(SEncoder *pEncoder, const STsdbRow *pRow) {
if (tEncodeI64(pEncoder, pRow->version) < 0) return -1;
if (tEncodeBinary(pEncoder, (const uint8_t *)pRow->pRow, pRow->szRow) < 0) return -1;
return 0;
}
static FORCE_INLINE int32_t tsdbDecodeRow(SDecoder *pDecoder, STsdbRow *pRow) {
if (tDecodeI64(pDecoder, &pRow->version) < 0) return -1;
if (tDecodeBinary(pDecoder, (const uint8_t **)&pRow->pRow, &pRow->szRow) < 0) return -1;
return 0;
}
static int32_t tsdbMemSkipListCursorCreate(int8_t maxLevel, SMemSkipListCurosr **ppSlc) {
*ppSlc = (SMemSkipListCurosr *)taosMemoryCalloc(1, sizeof(**ppSlc) + sizeof(SMemSkipListNode *) * maxLevel);
if (*ppSlc == NULL) {
return -1;
}
return 0;
}
static void tsdbMemSkipListCursorDestroy(SMemSkipListCurosr *pSlc) { taosMemoryFree(pSlc); }
static void tsdbMemSkipListCursorInit(SMemSkipListCurosr *pSlc, SMemSkipList *pSl) {
SMemSkipListNode *pHead = SL_HEAD_NODE(pSl);
pSlc->pSl = pSl;
// for (int8_t iLevel = 0; iLevel < pSl->maxLevel; iLevel++) {
// pSlc->forwards[iLevel] = pHead;
// }
}
static void tsdbMemSkipListCursorPut(SMemSkipListCurosr *pSlc, SMemSkipListNode *pNode) {
SMemSkipList *pSl = pSlc->pSl;
SMemSkipListNode *pNodeNext;
for (int8_t iLevel = 0; iLevel < pNode->level; iLevel++) {
// todo
ASSERT(0);
}
if (pSl->level < pNode->level) {
pSl->level = pNode->level;
}
pSl->size += 1;
}
static int32_t tsdbMemSkipListCursorMoveTo(SMemSkipListCurosr *pSlc, int64_t version, TSKEY ts, int32_t flags) {
SMemSkipListNode **pForwards = NULL;
SMemSkipList *pSl = pSlc->pSl;
int8_t maxLevel = pSl->maxLevel;
SMemSkipListNode *pHead = SL_HEAD_NODE(pSl);
SMemSkipListNode *pTail = SL_TAIL_NODE(pSl);
if (pSl->size == 0) {
for (int8_t iLevel = 0; iLevel < pSl->maxLevel; iLevel++) {
pForwards[iLevel] = pHead;
}
}
return 0;
}
static void tsdbMemSkipListCursorMoveToFirst(SMemSkipListCurosr *pSlc) {
SMemSkipList *pSl = pSlc->pSl;
SMemSkipListNode *pHead = SL_HEAD_NODE(pSl);
for (int8_t iLevel = 0; iLevel < pSl->maxLevel; iLevel++) {
pSlc->pNodes[iLevel] = pHead;
}
tsdbMemSkipListCursorMoveToNext(pSlc);
}
static void tsdbMemSkipListCursorMoveToLast(SMemSkipListCurosr *pSlc) {
SMemSkipList *pSl = pSlc->pSl;
SMemSkipListNode *pTail = SL_TAIL_NODE(pSl);
for (int8_t iLevel = 0; iLevel < pSl->maxLevel; iLevel++) {
pSlc->pNodes[iLevel] = pTail;
}
tsdbMemSkipListCursorMoveToPrev(pSlc);
}
static int32_t tsdbMemSkipListCursorMoveToNext(SMemSkipListCurosr *pSlc) {
// TODO
return 0;
}
static int32_t tsdbMemSkipListCursorMoveToPrev(SMemSkipListCurosr *pSlc) {
// TODO
return 0;
}
static SMemSkipListNode *tsdbMemSkipListNodeCreate(SVBufPool *pPool, SMemSkipList *pSl, const STsdbRow *pTRow) {
int32_t tsize;
int32_t ret;
int8_t level = tsdbMemSkipListRandLevel(pSl);
SMemSkipListNode *pNode = NULL;
SEncoder ec = {0};
tEncodeSize(tsdbEncodeRow, pTRow, tsize, ret);
pNode = vnodeBufPoolMalloc(pPool, tsize + SL_NODE_SIZE(level));
if (pNode) {
pNode->level = level;
tEncoderInit(&ec, (uint8_t *)SL_NODE_DATA(pNode), tsize);
tsdbEncodeRow(&ec, pTRow);
tEncoderClear(&ec);
}
return pNode;
}

39
source/dnode/vnode/src/tsdb/tsdbRead.c
View File

@ -351,35 +351,26 @@ static void setQueryTimewindow(STsdbReadHandle* pTsdbReadHandle, SQueryTableData
pTsdbReadHandle->window.ekey, pTsdbReadHandle->idStr);
}
}
#if 1
int nQUERY = 0;
#endif
static STsdb* getTsdbByRetentions(SVnode* pVnode, STsdbReadHandle* pReadHandle, TSKEY winSKey, SRetention* retentions) {
if (vnodeIsRollup(pVnode)) {
int level = 0;
#if 0
int level = 0;
int64_t now = taosGetTimestamp(pVnode->config.tsdbCfg.precision);
for (int i = 0; i < TSDB_RETENTION_MAX; ++i) {
SRetention* pRetention = retentions + i;
if (pRetention->keep <= 0 || (now - pRetention->keep) >= winSKey) {
SRetention* pRetention = retentions + level;
if (pRetention->keep <= 0) {
if (level > 0) {
--level;
}
break;
}
if ((now - pRetention->keep) <= winSKey) {
break;
}
++level;
}
#endif
#if 1
switch ((nQUERY++) % 3) {
case 0:
level = 0;
break;
case 1:
level = 1;
break;
default:
level = 2;
break;
}
#endif
if (level == TSDB_RETENTION_L0) {
tsdbDebug("%p rsma level %d is selected to query\n", pReadHandle, level);
return VND_RSMA0(pVnode);
@ -391,7 +382,7 @@ static STsdb* getTsdbByRetentions(SVnode* pVnode, STsdbReadHandle* pReadHandle,
return VND_RSMA2(pVnode);
}
}
return pVnode->pTsdb;
return VND_TSDB(pVnode);
}
static STsdbReadHandle* tsdbQueryTablesImpl(SVnode* pVnode, SQueryTableDataCond* pCond, uint64_t qId, uint64_t taskId) {
@ -3879,7 +3870,7 @@ int32_t tsdbQuerySTableByTagCond(void* pMeta, uint64_t uid, TSKEY skey, const ch
if (metaGetTableEntryByUid(&mr, uid) < 0) {
tsdbError("%p failed to get stable, uid:%" PRIu64 ", TID:0x%" PRIx64 " QID:0x%" PRIx64, pMeta, uid, taskId, reqId);
terrno = TSDB_CODE_TDB_INVALID_TABLE_ID;
terrno = TSDB_CODE_PAR_TABLE_NOT_EXIST;
goto _error;
} else {
tsdbDebug("%p succeed to get stable, uid:%" PRIu64 ", TID:0x%" PRIx64 " QID:0x%" PRIx64, pMeta, uid, taskId, reqId);
@ -3949,7 +3940,7 @@ int32_t tsdbGetOneTableGroup(void* pMeta, uint64_t uid, TSKEY startKey, STableGr
metaReaderInit(&mr, (SMeta*)pMeta, 0);
if (metaGetTableEntryByUid(&mr, uid) < 0) {
terrno = TSDB_CODE_TDB_INVALID_TABLE_ID;
terrno = TSDB_CODE_PAR_TABLE_NOT_EXIST;
goto _error;
}

3
source/dnode/vnode/src/tsdb/tsdbSma.c
View File

@ -1698,7 +1698,7 @@ int32_t tsdbDropTSma(STsdb *pTsdb, char *pMsg) {
* @param pReq
* @return int32_t
*/
int32_t tsdbRegisterRSma(STsdb *pTsdb, SMeta *pMeta, SVCreateStbReq *pReq) {
int32_t tsdbRegisterRSma(STsdb *pTsdb, SMeta *pMeta, SVCreateStbReq *pReq, SMsgCb *pMsgCb) {
if (!pReq->rollup) {
tsdbDebug("vgId:%d return directly since no rollup for stable %s %" PRIi64, REPO_ID(pTsdb), pReq->name, pReq->suid);
return TSDB_CODE_SUCCESS;
@ -1742,6 +1742,7 @@ int32_t tsdbRegisterRSma(STsdb *pTsdb, SMeta *pMeta, SVCreateStbReq *pReq) {
SReadHandle handle = {
.reader = pReadHandle,
.meta = pMeta,
.pMsgCb = pMsgCb,
};
if (param->qmsg1) {

54
source/dnode/vnode/src/vnd/vnodeSvr.c
View File

@ -142,9 +142,9 @@ _err:
int vnodeProcessQueryMsg(SVnode *pVnode, SRpcMsg *pMsg) {
vTrace("message in vnode query queue is processing");
#if 0
SReadHandle handle = {.reader = pVnode->pTsdb, .meta = pVnode->pMeta, .config = &pVnode->config, .vnode = pVnode};
SReadHandle handle = {.reader = pVnode->pTsdb, .meta = pVnode->pMeta, .config = &pVnode->config, .vnode = pVnode, .pMsgCb = &pVnode->msgCb};
#endif
SReadHandle handle = {.meta = pVnode->pMeta, .config = &pVnode->config, .vnode = pVnode};
SReadHandle handle = {.meta = pVnode->pMeta, .config = &pVnode->config, .vnode = pVnode, .pMsgCb = &pVnode->msgCb};
switch (pMsg->msgType) {
case TDMT_VND_QUERY:
return qWorkerProcessQueryMsg(&handle, pVnode->pQuery, pMsg);
@ -305,7 +305,7 @@ static int vnodeProcessCreateStbReq(SVnode *pVnode, int64_t version, void *pReq,
goto _err;
}
tsdbRegisterRSma(pVnode->pTsdb, pVnode->pMeta, &req);
tsdbRegisterRSma(pVnode->pTsdb, pVnode->pMeta, &req, &pVnode->msgCb);
tDecoderClear(&coder);
return 0;
@ -497,6 +497,47 @@ _exit:
return 0;
}
static int vnodeDebugPrintSubmitMsg(SVnode *pVnode, SSubmitReq *pMsg, const char* tags) {
ASSERT(pMsg != NULL);
SSubmitMsgIter msgIter = {0};
SMeta *pMeta = pVnode->pMeta;
SSubmitBlk *pBlock = NULL;
SSubmitBlkIter blkIter = {0};
STSRow *row = NULL;
STSchema *pSchema = NULL;
tb_uid_t suid = 0;
if (tInitSubmitMsgIter(pMsg, &msgIter) < 0) return -1;
while (true) {
if (tGetSubmitMsgNext(&msgIter, &pBlock) < 0) return -1;
if (pBlock == NULL) break;
tInitSubmitBlkIter(&msgIter, pBlock, &blkIter);
if (blkIter.row == NULL) continue;
if (!pSchema || (suid != msgIter.suid)) {
if (pSchema) {
taosMemoryFreeClear(pSchema);
}
pSchema = metaGetTbTSchema(pMeta, msgIter.suid, 0); // TODO: use the real schema
if(pSchema) {
suid = msgIter.suid;
}
}
if(!pSchema) {
printf("%s:%d no valid schema\n", tags, __LINE__);
continue;
}
char __tags[128] = {0};
snprintf(__tags, 128, "%s: uid %" PRIi64 " ", tags, msgIter.uid);
while ((row = tGetSubmitBlkNext(&blkIter))) {
tdSRowPrint(row, pSchema, __tags);
}
}
taosMemoryFreeClear(pSchema);
return 0;
}
static int vnodeProcessSubmitReq(SVnode *pVnode, int64_t version, void *pReq, int32_t len, SRpcMsg *pRsp) {
SSubmitReq *pSubmitReq = (SSubmitReq *)pReq;
SSubmitMsgIter msgIter = {0};
@ -508,6 +549,10 @@ static int vnodeProcessSubmitReq(SVnode *pVnode, int64_t version, void *pReq, in
pRsp->code = 0;
#ifdef TD_DEBUG_PRINT_ROW
vnodeDebugPrintSubmitMsg(pVnode, pReq, __func__);
#endif
// handle the request
if (tInitSubmitMsgIter(pSubmitReq, &msgIter) < 0) {
pRsp->code = TSDB_CODE_INVALID_MSG;
@ -550,7 +595,8 @@ static int vnodeProcessSubmitReq(SVnode *pVnode, int64_t version, void *pReq, in
goto _exit;
}
rsp.numOfRows += nRows;
rsp.affectedRows += nRows;
}
_exit:

2
source/libs/catalog/inc/catalogInt.h
View File

@ -36,7 +36,7 @@ extern "C" {
#define CTG_DEFAULT_INVALID_VERSION (-1)
#define CTG_ERR_CODE_TABLE_NOT_EXIST TSDB_CODE_TDB_INVALID_TABLE_ID
#define CTG_ERR_CODE_TABLE_NOT_EXIST TSDB_CODE_PAR_TABLE_NOT_EXIST
enum {
CTG_READ = 1,

24
source/libs/executor/inc/executorimpl.h
View File

@ -62,11 +62,6 @@ enum {
* 2. when all data within queried time window, it is also denoted as query_completed
*/
TASK_COMPLETED = 0x2u,
/* when the result is not completed return to client, this status will be
* usually used in case of interval query with interpolation option
*/
TASK_OVER = 0x4u,
};
typedef struct SResultRowCell {
@ -288,12 +283,6 @@ typedef struct SOperatorInfo {
SOperatorFpSet fpSet;
} SOperatorInfo;
typedef struct {
int32_t numOfTags;
int32_t numOfCols;
SColumnInfo* colList;
} SQueriedTableInfo;
typedef enum {
EX_SOURCE_DATA_NOT_READY = 0x1,
EX_SOURCE_DATA_READY = 0x2,
@ -392,10 +381,7 @@ typedef struct SStreamBlockScanInfo {
} SStreamBlockScanInfo;
typedef struct SSysTableScanInfo {
union {
void* pTransporter;
SReadHandle readHandle;
};
SReadHandle readHandle;
SRetrieveMetaTableRsp* pRsp;
SRetrieveTableReq req;
@ -632,8 +618,7 @@ int32_t initAggInfo(SOptrBasicInfo* pBasicInfo, SAggSupporter* pAggSup, SExprInf
void initResultSizeInfo(SOperatorInfo* pOperator, int32_t numOfRows);
void doBuildResultDatablock(SOptrBasicInfo *pbInfo, SGroupResInfo* pGroupResInfo, SExprInfo* pExprInfo, SDiskbasedBuf* pBuf);
void finalizeMultiTupleQueryResult(SqlFunctionCtx* pCtx, int32_t numOfOutput, SDiskbasedBuf* pBuf,
SResultRowInfo* pResultRowInfo, int32_t* rowCellInfoOffset);
void finalizeMultiTupleQueryResult(int32_t numOfOutput, SDiskbasedBuf* pBuf, SResultRowInfo* pResultRowInfo, int32_t* rowCellInfoOffset);
void doApplyFunctions(SqlFunctionCtx* pCtx, STimeWindow* pWin, SColumnInfoData* pTimeWindowData, int32_t offset,
int32_t forwardStep, TSKEY* tsCol, int32_t numOfTotal, int32_t numOfOutput, int32_t order);
int32_t setGroupResultOutputBuf(SOptrBasicInfo* binfo, int32_t numOfCols, char* pData, int16_t type, int16_t bytes,
@ -663,8 +648,6 @@ SResultRow* doSetResultOutBufByKey(SDiskbasedBuf* pResultBuf, SResultRowInfo* pR
char* pData, int16_t bytes, bool masterscan, uint64_t groupId,
SExecTaskInfo* pTaskInfo, bool isIntervalQuery, SAggSupporter* pSup);
SOperatorInfo* createExchangeOperatorInfo(const SNodeList* pSources, SSDataBlock* pBlock, SExecTaskInfo* pTaskInfo);
SOperatorInfo* createTableScanOperatorInfo(void* pDataReader, SQueryTableDataCond* pCond, int32_t numOfOutput, int32_t dataLoadFlag, const uint8_t* scanInfo,
SArray* pColMatchInfo, SSDataBlock* pResBlock, SNode* pCondition, SInterval* pInterval, double sampleRatio, SExecTaskInfo* pTaskInfo);
@ -716,8 +699,6 @@ SOperatorInfo* createTagScanOperatorInfo(SReadHandle* pReadHandle, SExprInfo* pE
#if 0
SOperatorInfo* createTableSeqScanOperatorInfo(void* pTsdbReadHandle, STaskRuntimeEnv* pRuntimeEnv);
SOperatorInfo* createMultiTableTimeIntervalOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOperatorInfo* downstream,
SExprInfo* pExpr, int32_t numOfOutput);
#endif
int32_t projectApplyFunctions(SExprInfo* pExpr, SSDataBlock* pResult, SSDataBlock* pSrcBlock, SqlFunctionCtx* pCtx,
@ -742,7 +723,6 @@ void queryCostStatis(SExecTaskInfo* pTaskInfo);
void doDestroyTask(SExecTaskInfo* pTaskInfo);
int32_t getMaximumIdleDurationSec();
void doInvokeUdf(struct SUdfInfo* pUdfInfo, SqlFunctionCtx* pCtx, int32_t idx, int32_t type);
void setTaskStatus(SExecTaskInfo* pTaskInfo, int8_t status);
int32_t createExecTaskInfoImpl(SSubplan* pPlan, SExecTaskInfo** pTaskInfo, SReadHandle* pHandle, uint64_t taskId,
EOPTR_EXEC_MODEL model);

2
source/libs/executor/src/executorMain.c
View File

@ -202,7 +202,7 @@ int32_t qIsTaskCompleted(qTaskInfo_t qinfo) {
return TSDB_CODE_QRY_INVALID_QHANDLE;
}
return isTaskKilled(pTaskInfo) || Q_STATUS_EQUAL(pTaskInfo->status, TASK_OVER);
return isTaskKilled(pTaskInfo);
}
void qDestroyTask(qTaskInfo_t qTaskHandle) {

