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fix:fix conflict merge from 3.0

This commit is contained in:
wangmm0220 2022-06-04 12:10:25 +08:00
parent c937313e3f 55e6f15b55
commit 14f5019c6e
88 changed files with 3595 additions and 1751 deletions
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1
include/client/taos.h
View File

@ -162,7 +162,6 @@ DLL_EXPORT int taos_stmt_affected_rows(TAOS_STMT *stmt);
DLL_EXPORT int taos_stmt_affected_rows_once(TAOS_STMT *stmt);
DLL_EXPORT TAOS_RES *taos_query(TAOS *taos, const char *sql);
DLL_EXPORT TAOS_RES *taos_query_l(TAOS *taos, const char *sql, int sqlLen);
DLL_EXPORT TAOS_ROW taos_fetch_row(TAOS_RES *res);
DLL_EXPORT int taos_result_precision(TAOS_RES *res); // get the time precision of result

40
include/common/tdataformat.h
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@ -46,6 +46,7 @@ void tTSchemaDestroy(STSchema *pTSchema);
#define COL_VAL_NULL(CID) ((SColVal){.cid = (CID), .isNull = 1})
#define COL_VAL_VALUE(CID, V) ((SColVal){.cid = (CID), .value = (V)})
int32_t tTSRowNew(STSRowBuilder *pBuilder, SArray *pArray, STSchema *pTSchema, STSRow2 **ppRow);
int32_t tTSRowClone(const STSRow2 *pRow, STSRow2 **ppRow);
void tTSRowFree(STSRow2 *pRow);
void tTSRowGet(STSRow2 *pRow, STSchema *pTSchema, int32_t iCol, SColVal *pColVal);
@ -54,24 +55,24 @@ int32_t tPutTSRow(uint8_t *p, STSRow2 *pRow);
int32_t tGetTSRow(uint8_t *p, STSRow2 *pRow);
// STSRowBuilder
#if 0
int32_t tTSRowBuilderInit(STSRowBuilder *pBuilder, int32_t sver, int32_t nCols, SSchema *pSchema);
void tTSRowBuilderClear(STSRowBuilder *pBuilder);
void tTSRowBuilderReset(STSRowBuilder *pBuilder);
int32_t tTSRowBuilderPut(STSRowBuilder *pBuilder, int32_t cid, uint8_t *pData, uint32_t nData);
int32_t tTSRowBuilderGetRow(STSRowBuilder *pBuilder, const STSRow2 **ppRow);
#endif
#define tsRowBuilderInit() ((STSRowBuilder){0})
#define tsRowBuilderClear(B) \
do { \
if ((B)->pBuf) { \
taosMemoryFree((B)->pBuf); \
} \
} while (0)
// STag
int32_t tTagNew(SArray *pArray, int32_t version, int8_t isJson, STag **ppTag);
void tTagFree(STag *pTag);
bool tTagGet(const STag *pTag, STagVal *pTagVal);
char* tTagValToData(const STagVal *pTagVal, bool isJson);
char *tTagValToData(const STagVal *pTagVal, bool isJson);
int32_t tEncodeTag(SEncoder *pEncoder, const STag *pTag);
int32_t tDecodeTag(SDecoder *pDecoder, STag **ppTag);
int32_t tTagToValArray(const STag *pTag, SArray **ppArray);
void debugPrintSTag(STag *pTag, const char *tag, int32_t ln); // TODO: remove
void debugCheckTags(STag *pTag); // TODO: remove
void debugPrintSTag(STag *pTag, const char *tag, int32_t ln); // TODO: remove
void debugCheckTags(STag *pTag); // TODO: remove
// STRUCT =================
struct STColumn {
@ -106,17 +107,9 @@ struct STSRow2 {
};
struct STSRowBuilder {
STSchema *pTSchema;
int32_t szBitMap1;
int32_t szBitMap2;
int32_t szKVBuf;
uint8_t *pKVBuf;
int32_t szTPBuf;
uint8_t *pTPBuf;
int32_t iCol;
int32_t vlenKV;
int32_t vlenTP;
STSRow2 row;
STSRow2 tsRow;
int32_t szBuf;
uint8_t *pBuf;
};
struct SValue {
@ -154,7 +147,7 @@ struct STagVal {
};
int8_t type;
union {
int64_t i64;
int64_t i64;
struct {
uint32_t nData;
uint8_t *pData;
@ -162,7 +155,7 @@ struct STagVal {
};
};
#define TD_TAG_JSON ((int8_t)0x40) // distinguish JSON string and JSON value with the highest bit
#define TD_TAG_JSON ((int8_t)0x40) // distinguish JSON string and JSON value with the highest bit
#define TD_TAG_LARGE ((int8_t)0x20)
struct STag {
int8_t flags;
@ -422,4 +415,3 @@ int32_t tdMergeDataCols(SDataCols *target, SDataCols *source, int32_t rowsToM
#endif
#endif /*_TD_COMMON_DATA_FORMAT_H_*/

1
include/common/tmsg.h
View File

@ -241,6 +241,7 @@ typedef struct {
int32_t schemaLen; // schema length, if length is 0, no schema exists
int16_t numOfRows; // total number of rows in current submit block
// head of SSubmitBlk
int32_t numOfBlocks;
const void* pMsg;
} SSubmitMsgIter;

4
include/common/tmsgcb.h
View File

@ -38,7 +38,7 @@ typedef enum {
QUEUE_MAX,
} EQueueType;
typedef int32_t (*PutToQueueFp)(void* pMgmt, SRpcMsg* pMsg);
typedef int32_t (*PutToQueueFp)(void* pMgmt, EQueueType qtype, SRpcMsg* pMsg);
typedef int32_t (*GetQueueSizeFp)(void* pMgmt, int32_t vgId, EQueueType qtype);
typedef int32_t (*SendReqFp)(const SEpSet* pEpSet, SRpcMsg* pMsg);
typedef void (*SendRspFp)(SRpcMsg* pMsg);
@ -50,7 +50,7 @@ typedef void (*ReportStartup)(const char* name, const char* desc);
typedef struct {
void* mgmt;
void* clientRpc;
PutToQueueFp queueFps[QUEUE_MAX];
PutToQueueFp putToQueueFp;
GetQueueSizeFp qsizeFp;
SendReqFp sendReqFp;
SendRspFp sendRspFp;

170
include/common/tmsgdef.h
View File

@ -70,106 +70,102 @@ enum {
// Requests handled by DNODE
TD_NEW_MSG_SEG(TDMT_DND_MSG)
TD_DEF_MSG_TYPE(TDMT_DND_CREATE_MNODE, "dnode-create-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_ALTER_MNODE, "dnode-alter-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_DROP_MNODE, "dnode-drop-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_CREATE_QNODE, "dnode-create-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_ALTER_QNODE, "dnode-alter-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_DROP_QNODE, "dnode-drop-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_CREATE_SNODE, "dnode-create-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_ALTER_SNODE, "dnode-alter-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_DROP_SNODE, "dnode-drop-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_CREATE_BNODE, "dnode-create-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_ALTER_BNODE, "dnode-alter-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_DROP_BNODE, "dnode-drop-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_CREATE_VNODE, "dnode-create-vnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_DROP_VNODE, "dnode-drop-vnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_CONFIG_DNODE, "dnode-config-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_SERVER_STATUS, "dnode-server-status", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_NET_TEST, "dnode-net-test", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_CREATE_VNODE, "create-vnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_DROP_VNODE, "drop-vnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_SERVER_STATUS, "server-status", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_NET_TEST, "net-test", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_DND_CONFIG_DNODE, "config-dnode", NULL, NULL)
// Requests handled by MNODE
TD_NEW_MSG_SEG(TDMT_MND_MSG)
TD_DEF_MSG_TYPE(TDMT_MND_CONNECT, "mnode-connect", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_ACCT, "mnode-create-acct", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_ACCT, "mnode-alter-acct", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_ACCT, "mnode-drop-acct", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_USER, "mnode-create-user", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_USER, "mnode-alter-user", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_USER, "mnode-drop-user", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_GET_USER_AUTH, "mnode-get-user-auth", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_DNODE, "mnode-create-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CONFIG_DNODE, "mnode-config-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_DNODE, "mnode-alter-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_DNODE, "mnode-drop-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_MNODE, "mnode-create-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_MNODE, "mnode-alter-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_MNODE, "mnode-drop-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_QNODE, "mnode-create-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_QNODE, "mnode-alter-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_QNODE, "mnode-drop-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_SNODE, "mnode-create-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_SNODE, "mnode-alter-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_SNODE, "mnode-drop-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_BNODE, "mnode-create-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_BNODE, "mnode-alter-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_BNODE, "mnode-drop-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_DB, "mnode-create-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_DB, "mnode-drop-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_USE_DB, "mnode-use-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_DB, "mnode-alter-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_SYNC_DB, "mnode-sync-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_COMPACT_DB, "mnode-compact-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_FUNC, "mnode-create-func", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_RETRIEVE_FUNC, "mnode-retrieve-func", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_FUNC, "mnode-drop-func", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_STB, "mnode-create-stb", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_STB, "mnode-alter-stb", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_STB, "mnode-drop-stb", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_SMA, "mnode-create-sma", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_SMA, "mnode-drop-sma", 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_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)
TD_DEF_MSG_TYPE(TDMT_MND_TELEM_TIMER, "mnode-telem-tmr", SMTimerReq, SMTimerReq)
TD_DEF_MSG_TYPE(TDMT_MND_GRANT, "mnode-grant", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_AUTH, "mnode-auth", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_TOPIC, "mnode-create-topic", SMCreateTopicReq, SMCreateTopicRsp)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_TOPIC, "mnode-alter-topic", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_TOPIC, "mnode-drop-topic", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_SUBSCRIBE, "mnode-subscribe", SCMSubscribeReq, SCMSubscribeRsp)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_ASK_EP, "mnode-mq-ask-ep", SMqAskEpReq, SMqAskEpRsp)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_TIMER, "mnode-mq-tmr", SMTimerReq, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_CONSUMER_LOST, "mnode-mq-consumer-lost", SMqConsumerLostMsg, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_CONSUMER_RECOVER, "mnode-mq-consumer-recover", SMqConsumerRecoverMsg, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_DO_REBALANCE, "mnode-mq-do-rebalance", SMqDoRebalanceMsg, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_DROP_CGROUP, "mnode-mq-drop-cgroup", SMqDropCGroupReq, SMqDropCGroupRsp)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_COMMIT_OFFSET, "mnode-mq-commit-offset", SMqCMCommitOffsetReq, SMqCMCommitOffsetRsp)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_STREAM, "mnode-create-stream", SCMCreateStreamReq, SCMCreateStreamRsp)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_STREAM, "mnode-alter-stream", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_STREAM, "mnode-drop-stream", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_INDEX, "mnode-create-index", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_INDEX, "mnode-drop-index", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_GET_DB_CFG, "mnode-get-db-cfg", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_GET_INDEX, "mnode-get-index", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_APPLY_MSG, "mnode-apply-msg", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CONNECT, "connect", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_ACCT, "create-acct", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_ACCT, "alter-acct", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_ACCT, "drop-acct", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_USER, "create-user", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_USER, "alter-user", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_USER, "drop-user", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_GET_USER_AUTH, "get-user-auth", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_DNODE, "create-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CONFIG_DNODE, "config-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_DNODE, "alter-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_DNODE, "drop-dnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_MNODE, "create-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_MNODE, "alter-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_MNODE, "drop-mnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_QNODE, "create-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_QNODE, "alter-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_QNODE, "drop-qnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_SNODE, "create-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_SNODE, "alter-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_SNODE, "drop-snode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_BNODE, "create-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_BNODE, "alter-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_BNODE, "drop-bnode", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_DB, "create-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_DB, "drop-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_USE_DB, "use-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_DB, "alter-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_SYNC_DB, "sync-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_COMPACT_DB, "compact-db", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_FUNC, "create-func", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_RETRIEVE_FUNC, "retrieve-func", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_FUNC, "drop-func", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_STB, "create-stb", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_STB, "alter-stb", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_STB, "drop-stb", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_SMA, "create-sma", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_SMA, "drop-sma", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_TABLE_META, "table-meta", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_VGROUP_LIST, "vgroup-list", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_QNODE_LIST, "qnode-list", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_KILL_QUERY, "kill-query", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_KILL_CONN, "kill-conn", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_HEARTBEAT, "heartbeat", SClientHbBatchReq, SClientHbBatchRsp)
TD_DEF_MSG_TYPE(TDMT_MND_SHOW, "show", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_SYSTABLE_RETRIEVE, "systable-retrieve", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_STATUS, "status", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_TRANS_TIMER, "trans-tmr", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_KILL_TRANS, "kill-trans", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_TELEM_TIMER, "telem-tmr", SMTimerReq, SMTimerReq)
TD_DEF_MSG_TYPE(TDMT_MND_GRANT, "grant", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_AUTH, "auth", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_TOPIC, "create-topic", SMCreateTopicReq, SMCreateTopicRsp)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_TOPIC, "alter-topic", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_TOPIC, "drop-topic", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_SUBSCRIBE, "subscribe", SCMSubscribeReq, SCMSubscribeRsp)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_ASK_EP, "mq-ask-ep", SMqAskEpReq, SMqAskEpRsp)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_TIMER, "mq-tmr", SMTimerReq, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_CONSUMER_LOST, "mq-consumer-lost", SMqConsumerLostMsg, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_CONSUMER_RECOVER, "mq-consumer-recover", SMqConsumerRecoverMsg, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_DO_REBALANCE, "mq-do-rebalance", SMqDoRebalanceMsg, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_DROP_CGROUP, "mq-drop-cgroup", SMqDropCGroupReq, SMqDropCGroupRsp)
TD_DEF_MSG_TYPE(TDMT_MND_MQ_COMMIT_OFFSET, "mq-commit-offset", SMqCMCommitOffsetReq, SMqCMCommitOffsetRsp)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_STREAM, "create-stream", SCMCreateStreamReq, SCMCreateStreamRsp)
TD_DEF_MSG_TYPE(TDMT_MND_ALTER_STREAM, "alter-stream", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_STREAM, "drop-stream", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_CREATE_INDEX, "create-index", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_DROP_INDEX, "drop-index", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_GET_DB_CFG, "get-db-cfg", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_GET_INDEX, "get-index", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_MND_APPLY_MSG, "apply-msg", NULL, NULL)
// Requests handled by VNODE
TD_NEW_MSG_SEG(TDMT_VND_MSG)
TD_DEF_MSG_TYPE(TDMT_VND_SUBMIT, "vnode-submit", SSubmitReq, SSubmitRsp)
TD_DEF_MSG_TYPE(TDMT_VND_QUERY, "vnode-query", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_FETCH, "vnode-fetch", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_CREATE_TABLE, "vnode-create-table", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_ALTER_TABLE, "vnode-alter-table", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_DROP_TABLE, "vnode-drop-table", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_UPDATE_TAG_VAL, "vnode-update-tag-val", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_SUBMIT, "submit", SSubmitReq, SSubmitRsp)
TD_DEF_MSG_TYPE(TDMT_VND_QUERY, "query", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_FETCH, "fetch", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_CREATE_TABLE, "create-table", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_ALTER_TABLE, "alter-table", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_DROP_TABLE, "drop-table", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_UPDATE_TAG_VAL, "update-tag-val", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_TABLE_META, "vnode-table-meta", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_TABLES_META, "vnode-tables-meta", NULL, NULL)
TD_DEF_MSG_TYPE(TDMT_VND_CREATE_STB, "vnode-create-stb", SVCreateStbReq, NULL)

87
include/common/ttypes.h
View File

@ -30,7 +30,7 @@ typedef uint64_t TDRowVerT;
typedef int16_t col_id_t;
typedef int8_t col_type_t;
typedef int32_t col_bytes_t;
typedef int32_t schema_ver_t;
typedef int32_t schema_ver_t;
typedef int32_t func_id_t;
#pragma pack(push, 1)
@ -49,8 +49,9 @@ typedef struct {
#define varDataCopy(dst, v) memcpy((dst), (void *)(v), varDataTLen(v))
#define varDataLenByData(v) (*(VarDataLenT *)(((char *)(v)) - VARSTR_HEADER_SIZE))
#define varDataSetLen(v, _len) (((VarDataLenT *)(v))[0] = (VarDataLenT)(_len))
#define IS_VAR_DATA_TYPE(t) (((t) == TSDB_DATA_TYPE_VARCHAR) || ((t) == TSDB_DATA_TYPE_NCHAR) || ((t) == TSDB_DATA_TYPE_JSON))
#define IS_STR_DATA_TYPE(t) (((t) == TSDB_DATA_TYPE_VARCHAR) || ((t) == TSDB_DATA_TYPE_NCHAR))
#define IS_VAR_DATA_TYPE(t) \
(((t) == TSDB_DATA_TYPE_VARCHAR) || ((t) == TSDB_DATA_TYPE_NCHAR) || ((t) == TSDB_DATA_TYPE_JSON))
#define IS_STR_DATA_TYPE(t) (((t) == TSDB_DATA_TYPE_VARCHAR) || ((t) == TSDB_DATA_TYPE_NCHAR))
#define varDataNetLen(v) (htons(((VarDataLenT *)(v))[0]))
#define varDataNetTLen(v) (sizeof(VarDataLenT) + varDataNetLen(v))
@ -142,52 +143,56 @@ typedef struct {
} \
} while (0)
#define NUM_TO_STRING(_inputType, _input, _outputBytes, _output) \
do { \
switch (_inputType) { \
case TSDB_DATA_TYPE_TINYINT: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(int8_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_UTINYINT: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(uint8_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_SMALLINT: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(int16_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_USMALLINT: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(uint16_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_TIMESTAMP: \
case TSDB_DATA_TYPE_BIGINT: \
snprintf(_output, (int32_t)(_outputBytes), "%" PRId64, *(int64_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_UBIGINT: \
snprintf(_output, (int32_t)(_outputBytes), "%" PRIu64, *(uint64_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_FLOAT: \
snprintf(_output, (int32_t)(_outputBytes), "%f", *(float *)(_input)); \
break; \
case TSDB_DATA_TYPE_DOUBLE: \
snprintf(_output, (int32_t)(_outputBytes), "%f", *(double *)(_input)); \
break; \
case TSDB_DATA_TYPE_UINT: \
snprintf(_output, (int32_t)(_outputBytes), "%u", *(uint32_t *)(_input)); \
break; \
default: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(int32_t *)(_input)); \
break; \
} \
#define NUM_TO_STRING(_inputType, _input, _outputBytes, _output) \
do { \
switch (_inputType) { \
case TSDB_DATA_TYPE_TINYINT: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(int8_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_UTINYINT: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(uint8_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_SMALLINT: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(int16_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_USMALLINT: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(uint16_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_TIMESTAMP: \
case TSDB_DATA_TYPE_BIGINT: \
snprintf(_output, (int32_t)(_outputBytes), "%" PRId64, *(int64_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_UBIGINT: \
snprintf(_output, (int32_t)(_outputBytes), "%" PRIu64, *(uint64_t *)(_input)); \
break; \
case TSDB_DATA_TYPE_FLOAT: \
snprintf(_output, (int32_t)(_outputBytes), "%f", *(float *)(_input)); \
break; \
case TSDB_DATA_TYPE_DOUBLE: \
snprintf(_output, (int32_t)(_outputBytes), "%f", *(double *)(_input)); \
break; \
case TSDB_DATA_TYPE_UINT: \
snprintf(_output, (int32_t)(_outputBytes), "%u", *(uint32_t *)(_input)); \
break; \
default: \
snprintf(_output, (int32_t)(_outputBytes), "%d", *(int32_t *)(_input)); \
break; \
} \
} while (0)
//TODO: use varchar(0) to represent NULL type
#define IS_VAR_NULL_TYPE(_t, _b) ((_t) == TSDB_DATA_TYPE_VARCHAR && (_b) == 0)
#define IS_NULL_TYPE(_t) ((_t) == TSDB_DATA_TYPE_NULL)
#define IS_SIGNED_NUMERIC_TYPE(_t) ((_t) >= TSDB_DATA_TYPE_TINYINT && (_t) <= TSDB_DATA_TYPE_BIGINT)
#define IS_UNSIGNED_NUMERIC_TYPE(_t) ((_t) >= TSDB_DATA_TYPE_UTINYINT && (_t) <= TSDB_DATA_TYPE_UBIGINT)
#define IS_FLOAT_TYPE(_t) ((_t) == TSDB_DATA_TYPE_FLOAT || (_t) == TSDB_DATA_TYPE_DOUBLE)
#define IS_INTEGER_TYPE(_t) ((IS_SIGNED_NUMERIC_TYPE(_t)) || (IS_UNSIGNED_NUMERIC_TYPE(_t)))
#define IS_NUMERIC_TYPE(_t) ((IS_SIGNED_NUMERIC_TYPE(_t)) || (IS_UNSIGNED_NUMERIC_TYPE(_t)) || (IS_FLOAT_TYPE(_t)))
#define IS_MATHABLE_TYPE(_t) (IS_NUMERIC_TYPE(_t) || (_t) == (TSDB_DATA_TYPE_BOOL) || (_t) == (TSDB_DATA_TYPE_TIMESTAMP))
#define IS_MATHABLE_TYPE(_t) \
(IS_NUMERIC_TYPE(_t) || (_t) == (TSDB_DATA_TYPE_BOOL) || (_t) == (TSDB_DATA_TYPE_TIMESTAMP))
#define IS_VALID_TINYINT(_t) ((_t) >= INT8_MIN && (_t) <= INT8_MAX)
#define IS_VALID_SMALLINT(_t) ((_t) >= INT16_MIN && (_t) <= INT16_MAX)
@ -244,7 +249,7 @@ typedef struct tDataTypeDescriptor {
int16_t type;
int16_t nameLen;
int32_t bytes;
char *name;
char * name;
int64_t minValue;
int64_t maxValue;
int32_t (*compFunc)(const char *const input, int32_t inputSize, const int32_t nelements, char *const output,
@ -277,4 +282,4 @@ void *getDataMax(int32_t type);
}
#endif
#endif /*_TD_COMMON_TTYPE_H_*/
#endif /*_TD_COMMON_TTYPE_H_*/

1
include/libs/nodes/plannodes.h
View File

@ -229,6 +229,7 @@ typedef struct STableScanPhysiNode {
double ratio;
int32_t dataRequired;
SNodeList* pDynamicScanFuncs;
SNodeList* pPartitionKeys;
int64_t interval;
int64_t offset;
int64_t sliding;

4
include/libs/scheduler/scheduler.h
View File

@ -100,7 +100,7 @@ int32_t schedulerExecJob(void *transport, SArray *nodeList, SQueryPlan *pDag, in
*/
int32_t schedulerFetchRows(int64_t job, void **data);
int32_t schedulerAsyncFetchRows(int64_t job, schedulerFetchCallback fp, void* param);
void schedulerAsyncFetchRows(int64_t job, schedulerFetchCallback fp, void* param);
int32_t schedulerGetTasksStatus(int64_t job, SArray *pSub);
@ -121,8 +121,6 @@ void schedulerFreeJob(int64_t job);
void schedulerDestroy(void);
void schdExecCallback(SQueryResult* pResult, void* param, int32_t code);
void schdFetchCallback(void* pResult, void* param, int32_t code);
#ifdef __cplusplus
}

4
include/util/tutil.h
View File

@ -57,11 +57,13 @@ static FORCE_INLINE void taosEncryptPass_c(uint8_t *inBuf, size_t len, char *tar
tMD5Init(&context);
tMD5Update(&context, inBuf, (uint32_t)len);
tMD5Final(&context);
char buf[TSDB_PASSWORD_LEN + 1];
sprintf(target, "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x", context.digest[0],
sprintf(buf, "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x", context.digest[0],
context.digest[1], context.digest[2], context.digest[3], context.digest[4], context.digest[5],
context.digest[6], context.digest[7], context.digest[8], context.digest[9], context.digest[10],
context.digest[11], context.digest[12], context.digest[13], context.digest[14], context.digest[15]);
memcpy(target, buf, TSDB_PASSWORD_LEN);
}
#ifdef __cplusplus

20
source/client/inc/clientInt.h
View File

@ -46,6 +46,8 @@ extern "C" {
#define ERROR_MSG_BUF_DEFAULT_SIZE 512
#define HEARTBEAT_INTERVAL 1500 // ms
#define SYNC_ON_TOP_OF_ASYNC 0
enum {
RES_TYPE__QUERY = 1,
RES_TYPE__TMQ,
@ -183,7 +185,9 @@ typedef struct SReqResultInfo {
typedef struct SRequestSendRecvBody {
tsem_t rspSem; // not used now
void* fp;
__taos_async_fn_t queryFp;
__taos_async_fn_t fetchFp;
void* param;
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.
@ -219,13 +223,21 @@ typedef struct SRequestObj {
SRequestSendRecvBody body;
} SRequestObj;
typedef struct SSyncQueryParam {
tsem_t sem;
SRequestObj* pRequest;
} SSyncQueryParam;
void* doAsyncFetchRow(SRequestObj* pRequest, bool setupOneRowPtr, bool convertUcs4);
void* doFetchRows(SRequestObj* pRequest, bool setupOneRowPtr, bool convertUcs4);
void doSetOneRowPtr(SReqResultInfo* pResultInfo);
void setResPrecision(SReqResultInfo* pResInfo, int32_t precision);
int32_t setQueryResultFromRsp(SReqResultInfo* pResultInfo, const SRetrieveTableRsp* pRsp, bool convertUcs4,
bool freeAfterUse);
void setResSchemaInfo(SReqResultInfo* pResInfo, const SSchema* pSchema, int32_t numOfCols);
void doFreeReqResultInfo(SReqResultInfo* pResInfo);
SRequestObj* execQuery(STscObj* pTscObj, const char* sql, int sqlLen);
static FORCE_INLINE SReqResultInfo* tmqGetCurResInfo(TAOS_RES* res) {
SMqRspObj* msg = (SMqRspObj*)res;
@ -271,7 +283,7 @@ int32_t releaseTscObj(int64_t rid);
uint64_t generateRequestId();
void* createRequest(STscObj* pObj, __taos_async_fn_t fp, void* param, int32_t type);
void* createRequest(STscObj* pObj, void* param, int32_t type);
void destroyRequest(SRequestObj* pRequest);
SRequestObj* acquireRequest(int64_t rid);
int32_t releaseRequest(int64_t rid);
@ -319,9 +331,9 @@ int hbAddConnInfo(SAppHbMgr* pAppHbMgr, SClientHbKey connKey, void* key, void* v
// --- mq
void hbMgrInitMqHbRspHandle();
SRequestObj* launchQueryImpl(SRequestObj* pRequest, SQuery* pQuery, int32_t code, bool keepQuery, void** res);
int32_t getQueryPlan(SRequestObj* pRequest, SQuery* pQuery, SArray** pNodeList);
SRequestObj* launchQueryImpl(SRequestObj* pRequest, SQuery* pQuery, bool keepQuery, void** res);
int32_t scheduleQuery(SRequestObj* pRequest, SQueryPlan* pDag, SArray* pNodeList);
void launchAsyncQuery(SRequestObj* pRequest, SQuery* pQuery);
int32_t refreshMeta(STscObj* pTscObj, SRequestObj* pRequest);
int32_t updateQnodeList(SAppInstInfo* pInfo, SArray* pNodeList);

9
source/client/src/clientEnv.c
View File

@ -13,10 +13,11 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "os.h"
#include "catalog.h"
#include "functionMgt.h"
#include "clientInt.h"
#include "clientLog.h"
#include "os.h"
#include "query.h"
#include "scheduler.h"
#include "tcache.h"
@ -171,7 +172,7 @@ STscObj *acquireTscObj(int64_t rid) { return (STscObj *)taosAcquireRef(clientCon
int32_t releaseTscObj(int64_t rid) { return taosReleaseRef(clientConnRefPool, rid); }
void *createRequest(STscObj *pObj, __taos_async_fn_t fp, void *param, int32_t type) {
void *createRequest(STscObj *pObj, void *param, int32_t type) {
assert(pObj != NULL);
SRequestObj *pRequest = (SRequestObj *)taosMemoryCalloc(1, sizeof(SRequestObj));
@ -185,9 +186,10 @@ void *createRequest(STscObj *pObj, __taos_async_fn_t fp, void *param, int32_t ty
pRequest->requestId = generateRequestId();
pRequest->metric.start = taosGetTimestampUs();
pRequest->body.param = param;
pRequest->type = type;
pRequest->pTscObj = pObj;
pRequest->body.fp = fp; // not used it yet
pRequest->msgBuf = taosMemoryCalloc(1, ERROR_MSG_BUF_DEFAULT_SIZE);
pRequest->msgBufLen = ERROR_MSG_BUF_DEFAULT_SIZE;
tsem_init(&pRequest->body.rspSem, 0, 0);
@ -288,6 +290,7 @@ void taos_init_imp(void) {
taosSetCoreDump(true);
initTaskQueue();
fmFuncMgtInit();
clientConnRefPool = taosOpenRef(200, destroyTscObj);
clientReqRefPool = taosOpenRef(40960, doDestroyRequest);

251
source/client/src/clientImpl.c
View File

@ -133,7 +133,7 @@ TAOS* taos_connect_internal(const char* ip, const char* user, const char* pass,
}
int32_t buildRequest(STscObj* pTscObj, const char* sql, int sqlLen, SRequestObj** pRequest) {
*pRequest = createRequest(pTscObj, NULL, NULL, TSDB_SQL_SELECT);
*pRequest = createRequest(pTscObj, NULL, TSDB_SQL_SELECT);
if (*pRequest == NULL) {
tscError("failed to malloc sqlObj");
return TSDB_CODE_TSC_OUT_OF_MEMORY;
@ -192,6 +192,7 @@ int32_t parseSql(SRequestObj* pRequest, bool topicQuery, SQuery** pQuery, SStmtC
setResPrecision(&pRequest->body.resInfo, (*pQuery)->precision);
}
}
if (TSDB_CODE_SUCCESS == code || NEED_CLIENT_HANDLE_ERROR(code)) {
TSWAP(pRequest->dbList, (*pQuery)->pDbList);
TSWAP(pRequest->tableList, (*pQuery)->pTableList);
@ -230,6 +231,29 @@ int32_t execDdlQuery(SRequestObj* pRequest, SQuery* pQuery) {
return TSDB_CODE_SUCCESS;
}
static SAppInstInfo* getAppInfo(SRequestObj* pRequest) {
return pRequest->pTscObj->pAppInfo;
}
int32_t asyncExecDdlQuery(SRequestObj* pRequest, SQuery* pQuery) {
// drop table if exists not_exists_table
if (NULL == pQuery->pCmdMsg) {
return TSDB_CODE_SUCCESS;
}
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
SAppInstInfo* pAppInfo = getAppInfo(pRequest);
SMsgSendInfo* pSendMsg = buildMsgInfoImpl(pRequest);
int64_t transporterId = 0;
asyncSendMsgToServer(pAppInfo->pTransporter, &pMsgInfo->epSet, &transporterId, pSendMsg);
return TSDB_CODE_SUCCESS;
}
int compareQueryNodeLoad(const void* elem1, const void* elem2) {
SQueryNodeLoad* node1 = (SQueryNodeLoad*)elem1;
SQueryNodeLoad* node2 = (SQueryNodeLoad*)elem2;
@ -286,9 +310,11 @@ int32_t getQnodeList(SRequestObj* pRequest, SArray** pNodeList) {
int32_t getPlan(SRequestObj* pRequest, SQuery* pQuery, SQueryPlan** pPlan, SArray** pNodeList) {
pRequest->type = pQuery->msgType;
SAppInstInfo* pAppInfo = getAppInfo(pRequest);
SPlanContext cxt = {.queryId = pRequest->requestId,
.acctId = pRequest->pTscObj->acctId,
.mgmtEpSet = getEpSet_s(&pRequest->pTscObj->pAppInfo->mgmtEp),
.mgmtEpSet = getEpSet_s(&pAppInfo->mgmtEp),
.pAstRoot = pQuery->pRoot,
.showRewrite = pQuery->showRewrite,
.pMsg = pRequest->msgBuf,
@ -298,6 +324,7 @@ int32_t getPlan(SRequestObj* pRequest, SQuery* pQuery, SQueryPlan** pPlan, SArra
if (TSDB_CODE_SUCCESS == code) {
code = qCreateQueryPlan(&cxt, pPlan, *pNodeList);
}
return code;
}
@ -388,7 +415,7 @@ int32_t scheduleAsyncQuery(SRequestObj* pRequest, SQueryPlan* pDag, SArray* pNod
int32_t scheduleQuery(SRequestObj* pRequest, SQueryPlan* pDag, SArray* pNodeList) {
void* pTransporter = pRequest->pTscObj->pAppInfo->pTransporter;
SQueryResult res = {.code = 0, .numOfRows = 0};
SQueryResult res = {0};
int32_t code = schedulerExecJob(pTransporter, pNodeList, pDag, &pRequest->body.queryJob, pRequest->sqlstr,
pRequest->metric.start, &res);
@ -417,10 +444,6 @@ int32_t scheduleQuery(SRequestObj* pRequest, SQueryPlan* pDag, SArray* pNodeList
return pRequest->code;
}
int32_t getQueryPlan(SRequestObj* pRequest, SQuery* pQuery, SArray** pNodeList) {
return getPlan(pRequest, pQuery, &pRequest->body.pDag, pNodeList);
}
int32_t handleSubmitExecRes(SRequestObj* pRequest, void* res, SCatalog* pCatalog, SEpSet *epset) {
int32_t code = 0;
SArray* pArray = NULL;
@ -523,30 +546,37 @@ int32_t handleExecRes(SRequestObj* pRequest) {
return code;
}
SRequestObj* launchQueryImpl(SRequestObj* pRequest, SQuery* pQuery, int32_t code, bool keepQuery, void** res) {
if (TSDB_CODE_SUCCESS == code) {
switch (pQuery->execMode) {
case QUERY_EXEC_MODE_LOCAL:
code = execLocalCmd(pRequest, pQuery);
break;
case QUERY_EXEC_MODE_RPC:
code = execDdlQuery(pRequest, pQuery);
break;
case QUERY_EXEC_MODE_SCHEDULE: {
SArray* pNodeList = NULL;
code = getPlan(pRequest, pQuery, &pRequest->body.pDag, &pNodeList);
if (TSDB_CODE_SUCCESS == code) {
code = scheduleQuery(pRequest, pRequest->body.pDag, pNodeList);
}
taosArrayDestroy(pNodeList);
break;
void schedulerExecCb(SQueryResult* pResult, void* param, int32_t code) {
SRequestObj* pRequest = (SRequestObj*) param;
// return to client
pRequest->body.queryFp(pRequest->body.param, pRequest, code);
}
SRequestObj* launchQueryImpl(SRequestObj* pRequest, SQuery* pQuery, bool keepQuery, void** res) {
int32_t code = 0;
switch (pQuery->execMode) {
case QUERY_EXEC_MODE_LOCAL:
code = execLocalCmd(pRequest, pQuery);
break;
case QUERY_EXEC_MODE_RPC:
code = execDdlQuery(pRequest, pQuery);
break;
case QUERY_EXEC_MODE_SCHEDULE: {
SArray* pNodeList = NULL;
code = getPlan(pRequest, pQuery, &pRequest->body.pDag, &pNodeList);
if (TSDB_CODE_SUCCESS == code) {
code = scheduleQuery(pRequest, pRequest->body.pDag, pNodeList);
}
case QUERY_EXEC_MODE_EMPTY_RESULT:
pRequest->type = TSDB_SQL_RETRIEVE_EMPTY_RESULT;
break;
default:
break;
taosArrayDestroy(pNodeList);
break;
}
case QUERY_EXEC_MODE_EMPTY_RESULT:
pRequest->type = TSDB_SQL_RETRIEVE_EMPTY_RESULT;
break;
default:
break;
}
if (!keepQuery) {
@ -583,7 +613,70 @@ SRequestObj* launchQuery(STscObj* pTscObj, const char* sql, int sqlLen) {
return pRequest;
}
return launchQueryImpl(pRequest, pQuery, code, false, NULL);
return launchQueryImpl(pRequest, pQuery, false, NULL);
}
void launchAsyncQuery(SRequestObj* pRequest, SQuery* pQuery) {
void* pRes = NULL;
int32_t code = 0;
switch (pQuery->execMode) {
case QUERY_EXEC_MODE_LOCAL:
code = execLocalCmd(pRequest, pQuery);
break;
case QUERY_EXEC_MODE_RPC:
code = asyncExecDdlQuery(pRequest, pQuery);
break;
case QUERY_EXEC_MODE_SCHEDULE: {
SArray* pNodeList = taosArrayInit(4, sizeof(struct SQueryNodeAddr));
pRequest->type = pQuery->msgType;
SPlanContext cxt = {.queryId = pRequest->requestId,
.acctId = pRequest->pTscObj->acctId,
.mgmtEpSet = getEpSet_s(&pRequest->pTscObj->pAppInfo->mgmtEp),
.pAstRoot = pQuery->pRoot,
.showRewrite = pQuery->showRewrite,
.pMsg = pRequest->msgBuf,
.msgLen = ERROR_MSG_BUF_DEFAULT_SIZE};
SAppInstInfo* pAppInfo = getAppInfo(pRequest);
if (TSDB_CODE_SUCCESS == code) {
code = qCreateQueryPlan(&cxt, &pRequest->body.pDag, pNodeList);
}
if (TSDB_CODE_SUCCESS == code) {
schedulerAsyncExecJob(pAppInfo->pTransporter, pNodeList, pRequest->body.pDag, &pRequest->body.queryJob,
pRequest->sqlstr, pRequest->metric.start, schedulerExecCb, pRequest);
// if (NULL != pRes) {
// code = validateSversion(pRequest, pRes);
// }
}
taosArrayDestroy(pNodeList);
break;
}
case QUERY_EXEC_MODE_EMPTY_RESULT:
pRequest->type = TSDB_SQL_RETRIEVE_EMPTY_RESULT;
break;
default:
break;
}
// if (!keepQuery) {
// qDestroyQuery(pQuery);
// }
if (NULL != pRequest && TSDB_CODE_SUCCESS != code) {
pRequest->code = terrno;
}
// if (res) {
// *res = pRes;
// } else {
// freeRequestRes(pRequest, pRes);
// pRes = NULL;
}
int32_t refreshMeta(STscObj* pTscObj, SRequestObj* pRequest) {
@ -666,17 +759,6 @@ SRequestObj* execQuery(STscObj* pTscObj, const char* sql, int sqlLen) {
return pRequest;
}
TAOS_RES* taos_query_l(TAOS* taos, const char* sql, int sqlLen) {
STscObj* pTscObj = (STscObj*)taos;
if (sqlLen > (size_t)TSDB_MAX_ALLOWED_SQL_LEN) {
tscError("sql string exceeds max length:%d", TSDB_MAX_ALLOWED_SQL_LEN);
terrno = TSDB_CODE_TSC_EXCEED_SQL_LIMIT;
return NULL;
}
return execQuery(pTscObj, sql, sqlLen);
}
int initEpSetFromCfg(const char* firstEp, const char* secondEp, SCorEpSet* pEpSet) {
pEpSet->version = 0;
@ -726,7 +808,7 @@ STscObj* taosConnectImpl(const char* user, const char* auth, const char* db, __t
return pTscObj;
}
SRequestObj* pRequest = createRequest(pTscObj, fp, param, TDMT_MND_CONNECT);
SRequestObj* pRequest = createRequest(pTscObj, param, TDMT_MND_CONNECT);
if (pRequest == NULL) {
destroyTscObj(pTscObj);
terrno = TSDB_CODE_TSC_OUT_OF_MEMORY;
@ -843,8 +925,7 @@ void updateTargetEpSet(SMsgSendInfo* pSendInfo, STscObj* pTscObj, SRpcMsg* pMsg,
void processMsgFromServer(void* parent, SRpcMsg* pMsg, SEpSet* pEpSet) {
SMsgSendInfo* pSendInfo = (SMsgSendInfo*)pMsg->info.ahandle;
assert(pMsg->info.ahandle != NULL);
SRequestObj* pRequest = NULL;
STscObj* pTscObj = NULL;
STscObj* pTscObj = NULL;
if (pSendInfo->requestObjRefId != 0) {
SRequestObj* pRequest = (SRequestObj*)taosAcquireRef(clientReqRefPool, pSendInfo->requestObjRefId);
@ -923,7 +1004,7 @@ void doSetOneRowPtr(SReqResultInfo* pResultInfo) {
int32_t bytes = pResultInfo->fields[i].bytes;
if (IS_VAR_DATA_TYPE(type)) {
if (pCol->offset[pResultInfo->current] != -1) {
if (!IS_VAR_NULL_TYPE(type, bytes) && pCol->offset[pResultInfo->current] != -1) {
char* pStart = pResultInfo->pCol[i].offset[pResultInfo->current] + pResultInfo->pCol[i].pData;
pResultInfo->length[i] = varDataLen(pStart);
@ -944,58 +1025,7 @@ void doSetOneRowPtr(SReqResultInfo* pResultInfo) {
}
}
void* doAsyncFetchRows(SRequestObj* pRequest, bool setupOneRowPtr, bool convertUcs4) {
assert(pRequest != NULL);
SReqResultInfo* pResultInfo = &pRequest->body.resInfo;
if (pResultInfo->pData == NULL || pResultInfo->current >= pResultInfo->numOfRows) {
// All data has returned to App already, no need to try again
if (pResultInfo->completed) {
pResultInfo->numOfRows = 0;
return NULL;
}
tsem_init(&schdRspSem, 0, 0);
SReqResultInfo* pResInfo = &pRequest->body.resInfo;
SSchdFetchParam param = {.pData = (void**)&pResInfo->pData, .code = &pRequest->code};
pRequest->code = schedulerAsyncFetchRows(pRequest->body.queryJob, schdFetchCallback, &param);
if (pRequest->code != TSDB_CODE_SUCCESS) {
pResultInfo->numOfRows = 0;
return NULL;
}
tsem_wait(&schdRspSem);
if (pRequest->code != TSDB_CODE_SUCCESS) {
pResultInfo->numOfRows = 0;
return NULL;
}
pRequest->code =
setQueryResultFromRsp(&pRequest->body.resInfo, (SRetrieveTableRsp*)pResInfo->pData, convertUcs4, true);
if (pRequest->code != TSDB_CODE_SUCCESS) {
pResultInfo->numOfRows = 0;
return NULL;
}
tscDebug("0x%" PRIx64 " fetch results, numOfRows:%d total Rows:%" PRId64 ", complete:%d, reqId:0x%" PRIx64,
pRequest->self, pResInfo->numOfRows, pResInfo->totalRows, pResInfo->completed, pRequest->requestId);
if (pResultInfo->numOfRows == 0) {
return NULL;
}
}
if (setupOneRowPtr) {
doSetOneRowPtr(pResultInfo);
pResultInfo->current += 1;
}
return pResultInfo->row;
}
void* doFetchRows(SRequestObj* pRequest, bool setupOneRowPtr, bool convertUcs4) {
// return doAsyncFetchRows(pRequest, setupOneRowPtr, convertUcs4);
assert(pRequest != NULL);
SReqResultInfo* pResultInfo = &pRequest->body.resInfo;
@ -1036,6 +1066,35 @@ void* doFetchRows(SRequestObj* pRequest, bool setupOneRowPtr, bool convertUcs4)
return pResultInfo->row;
}
static void syncFetchFn(void* param, TAOS_RES* res, int32_t numOfRows) {
SSyncQueryParam* pParam = param;
tsem_post(&pParam->sem);
}
void* doAsyncFetchRow(SRequestObj* pRequest, bool setupOneRowPtr, bool convertUcs4) {
assert(pRequest != NULL);
SReqResultInfo* pResultInfo = &pRequest->body.resInfo;
if (pResultInfo->pData == NULL || pResultInfo->current >= pResultInfo->numOfRows) {
// All data has returned to App already, no need to try again
if (pResultInfo->completed) {
pResultInfo->numOfRows = 0;
return NULL;
}
SSyncQueryParam* pParam = pRequest->body.param;
taos_fetch_rows_a(pRequest, syncFetchFn, pParam);
tsem_wait(&pParam->sem);
}
if (pRequest->code == TSDB_CODE_SUCCESS && pResultInfo->numOfRows > 0 && setupOneRowPtr) {
doSetOneRowPtr(pResultInfo);
pResultInfo->current += 1;
}
return pResultInfo->row;
}
static int32_t doPrepareResPtr(SReqResultInfo* pResInfo) {
if (pResInfo->row == NULL) {
pResInfo->row = taosMemoryCalloc(pResInfo->numOfCols, POINTER_BYTES);

