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|
// SPDX-License-Identifier: GPL-3.0-or-later
#include "rrdpush.h"
#define WORKER_SENDER_JOB_CONNECT 0
#define WORKER_SENDER_JOB_PIPE_READ 1
#define WORKER_SENDER_JOB_SOCKET_RECEIVE 2
#define WORKER_SENDER_JOB_EXECUTE 3
#define WORKER_SENDER_JOB_SOCKET_SEND 4
#define WORKER_SENDER_JOB_DISCONNECT_BAD_HANDSHAKE 5
#define WORKER_SENDER_JOB_DISCONNECT_OVERFLOW 6
#define WORKER_SENDER_JOB_DISCONNECT_TIMEOUT 7
#define WORKER_SENDER_JOB_DISCONNECT_POLL_ERROR 8
#define WORKER_SENDER_JOB_DISCONNECT_SOCKER_ERROR 9
#define WORKER_SENDER_JOB_DISCONNECT_SSL_ERROR 10
#define WORKER_SENDER_JOB_DISCONNECT_PARENT_CLOSED 11
#define WORKER_SENDER_JOB_DISCONNECT_RECEIVE_ERROR 12
#define WORKER_SENDER_JOB_DISCONNECT_SEND_ERROR 13
#define WORKER_SENDER_JOB_DISCONNECT_NO_COMPRESSION 14
#define WORKER_SENDER_JOB_BUFFER_RATIO 15
#define WORKER_SENDER_JOB_BYTES_RECEIVED 16
#define WORKER_SENDER_JOB_BYTES_SENT 17
#define WORKER_SENDER_JOB_REPLAY_REQUEST 18
#define WORKER_SENDER_JOB_FUNCTION_REQUEST 19
#define WORKER_SENDER_JOB_REPLAY_DICT_SIZE 20
#if WORKER_UTILIZATION_MAX_JOB_TYPES < 21
#error WORKER_UTILIZATION_MAX_JOB_TYPES has to be at least 21
#endif
extern struct config stream_config;
extern int netdata_use_ssl_on_stream;
extern char *netdata_ssl_ca_path;
extern char *netdata_ssl_ca_file;
static __thread BUFFER *sender_thread_buffer = NULL;
static __thread bool sender_thread_buffer_used = false;
static __thread time_t sender_thread_buffer_last_reset_s = 0;
void sender_thread_buffer_free(void) {
buffer_free(sender_thread_buffer);
sender_thread_buffer = NULL;
sender_thread_buffer_used = false;
}
// Collector thread starting a transmission
BUFFER *sender_start(struct sender_state *s) {
if(unlikely(sender_thread_buffer_used))
fatal("STREAMING: thread buffer is used multiple times concurrently.");
if(unlikely(rrdpush_sender_last_buffer_recreate_get(s) > sender_thread_buffer_last_reset_s)) {
if(unlikely(sender_thread_buffer && sender_thread_buffer->size > THREAD_BUFFER_INITIAL_SIZE)) {
buffer_free(sender_thread_buffer);
sender_thread_buffer = NULL;
}
}
if(unlikely(!sender_thread_buffer)) {
sender_thread_buffer = buffer_create(THREAD_BUFFER_INITIAL_SIZE, &netdata_buffers_statistics.buffers_streaming);
sender_thread_buffer_last_reset_s = rrdpush_sender_last_buffer_recreate_get(s);
}
sender_thread_buffer_used = true;
buffer_flush(sender_thread_buffer);
return sender_thread_buffer;
}
static inline void rrdpush_sender_thread_close_socket(RRDHOST *host);
#ifdef ENABLE_COMPRESSION
/*
* In case of stream compression buffer overflow
* Inform the user through the error log file and
* deactivate compression by downgrading the stream protocol.
*/
static inline void deactivate_compression(struct sender_state *s) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_NO_COMPRESSION);
error("STREAM_COMPRESSION: Compression returned error, disabling it.");
s->flags &= ~SENDER_FLAG_COMPRESSION;
error("STREAM %s [send to %s]: Restarting connection without compression.", rrdhost_hostname(s->host), s->connected_to);
rrdpush_sender_thread_close_socket(s->host);
}
#endif
#define SENDER_BUFFER_ADAPT_TO_TIMES_MAX_SIZE 3
// Collector thread finishing a transmission
void sender_commit(struct sender_state *s, BUFFER *wb) {
if(unlikely(wb != sender_thread_buffer))
fatal("STREAMING: sender is trying to commit a buffer that is not this thread's buffer.");
if(unlikely(!sender_thread_buffer_used))
fatal("STREAMING: sender is committing a buffer twice.");
sender_thread_buffer_used = false;
char *src = (char *)buffer_tostring(wb);
size_t src_len = buffer_strlen(wb);
if(unlikely(!src || !src_len))
return;
netdata_mutex_lock(&s->mutex);
// FILE *fp = fopen("/tmp/stream.txt", "a");
// fprintf(fp,
// "\n--- SEND BEGIN: %s ----\n"
// "%s"
// "--- SEND END ----------------------------------------\n"
// , rrdhost_hostname(s->host), src);
// fclose(fp);
if(unlikely(s->buffer->max_size < (src_len + 1) * SENDER_BUFFER_ADAPT_TO_TIMES_MAX_SIZE)) {
info("STREAM %s [send to %s]: max buffer size of %zu is too small for a data message of size %zu. Increasing the max buffer size to %d times the max data message size.",
rrdhost_hostname(s->host), s->connected_to, s->buffer->max_size, buffer_strlen(wb) + 1, SENDER_BUFFER_ADAPT_TO_TIMES_MAX_SIZE);
s->buffer->max_size = (src_len + 1) * SENDER_BUFFER_ADAPT_TO_TIMES_MAX_SIZE;
}
#ifdef ENABLE_COMPRESSION
if (stream_has_capability(s, STREAM_CAP_COMPRESSION) && s->compressor) {
while(src_len) {
size_t size_to_compress = src_len;
if(unlikely(size_to_compress > COMPRESSION_MAX_MSG_SIZE)) {
if (stream_has_capability(s, STREAM_CAP_BINARY))
size_to_compress = COMPRESSION_MAX_MSG_SIZE;
else {
if (size_to_compress > COMPRESSION_MAX_MSG_SIZE) {
// we need to find the last newline
// so that the decompressor will have a whole line to work with
const char *t = &src[COMPRESSION_MAX_MSG_SIZE];
while (--t >= src)
if (unlikely(*t == '\n'))
break;
if (t <= src) {
size_to_compress = COMPRESSION_MAX_MSG_SIZE;
} else
size_to_compress = t - src + 1;
}
}
}
char *dst;
size_t dst_len = s->compressor->compress(s->compressor, src, size_to_compress, &dst);
if (!dst_len) {
error("STREAM %s [send to %s]: COMPRESSION failed. Resetting compressor and re-trying",
rrdhost_hostname(s->host), s->connected_to);
s->compressor->reset(s->compressor);
dst_len = s->compressor->compress(s->compressor, src, size_to_compress, &dst);
if(!dst_len) {
error("STREAM %s [send to %s]: COMPRESSION failed again. Deactivating compression",
rrdhost_hostname(s->host), s->connected_to);
deactivate_compression(s);
netdata_mutex_unlock(&s->mutex);
return;
}
}
if(cbuffer_add_unsafe(s->buffer, dst, dst_len))
s->flags |= SENDER_FLAG_OVERFLOW;
src = src + size_to_compress;
src_len -= size_to_compress;
}
}