291
source/libs/executor/src/executorimpl.c
View File

@ -107,7 +107,6 @@ static void destroyTableQueryInfoImpl(STableQueryInfo* pTableQueryInfo);
static SColumnInfo* extractColumnFilterInfo(SExprInfo* pExpr, int32_t numOfOutput, int32_t* numOfFilterCols);
static int32_t setTimestampListJoinInfo(STaskRuntimeEnv* pRuntimeEnv, SVariant* pTag, STableQueryInfo* pTableQueryInfo);
static void releaseQueryBuf(size_t numOfTables);
static int32_t getNumOfScanTimes(STaskAttr* pQueryAttr);
@ -204,9 +203,9 @@ SSDataBlock* createResDataBlock(SDataBlockDescNode* pNode) {
for (int32_t i = 0; i < numOfCols; ++i) {
SColumnInfoData idata = {{0}};
SSlotDescNode* pDescNode = nodesListGetNode(pNode->pSlots, i);
// if (!pDescNode->output) { // todo disable it temporarily
// continue;
// }
// if (!pDescNode->output) { // todo disable it temporarily
// continue;
// }
idata.info.type = pDescNode->dataType.type;
idata.info.bytes = pDescNode->dataType.bytes;
@ -620,7 +619,7 @@ void doApplyFunctions(SqlFunctionCtx* pCtx, STimeWindow* pWin, SColumnInfoData*
continue;
}
if (functionNeedToExecute(&pCtx[k])) {
if (functionNeedToExecute(&pCtx[k]) && pCtx[k].fpSet.process != NULL) {
pCtx[k].fpSet.process(&pCtx[k]);
}
@ -803,9 +802,12 @@ static int32_t doSetInputDataBlock(SOperatorInfo* pOperator, SqlFunctionCtx* pCt
static void doAggregateImpl(SOperatorInfo* pOperator, TSKEY startTs, SqlFunctionCtx* pCtx) {
for (int32_t k = 0; k < pOperator->numOfExprs; ++k) {
if (functionNeedToExecute(&pCtx[k])) {
pCtx[k].startTs = startTs; // this can be set during create the struct
if (pCtx[k].fpSet.process != NULL)
pCtx[k].startTs = startTs;
// this can be set during create the struct
// todo add a dummy funtion to avoid process check
if (pCtx[k].fpSet.process != NULL) {
pCtx[k].fpSet.process(&pCtx[k]);
}
}
}
}
@ -835,7 +837,8 @@ int32_t projectApplyFunctions(SExprInfo* pExpr, SSDataBlock* pResult, SSDataBloc
if (pExpr[k].pExpr->nodeType == QUERY_NODE_COLUMN) { // it is a project query
SColumnInfoData* pColInfoData = taosArrayGet(pResult->pDataBlock, outputSlotId);
if (pResult->info.rows > 0 && !createNewColModel) {
colDataMergeCol(pColInfoData, pResult->info.rows, &pResult->info.capacity, pfCtx->input.pData[0], pfCtx->input.numOfRows);
colDataMergeCol(pColInfoData, pResult->info.rows, &pResult->info.capacity, pfCtx->input.pData[0],
pfCtx->input.numOfRows);
} else {
colDataAssign(pColInfoData, pfCtx->input.pData[0], pfCtx->input.numOfRows);
}
@ -921,6 +924,7 @@ int32_t projectApplyFunctions(SExprInfo* pExpr, SSDataBlock* pResult, SSDataBloc
static void setResultRowKey(SResultRow* pResultRow, char* pData, int16_t type) {
if (IS_VAR_DATA_TYPE(type)) {
// todo disable this
// if (pResultRow->key == NULL) {
// pResultRow->key = taosMemoryMalloc(varDataTLen(pData));
// varDataCopy(pResultRow->key, pData);
@ -1074,7 +1078,7 @@ void setBlockStatisInfo(SqlFunctionCtx* pCtx, SExprInfo* pExprInfo, SSDataBlock*
}
// set the output buffer for the selectivity + tag query
static int32_t setCtxTagColumnInfo(SqlFunctionCtx* pCtx, int32_t numOfOutput) {
static int32_t setSelectValueColumnInfo(SqlFunctionCtx* pCtx, int32_t numOfOutput) {
int32_t num = 0;
SqlFunctionCtx* p = NULL;
@ -1086,7 +1090,7 @@ static int32_t setCtxTagColumnInfo(SqlFunctionCtx* pCtx, int32_t numOfOutput) {
for (int32_t i = 0; i < numOfOutput; ++i) {
if (strcmp(pCtx[i].pExpr->pExpr->_function.functionName, "_select_value") == 0) {
pValCtx[num++] = &pCtx[i];
} else {
} else if (fmIsAggFunc(pCtx[i].functionId)) {
p = &pCtx[i];
}
// if (functionId == FUNCTION_TAG_DUMMY || functionId == FUNCTION_TS_DUMMY) {
@ -1214,7 +1218,7 @@ SqlFunctionCtx* createSqlFunctionCtx(SExprInfo* pExprInfo, int32_t numOfOutput,
(int32_t)((*rowCellInfoOffset)[i - 1] + sizeof(SResultRowEntryInfo) + pFuncCtx[i - 1].resDataInfo.interBufSize);
}
setCtxTagColumnInfo(pFuncCtx, numOfOutput);
setSelectValueColumnInfo(pFuncCtx, numOfOutput);
return pFuncCtx;
}
@ -1450,8 +1454,6 @@ static void getIntermediateBufInfo(STaskRuntimeEnv* pRuntimeEnv, int32_t* ps, in
}
}
#define IS_PREFILTER_TYPE(_t) ((_t) != TSDB_DATA_TYPE_BINARY && (_t) != TSDB_DATA_TYPE_NCHAR)
// static FORCE_INLINE bool doFilterByBlockStatistics(STaskRuntimeEnv* pRuntimeEnv, SDataStatis *pDataStatis,
// SqlFunctionCtx *pCtx, int32_t numOfRows) {
// STaskAttr* pQueryAttr = pRuntimeEnv->pQueryAttr;
@ -1876,7 +1878,7 @@ static void updateTableQueryInfoForReverseScan(STableQueryInfo* pTableQueryInfo)
}
void initResultRow(SResultRow* pResultRow) {
// pResultRow->pEntryInfo = (struct SResultRowEntryInfo*)((char*)pResultRow + sizeof(SResultRow));
// pResultRow->pEntryInfo = (struct SResultRowEntryInfo*)((char*)pResultRow + sizeof(SResultRow));
}
/*
@ -1888,7 +1890,8 @@ void initResultRow(SResultRow* pResultRow) {
* offset[0] offset[1] offset[2]
*/
// TODO refactor: some function move away
void setFunctionResultOutput(SOptrBasicInfo* pInfo, SAggSupporter* pSup, int32_t stage, int32_t numOfExprs, SExecTaskInfo* pTaskInfo) {
void setFunctionResultOutput(SOptrBasicInfo* pInfo, SAggSupporter* pSup, int32_t stage, int32_t numOfExprs,
SExecTaskInfo* pTaskInfo) {
SqlFunctionCtx* pCtx = pInfo->pCtx;
SSDataBlock* pDataBlock = pInfo->pRes;
int32_t* rowCellInfoOffset = pInfo->rowCellInfoOffset;
@ -2007,8 +2010,8 @@ void setTaskStatus(SExecTaskInfo* pTaskInfo, int8_t status) {
}
// todo merged with the build group result.
void finalizeMultiTupleQueryResult(SqlFunctionCtx* pCtx, int32_t numOfOutput, SDiskbasedBuf* pBuf,
SResultRowInfo* pResultRowInfo, int32_t* rowCellInfoOffset) {
void finalizeMultiTupleQueryResult(int32_t numOfOutput, SDiskbasedBuf* pBuf, SResultRowInfo* pResultRowInfo,
int32_t* rowCellInfoOffset) {
for (int32_t i = 0; i < pResultRowInfo->size; ++i) {
SResultRowPosition* pPos = &pResultRowInfo->pPosition[i];
@ -2021,17 +2024,11 @@ void finalizeMultiTupleQueryResult(SqlFunctionCtx* pCtx, int32_t numOfOutput, SD
// }
for (int32_t j = 0; j < numOfOutput; ++j) {
pCtx[j].resultInfo = getResultCell(pRow, j, rowCellInfoOffset);
struct SResultRowEntryInfo* pResInfo = pCtx[j].resultInfo;
struct SResultRowEntryInfo* pResInfo = getResultCell(pRow, j, rowCellInfoOffset);
if (!isRowEntryInitialized(pResInfo)) {
continue;
}
if (pCtx[j].fpSet.process) { // TODO set the dummy function, to avoid the check for null ptr.
// pCtx[j].fpSet.finalize(&pCtx[j]);
}
if (pRow->numOfRows < pResInfo->numOfRes) {
pRow->numOfRows = pResInfo->numOfRes;
}
@ -2185,17 +2182,15 @@ int32_t doCopyToSDataBlock(SSDataBlock* pBlock, SExprInfo* pExprInfo, SDiskbased
int32_t numOfResult = pBlock->info.rows; // there are already exists result rows
int32_t start = 0;
int32_t step = -1;
int32_t step = 1;
// qDebug("QInfo:0x%"PRIx64" start to copy data from windowResInfo to output buf", GET_TASKID(pRuntimeEnv));
assert(orderType == TSDB_ORDER_ASC || orderType == TSDB_ORDER_DESC);
if (orderType == TSDB_ORDER_ASC) {
start = pGroupResInfo->index;
step = 1;
} else { // desc order copy all data
start = numOfRows - pGroupResInfo->index - 1;
step = -1;
}
for (int32_t i = start; (i < numOfRows) && (i >= 0); i += step) {
@ -2225,10 +2220,13 @@ int32_t doCopyToSDataBlock(SSDataBlock* pBlock, SExprInfo* pExprInfo, SDiskbased
} else if (strcmp(pCtx[j].pExpr->pExpr->_function.functionName, "_select_value") == 0) {
// do nothing, todo refactor
} else {
SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, slotId);
char* in = GET_ROWCELL_INTERBUF(pCtx[j].resultInfo);
colDataAppend(pColInfoData, pBlock->info.rows, in, pCtx[j].resultInfo->isNullRes);
// expand the result into multiple rows. E.g., _wstartts, top(k, 20)
// the _wstartts needs to copy to 20 following rows, since the results of top-k expands to 20 different rows.
SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, slotId);
char* in = GET_ROWCELL_INTERBUF(pCtx[j].resultInfo);
for(int32_t k = 0; k < pRow->numOfRows; ++k) {
colDataAppend(pColInfoData, pBlock->info.rows + k, in, pCtx[j].resultInfo->isNullRes);
}
}
}
@ -2245,12 +2243,13 @@ int32_t doCopyToSDataBlock(SSDataBlock* pBlock, SExprInfo* pExprInfo, SDiskbased
return 0;
}
void doBuildResultDatablock(SOptrBasicInfo *pbInfo, SGroupResInfo* pGroupResInfo, SExprInfo* pExprInfo, SDiskbasedBuf* pBuf) {
void doBuildResultDatablock(SOptrBasicInfo* pbInfo, SGroupResInfo* pGroupResInfo, SExprInfo* pExprInfo,
SDiskbasedBuf* pBuf) {
assert(pGroupResInfo->currentGroup <= pGroupResInfo->totalGroup);
int32_t* rowCellOffset = pbInfo->rowCellInfoOffset;
SSDataBlock* pBlock = pbInfo->pRes;
SqlFunctionCtx* pCtx = pbInfo->pCtx;
int32_t* rowCellOffset = pbInfo->rowCellInfoOffset;
SSDataBlock* pBlock = pbInfo->pRes;
SqlFunctionCtx* pCtx = pbInfo->pCtx;
blockDataCleanup(pBlock);
if (!hasRemainDataInCurrentGroup(pGroupResInfo)) {
@ -2424,7 +2423,8 @@ void queryCostStatis(SExecTaskInfo* pTaskInfo) {
SFileBlockLoadRecorder* pRecorder = pSummary->pRecoder;
if (pSummary->pRecoder != NULL) {
qDebug("%s :cost summary: elapsed time:%" PRId64 " us, first merge:%" PRId64 " us, total blocks:%d, "
qDebug("%s :cost summary: elapsed time:%" PRId64 " us, first merge:%" PRId64
" us, total blocks:%d, "
"load block statis:%d, load data block:%d, total rows:%" PRId64 ", check rows:%" PRId64,
GET_TASKID(pTaskInfo), pSummary->elapsedTime, pSummary->firstStageMergeTime, pRecorder->totalBlocks,
pRecorder->loadBlockStatis, pRecorder->loadBlocks, pRecorder->totalRows, pRecorder->totalCheckedRows);
@ -2959,7 +2959,7 @@ int32_t setSDataBlockFromFetchRsp(SSDataBlock* pRes, SLoadRemoteDataInfo* pLoadI
relocateColumnData(pRes, pColList, pBlock->pDataBlock);
taosArrayDestroy(pBlock->pDataBlock);
taosMemoryFree(pBlock);
// blockDataDestroy(pBlock);
// blockDataDestroy(pBlock);
}
pRes->info.rows = numOfRows;
@ -3264,7 +3264,8 @@ static int32_t initDataSource(int32_t numOfSources, SExchangeInfo* pInfo) {
return TSDB_CODE_SUCCESS;
}
SOperatorInfo* createExchangeOperatorInfo(const SNodeList* pSources, SSDataBlock* pBlock, SExecTaskInfo* pTaskInfo) {
SOperatorInfo* createExchangeOperatorInfo(void *pTransporter, const SNodeList* pSources, SSDataBlock* pBlock,
SExecTaskInfo* pTaskInfo) {
SExchangeInfo* pInfo = taosMemoryCalloc(1, sizeof(SExchangeInfo));
SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo));
@ -3307,29 +3308,7 @@ SOperatorInfo* createExchangeOperatorInfo(const SNodeList* pSources, SSDataBlock
pOperator->fpSet = createOperatorFpSet(prepareLoadRemoteData, doLoadRemoteData, NULL, NULL,
destroyExchangeOperatorInfo, NULL, NULL, NULL);
#if 1
{ // todo refactor
SRpcInit rpcInit;
memset(&rpcInit, 0, sizeof(rpcInit));
rpcInit.localPort = 0;
rpcInit.label = "EX";
rpcInit.numOfThreads = 1;
rpcInit.cfp = qProcessFetchRsp;
rpcInit.sessions = tsMaxConnections;
rpcInit.connType = TAOS_CONN_CLIENT;
rpcInit.user = (char*)"root";
rpcInit.idleTime = tsShellActivityTimer * 1000;
rpcInit.ckey = "key";
rpcInit.spi = 1;
rpcInit.secret = (char*)"dcc5bed04851fec854c035b2e40263b6";
pInfo->pTransporter = rpcOpen(&rpcInit);
if (pInfo->pTransporter == NULL) {
return NULL; // todo
}
}
#endif
pInfo->pTransporter = pTransporter;
return pOperator;
@ -3699,10 +3678,8 @@ static int32_t doOpenAggregateOptr(SOperatorInfo* pOperator) {
SOptrBasicInfo* pInfo = &pAggInfo->binfo;
int32_t order = TSDB_ORDER_ASC;
SOperatorInfo* downstream = pOperator->pDownstream[0];
bool newgroup = true;
while (1) {
publishOperatorProfEvent(downstream, QUERY_PROF_BEFORE_OPERATOR_EXEC);
SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream);
@ -3715,6 +3692,8 @@ static int32_t doOpenAggregateOptr(SOperatorInfo* pOperator) {
// setTagValue(pOperator, pAggInfo->current->pTable, pInfo->pCtx, pOperator->numOfExprs);
// }
int32_t order = getTableScanOrder(pOperator);
// there is an scalar expression that needs to be calculated before apply the group aggregation.
if (pAggInfo->pScalarExprInfo != NULL) {
int32_t code = projectApplyFunctions(pAggInfo->pScalarExprInfo, pBlock, pBlock, pAggInfo->pScalarCtx,
@ -3747,8 +3726,8 @@ static int32_t doOpenAggregateOptr(SOperatorInfo* pOperator) {
}
closeAllResultRows(&pAggInfo->binfo.resultRowInfo);
finalizeMultiTupleQueryResult(pAggInfo->binfo.pCtx, pOperator->numOfExprs, pAggInfo->aggSup.pResultBuf,
&pAggInfo->binfo.resultRowInfo, pAggInfo->binfo.rowCellInfoOffset);
finalizeMultiTupleQueryResult(pOperator->numOfExprs, pAggInfo->aggSup.pResultBuf, &pAggInfo->binfo.resultRowInfo,
pAggInfo->binfo.rowCellInfoOffset);
initGroupedResultInfo(&pAggInfo->groupResInfo, pAggInfo->aggSup.pResultRowHashTable, false);
OPTR_SET_OPENED(pOperator);
@ -4031,7 +4010,8 @@ static SSDataBlock* doProjectOperation(SOperatorInfo* pOperator) {
}
}
// todo dynamic set tags
// todo set tags
// STableQueryInfo* pTableQueryInfo = pRuntimeEnv->current;
// if (pTableQueryInfo != NULL) {
// setTagValue(pOperator, pTableQueryInfo->pTable, pInfo->pCtx, pOperator->numOfExprs);
@ -4045,7 +4025,6 @@ static SSDataBlock* doProjectOperation(SOperatorInfo* pOperator) {
pTaskInfo->code = projectApplyFunctions(pOperator->pExpr, pInfo->pRes, pBlock, pInfo->pCtx, pOperator->numOfExprs,
pProjectInfo->pPseudoColInfo);
if (pTaskInfo->code != TSDB_CODE_SUCCESS) {
longjmp(pTaskInfo->env, pTaskInfo->code);
}
@ -4109,8 +4088,8 @@ static SSDataBlock* doFill(SOperatorInfo* pOperator) {
}
// todo handle different group data interpolation
bool n = false;
bool *newgroup = &n;
bool n = false;
bool* newgroup = &n;
doHandleRemainBlockFromNewGroup(pInfo, pResultInfo, newgroup, pTaskInfo);
if (pResBlock->info.rows > pResultInfo->threshold || (!pInfo->multigroupResult && pResBlock->info.rows > 0)) {
return pResBlock;
@ -4216,7 +4195,7 @@ static void destroyOperatorInfo(SOperatorInfo* pOperator) {
}
}
taosMemoryFree(pOperator->pExpr);
taosMemoryFreeClear(pOperator->pExpr);
taosMemoryFreeClear(pOperator->info);
taosMemoryFreeClear(pOperator);
}
@ -4234,7 +4213,7 @@ int32_t doInitAggInfoSup(SAggSupporter* pAggSup, SqlFunctionCtx* pCtx, int32_t n
}
uint32_t defaultPgsz = 4096;
while(defaultPgsz < pAggSup->resultRowSize*4) {
while (defaultPgsz < pAggSup->resultRowSize * 4) {
defaultPgsz <<= 1u;
}
@ -4296,11 +4275,8 @@ static STableQueryInfo* initTableQueryInfo(const STableGroupInfo* pTableGroupInf
SArray* pa = taosArrayGetP(pTableGroupInfo->pGroupList, i);
for (int32_t j = 0; j < taosArrayGetSize(pa); ++j) {
STableKeyInfo* pk = taosArrayGet(pa, j);
STableQueryInfo* pTQueryInfo = &pTableQueryInfo[index++];
// pTQueryInfo->uid = pk->uid;
pTQueryInfo->lastKey = pk->lastKey;
// pTQueryInfo->groupIndex = i;
}
}
@ -4319,7 +4295,7 @@ SOperatorInfo* createAggregateOperatorInfo(SOperatorInfo* downstream, SExprInfo*
goto _error;
}
int32_t numOfRows = 1;
int32_t numOfRows = 10;
size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES;
initResultSizeInfo(pOperator, numOfRows);
@ -4330,9 +4306,6 @@ SOperatorInfo* createAggregateOperatorInfo(SOperatorInfo* downstream, SExprInfo*
goto _error;
}
pOperator->resultInfo.capacity = 4096;
pOperator->resultInfo.threshold = 4096 * 0.75;
int32_t numOfGroup = 10; // todo replaced with true value
pInfo->groupId = INT32_MIN;
initResultRowInfo(&pInfo->binfo.resultRowInfo, numOfGroup);
@ -4385,7 +4358,7 @@ void destroyBasicOperatorInfo(void* param, int32_t numOfOutput) {
}
void destroyMergeJoinOperator(void* param, int32_t numOfOutput) {
SJoinOperatorInfo* pJoinOperator = (SJoinOperatorInfo*) param;
SJoinOperatorInfo* pJoinOperator = (SJoinOperatorInfo*)param;
}
void destroyAggOperatorInfo(void* param, int32_t numOfOutput) {
@ -4401,6 +4374,9 @@ void destroySFillOperatorInfo(void* param, int32_t numOfOutput) {
}
static void destroyProjectOperatorInfo(void* param, int32_t numOfOutput) {
if (NULL == param) {
return;
}
SProjectOperatorInfo* pInfo = (SProjectOperatorInfo*)param;
doDestroyBasicInfo(&pInfo->binfo, numOfOutput);
cleanupAggSup(&pInfo->aggSup);
@ -4497,8 +4473,9 @@ static int32_t initFillInfo(SFillOperatorInfo* pInfo, SExprInfo* pExpr, int32_t
}
SOperatorInfo* createFillOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExpr, int32_t numOfCols,
SInterval* pInterval, STimeWindow* pWindow, SSDataBlock* pResBlock, int32_t fillType, SNodeListNode* pValueNode,
bool multigroupResult, SExecTaskInfo* pTaskInfo) {
SInterval* pInterval, STimeWindow* pWindow, SSDataBlock* pResBlock,
int32_t fillType, SNodeListNode* pValueNode, bool multigroupResult,
SExecTaskInfo* pTaskInfo) {
SFillOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SFillOperatorInfo));
SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo));
@ -4532,8 +4509,8 @@ SOperatorInfo* createFillOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExp
SResultInfo* pResultInfo = &pOperator->resultInfo;
initResultSizeInfo(pOperator, 4096);
int32_t code = initFillInfo(pInfo, pExpr, numOfCols, pValueNode, *pWindow, pResultInfo->capacity,
pTaskInfo->id.str, pInterval, type);
int32_t code = initFillInfo(pInfo, pExpr, numOfCols, pValueNode, *pWindow, pResultInfo->capacity, pTaskInfo->id.str,
pInterval, type);
if (code != TSDB_CODE_SUCCESS) {
goto _error;
}
@ -4558,42 +4535,6 @@ _error:
return NULL;
}
static int32_t getColumnIndexInSource(SQueriedTableInfo* pTableInfo, SExprBasicInfo* pExpr, SColumnInfo* pTagCols) {
int32_t j = 0;
if (TSDB_COL_IS_TAG(pExpr->pParam[0].pCol->type)) {
if (pExpr->pParam[0].pCol->colId == TSDB_TBNAME_COLUMN_INDEX) {
return TSDB_TBNAME_COLUMN_INDEX;
}
while (j < pTableInfo->numOfTags) {
if (pExpr->pParam[0].pCol->colId == pTagCols[j].colId) {
return j;
}
j += 1;
}
} /*else if (TSDB_COL_IS_UD_COL(pExpr->colInfo.flag)) { // user specified column data
return TSDB_UD_COLUMN_INDEX;
} else {
while (j < pTableInfo->numOfCols) {
if (pExpr->colInfo.colId == pTableInfo->colList[j].colId) {
return j;
}
j += 1;
}
}*/
return INT32_MIN; // return a less than TSDB_TBNAME_COLUMN_INDEX value
}
bool validateExprColumnInfo(SQueriedTableInfo* pTableInfo, SExprBasicInfo* pExpr, SColumnInfo* pTagCols) {
int32_t j = getColumnIndexInSource(pTableInfo, pExpr, pTagCols);
return j != INT32_MIN;
}
static SResSchema createResSchema(int32_t type, int32_t bytes, int32_t slotId, int32_t scale, int32_t precision,
const char* name) {
SResSchema s = {0};
@ -4746,12 +4687,13 @@ static int32_t doCreateTableGroup(void* metaHandle, int32_t tableType, uint64_t
uint64_t queryId, uint64_t taskId);
static SArray* extractTableIdList(const STableGroupInfo* pTableGroupInfo);
static SArray* extractColumnInfo(SNodeList* pNodeList);
static SArray* extractColMatchInfo(SNodeList* pNodeList, SDataBlockDescNode* pOutputNodeList, int32_t* numOfOutputCols, int32_t type);
static SArray* extractColMatchInfo(SNodeList* pNodeList, SDataBlockDescNode* pOutputNodeList, int32_t* numOfOutputCols,
int32_t type);
static SArray* createSortInfo(SNodeList* pNodeList);
static SArray* extractPartitionColInfo(SNodeList* pNodeList);
static int32_t initQueryTableDataCond(SQueryTableDataCond* pCond, const STableScanPhysiNode* pTableScanNode);
static void setJoinColumnInfo(SColumnInfo* pInfo, const SColumnNode* pLeftNode);
static void setJoinColumnInfo(SColumnInfo* pColumn, const SColumnNode* pColumnNode);
static SInterval extractIntervalInfo(const STableScanPhysiNode* pTableScanNode) {
SInterval interval = {
@ -4786,33 +4728,34 @@ SOperatorInfo* createOperatorTree(SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo
SSDataBlock* pResBlock = createResDataBlock(pDescNode);
SQueryTableDataCond cond = {0};
int32_t code = initQueryTableDataCond(&cond, pTableScanNode);
int32_t code = initQueryTableDataCond(&cond, pTableScanNode);
if (code != TSDB_CODE_SUCCESS) {
return NULL;
}
SInterval interval = extractIntervalInfo(pTableScanNode);
SOperatorInfo* pOperator = createTableScanOperatorInfo(pDataReader, &cond, numOfCols, pTableScanNode->dataRequired,
pTableScanNode->scanSeq, pColList, pResBlock, pScanPhyNode->node.pConditions,
&interval, pTableScanNode->ratio, pTaskInfo);
SInterval interval = extractIntervalInfo(pTableScanNode);
SOperatorInfo* pOperator = createTableScanOperatorInfo(
pDataReader, &cond, numOfCols, pTableScanNode->dataRequired, pTableScanNode->scanSeq, pColList, pResBlock,
pScanPhyNode->node.pConditions, &interval, pTableScanNode->ratio, pTaskInfo);
STableScanInfo* pScanInfo = pOperator->info;
pTaskInfo->cost.pRecoder = &pScanInfo->readRecorder;
return pOperator;
} else if (QUERY_NODE_PHYSICAL_PLAN_EXCHANGE == type) {
SExchangePhysiNode* pExchange = (SExchangePhysiNode*)pPhyNode;
SSDataBlock* pResBlock = createResDataBlock(pExchange->node.pOutputDataBlockDesc);
return createExchangeOperatorInfo(pExchange->pSrcEndPoints, pResBlock, pTaskInfo);
return createExchangeOperatorInfo(pHandle->pMsgCb->clientRpc, pExchange->pSrcEndPoints, pResBlock, pTaskInfo);
} else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN == type) {
SScanPhysiNode* pScanPhyNode = (SScanPhysiNode*)pPhyNode; // simple child table.
int32_t code = doCreateTableGroup(pHandle->meta, pScanPhyNode->tableType, pScanPhyNode->uid, pTableGroupInfo, queryId, taskId);
int32_t code = doCreateTableGroup(pHandle->meta, pScanPhyNode->tableType, pScanPhyNode->uid, pTableGroupInfo,
queryId, taskId);
SArray* tableIdList = extractTableIdList(pTableGroupInfo);
SDataBlockDescNode* pDescNode = pScanPhyNode->node.pOutputDataBlockDesc;
SSDataBlock* pResBlock = createResDataBlock(pDescNode);
SSDataBlock* pResBlock = createResDataBlock(pDescNode);
int32_t numOfCols = 0;
SArray* pCols = extractColMatchInfo(pScanPhyNode->pScanCols, pDescNode, &numOfCols, COL_MATCH_FROM_COL_ID);
int32_t numOfCols = 0;
SArray* pCols = extractColMatchInfo(pScanPhyNode->pScanCols, pDescNode, &numOfCols, COL_MATCH_FROM_COL_ID);
SOperatorInfo* pOperator = createStreamScanOperatorInfo(pHandle->reader, pResBlock, pCols, tableIdList, pTaskInfo,
pScanPhyNode->node.pConditions);
taosArrayDestroy(tableIdList);
@ -4832,25 +4775,27 @@ SOperatorInfo* createOperatorTree(SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo
pTaskInfo, pSysScanPhyNode->showRewrite, pSysScanPhyNode->accountId);
return pOperator;
} else if (QUERY_NODE_PHYSICAL_PLAN_TAG_SCAN == type) {
STagScanPhysiNode* pScanPhyNode = (STagScanPhysiNode*) pPhyNode;
STagScanPhysiNode* pScanPhyNode = (STagScanPhysiNode*)pPhyNode;
SDataBlockDescNode* pDescNode = pScanPhyNode->node.pOutputDataBlockDesc;
SSDataBlock* pResBlock = createResDataBlock(pDescNode);
int32_t code =
doCreateTableGroup(pHandle->meta, pScanPhyNode->tableType, pScanPhyNode->uid, pTableGroupInfo, queryId, taskId);
int32_t code = doCreateTableGroup(pHandle->meta, pScanPhyNode->tableType, pScanPhyNode->uid, pTableGroupInfo,
queryId, taskId);
if (code != TSDB_CODE_SUCCESS) {
return NULL;
}
int32_t num = 0;
int32_t num = 0;
SExprInfo* pExprInfo = createExprInfo(pScanPhyNode->pScanPseudoCols, NULL, &num);
int32_t numOfOutputCols = 0;
SArray* colList = extractColMatchInfo(pScanPhyNode->pScanPseudoCols, pDescNode, &numOfOutputCols, COL_MATCH_FROM_COL_ID);
SArray* colList =
extractColMatchInfo(pScanPhyNode->pScanPseudoCols, pDescNode, &numOfOutputCols, COL_MATCH_FROM_COL_ID);
SOperatorInfo* pOperator = createTagScanOperatorInfo(pHandle, pExprInfo, num, pResBlock, colList, pTableGroupInfo, pTaskInfo);
SOperatorInfo* pOperator =
createTagScanOperatorInfo(pHandle, pExprInfo, num, pResBlock, colList, pTableGroupInfo, pTaskInfo);
return pOperator;
} else {
ASSERT(0);
@ -4897,7 +4842,7 @@ SOperatorInfo* createOperatorTree(SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo
pOptr = createAggregateOperatorInfo(ops[0], pExprInfo, num, pResBlock, pScalarExprInfo, numOfScalarExpr,
pTaskInfo, pTableGroupInfo);
}
} else if (QUERY_NODE_PHYSICAL_PLAN_INTERVAL == type) {
} else if (QUERY_NODE_PHYSICAL_PLAN_INTERVAL == type || QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL == type) {
SIntervalPhysiNode* pIntervalPhyNode = (SIntervalPhysiNode*)pPhyNode;
SExprInfo* pExprInfo = createExprInfo(pIntervalPhyNode->window.pFuncs, NULL, &num);
@ -4935,13 +4880,15 @@ SOperatorInfo* createOperatorTree(SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo
} else if (QUERY_NODE_PHYSICAL_PLAN_SESSION_WINDOW == type) {
SSessionWinodwPhysiNode* pSessionNode = (SSessionWinodwPhysiNode*)pPhyNode;
STimeWindowAggSupp as = {.waterMark = pSessionNode->window.watermark, .calTrigger = pSessionNode->window.triggerType};
STimeWindowAggSupp as = {.waterMark = pSessionNode->window.watermark,
.calTrigger = pSessionNode->window.triggerType};
SExprInfo* pExprInfo = createExprInfo(pSessionNode->window.pFuncs, NULL, &num);
SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc);
int32_t tsSlotId = ((SColumnNode*)pSessionNode->window.pTspk)->slotId;
pOptr = createSessionAggOperatorInfo(ops[0], pExprInfo, num, pResBlock, pSessionNode->gap, tsSlotId, &as, pTaskInfo);
pOptr =
createSessionAggOperatorInfo(ops[0], pExprInfo, num, pResBlock, pSessionNode->gap, tsSlotId, &as, pTaskInfo);
} else if (QUERY_NODE_PHYSICAL_PLAN_PARTITION == type) {
SPartitionPhysiNode* pPartNode = (SPartitionPhysiNode*)pPhyNode;
SArray* pColList = extractPartitionColInfo(pPartNode->pPartitionKeys);
@ -4967,11 +4914,12 @@ SOperatorInfo* createOperatorTree(SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo
pOptr = createMergeJoinOperatorInfo(ops, size, pExprInfo, num, pResBlock, pJoinNode->pOnConditions, pTaskInfo);
} else if (QUERY_NODE_PHYSICAL_PLAN_FILL == type) {
SFillPhysiNode* pFillNode = (SFillPhysiNode*)pPhyNode;
SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc);
SExprInfo* pExprInfo = createExprInfo(pFillNode->pTargets, NULL, &num);
SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc);
SExprInfo* pExprInfo = createExprInfo(pFillNode->pTargets, NULL, &num);
SInterval* pInterval = &((SIntervalAggOperatorInfo*)ops[0]->info)->interval;
pOptr = createFillOperatorInfo(ops[0], pExprInfo, num, pInterval, &pFillNode->timeRange, pResBlock, pFillNode->mode, (SNodeListNode*)pFillNode->pValues, false, pTaskInfo);
pOptr = createFillOperatorInfo(ops[0], pExprInfo, num, pInterval, &pFillNode->timeRange, pResBlock, pFillNode->mode,
(SNodeListNode*)pFillNode->pValues, false, pTaskInfo);
} else {
ASSERT(0);
}
@ -5111,7 +5059,8 @@ SArray* createSortInfo(SNodeList* pNodeList) {
return pList;
}
SArray* extractColMatchInfo(SNodeList* pNodeList, SDataBlockDescNode* pOutputNodeList, int32_t* numOfOutputCols, int32_t type) {
SArray* extractColMatchInfo(SNodeList* pNodeList, SDataBlockDescNode* pOutputNodeList, int32_t* numOfOutputCols,
int32_t type) {
size_t numOfCols = LIST_LENGTH(pNodeList);
SArray* pList = taosArrayInit(numOfCols, sizeof(SColMatchInfo));
if (pList == NULL) {
@ -5124,10 +5073,10 @@ SArray* extractColMatchInfo(SNodeList* pNodeList, SDataBlockDescNode* pOutputNod
SColumnNode* pColNode = (SColumnNode*)pNode->pExpr;
SColMatchInfo c = {0};
c.output = true;
c.colId = pColNode->colId;
c.srcSlotId = pColNode->slotId;
c.matchType = type;
c.output = true;
c.colId = pColNode->colId;
c.srcSlotId = pColNode->slotId;
c.matchType = type;
c.targetSlotId = pNode->slotId;
taosArrayPush(pList, &c);
}
@ -5245,28 +5194,6 @@ _complete:
return code;
}
static int32_t updateOutputBufForTopBotQuery(SQueriedTableInfo* pTableInfo, SColumnInfo* pTagCols, SExprInfo* pExprs,
int32_t numOfOutput, int32_t tagLen, bool superTable) {
for (int32_t i = 0; i < numOfOutput; ++i) {
int16_t functId = getExprFunctionId(&pExprs[i]);
if (functId == FUNCTION_TOP || functId == FUNCTION_BOTTOM) {
int32_t j = getColumnIndexInSource(pTableInfo, &pExprs[i].base, pTagCols);
if (j < 0 || j >= pTableInfo->numOfCols) {
return TSDB_CODE_QRY_INVALID_MSG;
} else {
SColumnInfo* pCol = &pTableInfo->colList[j];
// int32_t ret = getResultDataInfo(pCol->type, pCol->bytes, functId, (int32_t)pExprs[i].base.param[0].i,
// &pExprs[i].base.resSchema.type, &pExprs[i].base.resSchema.bytes,
// &pExprs[i].base.interBytes, tagLen, superTable, NULL);
// assert(ret == TSDB_CODE_SUCCESS);
}
}
}
return TSDB_CODE_SUCCESS;
}
void setResultBufSize(STaskAttr* pQueryAttr, SResultInfo* pResultInfo) {
const int32_t DEFAULT_RESULT_MSG_SIZE = 1024 * (1024 + 512);
@ -5537,8 +5464,8 @@ static SSDataBlock* doMergeJoin(struct SOperatorInfo* pOperator) {
}
SOperatorInfo* createMergeJoinOperatorInfo(SOperatorInfo** pDownstream, int32_t numOfDownstream, SExprInfo* pExprInfo,
int32_t numOfCols, SSDataBlock* pResBlock, SNode* pOnCondition,
SExecTaskInfo* pTaskInfo) {
int32_t numOfCols, SSDataBlock* pResBlock, SNode* pOnCondition,
SExecTaskInfo* pTaskInfo) {
SJoinOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SJoinOperatorInfo));
SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo));
if (pOperator == NULL || pInfo == NULL) {
@ -5547,14 +5474,14 @@ SOperatorInfo* createMergeJoinOperatorInfo(SOperatorInfo** pDownstream, int32_t
initResultSizeInfo(pOperator, 4096);
pInfo->pRes = pResBlock;
pOperator->name = "MergeJoinOperator";
pInfo->pRes = pResBlock;
pOperator->name = "MergeJoinOperator";
pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_JOIN;
pOperator->blocking = false;
pOperator->status = OP_NOT_OPENED;
pOperator->pExpr = pExprInfo;
pOperator->blocking = false;
pOperator->status = OP_NOT_OPENED;
pOperator->pExpr = pExprInfo;
pOperator->numOfExprs = numOfCols;
pOperator->info = pInfo;
pOperator->info = pInfo;
pOperator->pTaskInfo = pTaskInfo;
SOperatorNode* pNode = (SOperatorNode*)pOnCondition;
@ -5578,9 +5505,9 @@ _error:
}
void setJoinColumnInfo(SColumnInfo* pColumn, const SColumnNode* pColumnNode) {
pColumn->slotId = pColumnNode->slotId;
pColumn->type = pColumnNode->node.resType.type;
pColumn->bytes = pColumnNode->node.resType.bytes;
pColumn->slotId = pColumnNode->slotId;
pColumn->type = pColumnNode->node.resType.type;
pColumn->bytes = pColumnNode->node.resType.bytes;
pColumn->precision = pColumnNode->node.resType.precision;
pColumn->scale = pColumnNode->node.resType.scale;
pColumn->scale = pColumnNode->node.resType.scale;
}