227
source/client/src/clientMain.c
View File

@ -175,12 +175,39 @@ TAOS_FIELD *taos_fetch_fields(TAOS_RES *res) {
return pResInfo->userFields;
}
static void syncQueryFn(void* param, void* res, int32_t code) {
SSyncQueryParam* pParam = param;
pParam->pRequest = res;
pParam->pRequest->code = code;
tsem_post(&pParam->sem);
}
TAOS_RES *taos_query(TAOS *taos, const char *sql) {
if (taos == NULL || sql == NULL) {
return NULL;
}
return taos_query_l(taos, sql, (int32_t)strlen(sql));
STscObj* pTscObj = (STscObj*)taos;
#if SYNC_ON_TOP_OF_ASYNC
SSyncQueryParam* param = taosMemoryCalloc(1, sizeof(struct SSyncQueryParam));
tsem_init(&param->sem, 0, 0);
taos_query_a(pTscObj, sql, syncQueryFn, param);
tsem_wait(&param->sem);
return param->pRequest;
#else
size_t sqlLen = strlen(sql);
if (sqlLen > (size_t)TSDB_MAX_ALLOWED_SQL_LEN) {
tscError("sql string exceeds max length:%d", TSDB_MAX_ALLOWED_SQL_LEN);
terrno = TSDB_CODE_TSC_EXCEED_SQL_LIMIT;
return NULL;
}
return execQuery(pTscObj, sql, sqlLen);
#endif
}
TAOS_ROW taos_fetch_row(TAOS_RES *res) {
@ -195,7 +222,11 @@ TAOS_ROW taos_fetch_row(TAOS_RES *res) {
return NULL;
}
#if SYNC_ON_TOP_OF_ASYNC
return doAsyncFetchRow(pRequest, true, true);
#else
return doFetchRows(pRequest, true, true);
#endif
} else if (TD_RES_TMQ(res)) {
SMqRspObj *msg = ((SMqRspObj *)res);
@ -205,6 +236,7 @@ TAOS_ROW taos_fetch_row(TAOS_RES *res) {
} else {
pResultInfo = tmqGetCurResInfo(res);
}
if (pResultInfo->current < pResultInfo->numOfRows) {
doSetOneRowPtr(pResultInfo);
pResultInfo->current += 1;
@ -563,38 +595,195 @@ const char *taos_get_server_info(TAOS *taos) {
return pTscObj->ver;
}
typedef struct SqlParseWrapper {
SParseContext* pCtx;
SCatalogReq catalogReq;
SRequestObj* pRequest;
SQuery* pQuery;
} SqlParseWrapper;
void retrieveMetaCallback(SMetaData* pResultMeta, void* param, int32_t code) {
SqlParseWrapper *pWrapper = (SqlParseWrapper*) param;
SQuery* pQuery = pWrapper->pQuery;
SRequestObj* pRequest = pWrapper->pRequest;
if (code != TSDB_CODE_SUCCESS) {
goto _error;
}
code = qAnalyseSqlSemantic(pWrapper->pCtx, &pWrapper->catalogReq, pResultMeta, pQuery);
if (code != TSDB_CODE_SUCCESS) {
goto _error;
}
if (pQuery->haveResultSet) {
setResSchemaInfo(&pRequest->body.resInfo, pQuery->pResSchema, (pQuery)->numOfResCols);
setResPrecision(&pRequest->body.resInfo, (pQuery)->precision);
}
TSWAP(pRequest->dbList, (pQuery)->pDbList);
TSWAP(pRequest->tableList, (pQuery)->pTableList);
taosMemoryFree(pWrapper);
launchAsyncQuery(pRequest, pQuery);
return;
_error:
taosMemoryFree(pWrapper);
tscError("0x%" PRIx64 " error occurs, code:%s, return to user app, reqId:%" PRIx64, pRequest->self, tstrerror(code),
pRequest->requestId);
pRequest->code = code;
pRequest->body.queryFp(pRequest->body.param, pRequest, code);
}
// todo add retry before return user's callback
void taos_query_a(TAOS *taos, const char *sql, __taos_async_fn_t fp, void *param) {
ASSERT(fp != NULL);
if (taos == NULL || sql == NULL) {
fp(param, NULL, TSDB_CODE_INVALID_PARA);
terrno = TSDB_CODE_INVALID_PARA;
fp(param, NULL, terrno);
return;
}
SRequestObj* pRequest = NULL;
size_t sqlLen = strlen(sql);
if (sqlLen > (size_t)TSDB_MAX_ALLOWED_SQL_LEN) {
tscError("sql string exceeds max length:%d", TSDB_MAX_ALLOWED_SQL_LEN);
terrno = TSDB_CODE_TSC_EXCEED_SQL_LIMIT;
fp(param, NULL, terrno);
return;
}
SRequestObj *pRequest = NULL;
int32_t retryNum = 0;
int32_t code = 0;
size_t sqlLen = strlen(sql);
while (retryNum++ < REQUEST_MAX_TRY_TIMES) {
pRequest = launchQuery(taos, sql, sqlLen);
if (pRequest == NULL || TSDB_CODE_SUCCESS == pRequest->code || !NEED_CLIENT_HANDLE_ERROR(pRequest->code)) {
break;
}
code = refreshMeta(taos, pRequest);
if (code) {
pRequest->code = code;
break;
}
destroyRequest(pRequest);
// while (retryNum++ < REQUEST_MAX_TRY_TIMES) {
code = buildRequest(taos, sql, sqlLen, &pRequest);
if (code != TSDB_CODE_SUCCESS) {
terrno = code;
fp(param, NULL, code);
return;
}
pRequest->body.queryFp = fp;
pRequest->body.param = param;
STscObj *pTscObj = pRequest->pTscObj;
SParseContext* pCxt = taosMemoryCalloc(1, sizeof(SParseContext));
*pCxt = (SParseContext){.requestId = pRequest->requestId,
.acctId = pTscObj->acctId,
.db = pRequest->pDb,
.topicQuery = false,
.pSql = pRequest->sqlstr,
.sqlLen = pRequest->sqlLen,
.pMsg = pRequest->msgBuf,
.msgLen = ERROR_MSG_BUF_DEFAULT_SIZE,
.pTransporter = pTscObj->pAppInfo->pTransporter,
.pStmtCb = NULL,
.pUser = pTscObj->user,
.isSuperUser = (0 == strcmp(pTscObj->user, TSDB_DEFAULT_USER)),
.async = true,};
pCxt->mgmtEpSet = getEpSet_s(&pTscObj->pAppInfo->mgmtEp);
code = catalogGetHandle(pTscObj->pAppInfo->clusterId, &pCxt->pCatalog);
if (code != TSDB_CODE_SUCCESS) {
goto _error;
}
SQuery * pQuery = NULL;
SCatalogReq catalogReq = {0};
code = qParseSqlSyntax(pCxt, &pQuery, &catalogReq);
if (code != TSDB_CODE_SUCCESS) {
goto _error;
}
SqlParseWrapper *pWrapper = taosMemoryCalloc(1, sizeof(SqlParseWrapper));
pWrapper->pCtx = pCxt;
pWrapper->pQuery = pQuery;
pWrapper->pRequest = pRequest;
pWrapper->catalogReq = catalogReq;
code = catalogAsyncGetAllMeta(pCxt->pCatalog, pCxt->pTransporter, &pCxt->mgmtEpSet, pRequest->requestId,
&catalogReq, retrieveMetaCallback, pWrapper, &pRequest->body.queryJob);
if (code != TSDB_CODE_SUCCESS) {
goto _error;
}
return;
// todo handle the retry process
// if (TSDB_CODE_SUCCESS == code || NEED_CLIENT_HANDLE_ERROR(code)) {
// TSWAP(pRequest->dbList, (pQuery)->pDbList);
// TSWAP(pRequest->tableList, (pQuery)->pTableList);
// }
_error:
terrno = code;
pRequest->code = code;
fp(param, pRequest, code);
}
static void fetchCallback(void* pResult, void* param, int32_t code) {
SRequestObj* pRequest = (SRequestObj*) param;
SReqResultInfo* pResultInfo = &pRequest->body.resInfo;
pResultInfo->pData = pResult;
pResultInfo->numOfRows = 0;
if (code != TSDB_CODE_SUCCESS) {
pRequest->code = code;
pRequest->body.fetchFp(pRequest->body.param, pRequest, 0);
return;
}
if (pRequest->code != TSDB_CODE_SUCCESS) {
pRequest->code = code;
pRequest->body.fetchFp(pRequest->body.param, pRequest, 0);
}
pRequest->code = setQueryResultFromRsp(&pRequest->body.resInfo, (SRetrieveTableRsp*)pResultInfo->pData, true, false);
if (pRequest->code != TSDB_CODE_SUCCESS) {
pResultInfo->numOfRows = 0;
pRequest->code = code;
pRequest->body.fetchFp(pRequest->body.param, pRequest, 0);
}
tscDebug("0x%" PRIx64 " fetch results, numOfRows:%d total Rows:%" PRId64 ", complete:%d, reqId:0x%" PRIx64,
pRequest->self, pResultInfo->numOfRows, pResultInfo->totalRows, pResultInfo->completed, pRequest->requestId);
pRequest->body.fetchFp(pRequest->body.param, pRequest, pResultInfo->numOfRows);
}
void taos_fetch_rows_a(TAOS_RES *res, __taos_async_fn_t fp, void *param) {
// TODO
ASSERT (res != NULL && fp != NULL);
SRequestObj *pRequest = res;
pRequest->body.fetchFp = fp;
SReqResultInfo *pResultInfo = &pRequest->body.resInfo;
if (taos_num_fields(pRequest) == 0) {
pResultInfo->numOfRows = 0;
pRequest->body.fetchFp(param, pRequest, pResultInfo->numOfRows);
return;
}
if (pResultInfo->pData == NULL || pResultInfo->current >= pResultInfo->numOfRows) {
// All data has returned to App already, no need to try again
if (pResultInfo->completed) {
pResultInfo->numOfRows = 0;
pRequest->body.fetchFp(param, pRequest, pResultInfo->numOfRows);
return;
}
}
schedulerAsyncFetchRows(pRequest->body.queryJob, fetchCallback, pRequest);
}
TAOS_SUB *taos_subscribe(TAOS *taos, int restart, const char *topic, const char *sql, TAOS_SUBSCRIBE_CALLBACK fp,

59
source/client/src/clientMsgHandler.c
View File

@ -33,7 +33,11 @@ int32_t genericRspCallback(void* param, const SDataBuf* pMsg, int32_t code) {
setErrno(pRequest, code);
taosMemoryFree(pMsg->pData);
tsem_post(&pRequest->body.rspSem);
if (pRequest->body.queryFp != NULL) {
pRequest->body.queryFp(pRequest->body.param, pRequest, code);
} else {
tsem_post(&pRequest->body.rspSem);
}
return code;
}
@ -117,7 +121,12 @@ int32_t processCreateDbRsp(void* param, const SDataBuf* pMsg, int32_t code) {
if (code != TSDB_CODE_SUCCESS) {
setErrno(pRequest, code);
}
tsem_post(&pRequest->body.rspSem);
if (pRequest->body.queryFp) {
pRequest->body.queryFp(pRequest->body.param, pRequest, code);
} else {
tsem_post(&pRequest->body.rspSem);
}
return code;
}
@ -146,7 +155,13 @@ int32_t processUseDbRsp(void* param, const SDataBuf* pMsg, int32_t code) {
if (code != TSDB_CODE_SUCCESS) {
taosMemoryFree(pMsg->pData);
setErrno(pRequest, code);
tsem_post(&pRequest->body.rspSem);
if (pRequest->body.queryFp != NULL) {
pRequest->body.queryFp(pRequest->body.param, pRequest, pRequest->code);
} else {
tsem_post(&pRequest->body.rspSem);
}
return code;
}
@ -185,7 +200,12 @@ int32_t processUseDbRsp(void* param, const SDataBuf* pMsg, int32_t code) {
setConnectionDB(pRequest->pTscObj, db);
taosMemoryFree(pMsg->pData);
tsem_post(&pRequest->body.rspSem);
if (pRequest->body.queryFp != NULL) {
pRequest->body.queryFp(pRequest->body.param, pRequest, pRequest->code);
} else {
tsem_post(&pRequest->body.rspSem);
}
return 0;
}
@ -196,11 +216,13 @@ int32_t processCreateTableRsp(void* param, const SDataBuf* pMsg, int32_t code) {
taosMemoryFree(pMsg->pData);
if (code != TSDB_CODE_SUCCESS) {
setErrno(pRequest, code);
tsem_post(&pRequest->body.rspSem);
return code;
}
tsem_post(&pRequest->body.rspSem);
if (pRequest->body.queryFp != NULL) {
pRequest->body.queryFp(pRequest->body.param, pRequest, code);
} else {
tsem_post(&pRequest->body.rspSem);
}
return code;
}
@ -208,18 +230,20 @@ int32_t processDropDbRsp(void* param, const SDataBuf* pMsg, int32_t code) {
SRequestObj* pRequest = param;
if (code != TSDB_CODE_SUCCESS) {
setErrno(pRequest, code);
tsem_post(&pRequest->body.rspSem);
return code;
} else {
SDropDbRsp dropdbRsp = {0};
tDeserializeSDropDbRsp(pMsg->pData, pMsg->len, &dropdbRsp);
struct SCatalog* pCatalog = NULL;
catalogGetHandle(pRequest->pTscObj->pAppInfo->clusterId, &pCatalog);
catalogRemoveDB(pCatalog, dropdbRsp.db, dropdbRsp.uid);
}
SDropDbRsp dropdbRsp = {0};
tDeserializeSDropDbRsp(pMsg->pData, pMsg->len, &dropdbRsp);
struct SCatalog* pCatalog = NULL;
catalogGetHandle(pRequest->pTscObj->pAppInfo->clusterId, &pCatalog);
catalogRemoveDB(pCatalog, dropdbRsp.db, dropdbRsp.uid);
tsem_post(&pRequest->body.rspSem);
if (pRequest->body.queryFp != NULL) {
pRequest->body.queryFp(pRequest->body.param, pRequest, code);
} else {
tsem_post(&pRequest->body.rspSem);
}
return code;
}
@ -245,6 +269,7 @@ int32_t processAlterStbRsp(void* param, const SDataBuf* pMsg, int32_t code) {
}
// todo refactor: this arraylist is too large
void initMsgHandleFp() {
handleRequestRspFp[TMSG_INDEX(TDMT_MND_CONNECT)] = processConnectRsp;
handleRequestRspFp[TMSG_INDEX(TDMT_MND_CREATE_DB)] = processCreateDbRsp;

4
source/client/src/clientSml.c
View File

@ -2241,7 +2241,7 @@ static int32_t smlInsertData(SSmlHandle* info) {
}
info->cost.insertRpcTime = taosGetTimestampUs();
launchQueryImpl(info->pRequest, info->pQuery, TSDB_CODE_SUCCESS, true, NULL);
launchQueryImpl(info->pRequest, info->pQuery, true, NULL);
info->affectedRows = taos_affected_rows(info->pRequest);
return info->pRequest->code;
@ -2362,7 +2362,7 @@ static int32_t isSchemalessDb(SSmlHandle* info){
*/
TAOS_RES* taos_schemaless_insert(TAOS* taos, char* lines[], int numLines, int protocol, int precision) {
SRequestObj* request = (SRequestObj*)createRequest((STscObj *)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj* request = (SRequestObj*)createRequest((STscObj *)taos, NULL, TSDB_SQL_INSERT);
if(!request){
uError("SML:taos_schemaless_insert error request is null");
return NULL;

5
source/client/src/clientStmt.c
View File

@ -771,11 +771,10 @@ int stmtExec(TAOS_STMT* stmt) {
STMT_ERR_RET(stmtSwitchStatus(pStmt, STMT_EXECUTE));
if (STMT_TYPE_QUERY == pStmt->sql.type) {
launchQueryImpl(pStmt->exec.pRequest, pStmt->sql.pQuery, TSDB_CODE_SUCCESS, true, NULL);
launchQueryImpl(pStmt->exec.pRequest, pStmt->sql.pQuery, true, NULL);
} else {
STMT_ERR_RET(qBuildStmtOutput(pStmt->sql.pQuery, pStmt->exec.pVgHash, pStmt->exec.pBlockHash));
launchQueryImpl(pStmt->exec.pRequest, pStmt->sql.pQuery, TSDB_CODE_SUCCESS, true,
(autoCreateTbl ? (void**)&pRsp : NULL));
launchQueryImpl(pStmt->exec.pRequest, pStmt->sql.pQuery, true, (autoCreateTbl ? (void**)&pRsp : NULL));
}
if (pStmt->exec.pRequest->code && NEED_CLIENT_HANDLE_ERROR(pStmt->exec.pRequest->code)) {

88
source/client/test/clientTests.cpp
View File

@ -13,10 +13,12 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <gtest/gtest.h>
#include <taoserror.h>
#include <tglobal.h>
#include <iostream>
#include <gtest/gtest.h>
#include "taoserror.h"
#include "tglobal.h"
#include "thash.h"
#include "clientInt.h"
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wwrite-strings"
@ -24,7 +26,6 @@
#pragma GCC diagnostic ignored "-Wunused-variable"
#pragma GCC diagnostic ignored "-Wsign-compare"
#include "../inc/clientInt.h"
#include "taos.h"
namespace {
@ -41,6 +42,47 @@ void showDB(TAOS* pConn) {
printf("%s\n", str);
}
}
void fetchCallback(void* param, void* res, int32_t numOfRow) {
printf("numOfRow = %d \n", numOfRow);
int numFields = taos_num_fields(res);
TAOS_FIELD *fields = taos_fetch_fields(res);
TAOS *_taos = (TAOS *)param;
if (numOfRow > 0) {
for (int i = 0; i < numOfRow; ++i) {
TAOS_ROW row = taos_fetch_row(res);
char temp[256] = {0};
taos_print_row(temp, row, fields, numFields);
printf("%s\n", temp);
}
taos_fetch_rows_a(res, fetchCallback, _taos);
} else {
printf("no more data, close the connection.\n");
// taos_free_result(res);
// taos_close(_taos);
// taos_cleanup();
}
}
void queryCallback(void* param, void* res, int32_t code) {
if (code != TSDB_CODE_SUCCESS) {
printf("failed to execute, reason:%s\n", taos_errstr(res));
}
printf("start to fetch data\n");
taos_fetch_rows_a(res, fetchCallback, param);
}
void queryCallback1(void* param, void* res, int32_t code) {
if (code != TSDB_CODE_SUCCESS) {
printf("failed to execute, reason:%s\n", taos_errstr(res));
}
taos_free_result(res);
printf("exec query:\n");
taos_query_a(param, "select * from tm1", queryCallback, param);
}
} // namespace
int main(int argc, char** argv) {
@ -52,7 +94,7 @@ TEST(testCase, driverInit_Test) {
// taosInitGlobalCfg();
// taos_init();
}
#if 0
TEST(testCase, connect_Test) {
// taos_options(TSDB_OPTION_CONFIGDIR, "/home/ubuntu/first/cfg");
@ -62,7 +104,7 @@ TEST(testCase, connect_Test) {
}
taos_close(pConn);
}
#if 0
TEST(testCase, create_user_Test) {
TAOS* pConn = taos_connect("localhost", "root", "taosdata", NULL, 0);
assert(pConn != NULL);
@ -432,7 +474,7 @@ TEST(testCase, create_multiple_tables) {
taos_free_result(pRes);
pRes = taos_query(pConn, "create table t_2 using st1 tags(1)");
pRes = taos_query(pConn, "create table if not exists t_2 using st1 tags(1)");
if (taos_errno(pRes) != 0) {
printf("failed to create multiple tables, reason:%s\n", taos_errstr(pRes));
taos_free_result(pRes);
@ -440,7 +482,7 @@ TEST(testCase, create_multiple_tables) {
}
taos_free_result(pRes);
pRes = taos_query(pConn, "create table t_3 using st1 tags(2)");
pRes = taos_query(pConn, "create table if not exists t_3 using st1 tags(2)");
if (taos_errno(pRes) != 0) {
printf("failed to create multiple tables, reason:%s\n", taos_errstr(pRes));
taos_free_result(pRes);
@ -480,9 +522,7 @@ TEST(testCase, show_table_Test) {
TAOS_RES* pRes = taos_query(pConn, "show tables");
if (taos_errno(pRes) != 0) {
printf("failed to show tables, reason:%s\n", taos_errstr(pRes));
taos_free_result(pRes);
}
taos_free_result(pRes);
taos_query(pConn, "use abc1");
@ -550,6 +590,7 @@ TEST(testCase, generated_request_id_test) {
taosHashCleanup(phash);
}
TEST(testCase, insert_test) {
TAOS* pConn = taos_connect("localhost", "root", "taosdata", NULL, 0);
ASSERT_NE(pConn, nullptr);
@ -567,7 +608,6 @@ 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);
@ -606,7 +646,7 @@ TEST(testCase, projection_query_tables) {
}
taos_free_result(pRes);
for(int32_t i = 0; i < 1000000; i += 20) {
for(int32_t i = 0; i < 1000; i += 20) {
char sql[1024] = {0};
sprintf(sql,
"insert into tu values(now+%da, %d)(now+%da, %d)(now+%da, %d)(now+%da, %d)"
@ -664,7 +704,7 @@ 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);
ASSERT_NE(pConn, nullptr);
@ -705,7 +745,7 @@ TEST(testCase, agg_query_tables) {
}
taos_free_result(pRes);
pRes = taos_query(pConn, "explain analyze select count(*) from tu interval(1s)");
pRes = taos_query(pConn, "show stables");
if (taos_errno(pRes) != 0) {
printf("failed to select from table, reason:%s\n", taos_errstr(pRes));
taos_free_result(pRes);
@ -735,4 +775,24 @@ TEST(testCase, agg_query_tables) {
}
#endif
/*
--- copy the following script in the shell to setup the environment ---
create database test;
use test;
create table m1(ts timestamp, k int) tags(a int);
create table tm0 using m1 tags(1);
create table tm1 using m1 tags(2);
insert into tm0 values('2021-1-1 1:1:1.120', 1) ('2021-1-1 1:1:2.9', 2) tm1 values('2021-1-1 1:1:1.120', 11) ('2021-1-1 1:1:2.99', 22);
*/
TEST(testCase, async_api_test) {
TAOS* pConn = taos_connect("localhost", "root", "taosdata", NULL, 0);
ASSERT_NE(pConn, nullptr);
taos_query_a(pConn, "drop table test.tm0", queryCallback, pConn);
getchar();
taos_close(pConn);
}
#pragma GCC diagnostic pop

30
source/client/test/smlTest.cpp
View File

@ -486,7 +486,7 @@ TEST(testCase, smlProcess_influx_Test) {
pRes = taos_query(taos, "use inflx_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_LINE_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -607,7 +607,7 @@ TEST(testCase, smlParseLine_error_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_LINE_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -656,7 +656,7 @@ TEST(testCase, smlProcess_telnet_Test) {
pRes = taos_query(taos, "use telnet_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_TELNET_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -710,7 +710,7 @@ TEST(testCase, smlProcess_json1_Test) {
pRes = taos_query(taos, "use json_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj *)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj *)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_JSON_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -779,7 +779,7 @@ TEST(testCase, smlProcess_json2_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj *)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj *)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_JSON_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -823,7 +823,7 @@ TEST(testCase, smlProcess_json3_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj *)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj *)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_JSON_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -895,7 +895,7 @@ TEST(testCase, smlProcess_json4_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_JSON_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -957,7 +957,7 @@ TEST(testCase, smlParseTelnetLine_error_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_TELNET_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -1006,7 +1006,7 @@ TEST(testCase, smlParseTelnetLine_diff_type_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_TELNET_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -1033,7 +1033,7 @@ TEST(testCase, smlParseTelnetLine_json_error_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_TELNET_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -1101,7 +1101,7 @@ TEST(testCase, smlParseTelnetLine_diff_json_type1_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_TELNET_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -1146,7 +1146,7 @@ TEST(testCase, smlParseTelnetLine_diff_json_type2_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_TELNET_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -1191,7 +1191,7 @@ TEST(testCase, sml_TD15662_Test) {
pRes = taos_query(taos, "use db_15662");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj *)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj *)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_LINE_PROTOCOL, TSDB_SML_TIMESTAMP_MILLI_SECONDS);
@ -1218,7 +1218,7 @@ TEST(testCase, sml_TD15735_Test) {
pRes = taos_query(taos, "use sml_db");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_TELNET_PROTOCOL, TSDB_SML_TIMESTAMP_NANO_SECONDS);
@ -1244,7 +1244,7 @@ TEST(testCase, sml_TD15742_Test) {
pRes = taos_query(taos, "use TD15742");
taos_free_result(pRes);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, NULL, TSDB_SQL_INSERT);
SRequestObj *request = (SRequestObj *)createRequest((STscObj*)taos, NULL, TSDB_SQL_INSERT);
ASSERT_NE(request, nullptr);
SSmlHandle *info = smlBuildSmlInfo(taos, request, TSDB_SML_LINE_PROTOCOL, TSDB_SML_TIMESTAMP_MILLI_SECONDS);

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

@ -78,7 +78,7 @@ static const SSysDbTableSchema userDBSchema[] = {
{.name = "replica", .bytes = 1, .type = TSDB_DATA_TYPE_TINYINT},
{.name = "strict", .bytes = 9 + VARSTR_HEADER_SIZE, .type = TSDB_DATA_TYPE_VARCHAR},
{.name = "duration", .bytes = 4, .type = TSDB_DATA_TYPE_INT},
{.name = "keep", .bytes = 24 + VARSTR_HEADER_SIZE, .type = TSDB_DATA_TYPE_VARCHAR},
{.name = "keep", .bytes = 32 + VARSTR_HEADER_SIZE, .type = TSDB_DATA_TYPE_VARCHAR},
{.name = "buffer", .bytes = 4, .type = TSDB_DATA_TYPE_INT},
{.name = "pagesize", .bytes = 4, .type = TSDB_DATA_TYPE_INT},
{.name = "pages", .bytes = 4, .type = TSDB_DATA_TYPE_INT},