else if(cbuffer_add_unsafe(s->buffer, src, src_len))
s->flags |= SENDER_FLAG_OVERFLOW;
#else
if(cbuffer_add_unsafe(s->buffer, src, src_len))
s->flags |= SENDER_FLAG_OVERFLOW;
#endif
replication_recalculate_buffer_used_ratio_unsafe(s);
bool signal_sender = false;
if(!rrdpush_sender_pipe_has_pending_data(s)) {
rrdpush_sender_pipe_set_pending_data(s);
signal_sender = true;
}
netdata_mutex_unlock(&s->mutex);
if(signal_sender)
rrdpush_signal_sender_to_wake_up(s);
}
static inline void rrdpush_sender_add_host_variable_to_buffer(BUFFER *wb, const RRDVAR_ACQUIRED *rva) {
buffer_sprintf(
wb
, "VARIABLE HOST %s = " NETDATA_DOUBLE_FORMAT "\n"
, rrdvar_name(rva)
, rrdvar2number(rva)
);
debug(D_STREAM, "RRDVAR pushed HOST VARIABLE %s = " NETDATA_DOUBLE_FORMAT, rrdvar_name(rva), rrdvar2number(rva));
}
void rrdpush_sender_send_this_host_variable_now(RRDHOST *host, const RRDVAR_ACQUIRED *rva) {
if(rrdhost_can_send_definitions_to_parent(host)) {
BUFFER *wb = sender_start(host->sender);
rrdpush_sender_add_host_variable_to_buffer(wb, rva);
sender_commit(host->sender, wb);
sender_thread_buffer_free();
}
}
struct custom_host_variables_callback {
BUFFER *wb;
};
static int rrdpush_sender_thread_custom_host_variables_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrdvar_ptr __maybe_unused, void *struct_ptr) {
const RRDVAR_ACQUIRED *rv = (const RRDVAR_ACQUIRED *)item;
struct custom_host_variables_callback *tmp = struct_ptr;
BUFFER *wb = tmp->wb;
if(unlikely(rrdvar_flags(rv) & RRDVAR_FLAG_CUSTOM_HOST_VAR && rrdvar_type(rv) == RRDVAR_TYPE_CALCULATED)) {
rrdpush_sender_add_host_variable_to_buffer(wb, rv);
return 1;
}
return 0;
}
static void rrdpush_sender_thread_send_custom_host_variables(RRDHOST *host) {
if(rrdhost_can_send_definitions_to_parent(host)) {
BUFFER *wb = sender_start(host->sender);
struct custom_host_variables_callback tmp = {
.wb = wb
};
int ret = rrdvar_walkthrough_read(host->rrdvars, rrdpush_sender_thread_custom_host_variables_callback, &tmp);
(void)ret;
sender_commit(host->sender, wb);
sender_thread_buffer_free();
debug(D_STREAM, "RRDVAR sent %d VARIABLES", ret);
}
}
// resets all the chart, so that their definitions
// will be resent to the central netdata
static void rrdpush_sender_thread_reset_all_charts(RRDHOST *host) {
RRDSET *st;
rrdset_foreach_read(st, host) {
rrdset_flag_clear(st, RRDSET_FLAG_UPSTREAM_EXPOSED | RRDSET_FLAG_SENDER_REPLICATION_IN_PROGRESS);
rrdset_flag_set(st, RRDSET_FLAG_SENDER_REPLICATION_FINISHED);
st->upstream_resync_time_s = 0;
RRDDIM *rd;
rrddim_foreach_read(rd, st)
rd->exposed = 0;
rrddim_foreach_done(rd);
}
rrdset_foreach_done(st);
rrdhost_sender_replicating_charts_zero(host);
}
static void rrdpush_sender_cbuffer_recreate_timed(struct sender_state *s, time_t now_s, bool have_mutex, bool force) {
static __thread time_t last_reset_time_s = 0;
if(!force && now_s - last_reset_time_s < 300)
return;
if(!have_mutex)
netdata_mutex_lock(&s->mutex);
rrdpush_sender_last_buffer_recreate_set(s, now_s);
last_reset_time_s = now_s;
if(s->buffer && s->buffer->size > CBUFFER_INITIAL_SIZE) {
size_t max = s->buffer->max_size;
cbuffer_free(s->buffer);
s->buffer = cbuffer_new(CBUFFER_INITIAL_SIZE, max, &netdata_buffers_statistics.cbuffers_streaming);
}
sender_thread_buffer_free();
if(!have_mutex)
netdata_mutex_unlock(&s->mutex);
}
static void rrdpush_sender_cbuffer_flush(RRDHOST *host) {
rrdpush_sender_set_flush_time(host->sender);
netdata_mutex_lock(&host->sender->mutex);
// flush the output buffer from any data it may have
cbuffer_flush(host->sender->buffer);
rrdpush_sender_cbuffer_recreate_timed(host->sender, now_monotonic_sec(), true, true);
replication_recalculate_buffer_used_ratio_unsafe(host->sender);
netdata_mutex_unlock(&host->sender->mutex);
}
static void rrdpush_sender_charts_and_replication_reset(RRDHOST *host) {
rrdpush_sender_set_flush_time(host->sender);
// stop all replication commands inflight
replication_sender_delete_pending_requests(host->sender);
// reset the state of all charts
rrdpush_sender_thread_reset_all_charts(host);
rrdpush_sender_replicating_charts_zero(host->sender);
}
static void rrdpush_sender_on_connect(RRDHOST *host) {
rrdpush_sender_cbuffer_flush(host);
rrdpush_sender_charts_and_replication_reset(host);
}
static void rrdpush_sender_after_connect(RRDHOST *host) {
rrdpush_sender_thread_send_custom_host_variables(host);
}
static inline void rrdpush_sender_thread_close_socket(RRDHOST *host) {
if(host->sender->rrdpush_sender_socket != -1) {
close(host->sender->rrdpush_sender_socket);
host->sender->rrdpush_sender_socket = -1;
}
rrdhost_flag_clear(host, RRDHOST_FLAG_RRDPUSH_SENDER_READY_4_METRICS);
rrdhost_flag_clear(host, RRDHOST_FLAG_RRDPUSH_SENDER_CONNECTED);
// do not flush the circular buffer here
// this function is called sometimes with the mutex lock, sometimes without the lock
rrdpush_sender_charts_and_replication_reset(host);
}
void rrdpush_encode_variable(stream_encoded_t *se, RRDHOST *host)
{
se->os_name = (host->system_info->host_os_name)?url_encode(host->system_info->host_os_name):"";
se->os_id = (host->system_info->host_os_id)?url_encode(host->system_info->host_os_id):"";
se->os_version = (host->system_info->host_os_version)?url_encode(host->system_info->host_os_version):"";
se->kernel_name = (host->system_info->kernel_name)?url_encode(host->system_info->kernel_name):"";
se->kernel_version = (host->system_info->kernel_version)?url_encode(host->system_info->kernel_version):"";
}
void rrdpush_clean_encoded(stream_encoded_t *se)
{
if (se->os_name)
freez(se->os_name);
if (se->os_id)
freez(se->os_id);
if (se->os_version)
freez(se->os_version);
if (se->kernel_name)
freez(se->kernel_name);
if (se->kernel_version)
freez(se->kernel_version);
}
struct {
const char *response;
size_t length;
int32_t version;
bool dynamic;
const char *error;
