#include "../../src/todbc_log.h" #ifdef _MSC_VER #include #include #include "os.h" #endif #include #include #include #include "taos.h" #include "taoserror.h" #include #include #define CHK_TEST(statement) \ do { \ D("testing: %s", #statement); \ int _r = (statement); \ if (_r) { \ D("testing failed: %s", #statement); \ return 1; \ } \ } while (0); typedef struct { int batch_size; int batchs; int keep_stmt_among_batchs; int use_odbc; int use_taos_query; int use_taos_stmt; } insert_arg_t; typedef struct db_column_s db_column_t; struct db_column_s { SQLSMALLINT nameLength; char name[4096]; // seems enough SQLSMALLINT dataType; SQLULEN columnSize; SQLSMALLINT decimalDigits; SQLSMALLINT nullable; }; static db_column_t *columns = NULL; typedef struct data_s data_t; struct data_s { int64_t ts; int8_t b; int8_t v1; int16_t v2; int32_t v4; int64_t v8; float f4; double f8; char bin[40+1]; char blob[40+1]; // why 80? ref: tests/examples/c/apitest.c }; #define CHK_RESULT(r, ht, h, fmt, ...) \ do { \ if (r==0) break; \ SQLSMALLINT i_0381 = 1; \ while (1) { \ SQLCHAR ss[10]; \ SQLINTEGER ne = 0; \ SQLCHAR es[4096]; \ SQLSMALLINT n = 0; \ ss[0] = '\0'; \ es[0] = '\0'; \ SQLRETURN ret = SQLGetDiagRec(ht, h, i_0381, ss, &ne, es, sizeof(es), &n); \ if (ret) break; \ D("[%s]%s: " fmt "", ss, es, ##__VA_ARGS__); \ ++i_0381; \ } \ } while (0) static int open_connect(const char *dsn, const char *uid, const char *pwd, SQLHENV *pEnv, SQLHDBC *pConn) { SQLRETURN r; SQLHENV env = {0}; SQLHDBC conn = {0}; r = SQLAllocEnv(&env); if (r!=SQL_SUCCESS) return 1; do { r = SQLAllocConnect(env, &conn); CHK_RESULT(r, SQL_HANDLE_ENV, env, ""); if (r!=SQL_SUCCESS) break; do { r = SQLConnect(conn, (SQLCHAR*)dsn, (SQLSMALLINT)(dsn ? strlen(dsn) : 0), (SQLCHAR*)uid, (SQLSMALLINT)(uid ? strlen(uid) : 0), (SQLCHAR*)pwd, (SQLSMALLINT)(pwd ? strlen(pwd) : 0)); CHK_RESULT(r, SQL_HANDLE_DBC, conn, ""); if (r==SQL_SUCCESS) { *pEnv = env; *pConn = conn; return 0; } } while (0); SQLFreeConnect(conn); } while (0); SQLFreeEnv(env); return 1; } static int open_driver_connect(const char *connstr, SQLHENV *pEnv, SQLHDBC *pConn) { SQLRETURN r; SQLHENV env = {0}; SQLHDBC conn = {0}; r = SQLAllocEnv(&env); if (r!=SQL_SUCCESS) return 1; do { r = SQLAllocConnect(env, &conn); CHK_RESULT(r, SQL_HANDLE_ENV, env, ""); if (r!=SQL_SUCCESS) break; do { SQLCHAR buf[4096]; SQLSMALLINT blen = 0; SQLHDBC ConnectionHandle = conn; SQLHWND WindowHandle = NULL; SQLCHAR * InConnectionString = (SQLCHAR*)connstr; SQLSMALLINT StringLength1 = (SQLSMALLINT)(connstr ? strlen(connstr) : 0); SQLCHAR * OutConnectionString = buf; SQLSMALLINT BufferLength = sizeof(buf); SQLSMALLINT * StringLength2Ptr = &blen; SQLUSMALLINT DriverCompletion = SQL_DRIVER_NOPROMPT; r = SQLDriverConnect(ConnectionHandle, WindowHandle, InConnectionString, StringLength1, OutConnectionString, BufferLength, StringLength2Ptr, DriverCompletion); CHK_RESULT(r, SQL_HANDLE_DBC, conn, ""); if (r==SQL_SUCCESS) { *pEnv = env; *pConn = conn; return 0; } } while (0); SQLFreeConnect(conn); } while (0); SQLFreeEnv(env); return 1; } static SQLRETURN traverse_cols(SQLHSTMT stmt, SQLSMALLINT cols) { SQLRETURN r = SQL_ERROR; for (SQLSMALLINT i=0; i0) fprintf(stdout, "\n"); return r; } } if (soi==SQL_NULL_DATA) { fprintf(stdout, "%snull", i==0?"":","); } else { fprintf(stdout, "%s\"%s\"", i==0?"":",", buf); } } fprintf(stdout, "\n"); } } while (0); return r; } int test_statements(const char *dsn, const char *uid, const char *pwd, const char **statements) { SQLRETURN r = SQL_SUCCESS; SQLHENV env = {0}; SQLHDBC conn = {0}; int n = open_connect(dsn, uid, pwd, &env, &conn); if (n) return 1; do { SQLHSTMT stmt = {0}; r = SQLAllocHandle(SQL_HANDLE_STMT, conn, &stmt); if (r!=SQL_SUCCESS) break; const char **p = statements; while (*p) { if (do_statement(stmt, *p)) { r = SQL_ERROR; break; } ++p; } SQLFreeHandle(SQL_HANDLE_STMT, stmt); } while (0); SQLDisconnect(conn); SQLFreeConnect(conn); SQLFreeEnv(env); return r ? 1 : 0; } int test_driver_connect(const char *connstr) { SQLRETURN r = SQL_SUCCESS; SQLHENV env = {0}; SQLHDBC conn = {0}; int n = open_driver_connect(connstr, &env, &conn); if (n) return 1; SQLDisconnect(conn); SQLFreeConnect(conn); SQLFreeEnv(env); return r ? 1 : 0; } int create_statement(SQLHENV env, SQLHDBC conn, SQLHSTMT *pStmt) { SQLHSTMT stmt = {0}; SQLRETURN r = SQLAllocHandle(SQL_HANDLE_STMT, conn, &stmt); CHK_RESULT(r, SQL_HANDLE_DBC, conn, ""); if (r==SQL_SUCCESS) { *pStmt = stmt; return 0; } if (r==SQL_SUCCESS_WITH_INFO) { SQLFreeHandle(SQL_HANDLE_STMT, stmt); } return 1; } int do_statements(SQLHSTMT stmt, const char **statements) { const char **p = statements; while (p && *p) { CHK_TEST(do_statement(stmt, *p)); ++p; } return 0; } int tests_stmt(SQLHENV env, SQLHDBC conn, SQLHSTMT stmt) { const char *statements[] = { "drop database if exists m", "create database m", "use m", // "create table t (ts timestamp, b bool, v1 tinyint, v2 smallint, v4 int, v8 bigint, f4 float, f8 double, blob binary(1), name nchar(1))", "create table t (ts timestamp, b bool)", "insert into t values('2020-10-10 00:00:00', 0)", "insert into t values('2020-10-10 00:00:00.001', 1)", NULL }; CHK_TEST(do_statements(stmt, statements)); return 0; } int tests(SQLHENV env, SQLHDBC conn) { SQLHSTMT stmt = {0}; CHK_TEST(create_statement(env, conn, &stmt)); int r = tests_stmt(env, conn, stmt); SQLFreeHandle(SQL_HANDLE_STMT, stmt); return r ? 1 : 0; } int test_env(void) { SQLRETURN r; SQLHENV env = {0}; r = SQLAllocEnv(&env); if (r!