725
source/common/src/tdataformat.c
View File

@ -142,202 +142,314 @@ static FORCE_INLINE int32_t tGetValue(uint8_t *p, SValue *pValue, int8_t type) {
}
// STSRow2 ========================================================================
static void tTupleTSRowNew(SArray *pArray, STSchema *pTSchema, STSRow2 *pRow) {
int32_t nColVal = taosArrayGetSize(pArray);
static void setBitMap(uint8_t *pb, uint8_t v, int32_t idx, uint8_t flags) {
if (pb) {
switch (flags & 0xf) {
case TSROW_HAS_NULL | TSROW_HAS_NONE:
case TSROW_HAS_VAL | TSROW_HAS_NONE:
if (v) {
SET_BIT1(pb, idx, (uint8_t)1);
} else {
SET_BIT1(pb, idx, (uint8_t)0);
}
break;
case TSROW_HAS_VAL | TSROW_HAS_NULL:
v = v - 1;
SET_BIT1(pb, idx, v);
break;
case TSROW_HAS_VAL | TSROW_HAS_NULL | TSROW_HAS_NONE:
SET_BIT2(pb, idx, v);
break;
default:
ASSERT(0);
}
}
}
#define SET_IDX(p, i, n, f) \
do { \
if ((f)&TSROW_KV_SMALL) { \
((uint8_t *)(p))[i] = (n); \
} else if ((f)&TSROW_KV_MID) { \
((uint16_t *)(p))[i] = (n); \
} else { \
((uint32_t *)(p))[i] = (n); \
} \
} while (0)
int32_t tTSRowNew(STSRowBuilder *pBuilder, SArray *pArray, STSchema *pTSchema, STSRow2 **ppRow) {
int32_t code = 0;
STColumn *pTColumn;
SColVal *pColVal;
int32_t nColVal = taosArrayGetSize(pArray);
int32_t iColVal;
ASSERT(nColVal > 0);
pRow->sver = pTSchema->version;
// ts
pTColumn = &pTSchema->columns[0];
pColVal = (SColVal *)taosArrayGet(pArray, 0);
ASSERT(pTColumn->colId == 0 && pColVal->cid == 0);
ASSERT(pTColumn->type == TSDB_DATA_TYPE_TIMESTAMP);
pRow->ts = pColVal->value.ts;
// other fields
int32_t iColVal = 1;
int32_t bidx;
uint32_t nv = 0;
uint8_t *pb = NULL;
uint8_t *pf = NULL;
uint8_t *pv = NULL;
// try
uint8_t flags = 0;
for (int32_t iColumn = 1; iColumn < pTSchema->numOfCols; iColumn++) {
bidx = iColumn - 1;
pTColumn = &pTSchema->columns[iColumn];
uint32_t ntv = 0;
uint32_t nkv = 0;
int16_t nTag = 0;
uint32_t maxIdx = 0;
iColVal = 0;
for (int32_t iColumn = 0; iColumn < pTSchema->numOfCols; iColumn++) {
pTColumn = &pTSchema->columns[iColumn];
if (iColVal < nColVal) {
pColVal = (SColVal *)taosArrayGet(pArray, iColVal);
} else {
pColVal = NULL;
}
if (pColVal) {
if (pColVal->cid == pTColumn->colId) {
iColVal++;
if (pColVal->isNone) {
goto _set_none;
} else if (pColVal->isNull) {
goto _set_null;
if (iColumn == 0) {
ASSERT(pColVal->cid == pTColumn->colId);
ASSERT(pTColumn->type == TSDB_DATA_TYPE_TIMESTAMP);
ASSERT(pTColumn->colId == 0);
iColVal++;
} else {
if (pColVal) {
if (pColVal->cid == pTColumn->colId) {
iColVal++;
if (pColVal->isNone) {
flags |= TSROW_HAS_NONE;
} else if (pColVal->isNull) {
flags |= TSROW_HAS_NULL;
maxIdx = nkv;
nTag++;
nkv += tPutI16v(NULL, -pTColumn->colId);
} else {
flags |= TSROW_HAS_VAL;
maxIdx = nkv;
nTag++;
nkv += tPutI16v(NULL, pTColumn->colId);
nkv += tPutValue(NULL, &pColVal->value, pTColumn->type);
if (IS_VAR_DATA_TYPE(pTColumn->type)) {
ntv += tPutValue(NULL, &pColVal->value, pTColumn->type);
}
}
} else if (pColVal->cid > pTColumn->colId) {
flags |= TSROW_HAS_NONE;
} else {
goto _set_value;
ASSERT(0);
}
} else if (pColVal->cid > pTColumn->colId) {
goto _set_none;
} else {
ASSERT(0);
flags |= TSROW_HAS_NONE;
}
} else {
goto _set_none;
}
_set_none:
flags |= TSROW_HAS_NONE;
// SET_BIT2(pb, bidx, 0); (todo)
continue;
_set_null:
flags != TSROW_HAS_NULL;
// SET_BIT2(pb, bidx, 1); (todo)
continue;
_set_value:
flags != TSROW_HAS_VAL;
// SET_BIT2(pb, bidx, 2); (todo)
if (IS_VAR_DATA_TYPE(pTColumn->type)) {
// nv += tPutColVal(pv ? pv + nv : pv, pColVal, pTColumn->type, 1);
} else {
// tPutColVal(pf ? pf + pTColumn->offset : pf, pColVal, pTColumn->type, 1);
}
continue;
}
ASSERT(flags);
switch (flags & 0xf) {
case TSROW_HAS_NONE:
case TSROW_HAS_NULL:
pRow->nData = 0;
break;
case TSROW_HAS_VAL:
pRow->nData = pTSchema->flen + nv;
break;
case TSROW_HAS_NULL | TSROW_HAS_NONE:
pRow->nData = BIT1_SIZE(pTSchema->numOfCols - 1);
break;
case TSROW_HAS_VAL | TSROW_HAS_NONE:
case TSROW_HAS_VAL | TSROW_HAS_NULL:
pRow->nData = BIT1_SIZE(pTSchema->numOfCols - 1) + pTSchema->flen + nv;
break;
case TSROW_HAS_VAL | TSROW_HAS_NULL | TSROW_HAS_NONE:
pRow->nData = BIT2_SIZE(pTSchema->numOfCols - 1) + pTSchema->flen + nv;
break;
default:
break;
}
}
static void tMapTSRowNew(SArray *pArray, STSchema *pTSchema, STSRow2 *pRow) {
int32_t nColVal = taosArrayGetSize(pArray);
STColumn *pTColumn;
SColVal *pColVal;
ASSERT(nColVal > 0);
pRow->sver = pTSchema->version;
// ts
pTColumn = &pTSchema->columns[0];
pColVal = (SColVal *)taosArrayGet(pArray, 0);
ASSERT(pTColumn->colId == 0 && pColVal->cid == 0);
ASSERT(pTColumn->type == TSDB_DATA_TYPE_TIMESTAMP);
pRow->ts = pColVal->value.ts;
// other fields
int32_t iColVal = 1;
uint32_t nv = 0;
uint8_t *pv = NULL;
uint8_t *pidx = NULL;
uint8_t flags = 0;
int16_t nCol = 0;
for (int32_t iColumn = 1; iColumn < pTSchema->numOfCols; iColumn++) {
pTColumn = &pTSchema->columns[iColumn];
if (iColVal < nColVal) {
pColVal = (SColVal *)taosArrayGet(pArray, iColVal);
} else {
pColVal = NULL;
// decide
uint32_t nData = 0;
uint32_t nDataT = 0;
uint32_t nDataK = 0;
if (flags == TSROW_HAS_NONE || flags == TSROW_HAS_NULL) {
nData = 0;
} else {
switch (flags) {
case TSROW_HAS_VAL:
nDataT = pTSchema->flen + ntv;
break;
case TSROW_HAS_NULL | TSROW_HAS_NONE:
nDataT = BIT1_SIZE(pTSchema->numOfCols - 1);
break;
case TSROW_HAS_VAL | TSROW_HAS_NONE:
case TSROW_HAS_VAL | TSROW_HAS_NULL:
nDataT = BIT1_SIZE(pTSchema->numOfCols - 1) + pTSchema->flen + ntv;
break;
case TSROW_HAS_VAL | TSROW_HAS_NULL | TSROW_HAS_NONE:
nDataT = BIT2_SIZE(pTSchema->numOfCols - 1) + pTSchema->flen + ntv;
break;
default:
ASSERT(0);
}
if (pColVal) {
if (pColVal->cid == pTColumn->colId) {
iColVal++;
if (pColVal->isNone) {
goto _set_none;
} else if (pColVal->isNull) {
goto _set_null;
} else {
goto _set_value;
uint8_t tflags = 0;
if (maxIdx <= UINT8_MAX) {
nDataK = sizeof(STSKVRow) + sizeof(uint8_t) * nTag + nkv;
tflags |= TSROW_KV_SMALL;
} else if (maxIdx <= UINT16_MAX) {
nDataK = sizeof(STSKVRow) + sizeof(uint16_t) * nTag + nkv;
tflags |= TSROW_KV_MID;
} else {
nDataK = sizeof(STSKVRow) + sizeof(uint32_t) * nTag + nkv;
tflags |= TSROW_KV_BIG;
}
if (nDataT < nDataK) {
nData = nDataT;
} else {
nData = nDataK;
flags |= tflags;
}
}
// alloc
if (pBuilder) {
// create from a builder
if (nData == 0) {
pBuilder->tsRow.nData = 0;
pBuilder->tsRow.pData = NULL;
} else {
if (pBuilder->szBuf < nData) {
uint8_t *p = taosMemoryRealloc(pBuilder->pBuf, nData);
if (p == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
goto _exit;
}
} else if (pColVal->cid > pTColumn->colId) {
goto _set_none;
} else {
ASSERT(0);
pBuilder->pBuf = p;
pBuilder->szBuf = nData;
}
pBuilder->tsRow.nData = nData;
pBuilder->tsRow.pData = pBuilder->pBuf;
}
*ppRow = &pBuilder->tsRow;
} else {
// create a new one
*ppRow = (STSRow2 *)taosMemoryMalloc(sizeof(STSRow2));
if (*ppRow == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
goto _exit;
}
if (nData == 0) {
(*ppRow)->nData = 0;
(*ppRow)->pData = NULL;
} else {
(*ppRow)->nData = nData;
(*ppRow)->pData = taosMemoryMalloc(nData);
if ((*ppRow)->pData == NULL) {
taosMemoryFree(*ppRow);
code = TSDB_CODE_OUT_OF_MEMORY;
goto _exit;
}
}
}
// build
(*ppRow)->flags = flags;
(*ppRow)->sver = pTSchema->version;
pColVal = (SColVal *)taosArrayGet(pArray, 0);
(*ppRow)->ts = pColVal->value.ts;
if ((*ppRow)->pData) {
STSKVRow *pTSKVRow = NULL;
uint8_t *pidx = NULL;
uint8_t *pkv = NULL;
uint8_t *pb = NULL;
uint8_t *pf = NULL;
uint8_t *ptv = NULL;
nkv = 0;
ntv = 0;
iColVal = 1;
if (flags & 0xf0 == 0) {
switch (flags & 0xf) {
case TSROW_HAS_VAL:
pf = (*ppRow)->pData;
ptv = pf + pTSchema->flen;
break;
case TSROW_HAS_NULL | TSROW_HAS_NONE:
pb = (*ppRow)->pData;
break;
case TSROW_HAS_VAL | TSROW_HAS_NONE:
case TSROW_HAS_VAL | TSROW_HAS_NULL:
pb = (*ppRow)->pData;
pf = pb + BIT1_SIZE(pTSchema->numOfCols - 1);
ptv = pf + pTSchema->flen;
break;
case TSROW_HAS_VAL | TSROW_HAS_NULL | TSROW_HAS_NONE:
pb = (*ppRow)->pData;
pf = pb + BIT2_SIZE(pTSchema->numOfCols - 1);
ptv = pf + pTSchema->flen;
break;
default:
ASSERT(0);
}
} else {
goto _set_none;
pTSKVRow = (STSKVRow *)(*ppRow)->pData;
pTSKVRow->nCols = 0;
pidx = pTSKVRow->idx;
if (flags & TSROW_KV_SMALL) {
pkv = pidx + sizeof(uint8_t) * nTag;
} else if (flags & TSROW_KV_MID) {
pkv = pidx + sizeof(uint16_t) * nTag;
} else {
pkv = pidx + sizeof(uint32_t) * nTag;
}
}
_set_none:
flags |= TSROW_HAS_NONE;
continue;
for (int32_t iColumn = 1; iColumn < pTSchema->numOfCols; iColumn++) {
pTColumn = &pTSchema->columns[iColumn];
if (iColVal < nColVal) {
pColVal = (SColVal *)taosArrayGet(pArray, iColVal);
} else {
pColVal = NULL;
}
_set_null:
flags != TSROW_HAS_NULL;
pidx[nCol++] = nv;
// nv += tPutColVal(pv ? pv + nv : pv, pColVal, pTColumn->type, 0);
continue;
if (pColVal) {
if (pColVal->cid == pTColumn->colId) {
iColVal++;
_set_value:
flags != TSROW_HAS_VAL;
pidx[nCol++] = nv;
// nv += tPutColVal(pv ? pv + nv : pv, pColVal, pTColumn->type, 0);
continue;
}
if (nv <= UINT8_MAX) {
// small
} else if (nv <= UINT16_MAX) {
// mid
} else {
// large
}
}
// try-decide-build
int32_t tTSRowNew(SArray *pArray, STSchema *pTSchema, STSRow2 **ppRow) {
int32_t code = 0;
STSRow2 rowT = {0};
STSRow2 rowM = {0};
// try
tTupleTSRowNew(pArray, pTSchema, &rowT);
tMapTSRowNew(pArray, pTSchema, &rowM);
// decide & build
if (rowT.nData <= rowM.nData) {
tTupleTSRowNew(pArray, pTSchema, &rowT);
} else {
tMapTSRowNew(pArray, pTSchema, &rowM);
if (pColVal->isNone) {
goto _set_none;
} else if (pColVal->isNull) {
goto _set_null;
} else {
goto _set_value;
}
} else if (pColVal->cid > pTColumn->colId) {
goto _set_none;
} else {
ASSERT(0);
}
} else {
goto _set_none;
}
_set_none:
if (flags & 0xf0 == 0) {
setBitMap(pb, 0, iColumn - 1, flags);
}
continue;
_set_null:
if (flags & 0xf0 == 0) {
setBitMap(pb, 1, iColumn - 1, flags);
} else {
SET_IDX(pidx, pTSKVRow->nCols, nkv, flags);
pTSKVRow->nCols++;
nkv += tPutI16v(pkv + nkv, -pTColumn->colId);
}
continue;
_set_value:
if (flags & 0xf0 == 0) {
setBitMap(pb, 2, iColumn - 1, flags);
if (IS_VAR_DATA_TYPE(pTColumn->type)) {
*(VarDataOffsetT *)(pf + pTColumn->offset) = ntv;
ntv += tPutValue(ptv + ntv, &pColVal->value, pTColumn->type);
} else {
tPutValue(pf + pTColumn->offset, &pColVal->value, pTColumn->type);
}
} else {
SET_IDX(pidx, pTSKVRow->nCols, nkv, flags);
pTSKVRow->nCols++;
nkv += tPutI16v(pkv + nkv, pColVal->cid);
nkv += tPutValue(pkv + nkv, &pColVal->value, pTColumn->type);
}
continue;
}
}
_exit:
return code;
}
@ -626,266 +738,8 @@ void tTSchemaDestroy(STSchema *pTSchema) {
}
// STSRowBuilder
#if 0
int32_t tTSRowBuilderInit(STSRowBuilder *pBuilder, int32_t sver, int32_t nCols, SSchema *pSchema) {
if (tTSchemaCreate(sver, pSchema, nCols, &pBuilder->pTSchema) < 0) return -1;
pBuilder->szBitMap1 = BIT1_SIZE(nCols - 1);
pBuilder->szBitMap2 = BIT2_SIZE(nCols - 1);
pBuilder->szKVBuf =
sizeof(STSKVRow) + sizeof(SKVIdx) * (nCols - 1) + pBuilder->pTSchema->flen + pBuilder->pTSchema->vlen;
pBuilder->szTPBuf = pBuilder->szBitMap2 + pBuilder->pTSchema->flen + pBuilder->pTSchema->vlen;
pBuilder->pKVBuf = taosMemoryMalloc(pBuilder->szKVBuf);
if (pBuilder->pKVBuf == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
tTSchemaDestroy(pBuilder->pTSchema);
return -1;
}
pBuilder->pTPBuf = taosMemoryMalloc(pBuilder->szTPBuf);
if (pBuilder->pTPBuf == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
taosMemoryFree(pBuilder->pKVBuf);
tTSchemaDestroy(pBuilder->pTSchema);
return -1;
}
return 0;
}
void tTSRowBuilderClear(STSRowBuilder *pBuilder) {
if (pBuilder->pTPBuf) {
taosMemoryFree(pBuilder->pTPBuf);
pBuilder->pTPBuf = NULL;
}
if (pBuilder->pKVBuf) {
taosMemoryFree(pBuilder->pKVBuf);
pBuilder->pKVBuf = NULL;
}
tTSchemaDestroy(pBuilder->pTSchema);
pBuilder->pTSchema = NULL;
}
void tTSRowBuilderReset(STSRowBuilder *pBuilder) {
for (int32_t iCol = pBuilder->pTSchema->numOfCols - 1; iCol >= 0; iCol--) {
STColumn *pTColumn = &pBuilder->pTSchema->columns[iCol];
COL_CLR_SET(pTColumn->flags);
}
pBuilder->iCol = 0;
((STSKVRow *)pBuilder->pKVBuf)->nCols = 0;
pBuilder->vlenKV = 0;
pBuilder->vlenTP = 0;
pBuilder->row.flags = 0;
}
int32_t tTSRowBuilderPut(STSRowBuilder *pBuilder, int32_t cid, uint8_t *pData, uint32_t nData) {
STColumn *pTColumn = &pBuilder->pTSchema->columns[pBuilder->iCol];
uint8_t *p;
int32_t iCol;
STSKVRow *pTSKVRow = (STSKVRow *)pBuilder->pKVBuf;
// use interp search
if (pTColumn->colId < cid) { // right search
for (iCol = pBuilder->iCol + 1; iCol < pBuilder->pTSchema->numOfCols; iCol++) {
pTColumn = &pBuilder->pTSchema->columns[iCol];
if (pTColumn->colId >= cid) break;
}
} else if (pTColumn->colId > cid) { // left search
for (iCol = pBuilder->iCol - 1; iCol >= 0; iCol--) {
pTColumn = &pBuilder->pTSchema->columns[iCol];
if (pTColumn->colId <= cid) break;
}
}
if (pTColumn->colId != cid || COL_IS_SET(pTColumn->flags)) {
return -1;
}
pBuilder->iCol = iCol;
// set value
if (cid == 0) {
ASSERT(pData && nData == sizeof(TSKEY) && iCol == 0);
pBuilder->row.ts = *(TSKEY *)pData;
pTColumn->flags |= COL_SET_VAL;
} else {
if (pData) {
// set VAL
pBuilder->row.flags |= TSROW_HAS_VAL;
pTColumn->flags |= COL_SET_VAL;
/* KV */
if (1) { // avoid KV at some threshold (todo)
pTSKVRow->idx[pTSKVRow->nCols].cid = cid;
pTSKVRow->idx[pTSKVRow->nCols].offset = pBuilder->vlenKV;
p = pBuilder->pKVBuf + sizeof(STSKVRow) + sizeof(SKVIdx) * (pBuilder->pTSchema->numOfCols - 1) +
pBuilder->vlenKV;
if (IS_VAR_DATA_TYPE(pTColumn->type)) {
ASSERT(nData <= pTColumn->bytes);
pBuilder->vlenKV += tPutBinary(p, pData, nData);
} else {
ASSERT(nData == pTColumn->bytes);
memcpy(p, pData, nData);
pBuilder->vlenKV += nData;
}
}
/* TUPLE */
p = pBuilder->pTPBuf + pBuilder->szBitMap2 + pTColumn->offset;
if (IS_VAR_DATA_TYPE(pTColumn->type)) {
ASSERT(nData <= pTColumn->bytes);
*(int32_t *)p = pBuilder->vlenTP;
p = pBuilder->pTPBuf + pBuilder->szBitMap2 + pBuilder->pTSchema->flen + pBuilder->vlenTP;
pBuilder->vlenTP += tPutBinary(p, pData, nData);
} else {
ASSERT(nData == pTColumn->bytes);
memcpy(p, pData, nData);
}
} else {
// set NULL
pBuilder->row.flags |= TSROW_HAS_NULL;
pTColumn->flags |= COL_SET_NULL;
pTSKVRow->idx[pTSKVRow->nCols].cid = cid;
pTSKVRow->idx[pTSKVRow->nCols].offset = -1;
}
pTSKVRow->nCols++;
}
return 0;
}
static FORCE_INLINE int tSKVIdxCmprFn(const void *p1, const void *p2) {
SKVIdx *pKVIdx1 = (SKVIdx *)p1;
SKVIdx *pKVIdx2 = (SKVIdx *)p2;
if (pKVIdx1->cid > pKVIdx2->cid) {
return 1;
} else if (pKVIdx1->cid < pKVIdx2->cid) {
return -1;
}
return 0;
}
static void setBitMap(uint8_t *p, STSchema *pTSchema, uint8_t flags) {
int32_t bidx;
STColumn *pTColumn;
for (int32_t iCol = 1; iCol < pTSchema->numOfCols; iCol++) {
pTColumn = &pTSchema->columns[iCol];
bidx = iCol - 1;
switch (flags) {
case TSROW_HAS_NULL | TSROW_HAS_NONE:
if (pTColumn->flags & COL_SET_NULL) {
SET_BIT1(p, bidx, (uint8_t)1);
} else {
SET_BIT1(p, bidx, (uint8_t)0);
}
break;
case TSROW_HAS_VAL | TSROW_HAS_NULL | TSROW_HAS_NONE:
if (pTColumn->flags & COL_SET_NULL) {
SET_BIT2(p, bidx, (uint8_t)1);
} else if (pTColumn->flags & COL_SET_VAL) {
SET_BIT2(p, bidx, (uint8_t)2);
} else {
SET_BIT2(p, bidx, (uint8_t)0);
}
break;
default:
if (pTColumn->flags & COL_SET_VAL) {
SET_BIT1(p, bidx, (uint8_t)1);
} else {
SET_BIT1(p, bidx, (uint8_t)0);
}
break;
}
}
}
int32_t tTSRowBuilderGetRow(STSRowBuilder *pBuilder, const STSRow2 **ppRow) {
int32_t nDataTP, nDataKV;
STSKVRow *pTSKVRow = (STSKVRow *)pBuilder->pKVBuf;
int32_t nCols = pBuilder->pTSchema->numOfCols;
// error not set ts
if (!COL_IS_SET(pBuilder->pTSchema->columns->flags)) {
return -1;
}
ASSERT(pTSKVRow->nCols < nCols);
if (pTSKVRow->nCols < nCols - 1) {
pBuilder->row.flags |= TSROW_HAS_NONE;
}
ASSERT((pBuilder->row.flags & 0xf) != 0);
*(ppRow) = &pBuilder->row;
switch (pBuilder->row.flags & 0xf) {
case TSROW_HAS_NONE:
case TSROW_HAS_NULL:
pBuilder->row.nData = 0;
pBuilder->row.pData = NULL;
return 0;
case TSROW_HAS_NULL | TSROW_HAS_NONE:
nDataTP = pBuilder->szBitMap1;
break;
case TSROW_HAS_VAL:
nDataTP = pBuilder->pTSchema->flen + pBuilder->vlenTP;
break;
case TSROW_HAS_VAL | TSROW_HAS_NONE:
case TSROW_HAS_VAL | TSROW_HAS_NULL:
nDataTP = pBuilder->szBitMap1 + pBuilder->pTSchema->flen + pBuilder->vlenTP;
break;
case TSROW_HAS_VAL | TSROW_HAS_NULL | TSROW_HAS_NONE:
nDataTP = pBuilder->szBitMap2 + pBuilder->pTSchema->flen + pBuilder->vlenTP;
break;
default:
ASSERT(0);
}
nDataKV = sizeof(STSKVRow) + sizeof(SKVIdx) * pTSKVRow->nCols + pBuilder->vlenKV;
pBuilder->row.sver = pBuilder->pTSchema->version;
if (nDataKV < nDataTP) {
// generate KV row
ASSERT((pBuilder->row.flags & 0xf) != TSROW_HAS_VAL);
pBuilder->row.flags |= TSROW_KV_ROW;
pBuilder->row.nData = nDataKV;
pBuilder->row.pData = pBuilder->pKVBuf;
qsort(pTSKVRow->idx, pTSKVRow->nCols, sizeof(SKVIdx), tSKVIdxCmprFn);
if (pTSKVRow->nCols < nCols - 1) {
memmove(&pTSKVRow->idx[pTSKVRow->nCols], &pTSKVRow->idx[nCols - 1], pBuilder->vlenKV);
}
} else {
// generate TUPLE row
pBuilder->row.nData = nDataTP;
uint8_t *p;
uint8_t flags = (pBuilder->row.flags & 0xf);
if (flags == TSROW_HAS_VAL) {
pBuilder->row.pData = pBuilder->pTPBuf + pBuilder->szBitMap2;
} else {
if (flags == (TSROW_HAS_VAL | TSROW_HAS_NULL | TSROW_HAS_NONE)) {
pBuilder->row.pData = pBuilder->pTPBuf;
} else {
pBuilder->row.pData = pBuilder->pTPBuf + pBuilder->szBitMap2 - pBuilder->szBitMap1;
}
setBitMap(pBuilder->row.pData, pBuilder->pTSchema, flags);
}
}
return 0;
}
#endif
// STag
static int tTagValCmprFn(const void *p1, const void *p2) {
if (((STagVal *)p1)->cid < ((STagVal *)p2)->cid) {
return -1;
@ -953,25 +807,6 @@ static void debugPrintTagVal(int8_t type, const void *val, int32_t vlen, const c
}
}
// if (isLarge) {
// p = (uint8_t *)&((int16_t *)pTag->idx)[pTag->nTag];
// } else {
// p = (uint8_t *)&pTag->idx[pTag->nTag];
// }
// (*ppArray) = taosArrayInit(pTag->nTag + 1, sizeof(STagVal));
// if (*ppArray == NULL) {
// code = TSDB_CODE_OUT_OF_MEMORY;
// goto _err;
// }
// for (int16_t iTag = 0; iTag < pTag->nTag; iTag++) {
// if (isLarge) {
// offset = ((int16_t *)pTag->idx)[iTag];
// } else {
// offset = pTag->idx[iTag];
// }
void debugPrintSTag(STag *pTag, const char *tag, int32_t ln) {
int8_t isJson = pTag->flags & TD_TAG_JSON;
int8_t isLarge = pTag->flags & TD_TAG_LARGE;
@ -1020,7 +855,7 @@ void debugCheckTags(STag *pTag) {
}
ASSERT(pTag->nTag <= 128 && pTag->nTag >= 0);
ASSERT(pTag->ver <= 512 && pTag->ver >= 0); // temp condition for pTag->ver
ASSERT(pTag->ver <= 512 && pTag->ver >= 0); // temp condition for pTag->ver
}
static int32_t tPutTagVal(uint8_t *p, STagVal *pTagVal, int8_t isJson) {
@ -1133,7 +968,7 @@ int32_t tTagNew(SArray *pArray, int32_t version, int8_t isJson, STag **ppTag) {
debugPrintSTag(*ppTag, __func__, __LINE__);
#endif
debugCheckTags(*ppTag); // TODO: remove this line after debug
debugCheckTags(*ppTag); // TODO: remove this line after debug
return code;
_err:
@ -1215,9 +1050,7 @@ int32_t tEncodeTag(SEncoder *pEncoder, const STag *pTag) {
return tEncodeBinary(pEncoder, (const uint8_t *)pTag, pTag->len);
}
int32_t tDecodeTag(SDecoder *pDecoder, STag **ppTag) {
return tDecodeBinary(pDecoder, (uint8_t **)ppTag, NULL);
}
int32_t tDecodeTag(SDecoder *pDecoder, STag **ppTag) { return tDecodeBinary(pDecoder, (uint8_t **)ppTag, NULL); }
int32_t tTagToValArray(const STag *pTag, SArray **ppArray) {
int32_t code = 0;

3
source/common/src/tmsg.c
View File

@ -34,7 +34,8 @@ int32_t tInitSubmitMsgIter(const SSubmitReq *pMsg, SSubmitMsgIter *pIter) {
return -1;
}
pIter->totalLen = ntohl(pMsg->length);
pIter->totalLen = htonl(pMsg->length);
pIter->numOfBlocks = htonl(pMsg->numOfBlocks);
ASSERT(pIter->totalLen > 0);
pIter->len = 0;
pIter->pMsg = pMsg;

36
source/common/src/tmsgcb.c
View File

@ -22,41 +22,21 @@ static SMsgCb defaultMsgCb;
void tmsgSetDefault(const SMsgCb* msgcb) { defaultMsgCb = *msgcb; }
int32_t tmsgPutToQueue(const SMsgCb* msgcb, EQueueType qtype, SRpcMsg* pMsg) {
PutToQueueFp fp = msgcb->queueFps[qtype];
return (*fp)(msgcb->mgmt, pMsg);
return (*msgcb->putToQueueFp)(msgcb->mgmt, qtype, pMsg);
}
int32_t tmsgGetQueueSize(const SMsgCb* msgcb, int32_t vgId, EQueueType qtype) {
GetQueueSizeFp fp = msgcb->qsizeFp;
return (*fp)(msgcb->mgmt, vgId, qtype);
return (*msgcb->qsizeFp)(msgcb->mgmt, vgId, qtype);
}
int32_t tmsgSendReq(const SEpSet* epSet, SRpcMsg* pMsg) {
SendReqFp fp = defaultMsgCb.sendReqFp;
return (*fp)(epSet, pMsg);
}
int32_t tmsgSendReq(const SEpSet* epSet, SRpcMsg* pMsg) { return (*defaultMsgCb.sendReqFp)(epSet, pMsg); }
void tmsgSendRsp(SRpcMsg* pMsg) {
SendRspFp fp = defaultMsgCb.sendRspFp;
return (*fp)(pMsg);
}
void tmsgSendRsp(SRpcMsg* pMsg) { return (*defaultMsgCb.sendRspFp)(pMsg); }
void tmsgSendRedirectRsp(SRpcMsg* pMsg, const SEpSet* pNewEpSet) {
SendRedirectRspFp fp = defaultMsgCb.sendRedirectRspFp;
(*fp)(pMsg, pNewEpSet);
}
void tmsgSendRedirectRsp(SRpcMsg* pMsg, const SEpSet* pNewEpSet) { (*defaultMsgCb.sendRedirectRspFp)(pMsg, pNewEpSet); }
void tmsgRegisterBrokenLinkArg(SRpcMsg* pMsg) {
RegisterBrokenLinkArgFp fp = defaultMsgCb.registerBrokenLinkArgFp;
(*fp)(pMsg);
}
void tmsgRegisterBrokenLinkArg(SRpcMsg* pMsg) { (*defaultMsgCb.registerBrokenLinkArgFp)(pMsg); }
void tmsgReleaseHandle(SRpcHandleInfo* pHandle, int8_t type) {
ReleaseHandleFp fp = defaultMsgCb.releaseHandleFp;
(*fp)(pHandle, type);
}
void tmsgReleaseHandle(SRpcHandleInfo* pHandle, int8_t type) { (*defaultMsgCb.releaseHandleFp)(pHandle, type); }
void tmsgReportStartup(const char* name, const char* desc) {
ReportStartup fp = defaultMsgCb.reportStartupFp;
(*fp)(name, desc);
}
void tmsgReportStartup(const char* name, const char* desc) { (*defaultMsgCb.reportStartupFp)(name, desc); }

5
source/dnode/mgmt/mgmt_mnode/inc/mmInt.h
View File

@ -65,10 +65,7 @@ int32_t mmPutNodeMsgToSyncQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t mmPutNodeMsgToReadQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t mmPutNodeMsgToQueryQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t mmPutNodeMsgToMonitorQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t mmPutRpcMsgToQueryQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t mmPutRpcMsgToReadQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t mmPutRpcMsgToWriteQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t mmPutRpcMsgToSyncQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t mmPutRpcMsgToQueue(SMnodeMgmt *pMgmt, EQueueType qtype, SRpcMsg *pRpc);
#ifdef __cplusplus
}

4
source/dnode/mgmt/mgmt_mnode/src/mmHandle.c
View File

@ -134,7 +134,7 @@ SArray *mmGetMsgHandles() {
// Requests handled by DNODE
if (dmSetMgmtHandle(pArray, TDMT_DND_CREATE_MNODE_RSP, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_ALTER_MNODE_RSP, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MND_ALTER_MNODE_RSP, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_DROP_MNODE_RSP, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_CREATE_QNODE_RSP, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_DROP_QNODE_RSP, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
@ -190,7 +190,7 @@ SArray *mmGetMsgHandles() {
if (dmSetMgmtHandle(pArray, TDMT_MND_KILL_TRANS, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MND_GRANT, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MND_AUTH, mmPutNodeMsgToReadQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_ALTER_MNODE, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MND_ALTER_MNODE, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MND_CREATE_TOPIC, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MND_ALTER_TOPIC, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MND_DROP_TOPIC, mmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;

5
source/dnode/mgmt/mgmt_mnode/src/mmInt.c
View File

@ -105,10 +105,7 @@ static int32_t mmOpen(SMgmtInputOpt *pInput, SMgmtOutputOpt *pOutput) {
pMgmt->path = pInput->path;
pMgmt->name = pInput->name;
pMgmt->msgCb = pInput->msgCb;
pMgmt->msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)mmPutRpcMsgToQueryQueue;
pMgmt->msgCb.queueFps[READ_QUEUE] = (PutToQueueFp)mmPutRpcMsgToReadQueue;
pMgmt->msgCb.queueFps[WRITE_QUEUE] = (PutToQueueFp)mmPutRpcMsgToWriteQueue;
pMgmt->msgCb.queueFps[SYNC_QUEUE] = (PutToQueueFp)mmPutRpcMsgToSyncQueue;
pMgmt->msgCb.putToQueueFp = (PutToQueueFp)mmPutRpcMsgToQueue;
pMgmt->msgCb.mgmt = pMgmt;
taosThreadRwlockInit(&pMgmt->lock, NULL);

54
source/dnode/mgmt/mgmt_mnode/src/mmWorker.c
View File

@ -96,40 +96,38 @@ int32_t mmPutNodeMsgToMonitorQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return mmPutNodeMsgToWorker(&pMgmt->monitorWorker, pMsg);
}
static inline int32_t mmPutRpcMsgToWorker(SSingleWorker *pWorker, SRpcMsg *pRpc) {
int32_t mmPutRpcMsgToQueue(SMnodeMgmt *pMgmt, EQueueType qtype, SRpcMsg *pRpc) {
SRpcMsg *pMsg = taosAllocateQitem(sizeof(SRpcMsg), RPC_QITEM);
if (pMsg == NULL) return -1;
dTrace("msg:%p, create and put into worker:%s, type:%s", pMsg, pWorker->name, TMSG_INFO(pRpc->msgType));
memcpy(pMsg, pRpc, sizeof(SRpcMsg));
taosWriteQitem(pWorker->queue, pMsg);
return 0;
}
int32_t mmPutRpcMsgToQueryQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return mmPutRpcMsgToWorker(&pMgmt->queryWorker, pMsg);
}
switch (qtype) {
case WRITE_QUEUE:
dTrace("msg:%p, is created and will put into vnode-write queue", pMsg);
taosWriteQitem(pMgmt->writeWorker.queue, pMsg);
return 0;
case QUERY_QUEUE:
dTrace("msg:%p, is created and will put into vnode-query queue", pMsg);
taosWriteQitem(pMgmt->queryWorker.queue, pMsg);
return 0;
int32_t mmPutRpcMsgToWriteQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return mmPutRpcMsgToWorker(&pMgmt->writeWorker, pMsg);
}
int32_t mmPutRpcMsgToReadQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return mmPutRpcMsgToWorker(&pMgmt->readWorker, pMsg);
}
int32_t mmPutRpcMsgToSyncQueue(SMnodeMgmt *pMgmt, SRpcMsg *pMsg) {
int32_t code = -1;
if (mmAcquire(pMgmt) == 0) {
code = mmPutRpcMsgToWorker(&pMgmt->syncWorker, pMsg);
mmRelease(pMgmt);
case READ_QUEUE:
dTrace("msg:%p, is created and will put into vnode-read queue", pMsg);
taosWriteQitem(pMgmt->readWorker.queue, pMsg);
return 0;
case SYNC_QUEUE:
if (mmAcquire(pMgmt) == 0) {
dTrace("msg:%p, is created and will put into vnode-sync queue", pMsg);
taosWriteQitem(pMgmt->syncWorker.queue, pMsg);
mmRelease(pMgmt);
return 0;
} else {
return -1;
}
default:
terrno = TSDB_CODE_INVALID_PARA;
return -1;
}
if (code != 0) {
rpcFreeCont(pMsg->pCont);
pMsg->pCont = NULL;
}
return code;
}
int32_t mmStartWorker(SMnodeMgmt *pMgmt) {

3
source/dnode/mgmt/mgmt_qnode/inc/qmInt.h
View File

@ -42,8 +42,7 @@ int32_t qmProcessDropReq(const SMgmtInputOpt *pInput, SRpcMsg *pMsg);
int32_t qmProcessGetMonitorInfoReq(SQnodeMgmt *pMgmt, SRpcMsg *pMsg);
// qmWorker.c
int32_t qmPutRpcMsgToQueryQueue(SQnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t qmPutRpcMsgToFetchQueue(SQnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t qmPutRpcMsgToQueue(SQnodeMgmt *pMgmt, EQueueType qtype, SRpcMsg *pMsg);
int32_t qmGetQueueSize(SQnodeMgmt *pMgmt, int32_t vgId, EQueueType qtype);
int32_t qmStartWorker(SQnodeMgmt *pMgmt);

3
source/dnode/mgmt/mgmt_qnode/src/qmInt.c
View File

@ -43,8 +43,7 @@ static int32_t qmOpen(SMgmtInputOpt *pInput, SMgmtOutputOpt *pOutput) {
pMgmt->path = pInput->path;
pMgmt->name = pInput->name;
pMgmt->msgCb = pInput->msgCb;
pMgmt->msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qmPutRpcMsgToQueryQueue;
pMgmt->msgCb.queueFps[FETCH_QUEUE] = (PutToQueueFp)qmPutRpcMsgToFetchQueue;
pMgmt->msgCb.putToQueueFp = (PutToQueueFp)qmPutRpcMsgToQueue;
pMgmt->msgCb.qsizeFp = (GetQueueSizeFp)qmGetQueueSize;
pMgmt->msgCb.mgmt = pMgmt;

26
source/dnode/mgmt/mgmt_qnode/src/qmWorker.c
View File

@ -68,22 +68,24 @@ int32_t qmPutNodeMsgToMonitorQueue(SQnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return qmPutNodeMsgToWorker(&pMgmt->monitorWorker, pMsg);
}
static int32_t qmPutRpcMsgToWorker(SQnodeMgmt *pMgmt, SSingleWorker *pWorker, SRpcMsg *pRpc) {
int32_t qmPutRpcMsgToQueue(SQnodeMgmt *pMgmt, EQueueType qtype, SRpcMsg *pRpc) {
SRpcMsg *pMsg = taosAllocateQitem(sizeof(SRpcMsg), RPC_QITEM);
if (pMsg == NULL) return -1;
dTrace("msg:%p, create and put into worker:%s, type:%s", pMsg, pWorker->name, TMSG_INFO(pRpc->msgType));
memcpy(pMsg, pRpc, sizeof(SRpcMsg));
taosWriteQitem(pWorker->queue, pMsg);
return 0;
}
int32_t qmPutRpcMsgToQueryQueue(SQnodeMgmt *pMgmt, SRpcMsg *pRpc) {
return qmPutRpcMsgToWorker(pMgmt, &pMgmt->queryWorker, pRpc);
}
int32_t qmPutRpcMsgToFetchQueue(SQnodeMgmt *pMgmt, SRpcMsg *pRpc) {
return qmPutRpcMsgToWorker(pMgmt, &pMgmt->fetchWorker, pRpc);
switch (qtype) {
case QUERY_QUEUE:
dTrace("msg:%p, is created and will put into qnode-query queue", pMsg);
taosWriteQitem(pMgmt->queryWorker.queue, pMsg);
return 0;
case READ_QUEUE:
dTrace("msg:%p, is created and will put into qnode-fetch queue", pMsg);
taosWriteQitem(pMgmt->fetchWorker.queue, pMsg);
return 0;
default:
terrno = TSDB_CODE_INVALID_PARA;
return -1;
}
}
int32_t qmGetQueueSize(SQnodeMgmt *pMgmt, int32_t vgId, EQueueType qtype) {

