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/*
* librdkafka - The Apache Kafka C/C++ library
*
* Copyright (c) 2017 Magnus Edenhill
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "rdkafka_int.h"
#include "rdkafka_interceptor.h"
#include "rdstring.h"
/**
* @brief Interceptor methodtion/method reference
*/
typedef struct rd_kafka_interceptor_method_s {
union {
rd_kafka_interceptor_f_on_conf_set_t *on_conf_set;
rd_kafka_interceptor_f_on_conf_dup_t *on_conf_dup;
rd_kafka_interceptor_f_on_conf_destroy_t *on_conf_destroy;
rd_kafka_interceptor_f_on_new_t *on_new;
rd_kafka_interceptor_f_on_destroy_t *on_destroy;
rd_kafka_interceptor_f_on_send_t *on_send;
rd_kafka_interceptor_f_on_acknowledgement_t *on_acknowledgement;
rd_kafka_interceptor_f_on_consume_t *on_consume;
rd_kafka_interceptor_f_on_commit_t *on_commit;
rd_kafka_interceptor_f_on_request_sent_t *on_request_sent;
rd_kafka_interceptor_f_on_response_received_t
*on_response_received;
rd_kafka_interceptor_f_on_thread_start_t *on_thread_start;
rd_kafka_interceptor_f_on_thread_exit_t *on_thread_exit;
rd_kafka_interceptor_f_on_broker_state_change_t
*on_broker_state_change;
void *generic; /* For easy assignment */
} u;
char *ic_name;
void *ic_opaque;
} rd_kafka_interceptor_method_t;
/**
* @brief Destroy interceptor methodtion reference
*/
static void rd_kafka_interceptor_method_destroy(void *ptr) {
rd_kafka_interceptor_method_t *method = ptr;
rd_free(method->ic_name);
rd_free(method);
}
/**
* @brief Handle an interceptor on_... methodtion call failures.
*/
static RD_INLINE void
rd_kafka_interceptor_failed(rd_kafka_t *rk,
const rd_kafka_interceptor_method_t *method,
const char *method_name,
rd_kafka_resp_err_t err,
const rd_kafka_message_t *rkmessage,
const char *errstr) {
/* FIXME: Suppress log messages, eventually */
if (rkmessage)
rd_kafka_log(
rk, LOG_WARNING, "ICFAIL",
"Interceptor %s failed %s for "
"message on %s [%" PRId32 "] @ %" PRId64 ": %s%s%s",
method->ic_name, method_name,
rd_kafka_topic_name(rkmessage->rkt), rkmessage->partition,
rkmessage->offset, rd_kafka_err2str(err),
errstr ? ": " : "", errstr ? errstr : "");
else
rd_kafka_log(rk, LOG_WARNING, "ICFAIL",
"Interceptor %s failed %s: %s%s%s",
method->ic_name, method_name,
rd_kafka_err2str(err), errstr ? ": " : "",
errstr ? errstr : "");
}
/**
* @brief Create interceptor method reference.
* Duplicates are rejected
*/
static rd_kafka_interceptor_method_t *
rd_kafka_interceptor_method_new(const char *ic_name,
void *func,
void *ic_opaque) {
rd_kafka_interceptor_method_t *method;
method = rd_calloc(1, sizeof(*method));
method->ic_name = rd_strdup(ic_name);
method->ic_opaque = ic_opaque;
method->u.generic = func;
return method;
}
/**
* @brief Method comparator to be used for finding, not sorting.
*/
static int rd_kafka_interceptor_method_cmp(const void *_a, const void *_b) {
const rd_kafka_interceptor_method_t *a = _a, *b = _b;
if (a->u.generic != b->u.generic)
return -1;
return strcmp(a->ic_name, b->ic_name);
}
/**
* @brief Add interceptor method reference
*/
static rd_kafka_resp_err_t rd_kafka_interceptor_method_add(rd_list_t *list,
const char *ic_name,
void *func,
void *ic_opaque) {
rd_kafka_interceptor_method_t *method;
const rd_kafka_interceptor_method_t skel = {.ic_name = (char *)ic_name,
.u = {.generic = func}};
/* Reject same method from same interceptor.
* This is needed to avoid duplicate interceptors when configuration
* objects are duplicated.