4
source/libs/executor/src/groupoperator.c
View File

@ -304,8 +304,8 @@ static SSDataBlock* hashGroupbyAggregate(SOperatorInfo* pOperator) {
pOperator->status = OP_RES_TO_RETURN;
closeAllResultRows(&pInfo->binfo.resultRowInfo);
finalizeMultiTupleQueryResult(pInfo->binfo.pCtx, pOperator->numOfExprs, pInfo->aggSup.pResultBuf,
&pInfo->binfo.resultRowInfo, pInfo->binfo.rowCellInfoOffset);
finalizeMultiTupleQueryResult(pOperator->numOfExprs, pInfo->aggSup.pResultBuf, &pInfo->binfo.resultRowInfo,
pInfo->binfo.rowCellInfoOffset);
// if (!stableQuery) { // finalize include the update of result rows
// finalizeQueryResult(pInfo->binfo.pCtx, pOperator->numOfExprs);
// } else {

27
source/libs/executor/src/scanoperator.c
View File

@ -1057,7 +1057,8 @@ static SSDataBlock* doSysTableScan(SOperatorInfo* pOperator) {
pMsgSendInfo->fp = loadSysTableCallback;
int64_t transporterId = 0;
int32_t code = asyncSendMsgToServer(pInfo->pTransporter, &pInfo->epSet, &transporterId, pMsgSendInfo);
int32_t code =
asyncSendMsgToServer(pInfo->readHandle.pMsgCb->clientRpc, &pInfo->epSet, &transporterId, pMsgSendInfo);
tsem_wait(&pInfo->ready);
if (pTaskInfo->code) {
@ -1182,29 +1183,7 @@ SOperatorInfo* createSysTableScanOperatorInfo(void* readHandle, SSDataBlock* pRe
} else {
tsem_init(&pInfo->ready, 0, 0);
pInfo->epSet = epset;
#if 1
{ // todo refactor
SRpcInit rpcInit;
memset(&rpcInit, 0, sizeof(rpcInit));
rpcInit.localPort = 0;
rpcInit.label = "DB-META";
rpcInit.numOfThreads = 1;
rpcInit.cfp = qProcessFetchRsp;
rpcInit.sessions = tsMaxConnections;
rpcInit.connType = TAOS_CONN_CLIENT;
rpcInit.user = (char*)"root";
rpcInit.idleTime = tsShellActivityTimer * 1000;
rpcInit.ckey = "key";
rpcInit.spi = 1;
rpcInit.secret = (char*)"dcc5bed04851fec854c035b2e40263b6";
pInfo->pTransporter = rpcOpen(&rpcInit);
if (pInfo->pTransporter == NULL) {
return NULL; // todo
}
}
#endif
pInfo->readHandle = *(SReadHandle*)readHandle;
}
pOperator->name = "SysTableScanOperator";

8
source/libs/executor/src/timewindowoperator.c
View File

@ -798,8 +798,8 @@ static int32_t doOpenIntervalAgg(SOperatorInfo* pOperator) {
}
closeAllResultRows(&pInfo->binfo.resultRowInfo);
finalizeMultiTupleQueryResult(pInfo->binfo.pCtx, pOperator->numOfExprs, pInfo->aggSup.pResultBuf,
&pInfo->binfo.resultRowInfo, pInfo->binfo.rowCellInfoOffset);
finalizeMultiTupleQueryResult(pOperator->numOfExprs, pInfo->aggSup.pResultBuf, &pInfo->binfo.resultRowInfo,
pInfo->binfo.rowCellInfoOffset);
initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, true);
OPTR_SET_OPENED(pOperator);
@ -916,7 +916,7 @@ static SSDataBlock* doStateWindowAgg(SOperatorInfo* pOperator) {
pOperator->status = OP_RES_TO_RETURN;
closeAllResultRows(&pBInfo->resultRowInfo);
finalizeMultiTupleQueryResult(pBInfo->pCtx, pOperator->numOfExprs, pInfo->aggSup.pResultBuf, &pBInfo->resultRowInfo,
finalizeMultiTupleQueryResult(pOperator->numOfExprs, pInfo->aggSup.pResultBuf, &pBInfo->resultRowInfo,
pBInfo->rowCellInfoOffset);
initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, true);
@ -1293,7 +1293,7 @@ static SSDataBlock* doSessionWindowAgg(SOperatorInfo* pOperator) {
// restore the value
pOperator->status = OP_RES_TO_RETURN;
closeAllResultRows(&pBInfo->resultRowInfo);
finalizeMultiTupleQueryResult(pBInfo->pCtx, pOperator->numOfExprs, pInfo->aggSup.pResultBuf, &pBInfo->resultRowInfo,
finalizeMultiTupleQueryResult(pOperator->numOfExprs, pInfo->aggSup.pResultBuf, &pBInfo->resultRowInfo,
pBInfo->rowCellInfoOffset);
initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, true);

7
source/libs/function/inc/builtinsimpl.h
View File

@ -25,6 +25,7 @@ extern "C" {
bool functionSetup(SqlFunctionCtx *pCtx, SResultRowEntryInfo* pResultInfo);
int32_t functionFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock);
int32_t dummyProcess(SqlFunctionCtx* UNUSED_PARAM(pCtx));
int32_t functionFinalizeWithResultBuf(SqlFunctionCtx* pCtx, SSDataBlock* pBlock, char* finalResult);
EFuncDataRequired countDataRequired(SFunctionNode* pFunc, STimeWindow* pTimeWindow);
@ -55,6 +56,12 @@ int32_t stddevFunction(SqlFunctionCtx* pCtx);
int32_t stddevFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock);
int32_t stddevInvertFunction(SqlFunctionCtx* pCtx);
bool getLeastSQRFuncEnv(struct SFunctionNode* pFunc, SFuncExecEnv* pEnv);
bool leastSQRFunctionSetup(SqlFunctionCtx *pCtx, SResultRowEntryInfo* pResultInfo);
int32_t leastSQRFunction(SqlFunctionCtx* pCtx);
int32_t leastSQRFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock);
int32_t leastSQRInvertFunction(SqlFunctionCtx* pCtx);
bool getPercentileFuncEnv(struct SFunctionNode* pFunc, SFuncExecEnv* pEnv);
bool percentileFunctionSetup(SqlFunctionCtx *pCtx, SResultRowEntryInfo* pResultInfo);
int32_t percentileFunction(SqlFunctionCtx *pCtx);