55
source/dnode/mgmt/mgmt_vnode/inc/vmInt.h
View File

@ -44,26 +44,26 @@ typedef struct SVnodeMgmt {
} SVnodeMgmt;
typedef struct {
int32_t vgId;
int32_t vgVersion;
int8_t dropped;
char path[PATH_MAX + 20];
int32_t vgId;
int32_t vgVersion;
int8_t dropped;
char path[PATH_MAX + 20];
} SWrapperCfg;
typedef struct {
int32_t vgId;
int32_t refCount;
int32_t vgVersion;
int8_t dropped;
int8_t accessState;
char *path;
SVnode *pImpl;
STaosQueue *pWriteQ;
STaosQueue *pSyncQ;
STaosQueue *pApplyQ;
STaosQueue *pQueryQ;
STaosQueue *pFetchQ;
STaosQueue *pMergeQ;
int32_t vgId;
int32_t refCount;
int32_t vgVersion;
int8_t dropped;
int8_t accessState;
char *path;
SVnode *pImpl;
STaosQueue *pWriteQ;
STaosQueue *pSyncQ;
STaosQueue *pApplyQ;
STaosQueue *pQueryQ;
STaosQueue *pFetchQ;
STaosQueue *pMergeQ;
} SVnodeObj;
typedef struct {
@ -100,21 +100,16 @@ void vmStopWorker(SVnodeMgmt *pMgmt);
int32_t vmAllocQueue(SVnodeMgmt *pMgmt, SVnodeObj *pVnode);
void vmFreeQueue(SVnodeMgmt *pMgmt, SVnodeObj *pVnode);
int32_t vmPutRpcMsgToWriteQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutRpcMsgToSyncQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutRpcMsgToApplyQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutRpcMsgToQueryQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutRpcMsgToFetchQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutRpcMsgToMergeQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmGetQueueSize(SVnodeMgmt *pMgmt, int32_t vgId, EQueueType qtype);
int32_t vmPutRpcMsgToQueue(SVnodeMgmt *pMgmt, EQueueType qtype, SRpcMsg *pRpc);
int32_t vmPutNodeMsgToWriteQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutNodeMsgToSyncQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutNodeMsgToQueryQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutNodeMsgToFetchQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutNodeMsgToMergeQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutNodeMsgToMgmtQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutNodeMsgToMonitorQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutMsgToWriteQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutMsgToSyncQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutMsgToQueryQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutMsgToFetchQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutMsgToMergeQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutMsgToMgmtQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
int32_t vmPutMsgToMonitorQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg);
#ifdef __cplusplus
}

12
source/dnode/mgmt/mgmt_vnode/src/vmFile.c
View File

@ -16,6 +16,8 @@
#define _DEFAULT_SOURCE
#include "vmInt.h"
#define MAX_CONTENT_LEN 1024 * 1024
SVnodeObj **vmGetVnodeListFromHash(SVnodeMgmt *pMgmt, int32_t *numOfVnodes) {
taosThreadRwlockRdlock(&pMgmt->lock);
@ -29,7 +31,7 @@ SVnodeObj **vmGetVnodeListFromHash(SVnodeMgmt *pMgmt, int32_t *numOfVnodes) {
SVnodeObj *pVnode = *ppVnode;
if (pVnode && num < size) {
int32_t refCount = atomic_add_fetch_32(&pVnode->refCount, 1);
dTrace("vgId:%d, acquire vnode, refCount:%d", pVnode->vgId, refCount);
// dTrace("vgId:%d, acquire vnode, refCount:%d", pVnode->vgId, refCount);
pVnodes[num] = (*ppVnode);
num++;
pIter = taosHashIterate(pMgmt->hash, pIter);
@ -47,7 +49,7 @@ SVnodeObj **vmGetVnodeListFromHash(SVnodeMgmt *pMgmt, int32_t *numOfVnodes) {
int32_t vmGetVnodeListFromFile(SVnodeMgmt *pMgmt, SWrapperCfg **ppCfgs, int32_t *numOfVnodes) {
int32_t code = TSDB_CODE_INVALID_JSON_FORMAT;
int32_t len = 0;
int32_t maxLen = 1024 * 1024;
int32_t maxLen = MAX_CONTENT_LEN;
char *content = taosMemoryCalloc(1, maxLen + 1);
cJSON *root = NULL;
FILE *fp = NULL;
@ -128,7 +130,7 @@ int32_t vmGetVnodeListFromFile(SVnodeMgmt *pMgmt, SWrapperCfg **ppCfgs, int32_t
*numOfVnodes = vnodesNum;
code = 0;
dDebug("succcessed to read file %s", file);
dDebug("succcessed to read file %s, numOfVnodes:%d", file, vnodesNum);
_OVER:
if (content != NULL) taosMemoryFree(content);
@ -156,7 +158,7 @@ int32_t vmWriteVnodeListToFile(SVnodeMgmt *pMgmt) {
SVnodeObj **pVnodes = vmGetVnodeListFromHash(pMgmt, &numOfVnodes);
int32_t len = 0;
int32_t maxLen = 1024 * 1024;
int32_t maxLen = MAX_CONTENT_LEN;
char *content = taosMemoryCalloc(1, maxLen + 1);
if (content == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
@ -195,6 +197,6 @@ int32_t vmWriteVnodeListToFile(SVnodeMgmt *pMgmt) {
taosMemoryFree(pVnodes);
}
dDebug("successed to write %s", realfile);
dDebug("successed to write %s, numOfVnodes:%d", realfile, numOfVnodes);
return taosRenameFile(file, realfile);
}

102
source/dnode/mgmt/mgmt_vnode/src/vmHandle.c
View File

@ -210,7 +210,7 @@ int32_t vmProcessCreateVnodeReq(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return -1;
}
dDebug("vgId:%d, create vnode req is received, tsma:%d standby:%d", createReq.vgId, createReq.isTsma,
dDebug("vgId:%d, start to create vnode, tsma:%d standby:%d", createReq.vgId, createReq.isTsma,
createReq.standby);
vmGenerateVnodeCfg(&createReq, &vnodeCfg);
@ -294,7 +294,7 @@ int32_t vmProcessDropVnodeReq(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
}
int32_t vgId = dropReq.vgId;
dDebug("vgId:%d, drop vnode req is received", vgId);
dDebug("vgId:%d, start to drop vnode", vgId);
SVnodeObj *pVnode = vmAcquireVnode(pMgmt, vgId);
if (pVnode == NULL) {
@ -321,59 +321,59 @@ SArray *vmGetMsgHandles() {
SArray *pArray = taosArrayInit(32, sizeof(SMgmtHandle));
if (pArray == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MON_VM_INFO, vmPutNodeMsgToMonitorQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MON_VM_LOAD, vmPutNodeMsgToMonitorQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MON_VM_INFO, vmPutMsgToMonitorQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_MON_VM_LOAD, vmPutMsgToMonitorQueue, 0) == NULL) goto _OVER;
// Requests handled by VNODE
if (dmSetMgmtHandle(pArray, TDMT_VND_SUBMIT, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_QUERY, vmPutNodeMsgToQueryQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_QUERY_CONTINUE, vmPutNodeMsgToQueryQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_FETCH, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_ALTER_TABLE, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_UPDATE_TAG_VAL, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TABLE_META, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TABLES_META, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_CONSUME, vmPutNodeMsgToQueryQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_QUERY, vmPutNodeMsgToQueryQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_CONNECT, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_DISCONNECT, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
// if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_SET_CUR, vmPutNodeMsgToWriteQueue, 0)== NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CANCEL_TASK, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_DROP_TASK, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CREATE_STB, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_ALTER_STB, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_DROP_STB, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CREATE_TABLE, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_DROP_TABLE, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CREATE_SMA, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CANCEL_SMA, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_DROP_SMA, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SUBMIT_RSMA, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_VG_CHANGE, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_VG_DELETE, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CONSUME, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TASK_DEPLOY, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_QUERY_HEARTBEAT, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_STREAM_TRIGGER, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TASK_RUN, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TASK_DISPATCH, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TASK_RECOVER, vmPutNodeMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SUBMIT, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_QUERY, vmPutMsgToQueryQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_QUERY_CONTINUE, vmPutMsgToQueryQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_FETCH, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_ALTER_TABLE, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_UPDATE_TAG_VAL, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TABLE_META, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TABLES_META, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_CONSUME, vmPutMsgToQueryQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_QUERY, vmPutMsgToQueryQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_CONNECT, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_DISCONNECT, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
// if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_SET_CUR, vmPutMsgToWriteQueue, 0)== NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CANCEL_TASK, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_DROP_TASK, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CREATE_STB, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_ALTER_STB, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_DROP_STB, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CREATE_TABLE, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_DROP_TABLE, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CREATE_SMA, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CANCEL_SMA, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_DROP_SMA, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SUBMIT_RSMA, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_VG_CHANGE, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_MQ_VG_DELETE, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_CONSUME, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TASK_DEPLOY, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_QUERY_HEARTBEAT, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_STREAM_TRIGGER, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TASK_RUN, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TASK_DISPATCH, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_TASK_RECOVER, vmPutMsgToFetchQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_ALTER_REPLICA, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_ALTER_CONFIG, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_COMPACT, vmPutNodeMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_CREATE_VNODE, vmPutNodeMsgToMgmtQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_DROP_VNODE, vmPutNodeMsgToMgmtQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_ALTER_REPLICA, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_ALTER_CONFIG, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_COMPACT, vmPutMsgToWriteQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_CREATE_VNODE, vmPutMsgToMgmtQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_DND_DROP_VNODE, vmPutMsgToMgmtQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_TIMEOUT, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_PING, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_PING_REPLY, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_CLIENT_REQUEST, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_CLIENT_REQUEST_REPLY, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_REQUEST_VOTE, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_REQUEST_VOTE_REPLY, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_APPEND_ENTRIES, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_APPEND_ENTRIES_REPLY, vmPutNodeMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_TIMEOUT, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_PING, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_PING_REPLY, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_CLIENT_REQUEST, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_CLIENT_REQUEST_REPLY, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_REQUEST_VOTE, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_REQUEST_VOTE_REPLY, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_APPEND_ENTRIES, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
if (dmSetMgmtHandle(pArray, TDMT_VND_SYNC_APPEND_ENTRIES_REPLY, vmPutMsgToSyncQueue, 0) == NULL) goto _OVER;
code = 0;

21
source/dnode/mgmt/mgmt_vnode/src/vmInt.c
View File

@ -18,21 +18,17 @@
SVnodeObj *vmAcquireVnode(SVnodeMgmt *pMgmt, int32_t vgId) {
SVnodeObj *pVnode = NULL;
int32_t refCount = 0;
taosThreadRwlockRdlock(&pMgmt->lock);
taosHashGetDup(pMgmt->hash, &vgId, sizeof(int32_t), (void *)&pVnode);
if (pVnode == NULL) {
terrno = TSDB_CODE_VND_INVALID_VGROUP_ID;
} else {
refCount = atomic_add_fetch_32(&pVnode->refCount, 1);
int32_t refCount = atomic_add_fetch_32(&pVnode->refCount, 1);
// dTrace("vgId:%d, acquire vnode, ref:%d", pVnode->vgId, refCount);
}
taosThreadRwlockUnlock(&pMgmt->lock);
if (pVnode != NULL) {
dTrace("vgId:%d, acquire vnode, refCount:%d", pVnode->vgId, refCount);
}
return pVnode;
}
@ -41,8 +37,8 @@ void vmReleaseVnode(SVnodeMgmt *pMgmt, SVnodeObj *pVnode) {
taosThreadRwlockRdlock(&pMgmt->lock);
int32_t refCount = atomic_sub_fetch_32(&pVnode->refCount, 1);
// dTrace("vgId:%d, release vnode, ref:%d", pVnode->vgId, refCount);
taosThreadRwlockUnlock(&pMgmt->lock);
dTrace("vgId:%d, release vnode, refCount:%d", pVnode->vgId, refCount);
}
int32_t vmOpenVnode(SVnodeMgmt *pMgmt, SWrapperCfg *pCfg, SVnode *pImpl) {
@ -138,7 +134,7 @@ static void *vmOpenVnodeInThread(void *param) {
}
}
dDebug("thread:%d, total vnodes:%d, opened:%d failed:%d", pThread->threadIndex, pThread->vnodeNum, pThread->opened,
dDebug("thread:%d, numOfVnodes:%d, opened:%d failed:%d", pThread->threadIndex, pThread->vnodeNum, pThread->opened,
pThread->failed);
return NULL;
}
@ -160,7 +156,7 @@ static int32_t vmOpenVnodes(SVnodeMgmt *pMgmt) {
pMgmt->state.totalVnodes = numOfVnodes;
int32_t threadNum = 1; // tsNumOfCores;
int32_t threadNum = 1;
int32_t vnodesPerThread = numOfVnodes / threadNum + 1;
SVnodeThread *threads = taosMemoryCalloc(threadNum, sizeof(SVnodeThread));
@ -253,12 +249,7 @@ static int32_t vmInit(SMgmtInputOpt *pInput, SMgmtOutputOpt *pOutput) {
pMgmt->path = pInput->path;
pMgmt->name = pInput->name;
pMgmt->msgCb = pInput->msgCb;
pMgmt->msgCb.queueFps[WRITE_QUEUE] = (PutToQueueFp)vmPutRpcMsgToWriteQueue;
pMgmt->msgCb.queueFps[SYNC_QUEUE] = (PutToQueueFp)vmPutRpcMsgToSyncQueue;
pMgmt->msgCb.queueFps[APPLY_QUEUE] = (PutToQueueFp)vmPutRpcMsgToApplyQueue;
pMgmt->msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)vmPutRpcMsgToQueryQueue;
pMgmt->msgCb.queueFps[FETCH_QUEUE] = (PutToQueueFp)vmPutRpcMsgToFetchQueue;
pMgmt->msgCb.queueFps[MERGE_QUEUE] = (PutToQueueFp)vmPutRpcMsgToMergeQueue;
pMgmt->msgCb.putToQueueFp = (PutToQueueFp)vmPutRpcMsgToQueue;
pMgmt->msgCb.qsizeFp = (GetQueueSizeFp)vmGetQueueSize;
pMgmt->msgCb.mgmt = pMgmt;
taosThreadRwlockInit(&pMgmt->lock, NULL);

208
source/dnode/mgmt/mgmt_vnode/src/vmWorker.c
View File

@ -29,11 +29,11 @@ static inline void vmSendRsp(SRpcMsg *pMsg, int32_t code) {
tmsgSendRsp(&rsp);
}
static void vmProcessQueue(SQueueInfo *pInfo, SRpcMsg *pMsg) {
static void vmProcessMgmtQueue(SQueueInfo *pInfo, SRpcMsg *pMsg) {
SVnodeMgmt *pMgmt = pInfo->ahandle;
int32_t code = -1;
dTrace("msg:%p, get from vnode queue, type:%s", pMsg, TMSG_INFO(pMsg->msgType));
dTrace("msg:%p, get from vnode-mgmt queue", pMsg);
switch (pMsg->msgType) {
case TDMT_MON_VM_INFO:
code = vmProcessGetMonitorInfoReq(pMgmt, pMsg);
@ -49,11 +49,14 @@ static void vmProcessQueue(SQueueInfo *pInfo, SRpcMsg *pMsg) {
break;
default:
terrno = TSDB_CODE_MSG_NOT_PROCESSED;
dError("msg:%p, not processed in vnode queue", pMsg);
dError("msg:%p, not processed in vnode-mgmt queue", pMsg);
}
if (IsReq(pMsg)) {
if (code != 0 && terrno != 0) code = terrno;
if (code != 0 && terrno != 0) {
dError("msg:%p failed to process since %s", pMsg, terrstr());
code = terrno;
}
vmSendRsp(pMsg, code);
}
@ -65,13 +68,15 @@ static void vmProcessQueue(SQueueInfo *pInfo, SRpcMsg *pMsg) {
static void vmProcessQueryQueue(SQueueInfo *pInfo, SRpcMsg *pMsg) {
SVnodeObj *pVnode = pInfo->ahandle;
dTrace("msg:%p, get from vnode-query queue", pMsg);
dTrace("vgId:%d, msg:%p get from vnode-query queue", pVnode->vgId, pMsg);
int32_t code = vnodeProcessQueryMsg(pVnode->pImpl, pMsg);
if (code != 0) {
if (terrno != 0) code = terrno;
dError("vgId:%d, msg:%p failed to query since %s", pVnode->vgId, pMsg, terrstr());
vmSendRsp(pMsg, code);
}
dTrace("msg:%p, is freed, code:0x%x", pMsg, code);
dTrace("vgId:%d, msg:%p is freed, code:0x%x", pVnode->vgId, pMsg, code);
rpcFreeCont(pMsg->pCont);
taosFreeQitem(pMsg);
}
@ -79,13 +84,15 @@ static void vmProcessQueryQueue(SQueueInfo *pInfo, SRpcMsg *pMsg) {
static void vmProcessFetchQueue(SQueueInfo *pInfo, SRpcMsg *pMsg) {
SVnodeObj *pVnode = pInfo->ahandle;
dTrace("msg:%p, get from vnode-fetch queue", pMsg);
dTrace("vgId:%d, msg:%p get from vnode-fetch queue", pVnode->vgId, pMsg);
int32_t code = vnodeProcessFetchMsg(pVnode->pImpl, pMsg, pInfo);
if (code != 0) {
if (terrno != 0) code = terrno;
dError("vgId:%d, msg:%p failed to fetch since %s", pVnode->vgId, pMsg, terrstr());
vmSendRsp(pMsg, code);
}
dTrace("msg:%p, is freed, code:0x%x", pMsg, code);
dTrace("vgId:%d, msg:%p is freed, code:0x%x", pVnode->vgId, pMsg, code);
rpcFreeCont(pMsg->pCont);
taosFreeQitem(pMsg);
}
@ -99,7 +106,7 @@ static void vmProcessWriteQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numO
for (int32_t m = 0; m < numOfMsgs; m++) {
if (taosGetQitem(qall, (void **)&pMsg) == 0) continue;
dTrace("vgId:%d, get msg:%p from vnode-write queue, type:%s", pVnode->vgId, pMsg, TMSG_INFO(pMsg->msgType));
dTrace("vgId:%d, msg:%p get from vnode-write queue", pVnode->vgId, pMsg);
if (taosArrayPush(pArray, &pMsg) == NULL) {
dError("vgId:%d, failed to push msg:%p to vnode-write array", pVnode->vgId, pMsg);
@ -113,7 +120,7 @@ static void vmProcessWriteQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numO
if (code == TSDB_CODE_ACTION_IN_PROGRESS) continue;
if (code != 0) {
dError("vgId:%d, msg:%p failed to process since %s", pVnode->vgId, pMsg, tstrerror(code));
dError("vgId:%d, msg:%p failed to write since %s", pVnode->vgId, pMsg, tstrerror(code));
vmSendRsp(pMsg, code);
continue;
}
@ -129,14 +136,14 @@ static void vmProcessWriteQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numO
SRpcMsg rsp = {.code = TSDB_CODE_RPC_REDIRECT, .info = pMsg->info};
tmsgSendRedirectRsp(&rsp, &newEpSet);
} else {
dError("vgId:%d, msg:%p failed to process since %s", pVnode->vgId, pMsg, tstrerror(code));
dError("vgId:%d, msg:%p failed to write since %s", pVnode->vgId, pMsg, tstrerror(code));
vmSendRsp(pMsg, code);
}
}
for (int32_t i = 0; i < numOfMsgs; i++) {
pMsg = *(SRpcMsg **)taosArrayGet(pArray, i);
dTrace("vgId:%d, msg:%p, is freed", pVnode->vgId, pMsg);
dTrace("vgId:%d, msg:%p is freed", pVnode->vgId, pMsg);
rpcFreeCont(pMsg->pCont);
taosFreeQitem(pMsg);
}
@ -146,10 +153,11 @@ static void vmProcessWriteQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numO
static void vmProcessApplyQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numOfMsgs) {
SVnodeObj *pVnode = pInfo->ahandle;
SRpcMsg *pMsg = NULL;
for (int32_t i = 0; i < numOfMsgs; ++i) {
SRpcMsg *pMsg = NULL;
taosGetQitem(qall, (void **)&pMsg);
if (taosGetQitem(qall, (void **)&pMsg) == 0) continue;
dTrace("vgId:%d, msg:%p get from vnode-apply queue", pVnode->vgId, pMsg);
// init response rpc msg
SRpcMsg rsp = {0};
@ -164,7 +172,7 @@ static void vmProcessApplyQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numO
// apply data into tsdb
if (vnodeProcessWriteReq(pVnode->pImpl, &originalRpcMsg, pSyncApplyMsg->fsmMeta.index, &rsp) < 0) {
rsp.code = terrno;
dTrace("msg:%p, process write error since %s", pMsg, terrstr());
dError("vgId:%d, msg:%p failed to apply since %s", pVnode->vgId, pMsg, terrstr());
}
syncApplyMsgDestroy(pSyncApplyMsg);
@ -176,6 +184,7 @@ static void vmProcessApplyQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numO
tmsgSendRsp(&rsp);
}
dTrace("vgId:%d, msg:%p is freed, code:0x%x", pVnode->vgId, pMsg, rsp.code);
rpcFreeCont(pMsg->pCont);
taosFreeQitem(pMsg);
}
@ -183,23 +192,22 @@ static void vmProcessApplyQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numO
static void vmProcessSyncQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numOfMsgs) {
SVnodeObj *pVnode = pInfo->ahandle;
SRpcMsg *pMsg = NULL;
for (int32_t i = 0; i < numOfMsgs; ++i) {
SRpcMsg *pMsg = NULL;
taosGetQitem(qall, (void **)&pMsg);
if (taosGetQitem(qall, (void **)&pMsg) == 0) continue;
dTrace("vgId:%d, msg:%p get from vnode-sync queue", pVnode->vgId, pMsg);
int32_t code = vnodeProcessSyncReq(pVnode->pImpl, pMsg, NULL);
if (code != 0) {
dError("vgId:%d, msg:%p failed to sync since %s", pVnode->vgId, pMsg, terrstr());
if (pMsg->info.handle != NULL) {
SRpcMsg rsp = {
.code = (terrno < 0) ? terrno : code,
.info = pMsg->info,
};
dTrace("msg:%p, failed to process sync queue since %s", pMsg, terrstr());
tmsgSendRsp(&rsp);
if (terrno != 0) code = terrno;
vmSendRsp(pMsg, code);
}
}
dTrace("vgId:%d, msg:%p is freed, code:0x%x", pVnode->vgId, pMsg, code);
rpcFreeCont(pMsg->pCont);
taosFreeQitem(pMsg);
}
@ -207,24 +215,26 @@ static void vmProcessSyncQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numOf
static void vmProcessMergeQueue(SQueueInfo *pInfo, STaosQall *qall, int32_t numOfMsgs) {
SVnodeObj *pVnode = pInfo->ahandle;
SRpcMsg *pMsg = NULL;
for (int32_t i = 0; i < numOfMsgs; ++i) {
SRpcMsg *pMsg = NULL;
taosGetQitem(qall, (void **)&pMsg);
if (taosGetQitem(qall, (void **)&pMsg) == 0) continue;
dTrace("vgId:%d, msg:%p get from vnode-merge queue", pVnode->vgId, pMsg);
dTrace("msg:%p, get from vnode-merge queue", pMsg);
int32_t code = vnodeProcessFetchMsg(pVnode->pImpl, pMsg, pInfo);
if (code != 0) {
dError("vgId:%d, msg:%p failed to merge since %s", pVnode->vgId, pMsg, terrstr());
if (terrno != 0) code = terrno;
vmSendRsp(pMsg, code);
}
dTrace("msg:%p, is freed, code:0x%x", pMsg, code);
rpcFreeCont(pMsg->pCont);
taosFreeQitem(pMsg);
}
}
static int32_t vmPutNodeMsgToQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg, EQueueType qtype) {
static int32_t vmPutMsgToQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg, EQueueType qtype) {
SMsgHead *pHead = pMsg->pCont;
int32_t code = 0;
@ -233,31 +243,36 @@ static int32_t vmPutNodeMsgToQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg, EQueueType
SVnodeObj *pVnode = vmAcquireVnode(pMgmt, pHead->vgId);
if (pVnode == NULL) {
dError("vgId:%d, failed to put msg:%p into vnode-queue since %s", pHead->vgId, pMsg, terrstr());
dError("vgId:%d, failed to put msg:%p into vnode queue since %s, type:%s", pHead->vgId, pMsg, terrstr(),
TMSG_INFO(pMsg->msgType));
return terrno != 0 ? terrno : -1;
}
switch (qtype) {
case QUERY_QUEUE:
dTrace("msg:%p, put into vnode-query worker, type:%s", pMsg, TMSG_INFO(pMsg->msgType));
dTrace("vgId:%d, msg:%p put into vnode-query queue", pVnode->vgId, pMsg);
taosWriteQitem(pVnode->pQueryQ, pMsg);
break;
case FETCH_QUEUE:
dTrace("msg:%p, put into vnode-fetch worker, type:%s", pMsg, TMSG_INFO(pMsg->msgType));
dTrace("vgId:%d, msg:%p put into vnode-fetch queue", pVnode->vgId, pMsg);
taosWriteQitem(pVnode->pFetchQ, pMsg);
break;
case WRITE_QUEUE:
dTrace("msg:%p, put into vnode-write worker, type:%s", pMsg, TMSG_INFO(pMsg->msgType));
dTrace("vgId:%d, msg:%p put into vnode-write queue", pVnode->vgId, pMsg);
taosWriteQitem(pVnode->pWriteQ, pMsg);
break;
case SYNC_QUEUE:
dTrace("msg:%p, put into vnode-sync worker, type:%s", pMsg, TMSG_INFO(pMsg->msgType));
dTrace("vgId:%d, msg:%p put into vnode-sync queue", pVnode->vgId, pMsg);
taosWriteQitem(pVnode->pSyncQ, pMsg);
break;
case MERGE_QUEUE:
dTrace("msg:%p, put into vnode-merge worker, type:%s", pMsg, TMSG_INFO(pMsg->msgType));
dTrace("vgId:%d, msg:%p put into vnode-merge queue", pVnode->vgId, pMsg);
taosWriteQitem(pVnode->pMergeQ, pMsg);
break;
case APPLY_QUEUE:
dTrace("vgId:%d, msg:%p put into vnode-apply queue", pVnode->vgId, pMsg);
taosWriteQitem(pVnode->pApplyQ, pMsg);
break;
default:
code = -1;
terrno = TSDB_CODE_INVALID_PARA;
@ -268,110 +283,39 @@ static int32_t vmPutNodeMsgToQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg, EQueueType
return code;
}
int32_t vmPutNodeMsgToSyncQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return vmPutNodeMsgToQueue(pMgmt, pMsg, SYNC_QUEUE);
}
int32_t vmPutMsgToSyncQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) { return vmPutMsgToQueue(pMgmt, pMsg, SYNC_QUEUE); }
int32_t vmPutNodeMsgToWriteQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return vmPutNodeMsgToQueue(pMgmt, pMsg, WRITE_QUEUE);
}
int32_t vmPutMsgToWriteQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) { return vmPutMsgToQueue(pMgmt, pMsg, WRITE_QUEUE); }
int32_t vmPutNodeMsgToQueryQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return vmPutNodeMsgToQueue(pMgmt, pMsg, QUERY_QUEUE);
}
int32_t vmPutMsgToQueryQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) { return vmPutMsgToQueue(pMgmt, pMsg, QUERY_QUEUE); }
int32_t vmPutNodeMsgToFetchQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return vmPutNodeMsgToQueue(pMgmt, pMsg, FETCH_QUEUE);
}
int32_t vmPutMsgToFetchQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) { return vmPutMsgToQueue(pMgmt, pMsg, FETCH_QUEUE); }
int32_t vmPutNodeMsgToMergeQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
return vmPutNodeMsgToQueue(pMgmt, pMsg, MERGE_QUEUE);
}
int32_t vmPutMsgToMergeQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) { return vmPutMsgToQueue(pMgmt, pMsg, MERGE_QUEUE); }
int32_t vmPutNodeMsgToMgmtQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
SSingleWorker *pWorker = &pMgmt->mgmtWorker;
dTrace("msg:%p, put into vnode-mgmt worker, type:%s", pMsg, TMSG_INFO(pMsg->msgType));
taosWriteQitem(pWorker->queue, pMsg);
int32_t vmPutMsgToMgmtQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
dTrace("msg:%p, put into vnode-mgmt queue", pMsg);
taosWriteQitem(pMgmt->mgmtWorker.queue, pMsg);
return 0;
}
int32_t vmPutNodeMsgToMonitorQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
SSingleWorker *pWorker = &pMgmt->monitorWorker;
dTrace("msg:%p, put into vnode-monitor worker, type:%s", pMsg, TMSG_INFO(pMsg->msgType));
taosWriteQitem(pWorker->queue, pMsg);
int32_t vmPutMsgToMonitorQueue(SVnodeMgmt *pMgmt, SRpcMsg *pMsg) {
dTrace("msg:%p, put into vnode-monitor queue", pMsg);
taosWriteQitem(pMgmt->monitorWorker.queue, pMsg);
return 0;
}
static int32_t vmPutRpcMsgToQueue(SVnodeMgmt *pMgmt, SRpcMsg *pRpc, EQueueType qtype) {
SMsgHead *pHead = pRpc->pCont;
SVnodeObj *pVnode = vmAcquireVnode(pMgmt, pHead->vgId);
if (pVnode == NULL) return -1;
int32_t vmPutRpcMsgToQueue(SVnodeMgmt *pMgmt, EQueueType qtype, SRpcMsg *pRpc) {
SRpcMsg *pMsg = taosAllocateQitem(sizeof(SRpcMsg), RPC_QITEM);
int32_t code = 0;
if (pMsg == NULL) return -1;
if (pMsg == NULL) {
rpcFreeCont(pRpc->pCont);
pRpc->pCont = NULL;
code = -1;
} else {
memcpy(pMsg, pRpc, sizeof(SRpcMsg));
switch (qtype) {
case WRITE_QUEUE:
dTrace("msg:%p, create and put into vnode-write worker, type:%s", pMsg, TMSG_INFO(pRpc->msgType));
taosWriteQitem(pVnode->pWriteQ, pMsg);
break;
case QUERY_QUEUE:
dTrace("msg:%p, create and put into vnode-query queue, type:%s", pMsg, TMSG_INFO(pRpc->msgType));
taosWriteQitem(pVnode->pQueryQ, pMsg);
break;
case FETCH_QUEUE:
dTrace("msg:%p, create and put into vnode-fetch queue, type:%s", pMsg, TMSG_INFO(pRpc->msgType));
taosWriteQitem(pVnode->pFetchQ, pMsg);
break;
case APPLY_QUEUE:
dTrace("msg:%p, create and put into vnode-apply queue, type:%s", pMsg, TMSG_INFO(pRpc->msgType));
taosWriteQitem(pVnode->pApplyQ, pMsg);
break;
case MERGE_QUEUE:
dTrace("msg:%p, create and put into vnode-merge queue, type:%s", pMsg, TMSG_INFO(pRpc->msgType));
taosWriteQitem(pVnode->pMergeQ, pMsg);
break;
case SYNC_QUEUE:
dTrace("msg:%p, create and put into vnode-sync queue, type:%s", pMsg, TMSG_INFO(pRpc->msgType));
taosWriteQitem(pVnode->pSyncQ, pMsg);
break;
default:
code = -1;
terrno = TSDB_CODE_INVALID_PARA;
break;
}
}
SMsgHead *pHead = pRpc->pCont;
dTrace("vgId:%d, msg:%p is created, type:%s", pHead->vgId, pMsg, TMSG_INFO(pMsg->msgType));
vmReleaseVnode(pMgmt, pVnode);
return code;
}
int32_t vmPutRpcMsgToWriteQueue(SVnodeMgmt *pMgmt, SRpcMsg *pRpc) {
return vmPutRpcMsgToQueue(pMgmt, pRpc, WRITE_QUEUE);
}
int32_t vmPutRpcMsgToSyncQueue(SVnodeMgmt *pMgmt, SRpcMsg *pRpc) { return vmPutRpcMsgToQueue(pMgmt, pRpc, SYNC_QUEUE); }
int32_t vmPutRpcMsgToApplyQueue(SVnodeMgmt *pMgmt, SRpcMsg *pRpc) {
return vmPutRpcMsgToQueue(pMgmt, pRpc, APPLY_QUEUE);
}
int32_t vmPutRpcMsgToQueryQueue(SVnodeMgmt *pMgmt, SRpcMsg *pRpc) {
return vmPutRpcMsgToQueue(pMgmt, pRpc, QUERY_QUEUE);
}
int32_t vmPutRpcMsgToFetchQueue(SVnodeMgmt *pMgmt, SRpcMsg *pRpc) {
return vmPutRpcMsgToQueue(pMgmt, pRpc, FETCH_QUEUE);
}
int32_t vmPutRpcMsgToMergeQueue(SVnodeMgmt *pMgmt, SRpcMsg *pRpc) {
return vmPutRpcMsgToQueue(pMgmt, pRpc, MERGE_QUEUE);
pHead->contLen = htonl(pHead->contLen);
pHead->vgId = htonl(pHead->vgId);
memcpy(pMsg, pRpc, sizeof(SRpcMsg));
return vmPutMsgToQueue(pMgmt, pMsg, qtype);
}
int32_t vmGetQueueSize(SVnodeMgmt *pMgmt, int32_t vgId, EQueueType qtype) {
@ -467,29 +411,23 @@ int32_t vmStartWorker(SVnodeMgmt *pMgmt) {
pMPool->max = tsNumOfVnodeMergeThreads;
if (tWWorkerInit(pMPool) != 0) return -1;
SSingleWorkerCfg cfg = {
SSingleWorkerCfg mgmtCfg = {
.min = 1,
.max = 1,
.name = "vnode-mgmt",
.fp = (FItem)vmProcessQueue,
.fp = (FItem)vmProcessMgmtQueue,
.param = pMgmt,
};
if (tSingleWorkerInit(&pMgmt->mgmtWorker, &cfg) != 0) {
dError("failed to start vnode-mgmt worker since %s", terrstr());
return -1;
}
if (tSingleWorkerInit(&pMgmt->mgmtWorker, &mgmtCfg) != 0) return -1;
SSingleWorkerCfg mCfg = {
SSingleWorkerCfg monitorCfg = {
.min = 1,
.max = 1,
.name = "vnode-monitor",
.fp = (FItem)vmProcessQueue,
.fp = (FItem)vmProcessMgmtQueue,
.param = pMgmt,
};
if (tSingleWorkerInit(&pMgmt->monitorWorker, &mCfg) != 0) {
dError("failed to start vnode-monitor worker since %s", terrstr());
return -1;
}
if (tSingleWorkerInit(&pMgmt->monitorWorker, &monitorCfg) != 0) return -1;
dDebug("vnode workers are initialized");
return 0;

6
source/dnode/mgmt/node_mgmt/src/dmMgmt.c
View File

@ -229,7 +229,7 @@ SMgmtWrapper *dmAcquireWrapper(SDnode *pDnode, EDndNodeType ntype) {
taosThreadRwlockRdlock(&pWrapper->lock);
if (pWrapper->deployed) {
int32_t refCount = atomic_add_fetch_32(&pWrapper->refCount, 1);
dTrace("node:%s, is acquired, ref:%d", pWrapper->name, refCount);
// dTrace("node:%s, is acquired, ref:%d", pWrapper->name, refCount);
} else {
terrno = TSDB_CODE_NODE_NOT_DEPLOYED;
pRetWrapper = NULL;
@ -245,7 +245,7 @@ int32_t dmMarkWrapper(SMgmtWrapper *pWrapper) {
taosThreadRwlockRdlock(&pWrapper->lock);
if (pWrapper->deployed || (InParentProc(pWrapper) && pWrapper->required)) {
int32_t refCount = atomic_add_fetch_32(&pWrapper->refCount, 1);
dTrace("node:%s, is marked, ref:%d", pWrapper->name, refCount);
// dTrace("node:%s, is marked, ref:%d", pWrapper->name, refCount);
} else {
terrno = TSDB_CODE_NODE_NOT_DEPLOYED;
code = -1;
@ -261,7 +261,7 @@ void dmReleaseWrapper(SMgmtWrapper *pWrapper) {
taosThreadRwlockRdlock(&pWrapper->lock);
int32_t refCount = atomic_sub_fetch_32(&pWrapper->refCount, 1);
taosThreadRwlockUnlock(&pWrapper->lock);
dTrace("node:%s, is released, ref:%d", pWrapper->name, refCount);
// dTrace("node:%s, is released, ref:%d", pWrapper->name, refCount);
}
static void dmGetServerStartupStatus(SDnode *pDnode, SServerStatusRsp *pStatus) {