int worker_job_id;
time_t postpone_reconnect_seconds;
} stream_responses[] = {
{
.response = START_STREAMING_PROMPT_VN,
.length = sizeof(START_STREAMING_PROMPT_VN) - 1,
.version = STREAM_HANDSHAKE_OK_V3, // and above
.dynamic = true, // dynamic = we will parse the version / capabilities
.error = NULL,
.worker_job_id = 0,
.postpone_reconnect_seconds = 0,
},
{
.response = START_STREAMING_PROMPT_V2,
.length = sizeof(START_STREAMING_PROMPT_V2) - 1,
.version = STREAM_HANDSHAKE_OK_V2,
.dynamic = false,
.error = NULL,
.worker_job_id = 0,
.postpone_reconnect_seconds = 0,
},
{
.response = START_STREAMING_PROMPT_V1,
.length = sizeof(START_STREAMING_PROMPT_V1) - 1,
.version = STREAM_HANDSHAKE_OK_V1,
.dynamic = false,
.error = NULL,
.worker_job_id = 0,
.postpone_reconnect_seconds = 0,
},
{
.response = START_STREAMING_ERROR_SAME_LOCALHOST,
.length = sizeof(START_STREAMING_ERROR_SAME_LOCALHOST) - 1,
.version = STREAM_HANDSHAKE_ERROR_LOCALHOST,
.dynamic = false,
.error = "remote server rejected this stream, the host we are trying to stream is its localhost",
.worker_job_id = WORKER_SENDER_JOB_DISCONNECT_BAD_HANDSHAKE,
.postpone_reconnect_seconds = 60 * 60, // the IP may change, try it every hour
},
{
.response = START_STREAMING_ERROR_ALREADY_STREAMING,
.length = sizeof(START_STREAMING_ERROR_ALREADY_STREAMING) - 1,
.version = STREAM_HANDSHAKE_ERROR_ALREADY_CONNECTED,
.dynamic = false,
.error = "remote server rejected this stream, the host we are trying to stream is already streamed to it",
.worker_job_id = WORKER_SENDER_JOB_DISCONNECT_BAD_HANDSHAKE,
.postpone_reconnect_seconds = 2 * 60, // 2 minutes
},
{
.response = START_STREAMING_ERROR_NOT_PERMITTED,
.length = sizeof(START_STREAMING_ERROR_NOT_PERMITTED) - 1,
.version = STREAM_HANDSHAKE_ERROR_DENIED,
.dynamic = false,
.error = "remote server denied access, probably we don't have the right API key?",
.worker_job_id = WORKER_SENDER_JOB_DISCONNECT_BAD_HANDSHAKE,
.postpone_reconnect_seconds = 1 * 60, // 1 minute
},
// terminator
{
.response = NULL,
.length = 0,
.version = STREAM_HANDSHAKE_ERROR_BAD_HANDSHAKE,
.dynamic = false,
.error = "remote node response is not understood, is it Netdata?",
.worker_job_id = WORKER_SENDER_JOB_DISCONNECT_BAD_HANDSHAKE,
.postpone_reconnect_seconds = 1 * 60, // 1 minute
}
};
static inline bool rrdpush_sender_validate_response(RRDHOST *host, struct sender_state *s, char *http, size_t http_length) {
int32_t version = STREAM_HANDSHAKE_ERROR_BAD_HANDSHAKE;
int i;
for(i = 0; stream_responses[i].response ; i++) {
if(stream_responses[i].dynamic &&
http_length > stream_responses[i].length && http_length < (stream_responses[i].length + 30) &&
strncmp(http, stream_responses[i].response, stream_responses[i].length) == 0) {
version = str2i(&http[stream_responses[i].length]);
break;
}
else if(http_length == stream_responses[i].length && strcmp(http, stream_responses[i].response) == 0) {
version = stream_responses[i].version;
break;
}
}
const char *error = stream_responses[i].error;
int worker_job_id = stream_responses[i].worker_job_id;
time_t delay = stream_responses[i].postpone_reconnect_seconds;
if(version >= STREAM_HANDSHAKE_OK_V1) {
host->destination->last_error = NULL;
host->destination->last_handshake = version;
host->destination->postpone_reconnection_until = 0;
s->capabilities = convert_stream_version_to_capabilities(version);
return true;
}
worker_is_busy(worker_job_id);
rrdpush_sender_thread_close_socket(host);
host->destination->last_error = error;
host->destination->last_handshake = version;
host->destination->postpone_reconnection_until = now_realtime_sec() + delay;
char buf[LOG_DATE_LENGTH];
log_date(buf, LOG_DATE_LENGTH, host->destination->postpone_reconnection_until);
error("STREAM %s [send to %s]: %s - will retry in %ld secs, at %s",
rrdhost_hostname(host), s->connected_to, error, delay, buf);
return false;
}
static bool rrdpush_sender_thread_connect_to_parent(RRDHOST *host, int default_port, int timeout, struct sender_state *s) {
struct timeval tv = {
.tv_sec = timeout,
.tv_usec = 0
};
// make sure the socket is closed
rrdpush_sender_thread_close_socket(host);
s->rrdpush_sender_socket = connect_to_one_of_destinations(
host
, default_port
, &tv
, &s->reconnects_counter
, s->connected_to
, sizeof(s->connected_to)-1
, &host->destination
);
if(unlikely(s->rrdpush_sender_socket == -1)) {
// error("STREAM %s [send to %s]: could not connect to parent node at this time.", rrdhost_hostname(host), host->rrdpush_send_destination);
return false;
}
// info("STREAM %s [send to %s]: initializing communication...", rrdhost_hostname(host), s->connected_to);
#ifdef ENABLE_HTTPS
if(netdata_ssl_client_ctx){
host->sender->ssl.flags = NETDATA_SSL_START;
if (!host->sender->ssl.conn){
host->sender->ssl.conn = SSL_new(netdata_ssl_client_ctx);
if(!host->sender->ssl.conn){
error("Failed to allocate SSL structure.");
host->sender->ssl.flags = NETDATA_SSL_NO_HANDSHAKE;
}
}
else{
SSL_clear(host->sender->ssl.conn);
}
if (host->sender->ssl.conn)
{
if (SSL_set_fd(host->sender->ssl.conn, s->rrdpush_sender_socket) != 1) {
error("Failed to set the socket to the SSL on socket fd %d.", s->rrdpush_sender_socket);
host->sender->ssl.flags = NETDATA_SSL_NO_HANDSHAKE;
} else{
host->sender->ssl.flags = NETDATA_SSL_HANDSHAKE_COMPLETE;
}
}
}
else {
host->sender->ssl.flags = NETDATA_SSL_NO_HANDSHAKE;
}
#endif
// reset our capabilities to default
s->capabilities = stream_our_capabilities();
#ifdef ENABLE_COMPRESSION
// If we don't want compression, remove it from our capabilities
if(!(s->flags & SENDER_FLAG_COMPRESSION))
s->capabilities &= ~STREAM_CAP_COMPRESSION;
#endif // ENABLE_COMPRESSION
/* TODO: During the implementation of #7265 switch the set of variables to HOST_* and CONTAINER_* if the
version negotiation resulted in a high enough version.
