提交 8a0ab261 编写于 作者: S Shengliang Guan

Merge remote-tracking branch 'origin/3.0' into feature/shm

......@@ -87,7 +87,7 @@ tests/comparisonTest/opentsdb/opentsdbtest/.settings/
tests/examples/JDBC/JDBCDemo/.classpath
tests/examples/JDBC/JDBCDemo/.project
tests/examples/JDBC/JDBCDemo/.settings/
source/libs/parser/inc/new_sql.*
source/libs/parser/inc/sql.*
# Emacs
# -*- mode: gitignore; -*-
......
......@@ -6,40 +6,14 @@ project(
DESCRIPTION "An open-source big data platform designed and optimized for the Internet of Things(IOT)"
)
IF ("${BUILD_TOOLS}" STREQUAL "")
IF (TD_LINUX)
IF (TD_ARM_32)
SET(BUILD_TOOLS "false")
ELSEIF (TD_ARM_64)
SET(BUILD_TOOLS "false")
ELSE ()
SET(BUILD_TOOLS "false")
ENDIF ()
ELSEIF (TD_DARWIN)
SET(BUILD_TOOLS "false")
ELSE ()
SET(BUILD_TOOLS "false")
ENDIF ()
ENDIF ()
IF ("${BUILD_TOOLS}" MATCHES "false")
MESSAGE("${Yellow} Will _not_ build taos_tools! ${ColourReset}")
SET(TD_TAOS_TOOLS FALSE)
ELSE ()
MESSAGE("")
MESSAGE("${Green} Will build taos_tools! ${ColourReset}")
MESSAGE("")
SET(TD_TAOS_TOOLS TRUE)
ENDIF ()
set(CMAKE_SUPPORT_DIR "${CMAKE_SOURCE_DIR}/cmake")
set(CMAKE_CONTRIB_DIR "${CMAKE_SOURCE_DIR}/contrib")
include(${CMAKE_SUPPORT_DIR}/cmake.platform)
include(${CMAKE_SUPPORT_DIR}/cmake.define)
include(${CMAKE_SUPPORT_DIR}/cmake.options)
include(${CMAKE_SUPPORT_DIR}/cmake.version)
SET(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Werror -fPIC -gdwarf-2 -msse4.2 -mfma -g3")
SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Werror -fPIC -gdwarf-2 -msse4.2 -mfma -g3")
# contrib
add_subdirectory(contrib)
......@@ -52,6 +26,7 @@ if(${BUILD_TEST})
include(CTest)
enable_testing()
endif(${BUILD_TEST})
add_subdirectory(source)
add_subdirectory(tools)
add_subdirectory(tests)
......
cmake_minimum_required(VERSION 3.16)
IF ("${BUILD_TOOLS}" STREQUAL "")
IF (TD_LINUX)
IF (TD_ARM_32)
SET(BUILD_TOOLS "false")
ELSEIF (TD_ARM_64)
SET(BUILD_TOOLS "false")
ELSE ()
SET(BUILD_TOOLS "false")
ENDIF ()
ELSEIF (TD_DARWIN)
SET(BUILD_TOOLS "false")
ELSE ()
SET(BUILD_TOOLS "false")
ENDIF ()
ENDIF ()
IF ("${BUILD_TOOLS}" MATCHES "false")
MESSAGE("${Yellow} Will _not_ build taos_tools! ${ColourReset}")
SET(TD_TAOS_TOOLS FALSE)
ELSE ()
MESSAGE("")
MESSAGE("${Green} Will build taos_tools! ${ColourReset}")
MESSAGE("")
SET(TD_TAOS_TOOLS TRUE)
ENDIF ()
IF (TD_WINDOWS)
MESSAGE("${Yellow} set compiler flag for Windows! ${ColourReset}")
SET(CMAKE_GENERATOR "NMake Makefiles" CACHE INTERNAL "" FORCE)
SET(COMMON_FLAGS "/nologo /WX /wd4018 /wd4999 /Oi /Oy- /Gm- /EHsc /MT /GS /Gy /fp:precise /Zc:wchar_t /Zc:forScope /Gd /errorReport:prompt /analyze-")
IF (MSVC AND (MSVC_VERSION GREATER_EQUAL 1900))
SET(COMMON_FLAGS "${COMMON_FLAGS} /Wv:18")
ENDIF ()
ELSE ()
SET(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Werror -fPIC -gdwarf-2 -msse4.2 -mfma -g3")
SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Werror -fPIC -gdwarf-2 -msse4.2 -mfma -g3")
ENDIF ()
# =========================================================
# Deps options
# =========================================================
IF(${TD_WINDOWS})
MESSAGE("build pthread Win32")
option(
BUILD_PTHREAD
"If build pthread on Windows"
ON
)
MESSAGE("build gnu regex for Windows")
option(
BUILD_GNUREGEX
"If build gnu regex on Windows"
ON
)
ENDIF ()
IF(${TD_LINUX} MATCHES TRUE)
option(
BUILD_TEST
"If build unit tests using googletest"
ON
)
ENDIF ()
option(
BUILD_WITH_LEVELDB
"If build with leveldb"
......@@ -25,11 +48,16 @@ option(
OFF
)
option(
BUILD_WITH_BDB
"If build with BerkleyDB"
ON
)
IF(${TD_WINDOWS})
MESSAGE("Not build BDB on Windows")
ELSE ()
option(
BUILD_WITH_BDB
"If build with BerkleyDB"
ON
)
ENDIF ()
option(
BUILD_WITH_LUCENE
......@@ -68,12 +96,16 @@ option(
OFF
)
IF(${TD_LINUX} MATCHES TRUE)
option(
BUILD_DEPENDENCY_TESTS
"If build dependency tests"
ON
)
ENDIF ()
option(
BUILD_DOCS
"If use doxygen build documents"
......
cmake_minimum_required(VERSION 3.16)
MESSAGE("Current system is ${CMAKE_SYSTEM_NAME}")
# init
SET(TD_LINUX FALSE)
SET(TD_WINDOWS FALSE)
SET(TD_DARWIN FALSE)
IF (${CMAKE_SYSTEM_NAME} MATCHES "Linux")
SET(TD_LINUX TRUE)
SET(OSTYPE "Linux")
ADD_DEFINITIONS("-DLINUX")
IF (${CMAKE_SIZEOF_VOID_P} MATCHES 8)
SET(TD_LINUX_64 TRUE)
ELSE ()
SET(TD_LINUX_32 TRUE)
ENDIF ()
ELSEIF (${CMAKE_SYSTEM_NAME} MATCHES "Darwin")
SET(TD_DARWIN TRUE)
SET(OSTYPE "macOS")
ADD_DEFINITIONS("-DDARWIN")
IF (${CMAKE_SYSTEM_PROCESSOR} MATCHES "arm64")
MESSAGE("Current system arch is arm64")
SET(TD_DARWIN_64 TRUE)
ADD_DEFINITIONS("-D_TD_DARWIN_64")
ENDIF ()
ADD_DEFINITIONS("-DHAVE_UNISTD_H")
ELSEIF (${CMAKE_SYSTEM_NAME} MATCHES "Windows")
SET(TD_WINDOWS TRUE)
SET(OSTYPE "Windows")
ADD_DEFINITIONS("-DWINDOWS")
IF (${CMAKE_SIZEOF_VOID_P} MATCHES 8)
SET(TD_WINDOWS_64 TRUE)
ADD_DEFINITIONS("-D_TD_WINDOWS_64")
ELSE ()
SET(TD_WINDOWS_32 TRUE)
ADD_DEFINITIONS("-D_TD_WINDOWS_32")
ENDIF ()
ENDIF()
MESSAGE("C Compiler ID: ${CMAKE_C_COMPILER_ID}")
MESSAGE("CXX Compiler ID: ${CMAKE_CXX_COMPILER_ID}")
# gnuregex
ExternalProject_Add(gnuregex
URL https://launchpad.net/gnuregex/trunk/2.9/+download/libgnurx-src-2.9.zip
DOWNLOAD_NAME libgnurx-src.zip
SOURCE_DIR "${CMAKE_CONTRIB_DIR}/gnuregex"
BINARY_DIR ""
#BUILD_IN_SOURCE TRUE
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND ""
TEST_COMMAND ""
)
# pthread
ExternalProject_Add(pthread
GIT_REPOSITORY https://github.com/GerHobbelt/pthread-win32
GIT_TAG v3.0.3.1
SOURCE_DIR "${CMAKE_CONTRIB_DIR}/pthread-win32"
BINARY_DIR ""
#BUILD_IN_SOURCE TRUE
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND ""
TEST_COMMAND ""
)
......@@ -9,6 +9,16 @@ endfunction(cat IN_FILE OUT_FILE)
set(CONTRIB_TMP_FILE "${CMAKE_BINARY_DIR}/deps_tmp_CMakeLists.txt.in")
configure_file("${CMAKE_SUPPORT_DIR}/deps_CMakeLists.txt.in" ${CONTRIB_TMP_FILE})
# pthread
if(${BUILD_PTHREAD})
cat("${CMAKE_SUPPORT_DIR}/pthread_CMakeLists.txt.in" ${CONTRIB_TMP_FILE})
endif()
# gnu regex
if(${BUILD_GNUREGEX})
cat("${CMAKE_SUPPORT_DIR}/gnuregex_CMakeLists.txt.in" ${CONTRIB_TMP_FILE})
endif()
# googletest
if(${BUILD_TEST})
cat("${CMAKE_SUPPORT_DIR}/gtest_CMakeLists.txt.in" ${CONTRIB_TMP_FILE})
......@@ -193,7 +203,10 @@ endif(${BUILD_WITH_TRAFT})
# LIBUV
if(${BUILD_WITH_UV})
add_compile_options(-Wno-sign-compare)
if (NOT ${CMAKE_SYSTEM_NAME} MATCHES "Windows")
MESSAGE("Windows need set no-sign-compare")
add_compile_options(-Wno-sign-compare)
endif ()
add_subdirectory(libuv)
endif(${BUILD_WITH_UV})
......@@ -224,6 +237,7 @@ if(${BUILD_WITH_SQLITE})
)
endif(${BUILD_WITH_SQLITE})
# pthread
# ================================================================================================
......
......@@ -51,6 +51,7 @@ typedef void **TAOS_ROW;
#define TSDB_DATA_TYPE_JSON 17 // json
#define TSDB_DATA_TYPE_DECIMAL 18 // decimal
#define TSDB_DATA_TYPE_BLOB 19 // binary
#define TSDB_DATA_TYPE_MEDIUMBLOB 20
typedef enum {
TSDB_OPTION_LOCALE,
......
......@@ -56,8 +56,9 @@ typedef struct SColumnDataAgg {
typedef struct SDataBlockInfo {
STimeWindow window;
int32_t rows;
int32_t rowSize;
int32_t numOfCols;
int64_t uid;
union {int64_t uid; int64_t blockId;};
} SDataBlockInfo;
typedef struct SConstantItem {
......@@ -69,10 +70,10 @@ typedef struct SConstantItem {
// info.numOfCols = taosArrayGetSize(pDataBlock) + taosArrayGetSize(pConstantList);
typedef struct SSDataBlock {
SColumnDataAgg* pBlockAgg;
SArray* pDataBlock; // SArray<SColumnInfoData>
SArray* pConstantList; // SArray<SConstantItem>, it is a constant/tags value of the corresponding result value.
SDataBlockInfo info;
SColumnDataAgg *pBlockAgg;
SArray *pDataBlock; // SArray<SColumnInfoData>
SArray *pConstantList; // SArray<SConstantItem>, it is a constant/tags value of the corresponding result value.
SDataBlockInfo info;
} SSDataBlock;
typedef struct SVarColAttr {
......@@ -108,7 +109,7 @@ static FORCE_INLINE int32_t tEncodeDataBlock(void** buf, const SSDataBlock* pBlo
SColumnInfoData* pColData = (SColumnInfoData*)taosArrayGet(pBlock->pDataBlock, i);
tlen += taosEncodeFixedI16(buf, pColData->info.colId);
tlen += taosEncodeFixedI16(buf, pColData->info.type);
tlen += taosEncodeFixedI16(buf, pColData->info.bytes);
tlen += taosEncodeFixedI32(buf, pColData->info.bytes);
int32_t colSz = rows * pColData->info.bytes;
tlen += taosEncodeBinary(buf, pColData->pData, colSz);
}
......@@ -127,7 +128,7 @@ static FORCE_INLINE void* tDecodeDataBlock(const void* buf, SSDataBlock* pBlock)
SColumnInfoData data = {0};
buf = taosDecodeFixedI16(buf, &data.info.colId);
buf = taosDecodeFixedI16(buf, &data.info.type);
buf = taosDecodeFixedI16(buf, &data.info.bytes);
buf = taosDecodeFixedI32(buf, &data.info.bytes);
int32_t colSz = pBlock->info.rows * data.info.bytes;
buf = taosDecodeBinary(buf, (void**)&data.pData, colSz);
taosArrayPush(pBlock->pDataBlock, &data);
......@@ -212,10 +213,22 @@ static FORCE_INLINE void tDeleteSMqConsumeRsp(SMqPollRsp* pRsp) {
//======================================================================================================================
// the following structure shared by parser and executor
typedef struct SColumn {
uint64_t uid;
char name[TSDB_COL_NAME_LEN];
int8_t flag; // column type: normal column, tag, or user-input column (integer/float/string)
SColumnInfo info;
union {
uint64_t uid;
int64_t dataBlockId;
};
union {
int16_t colId;
int16_t slotId;
};
char name[TSDB_COL_NAME_LEN];
int8_t flag; // column type: normal column, tag, or user-input column (integer/float/string)
int16_t type;
int32_t bytes;
uint8_t precision;
uint8_t scale;
} SColumn;
typedef struct SLimit {
......@@ -233,21 +246,32 @@ typedef struct SGroupbyExpr {
bool groupbyTag; // group by tag or column
} SGroupbyExpr;
// the structure for sql function in select clause
typedef struct SSqlExpr {
char token[TSDB_COL_NAME_LEN]; // original token
SSchema resSchema;
typedef struct SFunctParam {
int32_t type;
SColumn *pCol;
SVariant param;
} SFunctParam;
int32_t numOfCols;
SColumn* pColumns; // data columns that are required by query
int32_t interBytes; // inter result buffer size
int16_t numOfParams; // argument value of each function
SVariant param[3]; // parameters are not more than 3
} SSqlExpr;
// the structure for sql function in select clause
typedef struct SResSchame {
int8_t type;
int32_t colId;
int32_t bytes;
int32_t precision;
int32_t scale;
char name[TSDB_COL_NAME_LEN];
} SResSchema;
// TODO move away to executor.h
typedef struct SExprBasicInfo {
SResSchema resSchema;
int16_t numOfParams; // argument value of each function
SFunctParam *pParam;
} SExprBasicInfo;
typedef struct SExprInfo {
struct SSqlExpr base;
struct tExprNode* pExpr;
struct SExprBasicInfo base;
struct tExprNode *pExpr;
} SExprInfo;
typedef struct SStateWindow {
......
......@@ -94,8 +94,8 @@ int32_t blockDataUpdateTsWindow(SSDataBlock* pDataBlock);
int32_t colDataGetLength(const SColumnInfoData* pColumnInfoData, int32_t numOfRows);
void colDataTrim(SColumnInfoData* pColumnInfoData);
size_t colDataGetNumOfCols(const SSDataBlock* pBlock);
size_t colDataGetNumOfRows(const SSDataBlock* pBlock);
size_t blockDataGetNumOfCols(const SSDataBlock* pBlock);
size_t blockDataGetNumOfRows(const SSDataBlock* pBlock);
int32_t blockDataMerge(SSDataBlock* pDest, const SSDataBlock* pSrc);
int32_t blockDataSplitRows(SSDataBlock* pBlock, bool hasVarCol, int32_t startIndex, int32_t* stopIndex,
......
......@@ -140,6 +140,8 @@ typedef enum _mgmt_table {
#define TSDB_KILL_MSG_LEN 30
#define TSDB_TABLE_NUM_UNIT 100000
#define TSDB_VN_READ_ACCCESS ((char)0x1)
#define TSDB_VN_WRITE_ACCCESS ((char)0x2)
#define TSDB_VN_ALL_ACCCESS (TSDB_VN_READ_ACCCESS | TSDB_VN_WRITE_ACCCESS)
......@@ -169,6 +171,7 @@ typedef struct {
char db[TSDB_DB_FNAME_LEN];
int64_t dbId;
int32_t vgVersion;
int32_t numOfTable; // unit is TSDB_TABLE_NUM_UNIT
} SBuildUseDBInput;
typedef struct SField {
......@@ -416,10 +419,15 @@ typedef struct {
* But for data in vnode side, we need all the following information.
*/
typedef struct {
int16_t colId;
int16_t type;
int16_t bytes;
SColumnFilterList flist;
union {
int16_t colId;
int16_t slotId;
};
int16_t type;
int32_t bytes;
uint8_t precision;
uint8_t scale;
} SColumnInfo;
typedef struct {
......@@ -449,57 +457,6 @@ typedef struct {
int64_t offset;
} SInterval;
typedef struct {
SMsgHead head;
char version[TSDB_VERSION_LEN];
bool stableQuery; // super table query or not
bool topBotQuery; // TODO used bitwise flag
bool interpQuery; // interp query or not
bool groupbyColumn; // denote if this is a groupby normal column query
bool hasTagResults; // if there are tag values in final result or not
bool timeWindowInterpo; // if the time window start/end required interpolation
bool queryBlockDist; // if query data block distribution
bool stabledev; // super table stddev query
bool tsCompQuery; // is tscomp query
bool simpleAgg;
bool pointInterpQuery; // point interpolation query
bool needReverseScan; // need reverse scan
bool stateWindow; // state window flag
STimeWindow window;
int32_t numOfTables;
int16_t order;
int16_t orderColId;
int16_t numOfCols; // the number of columns will be load from vnode
SInterval interval;
// SSessionWindow sw; // session window
int16_t tagCondLen; // tag length in current query
int16_t colCondLen; // column length in current query
int16_t numOfGroupCols; // num of group by columns
int16_t orderByIdx;
int16_t orderType; // used in group by xx order by xxx
int64_t vgroupLimit; // limit the number of rows for each table, used in order by + limit in stable projection query.
int16_t prjOrder; // global order in super table projection query.
int64_t limit;
int64_t offset;
int32_t queryType; // denote another query process
int16_t numOfOutput; // final output columns numbers
int16_t fillType; // interpolate type
int64_t fillVal; // default value array list
int32_t secondStageOutput;
STsBufInfo tsBuf; // tsBuf info
int32_t numOfTags; // number of tags columns involved
int32_t sqlstrLen; // sql query string
int32_t prevResultLen; // previous result length
int32_t numOfOperator;
int32_t tableScanOperator; // table scan operator. -1 means no scan operator
int32_t udfNum; // number of udf function
int32_t udfContentOffset;
int32_t udfContentLen;
SColumnInfo tableCols[];
} SQueryTableReq;
typedef struct {
int32_t code;
} SQueryTableRsp;
......@@ -566,6 +523,7 @@ typedef struct {
char db[TSDB_DB_FNAME_LEN];
int64_t dbId;
int32_t vgVersion;
int32_t numOfTable; // unit is TSDB_TABLE_NUM_UNIT
} SUseDbReq;
int32_t tSerializeSUseDbReq(void* buf, int32_t bufLen, SUseDbReq* pReq);
......@@ -584,6 +542,23 @@ int32_t tSerializeSUseDbRsp(void* buf, int32_t bufLen, SUseDbRsp* pRsp);
int32_t tDeserializeSUseDbRsp(void* buf, int32_t bufLen, SUseDbRsp* pRsp);
void tFreeSUsedbRsp(SUseDbRsp* pRsp);
typedef struct {
int32_t rowNum;
} SQnodeListReq;
int32_t tSerializeSQnodeListReq(void* buf, int32_t bufLen, SQnodeListReq* pReq);
int32_t tDeserializeSQnodeListReq(void* buf, int32_t bufLen, SQnodeListReq* pReq);
typedef struct {
SArray *epSetList; // SArray<SEpSet>
} SQnodeListRsp;
int32_t tSerializeSQnodeListRsp(void* buf, int32_t bufLen, SQnodeListRsp* pRsp);
int32_t tDeserializeSQnodeListRsp(void* buf, int32_t bufLen, SQnodeListRsp* pRsp);
void tFreeSQnodeListRsp(SQnodeListRsp* pRsp);
typedef struct {
SArray* pArray; // Array of SUseDbRsp
} SUseDbBatchRsp;
......@@ -796,8 +771,10 @@ typedef struct SVgroupInfo {
uint32_t hashBegin;
uint32_t hashEnd;
SEpSet epSet;
int32_t numOfTable; // unit is TSDB_TABLE_NUM_UNIT
} SVgroupInfo;
typedef struct {
int32_t numOfVgroups;
SVgroupInfo vgroups[];
......@@ -876,6 +853,8 @@ int32_t tDeserializeSShowRsp(void* buf, int32_t bufLen, SShowRsp* pRsp);
void tFreeSShowRsp(SShowRsp* pRsp);
typedef struct {
int32_t type;
char db[TSDB_DB_FNAME_LEN];
int64_t showId;
int8_t free;
} SRetrieveTableReq;
......@@ -903,6 +882,8 @@ int32_t tDeserializeSCreateDnodeReq(void* buf, int32_t bufLen, SCreateDnodeReq*
typedef struct {
int32_t dnodeId;
char fqdn[TSDB_FQDN_LEN];
int32_t port;
} SDropDnodeReq;
int32_t tSerializeSDropDnodeReq(void* buf, int32_t bufLen, SDropDnodeReq* pReq);
......@@ -1026,6 +1007,7 @@ typedef struct SSubQueryMsg {
uint64_t sId;
uint64_t queryId;
uint64_t taskId;
int64_t refId;
int8_t taskType;
uint32_t sqlLen; // the query sql,
uint32_t phyLen;
......@@ -1072,19 +1054,57 @@ typedef struct {
typedef struct {
uint64_t queryId;
uint64_t taskId;
int64_t refId;
int8_t status;
} STaskStatus;
typedef struct {
uint32_t num;
STaskStatus status[];
int64_t refId;
SArray *taskStatus; //SArray<STaskStatus>
} SSchedulerStatusRsp;
typedef struct {
uint64_t queryId;
uint64_t taskId;
int8_t action;
} STaskAction;
typedef struct SQueryNodeEpId {
int32_t nodeId; // vgId or qnodeId
SEp ep;
} SQueryNodeEpId;
typedef struct {
SMsgHead header;
uint64_t sId;
SQueryNodeEpId epId;
SArray *taskAction; //SArray<STaskAction>
} SSchedulerHbReq;
int32_t tSerializeSSchedulerHbReq(void *buf, int32_t bufLen, SSchedulerHbReq *pReq);
int32_t tDeserializeSSchedulerHbReq(void *buf, int32_t bufLen, SSchedulerHbReq *pReq);
void tFreeSSchedulerHbReq(SSchedulerHbReq *pReq);
typedef struct {
uint64_t seqId;
SQueryNodeEpId epId;
SArray *taskStatus; //SArray<STaskStatus>
} SSchedulerHbRsp;
int32_t tSerializeSSchedulerHbRsp(void *buf, int32_t bufLen, SSchedulerHbRsp *pRsp);
int32_t tDeserializeSSchedulerHbRsp(void *buf, int32_t bufLen, SSchedulerHbRsp *pRsp);
void tFreeSSchedulerHbRsp(SSchedulerHbRsp *pRsp);
typedef struct {
SMsgHead header;
uint64_t sId;
uint64_t queryId;
uint64_t taskId;
int64_t refId;
} STaskCancelReq;
typedef struct {
......@@ -1096,6 +1116,7 @@ typedef struct {
uint64_t sId;
uint64_t queryId;
uint64_t taskId;
int64_t refId;
} STaskDropReq;
typedef struct {
......@@ -1335,6 +1356,7 @@ typedef struct SVCreateTbReq {
} SVCreateTbReq, SVUpdateTbReq;
typedef struct {
int tmp; // TODO: to avoid compile error
} SVCreateTbRsp, SVUpdateTbRsp;
int32_t tSerializeSVCreateTbReq(void** buf, SVCreateTbReq* pReq);
......@@ -1346,6 +1368,7 @@ typedef struct {
} SVCreateTbBatchReq;
typedef struct {
int tmp; // TODO: to avoid compile error
} SVCreateTbBatchRsp;
int32_t tSerializeSVCreateTbBatchReq(void** buf, SVCreateTbBatchReq* pReq);
......@@ -1359,6 +1382,7 @@ typedef struct {
} SVDropTbReq;
typedef struct {
int tmp; // TODO: to avoid compile error
} SVDropTbRsp;
int32_t tSerializeSVDropTbReq(void** buf, SVDropTbReq* pReq);
......@@ -1874,24 +1898,19 @@ typedef enum {
} ETDTimeUnit;
typedef struct {
uint16_t funcId;
uint16_t nColIds;
col_id_t* colIds; // sorted colIds
} SFuncColIds;
typedef struct {
uint8_t version; // for compatibility
uint8_t intervalUnit;
uint8_t slidingUnit;
char indexName[TSDB_INDEX_NAME_LEN];
char timezone[TD_TIMEZONE_LEN];
uint16_t nFuncColIds;
uint16_t tagsFilterLen;
tb_uid_t tableUid; // super/common table uid
int64_t interval;
int64_t sliding;
SFuncColIds* funcColIds; // sorted funcIds
char* tagsFilter;
int8_t version; // for compatibility(default 0)
int8_t intervalUnit;
int8_t slidingUnit;
char indexName[TSDB_INDEX_NAME_LEN];
char timezone[TD_TIMEZONE_LEN]; // sma data is invalid if timezone change.