1
source/dnode/mgmt/node_mgmt/src/dmTransport.c
View File

@ -117,6 +117,7 @@ static void dmProcessRpcMsg(SDnode *pDnode, SRpcMsg *pRpc, SEpSet *pEpSet) {
if (pMsg == NULL) {
goto _OVER;
}
dTrace("msg:%p, is created, type:%s", pMsg, TMSG_INFO(pRpc->msgType));
if (dmBuildNodeMsg(pMsg, pRpc) != 0) {
goto _OVER;

8
source/dnode/mgmt/test/mnode/dmnode.cpp
View File

@ -94,7 +94,7 @@ TEST_F(DndTestMnode, 02_Alter_Mnode) {
void* pReq = rpcMallocCont(contLen);
tSerializeSDCreateMnodeReq(pReq, contLen, &alterReq);
SRpcMsg* pRsp = test.SendReq(TDMT_DND_ALTER_MNODE, pReq, contLen);
SRpcMsg* pRsp = test.SendReq(TDMT_MND_ALTER_MNODE, pReq, contLen);
ASSERT_NE(pRsp, nullptr);
ASSERT_EQ(pRsp->code, TSDB_CODE_INVALID_OPTION);
}
@ -111,7 +111,7 @@ TEST_F(DndTestMnode, 02_Alter_Mnode) {
void* pReq = rpcMallocCont(contLen);
tSerializeSDCreateMnodeReq(pReq, contLen, &alterReq);
SRpcMsg* pRsp = test.SendReq(TDMT_DND_ALTER_MNODE, pReq, contLen);
SRpcMsg* pRsp = test.SendReq(TDMT_MND_ALTER_MNODE, pReq, contLen);
ASSERT_NE(pRsp, nullptr);
ASSERT_EQ(pRsp->code, TSDB_CODE_INVALID_OPTION);
}
@ -128,7 +128,7 @@ TEST_F(DndTestMnode, 02_Alter_Mnode) {
void* pReq = rpcMallocCont(contLen);
tSerializeSDCreateMnodeReq(pReq, contLen, &alterReq);
SRpcMsg* pRsp = test.SendReq(TDMT_DND_ALTER_MNODE, pReq, contLen);
SRpcMsg* pRsp = test.SendReq(TDMT_MND_ALTER_MNODE, pReq, contLen);
ASSERT_NE(pRsp, nullptr);
ASSERT_EQ(pRsp->code, 0);
}
@ -186,7 +186,7 @@ TEST_F(DndTestMnode, 03_Drop_Mnode) {
void* pReq = rpcMallocCont(contLen);
tSerializeSDCreateMnodeReq(pReq, contLen, &alterReq);
SRpcMsg* pRsp = test.SendReq(TDMT_DND_ALTER_MNODE, pReq, contLen);
SRpcMsg* pRsp = test.SendReq(TDMT_MND_ALTER_MNODE, pReq, contLen);
ASSERT_NE(pRsp, nullptr);
ASSERT_EQ(pRsp->code, TSDB_CODE_NODE_NOT_DEPLOYED);
}

3
source/dnode/mnode/impl/src/mndDb.c
View File

@ -1344,6 +1344,9 @@ int32_t mndValidateDbInfo(SMnode *pMnode, SDbVgVersion *pDbs, int32_t numOfDbs,
mDebug("db:%s, version & numOfTable not changed", pDbVgVersion->dbFName);
mndReleaseDb(pMnode, pDb);
continue;
} else {
mDebug("db:%s, vgroup version changed from %d to %d", pDbVgVersion->dbFName, pDbVgVersion->vgVersion,
pDb->vgVersion);
}
usedbRsp.pVgroupInfos = taosArrayInit(pDb->cfg.numOfVgroups, sizeof(SVgroupInfo));

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

@ -538,7 +538,7 @@ static int32_t mndRetrieveFuncs(SRpcMsg *pReq, SShowObj *pShow, SSDataBlock *pBl
pColInfo = taosArrayGet(pBlock->pDataBlock, cols++);
colDataAppend(pColInfo, numOfRows, (const char *)&isAgg, false);
char b3[TSDB_TYPE_STR_MAX_LEN] = {0};
char b3[TSDB_TYPE_STR_MAX_LEN + 1] = {0};
STR_WITH_MAXSIZE_TO_VARSTR(b3, mnodeGenTypeStr(buf, TSDB_TYPE_STR_MAX_LEN, pFunc->outputType, pFunc->outputLen),
pShow->pMeta->pSchemas[cols].bytes);

8
source/dnode/mnode/impl/src/mndMnode.c
View File

@ -53,10 +53,10 @@ int32_t mndInitMnode(SMnode *pMnode) {
};
mndSetMsgHandle(pMnode, TDMT_MND_CREATE_MNODE, mndProcessCreateMnodeReq);
mndSetMsgHandle(pMnode, TDMT_DND_ALTER_MNODE, mndProcessAlterMnodeReq);
mndSetMsgHandle(pMnode, TDMT_MND_ALTER_MNODE, mndProcessAlterMnodeReq);
mndSetMsgHandle(pMnode, TDMT_MND_DROP_MNODE, mndProcessDropMnodeReq);
mndSetMsgHandle(pMnode, TDMT_DND_CREATE_MNODE_RSP, mndProcessCreateMnodeRsp);
mndSetMsgHandle(pMnode, TDMT_DND_ALTER_MNODE_RSP, mndProcessAlterMnodeRsp);
mndSetMsgHandle(pMnode, TDMT_MND_ALTER_MNODE_RSP, mndProcessAlterMnodeRsp);
mndSetMsgHandle(pMnode, TDMT_DND_DROP_MNODE_RSP, mndProcessDropMnodeRsp);
mndAddShowRetrieveHandle(pMnode, TSDB_MGMT_TABLE_MNODE, mndRetrieveMnodes);
@ -338,7 +338,7 @@ static int32_t mndSetCreateMnodeRedoActions(SMnode *pMnode, STrans *pTrans, SDno
.epSet = alterEpset,
.pCont = pReq,
.contLen = contLen,
.msgType = TDMT_DND_ALTER_MNODE,
.msgType = TDMT_MND_ALTER_MNODE,
.acceptableCode = 0,
};
@ -506,7 +506,7 @@ static int32_t mndSetDropMnodeRedoActions(SMnode *pMnode, STrans *pTrans, SDnode
.epSet = alterEpset,
.pCont = pReq,
.contLen = contLen,
.msgType = TDMT_DND_ALTER_MNODE,
.msgType = TDMT_MND_ALTER_MNODE,
.acceptableCode = 0,
};

10
source/dnode/mnode/impl/test/acct/CMakeLists.txt
View File

@ -5,9 +5,7 @@ target_link_libraries(
PUBLIC sut
)
if(NOT TD_WINDOWS)
add_test(
NAME acctTest
COMMAND acctTest
)
endif(NOT TD_WINDOWS)
add_test(
NAME acctTest
COMMAND acctTest
)

4
source/dnode/mnode/impl/test/func/CMakeLists.txt
View File

@ -5,9 +5,9 @@ target_link_libraries(
PUBLIC sut
)
if(NOT TD_WINDOWS)
# if(NOT TD_WINDOWS)
add_test(
NAME funcTest
COMMAND funcTest
)
endif(NOT TD_WINDOWS)
# endif(NOT TD_WINDOWS)

4
source/dnode/mnode/impl/test/profile/CMakeLists.txt
View File

@ -5,9 +5,9 @@ target_link_libraries(
PUBLIC sut
)
if(NOT TD_WINDOWS)
# if(NOT TD_WINDOWS)
add_test(
NAME profileTest
COMMAND profileTest
)
endif(NOT TD_WINDOWS)
# endif(NOT TD_WINDOWS)

4
source/dnode/mnode/impl/test/show/CMakeLists.txt
View File

@ -5,9 +5,9 @@ target_link_libraries(
PUBLIC sut
)
if(NOT TD_WINDOWS)
# if(NOT TD_WINDOWS)
add_test(
NAME showTest
COMMAND showTest
)
endif(NOT TD_WINDOWS)
# endif(NOT TD_WINDOWS)

1
source/dnode/vnode/CMakeLists.txt
View File

@ -36,7 +36,6 @@ target_sources(
# tsdb
"src/tsdb/tsdbCommit.c"
"src/tsdb/tsdbCommit2.c"
"src/tsdb/tsdbFile.c"
"src/tsdb/tsdbFS.c"
"src/tsdb/tsdbOpen.c"

28
source/dnode/vnode/src/meta/metaQuery.c
View File

@ -576,15 +576,15 @@ SArray *metaGetSmaTbUids(SMeta *pMeta) {
const void *metaGetTableTagVal(SMetaEntry *pEntry, int16_t type, STagVal *val) {
ASSERT(pEntry->type == TSDB_CHILD_TABLE);
STag *tag = (STag *)pEntry->ctbEntry.pTags;
if (type == TSDB_DATA_TYPE_JSON){
if(tag->nTag == 0){
if (type == TSDB_DATA_TYPE_JSON) {
if (tag->nTag == 0) {
return NULL;
}
return tag;
}
bool find = tTagGet(tag, val);
if(!find){
if (!find) {
return NULL;
}
return val;
@ -605,8 +605,6 @@ typedef struct {
int32_t metaFilteTableIds(SMeta *pMeta, SMetaFltParam *param, SArray *pUids) {
SIdxCursor *pCursor = NULL;
char *tagData = param->val;
int32_t ret = 0, valid = 0;
pCursor = (SIdxCursor *)taosMemoryCalloc(1, sizeof(SIdxCursor));
pCursor->pMeta = pMeta;
@ -623,12 +621,16 @@ int32_t metaFilteTableIds(SMeta *pMeta, SMetaFltParam *param, SArray *pUids) {
int32_t nKey = 0;
int32_t nTagData = 0;
if(IS_VAR_DATA_TYPE(param->type)){
nTagData = strlen(param->val);
}else{
void * tagData = NULL;
if (IS_VAR_DATA_TYPE(param->type)) {
tagData = varDataVal(param->val);
nTagData = varDataLen(param->val);
} else {
tagData = param->val;
nTagData = tDataTypes[param->type].bytes;
}
ret = metaCreateTagIdxKey(pCursor->suid, pCursor->cid, param->val, nTagData, pCursor->type,
ret = metaCreateTagIdxKey(pCursor->suid, pCursor->cid, tagData, nTagData, pCursor->type,
param->reverse ? INT64_MAX : INT64_MIN, &pKey, &nKey);
if (ret != 0) {
goto END;
@ -637,6 +639,7 @@ int32_t metaFilteTableIds(SMeta *pMeta, SMetaFltParam *param, SArray *pUids) {
if (tdbTbcMoveTo(pCursor->pCur, pKey, nKey, &cmp) < 0) {
goto END;
}
void * entryKey = NULL, *entryVal = NULL;
int32_t nEntryKey, nEntryVal;
while (1) {
@ -649,7 +652,12 @@ int32_t metaFilteTableIds(SMeta *pMeta, SMetaFltParam *param, SArray *pUids) {
int32_t cmp = (*param->filterFunc)(p->data, pKey->data, pKey->type);
if (cmp == 0) {
// match
tb_uid_t tuid = *(tb_uid_t *)(p->data + tDataTypes[pCursor->type].bytes);
tb_uid_t tuid = 0;
if (IS_VAR_DATA_TYPE(pKey->type)) {
tuid = *(tb_uid_t *)(p->data + varDataTLen(p->data));
} else {
tuid = *(tb_uid_t *)(p->data + tDataTypes[pCursor->type].bytes);
}
taosArrayPush(pUids, &tuid);
} else if (cmp == 1) {
// not match but should continue to iter

68
source/dnode/vnode/src/meta/metaTable.c
View File

@ -49,9 +49,9 @@ int metaCreateSTable(SMeta *pMeta, int64_t version, SVCreateStbReq *pReq) {
int vLen = 0;
const void *pKey = NULL;
const void *pVal = NULL;
void *pBuf = NULL;
void * pBuf = NULL;
int32_t szBuf = 0;
void *p = NULL;
void * p = NULL;
SMetaReader mr = {0};
// validate req
@ -105,7 +105,7 @@ int metaDropSTable(SMeta *pMeta, int64_t verison, SVDropStbReq *pReq) {
}
// drop all child tables
TBC *pCtbIdxc = NULL;
TBC * pCtbIdxc = NULL;
SArray *pArray = taosArrayInit(8, sizeof(tb_uid_t));
tdbTbcOpen(pMeta->pCtbIdx, &pCtbIdxc, &pMeta->txn);
@ -160,8 +160,8 @@ _exit:
int metaAlterSTable(SMeta *pMeta, int64_t version, SVCreateStbReq *pReq) {
SMetaEntry oStbEntry = {0};
SMetaEntry nStbEntry = {0};
TBC *pUidIdxc = NULL;
TBC *pTbDbc = NULL;
TBC * pUidIdxc = NULL;
TBC * pTbDbc = NULL;
const void *pData;
int nData;
int64_t oversion;
@ -280,7 +280,7 @@ _err:
}
int metaDropTable(SMeta *pMeta, int64_t version, SVDropTbReq *pReq, SArray *tbUids) {
void *pData = NULL;
void * pData = NULL;
int nData = 0;
int rc = 0;
tb_uid_t uid;
@ -306,7 +306,7 @@ int metaDropTable(SMeta *pMeta, int64_t version, SVDropTbReq *pReq, SArray *tbUi
}
static int metaDropTableByUid(SMeta *pMeta, tb_uid_t uid, int *type) {
void *pData = NULL;
void * pData = NULL;
int nData = 0;
int rc = 0;
int64_t version;
@ -341,15 +341,16 @@ static int metaDropTableByUid(SMeta *pMeta, tb_uid_t uid, int *type) {
return 0;
}
static int metaAlterTableColumn(SMeta *pMeta, int64_t version, SVAlterTbReq *pAlterTbReq, STableMetaRsp *pMetaRsp) {
void * pVal = NULL;
int nVal = 0;
const void *pData = NULL;
const void * pData = NULL;
int nData = 0;
int ret = 0;
tb_uid_t uid;
int64_t oversion;
SSchema *pColumn = NULL;
SSchema * pColumn = NULL;
SMetaEntry entry = {0};
SSchemaWrapper *pSchema;
int c;
@ -499,7 +500,7 @@ _err:
static int metaUpdateTableTagVal(SMeta *pMeta, int64_t version, SVAlterTbReq *pAlterTbReq) {
SMetaEntry ctbEntry = {0};
SMetaEntry stbEntry = {0};
void *pVal = NULL;
void * pVal = NULL;
int nVal = 0;
int ret;
int c;
@ -530,7 +531,7 @@ static int metaUpdateTableTagVal(SMeta *pMeta, int64_t version, SVAlterTbReq *pA
oversion = *(int64_t *)pData;
// search table.db
TBC *pTbDbc = NULL;
TBC * pTbDbc = NULL;
SDecoder dc1 = {0};
SDecoder dc2 = {0};
@ -554,7 +555,7 @@ static int metaUpdateTableTagVal(SMeta *pMeta, int64_t version, SVAlterTbReq *pA
metaDecodeEntry(&dc2, &stbEntry);
SSchemaWrapper *pTagSchema = &stbEntry.stbEntry.schemaTag;
SSchema *pColumn = NULL;
SSchema * pColumn = NULL;
int32_t iCol = 0;
for (;;) {
pColumn = NULL;
@ -584,8 +585,8 @@ static int metaUpdateTableTagVal(SMeta *pMeta, int64_t version, SVAlterTbReq *pA
memcpy((void *)ctbEntry.ctbEntry.pTags, pAlterTbReq->pTagVal, pAlterTbReq->nTagVal);
} else {
const STag *pOldTag = (const STag *)ctbEntry.ctbEntry.pTags;
STag *pNewTag = NULL;
SArray *pTagArray = taosArrayInit(pTagSchema->nCols, sizeof(STagVal));
STag * pNewTag = NULL;
SArray * pTagArray = taosArrayInit(pTagSchema->nCols, sizeof(STagVal));
if (!pTagArray) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
goto _err;
@ -669,8 +670,8 @@ int metaAlterTable(SMeta *pMeta, int64_t version, SVAlterTbReq *pReq, STableMeta
static int metaSaveToTbDb(SMeta *pMeta, const SMetaEntry *pME) {
STbDbKey tbDbKey;
void *pKey = NULL;
void *pVal = NULL;
void * pKey = NULL;
void * pVal = NULL;
int kLen = 0;
int vLen = 0;
SEncoder coder = {0};
@ -753,16 +754,11 @@ static int metaUpdateCtbIdx(SMeta *pMeta, const SMetaEntry *pME) {
int metaCreateTagIdxKey(tb_uid_t suid, int32_t cid, const void *pTagData, int32_t nTagData, int8_t type, tb_uid_t uid,
STagIdxKey **ppTagIdxKey, int32_t *nTagIdxKey) {
// int32_t nTagData = 0;
// if (pTagData) {
// if (IS_VAR_DATA_TYPE(type)) {
// nTagData = varDataTLen(pTagData);
// } else {
// nTagData = tDataTypes[type].bytes;
// }
// }
*nTagIdxKey = sizeof(STagIdxKey) + nTagData + sizeof(tb_uid_t);
if (IS_VAR_DATA_TYPE(type)) {
*nTagIdxKey = sizeof(STagIdxKey) + nTagData + VARSTR_HEADER_SIZE + sizeof(tb_uid_t);
} else {
*nTagIdxKey = sizeof(STagIdxKey) + nTagData + sizeof(tb_uid_t);
}
*ppTagIdxKey = (STagIdxKey *)taosMemoryMalloc(*nTagIdxKey);
if (*ppTagIdxKey == NULL) {
@ -774,8 +770,16 @@ int metaCreateTagIdxKey(tb_uid_t suid, int32_t cid, const void *pTagData, int32_
(*ppTagIdxKey)->cid = cid;
(*ppTagIdxKey)->isNull = (pTagData == NULL) ? 1 : 0;
(*ppTagIdxKey)->type = type;
if (nTagData) memcpy((*ppTagIdxKey)->data, pTagData, nTagData);
*(tb_uid_t *)((*ppTagIdxKey)->data + nTagData) = uid;
// refactor
if (IS_VAR_DATA_TYPE(type)) {
memcpy((*ppTagIdxKey)->data, (uint16_t *)&nTagData, VARSTR_HEADER_SIZE);
memcpy((*ppTagIdxKey)->data + VARSTR_HEADER_SIZE, pTagData, nTagData);
*(tb_uid_t *)((*ppTagIdxKey)->data + VARSTR_HEADER_SIZE + nTagData) = uid;
} else {
memcpy((*ppTagIdxKey)->data, pTagData, nTagData);
*(tb_uid_t *)((*ppTagIdxKey)->data + nTagData) = uid;
}
return 0;
}
@ -785,14 +789,14 @@ static void metaDestroyTagIdxKey(STagIdxKey *pTagIdxKey) {
}
static int metaUpdateTagIdx(SMeta *pMeta, const SMetaEntry *pCtbEntry) {
void *pData = NULL;
void * pData = NULL;
int nData = 0;
STbDbKey tbDbKey = {0};
SMetaEntry stbEntry = {0};
STagIdxKey *pTagIdxKey = NULL;
STagIdxKey * pTagIdxKey = NULL;
int32_t nTagIdxKey;
const SSchema *pTagColumn; // = &stbEntry.stbEntry.schema.pSchema[0];
const void *pTagData = NULL; //
const void * pTagData = NULL; //
int32_t nTagData = 0;
SDecoder dc = {0};
@ -849,7 +853,7 @@ static int metaUpdateTagIdx(SMeta *pMeta, const SMetaEntry *pCtbEntry) {
static int metaSaveToSkmDb(SMeta *pMeta, const SMetaEntry *pME) {
SEncoder coder = {0};
void *pVal = NULL;
void * pVal = NULL;
int vLen = 0;
int rcode = 0;
SSkmDbKey skmDbKey = {0};

12
source/dnode/vnode/src/tsdb/tsdbCommit.c
View File

@ -88,6 +88,18 @@ static void tsdbLoadAndMergeFromCache(STsdb *pTsdb, SDataCols *pDataCols, int *i
SDataCols *pTarget, TSKEY maxKey, int maxRows, int8_t update);
int tsdbWriteBlockIdx(SDFile *pHeadf, SArray *pIdxA, void **ppBuf);
int tsdbBegin(STsdb *pTsdb) {
if (!pTsdb) return 0;
STsdbMemTable *pMem;
if (tsdbMemTableCreate(pTsdb, &pTsdb->mem) < 0) {
return -1;
}
return 0;
}
int tsdbApplyRtnOnFSet(STsdb *pRepo, SDFileSet *pSet, SRtn *pRtn) {
SDiskID did;
SDFileSet nSet = {0};

28
source/dnode/vnode/src/tsdb/tsdbCommit2.c
View File

@ -1,28 +0,0 @@
/*
* Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
*
* This program is free software: you can use, redistribute, and/or modify
* it under the terms of the GNU Affero General Public License, version 3
* or later ("AGPL"), as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "tsdb.h"
int tsdbBegin(STsdb *pTsdb) {
if (!pTsdb) return 0;
STsdbMemTable *pMem;
if (tsdbMemTableCreate(pTsdb, &pTsdb->mem) < 0) {
return -1;
}
return 0;
}

360
source/dnode/vnode/src/tsdb/tsdbMemTable2.c
View File

@ -52,20 +52,21 @@ struct SMemTable {
SArray *pArray; // SArray<SMemData>
};
#define SL_MAX_LEVEL 5
#define SL_NODE_SIZE(l) (sizeof(SMemSkipListNode) + sizeof(SMemSkipListNode *) * (l)*2)
#define SL_NODE_HALF_SIZE(l) (sizeof(SMemSkipListNode) + sizeof(SMemSkipListNode *) * (l))
#define SL_NODE_FORWARD(n, l) ((n)->forwards[l])
#define SL_NODE_BACKWARD(n, l) ((n)->forwards[(n)->level + (l)])
#define SL_NODE_DATA(n) (&SL_NODE_BACKWARD(n, (n)->level))
#define SL_HEAD_FORWARD(sl, l) SL_NODE_FORWARD((sl)->pHead, l)
#define SL_TAIL_BACKWARD(sl, l) SL_NODE_FORWARD((sl)->pTail, l)
static int32_t tsdbGetOrCreateMemData(SMemTable *pMemTable, tb_uid_t suid, tb_uid_t uid, SMemData **ppMemData);
static int memDataPCmprFn(const void *p1, const void *p2);
static int32_t tPutTSDBRow(uint8_t *p, TSDBROW *pRow);
static int32_t tGetTSDBRow(uint8_t *p, TSDBROW *pRow);
static int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl);
static void memDataMovePos(SMemData *pMemData, TSDBROW *pRow, int8_t isForward, SMemSkipListNode **pos);
static int32_t memDataPutRow(SVBufPool *pPool, SMemData *pMemData, TSDBROW *pRow, int8_t isForward,
SMemSkipListNode **pos);
// SMemTable ==============================================
int32_t tsdbMemTableCreate2(STsdb *pTsdb, SMemTable **ppMemTable) {
@ -109,6 +110,7 @@ int32_t tsdbInsertTableData2(STsdb *pTsdb, int64_t version, SVSubmitBlk *pSubmit
TSDBROW row = {.version = version};
ASSERT(pMemTable);
ASSERT(pSubmitBlk->nData > 0);
{
// check if table exists (todo)
@ -122,38 +124,29 @@ int32_t tsdbInsertTableData2(STsdb *pTsdb, int64_t version, SVSubmitBlk *pSubmit
// do insert
int32_t nt;
uint8_t *pt;
int32_t n = 0;
uint8_t *p = pSubmitBlk->pData;
SVBufPool *pPool = pTsdb->pVnode->inUse;
int8_t level;
SMemSkipListNode *pNode;
int32_t nRow = 0;
SMemSkipListNode *pos[SL_MAX_LEVEL] = {0};
for (int8_t iLevel = 0; iLevel < SL_MAX_LEVEL; iLevel++) {
pos[iLevel] = pMemData->sl.pTail;
}
while (n < pSubmitBlk->nData) {
nt = tGetTSRow(p + n, &row.tsRow);
n += nt;
ASSERT(n <= pSubmitBlk->nData);
// build the node
level = tsdbMemSkipListRandLevel(&pMemData->sl);
pNode = (SMemSkipListNode *)vnodeBufPoolMalloc(pPool, SL_NODE_SIZE(level) + nt + sizeof(version));
if (pNode == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
memDataMovePos(pMemData, &row, nRow ? 1 : 0, pos);
code = memDataPutRow(pTsdb->pVnode->inUse, pMemData, &row, nRow ? 1 : 0, pos);
if (code) {
goto _err;
}
pNode->level = level;
tPutTSDBRow((uint8_t *)SL_NODE_DATA(pNode), &row);
// put the node (todo)
// set info
if (tsdbKeyCmprFn(&row, &pMemData->minKey) < 0) pMemData->minKey = *(TSDBKEY *)&row;
if (tsdbKeyCmprFn(&row, &pMemData->maxKey) > 0) pMemData->maxKey = *(TSDBKEY *)&row;
nRow++;
}
if (tsdbKeyCmprFn(&pMemTable->minKey, &pMemData->minKey) < 0) pMemTable->minKey = pMemData->minKey;
if (tsdbKeyCmprFn(&pMemTable->maxKey, &pMemData->maxKey) > 0) pMemTable->maxKey = pMemData->maxKey;
return code;
_err:
@ -227,7 +220,7 @@ static int32_t tsdbGetOrCreateMemData(SMemTable *pMemTable, tb_uid_t suid, tb_ui
}
// create
pMemData = vnodeBufPoolMalloc(pPool, sizeof(*pMemData) + SL_NODE_HALF_SIZE(maxLevel) * 2);
pMemData = vnodeBufPoolMalloc(pPool, sizeof(*pMemData) + SL_NODE_SIZE(maxLevel) * 2);
if (pMemData == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
goto _err;
@ -242,11 +235,15 @@ static int32_t tsdbGetOrCreateMemData(SMemTable *pMemTable, tb_uid_t suid, tb_ui
pMemData->sl.maxLevel = maxLevel;
pMemData->sl.level = 0;
pMemData->sl.pHead = (SMemSkipListNode *)&pMemData[1];
pMemData->sl.pTail = (SMemSkipListNode *)POINTER_SHIFT(pMemData->sl.pHead, SL_NODE_HALF_SIZE(maxLevel));
pMemData->sl.pTail = (SMemSkipListNode *)POINTER_SHIFT(pMemData->sl.pHead, SL_NODE_SIZE(maxLevel));
pMemData->sl.pHead->level = maxLevel;
pMemData->sl.pTail->level = maxLevel;
for (int8_t iLevel = 0; iLevel < pMemData->sl.maxLevel; iLevel++) {
SL_HEAD_FORWARD(&pMemData->sl, iLevel) = pMemData->sl.pTail;
SL_TAIL_BACKWARD(&pMemData->sl, iLevel) = pMemData->sl.pHead;
SL_NODE_FORWARD(pMemData->sl.pHead, iLevel) = pMemData->sl.pTail;
SL_NODE_BACKWARD(pMemData->sl.pHead, iLevel) = NULL;
SL_NODE_BACKWARD(pMemData->sl.pTail, iLevel) = pMemData->sl.pHead;
SL_NODE_FORWARD(pMemData->sl.pTail, iLevel) = NULL;
}
if (idx < 0) idx = 0;
@ -313,264 +310,87 @@ static FORCE_INLINE int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl) {
return level;
}
#if 0 //====================================================================================
static void memDataMovePos(SMemData *pMemData, TSDBROW *pRow, int8_t isForward, SMemSkipListNode **pos) {
TSDBKEY *pKey;
int c;
#define SL_MAX_LEVEL 5
if (isForward) {
// TODO
} else {
SMemSkipListNode *px = pMemData->sl.pTail;
struct SMemSkipListCurosr {
SMemSkipList *pSl;
SMemSkipListNode *pNodes[SL_MAX_LEVEL];
};
for (int8_t iLevel = pMemData->sl.maxLevel - 1; iLevel >= 0; iLevel--) {
if (iLevel < pMemData->sl.level) {
SMemSkipListNode *p = SL_NODE_BACKWARD(px, iLevel);
typedef struct {
int64_t version;
uint32_t szRow;
const STSRow *pRow;
} STsdbRow;
while (p != pMemData->sl.pHead) {
pKey = (TSDBKEY *)SL_NODE_DATA(p);
#define HASH_BUCKET(SUID, UID, NBUCKET) (TABS((SUID) + (UID)) % (NBUCKET))
c = tsdbKeyCmprFn(pKey, pRow);
if (c <= 0) {
break;
} else {
px = p;
p = SL_NODE_BACKWARD(px, iLevel);
}
}
#define SL_HEAD_NODE(sl) ((sl)->pHead)
#define SL_TAIL_NODE(sl) ((SMemSkipListNode *)&SL_NODE_FORWARD(SL_HEAD_NODE(sl), (sl)->maxLevel))
#define SL_HEAD_NODE_FORWARD(n, l) SL_NODE_FORWARD(n, l)
#define SL_TAIL_NODE_BACKWARD(n, l) SL_NODE_FORWARD(n, l)
static int8_t tsdbMemSkipListRandLevel(SMemSkipList *pSl);
static int32_t tsdbEncodeRow(SEncoder *pEncoder, const STsdbRow *pRow);
static int32_t tsdbDecodeRow(SDecoder *pDecoder, STsdbRow *pRow);
static int32_t tsdbMemSkipListCursorCreate(int8_t maxLevel, SMemSkipListCurosr **ppSlc);
static void tsdbMemSkipListCursorDestroy(SMemSkipListCurosr *pSlc);
static void tsdbMemSkipListCursorInit(SMemSkipListCurosr *pSlc, SMemSkipList *pSl);
static void tsdbMemSkipListCursorPut(SMemSkipListCurosr *pSlc, SMemSkipListNode *pNode);
static int32_t tsdbMemSkipListCursorMoveTo(SMemSkipListCurosr *pSlc, int64_t version, TSKEY ts, int32_t flags);
static void tsdbMemSkipListCursorMoveToFirst(SMemSkipListCurosr *pSlc);
static void tsdbMemSkipListCursorMoveToLast(SMemSkipListCurosr *pSlc);
static int32_t tsdbMemSkipListCursorMoveToNext(SMemSkipListCurosr *pSlc);
static int32_t tsdbMemSkipListCursorMoveToPrev(SMemSkipListCurosr *pSlc);
static SMemSkipListNode *tsdbMemSkipListNodeCreate(SVBufPool *pPool, SMemSkipList *pSl, const STsdbRow *pTRow);
// SMemTable ========================
int32_t tsdbInsertData2(SMemTable *pMemTb, int64_t version, const SVSubmitBlk *pSubmitBlk) {
SMemData *pMemData;
STsdb *pTsdb = pMemTb->pTsdb;
SVnode *pVnode = pTsdb->pVnode;
SVBufPool *pPool = pVnode->inUse;
tb_uid_t suid = pSubmitBlk->suid;
tb_uid_t uid = pSubmitBlk->uid;
int32_t iBucket;
// search SMemData by hash
iBucket = HASH_BUCKET(suid, uid, pMemTb->nBucket);
for (pMemData = pMemTb->pBuckets[iBucket]; pMemData; pMemData = pMemData->pHashNext) {
if (pMemData->suid == suid && pMemData->uid == uid) break;
pos[iLevel] = px;
}
}
}
}
// create pMemData if need
if (pMemData == NULL) {
int8_t maxLevel = pVnode->config.tsdbCfg.slLevel;
int32_t tsize = sizeof(*pMemData) + SL_NODE_HALF_SIZE(maxLevel) * 2;
SMemSkipListNode *pHead, *pTail;
static void memMovePosFrom(SMemData *pMemData, SMemSkipListNode *pNode, TSDBROW *pRow, int8_t isForward,
SMemSkipListNode **pos) {
SMemSkipListNode *px = pNode;
TSDBKEY *pKey;
SMemSkipListNode *p;
int c;
pMemData = vnodeBufPoolMalloc(pPool, tsize);
if (pMemData == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
if (isForward) {
} else {
ASSERT(pNode != pMemData->sl.pHead);
for (int8_t iLevel = pMemData->sl.maxLevel - 1; iLevel >= 0; iLevel--) {
p = SL_NODE_BACKWARD(px, iLevel);
while (p != pMemData->sl.pHead) {
pKey = (TSDBKEY *)SL_NODE_DATA(p);
c = tsdbKeyCmprFn(pKey, pRow);
if (c <= 0) {
break;
} else {
px = p;
p = SL_NODE_BACKWARD(px, iLevel);
}
}
pos[iLevel] = px;
}
pMemData->pHashNext = NULL;
pMemData->suid = suid;
pMemData->uid = uid;
pMemData->minKey = TSKEY_MAX;
pMemData->maxKey = TSKEY_MIN;
pMemData->minVer = -1;
pMemData->maxVer = -1;
pMemData->nRows = 0;
pMemData->sl.seed = taosRand();
pMemData->sl.maxLevel = maxLevel;
pMemData->sl.level = 0;
pMemData->sl.size = 0;
pHead = SL_HEAD_NODE(&pMemData->sl);
pTail = SL_TAIL_NODE(&pMemData->sl);
pHead->level = maxLevel;
pTail->level = maxLevel;
for (int iLevel = 0; iLevel < maxLevel; iLevel++) {
SL_HEAD_NODE_FORWARD(pHead, iLevel) = pTail;
SL_TAIL_NODE_BACKWARD(pTail, iLevel) = pHead;
}
// add to hash
if (pMemTb->nHash >= pMemTb->nBucket) {
// rehash (todo)
}
iBucket = HASH_BUCKET(suid, uid, pMemTb->nBucket);
pMemData->pHashNext = pMemTb->pBuckets[iBucket];
pMemTb->pBuckets[iBucket] = pMemData;
pMemTb->nHash++;
// sort organize (todo)
}
}
// do insert data to SMemData
SMemSkipListNode *forwards[SL_MAX_LEVEL];
static int32_t memDataPutRow(SVBufPool *pPool, SMemData *pMemData, TSDBROW *pRow, int8_t isForward,
SMemSkipListNode **pos) {
int32_t code = 0;
int8_t level;
SMemSkipListNode *pNode;
int32_t iRow;
STsdbRow tRow = {.version = version};
SEncoder ec = {0};
SDecoder dc = {0};
tDecoderInit(&dc, pSubmitBlk->pData, pSubmitBlk->nData);
tsdbMemSkipListCursorInit(pMemTb->pSlc, &pMemData->sl);
for (iRow = 0;; iRow++) {
if (tDecodeIsEnd(&dc)) break;
// decode row
if (tDecodeBinary(&dc, (uint8_t **)&tRow.pRow, &tRow.szRow) < 0) {
terrno = TSDB_CODE_INVALID_MSG;
return -1;
}
// move cursor
tsdbMemSkipListCursorMoveTo(pMemTb->pSlc, version, tRow.pRow->ts, 0);
// encode row
pNode = tsdbMemSkipListNodeCreate(pPool, &pMemData->sl, &tRow);
if (pNode == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
}
// put the node
tsdbMemSkipListCursorPut(pMemTb->pSlc, pNode);
// update status
if (tRow.pRow->ts < pMemData->minKey) pMemData->minKey = tRow.pRow->ts;
if (tRow.pRow->ts > pMemData->maxKey) pMemData->maxKey = tRow.pRow->ts;
}
tDecoderClear(&dc);
// update status
if (pMemData->minVer == -1) pMemData->minVer = version;
if (pMemData->maxVer == -1 || pMemData->maxVer < version) pMemData->maxVer = version;
if (pMemTb->minKey < pMemData->minKey) pMemTb->minKey = pMemData->minKey;
if (pMemTb->maxKey < pMemData->maxKey) pMemTb->maxKey = pMemData->maxKey;
if (pMemTb->minVer == -1) pMemTb->minVer = version;
if (pMemTb->maxVer == -1 || pMemTb->maxVer < version) pMemTb->maxVer = version;
return 0;
}
static FORCE_INLINE int32_t tsdbEncodeRow(SEncoder *pEncoder, const STsdbRow *pRow) {
if (tEncodeI64(pEncoder, pRow->version) < 0) return -1;
if (tEncodeBinary(pEncoder, (const uint8_t *)pRow->pRow, pRow->szRow) < 0) return -1;
return 0;
}
static FORCE_INLINE int32_t tsdbDecodeRow(SDecoder *pDecoder, STsdbRow *pRow) {
if (tDecodeI64(pDecoder, &pRow->version) < 0) return -1;
if (tDecodeBinary(pDecoder, (uint8_t **)&pRow->pRow, &pRow->szRow) < 0) return -1;
return 0;
}
static int32_t tsdbMemSkipListCursorCreate(int8_t maxLevel, SMemSkipListCurosr **ppSlc) {
*ppSlc = (SMemSkipListCurosr *)taosMemoryCalloc(1, sizeof(**ppSlc) + sizeof(SMemSkipListNode *) * maxLevel);
if (*ppSlc == NULL) {
return -1;
}
return 0;
}
static void tsdbMemSkipListCursorDestroy(SMemSkipListCurosr *pSlc) { taosMemoryFree(pSlc); }
static void tsdbMemSkipListCursorInit(SMemSkipListCurosr *pSlc, SMemSkipList *pSl) {
SMemSkipListNode *pHead = SL_HEAD_NODE(pSl);
pSlc->pSl = pSl;
// for (int8_t iLevel = 0; iLevel < pSl->maxLevel; iLevel++) {
// pSlc->forwards[iLevel] = pHead;
// }
}
static void tsdbMemSkipListCursorPut(SMemSkipListCurosr *pSlc, SMemSkipListNode *pNode) {
SMemSkipList *pSl = pSlc->pSl;
SMemSkipListNode *pNodeNext;
for (int8_t iLevel = 0; iLevel < pNode->level; iLevel++) {
// todo
ASSERT(0);
level = tsdbMemSkipListRandLevel(&pMemData->sl);
pNode = (SMemSkipListNode *)vnodeBufPoolMalloc(pPool, SL_NODE_SIZE(level) + tPutTSDBRow(NULL, pRow));
if (pNode == NULL) {
code = TSDB_CODE_OUT_OF_MEMORY;
goto _exit;
}
if (pSl->level < pNode->level) {
pSl->level = pNode->level;
// do the read put
if (isForward) {
// TODO
} else {
// TODO
}
pSl->size += 1;
_exit:
return code;
}
static int32_t tsdbMemSkipListCursorMoveTo(SMemSkipListCurosr *pSlc, int64_t version, TSKEY ts, int32_t flags) {
SMemSkipListNode **pForwards = NULL;
SMemSkipList *pSl = pSlc->pSl;
int8_t maxLevel = pSl->maxLevel;
SMemSkipListNode *pHead = SL_HEAD_NODE(pSl);
SMemSkipListNode *pTail = SL_TAIL_NODE(pSl);
if (pSl->size == 0) {
for (int8_t iLevel = 0; iLevel < pSl->maxLevel; iLevel++) {
pForwards[iLevel] = pHead;
}
}
return 0;
}
static void tsdbMemSkipListCursorMoveToFirst(SMemSkipListCurosr *pSlc) {
SMemSkipList *pSl = pSlc->pSl;
SMemSkipListNode *pHead = SL_HEAD_NODE(pSl);
for (int8_t iLevel = 0; iLevel < pSl->maxLevel; iLevel++) {
pSlc->pNodes[iLevel] = pHead;
}
tsdbMemSkipListCursorMoveToNext(pSlc);
}
static void tsdbMemSkipListCursorMoveToLast(SMemSkipListCurosr *pSlc) {
SMemSkipList *pSl = pSlc->pSl;
SMemSkipListNode *pTail = SL_TAIL_NODE(pSl);
for (int8_t iLevel = 0; iLevel < pSl->maxLevel; iLevel++) {
pSlc->pNodes[iLevel] = pTail;
}
tsdbMemSkipListCursorMoveToPrev(pSlc);
}
static int32_t tsdbMemSkipListCursorMoveToNext(SMemSkipListCurosr *pSlc) {
// TODO
return 0;
}
static int32_t tsdbMemSkipListCursorMoveToPrev(SMemSkipListCurosr *pSlc) {
// TODO
return 0;
}
static SMemSkipListNode *tsdbMemSkipListNodeCreate(SVBufPool *pPool, SMemSkipList *pSl, const STsdbRow *pTRow) {
int32_t tsize;
int32_t ret;
int8_t level = tsdbMemSkipListRandLevel(pSl);
SMemSkipListNode *pNode = NULL;
SEncoder ec = {0};
tEncodeSize(tsdbEncodeRow, pTRow, tsize, ret);
pNode = vnodeBufPoolMalloc(pPool, tsize + SL_NODE_SIZE(level));
if (pNode) {
pNode->level = level;
tEncoderInit(&ec, (uint8_t *)SL_NODE_DATA(pNode), tsize);
tsdbEncodeRow(&ec, pTRow);
tEncoderClear(&ec);
}
return pNode;
}
#endif

