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

This commit is contained in:
Haojun Liao 2021-12-24 10:37:26 +08:00
commit ea424d0b1d
71 changed files with 3778 additions and 982 deletions

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@ -86,5 +86,6 @@ SpacesInSquareBrackets: false
Standard: Auto
TabWidth: 8
UseTab: Never
AlignConsecutiveDeclarations: true
...

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@ -1,3 +1,4 @@
#!/bin/bash
rm -rf 127.0.0.1*
rm -rf ./data

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@ -0,0 +1,34 @@
#ifndef TDENGINE_COMMON_H
#define TDENGINE_COMMON_H
#ifdef __cplusplus
extern "C" {
#endif
#include <stdint.h>
#define MAX_PEERS 10
#define COMMAND_LEN 512
#define TOKEN_LEN 128
#define DIR_LEN 256
#define HOST_LEN 64
#define ADDRESS_LEN (HOST_LEN + 16)
typedef struct {
char host[HOST_LEN];
uint32_t port;
} Addr;
typedef struct {
Addr me;
Addr peers[MAX_PEERS];
int peersCount;
char dir[DIR_LEN];
char dataDir[DIR_LEN + HOST_LEN * 2];
} SRaftServerConfig;
#ifdef __cplusplus
}
#endif
#endif // TDENGINE_COMMON_H

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@ -0,0 +1,367 @@
#include <stdio.h>
#include <unistd.h>
#include <pthread.h>
#include <string.h>
#include <assert.h>
#include <getopt.h>
#include <time.h>
#include <stdlib.h>
#include <getopt.h>
#include <raft.h>
#include <raft/uv.h>
#include "raftServer.h"
#include "common.h"
const char *exe_name;
void parseAddr(const char *addr, char *host, int len, uint32_t *port) {
char* tmp = (char*)malloc(strlen(addr) + 1);
strcpy(tmp, addr);
char* context;
char* separator = ":";
char* token = strtok_r(tmp, separator, &context);
if (token) {
snprintf(host, len, "%s", token);
}
token = strtok_r(NULL, separator, &context);
if (token) {
sscanf(token, "%u", port);
}
free(tmp);
}
// only parse 3 tokens
int parseCommand(const char* str, char* token1, char* token2, char* token3, int len)
{
char* tmp = (char*)malloc(strlen(str) + 1);
strcpy(tmp, str);
char* context;
char* separator = " ";
int n = 0;
char* token = strtok_r(tmp, separator, &context);
if (!token) {
goto ret;
}
if (strcmp(token, "") != 0) {
strncpy(token1, token, len);
n++;
}
token = strtok_r(NULL, separator, &context);
if (!token) {
goto ret;
}
if (strcmp(token, "") != 0) {
strncpy(token2, token, len);
n++;
}
token = strtok_r(NULL, separator, &context);
if (!token) {
goto ret;
}
if (strcmp(token, "") != 0) {
strncpy(token3, token, len);
n++;
}
ret:
return n;
free(tmp);
}
void *startServerFunc(void *param) {
SRaftServer *pServer = (SRaftServer*)param;
int32_t r = raftServerStart(pServer);
assert(r == 0);
return NULL;
}
// Console ---------------------------------
const char* state2String(unsigned short state) {
if (state == RAFT_UNAVAILABLE) {
return "RAFT_UNAVAILABLE";
} else if (state == RAFT_FOLLOWER) {
return "RAFT_FOLLOWER";
} else if (state == RAFT_CANDIDATE) {
return "RAFT_CANDIDATE";
} else if (state == RAFT_LEADER) {
return "RAFT_LEADER";
}
return "UNKNOWN_RAFT_STATE";
}
void printRaftConfiguration(struct raft_configuration *c) {
printf("configuration: \n");
for (int i = 0; i < c->n; ++i) {
printf("%llu -- %d -- %s\n", c->servers->id, c->servers->role, c->servers->address);
}
}
void printRaftState(struct raft *r) {
printf("----Raft State: -----------\n");
printf("my_id: %llu \n", r->id);
printf("address: %s \n", r->address);
printf("current_term: %llu \n", r->current_term);
printf("voted_for: %llu \n", r->voted_for);
printf("role: %s \n", state2String(r->state));
printf("commit_index: %llu \n", r->commit_index);
printf("last_applied: %llu \n", r->last_applied);
printf("last_stored: %llu \n", r->last_stored);
/*
printf("configuration_index: %llu \n", r->configuration_index);
printf("configuration_uncommitted_index: %llu \n", r->configuration_uncommitted_index);
printRaftConfiguration(&r->configuration);
*/
printf("----------------------------\n");
}
void putValueCb(struct raft_apply *req, int status, void *result) {
raft_free(req);
struct raft *r = req->data;
if (status != 0) {
printf("putValueCb: %s \n", raft_errmsg(r));
} else {
printf("putValueCb: %s \n", "ok");
}
}
void putValue(struct raft *r, const char *value) {
struct raft_buffer buf;
buf.len = TOKEN_LEN;;
buf.base = raft_malloc(buf.len);
snprintf(buf.base, buf.len, "%s", value);
struct raft_apply *req = raft_malloc(sizeof(struct raft_apply));
req->data = r;
int ret = raft_apply(r, req, &buf, 1, putValueCb);
if (ret == 0) {
printf("put %s \n", (char*)buf.base);
} else {
printf("put error: %s \n", raft_errmsg(r));
}
}
void getValue(const char *key) {
char *ptr = getKV(key);
if (ptr) {
printf("get value: [%s] \n", ptr);
} else {
printf("value not found for key: [%s] \n", key);
}
}
void console(SRaftServer *pRaftServer) {
while (1) {
char cmd_buf[COMMAND_LEN];
memset(cmd_buf, 0, sizeof(cmd_buf));
char *ret = fgets(cmd_buf, COMMAND_LEN, stdin);
if (!ret) {
exit(-1);
}
int pos = strlen(cmd_buf);
if(cmd_buf[pos - 1] == '\n') {
cmd_buf[pos - 1] = '\0';
}
if (strncmp(cmd_buf, "", COMMAND_LEN) == 0) {
continue;
}
char cmd[TOKEN_LEN];
memset(cmd, 0, sizeof(cmd));
char param1[TOKEN_LEN];
memset(param1, 0, sizeof(param1));
char param2[TOKEN_LEN];
memset(param2, 0, sizeof(param2));
parseCommand(cmd_buf, cmd, param1, param2, TOKEN_LEN);
if (strcmp(cmd, "addnode") == 0) {
printf("not support \n");
/*
char host[HOST_LEN];
uint32_t port;
parseAddr(param1, host, HOST_LEN, &port);
uint64_t rid = raftId(host, port);
struct raft_change *req = raft_malloc(sizeof(*req));
int r = raft_add(&pRaftServer->raft, req, rid, param1, NULL);
if (r != 0) {
printf("raft_add: %s \n", raft_errmsg(&pRaftServer->raft));
}
printf("add node: %lu %s \n", rid, param1);
struct raft_change *req2 = raft_malloc(sizeof(*req2));
r = raft_assign(&pRaftServer->raft, req2, rid, RAFT_VOTER, NULL);
if (r != 0) {
printf("raft_assign: %s \n", raft_errmsg(&pRaftServer->raft));
}
*/
} else if (strcmp(cmd, "dropnode") == 0) {
printf("not support \n");
} else if (strcmp(cmd, "put") == 0) {
char buf[256];
snprintf(buf, sizeof(buf), "%s--%s", param1, param2);
putValue(&pRaftServer->raft, buf);
} else if (strcmp(cmd, "get") == 0) {
getValue(param1);
} else if (strcmp(cmd, "state") == 0) {
printRaftState(&pRaftServer->raft);
} else if (strcmp(cmd, "snapshot") == 0) {
printf("not support \n");
} else if (strcmp(cmd, "help") == 0) {
printf("addnode \"127.0.0.1:8888\" \n");
printf("dropnode \"127.0.0.1:8888\" \n");
printf("put key value \n");
printf("get key \n");
printf("state \n");
} else {
printf("unknown command: [%s], type \"help\" to see help \n", cmd);
}
//printf("cmd_buf: [%s] \n", cmd_buf);
}
}
void *startConsoleFunc(void *param) {
SRaftServer *pServer = (SRaftServer*)param;
console(pServer);
return NULL;
}
// Config ---------------------------------
void usage() {
printf("\nusage: \n");
printf("%s --me=127.0.0.1:10000 --dir=./data \n", exe_name);
printf("\n");
printf("%s --me=127.0.0.1:10000 --peers=127.0.0.1:10001,127.0.0.1:10002 --dir=./data \n", exe_name);
printf("%s --me=127.0.0.1:10001 --peers=127.0.0.1:10000,127.0.0.1:10002 --dir=./data \n", exe_name);
printf("%s --me=127.0.0.1:10002 --peers=127.0.0.1:10000,127.0.0.1:10001 --dir=./data \n", exe_name);
printf("\n");
}
void parseConf(int argc, char **argv, SRaftServerConfig *pConf) {
memset(pConf, 0, sizeof(*pConf));
int option_index, option_value;
option_index = 0;
static struct option long_options[] = {
{"help", no_argument, NULL, 'h'},
{"peers", required_argument, NULL, 'p'},
{"me", required_argument, NULL, 'm'},
{"dir", required_argument, NULL, 'd'},
{NULL, 0, NULL, 0}
};
while ((option_value = getopt_long(argc, argv, "hp:m:d:", long_options, &option_index)) != -1) {
switch (option_value) {
case 'm': {
parseAddr(optarg, pConf->me.host, sizeof(pConf->me.host), &pConf->me.port);
break;
}
case 'p': {
char tokens[MAX_PEERS][MAX_TOKEN_LEN];
int peerCount = splitString(optarg, ",", tokens, MAX_PEERS);
pConf->peersCount = peerCount;
for (int i = 0; i < peerCount; ++i) {
Addr *pAddr = &pConf->peers[i];
parseAddr(tokens[i], pAddr->host, sizeof(pAddr->host), &pAddr->port);
}
break;
}
case 'd': {
snprintf(pConf->dir, sizeof(pConf->dir), "%s", optarg);
break;
}
case 'h': {
usage();
exit(-1);
}
default: {
usage();
exit(-1);
}
}
}
snprintf(pConf->dataDir, sizeof(pConf->dataDir), "%s/%s:%u", pConf->dir, pConf->me.host, pConf->me.port);
}
void printConf(SRaftServerConfig *pConf) {
printf("\nconf: \n");
printf("me: %s:%u \n", pConf->me.host, pConf->me.port);
printf("peersCount: %d \n", pConf->peersCount);
for (int i = 0; i < pConf->peersCount; ++i) {
Addr *pAddr = &pConf->peers[i];
printf("peer%d: %s:%u \n", i, pAddr->host, pAddr->port);
}
printf("dataDir: %s \n\n", pConf->dataDir);
}
int main(int argc, char **argv) {
srand(time(NULL));
int32_t ret;
exe_name = argv[0];
if (argc < 3) {
usage();
exit(-1);
}
SRaftServerConfig conf;
parseConf(argc, argv, &conf);
printConf(&conf);
char cmd_buf[COMMAND_LEN];
snprintf(cmd_buf, sizeof(cmd_buf), "mkdir -p %s", conf.dataDir);
system(cmd_buf);
struct raft_fsm fsm;
initFsm(&fsm);
SRaftServer raftServer;
ret = raftServerInit(&raftServer, &conf, &fsm);
assert(ret == 0);
pthread_t tidRaftServer;
pthread_create(&tidRaftServer, NULL, startServerFunc, &raftServer);
pthread_t tidConsole;
pthread_create(&tidConsole, NULL, startConsoleFunc, &raftServer);
while (1) {
sleep(10);
}
return 0;
}

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@ -0,0 +1,156 @@
#include <stdlib.h>
#include "common.h"
#include "raftServer.h"
char *keys;
char *values;
void initStore() {
keys = malloc(MAX_RECORD_COUNT * MAX_KV_LEN);
values = malloc(MAX_RECORD_COUNT * MAX_KV_LEN);
writeIndex = 0;
}
void destroyStore() {
free(keys);
free(values);
}
void putKV(const char *key, const char *value) {
if (writeIndex < MAX_RECORD_COUNT) {
strncpy(&keys[writeIndex], key, MAX_KV_LEN);
strncpy(&values[writeIndex], value, MAX_KV_LEN);
writeIndex++;
}
}
char *getKV(const char *key) {
for (int i = 0; i < MAX_RECORD_COUNT; ++i) {
if (strcmp(&keys[i], key) == 0) {
return &values[i];
}
}
return NULL;
}
int splitString(const char* str, char* separator, char (*arr)[MAX_TOKEN_LEN], int n_arr)
{
if (n_arr <= 0) {
return -1;
}
char* tmp = (char*)malloc(strlen(str) + 1);
strcpy(tmp, str);
char* context;
int n = 0;
char* token = strtok_r(tmp, separator, &context);
if (!token) {
goto ret;
}
strncpy(arr[n], token, MAX_TOKEN_LEN);
n++;
while (1) {
token = strtok_r(NULL, separator, &context);
if (!token || n >= n_arr) {
goto ret;
}
strncpy(arr[n], token, MAX_TOKEN_LEN);
n++;
}
ret:
free(tmp);
return n;
}
uint64_t raftId(const char *host, uint32_t port) {
uint32_t host_uint32 = (uint32_t)inet_addr(host);
assert(host_uint32 != (uint32_t)-1);
uint64_t code = ((uint64_t)host_uint32) << 32 | port;
return code;
}
int32_t raftServerInit(SRaftServer *pRaftServer, const SRaftServerConfig *pConf, struct raft_fsm *pFsm) {
int ret;
snprintf(pRaftServer->host, sizeof(pRaftServer->host), "%s", pConf->me.host);
pRaftServer->port = pConf->me.port;
snprintf(pRaftServer->address, sizeof(pRaftServer->address), "%s:%u", pRaftServer->host, pRaftServer->port);
strncpy(pRaftServer->dir, pConf->dataDir, sizeof(pRaftServer->dir));
pRaftServer->raftId = raftId(pRaftServer->host, pRaftServer->port);
pRaftServer->fsm = pFsm;
ret = uv_loop_init(&pRaftServer->loop);
if (!ret) {
fprintf(stderr, "%s \n", raft_errmsg(&pRaftServer->raft));
}
ret = raft_uv_tcp_init(&pRaftServer->transport, &pRaftServer->loop);
if (!ret) {
fprintf(stderr, "%s \n", raft_errmsg(&pRaftServer->raft));
}
ret = raft_uv_init(&pRaftServer->io, &pRaftServer->loop, pRaftServer->dir, &pRaftServer->transport);
if (!ret) {
fprintf(stderr, "%s \n", raft_errmsg(&pRaftServer->raft));
}
ret = raft_init(&pRaftServer->raft, &pRaftServer->io, pRaftServer->fsm, pRaftServer->raftId, pRaftServer->address);
if (!ret) {
fprintf(stderr, "%s \n", raft_errmsg(&pRaftServer->raft));
}
struct raft_configuration conf;
raft_configuration_init(&conf);
raft_configuration_add(&conf, pRaftServer->raftId, pRaftServer->address, RAFT_VOTER);
printf("add myself: %llu - %s \n", pRaftServer->raftId, pRaftServer->address);
for (int i = 0; i < pConf->peersCount; ++i) {
const Addr *pAddr = &pConf->peers[i];
raft_id rid = raftId(pAddr->host, pAddr->port);
char addrBuf[ADDRESS_LEN];
snprintf(addrBuf, sizeof(addrBuf), "%s:%u", pAddr->host, pAddr->port);
raft_configuration_add(&conf, rid, addrBuf, RAFT_VOTER);
printf("add peers: %llu - %s \n", rid, addrBuf);
}
raft_bootstrap(&pRaftServer->raft, &conf);
return 0;
}
int32_t raftServerStart(SRaftServer *pRaftServer) {
int ret;
ret = raft_start(&pRaftServer->raft);
if (!ret) {
fprintf(stderr, "%s \n", raft_errmsg(&pRaftServer->raft));
}
uv_run(&pRaftServer->loop, UV_RUN_DEFAULT);
}
void raftServerClose(SRaftServer *pRaftServer) {
}
int fsmApplyCb(struct raft_fsm *pFsm, const struct raft_buffer *buf, void **result) {
char *msg = (char*)buf->base;
printf("fsm apply: %s \n", msg);
char arr[2][MAX_TOKEN_LEN];
splitString(msg, "--", arr, 2);
putKV(arr[0], arr[1]);
return 0;
}
int32_t initFsm(struct raft_fsm *fsm) {
initStore();
fsm->apply = fsmApplyCb;
return 0;
}

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@ -0,0 +1,61 @@
#ifndef TDENGINE_RAFT_SERVER_H
#define TDENGINE_RAFT_SERVER_H
#ifdef __cplusplus
extern "C" {
#endif
#include <netinet/in.h>
#include <arpa/inet.h>
#include <assert.h>
#include <string.h>
#include "raft.h"
#include "raft/uv.h"
#include "common.h"
// simulate a db store, just for test
#define MAX_KV_LEN 100
#define MAX_RECORD_COUNT 500
char *keys;
char *values;
int writeIndex;
void initStore();
void destroyStore();
void putKV(const char *key, const char *value);
char *getKV(const char *key);
typedef struct {
char dir[DIR_LEN + HOST_LEN * 2]; /* Data dir of UV I/O backend */
char host[HOST_LEN];
uint32_t port;
char address[ADDRESS_LEN]; /* Raft instance address */
raft_id raftId; /* For vote */
struct raft_fsm *fsm; /* Sample application FSM */
struct raft raft; /* Raft instance */
struct raft_io io; /* UV I/O backend */
struct uv_loop_s loop; /* UV loop */
struct raft_uv_transport transport; /* UV I/O backend transport */
} SRaftServer;
#define MAX_TOKEN_LEN 32
int splitString(const char* str, char* separator, char (*arr)[MAX_TOKEN_LEN], int n_arr);
uint64_t raftId(const char *host, uint32_t port);
int32_t raftServerInit(SRaftServer *pRaftServer, const SRaftServerConfig *pConf, struct raft_fsm *pFsm);
int32_t raftServerStart(SRaftServer *pRaftServer);
void raftServerClose(SRaftServer *pRaftServer);
int initFsm(struct raft_fsm *fsm);
#ifdef __cplusplus
}
#endif
#endif // TDENGINE_RAFT_SERVER_H

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@ -52,6 +52,10 @@ TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_MQ_CONNECT, "mq-connect" )
TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_MQ_DISCONNECT, "mq-disconnect" )
TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_MQ_SET_CUR, "mq-set-cur" )
TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_RES_READY, "res-ready" )
TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_TASKS_STATUS, "tasks-status" )
TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_CANCEL_TASK, "cancel-task" )
TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_DROP_TASK, "drop-task" )
// message from client to mnode
TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_CONNECT, "connect" )
TAOS_DEFINE_MESSAGE_TYPE( TSDB_MSG_TYPE_CREATE_ACCT, "create-acct" )
@ -583,10 +587,6 @@ typedef struct {
typedef struct {
int32_t code;
union {
uint64_t qhandle;
uint64_t qId;
}; // query handle
} SQueryTableRsp;
// todo: the show handle should be replaced with id
@ -918,18 +918,15 @@ typedef struct SShowRsp {
typedef struct {
char ep[TSDB_EP_LEN]; // end point, hostname:port
int32_t reserve[8];
} SCreateDnodeMsg;
typedef struct {
int32_t dnodeId;
int32_t reserve[8];
} SDropDnodeMsg;
typedef struct {
int32_t dnodeId;
char config[TSDB_DNODE_CONFIG_LEN];
int32_t reserve[8];
} SCfgDnodeMsg;
typedef struct {
@ -938,7 +935,6 @@ typedef struct {
typedef struct {
int32_t dnodeId;
int8_t align[3];
int8_t replica;
SReplica replicas[TSDB_MAX_REPLICA];
} SCreateMnodeInMsg, SAlterMnodeInMsg;
@ -1107,29 +1103,33 @@ typedef struct {
/* data */
} SUpdateTagValRsp;
typedef struct SSchedulerQueryMsg {
typedef struct SSubQueryMsg {
uint64_t schedulerId;
uint64_t queryId;
uint64_t taskId;
uint32_t contentLen;
char msg[];
} SSchedulerQueryMsg;
} SSubQueryMsg;
typedef struct SSchedulerReadyMsg {
typedef struct SResReadyMsg {
uint64_t schedulerId;
uint64_t queryId;
uint64_t taskId;
} SSchedulerReadyMsg;
} SResReadyMsg;
typedef struct SSchedulerFetchMsg {
typedef struct SResReadyRsp {
int32_t code;
} SResReadyRsp;
typedef struct SResFetchMsg {
uint64_t schedulerId;
uint64_t queryId;
uint64_t taskId;
} SSchedulerFetchMsg;
} SResFetchMsg;
typedef struct SSchedulerStatusMsg {
typedef struct SSchTasksStatusMsg {
uint64_t schedulerId;
} SSchedulerStatusMsg;
} SSchTasksStatusMsg;
typedef struct STaskStatus {
uint64_t queryId;
@ -1143,11 +1143,25 @@ typedef struct SSchedulerStatusRsp {
} SSchedulerStatusRsp;
typedef struct SSchedulerCancelMsg {
typedef struct STaskCancelMsg {
uint64_t schedulerId;
uint64_t queryId;
uint64_t taskId;
} SSchedulerCancelMsg;
} STaskCancelMsg;
typedef struct STaskCancelRsp {
int32_t code;
} STaskCancelRsp;
typedef struct STaskDropMsg {
uint64_t schedulerId;
uint64_t queryId;
uint64_t taskId;
} STaskDropMsg;
typedef struct STaskDropRsp {
int32_t code;
} STaskDropRsp;
#pragma pack(pop)

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@ -22,6 +22,8 @@
#include "taoserror.h"
#include "taosmsg.h"
#include "tlist.h"
#include "trpc.h"
#include "ttimer.h"
#include "tutil.h"
#ifdef __cplusplus
@ -54,6 +56,7 @@ typedef struct STqSetCurReq {
typedef struct STqConsumeReq {
STqMsgHead head;
int64_t blockingTime; // milisec
STqAcks acks;
} STqConsumeReq;
@ -101,33 +104,44 @@ typedef struct STqTopicVhandle {
typedef struct STqExec {
void* runtimeEnv;
SSDataBlock* (*exec)(void* runtimeEnv);
void* (*assign)(void* runtimeEnv, SSubmitBlk* inputData);
void* (*assign)(void* runtimeEnv, void* inputData);
void (*clear)(void* runtimeEnv);
char* (*serialize)(struct STqExec*);
struct STqExec* (*deserialize)(char*);
} STqExec;
typedef struct STqRspHandle {
void* handle;
void* ahandle;
} STqRspHandle;
typedef enum { TQ_ITEM_READY, TQ_ITEM_PROCESS, TQ_ITEM_EMPTY } STqItemStatus;
typedef struct STqTopic STqTopic;
typedef struct STqBufferItem {
int64_t offset;
// executors are identical but not concurrent
// so there must be a copy in each item
STqExec* executor;
int32_t status;
int64_t size;
void* content;
STqExec* executor;
int32_t status;
int64_t size;
void* content;
STqTopic* pTopic;
} STqMsgItem;
typedef struct STqTopic {
struct STqTopic {
// char* topic; //c style, end with '\0'
// int64_t cgId;
// void* ahandle;
// int32_t head;
// int32_t tail;
int64_t nextConsumeOffset;
int64_t floatingCursor;
int64_t topicId;
int32_t head;
int32_t tail;
void* logReader;
STqMsgItem buffer[TQ_BUFFER_SIZE];
} STqTopic;
};
typedef struct STqListHandle {
STqTopic topic;
@ -135,13 +149,13 @@ typedef struct STqListHandle {
} STqList;
typedef struct STqGroup {
int64_t clientId;
int64_t cgId;
void* ahandle;
int32_t topicNum;
STqList* head;
SList* topicList; // SList<STqTopic>
void* returnMsg; // SVReadMsg
int64_t clientId;
int64_t cgId;
void* ahandle;
int32_t topicNum;
STqList* head;
SList* topicList; // SList<STqTopic>
STqRspHandle rspHandle;
} STqGroup;
typedef struct STqQueryMsg {
@ -149,20 +163,23 @@ typedef struct STqQueryMsg {
struct STqQueryMsg* next;
} STqQueryMsg;
typedef struct STqLogReader {
typedef struct STqLogHandle {
void* logHandle;
int32_t (*logRead)(void* logHandle, void** data, int64_t ver);
void* (*openLogReader)(void* logHandle);
void (*closeLogReader)(void* logReader);
int32_t (*logRead)(void* logReader, void** data, int64_t ver);
int64_t (*logGetFirstVer)(void* logHandle);
int64_t (*logGetSnapshotVer)(void* logHandle);
int64_t (*logGetLastVer)(void* logHandle);
} STqLogReader;
} STqLogHandle;
typedef struct STqCfg {
// TODO
} STqCfg;
typedef struct STqMemRef {
SMemAllocatorFactory* pAlloctorFactory;
SMemAllocatorFactory* pAllocatorFactory;
SMemAllocator* pAllocator;
} STqMemRef;
@ -252,19 +269,30 @@ typedef struct STQ {
// the handle of meta kvstore
char* path;
STqCfg* tqConfig;
STqLogReader* tqLogReader;
STqLogHandle* tqLogHandle;
STqMemRef tqMemRef;
STqMetaStore* tqMeta;
} STQ;
typedef struct STqMgmt {
int8_t inited;
tmr_h timer;
} STqMgmt;
static STqMgmt tqMgmt;
// init once
int tqInit();
void tqCleanUp();
// open in each vnode
STQ* tqOpen(const char* path, STqCfg* tqConfig, STqLogReader* tqLogReader, SMemAllocatorFactory* allocFac);
STQ* tqOpen(const char* path, STqCfg* tqConfig, STqLogHandle* tqLogHandle, SMemAllocatorFactory* allocFac);
void tqClose(STQ*);
// void* will be replace by a msg type
int tqPushMsg(STQ*, void* msg, int64_t version);
int tqCommit(STQ*);
int tqConsume(STQ*, STqConsumeReq*);
int tqConsume(STQ*, SRpcMsg* pReq, SRpcMsg** pRsp);
int tqSetCursor(STQ*, STqSetCurReq* pMsg);
int tqBufferSetOffset(STqTopic*, int64_t offset);

View File

@ -122,6 +122,16 @@ int vnodeProcessWMsgs(SVnode *pVnode, SArray *pMsgs);
*/
int vnodeApplyWMsg(SVnode *pVnode, SRpcMsg *pMsg, SRpcMsg **pRsp);
/**
* @brief Process a consume message.
*
* @param pVnode The vnode object.
* @param pMsg The request message
* @param pRsp The response message
* @return int 0 for success, -1 for failure
*/
int vnodeProcessCMsg(SVnode *pVnode, SRpcMsg *pMsg, SRpcMsg **pRsp);
/**
* @brief Process the sync request
*

