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/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* Fluent Bit
* ==========
* Copyright (C) 2015-2022 The Fluent Bit Authors
*
* 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 <fluent-bit/flb_output_plugin.h>
#include <fluent-bit/flb_pack.h>
#include <fluent-bit/flb_str.h>
#include <fluent-bit/flb_time.h>
#include <fluent-bit/flb_utils.h>
#include <fluent-bit/flb_pack.h>
#include <fluent-bit/flb_sds.h>
#include <fluent-bit/flb_config_map.h>
#include <fluent-bit/flb_log_event_decoder.h>
#include <msgpack.h>
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#include "udp.h"
#include "udp_conf.h"
static int cb_udp_init(struct flb_output_instance *ins,
struct flb_config *config, void *data)
{
struct flb_out_udp *ctx = NULL;
(void) data;
ctx = flb_udp_conf_create(ins, config);
if (!ctx) {
return -1;
}
/* Set the plugin context */
flb_output_set_context(ins, ctx);
return 0;
}
static int deliver_chunks_raw(struct flb_out_udp *ctx,
const char *tag, int tag_len,
const void *in_data, size_t in_size)
{
int ret;
flb_sds_t buf = NULL;
flb_sds_t str;
msgpack_object map;
ssize_t send_result;
struct flb_log_event_decoder log_decoder;
struct flb_log_event log_event;
buf = flb_sds_create_size(in_size);
if (!buf) {
return FLB_ERROR;
}
ret = flb_log_event_decoder_init(&log_decoder, (char *) in_data, in_size);
if (ret != FLB_EVENT_DECODER_SUCCESS) {
flb_plg_error(ctx->ins,
"Log event decoder initialization error : %d", ret);
flb_sds_destroy(buf);
return -1;
}
while ((ret = flb_log_event_decoder_next(
&log_decoder,
&log_event)) == FLB_EVENT_DECODER_SUCCESS) {
map = *log_event.body;
str = flb_ra_translate(ctx->ra_raw_message_key, (char *) tag, tag_len, map, NULL);
if (!str) {
continue;
}
ret = flb_sds_cat_safe(&buf, str, flb_sds_len(str));
if (ret != 0) {
flb_plg_error(ctx->ins, "failed to compose payload from '%s'", str);
}
flb_sds_destroy(str);
/* append a new line */
flb_sds_cat_safe(&buf, "\n", 1);
if (flb_sds_len(buf) > 65535) {
flb_plg_debug(ctx->ins, "record size exceeds maximum datagram size : %zu", flb_sds_len(buf));
}
send_result = send(ctx->endpoint_descriptor,
buf,
flb_sds_len(buf),
0);
if (send_result == -1) {
flb_log_event_decoder_destroy(&log_decoder);
flb_sds_destroy(buf);
return FLB_RETRY;
}
flb_sds_len_set(buf, 0);
buf[0] = '\0';
}
flb_log_event_decoder_destroy(&log_decoder);
flb_sds_destroy(buf);
return FLB_OK;
}
static int deliver_chunks_json(struct flb_out_udp *ctx,
const char *tag, int tag_len,
const void *in_data, size_t in_size)
{
int ret;
size_t off = 0;
flb_sds_t json = NULL;
ssize_t send_result;
size_t previous_offset;
int append_new_line;
struct flb_log_event_decoder log_decoder;
struct flb_log_event log_event;
ret = flb_log_event_decoder_init(&log_decoder, (char *) in_data, in_size);
if (ret != FLB_EVENT_DECODER_SUCCESS) {
flb_plg_error(ctx->ins,
"Log event decoder initialization error : %d", ret);
return FLB_ERROR;
}
previous_offset = 0;
while ((ret = flb_log_event_decoder_next(
&log_decoder,
&log_event)) == FLB_EVENT_DECODER_SUCCESS) {
off = log_decoder.offset;
json = flb_pack_msgpack_to_json_format(&((char *) in_data)[previous_offset],
off - previous_offset,
ctx->out_format,
ctx->json_date_format,
ctx->date_key);
if (!json) {
flb_plg_error(ctx->ins, "error formatting JSON payload");
flb_log_event_decoder_destroy(&log_decoder);
return FLB_ERROR;
}
previous_offset = off;
append_new_line = FLB_FALSE;
if (flb_sds_len(json) > 0) {
if (json[flb_sds_len(json) - 1] != '\n') {
append_new_line = FLB_TRUE;