uint16_t exprLen;
uint16_t tagsFilterLen;
int64_t indexUid;
tb_uid_t tableUid; // super/child/common table uid
int64_t interval;
int64_t sliding;
char* expr; // sma expression
char* tagsFilter;
} STSma; // Time-range-wise SMA
typedef struct {
......@@ -1909,7 +1928,9 @@ typedef struct {
int64_t ver; // use a general definition
char indexName[TSDB_INDEX_NAME_LEN];
} SVDropTSmaReq;
typedef struct {
int tmp; // TODO: to avoid compile error
} SVCreateTSmaRsp, SVDropTSmaRsp;
int32_t tSerializeSVCreateTSmaReq(void** buf, SVCreateTSmaReq* pReq);
......@@ -1918,24 +1939,30 @@ int32_t tSerializeSVDropTSmaReq(void** buf, SVDropTSmaReq* pReq);
void* tDeserializeSVDropTSmaReq(void* buf, SVDropTSmaReq* pReq);
typedef struct {
STimeWindow tsWindow; // [skey, ekey]
uint64_t tableUid; // sub/common table uid
int32_t numOfBlocks; // number of sma blocks for each column, total number is numOfBlocks*numOfColId
int32_t dataLen; // total data length
col_id_t* colIds; // e.g. 2,4,9,10
col_id_t numOfColIds; // e.g. 4
char data[]; // the sma blocks
} STSmaData;
// TODO: move to the final location afte schema of STSma/STSmaData defined
static FORCE_INLINE void tdDestroySmaData(STSmaData* pSmaData) {
if (pSmaData) {
if (pSmaData->colIds) {
tfree(pSmaData->colIds);
}
tfree(pSmaData);
}
}
col_id_t colId;
uint16_t blockSize; // sma data block size
char data[];
} STSmaColData;
typedef struct {
tb_uid_t tableUid; // super/child/normal table uid
int32_t dataLen; // not including head
char data[];
} STSmaTbData;
typedef struct {
int64_t indexUid;
TSKEY skey; // startTS of one interval/sliding
int64_t interval;
int32_t dataLen; // not including head
int8_t intervalUnit;
char data[];
} STSmaDataWrapper; // sma data for a interval/sliding window
// interval/sliding => window
// => window->table->colId
// => 当一个window下所有的表均计算完成时,流计算告知tsdb清除window的过期标记
// RSma: Rollup SMA
typedef struct {
......@@ -1958,13 +1985,7 @@ typedef struct {
static FORCE_INLINE void tdDestroyTSma(STSma* pSma) {
if (pSma) {
if (pSma->funcColIds != NULL) {
for (uint16_t i = 0; i < pSma->nFuncColIds; ++i) {
tfree((pSma->funcColIds + i)->colIds);
}
tfree(pSma->funcColIds);
}
tfree(pSma->expr);
tfree(pSma->tagsFilter);
}
}
......@@ -1983,24 +2004,20 @@ static FORCE_INLINE void tdDestroyTSmaWrapper(STSmaWrapper* pSW) {
static FORCE_INLINE int32_t tEncodeTSma(void** buf, const STSma* pSma) {
int32_t tlen = 0;
tlen += taosEncodeFixedU8(buf, pSma->version);
tlen += taosEncodeFixedU8(buf, pSma->intervalUnit);
tlen += taosEncodeFixedU8(buf, pSma->slidingUnit);
tlen += taosEncodeFixedI8(buf, pSma->version);
tlen += taosEncodeFixedI8(buf, pSma->intervalUnit);
tlen += taosEncodeFixedI8(buf, pSma->slidingUnit);
tlen += taosEncodeString(buf, pSma->indexName);
tlen += taosEncodeString(buf, pSma->timezone);
tlen += taosEncodeFixedU16(buf, pSma->nFuncColIds);
tlen += taosEncodeFixedU16(buf, pSma->exprLen);
tlen += taosEncodeFixedU16(buf, pSma->tagsFilterLen);
tlen += taosEncodeFixedI64(buf, pSma->indexUid);
tlen += taosEncodeFixedI64(buf, pSma->tableUid);
tlen += taosEncodeFixedI64(buf, pSma->interval);
tlen += taosEncodeFixedI64(buf, pSma->sliding);
for (uint16_t i = 0; i < pSma->nFuncColIds; ++i) {
SFuncColIds* funcColIds = pSma->funcColIds + i;
tlen += taosEncodeFixedU16(buf, funcColIds->funcId);
tlen += taosEncodeFixedU16(buf, funcColIds->nColIds);
for (uint16_t j = 0; j < funcColIds->nColIds; ++j) {
tlen += taosEncodeFixedU16(buf, *(funcColIds->colIds + j));
}
if (pSma->exprLen > 0) {
tlen += taosEncodeString(buf, pSma->expr);
}
if (pSma->tagsFilterLen > 0) {
......@@ -2021,43 +2038,30 @@ static FORCE_INLINE int32_t tEncodeTSmaWrapper(void** buf, const STSmaWrapper* p
}
static FORCE_INLINE void* tDecodeTSma(void* buf, STSma* pSma) {
buf = taosDecodeFixedU8(buf, &pSma->version);
buf = taosDecodeFixedU8(buf, &pSma->intervalUnit);
buf = taosDecodeFixedU8(buf, &pSma->slidingUnit);
buf = taosDecodeFixedI8(buf, &pSma->version);
buf = taosDecodeFixedI8(buf, &pSma->intervalUnit);
buf = taosDecodeFixedI8(buf, &pSma->slidingUnit);
buf = taosDecodeStringTo(buf, pSma->indexName);
buf = taosDecodeStringTo(buf, pSma->timezone);
buf = taosDecodeFixedU16(buf, &pSma->nFuncColIds);
buf = taosDecodeFixedU16(buf, &pSma->exprLen);
buf = taosDecodeFixedU16(buf, &pSma->tagsFilterLen);
buf = taosDecodeFixedI64(buf, &pSma->indexUid);
buf = taosDecodeFixedI64(buf, &pSma->tableUid);
buf = taosDecodeFixedI64(buf, &pSma->interval);
buf = taosDecodeFixedI64(buf, &pSma->sliding);
if (pSma->nFuncColIds > 0) {
pSma->funcColIds = (SFuncColIds*)calloc(pSma->nFuncColIds, sizeof(SFuncColIds));
if (pSma->funcColIds == NULL) {
if (pSma->exprLen > 0) {
pSma->expr = (char*)calloc(pSma->exprLen, 1);
if (pSma->expr != NULL) {
buf = taosDecodeStringTo(buf, pSma->expr);
} else {
tdDestroyTSma(pSma);
return NULL;
}
for (uint16_t i = 0; i < pSma->nFuncColIds; ++i) {
SFuncColIds* funcColIds = pSma->funcColIds + i;
buf = taosDecodeFixedU16(buf, &funcColIds->funcId);
buf = taosDecodeFixedU16(buf, &funcColIds->nColIds);
if (funcColIds->nColIds > 0) {
funcColIds->colIds = (col_id_t*)calloc(funcColIds->nColIds, sizeof(col_id_t));
if (funcColIds->colIds != NULL) {
for (uint16_t j = 0; j < funcColIds->nColIds; ++j) {
buf = taosDecodeFixedU16(buf, funcColIds->colIds + j);
}
} else {
tdDestroyTSma(pSma);
return NULL;
}
} else {
funcColIds->colIds = NULL;
}
}
} else {
pSma->funcColIds = NULL;
pSma->expr = NULL;
}
if (pSma->tagsFilterLen > 0) {
......
......@@ -129,11 +129,13 @@ enum {
TD_DEF_MSG_TYPE(TDMT_MND_DROP_STB, "mnode-drop-stb", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_TABLE_META, "mnode-table-meta", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_VGROUP_LIST, "mnode-vgroup-list", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_QNODE_LIST, "mnode-qnode-list", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_KILL_QUERY, "mnode-kill-query", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_KILL_CONN, "mnode-kill-conn", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_HEARTBEAT, "mnode-heartbeat", SClientHbBatchReq, SClientHbBatchRsp)
TD_DEF_MSG_TYPE(TDMT_MND_SHOW, "mnode-show", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_SHOW_RETRIEVE, "mnode-retrieve", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_SYSTABLE_RETRIEVE, "mnode-systable-retrieve", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_STATUS, "mnode-status", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_TRANS_TIMER, "mnode-trans-tmr", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_KILL_TRANS, "mnode-kill-trans", NULL, NULL)
......@@ -183,6 +185,7 @@ enum {
TD_DEF_MSG_TYPE(TDMT_VND_SHOW_TABLES, "vnode-show-tables", SVShowTablesReq, SVShowTablesRsp)
TD_DEF_MSG_TYPE(TDMT_VND_SHOW_TABLES_FETCH, "vnode-show-tables-fetch", SVShowTablesFetchReq, SVShowTablesFetchRsp)
TD_DEF_MSG_TYPE(TDMT_VND_QUERY_CONTINUE, "vnode-query-continue", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_QUERY_HEARTBEAT, "vnode-query-heartbeat", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_SUBSCRIBE, "vnode-subscribe", SMVSubscribeReq, SMVSubscribeRsp)
TD_DEF_MSG_TYPE(TDMT_VND_CONSUME, "vnode-consume", SMqCVConsumeReq, SMqCVConsumeRsp)
......
......@@ -103,6 +103,7 @@ typedef struct {
typedef struct {
// TODO
int tmp; // TODO: to avoid compile error
} STpRow; // tuple
#pragma pack(push, 1)
......@@ -1098,4 +1099,4 @@ const STSRow *tRowBatchIterNext(STSRowBatchIter *pRowBatchIter);
}
#endif
#endif /*_TD_COMMON_ROW_H_*/
\ No newline at end of file
#endif /*_TD_COMMON_ROW_H_*/
......@@ -16,279 +16,159 @@
#ifndef _TD_COMMON_TOKEN_H_
#define _TD_COMMON_TOKEN_H_
#define TK_ID 1
#define TK_BOOL 2
#define TK_INTEGER 3
#define TK_FLOAT 4
#define TK_STRING 5
#define TK_TIMESTAMP 6
#define TK_OR 7
#define TK_AND 8
#define TK_NOT 9
#define TK_EQ 10
#define TK_NE 11
#define TK_ISNULL 12
#define TK_NOTNULL 13
#define TK_IS 14
#define TK_LIKE 15
#define TK_MATCH 16
#define TK_NMATCH 17
#define TK_GLOB 18
#define TK_BETWEEN 19
#define TK_IN 20
#define TK_GT 21
#define TK_GE 22
#define TK_LT 23
#define TK_LE 24
#define TK_BITAND 25
#define TK_BITOR 26
#define TK_LSHIFT 27
#define TK_RSHIFT 28
#define TK_PLUS 29
#define TK_MINUS 30
#define TK_DIVIDE 31
#define TK_TIMES 32
#define TK_STAR 33
#define TK_SLASH 34
#define TK_REM 35
#define TK_CONCAT 36
#define TK_UMINUS 37
#define TK_UPLUS 38
#define TK_BITNOT 39
#define TK_SHOW 40
#define TK_DATABASES 41
#define TK_TOPICS 42
#define TK_FUNCTIONS 43
#define TK_MNODES 44
#define TK_DNODES 45
#define TK_ACCOUNTS 46
#define TK_USERS 47
#define TK_MODULES 48
#define TK_QUERIES 49
#define TK_CONNECTIONS 50
#define TK_STREAMS 51
#define TK_VARIABLES 52
#define TK_SCORES 53
#define TK_GRANTS 54
#define TK_VNODES 55
#define TK_DOT 56
#define TK_CREATE 57
#define TK_TABLE 58
#define TK_STABLE 59
#define TK_DATABASE 60
#define TK_TABLES 61
#define TK_STABLES 62
#define TK_VGROUPS 63
#define TK_DROP 64
#define TK_TOPIC 65
#define TK_FUNCTION 66
#define TK_DNODE 67
#define TK_USER 68
#define TK_ACCOUNT 69
#define TK_USE 70
#define TK_DESCRIBE 71
#define TK_DESC 72
#define TK_ALTER 73
#define TK_PASS 74
#define TK_PRIVILEGE 75
#define TK_LOCAL 76
#define TK_COMPACT 77
#define TK_LP 78
#define TK_RP 79
#define TK_IF 80
#define TK_EXISTS 81
#define TK_PORT 82
#define TK_IPTOKEN 83
#define TK_AS 84
#define TK_OUTPUTTYPE 85
#define TK_AGGREGATE 86
#define TK_BUFSIZE 87
#define TK_PPS 88
#define TK_TSERIES 89
#define TK_DBS 90
#define TK_STORAGE 91
#define TK_QTIME 92
#define TK_CONNS 93
#define TK_STATE 94
#define TK_COMMA 95
#define TK_KEEP 96
#define TK_CACHE 97
#define TK_REPLICA 98
#define TK_QUORUM 99
#define TK_DAYS 100
#define TK_MINROWS 101
#define TK_MAXROWS 102
#define TK_BLOCKS 103
#define TK_CTIME 104
#define TK_WAL 105
#define TK_FSYNC 106
#define TK_COMP 107
#define TK_PRECISION 108
#define TK_UPDATE 109
#define TK_CACHELAST 110
#define TK_STREAM 111
#define TK_MODE 112
#define TK_UNSIGNED 113
#define TK_TAGS 114
#define TK_USING 115
#define TK_NULL 116
#define TK_NOW 117
#define TK_SELECT 118
#define TK_UNION 119
#define TK_ALL 120
#define TK_DISTINCT 121
#define TK_FROM 122
#define TK_VARIABLE 123
#define TK_INTERVAL 124
#define TK_EVERY 125
#define TK_SESSION 126
#define TK_STATE_WINDOW 127
#define TK_FILL 128
#define TK_SLIDING 129
#define TK_ORDER 130
#define TK_BY 131
#define TK_ASC 132
#define TK_GROUP 133
#define TK_HAVING 134
#define TK_LIMIT 135
#define TK_OFFSET 136
#define TK_SLIMIT 137
#define TK_SOFFSET 138
#define TK_WHERE 139
#define TK_RESET 140
#define TK_QUERY 141
#define TK_SYNCDB 142
#define TK_ADD 143
#define TK_COLUMN 144
#define TK_MODIFY 145
#define TK_TAG 146
#define TK_CHANGE 147
#define TK_SET 148
#define TK_KILL 149
#define TK_CONNECTION 150
#define TK_COLON 151
#define TK_ABORT 152
#define TK_AFTER 153
#define TK_ATTACH 154
#define TK_BEFORE 155
#define TK_BEGIN 156
#define TK_CASCADE 157
#define TK_CLUSTER 158
#define TK_CONFLICT 159
#define TK_COPY 160
#define TK_DEFERRED 161
#define TK_DELIMITERS 162
#define TK_DETACH 163
#define TK_EACH 164
#define TK_END 165
#define TK_EXPLAIN 166
#define TK_FAIL 167
#define TK_FOR 168
#define TK_IGNORE 169
#define TK_IMMEDIATE 170
#define TK_INITIALLY 171
#define TK_INSTEAD 172
#define TK_KEY 173
#define TK_OF 174
#define TK_RAISE 175
#define TK_REPLACE 176
#define TK_RESTRICT 177
#define TK_ROW 178
#define TK_STATEMENT 179
#define TK_TRIGGER 180
#define TK_VIEW 181
#define TK_SEMI 182
#define TK_NONE 183
#define TK_PREV 184
#define TK_LINEAR 185
#define TK_IMPORT 186
#define TK_TBNAME 187
#define TK_JOIN 188
#define TK_INSERT 189
#define TK_INTO 190
#define TK_VALUES 191
#define TK_OR 1
#define TK_AND 2
#define TK_UNION 3
#define TK_ALL 4
#define TK_MINUS 5
#define TK_EXCEPT 6
#define TK_INTERSECT 7
#define TK_NK_BITAND 8
#define TK_NK_BITOR 9
#define TK_NK_LSHIFT 10
#define TK_NK_RSHIFT 11
#define TK_NK_PLUS 12
#define TK_NK_MINUS 13
#define TK_NK_STAR 14
#define TK_NK_SLASH 15
#define TK_NK_REM 16
#define TK_NK_CONCAT 17
#define TK_CREATE 18
#define TK_USER 19
#define TK_PASS 20
#define TK_NK_STRING 21
#define TK_ALTER 22
#define TK_PRIVILEGE 23
#define TK_DROP 24
#define TK_SHOW 25
#define TK_USERS 26
#define TK_DNODE 27
#define TK_PORT 28
#define TK_NK_INTEGER 29
#define TK_DNODES 30
#define TK_NK_ID 31
#define TK_NK_IPTOKEN 32
#define TK_DATABASE 33
#define TK_DATABASES 34
#define TK_USE 35
#define TK_IF 36
#define TK_NOT 37
#define TK_EXISTS 38
#define TK_BLOCKS 39
#define TK_CACHE 40
#define TK_CACHELAST 41
#define TK_COMP 42
#define TK_DAYS 43
#define TK_FSYNC 44
#define TK_MAXROWS 45
#define TK_MINROWS 46
#define TK_KEEP 47
#define TK_PRECISION 48
#define TK_QUORUM 49
#define TK_REPLICA 50
#define TK_TTL 51
#define TK_WAL 52
#define TK_VGROUPS 53
#define TK_SINGLE_STABLE 54
#define TK_STREAM_MODE 55
#define TK_TABLE 56
#define TK_NK_LP 57
#define TK_NK_RP 58
#define TK_STABLE 59
#define TK_TABLES 60
#define TK_STABLES 61
#define TK_USING 62
#define TK_TAGS 63
#define TK_NK_DOT 64
#define TK_NK_COMMA 65
#define TK_COMMENT 66
#define TK_BOOL 67
#define TK_TINYINT 68
#define TK_SMALLINT 69
#define TK_INT 70
#define TK_INTEGER 71
#define TK_BIGINT 72
#define TK_FLOAT 73
#define TK_DOUBLE 74
#define TK_BINARY 75
#define TK_TIMESTAMP 76
#define TK_NCHAR 77
#define TK_UNSIGNED 78
#define TK_JSON 79
#define TK_VARCHAR 80
#define TK_MEDIUMBLOB 81
#define TK_BLOB 82
#define TK_VARBINARY 83
#define TK_DECIMAL 84
#define TK_SMA 85
#define TK_MNODES 86
#define TK_NK_FLOAT 87
#define TK_NK_BOOL 88
#define TK_NK_VARIABLE 89
#define TK_BETWEEN 90
#define TK_IS 91
#define TK_NULL 92
#define TK_NK_LT 93
#define TK_NK_GT 94
#define TK_NK_LE 95
#define TK_NK_GE 96
#define TK_NK_NE 97
#define TK_NK_EQ 98
#define TK_LIKE 99
#define TK_MATCH 100
#define TK_NMATCH 101
#define TK_IN 102
#define TK_FROM 103
#define TK_AS 104
#define TK_JOIN 105
#define TK_ON 106
#define TK_INNER 107
#define TK_SELECT 108
#define TK_DISTINCT 109
#define TK_WHERE 110
#define TK_PARTITION 111
#define TK_BY 112
#define TK_SESSION 113
#define TK_STATE_WINDOW 114
#define TK_INTERVAL 115
#define TK_SLIDING 116
#define TK_FILL 117
#define TK_VALUE 118
#define TK_NONE 119
#define TK_PREV 120
#define TK_LINEAR 121
#define TK_NEXT 122
#define TK_GROUP 123
#define TK_HAVING 124
#define TK_ORDER 125
#define TK_SLIMIT 126
#define TK_SOFFSET 127
#define TK_LIMIT 128
#define TK_OFFSET 129
#define TK_ASC 130
#define TK_DESC 131
#define TK_NULLS 132
#define TK_FIRST 133
#define TK_LAST 134
#define NEW_TK_OR 1
#define NEW_TK_AND 2
#define NEW_TK_UNION 3
#define NEW_TK_ALL 4
#define NEW_TK_MINUS 5
#define NEW_TK_EXCEPT 6
#define NEW_TK_INTERSECT 7
#define NEW_TK_NK_PLUS 8
#define NEW_TK_NK_MINUS 9
#define NEW_TK_NK_STAR 10
#define NEW_TK_NK_SLASH 11
#define NEW_TK_NK_REM 12
#define NEW_TK_SHOW 13
#define NEW_TK_DATABASES 14
#define NEW_TK_NK_INTEGER 15
#define NEW_TK_NK_FLOAT 16
#define NEW_TK_NK_STRING 17
#define NEW_TK_NK_BOOL 18
#define NEW_TK_TIMESTAMP 19
#define NEW_TK_NK_VARIABLE 20
#define NEW_TK_NK_COMMA 21
#define NEW_TK_NK_ID 22
#define NEW_TK_NK_LP 23
#define NEW_TK_NK_RP 24
#define NEW_TK_NK_DOT 25
#define NEW_TK_BETWEEN 26
#define NEW_TK_NOT 27
#define NEW_TK_IS 28
#define NEW_TK_NULL 29
#define NEW_TK_NK_LT 30
#define NEW_TK_NK_GT 31
#define NEW_TK_NK_LE 32
#define NEW_TK_NK_GE 33
#define NEW_TK_NK_NE 34
#define NEW_TK_NK_EQ 35
#define NEW_TK_LIKE 36
#define NEW_TK_MATCH 37
#define NEW_TK_NMATCH 38
#define NEW_TK_IN 39
#define NEW_TK_FROM 40
#define NEW_TK_AS 41
#define NEW_TK_JOIN 42
#define NEW_TK_ON 43
#define NEW_TK_INNER 44
#define NEW_TK_SELECT 45
#define NEW_TK_DISTINCT 46
#define NEW_TK_WHERE 47
#define NEW_TK_PARTITION 48
#define NEW_TK_BY 49
#define NEW_TK_SESSION 50
#define NEW_TK_STATE_WINDOW 51
#define NEW_TK_INTERVAL 52
#define NEW_TK_SLIDING 53
#define NEW_TK_FILL 54
#define NEW_TK_VALUE 55
#define NEW_TK_NONE 56
#define NEW_TK_PREV 57
#define NEW_TK_LINEAR 58
#define NEW_TK_NEXT 59
#define NEW_TK_GROUP 60
#define NEW_TK_HAVING 61
#define NEW_TK_ORDER 62
#define NEW_TK_SLIMIT 63
#define NEW_TK_SOFFSET 64
#define NEW_TK_LIMIT 65
#define NEW_TK_OFFSET 66
#define NEW_TK_ASC 67
#define NEW_TK_DESC 68
#define NEW_TK_NULLS 69
#define NEW_TK_FIRST 70
#define NEW_TK_LAST 71
#define TK_NK_SPACE 300
#define TK_NK_COMMENT 301
#define TK_NK_ILLEGAL 302
#define TK_NK_HEX 303 // hex number 0x123
#define TK_NK_OCT 304 // oct number
#define TK_NK_BIN 305 // bin format data 0b111
#define TK_NK_FILE 306
#define TK_NK_QUESTION 307 // denoting the placeholder of "?",when invoking statement bind query
#define TK_SPACE 300
#define TK_COMMENT 301
#define TK_ILLEGAL 302
#define TK_HEX 303 // hex number 0x123
#define TK_OCT 304 // oct number
#define TK_BIN 305 // bin format data 0b111
#define TK_FILE 306
#define TK_QUESTION 307 // denoting the placeholder of "?",when invoking statement bind query
#define TK_NK_COLON 500
#define TK_NK_BITNOT 501
#define TK_INSERT 502
#define TK_INTO 503
#define TK_NOW 504
#define TK_VALUES 507
#define TK_IMPORT 507
#define TK_NK_SEMI 508
#define TK_NIL 65535
#define TK_NK_NIL 65535
#endif /*_TD_COMMON_TOKEN_H_*/
......@@ -51,7 +51,7 @@ typedef struct SMetaData {
SArray *pTableMeta; // STableMeta array
SArray *pVgroupInfo; // SVgroupInfo list
SArray *pUdfList; // udf info list
SEpSet *pEpSet; // qnode epset list
SArray *pEpSetList; // qnode epset list, SArray<SEpSet>
} SMetaData;
typedef struct SCatalogCfg {
......@@ -74,9 +74,9 @@ typedef struct SDbVgVersion {
char dbFName[TSDB_DB_FNAME_LEN];
int64_t dbId;
int32_t vgVersion;
int32_t numOfTable; // unit is TSDB_TABLE_NUM_UNIT
} SDbVgVersion;
int32_t catalogInit(SCatalogCfg *cfg);
/**
......@@ -95,7 +95,7 @@ int32_t catalogGetHandle(uint64_t clusterId, SCatalog** catalogHandle);
*/
void catalogFreeHandle(SCatalog* pCatalog);
int32_t catalogGetDBVgVersion(SCatalog* pCtg, const char* dbFName, int32_t* version, int64_t* dbId);
int32_t catalogGetDBVgVersion(SCatalog* pCtg, const char* dbFName, int32_t* version, int64_t* dbId, int32_t *tableNum);
/**
* Get a DB's all vgroup info.
......
......@@ -23,6 +23,7 @@ extern "C" {
#include "os.h"
#include "thash.h"
#include "executor.h"
#include "plannodes.h"
#define DS_BUF_LOW 1
#define DS_BUF_FULL 2
......@@ -59,7 +60,7 @@ typedef struct SOutputData {
* @param pHandle output
* @return error code
*/
int32_t dsCreateDataSinker(const struct SDataSink *pDataSink, DataSinkHandle* pHandle);
int32_t dsCreateDataSinker(const SDataSinkNode* pDataSink, DataSinkHandle* pHandle);
/**
* Put the result set returned by the executor into datasinker.
......