=SQL_SUCCESS) return 1; SQLFreeEnv(env); return 0; } static int test_sqls_in_stmt(SQLHENV env, SQLHDBC conn, SQLHSTMT stmt, const char *sqls) { FILE *f = fopen(sqls, "rb"); if (!f) { D("failed to open file [%s]", sqls); return -1; } int r = 0; while (!feof(f)) { char *line = NULL; size_t len = 0; ssize_t n = 0; #ifdef _MSC_VER n = taosGetlineImp(&line, &len, f); #else n = getline(&line, &len, f); #endif if (n==-1) break; const char *p = NULL; do { if (line[0] == '#') break; if (n>0 && line[n-1] == '\n') line[n-1]='\0'; if (n>0 && line[n-1] == '\r') line[n-1]='\0'; if (n>1 && line[n-2] == '\r') line[n-2]='\0'; p = line; while (isspace(*p)) ++p; if (*p==0) break; int positive = 1; if (strncmp(p, "N:", 2)==0) { // negative sample positive = 0; p += 2; } else if (strncmp(p, "P:", 2)==0) { // positive sample p += 2; } D("statement: [%s]", p); r = do_statement(stmt, p); if (positive && r==0) break; if (!positive && r) { r = 0; break; } if (positive) return r; D("expecting negative result, but got positive"); return -1; } while (0); free(line); if (r) break; } fclose(f); return r ? 1 : 0; } static int test_sqls_in_conn(SQLHENV env, SQLHDBC conn, const char *sqls) { SQLHSTMT stmt = {0}; CHK_TEST(create_statement(env, conn, &stmt)); int r = test_sqls_in_stmt(env, conn, stmt, sqls); SQLFreeHandle(SQL_HANDLE_STMT, stmt); return r ? 1 : 0; } static int test_sqls(const char *dsn, const char *uid, const char *pwd, const char *connstr, const char *sqls) { int r = 0; SQLHENV env = {0}; SQLHDBC conn = {0}; if (dsn) { CHK_TEST(open_connect(dsn, uid, pwd, &env, &conn)); } else { CHK_TEST(open_driver_connect(connstr, &env, &conn)); } if (sqls) { r = test_sqls_in_conn(env, conn, sqls); } SQLDisconnect(conn); SQLFreeConnect(conn); SQLFreeEnv(env); return r ? 1 : 0; } typedef struct record_s record_t; struct record_s { int dummy; char ts[64]; SQLLEN ts_len; int32_t v1; SQLLEN v1_len; char ts2[64]; SQLLEN ts2_len; }; static int do_prepare_in_stmt(SQLHENV env, SQLHDBC conn, SQLHSTMT stmt) { SQLRETURN r = SQL_SUCCESS; do { const char *sql = "insert into m.v (ts, v1, ts2) values (?, ?, ?)"; r = SQLPrepare(stmt, (SQLCHAR*)sql, SQL_NTS); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); record_t records[] = { {0, "2020-01-03 11:22:33.345", SQL_NTS, 1, sizeof(int32_t), "2020-01-02 11:22:33.455", SQL_NTS}, {0, "2020-01-03 11:22:34.346", SQL_NTS, 2, sizeof(int32_t), "2020-01-02 11:22:34.445", SQL_NTS}, {0, "2020-01-04 11:22:34.345", SQL_NTS, 2, sizeof(int32_t), "2020-01-02 11:22:34.445", SQL_NTS}, {0, "2020-01-05 11:22:34.345", SQL_NTS, 2, sizeof(int32_t), "2020-01-02 11:22:34.445", SQL_NTS}, }; record_t *base = (record_t*)0; r = SQLBindParameter(stmt, 1, SQL_PARAM_INPUT, SQL_C_CHAR, SQL_CHAR, sizeof(base->ts)-1, 0, base->ts, sizeof(base->ts), &(base->ts_len)); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; r = SQLBindParameter(stmt, 2, SQL_PARAM_INPUT, SQL_C_LONG, SQL_INTEGER, 0, 0, &base->v1, 0, &(base->v1_len)); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; r = SQLBindParameter(stmt, 