4
source/dnode/vnode/src/vnd/vnodeSvr.c
View File

@ -715,8 +715,8 @@ static int vnodeProcessSubmitReq(SVnode *pVnode, int64_t version, void *pReq, in
goto _exit;
}
submitRsp.pArray = taosArrayInit(pSubmitReq->numOfBlocks, sizeof(SSubmitBlkRsp));
newTbUids = taosArrayInit(pSubmitReq->numOfBlocks, sizeof(int64_t));
submitRsp.pArray = taosArrayInit(msgIter.numOfBlocks, sizeof(SSubmitBlkRsp));
newTbUids = taosArrayInit(msgIter.numOfBlocks, sizeof(int64_t));
if (!submitRsp.pArray) {
pRsp->code = TSDB_CODE_OUT_OF_MEMORY;
goto _exit;

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

@ -490,7 +490,7 @@ int32_t ctgGetTbMetaFromMnodeImpl(CTG_PARAMS, char *dbFName, char* tbName, STabl
int32_t ctgGetTbMetaFromMnode(CTG_PARAMS, const SName* pTableName, STableMetaOutput* out, SCtgTask* pTask);
int32_t ctgGetTbMetaFromVnode(CTG_PARAMS, const SName* pTableName, SVgroupInfo *vgroupInfo, STableMetaOutput* out, SCtgTask* pTask);
int32_t ctgInitJob(CTG_PARAMS, SCtgJob** job, uint64_t reqId, const SCatalogReq* pReq, catalogCallback fp, void* param);
int32_t ctgInitJob(CTG_PARAMS, SCtgJob** job, uint64_t reqId, const SCatalogReq* pReq, catalogCallback fp, void* param, int32_t* taskNum);
int32_t ctgLaunchJob(SCtgJob *pJob);
int32_t ctgMakeAsyncRes(SCtgJob *pJob);

13
source/libs/catalog/src/catalog.c
View File

@ -1028,16 +1028,21 @@ int32_t catalogAsyncGetAllMeta(SCatalog* pCtg, void *pTrans, const SEpSet* pMgmt
CTG_API_LEAVE(TSDB_CODE_CTG_INVALID_INPUT);
}
int32_t code = 0;
int32_t code = 0, taskNum = 0;
SCtgJob *pJob = NULL;
CTG_ERR_JRET(ctgInitJob(CTG_PARAMS_LIST(), &pJob, reqId, pReq, fp, param));
CTG_ERR_JRET(ctgInitJob(CTG_PARAMS_LIST(), &pJob, reqId, pReq, fp, param, &taskNum));
if (taskNum <= 0) {
SMetaData* pMetaData = taosMemoryCalloc(1, sizeof(SMetaData));
fp(pMetaData, param, TSDB_CODE_SUCCESS);
CTG_API_LEAVE(TSDB_CODE_SUCCESS);
}
CTG_ERR_JRET(ctgLaunchJob(pJob));
*jobId = pJob->refId;
// NOTE: here the assignment of jobId is invalid, may over-write the true scheduler created query job.
// *jobId = pJob->refId;
_return:
if (pJob) {
taosReleaseRef(gCtgMgmt.jobPool, pJob->refId);

38
source/libs/catalog/src/ctgAsync.c
View File

@ -233,7 +233,7 @@ int32_t ctgInitGetUserTask(SCtgJob *pJob, int32_t taskIdx, SUserAuthInfo *user)
}
int32_t ctgInitJob(CTG_PARAMS, SCtgJob** job, uint64_t reqId, const SCatalogReq* pReq, catalogCallback fp, void* param) {
int32_t ctgInitJob(CTG_PARAMS, SCtgJob** job, uint64_t reqId, const SCatalogReq* pReq, catalogCallback fp, void* param, int32_t* taskNum) {
int32_t code = 0;
int32_t tbMetaNum = (int32_t)taosArrayGetSize(pReq->pTableMeta);
int32_t dbVgNum = (int32_t)taosArrayGetSize(pReq->pDbVgroup);
@ -245,15 +245,15 @@ int32_t ctgInitJob(CTG_PARAMS, SCtgJob** job, uint64_t reqId, const SCatalogReq*
int32_t userNum = (int32_t)taosArrayGetSize(pReq->pUser);
int32_t dbInfoNum = (int32_t)taosArrayGetSize(pReq->pDbInfo);
int32_t taskNum = tbMetaNum + dbVgNum + udfNum + tbHashNum + qnodeNum + dbCfgNum + indexNum + userNum + dbInfoNum;
if (taskNum <= 0) {
ctgError("empty input for job, taskNum:%d", taskNum);
CTG_ERR_RET(TSDB_CODE_CTG_INVALID_INPUT);
*taskNum = tbMetaNum + dbVgNum + udfNum + tbHashNum + qnodeNum + dbCfgNum + indexNum + userNum + dbInfoNum;
if (*taskNum <= 0) {
ctgError("Empty input for job, no need to retrieve meta, reqId:0x%" PRIx64, reqId);
return TSDB_CODE_SUCCESS;
}
*job = taosMemoryCalloc(1, sizeof(SCtgJob));
if (NULL == *job) {
ctgError("calloc %d failed", (int32_t)sizeof(SCtgJob));
ctgError("failed to calloc, size:%d, reqId:0x%" PRIx64, (int32_t)sizeof(SCtgJob), reqId);
CTG_ERR_RET(TSDB_CODE_OUT_OF_MEMORY);
}
@ -276,51 +276,51 @@ int32_t ctgInitJob(CTG_PARAMS, SCtgJob** job, uint64_t reqId, const SCatalogReq*
pJob->userNum = userNum;
pJob->dbInfoNum = dbInfoNum;
pJob->pTasks = taosArrayInit(taskNum, sizeof(SCtgTask));
pJob->pTasks = taosArrayInit(*taskNum, sizeof(SCtgTask));
if (NULL == pJob->pTasks) {
ctgError("taosArrayInit %d tasks failed", taskNum);
ctgError("taosArrayInit %d tasks failed", *taskNum);
CTG_ERR_JRET(TSDB_CODE_OUT_OF_MEMORY);
}
int32_t taskIdx = 0;
for (int32_t i = 0; i < dbVgNum; ++i) {
char *dbFName = taosArrayGet(pReq->pDbVgroup, i);
char* dbFName = taosArrayGet(pReq->pDbVgroup, i);
CTG_ERR_JRET(ctgInitGetDbVgTask(pJob, taskIdx++, dbFName));
}
for (int32_t i = 0; i < dbCfgNum; ++i) {
char *dbFName = taosArrayGet(pReq->pDbCfg, i);
char* dbFName = taosArrayGet(pReq->pDbCfg, i);
CTG_ERR_JRET(ctgInitGetDbCfgTask(pJob, taskIdx++, dbFName));
}
for (int32_t i = 0; i < dbInfoNum; ++i) {
char *dbFName = taosArrayGet(pReq->pDbInfo, i);
char* dbFName = taosArrayGet(pReq->pDbInfo, i);
CTG_ERR_JRET(ctgInitGetDbInfoTask(pJob, taskIdx++, dbFName));
}
for (int32_t i = 0; i < tbMetaNum; ++i) {
SName *name = taosArrayGet(pReq->pTableMeta, i);
SName* name = taosArrayGet(pReq->pTableMeta, i);
CTG_ERR_JRET(ctgInitGetTbMetaTask(pJob, taskIdx++, name));
}
for (int32_t i = 0; i < tbHashNum; ++i) {
SName *name = taosArrayGet(pReq->pTableHash, i);
SName* name = taosArrayGet(pReq->pTableHash, i);
CTG_ERR_JRET(ctgInitGetTbHashTask(pJob, taskIdx++, name));
}
for (int32_t i = 0; i < indexNum; ++i) {
char *indexName = taosArrayGet(pReq->pIndex, i);
char* indexName = taosArrayGet(pReq->pIndex, i);
CTG_ERR_JRET(ctgInitGetIndexTask(pJob, taskIdx++, indexName));
}
for (int32_t i = 0; i < udfNum; ++i) {
char *udfName = taosArrayGet(pReq->pUdf, i);
char* udfName = taosArrayGet(pReq->pUdf, i);
CTG_ERR_JRET(ctgInitGetUdfTask(pJob, taskIdx++, udfName));
}
for (int32_t i = 0; i < userNum; ++i) {
SUserAuthInfo *user = taosArrayGet(pReq->pUser, i);
SUserAuthInfo* user = taosArrayGet(pReq->pUser, i);
CTG_ERR_JRET(ctgInitGetUserTask(pJob, taskIdx++, user));
}
@ -336,14 +336,12 @@ int32_t ctgInitJob(CTG_PARAMS, SCtgJob** job, uint64_t reqId, const SCatalogReq*
taosAcquireRef(gCtgMgmt.jobPool, pJob->refId);
qDebug("QID:%" PRIx64 ", job %" PRIx64 " initialized, task num %d", pJob->queryId, pJob->refId, taskNum);
qDebug("QID:%" PRIx64 ", job %" PRIx64 " initialized, task num %d", pJob->queryId, pJob->refId, *taskNum);
return TSDB_CODE_SUCCESS;
_return:
taosMemoryFreeClear(*job);
CTG_RET(code);
}

4
source/libs/executor/inc/executorInt.h
View File

@ -27,6 +27,10 @@ typedef struct {
int32_t bytes;
} SGroupKeys, SStateKeys;
int32_t initGroupOptrInfo(SArray** pGroupColVals, int32_t* keyLen, char** keyBuf, const SArray* pGroupColList);
uint64_t calcGroupId(char* pData, int32_t len);
void recordNewGroupKeys(SArray* pGroupCols, SArray* pGroupColVals, SSDataBlock* pBlock, int32_t rowIndex);
int32_t buildGroupKeys(void* pKey, const SArray* pGroupColVals);
#ifdef __cplusplus
}
#endif

8
source/libs/executor/inc/executorimpl.h
View File

@ -333,6 +333,12 @@ typedef struct STableScanInfo {
double sampleRatio; // data block sample ratio, 1 by default
SInterval interval; // if the upstream is an interval operator, the interval info is also kept here to get the time window to check if current data block needs to be loaded.
SArray* pGroupCols;
SArray* pGroupColVals; // current group column values, SArray<SGroupKeys>
char* keyBuf; // group by keys for hash
int32_t groupKeyLen; // total group by column width
SHashObj* pGroupSet; // quick locate the window object for each result
int32_t curTWinIdx;
} STableScanInfo;
@ -727,7 +733,7 @@ SResultRow* doSetResultOutBufByKey(SDiskbasedBuf* pResultBuf, SResultRowInfo* pR
char* pData, int16_t bytes, bool masterscan, uint64_t groupId,
SExecTaskInfo* pTaskInfo, bool isIntervalQuery, SAggSupporter* pSup);
SOperatorInfo* createTableScanOperatorInfo(STableScanPhysiNode* pTableScanNode, tsdbReaderT pDataReader, SReadHandle* pHandle, SExecTaskInfo* pTaskInfo);
SOperatorInfo* createTableScanOperatorInfo(STableScanPhysiNode* pTableScanNode, tsdbReaderT pDataReader, SReadHandle* pHandle, SArray* groupKyes, SExecTaskInfo* pTaskInfo);
SOperatorInfo* createAggregateOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResultBlock, SExprInfo* pScalarExprInfo,
int32_t numOfScalarExpr, SExecTaskInfo* pTaskInfo);

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

@ -4387,9 +4387,9 @@ SOperatorInfo* createOperatorTree(SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo
if (pDataReader == NULL && terrno != 0) {
return NULL;
}
SArray* groupKyes = extractPartitionColInfo(pTableScanNode->pPartitionKeys);
extractTableSchemaVersion(pHandle, pTableScanNode->scan.uid, pTaskInfo);
SOperatorInfo* pOperator = createTableScanOperatorInfo(pTableScanNode, pDataReader, pHandle, pTaskInfo);
SOperatorInfo* pOperator = createTableScanOperatorInfo(pTableScanNode, pDataReader, pHandle, groupKyes, pTaskInfo);
STableScanInfo* pScanInfo = pOperator->info;
pTaskInfo->cost.pRecoder = &pScanInfo->readRecorder;

14
source/libs/executor/src/groupoperator.c
View File

@ -24,10 +24,10 @@
#include "tcompare.h"
#include "thash.h"
#include "ttypes.h"
#include "executorInt.h"
static int32_t* setupColumnOffset(const SSDataBlock* pBlock, int32_t rowCapacity);
static void* getCurrentDataGroupInfo(const SPartitionOperatorInfo* pInfo, SDataGroupInfo** pGroupInfo, int32_t len);
static uint64_t calcGroupId(char* pData, int32_t len);
static void destroyGroupOperatorInfo(void* param, int32_t numOfOutput) {
SGroupbyOperatorInfo* pInfo = (SGroupbyOperatorInfo*)param;
@ -37,7 +37,7 @@ static void destroyGroupOperatorInfo(void* param, int32_t numOfOutput) {
taosArrayDestroy(pInfo->pGroupColVals);
}
static int32_t initGroupOptrInfo(SArray** pGroupColVals, int32_t* keyLen, char** keyBuf, const SArray* pGroupColList) {
int32_t initGroupOptrInfo(SArray** pGroupColVals, int32_t* keyLen, char** keyBuf, const SArray* pGroupColList) {
*pGroupColVals = taosArrayInit(4, sizeof(SGroupKeys));
if ((*pGroupColVals) == NULL) {
return TSDB_CODE_OUT_OF_MEMORY;
@ -110,7 +110,7 @@ static bool groupKeyCompare(SArray* pGroupCols, SArray* pGroupColVals, SSDataBlo
return true;
}
static void recordNewGroupKeys(SArray* pGroupCols, SArray* pGroupColVals, SSDataBlock* pBlock, int32_t rowIndex) {
void recordNewGroupKeys(SArray* pGroupCols, SArray* pGroupColVals, SSDataBlock* pBlock, int32_t rowIndex) {
SColumnDataAgg* pColAgg = NULL;
size_t numOfGroupCols = taosArrayGetSize(pGroupCols);
@ -139,7 +139,7 @@ static void recordNewGroupKeys(SArray* pGroupCols, SArray* pGroupColVals, SSData
}
}
static int32_t buildGroupKeys(void* pKey, const SArray* pGroupColVals) {
int32_t buildGroupKeys(void* pKey, const SArray* pGroupColVals) {
ASSERT(pKey != NULL);
size_t numOfGroupCols = taosArrayGetSize(pGroupColVals);
@ -409,7 +409,6 @@ static void doHashPartition(SOperatorInfo* pOperator, SSDataBlock* pBlock) {
SPartitionOperatorInfo* pInfo = pOperator->info;
int32_t numOfGroupCols = taosArrayGetSize(pInfo->pGroupCols);
for (int32_t j = 0; j < pBlock->info.rows; ++j) {
recordNewGroupKeys(pInfo->pGroupCols, pInfo->pGroupColVals, pBlock, j);
int32_t len = buildGroupKeys(pInfo->keyBuf, pInfo->pGroupColVals);
@ -622,8 +621,13 @@ static void destroyPartitionOperatorInfo(void* param, int32_t numOfOutput) {
SPartitionOperatorInfo* pInfo = (SPartitionOperatorInfo*)param;
doDestroyBasicInfo(&pInfo->binfo, numOfOutput);
taosArrayDestroy(pInfo->pGroupCols);
for(int i = 0; i < taosArrayGetSize(pInfo->pGroupColVals); i++){
SGroupKeys key = *(SGroupKeys*)taosArrayGet(pInfo->pGroupColVals, i);
taosMemoryFree(key.pData);
}
taosArrayDestroy(pInfo->pGroupColVals);
taosMemoryFree(pInfo->keyBuf);
taosHashCleanup(pInfo->pGroupSet);
taosMemoryFree(pInfo->columnOffset);
}

51
source/libs/executor/src/scanoperator.c
View File

@ -33,6 +33,8 @@
#include "ttypes.h"
#include "vnode.h"
#include "executorInt.h"
#define SET_REVERSE_SCAN_FLAG(_info) ((_info)->scanFlag = REVERSE_SCAN)
#define SWITCH_ORDER(n) (((n) = ((n) == TSDB_ORDER_ASC) ? TSDB_ORDER_DESC : TSDB_ORDER_ASC))
@ -373,6 +375,17 @@ static SSDataBlock* doTableScanImpl(SOperatorInfo* pOperator) {
longjmp(pOperator->pTaskInfo->env, code);
}
recordNewGroupKeys(pTableScanInfo->pGroupCols, pTableScanInfo->pGroupColVals, pBlock, 0);
int32_t len = buildGroupKeys(pTableScanInfo->keyBuf, pTableScanInfo->pGroupColVals);
uint64_t *groupId = taosHashGet(pTableScanInfo->pGroupSet, pTableScanInfo->keyBuf, len);
if (groupId) {
pBlock->info.groupId = *groupId;
}else if(len != 0){
pBlock->info.groupId = calcGroupId(pTableScanInfo->keyBuf, len);
taosHashPut(pTableScanInfo->pGroupSet, pTableScanInfo->keyBuf, len, &pBlock->info.groupId, sizeof(uint64_t));
}
// current block is filter out according to filter condition, continue load the next block
if (status == FUNC_DATA_REQUIRED_FILTEROUT || pBlock->info.rows == 0) {
continue;
@ -497,21 +510,25 @@ static void destroyTableScanOperatorInfo(void* param, int32_t numOfOutput) {
taosMemoryFree(pTableScanInfo->pResBlock);
tsdbCleanupReadHandle(pTableScanInfo->dataReader);
taosArrayDestroy(pTableScanInfo->pGroupCols);
for(int i = 0; i < taosArrayGetSize(pTableScanInfo->pGroupColVals); i++){
SGroupKeys key = *(SGroupKeys*)taosArrayGet(pTableScanInfo->pGroupColVals, i);
taosMemoryFree(key.pData);
}
taosArrayDestroy(pTableScanInfo->pGroupColVals);
taosMemoryFree(pTableScanInfo->keyBuf);
taosHashCleanup(pTableScanInfo->pGroupSet);
if (pTableScanInfo->pColMatchInfo != NULL) {
taosArrayDestroy(pTableScanInfo->pColMatchInfo);
}
}
SOperatorInfo* createTableScanOperatorInfo(STableScanPhysiNode* pTableScanNode, tsdbReaderT pDataReader,
SReadHandle* readHandle, SExecTaskInfo* pTaskInfo) {
SReadHandle* readHandle, SArray* groupKyes, SExecTaskInfo* pTaskInfo) {
STableScanInfo* pInfo = taosMemoryCalloc(1, sizeof(STableScanInfo));
SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo));
if (pInfo == NULL || pOperator == NULL) {
taosMemoryFreeClear(pInfo);
taosMemoryFreeClear(pOperator);
pTaskInfo->code = TSDB_CODE_QRY_OUT_OF_MEMORY;
return NULL;
goto _error;
}
SDataBlockDescNode* pDescNode = pTableScanNode->scan.node.pOutputDataBlockDesc;
@ -522,7 +539,7 @@ SOperatorInfo* createTableScanOperatorInfo(STableScanPhysiNode* pTableScanNode,
int32_t code = initQueryTableDataCond(&pInfo->cond, pTableScanNode);
if (code != TSDB_CODE_SUCCESS) {
return NULL;
goto _error;
}
if (pTableScanNode->scan.pScanPseudoCols != NULL) {
@ -552,6 +569,18 @@ SOperatorInfo* createTableScanOperatorInfo(STableScanPhysiNode* pTableScanNode,
pOperator->numOfExprs = numOfCols;
pOperator->pTaskInfo = pTaskInfo;
// for table group
pInfo->pGroupCols = groupKyes;
_hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY);
pInfo->pGroupSet = taosHashInit(100, hashFn, false, HASH_NO_LOCK);
if (pInfo->pGroupSet == NULL) {
goto _error;
}
code = initGroupOptrInfo(&pInfo->pGroupColVals, &pInfo->groupKeyLen, &pInfo->keyBuf, groupKyes);
if (code != TSDB_CODE_SUCCESS) {
goto _error;
}
pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doTableScan, NULL, NULL, destroyTableScanOperatorInfo,
NULL, NULL, getTableScannerExecInfo);
@ -559,6 +588,12 @@ SOperatorInfo* createTableScanOperatorInfo(STableScanPhysiNode* pTableScanNode,
pOperator->cost.openCost = 0;
return pOperator;
_error:
pTaskInfo->code = TSDB_CODE_OUT_OF_MEMORY;
taosMemoryFreeClear(pInfo);
taosMemoryFreeClear(pOperator);
return NULL;
}
SOperatorInfo* createTableSeqScanOperatorInfo(void* pReadHandle, SExecTaskInfo* pTaskInfo) {
@ -901,7 +936,7 @@ SOperatorInfo* createStreamScanOperatorInfo(void* pDataReader, SReadHandle* pHan
SScanPhysiNode* pScanPhyNode = &pTableScanNode->scan;
SDataBlockDescNode* pDescNode = pScanPhyNode->node.pOutputDataBlockDesc;
SOperatorInfo* pTableScanDummy = createTableScanOperatorInfo(pTableScanNode, pDataReader, pHandle, pTaskInfo);
SOperatorInfo* pTableScanDummy = createTableScanOperatorInfo(pTableScanNode, pDataReader, pHandle, NULL, pTaskInfo);
STableScanInfo* pSTInfo = (STableScanInfo*)pTableScanDummy->info;

8
source/libs/function/src/builtins.c
View File

@ -846,7 +846,7 @@ static int32_t translateConcatImpl(SFunctionNode* pFunc, char* pErrBuf, int32_t
for (int32_t i = 0; i < numOfParams; ++i) {
SNode* pPara = nodesListGetNode(pFunc->pParameterList, i);
uint8_t paraType = ((SExprNode*)pPara)->resType.type;
if (!IS_VAR_DATA_TYPE(paraType) && TSDB_DATA_TYPE_NULL != paraType) {
if (!IS_VAR_DATA_TYPE(paraType) && !IS_NULL_TYPE(paraType)) {
return invaildFuncParaTypeErrMsg(pErrBuf, len, pFunc->functionName);
}
if (TSDB_DATA_TYPE_NCHAR == paraType) {
@ -859,6 +859,12 @@ static int32_t translateConcatImpl(SFunctionNode* pFunc, char* pErrBuf, int32_t
uint8_t paraType = ((SExprNode*)pPara)->resType.type;
int32_t paraBytes = ((SExprNode*)pPara)->resType.bytes;
int32_t factor = 1;
if (IS_NULL_TYPE(paraType)) {
resultType = TSDB_DATA_TYPE_VARCHAR;
resultBytes = 0;
sepBytes = 0;
break;
}
if (TSDB_DATA_TYPE_NCHAR == resultType && TSDB_DATA_TYPE_VARCHAR == paraType) {
factor *= TSDB_NCHAR_SIZE;
}

11
source/libs/function/src/builtinsimpl.c
View File

@ -1324,13 +1324,11 @@ int32_t minmaxFunctionFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock) {
SMinmaxResInfo* pRes = GET_ROWCELL_INTERBUF(pEntryInfo);
int32_t type = pCtx->input.pData[0]->info.type;
int32_t slotId = pCtx->pExpr->base.resSchema.slotId;
int32_t currentRow = pBlock->info.rows;
SColumnInfoData* pCol = taosArrayGet(pBlock->pDataBlock, slotId);
// todo assign the tag value
int32_t currentRow = pBlock->info.rows;
pEntryInfo->isNullRes = (pEntryInfo->numOfRes == 0);
if (pCol->info.type == TSDB_DATA_TYPE_FLOAT) {
float v = *(double*) &pRes->v;
@ -1339,7 +1337,10 @@ int32_t minmaxFunctionFinalize(SqlFunctionCtx* pCtx, SSDataBlock* pBlock) {
colDataAppend(pCol, currentRow, (const char*)&pRes->v, pEntryInfo->isNullRes);
}
setSelectivityValue(pCtx, pBlock, &pRes->tuplePos, currentRow);
if (pEntryInfo->numOfRes > 0) {
setSelectivityValue(pCtx, pBlock, &pRes->tuplePos, currentRow);
}
return pEntryInfo->numOfRes;
}

3
source/libs/function/src/functionMgt.c
View File

@ -226,6 +226,9 @@ static SColumnNode* createColumnByFunc(const SFunctionNode* pFunc) {
}
bool fmIsDistExecFunc(int32_t funcId) {
if (fmIsUserDefinedFunc(funcId)) {
return false;
}
if (!fmIsVectorFunc(funcId)) {
return true;
}

79
source/libs/index/src/indexFilter.c
View File

@ -265,23 +265,24 @@ static int32_t sifExecFunction(SFunctionNode *node, SIFCtx *ctx, SIFParam *outpu
typedef int (*Filter)(void *a, void *b, int16_t dtype);
int sifGreaterThan(void *a, void *b, int16_t dtype) {
__compar_fn_t func = indexGetCompar(dtype);
__compar_fn_t func = getComparFunc(dtype, 0);
return tDoCompare(func, QUERY_GREATER_THAN, a, b);
}
int sifGreaterEqual(void *a, void *b, int16_t dtype) {
__compar_fn_t func = indexGetCompar(dtype);
__compar_fn_t func = getComparFunc(dtype, 0);
return tDoCompare(func, QUERY_GREATER_EQUAL, a, b);
}
int sifLessEqual(void *a, void *b, int16_t dtype) {
__compar_fn_t func = indexGetCompar(dtype);
__compar_fn_t func = getComparFunc(dtype, 0);
return tDoCompare(func, QUERY_LESS_EQUAL, a, b);
}
int sifLessThan(void *a, void *b, int16_t dtype) {
__compar_fn_t func = indexGetCompar(dtype);
__compar_fn_t func = getComparFunc(dtype, 0);
return (int)tDoCompare(func, QUERY_LESS_THAN, a, b);
}
int sifEqual(void *a, void *b, int16_t dtype) {
__compar_fn_t func = indexGetCompar(dtype);
__compar_fn_t func = getComparFunc(dtype, 0);
//__compar_fn_t func = indexGetCompar(dtype);
return (int)tDoCompare(func, QUERY_TERM, a, b);
}
static Filter sifGetFilterFunc(EIndexQueryType type, bool *reverse) {
@ -397,38 +398,62 @@ static int32_t sifDefaultFunc(SIFParam *left, SIFParam *right, SIFParam *output)
return TSDB_CODE_QRY_INVALID_INPUT;
}
static sif_func_t sifGetOperFn(int32_t funcId) {
static int32_t sifGetOperFn(int32_t funcId, sif_func_t *func, SIdxFltStatus *status) {
// impl later
*status = SFLT_ACCURATE_INDEX;
switch (funcId) {
case OP_TYPE_GREATER_THAN:
return sifGreaterThanFunc;
*func = sifGreaterThanFunc;
return 0;
case OP_TYPE_GREATER_EQUAL:
return sifGreaterEqualFunc;
*func = sifGreaterEqualFunc;
return 0;
case OP_TYPE_LOWER_THAN:
return sifLessThanFunc;
*func = sifLessThanFunc;
return 0;
case OP_TYPE_LOWER_EQUAL:
return sifLessEqualFunc;
*func = sifLessEqualFunc;
return 0;
case OP_TYPE_EQUAL:
return sifEqualFunc;
*func = sifEqualFunc;
return 0;
case OP_TYPE_NOT_EQUAL:
return sifNotEqualFunc;
*status = SFLT_NOT_INDEX;
*func = sifNotEqualFunc;
return 0;
case OP_TYPE_IN:
return sifInFunc;
*status = SFLT_NOT_INDEX;
*func = sifInFunc;
return 0;
case OP_TYPE_NOT_IN:
return sifNotInFunc;
*status = SFLT_NOT_INDEX;
*func = sifNotInFunc;
return 0;
case OP_TYPE_LIKE:
return sifLikeFunc;
*status = SFLT_NOT_INDEX;
*func = sifLikeFunc;
return 0;
case OP_TYPE_NOT_LIKE:
return sifNotLikeFunc;
*status = SFLT_NOT_INDEX;
*func = sifNotLikeFunc;
return 0;
case OP_TYPE_MATCH:
return sifMatchFunc;
*status = SFLT_NOT_INDEX;
*func = sifMatchFunc;
return 0;
case OP_TYPE_NMATCH:
return sifNotMatchFunc;
*status = SFLT_NOT_INDEX;
*func = sifNotMatchFunc;
return 0;
default:
return sifNullFunc;
*status = SFLT_NOT_INDEX;
*func = sifNullFunc;
return 0;
}
return sifNullFunc;
return 0;
}
// typedef struct filterFuncDict {
static int32_t sifExecOper(SOperatorNode *node, SIFCtx *ctx, SIFParam *output) {
int32_t code = 0;
int32_t nParam = sifGetOperParamNum(node->opType);
@ -441,18 +466,14 @@ static int32_t sifExecOper(SOperatorNode *node, SIFCtx *ctx, SIFParam *output) {
// ugly code, refactor later
output->arg = ctx->arg;
sif_func_t operFn = sifGetOperFn(node->opType);
if (ctx->noExec && operFn == NULL) {
output->status = SFLT_NOT_INDEX;
} else {
output->status = SFLT_ACCURATE_INDEX;
}
sif_func_t operFn = sifNullFunc;
code = sifGetOperFn(node->opType, &operFn, &output->status);
if (ctx->noExec) {
SIF_RET(code);
} else {
return operFn(&params[0], nParam > 1 ? &params[1] : NULL, output);
}
return operFn(&params[0], nParam > 1 ? &params[1] : NULL, output);
_return:
taosMemoryFree(params);
SIF_RET(code);
@ -477,7 +498,7 @@ static int32_t sifExecLogic(SLogicConditionNode *node, SIFCtx *ctx, SIFParam *ou
} else if (node->condType == LOGIC_COND_TYPE_OR) {
taosArrayAddAll(output->result, params[m].result);
} else if (node->condType == LOGIC_COND_TYPE_NOT) {
taosArrayAddAll(output->result, params[m].result);
// taosArrayAddAll(output->result, params[m].result);
}
}
} else {

18
source/libs/index/test/CMakeLists.txt
View File

@ -92,16 +92,14 @@ target_link_libraries (idxJsonUT
index
)
if(NOT TD_WINDOWS)
add_test(
NAME idxtest
COMMAND idxTest
)
add_test(
NAME idxJsonUT
COMMAND idxJsonUT
)
endif(NOT TD_WINDOWS)
add_test(
NAME idxtest
COMMAND idxTest
)
add_test(
NAME idxJsonUT
COMMAND idxJsonUT
)
add_test(
NAME idxUtilUT
COMMAND idxUtilUT

22
source/libs/parser/src/parAstParser.c
View File

@ -124,6 +124,10 @@ static EDealRes collectMetaKeyFromRealTable(SCollectMetaKeyFromExprCxt* pCxt, SR
pCxt->errCode = reserveUserAuthInCache(pCxt->pComCxt->pParseCxt->acctId, pCxt->pComCxt->pParseCxt->pUser,
pRealTable->table.dbName, AUTH_TYPE_READ, pCxt->pComCxt->pMetaCache);
}
if (TSDB_CODE_SUCCESS == pCxt->errCode) {
pCxt->errCode =
reserveDbVgInfoInCache(pCxt->pComCxt->pParseCxt->acctId, pRealTable->table.dbName, pCxt->pComCxt->pMetaCache);
}
return TSDB_CODE_SUCCESS == pCxt->errCode ? DEAL_RES_CONTINUE : DEAL_RES_ERROR;
}
@ -195,6 +199,22 @@ static int32_t collectMetaKeyFromCreateMultiTable(SCollectMetaKeyCxt* pCxt, SCre
return code;
}
static int32_t collectMetaKeyFromDropTable(SCollectMetaKeyCxt* pCxt, SDropTableStmt* pStmt) {
int32_t code = TSDB_CODE_SUCCESS;
SNode* pNode = NULL;
FOREACH(pNode, pStmt->pTables) {
SDropTableClause* pClause = (SDropTableClause*)pNode;
code = reserveTableMetaInCache(pCxt->pParseCxt->acctId, pClause->dbName, pClause->tableName, pCxt->pMetaCache);
if (TSDB_CODE_SUCCESS == code) {
code = reserveTableVgroupInCache(pCxt->pParseCxt->acctId, pClause->dbName, pClause->tableName, pCxt->pMetaCache);
}
if (TSDB_CODE_SUCCESS != code) {
break;
}
}
return code;
}
static int32_t collectMetaKeyFromAlterTable(SCollectMetaKeyCxt* pCxt, SAlterTableStmt* pStmt) {
int32_t code = reserveTableMetaInCache(pCxt->pParseCxt->acctId, pStmt->dbName, pStmt->tableName, pCxt->pMetaCache);
if (TSDB_CODE_SUCCESS == code) {
@ -337,6 +357,8 @@ static int32_t collectMetaKeyFromQuery(SCollectMetaKeyCxt* pCxt, SNode* pStmt) {
return collectMetaKeyFromCreateTable(pCxt, (SCreateTableStmt*)pStmt);
case QUERY_NODE_CREATE_MULTI_TABLE_STMT:
return collectMetaKeyFromCreateMultiTable(pCxt, (SCreateMultiTableStmt*)pStmt);
case QUERY_NODE_DROP_TABLE_STMT:
return collectMetaKeyFromDropTable(pCxt, (SDropTableStmt*)pStmt);
case QUERY_NODE_ALTER_TABLE_STMT:
return collectMetaKeyFromAlterTable(pCxt, (SAlterTableStmt*)pStmt);
case QUERY_NODE_USE_DATABASE_STMT:

4
source/libs/parser/src/parTranslater.c
View File

@ -2857,7 +2857,6 @@ static int32_t buildRollupAst(STranslateContext* pCxt, SCreateTableStmt* pStmt,
int32_t code = getDBCfg(pCxt, pStmt->dbName, &dbCfg);
int32_t num = taosArrayGetSize(dbCfg.pRetensions);
if (TSDB_CODE_SUCCESS != code || num < 2) {
taosArrayDestroy(dbCfg.pRetensions);
return code;
}
for (int32_t i = 1; i < num; ++i) {
@ -5038,9 +5037,6 @@ int32_t translate(SParseContext* pParseCxt, SQuery* pQuery) {
STranslateContext cxt = {0};
int32_t code = initTranslateContext(pParseCxt, pQuery->pMetaCache, &cxt);
if (TSDB_CODE_SUCCESS == code) {
code = fmFuncMgtInit();
}
if (TSDB_CODE_SUCCESS == code) {
code = rewriteQuery(&cxt, pQuery);
}

38
source/libs/parser/test/parInitialDTest.cpp
View File

@ -24,7 +24,7 @@ class ParserInitialDTest : public ParserDdlTest {};
// todo delete
// todo desc
// todo describe
// todo drop account
// todo DROP account
TEST_F(ParserInitialDTest, dropBnode) {
useDb("root", "test");
@ -62,51 +62,61 @@ TEST_F(ParserInitialDTest, dropCGroup) {
run("DROP CONSUMER GROUP IF EXISTS cg1 ON tp1");
}
// todo drop database
// todo drop dnode
// todo drop function
// todo DROP database
// todo DROP dnode
// todo DROP function
TEST_F(ParserInitialDTest, dropIndex) {
useDb("root", "test");
run("drop index index1 on t1");
run("DROP index index1 on t1");
}
TEST_F(ParserInitialDTest, dropMnode) {
useDb("root", "test");
run("drop mnode on dnode 1");
run("DROP mnode on dnode 1");
}
TEST_F(ParserInitialDTest, dropQnode) {
useDb("root", "test");
run("drop qnode on dnode 1");
run("DROP qnode on dnode 1");
}
TEST_F(ParserInitialDTest, dropSnode) {
useDb("root", "test");
run("drop snode on dnode 1");
run("DROP snode on dnode 1");
}
// todo drop stable
// todo drop stream
// todo drop table
TEST_F(ParserInitialDTest, dropSTable) {
useDb("root", "test");
run("DROP STABLE st1");
}
// todo DROP stream
TEST_F(ParserInitialDTest, dropTable) {
useDb("root", "test");
run("DROP TABLE t1");
}
TEST_F(ParserInitialDTest, dropTopic) {
useDb("root", "test");
run("drop topic tp1");
run("DROP topic tp1");
run("drop topic if exists tp1");
run("DROP topic if exists tp1");
}
TEST_F(ParserInitialDTest, dropUser) {
login("root");
useDb("root", "test");
run("drop user wxy");
run("DROP user wxy");
}
} // namespace ParserTest

2
source/libs/parser/test/parSelectTest.cpp
View File

@ -33,6 +33,8 @@ TEST_F(ParserSelectTest, basic) {
run("SELECT ts, t.c1 FROM (SELECT * FROM t1) t");
run("SELECT * FROM t1 tt1, t1 tt2 WHERE tt1.c1 = tt2.c1");
run("SELECT * FROM st1");
}
TEST_F(ParserSelectTest, constant) {

1
source/libs/parser/test/parTestMain.cpp
View File

@ -35,6 +35,7 @@ namespace ParserTest {
class ParserEnv : public testing::Environment {
public:
virtual void SetUp() {
fmFuncMgtInit();
initMetaDataEnv();
generateMetaData();
initLog(TD_TMP_DIR_PATH "td");

158
source/libs/planner/src/planSpliter.c
View File

@ -151,8 +151,8 @@ static bool stbSplHasMultiTbScan(bool streamQuery, SLogicNode* pNode) {
static bool stbSplNeedSplit(bool streamQuery, SLogicNode* pNode) {
switch (nodeType(pNode)) {
// case QUERY_NODE_LOGIC_PLAN_AGG:
// return !stbSplHasGatherExecFunc(((SAggLogicNode*)pNode)->pAggFuncs) && stbSplHasMultiTbScan(pNode);
case QUERY_NODE_LOGIC_PLAN_AGG:
return !stbSplHasGatherExecFunc(((SAggLogicNode*)pNode)->pAggFuncs) && stbSplHasMultiTbScan(streamQuery, pNode);
case QUERY_NODE_LOGIC_PLAN_WINDOW: {
SWindowLogicNode* pWindow = (SWindowLogicNode*)pNode;
if (WINDOW_TYPE_INTERVAL != pWindow->winType) {
@ -161,7 +161,7 @@ static bool stbSplNeedSplit(bool streamQuery, SLogicNode* pNode) {
return !stbSplHasGatherExecFunc(pWindow->pFuncs) && stbSplHasMultiTbScan(streamQuery, pNode);
}
// case QUERY_NODE_LOGIC_PLAN_SORT:
// return stbSplHasMultiTbScan(pNode);
// return stbSplHasMultiTbScan(streamQuery, pNode);
case QUERY_NODE_LOGIC_PLAN_SCAN:
return stbSplIsMultiTbScan(streamQuery, (SScanLogicNode*)pNode);
default:
@ -295,7 +295,8 @@ static int32_t stbSplCreatePartWindowNode(SWindowLogicNode* pMergeWindow, SLogic
return code;
}
static int32_t stbSplCreateMergeNode(SSplitContext* pCxt, SLogicNode* pParent, SLogicNode* pPartChild) {
static int32_t stbSplCreateMergeNode(SSplitContext* pCxt, SLogicNode* pParent, SNodeList* pMergeKeys,
SLogicNode* pPartChild) {
SMergeLogicNode* pMerge = nodesMakeNode(QUERY_NODE_LOGIC_PLAN_MERGE);
if (NULL == pMerge) {
return TSDB_CODE_OUT_OF_MEMORY;
@ -304,25 +305,28 @@ static int32_t stbSplCreateMergeNode(SSplitContext* pCxt, SLogicNode* pParent, S
pMerge->srcGroupId = pCxt->groupId;
pMerge->node.pParent = pParent;
pMerge->node.precision = pPartChild->precision;
int32_t code = nodesListMakeStrictAppend(&pMerge->pMergeKeys, nodesCloneNode(((SWindowLogicNode*)pParent)->pTspk));
if (TSDB_CODE_SUCCESS == code) {
pMerge->node.pTargets = nodesCloneList(pPartChild->pTargets);
if (NULL == pMerge->node.pTargets) {
code = TSDB_CODE_OUT_OF_MEMORY;
}
}
if (TSDB_CODE_SUCCESS == code) {
code = nodesListMakeAppend(&pParent->pChildren, pMerge);
pMerge->pMergeKeys = pMergeKeys;
pMerge->node.pTargets = nodesCloneList(pPartChild->pTargets);
if (NULL == pMerge->node.pTargets) {
nodesDestroyNode(pMerge);
return TSDB_CODE_OUT_OF_MEMORY;
}
return code;
return nodesListMakeAppend(&pParent->pChildren, pMerge);
}
static int32_t stbSplSplitWindowNodeForBatch(SSplitContext* pCxt, SStableSplitInfo* pInfo) {
SLogicNode* pPartWindow = NULL;
int32_t code = stbSplCreatePartWindowNode((SWindowLogicNode*)pInfo->pSplitNode, &pPartWindow);
if (TSDB_CODE_SUCCESS == code) {
code = stbSplCreateMergeNode(pCxt, pInfo->pSplitNode, pPartWindow);
SNodeList* pMergeKeys = NULL;
code = nodesListMakeStrictAppend(&pMergeKeys, nodesCloneNode(((SWindowLogicNode*)pInfo->pSplitNode)->pTspk));
if (TSDB_CODE_SUCCESS == code) {
code = stbSplCreateMergeNode(pCxt, pInfo->pSplitNode, pMergeKeys, pPartWindow);
}
if (TSDB_CODE_SUCCESS != code) {
nodesDestroyList(pMergeKeys);
}
}
if (TSDB_CODE_SUCCESS == code) {
code = nodesListMakeStrictAppend(&pInfo->pSubplan->pChildren,
@ -365,6 +369,124 @@ static int32_t stbSplSplitWindowNode(SSplitContext* pCxt, SStableSplitInfo* pInf
}
}
static int32_t stbSplCreatePartAggNode(SAggLogicNode* pMergeAgg, SLogicNode** pOutput) {
SNodeList* pFunc = pMergeAgg->pAggFuncs;
pMergeAgg->pAggFuncs = NULL;
SNodeList* pGroupKeys = pMergeAgg->pGroupKeys;
pMergeAgg->pGroupKeys = NULL;
SNodeList* pTargets = pMergeAgg->node.pTargets;
pMergeAgg->node.pTargets = NULL;
SNodeList* pChildren = pMergeAgg->node.pChildren;
pMergeAgg->node.pChildren = NULL;
int32_t code = TSDB_CODE_SUCCESS;
SAggLogicNode* pPartAgg = nodesCloneNode(pMergeAgg);
if (NULL == pPartAgg) {
code = TSDB_CODE_OUT_OF_MEMORY;
}
if (TSDB_CODE_SUCCESS == code && NULL != pGroupKeys) {
pPartAgg->pGroupKeys = pGroupKeys;
code = createColumnByRewriteExps(pPartAgg->pGroupKeys, &pPartAgg->node.pTargets);
}
if (TSDB_CODE_SUCCESS == code && NULL != pGroupKeys) {
pMergeAgg->pGroupKeys = nodesCloneList(pPartAgg->node.pTargets);
if (NULL == pMergeAgg->pGroupKeys) {
code = TSDB_CODE_OUT_OF_MEMORY;
}
}
if (TSDB_CODE_SUCCESS == code) {
pMergeAgg->node.pTargets = pTargets;
pPartAgg->node.pChildren = pChildren;
code = stbSplRewriteFuns(pFunc, &pPartAgg->pAggFuncs, &pMergeAgg->pAggFuncs);
}
if (TSDB_CODE_SUCCESS == code) {
code = createColumnByRewriteExps(pPartAgg->pAggFuncs, &pPartAgg->node.pTargets);
}
nodesDestroyList(pFunc);
if (TSDB_CODE_SUCCESS == code) {
*pOutput = (SLogicNode*)pPartAgg;
} else {
nodesDestroyNode(pPartAgg);
}
return code;
}
static int32_t stbSplSplitAggNode(SSplitContext* pCxt, SStableSplitInfo* pInfo) {
SLogicNode* pPartAgg = NULL;
int32_t code = stbSplCreatePartAggNode((SAggLogicNode*)pInfo->pSplitNode, &pPartAgg);
if (TSDB_CODE_SUCCESS == code) {
code = stbSplCreateExchangeNode(pCxt, pInfo->pSplitNode, pPartAgg);
}
if (TSDB_CODE_SUCCESS == code) {
code = nodesListMakeStrictAppend(&pInfo->pSubplan->pChildren,
splCreateScanSubplan(pCxt, pPartAgg, SPLIT_FLAG_STABLE_SPLIT));
}
pInfo->pSubplan->subplanType = SUBPLAN_TYPE_MERGE;
return code;
}
static int32_t stbSplCreatePartSortNode(SSortLogicNode* pMergeSort, SLogicNode** pOutput) {
SNodeList* pSortKeys = pMergeSort->pSortKeys;
pMergeSort->pSortKeys = NULL;
SNodeList* pTargets = pMergeSort->node.pTargets;
pMergeSort->node.pTargets = NULL;
SNodeList* pChildren = pMergeSort->node.pChildren;
pMergeSort->node.pChildren = NULL;
int32_t code = TSDB_CODE_SUCCESS;
SSortLogicNode* pPartSort = nodesCloneNode(pMergeSort);
if (NULL == pPartSort) {
code = TSDB_CODE_OUT_OF_MEMORY;
}
pMergeSort->node.pTargets = pTargets;
pPartSort->node.pChildren = pChildren;
if (TSDB_CODE_SUCCESS == code) {
pPartSort->pSortKeys = pSortKeys;
code = createColumnByRewriteExps(pPartSort->pSortKeys, &pPartSort->node.pTargets);
}
if (TSDB_CODE_SUCCESS == code) {
pMergeSort->pSortKeys = nodesCloneList(pPartSort->node.pTargets);
if (NULL == pMergeSort->pSortKeys) {
code = TSDB_CODE_OUT_OF_MEMORY;
}
}
if (TSDB_CODE_SUCCESS == code) {
*pOutput = (SLogicNode*)pPartSort;
} else {
nodesDestroyNode(pPartSort);
}
return code;
}
static int32_t stbSplSplitSortNode(SSplitContext* pCxt, SStableSplitInfo* pInfo) {
SLogicNode* pPartSort = NULL;
int32_t code = stbSplCreatePartSortNode((SSortLogicNode*)pInfo->pSplitNode, &pPartSort);
if (TSDB_CODE_SUCCESS == code) {
SNodeList* pMergeKeys = nodesCloneList(((SSortLogicNode*)pInfo->pSplitNode)->pSortKeys);
if (NULL != pMergeKeys) {
code = stbSplCreateMergeNode(pCxt, pInfo->pSplitNode, pMergeKeys, pPartSort);
if (TSDB_CODE_SUCCESS != code) {
nodesDestroyList(pMergeKeys);
}
} else {
code = TSDB_CODE_OUT_OF_MEMORY;
}
}
if (TSDB_CODE_SUCCESS == code) {
code = nodesListMakeStrictAppend(&pInfo->pSubplan->pChildren,
splCreateScanSubplan(pCxt, pPartSort, SPLIT_FLAG_STABLE_SPLIT));
}
pInfo->pSubplan->subplanType = SUBPLAN_TYPE_MERGE;
return code;
}
static int32_t stbSplSplitScanNode(SSplitContext* pCxt, SStableSplitInfo* pInfo) {
int32_t code = splCreateExchangeNodeForSubplan(pCxt, pInfo->pSubplan, pInfo->pSplitNode, SUBPLAN_TYPE_MERGE);
if (TSDB_CODE_SUCCESS == code) {
@ -386,9 +508,15 @@ static int32_t stableSplit(SSplitContext* pCxt, SLogicSubplan* pSubplan) {
int32_t code = TSDB_CODE_SUCCESS;
switch (nodeType(info.pSplitNode)) {
case QUERY_NODE_LOGIC_PLAN_AGG:
code = stbSplSplitAggNode(pCxt, &info);
break;
case QUERY_NODE_LOGIC_PLAN_WINDOW:
code = stbSplSplitWindowNode(pCxt, &info);
break;
case QUERY_NODE_LOGIC_PLAN_SORT:
code = stbSplSplitSortNode(pCxt, &info);
break;
case QUERY_NODE_LOGIC_PLAN_SCAN:
code = stbSplSplitScanNode(pCxt, &info);
break;

4
source/libs/planner/test/CMakeLists.txt
View File

@ -32,9 +32,9 @@ if(${BUILD_WINGETOPT})
target_link_libraries(plannerTest PUBLIC wingetopt)
endif()
if(NOT TD_WINDOWS)
# if(NOT TD_WINDOWS)
add_test(
NAME plannerTest
COMMAND plannerTest
)
endif(NOT TD_WINDOWS)
# endif(NOT TD_WINDOWS)

8
source/libs/planner/test/planGroupByTest.cpp
View File

@ -67,3 +67,11 @@ TEST_F(PlanGroupByTest, selectFunc) {
run("SELECT MAX(c1), c2 FROM t1 GROUP BY c3");
run("SELECT MAX(c1), t1.* FROM t1 GROUP BY c3");
}
TEST_F(PlanGroupByTest, stable) {
useDb("root", "test");
run("SELECT COUNT(*) FROM st1");
run("SELECT COUNT(*) FROM st1 GROUP BY c1");
}

19
source/libs/planner/test/planOrderByTest.cpp
View File

@ -23,20 +23,27 @@ class PlanOrderByTest : public PlannerTestBase {};
TEST_F(PlanOrderByTest, basic) {
useDb("root", "test");
// order by key is in the projection list
run("select c1 from t1 order by c1");
// order by key is not in the projection list
run("select c1 from t1 order by c2");
// ORDER BY key is in the projection list
run("SELECT c1 FROM t1 ORDER BY c1");
// ORDER BY key is not in the projection list
run("SELECT c1 FROM t1 ORDER BY c2");
}
TEST_F(PlanOrderByTest, expr) {
useDb("root", "test");
run("select * from t1 order by c1 + 10, c2");
run("SELECT * FROM t1 ORDER BY c1 + 10, c2");
}
TEST_F(PlanOrderByTest, nullsOrder) {
useDb("root", "test");
run("select * from t1 order by c1 desc nulls first");
run("SELECT * FROM t1 ORDER BY c1 DESC NULLS FIRST");
}
TEST_F(PlanOrderByTest, stable) {
useDb("root", "test");
// ORDER BY key is in the projection list
run("SELECT c1 FROM st1 ORDER BY c1");
}

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

@ -16,6 +16,7 @@
#include <string>
#include <gtest/gtest.h>
#include "functionMgt.h"
#include "getopt.h"
#include "mockCatalog.h"
#include "planTestUtil.h"
@ -23,6 +24,7 @@
class PlannerEnv : public testing::Environment {
public:
virtual void SetUp() {
fmFuncMgtInit();
initMetaDataEnv();
generateMetaData();
initLog(TD_TMP_DIR_PATH "td");

21
source/libs/qworker/test/qworkerTests.cpp
View File

@ -172,8 +172,7 @@ int32_t qwtPutReqToFetchQueue(void *node, struct SRpcMsg *pMsg) {
return 0;
}
int32_t qwtPutReqToQueue(void *node, struct SRpcMsg *pMsg) {
int32_t qwtPutReqToQueue(void *node, EQueueType qtype, struct SRpcMsg *pMsg) {
taosWLockLatch(&qwtTestQueryQueueLock);
struct SRpcMsg *newMsg = (struct SRpcMsg *)taosMemoryCalloc(1, sizeof(struct SRpcMsg));
memcpy(newMsg, pMsg, sizeof(struct SRpcMsg));
@ -704,7 +703,7 @@ void *qwtclientThread(void *param) {
qwtTestCaseFinished = false;
qwtBuildQueryReqMsg(&queryRpc);
qwtPutReqToQueue((void *)0x1, &queryRpc);
qwtPutReqToQueue((void *)0x1, QUERY_QUEUE, &queryRpc);
while (!qwtTestCaseFinished) {
taosUsleep(1);
@ -874,7 +873,7 @@ TEST(seqTest, normalCase) {
SMsgCb msgCb = {0};
msgCb.mgmt = (void *)mockPointer;
msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qwtPutReqToQueue;
msgCb.putToQueueFp = (PutToQueueFp)qwtPutReqToQueue;
code = qWorkerInit(NODE_TYPE_VNODE, 1, NULL, &mgmt, &msgCb);
ASSERT_EQ(code, 0);
@ -910,7 +909,7 @@ TEST(seqTest, cancelFirst) {
SMsgCb msgCb = {0};
msgCb.mgmt = (void *)mockPointer;
msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qwtPutReqToQueue;
msgCb.putToQueueFp = (PutToQueueFp)qwtPutReqToQueue;
code = qWorkerInit(NODE_TYPE_VNODE, 1, NULL, &mgmt, &msgCb);
ASSERT_EQ(code, 0);
@ -947,7 +946,7 @@ TEST(seqTest, randCase) {
SMsgCb msgCb = {0};
msgCb.mgmt = (void *)mockPointer;
msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qwtPutReqToQueue;
msgCb.putToQueueFp = (PutToQueueFp)qwtPutReqToQueue;
code = qWorkerInit(NODE_TYPE_VNODE, 1, NULL, &mgmt, &msgCb);
ASSERT_EQ(code, 0);
@ -1018,7 +1017,7 @@ TEST(seqTest, multithreadRand) {
SMsgCb msgCb = {0};
msgCb.mgmt = (void *)mockPointer;
msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qwtPutReqToQueue;
msgCb.putToQueueFp = (PutToQueueFp)qwtPutReqToQueue;
code = qWorkerInit(NODE_TYPE_VNODE, 1, NULL, &mgmt, &msgCb);
ASSERT_EQ(code, 0);
@ -1081,7 +1080,7 @@ TEST(rcTest, shortExecshortDelay) {
SMsgCb msgCb = {0};
msgCb.mgmt = (void *)mockPointer;
msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qwtPutReqToQueue;
msgCb.putToQueueFp = (PutToQueueFp)qwtPutReqToQueue;
code = qWorkerInit(NODE_TYPE_VNODE, 1, NULL, &mgmt, &msgCb);
ASSERT_EQ(code, 0);
@ -1165,7 +1164,7 @@ TEST(rcTest, longExecshortDelay) {
SMsgCb msgCb = {0};
msgCb.mgmt = (void *)mockPointer;
msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qwtPutReqToQueue;
msgCb.putToQueueFp = (PutToQueueFp)qwtPutReqToQueue;
code = qWorkerInit(NODE_TYPE_VNODE, 1, NULL, &mgmt, &msgCb);
ASSERT_EQ(code, 0);
@ -1251,7 +1250,7 @@ TEST(rcTest, shortExeclongDelay) {
SMsgCb msgCb = {0};
msgCb.mgmt = (void *)mockPointer;
msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qwtPutReqToQueue;
msgCb.putToQueueFp = (PutToQueueFp)qwtPutReqToQueue;
code = qWorkerInit(NODE_TYPE_VNODE, 1, NULL, &mgmt, &msgCb);
ASSERT_EQ(code, 0);
@ -1335,7 +1334,7 @@ TEST(rcTest, dropTest) {
SMsgCb msgCb = {0};
msgCb.mgmt = (void *)mockPointer;
msgCb.queueFps[QUERY_QUEUE] = (PutToQueueFp)qwtPutReqToQueue;
msgCb.putToQueueFp = (PutToQueueFp)qwtPutReqToQueue;
code = qWorkerInit(NODE_TYPE_VNODE, 1, NULL, &mgmt, &msgCb);
ASSERT_EQ(code, 0);

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

@ -449,7 +449,7 @@ int32_t concatFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOu
bool hasNull = false;
for (int32_t i = 0; i < inputNum; ++i) {
if (colDataIsNull_s(pInputData[i], k) ||
GET_PARAM_TYPE(&pInput[i]) == TSDB_DATA_TYPE_NULL) {
IS_NULL_TYPE(GET_PARAM_TYPE(&pInput[i]))) {
colDataAppendNULL(pOutputData, k);
hasNull = true;
break;
@ -526,7 +526,7 @@ int32_t concatWsFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *p
for (int32_t k = 0; k < numOfRows; ++k) {
if (colDataIsNull_s(pInputData[0], k) ||
GET_PARAM_TYPE(&pInput[0]) == TSDB_DATA_TYPE_NULL) {
IS_NULL_TYPE(GET_PARAM_TYPE(&pInput[0]))) {
colDataAppendNULL(pOutputData, k);
continue;
}
@ -535,7 +535,7 @@ int32_t concatWsFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *p
bool hasNull = false;
for (int32_t i = 1; i < inputNum; ++i) {
if (colDataIsNull_s(pInputData[i], k) ||
GET_PARAM_TYPE(&pInput[i]) == TSDB_DATA_TYPE_NULL) {
IS_NULL_TYPE(GET_PARAM_TYPE(&pInput[i]))) {
hasNull = true;
break;
}
@ -718,7 +718,7 @@ int32_t castFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *pOutp
int16_t outputType = GET_PARAM_TYPE(&pOutput[0]);
int64_t outputLen = GET_PARAM_BYTES(&pOutput[0]);
char *outputBuf = taosMemoryCalloc(outputLen * pInput[0].numOfRows, 1);
char *outputBuf = taosMemoryCalloc(outputLen * pInput[0].numOfRows + 1, 1);
char *output = outputBuf;
for (int32_t i = 0; i < pInput[0].numOfRows; ++i) {
@ -1221,8 +1221,8 @@ int32_t timeDiffFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *p
if (IS_VAR_DATA_TYPE(type)) { /* datetime format strings */
int32_t ret = convertStringToTimestamp(type, input[k], TSDB_TIME_PRECISION_NANO, &timeVal[k]);
if (ret != TSDB_CODE_SUCCESS) {
colDataAppendNULL(pOutput->columnData, i);
continue;
hasNull = true;
break;
}
} else if (type == TSDB_DATA_TYPE_BIGINT || type == TSDB_DATA_TYPE_TIMESTAMP) { /* unix timestamp or ts column*/
GET_TYPED_DATA(timeVal[k], int64_t, type, input[k]);
@ -1247,8 +1247,8 @@ int32_t timeDiffFunction(SScalarParam *pInput, int32_t inputNum, SScalarParam *p
} else if (tsDigits == TSDB_TIME_PRECISION_NANO_DIGITS) {
timeVal[k] = timeVal[k];
} else {
colDataAppendNULL(pOutput->columnData, i);
continue;
hasNull = true;
break;
}
}
}

9
source/libs/scheduler/src/schDbg.c
View File

@ -30,13 +30,4 @@ void schdExecCallback(SQueryResult* pResult, void* param, int32_t code) {
tsem_post(&schdRspSem);
}
void schdFetchCallback(void* pResult, void* param, int32_t code) {
SSchdFetchParam* fParam = (SSchdFetchParam*)param;
*fParam->pData = pResult;
*fParam->code = code;
tsem_post(&schdRspSem);
}

9
source/libs/scheduler/src/schJob.c
View File

@ -21,9 +21,9 @@
#include "tref.h"
#include "trpc.h"
FORCE_INLINE SSchJob *schAcquireJob(int64_t refId) { return (SSchJob *)taosAcquireRef(schMgmt.jobRef, refId); }
FORCE_INLINE SSchJob *schAcquireJob(int64_t refId) { qDebug("acquire jobId:0x%"PRIx64, refId); return (SSchJob *)taosAcquireRef(schMgmt.jobRef, refId); }
FORCE_INLINE int32_t schReleaseJob(int64_t refId) { return taosReleaseRef(schMgmt.jobRef, refId); }
FORCE_INLINE int32_t schReleaseJob(int64_t refId) { qDebug("release jobId:0x%"PRIx64, refId); return taosReleaseRef(schMgmt.jobRef, refId); }
int32_t schInitTask(SSchJob *pJob, SSchTask *pTask, SSubplan *pPlan, SSchLevel *pLevel) {
pTask->plan = pPlan;
@ -1365,8 +1365,6 @@ void schFreeJobImpl(void *job) {
int32_t schExecJobImpl(void *pTrans, SArray *pNodeList, SQueryPlan *pDag, int64_t *job, const char *sql,
SSchResInfo *pRes, int64_t startTs, bool sync) {
qDebug("QID:0x%" PRIx64 " job started", pDag->queryId);
if (pNodeList == NULL || taosArrayGetSize(pNodeList) <= 0) {
qDebug("QID:0x%" PRIx64 " input exec nodeList is empty", pDag->queryId);
}
@ -1375,6 +1373,7 @@ int32_t schExecJobImpl(void *pTrans, SArray *pNodeList, SQueryPlan *pDag, int64_
SSchJob *pJob = NULL;
SCH_ERR_RET(schInitJob(&pJob, pDag, pTrans, pNodeList, sql, pRes, startTs, sync));
qDebug("QID:0x%" PRIx64 " jobId:0x%"PRIx64 " started", pDag->queryId, pJob->refId);
*job = pJob->refId;
SCH_ERR_JRET(schLaunchJob(pJob));
@ -1386,7 +1385,7 @@ int32_t schExecJobImpl(void *pTrans, SArray *pNodeList, SQueryPlan *pDag, int64_
pJob->userCb = SCH_EXEC_CB;
}
SCH_JOB_DLOG("job exec done, job status:%s", SCH_GET_JOB_STATUS_STR(pJob));
SCH_JOB_DLOG("job exec done, job status:%s, jobId:0x%"PRIx64, SCH_GET_JOB_STATUS_STR(pJob), pJob->refId);
_return:

38
source/libs/scheduler/src/scheduler.c
View File

@ -79,12 +79,19 @@ int32_t schedulerExecJob(void *pTrans, SArray *pNodeList, SQueryPlan *pDag, int6
int32_t schedulerAsyncExecJob(void *pTrans, SArray *pNodeList, SQueryPlan *pDag, int64_t *pJob, const char *sql,
int64_t startTs, schedulerExecCallback fp, void* param) {
if (NULL == pTrans || NULL == pDag || NULL == pDag->pSubplans || NULL == pJob || NULL == fp || NULL == param) {
SCH_ERR_RET(TSDB_CODE_QRY_INVALID_INPUT);
}
int32_t code = 0;
if (NULL == pTrans || NULL == pDag || NULL == pDag->pSubplans || NULL == pJob || NULL == fp) {
code = TSDB_CODE_QRY_INVALID_INPUT;
} else {
SSchResInfo resInfo = {.execFp = fp, .userParam = param};
code = schAsyncExecJob(pTrans, pNodeList, pDag, pJob, sql, startTs, &resInfo);
}
SSchResInfo resInfo = {.execFp = fp, .userParam = param};
SCH_RET(schAsyncExecJob(pTrans, pNodeList, pDag, pJob, sql, startTs, &resInfo));
if (code != TSDB_CODE_SUCCESS) {
fp(NULL, param, code);
}
return code;
}
int32_t schedulerFetchRows(int64_t job, void **pData) {
@ -95,7 +102,7 @@ int32_t schedulerFetchRows(int64_t job, void **pData) {
int32_t code = 0;
SSchJob *pJob = schAcquireJob(job);
if (NULL == pJob) {
qError("acquire job from jobRef list failed, may be dropped, refId:%" PRIx64, job);
qError("acquire job from jobRef list failed, may be dropped, jobId:0x%" PRIx64, job);
SCH_ERR_RET(TSDB_CODE_SCH_STATUS_ERROR);
}
@ -108,27 +115,26 @@ int32_t schedulerFetchRows(int64_t job, void **pData) {
SCH_RET(code);
}
int32_t schedulerAsyncFetchRows(int64_t job, schedulerFetchCallback fp, void* param) {
void schedulerAsyncFetchRows(int64_t job, schedulerFetchCallback fp, void* param) {
if (NULL == fp || NULL == param) {
SCH_ERR_RET(TSDB_CODE_QRY_INVALID_INPUT);
fp(NULL, param, TSDB_CODE_QRY_INVALID_INPUT);
return;
}
int32_t code = 0;
SSchJob *pJob = schAcquireJob(job);
if (NULL == pJob) {
qError("acquire job from jobRef list failed, may be dropped, refId:%" PRIx64, job);
SCH_ERR_RET(TSDB_CODE_SCH_STATUS_ERROR);
qError("acquire job from jobRef list failed, may be dropped, jobId:0x%" PRIx64, job);
fp(NULL, param, TSDB_CODE_SCH_STATUS_ERROR);
return;
}
pJob->attr.syncSchedule = false;
pJob->userRes.fetchFp = fp;
pJob->userRes.userParam = param;
code = schAsyncFetchRows(pJob);
/*code = */schAsyncFetchRows(pJob);
schReleaseJob(job);
SCH_RET(code);
}
int32_t schedulerGetTasksStatus(int64_t job, SArray *pSub) {
@ -165,7 +171,7 @@ _return:
int32_t scheduleCancelJob(int64_t job) {
SSchJob *pJob = schAcquireJob(job);
if (NULL == pJob) {
qError("acquire job from jobRef list failed, may be dropped, refId:%" PRIx64, job);
qError("acquire job from jobRef list failed, may be dropped, jobId:0x%" PRIx64, job);
SCH_ERR_RET(TSDB_CODE_SCH_STATUS_ERROR);
}
@ -179,7 +185,7 @@ int32_t scheduleCancelJob(int64_t job) {
void schedulerFreeJob(int64_t job) {
SSchJob *pJob = schAcquireJob(job);
if (NULL == pJob) {
qDebug("acquire job from jobRef list failed, may be dropped, refId:%" PRIx64, job);
qError("acquire job from jobRef list failed, may be dropped, jobId:0x%" PRIx64, job);
return;
}

1
source/libs/transport/src/transCli.c
View File

@ -1151,7 +1151,6 @@ void transSetDefaultAddr(void* ahandle, const char* ip, const char* fqdn) {
SCliThrdObj* thrd = ((SCliObj*)pTransInst->tcphandle)->pThreadObj[i];
tDebug("update epset at thread:%d, threadID:%" PRId64 "", i, thrd->thread);
tsem_t* pSem = pCtx->pSem;
transSendAsync(thrd->asyncPool, &(cliMsg->q));
}
}

2
tests/pytest/util/dnodes.py
View File

@ -247,7 +247,7 @@ class TDDnode:
if bool(updatecfgDict) and updatecfgDict[0] and updatecfgDict[0][0]:
print(updatecfgDict[0][0])
for key, value in updatecfgDict[0][0].items():
if key == "clientCfg":
if key == "clientCfg" and self.remoteIP == "" and not platform.system().lower() == 'windows':
continue
if value == 'dataDir':
if isFirstDir:

3
tests/script/jenkins/basic.txt
View File

@ -58,7 +58,7 @@
./test.sh -f tsim/mnode/basic1.sim
./test.sh -f tsim/mnode/basic2.sim
./test.sh -f tsim/mnode/basic3.sim
#./test.sh -f tsim/mnode/basic4.sim
./test.sh -f tsim/mnode/basic4.sim
# ---- show
./test.sh -f tsim/show/basic.sim
@ -135,6 +135,7 @@
./test.sh -f tsim/sync/3Replica5VgElect.sim
./test.sh -f tsim/sync/oneReplica1VgElect.sim
./test.sh -f tsim/sync/oneReplica5VgElect.sim
# ./test.sh -f tsim/sync/3Replica5VgElect3mnode.sim
# --- catalog
./test.sh -f tsim/catalog/alterInCurrent.sim

1
tests/script/tsim/db/alter_replica_13.sim
View File

@ -128,7 +128,6 @@ if $data[0][8] != follower then
endi
print ============= step5: stop dnode 2
return
sql select * from db.stb
if $rows != 1 then

146
tests/script/tsim/db/alter_replica_31.sim Normal file
View File

@ -0,0 +1,146 @@
system sh/stop_dnodes.sh
system sh/deploy.sh -n dnode1 -i 1
system sh/deploy.sh -n dnode2 -i 2
system sh/deploy.sh -n dnode3 -i 3
system sh/deploy.sh -n dnode4 -i 4
system sh/exec.sh -n dnode1 -s start
system sh/exec.sh -n dnode2 -s start
system sh/exec.sh -n dnode3 -s start
system sh/exec.sh -n dnode4 -s start
sql connect
print =============== step1: create dnodes
sql create dnode $hostname port 7200
sql create dnode $hostname port 7300
sql create dnode $hostname port 7400
$x = 0
step1:
$x = $x + 1
sleep 1000
if $x == 10 then
print ====> dnode not ready!
return -1
endi
sql show dnodes
print ===> rows: $rows
print ===> $data00 $data01 $data02 $data03 $data04 $data05
print ===> $data10 $data11 $data12 $data13 $data14 $data15
print ===> $data20 $data21 $data22 $data23 $data24 $data25
print ===> $data30 $data31 $data32 $data33 $data24 $data35
if $rows != 4 then
return -1
endi
if $data(1)[4] != ready then
goto step1
endi
if $data(2)[4] != ready then
goto step1
endi
if $data(3)[4] != ready then
goto step1
endi
if $data(4)[4] != ready then
goto step1
endi
print =============== step2: create database
sql create database db vgroups 1 replica 3
sql show databases
if $rows != 3 then
return -1
endi
if $data(db)[4] != 3 then
return -1
endi
sql show dnodes
if $data(2)[2] != 1 then
return -1
endi
if $data(3)[2] != 1 then
return -1
endi
if $data(4)[2] != 1 then
return -1
endi
# vnodes
sql show dnodes
if $data(2)[2] != 1 then
return -1
endi
if $data(3)[2] != 1 then
return -1
endi
if $data(4)[2] != 1 then
return -1
endi
# v1_dnode
sql show db.vgroups
print ===> $data00 $data01 $data02 $data03 $data04 $data05 $data06 $data07 $data08
if $data(2)[3] != 4 then
return -1
endi
if $data(2)[5] != 3 then
return -1
endi
if $data(2)[7] != 2 then
return -1
endi
sql create table db.stb (ts timestamp, c1 int, c2 binary(4)) tags(t1 int, t2 binary(16)) comment "abd"
sql create table db.ctb using db.stb tags(101, "102")
sql insert into db.ctb values(now, 1, "2")
sql show db.vgroups
print ===> $data00 $data01 $data02 $data03 $data04 $data05 $data06 $data07 $data08
sleep 1000
sql select * from db.ctb
print ===> $data00 $data01 $data02 $data03 $data04 $data05
if $rows != 1 then
return -1
endi
sleep 3000
print ============= step3: alter database
sql alter database db replica 1
$x = 0
step3:
$x = $x + 1
sleep 1000
if $x == 10 then
print ====> dnode not ready!
return -1
endi
sql show db.vgroups
print ===> rows: $rows
if $rows != 1 then
goto step3
endi
if $data(2)[3] != 4 then
goto step3
endi
if $data(2)[5] != NULL then
goto step3
endi
if $data(2)[7] != NULL then
goto step3
endi
print ============= step5: stop dnode 2
return
sql select * from db.stb
if $rows != 1 then
return -1
endi
system sh/exec.sh -n dnode1 -s stop -x SIGINT
system sh/exec.sh -n dnode2 -s stop -x SIGINT
system sh/exec.sh -n dnode3 -s stop -x SIGINT
system sh/exec.sh -n dnode4 -s stop -x SIGINT