View File

@ -160,6 +160,13 @@ typedef struct SInsertStmtInfo {
const char* sql; // current sql statement position
} SInsertStmtInfo;
typedef struct SDclStmtInfo {
int16_t nodeType;
int16_t msgType;
char* pMsg;
int32_t msgLen;
} SDclStmtInfo;
#ifdef __cplusplus
}
#endif

View File

@ -22,20 +22,11 @@ extern "C" {
#include "parsenodes.h"
/**
* True will be returned if the input sql string is insert, false otherwise.
* @param pStr sql string
* @param length length of the sql string
* @return
*/
bool qIsInsertSql(const char* pStr, size_t length);
typedef struct SParseContext {
SParseBasicCtx ctx;
void *pRpc;
struct SCatalog *pCatalog;
const SEpSet *pEpSet;
int64_t id; // query id, generated by uuid generator
int8_t schemaAttached; // denote if submit block is built with table schema or not
const char *pSql; // sql string
size_t sqlLen; // length of the sql string
@ -51,17 +42,9 @@ typedef struct SParseContext {
* @param msg extended error message if exists.
* @return error code
*/
int32_t qParseQuerySql(const char* pStr, size_t length, SParseBasicCtx* pParseCtx, int32_t* type, void** pOutput, int32_t* outputLen, char* msg, int32_t msgLen);
int32_t qParseQuerySql(SParseContext* pContext, SQueryNode** pQuery);
/**
* Parse the insert sql statement.
* @param pStr sql string
* @param length length of the sql string
* @param id operator id, generated by uuid generator.
* @param msg extended error message if exists to help avoid the problem in sql statement.
* @return data in binary format to submit to vnode directly.
*/
int32_t qParseInsertSql(SParseContext* pContext, struct SInsertStmtInfo** pInfo);
bool qIsDclQuery(const SQueryNode* pQuery);
/**
* Convert a normal sql statement to only query tags information to enable that the subscribe client can be aware quickly of the true vgroup ids that

View File

@ -119,9 +119,9 @@ typedef struct SSubplanId {
typedef struct SSubplan {
SSubplanId id; // unique id of the subplan
int32_t type; // QUERY_TYPE_MERGE|QUERY_TYPE_PARTIAL|QUERY_TYPE_SCAN
int32_t type; // QUERY_TYPE_MERGE|QUERY_TYPE_PARTIAL|QUERY_TYPE_SCAN|QUERY_TYPE_MODIFY
int32_t level; // the execution level of current subplan, starting from 0.
SEpSet execEpSet; // for the scan sub plan, the optional execution node
SEpSet execEpSet; // for the scan/modify subplan, the optional execution node
SArray *pChildern; // the datasource subplan,from which to fetch the result
SArray *pParents; // the data destination subplan, get data from current subplan
SPhyNode *pNode; // physical plan of current subplan
@ -152,7 +152,7 @@ int32_t qExplainQuery(const struct SQueryNode* pQueryInfo, struct SEpSet* pQnode
/**
* Convert to subplan to string for the scheduler to send to the executor
*/
int32_t qSubPlanToString(const SSubplan* subplan, char** str);
int32_t qSubPlanToString(const SSubplan* subplan, char** str, int32_t* len);
int32_t qStringToSubplan(const char* str, SSubplan** subplan);

View File

@ -25,12 +25,15 @@ extern "C" {
#include "tlog.h"
enum {
JOB_TASK_STATUS_NULL = 0,
JOB_TASK_STATUS_NOT_START = 1,
JOB_TASK_STATUS_EXECUTING,
JOB_TASK_STATUS_PARTIAL_SUCCEED,
JOB_TASK_STATUS_SUCCEED,
JOB_TASK_STATUS_FAILED,
JOB_TASK_STATUS_CANCELLING,
JOB_TASK_STATUS_CANCELLED
JOB_TASK_STATUS_CANCELLED,
JOB_TASK_STATUS_DROPPING,
};
typedef struct STableComInfo {

View File

@ -42,15 +42,17 @@ typedef struct {
int32_t qWorkerInit(SQWorkerCfg *cfg, void **qWorkerMgmt);
int32_t qWorkerProcessQueryMsg(void *qWorkerMgmt, SSchedulerQueryMsg *msg, SRpcMsg *rsp);
int32_t qWorkerProcessQueryMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessReadyMsg(void *qWorkerMgmt, SSchedulerReadyMsg *msg, SRpcMsg *rsp);
int32_t qWorkerProcessReadyMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessStatusMsg(void *qWorkerMgmt, SSchedulerStatusMsg *msg, SRpcMsg *rsp);
int32_t qWorkerProcessStatusMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessFetchMsg(void *qWorkerMgmt, SSchedulerFetchMsg *msg, SRpcMsg *rsp);
int32_t qWorkerProcessFetchMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessCancelMsg(void *qWorkerMgmt, SSchedulerCancelMsg *msg, SRpcMsg *rsp);
int32_t qWorkerProcessCancelMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
int32_t qWorkerProcessDropMsg(void *node, void *qWorkerMgmt, SRpcMsg *pMsg);
void qWorkerDestroy(void **qWorkerMgmt);

View File

@ -174,8 +174,11 @@ SWalReadHandle *walOpenReadHandle(SWal *);
void walCloseReadHandle(SWalReadHandle *);
int32_t walReadWithHandle(SWalReadHandle *pRead, int64_t ver);
// deprecated
#if 0
int32_t walRead(SWal *, SWalHead **, int64_t ver);
// int32_t walReadWithFp(SWal *, FWalWrite writeFp, int64_t verStart, int32_t readNum);
int32_t walReadWithFp(SWal *, FWalWrite writeFp, int64_t verStart, int32_t readNum);
#endif
// lifecycle check
int64_t walGetFirstVer(SWal *);

View File

@ -314,6 +314,11 @@ int32_t* taosGetErrno();
#define TSDB_CODE_QRY_INVALID_TIME_CONDITION TAOS_DEF_ERROR_CODE(0, 0x070D) //"invalid time condition")
#define TSDB_CODE_QRY_SYS_ERROR TAOS_DEF_ERROR_CODE(0, 0x070E) //"System error")
#define TSDB_CODE_QRY_INVALID_INPUT TAOS_DEF_ERROR_CODE(0, 0x070F) //"invalid input")
#define TSDB_CODE_QRY_SCH_NOT_EXIST TAOS_DEF_ERROR_CODE(0, 0x0710) //"Scheduler not exist")
#define TSDB_CODE_QRY_TASK_NOT_EXIST TAOS_DEF_ERROR_CODE(0, 0x0711) //"Task not exist")
#define TSDB_CODE_QRY_TASK_ALREADY_EXIST TAOS_DEF_ERROR_CODE(0, 0x0712) //"Task already exist")
#define TSDB_CODE_QRY_RES_CACHE_NOT_EXIST TAOS_DEF_ERROR_CODE(0, 0x0713) //"Task result cache not exist")
#define TSDB_CODE_QRY_TASK_CANCELLED TAOS_DEF_ERROR_CODE(0, 0x0714) //"Task cancelled")
// grant

View File

@ -33,6 +33,8 @@ typedef void (*_hash_free_fn_t)(void *);
#define HASH_INDEX(v, c) ((v) & ((c)-1))
#define HASH_NODE_EXIST(code) (code == -2)
/**
* murmur hash algorithm
* @key usually string

View File

@ -16,6 +16,8 @@
#ifndef _TD_UTIL_TIMER_H
#define _TD_UTIL_TIMER_H
#include "os.h"
#ifdef __cplusplus
extern "C" {
#endif

View File

@ -144,72 +144,66 @@ TAOS_RES *taos_query_l(TAOS *taos, const char *sql, int sqlLen) {
tscDebugL("0x%"PRIx64" SQL: %s", pRequest->requestId, pRequest->sqlstr);
int32_t code = 0;
if (qIsInsertSql(pRequest->sqlstr, sqlLen)) {
// todo add
} else {
int32_t type = 0;
void* output = NULL;
int32_t outputLen = 0;
SParseContext cxt = {
.ctx = {.requestId = pRequest->requestId, .acctId = pTscObj->acctId, .db = getConnectionDB(pTscObj)},
.pSql = pRequest->sqlstr,
.sqlLen = sqlLen,
.pMsg = pRequest->msgBuf,
.msgLen = ERROR_MSG_BUF_DEFAULT_SIZE
};
SQueryNode* pQuery = NULL;
int32_t code = qParseQuerySql(&cxt, &pQuery);
if (qIsDclQuery(pQuery)) {
SDclStmtInfo* pDcl = (SDclStmtInfo*)pQuery;
pRequest->type = pDcl->msgType;
pRequest->body.requestMsg = (SReqMsgInfo){.pMsg = pDcl->pMsg, .len = pDcl->msgLen};
SParseBasicCtx c = {.requestId = pRequest->requestId, .acctId = pTscObj->acctId, .db = getConnectionDB(pTscObj)};
code = qParseQuerySql(pRequest->sqlstr, sqlLen, &c, &type, &output, &outputLen, pRequest->msgBuf, ERROR_MSG_BUF_DEFAULT_SIZE);
if (type == TSDB_MSG_TYPE_CREATE_USER || type == TSDB_MSG_TYPE_SHOW || type == TSDB_MSG_TYPE_DROP_USER ||
type == TSDB_MSG_TYPE_DROP_ACCT || type == TSDB_MSG_TYPE_CREATE_DB || type == TSDB_MSG_TYPE_CREATE_ACCT ||
type == TSDB_MSG_TYPE_CREATE_TABLE || type == TSDB_MSG_TYPE_CREATE_STB || type == TSDB_MSG_TYPE_USE_DB ||
type == TSDB_MSG_TYPE_DROP_DB || type == TSDB_MSG_TYPE_DROP_STB) {
pRequest->type = type;
pRequest->body.requestMsg = (SReqMsgInfo){.pMsg = output, .len = outputLen};
SRequestMsgBody body = buildRequestMsgImpl(pRequest);
SEpSet* pEpSet = &pTscObj->pAppInfo->mgmtEp.epSet;
SRequestMsgBody body = buildRequestMsgImpl(pRequest);
SEpSet* pEpSet = &pTscObj->pAppInfo->mgmtEp.epSet;
if (pDcl->msgType == TSDB_MSG_TYPE_CREATE_TABLE) {
struct SCatalog* pCatalog = NULL;
if (type == TSDB_MSG_TYPE_CREATE_TABLE) {
struct SCatalog* pCatalog = NULL;
char buf[12] = {0};
sprintf(buf, "%d", pTscObj->pAppInfo->clusterId);
code = catalogGetHandle(buf, &pCatalog);
if (code != 0) {
pRequest->code = code;
return pRequest;
}
SCreateTableMsg* pMsg = body.msgInfo.pMsg;
SName t = {0};
tNameFromString(&t, pMsg->name, T_NAME_ACCT|T_NAME_DB|T_NAME_TABLE);
char db[TSDB_DB_NAME_LEN + TS_PATH_DELIMITER_LEN + TSDB_ACCT_ID_LEN] = {0};
tNameGetFullDbName(&t, db);
SVgroupInfo info = {0};
catalogGetTableHashVgroup(pCatalog, pTscObj->pTransporter, pEpSet, db, tNameGetTableName(&t), &info);
int64_t transporterId = 0;
SEpSet ep = {0};
ep.inUse = info.inUse;
ep.numOfEps = info.numOfEps;
for(int32_t i = 0; i < ep.numOfEps; ++i) {
ep.port[i] = info.epAddr[i].port;
tstrncpy(ep.fqdn[i], info.epAddr[i].fqdn, tListLen(ep.fqdn[i]));
}
sendMsgToServer(pTscObj->pTransporter, &ep, &body, &transporterId);
} else {
int64_t transporterId = 0;
sendMsgToServer(pTscObj->pTransporter, pEpSet, &body, &transporterId);
char buf[12] = {0};
sprintf(buf, "%d", pTscObj->pAppInfo->clusterId);
code = catalogGetHandle(buf, &pCatalog);
if (code != 0) {
pRequest->code = code;
return pRequest;
}
tsem_wait(&pRequest->body.rspSem);
destroyRequestMsgBody(&body);
SCreateTableMsg* pMsg = body.msgInfo.pMsg;
SName t = {0};
tNameFromString(&t, pMsg->name, T_NAME_ACCT|T_NAME_DB|T_NAME_TABLE);
char db[TSDB_DB_NAME_LEN + TS_PATH_DELIMITER_LEN + TSDB_ACCT_ID_LEN] = {0};
tNameGetFullDbName(&t, db);
SVgroupInfo info = {0};
catalogGetTableHashVgroup(pCatalog, pTscObj->pTransporter, pEpSet, db, tNameGetTableName(&t), &info);
int64_t transporterId = 0;
SEpSet ep = {0};
ep.inUse = info.inUse;
ep.numOfEps = info.numOfEps;
for(int32_t i = 0; i < ep.numOfEps; ++i) {
ep.port[i] = info.epAddr[i].port;
tstrncpy(ep.fqdn[i], info.epAddr[i].fqdn, tListLen(ep.fqdn[i]));
}
sendMsgToServer(pTscObj->pTransporter, &ep, &body, &transporterId);
} else {
assert(0);
int64_t transporterId = 0;
sendMsgToServer(pTscObj->pTransporter, pEpSet, &body, &transporterId);
}
tfree(c.db);
tsem_wait(&pRequest->body.rspSem);
destroyRequestMsgBody(&body);
}
tfree(cxt.ctx.db);
if (code != TSDB_CODE_SUCCESS) {
pRequest->code = code;
return pRequest;

View File

@ -349,7 +349,7 @@ static void dndBuildMnodeDeployOption(SDnode *pDnode, SMnodeOpt *pOption) {
SReplica *pReplica = &pOption->replicas[0];
pReplica->id = 1;
pReplica->port = pDnode->opt.serverPort;
tstrncpy(pReplica->fqdn, pDnode->opt.localFqdn, TSDB_FQDN_LEN);
memcpy(pReplica->fqdn, pDnode->opt.localFqdn, TSDB_FQDN_LEN);
SMnodeMgmt *pMgmt = &pDnode->mmgmt;
pMgmt->selfIndex = pOption->selfIndex;
@ -376,7 +376,7 @@ static int32_t dndBuildMnodeOptionFromMsg(SDnode *pDnode, SMnodeOpt *pOption, SC
SReplica *pReplica = &pOption->replicas[i];
pReplica->id = pMsg->replicas[i].id;
pReplica->port = pMsg->replicas[i].port;
tstrncpy(pReplica->fqdn, pMsg->replicas[i].fqdn, TSDB_FQDN_LEN);
memcpy(pReplica->fqdn, pMsg->replicas[i].fqdn, TSDB_FQDN_LEN);
if (pReplica->id == pOption->dnodeId) {
pOption->selfIndex = i;
}
@ -479,9 +479,11 @@ static int32_t dndDropMnode(SDnode *pDnode) {
return -1;
}
dndReleaseMnode(pDnode, pMnode);
dndStopMnodeWorker(pDnode);
dndWriteMnodeFile(pDnode);
mndClose(pMnode);
pMgmt->pMnode = NULL;
mndDestroy(pDnode->dir.mnode);
return 0;
@ -499,7 +501,7 @@ static SCreateMnodeInMsg *dndParseCreateMnodeMsg(SRpcMsg *pRpcMsg) {
}
static int32_t dndProcessCreateMnodeReq(SDnode *pDnode, SRpcMsg *pRpcMsg) {
SCreateMnodeInMsg *pMsg = dndParseCreateMnodeMsg(pRpcMsg->pCont);
SCreateMnodeInMsg *pMsg = dndParseCreateMnodeMsg(pRpcMsg);
if (pMsg->dnodeId != dndGetDnodeId(pDnode)) {
terrno = TSDB_CODE_DND_MNODE_ID_INVALID;
@ -515,18 +517,23 @@ static int32_t dndProcessCreateMnodeReq(SDnode *pDnode, SRpcMsg *pRpcMsg) {
}
static int32_t dndProcessAlterMnodeReq(SDnode *pDnode, SRpcMsg *pRpcMsg) {
SAlterMnodeInMsg *pMsg = dndParseCreateMnodeMsg(pRpcMsg->pCont);
SAlterMnodeInMsg *pMsg = dndParseCreateMnodeMsg(pRpcMsg);
if (pMsg->dnodeId != dndGetDnodeId(pDnode)) {
terrno = TSDB_CODE_DND_MNODE_ID_INVALID;
return -1;
} else {
SMnodeOpt option = {0};
if (dndBuildMnodeOptionFromMsg(pDnode, &option, pMsg) != 0) {
return -1;
}
return dndAlterMnode(pDnode, &option);
}
SMnodeOpt option = {0};
if (dndBuildMnodeOptionFromMsg(pDnode, &option, pMsg) != 0) {
return -1;
}
if (dndAlterMnode(pDnode, &option) != 0) {
return -1;
}
return dndWriteMnodeFile(pDnode);
}
static int32_t dndProcessDropMnodeReq(SDnode *pDnode, SRpcMsg *pRpcMsg) {
@ -555,16 +562,17 @@ static void dndProcessMnodeMgmtQueue(SDnode *pDnode, SRpcMsg *pMsg) {
code = dndProcessDropMnodeReq(pDnode, pMsg);
break;
default:
code = TSDB_CODE_MSG_NOT_PROCESSED;
terrno = TSDB_CODE_MSG_NOT_PROCESSED;
code = -1;
break;
}
if (pMsg->msgType & 1u) {
if (code != 0) code = terrno;
SRpcMsg rsp = {.code = code, .handle = pMsg->handle};
rpcSendResponse(&rsp);
}
rpcFreeCont(pMsg->pCont);
pMsg->pCont = NULL;
taosFreeQitem(pMsg);
}
@ -625,8 +633,6 @@ static void dndProcessMnodeSyncQueue(SDnode *pDnode, SMnodeMsg *pMsg) {
}
static int32_t dndWriteMnodeMsgToQueue(SMnode *pMnode, taos_queue pQueue, SRpcMsg *pRpcMsg) {
assert(pQueue);
SMnodeMsg *pMsg = mndInitMsg(pMnode, pRpcMsg);
if (pMsg == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
@ -647,15 +653,18 @@ void dndProcessMnodeMgmtMsg(SDnode *pDnode, SRpcMsg *pRpcMsg, SEpSet *pEpSet) {
SMnode *pMnode = dndAcquireMnode(pDnode);
SRpcMsg *pMsg = taosAllocateQitem(sizeof(SRpcMsg));
if (pMsg != NULL) *pMsg = *pRpcMsg;
if (pMsg == NULL || taosWriteQitem(pMgmt->pMgmtQ, pMsg) != 0) {
if (pRpcMsg->msgType & 1u) {
SRpcMsg rsp = {.handle = pRpcMsg->handle, .code = TSDB_CODE_OUT_OF_MEMORY};
rpcSendResponse(&rsp);
}
rpcFreeCont(pRpcMsg->pCont);
pRpcMsg->pCont = NULL;
taosFreeQitem(pMsg);
}
dndReleaseMnode(pDnode, pMnode);
}
void dndProcessMnodeWriteMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet) {
@ -894,6 +903,11 @@ int32_t dndInitMnode(SDnode *pDnode) {
return -1;
}
if (dndAllocMnodeMgmtQueue(pDnode) != 0) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
}
char path[PATH_MAX];
snprintf(path, PATH_MAX, "%s/mnode.json", pDnode->dir.dnode);
pMgmt->file = strdup(path);
@ -935,8 +949,9 @@ void dndCleanupMnode(SDnode *pDnode) {
SMnodeMgmt *pMgmt = &pDnode->mmgmt;
dInfo("dnode-mnode start to clean up");
dndStopMnodeWorker(pDnode);
if (pMgmt->pMnode) dndStopMnodeWorker(pDnode);
dndCleanupMnodeMgmtWorker(pDnode);
dndFreeMnodeMgmtQueue(pDnode);
tfree(pMgmt->file);
mndClose(pMgmt->pMnode);
dInfo("dnode-mnode is cleaned up");

View File

@ -45,6 +45,10 @@ static void dndInitMsgFp(STransMgmt *pMgmt) {
pMgmt->msgFp[TSDB_MSG_TYPE_MQ_CONNECT] = dndProcessVnodeWriteMsg;
pMgmt->msgFp[TSDB_MSG_TYPE_MQ_DISCONNECT] = dndProcessVnodeWriteMsg;
pMgmt->msgFp[TSDB_MSG_TYPE_MQ_SET_CUR] = dndProcessVnodeWriteMsg;
pMgmt->msgFp[TSDB_MSG_TYPE_RES_READY] = dndProcessVnodeFetchMsg;
pMgmt->msgFp[TSDB_MSG_TYPE_TASKS_STATUS] = dndProcessVnodeFetchMsg;
pMgmt->msgFp[TSDB_MSG_TYPE_CANCEL_TASK] = dndProcessVnodeFetchMsg;
pMgmt->msgFp[TSDB_MSG_TYPE_DROP_TASK] = dndProcessVnodeFetchMsg;
// msg from client to mnode
pMgmt->msgFp[TSDB_MSG_TYPE_CONNECT] = dndProcessMnodeReadMsg;
@ -136,7 +140,7 @@ static void dndProcessResponse(void *parent, SRpcMsg *pMsg, SEpSet *pEpSet) {
DndMsgFp fp = pMgmt->msgFp[msgType];
if (fp != NULL) {
(*fp)(pDnode, pMsg, pEpSet);
dTrace("RPC %p, rsp:%s is processed, code:0x%0X", pMsg->handle, taosMsg[msgType], pMsg->code & 0XFFFF);
dTrace("RPC %p, rsp:%s is processed, code:0x%x", pMsg->handle, taosMsg[msgType], pMsg->code & 0XFFFF);
} else {
dError("RPC %p, rsp:%s not processed", pMsg->handle, taosMsg[msgType]);
rpcFreeCont(pMsg->pCont);
@ -184,7 +188,7 @@ static void dndProcessRequest(void *param, SRpcMsg *pMsg, SEpSet *pEpSet) {
int32_t msgType = pMsg->msgType;
if (msgType == TSDB_MSG_TYPE_NETWORK_TEST) {
dTrace("RPC %p, network test req, app:%p will be processed", pMsg->handle, pMsg->ahandle);
dTrace("RPC %p, network test req, app:%p will be processed, code:0x%x", pMsg->handle, pMsg->ahandle, pMsg->code);
dndProcessDnodeReq(pDnode, pMsg, pEpSet);
return;
}

View File

@ -7,7 +7,7 @@ add_subdirectory(cluster)
add_subdirectory(db)
add_subdirectory(dnode)
# add_subdirectory(func)
# add_subdirectory(mnode)
add_subdirectory(mnode)
add_subdirectory(profile)
add_subdirectory(show)
add_subdirectory(stb)

View File

@ -162,51 +162,52 @@ TEST_F(DndTestDb, 02_Create_Alter_Drop_Db) {
CheckBinary("ms", 3); // precision
CheckInt8(0); // update
// restart
test.Restart();
// // restart
// test.Restart();
test.SendShowMetaMsg(TSDB_MGMT_TABLE_DB, "");
CHECK_META("show databases", 17);
// test.SendShowMetaMsg(TSDB_MGMT_TABLE_DB, "");
// CHECK_META("show databases", 17);
test.SendShowRetrieveMsg();
EXPECT_EQ(test.GetShowRows(), 1);
// test.SendShowRetrieveMsg();
// EXPECT_EQ(test.GetShowRows(), 1);
CheckBinary("d1", TSDB_DB_NAME_LEN - 1);
CheckTimestamp();
CheckInt16(2); // vgroups
CheckInt16(1); // replica
CheckInt16(2); // quorum
CheckInt16(10); // days
CheckBinary("300,400,500", 24); // days
CheckInt32(16); // cache
CheckInt32(12); // blocks
CheckInt32(100); // minrows
CheckInt32(4096); // maxrows
CheckInt8(2); // wallevel
CheckInt32(4000); // fsync
CheckInt8(2); // comp
CheckInt8(1); // cachelast
CheckBinary("ms", 3); // precision
CheckInt8(0); // update
// CheckBinary("d1", TSDB_DB_NAME_LEN - 1);
// CheckTimestamp();
// CheckInt16(2); // vgroups
// CheckInt16(1); // replica
// CheckInt16(2); // quorum
// CheckInt16(10); // days
// CheckBinary("300,400,500", 24); // days
// CheckInt32(16); // cache
// CheckInt32(12); // blocks
// CheckInt32(100); // minrows
// CheckInt32(4096); // maxrows
// CheckInt8(2); // wallevel
// CheckInt32(4000); // fsync
// CheckInt8(2); // comp
// CheckInt8(1); // cachelast
// CheckBinary("ms", 3); // precision
// CheckInt8(0); // update
{
int32_t contLen = sizeof(SDropDbMsg);
// {
// int32_t contLen = sizeof(SDropDbMsg);
SDropDbMsg* pReq = (SDropDbMsg*)rpcMallocCont(contLen);
strcpy(pReq->db, "1.d1");
// SDropDbMsg* pReq = (SDropDbMsg*)rpcMallocCont(contLen);
// strcpy(pReq->db, "1.d1");
SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_DROP_DB, pReq, contLen);
ASSERT_NE(pMsg, nullptr);
ASSERT_EQ(pMsg->code, 0);
}
// SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_DROP_DB, pReq, contLen);
// ASSERT_NE(pMsg, nullptr);
// ASSERT_EQ(pMsg->code, 0);
// }
test.SendShowMetaMsg(TSDB_MGMT_TABLE_DB, "");
CHECK_META("show databases", 17);
// test.SendShowMetaMsg(TSDB_MGMT_TABLE_DB, "");
// CHECK_META("show databases", 17);
test.SendShowRetrieveMsg();
EXPECT_EQ(test.GetShowRows(), 0);
// test.SendShowRetrieveMsg();
// EXPECT_EQ(test.GetShowRows(), 0);
}
#if 0
TEST_F(DndTestDb, 03_Create_Use_Restart_Use_Db) {
{
int32_t contLen = sizeof(SCreateDbMsg);
@ -298,3 +299,5 @@ TEST_F(DndTestDb, 03_Create_Use_Restart_Use_Db) {
}
}
}
#endif

View File

@ -0,0 +1,11 @@
aux_source_directory(. MTEST_SRC)
add_executable(dnode_test_mnode ${MTEST_SRC})
target_link_libraries(
dnode_test_mnode
PUBLIC sut
)
add_test(
NAME dnode_test_mnode
COMMAND dnode_test_mnode
)