3, SQL_PARAM_INPUT, SQL_C_CHAR, SQL_CHAR, sizeof(base->ts2)-1, 0, base->ts2, sizeof(base->ts2), &(base->ts2_len)); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; SQLSetStmtAttr(stmt, SQL_ATTR_PARAM_BIND_TYPE, (SQLPOINTER)sizeof(*base), 0); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; SQLSetStmtAttr(stmt, SQL_ATTR_PARAMSET_SIZE, (SQLPOINTER)(sizeof(records)/sizeof(records[0])), 0); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; record_t *record = NULL; SQLSetStmtAttr(stmt, SQL_ATTR_PARAM_BIND_OFFSET_PTR, &record, 0); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; record = records; r = SQLExecute(stmt); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; } while (0); return r ? -1 : 0; } static int do_prepare_in_conn(SQLHENV env, SQLHDBC conn) { SQLHSTMT stmt = {0}; CHK_TEST(create_statement(env, conn, &stmt)); int r = do_prepare_in_stmt(env, conn, stmt); SQLFreeHandle(SQL_HANDLE_STMT, stmt); return r ? 1 : 0; } static int do_prepare(const char *dsn, const char *uid, const char *pwd, const char *connstr) { int r = 0; SQLHENV env = {0}; SQLHDBC conn = {0}; if (dsn) { CHK_TEST(open_connect(dsn, uid, pwd, &env, &conn)); } else { CHK_TEST(open_driver_connect(connstr, &env, &conn)); } r = do_prepare_in_conn(env, conn); SQLDisconnect(conn); SQLFreeConnect(conn); SQLFreeEnv(env); return r ? 1 : 0; } typedef struct { int dummy; int64_t ts; SQLLEN ts_len; int8_t v1; SQLLEN v1_len; int16_t v2; SQLLEN v2_len; int32_t v4; SQLLEN v4_len; int64_t v8; SQLLEN v8_len; } test_v_t; static int do_insert_in_stmt(SQLHENV env, SQLHDBC conn, SQLHSTMT stmt, int64_t *ts, insert_arg_t *arg) { SQLRETURN r = SQL_SUCCESS; int batch_size = arg->batch_size; test_v_t *recs = NULL; do { const char *sql = "insert into test.v (ts, v1, v2, v4, v8) values (?, ?, ?, ?, ?)"; r = SQLPrepare(stmt, (SQLCHAR*)sql, SQL_NTS); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); test_v_t *base = NULL; r = SQLBindParameter(stmt, 1, SQL_PARAM_INPUT, SQL_C_SBIGINT, SQL_BIGINT, 0, 0, &base->ts, 0, &base->ts_len); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; r = SQLBindParameter(stmt, 2, SQL_PARAM_INPUT, SQL_C_TINYINT, SQL_TINYINT, 0, 0, &base->v1, 0, &base->v1_len); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; r = SQLBindParameter(stmt, 3, SQL_PARAM_INPUT, SQL_C_SHORT, SQL_SMALLINT, 0, 0, &base->v2, 0, &base->v2_len); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; r = SQLBindParameter(stmt, 4, SQL_PARAM_INPUT, SQL_C_LONG, SQL_INTEGER, 0, 0, &base->v4, 0, &base->v4_len); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; r = SQLBindParameter(stmt, 5, SQL_PARAM_INPUT, SQL_C_SBIGINT, SQL_BIGINT, 0, 0, &base->v8, 0, &base->v8_len); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; SQLSetStmtAttr(stmt, SQL_ATTR_PARAM_BIND_TYPE, (SQLPOINTER)sizeof(*base), 0); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; base = NULL; SQLSetStmtAttr(stmt, SQL_ATTR_PARAM_BIND_OFFSET_PTR, &base, 0); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; size_t n_recs = (size_t)batch_size; recs = (test_v_t*)calloc(n_recs, sizeof(*recs)); OILE(recs, ""); SQLSetStmtAttr(stmt, SQL_ATTR_PARAMSET_SIZE, (SQLPOINTER)n_recs, 0); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; base = recs; for (int batch=0; batchbatchs; ++batch) { for (int i=0; idummy = 0; rec->ts = *ts + i; rec->ts_len = sizeof(rec->ts); rec->v1 = (int8_t)rand(); rec->v1_len = sizeof(rec->v1); rec->v2 = (int16_t)rand(); rec->v2_len = sizeof(rec->v2); rec->v4 = rand(); rec->v4_len = sizeof(rec->v4); rec->v8 = rand(); rec->v8_len = sizeof(rec->v8); } *ts += (int64_t)n_recs; r = SQLExecute(stmt); CHK_RESULT(r, SQL_HANDLE_STMT, stmt, ""); if (r) break; } } while (0); free(recs); return r ? -1 : 0; } static int do_insert_in_conn(SQLHENV env, SQLHDBC conn, insert_arg_t *arg) { SQLHSTMT stmt = {0}; int64_t ts = 1502535178128; int r = 0; CHK_TEST(create_statement(env, conn, &stmt)); for (int i=0; i<1 && ibatchs; ++i) { r = do_insert_in_stmt(env, conn, stmt, &ts, arg); if (r) break; if (!arg->keep_stmt_among_batchs) { SQLFreeHandle(SQL_HANDLE_STMT, stmt); r = create_statement(env, conn, &stmt); if (r) break; } } SQLFreeHandle(SQL_HANDLE_STMT, stmt); return r ? 1 : 0; } static int do_insert_batch(const char *dsn, const char *uid, const char *pwd, const char *connstr, insert_arg_t *arg, const char *sqls[]) { int r = 0; SQLHENV env = {0}; SQLHDBC conn = {0}; if (dsn) { CHK_TEST(open_connect(dsn, uid, pwd, &env, &conn)); } else { CHK_TEST(open_driver_connect(connstr, &env, &conn)); } SQLHSTMT stmt = {0}; CHK_TEST(create_statement(env, conn, &stmt)); CHK_TEST(do_statements(stmt, sqls)); SQLFreeHandle(SQL_HANDLE_STMT, stmt); OD("................"); r = do_insert_in_conn(env, conn, arg); OD("................"); SQLDisconnect(conn); SQLFreeConnect(conn); SQLFreeEnv(env); return r ? 1 : 0; } static int inited = 0; static void init_once(void) { if (inited) return; int r = taos_init(); if (r) OILE(0, ""); inited = 1; } static int do_sqls(TAOS *taos, const char *sqls[]) { for (int i=0; sqls[i]; ++i) { OD("[%s]", sqls[i]); TAOS_RES *res = taos_query(taos, sqls[i]); if (!res) { int e = terrno; OD("taos_query [%s] failed: [%d]%s", sqls[i], e, tstrerror(e)); return -1; } int e = taos_errno(res); if (e) { OD("taos_query [%s] failed: [%d]%s", sqls[i], e, tstrerror(e)); } taos_stop_query(res); if (e) return -1; } return 0; } static int do_taos_query(TAOS *taos, insert_arg_t *arg) { char **sqls = (char**)calloc((size_t)arg->batchs, sizeof(*sqls)); if (!sqls) { OILE(0, "out of memory"); } int64_t ts = 1502535178128; for (int i=0; ibatchs; ++i) { size_t bytes = 100 * (size_t)arg->batch_size; sqls[i] = (char*)malloc(bytes); OILE(sqls[i], ""); char *p = sqls[i]; size_t count = 