1
tests/script/tsim/sync/3Replica5VgElect.sim
View File

@ -751,5 +751,6 @@ system sh/exec.sh -n dnode1 -s stop -x SIGINT
system sh/exec.sh -n dnode2 -s stop -x SIGINT
system sh/exec.sh -n dnode3 -s stop -x SIGINT
system sh/exec.sh -n dnode4 -s stop -x SIGINT
system sh/exec.sh -n dnode5 -s stop -x SIGINT

906
tests/script/tsim/sync/3Replica5VgElect3mnode.sim Normal file
View File

@ -0,0 +1,906 @@
system sh/stop_dnodes.sh
system sh/deploy.sh -n dnode1 -i 1
system sh/deploy.sh -n dnode2 -i 2
system sh/deploy.sh -n dnode3 -i 3
system sh/deploy.sh -n dnode4 -i 4
system sh/cfg.sh -n dnode1 -c supportVnodes -v 0
system sh/exec.sh -n dnode1 -s start
system sh/exec.sh -n dnode2 -s start
system sh/exec.sh -n dnode3 -s start
system sh/exec.sh -n dnode4 -s start
### create clusters using four dnodes;
$loop_cnt = 0
check_dnode_ready:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 10 then
print ====> 1-dnode not ready!
return -1
endi
sql show dnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6]
print ===> $rows $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6]
if $data[0][0] != 1 then
return -1
endi
if $data[0][4] != ready then
goto check_dnode_ready
endi
sql connect
sql create dnode $hostname port 7200
sql create dnode $hostname port 7300
sql create dnode $hostname port 7400
$loop_cnt = 0
check_dnode_ready_1:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 10 then
print ====> dnodes not ready!
return -1
endi
sql show dnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6]
print ===> $rows $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6]
if $data[0][4] != ready then
goto check_dnode_ready_1
endi
if $data[1][4] != ready then
goto check_dnode_ready_1
endi
if $data[2][4] != ready then
goto check_dnode_ready_1
endi
if $data[3][4] != ready then
goto check_dnode_ready_1
endi
$replica = 3
$vgroups = 5
print ============= create database
sql create database db replica $replica vgroups $vgroups
$loop_cnt = 0
check_db_ready:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> db not ready!
return -1
endi
sql show databases
print ===> rows: $rows
print $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6] $data[2][7] $data[2][8] $data[2][9] $data[2][6] $data[2][11] $data[2][12] $data[2][13] $data[2][14] $data[2][15] $data[2][16] $data[2][17] $data[2][18] $data[2][19]
if $rows != 3 then
return -1
endi
if $data[2][19] != ready then
goto check_db_ready
endi
sql use db
$loop_cnt = 0
check_vg_ready:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 300 then
print ====> vgroups not ready!
return -1
endi
sql show vgroups
print ===> rows: $rows
print $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6] $data[0][7] $data[0][8] $data[0][9] $data[0][10] $data[0][11]
print $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6] $data[1][7] $data[1][8] $data[1][9] $data[1][10] $data[1][11]
print $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6] $data[2][7] $data[2][8] $data[2][9] $data[2][10] $data[2][11]
print $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6] $data[3][7] $data[3][8] $data[3][9] $data[3][10] $data[3][11]
print $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6] $data[4][7] $data[4][8] $data[4][9] $data[4][10] $data[4][11]
if $rows != $vgroups then
return -1
endi
if $data[0][4] == LEADER then
if $data[0][6] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][3]
endi
endi
elif $data[0][6] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][5]
endi
endi
elif $data[0][8] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][6] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][7]
endi
endi
else
goto check_vg_ready
endi
if $data[1][4] == LEADER then
if $data[1][6] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][3]
endi
endi
elif $data[1][6] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][5]
endi
endi
elif $data[1][8] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][6] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][7]
endi
endi
else
goto check_vg_ready
endi
if $data[2][4] == LEADER then
if $data[2][6] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][3]
endi
endi
elif $data[2][6] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][5]
endi
endi
elif $data[2][8] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][6] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][7]
endi
endi
else
goto check_vg_ready
endi
if $data[3][4] == LEADER then
if $data[3][6] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][3]
endi
endi
elif $data[3][6] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][5]
endi
endi
elif $data[3][8] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][6] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][7]
endi
endi
else
goto check_vg_ready
endi
if $data[4][4] == LEADER then
if $data[4][6] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][3]
endi
endi
elif $data[4][6] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][5]
endi
endi
elif $data[4][8] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][6] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][7]
endi
endi
else
goto check_vg_ready
endi
vg_ready:
print ====> create stable/child table
sql create table stb (ts timestamp, c1 int, c2 float, c3 binary(10)) tags (t1 int)
sql show stables
if $rows != 1 then
return -1
endi
$ctbPrefix = ctb
$ntbPrefix = ntb
$tbNum = 10
$i = 0
while $i < $tbNum
$ctb = $ctbPrefix . $i
sql create table $ctb using stb tags( $i )
$ntb = $ntbPrefix . $i
sql create table $ntb (ts timestamp, c1 int, c2 float, c3 binary(10))
$i = $i + 1
endw
$totalTblNum = $tbNum * 2
sleep 1000
sql show tables
print ====> expect $totalTblNum and infinsert $rows in fact
if $rows != $totalTblNum then
return -1
endi
sql connect
print ================ insert data
$dbNamme = db
$ctbPrefix = ctb
$ntbPrefix = ntb
$tbNum = 10
$rowNum = 10
$tstart = 1640966400000 # 2022-01-01 00:00:00.000
sql use $dbNamme
$i = 0
while $i < $tbNum
$ctb = $ctbPrefix . $i
$ntb = $ntbPrefix . $i
$x = 0
while $x < $rowNum
$binary = ' . binary
$binary = $binary . $i
$binary = $binary . '
sql insert into $ctb values ($tstart , $i , $x , $binary )
sql insert into $ntb values ($tstart , 999 , 999 , 'binary-ntb' )
$tstart = $tstart + 1
$x = $x + 1
endw
$i = $i + 1
$tstart = 1640966400000
endw
print ================ create mnode
sql create mnode on dnode 2;
sql create mnode on dnode 3;
$loop_cnt = 0
check_mnode_ready_2:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> first create three mnode not ready!
return -1
endi
sql show mnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3]
if $data[0][0] != 1 then
return -1
endi
if $data[0][2] != LEADER then
goto check_mnode_ready_2
endi
if $data[1][2] != FOLLOWER then
goto check_mnode_ready_2
endi
if $data[2][2] != FOLLOWER then
goto check_mnode_ready_2
endi
start_switch_leader:
$switch_loop_cnt = 0
sql show vgroups
$dnodeId = $data[0][3]
$dnodeId = dnode . $dnodeId
switch_leader_to_offine_loop:
print $dnodeId
print ====> stop $dnodeId
system sh/exec.sh -n $dnodeId -s stop -x SIGINT
$loop_cnt = 0
$loop_cnt = $loop_cnt + 1
sleep 201
if $loop_cnt == 300 then
print ====> vgroups switch fail!!!
return -1
endi
sql show vgroups
print ===> rows: $rows
print $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6] $data[0][7] $data[0][8] $data[0][9] $data[0][10] $data[0][11]
print $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6] $data[1][7] $data[1][8] $data[1][9] $data[1][10] $data[1][11]
print $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6] $data[2][7] $data[2][8] $data[2][9] $data[2][10] $data[2][11]
print $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6] $data[3][7] $data[3][8] $data[3][9] $data[3][10] $data[3][11]
print $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6] $data[4][7] $data[4][8] $data[4][9] $data[4][10] $data[4][11]
if $rows != $vgroups then
return -1
endi
vg_offline_1:
print ====> start $dnodeId
system sh/exec.sh -n $dnodeId -s start
$switch_loop_cnt = $switch_loop_cnt + 1
print $switch_loop_cnt
if $switch_loop_cnt == 1 then
sql show vgroups
$dnodeId = $data[1][3]
$dnodeId = dnode . $dnodeId
goto switch_leader_to_offine_loop
elif $switch_loop_cnt == 2 then
sql show vgroups
$dnodeId = $data[2][3]
$dnodeId = dnode . $dnodeId
goto switch_leader_to_offine_loop
elif $switch_loop_cnt == 3 then
sql show vgroups
$dnodeId = $data[3][3]
$dnodeId = dnode . $dnodeId
goto switch_leader_to_offine_loop
elif $switch_loop_cnt == 4 then
sql show vgroups
$dnodeId = $data[4][3]
$dnodeId = dnode . $dnodeId
goto switch_leader_to_offine_loop
else
goto stop_leader_to_offine_loop
endi
stop_leader_to_offine_loop:
$loop_cnt = 0
check_vg_ready1:
$loop_cnt = $loop_cnt + 1
print $loop_cnt
sleep 202
if $loop_cnt == 300 then
print ====> vgroups not ready!
return -1
endi
sql show vgroups
print ===> rows: $rows
print $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6] $data[0][7] $data[0][8] $data[0][9] $data[0][10] $data[0][11]
print $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6] $data[1][7] $data[1][8] $data[1][9] $data[1][10] $data[1][11]
print $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6] $data[2][7] $data[2][8] $data[2][9] $data[2][10] $data[2][11]
print $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6] $data[3][7] $data[3][8] $data[3][9] $data[3][10] $data[3][11]
print $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6] $data[4][7] $data[4][8] $data[4][9] $data[4][10] $data[4][11]
if $rows != $vgroups then
return -1
endi
if $data[0][4] == LEADER then
if $data[0][6] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][3]
endi
endi
elif $data[0][6] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][5]
endi
endi
elif $data[0][8] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][6] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][7]
endi
endi
else
goto check_vg_ready1
endi
if $data[1][4] == LEADER then
if $data[1][6] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][3]
endi
endi
elif $data[1][6] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][5]
endi
endi
elif $data[1][8] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][6] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][7]
endi
endi
else
goto check_vg_ready1
endi
if $data[2][4] == LEADER then
if $data[2][6] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][3]
endi
endi
elif $data[2][6] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][5]
endi
endi
elif $data[2][8] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][6] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][7]
endi
endi
else
goto check_vg_ready1
endi
if $data[3][4] == LEADER then
if $data[3][6] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][3]
endi
endi
elif $data[3][6] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][5]
endi
endi
elif $data[3][8] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][6] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][7]
endi
endi
else
goto check_vg_ready1
endi
if $data[4][4] == LEADER then
if $data[4][6] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][3]
endi
endi
elif $data[4][6] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][5]
endi
endi
elif $data[4][8] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][6] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][7]
endi
endi
else
goto check_vg_ready1
endi
print ====> final test: create stable/child table
sql create table stb1 (ts timestamp, c1 int, c2 float, c3 binary(10)) tags (t1 int)
sql show stables
if $rows != 2 then
return -1
endi
$ctbPrefix = ctb1
$ntbPrefix = ntb1
$tbNum = 10
$i = 0
while $i < $tbNum
$ctb = $ctbPrefix . $i
sql create table $ctb using stb1 tags( $i )
$ntb = $ntbPrefix . $i
sql create table $ntb (ts timestamp, c1 int, c2 float, c3 binary(10))
$i = $i + 1
endw
sleep 1000
sql show stables
if $rows != 2 then
return -1
endi
sql show tables
if $rows != 40 then
return -1
endi
system sh/deploy.sh -n dnode5 -i 5
system sh/exec.sh -n dnode5 -s start
system sh/exec.sh -n dnode1 -s stop
sleep 1000
system sh/exec.sh -n dnode1 -s start
sql connect
sql create dnode $hostname port 7500
$loop_cnt = 0
check_dnode_ready3:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> 5 dnode not ready!
return -1
endi
sql show dnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6]
print ===> $rows $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6]
print ===> $rows $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6]
if $rows != 5 then
return -1
endi
if $data[4][4] != ready then
goto check_dnode_ready3
endi
$loop_cnt = 0
check_mnode_ready_3:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> second mnode not ready!
return -1
endi
sql show mnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3]
if $data[0][0] != 1 then
return -1
endi
if $data[0][2] == LEADER then
if $data[1][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[2][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi
if $data[1][2] == LEADER then
if $data[0][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[2][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi
if $data[2][2] == LEADER then
if $data[1][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[0][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi
# restart clusters
system sh/exec.sh -n dnode1 -s stop -x SIGINT
system sh/exec.sh -n dnode2 -s stop -x SIGINT
system sh/exec.sh -n dnode3 -s stop -x SIGINT
system sh/exec.sh -n dnode4 -s stop -x SIGINT
system sh/exec.sh -n dnode5 -s stop -x SIGINT
system sh/exec.sh -n dnode1 -s start
system sh/exec.sh -n dnode2 -s start
system sh/exec.sh -n dnode3 -s start
system sh/exec.sh -n dnode4 -s start
system sh/exec.sh -n dnode5 -s start
$loop_cnt = 0
check_dnode_ready_2:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 10 then
print ====> restart and dnode not ready!
return -1
endi
sql show dnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6]
print ===> $rows $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6]
print ===> $rows $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6]
if $data[0][0] != 1 then
return -1
endi
if $data[0][4] != ready then
goto check_dnode_ready_2
endi
if $data[1][4] != ready then
goto check_dnode_ready_2
endi
if $data[2][4] != ready then
goto check_dnode_ready_2
endi
if $data[3][4] != ready then
goto check_dnode_ready_2
endi
sql use db;
$ctbPrefix = ctb2
$ntbPrefix = ntb2
$tbNum = 10
$i = 0
while $i < $tbNum
$ctb = $ctbPrefix . $i
sql create table $ctb using stb1 tags( $i )
$ntb = $ntbPrefix . $i
sql create table $ntb (ts timestamp, c1 int, c2 float, c3 binary(10))
$i = $i + 1
endw
sleep 1000
sql use db
sql show stables
if $rows != 2 then
return -1
endi
sql show tables
print $rows
if $rows != 60 then
return -1
endi
$replica = 3
$vgroups = 5
print ============= create database
sql create database db1 replica $replica vgroups $vgroups
$loop_cnt = 0
check_db_ready1:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> db not ready!
return -1
endi
sql show databases
print ===> rows: $rows
print $data(db1)[0] $data(db1)[1] $data(db1)[2] $data(db1)[3] $data(db1)[4] $data(db1)[5] $data(db1)[6] $data(db1)[7] $data(db1)[8] $data(db1)[9] $data(db1)[6] $data(db1)[11] $data(db1)[12] $data(db1)[13] $data(db1)[14] $data(db1)[15] $data(db1)[16] $data(db1)[17] $data(db1)[18] $data(db1)[19]
if $rows != 4 then
return -1
endi
if $data(db1)[19] != ready then
goto check_db_ready1
endi
sql use db1
$loop_cnt = 0
check_vg_ready3:
$loop_cnt = $loop_cnt + 1
print $loop_cnt
sleep 202
if $loop_cnt == 300 then
print ====> vgroups not ready!
return -1
endi
sql show vgroups
print ===> rows: $rows
print $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6] $data[0][7] $data[0][8] $data[0][9] $data[0][10] $data[0][11]
print $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6] $data[1][7] $data[1][8] $data[1][9] $data[1][10] $data[1][11]
print $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6] $data[2][7] $data[2][8] $data[2][9] $data[2][10] $data[2][11]
print $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6] $data[3][7] $data[3][8] $data[3][9] $data[3][10] $data[3][11]
print $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6] $data[4][7] $data[4][8] $data[4][9] $data[4][10] $data[4][11]
if $rows != $vgroups then
return -1
endi
if $data[0][4] == LEADER then
if $data[0][6] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][3]
endi
endi
elif $data[0][6] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][5]
endi
endi
elif $data[0][8] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][6] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][7]
endi
endi
else
goto check_vg_ready3
endi
if $data[1][4] == LEADER then
if $data[1][6] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][3]
endi
endi
elif $data[1][6] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][5]
endi
endi
elif $data[1][8] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][6] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][7]
endi
endi
else
goto check_vg_ready3
endi
if $data[2][4] == LEADER then
if $data[2][6] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][3]
endi
endi
elif $data[2][6] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][5]
endi
endi
elif $data[2][8] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][6] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][7]
endi
endi
else
goto check_vg_ready3
endi
if $data[3][4] == LEADER then
if $data[3][6] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][3]
endi
endi
elif $data[3][6] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][5]
endi
endi
elif $data[3][8] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][6] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][7]
endi
endi
else
goto check_vg_ready3
endi
if $data[4][4] == LEADER then
if $data[4][6] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][3]
endi
endi
elif $data[4][6] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][5]
endi
endi
elif $data[4][8] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][6] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][7]
endi
endi
else
goto check_vg_ready3
endi
$loop_cnt = 0
check_mnode_ready_3:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> third: mnode not ready!
return -1
endi
sql show mnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3]
if $data[0][0] != 1 then
return -1
endi
if $data[0][2] == LEADER then
if $data[1][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[2][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi
if $data[1][2] == LEADER then
if $data[0][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[2][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi
if $data[2][2] == LEADER then
if $data[1][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[0][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi

627
tests/script/tsim/sync/3Replica5VgElect3mnodedrop.sim Normal file
View File

@ -0,0 +1,627 @@
system sh/stop_dnodes.sh
system sh/deploy.sh -n dnode1 -i 1
system sh/deploy.sh -n dnode2 -i 2
system sh/deploy.sh -n dnode3 -i 3
system sh/deploy.sh -n dnode4 -i 4
system sh/cfg.sh -n dnode1 -c supportVnodes -v 0
system sh/exec.sh -n dnode1 -s start
system sh/exec.sh -n dnode2 -s start
system sh/exec.sh -n dnode3 -s start
system sh/exec.sh -n dnode4 -s start
print ===> create clusters using four dnodes;
$loop_cnt = 0
check_dnode_ready:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 10 then
print ====> 1-dnode not ready!
return -1
endi
sql show dnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6]
print ===> $rows $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6]
if $data[0][0] != 1 then
return -1
endi
if $data[0][4] != ready then
goto check_dnode_ready
endi
sql connect
sql create dnode $hostname port 7200
sql create dnode $hostname port 7300
sql create dnode $hostname port 7400
$loop_cnt = 0
check_dnode_ready_1:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 10 then
print ====> dnodes not ready!
return -1
endi
sql show dnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6]
print ===> $rows $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6]
if $data[0][4] != ready then
goto check_dnode_ready_1
endi
if $data[1][4] != ready then
goto check_dnode_ready_1
endi
if $data[2][4] != ready then
goto check_dnode_ready_1
endi
if $data[3][4] != ready then
goto check_dnode_ready_1
endi
$replica = 3
$vgroups = 5
print ============= create database
sql create database db replica $replica vgroups $vgroups
$loop_cnt = 0
check_db_ready:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> db not ready!
return -1
endi
sql show databases
print ===> rows: $rows
print $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6] $data[2][7] $data[2][8] $data[2][9] $data[2][6] $data[2][11] $data[2][12] $data[2][13] $data[2][14] $data[2][15] $data[2][16] $data[2][17] $data[2][18] $data[2][19]
if $rows != 3 then
return -1
endi
if $data[2][19] != ready then
goto check_db_ready
endi
sql use db
$loop_cnt = 0
check_vg_ready:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 300 then
print ====> vgroups not ready!
return -1
endi
sql show vgroups
print ===> rows: $rows
print $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6] $data[0][7] $data[0][8] $data[0][9] $data[0][10] $data[0][11]
print $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6] $data[1][7] $data[1][8] $data[1][9] $data[1][10] $data[1][11]
print $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6] $data[2][7] $data[2][8] $data[2][9] $data[2][10] $data[2][11]
print $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6] $data[3][7] $data[3][8] $data[3][9] $data[3][10] $data[3][11]
print $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6] $data[4][7] $data[4][8] $data[4][9] $data[4][10] $data[4][11]
if $rows != $vgroups then
return -1
endi
if $data[0][4] == LEADER then
if $data[0][6] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][3]
endi
endi
elif $data[0][6] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][5]
endi
endi
elif $data[0][8] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][6] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][7]
endi
endi
else
goto check_vg_ready
endi
if $data[1][4] == LEADER then
if $data[1][6] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][3]
endi
endi
elif $data[1][6] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][5]
endi
endi
elif $data[1][8] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][6] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][7]
endi
endi
else
goto check_vg_ready
endi
if $data[2][4] == LEADER then
if $data[2][6] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][3]
endi
endi
elif $data[2][6] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][5]
endi
endi
elif $data[2][8] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][6] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][7]
endi
endi
else
goto check_vg_ready
endi
if $data[3][4] == LEADER then
if $data[3][6] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][3]
endi
endi
elif $data[3][6] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][5]
endi
endi
elif $data[3][8] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][6] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][7]
endi
endi
else
goto check_vg_ready
endi
if $data[4][4] == LEADER then
if $data[4][6] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][3]
endi
endi
elif $data[4][6] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][5]
endi
endi
elif $data[4][8] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][6] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][7]
endi
endi
else
goto check_vg_ready
endi
vg_ready:
print ====> create stable/child table
sql create table stb (ts timestamp, c1 int, c2 float, c3 binary(10)) tags (t1 int)
sql show stables
if $rows != 1 then
return -1
endi
$ctbPrefix = ctb
$ntbPrefix = ntb
$tbNum = 10
$i = 0
while $i < $tbNum
$ctb = $ctbPrefix . $i
sql create table $ctb using stb tags( $i )
$ntb = $ntbPrefix . $i
sql create table $ntb (ts timestamp, c1 int, c2 float, c3 binary(10))
$i = $i + 1
endw
$totalTblNum = $tbNum * 2
sleep 1000
sql show tables
print ====> expect $totalTblNum and infinsert $rows in fact
if $rows != $totalTblNum then
return -1
endi
sql connect
print ================ insert data
$dbNamme = db
$ctbPrefix = ctb
$ntbPrefix = ntb
$tbNum = 10
$rowNum = 10
$tstart = 1640966400000 # 2022-01-01 00:00:00.000
sql use $dbNamme
$i = 0
while $i < $tbNum
$ctb = $ctbPrefix . $i
$ntb = $ntbPrefix . $i
$x = 0
while $x < $rowNum
$binary = ' . binary
$binary = $binary . $i
$binary = $binary . '
sql insert into $ctb values ($tstart , $i , $x , $binary )
sql insert into $ntb values ($tstart , 999 , 999 , 'binary-ntb' )
$tstart = $tstart + 1
$x = $x + 1
endw
$i = $i + 1
$tstart = 1640966400000
endw
print ================ create mnode
sql create mnode on dnode 2;
sql create mnode on dnode 3;
$loop_cnt = 0
check_mnode_ready_2:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> first create three mnode not ready!
return -1
endi
sql show mnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3]
if $data[0][0] != 1 then
return -1
endi
if $data[0][2] != LEADER then
goto check_mnode_ready_2
endi
if $data[1][2] != FOLLOWER then
goto check_mnode_ready_2
endi
if $data[2][2] != FOLLOWER then
goto check_mnode_ready_2
endi
$loop_cnt = 0
check_vg_ready1:
$loop_cnt = $loop_cnt + 1
print $loop_cnt
sleep 202
if $loop_cnt == 300 then
print ====> vgroups not ready!
return -1
endi
sql show vgroups
print ===> rows: $rows
print $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6] $data[0][7] $data[0][8] $data[0][9] $data[0][10] $data[0][11]
print $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6] $data[1][7] $data[1][8] $data[1][9] $data[1][10] $data[1][11]
print $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6] $data[2][7] $data[2][8] $data[2][9] $data[2][10] $data[2][11]
print $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6] $data[3][7] $data[3][8] $data[3][9] $data[3][10] $data[3][11]
print $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6] $data[4][7] $data[4][8] $data[4][9] $data[4][10] $data[4][11]
if $rows != $vgroups then
return -1
endi
if $data[0][4] == LEADER then
if $data[0][6] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][3]
endi
endi
elif $data[0][6] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][8] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][5]
endi
endi
elif $data[0][8] == LEADER then
if $data[0][4] == FOLLOWER then
if $data[0][6] == FOLLOWER then
print ---- vgroup $data[0][0] leader locate on dnode $data[0][7]
endi
endi
else
goto check_vg_ready1
endi
if $data[1][4] == LEADER then
if $data[1][6] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][3]
endi
endi
elif $data[1][6] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][8] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][5]
endi
endi
elif $data[1][8] == LEADER then
if $data[1][4] == FOLLOWER then
if $data[1][6] == FOLLOWER then
print ---- vgroup $data[1][0] leader locate on dnode $data[1][7]
endi
endi
else
goto check_vg_ready1
endi
if $data[2][4] == LEADER then
if $data[2][6] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][3]
endi
endi
elif $data[2][6] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][8] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][5]
endi
endi
elif $data[2][8] == LEADER then
if $data[2][4] == FOLLOWER then
if $data[2][6] == FOLLOWER then
print ---- vgroup $data[2][0] leader locate on dnode $data[2][7]
endi
endi
else
goto check_vg_ready1
endi
if $data[3][4] == LEADER then
if $data[3][6] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][3]
endi
endi
elif $data[3][6] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][8] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][5]
endi
endi
elif $data[3][8] == LEADER then
if $data[3][4] == FOLLOWER then
if $data[3][6] == FOLLOWER then
print ---- vgroup $data[3][0] leader locate on dnode $data[3][7]
endi
endi
else
goto check_vg_ready1
endi
if $data[4][4] == LEADER then
if $data[4][6] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][3]
endi
endi
elif $data[4][6] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][8] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][5]
endi
endi
elif $data[4][8] == LEADER then
if $data[4][4] == FOLLOWER then
if $data[4][6] == FOLLOWER then
print ---- vgroup $data[4][0] leader locate on dnode $data[4][7]
endi
endi
else
goto check_vg_ready1
endi
print ====> final test: create stable/child table
sql create table stb1 (ts timestamp, c1 int, c2 float, c3 binary(10)) tags (t1 int)
sql show stables
if $rows != 2 then
return -1
endi
$ctbPrefix = ctb1
$ntbPrefix = ntb1
$tbNum = 10
$i = 0
while $i < $tbNum
$ctb = $ctbPrefix . $i
sql create table $ctb using stb1 tags( $i )
$ntb = $ntbPrefix . $i
sql create table $ntb (ts timestamp, c1 int, c2 float, c3 binary(10))
$i = $i + 1
endw
sleep 1000
sql show stables
if $rows != 2 then
return -1
endi
sql show tables
if $rows != 40 then
return -1
endi
system sh/deploy.sh -n dnode5 -i 5
system sh/exec.sh -n dnode5 -s start
sql connect
sql create dnode $hostname port 7500
$loop_cnt = 0
check_dnode_ready3:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> 5 dnode not ready!
return -1
endi
sql show dnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3] $data[0][4] $data[0][5] $data[0][6]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3] $data[1][4] $data[1][5] $data[1][6]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3] $data[2][4] $data[2][5] $data[2][6]
print ===> $rows $data[3][0] $data[3][1] $data[3][2] $data[3][3] $data[3][4] $data[3][5] $data[3][6]
print ===> $rows $data[4][0] $data[4][1] $data[4][2] $data[4][3] $data[4][4] $data[4][5] $data[4][6]
if $rows != 5 then
return -1
endi
if $data[4][4] != ready then
goto check_dnode_ready3
endi
print ===> 1:if create users sucessfullythen drop mnode leader
sql create user chr pass '123'
$loop_cnt = 0
check_user_ready:
$loop_cnt = $loop_cnt + 1
print $loop_cnt
sleep 200
if $loop_cnt == 300 then
print ====> vgroups not ready!
return -1
endi
sql show users
print ===> rows: $rows
print ===> $rows $data[0][0] $data[0][1] $data[0][2]
print ===> $rows $data[1][0] $data[1][1] $data[1][2]
if $rows != 2 then
goto check_user_ready
endi
if $data[0][0] == chr then
goto check_user_ready_suc
elif $data[1][0] == chr
goto check_user_ready_suc
else
print ====> creating user failed
goto check_user_ready
endi
check_user_ready_suc:
$loop_cnt = 0
check_mnode_ready_3:
$loop_cnt = $loop_cnt + 1
sleep 200
if $loop_cnt == 100 then
print ====> second mnode not ready!
return -1
endi
sql show mnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3]
if $data[0][0] != 1 then
return -1
endi
if $data[0][2] == LEADER then
if $data[1][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[2][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi
if $data[1][2] == LEADER then
if $data[0][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[2][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi
if $data[2][2] == LEADER then
if $data[1][2] != FOLLOWER then
goto check_mnode_ready_3
endi
if $data[0][2] != FOLLOWER then
goto check_mnode_ready_3
endi
endi
sleep 2000
# stop leader and drop dnode
system sh/exec.sh -n dnode1 -s stop
sleep 2000
print ===> 2:if create users sucessfullythen drop mnode leader
sql create user chr2 pass '123'
$loop_cnt = 0
check_user_ready2:
$loop_cnt = $loop_cnt + 1
print $loop_cnt
sleep 200
if $loop_cnt == 300 then
print ====> vgroups not ready!
return -1
endi
sql show mnodes
print ===> $rows $data[0][0] $data[0][1] $data[0][2] $data[0][3]
print ===> $rows $data[1][0] $data[1][1] $data[1][2] $data[1][3]
print ===> $rows $data[2][0] $data[2][1] $data[2][2] $data[2][3]
sql show users
print ===> rows: $rows
print ===> $rows $data[0][0] $data[0][1] $data[0][2]
print ===> $rows $data[1][0] $data[1][1] $data[1][2]
print ===> $rows $data[2][0] $data[2][1] $data[2][2]
if $rows != 3 then
goto check_user_ready2
endi
if $data[0][0] == chr2 then
goto check_user_ready2_suc
elif $data[1][0] == chr2
goto check_user_ready2_suc
else
print ====> creating user failed
goto check_user_ready2
endi
check_user_ready2_suc:

183
tests/script/tsim/testsuit.sim
View File

@ -1,80 +1,103 @@
#run user/pass_alter.sim
#run user/basic1.sim
#run user/privilege2.sim
#run user/user_len.sim
#run user/privilege1.sim
#run user/pass_len.sim
#run tstream/basic1.sim
#run tstream/basic0.sim
#run table/basic1.sim
#run trans/create_db.sim
#run stable/alter1.sim
#run stable/vnode3.sim
#run stable/metrics.sim
#run stable/show.sim
#run stable/values.sim
#run stable/dnode3.sim
#run stable/refcount.sim
#run stable/disk.sim
#run db/basic1.sim
#run db/basic3.sim
#run db/basic7.sim
#run db/basic6.sim
#run db/create_all_options.sim
#run db/basic2.sim
#run db/error1.sim
#run db/taosdlog.sim
#run db/alter_option.sim
#run mnode/basic1.sim
#run parser/fourArithmetic-basic.sim
#run parser/groupby-basic.sim
#run snode/basic1.sim
#run query/time_process.sim
#run query/stddev.sim
#run query/interval-offset.sim
#run query/charScalarFunction.sim
#run query/complex_select.sim
#run query/explain.sim
#run query/crash_sql.sim
#run query/diff.sim
#run query/complex_limit.sim
#run query/complex_having.sim
#run query/udf.sim
#run query/complex_group.sim
#run query/interval.sim
#run query/session.sim
print ========> dead lock failed when 2 rows in outputCapacity
run query/scalarFunction.sim
run query/scalarNull.sim
run query/complex_where.sim
run tmq/basic1.sim
run tmq/basic4.sim
run tmq/basic1Of2Cons.sim
run tmq/prepareBasicEnv-1vgrp.sim
run tmq/topic.sim
run tmq/basic4Of2Cons.sim
run tmq/prepareBasicEnv-4vgrp.sim
run tmq/basic3.sim
run tmq/basic2Of2Cons.sim
run tmq/basic2.sim
run tmq/basic3Of2Cons.sim
run tmq/basic2Of2ConsOverlap.sim
run tmq/clearConsume.sim
run qnode/basic1.sim
run dnode/basic1.sim
run show/basic.sim
run insert/basic1.sim
run insert/basic0.sim
run insert/backquote.sim
run insert/null.sim
run sync/oneReplica1VgElectWithInsert.sim
run sync/threeReplica1VgElect.sim
run sync/oneReplica1VgElect.sim
run sync/insertDataByRunBack.sim
run sync/threeReplica1VgElectWihtInsert.sim
run sma/tsmaCreateInsertData.sim
run sma/rsmaCreateInsertQuery.sim
run valgrind/checkError.sim
run bnode/basic1.sim
run tsim/user/pass_alter.sim
run tsim/user/basic1.sim
run tsim/user/privilege2.sim
run tsim/user/user_len.sim
run tsim/user/privilege1.sim
run tsim/user/pass_len.sim
run tsim/table/basic1.sim
run tsim/trans/lossdata1.sim
run tsim/trans/create_db.sim
run tsim/stable/alter_metrics.sim
run tsim/stable/tag_modify.sim
run tsim/stable/alter_comment.sim
run tsim/stable/column_drop.sim
run tsim/stable/column_modify.sim
run tsim/stable/tag_rename.sim
run tsim/stable/vnode3.sim
run tsim/stable/metrics.sim
run tsim/stable/alter_insert2.sim
run tsim/stable/show.sim
run tsim/stable/alter_import.sim
run tsim/stable/tag_add.sim
run tsim/stable/tag_drop.sim
run tsim/stable/column_add.sim
run tsim/stable/alter_count.sim
run tsim/stable/values.sim
run tsim/stable/dnode3.sim
run tsim/stable/alter_insert1.sim
run tsim/stable/refcount.sim
run tsim/stable/disk.sim
run tsim/db/basic1.sim
run tsim/db/basic3.sim
run tsim/db/basic7.sim
run tsim/db/basic6.sim
run tsim/db/create_all_options.sim
run tsim/db/basic2.sim
run tsim/db/error1.sim
run tsim/db/taosdlog.sim
run tsim/db/alter_option.sim
run tsim/mnode/basic1.sim
run tsim/mnode/basic3.sim
run tsim/mnode/basic2.sim
run tsim/parser/fourArithmetic-basic.sim
run tsim/parser/groupby-basic.sim
run tsim/snode/basic1.sim
run tsim/query/time_process.sim
run tsim/query/stddev.sim
run tsim/query/interval-offset.sim
run tsim/query/charScalarFunction.sim
run tsim/query/complex_select.sim
run tsim/query/explain.sim
run tsim/query/crash_sql.sim
run tsim/query/diff.sim
run tsim/query/complex_limit.sim
run tsim/query/complex_having.sim
run tsim/query/udf.sim
run tsim/query/complex_group.sim
run tsim/query/interval.sim
run tsim/query/session.sim
run tsim/query/scalarFunction.sim
run tsim/query/scalarNull.sim
run tsim/query/complex_where.sim
run tsim/tmq/basic1.sim
run tsim/tmq/basic4.sim
run tsim/tmq/basic1Of2Cons.sim
run tsim/tmq/prepareBasicEnv-1vgrp.sim
run tsim/tmq/topic.sim
run tsim/tmq/basic4Of2Cons.sim
run tsim/tmq/prepareBasicEnv-4vgrp.sim
run tsim/tmq/basic3.sim
run tsim/tmq/basic2Of2Cons.sim
run tsim/tmq/basic2.sim
run tsim/tmq/basic3Of2Cons.sim
run tsim/tmq/basic2Of2ConsOverlap.sim
run tsim/tmq/clearConsume.sim
run tsim/qnode/basic1.sim
run tsim/dnode/basic1.sim
run tsim/show/basic.sim
run tsim/stream/basic1.sim
run tsim/stream/triggerInterval0.sim
run tsim/stream/triggerSession0.sim
run tsim/stream/basic0.sim
run tsim/stream/session0.sim
run tsim/stream/session1.sim
run tsim/stream/basic2.sim
run tsim/insert/basic1.sim
run tsim/insert/commit-merge0.sim
run tsim/insert/basic0.sim
run tsim/insert/update0.sim
run tsim/insert/backquote.sim
run tsim/insert/null.sim
run tsim/sync/oneReplica1VgElectWithInsert.sim
run tsim/sync/threeReplica1VgElect.sim
run tsim/sync/oneReplica1VgElect.sim
run tsim/sync/3Replica5VgElect.sim
run tsim/sync/insertDataByRunBack.sim
run tsim/sync/oneReplica5VgElect.sim
run tsim/sync/3Replica1VgElect.sim
run tsim/sync/threeReplica1VgElectWihtInsert.sim
run tsim/sma/tsmaCreateInsertData.sim
run tsim/sma/rsmaCreateInsertQuery.sim
run tsim/valgrind/basic.sim
run tsim/valgrind/checkError.sim
run tsim/bnode/basic1.sim