/*** * Copyright 2020 HAProxy Technologies * * This file is part of the HAProxy OpenTracing filter. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "include.h" static struct pool_head *pool_head_ot_span_context __read_mostly = NULL; #ifdef USE_POOL_OT_SPAN_CONTEXT REGISTER_POOL(&pool_head_ot_span_context, "ot_span_context", MAX(sizeof(struct otc_span), sizeof(struct otc_span_context))); #endif #ifdef DEBUG_OT /*** * NAME * ot_text_map_show - * * ARGUMENTS * text_map - * * DESCRIPTION * - * * RETURN VALUE * This function does not return a value. */ void ot_text_map_show(const struct otc_text_map *text_map) { FLT_OT_FUNC("%p", text_map); if (text_map == NULL) FLT_OT_RETURN(); FLT_OT_DBG_TEXT_MAP(text_map); if ((text_map->key != NULL) && (text_map->value != NULL) && (text_map->count > 0)) { size_t i; for (i = 0; i < text_map->count; i++) FLT_OT_DBG(3, " \"%s\" -> \"%s\"", text_map->key[i], text_map->value[i]); } FLT_OT_RETURN(); } /*** * NAME * ot_debug - * * ARGUMENTS * This function takes no arguments. * * DESCRIPTION * - * * RETURN VALUE * This function does not return a value. */ void ot_debug(void) { char buffer[BUFSIZ]; FLT_OT_FUNC(""); otc_statistics(buffer, sizeof(buffer)); FLT_OT_DBG(0, "%s", buffer); FLT_OT_RETURN(); } #endif /* DEBUG_OT */ /*** * NAME * ot_mem_malloc - * * ARGUMENTS * func - * line - * size - * * DESCRIPTION * - * * RETURN VALUE * - */ static void *ot_mem_malloc(FLT_OT_DBG_ARGS(const char *func, int line, ) size_t size) { return flt_ot_pool_alloc(pool_head_ot_span_context, size, 1, NULL); } /*** * NAME * ot_mem_free - * * ARGUMENTS * func - * line - * ptr - * * DESCRIPTION * - * * RETURN VALUE * This function does not return a value. */ static void ot_mem_free(FLT_OT_DBG_ARGS(const char *func, int line, ) void *ptr) { flt_ot_pool_free(pool_head_ot_span_context, &ptr); } /*** * NAME * ot_init - * * ARGUMENTS * tracer - * plugin - * err - * * DESCRIPTION * - * * RETURN VALUE * - */ int ot_init(struct otc_tracer **tracer, const char *plugin, char **err) { char cwd[PATH_MAX], path[PATH_MAX], errbuf[BUFSIZ] = ""; int rc, retval = -1; FLT_OT_FUNC("%p:%p, \"%s\", %p:%p", FLT_OT_DPTR_ARGS(tracer), plugin, FLT_OT_DPTR_ARGS(err)); flt_ot_pools_info(); #ifdef USE_POOL_OT_SPAN_CONTEXT FLT_OT_DBG(2, "sizeof_pool(ot_span_context) = %u", pool_head_ot_span_context->size); #endif if (getcwd(cwd, sizeof(cwd)) == NULL) { FLT_OT_ERR("failed to get current working directory"); FLT_OT_RETURN_INT(retval); } rc = snprintf(path, sizeof(path), "%s/%s", cwd, plugin); if ((rc == -1) || (rc >= sizeof(path))) { FLT_OT_ERR("failed to construct the OpenTracing plugin path"); FLT_OT_RETURN_INT(retval); } *tracer = otc_tracer_load(path, errbuf, sizeof(errbuf)); if (*tracer == NULL) { FLT_OT_ERR("%s", (*errbuf == '\0') ? "failed to initialize tracing library" : errbuf); } else { otc_ext_init(ot_mem_malloc, ot_mem_free); retval = 0; } FLT_OT_RETURN_INT(retval); } /*** * NAME * ot_start - * * ARGUMENTS * tracer - * cfgbuf - * err - * * DESCRIPTION * - * * RETURN VALUE * This function does not return a value. */ int ot_start(struct otc_tracer *tracer, const char *cfgbuf, char **err) { char errbuf[BUFSIZ] = ""; int retval = -1; FLT_OT_FUNC("%p, %p, %p:%p", tracer, cfgbuf, FLT_OT_DPTR_ARGS(err)); if (cfgbuf == NULL) FLT_OT_RETURN_INT(retval); retval = otc_tracer_start(NULL, cfgbuf, errbuf, sizeof(errbuf)); if (retval == -1) FLT_OT_ERR("%s", (*errbuf == '\0') ? "failed to start tracer" : errbuf); FLT_OT_RETURN_INT(retval); } /*** * NAME * ot_close - * * ARGUMENTS * tracer - * * DESCRIPTION * - * * RETURN VALUE * This function does not return a value. */ void ot_close(struct otc_tracer **tracer) { FLT_OT_FUNC("%p:%p", FLT_OT_DPTR_ARGS(tracer)); if ((tracer == NULL) || (*tracer == NULL)) FLT_OT_RETURN(); (*tracer)->close(*tracer); *tracer = NULL; FLT_OT_RETURN(); } /*** * NAME * ot_span_init - * * ARGUMENTS * tracer - * operation_name - * ts_steady - * ts_system - * ref_type - * ref_ctx_idx - * ref_span - * tags - * num_tags - * err - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_span *ot_span_init(struct otc_tracer *tracer, const char *operation_name, const struct timespec *ts_steady, const struct timespec *ts_system, int ref_type, int ref_ctx_idx, const struct otc_span *ref_span, const struct otc_tag *tags, int num_tags, char **err) { struct otc_start_span_options options; struct otc_span_context context = { .idx = ref_ctx_idx, .span = ref_span }; struct otc_span_reference references = { ref_type, &context }; struct otc_span *retptr = NULL; FLT_OT_FUNC("%p, \"%s\", %p, %p, %d, %d, %p, %p, %d, %p:%p", tracer, operation_name, ts_steady, ts_system, ref_type, ref_ctx_idx, ref_span, tags, num_tags, FLT_OT_DPTR_ARGS(err)); if (operation_name == NULL) FLT_OT_RETURN_PTR(retptr); else if (tracer == NULL) FLT_OT_RETURN_PTR(retptr); (void)memset(&options, 0, sizeof(options)); if (ts_steady != NULL) (void)memcpy(&(options.start_time_steady.value), ts_steady, sizeof(options.start_time_steady.value)); if (ts_system != NULL) (void)memcpy(&(options.start_time_system.value), ts_system, sizeof(options.start_time_system.value)); if (FLT_OT_IN_RANGE(ref_type, otc_span_reference_child_of, otc_span_reference_follows_from)) { options.references = &references; options.num_references = 1; } options.tags = tags; options.num_tags = num_tags; retptr = tracer->start_span_with_options(tracer, operation_name, &options); if (retptr == NULL) FLT_OT_ERR("failed to init new span"); else FLT_OT_DBG(2, "span %p:%zd initialized", retptr, retptr->idx); FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_span_init_va - * * ARGUMENTS * tracer - * operation_name - * ts_steady - * ts_system - * ref_type - * ref_ctx_idx - * ref_span - * err - * tag_key - * tag_value - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_span *ot_span_init_va(struct otc_tracer *tracer, const char *operation_name, const struct timespec *ts_steady, const struct timespec *ts_system, int ref_type, int ref_ctx_idx, const struct otc_span *ref_span, char **err, const char *tag_key, const char *tag_value, ...) { struct otc_tag tags[FLT_OT_MAXTAGS]; int num_tags = 0; struct otc_span *retptr; FLT_OT_FUNC("%p, \"%s\", %p, %p, %d, %d, %p, %p:%p, \"%s\", \"%s\", ...", tracer, operation_name, ts_steady, ts_system, ref_type, ref_ctx_idx, ref_span, FLT_OT_DPTR_ARGS(err), tag_key, tag_value); if (tag_key != NULL) { va_list ap; va_start(ap, tag_value); for (num_tags = 0; (num_tags < FLT_OT_TABLESIZE(tags)) && (tag_key != NULL) && (tag_value != NULL); num_tags++) { tags[num_tags].key = (char *)tag_key; FLT_OT_VSET(&(tags[num_tags].value), string, tag_value); tag_key = va_arg(ap, typeof(tag_key)); if (tag_key != NULL) tag_value = va_arg(ap, typeof(tag_value)); } va_end(ap); } retptr = ot_span_init(tracer, operation_name, ts_steady, ts_system, ref_type, ref_ctx_idx, ref_span, tags, num_tags, err); FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_span_tag - * * ARGUMENTS * span - * tags - * num_tags - * * DESCRIPTION * - * * RETURN VALUE * - */ int ot_span_tag(struct otc_span *span, const struct otc_tag *tags, int