View File

@ -0,0 +1,300 @@
/**
* @file dnode.cpp
* @author slguan (slguan@taosdata.com)
* @brief DNODE module dnode-msg tests
* @version 0.1
* @date 2021-12-15
*
* @copyright Copyright (c) 2021
*
*/
#include "base.h"
class DndTestMnode : public ::testing::Test {
public:
void SetUp() override {}
void TearDown() override {}
public:
static void SetUpTestSuite() {
test.Init("/tmp/dnode_test_mnode1", 9061);
const char* fqdn = "localhost";
const char* firstEp = "localhost:9061";
server2.Start("/tmp/dnode_test_mnode2", fqdn, 9062, firstEp);
server3.Start("/tmp/dnode_test_mnode3", fqdn, 9063, firstEp);
server4.Start("/tmp/dnode_test_mnode4", fqdn, 9064, firstEp);
server5.Start("/tmp/dnode_test_mnode5", fqdn, 9065, firstEp);
taosMsleep(300);
}
static void TearDownTestSuite() {
server2.Stop();
server3.Stop();
server4.Stop();
server5.Stop();
test.Cleanup();
}
static Testbase test;
static TestServer server2;
static TestServer server3;
static TestServer server4;
static TestServer server5;
};
Testbase DndTestMnode::test;
TestServer DndTestMnode::server2;
TestServer DndTestMnode::server3;
TestServer DndTestMnode::server4;
TestServer DndTestMnode::server5;
TEST_F(DndTestMnode, 01_ShowDnode) {
test.SendShowMetaMsg(TSDB_MGMT_TABLE_MNODE, "");
CHECK_META("show mnodes", 5);
CHECK_SCHEMA(0, TSDB_DATA_TYPE_SMALLINT, 2, "id");
CHECK_SCHEMA(1, TSDB_DATA_TYPE_BINARY, TSDB_EP_LEN + VARSTR_HEADER_SIZE, "endpoint");
CHECK_SCHEMA(2, TSDB_DATA_TYPE_BINARY, 12 + VARSTR_HEADER_SIZE, "role");
CHECK_SCHEMA(3, TSDB_DATA_TYPE_TIMESTAMP, 8, "role_time");
CHECK_SCHEMA(4, TSDB_DATA_TYPE_TIMESTAMP, 8, "create_time");
test.SendShowRetrieveMsg();
EXPECT_EQ(test.GetShowRows(), 1);
CheckInt16(1);
CheckBinary("localhost:9061", TSDB_EP_LEN);
CheckBinary("master", 12);
CheckInt64(0);
CheckTimestamp();
}
TEST_F(DndTestMnode, 02_Create_Mnode_Invalid_Id) {
{
int32_t contLen = sizeof(SCreateMnodeMsg);
SCreateMnodeMsg* pReq = (SCreateMnodeMsg*)rpcMallocCont(contLen);
pReq->dnodeId = htonl(1);
SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_CREATE_MNODE, pReq, contLen);
ASSERT_NE(pMsg, nullptr);
ASSERT_EQ(pMsg->code, TSDB_CODE_MND_MNODE_ALREADY_EXIST);
}
}
TEST_F(DndTestMnode, 03_Create_Mnode_Invalid_Id) {
{
int32_t contLen = sizeof(SCreateMnodeMsg);
SCreateMnodeMsg* pReq = (SCreateMnodeMsg*)rpcMallocCont(contLen);
pReq->dnodeId = htonl(2);
SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_CREATE_MNODE, pReq, contLen);
ASSERT_NE(pMsg, nullptr);
ASSERT_EQ(pMsg->code, TSDB_CODE_MND_DNODE_NOT_EXIST);
}
}
TEST_F(DndTestMnode, 04_Create_Mnode) {
{
// create dnode
int32_t contLen = sizeof(SCreateDnodeMsg);
SCreateDnodeMsg* pReq = (SCreateDnodeMsg*)rpcMallocCont(contLen);
strcpy(pReq->ep, "localhost:9062");
SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_CREATE_DNODE, pReq, contLen);
ASSERT_NE(pMsg, nullptr);
ASSERT_EQ(pMsg->code, 0);
taosMsleep(1300);
test.SendShowMetaMsg(TSDB_MGMT_TABLE_DNODE, "");
test.SendShowRetrieveMsg();
EXPECT_EQ(test.GetShowRows(), 2);
}
{
// create mnode
int32_t contLen = sizeof(SCreateMnodeMsg);
SCreateMnodeMsg* pReq = (SCreateMnodeMsg*)rpcMallocCont(contLen);
pReq->dnodeId = htonl(2);
SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_CREATE_MNODE, pReq, contLen);
ASSERT_NE(pMsg, nullptr);
ASSERT_EQ(pMsg->code, 0);
test.SendShowMetaMsg(TSDB_MGMT_TABLE_MNODE, "");
test.SendShowRetrieveMsg();
EXPECT_EQ(test.GetShowRows(), 2);
CheckInt16(1);
CheckInt16(2);
CheckBinary("localhost:9061", TSDB_EP_LEN);
CheckBinary("localhost:9062", TSDB_EP_LEN);
CheckBinary("master", 12);
CheckBinary("slave", 12);
CheckInt64(0);
CheckInt64(0);
CheckTimestamp();
CheckTimestamp();
}
{
// drop mnode
int32_t contLen = sizeof(SDropMnodeMsg);
SDropMnodeMsg* pReq = (SDropMnodeMsg*)rpcMallocCont(contLen);
pReq->dnodeId = htonl(2);
SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_DROP_MNODE, pReq, contLen);
ASSERT_NE(pMsg, nullptr);
ASSERT_EQ(pMsg->code, 0);
test.SendShowMetaMsg(TSDB_MGMT_TABLE_MNODE, "");
test.SendShowRetrieveMsg();
EXPECT_EQ(test.GetShowRows(), 1);
CheckInt16(1);
CheckBinary("localhost:9061", TSDB_EP_LEN);
CheckBinary("master", 12);
CheckInt64(0);
CheckTimestamp();
}
}
// {
// int32_t contLen = sizeof(SDropDnodeMsg);
// SDropDnodeMsg* pReq = (SDropDnodeMsg*)rpcMallocCont(contLen);
// pReq->dnodeId = htonl(2);
// SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_DROP_DNODE, pReq, contLen);
// ASSERT_NE(pMsg, nullptr);
// ASSERT_EQ(pMsg->code, 0);
// }
// test.SendShowMetaMsg(TSDB_MGMT_TABLE_DNODE, "");
// CHECK_META("show dnodes", 7);
// test.SendShowRetrieveMsg();
// EXPECT_EQ(test.GetShowRows(), 1);
// CheckInt16(1);
// CheckBinary("localhost:9061", TSDB_EP_LEN);
// CheckInt16(0);
// CheckInt16(1);
// CheckBinary("ready", 10);
// CheckTimestamp();
// CheckBinary("", 24);
// {
// int32_t contLen = sizeof(SCreateDnodeMsg);
// SCreateDnodeMsg* pReq = (SCreateDnodeMsg*)rpcMallocCont(contLen);
// strcpy(pReq->ep, "localhost:9063");
// SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_CREATE_DNODE, pReq, contLen);
// ASSERT_NE(pMsg, nullptr);
// ASSERT_EQ(pMsg->code, 0);
// }
// {
// int32_t contLen = sizeof(SCreateDnodeMsg);
// SCreateDnodeMsg* pReq = (SCreateDnodeMsg*)rpcMallocCont(contLen);
// strcpy(pReq->ep, "localhost:9064");
// SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_CREATE_DNODE, pReq, contLen);
// ASSERT_NE(pMsg, nullptr);
// ASSERT_EQ(pMsg->code, 0);
// }
// {
// int32_t contLen = sizeof(SCreateDnodeMsg);
// SCreateDnodeMsg* pReq = (SCreateDnodeMsg*)rpcMallocCont(contLen);
// strcpy(pReq->ep, "localhost:9065");
// SRpcMsg* pMsg = test.SendMsg(TSDB_MSG_TYPE_CREATE_DNODE, pReq, contLen);
// ASSERT_NE(pMsg, nullptr);
// ASSERT_EQ(pMsg->code, 0);
// }
// taosMsleep(1300);
// test.SendShowMetaMsg(TSDB_MGMT_TABLE_DNODE, "");
// CHECK_META("show dnodes", 7);
// test.SendShowRetrieveMsg();
// EXPECT_EQ(test.GetShowRows(), 4);
// CheckInt16(1);
// CheckInt16(3);
// CheckInt16(4);
// CheckInt16(5);
// CheckBinary("localhost:9061", TSDB_EP_LEN);
// CheckBinary("localhost:9063", TSDB_EP_LEN);
// CheckBinary("localhost:9064", TSDB_EP_LEN);
// CheckBinary("localhost:9065", TSDB_EP_LEN);
// CheckInt16(0);
// CheckInt16(0);
// CheckInt16(0);
// CheckInt16(0);
// CheckInt16(1);
// CheckInt16(1);
// CheckInt16(1);
// CheckInt16(1);
// CheckBinary("ready", 10);
// CheckBinary("ready", 10);
// CheckBinary("ready", 10);
// CheckBinary("ready", 10);
// CheckTimestamp();
// CheckTimestamp();
// CheckTimestamp();
// CheckTimestamp();
// CheckBinary("", 24);
// CheckBinary("", 24);
// CheckBinary("", 24);
// CheckBinary("", 24);
// // restart
// uInfo("stop all server");
// test.Restart();
// server2.Restart();
// server3.Restart();
// server4.Restart();
// server5.Restart();
// taosMsleep(1300);
// test.SendShowMetaMsg(TSDB_MGMT_TABLE_DNODE, "");
// CHECK_META("show dnodes", 7);
// test.SendShowRetrieveMsg();
// EXPECT_EQ(test.GetShowRows(), 4);
// CheckInt16(1);
// CheckInt16(3);
// CheckInt16(4);
// CheckInt16(5);
// CheckBinary("localhost:9061", TSDB_EP_LEN);
// CheckBinary("localhost:9063", TSDB_EP_LEN);
// CheckBinary("localhost:9064", TSDB_EP_LEN);
// CheckBinary("localhost:9065", TSDB_EP_LEN);
// CheckInt16(0);
// CheckInt16(0);
// CheckInt16(0);
// CheckInt16(0);
// CheckInt16(1);
// CheckInt16(1);
// CheckInt16(1);
// CheckInt16(1);
// CheckBinary("ready", 10);
// CheckBinary("ready", 10);
// CheckBinary("ready", 10);
// CheckBinary("ready", 10);
// CheckTimestamp();
// CheckTimestamp();
// CheckTimestamp();
// CheckTimestamp();
// CheckBinary("", 24);
// CheckBinary("", 24);
// CheckBinary("", 24);
// CheckBinary("", 24);
// }

View File

@ -290,11 +290,6 @@ typedef struct SMnodeMsg {
char db[TSDB_FULL_DB_NAME_LEN];
int32_t acctId;
SMnode *pMnode;
int16_t received;
int16_t successed;
int16_t expected;
int16_t retry;
int32_t code;
int64_t createdTime;
SRpcMsg rpcMsg;
int32_t contLen;

View File

@ -27,6 +27,7 @@ void mndCleanupMnode(SMnode *pMnode);
bool mndIsMnode(SMnode *pMnode, int32_t dnodeId);
void mndGetMnodeEpSet(SMnode *pMnode, SEpSet *pEpSet);
char *mndGetRoleStr(int32_t role);
void mndUpdateMnodeRole(SMnode *pMnode);
#ifdef __cplusplus
}

View File

@ -828,9 +828,9 @@ static int32_t mndProcessUseDbMsg(SMnodeMsg *pMsg) {
static int32_t mndProcessSyncDbMsg(SMnodeMsg *pMsg) {
SMnode *pMnode = pMsg->pMnode;
SSyncDbMsg *pSync = pMsg->rpcMsg.pCont;
SDbObj *pDb = mndAcquireDb(pMnode, pMsg->db);
SDbObj *pDb = mndAcquireDb(pMnode, pSync->db);
if (pDb == NULL) {
mError("db:%s, failed to process sync db msg since %s", pMsg->db, terrstr());
mError("db:%s, failed to process sync db msg since %s", pSync->db, terrstr());
return -1;
}
@ -841,9 +841,9 @@ static int32_t mndProcessSyncDbMsg(SMnodeMsg *pMsg) {
static int32_t mndProcessCompactDbMsg(SMnodeMsg *pMsg) {
SMnode *pMnode = pMsg->pMnode;
SCompactDbMsg *pCompact = pMsg->rpcMsg.pCont;
SDbObj *pDb = mndAcquireDb(pMnode, pMsg->db);
SDbObj *pDb = mndAcquireDb(pMnode, pCompact->db);
if (pDb == NULL) {
mError("db:%s, failed to process compact db msg since %s", pMsg->db, terrstr());
mError("db:%s, failed to process compact db msg since %s", pCompact->db, terrstr());
return -1;
}