* An exception is made for lists with _F_UNIQUE, which is currently
* only on_conf_destroy() to allow interceptor cleanup. */
if ((list->rl_flags & RD_LIST_F_UNIQUE) &&
rd_list_find(list, &skel, rd_kafka_interceptor_method_cmp))
return RD_KAFKA_RESP_ERR__CONFLICT;
method = rd_kafka_interceptor_method_new(ic_name, func, ic_opaque);
rd_list_add(list, method);
return RD_KAFKA_RESP_ERR_NO_ERROR;
}
/**
* @brief Destroy all interceptors
* @locality application thread calling rd_kafka_conf_destroy() or
* rd_kafka_destroy()
*/
void rd_kafka_interceptors_destroy(rd_kafka_conf_t *conf) {
rd_list_destroy(&conf->interceptors.on_conf_set);
rd_list_destroy(&conf->interceptors.on_conf_dup);
rd_list_destroy(&conf->interceptors.on_conf_destroy);
rd_list_destroy(&conf->interceptors.on_new);
rd_list_destroy(&conf->interceptors.on_destroy);
rd_list_destroy(&conf->interceptors.on_send);
rd_list_destroy(&conf->interceptors.on_acknowledgement);
rd_list_destroy(&conf->interceptors.on_consume);
rd_list_destroy(&conf->interceptors.on_commit);
rd_list_destroy(&conf->interceptors.on_request_sent);
rd_list_destroy(&conf->interceptors.on_response_received);
rd_list_destroy(&conf->interceptors.on_thread_start);
rd_list_destroy(&conf->interceptors.on_thread_exit);
rd_list_destroy(&conf->interceptors.on_broker_state_change);
/* Interceptor config */
rd_list_destroy(&conf->interceptors.config);
}
/**
* @brief Initialize interceptor sub-system for config object.
* @locality application thread
*/
static void rd_kafka_interceptors_init(rd_kafka_conf_t *conf) {
rd_list_init(&conf->interceptors.on_conf_set, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_conf_dup, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
/* conf_destroy() allows duplicates entries. */
rd_list_init(&conf->interceptors.on_conf_destroy, 0,
rd_kafka_interceptor_method_destroy);
rd_list_init(&conf->interceptors.on_new, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_destroy, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_send, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_acknowledgement, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_consume, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_commit, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_request_sent, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_response_received, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_thread_start, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_thread_exit, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
rd_list_init(&conf->interceptors.on_broker_state_change, 0,
rd_kafka_interceptor_method_destroy)
->rl_flags |= RD_LIST_F_UNIQUE;
/* Interceptor config */
rd_list_init(&conf->interceptors.config, 0,
(void (*)(void *))rd_strtup_destroy);
}
/**
* @name Configuration backend
*/
/**
* @brief Constructor called when configuration object is created.
*/
void rd_kafka_conf_interceptor_ctor(int scope, void *pconf) {
rd_kafka_conf_t *conf = pconf;
assert(scope == _RK_GLOBAL);
rd_kafka_interceptors_init(conf);
}
/**
* @brief Destructor called when configuration object is destroyed.
*/
void rd_kafka_conf_interceptor_dtor(int scope, void *pconf) {
rd_kafka_conf_t *conf = pconf;
assert(scope == _RK_GLOBAL);
rd_kafka_interceptors_destroy(conf);
}
/**
* @brief Copy-constructor called when configuration object \p psrcp is
* duplicated to \p dstp.
* @remark Interceptors are NOT copied, but interceptor config is.
*
*/
void rd_kafka_conf_interceptor_copy(int scope,
void *pdst,
const void *psrc,
void *dstptr,
const void *srcptr,
size_t filter_cnt,
const char **filter) {
rd_kafka_conf_t *dconf = pdst;
const rd_kafka_conf_t *sconf = psrc;
int i;
const rd_strtup_t *confval;
assert(scope == _RK_GLOBAL);
/* Apply interceptor configuration values.