0; while (1) { int n = 0; n = snprintf(p, bytes, "insert into test.v values"); OILE(n>0, ""); if (p) p += n; OILE(bytes>n, ""); if (bytes>=n) bytes -= (size_t)n; else bytes = 0; count += (size_t)n; for (int j=0; jbatch_size; ++j) { int8_t v1 = (int8_t)rand(); if (v1==INT8_MIN) v1++; int16_t v2 = (int16_t)rand(); if (v2==INT16_MIN) v2++; int32_t v4 = (int32_t)rand(); if (v4==INT32_MIN) v4++; int64_t v8 = (int64_t)rand(); if (v8==INT64_MIN) v8++; n = snprintf(p, bytes, " (%" PRId64 ", %d, %d, %d, %" PRId64 ")", ts + i*arg->batch_size + j, (int)v1, (int)v2, v4, v8); OILE(n>0, ""); if (p) p += n; OILE(bytes>n, ""); if (bytes>=n) bytes -= (size_t)n; else bytes = 0; count += (size_t)n; } if (p) break; OILE(0, ""); } } OD(".............."); for (int i=0; ibatchs; ++i) { TAOS_RES *res = taos_query(taos, sqls[i]); if (!res) { int e = terrno; OD("taos_query [%s] failed: [%d]%s", sqls[i], e, tstrerror(e)); return -1; } int e = taos_errno(res); if (e) { OD("taos_query [%s] failed: [%d]%s", sqls[i], e, tstrerror(e)); } taos_stop_query(res); if (e) return -1; } OD(".............."); for (int i=0; ibatchs; ++i) { free(sqls[i]); } free(sqls); return 0; } static int do_taos_stmt(TAOS *taos, insert_arg_t *arg) { TAOS_STMT *stmt = taos_stmt_init(taos); OILE(stmt, ""); const char *sql = "insert into test.v values (?,?,?,?,?)"; int r = 0; do { r = taos_stmt_prepare(stmt, sql, (unsigned long)strlen(sql)); if (r) { OD("taos_stmt_prepare [%s] failed: [%d]%s", sql, r, tstrerror(r)); break; } int64_t ts = 1502535178128; TAOS_BIND *bindings = (TAOS_BIND*)calloc(5, sizeof(*bindings)); TAOS_BIND *b_ts = bindings + 0; TAOS_BIND *b_v1 = bindings + 1; TAOS_BIND *b_v2 = bindings + 2; TAOS_BIND *b_v4 = bindings + 3; TAOS_BIND *b_v8 = bindings + 4; b_ts->buffer_type = TSDB_DATA_TYPE_TIMESTAMP; b_ts->buffer_length = sizeof(b_ts->u.ts); b_ts->length = &b_ts->buffer_length; b_ts->buffer = &b_ts->u.ts; b_ts->is_null = NULL; b_v1->buffer_type = TSDB_DATA_TYPE_TINYINT; b_v1->buffer_length = sizeof(b_v1->u.v1); b_v1->length = &b_v1->buffer_length; b_v1->buffer = &b_v1->u.v1; b_v1->is_null = NULL; b_v2->buffer_type = TSDB_DATA_TYPE_SMALLINT; b_v2->buffer_length = sizeof(b_v2->u.v2); b_v2->length = &b_v2->buffer_length; b_v2->buffer = &b_v2->u.v2; b_v2->is_null = NULL; b_v4->buffer_type = TSDB_DATA_TYPE_INT; b_v4->buffer_length = sizeof(b_v4->u.v4); b_v4->length = &b_v4->buffer_length; b_v4->buffer = &b_v4->u.v4; b_v4->is_null = NULL; b_v8->buffer_type = TSDB_DATA_TYPE_BIGINT; b_v8->buffer_length = sizeof(b_v8->u.v8); b_v8->length = &b_v8->buffer_length; b_v8->buffer = &b_v8->u.v8; b_v8->is_null = NULL; OILE(bindings, ""); OD("................"); for (int i=0; ibatchs; ++i) { for (int j=0; jbatch_size; ++j) { b_ts->u.ts = ts + i*arg->batch_size + j; b_v1->u.v1 = (int8_t)rand(); b_v2->u.v2 = (int16_t)rand(); b_v4->u.v4 = (int32_t)rand(); b_v8->u.v8 = (int64_t)rand(); r = taos_stmt_bind_param(stmt, bindings); if (r) { OD("taos_stmt_bind_param failed: [%d]%s", r, tstrerror(r)); break; } r = taos_stmt_add_batch(stmt); if (r) { OD("taos_stmt_add_batch failed: [%d]%s", r, tstrerror(r)); break; } } if (r) break; r = taos_stmt_execute(stmt); if (r) { OD("taos_stmt_execute failed: [%d]%s", r, tstrerror(r)); break; } } OD("................"); free(bindings); if (r) break; } while (0); taos_stmt_close(stmt); return r ? -1 : 0; } static int do_insert_batch_taos(const char *dsn, const char *uid, const char *pwd, const char *connstr, insert_arg_t *arg, const char *sqls[]) { int r = 0; init_once(); int port = 0; char *ip = NULL; const char *p = strchr(connstr, ':'); if (p) { ip = strndup(connstr, (size_t)(p-connstr)); ++p; sscanf(p, "%d", &port); } else { ip = strdup(connstr); port = 6030; } if (!ip) { OD("bad ip/port:[%s]", connstr); return -1; } TAOS *taos = NULL; do { taos = taos_connect(ip, uid, pwd, NULL, (uint16_t)port); if (!taos) { int e = terrno; OD("taos_connect [%s/%d] failed:[%d]%s", ip, port, e, tstrerror(e)); break; } r = do_sqls(taos, sqls); if (r) break; if (arg->use_taos_query) { r = do_taos_query(taos, arg); } else if (arg->use_taos_stmt) { r = do_taos_stmt(taos, arg); } else { OILE(0, ""); } } while (0); if (taos) taos_close(taos); free(ip); return r ? 1 : 0; } static int do_debug_col_name_max_len(const char *dsn, const char *uid, const char *pwd, const char *connstr) { SQLRETURN r; SQLHENV env = {0}; SQLHDBC conn = {0}; r = SQLAllocEnv(&env); if (r!=SQL_SUCCESS) { D("SQLAllocEnv failed"); return 1; }; do { r = SQLAllocConnect(env, &conn); CHK_RESULT(r, SQL_HANDLE_ENV, env, ""); if (r!=SQL_SUCCESS) break; do { if (dsn) { r = SQLConnect(conn, (SQLCHAR*)dsn, (SQLSMALLINT)(dsn ? strlen(dsn) : 0), (SQLCHAR*)uid, (SQLSMALLINT)(uid ? strlen(uid) : 0), (SQLCHAR*)pwd, (SQLSMALLINT)(pwd ? strlen(pwd) : 0)); } else { SQLCHAR buf[4096]; SQLSMALLINT blen = 0; SQLHDBC ConnectionHandle = conn; SQLHWND WindowHandle = NULL; SQLCHAR * InConnectionString = (SQLCHAR*)connstr; SQLSMALLINT StringLength1 = (SQLSMALLINT)(connstr ? strlen(connstr) : 0); SQLCHAR * OutConnectionString = buf; SQLSMALLINT BufferLength = sizeof(buf); SQLSMALLINT * StringLength2Ptr = &blen; SQLUSMALLINT DriverCompletion = SQL_DRIVER_NOPROMPT; r = SQLDriverConnect(ConnectionHandle, WindowHandle, InConnectionString, StringLength1, OutConnectionString, BufferLength, StringLength2Ptr, DriverCompletion); } CHK_RESULT(r, SQL_HANDLE_DBC, conn, ""); if (r!=SQL_SUCCESS) break; D("connected"); if (1) { SQLSMALLINT maxColumnNameLength = 0; SQLSMALLINT len = 0; r = SQLGetInfo(conn, SQL_MAX_COLUMN_NAME_LEN, &maxColumnNameLength, sizeof(SQLSMALLINT), &len); CHK_RESULT(r, SQL_HANDLE_DBC, conn, ""); if (r!