*/
stream_encoded_t se;
rrdpush_encode_variable(&se, host);
host->sender->hops = host->system_info->hops + 1;
char http[HTTP_HEADER_SIZE + 1];
int eol = snprintfz(http, HTTP_HEADER_SIZE,
"STREAM "
"key=%s"
"&hostname=%s"
"®istry_hostname=%s"
"&machine_guid=%s"
"&update_every=%d"
"&os=%s"
"&timezone=%s"
"&abbrev_timezone=%s"
"&utc_offset=%d"
"&hops=%d"
"&ml_capable=%d"
"&ml_enabled=%d"
"&mc_version=%d"
"&tags=%s"
"&ver=%u"
"&NETDATA_INSTANCE_CLOUD_TYPE=%s"
"&NETDATA_INSTANCE_CLOUD_INSTANCE_TYPE=%s"
"&NETDATA_INSTANCE_CLOUD_INSTANCE_REGION=%s"
"&NETDATA_SYSTEM_OS_NAME=%s"
"&NETDATA_SYSTEM_OS_ID=%s"
"&NETDATA_SYSTEM_OS_ID_LIKE=%s"
"&NETDATA_SYSTEM_OS_VERSION=%s"
"&NETDATA_SYSTEM_OS_VERSION_ID=%s"
"&NETDATA_SYSTEM_OS_DETECTION=%s"
"&NETDATA_HOST_IS_K8S_NODE=%s"
"&NETDATA_SYSTEM_KERNEL_NAME=%s"
"&NETDATA_SYSTEM_KERNEL_VERSION=%s"
"&NETDATA_SYSTEM_ARCHITECTURE=%s"
"&NETDATA_SYSTEM_VIRTUALIZATION=%s"
"&NETDATA_SYSTEM_VIRT_DETECTION=%s"
"&NETDATA_SYSTEM_CONTAINER=%s"
"&NETDATA_SYSTEM_CONTAINER_DETECTION=%s"
"&NETDATA_CONTAINER_OS_NAME=%s"
"&NETDATA_CONTAINER_OS_ID=%s"
"&NETDATA_CONTAINER_OS_ID_LIKE=%s"
"&NETDATA_CONTAINER_OS_VERSION=%s"
"&NETDATA_CONTAINER_OS_VERSION_ID=%s"
"&NETDATA_CONTAINER_OS_DETECTION=%s"
"&NETDATA_SYSTEM_CPU_LOGICAL_CPU_COUNT=%s"
"&NETDATA_SYSTEM_CPU_FREQ=%s"
"&NETDATA_SYSTEM_TOTAL_RAM=%s"
"&NETDATA_SYSTEM_TOTAL_DISK_SIZE=%s"
"&NETDATA_PROTOCOL_VERSION=%s"
" HTTP/1.1\r\n"
"User-Agent: %s/%s\r\n"
"Accept: */*\r\n\r\n"
, host->rrdpush_send_api_key
, rrdhost_hostname(host)
, rrdhost_registry_hostname(host)
, host->machine_guid
, default_rrd_update_every
, rrdhost_os(host)
, rrdhost_timezone(host)
, rrdhost_abbrev_timezone(host)
, host->utc_offset
, host->sender->hops
, host->system_info->ml_capable
, host->system_info->ml_enabled
, host->system_info->mc_version
, rrdhost_tags(host)
, s->capabilities
, (host->system_info->cloud_provider_type) ? host->system_info->cloud_provider_type : ""
, (host->system_info->cloud_instance_type) ? host->system_info->cloud_instance_type : ""
, (host->system_info->cloud_instance_region) ? host->system_info->cloud_instance_region : ""
, se.os_name
, se.os_id
, (host->system_info->host_os_id_like) ? host->system_info->host_os_id_like : ""
, se.os_version
, (host->system_info->host_os_version_id) ? host->system_info->host_os_version_id : ""
, (host->system_info->host_os_detection) ? host->system_info->host_os_detection : ""
, (host->system_info->is_k8s_node) ? host->system_info->is_k8s_node : ""
, se.kernel_name
, se.kernel_version
, (host->system_info->architecture) ? host->system_info->architecture : ""
, (host->system_info->virtualization) ? host->system_info->virtualization : ""
, (host->system_info->virt_detection) ? host->system_info->virt_detection : ""
, (host->system_info->container) ? host->system_info->container : ""
, (host->system_info->container_detection) ? host->system_info->container_detection : ""
, (host->system_info->container_os_name) ? host->system_info->container_os_name : ""
, (host->system_info->container_os_id) ? host->system_info->container_os_id : ""
, (host->system_info->container_os_id_like) ? host->system_info->container_os_id_like : ""
, (host->system_info->container_os_version) ? host->system_info->container_os_version : ""
, (host->system_info->container_os_version_id) ? host->system_info->container_os_version_id : ""
, (host->system_info->container_os_detection) ? host->system_info->container_os_detection : ""
, (host->system_info->host_cores) ? host->system_info->host_cores : ""
, (host->system_info->host_cpu_freq) ? host->system_info->host_cpu_freq : ""
, (host->system_info->host_ram_total) ? host->system_info->host_ram_total : ""
, (host->system_info->host_disk_space) ? host->system_info->host_disk_space : ""
, STREAMING_PROTOCOL_VERSION
, rrdhost_program_name(host)
, rrdhost_program_version(host)
);
http[eol] = 0x00;
rrdpush_clean_encoded(&se);
#ifdef ENABLE_HTTPS
if (!host->sender->ssl.flags) {
ERR_clear_error();
SSL_set_connect_state(host->sender->ssl.conn);
int err = SSL_connect(host->sender->ssl.conn);
if (err != 1){
err = SSL_get_error(host->sender->ssl.conn, err);
error("SSL cannot connect with the server: %s ",ERR_error_string((long)SSL_get_error(host->sender->ssl.conn,err),NULL));
if (netdata_use_ssl_on_stream == NETDATA_SSL_FORCE) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_SSL_ERROR);
rrdpush_sender_thread_close_socket(host);
host->destination->last_error = "SSL error";
host->destination->last_handshake = STREAM_HANDSHAKE_ERROR_SSL_ERROR;
host->destination->postpone_reconnection_until = now_realtime_sec() + 5 * 60;
return false;
}
else {
host->sender->ssl.flags = NETDATA_SSL_NO_HANDSHAKE;
}
}
else {
if (netdata_use_ssl_on_stream == NETDATA_SSL_FORCE) {
if (netdata_ssl_validate_server == NETDATA_SSL_VALID_CERTIFICATE) {
if ( security_test_certificate(host->sender->ssl.conn)) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_SSL_ERROR);
error("Closing the stream connection, because the server SSL certificate is not valid.");
rrdpush_sender_thread_close_socket(host);
host->destination->last_error = "invalid SSL certificate";
host->destination->last_handshake = STREAM_HANDSHAKE_ERROR_INVALID_CERTIFICATE;
host->destination->postpone_reconnection_until = now_realtime_sec() + 5 * 60;
return false;
}
}
}
}
}
#endif
ssize_t bytes;
bytes = send_timeout(
#ifdef ENABLE_HTTPS
&host->sender->ssl,
#endif
s->rrdpush_sender_socket,
http,
strlen(http),
0,
timeout);
if(bytes <= 0) { // timeout is 0
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_TIMEOUT);
rrdpush_sender_thread_close_socket(host);
error("STREAM %s [send to %s]: failed to send HTTP header to remote netdata.", rrdhost_hostname(host), s->connected_to);
host->destination->last_error = "timeout while sending request";
host->destination->last_handshake = STREAM_HANDSHAKE_ERROR_SEND_TIMEOUT;
host->destination->postpone_reconnection_until = now_realtime_sec() + 1 * 60;
return false;
}
// info("STREAM %s [send to %s]: waiting response from remote netdata...", rrdhost_hostname(host), s->connected_to);
bytes = recv_timeout(
#ifdef ENABLE_HTTPS
&host->sender->ssl,
#endif
s->rrdpush_sender_socket,
http,
HTTP_HEADER_SIZE,
0,
timeout);