View File

@ -23,14 +23,15 @@
#define TSDB_MNODE_RESERVE_SIZE 64
static int32_t mndCreateDefaultMnode(SMnode *pMnode);
static SSdbRaw *mndMnodeActionEncode(SMnodeObj *pMnodeObj);
static SSdbRaw *mndMnodeActionEncode(SMnodeObj *pObj);
static SSdbRow *mndMnodeActionDecode(SSdbRaw *pRaw);
static int32_t mndMnodeActionInsert(SSdb *pSdb, SMnodeObj *pMnodeObj);
static int32_t mndMnodeActionDelete(SSdb *pSdb, SMnodeObj *pMnodeObj);
static int32_t mndMnodeActionInsert(SSdb *pSdb, SMnodeObj *pObj);
static int32_t mndMnodeActionDelete(SSdb *pSdb, SMnodeObj *pObj);
static int32_t mndMnodeActionUpdate(SSdb *pSdb, SMnodeObj *pOldMnode, SMnodeObj *pNewMnode);
static int32_t mndProcessCreateMnodeMsg(SMnodeMsg *pMsg);
static int32_t mndProcessDropMnodeMsg(SMnodeMsg *pMsg);
static int32_t mndProcessCreateMnodeReq(SMnodeMsg *pMsg);
static int32_t mndProcessDropMnodeReq(SMnodeMsg *pMsg);
static int32_t mndProcessCreateMnodeRsp(SMnodeMsg *pMsg);
static int32_t mndProcessAlterMnodeRsp(SMnodeMsg *pMsg);
static int32_t mndProcessDropMnodeRsp(SMnodeMsg *pMsg);
static int32_t mndGetMnodeMeta(SMnodeMsg *pMsg, SShowObj *pShow, STableMetaMsg *pMeta);
static int32_t mndRetrieveMnodes(SMnodeMsg *pMsg, SShowObj *pShow, char *data, int32_t rows);
@ -46,9 +47,10 @@ int32_t mndInitMnode(SMnode *pMnode) {
.updateFp = (SdbUpdateFp)mndMnodeActionUpdate,
.deleteFp = (SdbDeleteFp)mndMnodeActionDelete};
mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_CREATE_MNODE, mndProcessCreateMnodeMsg);
mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_DROP_MNODE, mndProcessDropMnodeMsg);
mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_CREATE_MNODE, mndProcessCreateMnodeReq);
mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_DROP_MNODE, mndProcessDropMnodeReq);
mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_CREATE_MNODE_IN_RSP, mndProcessCreateMnodeRsp);
mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_ALTER_MNODE_IN_RSP, mndProcessAlterMnodeRsp);
mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_DROP_MNODE_IN_RSP, mndProcessDropMnodeRsp);
mndAddShowMetaHandle(pMnode, TSDB_MGMT_TABLE_MNODE, mndGetMnodeMeta);
@ -69,9 +71,9 @@ static SMnodeObj *mndAcquireMnode(SMnode *pMnode, int32_t mnodeId) {
return pObj;
}
static void mndReleaseMnode(SMnode *pMnode, SMnodeObj *pMnodeObj) {
static void mndReleaseMnode(SMnode *pMnode, SMnodeObj *pObj) {
SSdb *pSdb = pMnode->pSdb;
sdbRelease(pSdb, pMnodeObj);
sdbRelease(pSdb, pObj);
}
char *mndGetRoleStr(int32_t showType) {
@ -87,6 +89,24 @@ char *mndGetRoleStr(int32_t showType) {
}
}
void mndUpdateMnodeRole(SMnode *pMnode) {
SSdb *pSdb = pMnode->pSdb;
void *pIter = NULL;
while (1) {
SMnodeObj *pObj = NULL;
pIter = sdbFetch(pSdb, SDB_MNODE, pIter, (void **)&pObj);
if (pIter == NULL) break;
if (pObj->id == 1) {
pObj->role = TAOS_SYNC_STATE_LEADER;
} else {
pObj->role = TAOS_SYNC_STATE_CANDIDATE;
}
sdbRelease(pSdb, pObj);
}
}
static int32_t mndCreateDefaultMnode(SMnode *pMnode) {
SMnodeObj mnodeObj = {0};
mnodeObj.id = 1;
@ -101,14 +121,14 @@ static int32_t mndCreateDefaultMnode(SMnode *pMnode) {
return sdbWrite(pMnode->pSdb, pRaw);
}
static SSdbRaw *mndMnodeActionEncode(SMnodeObj *pMnodeObj) {
static SSdbRaw *mndMnodeActionEncode(SMnodeObj *pObj) {
SSdbRaw *pRaw = sdbAllocRaw(SDB_MNODE, TSDB_MNODE_VER_NUMBER, sizeof(SMnodeObj) + TSDB_MNODE_RESERVE_SIZE);
if (pRaw == NULL) return NULL;
int32_t dataPos = 0;
SDB_SET_INT32(pRaw, dataPos, pMnodeObj->id);
SDB_SET_INT64(pRaw, dataPos, pMnodeObj->createdTime)
SDB_SET_INT64(pRaw, dataPos, pMnodeObj->updateTime)
SDB_SET_INT32(pRaw, dataPos, pObj->id);
SDB_SET_INT64(pRaw, dataPos, pObj->createdTime)
SDB_SET_INT64(pRaw, dataPos, pObj->updateTime)
SDB_SET_RESERVE(pRaw, dataPos, TSDB_MNODE_RESERVE_SIZE)
return pRaw;
@ -125,42 +145,38 @@ static SSdbRow *mndMnodeActionDecode(SSdbRaw *pRaw) {
}
SSdbRow *pRow = sdbAllocRow(sizeof(SMnodeObj));
SMnodeObj *pMnodeObj = sdbGetRowObj(pRow);
if (pMnodeObj == NULL) return NULL;
SMnodeObj *pObj = sdbGetRowObj(pRow);
if (pObj == NULL) return NULL;
int32_t dataPos = 0;
SDB_GET_INT32(pRaw, pRow, dataPos, &pMnodeObj->id)
SDB_GET_INT64(pRaw, pRow, dataPos, &pMnodeObj->createdTime)
SDB_GET_INT64(pRaw, pRow, dataPos, &pMnodeObj->updateTime)
SDB_GET_INT32(pRaw, pRow, dataPos, &pObj->id)
SDB_GET_INT64(pRaw, pRow, dataPos, &pObj->createdTime)
SDB_GET_INT64(pRaw, pRow, dataPos, &pObj->updateTime)
SDB_GET_RESERVE(pRaw, pRow, dataPos, TSDB_MNODE_RESERVE_SIZE)
return pRow;
}
static void mnodeResetMnode(SMnodeObj *pMnodeObj) {
pMnodeObj->role = TAOS_SYNC_STATE_FOLLOWER;
pMnodeObj->roleTerm = 0;
pMnodeObj->roleTime = 0;
}
static void mnodeResetMnode(SMnodeObj *pObj) { pObj->role = TAOS_SYNC_STATE_FOLLOWER; }
static int32_t mndMnodeActionInsert(SSdb *pSdb, SMnodeObj *pMnodeObj) {
mTrace("mnode:%d, perform insert action", pMnodeObj->id);
pMnodeObj->pDnode = sdbAcquire(pSdb, SDB_DNODE, &pMnodeObj->id);
if (pMnodeObj->pDnode == NULL) {
static int32_t mndMnodeActionInsert(SSdb *pSdb, SMnodeObj *pObj) {
mTrace("mnode:%d, perform insert action", pObj->id);
pObj->pDnode = sdbAcquire(pSdb, SDB_DNODE, &pObj->id);
if (pObj->pDnode == NULL) {
terrno = TSDB_CODE_MND_DNODE_NOT_EXIST;
mError("mnode:%d, failed to perform insert action since %s", pMnodeObj->id, terrstr());
mError("mnode:%d, failed to perform insert action since %s", pObj->id, terrstr());
return -1;
}
mnodeResetMnode(pMnodeObj);
mnodeResetMnode(pObj);
return 0;
}
static int32_t mndMnodeActionDelete(SSdb *pSdb, SMnodeObj *pMnodeObj) {
mTrace("mnode:%d, perform delete action", pMnodeObj->id);
if (pMnodeObj->pDnode != NULL) {
sdbRelease(pSdb, pMnodeObj->pDnode);
pMnodeObj->pDnode = NULL;
static int32_t mndMnodeActionDelete(SSdb *pSdb, SMnodeObj *pObj) {
mTrace("mnode:%d, perform delete action", pObj->id);
if (pObj->pDnode != NULL) {
sdbRelease(pSdb, pObj->pDnode);
pObj->pDnode = NULL;
}
return 0;
@ -168,8 +184,6 @@ static int32_t mndMnodeActionDelete(SSdb *pSdb, SMnodeObj *pMnodeObj) {
static int32_t mndMnodeActionUpdate(SSdb *pSdb, SMnodeObj *pOldMnode, SMnodeObj *pNewMnode) {
mTrace("mnode:%d, perform update action", pOldMnode->id);
pOldMnode->id = pNewMnode->id;
pOldMnode->createdTime = pNewMnode->createdTime;
pOldMnode->updateTime = pNewMnode->updateTime;
return 0;
}
@ -177,12 +191,12 @@ static int32_t mndMnodeActionUpdate(SSdb *pSdb, SMnodeObj *pOldMnode, SMnodeObj
bool mndIsMnode(SMnode *pMnode, int32_t dnodeId) {
SSdb *pSdb = pMnode->pSdb;
SMnodeObj *pMnodeObj = sdbAcquire(pSdb, SDB_MNODE, &dnodeId);
if (pMnodeObj == NULL) {
SMnodeObj *pObj = sdbAcquire(pSdb, SDB_MNODE, &dnodeId);
if (pObj == NULL) {
return false;
}
sdbRelease(pSdb, pMnodeObj);
sdbRelease(pSdb, pObj);
return true;
}
@ -193,14 +207,14 @@ void mndGetMnodeEpSet(SMnode *pMnode, SEpSet *pEpSet) {
void *pIter = NULL;
while (1) {
SMnodeObj *pMnodeObj = NULL;
pIter = sdbFetch(pSdb, SDB_MNODE, pIter, (void **)&pMnodeObj);
SMnodeObj *pObj = NULL;
pIter = sdbFetch(pSdb, SDB_MNODE, pIter, (void **)&pObj);
if (pIter == NULL) break;
if (pMnodeObj->pDnode == NULL) break;
if (pObj->pDnode == NULL) break;
pEpSet->port[pEpSet->numOfEps] = htons(pMnodeObj->pDnode->port);
tstrncpy(pEpSet->fqdn[pEpSet->numOfEps], pMnodeObj->pDnode->fqdn, TSDB_FQDN_LEN);
if (pMnodeObj->role == TAOS_SYNC_STATE_LEADER) {
pEpSet->port[pEpSet->numOfEps] = htons(pObj->pDnode->port);
memcpy(pEpSet->fqdn[pEpSet->numOfEps], pObj->pDnode->fqdn, TSDB_FQDN_LEN);
if (pObj->role == TAOS_SYNC_STATE_LEADER) {
pEpSet->inUse = pEpSet->numOfEps;
}
@ -208,54 +222,153 @@ void mndGetMnodeEpSet(SMnode *pMnode, SEpSet *pEpSet) {
}
}
static int32_t mndCreateMnode(SMnode *pMnode, SMnodeMsg *pMsg, SCreateMnodeMsg *pCreate) {
SMnodeObj mnodeObj = {0};
mnodeObj.id = 1; // todo
mnodeObj.createdTime = taosGetTimestampMs();
mnodeObj.updateTime = mnodeObj.createdTime;
STrans *pTrans = mndTransCreate(pMnode, TRN_POLICY_ROLLBACK, pMsg->rpcMsg.handle);
if (pTrans == NULL) {
mError("dnode:%d, failed to create since %s", pCreate->dnodeId, terrstr());
return -1;
}
mDebug("trans:%d, used to create dnode:%d", pTrans->id, pCreate->dnodeId);
SSdbRaw *pRedoRaw = mndMnodeActionEncode(&mnodeObj);
if (pRedoRaw == NULL || mndTransAppendRedolog(pTrans, pRedoRaw) != 0) {
mError("trans:%d, failed to append redo log since %s", pTrans->id, terrstr());
mndTransDrop(pTrans);
return -1;
}
sdbSetRawStatus(pRedoRaw, SDB_STATUS_CREATING);
SSdbRaw *pUndoRaw = mndMnodeActionEncode(&mnodeObj);
if (pUndoRaw == NULL || mndTransAppendUndolog(pTrans, pUndoRaw) != 0) {
mError("trans:%d, failed to append undo log since %s", pTrans->id, terrstr());
mndTransDrop(pTrans);
return -1;
}
sdbSetRawStatus(pUndoRaw, SDB_STATUS_DROPPED);
SSdbRaw *pCommitRaw = mndMnodeActionEncode(&mnodeObj);
if (pCommitRaw == NULL || mndTransAppendCommitlog(pTrans, pCommitRaw) != 0) {
mError("trans:%d, failed to append commit log since %s", pTrans->id, terrstr());
mndTransDrop(pTrans);
return -1;
}
sdbSetRawStatus(pCommitRaw, SDB_STATUS_READY);
if (mndTransPrepare(pMnode, pTrans) != 0) {
mError("trans:%d, failed to prepare since %s", pTrans->id, terrstr());
mndTransDrop(pTrans);
return -1;
}
mndTransDrop(pTrans);
static int32_t mndSetCreateMnodeRedoLogs(SMnode *pMnode, STrans *pTrans, SMnodeObj *pObj) {
SSdbRaw *pRedoRaw = mndMnodeActionEncode(pObj);
if (pRedoRaw == NULL) return -1;
if (mndTransAppendRedolog(pTrans, pRedoRaw) != 0) return -1;
if (sdbSetRawStatus(pRedoRaw, SDB_STATUS_CREATING) != 0) return -1;
return 0;
}
static int32_t mndProcessCreateMnodeMsg(SMnodeMsg *pMsg) {
static int32_t mndSetCreateMnodeUndoLogs(SMnode *pMnode, STrans *pTrans, SMnodeObj *pObj) {
SSdbRaw *pUndoRaw = mndMnodeActionEncode(pObj);
if (pUndoRaw == NULL) return -1;
if (mndTransAppendUndolog(pTrans, pUndoRaw) != 0) return -1;
if (sdbSetRawStatus(pUndoRaw, SDB_STATUS_DROPPED) != 0) return -1;
return 0;
}
static int32_t mndSetCreateMnodeCommitLogs(SMnode *pMnode, STrans *pTrans, SMnodeObj *pObj) {
SSdbRaw *pCommitRaw = mndMnodeActionEncode(pObj);
if (pCommitRaw == NULL) return -1;
if (mndTransAppendCommitlog(pTrans, pCommitRaw) != 0) return -1;
if (sdbSetRawStatus(pCommitRaw, SDB_STATUS_READY) != 0) return -1;
return 0;
}
static int32_t mndSetCreateMnodeRedoActions(SMnode *pMnode, STrans *pTrans, SDnodeObj *pDnode, SMnodeObj *pObj) {
SSdb *pSdb = pMnode->pSdb;
void *pIter = NULL;
int32_t numOfReplicas = 0;
SCreateMnodeInMsg createMsg = {0};
while (1) {
SMnodeObj *pMObj = NULL;
pIter = sdbFetch(pSdb, SDB_MNODE, pIter, (void **)&pMObj);
if (pIter == NULL) break;
SReplica *pReplica = &createMsg.replicas[numOfReplicas];
pReplica->id = htonl(pMObj->id);
pReplica->port = htons(pMObj->pDnode->port);
memcpy(pReplica->fqdn, pMObj->pDnode->fqdn, TSDB_FQDN_LEN);
numOfReplicas++;
sdbRelease(pSdb, pMObj);
}
SReplica *pReplica = &createMsg.replicas[numOfReplicas];
pReplica->id = htonl(pDnode->id);
pReplica->port = htons(pDnode->port);
memcpy(pReplica->fqdn, pDnode->fqdn, TSDB_FQDN_LEN);
numOfReplicas++;
createMsg.replica = numOfReplicas;
while (1) {
SMnodeObj *pMObj = NULL;
pIter = sdbFetch(pSdb, SDB_MNODE, pIter, (void **)&pMObj);
if (pIter == NULL) break;
STransAction action = {0};
SAlterMnodeInMsg *pMsg = malloc(sizeof(SAlterMnodeInMsg));
if (pMsg == NULL) {
sdbCancelFetch(pSdb, pIter);
sdbRelease(pSdb, pMObj);
return -1;
}
memcpy(pMsg, &createMsg, sizeof(SAlterMnodeInMsg));
pMsg->dnodeId = htonl(pMObj->id);
action.epSet = mndGetDnodeEpset(pMObj->pDnode);
action.pCont = pMsg;
action.contLen = sizeof(SAlterMnodeInMsg);
action.msgType = TSDB_MSG_TYPE_ALTER_MNODE_IN;
if (mndTransAppendRedoAction(pTrans, &action) != 0) {
free(pMsg);
sdbCancelFetch(pSdb, pIter);
sdbRelease(pSdb, pMObj);
return -1;
}
sdbRelease(pSdb, pMObj);
}
{
STransAction action = {0};
action.epSet = mndGetDnodeEpset(pDnode);
SCreateMnodeInMsg *pMsg = malloc(sizeof(SCreateMnodeInMsg));
if (pMsg == NULL) return -1;
memcpy(pMsg, &createMsg, sizeof(SAlterMnodeInMsg));
pMsg->dnodeId = htonl(pObj->id);
action.epSet = mndGetDnodeEpset(pDnode);
action.pCont = pMsg;
action.contLen = sizeof(SCreateMnodeInMsg);
action.msgType = TSDB_MSG_TYPE_CREATE_MNODE_IN;
if (mndTransAppendRedoAction(pTrans, &action) != 0) {
free(pMsg);
return -1;
}
}
return 0;
}
static int32_t mndCreateMnode(SMnode *pMnode, SMnodeMsg *pMsg, SDnodeObj *pDnode, SCreateMnodeMsg *pCreate) {
SMnodeObj mnodeObj = {0};
mnodeObj.id = sdbGetMaxId(pMnode->pSdb, SDB_MNODE);
mnodeObj.createdTime = taosGetTimestampMs();
mnodeObj.updateTime = mnodeObj.createdTime;
int32_t code = -1;
STrans *pTrans = mndTransCreate(pMnode, TRN_POLICY_RETRY, pMsg->rpcMsg.handle);
if (pTrans == NULL) {
mError("mnode:%d, failed to create since %s", pCreate->dnodeId, terrstr());
goto CREATE_MNODE_OVER;
}
mDebug("trans:%d, used to create mnode:%d", pTrans->id, pCreate->dnodeId);
if (mndSetCreateMnodeRedoLogs(pMnode, pTrans, &mnodeObj) != 0) {
mError("trans:%d, failed to set redo log since %s", pTrans->id, terrstr());
goto CREATE_MNODE_OVER;
}
if (mndSetCreateMnodeCommitLogs(pMnode, pTrans, &mnodeObj) != 0) {
mError("trans:%d, failed to set commit log since %s", pTrans->id, terrstr());
goto CREATE_MNODE_OVER;
}
if (mndSetCreateMnodeRedoActions(pMnode, pTrans, pDnode, &mnodeObj) != 0) {
mError("trans:%d, failed to set redo actions since %s", pTrans->id, terrstr());
goto CREATE_MNODE_OVER;
}
if (mndTransPrepare(pMnode, pTrans) != 0) {
mError("trans:%d, failed to prepare since %s", pTrans->id, terrstr());
goto CREATE_MNODE_OVER;
}
code = 0;
CREATE_MNODE_OVER:
mndTransDrop(pTrans);
return code;
}
static int32_t mndProcessCreateMnodeReq(SMnodeMsg *pMsg) {
SMnode *pMnode = pMsg->pMnode;
SCreateMnodeMsg *pCreate = pMsg->rpcMsg.pCont;
@ -263,22 +376,23 @@ static int32_t mndProcessCreateMnodeMsg(SMnodeMsg *pMsg) {
mDebug("mnode:%d, start to create", pCreate->dnodeId);
SDnodeObj *pDnode = mndAcquireDnode(pMnode, pCreate->dnodeId);
if (pDnode == NULL) {
mError("mnode:%d, dnode not exist", pDnode->id);
terrno = TSDB_CODE_MND_DNODE_NOT_EXIST;
return -1;
}
mndReleaseDnode(pMnode, pDnode);
SMnodeObj *pMnodeObj = mndAcquireMnode(pMnode, pCreate->dnodeId);
if (pMnodeObj != NULL) {
mError("mnode:%d, mnode already exist", pMnodeObj->id);
SMnodeObj *pObj = mndAcquireMnode(pMnode, pCreate->dnodeId);
if (pObj != NULL) {
mndReleaseMnode(pMnode, pObj);
mError("mnode:%d, mnode already exist", pObj->id);
terrno = TSDB_CODE_MND_MNODE_ALREADY_EXIST;
return -1;
}
int32_t code = mndCreateMnode(pMnode, pMsg, pCreate);
SDnodeObj *pDnode = mndAcquireDnode(pMnode, pCreate->dnodeId);
if (pDnode == NULL) {
mError("mnode:%d, dnode not exist", pCreate->dnodeId);
terrno = TSDB_CODE_MND_DNODE_NOT_EXIST;
return -1;
}
int32_t code = mndCreateMnode(pMnode, pMsg, pDnode, pCreate);
mndReleaseDnode(pMnode, pDnode);
if (code != 0) {
mError("mnode:%d, failed to create since %s", pCreate->dnodeId, terrstr());
@ -288,49 +402,140 @@ static int32_t mndProcessCreateMnodeMsg(SMnodeMsg *pMsg) {
return TSDB_CODE_MND_ACTION_IN_PROGRESS;
}
static int32_t mndDropMnode(SMnode *pMnode, SMnodeMsg *pMsg, SMnodeObj *pMnodeObj) {
STrans *pTrans = mndTransCreate(pMnode, TRN_POLICY_ROLLBACK, pMsg->rpcMsg.handle);
if (pTrans == NULL) {
mError("mnode:%d, failed to drop since %s", pMnodeObj->id, terrstr());
return -1;
}
mDebug("trans:%d, used to drop user:%d", pTrans->id, pMnodeObj->id);
SSdbRaw *pRedoRaw = mndMnodeActionEncode(pMnodeObj);
if (pRedoRaw == NULL || mndTransAppendRedolog(pTrans, pRedoRaw) != 0) {
mError("trans:%d, failed to append redo log since %s", pTrans->id, terrstr());
mndTransDrop(pTrans);
return -1;
}
sdbSetRawStatus(pRedoRaw, SDB_STATUS_DROPPING);
SSdbRaw *pUndoRaw = mndMnodeActionEncode(pMnodeObj);
if (pUndoRaw == NULL || mndTransAppendUndolog(pTrans, pUndoRaw) != 0) {
mError("trans:%d, failed to append undo log since %s", pTrans->id, terrstr());
mndTransDrop(pTrans);
return -1;
}
sdbSetRawStatus(pUndoRaw, SDB_STATUS_READY);
SSdbRaw *pCommitRaw = mndMnodeActionEncode(pMnodeObj);
if (pCommitRaw == NULL || mndTransAppendCommitlog(pTrans, pCommitRaw) != 0) {
mError("trans:%d, failed to append commit log since %s", pTrans->id, terrstr());
mndTransDrop(pTrans);
return -1;
}
sdbSetRawStatus(pCommitRaw, SDB_STATUS_DROPPED);
if (mndTransPrepare(pMnode, pTrans) != 0) {
mError("trans:%d, failed to prepare since %s", pTrans->id, terrstr());
mndTransDrop(pTrans);
return -1;
}
mndTransDrop(pTrans);
static int32_t mndSetDropMnodeRedoLogs(SMnode *pMnode, STrans *pTrans, SMnodeObj *pObj) {
SSdbRaw *pRedoRaw = mndMnodeActionEncode(pObj);
if (pRedoRaw == NULL) return -1;
if (mndTransAppendRedolog(pTrans, pRedoRaw) != 0) return -1;
if (sdbSetRawStatus(pRedoRaw, SDB_STATUS_DROPPING) != 0) return -1;
return 0;
}
static int32_t mndProcessDropMnodeMsg(SMnodeMsg *pMsg) {
static int32_t mndSetDropMnodeCommitLogs(SMnode *pMnode, STrans *pTrans, SMnodeObj *pObj) {
SSdbRaw *pCommitRaw = mndMnodeActionEncode(pObj);
if (pCommitRaw == NULL) return -1;
if (mndTransAppendCommitlog(pTrans, pCommitRaw) != 0) return -1;
if (sdbSetRawStatus(pCommitRaw, SDB_STATUS_DROPPED) != 0) return -1;
return 0;
}
static int32_t mndSetDropMnodeRedoActions(SMnode *pMnode, STrans *pTrans, SDnodeObj *pDnode, SMnodeObj *pObj) {
SSdb *pSdb = pMnode->pSdb;
void *pIter = NULL;
int32_t numOfReplicas = 0;
SAlterMnodeInMsg alterMsg = {0};
while (1) {
SMnodeObj *pMObj = NULL;
pIter = sdbFetch(pSdb, SDB_MNODE, pIter, (void **)&pMObj);
if (pIter == NULL) break;
if (pMObj->id != pObj->id) {
SReplica *pReplica = &alterMsg.replicas[numOfReplicas];
pReplica->id = htonl(pMObj->id);
pReplica->port = htons(pMObj->pDnode->port);
memcpy(pReplica->fqdn, pMObj->pDnode->fqdn, TSDB_FQDN_LEN);
numOfReplicas++;
}
sdbRelease(pSdb, pMObj);
}
alterMsg.replica = numOfReplicas;
while (1) {
SMnodeObj *pMObj = NULL;
pIter = sdbFetch(pSdb, SDB_MNODE, pIter, (void **)&pMObj);
if (pIter == NULL) break;
if (pMObj->id != pObj->id) {
STransAction action = {0};
SAlterMnodeInMsg *pMsg = malloc(sizeof(SAlterMnodeInMsg));
if (pMsg == NULL) {
sdbCancelFetch(pSdb, pIter);
sdbRelease(pSdb, pMObj);
return -1;
}
memcpy(pMsg, &alterMsg, sizeof(SAlterMnodeInMsg));
pMsg->dnodeId = htonl(pMObj->id);
action.epSet = mndGetDnodeEpset(pMObj->pDnode);
action.pCont = pMsg;
action.contLen = sizeof(SAlterMnodeInMsg);
action.msgType = TSDB_MSG_TYPE_ALTER_MNODE_IN;
if (mndTransAppendRedoAction(pTrans, &action) != 0) {
free(pMsg);
sdbCancelFetch(pSdb, pIter);
sdbRelease(pSdb, pMObj);
return -1;
}
}
sdbRelease(pSdb, pMObj);
}
{
STransAction action = {0};
action.epSet = mndGetDnodeEpset(pDnode);
SDropMnodeInMsg *pMsg = malloc(sizeof(SDropMnodeInMsg));
if (pMsg == NULL) {
terrno = TSDB_CODE_OUT_OF_MEMORY;
return -1;
}
pMsg->dnodeId = htonl(pObj->id);
action.epSet = mndGetDnodeEpset(pDnode);
action.pCont = pMsg;
action.contLen = sizeof(SDropMnodeInMsg);
action.msgType = TSDB_MSG_TYPE_DROP_MNODE_IN;
if (mndTransAppendRedoAction(pTrans, &action) != 0) {
free(pMsg);
return -1;
}
}
return 0;
}
static int32_t mndDropMnode(SMnode *pMnode, SMnodeMsg *pMsg, SMnodeObj *pObj) {
int32_t code = -1;
STrans *pTrans = mndTransCreate(pMnode, TRN_POLICY_RETRY, pMsg->rpcMsg.handle);
if (pTrans == NULL) {
mError("mnode:%d, failed to drop since %s", pObj->id, terrstr());
goto DROP_MNODE_OVER;
}
mDebug("trans:%d, used to drop mnode:%d", pTrans->id, pObj->id);
if (mndSetDropMnodeRedoLogs(pMnode, pTrans, pObj) != 0) {
mError("trans:%d, failed to set redo log since %s", pTrans->id, terrstr());
goto DROP_MNODE_OVER;
}
if (mndSetDropMnodeCommitLogs(pMnode, pTrans, pObj) != 0) {
mError("trans:%d, failed to set commit log since %s", pTrans->id, terrstr());
goto DROP_MNODE_OVER;
}
if (mndSetDropMnodeRedoActions(pMnode, pTrans, pObj->pDnode, pObj) != 0) {
mError("trans:%d, failed to set redo actions since %s", pTrans->id, terrstr());
goto DROP_MNODE_OVER;
}
if (mndTransPrepare(pMnode, pTrans) != 0) {
mError("trans:%d, failed to prepare since %s", pTrans->id, terrstr());
goto DROP_MNODE_OVER;
}
code = 0;
DROP_MNODE_OVER:
mndTransDrop(pTrans);
return code;
}
static int32_t mndProcessDropMnodeReq(SMnodeMsg *pMsg) {
SMnode *pMnode = pMsg->pMnode;
SDropMnodeMsg *pDrop = pMsg->rpcMsg.pCont;
pDrop->dnodeId = htonl(pDrop->dnodeId);
@ -343,14 +548,14 @@ static int32_t mndProcessDropMnodeMsg(SMnodeMsg *pMsg) {
return -1;
}
SMnodeObj *pMnodeObj = mndAcquireMnode(pMnode, pDrop->dnodeId);
if (pMnodeObj == NULL) {
SMnodeObj *pObj = mndAcquireMnode(pMnode, pDrop->dnodeId);
if (pObj == NULL) {
mError("mnode:%d, not exist", pDrop->dnodeId);
terrno = TSDB_CODE_MND_DNODE_NOT_EXIST;
return -1;
}
int32_t code = mndDropMnode(pMnode, pMsg, pMnodeObj);
int32_t code = mndDropMnode(pMnode, pMsg, pObj);
if (code != 0) {
mError("mnode:%d, failed to drop since %s", pMnode->dnodeId, terrstr());
@ -361,9 +566,20 @@ static int32_t mndProcessDropMnodeMsg(SMnodeMsg *pMsg) {
return TSDB_CODE_MND_ACTION_IN_PROGRESS;
}
static int32_t mndProcessCreateMnodeRsp(SMnodeMsg *pMsg) { return 0; }
static int32_t mndProcessCreateMnodeRsp(SMnodeMsg *pMsg) {
mndTransHandleActionRsp(pMsg);
return 0;
}
static int32_t mndProcessDropMnodeRsp(SMnodeMsg *pMsg) { return 0; }
static int32_t mndProcessAlterMnodeRsp(SMnodeMsg *pMsg) {
mndTransHandleActionRsp(pMsg);
return 0;
}
static int32_t mndProcessDropMnodeRsp(SMnodeMsg *pMsg) {
mndTransHandleActionRsp(pMsg);
return 0;
}
static int32_t mndGetMnodeMeta(SMnodeMsg *pMsg, SShowObj *pShow, STableMetaMsg *pMeta) {
SMnode *pMnode = pMsg->pMnode;
@ -414,6 +630,7 @@ static int32_t mndGetMnodeMeta(SMnodeMsg *pMsg, SShowObj *pShow, STableMetaMsg *
pShow->rowSize = pShow->offset[cols - 1] + pShow->bytes[cols - 1];
strcpy(pMeta->tbFname, mndShowStr(pShow->type));
mndUpdateMnodeRole(pMnode);
return 0;
}
@ -422,46 +639,39 @@ static int32_t mndRetrieveMnodes(SMnodeMsg *pMsg, SShowObj *pShow, char *data, i
SSdb *pSdb = pMnode->pSdb;
int32_t numOfRows = 0;
int32_t cols = 0;
SMnodeObj *pMnodeObj = NULL;
SMnodeObj *pObj = NULL;
char *pWrite;
while (numOfRows < rows) {
pShow->pIter = sdbFetch(pSdb, SDB_MNODE, pShow->pIter, (void **)&pMnodeObj);
pShow->pIter = sdbFetch(pSdb, SDB_MNODE, pShow->pIter, (void **)&pObj);
if (pShow->pIter == NULL) break;
cols = 0;
pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows;
*(int16_t *)pWrite = pMnodeObj->id;
*(int16_t *)pWrite = pObj->id;
cols++;
pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows;
SDnodeObj *pDnode = mndAcquireDnode(pMnode, pMnodeObj->id);
if (pDnode != NULL) {
STR_WITH_MAXSIZE_TO_VARSTR(pWrite, pDnode->ep, pShow->bytes[cols]);
} else {
STR_WITH_MAXSIZE_TO_VARSTR(pWrite, "invalid ep", pShow->bytes[cols]);
}
mndReleaseDnode(pMnode, pDnode);
STR_WITH_MAXSIZE_TO_VARSTR(pWrite, pObj->pDnode->ep, pShow->bytes[cols]);
cols++;
pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows;
char *roles = mndGetRoleStr(pMnodeObj->role);
char *roles = mndGetRoleStr(pObj->role);
STR_WITH_MAXSIZE_TO_VARSTR(pWrite, roles, pShow->bytes[cols]);
cols++;
pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows;
*(int64_t *)pWrite = pMnodeObj->roleTime;
*(int64_t *)pWrite = pObj->roleTime;
cols++;
pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows;
*(int64_t *)pWrite = pMnodeObj->createdTime;
*(int64_t *)pWrite = pObj->createdTime;
cols++;
numOfRows++;
sdbRelease(pSdb, pMnodeObj);
sdbRelease(pSdb, pObj);
}
mndVacuumResult(data, pShow->numOfColumns, numOfRows, rows, pShow);

View File

@ -33,4 +33,7 @@ int32_t mndSyncPropose(SMnode *pMnode, SSdbRaw *pRaw) {
return code;
}
bool mndIsMaster(SMnode *pMnode) { return true; }
bool mndIsMaster(SMnode *pMnode) {
// pMnode->role = TAOS_SYNC_STATE_LEADER;
return true;
}

View File

@ -622,10 +622,10 @@ void mndTransHandleActionRsp(SMnodeMsg *pMsg) {
STransAction *pAction = taosArrayGet(pArray, action);
if (pAction != NULL) {
pAction->msgReceived = 1;
pAction->errCode = pMsg->code;
pAction->errCode = pMsg->rpcMsg.code;
}
mDebug("trans:%d, action:%d response is received, code:0x%x", transId, action, pMsg->code);
mDebug("trans:%d, action:%d response is received, code:0x%x", transId, action, pMsg->rpcMsg.code);
mndTransExecute(pMnode, pTrans);
HANDLE_ACTION_RSP_OVER:
@ -696,7 +696,7 @@ static int32_t mndTransExecuteActions(SMnode *pMnode, STrans *pTrans, SArray *pA
for (int32_t action = 0; action < numOfActions; ++action) {
STransAction *pAction = taosArrayGet(pArray, action);
if (pAction == NULL) continue;
if (pAction->msgSent) continue;
if (pAction->msgReceived && pAction->errCode == 0) continue;
int64_t signature = pTrans->id;
signature = (signature << 32);
@ -736,6 +736,7 @@ static int32_t mndTransExecuteActions(SMnode *pMnode, STrans *pTrans, SArray *pA
terrno = errorCode;
return errorCode;
} else {
mDebug("trans:%d, %d of %d actions executed, code:0x%x", pTrans->id, numOfReceivedMsgs, numOfActions, errorCode);
return TSDB_CODE_MND_ACTION_IN_PROGRESS;
}
}

View File

@ -178,8 +178,10 @@ static int32_t mndExecSteps(SMnode *pMnode) {
// (*pMnode->reportProgress)(pStep->name, "start initialize");
if ((*pStep->initFp)(pMnode) != 0) {
int32_t code = terrno;
mError("step:%s exec failed since %s, start to cleanup", pStep->name, terrstr());
mndCleanupSteps(pMnode, pos);
terrno = code;
return -1;
} else {
mDebug("step:%s is initialized", pStep->name);

View File

@ -16,6 +16,8 @@
#define _DEFAULT_SOURCE
#include "sdbInt.h"
static int32_t sdbCreateDir(SSdb *pSdb);
SSdb *sdbInit(SSdbOpt *pOption) {
mDebug("start to init sdb in %s", pOption->path);
@ -40,6 +42,11 @@ SSdb *sdbInit(SSdbOpt *pOption) {
return NULL;
}
if (sdbCreateDir(pSdb) != 0) {
sdbCleanup(pSdb);
return NULL;
}
for (ESdbType i = 0; i < SDB_MAX; ++i) {
taosInitRWLatch(&pSdb->locks[i]);
}
@ -53,8 +60,8 @@ void sdbCleanup(SSdb *pSdb) {
mDebug("start to cleanup sdb");
// if (pSdb->curVer != pSdb->lastCommitVer) {
mDebug("write sdb file for curVer:% " PRId64 " and lastVer:%" PRId64, pSdb->curVer, pSdb->lastCommitVer);
sdbWriteFile(pSdb);
mDebug("write sdb file for curVer:% " PRId64 " and lastVer:%" PRId64, pSdb->curVer, pSdb->lastCommitVer);
sdbWriteFile(pSdb);
// }
if (pSdb->currDir != NULL) {
@ -133,4 +140,26 @@ int32_t sdbSetTable(SSdb *pSdb, SSdbTable table) {
mDebug("sdb table:%d is initialized", sdbType);
return 0;
}
}
static int32_t sdbCreateDir(SSdb *pSdb) {
if (taosMkDir(pSdb->currDir) != 0) {
terrno = TAOS_SYSTEM_ERROR(errno);
mError("failed to create dir:%s since %s", pSdb->currDir, terrstr());
return -1;
}
if (taosMkDir(pSdb->syncDir) != 0) {
terrno = TAOS_SYSTEM_ERROR(errno);
mError("failed to create dir:%s since %s", pSdb->syncDir, terrstr());
return -1;
}
if (taosMkDir(pSdb->tmpDir) != 0) {
terrno = TAOS_SYSTEM_ERROR(errno);
mError("failed to create dir:%s since %s", pSdb->tmpDir, terrstr());
return -1;
}
return 0;
}

View File

@ -17,28 +17,6 @@
#include "sdbInt.h"
#include "tchecksum.h"
static int32_t sdbCreateDir(SSdb *pSdb) {
if (taosMkDir(pSdb->currDir) != 0) {
terrno = TAOS_SYSTEM_ERROR(errno);
mError("failed to create dir:%s since %s", pSdb->currDir, terrstr());
return -1;
}
if (taosMkDir(pSdb->syncDir) != 0) {
terrno = TAOS_SYSTEM_ERROR(errno);
mError("failed to create dir:%s since %s", pSdb->syncDir, terrstr());
return -1;
}
if (taosMkDir(pSdb->tmpDir) != 0) {
terrno = TAOS_SYSTEM_ERROR(errno);
mError("failed to create dir:%s since %s", pSdb->tmpDir, terrstr());
return -1;
}
return 0;
}
static int32_t sdbRunDeployFp(SSdb *pSdb) {
mDebug("start to deploy sdb");
@ -77,7 +55,7 @@ int32_t sdbReadFile(SSdb *pSdb) {
free(pRaw);
terrno = TAOS_SYSTEM_ERROR(errno);
mError("failed to read file:%s since %s", file, terrstr());
return -1;
return 0;
}
while (1) {
@ -225,10 +203,6 @@ int32_t sdbWriteFile(SSdb *pSdb) {
}
int32_t sdbDeploy(SSdb *pSdb) {
if (sdbCreateDir(pSdb) != 0) {
return -1;
}
if (sdbRunDeployFp(pSdb) != 0) {
return -1;
}

View File

@ -15,9 +15,10 @@ target_link_libraries(
PUBLIC wal
PUBLIC sync
PUBLIC cjson
PUBLIC qworker
)
# test
if(${BUILD_TEST})
add_subdirectory(test)
endif(${BUILD_TEST})
endif(${BUILD_TEST})

View File

@ -34,6 +34,7 @@
#include "vnodeRequest.h"
#include "vnodeStateMgr.h"
#include "vnodeSync.h"
#include "vnodeQuery.h"
#ifdef __cplusplus
extern "C" {
@ -72,6 +73,7 @@ struct SVnode {
SVnodeSync* pSync;
SVnodeFS* pFs;
tsem_t canCommit;
void* pQuery;
};
int vnodeScheduleTask(SVnodeTask* task);

View File

@ -0,0 +1,31 @@
/*
* Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
*
* This program is free software: you can use, redistribute, and/or modify
* it under the terms of the GNU Affero General Public License, version 3
* or later ("AGPL"), as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef _TD_VNODE_READ_H_
#define _TD_VNODE_READ_H_
#ifdef __cplusplus
extern "C" {
#endif
#include "vnodeInt.h"
#include "qworker.h"
int vnodeQueryOpen(SVnode *pVnode);
#ifdef __cplusplus
}
#endif
#endif /*_TD_VNODE_READ_H_*/

View File

@ -24,16 +24,6 @@ int32_t vnodeSync(SVnode *pVnode) { return 0; }
int32_t vnodeGetLoad(SVnode *pVnode, SVnodeLoad *pLoad) { return 0; }
int vnodeProcessQueryReq(SVnode *pVnode, SRpcMsg *pMsg, SRpcMsg **pRsp) {
vInfo("query message is processed");
return 0;
}
int vnodeProcessFetchReq(SVnode *pVnode, SRpcMsg *pMsg, SRpcMsg **pRsp) {
vInfo("fetch message is processed");
return 0;
}
int vnodeProcessSyncReq(SVnode *pVnode, SRpcMsg *pMsg, SRpcMsg **pRsp) {
vInfo("sync message is processed");
return 0;