=SQL_SUCCESS) break; D("maxColumnNameLength: %d", maxColumnNameLength); } } while (0); SQLFreeConnect(conn); conn = NULL; } while (0); SQLFreeEnv(env); env = NULL; return (r==SQL_SUCCESS) ? 0 : 1; } void usage(const char *arg0) { fprintf(stdout, "%s usage:\n", arg0); fprintf(stdout, "%s [--dsn ] [--uid ] [--pwd ] [-C ] [--sts ]\n", arg0); fprintf(stdout, " --dsn : DSN\n"); fprintf(stdout, " --uid : UID\n"); fprintf(stdout, " --pwd : PWD\n"); fprintf(stdout, " -C : driver connection string\n"); fprintf(stdout, " --sts : file where statements store\n"); } int main(int argc, char *argv[]) { srand((unsigned)time(0)); const char *conn_str = NULL; const char *dsn = NULL; const char *uid = NULL; const char *pwd = NULL; const char *sts = NULL; // statements file int debug_col_name_max_len = 0; int prepare = 0; int insert = 0; insert_arg_t insert_arg = { .batch_size = 100, .batchs = 100, .keep_stmt_among_batchs = 0 }; for (size_t i=1; i=argc) { D(" expected but got nothing"); return 1; } sscanf(argv[i], "%d", &insert_arg.batch_size); if (insert_arg.batch_size<=0) { D(" invalid"); return 1; } continue; } if (strcmp(arg, "--batchs")==0) { ++i; if (i>=argc) { D(" expected but got nothing"); return 1; } sscanf(argv[i], "%d", &insert_arg.batchs); if (insert_arg.batchs<=0) { D(" invalid"); return 1; } continue; } if (strcmp(arg, "--keep_stmt_among_batchs")==0) { insert_arg.keep_stmt_among_batchs = 1; continue; } if (strcmp(arg, "--dsn")==0) { ++i; if (i>=argc) { D(" expected but got nothing"); return 1; } if (conn_str) { D("-C has already been specified"); return 1; } dsn = argv[i]; continue; } if (strcmp(arg, "--uid")==0) { ++i; if (i>=argc) { D(" expected but got nothing"); return 1; } uid = argv[i]; continue; } if (strcmp(arg, "--pwd")==0) { ++i; if (i>=argc) { D(" expected but got nothing"); return 1; } pwd = argv[i]; continue; } if (strcmp(arg, "-C")==0) { ++i; if (i>=argc) { D(" expected but got nothing"); return 1; } if (dsn || uid || pwd) { D("either of --dsn/--uid/--pwd has already been specified"); return 1; } conn_str = argv[i]; continue; } if (strcmp(arg, "--sts")==0) { ++i; if (i>=argc) { D(" expected but got nothing"); return 1; } sts = argv[i]; continue; } if (strcmp(arg, "-p")==0) { prepare = 1; continue; } } if (debug_col_name_max_len) { int r = do_debug_col_name_max_len(dsn, uid, pwd, conn_str); if (r) return 1; } if (insert) { const char *sqls[] = { "drop database if exists test", "create database test", "create table test.v (ts timestamp, v1 tinyint, v2 smallint, v4 int, v8 bigint)", NULL }; int r = 0; if (insert_arg.use_odbc) { r = do_insert_batch(dsn, uid, pwd, conn_str, &insert_arg, sqls); } else { r = do_insert_batch_taos(dsn, uid, pwd, conn_str, &insert_arg, sqls); } if (r) return 1; } if (sts) { int r = test_sqls(dsn, uid, pwd, conn_str, sts); if (r) return 1; } if (prepare) { int r = do_prepare(dsn, uid, pwd, conn_str); if (r) return 1; } D("Done!"); return 0; }