......@@ -20,9 +20,30 @@
extern "C" {
#endif
#include "tbuffer.h"
#include "tcommon.h"
#include "tvariant.h"
#include "tbuffer.h"
struct SqlFunctionCtx;
struct SResultRowEntryInfo;
typedef struct SFunctionNode SFunctionNode;
typedef struct SFuncExecEnv {
int32_t calcMemSize;
} SFuncExecEnv;
typedef bool (*FExecGetEnv)(SFunctionNode* pFunc, SFuncExecEnv* pEnv);
typedef bool (*FExecInit)(struct SqlFunctionCtx *pCtx, struct SResultRowEntryInfo* pResultCellInfo);
typedef void (*FExecProcess)(struct SqlFunctionCtx *pCtx);
typedef void (*FExecFinalize)(struct SqlFunctionCtx *pCtx);
typedef struct SFuncExecFuncs {
FExecGetEnv getEnv;
FExecInit init;
FExecProcess process;
FExecFinalize finalize;
} SFuncExecFuncs;
#define MAX_INTERVAL_TIME_WINDOW 1000000 // maximum allowed time windows in final results
......@@ -111,64 +132,65 @@ struct SqlFunctionCtx;
struct SResultRowEntryInfo;
//for selectivity query, the corresponding tag value is assigned if the data is qualified
typedef struct SExtTagsInfo {
int16_t tagsLen; // keep the tags data for top/bottom query result
int16_t numOfTagCols;
struct SqlFunctionCtx **pTagCtxList;
} SExtTagsInfo;
typedef struct SSubsidiaryResInfo {
int16_t bufLen; // keep the tags data for top/bottom query result
int16_t numOfCols;
struct SqlFunctionCtx **pCtx;
} SSubsidiaryResInfo;
typedef struct SResultDataInfo {
int16_t precision;
int16_t scale;
int16_t type;
int16_t bytes;
int32_t intermediateBytes;
int32_t interBufSize;
} SResultDataInfo;
#define GET_RES_INFO(ctx) ((ctx)->resultInfo)
typedef struct SFunctionFpSet {
bool (*init)(struct SqlFunctionCtx *pCtx, struct SResultRowEntryInfo* pResultCellInfo); // setup the execute environment
void (*addInput)(struct SqlFunctionCtx *pCtx);
// finalizer must be called after all exec has been executed to generated final result.
void (*finalize)(struct SqlFunctionCtx *pCtx);
void (*combine)(struct SqlFunctionCtx *pCtx);
} SFunctionFpSet;
extern SFunctionFpSet fpSet[1];
typedef struct SInputColumnInfoData {
int32_t totalRows; // total rows in current columnar data
int32_t startRowIndex; // handle started row index
int32_t numOfRows; // the number of rows needs to be handled
int32_t numOfInputCols; // PTS is not included
bool colDataAggIsSet;// if agg is set or not
SColumnInfoData *pPTS; // primary timestamp column
SColumnInfoData **pData;
SColumnDataAgg **pColumnDataAgg;
} SInputColumnInfoData;
// sql function runtime context
typedef struct SqlFunctionCtx {
int32_t startRow;
int32_t size; // number of rows
SInputColumnInfoData input;
SResultDataInfo resDataInfo;
uint32_t order; // asc|desc
////////////////////////////////////////////////////////////////
int32_t startRow; // start row index
int32_t size; // handled processed row number
SColumnInfoData* pInput;
uint32_t order; // asc|desc
int16_t inputType;
int16_t inputBytes;
SResultDataInfo resDataInfo;
bool hasNull; // null value exist in current block
bool requireNull; // require null in some function
bool stableQuery;
int16_t functionId; // function id
char * pOutput; // final result output buffer, point to sdata->data
uint8_t currentStage; // record current running step, default: 0
int64_t startTs; // timestamp range of current query when function is executed on a specific data block
int32_t numOfParams;
SVariant param[4]; // input parameter, e.g., top(k, 20), the number of results for top query is kept in param
int64_t *ptsList; // corresponding timestamp array list
void *ptsOutputBuf; // corresponding output buffer for timestamp of each result, e.g., top/bottom*/
SVariant tag;
bool isAggSet;
SColumnDataAgg agg;
SColumnDataAgg agg;
int16_t inputType; // TODO remove it
int16_t inputBytes; // TODO remove it
bool hasNull; // null value exist in current block, TODO remove it
bool requireNull; // require null in some function, TODO remove it
int32_t columnIndex; // TODO remove it
uint8_t currentStage; // record current running step, default: 0
bool isAggSet;
/////////////////////////////////////////////////////////////////
bool stableQuery;
int16_t functionId; // function id
char * pOutput; // final result output buffer, point to sdata->data
int64_t startTs; // timestamp range of current query when function is executed on a specific data block
int32_t numOfParams;
SVariant param[4]; // input parameter, e.g., top(k, 20), the number of results for top query is kept in param
int64_t *ptsList; // corresponding timestamp array list
void *ptsOutputBuf; // corresponding output buffer for timestamp of each result, e.g., top/bottom*/
SVariant tag;
struct SResultRowEntryInfo *resultInfo;
SExtTagsInfo tagInfo;
SPoint1 start;
SPoint1 end;
int32_t columnIndex;
SFunctionFpSet* fpSet;
SSubsidiaryResInfo subsidiaryRes;
SPoint1 start;
SPoint1 end;
SFuncExecFuncs fpSet;
} SqlFunctionCtx;
enum {
......@@ -194,9 +216,10 @@ typedef struct tExprNode {
struct SVariant *pVal; // value node
struct {// function node
char functionName[FUNCTIONS_NAME_MAX_LENGTH];
char functionName[FUNCTIONS_NAME_MAX_LENGTH]; // todo refactor
int32_t functionId;
int32_t num;
SFunctionNode *pFunctNode;
// Note that the attribute of pChild is not the parameter of function, it is the columns that involved in the
// calculation instead.
// E.g., Cov(col1, col2), the column information, w.r.t. the col1 and col2, is kept in pChild nodes.
......@@ -207,7 +230,6 @@ typedef struct tExprNode {
};
} tExprNode;
//TODO create?
void exprTreeToBinary(SBufferWriter* bw, tExprNode* pExprTree);
void tExprTreeDestroy(tExprNode *pNode, void (*fp)(void *));
......@@ -294,7 +316,7 @@ tExprNode* exprdup(tExprNode* pTree);
void resetResultRowEntryResult(SqlFunctionCtx* pCtx, int32_t num);
void cleanupResultRowEntry(struct SResultRowEntryInfo* pCell);
int32_t getNumOfResult(SqlFunctionCtx* pCtx, int32_t num);
int32_t getNumOfResult(SqlFunctionCtx* pCtx, int32_t num, SSDataBlock* pResBlock);
bool isRowEntryCompleted(struct SResultRowEntryInfo* pEntry);
bool isRowEntryInitialized(struct SResultRowEntryInfo* pEntry);
......
......@@ -102,22 +102,6 @@ struct SqlFunctionCtx;
struct SResultRowEntryInfo;
struct STimeWindow;
typedef struct SFuncExecEnv {
int32_t calcMemSize;
} SFuncExecEnv;
typedef bool (*FExecGetEnv)(SFunctionNode* pFunc, SFuncExecEnv* pEnv);
typedef bool (*FExecInit)(struct SqlFunctionCtx *pCtx, struct SResultRowEntryInfo* pResultCellInfo);
typedef void (*FExecProcess)(struct SqlFunctionCtx *pCtx);
typedef void (*FExecFinalize)(struct SqlFunctionCtx *pCtx);
typedef struct SFuncExecFuncs {
FExecGetEnv getEnv;
FExecInit init;
FExecProcess process;
FExecFinalize finalize;
} SFuncExecFuncs;
typedef int32_t (*FScalarExecProcess)(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutput);
typedef struct SScalarFuncExecFuncs {
......@@ -127,6 +111,8 @@ typedef struct SScalarFuncExecFuncs {
int32_t fmFuncMgtInit();
void fmFuncMgtDestroy();
int32_t fmGetFuncInfo(const char* pFuncName, int32_t* pFuncId, int32_t* pFuncType);
int32_t fmGetFuncResultType(SFunctionNode* pFunc);
......
/*
* 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_CMD_NODES_H_
#define _TD_CMD_NODES_H_
#ifdef __cplusplus
extern "C" {
#endif
#include "querynodes.h"
typedef struct SDatabaseOptions {
int32_t numOfBlocks;
int32_t cacheBlockSize;
int8_t cachelast;
int32_t compressionLevel;
int32_t daysPerFile;
int32_t fsyncPeriod;
int32_t maxRowsPerBlock;
int32_t minRowsPerBlock;
int32_t keep;
int32_t precision;
int32_t quorum;
int32_t replica;
int32_t ttl;
int32_t walLevel;
int32_t numOfVgroups;
int8_t singleStable;
int8_t streamMode;
} SDatabaseOptions;
typedef struct SCreateDatabaseStmt {
ENodeType type;
char dbName[TSDB_DB_NAME_LEN];
bool ignoreExists;
SDatabaseOptions options;
} SCreateDatabaseStmt;
typedef struct SUseDatabaseStmt {
ENodeType type;
char dbName[TSDB_DB_NAME_LEN];
} SUseDatabaseStmt;
typedef struct SDropDatabaseStmt {
ENodeType type;
char dbName[TSDB_DB_NAME_LEN];
bool ignoreNotExists;
} SDropDatabaseStmt;
typedef struct STableOptions {
int32_t keep;
int32_t ttl;
char comments[TSDB_STB_COMMENT_LEN];
SNodeList* pSma;
} STableOptions;
typedef struct SColumnDefNode {
ENodeType type;
char colName[TSDB_COL_NAME_LEN];
SDataType dataType;
char comments[TSDB_STB_COMMENT_LEN];
} SColumnDefNode;
typedef struct SCreateTableStmt {
ENodeType type;
char dbName[TSDB_DB_NAME_LEN];
char tableName[TSDB_TABLE_NAME_LEN];
bool ignoreExists;
SNodeList* pCols;
SNodeList* pTags;
STableOptions options;
} SCreateTableStmt;
typedef struct SCreateSubTableClause {
ENodeType type;
char dbName[TSDB_DB_NAME_LEN];
char tableName[TSDB_TABLE_NAME_LEN];
char useDbName[TSDB_DB_NAME_LEN];
char useTableName[TSDB_TABLE_NAME_LEN];
bool ignoreExists;
SNodeList* pSpecificTags;
SNodeList* pValsOfTags;
} SCreateSubTableClause;
typedef struct SCreateMultiTableStmt {
ENodeType type;
SNodeList* pSubTables;
} SCreateMultiTableStmt;
typedef struct SDropTableClause {
ENodeType type;
char dbName[TSDB_DB_NAME_LEN];
char tableName[TSDB_TABLE_NAME_LEN];
bool ignoreNotExists;
} SDropTableClause;
typedef struct SDropTableStmt {
ENodeType type;
SNodeList* pTables;
} SDropTableStmt;
typedef struct SDropSuperTableStmt {
ENodeType type;
char dbName[TSDB_DB_NAME_LEN];
char tableName[TSDB_TABLE_NAME_LEN];
bool ignoreNotExists;
} SDropSuperTableStmt;
typedef struct SCreateUserStmt {
ENodeType type;
char useName[TSDB_USER_LEN];
char password[TSDB_USET_PASSWORD_LEN];
} SCreateUserStmt;
typedef struct SAlterUserStmt {
ENodeType type;
char useName[TSDB_USER_LEN];
char password[TSDB_USET_PASSWORD_LEN];
int8_t alterType;
} SAlterUserStmt;
typedef struct SDropUserStmt {
ENodeType type;
char useName[TSDB_USER_LEN];
} SDropUserStmt;
typedef struct SCreateDnodeStmt {
ENodeType type;
char fqdn[TSDB_FQDN_LEN];
int32_t port;
} SCreateDnodeStmt;
typedef struct SDropDnodeStmt {
ENodeType type;
int32_t dnodeId;
char fqdn[TSDB_FQDN_LEN];
int32_t port;
} SDropDnodeStmt;
typedef struct SShowStmt {
ENodeType type;
char dbName[TSDB_DB_NAME_LEN];
} SShowStmt;
#ifdef __cplusplus
}
#endif
#endif /*_TD_CMD_NODES_H_*/
......@@ -65,24 +65,60 @@ typedef enum ENodeType {
QUERY_NODE_TARGET,
QUERY_NODE_DATABLOCK_DESC,
QUERY_NODE_SLOT_DESC,
QUERY_NODE_COLUMN_DEF,
QUERY_NODE_DOWNSTREAM_SOURCE,
// Statement nodes are used in parser and planner module.
QUERY_NODE_SET_OPERATOR,
QUERY_NODE_SELECT_STMT,
QUERY_NODE_SHOW_STMT,
QUERY_NODE_VNODE_MODIF_STMT,
QUERY_NODE_CREATE_DATABASE_STMT,
QUERY_NODE_DROP_DATABASE_STMT,
QUERY_NODE_SHOW_DATABASES_STMT, // temp
QUERY_NODE_CREATE_TABLE_STMT,
QUERY_NODE_CREATE_SUBTABLE_CLAUSE,
QUERY_NODE_CREATE_MULTI_TABLE_STMT,
QUERY_NODE_DROP_TABLE_CLAUSE,
QUERY_NODE_DROP_TABLE_STMT,
QUERY_NODE_DROP_SUPER_TABLE_STMT,
QUERY_NODE_SHOW_TABLES_STMT, // temp
QUERY_NODE_SHOW_STABLES_STMT,
QUERY_NODE_CREATE_USER_STMT,
QUERY_NODE_ALTER_USER_STMT,
QUERY_NODE_DROP_USER_STMT,
QUERY_NODE_SHOW_USERS_STMT,
QUERY_NODE_USE_DATABASE_STMT,
QUERY_NODE_CREATE_DNODE_STMT,
QUERY_NODE_DROP_DNODE_STMT,
QUERY_NODE_SHOW_DNODES_STMT,
QUERY_NODE_SHOW_VGROUPS_STMT,
QUERY_NODE_SHOW_MNODES_STMT,
// logic plan node
QUERY_NODE_LOGIC_PLAN_SCAN,
QUERY_NODE_LOGIC_PLAN_JOIN,
QUERY_NODE_LOGIC_PLAN_AGG,
QUERY_NODE_LOGIC_PLAN_PROJECT,
QUERY_NODE_LOGIC_PLAN_VNODE_MODIF,
QUERY_NODE_LOGIC_PLAN_EXCHANGE,
QUERY_NODE_LOGIC_SUBPLAN,
QUERY_NODE_LOGIC_PLAN,
// physical plan node
QUERY_NODE_PHYSICAL_PLAN_TAG_SCAN,
QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN,
QUERY_NODE_PHYSICAL_PLAN_TABLE_SEQ_SCAN,
QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN,
QUERY_NODE_PHYSICAL_PLAN_SYSTABLE_SCAN,
QUERY_NODE_PHYSICAL_PLAN_PROJECT,
QUERY_NODE_PHYSICAL_PLAN_JOIN,
QUERY_NODE_PHYSICAL_PLAN_AGG
QUERY_NODE_PHYSICAL_PLAN_AGG,
QUERY_NODE_PHYSICAL_PLAN_EXCHANGE,
QUERY_NODE_PHYSICAL_PLAN_SORT,
QUERY_NODE_PHYSICAL_PLAN_DISPATCH,
QUERY_NODE_PHYSICAL_PLAN_INSERT,
QUERY_NODE_PHYSICAL_SUBPLAN,
QUERY_NODE_PHYSICAL_PLAN
} ENodeType;
/**
......@@ -105,15 +141,20 @@ typedef struct SNodeList {
SListCell* pTail;
} SNodeList;
SNode* nodesMakeNode(ENodeType type);
void nodesDestroyNode(SNode* pNode);
#define SNodeptr void*
SNodeptr nodesMakeNode(ENodeType type);
void nodesDestroyNode(SNodeptr pNode);
SNodeList* nodesMakeList();
int32_t nodesListAppend(SNodeList* pList, SNode* pNode);
int32_t nodesListAppend(SNodeList* pList, SNodeptr pNode);
int32_t nodesListStrictAppend(SNodeList* pList, SNodeptr pNode);
int32_t nodesListAppendList(SNodeList* pTarget, SNodeList* pSrc);
SListCell* nodesListErase(SNodeList* pList, SListCell* pCell);
SNode* nodesListGetNode(SNodeList* pList, int32_t index);
SNodeptr nodesListGetNode(SNodeList* pList, int32_t index);
void nodesDestroyList(SNodeList* pList);
// Only clear the linked list structure, without releasing the elements inside
void nodesClearList(SNodeList* pList);
typedef enum EDealRes {
DEAL_RES_CONTINUE = 1,
......@@ -122,9 +163,9 @@ typedef enum EDealRes {
} EDealRes;
typedef EDealRes (*FNodeWalker)(SNode* pNode, void* pContext);
void nodesWalkNode(SNode* pNode, FNodeWalker walker, void* pContext);
void nodesWalkNode(SNodeptr pNode, FNodeWalker walker, void* pContext);
void nodesWalkList(SNodeList* pList, FNodeWalker walker, void* pContext);
void nodesWalkNodePostOrder(SNode* pNode, FNodeWalker walker, void* pContext);
void nodesWalkNodePostOrder(SNodeptr pNode, FNodeWalker walker, void* pContext);
void nodesWalkListPostOrder(SNodeList* pList, FNodeWalker walker, void* pContext);
typedef EDealRes (*FNodeRewriter)(SNode** pNode, void* pContext);
......@@ -133,12 +174,13 @@ void nodesRewriteList(SNodeList* pList, FNodeRewriter rewriter, void* pContext);
void nodesRewriteNodePostOrder(SNode** pNode, FNodeRewriter rewriter, void* pContext);
void nodesRewriteListPostOrder(SNodeList* pList, FNodeRewriter rewriter, void* pContext);
bool nodesEqualNode(const SNode* a, const SNode* b);
bool nodesEqualNode(const SNodeptr a, const SNodeptr b);
SNode* nodesCloneNode(const SNode* pNode);
SNodeptr nodesCloneNode(const SNodeptr pNode);
SNodeList* nodesCloneList(const SNodeList* pList);
int32_t nodesNodeToString(const SNode* pNode, bool format, char** pStr, int32_t* pLen);
const char* nodesNodeName(ENodeType type);
int32_t nodesNodeToString(const SNodeptr pNode, bool format, char** pStr, int32_t* pLen);
int32_t nodesStringToNode(const char* pStr, SNode** pNode);
#ifdef __cplusplus
......
......@@ -21,7 +21,8 @@ extern "C" {
#endif
#include "querynodes.h"
#include "tmsg.h"
#include "query.h"
#include "tname.h"
typedef struct SLogicNode {
ENodeType type;
......@@ -43,9 +44,11 @@ typedef struct SScanLogicNode {
SLogicNode node;
SNodeList* pScanCols;
struct STableMeta* pMeta;
SVgroupsInfo* pVgroupList;
EScanType scanType;
uint8_t scanFlag; // denotes reversed scan of data or not
STimeWindow scanRange;
SName tableName;
} SScanLogicNode;
typedef struct SJoinLogicNode {
......@@ -65,6 +68,49 @@ typedef struct SProjectLogicNode {
SNodeList* pProjections;
} SProjectLogicNode;
typedef struct SVnodeModifLogicNode {
SLogicNode node;;
int32_t msgType;
SArray* pDataBlocks;
SVgDataBlocks* pVgDataBlocks;
} SVnodeModifLogicNode;
typedef struct SExchangeLogicNode {
SLogicNode node;
int32_t srcGroupId;
} SExchangeLogicNode;
typedef enum ESubplanType {
SUBPLAN_TYPE_MERGE = 1,
SUBPLAN_TYPE_PARTIAL,
SUBPLAN_TYPE_SCAN,
SUBPLAN_TYPE_MODIFY
} ESubplanType;
typedef struct SSubplanId {
uint64_t queryId;
int32_t groupId;
int32_t subplanId;
} SSubplanId;
typedef struct SSubLogicPlan {
ENodeType type;
SSubplanId id;
SNodeList* pChildren;
SNodeList* pParents;
SLogicNode* pNode;
ESubplanType subplanType;
SVgroupsInfo* pVgroupList;
int32_t level;
int32_t splitFlag;
} SSubLogicPlan;
typedef struct SQueryLogicPlan {
ENodeType type;;
int32_t totalLevel;
SNodeList* pTopSubplans;
} SQueryLogicPlan;
typedef struct SSlotDescNode {
ENodeType type;
int16_t slotId;
......@@ -78,11 +124,13 @@ typedef struct SDataBlockDescNode {
ENodeType type;
int16_t dataBlockId;
SNodeList* pSlots;
int32_t resultRowSize;
int16_t precision;
} SDataBlockDescNode;
typedef struct SPhysiNode {
ENodeType type;
SDataBlockDescNode outputDataBlockDesc;
SDataBlockDescNode* pOutputDataBlockDesc;
SNode* pConditions;
SNodeList* pChildren;
struct SPhysiNode* pParent;
......@@ -96,6 +144,7 @@ typedef struct SScanPhysiNode {
int32_t order; // scan order: TSDB_ORDER_ASC|TSDB_ORDER_DESC
int32_t count; // repeat count
int32_t reverse; // reverse scan count
SName tableName;
} SScanPhysiNode;
typedef SScanPhysiNode SSystemTableScanPhysiNode;
......@@ -129,6 +178,56 @@ typedef struct SAggPhysiNode {
SNodeList* pAggFuncs;
} SAggPhysiNode;
typedef struct SDownstreamSourceNode {
ENodeType type;
SQueryNodeAddr addr;
uint64_t taskId;
uint64_t schedId;
} SDownstreamSourceNode;
typedef struct SExchangePhysiNode {
SPhysiNode node;
int32_t srcGroupId; // group id of datasource suplans
SNodeList* pSrcEndPoints; // element is SDownstreamSource, scheduler fill by calling qSetSuplanExecutionNode
} SExchangePhysiNode;
typedef struct SDataSinkNode {
ENodeType type;
SDataBlockDescNode* pInputDataBlockDesc;
} SDataSinkNode;
typedef struct SDataDispatcherNode {
SDataSinkNode sink;
} SDataDispatcherNode;
typedef struct SDataInserterNode {
SDataSinkNode sink;
int32_t numOfTables;
uint32_t size;
char *pData;
} SDataInserterNode;
typedef struct SSubplan {
ENodeType type;
SSubplanId id; // unique id of the subplan
ESubplanType subplanType;
int32_t msgType; // message type for subplan, used to denote the send message type to vnode.
int32_t level; // the execution level of current subplan, starting from 0 in a top-down manner.
SQueryNodeAddr execNode; // for the scan/modify subplan, the optional execution node
SQueryNodeStat execNodeStat; // only for scan subplan
SNodeList* pChildren; // the datasource subplan,from which to fetch the result
SNodeList* pParents; // the data destination subplan, get data from current subplan
SPhysiNode* pNode; // physical plan of current subplan
SDataSinkNode* pDataSink; // data of the subplan flow into the datasink
} SSubplan;
typedef struct SQueryPlan {
ENodeType type;;
uint64_t queryId;
int32_t numOfSubplans;
SNodeList* pSubplans; // Element is SNodeListNode. The execution level of subplan, starting from 0.
} SQueryPlan;
#ifdef __cplusplus
}
#endif
......
......@@ -21,6 +21,7 @@ extern "C" {
#endif
#include "nodes.h"
#include "tmsg.h"
typedef struct SRawExprNode {
ENodeType nodeType;
......@@ -73,6 +74,7 @@ typedef struct SValueNode {
SExprNode node; // QUERY_NODE_VALUE
char* literal;
bool isDuration;
bool translate;
union {
bool b;
int64_t i;
......@@ -122,6 +124,7 @@ struct STableMeta;
typedef struct SRealTableNode {
STableNode table; // QUERY_NODE_REAL_TABLE
struct STableMeta* pMeta;
SVgroupsInfo* pVgroupList;
} SRealTableNode;
typedef struct STempTableNode {
......@@ -248,6 +251,29 @@ typedef enum ESqlClause {
SQL_CLAUSE_ORDER_BY
} ESqlClause;
typedef enum {
PAYLOAD_TYPE_KV = 0,
PAYLOAD_TYPE_RAW = 1,
} EPayloadType;
typedef struct SVgDataBlocks {
SVgroupInfo vg;
int32_t numOfTables; // number of tables in current submit block
uint32_t size;
char *pData; // SMsgDesc + SSubmitReq + SSubmitBlk + ...
} SVgDataBlocks;
typedef struct SVnodeModifOpStmt {
ENodeType nodeType;
ENodeType sqlNodeType;
SArray* pDataBlocks; // data block for each vgroup, SArray<SVgDataBlocks*>.
int8_t schemaAttache; // denote if submit block is built with table schema or not
uint8_t payloadType; // EPayloadType. 0: K-V payload for non-prepare insert, 1: rawPayload for prepare insert
uint32_t insertType; // insert data from [file|sql statement| bound statement]
const char* sql; // current sql statement position
} SVnodeModifOpStmt;
void nodesWalkSelectStmt(SSelectStmt* pSelect, ESqlClause clause, FNodeWalker walker, void* pContext);
void nodesRewriteSelectStmt(SSelectStmt* pSelect, ESqlClause clause, FNodeRewriter rewriter, void* pContext);
......
/*
* 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_PARSENODES_H_
#define _TD_PARSENODES_H_
#ifdef __cplusplus
extern "C" {
#endif
#include "catalog.h"
#include "tcommon.h"
#include "function.h"
#include "tmsgtype.h"
#include "tname.h"
#include "tvariant.h"
/**
* The first field of a node of any type is guaranteed to be the int16_t.
* Hence the type of any node can be gotten by casting it to SQueryNode.
*/
typedef struct SQueryNode {
int16_t type;
} SQueryNode;
#define queryNodeType(nodeptr) (((const SQueryNode*)(nodeptr))->type)
typedef struct SFieldInfo {
int16_t numOfOutput; // number of column in result
SField *final;
SArray *internalField; // SArray<SInternalField>
} SFieldInfo;
typedef struct SCond {
uint64_t uid;
int32_t len; // length of tag query condition data
char * cond;
} SCond;
typedef struct SJoinNode {
uint64_t uid;
int16_t tagColId;
SArray* tsJoin;
SArray* tagJoin;
} SJoinNode;
typedef struct SJoinInfo {
bool hasJoin;
SJoinNode *joinTables[TSDB_MAX_JOIN_TABLE_NUM];
} SJoinInfo;
typedef struct STagCond {
int16_t relType; // relation between tbname list and query condition, including : TK_AND or TK_OR
SCond tbnameCond; // tbname query condition, only support tbname query condition on one table
SJoinInfo joinInfo; // join condition, only support two tables join currently
SArray *pCond; // for different table, the query condition must be seperated
} STagCond;
typedef struct STableMetaInfo {
STableMeta *pTableMeta; // table meta, cached in client side and acquired by name
SVgroupsInfo *vgroupList;
SName name;
char aliasName[TSDB_TABLE_NAME_LEN]; // alias name of table specified in query sql
SArray *tagColList; // SArray<SColumn*>, involved tag columns
} STableMetaInfo;
typedef struct SColumnIndex {
int16_t tableIndex;
int16_t columnIndex;
int16_t type; // normal column/tag/ user input constant column
} SColumnIndex;
// select statement
typedef struct SQueryStmtInfo {
int16_t command; // the command may be different for each subclause, so keep it seperately.
uint32_t type; // query/insert type
STimeWindow window; // the whole query time window
SInterval interval; // tumble time window
SSessionWindow sessionWindow; // session time window
SStateWindow stateWindow; // state window query
SGroupbyExpr groupbyExpr; // groupby tags info
SArray * colList; // SArray<SColumn*>
SFieldInfo fieldsInfo;
SArray** exprList; // SArray<SExprInfo*>
SLimit limit;
SLimit slimit;
STagCond tagCond;
SArray * colCond;
SArray * order;
int16_t numOfTables;
int16_t curTableIdx;
STableMetaInfo **pTableMetaInfo;
struct STSBuf *tsBuf;
int16_t fillType; // final result fill type
int64_t * fillVal; // default value for fill
int32_t numOfFillVal; // fill value size
char * msg; // pointer to the pCmd->payload to keep error message temporarily
int64_t clauseLimit; // limit for current sub clause
int64_t prjOffset; // offset value in the original sql expression, only applied at client side
int64_t vgroupLimit; // table limit in case of super table projection query + global order + limit
int32_t udColumnId; // current user-defined constant output field column id, monotonically decreases from TSDB_UD_COLUMN_INDEX
int32_t bufLen;
char* buf;
SArray *pUdfInfo;
struct SQueryStmtInfo *sibling; // sibling
SMultiFunctionsDesc info;
SArray *pDownstream; // SArray<struct SQueryStmtInfo>
int32_t havingFieldNum;
int32_t exprListLevelIndex;
} SQueryStmtInfo;
typedef enum {
PAYLOAD_TYPE_KV = 0,
PAYLOAD_TYPE_RAW = 1,
} EPayloadType;
typedef struct SVgDataBlocks {
SVgroupInfo vg;
int32_t numOfTables; // number of tables in current submit block
uint32_t size;
char *pData; // SMsgDesc + SSubmitReq + SSubmitBlk + ...