View File

@ -127,6 +127,11 @@ static int vnodeOpenImpl(SVnode *pVnode) {
return -1;
}
// Open Query
if (vnodeQueryOpen(pVnode)) {
return -1;
}
// TODO
return 0;
}

View File

@ -0,0 +1,35 @@
/*
* 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 "vnodeDef.h"
#include "vnodeQuery.h"
int vnodeQueryOpen(SVnode *pVnode) {
return qWorkerInit(NULL, &pVnode->pQuery);
}
int vnodeProcessQueryReq(SVnode *pVnode, SRpcMsg *pMsg, SRpcMsg **pRsp) {
vInfo("query message is processed");
qWorkerProcessQueryMsg(pVnode, pVnode->pQuery, pMsg);
return 0;
}
int vnodeProcessFetchReq(SVnode *pVnode, SRpcMsg *pMsg, SRpcMsg **pRsp) {
vInfo("fetch message is processed");
qWorkerProcessFetchMsg(pVnode, pVnode->pQuery, pMsg);
return 0;
}

View File

@ -13,8 +13,8 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef _TD_META_QUERY_H_
#define _TD_META_QUERY_H_
#ifndef _VNODE_QUERY_H_
#define _VNODE_QUERY_H_
#ifdef __cplusplus
extern "C" {
@ -24,4 +24,4 @@ extern "C" {
}
#endif
#endif /*_TD_META_QUERY_H_*/
#endif /*_VNODE_QUERY_H_*/

View File

@ -12,6 +12,7 @@ target_link_libraries(
PUBLIC os
PUBLIC util
PUBLIC common
PUBLIC transport
)
if(${BUILD_TEST})

View File

@ -18,6 +18,7 @@
#include "tq.h"
#include "tlog.h"
#include "trpc.h"
#ifdef __cplusplus
extern "C" {
#endif

View File

@ -35,7 +35,22 @@ void* tqSerializeItem(STqMsgItem* pItem, void* ptr);
const void* tqDeserializeTopic(const void* pBytes, STqTopic* pTopic);
const void* tqDeserializeItem(const void* pBytes, STqMsgItem* pItem);
STQ* tqOpen(const char* path, STqCfg* tqConfig, STqLogReader* tqLogReader, SMemAllocatorFactory* allocFac) {
int tqInit() {
int8_t old = atomic_val_compare_exchange_8(&tqMgmt.inited, 0, 1);
if(old == 1) return 0;
tqMgmt.timer = taosTmrInit(0, 0, 0, "TQ");
return 0;
}
void tqCleanUp() {
int8_t old = atomic_val_compare_exchange_8(&tqMgmt.inited, 1, 0);
if(old == 0) return;
taosTmrStop(tqMgmt.timer);
taosTmrCleanUp(tqMgmt.timer);
}
STQ* tqOpen(const char* path, STqCfg* tqConfig, STqLogHandle* tqLogHandle, SMemAllocatorFactory* allocFac) {
STQ* pTq = malloc(sizeof(STQ));
if (pTq == NULL) {
terrno = TSDB_CODE_TQ_OUT_OF_MEMORY;
@ -43,9 +58,9 @@ STQ* tqOpen(const char* path, STqCfg* tqConfig, STqLogReader* tqLogReader, SMemA
}
pTq->path = strdup(path);
pTq->tqConfig = tqConfig;
pTq->tqLogReader = tqLogReader;
pTq->tqLogHandle = tqLogHandle;
#if 0
pTq->tqMemRef.pAlloctorFactory = allocFac;
pTq->tqMemRef.pAllocatorFactory = allocFac;
pTq->tqMemRef.pAllocator = allocFac->create(allocFac);
if (pTq->tqMemRef.pAllocator == NULL) {
// TODO: error code of buffer pool
@ -53,16 +68,24 @@ STQ* tqOpen(const char* path, STqCfg* tqConfig, STqLogReader* tqLogReader, SMemA
#endif
pTq->tqMeta = tqStoreOpen(path, (FTqSerialize)tqSerializeGroup, (FTqDeserialize)tqDeserializeGroup, free, 0);
if (pTq->tqMeta == NULL) {
// TODO: free STQ
free(pTq);
#if 0
allocFac->destroy(allocFac, pTq->tqMemRef.pAllocator);
#endif
return NULL;
}
return pTq;
}
void tqClose(STQ* pTq) {
// TODO
}
static int tqProtoCheck(STqMsgHead* pMsg) { return pMsg->protoVer == 0; }
static int tqProtoCheck(STqMsgHead* pMsg) {
// TODO
return pMsg->protoVer == 0;
}
static int tqAckOneTopic(STqTopic* pTopic, STqOneAck* pAck, STqQueryMsg** ppQuery) {
// clean old item and move forward
@ -126,6 +149,13 @@ int tqCreateGroup(STQ* pTq, int64_t topicId, int64_t cgId, int64_t cId, STqGroup
*ppGroup = pGroup;
memset(pGroup, 0, sizeof(STqGroup));
pGroup->topicList = tdListNew(sizeof(STqTopic));
if(pGroup->topicList == NULL) {
free(pGroup);
return -1;
}
*ppGroup = pGroup;
return 0;
}
@ -154,46 +184,55 @@ int tqDropGroup(STQ* pTq, int64_t topicId, int64_t cgId, int64_t cId) {
return 0;
}
static int tqFetch(STqGroup* pGroup, void** msg) {
STqList* head = pGroup->head;
STqList* node = head;
static int tqFetch(STqGroup* pGroup, STqConsumeRsp** pRsp) {
STqList* pHead = pGroup->head;
STqList* pNode = pHead;
int totSize = 0;
int numOfMsgs = 0;
// TODO: make it a macro
int sizeLimit = 4 * 1024;
STqMsgContent* buffer = malloc(sizeLimit);
if (buffer == NULL) {
// TODO:memory insufficient
int sizeLimit = 4 * 1024;
void* ptr = realloc(*pRsp, sizeof(STqConsumeRsp) + sizeLimit);
if (ptr == NULL) {
terrno = TSDB_CODE_TQ_OUT_OF_MEMORY;
return -1;
}
*pRsp = ptr;
STqMsgContent* buffer = (*pRsp)->msgs;
// iterate the list to get msgs of all topics
// until all topic iterated or msgs over sizeLimit
while (node->next) {
node = node->next;
STqTopic* topicHandle = &node->topic;
int idx = topicHandle->nextConsumeOffset % TQ_BUFFER_SIZE;
if (topicHandle->buffer[idx].content != NULL && topicHandle->buffer[idx].offset == topicHandle->nextConsumeOffset) {
totSize += topicHandle->buffer[idx].size;
while (pNode->next) {
pNode = pNode->next;
STqTopic* pTopic = &pNode->topic;
int idx = pTopic->nextConsumeOffset % TQ_BUFFER_SIZE;
if (pTopic->buffer[idx].content != NULL && pTopic->buffer[idx].offset == pTopic->nextConsumeOffset) {
totSize += pTopic->buffer[idx].size;
if (totSize > sizeLimit) {
void* ptr = realloc(buffer, totSize);
void* ptr = realloc(*pRsp, sizeof(STqConsumeRsp) + totSize);
if (ptr == NULL) {
totSize -= topicHandle->buffer[idx].size;
// TODO:memory insufficient
totSize -= pTopic->buffer[idx].size;
terrno = TSDB_CODE_TQ_OUT_OF_MEMORY;
// return msgs already copied
break;
}
*pRsp = ptr;
break;
}
*((int64_t*)buffer) = topicHandle->topicId;
*((int64_t*)buffer) = pTopic->topicId;
buffer = POINTER_SHIFT(buffer, sizeof(int64_t));
*((int64_t*)buffer) = topicHandle->buffer[idx].size;
*((int64_t*)buffer) = pTopic->buffer[idx].size;
buffer = POINTER_SHIFT(buffer, sizeof(int64_t));
memcpy(buffer, topicHandle->buffer[idx].content, topicHandle->buffer[idx].size);
buffer = POINTER_SHIFT(buffer, topicHandle->buffer[idx].size);
memcpy(buffer, pTopic->buffer[idx].content, pTopic->buffer[idx].size);
buffer = POINTER_SHIFT(buffer, pTopic->buffer[idx].size);
numOfMsgs++;
if (totSize > sizeLimit) {
break;
}
}
}
return totSize;
(*pRsp)->bodySize = totSize;
return numOfMsgs;
}
STqGroup* tqGetGroup(STQ* pTq, int64_t clientId) { return tqHandleGet(pTq->tqMeta, clientId); }
@ -275,7 +314,22 @@ int tqSetCursor(STQ* pTq, STqSetCurReq* pMsg) {
return 0;
}
int tqConsume(STQ* pTq, STqConsumeReq* pMsg) {
// temporary
int tqProcessCMsg(STQ* pTq, STqConsumeReq* pMsg, STqRspHandle* pRsp) {
int64_t clientId = pMsg->head.clientId;
STqGroup* pGroup = tqGetGroup(pTq, clientId);
if (pGroup == NULL) {
terrno = TSDB_CODE_TQ_GROUP_NOT_SET;
return -1;
}
pGroup->rspHandle.handle = pRsp->handle;
pGroup->rspHandle.ahandle = pRsp->ahandle;
return 0;
}
int tqConsume(STQ* pTq, SRpcMsg* pReq, SRpcMsg** pRsp) {
STqConsumeReq *pMsg = pReq->pCont;
int64_t clientId = pMsg->head.clientId;
STqGroup* pGroup = tqGetGroup(pTq, clientId);
if (pGroup == NULL) {
@ -283,20 +337,107 @@ int tqConsume(STQ* pTq, STqConsumeReq* pMsg) {
return -1;
}
STqConsumeRsp* pRsp = (STqConsumeRsp*)pMsg;
int numOfMsgs = tqFetch(pGroup, (void**)&pRsp->msgs);
if (numOfMsgs < 0) {
SList* topicList = pGroup->topicList;
int totSize = 0;
int numOfMsgs = 0;
int sizeLimit = 4096;
STqConsumeRsp *pCsmRsp = (*pRsp)->pCont;
void* ptr = realloc((*pRsp)->pCont, sizeof(STqConsumeRsp) + sizeLimit);
if (ptr == NULL) {
terrno = TSDB_CODE_TQ_OUT_OF_MEMORY;
return -1;
}
if (numOfMsgs == 0) {
(*pRsp)->pCont = ptr;
SListIter iter;
tdListInitIter(topicList, &iter, TD_LIST_FORWARD);
STqMsgContent* buffer = NULL;
SArray* pArray = taosArrayInit(0, sizeof(void*));
SListNode *pn;
while((pn = tdListNext(&iter)) != NULL) {
STqTopic* pTopic = *(STqTopic**)pn->data;
int idx = pTopic->floatingCursor % TQ_BUFFER_SIZE;
STqMsgItem* pItem = &pTopic->buffer[idx];
if (pItem->content != NULL && pItem->offset == pTopic->floatingCursor) {
if(pItem->status == TQ_ITEM_READY) {
//if has data
totSize += pTopic->buffer[idx].size;
if (totSize > sizeLimit) {
void* ptr = realloc((*pRsp)->pCont, sizeof(STqConsumeRsp) + totSize);
if (ptr == NULL) {
totSize -= pTopic->buffer[idx].size;
terrno = TSDB_CODE_TQ_OUT_OF_MEMORY;
// return msgs already copied
break;
}
(*pRsp)->pCont = ptr;
break;
}
*((int64_t*)buffer) = htobe64(pTopic->topicId);
buffer = POINTER_SHIFT(buffer, sizeof(int64_t));
*((int64_t*)buffer) = htobe64(pTopic->buffer[idx].size);
buffer = POINTER_SHIFT(buffer, sizeof(int64_t));
memcpy(buffer, pTopic->buffer[idx].content, pTopic->buffer[idx].size);
buffer = POINTER_SHIFT(buffer, pTopic->buffer[idx].size);
numOfMsgs++;
if (totSize > sizeLimit) {
break;
}
} else if(pItem->status == TQ_ITEM_PROCESS) {
//if not have data but in process
} else if(pItem->status == TQ_ITEM_EMPTY){
//if not have data and not in process
int32_t old = atomic_val_compare_exchange_32(&pItem->status, TQ_ITEM_EMPTY, TQ_ITEM_PROCESS);
if(old != TQ_ITEM_EMPTY) {
continue;
}
pItem->offset = pTopic->floatingCursor;
taosArrayPush(pArray, &pItem);
} else {
ASSERT(0);
}
}
}
if (numOfMsgs > 0) {
// set code and other msg
rpcSendResponse(*pRsp);
} else {
// most recent data has been fetched
// enable timer for blocking wait
// once new data written during wait time
// launch query and response
// once new data written when waiting, launch query and rsp
}
// fetched a num of msgs, rpc response
for(int i = 0; i < pArray->size; i++) {
STqMsgItem* pItem = taosArrayGet(pArray, i);
//read from wal
void* raw = NULL;
/*int code = pTq->tqLogReader->logRead(, &raw, pItem->offset);*/
int code = pTq->tqLogHandle->logRead(pItem->pTopic->logReader, &raw, pItem->offset);
if(code < 0) {
//TODO: error
}
//get msgType
//if submitblk
pItem->executor->assign(pItem->executor->runtimeEnv, raw);
SSDataBlock* content = pItem->executor->exec(pItem->executor->runtimeEnv);
pItem->content = content;
//if other type, send just put into buffer
/*pItem->content = raw;*/
int32_t old = atomic_val_compare_exchange_32(&pItem->status, TQ_ITEM_PROCESS, TQ_ITEM_READY);
ASSERT(old == TQ_ITEM_PROCESS);
}
taosArrayDestroy(pArray);
return 0;
}
@ -378,10 +519,10 @@ void* tqSerializeTopic(STqTopic* pTopic, void* ptr) {
ptr = POINTER_SHIFT(ptr, sizeof(int64_t));
*(int64_t*)ptr = pTopic->topicId;
ptr = POINTER_SHIFT(ptr, sizeof(int64_t));
*(int32_t*)ptr = pTopic->head;
ptr = POINTER_SHIFT(ptr, sizeof(int32_t));
*(int32_t*)ptr = pTopic->tail;
ptr = POINTER_SHIFT(ptr, sizeof(int32_t));
/**(int32_t*)ptr = pTopic->head;*/
/*ptr = POINTER_SHIFT(ptr, sizeof(int32_t));*/
/**(int32_t*)ptr = pTopic->tail;*/
/*ptr = POINTER_SHIFT(ptr, sizeof(int32_t));*/
for (int i = 0; i < TQ_BUFFER_SIZE; i++) {
ptr = tqSerializeItem(&pTopic->buffer[i], ptr);
}
@ -435,10 +576,10 @@ const void* tqDeserializeTopic(const void* pBytes, STqTopic* topic) {
ptr = POINTER_SHIFT(ptr, sizeof(int64_t));
topic->topicId = *(int64_t*)ptr;
ptr = POINTER_SHIFT(ptr, sizeof(int64_t));
topic->head = *(int32_t*)ptr;
ptr = POINTER_SHIFT(ptr, sizeof(int32_t));
topic->tail = *(int32_t*)ptr;
ptr = POINTER_SHIFT(ptr, sizeof(int32_t));
/*topic->head = *(int32_t*)ptr;*/
/*ptr = POINTER_SHIFT(ptr, sizeof(int32_t));*/
/*topic->tail = *(int32_t*)ptr;*/
/*ptr = POINTER_SHIFT(ptr, sizeof(int32_t));*/
for (int i = 0; i < TQ_BUFFER_SIZE; i++) {
ptr = tqDeserializeItem(ptr, &topic->buffer[i]);
}

View File

@ -29,6 +29,8 @@
#include "catalog.h"
#include "tep.h"
#include "trpc.h"
#include "stub.h"
#include "addr_any.h"
typedef struct SAppInstInfo {
int64_t numOfConns;
@ -86,6 +88,27 @@ void sendCreateDbMsg(void *shandle, SEpSet *pEpSet) {
ASSERT_EQ(rpcRsp.code, 0);
}
void __rpcSendRecv(void *shandle, SEpSet *pEpSet, SRpcMsg *pMsg, SRpcMsg *pRsp) {
SUseDbRsp *rspMsg = NULL; //todo
return;
}
void initTestEnv() {
static Stub stub;
stub.set(rpcSendRecv, __rpcSendRecv);
{
AddrAny any("libtransport.so");
std::map<std::string,void*> result;
any.get_global_func_addr_dynsym("^rpcSendRecv$", result);
for (const auto& f : result) {
stub.set(f.second, __rpcSendRecv);
}
}
}
}
TEST(testCase, normalCase) {

View File

@ -42,7 +42,12 @@ typedef struct TFileHeader {
#define TFILE_HEADER_SIZE (sizeof(TFileHeader))
#define TFILE_HEADER_NO_FST (TFILE_HEADER_SIZE - sizeof(int32_t))
//#define TFILE_HADER_PRE_SIZE (sizeof(uint64_t) + sizeof(int32_t) + sizeof(int32_t))
typedef struct TFileValue {
char* colVal; // null terminated
SArray* tableId;
int32_t offset;
} TFileValue;
typedef struct TFileCacheKey {
uint64_t suid;

View File

@ -41,7 +41,7 @@ static pthread_once_t isInit = PTHREAD_ONCE_INIT;
static void indexInit();
static int indexTermSearch(SIndex* sIdx, SIndexTermQuery* term, SArray** result);
static int indexMergeCacheIntoTindex(SIndex* sIdx);
static int indexFlushCacheToTindex(SIndex* sIdx);
static void indexInterResultsDestroy(SArray* results);
static int indexMergeFinalResults(SArray* interResults, EIndexOperatorType oType, SArray* finalResult);
@ -49,9 +49,7 @@ static int indexMergeFinalResults(SArray* interResults, EIndexOperatorType oTyp
int indexOpen(SIndexOpts* opts, const char* path, SIndex** index) {
pthread_once(&isInit, indexInit);
SIndex* sIdx = calloc(1, sizeof(SIndex));
if (sIdx == NULL) {
return -1;
}
if (sIdx == NULL) { return -1; }
#ifdef USE_LUCENE
index_t* index = index_open(path);
@ -131,9 +129,7 @@ int indexPut(SIndex* index, SIndexMultiTerm* fVals, uint64_t uid) {
int32_t colId = fi->colId;
int32_t version = index->cVersion;
int ret = indexCachePut(index->cache, p, colId, version, uid);
if (ret != 0) {
return ret;
}
if (ret != 0) { return ret; }
}
#endif
@ -221,9 +217,7 @@ void indexOptsDestroy(SIndexOpts* opts){
SIndexMultiTermQuery* indexMultiTermQueryCreate(EIndexOperatorType opera) {
SIndexMultiTermQuery* p = (SIndexMultiTermQuery*)malloc(sizeof(SIndexMultiTermQuery));
if (p == NULL) {
return NULL;
}
if (p == NULL) { return NULL; }
p->opera = opera;
p->query = taosArrayInit(4, sizeof(SIndexTermQuery));
return p;
@ -250,9 +244,7 @@ SIndexTerm* indexTermCreate(int64_t suid,
const char* colVal,
int32_t nColVal) {
SIndexTerm* t = (SIndexTerm*)calloc(1, (sizeof(SIndexTerm)));
if (t == NULL) {
return NULL;
}
if (t == NULL) { return NULL; }
t->suid = suid;
t->operType = oper;
@ -332,9 +324,7 @@ static int indexTermSearch(SIndex* sIdx, SIndexTermQuery* query, SArray** result
return 0;
}
static void indexInterResultsDestroy(SArray* results) {
if (results == NULL) {
return;
}
if (results == NULL) { return; }
size_t sz = taosArrayGetSize(results);
for (size_t i = 0; i < sz; i++) {
@ -363,10 +353,10 @@ static int indexMergeFinalResults(SArray* interResults, EIndexOperatorType oType
}
return 0;
}
static int indexMergeCacheIntoTindex(SIndex* sIdx) {
if (sIdx == NULL) {
return -1;
}
static int indexFlushCacheToTindex(SIndex* sIdx) {
if (sIdx == NULL) { return -1; }
indexWarn("suid %" PRIu64 " merge cache into tindex", sIdx->suid);
return 0;
}

View File

@ -151,8 +151,7 @@ int indexCacheSearch(void* cache, SIndexTermQuery* query, int16_t colId, int32_t
EIndexQueryType qtype = query->qType;
int32_t keyLen = CACHE_KEY_LEN(term);
char* buf = calloc(1, keyLen);
char* buf = calloc(1, keyLen);
if (qtype == QUERY_TERM) {
//
} else if (qtype == QUERY_PREFIX) {

View File

@ -69,9 +69,9 @@ WriterCtx* writerCtxCreate(WriterType type, const char* path, bool readOnly, int
// ugly code, refactor later
ctx->file.readOnly = readOnly;
if (readOnly == false) {
ctx->file.fd = tfOpenCreateWriteAppend(tmpFile);
ctx->file.fd = tfOpenCreateWriteAppend(path);
} else {
ctx->file.fd = tfOpenReadWrite(tmpFile);
ctx->file.fd = tfOpenReadWrite(path);
}
if (ctx->file.fd < 0) {
indexError("open file error %d", errno);
@ -93,6 +93,7 @@ WriterCtx* writerCtxCreate(WriterType type, const char* path, bool readOnly, int
END:
if (ctx->type == TMemory) { free(ctx->mem.buf); }
free(ctx);
return NULL;
}
void writerCtxDestroy(WriterCtx* ctx) {
if (ctx->type == TMemory) {

