/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* Fluent Bit * ========== * Copyright (C) 2019-2022 The Fluent Bit Authors * Copyright (C) 2015-2018 Treasure Data Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include "flb_tests_runtime.h" struct test_ctx { flb_ctx_t *flb; /* Fluent Bit library context */ int i_ffd; /* Input fd */ int f_ffd; /* Filter fd (unused) */ int o_ffd; /* Output fd */ }; pthread_mutex_t result_mutex = PTHREAD_MUTEX_INITIALIZER; int num_output = 0; static int get_output_num() { int ret; pthread_mutex_lock(&result_mutex); ret = num_output; pthread_mutex_unlock(&result_mutex); return ret; } static void set_output_num(int num) { pthread_mutex_lock(&result_mutex); num_output = num; pthread_mutex_unlock(&result_mutex); } static void clear_output_num() { set_output_num(0); } struct str_list { size_t size; char **lists; }; /* Callback to check expected results */ static void cb_check_str_list(void *ctx, int ffd, int res_ret, void *res_data, size_t res_size, void *data) { char *p; flb_sds_t out_line = res_data; int num = get_output_num(); size_t i; struct str_list *l = (struct str_list *)data; if (!TEST_CHECK(res_data != NULL)) { TEST_MSG("res_data is NULL"); return; } if (!TEST_CHECK(l != NULL)) { TEST_MSG("l is NULL"); flb_sds_destroy(out_line); return; } if(!TEST_CHECK(res_ret == 0)) { TEST_MSG("callback ret=%d", res_ret); } if (!TEST_CHECK(res_data != NULL)) { TEST_MSG("res_data is NULL"); flb_sds_destroy(out_line); return; } for (i=0; isize; i++) { p = strstr(out_line, l->lists[i]); if (!TEST_CHECK(p != NULL)) { TEST_MSG(" Got :%s\n expect:%s", out_line, l->lists[i]); } } set_output_num(num+1); flb_sds_destroy(out_line); } static int msgpack_strncmp(char* str, size_t str_len, msgpack_object obj) { int ret = -1; if (str == NULL) { flb_error("str is NULL"); return -1; } switch (obj.type) { case MSGPACK_OBJECT_STR: if (obj.via.str.size != str_len) { return -1; } ret = strncmp(str, obj.via.str.ptr, str_len); break; case MSGPACK_OBJECT_POSITIVE_INTEGER: { unsigned long val = strtoul(str, NULL, 10); if (val == (unsigned long)obj.via.u64) { ret = 0; } } break; case MSGPACK_OBJECT_NEGATIVE_INTEGER: { long long val = strtoll(str, NULL, 10); if (val == (unsigned long)obj.via.i64) { ret = 0; } } break; case MSGPACK_OBJECT_FLOAT32: case MSGPACK_OBJECT_FLOAT64: { double val = strtod(str, NULL); if (fabs(val - obj.via.f64) < DBL_EPSILON) { ret = 0; } } break; case MSGPACK_OBJECT_BOOLEAN: if (obj.via.boolean) { if (str_len != 4 /*true*/) { return -1; } ret = strncasecmp(str, "true", 4); } else { if (str_len != 5 /*false*/) { return -1; } ret = strncasecmp(str, "false", 5); } break; default: flb_error("not supported"); } return ret; } /* Callback to check expected results */ static void cb_check_msgpack_kv(void *ctx, int ffd, int res_ret, void *res_data, size_t res_size, void *data) { msgpack_unpacked result; msgpack_object obj; size_t off = 0; struct str_list *l = (struct str_list *)data; int i_map; int map_size; int i_list; int num = get_output_num(); if (!TEST_CHECK(res_data != NULL)) { TEST_MSG("res_data is NULL"); return; } if (!TEST_CHECK(data != NULL)) { flb_error("data is NULL"); return; } /* Iterate each item array and apply rules */ msgpack_unpacked_init(&result); while (msgpack_unpack_next(&result, res_data, res_size, &off) == MSGPACK_UNPACK_SUCCESS) { obj = result.data; /* msgpack_object_print(stdout, obj); */ if (obj.type != MSGPACK_OBJECT_ARRAY || obj.via.array.size != 2) { flb_error("array error. type = %d", obj.type); continue; } obj = obj.via.array.ptr[1]; if (obj.type != MSGPACK_OBJECT_MAP) { flb_error("map error. type = %d", obj.type); continue; } map_size = obj.via.map.size; for (i_map=0; i_mapsize/2; i_list++) { if (msgpack_strncmp(l->lists[i_list*2], strlen(l->lists[i_list*2]), obj.via.map.ptr[i_map].key) == 0 && msgpack_strncmp(l->lists[i_list*2+1], strlen(l->lists[i_list*2+1]), obj.via.map.ptr[i_map].val) == 0) { num++; } } } } set_output_num(num); msgpack_unpacked_destroy(&result); return ; } static struct test_ctx *test_ctx_create() { int i_ffd; int o_ffd; struct test_ctx *ctx = NULL; ctx = flb_malloc(sizeof(struct test_ctx)); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("malloc failed"); flb_errno(); return NULL; } /* Service config */ ctx->flb = flb_create(); flb_service_set(ctx->flb, "Flush", "0.200000000", "Grace", "1", "Log_Level", "error", NULL); /* Input */ i_ffd = flb_input(ctx->flb, (char *) "lib", NULL); TEST_CHECK(i_ffd >= 0); ctx->i_ffd = i_ffd; /* Output */ o_ffd = flb_output(ctx->flb, (char *) "http", NULL); ctx->o_ffd = o_ffd; return ctx; } static void test_ctx_destroy(struct test_ctx *ctx) { TEST_CHECK(ctx != NULL); sleep(1); flb_stop(ctx->flb); flb_destroy(ctx->flb); flb_free(ctx); } void flb_test_format_msgpack() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\", \"val\":1000, \"nval\":-10000, \"bool\":true, \"float\":1.234}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"msg", "hello world", "val", "1000", "nval", "-10000", "bool", "true", "float", "1.234"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "msgpack", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_msgpack_kv, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num == expected.size / 2)) { TEST_MSG("got %d, expected %lu", num, expected.size/2); } test_ctx_destroy(ctx); } void flb_test_format_json() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *buf2 = "[2, {\"msg\":\"hello world\"}]"; size_t size2 = strlen(buf2); char *expected_strs[] = {"[{\"date\":1.0,\"msg\":\"hello world\"},{\"date\":2.0,\"msg\":\"hello world\"}]"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "json", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf2, size2); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_format_json_stream() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *buf2 = "[2, {\"msg\":\"hello world\"}]"; size_t size2 = strlen(buf2); char *expected_strs[] = {"{\"date\":1.0,\"msg\":\"hello world\"}{\"date\":2.0,\"msg\":\"hello world\"}"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "json_stream", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf2, size2); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_format_json_lines() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *buf2 = "[2, {\"msg\":\"hello world\"}]"; size_t size2 = strlen(buf2); char *expected_strs[] = {"{\"date\":1.0,\"msg\":\"hello world\"}\n{\"date\":2.0,\"msg\":\"hello world\"}"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "json_lines", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf2, size2); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_format_gelf() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"\"short_message\":\"hello world\"", "\"timestamp\":1.000"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "gelf", "gelf_short_message_key", "msg", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_format_gelf_host_key() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\", \"h_key\":\"localhost\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"\"short_message\":\"hello world\"", "\"timestamp\":1.000", "\"host\":\"localhost\""}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "gelf", "gelf_short_message_key", "msg", "gelf_host_key", "h_key", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_format_gelf_timestamp_key() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\", \"t_key\":\"2018-05-30T09:39:52.000681Z\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"\"short_message\":\"hello world\"", "\"timestamp\":\"2018-05-30T09:39:52.000681Z\""}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "gelf", "gelf_short_message_key", "msg", "gelf_timestamp_key", "t_key", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_format_gelf_full_message_key() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\", \"f_msg\":\"full message\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"\"short_message\":\"hello world\"", "\"timestamp\":1.000","\"full_message\":\"full message\""}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "gelf", "gelf_short_message_key", "msg", "gelf_full_message_key", "f_msg", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_format_gelf_level_key() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\", \"l_msg\":6\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"\"short_message\":\"hello world\"", "\"timestamp\":1.000","\"level\":6"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "gelf", "gelf_short_message_key", "msg", "gelf_level_key", "l_msg", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_set_json_date_key() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"{\"timestamp\":1.0,\"msg\":\"hello world\"}"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "json", "json_date_key", "timestamp", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_disable_json_date_key() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"{\"msg\":\"hello world\"}"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "json", "json_date_key", "false", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_json_date_format_epoch() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"{\"date\":1,\"msg\":\"hello world\"}"}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "json", "json_date_format", "epoch", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_json_date_format_iso8601() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"\"msg\":\"hello world\"", "\"date\":\"1970-01-01T00:00:01.000000Z\""}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "json", "json_date_format", "iso8601", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } void flb_test_json_date_format_java_sql_timestamp() { struct test_ctx *ctx; int ret; int num; char *buf1 = "[1, {\"msg\":\"hello world\"}]"; size_t size1 = strlen(buf1); char *expected_strs[] = {"\"msg\":\"hello world\"", "\"date\":\"1970-01-01 00:00:01.000000\""}; struct str_list expected = { .size = sizeof(expected_strs)/sizeof(char*), .lists = &expected_strs[0], }; clear_output_num(); ctx = test_ctx_create(); if (!TEST_CHECK(ctx != NULL)) { TEST_MSG("test_ctx_create failed"); exit(EXIT_FAILURE); } ret = flb_output_set(ctx->flb, ctx->o_ffd, "match", "*", "format", "json", "json_date_format", "java_sql_timestamp", NULL); TEST_CHECK(ret == 0); ret = flb_output_set_test(ctx->flb, ctx->o_ffd, "formatter", cb_check_str_list, &expected, NULL); TEST_CHECK(ret == 0); /* Start the engine */ ret = flb_start(ctx->flb); TEST_CHECK(ret == 0); /* Ingest data sample */ ret = flb_lib_push(ctx->flb, ctx->i_ffd, (char *) buf1, size1); TEST_CHECK(ret >= 0); /* waiting to flush */ flb_time_msleep(500); num = get_output_num(); if (!TEST_CHECK(num > 0)) { TEST_MSG("no outputs"); } test_ctx_destroy(ctx); } /* Test list */ TEST_LIST = { {"format_msgpack" , flb_test_format_msgpack}, {"format_json" , flb_test_format_json}, {"format_json_stream" , flb_test_format_json_stream}, {"format_json_lines" , flb_test_format_json_lines}, {"format_gelf" , flb_test_format_gelf}, {"format_gelf_host_key" , flb_test_format_gelf_host_key}, {"format_gelf_timestamp_key" , flb_test_format_gelf_timestamp_key}, {"format_gelf_full_message_key" , flb_test_format_gelf_full_message_key}, {"format_gelf_level_key" , flb_test_format_gelf_level_key}, {"set_json_date_key" , flb_test_set_json_date_key}, {"disable_json_date_key" , flb_test_disable_json_date_key}, {"json_date_format_epoch" , flb_test_json_date_format_epoch}, {"json_date_format_iso8601" , flb_test_json_date_format_iso8601}, {"json_date_format_java_sql_timestamp" , flb_test_json_date_format_java_sql_timestamp}, {NULL, NULL} };