} SVgDataBlocks;
typedef struct SVnodeModifOpStmtInfo {
int16_t nodeType;
SArray* pDataBlocks; // data block for each vgroup, SArray<SVgDataBlocks*>.
int8_t schemaAttache; // denote if submit block is built with table schema or not
uint8_t payloadType; // EPayloadType. 0: K-V payload for non-prepare insert, 1: rawPayload for prepare insert
uint32_t insertType; // insert data from [file|sql statement| bound statement]
const char* sql; // current sql statement position
} SVnodeModifOpStmtInfo;
typedef struct SDclStmtInfo {
int16_t nodeType;
int16_t msgType;
SEpSet epSet;
char* pMsg;
int32_t msgLen;
void* pExtension; // todo remove it soon
} SDclStmtInfo;
#ifdef __cplusplus
}
#endif
#endif /*_TD_PARSENODES_H_*/
......@@ -20,7 +20,7 @@
extern "C" {
#endif
#include "parsenodes.h"
#include "querynodes.h"
typedef struct SParseContext {
uint64_t requestId;
......@@ -32,67 +32,30 @@ typedef struct SParseContext {
size_t sqlLen; // length of the sql string
char *pMsg; // extended error message if exists to help identifying the problem in sql statement.
int32_t msgLen; // max length of the msg
struct SCatalog *pCatalog;
} SParseContext;
/**
* Parse the sql statement and then return the SQueryStmtInfo as the result of bounded AST.
* @param pSql sql string
* @param length length of the sql string
* @param id operator id, generated by uuid generator
* @param msg extended error message if exists.
* @return error code
*/
int32_t qParseQuerySql(SParseContext* pContext, SQueryNode** pQueryNode);
/**
* Return true if it is a ddl/dcl sql statement
* @param pQuery
* @return
*/
bool qIsDdlQuery(const SQueryNode* pQueryNode);
/**
* Destroy logic query plan
* @param pQueryNode
*/
void qDestroyQuery(SQueryNode* pQueryNode);
/**
* Convert a normal sql statement to only query tags information to enable that the subscribe client can be aware quickly of the true vgroup ids that
* involved in the subscribe procedure.
* @param pSql
* @param length
* @param pConvertSql
* @return
*/
int32_t qParserConvertSql(const char* pStr, size_t length, char** pConvertSql);
void assignExprInfo(SExprInfo* dst, const SExprInfo* src);
void columnListCopy(SArray* dst, const SArray* src, uint64_t uid);
void columnListDestroy(SArray* pColumnList);
void dropAllExprInfo(SArray** pExprInfo, int32_t numOfLevel);
void dropOneLevelExprInfo(SArray* pExprInfo);
typedef struct SSourceParam {
SArray *pExprNodeList; //Array<struct tExprNode*>
SArray *pColumnList; //Array<struct SColumn>
int32_t num;
} SSourceParam;
SExprInfo* createExprInfo(STableMetaInfo* pTableMetaInfo, const char* funcName, SSourceParam* pSource, SSchema* pResSchema, int16_t interSize);
int32_t copyExprInfoList(SArray* dst, const SArray* src, uint64_t uid, bool deepcopy);
int32_t copyAllExprInfo(SArray* dst, const SArray* src, bool deepcopy);
int32_t getExprFunctionLevel(const SQueryStmtInfo* pQueryInfo);
STableMetaInfo* getMetaInfo(const SQueryStmtInfo* pQueryInfo, int32_t tableIndex);
SSchema *getOneColumnSchema(const STableMeta* pTableMeta, int32_t colIndex);
int32_t getNewResColId();
void addIntoSourceParam(SSourceParam* pSourceParam, tExprNode* pNode, SColumn* pColumn);
SExprInfo* createBinaryExprInfo(struct tExprNode* pNode, SSchema* pResSchema);
typedef struct SCmdMsgInfo {
int16_t msgType;
SEpSet epSet;
void* pMsg;
int32_t msgLen;
void* pExtension; // todo remove it soon
} SCmdMsgInfo;
typedef struct SQuery {
bool directRpc;
bool haveResultSet;
SNode* pRoot;
int32_t numOfResCols;
SSchema* pResSchema;
SCmdMsgInfo* pCmdMsg;
int32_t msgType;
} SQuery;
int32_t qParseQuerySql(SParseContext* pCxt, SQuery** pQuery);
void qDestroyQuery(SQuery* pQueryNode);
#ifdef __cplusplus
}
......
......@@ -20,192 +20,31 @@
extern "C" {
#endif
#include "query.h"
#include "tmsg.h"
#include "tarray.h"
#include "trpc.h"
#include "plannodes.h"
#define QUERY_TYPE_MERGE 1
#define QUERY_TYPE_PARTIAL 2
#define QUERY_TYPE_SCAN 3
#define QUERY_TYPE_MODIFY 4
enum OPERATOR_TYPE_E {
OP_Unknown,
#define INCLUDE_AS_ENUM
#include "plannerOp.h"
#undef INCLUDE_AS_ENUM
OP_TotalNum
};
enum DATASINK_TYPE_E {
DSINK_Unknown,
DSINK_Dispatch,
DSINK_Insert,
DSINK_TotalNum
};
struct SEpSet;
struct SQueryStmtInfo;
typedef SSchema SSlotSchema;
typedef struct SDataBlockSchema {
SSlotSchema *pSchema;
int32_t numOfCols; // number of columns
int32_t resultRowSize;
int16_t precision;
} SDataBlockSchema;
typedef struct SQueryNodeBasicInfo {
int32_t type; // operator type
const char *name; // operator name
} SQueryNodeBasicInfo;
typedef struct SDataSink {
SQueryNodeBasicInfo info;
SDataBlockSchema schema;
} SDataSink;
typedef struct SDataDispatcher {
SDataSink sink;
} SDataDispatcher;
typedef struct SDataInserter {
SDataSink sink;
int32_t numOfTables;
uint32_t size;
char *pData;
} SDataInserter;
typedef struct SPhyNode {
SQueryNodeBasicInfo info;
SArray *pTargets; // target list to be computed or scanned at this node
SArray *pConditions; // implicitly-ANDed qual conditions
SDataBlockSchema targetSchema;
// children plan to generated result for current node to process
// in case of join, multiple plan nodes exist.
SArray *pChildren;
struct SPhyNode *pParent;
} SPhyNode;
typedef struct SScanPhyNode {
SPhyNode node;
uint64_t uid; // unique id of the table
int8_t tableType;
int32_t order; // scan order: TSDB_ORDER_ASC|TSDB_ORDER_DESC
int32_t count; // repeat count
int32_t reverse; // reverse scan count
} SScanPhyNode;
typedef SScanPhyNode SSystemTableScanPhyNode;
typedef SScanPhyNode STagScanPhyNode;
typedef struct STableScanPhyNode {
SScanPhyNode scan;
uint8_t scanFlag; // denotes reversed scan of data or not
STimeWindow window;
SArray *pTagsConditions; // implicitly-ANDed tag qual conditions
} STableScanPhyNode;
typedef STableScanPhyNode STableSeqScanPhyNode;
typedef struct SProjectPhyNode {
SPhyNode node;
} SProjectPhyNode;
typedef struct SDownstreamSource {
SQueryNodeAddr addr;
uint64_t taskId;
uint64_t schedId;
} SDownstreamSource;
typedef struct SExchangePhyNode {
SPhyNode node;
uint64_t srcTemplateId; // template id of datasource suplans
SArray *pSrcEndPoints; // SArray<SDownstreamSource>, scheduler fill by calling qSetSuplanExecutionNode
} SExchangePhyNode;
typedef enum EAggAlgo {
AGG_ALGO_PLAIN = 1, // simple agg across all input rows
AGG_ALGO_SORTED, // grouped agg, input must be sorted
AGG_ALGO_HASHED // grouped agg, use internal hashtable
} EAggAlgo;
typedef enum EAggSplit {
AGG_SPLIT_PRE = 1, // first level agg, maybe don't need calculate the final result
AGG_SPLIT_FINAL // second level agg, must calculate the final result
} EAggSplit;
typedef struct SAggPhyNode {
SPhyNode node;
EAggAlgo aggAlgo; // algorithm used by agg operator
EAggSplit aggSplit; // distributed splitting mode
SArray *pExprs; // SExprInfo list, these are expression list of group_by_clause and parameter expression of aggregate function
SArray *pGroupByList; // SColIndex list, but these must be column node
} SAggPhyNode;
typedef struct SSubplanId {
typedef struct SPlanContext {
uint64_t queryId;
uint64_t templateId;
uint64_t subplanId;
} SSubplanId;
int32_t acctId;
SNode* pAstRoot;
} SPlanContext;
typedef struct SSubplan {
SSubplanId id; // unique id of the subplan
int32_t type; // QUERY_TYPE_MERGE|QUERY_TYPE_PARTIAL|QUERY_TYPE_SCAN|QUERY_TYPE_MODIFY
int32_t msgType; // message type for subplan, used to denote the send message type to vnode.
int32_t level; // the execution level of current subplan, starting from 0 in a top-down manner.
SQueryNodeAddr execNode; // for the scan/modify subplan, the optional execution node
SArray *pChildren; // the datasource subplan,from which to fetch the result
SArray *pParents; // the data destination subplan, get data from current subplan
SPhyNode *pNode; // physical plan of current subplan
SDataSink *pDataSink; // data of the subplan flow into the datasink
} SSubplan;
typedef struct SQueryDag {
uint64_t queryId;
int32_t numOfSubplans;
SArray *pSubplans; // SArray*<SArray*<SSubplan*>>. The execution level of subplan, starting from 0.
} SQueryDag;
struct SQueryNode;
/**
* Create the physical plan for the query, according to the AST.
* @param pQueryInfo
* @param pDag
* @param requestId
* @return
*/
int32_t qCreateQueryDag(const struct SQueryNode* pNode, struct SQueryDag** pDag, SSchema** pResSchema, int32_t* numOfCols, SArray* pNodeList, uint64_t requestId);
// Create the physical plan for the query, according to the AST.
int32_t qCreateQueryPlan(SPlanContext* pCxt, SQueryPlan** pPlan, SArray* pExecNodeList);
// Set datasource of this subplan, multiple calls may be made to a subplan.
// @subplan subplan to be schedule
// @templateId templateId of a group of datasource subplans of this @subplan
// @ep one execution location of this group of datasource subplans
void qSetSubplanExecutionNode(SSubplan* subplan, uint64_t templateId, SDownstreamSource* pSource);
// @pSubplan subplan to be schedule
// @groupId id of a group of datasource subplans of this @pSubplan
// @pSource one execution location of this group of datasource subplans
int32_t qSetSubplanExecutionNode(SSubplan* pSubplan, int32_t groupId, SDownstreamSourceNode* pSource);
int32_t qExplainQuery(const struct SQueryNode* pQueryInfo, struct SEpSet* pQnode, char** str);
/**
* Convert to subplan to string for the scheduler to send to the executor
*/
int32_t qSubPlanToString(const SSubplan* subplan, char** str, int32_t* len);
// Convert to subplan to string for the scheduler to send to the executor
int32_t qSubPlanToString(const SSubplan* pSubplan, char** pStr, int32_t* pLen);
int32_t qStringToSubplan(const char* pStr, SSubplan** pSubplan);
int32_t qStringToSubplan(const char* str, SSubplan** subplan);
void qDestroySubplan(SSubplan* pSubplan);
/**
* Destroy the physical plan.
* @param pQueryPhyNode
* @return
*/
void qDestroyQueryDag(SQueryDag* pDag);
char* qQueryPlanToString(const SQueryPlan* pPlan);
SQueryPlan* qStringToQueryPlan(const char* pStr);
char* qDagToString(const SQueryDag* pDag);
SQueryDag* qStringToDag(const char* pStr);
void qDestroyQueryPlan(SQueryPlan* pPlan);
#ifdef __cplusplus
}
......
/*
* 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/>.
*/
#if defined(INCLUDE_AS_ENUM) // enum define mode
#undef OP_ENUM_MACRO
#define OP_ENUM_MACRO(op) OP_##op,
#elif defined(INCLUDE_AS_NAME) // comment define mode
#undef OP_ENUM_MACRO
#define OP_ENUM_MACRO(op) #op,
#else
#error To use this include file, first define either INCLUDE_AS_ENUM or INCLUDE_AS_NAME
#endif
OP_ENUM_MACRO(StreamScan)
OP_ENUM_MACRO(TableScan)
OP_ENUM_MACRO(TableSeqScan)
OP_ENUM_MACRO(TagScan)
OP_ENUM_MACRO(SystemTableScan)
OP_ENUM_MACRO(StreamBlockScan)
OP_ENUM_MACRO(Aggregate)
OP_ENUM_MACRO(Project)
// OP_ENUM_MACRO(Groupby)
OP_ENUM_MACRO(Limit)
OP_ENUM_MACRO(SLimit)
OP_ENUM_MACRO(TimeWindow)
OP_ENUM_MACRO(SessionWindow)
OP_ENUM_MACRO(StateWindow)
OP_ENUM_MACRO(Fill)
OP_ENUM_MACRO(MultiTableAggregate)
OP_ENUM_MACRO(MultiTableTimeInterval)
OP_ENUM_MACRO(Filter)
OP_ENUM_MACRO(Distinct)
OP_ENUM_MACRO(Join)
OP_ENUM_MACRO(AllTimeWindow)
OP_ENUM_MACRO(AllMultiTableTimeInterval)
OP_ENUM_MACRO(Order)
OP_ENUM_MACRO(Exchange)
OP_ENUM_MACRO(SortedMerge)
//OP_ENUM_MACRO(TableScan)
......@@ -35,7 +35,6 @@ enum {
JOB_TASK_STATUS_CANCELLING,
JOB_TASK_STATUS_CANCELLED,
JOB_TASK_STATUS_DROPPING,
JOB_TASK_STATUS_FREEING,
};
enum {
......@@ -85,7 +84,8 @@ typedef struct STableMeta {
typedef struct SDBVgInfo {
int32_t vgVersion;
int8_t hashMethod;
SHashObj* vgHash; // key:vgId, value:SVgroupInfo
int32_t numOfTable; // DB's table num, unit is TSDB_TABLE_NUM_UNIT
SHashObj *vgHash; //key:vgId, value:SVgroupInfo
} SDBVgInfo;
typedef struct SUseDbOutput {
......@@ -129,6 +129,11 @@ typedef struct SQueryNodeAddr {
SEpSet epSet;
} SQueryNodeAddr;
typedef struct SQueryNodeStat {
int32_t tableNum; // vg table number, unit is TSDB_TABLE_NUM_UNIT
} SQueryNodeStat;
int32_t initTaskQueue();
int32_t cleanupTaskQueue();
......
......@@ -72,6 +72,8 @@ int32_t qWorkerProcessCancelMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessDropMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessHbMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessShowMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessShowFetchMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
......
......@@ -25,6 +25,7 @@ extern "C" {
typedef struct SSchedulerCfg {
uint32_t maxJobNum;
int32_t maxNodeTableNum;
} SSchedulerCfg;
typedef struct SQueryProfileSummary {
......@@ -70,7 +71,7 @@ int32_t schedulerInit(SSchedulerCfg *cfg);
* @param nodeList Qnode/Vnode address list, element is SQueryNodeAddr
* @return
*/
int32_t schedulerExecJob(void *transport, SArray *nodeList, SQueryDag* pDag, int64_t *pJob, const char* sql, SQueryResult *pRes);
int32_t schedulerExecJob(void *transport, SArray *nodeList, SQueryPlan* pDag, int64_t* pJob, const char* sql, SQueryResult *pRes);
/**
* Process the query job, generated according to the query physical plan.
......@@ -78,7 +79,7 @@ int32_t schedulerExecJob(void *transport, SArray *nodeList, SQueryDag* pDag, int
* @param pNodeList Qnode/Vnode address list, element is SQueryNodeAddr
* @return
*/
int32_t schedulerAsyncExecJob(void *transport, SArray *pNodeList, SQueryDag* pDag, const char* sql, int64_t *pJob);
int32_t schedulerAsyncExecJob(void *transport, SArray *pNodeList, SQueryPlan* pDag, const char* sql, int64_t *pJob);
/**
* Fetch query result from the remote query executor
......@@ -110,7 +111,7 @@ void schedulerDestroy(void);
* @param pTasks SArray**<STaskInfo>
* @return
*/
int32_t schedulerConvertDagToTaskList(SQueryDag* pDag, SArray **pTasks);
int32_t schedulerConvertDagToTaskList(SQueryPlan* pDag, SArray **pTasks);
/**
* make one task info's multiple copies
......
......@@ -47,8 +47,6 @@ typedef struct SRpcMsg {
void * ahandle; // app handle set by client
int persist; // keep handle or not, default 0
SRpcPush *push;
} SRpcMsg;
typedef struct SRpcPush {
......@@ -64,7 +62,6 @@ typedef struct SRpcInit {
int8_t connType; // TAOS_CONN_UDP, TAOS_CONN_TCPC, TAOS_CONN_TCPS
int idleTime; // milliseconds, 0 means idle timer is disabled
bool noPool; // create conn pool or not
// the following is for client app ecurity only
char *user; // user name
char spi; // security parameter index
......@@ -86,7 +83,7 @@ typedef struct SRpcInit {
int32_t rpcInit();
void rpcCleanup();
void *rpcOpen(const SRpcInit *pRpc);
void * rpcOpen(const SRpcInit *pRpc);
void rpcClose(void *);
void * rpcMallocCont(int contLen);
void rpcFreeCont(void *pCont);
......@@ -99,6 +96,9 @@ void rpcSendRecv(void *shandle, SEpSet *pEpSet, SRpcMsg *pReq, SRpcMsg *pRsp)
int rpcReportProgress(void *pConn, char *pCont, int contLen);
void rpcCancelRequest(int64_t rid);
void rpcRefHandle(void *handle, int8_t type);
void rpcUnrefHandle(void *handle, int8_t type);
#ifdef __cplusplus
}
#endif
......
......@@ -22,7 +22,22 @@ extern "C" {
#include <assert.h>
#include <ctype.h>
#if !defined(WINDOWS)
#include <unistd.h>
#include <dirent.h>
#include <regex.h>
#include <sched.h>
#include <wordexp.h>
#include <libgen.h>
#include <sys/utsname.h>
#include <sys/param.h>
#include <sys/mman.h>
#include <sys/prctl.h>
#endif
#include <errno.h>
#include <fcntl.h>
#include <float.h>
......@@ -30,8 +45,6 @@ extern "C" {
#include <limits.h>
#include <locale.h>
#include <math.h>
#include <regex.h>
#include <sched.h>
#include <setjmp.h>
#include <signal.h>
#include <stdarg.h>
......@@ -43,16 +56,9 @@ extern "C" {
#include <string.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/utsname.h>
#include <sys/param.h>
#include <unistd.h>
#include <wchar.h>
#include <wctype.h>
#include <wordexp.h>
#include <libgen.h>
#include <sys/mman.h>
#include <sys/prctl.h>
#include "osAtomic.h"
#include "osDef.h"
......
......@@ -49,7 +49,7 @@ extern "C" {
#endif
#if defined(_TD_WINDOWS_64) || defined(_TD_WINDOWS_32)
#if defined(WINDOWS)
char *stpcpy (char *dest, const char *src);
char *stpncpy (char *dest, const char *src, size_t n);
......@@ -63,16 +63,46 @@ extern "C" {
#define strtok_r strtok_s
#define snprintf _snprintf
#define in_addr_t unsigned long
#define socklen_t int
// #define socklen_t int
struct tm *localtime_r(const time_t *timep, struct tm *result);
char * strptime(const char *buf, const char *fmt, struct tm *tm);
char * strsep(char **stringp, const char *delim);
char * getpass(const char *prefix);
char * strndup(const char *s, size_t n);
#endif
int gettimeofday(struct timeval *ptv, void *pTimeZone);
// for send function in tsocket.c
#define MSG_NOSIGNAL 0
#define SO_NO_CHECK 0x1234
#define SOL_TCP 0x1234
#define SHUT_RDWR SD_BOTH
#define SHUT_RD SD_RECEIVE
#define SHUT_WR SD_SEND
#define LOCK_EX 1
#define LOCK_NB 2
#define LOCK_UN 3
#ifndef PATH_MAX
#define PATH_MAX 256
#endif
typedef struct {
int we_wordc;
char *we_wordv[1];
int we_offs;
char wordPos[1025];
} wordexp_t;
int wordexp(char *words, wordexp_t *pwordexp, int flags);
void wordfree(wordexp_t *pwordexp);
#define openlog(a, b, c)
#define closelog()
#define LOG_ERR 0
#define LOG_INFO 1
void syslog(int unused, const char *format, ...);
#endif // WINDOWS
#ifndef WINDOWS
#ifndef O_BINARY
#define O_BINARY 0
......@@ -166,7 +196,7 @@ extern "C" {
#define PRIzu "zu"
#endif
#if defined(_TD_LINUX_64) || defined(_TD_LINUX_32) || defined(_TD_MIPS_64) || defined(_TD_ARM_32) || defined(_TD_ARM_64) || defined(_TD_DARWIN_64)
#if !defined(WINDOWS)
#if defined(_TD_DARWIN_64)
// MacOS
#if !defined(_GNU_SOURCE)
......@@ -181,8 +211,7 @@ extern "C" {
#endif
#else
// Windows
// #define setThreadName(name)
#define setThreadName(name) do { prctl(PR_SET_NAME, (name)); } while (0)
#define setThreadName(name)
#endif
#if defined(_WIN32)
......@@ -199,4 +228,4 @@ extern "C" {
}
#endif
#endif /*_TD_OS_DEF_H_*/
\ No newline at end of file
#endif /*_TD_OS_DEF_H_*/
......@@ -22,6 +22,15 @@ extern "C" {
#include "osSocket.h"
#if defined(WINDOWS)
typedef int32_t FileFd;
typedef SOCKET SocketFd;
#else
typedef int32_t FileFd;
typedef int32_t SocketFd;
#endif
int64_t taosRead(FileFd fd, void *buf, int64_t count);
// If the error is in a third-party library, place this header file under the third-party library header file.
#ifndef ALLOW_FORBID_FUNC
#define open OPEN_FUNC_TAOS_FORBID
......@@ -76,7 +85,13 @@ int64_t taosReadFile(TdFilePtr pFile, void *buf, int64_t count);
int64_t taosPReadFile(TdFilePtr pFile, void *buf, int64_t count, int64_t offset);
int64_t taosWriteFile(TdFilePtr pFile, const void *buf, int64_t count);
void taosFprintfFile(TdFilePtr pFile, const char *format, ...);
#if defined(WINDOWS)
#define __restrict__
#endif // WINDOWS
int64_t taosGetLineFile(TdFilePtr pFile, char ** __restrict__ ptrBuf);
int32_t taosEOFFile(TdFilePtr pFile);
int64_t taosCloseFile(TdFilePtr *ppFile);
......
......@@ -16,12 +16,13 @@
#ifndef _TD_OS_SEMPHONE_H_
#define _TD_OS_SEMPHONE_H_
#include <semaphore.h>
#ifdef __cplusplus
extern "C" {
#endif
#include <pthread.h>
#include <semaphore.h>
#if defined (_TD_DARWIN_64)
typedef struct tsem_s *tsem_t;
int tsem_init(tsem_t *sem, int pshared, unsigned int value);
......
......@@ -27,7 +27,7 @@
#define epoll_wait EPOLL_WAIT_FUNC_TAOS_FORBID
#endif
#if defined(_TD_WINDOWS_64) || defined(_TD_WINDOWS_32)
#if defined(WINDOWS)
#include "winsock2.h"
#include <WS2tcpip.h>
#include <winbase.h>
......
......@@ -52,6 +52,13 @@ int32_t taosGetSystemUUID(char *uid, int32_t uidlen);
char *taosGetCmdlineByPID(int32_t pid);
void taosSetCoreDump(bool enable);
#if defined(WINDOWS)
#define _UTSNAME_LENGTH 65
#define _UTSNAME_MACHINE_LENGTH _UTSNAME_LENGTH
#endif // WINDOWS
typedef struct {
char sysname[_UTSNAME_MACHINE_LENGTH];
char nodename[_UTSNAME_MACHINE_LENGTH];
......
......@@ -20,7 +20,19 @@
extern "C" {
#endif
// If the error is in a third-party library, place this header file under the third-party library header file.
#ifndef ALLOW_FORBID_FUNC
#define strptime STRPTIME_FUNC_TAOS_FORBID
#define gettimeofday GETTIMEOFDAY_FUNC_TAOS_FORBID
#define localtime_s LOCALTIMES_FUNC_TAOS_FORBID
#define localtime_r LOCALTIMER_FUNC_TAOS_FORBID
#define time TIME_FUNC_TAOS_FORBID
#endif
#if defined(_TD_WINDOWS_64) || defined(_TD_WINDOWS_32)
#define CLOCK_REALTIME 0
#ifdef _TD_GO_DLL_
#define MILLISECOND_PER_SECOND (1000LL)
#else
......@@ -61,6 +73,9 @@ static FORCE_INLINE int64_t taosGetTimestampNs() {
return (int64_t)systemTime.tv_sec * 1000000000L + (int64_t)systemTime.tv_nsec;
}
char *taosStrpTime(const char *buf, const char *fmt, struct tm *tm);
struct tm *taosLocalTime(const time_t *timep, struct tm *result);
#ifdef __cplusplus
}
#endif
......
......@@ -20,6 +20,15 @@
extern "C" {
#endif
// If the error is in a third-party library, place this header file under the third-party library header file.
#ifndef ALLOW_FORBID_FUNC
#define timer_create TIMER_CREATE_FUNC_TAOS_FORBID
#define timer_settime TIMER_SETTIME_FUNC_TAOS_FORBID
#define timer_delete TIMER_DELETE_FUNC_TAOS_FORBID
#define timeSetEvent TIMESETEVENT_SETTIME_FUNC_TAOS_FORBID
#define timeKillEvent TIMEKILLEVENT_SETTIME_FUNC_TAOS_FORBID
#endif
#define MSECONDS_PER_TICK 5
int32_t taosInitTimer(void (*callback)(int32_t), int32_t ms);
......