if(bytes <= 0) { // timeout is 0
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_TIMEOUT);
rrdpush_sender_thread_close_socket(host);
error("STREAM %s [send to %s]: remote netdata does not respond.", rrdhost_hostname(host), s->connected_to);
host->destination->last_error = "timeout while expecting first response";
host->destination->last_handshake = STREAM_HANDSHAKE_ERROR_RECEIVE_TIMEOUT;
host->destination->postpone_reconnection_until = now_realtime_sec() + 30;
return false;
}
http[bytes] = '\0';
debug(D_STREAM, "Response to sender from far end: %s", http);
if(!rrdpush_sender_validate_response(host, s, http, bytes))
return false;
#ifdef ENABLE_COMPRESSION
if(stream_has_capability(s, STREAM_CAP_COMPRESSION)) {
if(!s->compressor)
s->compressor = create_compressor();
else
s->compressor->reset(s->compressor);
}
#endif //ENABLE_COMPRESSION
log_sender_capabilities(s);
if(sock_setnonblock(s->rrdpush_sender_socket) < 0)
error("STREAM %s [send to %s]: cannot set non-blocking mode for socket.", rrdhost_hostname(host), s->connected_to);
if(sock_enlarge_out(s->rrdpush_sender_socket) < 0)
error("STREAM %s [send to %s]: cannot enlarge the socket buffer.", rrdhost_hostname(host), s->connected_to);
debug(D_STREAM, "STREAM: Connected on fd %d...", s->rrdpush_sender_socket);
return true;
}
static bool attempt_to_connect(struct sender_state *state)
{
state->send_attempts = 0;
if(rrdpush_sender_thread_connect_to_parent(state->host, state->default_port, state->timeout, state)) {
// reset the buffer, to properly send charts and metrics
rrdpush_sender_on_connect(state->host);
// send from the beginning
state->begin = 0;
// make sure the next reconnection will be immediate
state->not_connected_loops = 0;
// reset the bytes we have sent for this session
state->sent_bytes_on_this_connection = 0;
// let the data collection threads know we are ready
rrdhost_flag_set(state->host, RRDHOST_FLAG_RRDPUSH_SENDER_CONNECTED);
rrdpush_sender_after_connect(state->host);
return true;
}
// we couldn't connect
// increase the failed connections counter
state->not_connected_loops++;
// reset the number of bytes sent
state->sent_bytes_on_this_connection = 0;
// slow re-connection on repeating errors
usec_t now_ut = now_monotonic_usec();
usec_t end_ut = now_ut + USEC_PER_SEC * state->reconnect_delay;
while(now_ut < end_ut) {
netdata_thread_testcancel();
sleep_usec(500 * USEC_PER_MS); // seconds
now_ut = now_monotonic_usec();
}
return false;
}
// TCP window is open and we have data to transmit.
static ssize_t attempt_to_send(struct sender_state *s) {
ssize_t ret = 0;
#ifdef NETDATA_INTERNAL_CHECKS
struct circular_buffer *cb = s->buffer;
#endif
netdata_mutex_lock(&s->mutex);
char *chunk;
size_t outstanding = cbuffer_next_unsafe(s->buffer, &chunk);
debug(D_STREAM, "STREAM: Sending data. Buffer r=%zu w=%zu s=%zu, next chunk=%zu", cb->read, cb->write, cb->size, outstanding);
#ifdef ENABLE_HTTPS
SSL *conn = s->ssl.conn ;
if(conn && s->ssl.flags == NETDATA_SSL_HANDSHAKE_COMPLETE)
ret = netdata_ssl_write(conn, chunk, outstanding);
else
ret = send(s->rrdpush_sender_socket, chunk, outstanding, MSG_DONTWAIT);
#else
ret = send(s->rrdpush_sender_socket, chunk, outstanding, MSG_DONTWAIT);
#endif
if (likely(ret > 0)) {
cbuffer_remove_unsafe(s->buffer, ret);
s->sent_bytes_on_this_connection += ret;
s->sent_bytes += ret;
debug(D_STREAM, "STREAM %s [send to %s]: Sent %zd bytes", rrdhost_hostname(s->host), s->connected_to, ret);
}
else if (ret == -1 && (errno == EAGAIN || errno == EINTR || errno == EWOULDBLOCK))
debug(D_STREAM, "STREAM %s [send to %s]: unavailable after polling POLLOUT", rrdhost_hostname(s->host), s->connected_to);
else if (ret == -1) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_SEND_ERROR);
debug(D_STREAM, "STREAM: Send failed - closing socket...");
error("STREAM %s [send to %s]: failed to send metrics - closing connection - we have sent %zu bytes on this connection.", rrdhost_hostname(s->host), s->connected_to, s->sent_bytes_on_this_connection);
rrdpush_sender_thread_close_socket(s->host);
}
else
debug(D_STREAM, "STREAM: send() returned 0 -> no error but no transmission");
replication_recalculate_buffer_used_ratio_unsafe(s);
netdata_mutex_unlock(&s->mutex);
return ret;
}
static ssize_t attempt_read(struct sender_state *s) {
ssize_t ret = 0;
#ifdef ENABLE_HTTPS
if (s->ssl.conn && s->ssl.flags == NETDATA_SSL_HANDSHAKE_COMPLETE) {
size_t desired = sizeof(s->read_buffer) - s->read_len - 1;
ret = netdata_ssl_read(s->ssl.conn, s->read_buffer, desired);
if (ret > 0 ) {
s->read_len += (int)ret;
return ret;
}
if (ret == -1) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_SSL_ERROR);
rrdpush_sender_thread_close_socket(s->host);
}
return ret;
}
#endif
ret = recv(s->rrdpush_sender_socket, s->read_buffer + s->read_len, sizeof(s->read_buffer) - s->read_len - 1,MSG_DONTWAIT);
if (ret > 0) {
s->read_len += ret;
return ret;
}
if (ret < 0 && (errno == EAGAIN || errno == EWOULDBLOCK || errno == EINTR))
return ret;
if (ret == 0 || errno == ECONNRESET) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_PARENT_CLOSED);
error("STREAM %s [send to %s]: connection closed by far end.", rrdhost_hostname(s->host), s->connected_to);
}
else {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_RECEIVE_ERROR);
error("STREAM %s [send to %s]: error during receive (%zd) - closing connection.", rrdhost_hostname(s->host), s->connected_to, ret);
}
rrdpush_sender_thread_close_socket(s->host);
return ret;
}
struct inflight_stream_function {
struct sender_state *sender;
STRING *transaction;
usec_t received_ut;
};
void stream_execute_function_callback(BUFFER *func_wb, int code, void *data) {
struct inflight_stream_function *tmp = data;
struct sender_state *s = tmp->sender;
if(rrdhost_can_send_definitions_to_parent(s->host)) {
BUFFER *wb = sender_start(s);
pluginsd_function_result_begin_to_buffer(wb
, string2str(tmp->transaction)
, code
, functions_content_type_to_format(func_wb->content_type)
, func_wb->expires);
buffer_fast_strcat(wb, buffer_tostring(func_wb), buffer_strlen(func_wb));
pluginsd_function_result_end_to_buffer(wb);
sender_commit(s, wb);
sender_thread_buffer_free();