1
source/libs/function/inc/functionMgtInt.h
View File

@ -40,6 +40,7 @@ extern "C" {
#define FUNC_MGT_MULTI_RES_FUNC FUNC_MGT_FUNC_CLASSIFICATION_MASK(11)
#define FUNC_MGT_SCAN_PC_FUNC FUNC_MGT_FUNC_CLASSIFICATION_MASK(12)
#define FUNC_MGT_SELECT_FUNC FUNC_MGT_FUNC_CLASSIFICATION_MASK(13)
#define FUNC_MGT_REPEAT_SCAN_FUNC FUNC_MGT_FUNC_CLASSIFICATION_MASK(14)
#define FUNC_MGT_TEST_MASK(val, mask) (((val) & (mask)) != 0)

47
source/libs/function/src/builtins.c
View File

@ -226,6 +226,23 @@ static int32_t translateSpread(SFunctionNode* pFunc, char* pErrBuf, int32_t len)
return TSDB_CODE_SUCCESS;
}
static int32_t translateLeastSQR(SFunctionNode* pFunc, char* pErrBuf, int32_t len) {
int32_t numOfParams = LIST_LENGTH(pFunc->pParameterList);
if (3 != numOfParams) {
return invaildFuncParaNumErrMsg(pErrBuf, len, pFunc->functionName);
}
for (int32_t i = 0; i < numOfParams; ++i) {
uint8_t colType = ((SExprNode*)nodesListGetNode(pFunc->pParameterList, i))->resType.type;
if (!IS_NUMERIC_TYPE(colType)) {
return invaildFuncParaTypeErrMsg(pErrBuf, len, pFunc->functionName);
}
}
pFunc->node.resType = (SDataType) { .bytes = 64, .type = TSDB_DATA_TYPE_BINARY };
return TSDB_CODE_SUCCESS;
}
static int32_t translateHistogram(SFunctionNode* pFunc, char* pErrBuf, int32_t len) {
if (4 != LIST_LENGTH(pFunc->pParameterList)) {
return invaildFuncParaNumErrMsg(pErrBuf, len, pFunc->functionName);
@ -242,7 +259,7 @@ static int32_t translateHistogram(SFunctionNode* pFunc, char* pErrBuf, int32_t l
return invaildFuncParaTypeErrMsg(pErrBuf, len, pFunc->functionName);
}
pFunc->node.resType = (SDataType) { .bytes = 512, .type = TSDB_DATA_TYPE_BINARY };
pFunc->node.resType = (SDataType){.bytes = 512, .type = TSDB_DATA_TYPE_BINARY};
return TSDB_CODE_SUCCESS;
}
@ -274,7 +291,8 @@ static int32_t translateDiff(SFunctionNode* pFunc, char* pErrBuf, int32_t len) {
}
SExprNode* p1 = (SExprNode*)nodesListGetNode(pFunc->pParameterList, 0);
if (!IS_NUMERIC_TYPE(p1->resType.type)) {
if (!IS_SIGNED_NUMERIC_TYPE(p1->resType.type) && !IS_FLOAT_TYPE(p1->resType.type) &&
TSDB_DATA_TYPE_BOOL != p1->resType.type) {
return invaildFuncParaTypeErrMsg(pErrBuf, len, pFunc->functionName);
}
pFunc->node.resType = p1->resType;
@ -536,6 +554,17 @@ const SBuiltinFuncDefinition funcMgtBuiltins[] = {
.finalizeFunc = stddevFinalize,
.invertFunc = stddevInvertFunction
},
{
.name = "leastsquares",
.type = FUNCTION_TYPE_LEASTSQUARES,
.classification = FUNC_MGT_AGG_FUNC,
.translateFunc = translateLeastSQR,
.getEnvFunc = getLeastSQRFuncEnv,
.initFunc = leastSQRFunctionSetup,
.processFunc = leastSQRFunction,
.finalizeFunc = leastSQRFinalize,
.invertFunc = leastSQRInvertFunction
},
{
.name = "avg",
.type = FUNCTION_TYPE_AVG,
@ -550,7 +579,7 @@ const SBuiltinFuncDefinition funcMgtBuiltins[] = {
{
.name = "percentile",
.type = FUNCTION_TYPE_PERCENTILE,
.classification = FUNC_MGT_AGG_FUNC,
.classification = FUNC_MGT_AGG_FUNC | FUNC_MGT_REPEAT_SCAN_FUNC,
.translateFunc = translatePercentile,
.getEnvFunc = getPercentileFuncEnv,
.initFunc = percentileFunctionSetup,
@ -958,6 +987,16 @@ const SBuiltinFuncDefinition funcMgtBuiltins[] = {
.sprocessFunc = NULL,
.finalizeFunc = NULL
},
{
.name = "_c0",
.type = FUNCTION_TYPE_ROWTS,
.classification = FUNC_MGT_PSEUDO_COLUMN_FUNC,
.translateFunc = translateTimePseudoColumn,
.getEnvFunc = getTimePseudoFuncEnv,
.initFunc = NULL,
.sprocessFunc = NULL,
.finalizeFunc = NULL
},
{
.name = "tbname",
.type = FUNCTION_TYPE_TBNAME,
@ -1035,7 +1074,7 @@ const SBuiltinFuncDefinition funcMgtBuiltins[] = {
.translateFunc = translateSelectValue,
.getEnvFunc = getSelectivityFuncEnv, // todo remove this function later.
.initFunc = functionSetup,
.sprocessFunc = NULL,
.processFunc = NULL,
.finalizeFunc = NULL
}
};

218
source/libs/function/src/builtinsimpl.c
View File

@ -65,6 +65,13 @@ typedef struct SStddevRes {
};
} SStddevRes;
typedef struct SLeastSQRInfo {
double matrix[2][3];
double startVal;
double stepVal;
int64_t num;
} SLeastSQRInfo;
typedef struct SPercentileInfo {
double result;
tMemBucket* pMemBucket;
@ -105,6 +112,7 @@ typedef struct SHistoFuncBin {
typedef struct SHistoFuncInfo {
int32_t numOfBins;
int32_t totalCount;
bool normalized;
SHistoFuncBin bins[];
} SHistoFuncInfo;
@ -176,7 +184,6 @@ int32_t functionFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock) {
SResultRowEntryInfo* pResInfo = GET_RES_INFO(pCtx);
pResInfo->isNullRes = (pResInfo->numOfRes == 0) ? 1 : 0;
/*cleanupResultRowEntry(pResInfo);*/
char* in = GET_ROWCELL_INTERBUF(pResInfo);
colDataAppend(pCol, pBlock->info.rows, in, pResInfo->isNullRes);
@ -184,6 +191,10 @@ int32_t functionFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock) {
return pResInfo->numOfRes;
}
int32_t dummyProcess(SqlFunctionCtx* UNUSED_PARAM(pCtx)) {
return 0;
}
int32_t functionFinalizeWithResultBuf(SqlFunctionCtx* pCtx, SSDataBlock* pBlock, char* finalResult) {
int32_t slotId = pCtx->pExpr->base.resSchema.slotId;
SColumnInfoData* pCol = taosArrayGet(pBlock->pDataBlock, slotId);
@ -1404,6 +1415,181 @@ int32_t stddevFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock) {
return functionFinalize(pCtx, pBlock);
}
bool getLeastSQRFuncEnv(SFunctionNode* pFunc, SFuncExecEnv* pEnv) {
pEnv->calcMemSize = sizeof(SLeastSQRInfo);
return true;
}
bool leastSQRFunctionSetup(SqlFunctionCtx* pCtx, SResultRowEntryInfo* pResultInfo) {
if (!functionSetup(pCtx, pResultInfo)) {
return false;
}
SLeastSQRInfo* pInfo = GET_ROWCELL_INTERBUF(pResultInfo);
pInfo->startVal = IS_FLOAT_TYPE(pCtx->param[1].param.nType) ? pCtx->param[1].param.d :
(double)pCtx->param[1].param.i;
pInfo->stepVal = IS_FLOAT_TYPE(pCtx->param[1].param.nType) ? pCtx->param[2].param.d :
(double)pCtx->param[1].param.i;
return true;
}
#define LEASTSQR_CAL(p, x, y, index, step) \
do { \
(p)[0][0] += (double)(x) * (x); \
(p)[0][1] += (double)(x); \
(p)[0][2] += (double)(x) * (y)[index]; \
(p)[1][2] += (y)[index]; \
(x) += step; \
} while (0)
int32_t leastSQRFunction(SqlFunctionCtx* pCtx) {
int32_t numOfElem = 0;
SInputColumnInfoData* pInput = &pCtx->input;
int32_t type = pInput->pData[0]->info.type;
SLeastSQRInfo* pInfo = GET_ROWCELL_INTERBUF(GET_RES_INFO(pCtx));
SColumnInfoData* pCol = pInput->pData[0];
double(*param)[3] = pInfo->matrix;
double x = pInfo->startVal;
int32_t start = pInput->startRowIndex;
int32_t numOfRows = pInput->numOfRows;
switch (type) {
case TSDB_DATA_TYPE_TINYINT: {
int8_t* plist = (int8_t*)pCol->pData;
for (int32_t i = start; i < numOfRows + pInput->startRowIndex; ++i) {
if (pCol->hasNull && colDataIsNull_f(pCol->nullbitmap, i)) {
continue;
}
numOfElem++;
LEASTSQR_CAL(param, x, plist, i, pInfo->stepVal);
break;
}
}
case TSDB_DATA_TYPE_SMALLINT: {
int16_t* plist = (int16_t*)pCol->pData;
for (int32_t i = start; i < numOfRows + pInput->startRowIndex; ++i) {
if (pCol->hasNull && colDataIsNull_f(pCol->nullbitmap, i)) {
continue;
}
numOfElem++;
LEASTSQR_CAL(param, x, plist, i, pInfo->stepVal);
}
break;
}
case TSDB_DATA_TYPE_INT: {
int32_t* plist = (int32_t*)pCol->pData;
for (int32_t i = start; i < numOfRows + pInput->startRowIndex; ++i) {
if (pCol->hasNull && colDataIsNull_f(pCol->nullbitmap, i)) {
continue;
}
numOfElem++;
LEASTSQR_CAL(param, x, plist, i, pInfo->stepVal);
}
break;
}
case TSDB_DATA_TYPE_BIGINT: {
int64_t* plist = (int64_t*)pCol->pData;
for (int32_t i = start; i < numOfRows + pInput->startRowIndex; ++i) {
if (pCol->hasNull && colDataIsNull_f(pCol->nullbitmap, i)) {
continue;
}
numOfElem++;
LEASTSQR_CAL(param, x, plist, i, pInfo->stepVal);
}
break;
}
case TSDB_DATA_TYPE_FLOAT: {
float* plist = (float*)pCol->pData;
for (int32_t i = start; i < numOfRows + pInput->startRowIndex; ++i) {
if (pCol->hasNull && colDataIsNull_f(pCol->nullbitmap, i)) {
continue;
}
numOfElem++;
LEASTSQR_CAL(param, x, plist, i, pInfo->stepVal);
}
break;
}
case TSDB_DATA_TYPE_DOUBLE: {
double* plist = (double*)pCol->pData;
for (int32_t i = start; i < numOfRows + pInput->startRowIndex; ++i) {
if (pCol->hasNull && colDataIsNull_f(pCol->nullbitmap, i)) {
continue;
}
numOfElem++;
LEASTSQR_CAL(param, x, plist, i, pInfo->stepVal);
}
break;
}
default:
break;
}
pInfo->startVal = x;
pInfo->num += numOfElem;
SET_VAL(GET_RES_INFO(pCtx), numOfElem, 1);
return TSDB_CODE_SUCCESS;
}
int32_t leastSQRFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock) {
SResultRowEntryInfo* pResInfo = GET_RES_INFO(pCtx);
SLeastSQRInfo* pInfo = GET_ROWCELL_INTERBUF(GET_RES_INFO(pCtx));
int32_t slotId = pCtx->pExpr->base.resSchema.slotId;
SColumnInfoData* pCol = taosArrayGet(pBlock->pDataBlock, slotId);
int32_t currentRow = pBlock->info.rows;
if (0 == pInfo->num) {
return 0;
}
double(*param)[3] = pInfo->matrix;
param[1][1] = (double)pInfo->num;
param[1][0] = param[0][1];
param[0][0] -= param[1][0] * (param[0][1] / param[1][1]);
param[0][2] -= param[1][2] * (param[0][1] / param[1][1]);
param[0][1] = 0;
param[1][2] -= param[0][2] * (param[1][0] / param[0][0]);
param[1][0] = 0;
param[0][2] /= param[0][0];
param[1][2] /= param[1][1];
char buf[64] = {0};
size_t len = snprintf(varDataVal(buf), sizeof(buf) - VARSTR_HEADER_SIZE, "{slop:%.6lf, intercept:%.6lf}", param[0][2], param[1][2]);
varDataSetLen(buf, len);
colDataAppend(pCol, currentRow, buf, false);
return pResInfo->numOfRes;
}
int32_t leastSQRInvertFunction(SqlFunctionCtx* pCtx) {
//TODO
return TSDB_CODE_SUCCESS;
}
bool getPercentileFuncEnv(SFunctionNode* pFunc, SFuncExecEnv* pEnv) {
pEnv->calcMemSize = sizeof(SPercentileInfo);
return true;
@ -2398,6 +2584,9 @@ bool histogramFunctionSetup(SqlFunctionCtx *pCtx, SResultRowEntryInfo *pResultIn
}
SHistoFuncInfo *pInfo = GET_ROWCELL_INTERBUF(pResultInfo);
pInfo->numOfBins = 0;
pInfo->totalCount = 0;
pInfo->normalized = 0;
int8_t binType = getHistogramBinType(varDataVal(pCtx->param[1].param.pz));
if (binType == UNKNOWN_BIN) {
@ -2427,7 +2616,6 @@ int32_t histogramFunction(SqlFunctionCtx *pCtx) {
int32_t numOfRows = pInput->numOfRows;
int32_t numOfElems = 0;
int32_t totalElems = 0;
for (int32_t i = start; i < numOfRows + start; ++i) {
if (pCol->hasNull && colDataIsNull_f(pCol->nullbitmap, i)) {
continue;
@ -2442,23 +2630,13 @@ int32_t histogramFunction(SqlFunctionCtx *pCtx) {
for (int32_t k = 0; k < pInfo->numOfBins; ++k) {
if (v > pInfo->bins[k].lower && v <= pInfo->bins[k].upper) {
pInfo->bins[k].count++;
totalElems++;
pInfo->totalCount++;
break;
}
}
}
if (pInfo->normalized) {
for (int32_t k = 0; k < pInfo->numOfBins; ++k) {
if(totalElems != 0) {
pInfo->bins[k].percentage = pInfo->bins[k].count / (double)totalElems;
} else {
pInfo->bins[k].percentage = 0;
}
}
}
SET_VAL(GET_RES_INFO(pCtx), numOfElems, pInfo->numOfBins);
return TSDB_CODE_SUCCESS;
}
@ -2471,14 +2649,24 @@ int32_t histogramFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock) {
int32_t currentRow = pBlock->info.rows;
if (pInfo->normalized) {
for (int32_t k = 0; k < pResInfo->numOfRes; ++k) {
if(pInfo->totalCount != 0) {
pInfo->bins[k].percentage = pInfo->bins[k].count / (double)pInfo->totalCount;
} else {
pInfo->bins[k].percentage = 0;
}
}
}
for (int32_t i = 0; i < pResInfo->numOfRes; ++i) {
int32_t len;
char buf[512] = {0};
if (!pInfo->normalized) {
len = sprintf(buf + VARSTR_HEADER_SIZE, "{\"lower_bin\":%g, \"upper_bin\":%g, \"count\":%"PRId64"}",
len = sprintf(varDataVal(buf), "{\"lower_bin\":%g, \"upper_bin\":%g, \"count\":%"PRId64"}",
pInfo->bins[i].lower, pInfo->bins[i].upper, pInfo->bins[i].count);
} else {
len = sprintf(buf + VARSTR_HEADER_SIZE, "{\"lower_bin\":%g, \"upper_bin\":%g, \"count\":%lf}",
len = sprintf(varDataVal(buf), "{\"lower_bin\":%g, \"upper_bin\":%g, \"count\":%lf}",
pInfo->bins[i].lower, pInfo->bins[i].upper, pInfo->bins[i].percentage);
}
varDataSetLen(buf, len);

19
source/libs/function/src/functionMgt.c
View File

@ -169,6 +169,8 @@ bool fmIsDynamicScanOptimizedFunc(int32_t funcId) {
bool fmIsMultiResFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_MULTI_RES_FUNC); }
bool fmIsRepeatScanFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_REPEAT_SCAN_FUNC); }
bool fmIsUserDefinedFunc(int32_t funcId) { return funcId > FUNC_UDF_ID_START; }
void fmFuncMgtDestroy() {
@ -197,15 +199,14 @@ int32_t fmSetNormalFunc(int32_t funcId, SFuncExecFuncs* pFpSet) {
bool fmIsInvertible(int32_t funcId) {
bool res = false;
switch (funcMgtBuiltins[funcId].type) {
case FUNCTION_TYPE_COUNT:
case FUNCTION_TYPE_SUM:
case FUNCTION_TYPE_STDDEV:
case FUNCTION_TYPE_AVG:
res = true;
break;
default:
break;
case FUNCTION_TYPE_COUNT:
case FUNCTION_TYPE_SUM:
case FUNCTION_TYPE_STDDEV:
case FUNCTION_TYPE_AVG:
res = true;
break;
default:
break;
}
return res;
}

5
source/libs/function/src/tudf.c
View File

@ -18,6 +18,7 @@
#include "tudf.h"
#include "tudfInt.h"
#include "tarray.h"
#include "tglobal.h"
#include "tdatablock.h"
#include "querynodes.h"
#include "builtinsimpl.h"
@ -138,6 +139,10 @@ static void udfWatchUdfd(void *args) {
}
int32_t udfStartUdfd(int32_t startDnodeId) {
if (!tsStartUdfd) {
fnInfo("start udfd is disabled.")
return 0;
}
SUdfdData *pData = &udfdGlobal;
if (pData->startCalled) {
fnInfo("dnode-mgmt start udfd already called");

2
source/libs/function/src/udfd.c
View File

@ -409,7 +409,7 @@ void udfdPipeCloseCb(uv_handle_t *pipe) {
void udfdUvHandleError(SUdfdUvConn *conn) { uv_close((uv_handle_t *)conn->client, udfdPipeCloseCb); }
void udfdPipeRead(uv_stream_t *client, ssize_t nread, const uv_buf_t *buf) {
fnDebug("udf read %zu bytes from client", nread);
fnDebug("udf read %zd bytes from client", nread);
if (nread == 0) return;
SUdfdUvConn *conn = client->data;

12
source/libs/index/inc/indexComm.h
View File

@ -20,11 +20,23 @@
extern "C" {
#endif
#include "indexInt.h"
#include "tcompare.h"
extern char JSON_COLUMN[];
extern char JSON_VALUE_DELIM;
char* indexPackJsonData(SIndexTerm* itm);
char* indexPackJsonDataPrefix(SIndexTerm* itm, int32_t* skip);
typedef enum { MATCH, CONTINUE, BREAK } TExeCond;
typedef TExeCond (*_cache_range_compare)(void* a, void* b, int8_t type);
TExeCond tDoCommpare(__compar_fn_t func, int8_t comType, void* a, void* b);
_cache_range_compare indexGetCompare(RangeType ty);
#ifdef __cplusplus
}
#endif

48
source/libs/index/src/indexCache.c
View File

@ -60,50 +60,6 @@ static int32_t cacheSearchRange_JSON(void* cache, SIndexTerm* ct, SIdxTempResult
static int32_t cacheSearchCompareFunc_JSON(void* cache, SIndexTerm* term, SIdxTempResult* tr, STermValueType* s,
RangeType type);
typedef enum { MATCH, CONTINUE, BREAK } TExeCond;
typedef TExeCond (*_cache_range_compare)(void* a, void* b, int8_t type);
static TExeCond tDoCommpare(__compar_fn_t func, int8_t comType, void* a, void* b) {
// optime later
int32_t ret = func(a, b);
switch (comType) {
case QUERY_LESS_THAN: {
if (ret < 0) return MATCH;
} break;
case QUERY_LESS_EQUAL: {
if (ret <= 0) return MATCH;
break;
}
case QUERY_GREATER_THAN: {
if (ret > 0) return MATCH;
break;
}
case QUERY_GREATER_EQUAL: {
if (ret >= 0) return MATCH;
}
}
return CONTINUE;
}
static TExeCond tCompareLessThan(void* a, void* b, int8_t type) {
__compar_fn_t func = getComparFunc(type, 0);
return tDoCommpare(func, QUERY_LESS_THAN, a, b);
}
static TExeCond tCompareLessEqual(void* a, void* b, int8_t type) {
__compar_fn_t func = getComparFunc(type, 0);
return tDoCommpare(func, QUERY_LESS_EQUAL, a, b);
}
static TExeCond tCompareGreaterThan(void* a, void* b, int8_t type) {
__compar_fn_t func = getComparFunc(type, 0);
return tDoCommpare(func, QUERY_GREATER_THAN, a, b);
}
static TExeCond tCompareGreaterEqual(void* a, void* b, int8_t type) {
__compar_fn_t func = getComparFunc(type, 0);
return tDoCommpare(func, QUERY_GREATER_EQUAL, a, b);
}
static TExeCond (*rangeCompare[])(void* a, void* b, int8_t type) = {tCompareLessThan, tCompareLessEqual,
tCompareGreaterThan, tCompareGreaterEqual};
static int32_t (*cacheSearch[][QUERY_MAX])(void* cache, SIndexTerm* ct, SIdxTempResult* tr, STermValueType* s) = {
{cacheSearchTerm, cacheSearchPrefix, cacheSearchSuffix, cacheSearchRegex, cacheSearchLessThan, cacheSearchLessEqual,
cacheSearchGreaterThan, cacheSearchGreaterEqual, cacheSearchRange},
@ -169,7 +125,7 @@ static int32_t cacheSearchCompareFunc(void* cache, SIndexTerm* term, SIdxTempRes
return 0;
}
_cache_range_compare cmpFn = rangeCompare[type];
_cache_range_compare cmpFn = indexGetCompare(type);
MemTable* mem = cache;
IndexCache* pCache = mem->pCache;
@ -295,7 +251,7 @@ static int32_t cacheSearchCompareFunc_JSON(void* cache, SIndexTerm* term, SIdxTe
if (cache == NULL) {
return 0;
}
_cache_range_compare cmpFn = rangeCompare[type];
_cache_range_compare cmpFn = indexGetCompare(type);
MemTable* mem = cache;
IndexCache* pCache = mem->pCache;