......@@ -461,6 +461,7 @@ int32_t* taosGetErrno();
#define TSDB_CODE_SCH_INTERNAL_ERROR TAOS_DEF_ERROR_CODE(0, 0x2502)
//parser
#define TSDB_CODE_PAR_SYNTAX_ERROR TAOS_DEF_ERROR_CODE(0, 0x2600)
#define TSDB_CODE_PAR_INVALID_COLUMN TAOS_DEF_ERROR_CODE(0, 0x2601)
#define TSDB_CODE_PAR_TABLE_NOT_EXIST TAOS_DEF_ERROR_CODE(0, 0x2602)
#define TSDB_CODE_PAR_AMBIGUOUS_COLUMN TAOS_DEF_ERROR_CODE(0, 0x2603)
......@@ -473,6 +474,13 @@ int32_t* taosGetErrno();
#define TSDB_CODE_PAR_GROUPBY_LACK_EXPRESSION TAOS_DEF_ERROR_CODE(0, 0x260A)
#define TSDB_CODE_PAR_NOT_SELECTED_EXPRESSION TAOS_DEF_ERROR_CODE(0, 0x260B)
#define TSDB_CODE_PAR_NOT_SINGLE_GROUP TAOS_DEF_ERROR_CODE(0, 0x260C)
#define TSDB_CODE_PAR_TAGS_NOT_MATCHED TAOS_DEF_ERROR_CODE(0, 0x260D)
#define TSDB_CODE_PAR_INVALID_TAG_NAME TAOS_DEF_ERROR_CODE(0, 0x260E)
#define TSDB_CODE_PAR_INCOMPLETE_SQL TAOS_DEF_ERROR_CODE(0, 0x260F)
#define TSDB_CODE_PAR_NAME_OR_PASSWD_TOO_LONG TAOS_DEF_ERROR_CODE(0, 0x2610)
#define TSDB_CODE_PAR_PASSWD_EMPTY TAOS_DEF_ERROR_CODE(0, 0x2611)
#define TSDB_CODE_PAR_INVALID_PORT TAOS_DEF_ERROR_CODE(0, 0x2612)
#define TSDB_CODE_PAR_INVALID_ENDPOINT TAOS_DEF_ERROR_CODE(0, 0x2613)
#ifdef __cplusplus
}
......
......@@ -345,6 +345,20 @@ typedef enum ELogicConditionType {
#define TSDB_MAX_DB_QUORUM_OPTION 2
#define TSDB_DEFAULT_DB_QUORUM_OPTION 1
#define TSDB_MIN_DB_TTL_OPTION 1
#define TSDB_DEFAULT_DB_TTL_OPTION 0
#define TSDB_MIN_DB_SINGLE_STABLE_OPTION 0
#define TSDB_MAX_DB_SINGLE_STABLE_OPTION 1
#define TSDB_DEFAULT_DB_SINGLE_STABLE_OPTION 0
#define TSDB_MIN_DB_STREAM_MODE_OPTION 0
#define TSDB_MAX_DB_STREAM_MODE_OPTION 1
#define TSDB_DEFAULT_DB_STREAM_MODE_OPTION 0
#define TSDB_MAX_JOIN_TABLE_NUM 10
#define TSDB_MAX_UNION_CLAUSE 5
#define TSDB_MIN_DB_UPDATE 0
#define TSDB_MAX_DB_UPDATE 2
#define TSDB_DEFAULT_DB_UPDATE_OPTION 0
......
......@@ -54,10 +54,12 @@ typedef int32_t (*FToJson)(const void* pObj, SJson* pJson);
int32_t tjsonAddObject(SJson* pJson, const char* pName, FToJson func, const void* pObj);
int32_t tjsonAddItem(SJson* pJson, FToJson func, const void* pObj);
int32_t tjsonAddArray(SJson* pJson, const char* pName, FToJson func, const void* pArray, int32_t itemSize, int32_t num);
typedef int32_t (*FToObject)(const SJson* pJson, void* pObj);
int32_t tjsonToObject(const SJson* pJson, const char* pName, FToObject func, void* pObj);
int32_t tjsonToArray(const SJson* pJson, const char* pName, FToObject func, void* pArray, int32_t itemSize);
char* tjsonToString(const SJson* pJson);
char* tjsonToUnformattedString(const SJson* pJson);
......
......@@ -8,7 +8,7 @@ target_include_directories(
target_link_libraries(
taos
INTERFACE api
PRIVATE os util common transport parser planner catalog scheduler function qcom
PRIVATE os util common transport nodes parser planner catalog scheduler function qcom
)
if(${BUILD_TEST})
......
......@@ -163,13 +163,13 @@ typedef struct SShowReqInfo {
} SShowReqInfo;
typedef struct SRequestSendRecvBody {
tsem_t rspSem; // not used now
void* fp;
SShowReqInfo showInfo; // todo this attribute will be removed after the query framework being completed.
SDataBuf requestMsg;
int64_t queryJob; // query job, created according to sql query DAG.
struct SQueryDag* pDag; // the query dag, generated according to the sql statement.
SReqResultInfo resInfo;
tsem_t rspSem; // not used now
void* fp;
SShowReqInfo showInfo; // todo this attribute will be removed after the query framework being completed.
SDataBuf requestMsg;
int64_t queryJob; // query job, created according to sql query DAG.
struct SQueryPlan* pDag; // the query dag, generated according to the sql statement.
SReqResultInfo resInfo;
} SRequestSendRecvBody;
#define ERROR_MSG_BUF_DEFAULT_SIZE 512
......@@ -228,7 +228,7 @@ void setResultDataPtr(SReqResultInfo* pResultInfo, TAOS_FIELD* pFields, int32_t
int32_t buildRequest(STscObj* pTscObj, const char* sql, int sqlLen, SRequestObj** pRequest);
int32_t parseSql(SRequestObj* pRequest, SQueryNode** pQuery);
int32_t parseSql(SRequestObj* pRequest, SQuery** pQuery);
// --- heartbeat
// global, called by mgmt
......
......@@ -72,8 +72,6 @@ static void deregisterRequest(SRequestObj *pRequest) {
taosReleaseRef(clientConnRefPool, pTscObj->id);
}
// todo close the transporter properly
void closeTransporter(STscObj *pTscObj) {
if (pTscObj == NULL || pTscObj->pAppInfo->pTransporter == NULL) {
......@@ -184,7 +182,7 @@ static void doDestroyRequest(void *p) {
tfree(pRequest->pInfo);
doFreeReqResultInfo(&pRequest->body.resInfo);
qDestroyQueryDag(pRequest->body.pDag);
qDestroyQueryPlan(pRequest->body.pDag);
if (pRequest->body.showInfo.pArray != NULL) {
taosArrayDestroy(pRequest->body.showInfo.pArray);
......@@ -241,6 +239,7 @@ void taos_init_imp(void) {
clientConnRefPool = taosOpenRef(200, destroyTscObj);
clientReqRefPool = taosOpenRef(40960, doDestroyRequest);
// transDestroyBuffer(&conn->readBuf);
taosGetAppName(appInfo.appName, NULL);
pthread_mutex_init(&appInfo.mutex, NULL);
......
......@@ -224,6 +224,7 @@ int32_t hbGetExpiredDBInfo(SClientHbKey *connKey, struct SCatalog *pCatalog, SCl
SDbVgVersion *db = &dbs[i];
db->dbId = htobe64(db->dbId);
db->vgVersion = htonl(db->vgVersion);
db->numOfTable = htonl(db->numOfTable);
}
SKv kv = {
......@@ -434,11 +435,11 @@ static int32_t hbCreateThread() {
pthread_attr_init(&thAttr);
pthread_attr_setdetachstate(&thAttr, PTHREAD_CREATE_JOINABLE);
if (pthread_create(&clientHbMgr.thread, &thAttr, hbThreadFunc, NULL) != 0) {
terrno = TAOS_SYSTEM_ERROR(errno);
return -1;
}
pthread_attr_destroy(&thAttr);
// if (pthread_create(&clientHbMgr.thread, &thAttr, hbThreadFunc, NULL) != 0) {
// terrno = TAOS_SYSTEM_ERROR(errno);
// return -1;
// }
// pthread_attr_destroy(&thAttr);
return 0;
}
......
......@@ -139,7 +139,7 @@ int32_t buildRequest(STscObj* pTscObj, const char* sql, int sqlLen, SRequestObj*
return TSDB_CODE_SUCCESS;
}
int32_t parseSql(SRequestObj* pRequest, SQueryNode** pQuery) {
int32_t parseSql(SRequestObj* pRequest, SQuery** pQuery) {
STscObj* pTscObj = pRequest->pTscObj;
SParseContext cxt = {
......@@ -161,53 +161,44 @@ int32_t parseSql(SRequestObj* pRequest, SQueryNode** pQuery) {
}
code = qParseQuerySql(&cxt, pQuery);
if (TSDB_CODE_SUCCESS == code && ((*pQuery)->haveResultSet)) {
setResSchemaInfo(&pRequest->body.resInfo, (*pQuery)->pResSchema, (*pQuery)->numOfResCols);
}
tfree(cxt.db);
return code;
}
int32_t execDdlQuery(SRequestObj* pRequest, SQueryNode* pQuery) {
SDclStmtInfo* pDcl = (SDclStmtInfo*)pQuery;
pRequest->type = pDcl->msgType;
pRequest->body.requestMsg = (SDataBuf){.pData = pDcl->pMsg, .len = pDcl->msgLen, .handle = NULL};
int32_t execDdlQuery(SRequestObj* pRequest, SQuery* pQuery) {
SCmdMsgInfo* pMsgInfo = pQuery->pCmdMsg;
pRequest->type = pMsgInfo->msgType;
pRequest->body.requestMsg = (SDataBuf){.pData = pMsgInfo->pMsg, .len = pMsgInfo->msgLen, .handle = NULL};
pMsgInfo->pMsg = NULL; // pMsg transferred to SMsgSendInfo management
STscObj* pTscObj = pRequest->pTscObj;
SMsgSendInfo* pSendMsg = buildMsgInfoImpl(pRequest);
int64_t transporterId = 0;
if (pDcl->msgType == TDMT_VND_CREATE_TABLE || pDcl->msgType == TDMT_VND_SHOW_TABLES) {
if (pDcl->msgType == TDMT_VND_SHOW_TABLES) {
SShowReqInfo* pShowReqInfo = &pRequest->body.showInfo;
if (pShowReqInfo->pArray == NULL) {
pShowReqInfo->currentIndex = 0; // set the first vnode/ then iterate the next vnode
pShowReqInfo->pArray = pDcl->pExtension;
}
if (pMsgInfo->msgType == TDMT_VND_SHOW_TABLES) {
SShowReqInfo* pShowReqInfo = &pRequest->body.showInfo;
if (pShowReqInfo->pArray == NULL) {
pShowReqInfo->currentIndex = 0; // set the first vnode/ then iterate the next vnode
pShowReqInfo->pArray = pMsgInfo->pExtension;
}
asyncSendMsgToServer(pTscObj->pAppInfo->pTransporter, &pDcl->epSet, &transporterId, pSendMsg);
} else {
asyncSendMsgToServer(pTscObj->pAppInfo->pTransporter, &pDcl->epSet, &transporterId, pSendMsg);
}
int64_t transporterId = 0;
asyncSendMsgToServer(pTscObj->pAppInfo->pTransporter, &pMsgInfo->epSet, &transporterId, pSendMsg);
tsem_wait(&pRequest->body.rspSem);
return TSDB_CODE_SUCCESS;
}
int32_t getPlan(SRequestObj* pRequest, SQueryNode* pQueryNode, SQueryDag** pDag, SArray* pNodeList) {
pRequest->type = pQueryNode->type;
SSchema* pSchema = NULL;
int32_t numOfCols = 0;
int32_t code = qCreateQueryDag(pQueryNode, pDag, &pSchema, &numOfCols, pNodeList, pRequest->requestId);
int32_t getPlan(SRequestObj* pRequest, SQuery* pQuery, SQueryPlan** pPlan, SArray* pNodeList) {
pRequest->type = pQuery->msgType;
SPlanContext cxt = { .queryId = pRequest->requestId, .pAstRoot = pQuery->pRoot, .acctId = pRequest->pTscObj->acctId };
int32_t code = qCreateQueryPlan(&cxt, pPlan, pNodeList);
if (code != 0) {
return code;
}
if (pQueryNode->type == TSDB_SQL_SELECT) {
setResSchemaInfo(&pRequest->body.resInfo, pSchema, numOfCols);
pRequest->type = TDMT_VND_QUERY;
}
tfree(pSchema);
return code;
}
......@@ -224,8 +215,10 @@ void setResSchemaInfo(SReqResultInfo* pResInfo, const SSchema* pSchema, int32_t
}
}
int32_t scheduleQuery(SRequestObj* pRequest, SQueryDag* pDag, SArray* pNodeList) {
int32_t scheduleQuery(SRequestObj* pRequest, SQueryPlan* pDag, SArray* pNodeList) {
void* pTransporter = pRequest->pTscObj->pAppInfo->pTransporter;
SQueryResult res = {.code = 0, .numOfRows = 0, .msgSize = ERROR_MSG_BUF_DEFAULT_SIZE, .msg = pRequest->msgBuf};
int32_t code = schedulerExecJob(pTransporter, pNodeList, pDag, &pRequest->body.queryJob, pRequest->sqlstr, &res);
if (code != TSDB_CODE_SUCCESS) {
......@@ -237,14 +230,14 @@ int32_t scheduleQuery(SRequestObj* pRequest, SQueryDag* pDag, SArray* pNodeList)
return pRequest->code;
}
if (TSDB_SQL_INSERT == pRequest->type || TSDB_SQL_CREATE_TABLE == pRequest->type) {
if (TDMT_VND_SUBMIT == pRequest->type || TDMT_VND_CREATE_TABLE == pRequest->type) {
pRequest->body.resInfo.numOfRows = res.numOfRows;
if (pRequest->body.queryJob != 0) {
schedulerFreeJob(pRequest->body.queryJob);
}
}
pRequest->code = res.code;
return pRequest->code;
}
......@@ -258,24 +251,24 @@ TAOS_RES* taos_query_l(TAOS* taos, const char* sql, int sqlLen) {
}
SRequestObj* pRequest = NULL;
SQueryNode* pQueryNode = NULL;
SArray* pNodeList = taosArrayInit(4, sizeof(struct SQueryNodeAddr));
SQuery* pQuery = NULL;
SArray* pNodeList = taosArrayInit(4, sizeof(struct SQueryNodeAddr));
terrno = TSDB_CODE_SUCCESS;
CHECK_CODE_GOTO(buildRequest(pTscObj, sql, sqlLen, &pRequest), _return);
CHECK_CODE_GOTO(parseSql(pRequest, &pQueryNode), _return);
CHECK_CODE_GOTO(parseSql(pRequest, &pQuery), _return);
if (qIsDdlQuery(pQueryNode)) {
CHECK_CODE_GOTO(execDdlQuery(pRequest, pQueryNode), _return);
if (pQuery->directRpc) {
CHECK_CODE_GOTO(execDdlQuery(pRequest, pQuery), _return);
} else {
CHECK_CODE_GOTO(getPlan(pRequest, pQueryNode, &pRequest->body.pDag, pNodeList), _return);
CHECK_CODE_GOTO(getPlan(pRequest, pQuery, &pRequest->body.pDag, pNodeList), _return);
CHECK_CODE_GOTO(scheduleQuery(pRequest, pRequest->body.pDag, pNodeList), _return);
pRequest->code = terrno;
}
_return:
taosArrayDestroy(pNodeList);
qDestroyQuery(pQueryNode);
qDestroyQuery(pQuery);
if (NULL != pRequest && TSDB_CODE_SUCCESS != terrno) {
pRequest->code = terrno;
}
......
......@@ -459,7 +459,7 @@ void tmq_conf_set_offset_commit_cb(tmq_conf_t* conf, tmq_commit_cb* cb) { conf->
TAOS_RES* tmq_create_topic(TAOS* taos, const char* topicName, const char* sql, int sqlLen) {
STscObj* pTscObj = (STscObj*)taos;
SRequestObj* pRequest = NULL;
SQueryNode* pQueryNode = NULL;
SQuery* pQueryNode = NULL;
char* pStr = NULL;
terrno = TSDB_CODE_SUCCESS;
......@@ -482,7 +482,7 @@ TAOS_RES* tmq_create_topic(TAOS* taos, const char* topicName, const char* sql, i
}
tscDebug("start to create topic, %s", topicName);
#if 0
CHECK_CODE_GOTO(buildRequest(pTscObj, sql, sqlLen, &pRequest), _return);
CHECK_CODE_GOTO(parseSql(pRequest, &pQueryNode), _return);
......@@ -538,7 +538,7 @@ TAOS_RES* tmq_create_topic(TAOS* taos, const char* topicName, const char* sql, i
asyncSendMsgToServer(pTscObj->pAppInfo->pTransporter, &epSet, &transporterId, sendInfo);
tsem_wait(&pRequest->body.rspSem);
#endif
_return:
qDestroyQuery(pQueryNode);
/*if (sendInfo != NULL) {*/
......
......@@ -53,7 +53,6 @@ TEST(testCase, driverInit_Test) {
// taos_init();
}
#if 1
TEST(testCase, connect_Test) {
// taos_options(TSDB_OPTION_CONFIGDIR, "/home/ubuntu/first/cfg");
......@@ -564,20 +563,18 @@ TEST(testCase, insert_test) {
taos_free_result(pRes);
taos_close(pConn);
}
#endif
TEST(testCase, projection_query_tables) {
TAOS* pConn = taos_connect("localhost", "root", "taosdata", NULL, 0);
ASSERT_NE(pConn, nullptr);
TAOS_RES* pRes = taos_query(pConn, "create database if not exists abc1 vgroups 2");
if (taos_errno(pRes) != 0) {
printf("error in create db, reason:%s\n", taos_errstr(pRes));
}
taos_free_result(pRes);
// TAOS_RES* pRes = taos_query(pConn, "create database if not exists abc1 vgroups 2");
// if (taos_errno(pRes) != 0) {
// printf("error in create db, reason:%s\n", taos_errstr(pRes));
// }
// taos_free_result(pRes);
pRes = taos_query(pConn, "use abc1");
TAOS_RES* pRes = taos_query(pConn, "use abc1");
taos_free_result(pRes);
pRes = taos_query(pConn, "create stable st1 (ts timestamp, k int) tags(a int)");
......@@ -592,7 +589,7 @@ TEST(testCase, projection_query_tables) {
}
taos_free_result(pRes);
for(int32_t i = 0; i < 10000000; ++i) {
for(int32_t i = 0; i < 10000; ++i) {
char sql[512] = {0};
sprintf(sql, "insert into tu values(now+%da, %d)", i, i);
TAOS_RES* p = taos_query(pConn, sql);
......@@ -623,7 +620,6 @@ TEST(testCase, projection_query_tables) {
taos_free_result(pRes);
taos_close(pConn);
}
#if 0
TEST(testCase, projection_query_stables) {
TAOS* pConn = taos_connect("localhost", "root", "taosdata", NULL, 0);
......@@ -686,6 +682,5 @@ TEST(testCase, agg_query_tables) {
taos_free_result(pRes);
taos_close(pConn);
}
#endif
#pragma GCC diagnostic pop
......@@ -4,6 +4,10 @@ target_include_directories(
common
PUBLIC "${CMAKE_SOURCE_DIR}/include/common"
PRIVATE "${CMAKE_CURRENT_SOURCE_DIR}/inc"
IF(${TD_WINDOWS})
PRIVATE "${CMAKE_SOURCE_DIR}/contrib/pthread-win32"
PRIVATE "${CMAKE_SOURCE_DIR}/contrib/gnuregex"
ENDIF ()
)
target_link_libraries(
common
......
......@@ -239,7 +239,7 @@ int32_t colDataMergeCol(SColumnInfoData* pColumnInfoData, uint32_t numOfRow1, co
return numOfRow1 + numOfRow2;
}
size_t colDataGetNumOfCols(const SSDataBlock* pBlock) {
size_t blockDataGetNumOfCols(const SSDataBlock* pBlock) {
ASSERT(pBlock);
size_t constantCols = (pBlock->pConstantList != NULL)? taosArrayGetSize(pBlock->pConstantList):0;
......@@ -247,7 +247,7 @@ size_t colDataGetNumOfCols(const SSDataBlock* pBlock) {
return pBlock->info.numOfCols;
}
size_t colDataGetNumOfRows(const SSDataBlock* pBlock) {
size_t blockDataGetNumOfRows(const SSDataBlock* pBlock) {
return pBlock->info.rows;
}
......