internal_error(true, "STREAM %s [send to %s] FUNCTION transaction %s sending back response (%zu bytes, %llu usec).",
rrdhost_hostname(s->host), s->connected_to,
string2str(tmp->transaction),
buffer_strlen(func_wb),
now_realtime_usec() - tmp->received_ut);
}
string_freez(tmp->transaction);
buffer_free(func_wb);
freez(tmp);
}
// This is just a placeholder until the gap filling state machine is inserted
void execute_commands(struct sender_state *s) {
worker_is_busy(WORKER_SENDER_JOB_EXECUTE);
char *start = s->read_buffer, *end = &s->read_buffer[s->read_len], *newline;
*end = 0;
while( start < end && (newline = strchr(start, '\n')) ) {
*newline = '\0';
log_access("STREAM: %d from '%s' for host '%s': %s",
gettid(), s->connected_to, rrdhost_hostname(s->host), start);
// internal_error(true, "STREAM %s [send to %s] received command over connection: %s", rrdhost_hostname(s->host), s->connected_to, start);
char *words[PLUGINSD_MAX_WORDS] = { NULL };
size_t num_words = pluginsd_split_words(start, words, PLUGINSD_MAX_WORDS);
const char *keyword = get_word(words, num_words, 0);
if(keyword && strcmp(keyword, PLUGINSD_KEYWORD_FUNCTION) == 0) {
worker_is_busy(WORKER_SENDER_JOB_FUNCTION_REQUEST);
char *transaction = get_word(words, num_words, 1);
char *timeout_s = get_word(words, num_words, 2);
char *function = get_word(words, num_words, 3);
if(!transaction || !*transaction || !timeout_s || !*timeout_s || !function || !*function) {
error("STREAM %s [send to %s] %s execution command is incomplete (transaction = '%s', timeout = '%s', function = '%s'). Ignoring it.",
rrdhost_hostname(s->host), s->connected_to,
keyword,
transaction?transaction:"(unset)",
timeout_s?timeout_s:"(unset)",
function?function:"(unset)");
}
else {
int timeout = str2i(timeout_s);
if(timeout <= 0) timeout = PLUGINS_FUNCTIONS_TIMEOUT_DEFAULT;
struct inflight_stream_function *tmp = callocz(1, sizeof(struct inflight_stream_function));
tmp->received_ut = now_realtime_usec();
tmp->sender = s;
tmp->transaction = string_strdupz(transaction);
BUFFER *wb = buffer_create(PLUGINSD_LINE_MAX + 1, &netdata_buffers_statistics.buffers_functions);
int code = rrd_call_function_async(s->host, wb, timeout, function, stream_execute_function_callback, tmp);
if(code != HTTP_RESP_OK) {
rrd_call_function_error(wb, "Failed to route request to collector", code);
stream_execute_function_callback(wb, code, tmp);
}
}
}
else if (keyword && strcmp(keyword, PLUGINSD_KEYWORD_REPLAY_CHART) == 0) {
worker_is_busy(WORKER_SENDER_JOB_REPLAY_REQUEST);
const char *chart_id = get_word(words, num_words, 1);
const char *start_streaming = get_word(words, num_words, 2);
const char *after = get_word(words, num_words, 3);
const char *before = get_word(words, num_words, 4);
if (!chart_id || !start_streaming || !after || !before) {
error("STREAM %s [send to %s] %s command is incomplete"
" (chart=%s, start_streaming=%s, after=%s, before=%s)",
rrdhost_hostname(s->host), s->connected_to,
keyword,
chart_id ? chart_id : "(unset)",
start_streaming ? start_streaming : "(unset)",
after ? after : "(unset)",
before ? before : "(unset)");
}
else {
replication_add_request(s, chart_id,
strtoll(after, NULL, 0),
strtoll(before, NULL, 0),
!strcmp(start_streaming, "true")
);
}
}
else {
error("STREAM %s [send to %s] received unknown command over connection: %s", rrdhost_hostname(s->host), s->connected_to, words[0]?words[0]:"(unset)");
}
worker_is_busy(WORKER_SENDER_JOB_EXECUTE);
start = newline + 1;
}
if (start < end) {
memmove(s->read_buffer, start, end-start);
s->read_len = end - start;
}
else {
s->read_buffer[0] = '\0';
s->read_len = 0;
}
}
struct rrdpush_sender_thread_data {
RRDHOST *host;
char *pipe_buffer;
};
static bool rrdpush_sender_pipe_close(RRDHOST *host, int *pipe_fds, bool reopen) {
static netdata_mutex_t mutex = NETDATA_MUTEX_INITIALIZER;
bool ret = true;
netdata_mutex_lock(&mutex);
int new_pipe_fds[2];
if(reopen) {
if(pipe(new_pipe_fds) != 0) {
error("STREAM %s [send]: cannot create required pipe.", rrdhost_hostname(host));
new_pipe_fds[PIPE_READ] = -1;
new_pipe_fds[PIPE_WRITE] = -1;
ret = false;
}
}
int old_pipe_fds[2];
old_pipe_fds[PIPE_READ] = pipe_fds[PIPE_READ];
old_pipe_fds[PIPE_WRITE] = pipe_fds[PIPE_WRITE];
if(reopen) {
pipe_fds[PIPE_READ] = new_pipe_fds[PIPE_READ];
pipe_fds[PIPE_WRITE] = new_pipe_fds[PIPE_WRITE];
}
else {
pipe_fds[PIPE_READ] = -1;
pipe_fds[PIPE_WRITE] = -1;
}
if(old_pipe_fds[PIPE_READ] > 2)
close(old_pipe_fds[PIPE_READ]);
if(old_pipe_fds[PIPE_WRITE] > 2)
close(old_pipe_fds[PIPE_WRITE]);
netdata_mutex_unlock(&mutex);
return ret;
}
void rrdpush_signal_sender_to_wake_up(struct sender_state *s) {
if(unlikely(s->tid == gettid()))
return;
RRDHOST *host = s->host;
int pipe_fd = s->rrdpush_sender_pipe[PIPE_WRITE];
// signal the sender there are more data
if (pipe_fd != -1 && write(pipe_fd, " ", 1) == -1) {
error("STREAM %s [send]: cannot write to internal pipe.", rrdhost_hostname(host));
rrdpush_sender_pipe_close(host, s->rrdpush_sender_pipe, true);
}
}
static bool rrdhost_set_sender(RRDHOST *host) {
if(unlikely(!host->sender)) return false;
bool ret = false;
netdata_mutex_lock(&host->sender->mutex);
if(!host->sender->tid) {
rrdhost_flag_clear(host, RRDHOST_FLAG_RRDPUSH_SENDER_CONNECTED | RRDHOST_FLAG_RRDPUSH_SENDER_READY_4_METRICS);
rrdhost_flag_set(host, RRDHOST_FLAG_RRDPUSH_SENDER_SPAWN);
host->sender->tid = gettid();
ret = true;
}
netdata_mutex_unlock(&host->sender->mutex);
return ret;
}
static void rrdhost_clear_sender___while_having_sender_mutex(RRDHOST *host) {
if(unlikely(!host->sender)) return;
if(host->sender->tid == gettid()) {
host->sender->tid = 0;
host->sender->exit.shutdown = false;
host->sender->exit.reason = NULL;
rrdhost_flag_clear(host, RRDHOST_FLAG_RRDPUSH_SENDER_SPAWN | RRDHOST_FLAG_RRDPUSH_SENDER_CONNECTED | RRDHOST_FLAG_RRDPUSH_SENDER_READY_4_METRICS);
}
}
static bool rrdhost_sender_should_exit(struct sender_state *s) {
// check for outstanding cancellation requests
netdata_thread_testcancel();
if(unlikely(!service_running(SERVICE_STREAMING))) {
if(!s->exit.reason)
s->exit.reason = "NETDATA EXIT";
return true;
}
if(unlikely(!rrdhost_has_rrdpush_sender_enabled(s->host))) {
if(!s->exit.reason)
s->exit.reason = "NON STREAMABLE HOST";
return true;
}
if(unlikely(s->exit.shutdown)) {