View File

@ -25,12 +25,7 @@
#define TF_TABLE_TATOAL_SIZE(sz) (sizeof(sz) + sz * sizeof(uint64_t))
typedef struct TFileValue {
char* colVal; // null terminated
SArray* tableId;
int32_t offset;
} TFileValue;
static int tfileStrCompare(const void* a, const void* b);
static int tfileValueCompare(const void* a, const void* b, const void* param);
static void tfileSerialTableIdsToBuf(char* buf, SArray* tableIds);
@ -38,17 +33,18 @@ static int tfileWriteHeader(TFileWriter* writer);
static int tfileWriteFstOffset(TFileWriter* tw, int32_t offset);
static int tfileWriteData(TFileWriter* write, TFileValue* tval);
static int tfileReadLoadHeader(TFileReader* reader);
static int tfileReadLoadFst(TFileReader* reader);
static int tfileReadLoadTableIds(TFileReader* reader, int32_t offset, SArray* result);
static void tfileReadRef(TFileReader* reader);
static void tfileReadUnRef(TFileReader* reader);
static int tfileReaderLoadHeader(TFileReader* reader);
static int tfileReaderLoadFst(TFileReader* reader);
static int tfileReaderLoadTableIds(TFileReader* reader, int32_t offset, SArray* result);
static void tfileReaderRef(TFileReader* reader);
static void tfileReaderUnRef(TFileReader* reader);
static int tfileGetFileList(const char* path, SArray* result);
static int tfileRmExpireFile(SArray* result);
static void tfileDestroyFileName(void* elem);
static int tfileCompare(const void* a, const void* b);
static int tfileParseFileName(const char* filename, uint64_t* suid, int* colId, int* version);
static void tfileGenFileName(char* filename, uint64_t suid, int colId, int version);
static void tfileSerialCacheKey(TFileCacheKey* key, char* buf);
TFileCache* tfileCacheCreate(const char* path) {
@ -74,23 +70,12 @@ TFileCache* tfileCacheCreate(const char* path) {
WriterCtx* wc = writerCtxCreate(TFile, file, true, 1024 * 64);
if (wc == NULL) {
indexError("failed to open index: %s", file);
indexError("failed to open index:%s", file);
goto End;
}
TFileReader* reader = tfileReaderCreate(wc);
if (0 != tfileReadLoadHeader(reader)) {
tfileReaderDestroy(reader);
indexError("failed to load index header, index file: %s", file);
goto End;
}
if (0 != tfileReadLoadFst(reader)) {
tfileReaderDestroy(reader);
indexError("failed to load index fst, index file: %s", file);
goto End;
}
tfileReadRef(reader);
tfileReaderRef(reader);
// loader fst and validate it
TFileHeader* header = &reader->header;
TFileCacheKey key = {.suid = header->suid, .colName = header->colName, .nColName = strlen(header->colName), .colType = header->colType};
@ -115,7 +100,7 @@ void tfileCacheDestroy(TFileCache* tcache) {
TFileReader* p = *reader;
indexInfo("drop table cache suid: %" PRIu64 ", colName: %s, colType: %d", p->header.suid, p->header.colName, p->header.colType);
tfileReadUnRef(p);
tfileReaderUnRef(p);
reader = taosHashIterate(tcache->tableCache, reader);
}
taosHashCleanup(tcache->tableCache);
@ -127,7 +112,7 @@ TFileReader* tfileCacheGet(TFileCache* tcache, TFileCacheKey* key) {
tfileSerialCacheKey(key, buf);
TFileReader* reader = taosHashGet(tcache->tableCache, buf, strlen(buf));
tfileReadRef(reader);
tfileReaderRef(reader);
return reader;
}
@ -139,10 +124,10 @@ void tfileCachePut(TFileCache* tcache, TFileCacheKey* key, TFileReader* reader)
if (*p != NULL) {
TFileReader* oldReader = *p;
taosHashRemove(tcache->tableCache, buf, strlen(buf));
tfileReadUnRef(oldReader);
tfileReaderUnRef(oldReader);
}
tfileReadRef(reader);
tfileReaderRef(reader);
taosHashPut(tcache->tableCache, buf, strlen(buf), &reader, sizeof(void*));
return;
}
@ -153,6 +138,19 @@ TFileReader* tfileReaderCreate(WriterCtx* ctx) {
// T_REF_INC(reader);
reader->ctx = ctx;
if (0 != tfileReaderLoadHeader(reader)) {
tfileReaderDestroy(reader);
indexError("failed to load index header, suid: %" PRIu64 ", colName: %s", reader->header.suid, reader->header.colName);
return NULL;
}
if (0 != tfileReaderLoadFst(reader)) {
tfileReaderDestroy(reader);
indexError("failed to load index fst, suid: %" PRIu64 ", colName: %s", reader->header.suid, reader->header.colName);
return NULL;
}
return reader;
}
void tfileReaderDestroy(TFileReader* reader) {
@ -174,7 +172,7 @@ int tfileReaderSearch(TFileReader* reader, SIndexTermQuery* query, SArray* resul
FstSlice key = fstSliceCreate(term->colVal, term->nColVal);
if (fstGet(reader->fst, &key, &offset)) {
indexInfo("index: %" PRIu64 ", col: %s, colVal: %s, found table info in tindex", term->suid, term->colName, term->colVal);
ret = tfileReadLoadTableIds(reader, offset, result);
ret = tfileReaderLoadTableIds(reader, offset, result);
} else {
indexInfo("index: %" PRIu64 ", col: %s, colVal: %s, not found table info in tindex", term->suid, term->colName, term->colVal);
}
@ -185,7 +183,7 @@ int tfileReaderSearch(TFileReader* reader, SIndexTermQuery* query, SArray* resul
} else {
// handle later
}
tfileReadUnRef(reader);
tfileReaderUnRef(reader);
return ret;
}
@ -214,11 +212,18 @@ TFileWriter* tfileWriterCreate(WriterCtx* ctx, TFileHeader* header) {
int tfileWriterPut(TFileWriter* tw, void* data) {
// sort by coltype and write to tindex
__compar_fn_t fn = getComparFunc(tw->header.colType, 0);
__compar_fn_t fn;
int8_t colType = tw->header.colType;
if (colType == TSDB_DATA_TYPE_BINARY || colType == TSDB_DATA_TYPE_NCHAR) {
fn = tfileStrCompare;
} else {
fn = getComparFunc(colType, 0);
}
taosArraySortPWithExt((SArray*)(data), tfileValueCompare, &fn);
int32_t bufLimit = 4096, offset = 0;
char* buf = calloc(1, sizeof(bufLimit));
char* buf = calloc(1, sizeof(char) * bufLimit);
char* p = buf;
int32_t sz = taosArrayGetSize((SArray*)data);
int32_t fstOffset = tw->offset;
@ -259,6 +264,11 @@ int tfileWriterPut(TFileWriter* tw, void* data) {
}
tfree(buf);
tw->fb = fstBuilderCreate(tw->ctx, 0);
if (tw->fb == NULL) {
tfileWriterDestroy(tw);
return -1;
}
// write fst
for (size_t i = 0; i < sz; i++) {
// TODO, fst batch write later
@ -267,6 +277,9 @@ int tfileWriterPut(TFileWriter* tw, void* data) {
//
}
}
fstBuilderFinish(tw->fb);
fstBuilderDestroy(tw->fb);
tw->fb = NULL;
return 0;
}
void tfileWriterDestroy(TFileWriter* tw) {
@ -305,6 +318,12 @@ int indexTFilePut(void* tfile, SIndexTerm* term, uint64_t uid) {
return 0;
}
static int tfileStrCompare(const void* a, const void* b) {
int ret = strcmp((char*)a, (char*)b);
if (ret == 0) { return ret; }
return ret < 0 ? -1 : 1;
}
static int tfileValueCompare(const void* a, const void* b, const void* param) {
__compar_fn_t fn = *(__compar_fn_t*)param;
@ -326,6 +345,7 @@ static int tfileWriteFstOffset(TFileWriter* tw, int32_t offset) {
int32_t fstOffset = offset + sizeof(tw->header.fstOffset);
tw->header.fstOffset = fstOffset;
if (sizeof(fstOffset) != tw->ctx->write(tw->ctx, (char*)&fstOffset, sizeof(fstOffset))) { return -1; }
tw->offset += sizeof(fstOffset);
return 0;
}
static int tfileWriteHeader(TFileWriter* writer) {
@ -355,16 +375,16 @@ static int tfileWriteData(TFileWriter* write, TFileValue* tval) {
}
return 0;
}
static int tfileReadLoadHeader(TFileReader* reader) {
static int tfileReaderLoadHeader(TFileReader* reader) {
// TODO simple tfile header later
char buf[TFILE_HEADER_SIZE] = {0};
int64_t nread = reader->ctx->read(reader->ctx, buf, sizeof(buf));
int64_t nread = reader->ctx->readFrom(reader->ctx, buf, sizeof(buf), 0);
assert(nread == sizeof(buf));
memcpy(&reader->header, buf, sizeof(buf));
return 0;
}
static int tfileReadLoadFst(TFileReader* reader) {
static int tfileReaderLoadFst(TFileReader* reader) {
// current load fst into memory, refactor it later
static int FST_MAX_SIZE = 16 * 1024;
@ -381,9 +401,9 @@ static int tfileReadLoadFst(TFileReader* reader) {
free(buf);
fstSliceDestroy(&st);
return reader->fst == NULL ? 0 : -1;
return reader->fst != NULL ? 0 : -1;
}
static int tfileReadLoadTableIds(TFileReader* reader, int32_t offset, SArray* result) {
static int tfileReaderLoadTableIds(TFileReader* reader, int32_t offset, SArray* result) {
int32_t nid;
WriterCtx* ctx = reader->ctx;
@ -403,12 +423,12 @@ static int tfileReadLoadTableIds(TFileReader* reader, int32_t offset, SArray* re
free(buf);
return 0;
}
static void tfileReadRef(TFileReader* reader) {
static void tfileReaderRef(TFileReader* reader) {
int ref = T_REF_INC(reader);
UNUSED(ref);
}
static void tfileReadUnRef(TFileReader* reader) {
static void tfileReaderUnRef(TFileReader* reader) {
int ref = T_REF_DEC(reader);
if (ref == 0) { tfileReaderDestroy(reader); }
}
@ -445,6 +465,10 @@ static int tfileCompare(const void* a, const void* b) {
return strncmp(aName, bName, aLen > bLen ? aLen : bLen);
}
// tfile name suid-colId-version.tindex
static void tfileGenFileName(char* filename, uint64_t suid, int colId, int version) {
sprintf(filename, "%" PRIu64 "-%d-%d.tindex", suid, colId, version);
return;
}
static int tfileParseFileName(const char* filename, uint64_t* suid, int* colId, int* version) {
if (3 == sscanf(filename, "%" PRIu64 "-%d-%d.tindex", suid, colId, version)) {
// read suid & colid & version success

View File

@ -2,8 +2,7 @@
* 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.
* 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
@ -13,141 +12,141 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <gtest/gtest.h>
#include <string>
#include <iostream>
#include <string>
#include "index.h"
#include "tutil.h"
#include "indexInt.h"
#include "index_fst.h"
#include "index_fst_util.h"
#include "index_fst_counting_writer.h"
#include "index_fst_util.h"
#include "index_tfile.h"
#include "tutil.h"
using namespace std;
class FstWriter {
public:
FstWriter() {
_wc = writerCtxCreate(TFile, "/tmp/tindex", false, 0);
_b = fstBuilderCreate(NULL, 0);
}
bool Put(const std::string &key, uint64_t val) {
FstSlice skey = fstSliceCreate((uint8_t *)key.c_str(), key.size());
bool ok = fstBuilderInsert(_b, skey, val);
fstSliceDestroy(&skey);
return ok;
}
~FstWriter() {
fstBuilderFinish(_b);
fstBuilderDestroy(_b);
public:
FstWriter() {
_wc = writerCtxCreate(TFile, "/tmp/tindex", false, 64 * 1024 * 1024);
_b = fstBuilderCreate(NULL, 0);
}
bool Put(const std::string& key, uint64_t val) {
FstSlice skey = fstSliceCreate((uint8_t*)key.c_str(), key.size());
bool ok = fstBuilderInsert(_b, skey, val);
fstSliceDestroy(&skey);
return ok;
}
~FstWriter() {
fstBuilderFinish(_b);
fstBuilderDestroy(_b);
writerCtxDestroy(_wc);
}
private:
FstBuilder *_b;
WriterCtx *_wc;
writerCtxDestroy(_wc);
}
private:
FstBuilder* _b;
WriterCtx* _wc;
};
class FstReadMemory {
public:
FstReadMemory(size_t size) {
_wc = writerCtxCreate(TFile, "/tmp/tindex", true, 0);
_w = fstCountingWriterCreate(_wc);
_size = size;
memset((void *)&_s, 0, sizeof(_s));
}
bool init() {
char *buf = (char *)calloc(1, sizeof(char) * _size);
int nRead = fstCountingWriterRead(_w, (uint8_t *)buf, _size);
if (nRead <= 0) { return false; }
_size = nRead;
_s = fstSliceCreate((uint8_t *)buf, _size);
_fst = fstCreate(&_s);
free(buf);
return _fst != NULL;
}
bool Get(const std::string &key, uint64_t *val) {
FstSlice skey = fstSliceCreate((uint8_t *)key.c_str(), key.size());
bool ok = fstGet(_fst, &skey, val);
fstSliceDestroy(&skey);
return ok;
}
bool GetWithTimeCostUs(const std::string &key, uint64_t *val, uint64_t *elapse) {
int64_t s = taosGetTimestampUs();
bool ok = this->Get(key, val);
int64_t e = taosGetTimestampUs();
*elapse = e - s;
return ok;
}
// add later
bool Search(AutomationCtx *ctx, std::vector<uint64_t> &result) {
FstStreamBuilder *sb = fstSearch(_fst, ctx);
StreamWithState *st = streamBuilderIntoStream(sb);
StreamWithStateResult *rt = NULL;
while ((rt = streamWithStateNextWith(st, NULL)) != NULL) {
result.push_back((uint64_t)(rt->out.out));
}
return true;
}
bool SearchWithTimeCostUs(AutomationCtx *ctx, std::vector<uint64_t> &result) {
int64_t s = taosGetTimestampUs();
bool ok = this->Search(ctx, result);
int64_t e = taosGetTimestampUs();
return ok;
}
~FstReadMemory() {
public:
FstReadMemory(size_t size) {
_wc = writerCtxCreate(TFile, "/tmp/tindex", true, 64 * 1024);
_w = fstCountingWriterCreate(_wc);
_size = size;
memset((void*)&_s, 0, sizeof(_s));
}
bool init() {
char* buf = (char*)calloc(1, sizeof(char) * _size);
int nRead = fstCountingWriterRead(_w, (uint8_t*)buf, _size);
if (nRead <= 0) { return false; }
_size = nRead;
_s = fstSliceCreate((uint8_t*)buf, _size);
_fst = fstCreate(&_s);
free(buf);
return _fst != NULL;
}
bool Get(const std::string& key, uint64_t* val) {
FstSlice skey = fstSliceCreate((uint8_t*)key.c_str(), key.size());
bool ok = fstGet(_fst, &skey, val);
fstSliceDestroy(&skey);
return ok;
}
bool GetWithTimeCostUs(const std::string& key, uint64_t* val, uint64_t* elapse) {
int64_t s = taosGetTimestampUs();
bool ok = this->Get(key, val);
int64_t e = taosGetTimestampUs();
*elapse = e - s;
return ok;
}
// add later
bool Search(AutomationCtx* ctx, std::vector<uint64_t>& result) {
FstStreamBuilder* sb = fstSearch(_fst, ctx);
StreamWithState* st = streamBuilderIntoStream(sb);
StreamWithStateResult* rt = NULL;
while ((rt = streamWithStateNextWith(st, NULL)) != NULL) {
result.push_back((uint64_t)(rt->out.out));
}
return true;
}
bool SearchWithTimeCostUs(AutomationCtx* ctx, std::vector<uint64_t>& result) {
int64_t s = taosGetTimestampUs();
bool ok = this->Search(ctx, result);
int64_t e = taosGetTimestampUs();
return ok;
}
~FstReadMemory() {
fstCountingWriterDestroy(_w);
fstDestroy(_fst);
fstSliceDestroy(&_s);
writerCtxDestroy(_wc);
}
private:
FstCountingWriter *_w;
Fst *_fst;
FstSlice _s;
WriterCtx *_wc;
size_t _size;
};
}
//TEST(IndexTest, index_create_test) {
private:
FstCountingWriter* _w;
Fst* _fst;
FstSlice _s;
WriterCtx* _wc;
size_t _size;
};
// TEST(IndexTest, index_create_test) {
// SIndexOpts *opts = indexOptsCreate();
// SIndex *index = indexOpen(opts, "./test");
// if (index == NULL) {
// std::cout << "index open failed" << std::endl;
// std::cout << "index open failed" << std::endl;
// }
//
//
// // write
//
// // write
// for (int i = 0; i < 100000; i++) {
// SIndexMultiTerm* terms = indexMultiTermCreate();
// std::string val = "field";
// std::string val = "field";
//
// indexMultiTermAdd(terms, "tag1", strlen("tag1"), val.c_str(), val.size());
//
// val.append(std::to_string(i));
// val.append(std::to_string(i));
// indexMultiTermAdd(terms, "tag2", strlen("tag2"), val.c_str(), val.size());
//
// val.insert(0, std::to_string(i));
// indexMultiTermAdd(terms, "tag3", strlen("tag3"), val.c_str(), val.size());
//
// val.append("const");
// val.append("const");
// indexMultiTermAdd(terms, "tag4", strlen("tag4"), val.c_str(), val.size());
//
//
//
// indexPut(index, terms, i);
// indexMultiTermDestroy(terms);
// }
//
// }
//
//
// // query
// SIndexMultiTermQuery *multiQuery = indexMultiTermQueryCreate(MUST);
//
// SIndexMultiTermQuery *multiQuery = indexMultiTermQueryCreate(MUST);
//
// indexMultiTermQueryAdd(multiQuery, "tag1", strlen("tag1"), "field", strlen("field"), QUERY_PREFIX);
// indexMultiTermQueryAdd(multiQuery, "tag3", strlen("tag3"), "0field0", strlen("0field0"), QUERY_TERM);
//
// SArray *result = (SArray *)taosArrayInit(10, sizeof(int));
// SArray *result = (SArray *)taosArrayInit(10, sizeof(int));
// indexSearch(index, multiQuery, result);
//
// std::cout << "taos'size : " << taosArrayGetSize(result) << std::endl;
@ -155,25 +154,24 @@ class FstReadMemory {
// int *v = (int *)taosArrayGet(result, i);
// std::cout << "value --->" << *v << std::endl;
// }
// // add more test case
// // add more test case
// indexMultiTermQueryDestroy(multiQuery);
//
// indexOptsDestroy(opts);
// indexClose(index);
// indexOptsDestroy(opts);
// indexClose(index);
// //
//}
#define L 100
#define M 100
#define N 100
int Performance_fstWriteRecords(FstWriter *b) {
std::string str("aa");
int Performance_fstWriteRecords(FstWriter* b) {
std::string str("aa");
for (int i = 0; i < L; i++) {
str[0] = 'a' + i;
str.resize(2);
for(int j = 0; j < M; j++) {
str.resize(2);
for (int j = 0; j < M; j++) {
str[1] = 'a' + j;
str.resize(2);
for (int k = 0; k < N; k++) {
@ -181,87 +179,86 @@ int Performance_fstWriteRecords(FstWriter *b) {
b->Put(str, k);
printf("(%d, %d, %d, %s)\n", i, j, k, str.c_str());
}
}
}
}
return L * M * N;
}
void Performance_fstReadRecords(FstReadMemory *m) {
void Performance_fstReadRecords(FstReadMemory* m) {
std::string str("aa");
for (int i = 0; i < M; i++) {
str[0] = 'a' + i;
str.resize(2);
for(int j = 0; j < N; j++) {
str.resize(2);
for (int j = 0; j < N; j++) {
str[1] = 'a' + j;
str.resize(2);
for (int k = 0; k < L; k++) {
str.push_back('a');
uint64_t val, cost;
uint64_t val, cost;
if (m->GetWithTimeCostUs(str, &val, &cost)) {
printf("succes to get kv(%s, %" PRId64"), cost: %" PRId64"\n", str.c_str(), val, cost);
printf("succes to get kv(%s, %" PRId64 "), cost: %" PRId64 "\n", str.c_str(), val, cost);
} else {
printf("failed to get key: %s\n", str.c_str());
}
}
}
}
}
}
void checkFstPerf() {
FstWriter *fw = new FstWriter;
int64_t s = taosGetTimestampUs();
FstWriter* fw = new FstWriter;
int64_t s = taosGetTimestampUs();
int num = Performance_fstWriteRecords(fw);
int num = Performance_fstWriteRecords(fw);
int64_t e = taosGetTimestampUs();
printf("write %d record cost %" PRId64"us\n", num, e - s);
printf("write %d record cost %" PRId64 "us\n", num, e - s);
delete fw;
FstReadMemory *m = new FstReadMemory(1024 * 64);
if (m->init()) {
printf("success to init fst read");
}
Performance_fstReadRecords(m);
FstReadMemory* m = new FstReadMemory(1024 * 64);
if (m->init()) { printf("success to init fst read"); }
Performance_fstReadRecords(m);
delete m;
}
}
void checkFstPrefixSearch() {
FstWriter *fw = new FstWriter;
int64_t s = taosGetTimestampUs();
int count = 2;
FstWriter* fw = new FstWriter;
int64_t s = taosGetTimestampUs();
int count = 2;
std::string key("ab");
for (int i = 0; i < count; i++) {
key[1] = key[1] + i;
fw->Put(key, i);
key[1] = key[1] + i;
fw->Put(key, i);
}
int64_t e = taosGetTimestampUs();
std::cout << "insert data count : " << count << "elapas time: " << e - s << std::endl;
delete fw;
FstReadMemory *m = new FstReadMemory(1024 * 64);
FstReadMemory* m = new FstReadMemory(1024 * 64);
if (m->init() == false) {
std::cout << "init readMemory failed" << std::endl;
std::cout << "init readMemory failed" << std::endl;
delete m;
return;
}
// prefix search
// prefix search
std::vector<uint64_t> result;
AutomationCtx *ctx = automCtxCreate((void *)"ab", AUTOMATION_PREFIX);
m->Search(ctx, result);
assert(result.size() == count);
AutomationCtx* ctx = automCtxCreate((void*)"ab", AUTOMATION_PREFIX);
m->Search(ctx, result);
assert(result.size() == count);
for (int i = 0; i < result.size(); i++) {
assert(result[i] == i); // check result
assert(result[i] == i); // check result
}
free(ctx);
delete m;
}
}
void validateFst() {
int val = 100;
int count = 100;
FstWriter *fw = new FstWriter;
// write
int val = 100;
int count = 100;
FstWriter* fw = new FstWriter;
// write
{
std::string key("ab");
for (int i = 0; i < count; i++) {
@ -272,99 +269,255 @@ void validateFst() {
delete fw;
// read
FstReadMemory *m = new FstReadMemory(1024 * 64);
if (m->init() == false) {
std::cout << "init readMemory failed" << std::endl;
FstReadMemory* m = new FstReadMemory(1024 * 64);
if (m->init() == false) {
std::cout << "init readMemory failed" << std::endl;
delete m;
return;
}
{
std::string key("ab");
uint64_t out;
if (m->Get(key, &out)) {
printf("success to get (%s, %" PRId64")\n", key.c_str(), out);
} else {
printf("failed to get(%s)\n", key.c_str());
}
for (int i = 0; i < count; i++) {
key.push_back('a' + i);
if (m->Get(key, &out) ) {
assert(val - i == out);
printf("success to get (%s, %" PRId64")\n", key.c_str(), out);
} else {
printf("failed to get(%s)\n", key.c_str());
std::string key("ab");
uint64_t out;
if (m->Get(key, &out)) {
printf("success to get (%s, %" PRId64 ")\n", key.c_str(), out);
} else {
printf("failed to get(%s)\n", key.c_str());
}
}
}
for (int i = 0; i < count; i++) {
key.push_back('a' + i);
if (m->Get(key, &out)) {
assert(val - i == out);
printf("success to get (%s, %" PRId64 ")\n", key.c_str(), out);
} else {
printf("failed to get(%s)\n", key.c_str());
}
}
}
delete m;
}
class IndexEnv : public ::testing::Test {
protected:
virtual void SetUp() {
taosRemoveDir(path);
opts = indexOptsCreate();
int ret = indexOpen(opts, path, &index);
assert(ret == 0);
}
virtual void TearDown() {
indexClose(index);
indexOptsDestroy(opts);
}
const char *path = "/tmp/tindex";
SIndexOpts *opts;
SIndex *index;
};
TEST_F(IndexEnv, testPut) {
// single index column
{
std::string colName("tag1"), colVal("Hello world");
SIndexTerm *term = indexTermCreate(0, ADD_VALUE, TSDB_DATA_TYPE_BINARY, colName.c_str(), colName.size(), colVal.c_str(), colVal.size());
SIndexMultiTerm *terms = indexMultiTermCreate();
indexMultiTermAdd(terms, term);
for (size_t i = 0; i < 100; i++) {
int tableId = i;
int ret = indexPut(index, terms, tableId);
assert(ret == 0);
}
indexMultiTermDestroy(terms);
}
// multi index column
{
SIndexMultiTerm *terms = indexMultiTermCreate();
{
std::string colName("tag1"), colVal("Hello world");
SIndexTerm *term = indexTermCreate(0, ADD_VALUE, TSDB_DATA_TYPE_BINARY, colName.c_str(), colName.size(), colVal.c_str(), colVal.size());
indexMultiTermAdd(terms, term);
}
{
std::string colName("tag2"), colVal("Hello world");
SIndexTerm *term = indexTermCreate(0, ADD_VALUE, TSDB_DATA_TYPE_BINARY, colName.c_str(), colName.size(), colVal.c_str(), colVal.size());
indexMultiTermAdd(terms, term);
}
for (int i = 0; i < 100; i++) {
int tableId = i;
int ret = indexPut(index, terms, tableId);
assert(ret == 0);
}
indexMultiTermDestroy(terms);
}
//
}
TEST_F(IndexEnv, testDel) {
}
class IndexEnv : public ::testing::Test {
protected:
virtual void SetUp() {
taosRemoveDir(path);
opts = indexOptsCreate();
int ret = indexOpen(opts, path, &index);
assert(ret == 0);
}
virtual void TearDown() {
indexClose(index);
indexOptsDestroy(opts);
}
const char* path = "/tmp/tindex";
SIndexOpts* opts;
SIndex* index;
};
// TEST_F(IndexEnv, testPut) {
// // single index column
// {
// std::string colName("tag1"), colVal("Hello world");
// SIndexTerm* term = indexTermCreate(0, ADD_VALUE, TSDB_DATA_TYPE_BINARY, colName.c_str(), colName.size(), colVal.c_str(),
// colVal.size()); SIndexMultiTerm* terms = indexMultiTermCreate(); indexMultiTermAdd(terms, term);
//
// for (size_t i = 0; i < 100; i++) {
// int tableId = i;
// int ret = indexPut(index, terms, tableId);
// assert(ret == 0);
// }
// indexMultiTermDestroy(terms);
// }
// // multi index column
// {
// SIndexMultiTerm* terms = indexMultiTermCreate();
// {
// std::string colName("tag1"), colVal("Hello world");
// SIndexTerm* term =
// indexTermCreate(0, ADD_VALUE, TSDB_DATA_TYPE_BINARY, colName.c_str(), colName.size(), colVal.c_str(), colVal.size());
// indexMultiTermAdd(terms, term);
// }
// {
// std::string colName("tag2"), colVal("Hello world");
// SIndexTerm* term =
// indexTermCreate(0, ADD_VALUE, TSDB_DATA_TYPE_BINARY, colName.c_str(), colName.size(), colVal.c_str(), colVal.size());
// indexMultiTermAdd(terms, term);
// }
//
// for (int i = 0; i < 100; i++) {
// int tableId = i;
// int ret = indexPut(index, terms, tableId);
// assert(ret == 0);
// }
// indexMultiTermDestroy(terms);
// }
// //
//}
class TFileObj {
public:
TFileObj(const std::string& path = "/tmp/tindex", const std::string& colName = "voltage") : path_(path), colName_(colName) {
colId_ = 10;
// Do Nothing
//
}
int Put(SArray* tv) {
if (reader_ != NULL) {
tfileReaderDestroy(reader_);
reader_ = NULL;
}
if (writer_ == NULL) { InitWriter(); }
return tfileWriterPut(writer_, tv);
}
bool InitWriter() {
TFileHeader header;
header.suid = 1;
header.version = 1;
memcpy(header.colName, colName_.c_str(), colName_.size());
header.colType = TSDB_DATA_TYPE_BINARY;
std::string path(path_);
int colId = 2;
char buf[64] = {0};
sprintf(buf, "%" PRIu64 "-%d-%d.tindex", header.suid, colId_, header.version);
path.append("/").append(buf);
fileName_ = path;
WriterCtx* ctx = writerCtxCreate(TFile, path.c_str(), false, 64 * 1024 * 1024);
writer_ = tfileWriterCreate(ctx, &header);
return writer_ != NULL ? true : false;
}
bool InitReader() {
WriterCtx* ctx = writerCtxCreate(TFile, fileName_.c_str(), true, 64 * 1024 * 1024);
reader_ = tfileReaderCreate(ctx);
return reader_ != NULL ? true : false;
}
int Get(SIndexTermQuery* query, SArray* result) {
if (writer_ != NULL) {
tfileWriterDestroy(writer_);
writer_ = NULL;
}
if (reader_ == NULL && InitReader()) {
//
//
}
return tfileReaderSearch(reader_, query, result);
}
~TFileObj() {
if (writer_) { tfileWriterDestroy(writer_); }
if (reader_) { tfileReaderDestroy(reader_); }
}
private:
std::string path_;
std::string colName_;
std::string fileName_;
TFileWriter* writer_;
TFileReader* reader_;
int colId_;
};
class IndexTFileEnv : public ::testing::Test {
protected:
virtual void SetUp() {
taosRemoveDir(dir.c_str());
taosMkDir(dir.c_str());
tfInit();
fObj = new TFileObj(dir, colName);
// std::string colName("voltage");
// header.suid = 1;
// header.version = 1;
// memcpy(header.colName, colName.c_str(), colName.size());
// header.colType = TSDB_DATA_TYPE_BINARY;
// std::string path(dir);
// int colId = 2;
// char buf[64] = {0};
// sprintf(buf, "%" PRIu64 "-%d-%d.tindex", header.suid, colId, header.version);
// path.append("/").append(buf);
// ctx = writerCtxCreate(TFile, path.c_str(), false, 64 * 1024 * 1024);
// twrite = tfileWriterCreate(ctx, &header);
}
virtual void TearDown() {
// indexClose(index);
// indexeptsDestroy(opts);
delete fObj;
tfCleanup();
// tfileWriterDestroy(twrite);
}
TFileObj* fObj;
std::string dir = "/tmp/tindex";
std::string colName = "voltage";
int coldId = 2;
int version = 1;
int colType = TSDB_DATA_TYPE_BINARY;
// WriterCtx* ctx = NULL;
// TFileHeader header;
// TFileWriter* twrite = NULL;
};
// static TFileWriter* genTFileWriter(const char* path, TFileHeader* header) {
// char buf[128] = {0};
// WriterCtx* ctx = writerCtxCreate(TFile, path, false, )
//}
static TFileValue* genTFileValue(const char* val) {
TFileValue* tv = (TFileValue*)calloc(1, sizeof(TFileValue));
int32_t vlen = strlen(val) + 1;
tv->colVal = (char*)calloc(1, vlen);
memcpy(tv->colVal, val, vlen);
tv->tableId = (SArray*)taosArrayInit(1, sizeof(uint64_t));
for (size_t i = 0; i < 10; i++) {
uint64_t v = i;
taosArrayPush(tv->tableId, &v);
}
return tv;
}
static void destroyTFileValue(void* val) {
TFileValue* tv = (TFileValue*)val;
free(tv->colVal);
taosArrayDestroy(tv->tableId);
free(tv);
}
TEST_F(IndexTFileEnv, test_tfile_write) {
TFileValue* v1 = genTFileValue("c");
TFileValue* v2 = genTFileValue("a");
TFileValue* v3 = genTFileValue("b");
TFileValue* v4 = genTFileValue("d");
SArray* data = (SArray*)taosArrayInit(4, sizeof(void*));
taosArrayPush(data, &v1);
taosArrayPush(data, &v2);
taosArrayPush(data, &v3);
taosArrayPush(data, &v4);
fObj->Put(data);
for (size_t i = 0; i < taosArrayGetSize(data); i++) {
destroyTFileValue(taosArrayGetP(data, i));
}
taosArrayDestroy(data);
std::string colName("voltage");
std::string colVal("b");
SIndexTerm* term = indexTermCreate(1, ADD_VALUE, TSDB_DATA_TYPE_BINARY, colName.c_str(), colName.size(), colVal.c_str(), colVal.size());
SIndexTermQuery query = {.term = term, .qType = QUERY_TERM};
SArray* result = (SArray*)taosArrayInit(1, sizeof(uint64_t));
fObj->Get(&query, result);
assert(taosArrayGetSize(result) == 10);
indexTermDestroy(term);
// tfileWriterDestroy(twrite);
}

View File

@ -68,7 +68,7 @@ int32_t qParserValidateSqlNode(struct SCatalog* pCatalog, SSqlInfo* pSqlInfo, SQ
* @param type
* @return
*/
int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void** output, int32_t* outputLen, int32_t* type, char* msgBuf, int32_t msgBufLen);
int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, SDclStmtInfo* pDcl, char* msgBuf, int32_t msgBufLen);
/**
* Evaluate the numeric and timestamp arithmetic expression in the WHERE clause.

