/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #ifndef _TD_COMMON_DATA_FORMAT_H_ #define _TD_COMMON_DATA_FORMAT_H_ #include "os.h" #include "talgo.h" #include "ttypes.h" #include "tutil.h" #ifdef __cplusplus extern "C" { #endif #define STR_TO_VARSTR(x, str) \ do { \ VarDataLenT __len = (VarDataLenT)strlen(str); \ *(VarDataLenT *)(x) = __len; \ memcpy(varDataVal(x), (str), __len); \ } while (0); #define STR_TO_NET_VARSTR(x, str) \ do { \ VarDataLenT __len = (VarDataLenT)strlen(str); \ *(VarDataLenT *)(x) = htons(__len); \ memcpy(varDataVal(x), (str), __len); \ } while (0); #define STR_WITH_MAXSIZE_TO_VARSTR(x, str, _maxs) \ do { \ char *_e = stpncpy(varDataVal(x), (str), (_maxs)-VARSTR_HEADER_SIZE); \ varDataSetLen(x, (_e - (x)-VARSTR_HEADER_SIZE)); \ } while (0) #define STR_WITH_SIZE_TO_VARSTR(x, str, _size) \ do { \ *(VarDataLenT *)(x) = (VarDataLenT)(_size); \ memcpy(varDataVal(x), (str), (_size)); \ } while (0); // ----------------- TSDB COLUMN DEFINITION typedef struct { int8_t type; // Column type int16_t colId; // column ID int16_t bytes; // column bytes (restore to int16_t in case of misuse) uint16_t offset; // point offset in SDataRow after the header part. } STColumn; #define colType(col) ((col)->type) #define colColId(col) ((col)->colId) #define colBytes(col) ((col)->bytes) #define colOffset(col) ((col)->offset) #define colSetType(col, t) (colType(col) = (t)) #define colSetColId(col, id) (colColId(col) = (id)) #define colSetBytes(col, b) (colBytes(col) = (b)) #define colSetOffset(col, o) (colOffset(col) = (o)) // ----------------- TSDB SCHEMA DEFINITION typedef struct { int version; // version int numOfCols; // Number of columns appended int tlen; // maximum length of a SDataRow without the header part (sizeof(VarDataOffsetT) + sizeof(VarDataLenT) + (bytes)) uint16_t flen; // First part length in a SDataRow after the header part uint16_t vlen; // pure value part length, excluded the overhead (bytes only) STColumn columns[]; } STSchema; #define schemaNCols(s) ((s)->numOfCols) #define schemaVersion(s) ((s)->version) #define schemaTLen(s) ((s)->tlen) #define schemaFLen(s) ((s)->flen) #define schemaVLen(s) ((s)->vlen) #define schemaColAt(s, i) ((s)->columns + i) #define tdFreeSchema(s) tfree((s)) STSchema *tdDupSchema(const STSchema *pSchema); int tdEncodeSchema(void **buf, STSchema *pSchema); void * tdDecodeSchema(void *buf, STSchema **pRSchema); static FORCE_INLINE int comparColId(const void *key1, const void *key2) { if (*(int16_t *)key1 > ((STColumn *)key2)->colId) { return 1; } else if (*(int16_t *)key1 < ((STColumn *)key2)->colId) { return -1; } else { return 0; } } static FORCE_INLINE STColumn *tdGetColOfID(STSchema *pSchema, int16_t colId) { void *ptr = bsearch(&colId, (void *)pSchema->columns, schemaNCols(pSchema), sizeof(STColumn), comparColId); if (ptr == NULL) return NULL; return (STColumn *)ptr; } // ----------------- SCHEMA BUILDER DEFINITION typedef struct { int tCols; int nCols; int tlen; uint16_t flen; uint16_t vlen; int version; STColumn *columns; } STSchemaBuilder; int tdInitTSchemaBuilder(STSchemaBuilder *pBuilder, int32_t version); void tdDestroyTSchemaBuilder(STSchemaBuilder *pBuilder); void tdResetTSchemaBuilder(STSchemaBuilder *pBuilder, int32_t version); int tdAddColToSchema(STSchemaBuilder *pBuilder, int8_t type, int16_t colId, int16_t bytes); STSchema *tdGetSchemaFromBuilder(STSchemaBuilder *pBuilder); // ----------------- Semantic timestamp key definition 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)ABS(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)) static FORCE_INLINE TKEY keyToTkey(TSKEY key) { TSKEY lkey = key; if (key > MAX_TS_KEY) { lkey = MAX_TS_KEY; } else if (key < MIN_TS_KEY) { lkey = MIN_TS_KEY; } return tdGetTKEY(lkey); } static FORCE_INLINE int tkeyComparFn(const void *tkey1, const void *tkey2) { TSKEY key1 = tdGetKey(*(TKEY *)tkey1); TSKEY key2 = tdGetKey(*(TKEY *)tkey2); if (key1 < key2) { return -1; } else if (key1 > key2) { return 1; } else { return 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 int 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 int 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, int idx) { return POINTER_SHIFT(row, TD_DATA_ROW_HEAD_SIZE + pSchema->columns[idx].offset); } static FORCE_INLINE void *tdGetColOfRowBySchema(SDataRow row, STSchema *pSchema, int 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, int 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, int 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, int dstIdx, SDataRow src, STSchema *pSrcSchema, int 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); } } // ----------------- Data column structure typedef struct SDataCol { int8_t type; // column type int16_t colId; // column ID int bytes; // column data bytes defined int offset; // data offset in a SDataRow (including the header size) int spaceSize; // Total space size for this column int len; // column data length VarDataOffsetT *dataOff; // For binary and nchar data, the offset in the data column void * pData; // Actual data pointer TSKEY ts; // only used in last NULL column } SDataCol; #define isAllRowsNull(pCol) ((pCol)->len == 0) static FORCE_INLINE void dataColReset(SDataCol *pDataCol) { pDataCol->len = 0; } int tdAllocMemForCol(SDataCol *pCol, int maxPoints); void dataColInit(SDataCol *pDataCol, STColumn *pCol, int maxPoints); int dataColAppendVal(SDataCol *pCol, const void *value, int numOfRows, int maxPoints); void dataColSetOffset(SDataCol *pCol, int nEle); bool isNEleNull(SDataCol *pCol, int nEle); // Get the data pointer from a column-wised data static FORCE_INLINE const void *tdGetColDataOfRow(SDataCol *pCol, int 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, int 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; } } typedef struct { int maxCols; // max number of columns int maxPoints; // max number of points int numOfRows; int numOfCols; // Total number of cols int sversion; // TODO: set sversion SDataCol *cols; } SDataCols; #define keyCol(pCols) (&((pCols)->cols[0])) // Key column #define dataColsTKeyAt(pCols, idx) ((TKEY *)(keyCol(pCols)->pData))[(idx)] // the idx row of column-wised data #define dataColsKeyAt(pCols, idx) tdGetKey(dataColsTKeyAt(pCols, idx)) static FORCE_INLINE TKEY dataColsTKeyFirst(SDataCols *pCols) { if (pCols->numOfRows) { return dataColsTKeyAt(pCols, 0); } else { return TKEY_INVALID; } } static FORCE_INLINE TSKEY dataColsKeyAtRow(SDataCols *pCols, int row) { assert(row < pCols->numOfRows); return dataColsKeyAt(pCols, row); } static FORCE_INLINE TSKEY dataColsKeyFirst(SDataCols *pCols) { if (pCols->numOfRows) { return dataColsKeyAt(pCols, 0); } else { return TSDB_DATA_TIMESTAMP_NULL; } } static FORCE_INLINE TKEY dataColsTKeyLast(SDataCols *pCols) { if (pCols->numOfRows) { return dataColsTKeyAt(pCols, pCols->numOfRows - 1); } else { return TKEY_INVALID; } } static FORCE_INLINE TSKEY dataColsKeyLast(SDataCols *pCols) { if (pCols->numOfRows) { return dataColsKeyAt(pCols, pCols->numOfRows - 1); } else { return TSDB_DATA_TIMESTAMP_NULL; } } SDataCols *tdNewDataCols(int maxCols, int maxRows); void tdResetDataCols(SDataCols *pCols); int tdInitDataCols(SDataCols *pCols, STSchema *pSchema); SDataCols *tdDupDataCols(SDataCols *pCols, bool keepData); SDataCols *tdFreeDataCols(SDataCols *pCols); int tdMergeDataCols(SDataCols *target, SDataCols *source, int rowsToMerge, int *pOffset, bool forceSetNull); // ----------------- K-V data row structure /* |<-------------------------------------- len -------------------------------------------->| * |<----- header ----->|<--------------------------- body -------------------------------->| * +----------+----------+---------------------------------+---------------------------------+ * | uint16_t | int16_t | | | * +----------+----------+---------------------------------+---------------------------------+ * | len | ncols | cols index | data part | * +----------+----------+---------------------------------+---------------------------------+ */ typedef void *SKVRow; typedef struct { int16_t colId; uint16_t offset; } SColIdx; #define TD_KV_ROW_HEAD_SIZE (sizeof(uint16_t) + sizeof(int16_t)) #define kvRowLen(r) (*(TDRowLenT *)(r)) #define kvRowNCols(r) (*(int16_t *)POINTER_SHIFT(r, sizeof(uint16_t))) #define kvRowSetLen(r, len) kvRowLen(r) = (len) #define kvRowSetNCols(r, n) kvRowNCols(r) = (n) #define kvRowColIdx(r) (SColIdx *)POINTER_SHIFT(r, TD_KV_ROW_HEAD_SIZE) #define kvRowValues(r) POINTER_SHIFT(r, TD_KV_ROW_HEAD_SIZE + sizeof(SColIdx) * kvRowNCols(r)) #define kvRowCpy(dst, r) memcpy((dst), (r), kvRowLen(r)) #define kvRowColVal(r, colIdx) POINTER_SHIFT(kvRowValues(r), (colIdx)->offset) #define kvRowColIdxAt(r, i) (kvRowColIdx(r) + (i)) #define kvRowFree(r) tfree(r) #define kvRowEnd(r) POINTER_SHIFT(r, kvRowLen(r)) #define kvRowValLen(r) (kvRowLen(r) - TD_KV_ROW_HEAD_SIZE - sizeof(SColIdx) * kvRowNCols(r)) #define kvRowTKey(r) (*(TKEY *)(kvRowValues(r))) #define kvRowKey(r) tdGetKey(kvRowTKey(r)) #define kvRowKeys(r) POINTER_SHIFT(r, *(uint16_t *)POINTER_SHIFT(r, TD_KV_ROW_HEAD_SIZE + sizeof(int16_t))) #define kvRowDeleted(r) TKEY_IS_DELETED(kvRowTKey(r)) SKVRow tdKVRowDup(SKVRow row); int tdSetKVRowDataOfCol(SKVRow *orow, int16_t colId, int8_t type, void *value); int tdEncodeKVRow(void **buf, SKVRow row); void * tdDecodeKVRow(void *buf, SKVRow *row); void tdSortKVRowByColIdx(SKVRow row); static FORCE_INLINE int comparTagId(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; } } static FORCE_INLINE void *tdGetKVRowValOfCol(SKVRow row, int16_t colId) { void *ret = taosbsearch(&colId, kvRowColIdx(row), kvRowNCols(row), sizeof(SColIdx), comparTagId, TD_EQ); if (ret == NULL) return NULL; return kvRowColVal(row, (SColIdx *)ret); } static FORCE_INLINE void *tdGetKVRowIdxOfCol(SKVRow row, int16_t colId) { return taosbsearch(&colId, kvRowColIdx(row), kvRowNCols(row), sizeof(SColIdx), comparTagId, TD_EQ); } // offset here not include kvRow header length static FORCE_INLINE int 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; } // ----------------- K-V data row builder typedef struct { int16_t tCols; int16_t nCols; SColIdx *pColIdx; uint16_t alloc; uint16_t size; void * buf; } SKVRowBuilder; int tdInitKVRowBuilder(SKVRowBuilder *pBuilder); void tdDestroyKVRowBuilder(SKVRowBuilder *pBuilder); void tdResetKVRowBuilder(SKVRowBuilder *pBuilder); SKVRow tdGetKVRowFromBuilder(SKVRowBuilder *pBuilder); static FORCE_INLINE int tdAddColToKVRow(SKVRowBuilder *pBuilder, int16_t colId, int8_t type, const void *value) { if (pBuilder->nCols >= pBuilder->tCols) { pBuilder->tCols *= 2; SColIdx* pColIdx = (SColIdx *)realloc((void *)(pBuilder->pColIdx), sizeof(SColIdx) * pBuilder->tCols); if (pColIdx == NULL) return -1; pBuilder->pColIdx = pColIdx; } pBuilder->pColIdx[pBuilder->nCols].colId = colId; pBuilder->pColIdx[pBuilder->nCols].offset = pBuilder->size; pBuilder->nCols++; int tlen = IS_VAR_DATA_TYPE(type) ? varDataTLen(value) : TYPE_BYTES[type]; if (tlen > pBuilder->alloc - pBuilder->size) { while (tlen > pBuilder->alloc - pBuilder->size) { pBuilder->alloc *= 2; } void* buf = realloc(pBuilder->buf, pBuilder->alloc); if (buf == NULL) return -1; pBuilder->buf = buf; } memcpy(POINTER_SHIFT(pBuilder->buf, pBuilder->size), value, tlen); pBuilder->size += tlen; return 0; } // ----------------- SMemRow appended with sequential data 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 SMEM_ROW_CONVERT 0x80U // SMemRow convert flag #define KVRatioKV (0.2f) // all bool #define KVRatioPredict (0.4f) #define KVRatioData (0.75f) // all bigint #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 