......@@ -1007,11 +1007,32 @@ int32_t tDeserializeSMCreateDropQSBNodeReq(void *buf, int32_t bufLen, SMCreateQn
}
int32_t tSerializeSDropDnodeReq(void *buf, int32_t bufLen, SDropDnodeReq *pReq) {
return tSerializeSMCreateDropQSBNodeReq(buf, bufLen, (SMCreateQnodeReq *)pReq);
SCoder encoder = {0};
tCoderInit(&encoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_ENCODER);
if (tStartEncode(&encoder) < 0) return -1;
if (tEncodeI32(&encoder, pReq->dnodeId) < 0) return -1;
if (tEncodeCStr(&encoder, pReq->fqdn) < 0) return -1;
if (tEncodeI32(&encoder, pReq->port) < 0) return -1;
tEndEncode(&encoder);
int32_t tlen = encoder.pos;
tCoderClear(&encoder);
return tlen;
}
int32_t tDeserializeSDropDnodeReq(void *buf, int32_t bufLen, SDropDnodeReq *pReq) {
return tDeserializeSMCreateDropQSBNodeReq(buf, bufLen, (SMCreateQnodeReq *)pReq);
SCoder decoder = {0};
tCoderInit(&decoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_DECODER);
if (tStartDecode(&decoder) < 0) return -1;
if (tDecodeI32(&decoder, &pReq->dnodeId) < 0) return -1;
if (tDecodeCStrTo(&decoder, pReq->fqdn) < 0) return -1;
if (tDecodeI32(&decoder, &pReq->port) < 0) return -1;
tEndDecode(&decoder);
tCoderClear(&decoder);
return 0;
}
int32_t tSerializeSMCreateDropMnodeReq(void *buf, int32_t bufLen, SMCreateMnodeReq *pReq) {
......@@ -1423,6 +1444,7 @@ int32_t tSerializeSUseDbReq(void *buf, int32_t bufLen, SUseDbReq *pReq) {
if (tEncodeCStr(&encoder, pReq->db) < 0) return -1;
if (tEncodeI64(&encoder, pReq->dbId) < 0) return -1;
if (tEncodeI32(&encoder, pReq->vgVersion) < 0) return -1;
if (tEncodeI32(&encoder, pReq->numOfTable) < 0) return -1;
tEndEncode(&encoder);
int32_t tlen = encoder.pos;
......@@ -1438,12 +1460,77 @@ int32_t tDeserializeSUseDbReq(void *buf, int32_t bufLen, SUseDbReq *pReq) {
if (tDecodeCStrTo(&decoder, pReq->db) < 0) return -1;
if (tDecodeI64(&decoder, &pReq->dbId) < 0) return -1;
if (tDecodeI32(&decoder, &pReq->vgVersion) < 0) return -1;
if (tDecodeI32(&decoder, &pReq->numOfTable) < 0) return -1;
tEndDecode(&decoder);
tCoderClear(&decoder);
return 0;
}
int32_t tSerializeSQnodeListReq(void* buf, int32_t bufLen, SQnodeListReq* pReq) {
SCoder encoder = {0};
tCoderInit(&encoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_ENCODER);
if (tStartEncode(&encoder) < 0) return -1;
if (tEncodeI32(&encoder, pReq->rowNum) < 0) return -1;
tEndEncode(&encoder);
int32_t tlen = encoder.pos;
tCoderClear(&encoder);
return tlen;
}
int32_t tDeserializeSQnodeListReq(void *buf, int32_t bufLen, SQnodeListReq *pReq) {
SCoder decoder = {0};
tCoderInit(&decoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_DECODER);
if (tStartDecode(&decoder) < 0) return -1;
if (tDecodeI32(&decoder, &pReq->rowNum) < 0) return -1;
tEndDecode(&decoder);
tCoderClear(&decoder);
return 0;
}
int32_t tSerializeSQnodeListRsp(void *buf, int32_t bufLen, SQnodeListRsp *pRsp) {
SCoder encoder = {0};
tCoderInit(&encoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_ENCODER);
if (tStartEncode(&encoder) < 0) return -1;
int32_t num = taosArrayGetSize(pRsp->epSetList);
if (tEncodeI32(&encoder, num) < 0) return -1;
for (int32_t i = 0; i < num; ++i) {
SEpSet *epSet = taosArrayGet(pRsp->epSetList, i);
if (tEncodeSEpSet(&encoder, epSet) < 0) return -1;
}
tEndEncode(&encoder);
int32_t tlen = encoder.pos;
tCoderClear(&encoder);
return tlen;
}
int32_t tDeserializeSQnodeListRsp(void *buf, int32_t bufLen, SQnodeListRsp *pRsp) {
SCoder decoder = {0};
tCoderInit(&decoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_DECODER);
if (tStartDecode(&decoder) < 0) return -1;
int32_t num = 0;
if (tDecodeI32(&decoder, &num) < 0) return -1;
pRsp->epSetList = taosArrayInit(num, sizeof(SEpSet));
if (NULL == pRsp->epSetList) return -1;
for (int32_t i = 0; i < num; ++i) {
if (tDecodeSEpSet(&decoder, TARRAY_GET_ELEM(pRsp->epSetList, i)) < 0) return -1;
}
tEndDecode(&decoder);
tCoderClear(&decoder);
return 0;
}
void tFreeSQnodeListRsp(SQnodeListRsp *pRsp) { taosArrayDestroy(pRsp->epSetList); }
int32_t tSerializeSSyncDbReq(void *buf, int32_t bufLen, SSyncDbReq *pReq) {
SCoder encoder = {0};
tCoderInit(&encoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_ENCODER);
......@@ -1482,6 +1569,7 @@ static int32_t tSerializeSUseDbRspImp(SCoder *pEncoder, SUseDbRsp *pRsp) {
if (tEncodeU32(pEncoder, pVgInfo->hashBegin) < 0) return -1;
if (tEncodeU32(pEncoder, pVgInfo->hashEnd) < 0) return -1;
if (tEncodeSEpSet(pEncoder, &pVgInfo->epSet) < 0) return -1;
if (tEncodeI32(pEncoder, pVgInfo->numOfTable) < 0) return -1;
}
return 0;
......@@ -1542,6 +1630,7 @@ int32_t tDeserializeSUseDbRspImp(SCoder *pDecoder, SUseDbRsp *pRsp) {
if (tDecodeU32(pDecoder, &vgInfo.hashBegin) < 0) return -1;
if (tDecodeU32(pDecoder, &vgInfo.hashEnd) < 0) return -1;
if (tDecodeSEpSet(pDecoder, &vgInfo.epSet) < 0) return -1;
if (tDecodeI32(pDecoder, &vgInfo.numOfTable) < 0) return -1;
taosArrayPush(pRsp->pVgroupInfos, &vgInfo);
}
......@@ -2391,6 +2480,149 @@ int32_t tDecodeSMqCMCommitOffsetReq(SCoder *decoder, SMqCMCommitOffsetReq *pReq)
return 0;
}
int32_t tSerializeSSchedulerHbReq(void *buf, int32_t bufLen, SSchedulerHbReq *pReq) {
int32_t headLen = sizeof(SMsgHead);
if (buf != NULL) {
buf = (char *)buf + headLen;
bufLen -= headLen;
}
SCoder encoder = {0};
tCoderInit(&encoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_ENCODER);
if (tStartEncode(&encoder) < 0) return -1;
if (tEncodeU64(&encoder, pReq->sId) < 0) return -1;
if (tEncodeI32(&encoder, pReq->epId.nodeId) < 0) return -1;
if (tEncodeU16(&encoder, pReq->epId.ep.port) < 0) return -1;
if (tEncodeCStr(&encoder, pReq->epId.ep.fqdn) < 0) return -1;
if (pReq->taskAction) {
int32_t num = taosArrayGetSize(pReq->taskAction);
if (tEncodeI32(&encoder, num) < 0) return -1;
for (int32_t i = 0; i < num; ++i) {
STaskAction *action = taosArrayGet(pReq->taskAction, i);
if (tEncodeU64(&encoder, action->queryId) < 0) return -1;
if (tEncodeU64(&encoder, action->taskId) < 0) return -1;
if (tEncodeI8(&encoder, action->action) < 0) return -1;
}
} else {
if (tEncodeI32(&encoder, 0) < 0) return -1;
}
tEndEncode(&encoder);
int32_t tlen = encoder.pos;
tCoderClear(&encoder);
if (buf != NULL) {
SMsgHead *pHead = (SMsgHead *)((char *)buf - headLen);
pHead->vgId = htonl(pReq->header.vgId);
pHead->contLen = htonl(tlen + headLen);
}
return tlen + headLen;
}
int32_t tDeserializeSSchedulerHbReq(void *buf, int32_t bufLen, SSchedulerHbReq *pReq) {
int32_t headLen = sizeof(SMsgHead);
SMsgHead *pHead = buf;
pHead->vgId = pReq->header.vgId;
pHead->contLen = pReq->header.contLen;
SCoder decoder = {0};
tCoderInit(&decoder, TD_LITTLE_ENDIAN, (char *)buf + headLen, bufLen - headLen, TD_DECODER);
if (tStartDecode(&decoder) < 0) return -1;
if (tDecodeU64(&decoder, &pReq->sId) < 0) return -1;
if (tDecodeI32(&decoder, &pReq->epId.nodeId) < 0) return -1;
if (tDecodeU16(&decoder, &pReq->epId.ep.port) < 0) return -1;
if (tDecodeCStrTo(&decoder, pReq->epId.ep.fqdn) < 0) return -1;
int32_t num = 0;
if (tDecodeI32(&decoder, &num) < 0) return -1;
if (num > 0) {
pReq->taskAction = taosArrayInit(num, sizeof(STaskStatus));
if (NULL == pReq->taskAction) return -1;
for (int32_t i = 0; i < num; ++i) {
STaskAction action = {0};
if (tDecodeU64(&decoder, &action.queryId) < 0) return -1;
if (tDecodeU64(&decoder, &action.taskId) < 0) return -1;
if (tDecodeI8(&decoder, &action.action) < 0) return -1;
taosArrayPush(pReq->taskAction, &action);
}
} else {
pReq->taskAction = NULL;
}
tEndDecode(&decoder);
tCoderClear(&decoder);
return 0;
}
void tFreeSSchedulerHbReq(SSchedulerHbReq *pReq) { taosArrayDestroy(pReq->taskAction); }
int32_t tSerializeSSchedulerHbRsp(void *buf, int32_t bufLen, SSchedulerHbRsp *pRsp) {
SCoder encoder = {0};
tCoderInit(&encoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_ENCODER);
if (tStartEncode(&encoder) < 0) return -1;
if (tEncodeU64(&encoder, pRsp->seqId) < 0) return -1;
if (tEncodeI32(&encoder, pRsp->epId.nodeId) < 0) return -1;
if (tEncodeU16(&encoder, pRsp->epId.ep.port) < 0) return -1;
if (tEncodeCStr(&encoder, pRsp->epId.ep.fqdn) < 0) return -1;
if (pRsp->taskStatus) {
int32_t num = taosArrayGetSize(pRsp->taskStatus);
if (tEncodeI32(&encoder, num) < 0) return -1;
for (int32_t i = 0; i < num; ++i) {
STaskStatus *status = taosArrayGet(pRsp->taskStatus, i);
if (tEncodeU64(&encoder, status->queryId) < 0) return -1;
if (tEncodeU64(&encoder, status->taskId) < 0) return -1;
if (tEncodeI64(&encoder, status->refId) < 0) return -1;
if (tEncodeI8(&encoder, status->status) < 0) return -1;
}
} else {
if (tEncodeI32(&encoder, 0) < 0) return -1;
}
tEndEncode(&encoder);
int32_t tlen = encoder.pos;
tCoderClear(&encoder);
return tlen;
}
int32_t tDeserializeSSchedulerHbRsp(void *buf, int32_t bufLen, SSchedulerHbRsp *pRsp) {
SCoder decoder = {0};
tCoderInit(&decoder, TD_LITTLE_ENDIAN, buf, bufLen, TD_DECODER);
if (tStartDecode(&decoder) < 0) return -1;
if (tDecodeU64(&decoder, &pRsp->seqId) < 0) return -1;
if (tDecodeI32(&decoder, &pRsp->epId.nodeId) < 0) return -1;
if (tDecodeU16(&decoder, &pRsp->epId.ep.port) < 0) return -1;
if (tDecodeCStrTo(&decoder, pRsp->epId.ep.fqdn) < 0) return -1;
int32_t num = 0;
if (tDecodeI32(&decoder, &num) < 0) return -1;
if (num > 0) {
pRsp->taskStatus = taosArrayInit(num, sizeof(STaskStatus));
if (NULL == pRsp->taskStatus) return -1;
for (int32_t i = 0; i < num; ++i) {
STaskStatus status = {0};
if (tDecodeU64(&decoder, &status.queryId) < 0) return -1;
if (tDecodeU64(&decoder, &status.taskId) < 0) return -1;
if (tDecodeI64(&decoder, &status.refId) < 0) return -1;
if (tDecodeI8(&decoder, &status.status) < 0) return -1;
taosArrayPush(pRsp->taskStatus, &status);
}
} else {
pRsp->taskStatus = NULL;
}
tEndDecode(&decoder);
tCoderClear(&decoder);
return 0;
}
void tFreeSSchedulerHbRsp(SSchedulerHbRsp *pRsp) { taosArrayDestroy(pRsp->taskStatus); }
int32_t tSerializeSVCreateTSmaReq(void **buf, SVCreateTSmaReq *pReq) {
int32_t tlen = 0;
......
......@@ -61,7 +61,7 @@ int64_t taosGetIntervalStartTimestamp(int64_t startTime, int64_t slidingTime, in
}
struct tm tm;
time_t t = (time_t)start;
localtime_r(&t, &tm);
taosLocalTime(&t, &tm);
tm.tm_sec = 0;
tm.tm_min = 0;
tm.tm_hour = 0;
......
......@@ -69,7 +69,7 @@ static int64_t m_deltaUtc = 0;
void deltaToUtcInitOnce() {
struct tm tm = {0};
(void)strptime("1970-01-01 00:00:00", (const char*)("%Y-%m-%d %H:%M:%S"), &tm);
(void)taosStrpTime("1970-01-01 00:00:00", (const char*)("%Y-%m-%d %H:%M:%S"), &tm);
m_deltaUtc = (int64_t)mktime(&tm);
// printf("====delta:%lld\n\n", seconds);
}
......@@ -236,9 +236,9 @@ int32_t parseTimeWithTz(const char* timestr, int64_t* time, int32_t timePrec, ch
char* str;
if (delim == 'T') {
str = strptime(timestr, "%Y-%m-%dT%H:%M:%S", &tm);
str = taosStrpTime(timestr, "%Y-%m-%dT%H:%M:%S", &tm);
} else if (delim == 0) {
str = strptime(timestr, "%Y-%m-%d %H:%M:%S", &tm);
str = taosStrpTime(timestr, "%Y-%m-%d %H:%M:%S", &tm);
} else {
str = NULL;
}
......@@ -303,7 +303,7 @@ int32_t parseLocaltime(char* timestr, int64_t* time, int32_t timePrec) {
*time = 0;
struct tm tm = {0};
char* str = strptime(timestr, "%Y-%m-%d %H:%M:%S", &tm);
char* str = taosStrpTime(timestr, "%Y-%m-%d %H:%M:%S", &tm);
if (str == NULL) {
return -1;
}
......@@ -338,7 +338,7 @@ int32_t parseLocaltimeDst(char* timestr, int64_t* time, int32_t timePrec) {
struct tm tm = {0};
tm.tm_isdst = -1;
char* str = strptime(timestr, "%Y-%m-%d %H:%M:%S", &tm);
char* str = taosStrpTime(timestr, "%Y-%m-%d %H:%M:%S", &tm);
if (str == NULL) {
return -1;
}
......@@ -466,7 +466,7 @@ int64_t taosTimeAdd(int64_t t, int64_t duration, char unit, int32_t precision) {
struct tm tm;
time_t tt = (time_t)(t / TSDB_TICK_PER_SECOND(precision));
localtime_r(&tt, &tm);
taosLocalTime(&tt, &tm);
int32_t mon = tm.tm_year * 12 + tm.tm_mon + (int32_t)duration;
tm.tm_year = mon / 12;
tm.tm_mon = mon % 12;
......@@ -489,11 +489,11 @@ int32_t taosTimeCountInterval(int64_t skey, int64_t ekey, int64_t interval, char
struct tm tm;
time_t t = (time_t)skey;
localtime_r(&t, &tm);
taosLocalTime(&t, &tm);
int32_t smon = tm.tm_year * 12 + tm.tm_mon;
t = (time_t)ekey;
localtime_r(&t, &tm);
taosLocalTime(&t, &tm);
int32_t emon = tm.tm_year * 12 + tm.tm_mon;
if (unit == 'y') {
......@@ -514,7 +514,7 @@ int64_t taosTimeTruncate(int64_t t, const SInterval* pInterval, int32_t precisio
start /= (int64_t)(TSDB_TICK_PER_SECOND(precision));
struct tm tm;
time_t tt = (time_t)start;
localtime_r(&tt, &tm);
taosLocalTime(&tt, &tm);
tm.tm_sec = 0;
tm.tm_min = 0;
tm.tm_hour = 0;
......@@ -597,13 +597,13 @@ const char* fmtts(int64_t ts) {
if (ts > -62135625943 && ts < 32503651200) {
time_t t = (time_t)ts;
localtime_r(&t, &tm);
taosLocalTime(&t, &tm);
pos += strftime(buf + pos, sizeof(buf), "s=%Y-%m-%d %H:%M:%S", &tm);
}
if (ts > -62135625943000 && ts < 32503651200000) {
time_t t = (time_t)(ts / 1000);
localtime_r(&t, &tm);
taosLocalTime(&t, &tm);
if (pos > 0) {
buf[pos++] = ' ';
buf[pos++] = '|';
......@@ -615,7 +615,7 @@ const char* fmtts(int64_t ts) {
{
time_t t = (time_t)(ts / 1000000);
localtime_r(&t, &tm);
taosLocalTime(&t, &tm);
if (pos > 0) {
buf[pos++] = ' ';
buf[pos++] = '|';
......
......@@ -94,11 +94,11 @@ void taosVariantCreate(SVariant *pVar, const char *z, int32_t n, int32_t type) {
bool sign = true;
int32_t base = 10;
if (type == TK_HEX) {
if (type == TK_NK_HEX) {
base = 16;
} else if (type == TK_OCT) {
} else if (type == TK_NK_OCT) {
base = 8;
} else if (type == TK_BIN) {
} else if (type == TK_NK_BIN) {
base = 2;
}
......
......@@ -160,8 +160,8 @@ TEST(testCase, Datablock_test) {
printf("binary column length:%d\n", *(int32_t*) p1->pData);
ASSERT_EQ(colDataGetNumOfCols(b), 2);
ASSERT_EQ(colDataGetNumOfRows(b), 40);
ASSERT_EQ(blockDataGetNumOfCols(b), 2);
ASSERT_EQ(blockDataGetNumOfRows(b), 40);
char* pData = colDataGetData(p1, 3);
printf("the second row of binary:%s, length:%d\n", (char*)varDataVal(pData), varDataLen(pData));
......
......@@ -25,8 +25,8 @@
#include "mm.h"
#include "dndVnodes.h"
#define INTERNAL_USER "_dnd"
#define INTERNAL_CKEY "_key"
#define INTERNAL_USER "_dnd"
#define INTERNAL_CKEY "_key"
#define INTERNAL_SECRET "_pwd"
static void dndInitMsgFp(STransMgmt *pMgmt) {
......@@ -152,10 +152,11 @@ static void dndInitMsgFp(STransMgmt *pMgmt) {
pMgmt->msgFp[TMSG_INDEX(TDMT_VND_MQ_REB)] = dndProcessVnodeWriteMsg;
pMgmt->msgFp[TMSG_INDEX(TDMT_VND_MQ_SET_CUR)] = dndProcessVnodeFetchMsg;
pMgmt->msgFp[TMSG_INDEX(TDMT_VND_CONSUME)] = dndProcessVnodeFetchMsg;
pMgmt->msgFp[TMSG_INDEX(TDMT_VND_QUERY_HEARTBEAT)] = dndProcessVnodeFetchMsg;
}
static void dndProcessResponse(void *parent, SRpcMsg *pRsp, SEpSet *pEpSet) {
SDnode *pDnode = parent;
SDnode * pDnode = parent;
STransMgmt *pMgmt = &pDnode->tmgmt;
tmsg_t msgType = pRsp->msgType;
......@@ -193,7 +194,6 @@ static int32_t dndInitClient(SDnode *pDnode) {
rpcInit.ckey = INTERNAL_CKEY;
rpcInit.spi = 1;
rpcInit.parent = pDnode;
rpcInit.noPool = true;
char pass[TSDB_PASSWORD_LEN + 1] = {0};
taosEncryptPass_c((uint8_t *)(INTERNAL_SECRET), strlen(INTERNAL_SECRET), pass);
......@@ -219,7 +219,7 @@ static void dndCleanupClient(SDnode *pDnode) {
}
static void dndProcessRequest(void *param, SRpcMsg *pReq, SEpSet *pEpSet) {
SDnode *pDnode = param;
SDnode * pDnode = param;
STransMgmt *pMgmt = &pDnode->tmgmt;
tmsg_t msgType = pReq->msgType;
......@@ -313,7 +313,7 @@ static int32_t dndRetrieveUserAuthInfo(void *parent, char *user, char *spi, char
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};
......
......@@ -354,6 +354,23 @@ typedef struct {
char payload[];
} SShowObj;
typedef struct {
int64_t id;
int8_t type;
int8_t replica;
int16_t numOfColumns;
int32_t rowSize;
int32_t numOfRows;
int32_t numOfReads;
int32_t payloadLen;
void* pIter;
SMnode* pMnode;
char db[TSDB_DB_FNAME_LEN];
int16_t offset[TSDB_MAX_COLUMNS];
int32_t bytes[TSDB_MAX_COLUMNS];
char payload[];
} SSysTableRetrieveObj;
typedef struct {
int32_t vgId; // -1 for unassigned
int32_t status;
......
......@@ -885,6 +885,29 @@ DROP_DB_OVER:
return code;
}
void mndGetDBTableNum(SDbObj *pDb, SMnode *pMnode, int32_t *num) {
int32_t vindex = 0;
SSdb *pSdb = pMnode->pSdb;
void *pIter = NULL;
while (vindex < pDb->cfg.numOfVgroups) {
SVgObj *pVgroup = NULL;
pIter = sdbFetch(pSdb, SDB_VGROUP, pIter, (void **)&pVgroup);
if (pIter == NULL) break;
if (pVgroup->dbUid == pDb->uid) {
*num += pVgroup->numOfTables / TSDB_TABLE_NUM_UNIT;
vindex++;
}
sdbRelease(pSdb, pVgroup);
}
sdbCancelFetch(pSdb, pIter);
}
static void mndBuildDBVgroupInfo(SDbObj *pDb, SMnode *pMnode, SArray *pVgList) {
int32_t vindex = 0;
SSdb *pSdb = pMnode->pSdb;
......@@ -900,6 +923,7 @@ static void mndBuildDBVgroupInfo(SDbObj *pDb, SMnode *pMnode, SArray *pVgList) {
vgInfo.vgId = pVgroup->vgId;
vgInfo.hashBegin = pVgroup->hashBegin;
vgInfo.hashEnd = pVgroup->hashEnd;
vgInfo.numOfTable = pVgroup->numOfTables / TSDB_TABLE_NUM_UNIT;
vgInfo.epSet.numOfEps = pVgroup->replica;
for (int32_t gid = 0; gid < pVgroup->replica; ++gid) {
SVnodeGid *pVgid = &pVgroup->vnodeGid[gid];
......@@ -967,7 +991,10 @@ static int32_t mndProcessUseDbReq(SMndMsg *pReq) {
goto USE_DB_OVER;
}
if (usedbReq.vgVersion < pDb->vgVersion || usedbReq.dbId != pDb->uid) {
int32_t numOfTable = 0;
mndGetDBTableNum(pDb, pMnode, &numOfTable);
if (usedbReq.vgVersion < pDb->vgVersion || usedbReq.dbId != pDb->uid || numOfTable != usedbReq.numOfTable) {
mndBuildDBVgroupInfo(pDb, pMnode, usedbRsp.pVgroupInfos);
}
......@@ -1017,6 +1044,7 @@ int32_t mndValidateDbInfo(SMnode *pMnode, SDbVgVersion *pDbs, int32_t numOfDbs,
SDbVgVersion *pDbVgVersion = &pDbs[i];
pDbVgVersion->dbId = htobe64(pDbVgVersion->dbId);
pDbVgVersion->vgVersion = htonl(pDbVgVersion->vgVersion);
pDbVgVersion->numOfTable = htonl(pDbVgVersion->numOfTable);
SUseDbRsp usedbRsp = {0};
......@@ -1027,28 +1055,34 @@ int32_t mndValidateDbInfo(SMnode *pMnode, SDbVgVersion *pDbs, int32_t numOfDbs,
usedbRsp.uid = pDbVgVersion->dbId;
usedbRsp.vgVersion = -1;
taosArrayPush(batchUseRsp.pArray, &usedbRsp);
} else if (pDbVgVersion->vgVersion >= pDb->vgVersion) {
mDebug("db:%s, version not changed", pDbVgVersion->dbFName);
mndReleaseDb(pMnode, pDb);
continue;
} else {
usedbRsp.pVgroupInfos = taosArrayInit(pDb->cfg.numOfVgroups, sizeof(SVgroupInfo));
if (usedbRsp.pVgroupInfos == NULL) {
mndReleaseDb(pMnode, pDb);
mError("db:%s, failed to malloc usedb response", pDb->name);
continue;
}
}
mndBuildDBVgroupInfo(pDb, pMnode, usedbRsp.pVgroupInfos);
memcpy(usedbRsp.db, pDb->name, TSDB_DB_FNAME_LEN);
usedbRsp.uid = pDb->uid;
usedbRsp.vgVersion = pDb->vgVersion;
usedbRsp.vgNum = (int32_t)taosArrayGetSize(usedbRsp.pVgroupInfos);
usedbRsp.hashMethod = pDb->hashMethod;
int32_t numOfTable = 0;
mndGetDBTableNum(pDb, pMnode, &numOfTable);
taosArrayPush(batchUseRsp.pArray, &usedbRsp);
if (pDbVgVersion->vgVersion >= pDb->vgVersion && numOfTable == pDbVgVersion->numOfTable) {
mDebug("db:%s, version & numOfTable not changed", pDbVgVersion->dbFName);
mndReleaseDb(pMnode, pDb);
continue;
}
usedbRsp.pVgroupInfos = taosArrayInit(pDb->cfg.numOfVgroups, sizeof(SVgroupInfo));
if (usedbRsp.pVgroupInfos == NULL) {
mndReleaseDb(pMnode, pDb);
mError("db:%s, failed to malloc usedb response", pDb->name);
continue;
}
mndBuildDBVgroupInfo(pDb, pMnode, usedbRsp.pVgroupInfos);
memcpy(usedbRsp.db, pDb->name, TSDB_DB_FNAME_LEN);
usedbRsp.uid = pDb->uid;
usedbRsp.vgVersion = pDb->vgVersion;
usedbRsp.vgNum = (int32_t)taosArrayGetSize(usedbRsp.pVgroupInfos);
usedbRsp.hashMethod = pDb->hashMethod;
taosArrayPush(batchUseRsp.pArray, &usedbRsp);
mndReleaseDb(pMnode, pDb);
}
int32_t rspLen = tSerializeSUseDbBatchRsp(NULL, 0, &batchUseRsp);
......
......@@ -36,6 +36,7 @@ static int32_t mndProcessDropQnodeRsp(SMndMsg *pRsp);
static int32_t mndGetQnodeMeta(SMndMsg *pReq, SShowObj *pShow, STableMetaRsp *pMeta);
static int32_t mndRetrieveQnodes(SMndMsg *pReq, SShowObj *pShow, char *data, int32_t rows);
static void mndCancelGetNextQnode(SMnode *pMnode, void *pIter);
static int32_t mndProcessQnodeListReq(SMnodeMsg *pReq);
int32_t mndInitQnode(SMnode *pMnode) {
SSdbTable table = {.sdbType = SDB_QNODE,
......@@ -48,6 +49,7 @@ int32_t mndInitQnode(SMnode *pMnode) {
mndSetMsgHandle(pMnode, TDMT_MND_CREATE_QNODE, mndProcessCreateQnodeReq);
mndSetMsgHandle(pMnode, TDMT_MND_DROP_QNODE, mndProcessDropQnodeReq);
mndSetMsgHandle(pMnode, TDMT_MND_QNODE_LIST, mndProcessQnodeListReq);
mndSetMsgHandle(pMnode, TDMT_DND_CREATE_QNODE_RSP, mndProcessCreateQnodeRsp);
mndSetMsgHandle(pMnode, TDMT_DND_DROP_QNODE_RSP, mndProcessDropQnodeRsp);
......@@ -430,6 +432,67 @@ DROP_QNODE_OVER:
return code;
}
static int32_t mndProcessQnodeListReq(SMnodeMsg *pReq) {
int32_t code = -1;
SQnodeListReq qlistReq = {0};
int32_t numOfRows = 0;
SMnode *pMnode = pReq->pMnode;
SSdb *pSdb = pMnode->pSdb;
SQnodeObj *pObj = NULL;
SQnodeListRsp qlistRsp = {0};
if (tDeserializeSQnodeListReq(pReq->rpcMsg.pCont, pReq->rpcMsg.contLen, &qlistReq) != 0) {
mError("invalid qnode list msg");
terrno = TSDB_CODE_INVALID_MSG;
goto QNODE_LIST_OVER;
}
qlistRsp.epSetList = taosArrayInit(5, sizeof(SEpSet));
if (NULL == qlistRsp.epSetList) {
mError("taosArrayInit epSet failed");
terrno = TSDB_CODE_OUT_OF_MEMORY;
goto QNODE_LIST_OVER;
}
while (true) {
void *pIter = sdbFetch(pSdb, SDB_QNODE, NULL, (void **)&pObj);
if (pIter == NULL) break;
SEpSet epSet = {0};
strcpy(epSet.eps[0].fqdn, pObj->pDnode->fqdn);
epSet.eps[0].port = pObj->pDnode->port;
epSet.numOfEps = 1;
taosArrayPush(qlistRsp.epSetList, &epSet);
numOfRows++;
sdbRelease(pSdb, pObj);
if (qlistReq.rowNum > 0 && numOfRows >= qlistReq.rowNum) {
break;
}
}
int32_t rspLen = tSerializeSQnodeListRsp(NULL, 0, &qlistRsp);
void *pRsp = malloc(rspLen);
if (pRsp == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
goto QNODE_LIST_OVER;
}
tSerializeSQnodeListRsp(pRsp, rspLen, &qlistRsp);
pReq->contLen = rspLen;
pReq->pCont = pRsp;
code = 0;
QNODE_LIST_OVER:
tFreeSQnodeListRsp(&qlistRsp);
return code;
}
static int32_t mndProcessCreateQnodeRsp(SMndMsg *pRsp) {
mndTransProcessRsp(pRsp);
return 0;
......