47
source/libs/index/src/indexComm.c
View File

@ -13,12 +13,58 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "indexComm.h"
#include "index.h"
#include "indexInt.h"
#include "tcompare.h"
char JSON_COLUMN[] = "JSON";
char JSON_VALUE_DELIM = '&';
static TExeCond tCompareLessThan(void* a, void* b, int8_t type) {
__compar_fn_t func = getComparFunc(type, 0);
return tDoCommpare(func, QUERY_LESS_THAN, a, b);
}
static TExeCond tCompareLessEqual(void* a, void* b, int8_t type) {
__compar_fn_t func = getComparFunc(type, 0);
return tDoCommpare(func, QUERY_LESS_EQUAL, a, b);
}
static TExeCond tCompareGreaterThan(void* a, void* b, int8_t type) {
__compar_fn_t func = getComparFunc(type, 0);
return tDoCommpare(func, QUERY_GREATER_THAN, a, b);
}
static TExeCond tCompareGreaterEqual(void* a, void* b, int8_t type) {
__compar_fn_t func = getComparFunc(type, 0);
return tDoCommpare(func, QUERY_GREATER_EQUAL, a, b);
}
TExeCond tDoCommpare(__compar_fn_t func, int8_t comType, void* a, void* b) {
// optime later
int32_t ret = func(a, b);
switch (comType) {
case QUERY_LESS_THAN: {
if (ret < 0) return MATCH;
} break;
case QUERY_LESS_EQUAL: {
if (ret <= 0) return MATCH;
break;
}
case QUERY_GREATER_THAN: {
if (ret > 0) return MATCH;
break;
}
case QUERY_GREATER_EQUAL: {
if (ret >= 0) return MATCH;
}
}
return CONTINUE;
}
static TExeCond (*rangeCompare[])(void* a, void* b, int8_t type) = {tCompareLessThan, tCompareLessEqual,
tCompareGreaterThan, tCompareGreaterEqual};
_cache_range_compare indexGetCompare(RangeType ty) { return rangeCompare[ty]; }
char* indexPackJsonData(SIndexTerm* itm) {
/*
* |<-----colname---->|<-----dataType---->|<--------colVal---------->|
@ -46,6 +92,7 @@ char* indexPackJsonData(SIndexTerm* itm) {
return buf;
}
char* indexPackJsonDataPrefix(SIndexTerm* itm, int32_t* skip) {
/*
* |<-----colname---->|<-----dataType---->|<--------colVal---------->|

149
source/libs/index/src/indexTfile.c
View File

@ -72,9 +72,23 @@ static int32_t tfSearchRange(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchCompareFunc(void* reader, SIndexTerm* tem, SIdxTempResult* tr, RangeType ctype);
static int32_t (*tfSearch[])(void* reader, SIndexTerm* tem, SIdxTempResult* tr) = {
tfSearchTerm, tfSearchPrefix, tfSearchSuffix, tfSearchRegex, tfSearchLessThan,
tfSearchLessEqual, tfSearchGreaterThan, tfSearchGreaterEqual, tfSearchRange};
static int32_t tfSearchTerm_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchPrefix_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchSuffix_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchRegex_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchLessThan_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchLessEqual_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchGreaterThan_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchGreaterEqual_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchRange_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr);
static int32_t tfSearchCompareFunc_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr, RangeType ctype);
static int32_t (*tfSearch[][QUERY_MAX])(void* reader, SIndexTerm* tem, SIdxTempResult* tr) = {
{tfSearchTerm, tfSearchPrefix, tfSearchSuffix, tfSearchRegex, tfSearchLessThan, tfSearchLessEqual,
tfSearchGreaterThan, tfSearchGreaterEqual, tfSearchRange},
{tfSearchTerm_JSON, tfSearchPrefix_JSON, tfSearchSuffix_JSON, tfSearchRegex_JSON, tfSearchLessThan_JSON,
tfSearchLessEqual_JSON, tfSearchGreaterThan_JSON, tfSearchGreaterEqual_JSON, tfSearchRange_JSON}};
TFileCache* tfileCacheCreate(const char* path) {
TFileCache* tcache = taosMemoryCalloc(1, sizeof(TFileCache));
@ -202,14 +216,10 @@ void tfileReaderDestroy(TFileReader* reader) {
taosMemoryFree(reader);
}
static int32_t tfSearchTerm(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
bool hasJson = INDEX_TYPE_CONTAIN_EXTERN_TYPE(tem->colType, TSDB_DATA_TYPE_JSON);
int ret = 0;
char* p = tem->colVal;
uint64_t sz = tem->nColVal;
if (hasJson) {
p = indexPackJsonData(tem);
sz = strlen(p);
}
int64_t st = taosGetTimestampUs();
FstSlice key = fstSliceCreate(p, sz);
uint64_t offset;
@ -224,9 +234,6 @@ static int32_t tfSearchTerm(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
indexInfo("index: %" PRIu64 ", col: %s, colVal: %s, load all table info, time cost: %" PRIu64 "us", tem->suid,
tem->colName, tem->colVal, cost);
}
if (hasJson) {
taosMemoryFree(p);
}
fstSliceDestroy(&key);
return 0;
}
@ -308,14 +315,11 @@ static int32_t tfSearchRegex(void* reader, SIndexTerm* tem, SIdxTempResult* tr)
}
static int32_t tfSearchCompareFunc(void* reader, SIndexTerm* tem, SIdxTempResult* tr, RangeType type) {
bool hasJson = INDEX_TYPE_CONTAIN_EXTERN_TYPE(tem->colType, TSDB_DATA_TYPE_JSON);
int ret = 0;
char* p = tem->colVal;
int skip = 0;
int ret = 0;
char* p = tem->colVal;
int skip = 0;
_cache_range_compare cmpFn = indexGetCompare(type);
if (hasJson) {
p = indexPackJsonDataPrefix(tem, &skip);
}
SArray* offsets = taosArrayInit(16, sizeof(uint64_t));
AutomationCtx* ctx = automCtxCreate((void*)p, AUTOMATION_ALWAYS);
@ -328,7 +332,16 @@ static int32_t tfSearchCompareFunc(void* reader, SIndexTerm* tem, SIdxTempResult
StreamWithState* st = streamBuilderIntoStream(sb);
StreamWithStateResult* rt = NULL;
while ((rt = streamWithStateNextWith(st, NULL)) != NULL) {
taosArrayPush(offsets, &(rt->out.out));
FstSlice* s = &rt->data;
char* ch = (char*)fstSliceData(s, NULL);
TExeCond cond = cmpFn(ch, p, tem->colType);
if (MATCH == cond) {
tfileReaderLoadTableIds((TFileReader*)reader, rt->out.out, tr->total);
} else if (CONTINUE == cond) {
} else if (BREAK == cond) {
swsResultDestroy(rt);
break;
}
swsResultDestroy(rt);
}
streamWithStateDestroy(st);
@ -376,17 +389,105 @@ static int32_t tfSearchRange(void* reader, SIndexTerm* tem, SIdxTempResult* tr)
fstSliceDestroy(&key);
return 0;
}
static int32_t tfSearchTerm_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
int ret = 0;
char* p = indexPackJsonData(tem);
int sz = strlen(p);
int64_t st = taosGetTimestampUs();
FstSlice key = fstSliceCreate(p, sz);
uint64_t offset;
if (fstGet(((TFileReader*)reader)->fst, &key, &offset)) {
int64_t et = taosGetTimestampUs();
int64_t cost = et - st;
indexInfo("index: %" PRIu64 ", col: %s, colVal: %s, found table info in tindex, time cost: %" PRIu64 "us",
tem->suid, tem->colName, tem->colVal, cost);
ret = tfileReaderLoadTableIds((TFileReader*)reader, offset, tr->total);
cost = taosGetTimestampUs() - et;
indexInfo("index: %" PRIu64 ", col: %s, colVal: %s, load all table info, time cost: %" PRIu64 "us", tem->suid,
tem->colName, tem->colVal, cost);
}
fstSliceDestroy(&key);
return 0;
// deprecate api
return TSDB_CODE_SUCCESS;
}
static int32_t tfSearchPrefix_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
// impl later
return TSDB_CODE_SUCCESS;
}
static int32_t tfSearchSuffix_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
// impl later
return TSDB_CODE_SUCCESS;
}
static int32_t tfSearchRegex_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
// impl later
return TSDB_CODE_SUCCESS;
}
static int32_t tfSearchLessThan_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
return tfSearchCompareFunc_JSON(reader, tem, tr, LT);
}
static int32_t tfSearchLessEqual_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
return tfSearchCompareFunc_JSON(reader, tem, tr, LE);
}
static int32_t tfSearchGreaterThan_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
return tfSearchCompareFunc_JSON(reader, tem, tr, GT);
}
static int32_t tfSearchGreaterEqual_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
return tfSearchCompareFunc_JSON(reader, tem, tr, GE);
}
static int32_t tfSearchRange_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr) {
// impl later
return TSDB_CODE_SUCCESS;
}
static int32_t tfSearchCompareFunc_JSON(void* reader, SIndexTerm* tem, SIdxTempResult* tr, RangeType ctype) {
int ret = 0;
int skip = 0;
char* p = indexPackJsonDataPrefix(tem, &skip);
_cache_range_compare cmpFn = indexGetCompare(ctype);
SArray* offsets = taosArrayInit(16, sizeof(uint64_t));
AutomationCtx* ctx = automCtxCreate((void*)p, AUTOMATION_PREFIX);
FstStreamBuilder* sb = fstSearch(((TFileReader*)reader)->fst, ctx);
FstSlice h = fstSliceCreate((uint8_t*)p, skip);
fstStreamBuilderSetRange(sb, &h, ctype);
fstSliceDestroy(&h);
StreamWithState* st = streamBuilderIntoStream(sb);
StreamWithStateResult* rt = NULL;
while ((rt = streamWithStateNextWith(st, NULL)) != NULL) {
FstSlice* s = &rt->data;
char* ch = (char*)fstSliceData(s, NULL);
TExeCond cond = cmpFn(ch, p, tem->colType);
if (MATCH == cond) {
tfileReaderLoadTableIds((TFileReader*)reader, rt->out.out, tr->total);
} else if (CONTINUE == cond) {
} else if (BREAK == cond) {
swsResultDestroy(rt);
break;
}
swsResultDestroy(rt);
}
streamWithStateDestroy(st);
fstStreamBuilderDestroy(sb);
return TSDB_CODE_SUCCESS;
}
int tfileReaderSearch(TFileReader* reader, SIndexTermQuery* query, SIdxTempResult* tr) {
SIndexTerm* term = query->term;
EIndexQueryType qtype = query->qType;
if (qtype >= sizeof(tfSearch) / sizeof(tfSearch[0])) {
indexInfo("index: %" PRIu64 ", col: %s, colVal: %s, not found table info in tindex", term->suid, term->colName,
term->colVal);
return -1;
if (INDEX_TYPE_CONTAIN_EXTERN_TYPE(term->colType, TSDB_DATA_TYPE_JSON)) {
return tfSearch[1][qtype](reader, term, tr);
} else {
return tfSearch[qtype](reader, term, tr);
return tfSearch[0][qtype](reader, term, tr);
}
tfileReaderUnRef(reader);
return 0;
}

5
source/libs/nodes/src/nodesCodeFuncs.c
View File

@ -222,6 +222,8 @@ const char* nodesNodeName(ENodeType type) {
return "PhysiSort";
case QUERY_NODE_PHYSICAL_PLAN_INTERVAL:
return "PhysiInterval";
case QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL:
return "PhysiStreamInterval";
case QUERY_NODE_PHYSICAL_PLAN_FILL:
return "PhysiFill";
case QUERY_NODE_PHYSICAL_PLAN_SESSION_WINDOW:
@ -2893,6 +2895,7 @@ static int32_t specificNodeToJson(const void* pObj, SJson* pJson) {
case QUERY_NODE_PHYSICAL_PLAN_SORT:
return physiSortNodeToJson(pObj, pJson);
case QUERY_NODE_PHYSICAL_PLAN_INTERVAL:
case QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL:
return physiIntervalNodeToJson(pObj, pJson);
case QUERY_NODE_PHYSICAL_PLAN_FILL:
return physiFillNodeToJson(pObj, pJson);
@ -2983,6 +2986,7 @@ static int32_t jsonToSpecificNode(const SJson* pJson, void* pObj) {
case QUERY_NODE_PHYSICAL_PLAN_SORT:
return jsonToPhysiSortNode(pJson, pObj);
case QUERY_NODE_PHYSICAL_PLAN_INTERVAL:
case QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL:
return jsonToPhysiIntervalNode(pJson, pObj);
case QUERY_NODE_PHYSICAL_PLAN_FILL:
return jsonToPhysiFillNode(pJson, pObj);
@ -3099,6 +3103,7 @@ int32_t nodesStringToNode(const char* pStr, SNode** pNode) {
return TSDB_CODE_FAILED;
}
int32_t code = makeNodeByJson(pJson, pNode);
tjsonDelete(pJson);
if (TSDB_CODE_SUCCESS != code) {
nodesDestroyNode(*pNode);
*pNode = NULL;

1
source/libs/nodes/src/nodesTraverseFuncs.c
View File

@ -513,6 +513,7 @@ static EDealRes dispatchPhysiPlan(SNode* pNode, ETraversalOrder order, FNodeWalk
break;
}
case QUERY_NODE_PHYSICAL_PLAN_INTERVAL:
case QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL:
res = walkWindowPhysi((SWinodwPhysiNode*)pNode, order, walker, pContext);
break;
case QUERY_NODE_PHYSICAL_PLAN_SESSION_WINDOW:

3
source/libs/nodes/src/nodesUtilFuncs.c
View File

@ -252,6 +252,8 @@ SNodeptr nodesMakeNode(ENodeType type) {
return makeNode(type, sizeof(SSortPhysiNode));
case QUERY_NODE_PHYSICAL_PLAN_INTERVAL:
return makeNode(type, sizeof(SIntervalPhysiNode));
case QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL:
return makeNode(type, sizeof(SStreamIntervalPhysiNode));
case QUERY_NODE_PHYSICAL_PLAN_FILL:
return makeNode(type, sizeof(SFillPhysiNode));
case QUERY_NODE_PHYSICAL_PLAN_SESSION_WINDOW:
@ -644,6 +646,7 @@ void nodesDestroyNode(SNodeptr pNode) {
break;
}
case QUERY_NODE_PHYSICAL_PLAN_INTERVAL:
case QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL:
destroyWinodwPhysiNode((SWinodwPhysiNode*)pNode);
break;
case QUERY_NODE_PHYSICAL_PLAN_SESSION_WINDOW:

17
source/libs/parser/src/parAstCreater.c
View File

@ -907,6 +907,13 @@ SNode* createDropSuperTableStmt(SAstCreateContext* pCxt, bool ignoreNotExists, S
return (SNode*)pStmt;
}
static SNode* createAlterTableStmtFinalize(SNode* pRealTable, SAlterTableStmt* pStmt) {
strcpy(pStmt->dbName, ((SRealTableNode*)pRealTable)->table.dbName);
strcpy(pStmt->tableName, ((SRealTableNode*)pRealTable)->table.tableName);
nodesDestroyNode(pRealTable);
return (SNode*)pStmt;
}
SNode* createAlterTableModifyOptions(SAstCreateContext* pCxt, SNode* pRealTable, SNode* pOptions) {
if (NULL == pRealTable) {
return NULL;
@ -915,7 +922,7 @@ SNode* createAlterTableModifyOptions(SAstCreateContext* pCxt, SNode* pRealTable,
CHECK_OUT_OF_MEM(pStmt);
pStmt->alterType = TSDB_ALTER_TABLE_UPDATE_OPTIONS;
pStmt->pOptions = (STableOptions*)pOptions;
return (SNode*)pStmt;
return createAlterTableStmtFinalize(pRealTable, pStmt);
}
SNode* createAlterTableAddModifyCol(SAstCreateContext* pCxt, SNode* pRealTable, int8_t alterType,
@ -928,7 +935,7 @@ SNode* createAlterTableAddModifyCol(SAstCreateContext* pCxt, SNode* pRealTable,
pStmt->alterType = alterType;
strncpy(pStmt->colName, pColName->z, pColName->n);
pStmt->dataType = dataType;
return (SNode*)pStmt;
return createAlterTableStmtFinalize(pRealTable, pStmt);
}
SNode* createAlterTableDropCol(SAstCreateContext* pCxt, SNode* pRealTable, int8_t alterType, const SToken* pColName) {
@ -939,7 +946,7 @@ SNode* createAlterTableDropCol(SAstCreateContext* pCxt, SNode* pRealTable, int8_
CHECK_OUT_OF_MEM(pStmt);
pStmt->alterType = alterType;
strncpy(pStmt->colName, pColName->z, pColName->n);
return (SNode*)pStmt;
return createAlterTableStmtFinalize(pRealTable, pStmt);
}
SNode* createAlterTableRenameCol(SAstCreateContext* pCxt, SNode* pRealTable, int8_t alterType,
@ -952,7 +959,7 @@ SNode* createAlterTableRenameCol(SAstCreateContext* pCxt, SNode* pRealTable, int
pStmt->alterType = alterType;
strncpy(pStmt->colName, pOldColName->z, pOldColName->n);
strncpy(pStmt->newColName, pNewColName->z, pNewColName->n);
return (SNode*)pStmt;
return createAlterTableStmtFinalize(pRealTable, pStmt);
}
SNode* createAlterTableSetTag(SAstCreateContext* pCxt, SNode* pRealTable, const SToken* pTagName, SNode* pVal) {
@ -964,7 +971,7 @@ SNode* createAlterTableSetTag(SAstCreateContext* pCxt, SNode* pRealTable, const
pStmt->alterType = TSDB_ALTER_TABLE_UPDATE_TAG_VAL;
strncpy(pStmt->colName, pTagName->z, pTagName->n);
pStmt->pVal = (SValueNode*)pVal;
return (SNode*)pStmt;
return createAlterTableStmtFinalize(pRealTable, pStmt);
}
SNode* createUseDatabaseStmt(SAstCreateContext* pCxt, SToken* pDbName) {

2
source/libs/parser/src/parAstParser.c
View File

@ -64,8 +64,8 @@ int32_t parse(SParseContext* pParseCxt, SQuery** pQuery) {
goto abort_parse;
}
default:
Parse(pParser, t0.type, t0, &cxt);
// ParseTrace(stdout, "");
Parse(pParser, t0.type, t0, &cxt);
if (TSDB_CODE_SUCCESS != cxt.errCode) {
goto abort_parse;
}

12
source/libs/parser/src/parInsert.c
View File

@ -241,6 +241,15 @@ static int32_t getTableMetaImpl(SInsertParseContext* pCxt, SToken* pTname, bool
SParseContext* pBasicCtx = pCxt->pComCxt;
SName name = {0};
createSName(&name, pTname, pBasicCtx->acctId, pBasicCtx->db, &pCxt->msg);
char dbFname[TSDB_DB_FNAME_LEN] = {0};
tNameGetFullDbName(&name, dbFname);
bool pass = false;
CHECK_CODE(catalogChkAuth(pBasicCtx->pCatalog, pBasicCtx->pTransporter, &pBasicCtx->mgmtEpSet, pBasicCtx->pUser, dbFname, AUTH_TYPE_WRITE, &pass));
if (!pass) {
return TSDB_CODE_PAR_PERMISSION_DENIED;
}
if (isStb) {
CHECK_CODE(catalogGetSTableMeta(pBasicCtx->pCatalog, pBasicCtx->pTransporter, &pBasicCtx->mgmtEpSet, &name,
&pCxt->pTableMeta));
@ -1151,6 +1160,7 @@ static int32_t parseInsertBody(SInsertParseContext* pCxt) {
(*pCxt->pStmtCb->setExecInfoFn)(pCxt->pStmtCb->pStmt, pCxt->pVgroupsHashObj, pCxt->pTableBlockHashObj);
pCxt->pVgroupsHashObj = NULL;
pCxt->pTableBlockHashObj = NULL;
pCxt->pTableMeta = NULL;
return TSDB_CODE_SUCCESS;
}
@ -1276,7 +1286,7 @@ int32_t qBindStmtTagsValue(void *pBlock, void *boundTags, int64_t suid, char *tN
return TSDB_CODE_TSC_OUT_OF_MEMORY;
}
SSchema* pSchema = getTableTagSchema(pDataBlock->pTableMeta);
SSchema* pSchema = pDataBlock->pTableMeta->schema;
SKvParam param = {.builder = &tagBuilder};
for (int c = 0; c < tags->numOfBound; ++c) {