if(!s->exit.reason)
s->exit.reason = "SENDER SHUTDOWN REQUESTED";
return true;
}
if(unlikely(rrdhost_flag_check(s->host, RRDHOST_FLAG_ORPHAN))) {
if(!s->exit.reason)
s->exit.reason = "RECEIVER LEFT";
return true;
}
return false;
}
static void rrdpush_sender_thread_cleanup_callback(void *ptr) {
struct rrdpush_sender_thread_data *s = ptr;
worker_unregister();
RRDHOST *host = s->host;
netdata_mutex_lock(&host->sender->mutex);
info("STREAM %s [send]: sending thread exits %s",
rrdhost_hostname(host),
host->sender->exit.reason ? host->sender->exit.reason : "");
rrdpush_sender_thread_close_socket(host);
rrdpush_sender_pipe_close(host, host->sender->rrdpush_sender_pipe, false);
rrdhost_clear_sender___while_having_sender_mutex(host);
netdata_mutex_unlock(&host->sender->mutex);
freez(s->pipe_buffer);
freez(s);
}
void *rrdpush_sender_thread(void *ptr) {
worker_register("STREAMSND");
worker_register_job_name(WORKER_SENDER_JOB_CONNECT, "connect");
worker_register_job_name(WORKER_SENDER_JOB_PIPE_READ, "pipe read");
worker_register_job_name(WORKER_SENDER_JOB_SOCKET_RECEIVE, "receive");
worker_register_job_name(WORKER_SENDER_JOB_EXECUTE, "execute");
worker_register_job_name(WORKER_SENDER_JOB_SOCKET_SEND, "send");
// disconnection reasons
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_TIMEOUT, "disconnect timeout");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_POLL_ERROR, "disconnect poll error");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_SOCKER_ERROR, "disconnect socket error");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_OVERFLOW, "disconnect overflow");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_SSL_ERROR, "disconnect ssl error");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_PARENT_CLOSED, "disconnect parent closed");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_RECEIVE_ERROR, "disconnect receive error");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_SEND_ERROR, "disconnect send error");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_NO_COMPRESSION, "disconnect no compression");
worker_register_job_name(WORKER_SENDER_JOB_DISCONNECT_BAD_HANDSHAKE, "disconnect bad handshake");
worker_register_job_name(WORKER_SENDER_JOB_REPLAY_REQUEST, "replay request");
worker_register_job_name(WORKER_SENDER_JOB_FUNCTION_REQUEST, "function");
worker_register_job_custom_metric(WORKER_SENDER_JOB_BUFFER_RATIO, "used buffer ratio", "%", WORKER_METRIC_ABSOLUTE);
worker_register_job_custom_metric(WORKER_SENDER_JOB_BYTES_RECEIVED, "bytes received", "bytes/s", WORKER_METRIC_INCREMENT);
worker_register_job_custom_metric(WORKER_SENDER_JOB_BYTES_SENT, "bytes sent", "bytes/s", WORKER_METRIC_INCREMENT);
worker_register_job_custom_metric(WORKER_SENDER_JOB_REPLAY_DICT_SIZE, "replication dict entries", "entries", WORKER_METRIC_ABSOLUTE);
struct sender_state *s = ptr;
if(!rrdhost_has_rrdpush_sender_enabled(s->host) || !s->host->rrdpush_send_destination ||
!*s->host->rrdpush_send_destination || !s->host->rrdpush_send_api_key ||
!*s->host->rrdpush_send_api_key) {
error("STREAM %s [send]: thread created (task id %d), but host has streaming disabled.",
rrdhost_hostname(s->host), gettid());
return NULL;
}
if(!rrdhost_set_sender(s->host)) {
error("STREAM %s [send]: thread created (task id %d), but there is another sender running for this host.",
rrdhost_hostname(s->host), gettid());
return NULL;
}
#ifdef ENABLE_HTTPS
if (netdata_use_ssl_on_stream & NETDATA_SSL_FORCE ) {
static SPINLOCK sp = NETDATA_SPINLOCK_INITIALIZER;
netdata_spinlock_lock(&sp);
if(!netdata_ssl_client_ctx) {
security_start_ssl(NETDATA_SSL_CONTEXT_STREAMING);
ssl_security_location_for_context(netdata_ssl_client_ctx, netdata_ssl_ca_file, netdata_ssl_ca_path);
}
netdata_spinlock_unlock(&sp);
}
#endif
info("STREAM %s [send]: thread created (task id %d)", rrdhost_hostname(s->host), gettid());
s->timeout = (int)appconfig_get_number(
&stream_config, CONFIG_SECTION_STREAM, "timeout seconds", 600);
s->default_port = (int)appconfig_get_number(
&stream_config, CONFIG_SECTION_STREAM, "default port", 19999);
s->buffer->max_size = (size_t)appconfig_get_number(
&stream_config, CONFIG_SECTION_STREAM, "buffer size bytes", 1024 * 1024 * 10);
s->reconnect_delay = (unsigned int)appconfig_get_number(
&stream_config, CONFIG_SECTION_STREAM, "reconnect delay seconds", 5);
remote_clock_resync_iterations = (unsigned int)appconfig_get_number(
&stream_config, CONFIG_SECTION_STREAM,
"initial clock resync iterations",
remote_clock_resync_iterations); // TODO: REMOVE FOR SLEW / GAPFILLING
// initialize rrdpush globals
rrdhost_flag_clear(s->host, RRDHOST_FLAG_RRDPUSH_SENDER_READY_4_METRICS);
rrdhost_flag_clear(s->host, RRDHOST_FLAG_RRDPUSH_SENDER_CONNECTED);
int pipe_buffer_size = 10 * 1024;
#ifdef F_GETPIPE_SZ
pipe_buffer_size = fcntl(s->rrdpush_sender_pipe[PIPE_READ], F_GETPIPE_SZ);
#endif
if(pipe_buffer_size < 10 * 1024)
pipe_buffer_size = 10 * 1024;
if(!rrdpush_sender_pipe_close(s->host, s->rrdpush_sender_pipe, true)) {
error("STREAM %s [send]: cannot create inter-thread communication pipe. Disabling streaming.",
rrdhost_hostname(s->host));
return NULL;
}
struct rrdpush_sender_thread_data *thread_data = callocz(1, sizeof(struct rrdpush_sender_thread_data));
thread_data->pipe_buffer = mallocz(pipe_buffer_size);
thread_data->host = s->host;
netdata_thread_cleanup_push(rrdpush_sender_thread_cleanup_callback, thread_data);
size_t iterations = 0;
time_t now_s = now_monotonic_sec();
while(!rrdhost_sender_should_exit(s)) {
iterations++;
// The connection attempt blocks (after which we use the socket in nonblocking)
if(unlikely(s->rrdpush_sender_socket == -1)) {
worker_is_busy(WORKER_SENDER_JOB_CONNECT);
now_s = now_monotonic_sec();
rrdpush_sender_cbuffer_recreate_timed(s, now_s, false, true);
rrdhost_flag_clear(s->host, RRDHOST_FLAG_RRDPUSH_SENDER_READY_4_METRICS);
s->flags &= ~SENDER_FLAG_OVERFLOW;
s->read_len = 0;
s->buffer->read = 0;
s->buffer->write = 0;
if(!attempt_to_connect(s))
continue;
if(rrdhost_sender_should_exit(s))
break;
now_s = s->last_traffic_seen_t = now_monotonic_sec();
rrdpush_claimed_id(s->host);
rrdpush_send_host_labels(s->host);
rrdhost_flag_set(s->host, RRDHOST_FLAG_RRDPUSH_SENDER_READY_4_METRICS);