......@@ -32,30 +32,30 @@
int32_t mndSchedInitSubEp(SMnode* pMnode, const SMqTopicObj* pTopic, SMqSubscribeObj* pSub) {
SSdb* pSdb = pMnode->pSdb;
SVgObj* pVgroup = NULL;
SQueryDag* pDag = qStringToDag(pTopic->physicalPlan);
if (pDag == NULL) {
SQueryPlan* pPlan = qStringToQueryPlan(pTopic->physicalPlan);
if (pPlan == NULL) {
terrno = TSDB_CODE_QRY_INVALID_INPUT;
return -1;
}
ASSERT(pSub->vgNum == 0);
int32_t levelNum = taosArrayGetSize(pDag->pSubplans);
int32_t levelNum = LIST_LENGTH(pPlan->pSubplans);
if (levelNum != 1) {
qDestroyQueryDag(pDag);
qDestroyQueryPlan(pPlan);
terrno = TSDB_CODE_MND_UNSUPPORTED_TOPIC;
return -1;
}
SArray* plans = taosArrayGetP(pDag->pSubplans, 0);
SNodeListNode* inner = nodesListGetNode(pPlan->pSubplans, 0);
int32_t opNum = taosArrayGetSize(plans);
int32_t opNum = LIST_LENGTH(inner->pNodeList);
if (opNum != 1) {
qDestroyQueryDag(pDag);
qDestroyQueryPlan(pPlan);
terrno = TSDB_CODE_MND_UNSUPPORTED_TOPIC;
return -1;
}
SSubplan* plan = taosArrayGetP(plans, 0);
SSubplan* plan = nodesListGetNode(inner->pNodeList, 0);
void* pIter = NULL;
while (1) {
......@@ -78,14 +78,14 @@ int32_t mndSchedInitSubEp(SMnode* pMnode, const SMqTopicObj* pTopic, SMqSubscrib
int32_t msgLen;
if (qSubPlanToString(plan, &consumerEp.qmsg, &msgLen) < 0) {
sdbRelease(pSdb, pVgroup);
qDestroyQueryDag(pDag);
qDestroyQueryPlan(pPlan);
terrno = TSDB_CODE_QRY_INVALID_INPUT;
return -1;
}
taosArrayPush(pSub->unassignedVg, &consumerEp);
}
qDestroyQueryDag(pDag);
qDestroyQueryPlan(pPlan);
return 0;
}
......@@ -25,6 +25,7 @@ static void mndReleaseShowObj(SShowObj *pShow, bool forceRemove);
static int32_t mndProcessShowReq(SMndMsg *pReq);
static int32_t mndProcessRetrieveReq(SMndMsg *pReq);
static bool mndCheckRetrieveFinished(SShowObj *pShow);
static int32_t mndProcessRetrieveSysTableReq(SMnodeMsg *pReq);
int32_t mndInitShow(SMnode *pMnode) {
SShowMgmt *pMgmt = &pMnode->showMgmt;
......@@ -38,6 +39,7 @@ int32_t mndInitShow(SMnode *pMnode) {
mndSetMsgHandle(pMnode, TDMT_MND_SHOW, mndProcessShowReq);
mndSetMsgHandle(pMnode, TDMT_MND_SHOW_RETRIEVE, mndProcessRetrieveReq);
mndSetMsgHandle(pMnode, TDMT_MND_SYSTABLE_RETRIEVE, mndProcessRetrieveSysTableReq);
return 0;
}
......@@ -261,6 +263,106 @@ static int32_t mndProcessRetrieveReq(SMndMsg *pReq) {
return TSDB_CODE_SUCCESS;
}
static int32_t mndProcessRetrieveSysTableReq(SMnodeMsg *pReq) {
SMnode *pMnode = pReq->pMnode;
SShowMgmt *pMgmt = &pMnode->showMgmt;
int32_t rowsToRead = 0;
int32_t size = 0;
int32_t rowsRead = 0;
SRetrieveTableReq retrieveReq = {0};
if (tDeserializeSRetrieveTableReq(pReq->rpcMsg.pCont, pReq->rpcMsg.contLen, &retrieveReq) != 0) {
terrno = TSDB_CODE_INVALID_MSG;
return -1;
}
SShowObj* pShow = NULL;
if (retrieveReq.showId == 0) {
SShowReq req = {0};
req.type = retrieveReq.type;
strncpy(req.db, retrieveReq.db, tListLen(req.db));
pShow = mndCreateShowObj(pMnode, &req);
if (pShow == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
mError("failed to process show-meta req since %s", terrstr());
return -1;
}
} else {
pShow = mndAcquireShowObj(pMnode, retrieveReq.showId);
if (pShow == NULL) {
terrno = TSDB_CODE_MND_INVALID_SHOWOBJ;
mError("failed to process show-retrieve req:%p since %s", pShow, terrstr());
return -1;
}
}
ShowRetrieveFp retrieveFp = pMgmt->retrieveFps[pShow->type];
if (retrieveFp == NULL) {
mndReleaseShowObj((SShowObj*) pShow, false);
terrno = TSDB_CODE_MSG_NOT_PROCESSED;
mError("show:0x%" PRIx64 ", failed to retrieve data since %s", pShow->id, terrstr());
return -1;
}
mDebug("show:0x%" PRIx64 ", start retrieve data, numOfReads:%d numOfRows:%d type:%s", pShow->id, pShow->numOfReads,
pShow->numOfRows, mndShowStr(pShow->type));
if (mndCheckRetrieveFinished((SShowObj*) pShow)) {
mDebug("show:0x%" PRIx64 ", read finished, numOfReads:%d numOfRows:%d", pShow->id, pShow->numOfReads,
pShow->numOfRows);
pShow->numOfReads = pShow->numOfRows;
}
if ((retrieveReq.free & TSDB_QUERY_TYPE_FREE_RESOURCE) != TSDB_QUERY_TYPE_FREE_RESOURCE) {
rowsToRead = pShow->numOfRows - pShow->numOfReads;
}
/* return no more than 100 tables in one round trip */
if (rowsToRead > SHOW_STEP_SIZE) rowsToRead = SHOW_STEP_SIZE;
/*
* the actual number of table may be larger than the value of pShow->numOfRows, if a query is
* issued during a continuous create table operation. Therefore, rowToRead may be less than 0.
*/
if (rowsToRead < 0) rowsToRead = 0;
size = pShow->rowSize * rowsToRead;
size += SHOW_STEP_SIZE;
SRetrieveTableRsp *pRsp = rpcMallocCont(size);
if (pRsp == NULL) {
mndReleaseShowObj((SShowObj*) pShow, false);
terrno = TSDB_CODE_OUT_OF_MEMORY;
mError("show:0x%" PRIx64 ", failed to retrieve data since %s", pShow->id, terrstr());
return -1;
}
// if free flag is set, client wants to clean the resources
if ((retrieveReq.free & TSDB_QUERY_TYPE_FREE_RESOURCE) != TSDB_QUERY_TYPE_FREE_RESOURCE) {
rowsRead = (*retrieveFp)(pReq, (SShowObj*) pShow, pRsp->data, rowsToRead);
}
mDebug("show:0x%" PRIx64 ", stop retrieve data, rowsRead:%d rowsToRead:%d", pShow->id, rowsRead, rowsToRead);
pRsp->numOfRows = htonl(rowsRead);
pRsp->precision = TSDB_TIME_PRECISION_MILLI; // millisecond time precision
pReq->pCont = pRsp;
pReq->contLen = size;
if (rowsRead == 0 || rowsToRead == 0 || (rowsRead == rowsToRead && pShow->numOfRows == pShow->numOfReads)) {
pRsp->completed = 1;
mDebug("show:0x%" PRIx64 ", retrieve completed", pShow->id);
mndReleaseShowObj((SShowObj*) pShow, true);
} else {
mDebug("show:0x%" PRIx64 ", retrieve not completed yet", pShow->id);
mndReleaseShowObj((SShowObj*) pShow, false);
}
return TSDB_CODE_SUCCESS;
}
char *mndShowStr(int32_t showType) {
switch (showType) {
case TSDB_MGMT_TABLE_ACCT:
......
......@@ -773,10 +773,10 @@ static int32_t mndProcessDoRebalanceMsg(SMndMsg *pMsg) {
static int32_t mndInitUnassignedVg(SMnode *pMnode, const SMqTopicObj *pTopic, SMqSubscribeObj *pSub) {
SSdb *pSdb = pMnode->pSdb;
SVgObj *pVgroup = NULL;
SQueryDag *pDag = qStringToDag(pTopic->physicalPlan);
SQueryPlan *pPlan = qStringToQueryPlan(pTopic->physicalPlan);
SArray *pArray = NULL;
SArray *inner = taosArrayGet(pDag->pSubplans, 0);
SSubplan *plan = taosArrayGetP(inner, 0);
SNodeListNode *inner = (SNodeListNode*)nodesListGetNode(pPlan->pSubplans, 0);
SSubplan *plan = (SSubplan*)nodesListGetNode(inner->pNodeList, 0);
SArray *unassignedVg = pSub->unassignedVg;
void *pIter = NULL;
......@@ -792,7 +792,7 @@ static int32_t mndInitUnassignedVg(SMnode *pMnode, const SMqTopicObj *pTopic, SM
plan->execNode.nodeId = pVgroup->vgId;
plan->execNode.epset = mndGetVgroupEpset(pMnode, pVgroup);
if (schedulerConvertDagToTaskList(pDag, &pArray) < 0) {
if (schedulerConvertDagToTaskList(pPlan, &pArray) < 0) {
terrno = TSDB_CODE_MND_UNSUPPORTED_TOPIC;
mError("unsupport topic: %s, sql: %s", pTopic->name, pTopic->sql);
return -1;
......
......@@ -11,4 +11,7 @@ target_link_libraries(
PRIVATE os
PRIVATE common
PRIVATE util
PRIVATE qworker
PRIVATE qcom
PRIVATE executor
)
\ No newline at end of file
......@@ -28,12 +28,16 @@
extern "C" {
#endif
typedef struct SQWorkerMgmt SQHandle;
typedef struct SQnode {
int32_t qndId;
SQnodeOpt opt;
SQHandle* pQuery;
} SQnode;
#ifdef __cplusplus
}
#endif
#endif /*_TD_QNODE_INT_H_*/
\ No newline at end of file
#endif /*_TD_QNODE_INT_H_*/
......@@ -14,13 +14,35 @@
*/
#include "qndInt.h"
#include "query.h"
#include "qworker.h"
#include "executor.h"
int32_t qnodePutReqToVQueryQ(SQnode* pQnode, struct SRpcMsg* pReq) {}
void qnodeSendReqToDnode(SQnode* pQnode, struct SEpSet* epSet, struct SRpcMsg* pReq) {}
SQnode *qndOpen(const SQnodeOpt *pOption) {
SQnode *pQnode = calloc(1, sizeof(SQnode));
if (NULL == pQnode) {
qError("calloc SQnode failed");
return NULL;
}
if (qWorkerInit(NODE_TYPE_QNODE, pQnode->qndId, NULL, (void **)&pQnode->pQuery, pQnode,
(putReqToQueryQFp)qnodePutReqToVQueryQ, (sendReqToDnodeFp)qnodeSendReqToDnode)) {
tfree(pQnode);
return NULL;
}
return pQnode;
}
void qndClose(SQnode *pQnode) { free(pQnode); }
void qndClose(SQnode *pQnode) {
qWorkerDestroy((void **)&pQnode->pQuery);
free(pQnode);
}
int32_t qndGetLoad(SQnode *pQnode, SQnodeLoad *pLoad) { return 0; }
......@@ -29,3 +51,51 @@ int32_t qndProcessMsg(SQnode *pQnode, SRpcMsg *pMsg, SRpcMsg **pRsp) {
return 0;
}
int qnodeProcessQueryMsg(SQnode *pQnode, SRpcMsg *pMsg) {
qTrace("message in query queue is processing");
SReadHandle handle = {0};
switch (pMsg->msgType) {
case TDMT_VND_QUERY:{
return qWorkerProcessQueryMsg(&handle, pQnode->pQuery, pMsg);
}
case TDMT_VND_QUERY_CONTINUE:
return qWorkerProcessCQueryMsg(&handle, pQnode->pQuery, pMsg);
default:
qError("unknown msg type:%d in query queue", pMsg->msgType);
return TSDB_CODE_VND_APP_ERROR;
}
}
int qnodeProcessFetchMsg(SQnode *pQnode, SRpcMsg *pMsg) {
qTrace("message in fetch queue is processing");
switch (pMsg->msgType) {
case TDMT_VND_FETCH:
return qWorkerProcessFetchMsg(pQnode, pQnode->pQuery, pMsg);
case TDMT_VND_FETCH_RSP:
return qWorkerProcessFetchRsp(pQnode, pQnode->pQuery, pMsg);
case TDMT_VND_RES_READY:
return qWorkerProcessReadyMsg(pQnode, pQnode->pQuery, pMsg);
case TDMT_VND_TASKS_STATUS:
return qWorkerProcessStatusMsg(pQnode, pQnode->pQuery, pMsg);
case TDMT_VND_CANCEL_TASK:
return qWorkerProcessCancelMsg(pQnode, pQnode->pQuery, pMsg);
case TDMT_VND_DROP_TASK:
return qWorkerProcessDropMsg(pQnode, pQnode->pQuery, pMsg);
case TDMT_VND_SHOW_TABLES:
return qWorkerProcessShowMsg(pQnode, pQnode->pQuery, pMsg);
case TDMT_VND_SHOW_TABLES_FETCH:
//return vnodeGetTableList(pQnode, pMsg);
case TDMT_VND_TABLE_META:
//return vnodeGetTableMeta(pQnode, pMsg);
case TDMT_VND_CONSUME:
//return tqProcessConsumeReq(pQnode->pTq, pMsg);
default:
qError("unknown msg type:%d in fetch queue", pMsg->msgType);
return TSDB_CODE_VND_APP_ERROR;
}
}
......@@ -58,8 +58,8 @@ STbCfg * metaGetTbInfoByUid(SMeta *pMeta, tb_uid_t uid);
STbCfg * metaGetTbInfoByName(SMeta *pMeta, char *tbname, tb_uid_t *uid);
SSchemaWrapper *metaGetTableSchema(SMeta *pMeta, tb_uid_t uid, int32_t sver, bool isinline);
STSchema * metaGetTbTSchema(SMeta *pMeta, tb_uid_t uid, int32_t sver);
STSma * metaGetSmaInfoByName(SMeta *pMeta, const char *indexName);
STSmaWrapper * metaGetSmaInfoByUid(SMeta *pMeta, tb_uid_t uid);
STSma * metaGetSmaInfoByIndex(SMeta *pMeta, int64_t indexUid);
STSmaWrapper * metaGetSmaInfoByTable(SMeta *pMeta, tb_uid_t uid);
SArray * metaGetSmaTbUids(SMeta *pMeta, bool isDup);
SMTbCursor *metaOpenTbCursor(SMeta *pMeta);
......
......@@ -89,24 +89,21 @@ int tsdbCommit(STsdb *pTsdb);
/**
* @brief Insert tSma(Time-range-wise SMA) data from stream computing engine
*
* @param pTsdb
* @param param
* @param pData
* @return int32_t
*
* @param pTsdb
* @param msg
* @return int32_t
*/
int32_t tsdbInsertTSmaData(STsdb *pTsdb, STSma *param, STSmaData *pData);
int32_t tsdbInsertTSmaData(STsdb *pTsdb, char *msg);
/**
* @brief Insert RSma(Time-range-wise Rollup SMA) data.
*
* @param pTsdb
* @param param
* @param pData
* @return int32_t
*
* @param pTsdb
* @param msg
* @return int32_t
*/
int32_t tsdbInsertRSmaData(STsdb *pTsdb, SRSma *param, STSmaData *pData);
int32_t tsdbInsertRSmaData(STsdb *pTsdb, char *msg);
// STsdbCfg
int tsdbOptionsInit(STsdbCfg *);
......
......@@ -42,17 +42,14 @@ typedef struct {
typedef struct {
STsdbFSMeta meta; // FS meta
SArray * df; // data file array
// SArray * v2t100.index_name
SArray * smaf; // sma data file array v2t1900.index_name
SArray * sf; // sma data file array v2(t|r)1900.index_name_1
} SFSStatus;
/**
* @brief Directory structure of .tsma data files.
*
* root@cary /vnode2/tsdb $ tree .tsma/
* .tsma/
*
* /vnode2/tsdb $ tree .sma/
* .sma/
* ├── v2t100.index_name_1
* ├── v2t101.index_name_1
* ├── v2t102.index_name_1
......@@ -66,7 +63,7 @@ typedef struct {
* 0 directories, 9 files
*/
typedef struct {
typedef struct {
pthread_rwlock_t lock;
SFSStatus *cstatus; // current status
......
......@@ -335,6 +335,17 @@ typedef struct {
SDFile files[TSDB_FILE_MAX];
} SDFileSet;
typedef struct {
int fid;
int8_t state;
uint8_t ver;
#if 0
SDFInfo info;
#endif
STfsFile f;
TdFilePtr pFile;
} SSFile; // files split by days with fid
#define TSDB_LATEST_FSET_VER 0
#define TSDB_FSET_FID(s) ((s)->fid)
......
......@@ -19,26 +19,28 @@
typedef struct SSmaStat SSmaStat;
// insert/update interface
int32_t tsdbInsertTSmaDataImpl(STsdb *pTsdb, STSma *param, STSmaData *pData);
int32_t tsdbInsertRSmaDataImpl(STsdb *pTsdb, SRSma *param, STSmaData *pData);
int32_t tsdbInsertTSmaDataImpl(STsdb *pTsdb, char *msg);
int32_t tsdbInsertRSmaDataImpl(STsdb *pTsdb, char *msg);
// query interface
// TODO: This is the basic params, and should wrap the params to a queryHandle.
int32_t tsdbGetTSmaDataImpl(STsdb *pTsdb, STSma *param, STSmaData *pData, STimeWindow *queryWin, int32_t nMaxResult);
int32_t tsdbGetTSmaDataImpl(STsdb *pTsdb, STSmaDataWrapper *pData, STimeWindow *queryWin, int32_t nMaxResult);
// management interface
int32_t tsdbUpdateExpiredWindow(STsdb *pTsdb, char *msg);
int32_t tsdbDestroySmaState(SSmaStat *pSmaStat);
#if 0
int32_t tsdbGetTSmaStatus(STsdb *pTsdb, STSma *param, void *result);
int32_t tsdbRemoveTSmaData(STsdb *pTsdb, STSma *param, STimeWindow *pWin);
int32_t tsdbDestroySmaState(SSmaStat *pSmaStat);
#endif
// internal func
static FORCE_INLINE int32_t tsdbEncodeTSmaKey(uint64_t tableUid, col_id_t colId, TSKEY tsKey, void **pData) {
static FORCE_INLINE int32_t tsdbEncodeTSmaKey(tb_uid_t tableUid, col_id_t colId, TSKEY tsKey, void **pData) {
int32_t len = 0;
len += taosEncodeFixedU64(pData, tableUid);
len += taosEncodeFixedI64(pData, tableUid);
len += taosEncodeFixedU16(pData, colId);
len += taosEncodeFixedI64(pData, tsKey);
return len;
......
......@@ -26,6 +26,7 @@ extern "C" {
typedef struct SQWorkerMgmt SQHandle;
int vnodeQueryOpen(SVnode *pVnode);
void vnodeQueryClose(SVnode *pVnode);
#ifdef __cplusplus
}
......
......@@ -227,21 +227,27 @@ int metaRemoveTableFromDb(SMeta *pMeta, tb_uid_t uid) {
}
int metaSaveSmaToDB(SMeta *pMeta, STSma *pSmaCfg) {
char buf[512] = {0}; // TODO: may overflow
void *pBuf = NULL;
// char buf[512] = {0}; // TODO: may overflow
void *pBuf = NULL, *qBuf = NULL;
DBT key1 = {0}, value1 = {0};
{
// save sma info
pBuf = buf;
int32_t len = tEncodeTSma(NULL, pSmaCfg);
pBuf = calloc(len, 1);
if (pBuf == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
}
key1.data = pSmaCfg->indexName;
key1.size = strlen(key1.data);
key1.data = (void *)&pSmaCfg->indexUid;
key1.size = sizeof(pSmaCfg->indexUid);
tEncodeTSma(&pBuf, pSmaCfg);
qBuf = pBuf;
tEncodeTSma(&qBuf, pSmaCfg);
value1.data = buf;
value1.size = POINTER_DISTANCE(pBuf, buf);
value1.data = pBuf;
value1.size = POINTER_DISTANCE(qBuf, pBuf);
value1.app_data = pSmaCfg;
}
......@@ -609,7 +615,7 @@ STbCfg *metaGetTbInfoByName(SMeta *pMeta, char *tbname, tb_uid_t *uid) {
return pTbCfg;
}
STSma *metaGetSmaInfoByName(SMeta *pMeta, const char *indexName) {
STSma *metaGetSmaInfoByIndex(SMeta *pMeta, int64_t indexUid) {
STSma * pCfg = NULL;
SMetaDB *pDB = pMeta->pDB;
DBT key = {0};
......@@ -617,8 +623,8 @@ STSma *metaGetSmaInfoByName(SMeta *pMeta, const char *indexName) {
int ret;
// Set key/value
key.data = (void *)indexName;
key.size = strlen(indexName);
key.data = (void *)&indexUid;
key.size = sizeof(indexUid);
// Query
metaDBRLock(pDB);
......@@ -634,7 +640,10 @@ STSma *metaGetSmaInfoByName(SMeta *pMeta, const char *indexName) {
return NULL;
}
tDecodeTSma(value.data, pCfg);
if (tDecodeTSma(value.data, pCfg) == NULL) {
tfree(pCfg);
return NULL;
}
return pCfg;
}
......@@ -871,7 +880,7 @@ const char *metaSmaCursorNext(SMSmaCursor *pCur) {
}
}
STSmaWrapper *metaGetSmaInfoByUid(SMeta *pMeta, tb_uid_t uid) {
STSmaWrapper *metaGetSmaInfoByTable(SMeta *pMeta, tb_uid_t uid) {
STSmaWrapper *pSW = NULL;
pSW = calloc(sizeof(*pSW), 1);
......
......@@ -13,18 +13,19 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <tdatablock.h>
#include "os.h"
#include "talgo.h"
#include "tcompare.h"
#include "tdataformat.h"
#include "texception.h"
#include "tsdb.h"
#include "tsdbDef.h"
#include "tsdbFS.h"
#include "tsdbLog.h"
#include "tsdbReadImpl.h"
#include "ttime.h"
#include "texception.h"
#include "os.h"
#include "talgo.h"
#include "tcompare.h"
#include "tdataformat.h"
#include "tskiplist.h"
#include "ttime.h"
#include "taosdef.h"
#include "tlosertree.h"
......@@ -1472,6 +1473,8 @@ static int32_t doCopyRowsFromFileBlock(STsdbReadHandle* pTsdbReadHandle, int32_t
return numOfRows + num;
}
// TODO fix bug for reverse copy data
// TODO handle the null data
// Note: row1 always has high priority
static void mergeTwoRowFromMem(STsdbReadHandle* pTsdbReadHandle, int32_t capacity, int32_t numOfRows, STSRow* row1,
STSRow* row2, int32_t numOfCols, uint64_t uid, STSchema* pSchema1, STSchema* pSchema2,
......@@ -1515,7 +1518,6 @@ static void mergeTwoRowFromMem(STsdbReadHandle* pTsdbReadHandle, int32_t capacit
}
}
int32_t i = 0, j = 0, k = 0;
while(i < numOfCols && (j < numOfColsOfRow1 || k < numOfColsOfRow2)) {
SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i);
......@@ -1586,7 +1588,6 @@ static void mergeTwoRowFromMem(STsdbReadHandle* pTsdbReadHandle, int32_t capacit
tdSKvRowGetVal(row, colId, offset, chosen_itr, &sVal);
}
if (colId == pColInfo->info.colId) {
if (tdValTypeIsNorm(sVal.valType)) {
switch (pColInfo->info.type) {
......@@ -1594,7 +1595,6 @@ static void mergeTwoRowFromMem(STsdbReadHandle* pTsdbReadHandle, int32_t capacit
case TSDB_DATA_TYPE_NCHAR:
memcpy(pData, sVal.val, varDataTLen(sVal.val));
break;
case TSDB_DATA_TYPE_NULL:
case TSDB_DATA_TYPE_BOOL:
case TSDB_DATA_TYPE_TINYINT:
case TSDB_DATA_TYPE_UTINYINT:
......@@ -1625,11 +1625,7 @@ static void mergeTwoRowFromMem(STsdbReadHandle* pTsdbReadHandle, int32_t capacit
memcpy(pData, sVal.val, pColInfo->info.bytes);
}
} else if (forceSetNull) {
if (pColInfo->info.type == TSDB_DATA_TYPE_BINARY || pColInfo->info.type == TSDB_DATA_TYPE_NCHAR) {
setVardataNull(pData, pColInfo->info.type);
} else {
setNull(pData, pColInfo->info.type, pColInfo->info.bytes);
}
colDataAppend(pColInfo, numOfRows, NULL, true);
}
i++;
......@@ -1640,11 +1636,7 @@ static void mergeTwoRowFromMem(STsdbReadHandle* pTsdbReadHandle, int32_t capacit
}
} else {
if(forceSetNull) {
if (pColInfo->info.type == TSDB_DATA_TYPE_BINARY || pColInfo->info.type == TSDB_DATA_TYPE_NCHAR) {
setVardataNull(pData, pColInfo->info.type);
} else {
setNull(pData, pColInfo->info.type, pColInfo->info.bytes);
}
colDataAppend(pColInfo, numOfRows, NULL, true);
}
i++;
}
......@@ -1653,18 +1645,7 @@ static void mergeTwoRowFromMem(STsdbReadHandle* pTsdbReadHandle, int32_t capacit
if(forceSetNull) {
while (i < numOfCols) { // the remain columns are all null data
SColumnInfoData* pColInfo = taosArrayGet(pTsdbReadHandle->pColumns, i);
if (ASCENDING_TRAVERSE(pTsdbReadHandle->order)) {
pData = (char*)pColInfo->pData + numOfRows * pColInfo->info.bytes;
} else {
pData = (char*)pColInfo->pData + (capacity - numOfRows - 1) * pColInfo->info.bytes;
}
if (pColInfo->info.type == TSDB_DATA_TYPE_BINARY || pColInfo->info.type == TSDB_DATA_TYPE_NCHAR) {
setVardataNull(pData, pColInfo->info.type);
} else {
setNull(pData, pColInfo->info.type, pColInfo->info.bytes);
}
colDataAppend(pColInfo, numOfRows, NULL, true);
i++;
}
}
......
......@@ -39,13 +39,13 @@ int tsdbInsertData(STsdb *pTsdb, SSubmitReq *pMsg, SSubmitRsp *pRsp) {
*
* @param pTsdb
* @param param
* @param pData
* @param msg
* @return int32_t
* TODO: Who is responsible for resource allocate and release?
*/
int32_t tsdbInsertTSmaData(STsdb *pTsdb, STSma *param, STSmaData *pData) {
int32_t tsdbInsertTSmaData(STsdb *pTsdb, char *msg) {
int32_t code = TSDB_CODE_SUCCESS;
if ((code = tsdbInsertTSmaDataImpl(pTsdb, param, pData)) < 0) {
if ((code = tsdbInsertTSmaDataImpl(pTsdb, msg)) < 0) {
tsdbWarn("vgId:%d insert tSma data failed since %s", REPO_ID(pTsdb), tstrerror(terrno));
}
return code;
......@@ -56,12 +56,12 @@ int32_t tsdbInsertTSmaData(STsdb *pTsdb, STSma *param, STSmaData *pData) {
*
* @param pTsdb
* @param param
* @param pData
* @param msg
* @return int32_t
*/
int32_t tsdbInsertRSmaData(STsdb *pTsdb, SRSma *param, STSmaData *pData) {
int32_t tsdbInsertRSmaData(STsdb *pTsdb, char *msg) {
int32_t code = TSDB_CODE_SUCCESS;
if ((code = tsdbInsertRSmaDataImpl(pTsdb, param, pData)) < 0) {
if ((code = tsdbInsertRSmaDataImpl(pTsdb, msg)) < 0) {
tsdbWarn("vgId:%d insert rSma data failed since %s", REPO_ID(pTsdb), tstrerror(terrno));
}
return code;
......
