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/*
* librdkafka - Apache Kafka C library
*
* Copyright (c) 2012-2015, 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_buf.h"
#include "rdkafka_broker.h"
#include "rdkafka_interceptor.h"
void rd_kafka_buf_destroy_final(rd_kafka_buf_t *rkbuf) {
switch (rkbuf->rkbuf_reqhdr.ApiKey) {
case RD_KAFKAP_Metadata:
if (rkbuf->rkbuf_u.Metadata.topics)
rd_list_destroy(rkbuf->rkbuf_u.Metadata.topics);
if (rkbuf->rkbuf_u.Metadata.reason)
rd_free(rkbuf->rkbuf_u.Metadata.reason);
if (rkbuf->rkbuf_u.Metadata.rko)
rd_kafka_op_reply(rkbuf->rkbuf_u.Metadata.rko,
RD_KAFKA_RESP_ERR__DESTROY);
if (rkbuf->rkbuf_u.Metadata.decr) {
/* Decrease metadata cache's full_.._sent state. */
mtx_lock(rkbuf->rkbuf_u.Metadata.decr_lock);
rd_kafka_assert(NULL,
(*rkbuf->rkbuf_u.Metadata.decr) > 0);
(*rkbuf->rkbuf_u.Metadata.decr)--;
mtx_unlock(rkbuf->rkbuf_u.Metadata.decr_lock);
}
break;
case RD_KAFKAP_Produce:
rd_kafka_msgbatch_destroy(&rkbuf->rkbuf_batch);
break;
}
if (rkbuf->rkbuf_response)
rd_kafka_buf_destroy(rkbuf->rkbuf_response);
if (rkbuf->rkbuf_make_opaque && rkbuf->rkbuf_free_make_opaque_cb)
rkbuf->rkbuf_free_make_opaque_cb(rkbuf->rkbuf_make_opaque);
rd_kafka_replyq_destroy(&rkbuf->rkbuf_replyq);
rd_kafka_replyq_destroy(&rkbuf->rkbuf_orig_replyq);
rd_buf_destroy(&rkbuf->rkbuf_buf);
if (rkbuf->rkbuf_rktp_vers)
rd_list_destroy(rkbuf->rkbuf_rktp_vers);
if (rkbuf->rkbuf_rkb)
rd_kafka_broker_destroy(rkbuf->rkbuf_rkb);
rd_refcnt_destroy(&rkbuf->rkbuf_refcnt);
rd_free(rkbuf);
}
/**
* @brief Pushes \p buf of size \p len as a new segment on the buffer.
*
* \p buf will NOT be freed by the buffer.
*/
void rd_kafka_buf_push0(rd_kafka_buf_t *rkbuf,
const void *buf,
size_t len,
int allow_crc_calc,
void (*free_cb)(void *)) {
rd_buf_push(&rkbuf->rkbuf_buf, buf, len, free_cb);
if (allow_crc_calc && (rkbuf->rkbuf_flags & RD_KAFKA_OP_F_CRC))
rkbuf->rkbuf_crc = rd_crc32_update(rkbuf->rkbuf_crc, buf, len);
}
/**
* @brief Create a new buffer with \p segcmt initial segments and \p size bytes
* of initial backing memory.
* The underlying buffer will grow as needed.
*
* If \p rk is non-NULL (typical case):
* Additional space for the Kafka protocol headers is inserted automatically.
*/
rd_kafka_buf_t *rd_kafka_buf_new0(int segcnt, size_t size, int flags) {
rd_kafka_buf_t *rkbuf;
rkbuf = rd_calloc(1, sizeof(*rkbuf));
rkbuf->rkbuf_flags = flags;
rd_buf_init(&rkbuf->rkbuf_buf, segcnt, size);
rd_refcnt_init(&rkbuf->rkbuf_refcnt, 1);
return rkbuf;
}
/**
* @brief Create new request buffer with the request-header written (will
* need to be updated with Length, etc, later)
*/
rd_kafka_buf_t *rd_kafka_buf_new_request0(rd_kafka_broker_t *rkb,
int16_t ApiKey,
int segcnt,
size_t size,
rd_bool_t is_flexver) {
rd_kafka_buf_t *rkbuf;
/* Make room for common protocol request headers */
size += RD_KAFKAP_REQHDR_SIZE +
RD_KAFKAP_STR_SIZE(rkb->rkb_rk->rk_client_id) +
/* Flexible version adds a tag list to the headers
* and to the end of the payload, both of which we send
* as empty (1 byte each). */
(is_flexver ? 1 + 1 : 0);
segcnt += 1; /* headers */
rkbuf = rd_kafka_buf_new0(segcnt, size, 0);
rkbuf->rkbuf_rkb = rkb;
rd_kafka_broker_keep(rkb);
rkbuf->rkbuf_rel_timeout = rkb->rkb_rk->rk_conf.socket_timeout_ms;
rkbuf->rkbuf_max_retries = RD_KAFKA_REQUEST_DEFAULT_RETRIES;
rkbuf->rkbuf_reqhdr.ApiKey = ApiKey;
/* Write request header, will be updated later. */
/* Length: updated later */
rd_kafka_buf_write_i32(rkbuf, 0);
/* ApiKey */
rd_kafka_buf_write_i16(rkbuf, rkbuf->rkbuf_reqhdr.ApiKey);
/* ApiVersion: updated later */
rd_kafka_buf_write_i16(rkbuf, 0);
/* CorrId: updated later */
rd_kafka_buf_write_i32(rkbuf, 0);
/* ClientId */
rd_kafka_buf_write_kstr(rkbuf, rkb->rkb_rk->rk_client_id);
if (is_flexver) {
/* Must set flexver after writing the client id since
* it is still a standard non-compact string. */
rkbuf->rkbuf_flags |= RD_KAFKA_OP_F_FLEXVER;
/* Empty request header tags */
rd_kafka_buf_write_i8(rkbuf, 0);
}
return rkbuf;
}
/**
* @brief Create new read-only rkbuf shadowing a memory region.