3
source/libs/parser/src/parInsertData.c
View File

@ -469,7 +469,7 @@ int32_t mergeTableDataBlocks(SHashObj* pHashObj, uint8_t payloadType, SArray** p
// the maximum expanded size in byte when a row-wise data is converted to SDataRow format
int32_t expandSize = isRawPayload ? getRowExpandSize(pOneTableBlock->pTableMeta) : 0;
int64_t destSize = dataBuf->size + pOneTableBlock->size + pBlocks->numOfRows * expandSize +
sizeof(STColumn) * getNumOfColumns(pOneTableBlock->pTableMeta);
sizeof(STColumn) * getNumOfColumns(pOneTableBlock->pTableMeta) + pOneTableBlock->createTbReqLen;
if (dataBuf->nAllocSize < destSize) {
dataBuf->nAllocSize = (uint32_t)(destSize * 1.5);
@ -601,6 +601,7 @@ int32_t qResetStmtDataBlock(void* block, bool keepBuf) {
pBlock->numOfTables = 1;
pBlock->nAllocSize = TSDB_PAYLOAD_SIZE;
pBlock->headerSize = pBlock->size;
pBlock->createTbReqLen = 0;
memset(&pBlock->rowBuilder, 0, sizeof(pBlock->rowBuilder));

3
source/libs/parser/src/parTokenizer.c
View File

@ -214,6 +214,7 @@ static SKeyword keywordTable[] = {
{"WINDOW_CLOSE", TK_WINDOW_CLOSE},
{"WITH", TK_WITH},
{"WRITE", TK_WRITE},
{"_C0", TK_ROWTS},
{"_QENDTS", TK_QENDTS},
{"_QSTARTTS", TK_QSTARTTS},
{"_ROWTS", TK_ROWTS},
@ -590,6 +591,8 @@ uint32_t tGetToken(const char* z, uint32_t* tokenId) {
if (seg == 4) { // ip address
*tokenId = TK_NK_IPTOKEN;
return i;
} else if (seg > 2) {
break;
}
if ((z[i] == 'e' || z[i] == 'E') &&

96
source/libs/parser/src/parTranslater.c
View File

@ -699,6 +699,10 @@ static EDealRes translateFunction(STranslateContext* pCxt, SFunctionNode* pFunc)
if (isCountStar(pFunc)) {
pCxt->errCode = rewriteCountStar(pCxt, pFunc);
}
if (fmIsRepeatScanFunc(pFunc->funcId)) {
pCxt->pCurrStmt->hasRepeatScanFuncs = true;
}
}
return TSDB_CODE_SUCCESS == pCxt->errCode ? DEAL_RES_CONTINUE : DEAL_RES_ERROR;
}
@ -778,6 +782,7 @@ static EDealRes rewriteColToSelectValFunc(STranslateContext* pCxt, bool* pHasSel
return DEAL_RES_ERROR;
}
strcpy(pFunc->functionName, "_select_value");
strcpy(pFunc->node.aliasName, ((SExprNode*)*pNode)->aliasName);
pCxt->errCode = nodesListMakeAppend(&pFunc->pParameterList, *pNode);
if (TSDB_CODE_SUCCESS == pCxt->errCode) {
translateFunction(pCxt, pFunc);
@ -2255,8 +2260,8 @@ static int32_t checkTableColsSchema(STranslateContext* pCxt, SHashObj* pHash, SN
code = generateSyntaxErrMsg(&pCxt->msgBuf, TSDB_CODE_PAR_DUPLICATED_COLUMN);
}
if (TSDB_CODE_SUCCESS == code) {
if ((TSDB_DATA_TYPE_VARCHAR == pCol->dataType.type && pCol->dataType.bytes > TSDB_MAX_BINARY_LEN) ||
(TSDB_DATA_TYPE_NCHAR == pCol->dataType.type && pCol->dataType.bytes > TSDB_MAX_NCHAR_LEN)) {
if ((TSDB_DATA_TYPE_VARCHAR == pCol->dataType.type && calcTypeBytes(pCol->dataType) > TSDB_MAX_BINARY_LEN) ||
(TSDB_DATA_TYPE_NCHAR == pCol->dataType.type && calcTypeBytes(pCol->dataType) > TSDB_MAX_NCHAR_LEN)) {
code = code = generateSyntaxErrMsg(&pCxt->msgBuf, TSDB_CODE_PAR_INVALID_VAR_COLUMN_LEN);
}
}
@ -2536,10 +2541,18 @@ static int32_t buildCreateStbReq(STranslateContext* pCxt, SCreateTableStmt* pStm
pReq->igExists = pStmt->ignoreExists;
pReq->xFilesFactor = pStmt->pOptions->filesFactor;
pReq->delay = pStmt->pOptions->delay;
pReq->ttl = pStmt->pOptions->ttl;
columnDefNodeToField(pStmt->pCols, &pReq->pColumns);
columnDefNodeToField(pStmt->pTags, &pReq->pTags);
pReq->numOfColumns = LIST_LENGTH(pStmt->pCols);
pReq->numOfTags = LIST_LENGTH(pStmt->pTags);
if ('\0' != pStmt->pOptions->comment[0]) {
pReq->comment = strdup(pStmt->pOptions->comment);
if (NULL == pReq->comment) {
return TSDB_CODE_OUT_OF_MEMORY;
}
pReq->commentLen = strlen(pStmt->pOptions->comment) + 1;
}
SName tableName;
tNameExtractFullName(toName(pCxt->pParseCxt->acctId, pStmt->dbName, pStmt->tableName, &tableName), pReq->name);
@ -2575,7 +2588,7 @@ static int32_t translateDropTable(STranslateContext* pCxt, SDropTableStmt* pStmt
SName tableName;
int32_t code = getTableMetaImpl(
pCxt, toName(pCxt->pParseCxt->acctId, pClause->dbName, pClause->tableName, &tableName), &pTableMeta);
if ((TSDB_CODE_TDB_INVALID_TABLE_ID == code || TSDB_CODE_VND_TB_NOT_EXIST == code) && pClause->ignoreNotExists) {
if ((TSDB_CODE_PAR_TABLE_NOT_EXIST == code || TSDB_CODE_VND_TB_NOT_EXIST == code) && pClause->ignoreNotExists) {
return TSDB_CODE_SUCCESS;
}
if (TSDB_CODE_SUCCESS == code) {
@ -2598,6 +2611,18 @@ static int32_t translateDropSuperTable(STranslateContext* pCxt, SDropSuperTableS
}
static int32_t setAlterTableField(SAlterTableStmt* pStmt, SMAlterStbReq* pAlterReq) {
if (TSDB_ALTER_TABLE_UPDATE_OPTIONS == pStmt->alterType) {
pAlterReq->ttl = pStmt->pOptions->ttl;
if ('\0' != pStmt->pOptions->comment[0]) {
pAlterReq->comment = strdup(pStmt->pOptions->comment);
if (NULL == pAlterReq->comment) {
return TSDB_CODE_OUT_OF_MEMORY;
}
pAlterReq->commentLen = strlen(pStmt->pOptions->comment) + 1;
}
return TSDB_CODE_SUCCESS;
}
pAlterReq->pFields = taosArrayInit(2, sizeof(TAOS_FIELD));
if (NULL == pAlterReq->pFields) {
return TSDB_CODE_OUT_OF_MEMORY;
@ -2610,7 +2635,7 @@ static int32_t setAlterTableField(SAlterTableStmt* pStmt, SMAlterStbReq* pAlterR
case TSDB_ALTER_TABLE_DROP_COLUMN:
case TSDB_ALTER_TABLE_UPDATE_COLUMN_BYTES:
case TSDB_ALTER_TABLE_UPDATE_TAG_BYTES: {
TAOS_FIELD field = {.type = pStmt->dataType.type, .bytes = pStmt->dataType.bytes};
TAOS_FIELD field = {.type = pStmt->dataType.type, .bytes = calcTypeBytes(pStmt->dataType)};
strcpy(field.name, pStmt->colName);
taosArrayPush(pAlterReq->pFields, &field);
break;
@ -2621,7 +2646,7 @@ static int32_t setAlterTableField(SAlterTableStmt* pStmt, SMAlterStbReq* pAlterR
strcpy(oldField.name, pStmt->colName);
taosArrayPush(pAlterReq->pFields, &oldField);
TAOS_FIELD newField = {0};
strcpy(oldField.name, pStmt->newColName);
strcpy(newField.name, pStmt->newColName);
taosArrayPush(pAlterReq->pFields, &newField);
break;
}
@ -2638,7 +2663,7 @@ static int32_t translateAlterTable(STranslateContext* pCxt, SAlterTableStmt* pSt
SName tableName;
tNameExtractFullName(toName(pCxt->pParseCxt->acctId, pStmt->dbName, pStmt->tableName, &tableName), alterReq.name);
alterReq.alterType = pStmt->alterType;
if (TSDB_ALTER_TABLE_UPDATE_OPTIONS == pStmt->alterType || TSDB_ALTER_TABLE_UPDATE_TAG_VAL == pStmt->alterType) {
if (TSDB_ALTER_TABLE_UPDATE_TAG_VAL == pStmt->alterType) {
return TSDB_CODE_FAILED;
} else {
if (TSDB_CODE_SUCCESS != setAlterTableField(pStmt, &alterReq)) {
@ -2925,7 +2950,6 @@ static int32_t buildCreateTopicReq(STranslateContext* pCxt, SCreateTopicStmt* pS
SName name;
tNameSetDbName(&name, pCxt->pParseCxt->acctId, pStmt->topicName, strlen(pStmt->topicName));
tNameGetFullDbName(&name, pReq->name);
/*tNameExtractFullName(toName(pCxt->pParseCxt->acctId, pCxt->pParseCxt->db, pStmt->topicName, &name), pReq->name);*/
pReq->igExists = pStmt->ignoreExists;
pReq->withTbName = pStmt->pOptions->withTable;
pReq->withSchema = pStmt->pOptions->withSchema;
@ -2989,7 +3013,8 @@ static int32_t translateDropTopic(STranslateContext* pCxt, SDropTopicStmt* pStmt
SMDropTopicReq dropReq = {0};
SName name;
tNameExtractFullName(toName(pCxt->pParseCxt->acctId, pCxt->pParseCxt->db, pStmt->topicName, &name), dropReq.name);
tNameSetDbName(&name, pCxt->pParseCxt->acctId, pStmt->topicName, strlen(pStmt->topicName));
tNameGetFullDbName(&name, dropReq.name);
dropReq.igNotExists = pStmt->ignoreNotExists;
return buildCmdMsg(pCxt, TDMT_MND_DROP_TOPIC, (FSerializeFunc)tSerializeSMDropTopicReq, &dropReq);
@ -3029,28 +3054,48 @@ static int32_t translateKillTransaction(STranslateContext* pCxt, SKillStmt* pStm
return buildCmdMsg(pCxt, TDMT_MND_KILL_TRANS, (FSerializeFunc)tSerializeSKillTransReq, &killReq);
}
static int32_t translateCreateStream(STranslateContext* pCxt, SCreateStreamStmt* pStmt) {
SCMCreateStreamReq createReq = {0};
static int32_t checkCreateStream(STranslateContext* pCxt, SCreateStreamStmt* pStmt) {
if (NULL == pStmt->pQuery) {
return TSDB_CODE_SUCCESS;
}
createReq.igExists = pStmt->ignoreExists;
if (QUERY_NODE_SELECT_STMT == nodeType(pStmt->pQuery)) {
SSelectStmt* pSelect = (SSelectStmt*)pStmt->pQuery;
if (QUERY_NODE_REAL_TABLE == nodeType(pSelect->pFromTable)) {
return TSDB_CODE_SUCCESS;
}
}
return generateSyntaxErrMsg(&pCxt->msgBuf, TSDB_CODE_PAR_INVALID_STREAM_QUERY);
}
static void getSourceDatabase(SNode* pStmt, int32_t acctId, char* pDbFName) {
SName name = {.type = TSDB_DB_NAME_T, .acctId = acctId};
strcpy(name.dbname, ((SRealTableNode*)(((SSelectStmt*)pStmt)->pFromTable))->table.dbName);
tNameGetFullDbName(&name, pDbFName);
}
static int32_t buildCreateStreamReq(STranslateContext* pCxt, SCreateStreamStmt* pStmt, SCMCreateStreamReq* pReq) {
pReq->igExists = pStmt->ignoreExists;
SName name;
tNameExtractFullName(toName(pCxt->pParseCxt->acctId, pCxt->pParseCxt->db, pStmt->streamName, &name), createReq.name);
tNameExtractFullName(toName(pCxt->pParseCxt->acctId, pCxt->pParseCxt->db, pStmt->streamName, &name), pReq->name);
if ('\0' != pStmt->targetTabName[0]) {
strcpy(name.dbname, pStmt->targetDbName);
strcpy(name.tname, pStmt->targetTabName);
tNameExtractFullName(&name, createReq.targetStbFullName);
tNameExtractFullName(&name, pReq->targetStbFullName);
}
int32_t code = translateQuery(pCxt, pStmt->pQuery);
if (TSDB_CODE_SUCCESS == code) {
code = nodesNodeToString(pStmt->pQuery, false, &createReq.ast, NULL);
getSourceDatabase(pStmt->pQuery, pCxt->pParseCxt->acctId, pReq->sourceDB);
code = nodesNodeToString(pStmt->pQuery, false, &pReq->ast, NULL);
}
if (TSDB_CODE_SUCCESS == code) {
createReq.sql = strdup(pCxt->pParseCxt->pSql);
if (NULL == createReq.sql) {
pReq->sql = strdup(pCxt->pParseCxt->pSql);
if (NULL == pReq->sql) {
code = TSDB_CODE_OUT_OF_MEMORY;
}
}
@ -3060,11 +3105,20 @@ static int32_t translateCreateStream(STranslateContext* pCxt, SCreateStreamStmt*
: TSDB_CODE_SUCCESS;
}
if (TSDB_CODE_SUCCESS == code) {
createReq.triggerType = pStmt->pOptions->triggerType;
createReq.watermark =
(NULL != pStmt->pOptions->pWatermark ? ((SValueNode*)pStmt->pOptions->pWatermark)->datum.i : 0);
pReq->triggerType = pStmt->pOptions->triggerType;
pReq->watermark = (NULL != pStmt->pOptions->pWatermark ? ((SValueNode*)pStmt->pOptions->pWatermark)->datum.i : 0);
}
return code;
}
static int32_t translateCreateStream(STranslateContext* pCxt, SCreateStreamStmt* pStmt) {
SCMCreateStreamReq createReq = {0};
int32_t code = checkCreateStream(pCxt, pStmt);
if (TSDB_CODE_SUCCESS == code) {
code = buildCreateStreamReq(pCxt, pStmt, &createReq);
}
if (TSDB_CODE_SUCCESS == code) {
code = buildCmdMsg(pCxt, TDMT_MND_CREATE_STREAM, (FSerializeFunc)tSerializeSCMCreateStreamReq, &createReq);
}
@ -3146,7 +3200,7 @@ static int32_t translateGrant(STranslateContext* pCxt, SGrantStmt* pStmt) {
req.alterType = TSDB_ALTER_USER_ADD_WRITE_DB;
}
strcpy(req.user, pStmt->userName);
strcpy(req.dbname, pStmt->dbName);
sprintf(req.dbname, "%d.%s", pCxt->pParseCxt->acctId, pStmt->dbName);
return buildCmdMsg(pCxt, TDMT_MND_ALTER_USER, (FSerializeFunc)tSerializeSAlterUserReq, &req);
}
@ -3162,7 +3216,7 @@ static int32_t translateRevoke(STranslateContext* pCxt, SRevokeStmt* pStmt) {
req.alterType = TSDB_ALTER_USER_REMOVE_WRITE_DB;
}
strcpy(req.user, pStmt->userName);
strcpy(req.dbname, pStmt->dbName);
sprintf(req.dbname, "%d.%s", pCxt->pParseCxt->acctId, pStmt->dbName);
return buildCmdMsg(pCxt, TDMT_MND_ALTER_USER, (FSerializeFunc)tSerializeSAlterUserReq, &req);
}

93
source/libs/parser/test/parInitialATest.cpp
View File

@ -19,7 +19,7 @@ using namespace std;
namespace ParserTest {
class ParserInitialATest : public ParserTestBase {};
class ParserInitialATest : public ParserDdlTest {};
TEST_F(ParserInitialATest, alterAccount) {
useDb("root", "test");
@ -72,16 +72,103 @@ TEST_F(ParserInitialATest, alterDatabase) {
TEST_F(ParserInitialATest, alterTable) {
useDb("root", "test");
// run("ALTER TABLE t1 TTL 10");
// run("ALTER TABLE t1 COMMENT 'test'");
SMAlterStbReq expect = {0};
auto setAlterStbReqFunc = [&](const char* pTbname, int8_t alterType, int32_t numOfFields = 0,
const char* pField1Name = nullptr, int8_t field1Type = 0, int32_t field1Bytes = 0,
const char* pField2Name = nullptr, const char* pComment = nullptr,
int32_t ttl = TSDB_DEFAULT_TABLE_TTL) {
int32_t len = snprintf(expect.name, sizeof(expect.name), "0.test.%s", pTbname);
expect.name[len] = '\0';
expect.alterType = alterType;
expect.ttl = ttl;
if (nullptr != pComment) {
expect.comment = strdup(pComment);
expect.commentLen = strlen(pComment) + 1;
}
expect.numOfFields = numOfFields;
if (NULL == expect.pFields) {
expect.pFields = taosArrayInit(2, sizeof(TAOS_FIELD));
TAOS_FIELD field = {0};
taosArrayPush(expect.pFields, &field);
taosArrayPush(expect.pFields, &field);
}
TAOS_FIELD* pField = (TAOS_FIELD*)taosArrayGet(expect.pFields, 0);
if (NULL != pField1Name) {
strcpy(pField->name, pField1Name);
pField->name[strlen(pField1Name)] = '\0';
} else {
memset(pField, 0, sizeof(TAOS_FIELD));
}
pField->type = field1Type;
pField->bytes = field1Bytes > 0 ? field1Bytes : (field1Type > 0 ? tDataTypes[field1Type].bytes : 0);
pField = (TAOS_FIELD*)taosArrayGet(expect.pFields, 1);
if (NULL != pField2Name) {
strcpy(pField->name, pField2Name);
pField->name[strlen(pField2Name)] = '\0';
} else {
memset(pField, 0, sizeof(TAOS_FIELD));
}
pField->type = 0;
pField->bytes = 0;
};
setCheckDdlFunc([&](const SQuery* pQuery, ParserStage stage) {
ASSERT_EQ(nodeType(pQuery->pRoot), QUERY_NODE_ALTER_TABLE_STMT);
SMAlterStbReq req = {0};
ASSERT_TRUE(TSDB_CODE_SUCCESS == tDeserializeSMAlterStbReq(pQuery->pCmdMsg->pMsg, pQuery->pCmdMsg->msgLen, &req));
ASSERT_EQ(std::string(req.name), std::string(expect.name));
ASSERT_EQ(req.alterType, expect.alterType);
ASSERT_EQ(req.numOfFields, expect.numOfFields);
if (expect.numOfFields > 0) {
TAOS_FIELD* pField = (TAOS_FIELD*)taosArrayGet(req.pFields, 0);
TAOS_FIELD* pExpectField = (TAOS_FIELD*)taosArrayGet(expect.pFields, 0);
ASSERT_EQ(std::string(pField->name), std::string(pExpectField->name));
ASSERT_EQ(pField->type, pExpectField->type);
ASSERT_EQ(pField->bytes, pExpectField->bytes);
}
if (expect.numOfFields > 1) {
TAOS_FIELD* pField = (TAOS_FIELD*)taosArrayGet(req.pFields, 1);
TAOS_FIELD* pExpectField = (TAOS_FIELD*)taosArrayGet(expect.pFields, 1);
ASSERT_EQ(std::string(pField->name), std::string(pExpectField->name));
ASSERT_EQ(pField->type, pExpectField->type);
ASSERT_EQ(pField->bytes, pExpectField->bytes);
}
});
setAlterStbReqFunc("t1", TSDB_ALTER_TABLE_UPDATE_OPTIONS, 0, nullptr, 0, 0, nullptr, nullptr, 10);
run("ALTER TABLE t1 TTL 10");
setAlterStbReqFunc("t1", TSDB_ALTER_TABLE_UPDATE_OPTIONS, 0, nullptr, 0, 0, nullptr, "test");
run("ALTER TABLE t1 COMMENT 'test'");
setAlterStbReqFunc("t1", TSDB_ALTER_TABLE_ADD_COLUMN, 1, "cc1", TSDB_DATA_TYPE_BIGINT);
run("ALTER TABLE t1 ADD COLUMN cc1 BIGINT");
setAlterStbReqFunc("t1", TSDB_ALTER_TABLE_DROP_COLUMN, 1, "c1");
run("ALTER TABLE t1 DROP COLUMN c1");
setAlterStbReqFunc("t1", TSDB_ALTER_TABLE_UPDATE_COLUMN_BYTES, 1, "c1", TSDB_DATA_TYPE_VARCHAR,
20 + VARSTR_HEADER_SIZE);
run("ALTER TABLE t1 MODIFY COLUMN c1 VARCHAR(20)");
setAlterStbReqFunc("t1", TSDB_ALTER_TABLE_UPDATE_COLUMN_NAME, 2, "c1", 0, 0, "cc1");
run("ALTER TABLE t1 RENAME COLUMN c1 cc1");
setAlterStbReqFunc("st1", TSDB_ALTER_TABLE_ADD_TAG, 1, "tag11", TSDB_DATA_TYPE_BIGINT);
run("ALTER TABLE st1 ADD TAG tag11 BIGINT");
setAlterStbReqFunc("st1", TSDB_ALTER_TABLE_DROP_TAG, 1, "tag1");
run("ALTER TABLE st1 DROP TAG tag1");
setAlterStbReqFunc("st1", TSDB_ALTER_TABLE_UPDATE_TAG_BYTES, 1, "tag1", TSDB_DATA_TYPE_VARCHAR,
20 + VARSTR_HEADER_SIZE);
run("ALTER TABLE st1 MODIFY TAG tag1 VARCHAR(20)");
setAlterStbReqFunc("st1", TSDB_ALTER_TABLE_UPDATE_TAG_NAME, 2, "tag1", 0, 0, "tag11");
run("ALTER TABLE st1 RENAME TAG tag1 tag11");
// run("ALTER TABLE st1s1 SET TAG tag1=10");