* on_conf_dup() has already been called for dconf so
* on_conf_set() interceptors are already in place and we can
* apply the configuration through the standard conf_set() API. */
RD_LIST_FOREACH(confval, &sconf->interceptors.config, i) {
size_t fi;
size_t nlen = strlen(confval->name);
/* Apply filter */
for (fi = 0; fi < filter_cnt; fi++) {
size_t flen = strlen(filter[fi]);
if (nlen >= flen &&
!strncmp(filter[fi], confval->name, flen))
break;
}
if (fi < filter_cnt)
continue; /* Filter matched: ignore property. */
/* Ignore errors for now */
rd_kafka_conf_set(dconf, confval->name, confval->value, NULL,
0);
}
}
/**
* @brief Call interceptor on_conf_set methods.
* @locality application thread calling rd_kafka_conf_set() and
* rd_kafka_conf_dup()
*/
rd_kafka_conf_res_t rd_kafka_interceptors_on_conf_set(rd_kafka_conf_t *conf,
const char *name,
const char *val,
char *errstr,
size_t errstr_size) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &conf->interceptors.on_conf_set, i) {
rd_kafka_conf_res_t res;
res = method->u.on_conf_set(conf, name, val, errstr,
errstr_size, method->ic_opaque);
if (res == RD_KAFKA_CONF_UNKNOWN)
continue;
/* Add successfully handled properties to list of
* interceptor config properties so conf_t objects
* can be copied. */
if (res == RD_KAFKA_CONF_OK)
rd_list_add(&conf->interceptors.config,
rd_strtup_new(name, val));
return res;
}
return RD_KAFKA_CONF_UNKNOWN;
}
/**
* @brief Call interceptor on_conf_dup methods.
* @locality application thread calling rd_kafka_conf_dup()
*/
void rd_kafka_interceptors_on_conf_dup(rd_kafka_conf_t *new_conf,
const rd_kafka_conf_t *old_conf,
size_t filter_cnt,
const char **filter) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &old_conf->interceptors.on_conf_dup, i) {
/* FIXME: Ignore error for now */
method->u.on_conf_dup(new_conf, old_conf, filter_cnt, filter,
method->ic_opaque);
}
}
/**
* @brief Call interceptor on_conf_destroy methods.
* @locality application thread calling rd_kafka_conf_destroy(), rd_kafka_new(),
* rd_kafka_destroy()
*/
void rd_kafka_interceptors_on_conf_destroy(rd_kafka_conf_t *conf) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &conf->interceptors.on_conf_destroy, i) {
/* FIXME: Ignore error for now */
method->u.on_conf_destroy(method->ic_opaque);
}
}
/**
* @brief Call interceptor on_new methods.
* @locality application thread calling rd_kafka_new()
*/
void rd_kafka_interceptors_on_new(rd_kafka_t *rk, const rd_kafka_conf_t *conf) {
rd_kafka_interceptor_method_t *method;
int i;
char errstr[512];
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_new, i) {
rd_kafka_resp_err_t err;
err = method->u.on_new(rk, conf, method->ic_opaque, errstr,
sizeof(errstr));
if (unlikely(err))
rd_kafka_interceptor_failed(rk, method, "on_new", err,
NULL, errstr);
}
}
/**
* @brief Call interceptor on_destroy methods.
* @locality application thread calling rd_kafka_new() or rd_kafka_destroy()
*/
void rd_kafka_interceptors_on_destroy(rd_kafka_t *rk) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_destroy, i) {
rd_kafka_resp_err_t err;
err = method->u.on_destroy(rk, method->ic_opaque);
if (unlikely(err))
rd_kafka_interceptor_failed(rk, method, "on_destroy",
err, NULL, NULL);
}
}
/**
* @brief Call interceptor on_send methods.
* @locality application thread calling produce()
*/
void rd_kafka_interceptors_on_send(rd_kafka_t *rk,
rd_kafka_message_t *rkmessage) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_send, i) {
rd_kafka_resp_err_t err;
err = method->u.on_send(rk, rkmessage, method->ic_opaque);
if (unlikely(err))
rd_kafka_interceptor_failed(rk, method, "on_send", err,
rkmessage, NULL);
}
}
/**
* @brief Call interceptor on_acknowledgement methods.
* @locality application thread calling poll(), or the broker thread if
* if dr callback has been set.