}
if (append_new_line) {
ret = flb_sds_cat_safe(&json, "\n", 1);
if (ret != 0) {
flb_log_event_decoder_destroy(&log_decoder);
flb_sds_destroy(json);
return FLB_RETRY;
}
}
if (flb_sds_len(json) > 65535) {
flb_plg_debug(ctx->ins, "record size exceeds maximum datagram size : %zu", flb_sds_len(json));
}
send_result = send(ctx->endpoint_descriptor,
json,
flb_sds_len(json),
0);
if (send_result == -1) {
flb_log_event_decoder_destroy(&log_decoder);
flb_sds_destroy(json);
return FLB_RETRY;
}
}
flb_sds_destroy(json);
}
flb_log_event_decoder_destroy(&log_decoder);
return FLB_OK;
}
static int deliver_chunks_msgpack(struct flb_out_udp *ctx,
const char *tag, int tag_len,
const void *in_data, size_t in_size)
{
size_t off = 0;
ssize_t send_result;
size_t previous_offset;
struct flb_log_event_decoder log_decoder;
struct flb_log_event log_event;
int ret;
ret = flb_log_event_decoder_init(&log_decoder, (char *) in_data, in_size);
if (ret != FLB_EVENT_DECODER_SUCCESS) {
flb_plg_error(ctx->ins,
"Log event decoder initialization error : %d", ret);
return FLB_RETRY;
}
previous_offset = 0;
while ((ret = flb_log_event_decoder_next(
&log_decoder,
&log_event)) == FLB_EVENT_DECODER_SUCCESS) {
off = log_decoder.offset;
if ((off - previous_offset) > 65535) {
flb_plg_debug(ctx->ins, "record size exceeds maximum datagram size : %zu", (off - previous_offset));
}
send_result = send(ctx->endpoint_descriptor,
&((char *) in_data)[previous_offset],
off - previous_offset,
0);
if (send_result == -1) {
flb_log_event_decoder_destroy(&log_decoder);
return FLB_RETRY;
}
previous_offset = off;
}
flb_log_event_decoder_destroy(&log_decoder);
return FLB_OK;
}
static void cb_udp_flush(struct flb_event_chunk *event_chunk,
struct flb_output_flush *out_flush,
struct flb_input_instance *i_ins,
void *out_context,
struct flb_config *config)
{
int ret = FLB_ERROR;
struct flb_out_udp *ctx = out_context;
(void) i_ins;
if (ctx->ra_raw_message_key != NULL) {
ret = deliver_chunks_raw(ctx,
event_chunk->tag,
flb_sds_len(event_chunk->tag),
event_chunk->data,
event_chunk->size);
}
else if (ctx->out_format == FLB_PACK_JSON_FORMAT_NONE) {
ret = deliver_chunks_msgpack(ctx,
event_chunk->tag,
flb_sds_len(event_chunk->tag),
event_chunk->data,
event_chunk->size);
}
else {
ret = deliver_chunks_json(ctx,
event_chunk->tag,
flb_sds_len(event_chunk->tag),
event_chunk->data,
event_chunk->size);
}
return FLB_OUTPUT_RETURN(ret);
}
static int cb_udp_exit(void *data, struct flb_config *config)
{
struct flb_out_udp *ctx = data;
flb_udp_conf_destroy(ctx);
return 0;
}
/* Configuration properties map */
static struct flb_config_map config_map[] = {
{
FLB_CONFIG_MAP_STR, "format", "json_lines",
0, FLB_FALSE, 0,
"Specify the payload format, supported formats: msgpack, json, "
"json_lines or json_stream."
},
{
FLB_CONFIG_MAP_STR, "json_date_format", "double",
0, FLB_FALSE, 0,
FBL_PACK_JSON_DATE_FORMAT_DESCRIPTION
},
{
FLB_CONFIG_MAP_STR, "json_date_key", "date",
0, FLB_TRUE, offsetof(struct flb_out_udp, json_date_key),
"Specify the name of the date field in output."
},
{
FLB_CONFIG_MAP_STR, "raw_message_key", NULL,
0, FLB_TRUE, offsetof(struct flb_out_udp, raw_message_key),
"use a raw message key for the message."
},
/* EOF */
{0}
};
/* Plugin reference */
struct flb_output_plugin out_udp_plugin = {
.name = "udp",
.description = "UDP Output",
.cb_init = cb_udp_init,
.cb_flush = cb_udp_flush,
.cb_exit = cb_udp_exit,
.config_map = config_map,
.workers = 2,
.flags = FLB_OUTPUT_NET,
};
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