memRowSetConvert(r) ((*(uint8_t *)(r)) = (((*(uint8_t *)(r)) & 0x7F) | SMEM_ROW_CONVERT)) // highest bit #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 isNeedConvertRow(r) (((*(uint8_t *)(r)) & 0x80) == SMEM_ROW_CONVERT) #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) \ ((TDRowTLenT)(memRowDataLen(r) + TD_MEM_ROW_TYPE_SIZE)) // using uint32_t/int32_t to store the TLen #define memRowKvTLen(r) ((TDRowTLenT)(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 int 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; } /** * 1. calculate the delta of AllNullLen for SDataRow. * 2. calculate the real len for SKVRow. */ static FORCE_INLINE void tdGetColAppendDeltaLen(const void *value, int8_t colType, int32_t *dataLen, int32_t *kvLen) { switch (colType) { case TSDB_DATA_TYPE_BINARY: { int32_t varLen = varDataLen(value); *dataLen += (varLen - CHAR_BYTES); *kvLen += (varLen + sizeof(SColIdx)); break; } case TSDB_DATA_TYPE_NCHAR: { int32_t varLen = varDataLen(value); *dataLen += (varLen - TSDB_NCHAR_SIZE); *kvLen += (varLen + sizeof(SColIdx)); break; } default: { *kvLen += (TYPE_BYTES[colType] + sizeof(SColIdx)); break; } } } 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); #if 0 // ----------------- Raw payload structure for row: /* |<------------ Head ------------->|<----------- body of column data tuple ------------------->| * | |<----------------- flen ------------->|<--- value part --->| * |SMemRowType| dataTLen | nCols | colId | colType | offset | ... | value |...|...|... | * +-----------+----------+----------+--------------------------------------|--------------------| * | uint8_t | uint32_t | uint16_t | int16_t | uint8_t | uint16_t | ... |.......|...|...|... | * +-----------+----------+----------+--------------------------------------+--------------------| * 1. offset in column data tuple starts from the value part in case of uint16_t overflow. * 2. dataTLen: total length including the header and body. */ #define PAYLOAD_NCOLS_LEN sizeof(uint16_t) #define PAYLOAD_NCOLS_OFFSET (sizeof(uint8_t) + sizeof(TDRowTLenT)) #define PAYLOAD_HEADER_LEN (PAYLOAD_NCOLS_OFFSET + PAYLOAD_NCOLS_LEN) #define PAYLOAD_ID_LEN sizeof(int16_t) #define PAYLOAD_ID_TYPE_LEN (sizeof(int16_t) + sizeof(uint8_t)) #define PAYLOAD_COL_HEAD_LEN (PAYLOAD_ID_TYPE_LEN + sizeof(uint16_t)) #define PAYLOAD_PRIMARY_COL_LEN (PAYLOAD_ID_TYPE_LEN + sizeof(TSKEY)) #define payloadBody(r) POINTER_SHIFT(r, PAYLOAD_HEADER_LEN) #define payloadType(r) (*(uint8_t *)(r)) #define payloadSetType(r, t) (payloadType(r) = (t)) #define payloadTLen(r) (*(TDRowTLenT *)POINTER_SHIFT(r, TD_MEM_ROW_TYPE_SIZE)) // including total header #define payloadSetTLen(r, l) (payloadTLen(r) = (l)) #define payloadNCols(r) (*(TDRowLenT *)POINTER_SHIFT(r, PAYLOAD_NCOLS_OFFSET)) #define payloadSetNCols(r, n) (payloadNCols(r) = (n)) #define payloadValuesOffset(r) \ (PAYLOAD_HEADER_LEN + payloadNCols(r) * PAYLOAD_COL_HEAD_LEN) // avoid using the macro in loop #define payloadValues(r) POINTER_SHIFT(r, payloadValuesOffset(r)) // avoid using the macro in loop #define payloadColId(c) (*(int16_t *)(c)) #define payloadColType(c) (*(uint8_t *)POINTER_SHIFT(c, PAYLOAD_ID_LEN)) #define payloadColOffset(c) (*(uint16_t *)POINTER_SHIFT(c, PAYLOAD_ID_TYPE_LEN)) #define payloadColValue(c) POINTER_SHIFT(c, payloadColOffset(c)) #define payloadColSetId(c, i) (payloadColId(c) = (i)) #define payloadColSetType(c, t) (payloadColType(c) = (t)) #define payloadColSetOffset(c, o) (payloadColOffset(c) = (o)) #define payloadTSKey(r) (*(TSKEY *)POINTER_SHIFT(r, payloadValuesOffset(r))) #define payloadTKey(r) (*(TKEY *)POINTER_SHIFT(r, payloadValuesOffset(r))) #define payloadKey(r) tdGetKey(payloadTKey(r)) static FORCE_INLINE char *payloadNextCol(char *pCol) { return (char *)POINTER_SHIFT(pCol, PAYLOAD_COL_HEAD_LEN); } #endif #ifdef __cplusplus } #endif #endif /*_TD_COMMON_DATA_FORMAT_H_*/