......@@ -154,5 +154,6 @@ static void vnodeCloseImpl(SVnode *pVnode) {
tsdbClose(pVnode->pTsdb);
tqClose(pVnode->pTq);
walClose(pVnode->pWal);
vnodeQueryClose(pVnode);
}
}
......@@ -24,6 +24,10 @@ int vnodeQueryOpen(SVnode *pVnode) {
(putReqToQueryQFp)vnodePutReqToVQueryQ, (sendReqToDnodeFp)vnodeSendReqToDnode);
}
void vnodeQueryClose(SVnode *pVnode) {
qWorkerDestroy((void **)&pVnode->pQuery);
}
int vnodeProcessQueryMsg(SVnode *pVnode, SRpcMsg *pMsg) {
vTrace("message in query queue is processing");
SReadHandle handle = {.reader = pVnode->pTsdb, .meta = pVnode->pMeta};
......@@ -64,6 +68,8 @@ int vnodeProcessFetchMsg(SVnode *pVnode, SRpcMsg *pMsg) {
return vnodeGetTableMeta(pVnode, pMsg);
case TDMT_VND_CONSUME:
return tqProcessPollReq(pVnode->pTq, pMsg);
case TDMT_VND_QUERY_HEARTBEAT:
return qWorkerProcessHbMsg(pVnode, pVnode->pQuery, pMsg);
default:
vError("unknown msg type:%d in fetch queue", pMsg->msgType);
return TSDB_CODE_VND_APP_ERROR;
......
......@@ -43,20 +43,8 @@ TEST(testCase, tSmaEncodeDecodeTest) {
tSma.sliding = 0;
tstrncpy(tSma.indexName, "sma_index_test", TSDB_INDEX_NAME_LEN);
tstrncpy(tSma.timezone, "Asia/Shanghai", TD_TIMEZONE_LEN);
tSma.indexUid = 2345678910;
tSma.tableUid = 1234567890;
tSma.nFuncColIds = 5;
tSma.funcColIds = (SFuncColIds *)calloc(tSma.nFuncColIds, sizeof(SFuncColIds));
ASSERT(tSma.funcColIds != NULL);
for (int32_t n = 0; n < tSma.nFuncColIds; ++n) {
SFuncColIds *funcColIds = tSma.funcColIds + n;
funcColIds->funcId = n;
funcColIds->nColIds = 10;
funcColIds->colIds = (col_id_t *)calloc(funcColIds->nColIds, sizeof(col_id_t));
ASSERT(funcColIds->colIds != NULL);
for (int32_t i = 0; i < funcColIds->nColIds; ++i) {
*(funcColIds->colIds + i) = (i + PRIMARYKEY_TIMESTAMP_COL_ID);
}
}
STSmaWrapper tSmaWrapper = {.number = 1, .tSma = &tSma};
uint32_t bufLen = tEncodeTSmaWrapper(NULL, &tSmaWrapper);
......@@ -85,35 +73,31 @@ TEST(testCase, tSmaEncodeDecodeTest) {
EXPECT_EQ(pSma->slidingUnit, qSma->slidingUnit);
EXPECT_STRCASEEQ(pSma->indexName, qSma->indexName);
EXPECT_STRCASEEQ(pSma->timezone, qSma->timezone);
EXPECT_EQ(pSma->nFuncColIds, qSma->nFuncColIds);
EXPECT_EQ(pSma->indexUid, qSma->indexUid);
EXPECT_EQ(pSma->tableUid, qSma->tableUid);
EXPECT_EQ(pSma->interval, qSma->interval);
EXPECT_EQ(pSma->sliding, qSma->sliding);
EXPECT_EQ(pSma->exprLen, qSma->exprLen);
EXPECT_STRCASEEQ(pSma->expr, qSma->expr);
EXPECT_EQ(pSma->tagsFilterLen, qSma->tagsFilterLen);
EXPECT_STRCASEEQ(pSma->tagsFilter, qSma->tagsFilter);
for (uint32_t j = 0; j < pSma->nFuncColIds; ++j) {
SFuncColIds *pFuncColIds = pSma->funcColIds + j;
SFuncColIds *qFuncColIds = qSma->funcColIds + j;
EXPECT_EQ(pFuncColIds->funcId, qFuncColIds->funcId);
EXPECT_EQ(pFuncColIds->nColIds, qFuncColIds->nColIds);
for (uint32_t k = 0; k < pFuncColIds->nColIds; ++k) {
EXPECT_EQ(*(pFuncColIds->colIds + k), *(qFuncColIds->colIds + k));
}
}
}
// resource release
tdDestroyTSma(&tSma);
tdDestroyTSmaWrapper(&dstTSmaWrapper);
}
#if 1
TEST(testCase, tSma_DB_Put_Get_Del_Test) {
const char * smaIndexName1 = "sma_index_test_1";
const char * smaIndexName2 = "sma_index_test_2";
const char * timeZone = "Asia/Shanghai";
const char * timezone = "Asia/Shanghai";
const char * expr = "select count(a,b, top 20), from table interval 1d, sliding 1h;";
const char * tagsFilter = "I'm tags filter";
const char * smaTestDir = "./smaTest";
const uint64_t tbUid = 1234567890;
const tb_uid_t tbUid = 1234567890;
const int64_t indexUid1 = 2000000001;
const int64_t indexUid2 = 2000000002;
const uint32_t nCntTSma = 2;
// encode
STSma tSma = {0};
......@@ -122,22 +106,15 @@ TEST(testCase, tSma_DB_Put_Get_Del_Test) {
tSma.interval = 1;
tSma.slidingUnit = TD_TIME_UNIT_HOUR;
tSma.sliding = 0;
tSma.indexUid = indexUid1;
tstrncpy(tSma.indexName, smaIndexName1, TSDB_INDEX_NAME_LEN);
tstrncpy(tSma.timezone, timeZone, TD_TIMEZONE_LEN);
tstrncpy(tSma.timezone, timezone, TD_TIMEZONE_LEN);
tSma.tableUid = tbUid;
tSma.nFuncColIds = 5;
tSma.funcColIds = (SFuncColIds *)calloc(tSma.nFuncColIds, sizeof(SFuncColIds));
ASSERT(tSma.funcColIds != NULL);
for (int32_t n = 0; n < tSma.nFuncColIds; ++n) {
SFuncColIds *funcColIds = tSma.funcColIds + n;
funcColIds->funcId = n;
funcColIds->nColIds = 10;
funcColIds->colIds = (col_id_t *)calloc(funcColIds->nColIds, sizeof(col_id_t));
ASSERT(funcColIds->colIds != NULL);
for (int32_t i = 0; i < funcColIds->nColIds; ++i) {
*(funcColIds->colIds + i) = (i + PRIMARYKEY_TIMESTAMP_COL_ID);
}
}
tSma.exprLen = strlen(expr);
tSma.expr = (char *)calloc(tSma.exprLen + 1, 1);
tstrncpy(tSma.expr, expr, tSma.exprLen + 1);
tSma.tagsFilterLen = strlen(tagsFilter);
tSma.tagsFilter = (char *)calloc(tSma.tagsFilterLen + 1, 1);
tstrncpy(tSma.tagsFilter, tagsFilter, tSma.tagsFilterLen + 1);
......@@ -151,8 +128,9 @@ TEST(testCase, tSma_DB_Put_Get_Del_Test) {
pMeta = metaOpen(smaTestDir, pMetaCfg, NULL);
assert(pMeta != NULL);
// save index 1
metaSaveSmaToDB(pMeta, pSmaCfg);
EXPECT_EQ(metaSaveSmaToDB(pMeta, pSmaCfg), 0);
pSmaCfg->indexUid = indexUid2;
tstrncpy(pSmaCfg->indexName, smaIndexName2, TSDB_INDEX_NAME_LEN);
pSmaCfg->version = 1;
pSmaCfg->intervalUnit = TD_TIME_UNIT_HOUR;
......@@ -161,24 +139,26 @@ TEST(testCase, tSma_DB_Put_Get_Del_Test) {
pSmaCfg->sliding = 5;
// save index 2
metaSaveSmaToDB(pMeta, pSmaCfg);
EXPECT_EQ(metaSaveSmaToDB(pMeta, pSmaCfg), 0);
// get value by indexName
STSma *qSmaCfg = NULL;
qSmaCfg = metaGetSmaInfoByName(pMeta, smaIndexName1);
qSmaCfg = metaGetSmaInfoByIndex(pMeta, indexUid1);
assert(qSmaCfg != NULL);
printf("name1 = %s\n", qSmaCfg->indexName);
printf("timezone1 = %s\n", qSmaCfg->timezone);
printf("expr1 = %s\n", qSmaCfg->expr != NULL ? qSmaCfg->expr : "");
printf("tagsFilter1 = %s\n", qSmaCfg->tagsFilter != NULL ? qSmaCfg->tagsFilter : "");
EXPECT_STRCASEEQ(qSmaCfg->indexName, smaIndexName1);
EXPECT_EQ(qSmaCfg->tableUid, tSma.tableUid);
tdDestroyTSma(qSmaCfg);
tfree(qSmaCfg);
qSmaCfg = metaGetSmaInfoByName(pMeta, smaIndexName2);
qSmaCfg = metaGetSmaInfoByIndex(pMeta, indexUid2);
assert(qSmaCfg != NULL);
printf("name2 = %s\n", qSmaCfg->indexName);
printf("timezone2 = %s\n", qSmaCfg->timezone);
printf("expr2 = %s\n", qSmaCfg->expr != NULL ? qSmaCfg->expr : "");
printf("tagsFilter2 = %s\n", qSmaCfg->tagsFilter != NULL ? qSmaCfg->tagsFilter : "");
EXPECT_STRCASEEQ(qSmaCfg->indexName, smaIndexName2);
EXPECT_EQ(qSmaCfg->interval, tSma.interval);
......@@ -201,17 +181,21 @@ TEST(testCase, tSma_DB_Put_Get_Del_Test) {
metaCloseSmaCurosr(pSmaCur);
// get wrapper by table uid
STSmaWrapper *pSW = metaGetSmaInfoByUid(pMeta, tbUid);
STSmaWrapper *pSW = metaGetSmaInfoByTable(pMeta, tbUid);
assert(pSW != NULL);
EXPECT_EQ(pSW->number, nCntTSma);
EXPECT_STRCASEEQ(pSW->tSma->indexName, smaIndexName1);
EXPECT_STRCASEEQ(pSW->tSma->timezone, timeZone);
EXPECT_STRCASEEQ(pSW->tSma->timezone, timezone);
EXPECT_STRCASEEQ(pSW->tSma->expr, expr);
EXPECT_STRCASEEQ(pSW->tSma->tagsFilter, tagsFilter);
EXPECT_EQ(pSW->tSma->tableUid, tSma.tableUid);
EXPECT_EQ(pSW->tSma->indexUid, indexUid1);
EXPECT_EQ(pSW->tSma->tableUid, tbUid);
EXPECT_STRCASEEQ((pSW->tSma + 1)->indexName, smaIndexName2);
EXPECT_STRCASEEQ((pSW->tSma + 1)->timezone, timeZone);
EXPECT_STRCASEEQ((pSW->tSma + 1)->timezone, timezone);
EXPECT_STRCASEEQ((pSW->tSma + 1)->expr, expr);
EXPECT_STRCASEEQ((pSW->tSma + 1)->tagsFilter, tagsFilter);
EXPECT_EQ((pSW->tSma + 1)->tableUid, tSma.tableUid);
EXPECT_EQ((pSW->tSma + 1)->indexUid, indexUid2);
EXPECT_EQ((pSW->tSma + 1)->tableUid, tbUid);
tdDestroyTSmaWrapper(pSW);
tfree(pSW);
......@@ -233,44 +217,68 @@ TEST(testCase, tSma_DB_Put_Get_Del_Test) {
tdDestroyTSma(&tSma);
metaClose(pMeta);
}
#endif
#if 0
#if 1
TEST(testCase, tSmaInsertTest) {
STSma tSma = {0};
STSmaData *pSmaData = NULL;
STsdb tsdb = {0};
const int64_t indexUid = 2000000002;
STSmaDataWrapper *pSmaData = NULL;
STsdb tsdb = {0};
STsdbCfg * pCfg = &tsdb.config;
pCfg->daysPerFile = 1;
// init
tSma.intervalUnit = TD_TIME_UNIT_DAY;
tSma.interval = 1;
tSma.numOfFuncIds = 5; // sum/min/max/avg/last
int32_t blockSize = tSma.numOfFuncIds * sizeof(int64_t);
int32_t numOfColIds = 3;
int32_t numOfBlocks = 10;
int32_t dataLen = numOfColIds * numOfBlocks * blockSize;
pSmaData = (STSmaData *)malloc(sizeof(STSmaData) + dataLen);
ASSERT_EQ(pSmaData != NULL, true);
pSmaData->tableUid = 3232329230;
pSmaData->numOfColIds = numOfColIds;
pSmaData->numOfBlocks = numOfBlocks;
pSmaData->dataLen = dataLen;
pSmaData->tsWindow.skey = 1640000000;
pSmaData->tsWindow.ekey = 1645788649;
pSmaData->colIds = (col_id_t *)malloc(sizeof(col_id_t) * numOfColIds);
ASSERT_EQ(pSmaData->colIds != NULL, true);
for (int32_t i = 0; i < numOfColIds; ++i) {
*(pSmaData->colIds + i) = (i + PRIMARYKEY_TIMESTAMP_COL_ID);
int32_t allocCnt = 0;
int32_t allocStep = 40960;
int32_t buffer = 4096;
void * buf = NULL;
EXPECT_EQ(tsdbMakeRoom(&buf, allocStep), 0);
int32_t bufSize = taosTSizeof(buf);
int32_t numOfTables = 25;
col_id_t numOfCols = 4096;
EXPECT_GT(numOfCols, 0);
pSmaData = (STSmaDataWrapper *)buf;
printf(">> allocate [%d] time to %d and addr is %p\n", ++allocCnt, bufSize, pSmaData);
pSmaData->skey = 1646987196;
pSmaData->interval = 10;
pSmaData->intervalUnit = TD_TIME_UNIT_MINUTE;
pSmaData->indexUid = indexUid;
int32_t len = sizeof(STSmaDataWrapper);
for (int32_t t = 0; t < numOfTables; ++t) {
STSmaTbData *pTbData = (STSmaTbData *)POINTER_SHIFT(pSmaData, len);
pTbData->tableUid = t;
int32_t tableDataLen = sizeof(STSmaTbData);
for (col_id_t c = 0; c < numOfCols; ++c) {
if (bufSize - len - tableDataLen < buffer) {
EXPECT_EQ(tsdbMakeRoom(&buf, bufSize + allocStep), 0);
pSmaData = (STSmaDataWrapper *)buf;
pTbData = (STSmaTbData *)POINTER_SHIFT(pSmaData, len);
bufSize = taosTSizeof(buf);
printf(">> allocate [%d] time to %d and addr is %p\n", ++allocCnt, bufSize, pSmaData);
}
STSmaColData *pColData = (STSmaColData *)POINTER_SHIFT(pSmaData, len + tableDataLen);
pColData->colId = c + PRIMARYKEY_TIMESTAMP_COL_ID;
pColData->blockSize = ((c & 1) == 0) ? 8 : 16;
// TODO: fill col data
tableDataLen += (sizeof(STSmaColData) + pColData->blockSize);
}
pTbData->dataLen = (tableDataLen - sizeof(STSmaTbData));
len += tableDataLen;
// printf("bufSize=%d, len=%d, len of table[%d]=%d\n", bufSize, len, t, tableDataLen);
}
pSmaData->dataLen = (len - sizeof(STSmaDataWrapper));
EXPECT_GE(bufSize, pSmaData->dataLen);
// execute
EXPECT_EQ(tsdbInsertTSmaData(&tsdb, &tSma, pSmaData), TSDB_CODE_SUCCESS);
EXPECT_EQ(tsdbInsertTSmaData(&tsdb, (char *)pSmaData), TSDB_CODE_SUCCESS);
// release
tdDestroySmaData(pSmaData);
taosTZfree(buf);
}
#endif
......
此差异已折叠。
......@@ -22,6 +22,7 @@ extern "C" {
#include "tcommon.h"
#include "dataSinkMgt.h"
#include "plannodes.h"
struct SDataSink;
struct SDataSinkHandle;
......@@ -45,7 +46,7 @@ typedef struct SDataSinkHandle {
FDestroyDataSinker fDestroy;
} SDataSinkHandle;
int32_t createDataDispatcher(SDataSinkManager* pManager, const struct SDataSink* pDataSink, DataSinkHandle* pHandle);
int32_t createDataDispatcher(SDataSinkManager* pManager, const SDataSinkNode* pDataSink, DataSinkHandle* pHandle);
#ifdef __cplusplus
}
......
......@@ -92,10 +92,11 @@ typedef struct SResultRowPool {
struct STaskAttr;
struct STaskRuntimeEnv;
struct SUdfInfo;
struct SqlFunctionCtx;
int32_t getOutputInterResultBufSize(struct STaskAttr* pQueryAttr);
size_t getResultRowSize(SArray* pExprInfo);
size_t getResultRowSize(struct SqlFunctionCtx* pCtx, int32_t numOfOutput);
int32_t initResultRowInfo(SResultRowInfo* pResultRowInfo, int32_t size);
void cleanupResultRowInfo(SResultRowInfo* pResultRowInfo);
......@@ -111,7 +112,6 @@ void clearResultRow(struct STaskRuntimeEnv* pRuntimeEnv, SResultRow* pResultR
struct SResultRowEntryInfo* getResultCell(const SResultRow* pRow, int32_t index, int32_t* offset);
void* destroyQueryFuncExpr(SExprInfo* pExprInfo, int32_t numOfExpr);
void* freeColumnInfo(SColumnInfo* pColumnInfo, int32_t numOfCols);
int32_t getRowNumForMultioutput(struct STaskAttr* pQueryAttr, bool topBottomQuery, bool stable);
static FORCE_INLINE SResultRow *getResultRow(SResultRowInfo *pResultRowInfo, int32_t slot) {
......
......@@ -362,8 +362,8 @@ typedef struct STaskParam {
char* tbnameCond;
char* prevResult;
SArray* pTableIdList;
SSqlExpr** pExpr;
SSqlExpr** pSecExpr;
SExprBasicInfo** pExpr;
SExprBasicInfo** pSecExpr;
SExprInfo* pExprs;
SExprInfo* pSecExprs;
......@@ -405,17 +405,15 @@ typedef struct SExchangeInfo {
} SExchangeInfo;
typedef struct STableScanInfo {
void* pTsdbReadHandle;
int32_t numOfBlocks; // extract basic running information.
int32_t numOfSkipped;
int32_t numOfBlockStatis;
int64_t numOfRows;
int32_t order; // scan order
int32_t times; // repeat counts
int32_t current;
int32_t reverseTimes; // 0 by default
void* pTsdbReadHandle;
int32_t numOfBlocks; // extract basic running information.
int32_t numOfSkipped;
int32_t numOfBlockStatis;
int64_t numOfRows;
int32_t order; // scan order
int32_t times; // repeat counts
int32_t current;
int32_t reverseTimes; // 0 by default
SqlFunctionCtx* pCtx; // next operator query context
SResultRowInfo* pResultRowInfo;
int32_t* rowCellInfoOffset;
......@@ -424,8 +422,7 @@ typedef struct STableScanInfo {
int32_t numOfOutput;
int64_t elapsedTime;
int32_t prevGroupId; // previous table group id
int32_t scanFlag; // table scan flag to denote if it is a repeat/reverse/main scan
int32_t scanFlag; // table scan flag to denote if it is a repeat/reverse/main scan
} STableScanInfo;
typedef struct STagScanInfo {
......@@ -443,21 +440,43 @@ typedef struct SStreamBlockScanInfo {
void* readerHandle; // stream block reader handle
} SStreamBlockScanInfo;
typedef struct SSysTableScanInfo {
union {
void* pTransporter;
void* readHandle;
};
void *pCur; // cursor
SRetrieveTableReq* pReq;
SEpSet epSet;
int32_t type; // show type
tsem_t ready;
SSchema* pSchema;
SSDataBlock* pRes;
int32_t capacity;
int64_t numOfBlocks; // extract basic running information.
int64_t totalRows;
int64_t elapsedTime;
int64_t totalBytes;
} SSysTableScanInfo;
typedef struct SOptrBasicInfo {
SResultRowInfo resultRowInfo;
int32_t* rowCellInfoOffset; // offset value for each row result cell info
SqlFunctionCtx* pCtx;
SSDataBlock* pRes;
uint32_t resRowSize;
int32_t capacity;
} SOptrBasicInfo;
//TODO move the resultrowsiz together with SOptrBasicInfo:rowCellInfoOffset
typedef struct SAggSupporter {
SHashObj* pResultRowHashTable; // quick locate the window object for each result
SHashObj* pResultRowListSet; // used to check if current ResultRowInfo has ResultRow object or not
SArray* pResultRowArrayList; // The array list that contains the Result rows
char* keyBuf; // window key buffer
SResultRowPool *pool; // The window result objects pool, all the resultRow Objects are allocated and managed by this object.
int32_t resultRowSize; // the result buffer size for each result row, with the meta data size for each row
} SAggSupporter;
typedef struct STableIntervalOperatorInfo {
......@@ -613,13 +632,15 @@ typedef struct SOrderOperatorInfo {
uint64_t totalElapsed; // total elapsed time
} SOrderOperatorInfo;
SOperatorInfo* createExchangeOperatorInfo(const SArray* pSources, const SArray* pSchema, SExecTaskInfo* pTaskInfo);
SOperatorInfo* createExchangeOperatorInfo(const SNodeList* pSources, SSDataBlock* pBlock, SExecTaskInfo* pTaskInfo);
SOperatorInfo* createTableScanOperatorInfo(void* pTsdbReadHandle, int32_t order, int32_t numOfOutput,
int32_t repeatTime, int32_t reverseTime, SExecTaskInfo* pTaskInfo);
SOperatorInfo* createTableSeqScanOperatorInfo(void* pTsdbReadHandle, STaskRuntimeEnv* pRuntimeEnv);
SOperatorInfo* createAggregateOperatorInfo(SOperatorInfo* downstream, SArray* pExprInfo, SExecTaskInfo* pTaskInfo, const STableGroupInfo* pTableGroupInfo);
SOperatorInfo* createMultiTableAggOperatorInfo(SOperatorInfo* downstream, SArray* pExprInfo, SExecTaskInfo* pTaskInfo, const STableGroupInfo* pTableGroupInfo);
SOperatorInfo* createAggregateOperatorInfo(SOperatorInfo* downstream, SArray* pExprInfo, SSDataBlock* pResultBlock, SExecTaskInfo* pTaskInfo, const STableGroupInfo* pTableGroupInfo);
SOperatorInfo* createMultiTableAggOperatorInfo(SOperatorInfo* downstream, SArray* pExprInfo, SSDataBlock* pResultBlock, SExecTaskInfo* pTaskInfo, const STableGroupInfo* pTableGroupInfo);
SOperatorInfo* createProjectOperatorInfo(SOperatorInfo* downstream, SArray* pExprInfo, SExecTaskInfo* pTaskInfo);
SOperatorInfo* createSysTableScanOperatorInfo(void* pSysTableReadHandle, const SArray* pExprInfo, const SSchema* pSchema,
int32_t tableType, SEpSet epset, SExecTaskInfo* pTaskInfo);
SOperatorInfo* createLimitOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOperatorInfo* downstream);
SOperatorInfo* createIntervalOperatorInfo(SOperatorInfo* downstream, SArray* pExprInfo, SInterval* pInterval, SExecTaskInfo* pTaskInfo);
......@@ -650,8 +671,6 @@ SOperatorInfo* createStatewindowOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOper
int32_t numOfOutput);
SOperatorInfo* createSLimitOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOperatorInfo* downstream, SExprInfo* pExpr,
int32_t numOfOutput, void* merger, bool multigroupResult);
SOperatorInfo* createFilterOperatorInfo(STaskRuntimeEnv* pRuntimeEnv, SOperatorInfo* downstream, SExprInfo* pExpr,
int32_t numOfOutput, SColumnInfo* pCols, int32_t numOfFilter);
SOperatorInfo* createJoinOperatorInfo(SOperatorInfo** pdownstream, int32_t numOfDownstream, SSchema* pSchema,
int32_t numOfOutput);
......@@ -676,16 +695,8 @@ void updateOutputBuf(SOptrBasicInfo* pBInfo, int32_t* bufCapacity, int32_t numOf
void clearOutputBuf(SOptrBasicInfo* pBInfo, int32_t* bufCapacity);
void copyTsColoum(SSDataBlock* pRes, SqlFunctionCtx* pCtx, int32_t numOfOutput);
int32_t createQueryFunc(SQueriedTableInfo* pTableInfo, int32_t numOfOutput, SExprInfo** pExprInfo, SSqlExpr** pExprMsg,
SColumnInfo* pTagCols, int32_t queryType, void* pMsg, struct SUdfInfo* pUdfInfo);
int32_t createIndirectQueryFuncExprFromMsg(SQueryTableReq* pQueryMsg, int32_t numOfOutput, SExprInfo** pExprInfo,
SSqlExpr** pExpr, SExprInfo* prevExpr, struct SUdfInfo* pUdfInfo);
int32_t createQueryFilter(char* data, uint16_t len, SFilterInfo** pFilters);
SGroupbyExpr* createGroupbyExprFromMsg(SQueryTableReq* pQueryMsg, SColIndex* pColIndex, int32_t* code);
int32_t initQInfo(STsBufInfo* pTsBufInfo, void* tsdb, void* sourceOptr, SQInfo* pQInfo, STaskParam* param, char* start,
int32_t prevResultLen, void* merger);
......
......@@ -25,8 +25,8 @@ int32_t dsDataSinkMgtInit(SDataSinkMgtCfg *cfg) {
pthread_mutex_init(&gDataSinkManager.mutex, NULL);
}
int32_t dsCreateDataSinker(const struct SDataSink *pDataSink, DataSinkHandle* pHandle) {
if (DSINK_Dispatch == pDataSink->info.type) {
int32_t dsCreateDataSinker(const SDataSinkNode *pDataSink, DataSinkHandle* pHandle) {
if (QUERY_NODE_PHYSICAL_PLAN_DISPATCH == nodeType(pDataSink)) {
return createDataDispatcher(&gDataSinkManager, pDataSink, pHandle);
}
return TSDB_CODE_FAILED;
......
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