View File

@ -4306,7 +4306,7 @@ int32_t doCheckForCreateTable(SSqlInfo* pInfo, SMsgBuf* pMsgBuf) {
return TSDB_CODE_SUCCESS;
}
int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void** output, int32_t* outputLen, int32_t* type, char* msgBuf, int32_t msgBufLen) {
int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, SDclStmtInfo* pDcl, char* msgBuf, int32_t msgBufLen) {
int32_t code = 0;
SMsgBuf m = {.buf = msgBuf, .len = msgBufLen};
@ -4357,8 +4357,8 @@ int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void**
}
}
*output = buildUserManipulationMsg(pInfo, outputLen, pCtx->requestId, msgBuf, msgBufLen);
*type = (pInfo->type == TSDB_SQL_CREATE_USER)? TSDB_MSG_TYPE_CREATE_USER:TSDB_MSG_TYPE_ALTER_USER;
pDcl->pMsg = (char*)buildUserManipulationMsg(pInfo, &pDcl->msgLen, pCtx->requestId, msgBuf, msgBufLen);
pDcl->msgType = (pInfo->type == TSDB_SQL_CREATE_USER)? TSDB_MSG_TYPE_CREATE_USER:TSDB_MSG_TYPE_ALTER_USER;
break;
}
@ -4394,21 +4394,21 @@ int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void**
}
}
*output = buildAcctManipulationMsg(pInfo, outputLen, pCtx->requestId, msgBuf, msgBufLen);
*type = (pInfo->type == TSDB_SQL_CREATE_ACCT)? TSDB_MSG_TYPE_CREATE_ACCT:TSDB_MSG_TYPE_ALTER_ACCT;
pDcl->pMsg = (char*)buildAcctManipulationMsg(pInfo, &pDcl->msgLen, pCtx->requestId, msgBuf, msgBufLen);
pDcl->msgType = (pInfo->type == TSDB_SQL_CREATE_ACCT)? TSDB_MSG_TYPE_CREATE_ACCT:TSDB_MSG_TYPE_ALTER_ACCT;
break;
}
case TSDB_SQL_DROP_ACCT:
case TSDB_SQL_DROP_USER: {
*output = buildDropUserMsg(pInfo, outputLen, pCtx->requestId, msgBuf, msgBufLen);
*type = (pInfo->type == TSDB_SQL_DROP_ACCT)? TSDB_MSG_TYPE_DROP_ACCT:TSDB_MSG_TYPE_DROP_USER;
pDcl->pMsg = (char*)buildDropUserMsg(pInfo, &pDcl->msgLen, pCtx->requestId, msgBuf, msgBufLen);
pDcl->msgType = (pInfo->type == TSDB_SQL_DROP_ACCT)? TSDB_MSG_TYPE_DROP_ACCT:TSDB_MSG_TYPE_DROP_USER;
break;
}
case TSDB_SQL_SHOW: {
code = setShowInfo(&pInfo->pMiscInfo->showOpt, pCtx, output, outputLen, pMsgBuf);
*type = TSDB_MSG_TYPE_SHOW;
code = setShowInfo(&pInfo->pMiscInfo->showOpt, pCtx, (void**)&pDcl->pMsg, &pDcl->msgLen, pMsgBuf);
pDcl->msgType = TSDB_MSG_TYPE_SHOW;
break;
}
@ -4429,9 +4429,9 @@ int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void**
SUseDbMsg *pUseDbMsg = (SUseDbMsg *) calloc(1, sizeof(SUseDbMsg));
tNameExtractFullName(&n, pUseDbMsg->db);
*output = pUseDbMsg;
*outputLen = sizeof(SUseDbMsg);
*type = TSDB_MSG_TYPE_USE_DB;
pDcl->pMsg = (char*)pUseDbMsg;
pDcl->msgLen = sizeof(SUseDbMsg);
pDcl->msgType = TSDB_MSG_TYPE_USE_DB;
break;
}
@ -4457,9 +4457,11 @@ int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void**
return TSDB_CODE_TSC_INVALID_OPERATION;
}
*output = pCreateMsg;
*outputLen = sizeof(SCreateDbMsg);
*type = (pInfo->type == TSDB_SQL_CREATE_DB)? TSDB_MSG_TYPE_CREATE_DB:TSDB_MSG_TYPE_ALTER_DB;
strncpy(pCreateMsg->db, token.z, token.n);
pDcl->pMsg = (char*)pCreateMsg;
pDcl->msgLen = sizeof(SCreateDbMsg);
pDcl->msgType = (pInfo->type == TSDB_SQL_CREATE_DB)? TSDB_MSG_TYPE_CREATE_DB:TSDB_MSG_TYPE_ALTER_DB;
break;
}
@ -4481,9 +4483,9 @@ int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void**
pDropDbMsg->ignoreNotExists = pInfo->pMiscInfo->existsCheck ? 1 : 0;
assert(code == TSDB_CODE_SUCCESS && name.type == TSDB_DB_NAME_T);
*type = TSDB_MSG_TYPE_DROP_DB;
*outputLen = sizeof(SDropDbMsg);
*output = pDropDbMsg;
pDcl->msgType = TSDB_MSG_TYPE_DROP_DB;
pDcl->msgLen = sizeof(SDropDbMsg);
pDcl->pMsg = (char*)pDropDbMsg;
return TSDB_CODE_SUCCESS;
}
@ -4494,9 +4496,8 @@ int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void**
if ((code = doCheckForCreateTable(pInfo, pMsgBuf)) != TSDB_CODE_SUCCESS) {
return code;
}
*output = buildCreateTableMsg(pCreateTable, outputLen, pCtx, pMsgBuf);
*type = (pCreateTable->type == TSQL_CREATE_TABLE)? TSDB_MSG_TYPE_CREATE_TABLE:TSDB_MSG_TYPE_CREATE_STB;
pDcl->pMsg = (char*)buildCreateTableMsg(pCreateTable, &pDcl->msgLen, pCtx, pMsgBuf);
pDcl->msgType = (pCreateTable->type == TSQL_CREATE_TABLE)? TSDB_MSG_TYPE_CREATE_TABLE:TSDB_MSG_TYPE_CREATE_STB;
} else if (pCreateTable->type == TSQL_CREATE_CTABLE) {
// if ((code = doCheckForCreateFromStable(pSql, pInfo)) != TSDB_CODE_SUCCESS) {
// return code;
@ -4511,12 +4512,12 @@ int32_t qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseBasicCtx* pCtx, void**
}
case TSDB_SQL_DROP_TABLE: {
*output = buildDropTableMsg(pInfo, outputLen, pCtx, pMsgBuf);
if (output == NULL) {
pDcl->pMsg = (char*)buildDropTableMsg(pInfo, &pDcl->msgLen, pCtx, pMsgBuf);
if (pDcl->pMsg == NULL) {
return terrno;
}
*type = TSDB_MSG_TYPE_DROP_STB;
pDcl->msgType = TSDB_MSG_TYPE_DROP_STB;
return TSDB_CODE_SUCCESS;
break;
}

View File

@ -909,6 +909,7 @@ int32_t parseInsertSql(SParseContext* pContext, SInsertStmtInfo** pInfo) {
}
*pInfo = context.pOutput;
context.pOutput->nodeType = TSDB_SQL_INSERT;
context.pOutput->schemaAttache = pContext->schemaAttached;
context.pOutput->payloadType = PAYLOAD_TYPE_KV;

View File

@ -20,7 +20,7 @@
#include "function.h"
#include "insertParser.h"
bool qIsInsertSql(const char* pStr, size_t length) {
bool isInsertSql(const char* pStr, size_t length) {
int32_t index = 0;
do {
@ -31,18 +31,28 @@ bool qIsInsertSql(const char* pStr, size_t length) {
} while (1);
}
int32_t qParseQuerySql(const char* pStr, size_t length, SParseBasicCtx* pParseCtx, int32_t *type, void** pOutput, int32_t* outputLen, char* msg, int32_t msgLen) {
SSqlInfo info = doGenerateAST(pStr);
bool qIsDclQuery(const SQueryNode* pQuery) {
return TSDB_SQL_INSERT != pQuery->type && TSDB_SQL_SELECT != pQuery->type;
}
int32_t parseQuerySql(SParseContext* pCxt, SQueryNode** pQuery) {
SSqlInfo info = doGenerateAST(pCxt->pSql);
if (!info.valid) {
strncpy(msg, info.msg, msgLen);
strncpy(pCxt->pMsg, info.msg, pCxt->msgLen);
terrno = TSDB_CODE_TSC_SQL_SYNTAX_ERROR;
return terrno;
}
if (!isDqlSqlStatement(&info)) {
int32_t code = qParserValidateDclSqlNode(&info, pParseCtx, pOutput, outputLen, type, msg, msgLen);
SDclStmtInfo* pDcl = calloc(1, sizeof(SQueryStmtInfo));
if (NULL == pDcl) {
terrno = TSDB_CODE_TSC_OUT_OF_MEMORY; // set correct error code.
return terrno;
}
pDcl->nodeType = info.type;
int32_t code = qParserValidateDclSqlNode(&info, &pCxt->ctx, pDcl, pCxt->pMsg, pCxt->msgLen);
if (code == TSDB_CODE_SUCCESS) {
// do nothing
*pQuery = (SQueryNode*)pDcl;
}
} else {
SQueryStmtInfo* pQueryInfo = calloc(1, sizeof(SQueryStmtInfo));
@ -53,9 +63,9 @@ int32_t qParseQuerySql(const char* pStr, size_t length, SParseBasicCtx* pParseCt
struct SCatalog* pCatalog = NULL;
int32_t code = catalogGetHandle(NULL, &pCatalog);
code = qParserValidateSqlNode(pCatalog, &info, pQueryInfo, pParseCtx->requestId, msg, msgLen);
code = qParserValidateSqlNode(pCatalog, &info, pQueryInfo, pCxt->ctx.requestId, pCxt->pMsg, pCxt->msgLen);
if (code == TSDB_CODE_SUCCESS) {
*pOutput = pQueryInfo;
*pQuery = (SQueryNode*)pQueryInfo;
}
}
@ -63,8 +73,12 @@ int32_t qParseQuerySql(const char* pStr, size_t length, SParseBasicCtx* pParseCt
return TSDB_CODE_SUCCESS;
}
int32_t qParseInsertSql(SParseContext* pContext, SInsertStmtInfo** pInfo) {
return parseInsertSql(pContext, pInfo);
int32_t qParseQuerySql(SParseContext* pCxt, SQueryNode** pQuery) {
if (isInsertSql(pCxt->pSql, pCxt->sqlLen)) {
return parseInsertSql(pCxt, (SInsertStmtInfo**)pQuery);
} else {
return parseQuerySql(pCxt, pQuery);
}
}
int32_t qParserConvertSql(const char* pStr, size_t length, char** pConvertSql) {

View File

@ -23,20 +23,20 @@
namespace {
void generateTestT1(MockCatalogService* mcs) {
ITableBuilder& builder = mcs->createTableBuilder("root.test", "t1", TSDB_NORMAL_TABLE, 3)
ITableBuilder& builder = mcs->createTableBuilder("test", "t1", TSDB_NORMAL_TABLE, 3)
.setPrecision(TSDB_TIME_PRECISION_MILLI).setVgid(1).addColumn("ts", TSDB_DATA_TYPE_TIMESTAMP)
.addColumn("c1", TSDB_DATA_TYPE_INT).addColumn("c2", TSDB_DATA_TYPE_BINARY, 20);
builder.done();
}
void generateTestST1(MockCatalogService* mcs) {
ITableBuilder& builder = mcs->createTableBuilder("root.test", "st1", TSDB_SUPER_TABLE, 3, 2)
ITableBuilder& builder = mcs->createTableBuilder("test", "st1", TSDB_SUPER_TABLE, 3, 2)
.setPrecision(TSDB_TIME_PRECISION_MILLI).addColumn("ts", TSDB_DATA_TYPE_TIMESTAMP)
.addTag("tag1", TSDB_DATA_TYPE_INT).addTag("tag2", TSDB_DATA_TYPE_BINARY, 20)
.addColumn("c1", TSDB_DATA_TYPE_INT).addColumn("c2", TSDB_DATA_TYPE_BINARY, 20);
builder.done();
mcs->createSubTable("root.test", "st1", "st1s1", 1);
mcs->createSubTable("root.test", "st1", "st1s2", 2);
mcs->createSubTable("test", "st1", "st1s1", 1);
mcs->createSubTable("test", "st1", "st1s2", 2);
}
}

View File

@ -94,9 +94,9 @@ public:
return 0;
}
int32_t catalogGetTableMeta(const char* pDBName, const char* pTableName, STableMeta** pTableMeta) const {
int32_t catalogGetTableMeta(const char* pDbFullName, const char* pTableName, STableMeta** pTableMeta) const {
std::unique_ptr<STableMeta> table;
int32_t code = copyTableSchemaMeta(pDBName, pTableName, &table);
int32_t code = copyTableSchemaMeta(toDbname(pDbFullName), pTableName, &table);
if (TSDB_CODE_SUCCESS != code) {
return code;
}
@ -104,7 +104,7 @@ public:
return TSDB_CODE_SUCCESS;
}
int32_t catalogGetTableHashVgroup(const char* pDBName, const char* pTableName, SVgroupInfo* vgInfo) const {
int32_t catalogGetTableHashVgroup(const char* pDbFullName, const char* pTableName, SVgroupInfo* vgInfo) const {
// todo
return 0;
}
@ -195,6 +195,14 @@ private:
typedef std::map<std::string, std::shared_ptr<MockTableMeta>> TableMetaCache;
typedef std::map<std::string, TableMetaCache> DbMetaCache;
std::string toDbname(const std::string& dbFullName) const {
std::string::size_type n = dbFullName.find(".");
if (n == std::string::npos) {
return dbFullName;
}
return dbFullName.substr(n + 1);
}
std::string ttToString(int8_t tableType) const {
switch (tableType) {
case TSDB_SUPER_TABLE:

View File

@ -714,12 +714,9 @@ TEST(testCase, show_user_Test) {
SSqlInfo info1 = doGenerateAST(sql1);
ASSERT_EQ(info1.valid, true);
void* output = NULL;
int32_t type = 0;
int32_t len = 0;
SDclStmtInfo output;
SParseBasicCtx ct= {.db= "abc", .acctId = 1, .requestId = 1};
int32_t code = qParserValidateDclSqlNode(&info1, &ct, &output, &len, &type, msg, buf.len);
int32_t code = qParserValidateDclSqlNode(&info1, &ct, &output, msg, buf.len);
ASSERT_EQ(code, 0);
// convert the show command to be the select query
@ -738,12 +735,9 @@ TEST(testCase, create_user_Test) {
ASSERT_EQ(info1.valid, true);
ASSERT_EQ(isDclSqlStatement(&info1), true);
void* output = NULL;
int32_t type = 0;
int32_t len = 0;
SDclStmtInfo output;
SParseBasicCtx ct= {.db= "abc", .acctId = 1, .requestId = 1};
int32_t code = qParserValidateDclSqlNode(&info1, &ct, &output, &len, &type, msg, buf.len);
int32_t code = qParserValidateDclSqlNode(&info1, &ct, &output, msg, buf.len);
ASSERT_EQ(code, 0);
destroySqlInfo(&info1);

View File

@ -102,7 +102,7 @@ int32_t queryPlanToSql(struct SQueryPlanNode* pQueryNode, char** sql);
int32_t createDag(SQueryPlanNode* pQueryNode, struct SCatalog* pCatalog, SQueryDag** pDag);
int32_t setSubplanExecutionNode(SSubplan* subplan, uint64_t templateId, SEpAddr* ep);
int32_t subPlanToString(const SSubplan *pPhyNode, char** str);
int32_t subPlanToString(const SSubplan *pPhyNode, char** str, int32_t* len);
int32_t stringToSubplan(const char* str, SSubplan** subplan);
/**
@ -121,6 +121,9 @@ void* destroyQueryPhyPlan(struct SPhyNode* pQueryPhyNode);
const char* opTypeToOpName(int32_t type);
int32_t opNameToOpType(const char* name);
const char* dsinkTypeToDsinkName(int32_t type);
int32_t dsinkNameToDsinkType(const char* name);
#ifdef __cplusplus
}
#endif

View File

@ -47,16 +47,38 @@ const char* opTypeToOpName(int32_t type) {
int32_t opNameToOpType(const char* name) {
for (int32_t i = 1; i < sizeof(gOpName) / sizeof(gOpName[0]); ++i) {
if (strcmp(name, gOpName[i])) {
if (0 == strcmp(name, gOpName[i])) {
return i;
}
}
return OP_Unknown;
}
const char* dsinkTypeToDsinkName(int32_t type) {
switch (type) {
case DSINK_Dispatch:
return "Dispatch";
case DSINK_Insert:
return "Insert";
default:
break;
}
return "Unknown";
}
int32_t dsinkNameToDsinkType(const char* name) {
if (0 == strcmp(name, "Dispatch")) {
return DSINK_Dispatch;
} else if (0 == strcmp(name, "Insert")) {
return DSINK_Insert;
}
return DSINK_Unknown;
}
static SDataSink* initDataSink(int32_t type, int32_t size) {
SDataSink* sink = (SDataSink*)vailidPointer(calloc(1, size));
sink->info.type = type;
sink->info.name = dsinkTypeToDsinkName(type);
return sink;
}

View File

@ -695,6 +695,70 @@ static bool phyNodeFromJson(const cJSON* json, void* obj) {
return res;
}
static const char* jkInserterNumOfTables = "NumOfTables";
static const char* jkInserterDataSize = "DataSize";
static bool inserterToJson(const void* obj, cJSON* json) {
const SDataInserter* inserter = (const SDataInserter*)obj;
bool res = cJSON_AddNumberToObject(json, jkInserterNumOfTables, inserter->numOfTables);
if (res) {
res = cJSON_AddNumberToObject(json, jkInserterDataSize, inserter->size);
}
// todo pData
return res;
}
static bool inserterFromJson(const cJSON* json, void* obj) {
SDataInserter* inserter = (SDataInserter*)obj;
inserter->numOfTables = getNumber(json, jkInserterNumOfTables);
inserter->size = getNumber(json, jkInserterDataSize);
// todo pData
}
static bool specificDataSinkToJson(const void* obj, cJSON* json) {
const SDataSink* dsink = (const SDataSink*)obj;
switch (dsink->info.type) {
case DSINK_Dispatch:
return true;
case DSINK_Insert:
return inserterToJson(obj, json);
default:
break;
}
return false;
}
static bool specificDataSinkFromJson(const cJSON* json, void* obj) {
SDataSink* dsink = (SDataSink*)obj;
switch (dsink->info.type) {
case DSINK_Dispatch:
return true;
case DSINK_Insert:
return inserterFromJson(json, obj);
default:
break;
}
return false;
}
static const char* jkDataSinkName = "Name";
static bool dataSinkToJson(const void* obj, cJSON* json) {
const SDataSink* dsink = (const SDataSink*)obj;
bool res = cJSON_AddStringToObject(json, jkDataSinkName, dsink->info.name);
if (res) {
res = addObject(json, dsink->info.name, specificDataSinkToJson, dsink);
}
return res;
}
static bool dataSinkFromJson(const cJSON* json, void* obj) {
SDataSink* dsink = (SDataSink*)obj;
dsink->info.name = getString(json, jkDataSinkName);
dsink->info.type = dsinkNameToDsinkType(dsink->info.name);
return fromObject(json, dsink->info.name, specificDataSinkFromJson, dsink, true);
}
static const char* jkIdQueryId = "QueryId";
static const char* jkIdTemplateId = "TemplateId";
static const char* jkIdSubplanId = "SubplanId";
@ -721,6 +785,7 @@ static bool subplanIdFromJson(const cJSON* json, void* obj) {
static const char* jkSubplanId = "Id";
static const char* jkSubplanNode = "Node";
static const char* jkSubplanDataSink = "DataSink";
static cJSON* subplanToJson(const SSubplan* subplan) {
cJSON* jSubplan = cJSON_CreateObject();
@ -734,6 +799,9 @@ static cJSON* subplanToJson(const SSubplan* subplan) {
if (res) {
res = addObject(jSubplan, jkSubplanNode, phyNodeToJson, subplan->pNode);
}
if (res) {
res = addObject(jSubplan, jkSubplanDataSink, dataSinkToJson, subplan->pDataSink);
}
if (!res) {
cJSON_Delete(jSubplan);
@ -751,6 +819,9 @@ static SSubplan* subplanFromJson(const cJSON* json) {
if (res) {
res = fromObjectWithAlloc(json, jkSubplanNode, phyNodeFromJson, (void**)&subplan->pNode, sizeof(SPhyNode), false);
}
if (res) {
res = fromObjectWithAlloc(json, jkSubplanDataSink, dataSinkFromJson, (void**)&subplan->pDataSink, sizeof(SDataSink), false);
}
if (!res) {
qDestroySubplan(subplan);
@ -759,13 +830,22 @@ static SSubplan* subplanFromJson(const cJSON* json) {
return subplan;
}
int32_t subPlanToString(const SSubplan* subplan, char** str) {
int32_t subPlanToString(const SSubplan* subplan, char** str, int32_t* len) {
if (QUERY_TYPE_MODIFY == subplan->type) {
SDataInserter* insert = (SDataInserter*)(subplan->pDataSink);
*len = insert->size;
*str = insert->pData;
insert->pData == NULL;
return TSDB_CODE_SUCCESS;
}
cJSON* json = subplanToJson(subplan);
if (NULL == json) {
terrno = TSDB_CODE_TSC_OUT_OF_MEMORY;
return TSDB_CODE_FAILED;
}
*str = cJSON_Print(json);
*len = strlen(*str) + 1;
return TSDB_CODE_SUCCESS;
}

View File

@ -50,8 +50,8 @@ int32_t qSetSubplanExecutionNode(SSubplan* subplan, uint64_t templateId, SEpAddr
return setSubplanExecutionNode(subplan, templateId, ep);
}
int32_t qSubPlanToString(const SSubplan *subplan, char** str) {
return subPlanToString(subplan, str);
int32_t qSubPlanToString(const SSubplan *subplan, char** str, int32_t* len) {
return subPlanToString(subplan, str, len);
}
int32_t qStringToSubplan(const char* str, SSubplan** subplan) {

View File

@ -33,10 +33,6 @@ protected:
void pushScan(const string& db, const string& table, int32_t scanOp) {
shared_ptr<MockTableMeta> meta = mockCatalogService->getTableMeta(db, table);
EXPECT_TRUE(meta);
// typedef struct SQueryPlanNode {
// SArray *pExpr; // the query functions or sql aggregations
// int32_t numOfExpr; // number of result columns, which is also the number of pExprs
// } SQueryPlanNode;
unique_ptr<SQueryPlanNode> scan((SQueryPlanNode*)calloc(1, sizeof(SQueryPlanNode)));
scan->info.type = scanOp;
scan->numOfCols = meta->schema->tableInfo.numOfColumns;
@ -54,6 +50,21 @@ protected:
return code;
}
int32_t run(const string& db, const string& sql) {
SParseContext cxt;
buildParseContext(db, sql, &cxt);
SQueryNode* query;
int32_t code = qParseQuerySql(&cxt, &query);
if (TSDB_CODE_SUCCESS != code) {
cout << "error no:" << code << ", msg:" << cxt.pMsg << endl;
return code;
}
SQueryDag* dag = nullptr;
code = qCreateQueryDag(query, nullptr, &dag);
dag_.reset(dag);
return code;
}
void explain() {
size_t level = taosArrayGetSize(dag_->pSubplans);
for (size_t i = 0; i < level; ++i) {
@ -62,8 +73,10 @@ protected:
size_t num = taosArrayGetSize(subplans);
for (size_t j = 0; j < num; ++j) {
std::cout << "no " << j << ":" << std::endl;
int32_t len = 0;
char* str = nullptr;
ASSERT_EQ (TSDB_CODE_SUCCESS, qSubPlanToString((const SSubplan*)taosArrayGetP(subplans, j), &str));
ASSERT_EQ(TSDB_CODE_SUCCESS, qSubPlanToString((const SSubplan*)taosArrayGetP(subplans, j), &str, &len));
std::cout << "len:" << len << std::endl;
std::cout << str << std::endl;
free(str);
}
@ -107,6 +120,25 @@ private:
return info;
}
void buildParseContext(const string& db, const string& sql, SParseContext* pCxt) {
static string _db;
static string _sql;
static const int32_t _msgMaxLen = 4096;
static char _msg[_msgMaxLen];
_db = db;
_sql = sql;
memset(_msg, 0, _msgMaxLen);
pCxt->ctx.acctId = 1;
pCxt->ctx.db = _db.c_str();
pCxt->ctx.requestId = 1;
pCxt->pSql = _sql.c_str();
pCxt->sqlLen = _sql.length();
pCxt->pMsg = _msg;
pCxt->msgLen = _msgMaxLen;
}
shared_ptr<MockTableMeta> meta_;
unique_ptr<SQueryPlanNode> logicPlan_;
unique_ptr<SQueryDag> dag_;
@ -114,7 +146,7 @@ private:
// select * from table
TEST_F(PhyPlanTest, tableScanTest) {
pushScan("root.test", "t1", QNODE_TABLESCAN);
pushScan("test", "t1", QNODE_TABLESCAN);
ASSERT_EQ(run(), TSDB_CODE_SUCCESS);
explain();
SQueryDag* dag = reslut();
@ -123,9 +155,17 @@ TEST_F(PhyPlanTest, tableScanTest) {
// select * from supertable
TEST_F(PhyPlanTest, superTableScanTest) {
pushScan("root.test", "st1", QNODE_TABLESCAN);
pushScan("test", "st1", QNODE_TABLESCAN);
ASSERT_EQ(run(), TSDB_CODE_SUCCESS);
explain();
SQueryDag* dag = reslut();
// todo check
}
// insert into t values(...)
TEST_F(PhyPlanTest, insertTest) {
ASSERT_EQ(run("test", "insert into t1 values (now, 1, \"beijing\")"), TSDB_CODE_SUCCESS);
explain();
SQueryDag* dag = reslut();
// todo check
}