info("STREAM %s [send to %s]: enabling metrics streaming...", rrdhost_hostname(s->host), s->connected_to);
continue;
}
if(iterations % 1000 == 0)
now_s = now_monotonic_sec();
// If the TCP window never opened then something is wrong, restart connection
if(unlikely(now_s - s->last_traffic_seen_t > s->timeout &&
!rrdpush_sender_pending_replication_requests(s) &&
!rrdpush_sender_replicating_charts(s)
)) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_TIMEOUT);
error("STREAM %s [send to %s]: could not send metrics for %d seconds - closing connection - we have sent %zu bytes on this connection via %zu send attempts.", rrdhost_hostname(s->host), s->connected_to, s->timeout, s->sent_bytes_on_this_connection, s->send_attempts);
rrdpush_sender_thread_close_socket(s->host);
continue;
}
netdata_mutex_lock(&s->mutex);
size_t outstanding = cbuffer_next_unsafe(s->buffer, NULL);
size_t available = cbuffer_available_size_unsafe(s->buffer);
if (unlikely(!outstanding)) {
rrdpush_sender_pipe_clear_pending_data(s);
rrdpush_sender_cbuffer_recreate_timed(s, now_s, true, false);
}
netdata_mutex_unlock(&s->mutex);
worker_set_metric(WORKER_SENDER_JOB_BUFFER_RATIO, (NETDATA_DOUBLE)(s->buffer->max_size - available) * 100.0 / (NETDATA_DOUBLE)s->buffer->max_size);
if(outstanding)
s->send_attempts++;
if(unlikely(s->rrdpush_sender_pipe[PIPE_READ] == -1)) {
if(!rrdpush_sender_pipe_close(s->host, s->rrdpush_sender_pipe, true)) {
error("STREAM %s [send]: cannot create inter-thread communication pipe. Disabling streaming.",
rrdhost_hostname(s->host));
rrdpush_sender_thread_close_socket(s->host);
break;
}
}
worker_is_idle();
// Wait until buffer opens in the socket or a rrdset_done_push wakes us
enum {
Collector = 0,
Socket = 1,
};
struct pollfd fds[2] = {
[Collector] = {
.fd = s->rrdpush_sender_pipe[PIPE_READ],
.events = POLLIN,
.revents = 0,
},
[Socket] = {
.fd = s->rrdpush_sender_socket,
.events = POLLIN | (outstanding ? POLLOUT : 0 ),
.revents = 0,
}
};
int poll_rc = poll(fds, 2, 1000);
debug(D_STREAM, "STREAM: poll() finished collector=%d socket=%d (current chunk %zu bytes)...",
fds[Collector].revents, fds[Socket].revents, outstanding);
if(unlikely(rrdhost_sender_should_exit(s)))
break;
internal_error(fds[Collector].fd != s->rrdpush_sender_pipe[PIPE_READ],
"STREAM %s [send to %s]: pipe changed after poll().", rrdhost_hostname(s->host), s->connected_to);
internal_error(fds[Socket].fd != s->rrdpush_sender_socket,
"STREAM %s [send to %s]: socket changed after poll().", rrdhost_hostname(s->host), s->connected_to);
// Spurious wake-ups without error - loop again
if (poll_rc == 0 || ((poll_rc == -1) && (errno == EAGAIN || errno == EINTR))) {
netdata_thread_testcancel();
debug(D_STREAM, "Spurious wakeup");
now_s = now_monotonic_sec();
continue;
}
// Only errors from poll() are internal, but try restarting the connection
if(unlikely(poll_rc == -1)) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_POLL_ERROR);
error("STREAM %s [send to %s]: failed to poll(). Closing socket.", rrdhost_hostname(s->host), s->connected_to);
rrdpush_sender_pipe_close(s->host, s->rrdpush_sender_pipe, true);
rrdpush_sender_thread_close_socket(s->host);
continue;
}
// If we have data and have seen the TCP window open then try to close it by a transmission.
if(likely(outstanding && (fds[Socket].revents & POLLOUT))) {
worker_is_busy(WORKER_SENDER_JOB_SOCKET_SEND);
ssize_t bytes = attempt_to_send(s);
if(bytes > 0) {
s->last_traffic_seen_t = now_monotonic_sec();
worker_set_metric(WORKER_SENDER_JOB_BYTES_SENT, (NETDATA_DOUBLE)bytes);
}
}
// If the collector woke us up then empty the pipe to remove the signal
if (fds[Collector].revents & (POLLIN|POLLPRI)) {
worker_is_busy(WORKER_SENDER_JOB_PIPE_READ);
debug(D_STREAM, "STREAM: Data added to send buffer (current buffer chunk %zu bytes)...", outstanding);
if (read(fds[Collector].fd, thread_data->pipe_buffer, pipe_buffer_size) == -1)
error("STREAM %s [send to %s]: cannot read from internal pipe.", rrdhost_hostname(s->host), s->connected_to);
}
// Read as much as possible to fill the buffer, split into full lines for execution.
if (fds[Socket].revents & POLLIN) {
worker_is_busy(WORKER_SENDER_JOB_SOCKET_RECEIVE);
ssize_t bytes = attempt_read(s);
if(bytes > 0) {
s->last_traffic_seen_t = now_monotonic_sec();
worker_set_metric(WORKER_SENDER_JOB_BYTES_RECEIVED, (NETDATA_DOUBLE)bytes);
}
}
if(unlikely(s->read_len))
execute_commands(s);
if(unlikely(fds[Collector].revents & (POLLERR|POLLHUP|POLLNVAL))) {
char *error = NULL;
if (unlikely(fds[Collector].revents & POLLERR))
error = "pipe reports errors (POLLERR)";
else if (unlikely(fds[Collector].revents & POLLHUP))
error = "pipe closed (POLLHUP)";
else if (unlikely(fds[Collector].revents & POLLNVAL))
error = "pipe is invalid (POLLNVAL)";
if(error) {
rrdpush_sender_pipe_close(s->host, s->rrdpush_sender_pipe, true);
error("STREAM %s [send to %s]: restarting internal pipe: %s.",
rrdhost_hostname(s->host), s->connected_to, error);
}
}
if(unlikely(fds[Socket].revents & (POLLERR|POLLHUP|POLLNVAL))) {
char *error = NULL;
if (unlikely(fds[Socket].revents & POLLERR))
error = "socket reports errors (POLLERR)";
else if (unlikely(fds[Socket].revents & POLLHUP))
error = "connection closed by remote end (POLLHUP)";
else if (unlikely(fds[Socket].revents & POLLNVAL))
error = "connection is invalid (POLLNVAL)";
if(unlikely(error)) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_SOCKER_ERROR);
error("STREAM %s [send to %s]: restarting connection: %s - %zu bytes transmitted.",
rrdhost_hostname(s->host), s->connected_to, error, s->sent_bytes_on_this_connection);
rrdpush_sender_thread_close_socket(s->host);
}
}
// protection from overflow
if(unlikely(s->flags & SENDER_FLAG_OVERFLOW)) {
worker_is_busy(WORKER_SENDER_JOB_DISCONNECT_OVERFLOW);
errno = 0;
error("STREAM %s [send to %s]: buffer full (allocated %zu bytes) after sending %zu bytes. Restarting connection",
rrdhost_hostname(s->host), s->connected_to, s->buffer->size, s->sent_bytes_on_this_connection);
rrdpush_sender_thread_close_socket(s->host);
}
worker_set_metric(WORKER_SENDER_JOB_REPLAY_DICT_SIZE, (NETDATA_DOUBLE) dictionary_entries(s->replication.requests));
}
netdata_thread_cleanup_pop(1);
return NULL;
}
|