144
source/libs/parser/test/parInitialCTest.cpp
View File

@ -19,7 +19,7 @@ using namespace std;
namespace ParserTest {
class ParserInitialCTest : public ParserTestBase {};
class ParserInitialCTest : public ParserDdlTest {};
// todo compact
@ -97,17 +97,143 @@ TEST_F(ParserInitialCTest, createSnode) {
TEST_F(ParserInitialCTest, createStable) {
useDb("root", "test");
SMCreateStbReq expect = {0};
auto setCreateStbReqFunc = [&](const char* pTbname, int8_t igExists = 0,
float xFilesFactor = TSDB_DEFAULT_ROLLUP_FILE_FACTOR,
int32_t delay = TSDB_DEFAULT_ROLLUP_DELAY, int32_t ttl = TSDB_DEFAULT_TABLE_TTL,
const char* pComment = nullptr) {
memset(&expect, 0, sizeof(SMCreateStbReq));
int32_t len = snprintf(expect.name, sizeof(expect.name), "0.test.%s", pTbname);
expect.name[len] = '\0';
expect.igExists = igExists;
expect.xFilesFactor = xFilesFactor;
expect.delay = delay;
expect.ttl = ttl;
if (nullptr != pComment) {
expect.comment = strdup(pComment);
expect.commentLen = strlen(pComment) + 1;
}
};
auto addFieldToCreateStbReqFunc = [&](bool col, const char* pFieldName, uint8_t type, int32_t bytes = 0,
int8_t flags = SCHEMA_SMA_ON) {
SField field = {0};
strcpy(field.name, pFieldName);
field.type = type;
field.bytes = bytes > 0 ? bytes : tDataTypes[type].bytes;
field.flags = flags;
if (col) {
if (NULL == expect.pColumns) {
expect.pColumns = taosArrayInit(TARRAY_MIN_SIZE, sizeof(SField));
}
taosArrayPush(expect.pColumns, &field);
expect.numOfColumns += 1;
} else {
if (NULL == expect.pTags) {
expect.pTags = taosArrayInit(TARRAY_MIN_SIZE, sizeof(SField));
}
taosArrayPush(expect.pTags, &field);
expect.numOfTags += 1;
}
};
setCheckDdlFunc([&](const SQuery* pQuery, ParserStage stage) {
ASSERT_EQ(nodeType(pQuery->pRoot), QUERY_NODE_CREATE_TABLE_STMT);
SMCreateStbReq req = {0};
ASSERT_TRUE(TSDB_CODE_SUCCESS == tDeserializeSMCreateStbReq(pQuery->pCmdMsg->pMsg, pQuery->pCmdMsg->msgLen, &req));
ASSERT_EQ(std::string(req.name), std::string(expect.name));
ASSERT_EQ(req.igExists, expect.igExists);
ASSERT_EQ(req.xFilesFactor, expect.xFilesFactor);
ASSERT_EQ(req.delay, expect.delay);
ASSERT_EQ(req.ttl, expect.ttl);
ASSERT_EQ(req.numOfColumns, expect.numOfColumns);
ASSERT_EQ(req.numOfTags, expect.numOfTags);
ASSERT_EQ(req.commentLen, expect.commentLen);
ASSERT_EQ(req.ast1Len, expect.ast1Len);
ASSERT_EQ(req.ast2Len, expect.ast2Len);
if (expect.numOfColumns > 0) {
ASSERT_EQ(taosArrayGetSize(req.pColumns), expect.numOfColumns);
ASSERT_EQ(taosArrayGetSize(req.pColumns), taosArrayGetSize(expect.pColumns));
for (int32_t i = 0; i < expect.numOfColumns; ++i) {
SField* pField = (SField*)taosArrayGet(req.pColumns, i);
SField* pExpectField = (SField*)taosArrayGet(expect.pColumns, i);
ASSERT_EQ(std::string(pField->name), std::string(pExpectField->name));
ASSERT_EQ(pField->type, pExpectField->type);
ASSERT_EQ(pField->bytes, pExpectField->bytes);
ASSERT_EQ(pField->flags, pExpectField->flags);
}
}
if (expect.numOfTags > 0) {
ASSERT_EQ(taosArrayGetSize(req.pTags), expect.numOfTags);
ASSERT_EQ(taosArrayGetSize(req.pTags), taosArrayGetSize(expect.pTags));
for (int32_t i = 0; i < expect.numOfTags; ++i) {
SField* pField = (SField*)taosArrayGet(req.pTags, i);
SField* pExpectField = (SField*)taosArrayGet(expect.pTags, i);
ASSERT_EQ(std::string(pField->name), std::string(pExpectField->name));
ASSERT_EQ(pField->type, pExpectField->type);
ASSERT_EQ(pField->bytes, pExpectField->bytes);
ASSERT_EQ(pField->flags, pExpectField->flags);
}
}
if (expect.commentLen > 0) {
ASSERT_EQ(std::string(req.comment), std::string(expect.comment));
}
if (expect.ast1Len > 0) {
ASSERT_EQ(std::string(req.pAst1), std::string(expect.pAst1));
}
if (expect.ast2Len > 0) {
ASSERT_EQ(std::string(req.pAst2), std::string(expect.pAst2));
}
});
setCreateStbReqFunc("t1");
addFieldToCreateStbReqFunc(true, "ts", TSDB_DATA_TYPE_TIMESTAMP);
addFieldToCreateStbReqFunc(true, "c1", TSDB_DATA_TYPE_INT);
addFieldToCreateStbReqFunc(false, "id", TSDB_DATA_TYPE_INT);
run("create stable t1(ts timestamp, c1 int) TAGS(id int)");
setCreateStbReqFunc("t1", 1, 0.1, 2, 100, "test create table");
addFieldToCreateStbReqFunc(true, "ts", TSDB_DATA_TYPE_TIMESTAMP, 0, 0);
addFieldToCreateStbReqFunc(true, "c1", TSDB_DATA_TYPE_INT);
addFieldToCreateStbReqFunc(true, "c2", TSDB_DATA_TYPE_UINT);
addFieldToCreateStbReqFunc(true, "c3", TSDB_DATA_TYPE_BIGINT);
addFieldToCreateStbReqFunc(true, "c4", TSDB_DATA_TYPE_UBIGINT, 0, 0);
addFieldToCreateStbReqFunc(true, "c5", TSDB_DATA_TYPE_FLOAT, 0, 0);
addFieldToCreateStbReqFunc(true, "c6", TSDB_DATA_TYPE_DOUBLE, 0, 0);
addFieldToCreateStbReqFunc(true, "c7", TSDB_DATA_TYPE_BINARY, 20 + VARSTR_HEADER_SIZE, 0);
addFieldToCreateStbReqFunc(true, "c8", TSDB_DATA_TYPE_SMALLINT, 0, 0);
addFieldToCreateStbReqFunc(true, "c9", TSDB_DATA_TYPE_USMALLINT, 0, 0);
addFieldToCreateStbReqFunc(true, "c10", TSDB_DATA_TYPE_TINYINT, 0, 0);
addFieldToCreateStbReqFunc(true, "c11", TSDB_DATA_TYPE_UTINYINT, 0, 0);
addFieldToCreateStbReqFunc(true, "c12", TSDB_DATA_TYPE_BOOL, 0, 0);
addFieldToCreateStbReqFunc(true, "c13", TSDB_DATA_TYPE_NCHAR, 30 * TSDB_NCHAR_SIZE + VARSTR_HEADER_SIZE, 0);
addFieldToCreateStbReqFunc(true, "c14", TSDB_DATA_TYPE_VARCHAR, 50 + VARSTR_HEADER_SIZE, 0);
addFieldToCreateStbReqFunc(false, "a1", TSDB_DATA_TYPE_TIMESTAMP);
addFieldToCreateStbReqFunc(false, "a2", TSDB_DATA_TYPE_INT);
addFieldToCreateStbReqFunc(false, "a3", TSDB_DATA_TYPE_UINT);
addFieldToCreateStbReqFunc(false, "a4", TSDB_DATA_TYPE_BIGINT);
addFieldToCreateStbReqFunc(false, "a5", TSDB_DATA_TYPE_UBIGINT);
addFieldToCreateStbReqFunc(false, "a6", TSDB_DATA_TYPE_FLOAT);
addFieldToCreateStbReqFunc(false, "a7", TSDB_DATA_TYPE_DOUBLE);
addFieldToCreateStbReqFunc(false, "a8", TSDB_DATA_TYPE_BINARY, 20 + VARSTR_HEADER_SIZE);
addFieldToCreateStbReqFunc(false, "a9", TSDB_DATA_TYPE_SMALLINT);
addFieldToCreateStbReqFunc(false, "a10", TSDB_DATA_TYPE_USMALLINT);
addFieldToCreateStbReqFunc(false, "a11", TSDB_DATA_TYPE_TINYINT);
addFieldToCreateStbReqFunc(false, "a12", TSDB_DATA_TYPE_UTINYINT);
addFieldToCreateStbReqFunc(false, "a13", TSDB_DATA_TYPE_BOOL);
addFieldToCreateStbReqFunc(false, "a14", TSDB_DATA_TYPE_NCHAR, 30 * TSDB_NCHAR_SIZE + VARSTR_HEADER_SIZE);
addFieldToCreateStbReqFunc(false, "a15", TSDB_DATA_TYPE_VARCHAR, 50 + VARSTR_HEADER_SIZE);
run("create stable if not exists test.t1("
"ts TIMESTAMP, c1 INT, c2 INT UNSIGNED, c3 BIGINT, c4 BIGINT UNSIGNED, c5 FLOAT, c6 DOUBLE, c7 BINARY(20), c8 "
"SMALLINT, "
"c9 SMALLINT UNSIGNED COMMENT 'test column comment', c10 TINYINT, c11 TINYINT UNSIGNED, c12 BOOL, c13 NCHAR(30), "
"c15 VARCHAR(50)) "
"TAGS (tsa TIMESTAMP, a1 INT, a2 INT UNSIGNED, a3 BIGINT, a4 BIGINT UNSIGNED, a5 FLOAT, a6 DOUBLE, a7 "
"BINARY(20), a8 SMALLINT, "
"a9 SMALLINT UNSIGNED COMMENT 'test column comment', a10 TINYINT, a11 TINYINT UNSIGNED, a12 BOOL, a13 NCHAR(30), "
"a15 VARCHAR(50)) "
"ts TIMESTAMP, c1 INT, c2 INT UNSIGNED, c3 BIGINT, c4 BIGINT UNSIGNED, c5 FLOAT, c6 DOUBLE, c7 BINARY(20), "
"c8 SMALLINT, c9 SMALLINT UNSIGNED COMMENT 'test column comment', c10 TINYINT, c11 TINYINT UNSIGNED, c12 BOOL, "
"c13 NCHAR(30), c14 VARCHAR(50)) "
"TAGS (a1 TIMESTAMP, a2 INT, a3 INT UNSIGNED, a4 BIGINT, a5 BIGINT UNSIGNED, a6 FLOAT, a7 DOUBLE, "
"a8 BINARY(20), a9 SMALLINT, a10 SMALLINT UNSIGNED COMMENT 'test column comment', a11 TINYINT, "
"a12 TINYINT UNSIGNED, a13 BOOL, a14 NCHAR(30), a15 VARCHAR(50)) "
"TTL 100 COMMENT 'test create table' SMA(c1, c2, c3) ROLLUP (min) FILE_FACTOR 0.1 DELAY 2");
}

17
source/libs/parser/test/parTestUtil.cpp
View File

@ -49,6 +49,8 @@ struct TerminateFlag : public exception {
class ParserTestBaseImpl {
public:
ParserTestBaseImpl(ParserTestBase* pBase) : pBase_(pBase) {}
void useDb(const string& acctId, const string& db) {
caseEnv_.acctId_ = acctId;
caseEnv_.db_ = db;
@ -156,11 +158,13 @@ class ParserTestBaseImpl {
void doParse(SParseContext* pCxt, SQuery** pQuery) {
DO_WITH_THROW(parse, pCxt, pQuery);
ASSERT_NE(*pQuery, nullptr);
res_.parsedAst_ = toString((*pQuery)->pRoot);
}
void doTranslate(SParseContext* pCxt, SQuery* pQuery) {
DO_WITH_THROW(translate, pCxt, pQuery);
checkQuery(pQuery, PARSER_STAGE_TRANSLATE);
res_.translatedAst_ = toString(pQuery->pRoot);
}
@ -178,12 +182,15 @@ class ParserTestBaseImpl {
return str;
}
caseEnv caseEnv_;
stmtEnv stmtEnv_;
stmtRes res_;
void checkQuery(const SQuery* pQuery, ParserStage stage) { pBase_->checkDdl(pQuery, stage); }
caseEnv caseEnv_;
stmtEnv stmtEnv_;
stmtRes res_;
ParserTestBase* pBase_;
};
ParserTestBase::ParserTestBase() : impl_(new ParserTestBaseImpl()) {}
ParserTestBase::ParserTestBase() : impl_(new ParserTestBaseImpl(this)) {}
ParserTestBase::~ParserTestBase() {}
@ -193,4 +200,6 @@ void ParserTestBase::run(const std::string& sql, int32_t expect, ParserStage che
return impl_->run(sql, expect, checkStage);
}
void ParserTestBase::checkDdl(const SQuery* pQuery, ParserStage stage) { return; }
} // namespace ParserTest

25
source/libs/parser/test/parTestUtil.h
View File

@ -18,6 +18,9 @@
#include <gtest/gtest.h>
#define ALLOW_FORBID_FUNC
#include "querynodes.h"
#include "taoserror.h"
namespace ParserTest {
@ -34,10 +37,32 @@ class ParserTestBase : public testing::Test {
void useDb(const std::string& acctId, const std::string& db);
void run(const std::string& sql, int32_t expect = TSDB_CODE_SUCCESS, ParserStage checkStage = PARSER_STAGE_ALL);
virtual void checkDdl(const SQuery* pQuery, ParserStage stage);
private:
std::unique_ptr<ParserTestBaseImpl> impl_;
};
class ParserDdlTest : public ParserTestBase {
public:
void setCheckDdlFunc(const std::function<void(const SQuery*, ParserStage)>& func) { checkDdl_ = func; }
virtual void checkDdl(const SQuery* pQuery, ParserStage stage) {
ASSERT_NE(pQuery, nullptr);
ASSERT_EQ(pQuery->haveResultSet, false);
ASSERT_NE(pQuery->pRoot, nullptr);
ASSERT_EQ(pQuery->numOfResCols, 0);
ASSERT_EQ(pQuery->pResSchema, nullptr);
ASSERT_EQ(pQuery->precision, 0);
if (nullptr != checkDdl_) {
checkDdl_(pQuery, stage);
}
}
private:
std::function<void(const SQuery*, ParserStage)> checkDdl_;
};
extern bool g_isDump;
} // namespace ParserTest

5
source/libs/planner/src/planLogicCreater.c
View File

@ -54,6 +54,9 @@ static EDealRes doRewriteExpr(SNode** pNode, void* pContext) {
pCol->node.resType = pToBeRewrittenExpr->resType;
strcpy(pCol->node.aliasName, pToBeRewrittenExpr->aliasName);
strcpy(pCol->colName, ((SExprNode*)pExpr)->aliasName);
if (QUERY_NODE_FUNCTION == nodeType(pExpr) && FUNCTION_TYPE_WSTARTTS == ((SFunctionNode*)pExpr)->funcType) {
pCol->colId = PRIMARYKEY_TIMESTAMP_COL_ID;
}
nodesDestroyNode(*pNode);
*pNode = (SNode*)pCol;
return DEAL_RES_IGNORE_CHILD;
@ -253,7 +256,7 @@ static int32_t createScanLogicNode(SLogicPlanContext* pCxt, SSelectStmt* pSelect
TSWAP(pScan->pMeta, pRealTable->pMeta);
TSWAP(pScan->pVgroupList, pRealTable->pVgroupList);
pScan->scanSeq[0] = 1;
pScan->scanSeq[0] = pSelect->hasRepeatScanFuncs ? 2 : 1;
pScan->scanSeq[1] = 0;
pScan->scanRange = TSWINDOW_INITIALIZER;
pScan->tableName.type = TSDB_TABLE_NAME_T;

5
source/libs/planner/src/planOptimizer.c
View File

@ -754,10 +754,7 @@ static int32_t opkDoOptimized(SOptimizeContext* pCxt, SSortLogicNode* pSort, SNo
EOrder order = opkGetPrimaryKeyOrder(pSort);
if (ORDER_DESC == order) {
SNode* pScan = NULL;
FOREACH(pScan, pScanNodes) {
((SScanLogicNode*)pScan)->scanSeq[0] = 0;
((SScanLogicNode*)pScan)->scanSeq[1] = 1;
}
FOREACH(pScan, pScanNodes) { TSWAP(((SScanLogicNode*)pScan)->scanSeq[0], ((SScanLogicNode*)pScan)->scanSeq[1]); }
}
if (NULL == pSort->node.pParent) {

3
source/libs/planner/src/planPhysiCreater.c
View File

@ -869,7 +869,8 @@ static int32_t createWindowPhysiNodeFinalize(SPhysiPlanContext* pCxt, SNodeList*
static int32_t createIntervalPhysiNode(SPhysiPlanContext* pCxt, SNodeList* pChildren,
SWindowLogicNode* pWindowLogicNode, SPhysiNode** pPhyNode) {
SIntervalPhysiNode* pInterval = (SIntervalPhysiNode*)makePhysiNode(
pCxt, getPrecision(pChildren), (SLogicNode*)pWindowLogicNode, QUERY_NODE_PHYSICAL_PLAN_INTERVAL);
pCxt, getPrecision(pChildren), (SLogicNode*)pWindowLogicNode,
(pCxt->pPlanCxt->streamQuery ? QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL : QUERY_NODE_PHYSICAL_PLAN_INTERVAL));
if (NULL == pInterval) {
return TSDB_CODE_OUT_OF_MEMORY;
}

2
source/libs/planner/test/planBasicTest.cpp
View File

@ -48,4 +48,6 @@ TEST_F(PlanBasicTest, func) {
useDb("root", "test");
run("SELECT DIFF(c1) FROM t1");
run("SELECT PERCENTILE(c1, 60) FROM t1");
}

2
source/libs/planner/test/planOptimizeTest.cpp
View File

@ -37,4 +37,6 @@ TEST_F(PlanOptimizeTest, orderByPrimaryKey) {
run("SELECT * FROM t1 ORDER BY ts DESC");
run("SELECT c1 FROM t1 ORDER BY ts");
run("SELECT c1 FROM t1 ORDER BY ts DESC");
run("SELECT COUNT(*) FROM t1 INTERVAL(10S) ORDER BY _WSTARTTS DESC");
}

3
source/libs/qcom/src/queryUtil.c
View File

@ -136,7 +136,8 @@ int32_t taosAsyncExec(__async_exec_fn_t execFn, void* execParam, int32_t* code)
return 0;
}
int32_t asyncSendMsgToServerExt(void* pTransporter, SEpSet* epSet, int64_t* pTransporterId, const SMsgSendInfo* pInfo, bool persistHandle, void *rpcCtx) {
int32_t asyncSendMsgToServerExt(void* pTransporter, SEpSet* epSet, int64_t* pTransporterId, const SMsgSendInfo* pInfo,
bool persistHandle, void* rpcCtx) {
char* pMsg = rpcMallocCont(pInfo->msgInfo.len);
if (NULL == pMsg) {
qError("0x%" PRIx64 " msg:%s malloc failed", pInfo->requestId, TMSG_INFO(pInfo->msgType));