num_tags) { int retval = -1; FLT_OT_FUNC("%p, %p, %d", span, tags, num_tags); if ((span == NULL) || (tags == NULL)) FLT_OT_RETURN_INT(retval); for (retval = 0; retval < num_tags; retval++) span->set_tag(span, tags[retval].key, &(tags[retval].value)); FLT_OT_RETURN_INT(retval); } /*** * NAME * ot_span_tag_va - * * ARGUMENTS * span - * key - * type - * value - * * DESCRIPTION * - * * RETURN VALUE * - */ int ot_span_tag_va(struct otc_span *span, const char *key, int type, ...) { va_list ap; struct otc_value ot_value; int retval = -1; FLT_OT_FUNC("%p, \"%s\", %d, ...", span, key, type); if ((span == NULL) || (key == NULL)) FLT_OT_RETURN_INT(retval); va_start(ap, type); for (retval = 0; (key != NULL) && FLT_OT_IN_RANGE(type, otc_value_bool, otc_value_null); retval++) { ot_value.type = type; if (type == otc_value_bool) ot_value.value.bool_value = va_arg(ap, typeof(ot_value.value.bool_value)); else if (type == otc_value_double) ot_value.value.double_value = va_arg(ap, typeof(ot_value.value.double_value)); else if (type == otc_value_int64) ot_value.value.int64_value = va_arg(ap, typeof(ot_value.value.int64_value)); else if (type == otc_value_uint64) ot_value.value.uint64_value = va_arg(ap, typeof(ot_value.value.uint64_value)); else if (type == otc_value_string) ot_value.value.string_value = va_arg(ap, typeof(ot_value.value.string_value)); else if (type == otc_value_null) ot_value.value.string_value = va_arg(ap, typeof(ot_value.value.string_value)); span->set_tag(span, key, &ot_value); key = va_arg(ap, typeof(key)); if (key != NULL) type = va_arg(ap, typeof(type)); } va_end(ap); FLT_OT_RETURN_INT(retval); } /*** * NAME * ot_span_log - * * ARGUMENTS * span - * log_fields - * num_fields - * * DESCRIPTION * - * * RETURN VALUE * - */ int ot_span_log(struct otc_span *span, const struct otc_log_field *log_fields, int num_fields) { int retval = -1; FLT_OT_FUNC("%p, %p, %d", span, log_fields, num_fields); if ((span == NULL) || (log_fields == NULL)) FLT_OT_RETURN_INT(retval); retval = MIN(OTC_MAXLOGFIELDS, num_fields); span->log_fields(span, log_fields, retval); FLT_OT_RETURN_INT(retval); } /*** * NAME * ot_span_log_va - * * ARGUMENTS * span - * key - * value - * * DESCRIPTION * - * * RETURN VALUE * - */ int ot_span_log_va(struct otc_span *span, const char *key, const char *value, ...) { va_list ap; struct otc_log_field log_field[OTC_MAXLOGFIELDS]; int retval = -1; FLT_OT_FUNC("%p, \"%s\", \"%s\", ...", span, key, value); if ((span == NULL) || (key == NULL) || (value == NULL)) FLT_OT_RETURN_INT(retval); va_start(ap, value); for (retval = 0; (retval < FLT_OT_TABLESIZE(log_field)) && (key != NULL); retval++) { log_field[retval].key = key; log_field[retval].value.type = otc_value_string; log_field[retval].value.value.string_value = value; key = va_arg(ap, typeof(key)); if (key != NULL) value = va_arg(ap, typeof(value)); } va_end(ap); span->log_fields(span, log_field, retval); FLT_OT_RETURN_INT(retval); } /*** * NAME * ot_span_log_fmt - * * ARGUMENTS * span - * key - * format - * * DESCRIPTION * - * * RETURN VALUE * - */ int ot_span_log_fmt(struct otc_span *span, const char *key, const char *format, ...) { va_list ap; char value[BUFSIZ]; int n; FLT_OT_FUNC("%p, \"%s\", \"%s\", ...", span, key, format); if ((span == NULL) || (key == NULL) || (format == NULL)) FLT_OT_RETURN_INT(-1); va_start(ap, format); n = vsnprintf(value, sizeof(value), format, ap); if (!FLT_OT_IN_RANGE(n, 0, sizeof(value) - 1)) { FLT_OT_DBG(2, "WARNING: log buffer too small (%d > %zu)", n, sizeof(value)); FLT_OT_STR_ELLIPSIS(value, sizeof(value)); } va_end(ap); FLT_OT_RETURN_INT(ot_span_log_va(span, key, value, NULL)); } /*** * NAME * ot_span_set_baggage - * * ARGUMENTS * span - * baggage - * * DESCRIPTION * - * * RETURN VALUE * - */ int ot_span_set_baggage(struct otc_span *span, const struct otc_text_map *baggage) { size_t i; int retval = -1; FLT_OT_FUNC("%p, %p", span, baggage); if ((span == NULL) || (baggage == NULL)) FLT_OT_RETURN_INT(retval); if ((baggage->key == NULL) || (baggage->value == NULL)) FLT_OT_RETURN_INT(retval); for (retval = i = 0; i < baggage->count; i++) { FLT_OT_DBG(3, "set baggage: \"%s\" -> \"%s\"", baggage->key[i], baggage->value[i]); if ((baggage->key[i] != NULL) && (baggage->value[i] != NULL)) { span->set_baggage_item(span, baggage->key[i], baggage->value[i]); retval++; } } FLT_OT_RETURN_INT(retval); } /*** * NAME * ot_span_set_baggage_va - * * ARGUMENTS * span - * key - * value - * * DESCRIPTION * - * * RETURN VALUE * - */ int ot_span_set_baggage_va(struct otc_span *span, const char *key, const char *value, ...) { va_list ap; int retval = -1; FLT_OT_FUNC("%p, \"%s\", \"%s\", ...", span, key, value); if ((span == NULL) || (key == NULL) || (value == NULL)) FLT_OT_RETURN_INT(retval); va_start(ap, value); for (retval = 0; (key != NULL); retval++) { FLT_OT_DBG(3, "set baggage: \"%s\" -> \"%s\"", key, value); span->set_baggage_item(span, key, value); key = va_arg(ap, typeof(key)); if (key != NULL) value = va_arg(ap, typeof(value)); } va_end(ap); FLT_OT_RETURN_INT(retval); } /*** * NAME * ot_span_baggage_va - * * ARGUMENTS * span - * key - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_text_map *ot_span_baggage_va(const struct otc_span *span, const char *key, ...) { va_list ap; struct otc_text_map *retptr = NULL; int i, n; FLT_OT_FUNC("%p, \"%s\", ...", span, key); if ((span == NULL) || (key == NULL)) FLT_OT_RETURN_PTR(retptr); va_start(ap, key); for (n = 1; va_arg(ap, typeof(key)) != NULL; n++); va_end(ap); retptr = otc_text_map_new(NULL, n); if (retptr == NULL) FLT_OT_RETURN_PTR(retptr); va_start(ap, key); for (i = 0; (i < n) && (key != NULL); i++) { char *value = (char *)span->baggage_item(span, key); if (value != NULL) { (void)otc_text_map_add(retptr, key, 0, value, 0, OTC_TEXT_MAP_DUP_KEY | OTC_TEXT_MAP_DUP_VALUE); FLT_OT_DBG(3, "get baggage[%d]: \"%s\" -> \"%s\"", i, retptr->key[i], retptr->value[i]); } else { FLT_OT_DBG(3, "get baggage[%d]: \"%s\" -> invalid key", i, key); } key = va_arg(ap, typeof(key)); } va_end(ap); FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_inject_text_map - * * ARGUMENTS * tracer - * span - * carrier - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_span_context *ot_inject_text_map(struct otc_tracer *tracer, const struct otc_span *span, struct otc_text_map_writer *carrier) { struct otc_span_context *retptr = NULL; int rc; FLT_OT_FUNC("%p, %p, %p", tracer, span, carrier); if ((span == NULL) || (carrier == NULL)) FLT_OT_RETURN_PTR(retptr); else if (tracer == NULL) FLT_OT_RETURN_PTR(retptr); retptr = span->span_context((struct otc_span *)span); if (retptr == NULL) FLT_OT_RETURN_PTR(retptr); (void)memset(carrier, 0, sizeof(*carrier)); rc = tracer->inject_text_map(tracer, carrier, retptr); if (rc != otc_propagation_error_code_success) { FLT_OT_FREE_CLEAR(retptr); } else { #ifdef DEBUG_OT FLT_OT_DBG_TEXT_CARRIER(carrier, set); ot_text_map_show(&(carrier->text_map)); FLT_OT_DBG_SPAN_CONTEXT(retptr); #endif } FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_inject_http_headers - * * ARGUMENTS * tracer - * span - * carrier - * err - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_span_context *ot_inject_http_headers(struct otc_tracer *tracer, const struct otc_span *span, struct otc_http_headers_writer *carrier, char **err) { struct otc_span_context *retptr = NULL; int rc; FLT_OT_FUNC("%p, %p, %p, %p:%p", tracer, span, carrier, FLT_OT_DPTR_ARGS(err)); if ((span == NULL) || (carrier == NULL)) FLT_OT_RETURN_PTR(retptr); else if (tracer == NULL) FLT_OT_RETURN_PTR(retptr); retptr = span->span_context((struct otc_span *)span); if (retptr == NULL) { FLT_OT_ERR("failed to create span context"); FLT_OT_RETURN_PTR(retptr); } (void)memset(carrier, 0, sizeof(*carrier)); rc = tracer->inject_http_headers(tracer, carrier, retptr); if (rc != otc_propagation_error_code_success) { FLT_OT_ERR("failed to inject HTTP headers data"); FLT_OT_FREE_CLEAR(retptr); } else { #ifdef DEBUG_OT FLT_OT_DBG_TEXT_CARRIER(carrier, set); ot_text_map_show(&(carrier->text_map)); FLT_OT_DBG_SPAN_CONTEXT(retptr); #endif } FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_inject_binary - * * ARGUMENTS * tracer - * span - * carrier - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_span_context *ot_inject_binary(struct otc_tracer *tracer, const struct otc_span *span, struct otc_custom_carrier_writer *carrier) { struct otc_span_context *retptr = NULL; int rc; FLT_OT_FUNC("%p, %p, %p", tracer, span, carrier); if ((span == NULL) || (carrier == NULL)) FLT_OT_RETURN_PTR(retptr); else if (tracer == NULL) FLT_OT_RETURN_PTR(retptr); retptr = span->span_context((struct otc_span *)span); if (retptr == NULL) FLT_OT_RETURN_PTR(retptr); (void)memset(carrier, 0, sizeof(*carrier)); rc = tracer->inject_binary(tracer, carrier, retptr); if (rc != otc_propagation_error_code_success) { FLT_OT_FREE_CLEAR(retptr); } else { #ifdef DEBUG_OT struct otc_jaeger_trace_context *ctx = carrier->binary_data.data; FLT_OT_DBG_CUSTOM_CARRIER(carrier, inject); FLT_OT_DBG(3, "trace context: %016" PRIx64 "%016" PRIx64 ":%016" PRIx64 ":%016" PRIx64 ":%02hhx <%s> <%s>", ctx->trace_id[0], ctx->trace_id[1], ctx->span_id, ctx->parent_span_id, ctx->flags, flt_ot_str_hex(ctx->baggage, carrier->binary_data.size - sizeof(*ctx)), flt_ot_str_ctrl(ctx->baggage, carrier->binary_data.size - sizeof(*ctx))); FLT_OT_DBG_SPAN_CONTEXT(retptr); #endif } FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_extract_text_map - * * ARGUMENTS * tracer - * carrier - * text_map - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_span_context *ot_extract_text_map(struct otc_tracer *tracer, struct otc_text_map_reader *carrier, const struct otc_text_map *text_map) { struct otc_span_context *retptr = NULL; int rc; FLT_OT_FUNC("%p, %p, %p", tracer, carrier, text_map); if (carrier == NULL) FLT_OT_RETURN_PTR(retptr); else if (tracer == NULL) FLT_OT_RETURN_PTR(retptr); if (text_map != NULL) { (void)memset(carrier, 0, sizeof(*carrier)); (void)memcpy(&(carrier->text_map), text_map, sizeof(carrier->text_map)); FLT_OT_DBG_TEXT_CARRIER(carrier, foreach_key); } rc = tracer->extract_text_map(tracer, carrier, &retptr); if (rc != otc_propagation_error_code_success) FLT_OT_FREE_CLEAR(retptr); else if (retptr != NULL) FLT_OT_DBG_SPAN_CONTEXT(retptr); FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_extract_http_headers - * * ARGUMENTS * tracer - * carrier - * text_map - * err - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_span_context *ot_extract_http_headers(struct otc_tracer *tracer, struct otc_http_headers_reader *carrier, const struct otc_text_map *text_map, char **err) { struct otc_span_context *retptr = NULL; int rc; FLT_OT_FUNC("%p, %p, %p, %p:%p", tracer, carrier, text_map, FLT_OT_DPTR_ARGS(err)); if (carrier == NULL) FLT_OT_RETURN_PTR(retptr); else if (tracer == NULL) FLT_OT_RETURN_PTR(retptr); if (text_map != NULL) { (void)memset(carrier, 0, sizeof(*carrier)); (void)memcpy(&(carrier->text_map), text_map, sizeof(carrier->text_map)); FLT_OT_DBG_TEXT_CARRIER(carrier, foreach_key); } rc = tracer->extract_http_headers(tracer, carrier, &retptr); if (rc != otc_propagation_error_code_success) { FLT_OT_ERR("failed to extract HTTP headers data"); FLT_OT_FREE_CLEAR(retptr); } else if (retptr != NULL) FLT_OT_DBG_SPAN_CONTEXT(retptr); FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_extract_binary - * * ARGUMENTS * tracer - * carrier - * binary_data - * * DESCRIPTION * - * * RETURN VALUE * - */ struct otc_span_context *ot_extract_binary(struct otc_tracer *tracer, struct otc_custom_carrier_reader *carrier, const struct otc_binary_data *binary_data) { struct otc_span_context *retptr = NULL; int rc; FLT_OT_FUNC("%p, %p, %p", tracer, carrier, binary_data); if (carrier == NULL) FLT_OT_RETURN_PTR(retptr); else if (tracer == NULL) FLT_OT_RETURN_PTR(retptr); if ((FLT_OT_DEREF(binary_data, data, NULL) != NULL) && (binary_data->size > 0)) { (void)memset(carrier, 0, sizeof(*carrier)); (void)memcpy(&(carrier->binary_data), binary_data, sizeof(carrier->binary_data)); FLT_OT_DBG_CUSTOM_CARRIER(carrier, extract); } rc = tracer->extract_binary(tracer, carrier, &retptr); if (rc != otc_propagation_error_code_success) FLT_OT_FREE_CLEAR(retptr); else if (retptr != NULL) FLT_OT_DBG_SPAN_CONTEXT(retptr); FLT_OT_RETURN_PTR(retptr); } /*** * NAME * ot_span_finish - * * ARGUMENTS * span - * ts_finish - * log_ts - * log_key - * log_value - * * DESCRIPTION * - * * RETURN VALUE * This function does not return a value. */ void ot_span_finish(struct otc_span **span, const struct timespec *ts_finish, const struct timespec *log_ts, const char *log_key, const char *log_value, ...) { struct otc_finish_span_options options; struct otc_log_field log_field[OTC_MAXLOGFIELDS]; struct otc_log_record log_records = { .fields = log_field, .num_fields = 0 }; #ifdef DEBUG_OT typeof((*span)->idx) idx = FLT_OT_DDEREF(span, idx, 0); #endif FLT_OT_FUNC("%p:%p, %p, %p, \"%s\", \"%s\", ...", FLT_OT_DPTR_ARGS(span), ts_finish, log_ts, log_key, log_value); if ((span == NULL) || (*span == NULL)) FLT_OT_RETURN(); (void)memset(&options, 0, sizeof(options)); if (ts_finish != NULL) (void)memcpy(&(options.finish_time.value), ts_finish, sizeof(options.finish_time.value)); if (log_key != NULL) { va_list ap; int i; if (log_ts != NULL) (void)memcpy(&(log_records.timestamp.value), log_ts, sizeof(log_records.timestamp.value)); va_start(ap, log_value); for (i = 0; (i < FLT_OT_TABLESIZE(log_field)) && (log_key != NULL); i++) { log_field[i].key = log_key; log_field[i].value.type = otc_value_string; log_field[i].value.value.string_value = log_value; log_key = va_arg(ap, typeof(log_key)); if (log_key != NULL) log_value = va_arg(ap, typeof(log_value)); } va_end(ap); log_records.num_fields = i; options.log_records = &log_records; options.num_log_records = 1; } /* * Caution: memory allocated for the span is released * in the function finish_with_options(). */ (*span)->finish_with_options(*span, &options); FLT_OT_DBG(2, "span %p:%zu finished", *span, idx); *span = NULL; FLT_OT_RETURN(); } /* * Local variables: * c-indent-level: 8 * c-basic-offset: 8 * End: * * vi: noexpandtab shiftwidth=8 tabstop=8 */