View File

@ -20,6 +20,8 @@
extern "C" {
#endif
#include "tlockfree.h"
#define QWORKER_DEFAULT_SCHEDULER_NUMBER 10000
#define QWORKER_DEFAULT_RES_CACHE_NUMBER 10000
#define QWORKER_DEFAULT_SCH_TASK_NUMBER 10000
@ -30,36 +32,63 @@ enum {
QW_READY_RESPONSED,
};
typedef struct SQWorkerTaskStatus {
int8_t status;
int8_t ready;
enum {
QW_TASK_INFO_STATUS = 1,
QW_TASK_INFO_READY,
};
enum {
QW_READ = 1,
QW_WRITE,
};
typedef struct SQWorkerTaskStatus {
SRWLatch lock;
int32_t code;
int8_t status;
int8_t ready;
bool cancel;
bool drop;
} SQWorkerTaskStatus;
typedef struct SQWorkerResCache {
SRWLatch lock;
void *data;
} SQWorkerResCache;
typedef struct SQWorkerSchTaskStatus {
typedef struct SQWorkerSchStatus {
int32_t lastAccessTs; // timestamp in second
SHashObj *taskStatus; // key:queryId+taskId, value: SQWorkerTaskStatus
} SQWorkerSchTaskStatus;
SRWLatch tasksLock;
SHashObj *tasksHash; // key:queryId+taskId, value: SQWorkerTaskStatus
} SQWorkerSchStatus;
// Qnode/Vnode level task management
typedef struct SQWorkerMgmt {
SQWorkerCfg cfg;
SHashObj *scheduleHash; //key: schedulerId, value: SQWorkerSchTaskStatus
SRWLatch schLock;
SRWLatch resLock;
SHashObj *schHash; //key: schedulerId, value: SQWorkerSchStatus
SHashObj *resHash; //key: queryId+taskId, value: SQWorkerResCache
} SQWorkerMgmt;
#define QW_TASK_DONE(status) (status == JOB_TASK_STATUS_SUCCEED || status == JOB_TASK_STATUS_FAILED || status == status == JOB_TASK_STATUS_CANCELLED)
#define QW_GOT_RES_DATA(data) (false)
#define QW_LOW_RES_DATA(data) (false)
#define QW_TASK_NOT_EXIST(code) (TSDB_CODE_QRY_SCH_NOT_EXIST == (code) || TSDB_CODE_QRY_TASK_NOT_EXIST == (code))
#define QW_TASK_ALREADY_EXIST(code) (TSDB_CODE_QRY_TASK_ALREADY_EXIST == (code))
#define QW_TASK_READY_RESP(status) (status == JOB_TASK_STATUS_SUCCEED || status == JOB_TASK_STATUS_FAILED || status == JOB_TASK_STATUS_CANCELLED || status == JOB_TASK_STATUS_PARTIAL_SUCCEED)
#define QW_SET_QTID(id, qid, tid) do { *(uint64_t *)(id) = (qid); *(uint64_t *)((char *)(id) + sizeof(qid)) = (tid); } while (0)
#define QW_GET_QTID(id, qid, tid) do { (qid) = *(uint64_t *)(id); (tid) = *(uint64_t *)((char *)(id) + sizeof(qid)); } while (0)
#define QW_ERR_RET(c) do { int32_t _code = c; if (_code != TSDB_CODE_SUCCESS) { terrno = _code; return _code; } } while (0)
#define QW_RET(c) do { int32_t _code = c; if (_code != TSDB_CODE_SUCCESS) { terrno = _code; } return _code; } while (0)
#define QW_ERR_LRET(c,...) do { int32_t _code = c; if (_code != TSDB_CODE_SUCCESS) { qError(__VA_ARGS__); terrno = _code; return _code; } } while (0)
#define QW_ERR_JRET(c) do { code = c; if (code != TSDB_CODE_SUCCESS) { terrno = code; goto _return; } } while (0)
#define QW_LOCK(type, _lock) (QW_READ == (type) ? taosRLockLatch(_lock) : taosWLockLatch(_lock))
#define QW_UNLOCK(type, _lock) (QW_READ == (type) ? taosRUnLockLatch(_lock) : taosWUnLockLatch(_lock))
#ifdef __cplusplus
}

File diff suppressed because it is too large Load Diff

View File

@ -31,17 +31,35 @@ extern "C" {
#define SCH_MAX_CONDIDATE_EP_NUM TSDB_MAX_REPLICA
enum {
SCH_READ = 1,
SCH_WRITE,
};
typedef struct SSchedulerMgmt {
uint64_t taskId;
uint64_t schedulerId;
SSchedulerCfg cfg;
SHashObj *Jobs; // key: queryId, value: SQueryJob*
SHashObj *jobs; // key: queryId, value: SQueryJob*
} SSchedulerMgmt;
typedef struct SQueryLevel {
int32_t level;
int8_t status;
SRWLatch lock;
int32_t taskFailed;
int32_t taskSucceed;
int32_t taskNum;
SArray *subTasks; // Element is SQueryTask
} SQueryLevel;
typedef struct SQueryTask {
uint64_t taskId; // task id
SQueryLevel *level; // level
SSubplan *plan; // subplan
char *msg; // operator tree
int32_t msgLen; // msg length
int8_t status; // task status
SEpAddr execAddr; // task actual executed node address
SQueryProfileSummary summary; // task execution summary
@ -50,21 +68,14 @@ typedef struct SQueryTask {
SArray *parents; // the data destination tasks, get data from current task, element is SQueryTask*
} SQueryTask;
typedef struct SQueryLevel {
int32_t level;
int8_t status;
int32_t taskNum;
SArray *subTasks; // Element is SQueryTask
} SQueryLevel;
typedef struct SQueryJob {
uint64_t queryId;
int32_t levelNum;
int32_t levelIdx;
int8_t status;
SQueryProfileSummary summary;
SEpSet dataSrcEps;
SEpAddr resEp;
SEpSet dataSrcEps;
SEpAddr resEp;
void *transport;
SArray *qnodeList;
tsem_t rspSem;
@ -74,6 +85,7 @@ typedef struct SQueryJob {
SHashObj *execTasks; // executing tasks, key:taskid, value:SQueryTask*
SHashObj *succTasks; // succeed tasks, key:taskid, value:SQueryTask*
SHashObj *failTasks; // failed tasks, key:taskid, value:SQueryTask*
SArray *levels; // Element is SQueryLevel, starting from 0.
SArray *subPlans; // Element is SArray*, and nested element is SSubplan. The execution level of subplan, starting from 0.
@ -81,7 +93,8 @@ typedef struct SQueryJob {
#define SCH_HAS_QNODE_IN_CLUSTER(type) (false) //TODO CLUSTER TYPE
#define SCH_TASK_READY_TO_LUNCH(task) ((task)->childReady >= taosArrayGetSize((task)->children)) // MAY NEED TO ENHANCE
#define SCH_IS_DATA_SRC_TASK(task) (task->plan->type == QUERY_TYPE_SCAN)
#define SCH_IS_DATA_SRC_TASK(task) ((task)->plan->type == QUERY_TYPE_SCAN)
#define SCH_TASK_NEED_WAIT_ALL(task) ((task)->plan->type == QUERY_TYPE_MODIFY)
#define SCH_JOB_ERR_LOG(param, ...) qError("QID:%"PRIx64 param, job->queryId, __VA_ARGS__)
#define SCH_TASK_ERR_LOG(param, ...) qError("QID:%"PRIx64",TID:%"PRIx64 param, job->queryId, task->taskId, __VA_ARGS__)
@ -91,6 +104,9 @@ typedef struct SQueryJob {
#define SCH_ERR_LRET(c,...) do { int32_t _code = c; if (_code != TSDB_CODE_SUCCESS) { qError(__VA_ARGS__); terrno = _code; return _code; } } while (0)
#define SCH_ERR_JRET(c) do { code = c; if (code != TSDB_CODE_SUCCESS) { terrno = code; goto _return; } } while (0)
#define SCH_LOCK(type, _lock) (SCH_READ == (type) ? taosRLockLatch(_lock) : taosWLockLatch(_lock))
#define SCH_UNLOCK(type, _lock) (SCH_READ == (type) ? taosRUnLockLatch(_lock) : taosWUnLockLatch(_lock))
extern int32_t schLaunchTask(SQueryJob *job, SQueryTask *task);

View File

@ -160,11 +160,19 @@ int32_t schValidateAndBuildJob(SQueryDag *dag, SQueryJob *job) {
SQueryLevel level = {0};
SArray *levelPlans = NULL;
int32_t levelPlanNum = 0;
SQueryLevel *pLevel = NULL;
level.status = JOB_TASK_STATUS_NOT_START;
for (int32_t i = 0; i < levelNum; ++i) {
level.level = i;
if (NULL == taosArrayPush(job->levels, &level)) {
qError("taosArrayPush failed");
SCH_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
pLevel = taosArrayGet(job->levels, i);
pLevel->level = i;
levelPlans = taosArrayGetP(dag->pSubplans, i);
if (NULL == levelPlans) {
qError("no level plans for level %d", i);
@ -177,10 +185,10 @@ int32_t schValidateAndBuildJob(SQueryDag *dag, SQueryJob *job) {
SCH_ERR_JRET(TSDB_CODE_QRY_INVALID_INPUT);
}
level.taskNum = levelPlanNum;
pLevel->taskNum = levelPlanNum;
level.subTasks = taosArrayInit(levelPlanNum, sizeof(SQueryTask));
if (NULL == level.subTasks) {
pLevel->subTasks = taosArrayInit(levelPlanNum, sizeof(SQueryTask));
if (NULL == pLevel->subTasks) {
qError("taosArrayInit %d failed", levelPlanNum);
SCH_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
@ -191,9 +199,10 @@ int32_t schValidateAndBuildJob(SQueryDag *dag, SQueryJob *job) {
task.taskId = atomic_add_fetch_64(&schMgmt.taskId, 1);
task.plan = plan;
task.level = pLevel;
task.status = JOB_TASK_STATUS_NOT_START;
void *p = taosArrayPush(level.subTasks, &task);
void *p = taosArrayPush(pLevel->subTasks, &task);
if (NULL == p) {
qError("taosArrayPush failed");
SCH_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
@ -205,10 +214,6 @@ int32_t schValidateAndBuildJob(SQueryDag *dag, SQueryJob *job) {
}
}
if (NULL == taosArrayPush(job->levels, &level)) {
qError("taosArrayPush failed");
SCH_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
}
SCH_ERR_JRET(schBuildTaskRalation(job, planToTask));
@ -220,8 +225,8 @@ int32_t schValidateAndBuildJob(SQueryDag *dag, SQueryJob *job) {
return TSDB_CODE_SUCCESS;
_return:
if (level.subTasks) {
taosArrayDestroy(level.subTasks);
if (pLevel->subTasks) {
taosArrayDestroy(pLevel->subTasks);
}
if (planToTask) {
@ -273,7 +278,23 @@ int32_t schMoveTaskToSuccList(SQueryJob *job, SQueryTask *task, bool *moved) {
return TSDB_CODE_SUCCESS;
}
if (0 != taosHashPut(job->execTasks, &task->taskId, sizeof(task->taskId), &task, POINTER_BYTES)) {
if (0 != taosHashPut(job->succTasks, &task->taskId, sizeof(task->taskId), &task, POINTER_BYTES)) {
qError("taosHashPut failed");
SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
*moved = true;
return TSDB_CODE_SUCCESS;
}
int32_t schMoveTaskToFailList(SQueryJob *job, SQueryTask *task, bool *moved) {
if (0 != taosHashRemove(job->execTasks, &task->taskId, sizeof(task->taskId))) {
qWarn("remove task[%"PRIx64"] from execTasks failed", task->taskId);
return TSDB_CODE_SUCCESS;
}
if (0 != taosHashPut(job->failTasks, &task->taskId, sizeof(task->taskId), &task, POINTER_BYTES)) {
qError("taosHashPut failed");
SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
@ -289,51 +310,76 @@ int32_t schAsyncSendMsg(SQueryJob *job, SQueryTask *task, int32_t msgType) {
void *msg = NULL;
switch (msgType) {
case TSDB_MSG_TYPE_SUBMIT: {
if (NULL == task->msg || task->msgLen <= 0) {
qError("submit msg is NULL");
SCH_ERR_RET(TSDB_CODE_SCH_INTERNAL_ERROR);
}
msgSize = task->msgLen;
msg = task->msg;
break;
}
case TSDB_MSG_TYPE_QUERY: {
if (NULL == task->msg) {
qError("query msg is NULL");
SCH_ERR_RET(TSDB_CODE_SCH_INTERNAL_ERROR);
}
int32_t len = strlen(task->msg);
msgSize = sizeof(SSchedulerQueryMsg) + len;
msgSize = sizeof(SSubQueryMsg) + task->msgLen;
msg = calloc(1, msgSize);
if (NULL == msg) {
qError("calloc %d failed", msgSize);
SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
SSchedulerQueryMsg *pMsg = msg;
SSubQueryMsg *pMsg = msg;
pMsg->schedulerId = htobe64(schMgmt.schedulerId);
pMsg->queryId = htobe64(job->queryId);
pMsg->taskId = htobe64(task->taskId);
pMsg->contentLen = htonl(len);
memcpy(pMsg->msg, task->msg, len);
pMsg->contentLen = htonl(task->msgLen);
memcpy(pMsg->msg, task->msg, task->msgLen);
break;
}
}
case TSDB_MSG_TYPE_RES_READY: {
msgSize = sizeof(SSchedulerReadyMsg);
msgSize = sizeof(SResReadyMsg);
msg = calloc(1, msgSize);
if (NULL == msg) {
qError("calloc %d failed", msgSize);
SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
SSchedulerReadyMsg *pMsg = msg;
SResReadyMsg *pMsg = msg;
pMsg->schedulerId = htobe64(schMgmt.schedulerId);
pMsg->queryId = htobe64(job->queryId);
pMsg->taskId = htobe64(task->taskId);
break;
}
case TSDB_MSG_TYPE_FETCH: {
msgSize = sizeof(SSchedulerFetchMsg);
msgSize = sizeof(SResFetchMsg);
msg = calloc(1, msgSize);
if (NULL == msg) {
qError("calloc %d failed", msgSize);
SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
SSchedulerFetchMsg *pMsg = msg;
SResFetchMsg *pMsg = msg;
pMsg->schedulerId = htobe64(schMgmt.schedulerId);
pMsg->queryId = htobe64(job->queryId);
pMsg->taskId = htobe64(task->taskId);
break;
}
case TSDB_MSG_TYPE_DROP_TASK:{
msgSize = sizeof(STaskDropMsg);
msg = calloc(1, msgSize);
if (NULL == msg) {
qError("calloc %d failed", msgSize);
SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
STaskDropMsg *pMsg = msg;
pMsg->schedulerId = htobe64(schMgmt.schedulerId);
pMsg->queryId = htobe64(job->queryId);
pMsg->taskId = htobe64(task->taskId);
break;
@ -344,6 +390,7 @@ int32_t schAsyncSendMsg(SQueryJob *job, SQueryTask *task, int32_t msgType) {
}
//TODO SEND MSG
//taosAsyncExec(rpcSendRequest(void * shandle, const SEpSet * pEpSet, SRpcMsg * pMsg, int64_t * pRid), p, &code);
return TSDB_CODE_SUCCESS;
}
@ -424,8 +471,29 @@ int32_t schProcessOnTaskSuccess(SQueryJob *job, SQueryTask *task) {
SCH_ERR_RET(TSDB_CODE_QRY_INVALID_INPUT);
}
strncpy(job->resEp.fqdn, task->execAddr.fqdn, sizeof(job->resEp.fqdn));
job->resEp.port = task->execAddr.port;
int32_t taskDone = 0;
if (SCH_TASK_NEED_WAIT_ALL(task)) {
SCH_LOCK(SCH_WRITE, &task->level->lock);
task->level->taskFailed++;
taskDone = task->level->taskSucceed + task->level->taskFailed;
SCH_UNLOCK(SCH_WRITE, &task->level->lock);
if (taskDone < task->level->taskNum) {
qDebug("wait all tasks, done:%d, all:%d", taskDone, task->level->taskNum);
return TSDB_CODE_SUCCESS;
}
if (task->level->taskFailed > 0) {
job->status = JOB_TASK_STATUS_FAILED;
SCH_ERR_RET(schProcessOnJobFailure(job));
return TSDB_CODE_SUCCESS;
}
} else {
strncpy(job->resEp.fqdn, task->execAddr.fqdn, sizeof(job->resEp.fqdn));
job->resEp.port = task->execAddr.port;
}
SCH_ERR_RET(schProcessOnJobSuccess(job));
@ -456,10 +524,30 @@ int32_t schProcessOnTaskSuccess(SQueryJob *job, SQueryTask *task) {
int32_t schProcessOnTaskFailure(SQueryJob *job, SQueryTask *task, int32_t errCode) {
bool needRetry = false;
bool moved = false;
int32_t taskDone = 0;
SCH_ERR_RET(schTaskCheckAndSetRetry(job, task, errCode, &needRetry));
if (!needRetry) {
SCH_TASK_ERR_LOG("task failed[%x], no more retry", errCode);
SCH_ERR_RET(schMoveTaskToFailList(job, task, &moved));
if (!moved) {
SCH_TASK_ERR_LOG("task may already moved, status:%d", task->status);
return TSDB_CODE_SUCCESS;
}
if (SCH_TASK_NEED_WAIT_ALL(task)) {
SCH_LOCK(SCH_WRITE, &task->level->lock);
task->level->taskFailed++;
taskDone = task->level->taskSucceed + task->level->taskFailed;
SCH_UNLOCK(SCH_WRITE, &task->level->lock);
if (taskDone < task->level->taskNum) {
qDebug("wait all tasks, done:%d, all:%d", taskDone, task->level->taskNum);
return TSDB_CODE_SUCCESS;
}
}
job->status = JOB_TASK_STATUS_FAILED;
SCH_ERR_RET(schProcessOnJobFailure(job));
@ -521,8 +609,7 @@ _return:
int32_t schLaunchTask(SQueryJob *job, SQueryTask *task) {
SSubplan *plan = task->plan;
SCH_ERR_RET(qSubPlanToString(plan, &task->msg));
SCH_ERR_RET(qSubPlanToString(plan, &task->msg, &task->msgLen));
if (plan->execEpSet.numOfEps <= 0) {
SCH_ERR_RET(schSetTaskExecEpSet(job, &plan->execEpSet));
}
@ -531,8 +618,10 @@ int32_t schLaunchTask(SQueryJob *job, SQueryTask *task) {
SCH_TASK_ERR_LOG("invalid execEpSet num:%d", plan->execEpSet.numOfEps);
SCH_ERR_RET(TSDB_CODE_SCH_INTERNAL_ERROR);
}
int32_t msgType = (plan->type == QUERY_TYPE_MODIFY) ? TSDB_MSG_TYPE_SUBMIT : TSDB_MSG_TYPE_QUERY;
SCH_ERR_RET(schAsyncSendMsg(job, task, TSDB_MSG_TYPE_QUERY));
SCH_ERR_RET(schAsyncSendMsg(job, task, msgType));
SCH_ERR_RET(schPushTaskToExecList(job, task));
@ -553,6 +642,25 @@ int32_t schLaunchJob(SQueryJob *job) {
return TSDB_CODE_SUCCESS;
}
void schDropJobAllTasks(SQueryJob *job) {
void *pIter = taosHashIterate(job->succTasks, NULL);
while (pIter) {
SQueryTask *task = *(SQueryTask **)pIter;
schAsyncSendMsg(job, task, TSDB_MSG_TYPE_DROP_TASK);
pIter = taosHashIterate(job->succTasks, pIter);
}
pIter = taosHashIterate(job->failTasks, NULL);
while (pIter) {
SQueryTask *task = *(SQueryTask **)pIter;
schAsyncSendMsg(job, task, TSDB_MSG_TYPE_DROP_TASK);
pIter = taosHashIterate(job->succTasks, pIter);
}
}
int32_t schedulerInit(SSchedulerCfg *cfg) {
if (cfg) {
@ -561,8 +669,8 @@ int32_t schedulerInit(SSchedulerCfg *cfg) {
schMgmt.cfg.maxJobNum = SCHEDULE_DEFAULT_JOB_NUMBER;
}
schMgmt.Jobs = taosHashInit(schMgmt.cfg.maxJobNum, taosGetDefaultHashFunction(TSDB_DATA_TYPE_UBIGINT), false, HASH_ENTRY_LOCK);
if (NULL == schMgmt.Jobs) {
schMgmt.jobs = taosHashInit(schMgmt.cfg.maxJobNum, taosGetDefaultHashFunction(TSDB_DATA_TYPE_UBIGINT), false, HASH_ENTRY_LOCK);
if (NULL == schMgmt.jobs) {
SCH_ERR_LRET(TSDB_CODE_QRY_OUT_OF_MEMORY, "init %d schduler jobs failed", schMgmt.cfg.maxJobNum);
}
@ -604,9 +712,15 @@ int32_t scheduleExecJob(void *transport, SArray *qnodeList, SQueryDag* pDag, voi
SCH_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
job->failTasks = taosHashInit(pDag->numOfSubplans, taosGetDefaultHashFunction(TSDB_DATA_TYPE_UBIGINT), false, HASH_ENTRY_LOCK);
if (NULL == job->failTasks) {
qError("taosHashInit %d failed", pDag->numOfSubplans);
SCH_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY);
}
tsem_init(&job->rspSem, 0, 0);
if (0 != taosHashPut(schMgmt.Jobs, &job->queryId, sizeof(job->queryId), &job, POINTER_BYTES)) {
if (0 != taosHashPut(schMgmt.jobs, &job->queryId, sizeof(job->queryId), &job, POINTER_BYTES)) {
qError("taosHashPut queryId:%"PRIx64" failed", job->queryId);
SCH_ERR_JRET(TSDB_CODE_SCH_INTERNAL_ERROR);
}
@ -658,6 +772,8 @@ _return:
int32_t scheduleCancelJob(void *pJob) {
//TODO
//TODO MOVE ALL TASKS FROM EXEC LIST TO FAIL LIST
return TSDB_CODE_SUCCESS;
}
@ -669,7 +785,7 @@ void scheduleFreeJob(void *pJob) {
SQueryJob *job = pJob;
if (job->status > 0) {
if (0 != taosHashRemove(schMgmt.Jobs, &job->queryId, sizeof(job->queryId))) {
if (0 != taosHashRemove(schMgmt.jobs, &job->queryId, sizeof(job->queryId))) {
qError("remove job:%"PRIx64"from mgmt failed", job->queryId); // maybe already freed
return;
}
@ -677,15 +793,17 @@ void scheduleFreeJob(void *pJob) {
if (job->status == JOB_TASK_STATUS_EXECUTING) {
scheduleCancelJob(pJob);
}
schDropJobAllTasks(job);
}
//TODO free job
}
void schedulerDestroy(void) {
if (schMgmt.Jobs) {
taosHashCleanup(schMgmt.Jobs); //TODO
schMgmt.Jobs = NULL;
if (schMgmt.jobs) {
taosHashCleanup(schMgmt.jobs); //TODO
schMgmt.jobs = NULL;
}
}

View File

@ -170,6 +170,7 @@ int32_t walReadWithHandle(SWalReadHandle *pRead, int64_t ver) {
return 0;
}
#if 0
int32_t walRead(SWal *pWal, SWalHead **ppHead, int64_t ver) {
int code;
code = walSeekVer(pWal, ver);
@ -207,6 +208,7 @@ int32_t walRead(SWal *pWal, SWalHead **ppHead, int64_t ver) {
return 0;
}
/*int32_t walReadWithFp(SWal *pWal, FWalWrite writeFp, int64_t verStart, int32_t readNum) {*/
/*return 0;*/
/*}*/
int32_t walReadWithFp(SWal *pWal, FWalWrite writeFp, int64_t verStart, int32_t readNum) {
return 0;
}
#endif

View File

@ -323,7 +323,10 @@ TAOS_DEFINE_ERROR(TSDB_CODE_QRY_INCONSISTAN, "File inconsistance in
TAOS_DEFINE_ERROR(TSDB_CODE_QRY_INVALID_TIME_CONDITION, "One valid time range condition expected")
TAOS_DEFINE_ERROR(TSDB_CODE_QRY_SYS_ERROR, "System error")
TAOS_DEFINE_ERROR(TSDB_CODE_QRY_INVALID_INPUT, "invalid input")
TAOS_DEFINE_ERROR(TSDB_CODE_QRY_SCH_NOT_EXIST, "Scheduler not exist")
TAOS_DEFINE_ERROR(TSDB_CODE_QRY_TASK_NOT_EXIST, "Task not exist")
TAOS_DEFINE_ERROR(TSDB_CODE_QRY_TASK_ALREADY_EXIST, "Task already exist")
TAOS_DEFINE_ERROR(TSDB_CODE_QRY_RES_CACHE_NOT_EXIST, "Task result cache not exist")
// grant
TAOS_DEFINE_ERROR(TSDB_CODE_GRANT_EXPIRED, "License expired")

View File

@ -291,7 +291,7 @@ int32_t taosHashPut(SHashObj *pHashObj, const void *key, size_t keyLen, void *da
// enable resize
__rd_unlock(&pHashObj->lock, pHashObj->type);
return pHashObj->enableUpdate ? 0 : -1;
return pHashObj->enableUpdate ? 0 : -2;
}
}

View File

@ -38,6 +38,7 @@ int32_t tWorkerInit(SWorkerPool *pool) {
void tWorkerCleanup(SWorkerPool *pool) {
for (int i = 0; i < pool->max; ++i) {
SWorker *worker = pool->workers + i;
if (worker == NULL) continue;
if (taosCheckPthreadValid(worker->thread)) {
taosQsetThreadResume(pool->qset);
}
@ -45,6 +46,7 @@ void tWorkerCleanup(SWorkerPool *pool) {
for (int i = 0; i < pool->max; ++i) {
SWorker *worker = pool->workers + i;
if (worker == NULL) continue;
if (taosCheckPthreadValid(worker->thread)) {
pthread_join(worker->thread, NULL);
}