*/
void rd_kafka_interceptors_on_acknowledgement(rd_kafka_t *rk,
rd_kafka_message_t *rkmessage) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_acknowledgement,
i) {
rd_kafka_resp_err_t err;
err = method->u.on_acknowledgement(rk, rkmessage,
method->ic_opaque);
if (unlikely(err))
rd_kafka_interceptor_failed(rk, method,
"on_acknowledgement", err,
rkmessage, NULL);
}
}
/**
* @brief Call on_acknowledgement methods for all messages in queue.
*
* @param force_err If non-zero, sets this error on each message.
*
* @locality broker thread
*/
void rd_kafka_interceptors_on_acknowledgement_queue(
rd_kafka_t *rk,
rd_kafka_msgq_t *rkmq,
rd_kafka_resp_err_t force_err) {
rd_kafka_msg_t *rkm;
RD_KAFKA_MSGQ_FOREACH(rkm, rkmq) {
if (force_err)
rkm->rkm_err = force_err;
rd_kafka_interceptors_on_acknowledgement(rk,
&rkm->rkm_rkmessage);
}
}
/**
* @brief Call interceptor on_consume methods.
* @locality application thread calling poll(), consume() or similar prior to
* passing the message to the application.
*/
void rd_kafka_interceptors_on_consume(rd_kafka_t *rk,
rd_kafka_message_t *rkmessage) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_consume, i) {
rd_kafka_resp_err_t err;
err = method->u.on_consume(rk, rkmessage, method->ic_opaque);
if (unlikely(err))
rd_kafka_interceptor_failed(rk, method, "on_consume",
err, rkmessage, NULL);
}
}
/**
* @brief Call interceptor on_commit methods.
* @locality application thread calling poll(), consume() or similar,
* or rdkafka main thread if no commit_cb or handler registered.
*/
void rd_kafka_interceptors_on_commit(
rd_kafka_t *rk,
const rd_kafka_topic_partition_list_t *offsets,
rd_kafka_resp_err_t err) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_commit, i) {
rd_kafka_resp_err_t ic_err;
ic_err =
method->u.on_commit(rk, offsets, err, method->ic_opaque);
if (unlikely(ic_err))
rd_kafka_interceptor_failed(rk, method, "on_commit",
ic_err, NULL, NULL);
}
}
/**
* @brief Call interceptor on_request_sent methods
* @locality internal broker thread
*/
void rd_kafka_interceptors_on_request_sent(rd_kafka_t *rk,
int sockfd,
const char *brokername,
int32_t brokerid,
int16_t ApiKey,
int16_t ApiVersion,
int32_t CorrId,
size_t size) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_request_sent, i) {
rd_kafka_resp_err_t ic_err;
ic_err = method->u.on_request_sent(
rk, sockfd, brokername, brokerid, ApiKey, ApiVersion,
CorrId, size, method->ic_opaque);
if (unlikely(ic_err))
rd_kafka_interceptor_failed(
rk, method, "on_request_sent", ic_err, NULL, NULL);
}
}
/**
* @brief Call interceptor on_response_received methods
* @locality internal broker thread
*/
void rd_kafka_interceptors_on_response_received(rd_kafka_t *rk,
int sockfd,
const char *brokername,
int32_t brokerid,
int16_t ApiKey,
int16_t ApiVersion,
int32_t CorrId,
size_t size,
int64_t rtt,
rd_kafka_resp_err_t err) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_response_received,
i) {
rd_kafka_resp_err_t ic_err;
ic_err = method->u.on_response_received(
rk, sockfd, brokername, brokerid, ApiKey, ApiVersion,
CorrId, size, rtt, err, method->ic_opaque);
if (unlikely(ic_err))
rd_kafka_interceptor_failed(rk, method,
"on_response_received",
ic_err, NULL, NULL);
}
}
void rd_kafka_interceptors_on_thread_start(rd_kafka_t *rk,
rd_kafka_thread_type_t thread_type) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_thread_start, i) {
rd_kafka_resp_err_t ic_err;
ic_err = method->u.on_thread_start(
rk, thread_type, rd_kafka_thread_name, method->ic_opaque);
if (unlikely(ic_err))
rd_kafka_interceptor_failed(
rk, method, "on_thread_start", ic_err, NULL, NULL);
}
}
void rd_kafka_interceptors_on_thread_exit(rd_kafka_t *rk,
rd_kafka_thread_type_t thread_type) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method, &rk->rk_conf.interceptors.on_thread_exit, i) {
rd_kafka_resp_err_t ic_err;
ic_err = method->u.on_thread_exit(
rk, thread_type, rd_kafka_thread_name, method->ic_opaque);
if (unlikely(ic_err))
rd_kafka_interceptor_failed(
rk, method, "on_thread_exit", ic_err, NULL, NULL);
}
}
/**
* @brief Call interceptor on_broker_state_change methods.