16
source/libs/scalar/src/filter.c
View File

@ -3577,6 +3577,22 @@ EDealRes fltReviseRewriter(SNode** pNode, void* pContext) {
}
if (QUERY_NODE_NODE_LIST == nodeType(*pNode)) {
SNodeListNode *listNode = (SNodeListNode *)*pNode;
if (QUERY_NODE_VALUE != nodeType(listNode->pNodeList->pHead->pNode)) {
stat->scalarMode = true;
return DEAL_RES_CONTINUE;
}
SValueNode *valueNode = (SValueNode *)listNode->pNodeList->pHead->pNode;
uint8_t type = valueNode->node.resType.type;
SNode *node = NULL;
FOREACH(node, listNode->pNodeList) {
if (type != ((SValueNode *)node)->node.resType.type) {
stat->scalarMode = true;
return DEAL_RES_CONTINUE;
}
}
return DEAL_RES_CONTINUE;
}

117
source/libs/scalar/src/sclvector.c
View File

@ -265,13 +265,53 @@ static FORCE_INLINE void varToTimestamp(char *buf, SScalarParam* pOut, int32_t r
}
static FORCE_INLINE void varToSigned(char *buf, SScalarParam* pOut, int32_t rowIndex) {
int64_t value = strtoll(buf, NULL, 10);
colDataAppendInt64(pOut->columnData, rowIndex, &value);
switch (pOut->columnData->info.type) {
case TSDB_DATA_TYPE_TINYINT: {
int8_t value = (int8_t)strtoll(buf, NULL, 10);
colDataAppendInt8(pOut->columnData, rowIndex, (int8_t*)&value);
break;
}
case TSDB_DATA_TYPE_SMALLINT: {
int16_t value = (int16_t)strtoll(buf, NULL, 10);
colDataAppendInt16(pOut->columnData, rowIndex, (int16_t*)&value);
break;
}
case TSDB_DATA_TYPE_INT: {
int32_t value = (int32_t)strtoll(buf, NULL, 10);
colDataAppendInt32(pOut->columnData, rowIndex, (int32_t*)&value);
break;
}
case TSDB_DATA_TYPE_BIGINT: {
int64_t value = (int64_t)strtoll(buf, NULL, 10);
colDataAppendInt64(pOut->columnData, rowIndex, (int64_t*)&value);
break;
}
}
}
static FORCE_INLINE void varToUnsigned(char *buf, SScalarParam* pOut, int32_t rowIndex) {
uint64_t value = strtoull(buf, NULL, 10);
colDataAppendInt64(pOut->columnData, rowIndex, (int64_t*) &value);
switch (pOut->columnData->info.type) {
case TSDB_DATA_TYPE_UTINYINT: {
uint8_t value = (uint8_t)strtoull(buf, NULL, 10);
colDataAppendInt8(pOut->columnData, rowIndex, (int8_t*)&value);
break;
}
case TSDB_DATA_TYPE_USMALLINT: {
uint16_t value = (uint16_t)strtoull(buf, NULL, 10);
colDataAppendInt16(pOut->columnData, rowIndex, (int16_t*)&value);
break;
}
case TSDB_DATA_TYPE_UINT: {
uint32_t value = (uint32_t)strtoull(buf, NULL, 10);
colDataAppendInt32(pOut->columnData, rowIndex, (int32_t*)&value);
break;
}
case TSDB_DATA_TYPE_UBIGINT: {
uint64_t value = (uint64_t)strtoull(buf, NULL, 10);
colDataAppendInt64(pOut->columnData, rowIndex, (int64_t*)&value);
break;
}
}
}
static FORCE_INLINE void varToFloat(char *buf, SScalarParam* pOut, int32_t rowIndex) {
@ -453,6 +493,71 @@ void convertJsonValue(__compar_fn_t *fp, int32_t optr, int8_t typeLeft, int8_t t
}
}
int32_t vectorConvertToVarData(const SScalarParam* pIn, SScalarParam* pOut, int16_t inType, int16_t outType) {
SColumnInfoData* pInputCol = pIn->columnData;
SColumnInfoData* pOutputCol = pOut->columnData;
char tmp[128] = {0};
if (IS_SIGNED_NUMERIC_TYPE(inType) || inType == TSDB_DATA_TYPE_BOOL || inType == TSDB_DATA_TYPE_TIMESTAMP) {
for (int32_t i = 0; i < pIn->numOfRows; ++i) {
if (colDataIsNull_f(pInputCol->nullbitmap, i)) {
colDataAppendNULL(pOutputCol, i);
continue;
}
int64_t value = 0;
GET_TYPED_DATA(value, int64_t, inType, colDataGetData(pInputCol, i));
int32_t len = sprintf(varDataVal(tmp), "%" PRId64, value);
varDataLen(tmp) = len;
if (outType == TSDB_DATA_TYPE_NCHAR) {
varToNchar(tmp, pOut, i);
} else {
colDataAppend(pOutputCol, i, (char *)&value, false);
}
}
} else if (IS_UNSIGNED_NUMERIC_TYPE(inType)) {
for (int32_t i = 0; i < pIn->numOfRows; ++i) {
if (colDataIsNull_f(pInputCol->nullbitmap, i)) {
colDataAppendNULL(pOutputCol, i);
continue;
}
uint64_t value = 0;
GET_TYPED_DATA(value, uint64_t, inType, colDataGetData(pInputCol, i));
int32_t len = sprintf(varDataVal(tmp), "%" PRIu64, value);
varDataLen(tmp) = len;
if (outType == TSDB_DATA_TYPE_NCHAR) {
varToNchar(tmp, pOut, i);
} else {
colDataAppend(pOutputCol, i, (char *)&value, false);
}
}
} else if (IS_FLOAT_TYPE(inType)) {
for (int32_t i = 0; i < pIn->numOfRows; ++i) {
if (colDataIsNull_f(pInputCol->nullbitmap, i)) {
colDataAppendNULL(pOutputCol, i);
continue;
}
double value = 0;
GET_TYPED_DATA(value, double, inType, colDataGetData(pInputCol, i));
int32_t len = sprintf(varDataVal(tmp), "%lf", value);
varDataLen(tmp) = len;
if (outType == TSDB_DATA_TYPE_NCHAR) {
varToNchar(tmp, pOut, i);
} else {
colDataAppend(pOutputCol, i, (char *)&value, false);
}
}
} else {
sclError("not supported input type:%d", inType);
return TSDB_CODE_QRY_APP_ERROR;
}
return TSDB_CODE_SUCCESS;
}
// TODO opt performance
int32_t vectorConvertImpl(const SScalarParam* pIn, SScalarParam* pOut) {
SColumnInfoData* pInputCol = pIn->columnData;
@ -610,6 +715,10 @@ int32_t vectorConvertImpl(const SScalarParam* pIn, SScalarParam* pOut) {
}
break;
}
case TSDB_DATA_TYPE_BINARY:
case TSDB_DATA_TYPE_NCHAR: {
return vectorConvertToVarData(pIn, pOut, inType, outType);
}
default:
sclError("invalid convert output type:%d", outType);
return TSDB_CODE_QRY_APP_ERROR;

22
source/libs/sync/src/syncRaftLog.c
View File

@ -60,7 +60,7 @@ int32_t logStoreAppendEntry(SSyncLogStore* pLogStore, SSyncRaftEntry* pEntry) {
if (code != 0) {
int32_t err = terrno;
const char *errStr = tstrerror(err);
sError("walWriteWithSyncInfo error, err:%d, msg:%s", err, errStr);
sError("walWriteWithSyncInfo error, err:%d, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, errStr, errno, strerror(errno));
ASSERT(0);
}
//assert(code == 0);
@ -79,7 +79,7 @@ SSyncRaftEntry* logStoreGetEntry(SSyncLogStore* pLogStore, SyncIndex index) {
if (code != 0) {
int32_t err = terrno;
const char *errStr = tstrerror(err);
sError("walReadWithHandle error, err:%d, msg:%s", err, errStr);
sError("walReadWithHandle error, err:%d, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, errStr, errno, strerror(errno));
ASSERT(0);
}
//assert(walReadWithHandle(pWalHandle, index) == 0);
@ -108,7 +108,14 @@ SSyncRaftEntry* logStoreGetEntry(SSyncLogStore* pLogStore, SyncIndex index) {
int32_t logStoreTruncate(SSyncLogStore* pLogStore, SyncIndex fromIndex) {
SSyncLogStoreData* pData = pLogStore->data;
SWal* pWal = pData->pWal;
assert(walRollback(pWal, fromIndex) == 0);
//assert(walRollback(pWal, fromIndex) == 0);
int32_t code = walRollback(pWal, fromIndex);
if (code != 0) {
int32_t err = terrno;
const char *errStr = tstrerror(err);
sError("walRollback error, err:%d, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, errStr, errno, strerror(errno));
ASSERT(0);
}
return 0; // to avoid compiler error
}
@ -132,7 +139,14 @@ SyncTerm logStoreLastTerm(SSyncLogStore* pLogStore) {
int32_t logStoreUpdateCommitIndex(SSyncLogStore* pLogStore, SyncIndex index) {
SSyncLogStoreData* pData = pLogStore->data;
SWal* pWal = pData->pWal;
assert(walCommit(pWal, index) == 0);
//assert(walCommit(pWal, index) == 0);
int32_t code = walCommit(pWal, index);
if (code != 0) {
int32_t err = terrno;
const char *errStr = tstrerror(err);
sError("walCommit error, err:%d, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, errStr, errno, strerror(errno));
ASSERT(0);
}
return 0; // to avoid compiler error
}

4
source/libs/tdb/src/db/tdbBtree.c
View File

@ -113,7 +113,9 @@ int tdbBtreeOpen(int keyLen, int valLen, SPager *pPager, tdb_cmpr_fn_t kcmpr, SB
}
int tdbBtreeClose(SBTree *pBt) {
// TODO
if (pBt) {
tdbOsFree(pBt);
}
return 0;
}

5
source/libs/tdb/src/db/tdbDb.c
View File

@ -66,7 +66,10 @@ int tdbDbOpen(const char *fname, int keyLen, int valLen, tdb_cmpr_fn_t keyCmprFn
}
int tdbDbClose(TDB *pDb) {
// TODO
if (pDb) {
tdbBtreeClose(pDb->pBt);
tdbOsFree(pDb);
}
return 0;
}

16
source/libs/tdb/src/db/tdbEnv.c
View File

@ -56,7 +56,7 @@ int tdbEnvOpen(const char *rootDir, int szPage, int pages, TENV **ppEnv) {
pEnv->nPgrHash = 8;
tsize = sizeof(SPager *) * pEnv->nPgrHash;
pEnv->pgrHash = tdbRealloc(pEnv->pgrHash, tsize);
pEnv->pgrHash = tdbOsMalloc(tsize);
if (pEnv->pgrHash == NULL) {
return -1;
}
@ -69,7 +69,19 @@ int tdbEnvOpen(const char *rootDir, int szPage, int pages, TENV **ppEnv) {
}
int tdbEnvClose(TENV *pEnv) {
// TODO
SPager *pPager;
if (pEnv) {
for (pPager = pEnv->pgrList; pPager; pPager = pEnv->pgrList) {
pEnv->pgrList = pPager->pNext;
tdbPagerClose(pPager);
}
tdbPCacheClose(pEnv->pCache);
tdbOsFree(pEnv->pgrHash);
tdbOsFree(pEnv);
}
return 0;
}

7
source/libs/tdb/src/db/tdbPCache.c
View File

@ -292,6 +292,10 @@ static int tdbPCacheOpenImpl(SPCache *pCache) {
pPage->pFreeNext = pCache->pFree;
pCache->pFree = pPage;
pCache->nFree++;
// add to local list
pPage->pCacheNext = pCache->pList;
pCache->pList = pPage;
}
// Open the hash table
@ -317,9 +321,10 @@ static int tdbPCacheCloseImpl(SPCache *pCache) {
for (pPage = pCache->pList; pPage; pPage = pCache->pList) {
pCache->pList = pPage->pCacheNext;
tdbPageDestroy(pPage, NULL, NULL);
tdbPageDestroy(pPage, tdbDefaultFree, NULL);
}
tdbOsFree(pCache->pgHash);
tdbPCacheDestroyLock(pCache);
return 0;
}

8
source/libs/tdb/src/db/tdbPager.c
View File

@ -88,7 +88,13 @@ int tdbPagerOpen(SPCache *pCache, const char *fileName, SPager **ppPager) {
}
int tdbPagerClose(SPager *pPager) {
// TODO
if (pPager) {
if (pPager->inTran) {
tdbOsClose(pPager->jfd);
}
tdbOsClose(pPager->fd);
tdbOsFree(pPager);
}
return 0;
}

2
source/libs/transport/src/transSrv.c
View File

@ -1108,7 +1108,7 @@ void transSendResponse(const STransMsg* msg) {
SSrvMsg* srvMsg = taosMemoryCalloc(1, sizeof(SSrvMsg));
srvMsg->msg = tmsg;
srvMsg->type = Normal;
tTrace("server conn %p start to send resp (1/2)", exh->handle);
tDebug("server conn %p start to send resp (1/2)", exh->handle);
transSendAsync(pThrd->asyncPool, &srvMsg->q);
uvReleaseExHandle(refId);
return;

61
source/os/src/osTimezone.c
View File

@ -125,7 +125,7 @@ void taosGetSystemTimezone(char *outTimezoneStr, enum TdTimezone *tsTimezone) {
strcpy(outTimezoneStr, tz);
}
#elif defined(_TD_DARWIN_64)
#else
char buf[4096] = {0};
char *tz = NULL;
{
@ -170,64 +170,5 @@ void taosGetSystemTimezone(char *outTimezoneStr, enum TdTimezone *tsTimezone) {
*/
snprintf(outTimezoneStr, TD_TIMEZONE_LEN, "%s (%s, %+03ld00)", tz, tm1.tm_isdst ? tzname[daylight] : tzname[0],
-timezone / 3600);
#else
/*
* NOTE: do not remove it.
* Enforce set the correct daylight saving time(DST) flag according
* to current time
*/
time_t tx1 = taosGetTimestampSec();
struct tm tm1;
taosLocalTime(&tx1, &tm1);
/* load time zone string from /etc/timezone */
// FILE *f = fopen("/etc/timezone", "r");
errno = 0;
TdFilePtr pFile = taosOpenFile("/etc/timezone", TD_FILE_READ);
char buf[68] = {0};
if (pFile != NULL) {
int len = taosReadFile(pFile, buf, 64);
if (len < 64 && taosGetErrorFile(pFile)) {
taosCloseFile(&pFile);
printf("read /etc/timezone error, reason:%s", strerror(errno));
return;
}
taosCloseFile(&pFile);
buf[sizeof(buf) - 1] = 0;
char *lineEnd = strstr(buf, "\n");
if (lineEnd != NULL) {
*lineEnd = 0;
}
// for CentOS system, /etc/timezone does not exist. Ignore the TZ environment variables
if (strlen(buf) > 0) {
setenv("TZ", buf, 1);
}
}
// get and set default timezone
tzset();
/*
* get CURRENT time zone.
* system current time zone is affected by daylight saving time(DST)
*
* e.g., the local time zone of London in DST is GMT+01:00,
* otherwise is GMT+00:00
*/
int32_t tz = (-timezone * MILLISECOND_PER_SECOND) / MILLISECOND_PER_HOUR;
*tsTimezone = tz;
tz += daylight;
/*
* format example:
*
* Asia/Shanghai (CST, +0800)
* Europe/London (BST, +0100)
*/
snprintf(outTimezoneStr, TD_TIMEZONE_LEN, "%s (%s, %s%02d00)", buf, tzname[daylight], tz >= 0 ? "+" : "-", abs(tz));
#endif
}

2
source/util/src/tcache.c
View File

@ -911,7 +911,7 @@ void taosCacheRefresh(SCacheObj *pCacheObj, __cache_trav_fn_t fp, void *param1)
void taosStopCacheRefreshWorker(void) {
stopRefreshWorker = true;
taosThreadJoin(cacheRefreshWorker, NULL);
if(cacheThreadInit != PTHREAD_ONCE_INIT) taosThreadJoin(cacheRefreshWorker, NULL);
taosArrayDestroy(pCacheArrayList);
}

1
source/util/src/terror.c
View File

@ -94,6 +94,7 @@ TAOS_DEFINE_ERROR(TSDB_CODE_MSG_NOT_PROCESSED, "Message not processed
TAOS_DEFINE_ERROR(TSDB_CODE_CFG_NOT_FOUND, "Config not found")
TAOS_DEFINE_ERROR(TSDB_CODE_REPEAT_INIT, "Repeat initialization")
TAOS_DEFINE_ERROR(TSDB_CODE_DUP_KEY, "Cannot add duplicate keys to hash")
TAOS_DEFINE_ERROR(TSDB_CODE_NEED_RETRY, "Retry needed")
TAOS_DEFINE_ERROR(TSDB_CODE_REF_NO_MEMORY, "Ref out of memory")
TAOS_DEFINE_ERROR(TSDB_CODE_REF_FULL, "too many Ref Objs")

175
source/util/src/tskiplist2.c
View File

@ -1,175 +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 "tskiplist2.h"
struct SSLNode {
int8_t level;
SSLNode *forwards[];
};
struct SSkipList2 {
int8_t level;
uint32_t seed;
int32_t size;
const SSLCfg *pCfg;
SSLNode *pHead[];
};
static void *slMalloc(void *pPool, int32_t size);
static void slFree(void *pPool, void *p);
static int32_t slCmprFn(const void *pKey, int32_t nKey, const void *pData, int32_t nData);
const SSLCfg slDefaultCfg = {.maxLevel = SL_MAX_LEVEL,
.nKey = -1,
.nData = -1,
.cmprFn = slCmprFn,
.pPool = NULL,
.xMalloc = slMalloc,
.xFree = slFree};
int32_t slOpen(const SSLCfg *pCfg, SSkipList2 **ppSl) {
SSkipList2 *pSl = NULL;
int32_t size;
*ppSl = NULL;
if (pCfg == NULL) pCfg = &slDefaultCfg;
// check config (TODO)
// malloc handle
size = sizeof(*pSl) + sizeof(SSLNode *) * pCfg->maxLevel * 2;
pSl = pCfg->xMalloc(pCfg->pPool, size);
if (pSl == NULL) {
return -1;
}
pSl->level = 0;
pSl->seed = taosRand();
pSl->size = 0;
pSl->pCfg = pCfg;
// init an empty skiplist
for (int32_t i = 0; i < pCfg->maxLevel * 2; i++) {
pSl->pHead[i] = NULL;
}
*ppSl = pSl;
return 0;
}
int32_t slClose(SSkipList2 *pSl) {
if (pSl) {
slClear(pSl);
if (pSl->pCfg->xFree) {
pSl->pCfg->xFree(pSl->pCfg->pPool, pSl);
}
}
return 0;
}
int32_t slClear(SSkipList2 *pSl) {
// loop to clear sl
for (;;) {
// (TODO)
}
// init sl (TODO)
return 0;
}
int32_t slcOpen(SSkipList2 *pSl, SSLCursor *pSlc) {
pSlc->pSl = pSl;
for (int i = 0; i < SL_MAX_LEVEL; i++) {
if (i < pSl->pCfg->maxLevel) {
} else {
pSlc->forwards[i] = NULL;
}
}
// TODO
return 0;
}
int32_t slcClose(SSLCursor *pSlc) {
// TODO
return 0;
}
int32_t slcMoveTo(SSLCursor *pSlc, const void *pKey, int32_t nKey) {
// TODO
return 0;
}
int32_t slcMoveToNext(SSLCursor *pSlc) {
// TODO
return 0;
}
int32_t slcMoveToPrev(SSLCursor *pSlc) {
// TODO
return 0;
}
int32_t slcMoveToFirst(SSLCursor *pSlc) {
// TODO
return 0;
}
int32_t slcMoveToLast(SSLCursor *pSlc) {
// TODO
return 0;
}
int32_t slcPut(SSLCursor *pSlc, const void *pKey, int32_t nKey, const void *pData, int32_t nData) {
// TODO
return 0;
}
int32_t slcGet(SSLCursor *pSlc, const void **ppKey, int32_t *nKey, const void **ppData, int32_t *nData) {
// TODO
return 0;
}
int32_t slcDrop(SSLCursor *pSlc) {
// TODO
return 0;
}
static FORCE_INLINE void *slMalloc(void *pPool, int32_t size) { return taosMemoryMalloc(size); }
static FORCE_INLINE void slFree(void *pPool, void *p) { taosMemoryFree(p); }
static int32_t slCmprFn(const void *pKey1, int32_t nKey1, const void *pKey2, int32_t nKey2) {
ASSERT(nKey1 >= 0 && nKey2 >= 0);
int32_t nKey = nKey1 > nKey2 ? nKey2 : nKey1;
int32_t c;
c = memcmp(pKey1, pKey2, nKey);
if (c == 0) {
if (nKey1 > nKey2) {
c = 1;
} else if (nKey1 < nKey2) {
c = -1;
}
}
return c;
}

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