* @locality any.
*/
void rd_kafka_interceptors_on_broker_state_change(rd_kafka_t *rk,
int32_t broker_id,
const char *secproto,
const char *name,
int port,
const char *state) {
rd_kafka_interceptor_method_t *method;
int i;
RD_LIST_FOREACH(method,
&rk->rk_conf.interceptors.on_broker_state_change, i) {
rd_kafka_resp_err_t ic_err;
ic_err = method->u.on_broker_state_change(
rk, broker_id, secproto, name, port, state,
method->ic_opaque);
if (unlikely(ic_err))
rd_kafka_interceptor_failed(rk, method,
"on_broker_state_change",
ic_err, NULL, NULL);
}
}
/**
* @name Public API (backend)
* @{
*/
rd_kafka_resp_err_t rd_kafka_conf_interceptor_add_on_conf_set(
rd_kafka_conf_t *conf,
const char *ic_name,
rd_kafka_interceptor_f_on_conf_set_t *on_conf_set,
void *ic_opaque) {
return rd_kafka_interceptor_method_add(&conf->interceptors.on_conf_set,
ic_name, (void *)on_conf_set,
ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_conf_interceptor_add_on_conf_dup(
rd_kafka_conf_t *conf,
const char *ic_name,
rd_kafka_interceptor_f_on_conf_dup_t *on_conf_dup,
void *ic_opaque) {
return rd_kafka_interceptor_method_add(&conf->interceptors.on_conf_dup,
ic_name, (void *)on_conf_dup,
ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_conf_interceptor_add_on_conf_destroy(
rd_kafka_conf_t *conf,
const char *ic_name,
rd_kafka_interceptor_f_on_conf_destroy_t *on_conf_destroy,
void *ic_opaque) {
return rd_kafka_interceptor_method_add(
&conf->interceptors.on_conf_destroy, ic_name,
(void *)on_conf_destroy, ic_opaque);
}
rd_kafka_resp_err_t
rd_kafka_conf_interceptor_add_on_new(rd_kafka_conf_t *conf,
const char *ic_name,
rd_kafka_interceptor_f_on_new_t *on_new,
void *ic_opaque) {
return rd_kafka_interceptor_method_add(
&conf->interceptors.on_new, ic_name, (void *)on_new, ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_destroy(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_destroy_t *on_destroy,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_destroy, ic_name, (void *)on_destroy,
ic_opaque);
}
rd_kafka_resp_err_t
rd_kafka_interceptor_add_on_send(rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_send_t *on_send,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_send, ic_name, (void *)on_send,
ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_acknowledgement(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_acknowledgement_t *on_acknowledgement,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_acknowledgement, ic_name,
(void *)on_acknowledgement, ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_consume(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_consume_t *on_consume,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_consume, ic_name, (void *)on_consume,
ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_commit(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_commit_t *on_commit,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_commit, ic_name, (void *)on_commit,
ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_request_sent(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_request_sent_t *on_request_sent,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_request_sent, ic_name,
(void *)on_request_sent, ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_response_received(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_response_received_t *on_response_received,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_response_received, ic_name,
(void *)on_response_received, ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_thread_start(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_thread_start_t *on_thread_start,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_thread_start, ic_name,
(void *)on_thread_start, ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_thread_exit(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_thread_exit_t *on_thread_exit,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_thread_exit, ic_name,
(void *)on_thread_exit, ic_opaque);
}
rd_kafka_resp_err_t rd_kafka_interceptor_add_on_broker_state_change(
rd_kafka_t *rk,
const char *ic_name,
rd_kafka_interceptor_f_on_broker_state_change_t *on_broker_state_change,
void *ic_opaque) {
assert(!rk->rk_initialized);
return rd_kafka_interceptor_method_add(
&rk->rk_conf.interceptors.on_broker_state_change, ic_name,
(void *)on_broker_state_change, ic_opaque);
}
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