*
* @remark \p free_cb (possibly NULL) will be used to free \p ptr when
* buffer refcount reaches 0.
* @remark the buffer may only be read from, not written to.
*
* @warning If the caller has log_decode_errors > 0 then it must set up
* \c rkbuf->rkbuf_rkb to a refcnt-increased broker object.
*/
rd_kafka_buf_t *
rd_kafka_buf_new_shadow(const void *ptr, size_t size, void (*free_cb)(void *)) {
rd_kafka_buf_t *rkbuf;
rkbuf = rd_calloc(1, sizeof(*rkbuf));
rkbuf->rkbuf_reqhdr.ApiKey = RD_KAFKAP_None;
rd_buf_init(&rkbuf->rkbuf_buf, 1, 0);
rd_buf_push(&rkbuf->rkbuf_buf, ptr, size, free_cb);
rkbuf->rkbuf_totlen = size;
/* Initialize reader slice */
rd_slice_init_full(&rkbuf->rkbuf_reader, &rkbuf->rkbuf_buf);
rd_refcnt_init(&rkbuf->rkbuf_refcnt, 1);
return rkbuf;
}
void rd_kafka_bufq_enq(rd_kafka_bufq_t *rkbufq, rd_kafka_buf_t *rkbuf) {
TAILQ_INSERT_TAIL(&rkbufq->rkbq_bufs, rkbuf, rkbuf_link);
rd_atomic32_add(&rkbufq->rkbq_cnt, 1);
if (rkbuf->rkbuf_reqhdr.ApiKey == RD_KAFKAP_Produce)
rd_atomic32_add(&rkbufq->rkbq_msg_cnt,
rd_kafka_msgq_len(&rkbuf->rkbuf_batch.msgq));
}
void rd_kafka_bufq_deq(rd_kafka_bufq_t *rkbufq, rd_kafka_buf_t *rkbuf) {
TAILQ_REMOVE(&rkbufq->rkbq_bufs, rkbuf, rkbuf_link);
rd_kafka_assert(NULL, rd_atomic32_get(&rkbufq->rkbq_cnt) > 0);
rd_atomic32_sub(&rkbufq->rkbq_cnt, 1);
if (rkbuf->rkbuf_reqhdr.ApiKey == RD_KAFKAP_Produce)
rd_atomic32_sub(&rkbufq->rkbq_msg_cnt,
rd_kafka_msgq_len(&rkbuf->rkbuf_batch.msgq));
}
void rd_kafka_bufq_init(rd_kafka_bufq_t *rkbufq) {
TAILQ_INIT(&rkbufq->rkbq_bufs);
rd_atomic32_init(&rkbufq->rkbq_cnt, 0);
rd_atomic32_init(&rkbufq->rkbq_msg_cnt, 0);
}
/**
* Concat all buffers from 'src' to tail of 'dst'
*/
void rd_kafka_bufq_concat(rd_kafka_bufq_t *dst, rd_kafka_bufq_t *src) {
TAILQ_CONCAT(&dst->rkbq_bufs, &src->rkbq_bufs, rkbuf_link);
(void)rd_atomic32_add(&dst->rkbq_cnt, rd_atomic32_get(&src->rkbq_cnt));
(void)rd_atomic32_add(&dst->rkbq_msg_cnt,
rd_atomic32_get(&src->rkbq_msg_cnt));
rd_kafka_bufq_init(src);
}
/**
* Purge the wait-response queue.
* NOTE: 'rkbufq' must be a temporary queue and not one of rkb_waitresps
* or rkb_outbufs since buffers may be re-enqueued on those queues.
* 'rkbufq' needs to be bufq_init():ed before reuse after this call.
*/
void rd_kafka_bufq_purge(rd_kafka_broker_t *rkb,
rd_kafka_bufq_t *rkbufq,
rd_kafka_resp_err_t err) {
rd_kafka_buf_t *rkbuf, *tmp;
rd_kafka_assert(rkb->rkb_rk, thrd_is_current(rkb->rkb_thread));
rd_rkb_dbg(rkb, QUEUE, "BUFQ", "Purging bufq with %i buffers",
rd_atomic32_get(&rkbufq->rkbq_cnt));
TAILQ_FOREACH_SAFE(rkbuf, &rkbufq->rkbq_bufs, rkbuf_link, tmp) {
rd_kafka_buf_callback(rkb->rkb_rk, rkb, err, NULL, rkbuf);
}
}
/**
* @brief Update bufq for connection reset:
*
* - Purge connection-setup API requests from the queue.
* - Reset any partially sent buffer's offset. (issue #756)
*
* Request types purged:
* ApiVersion
* SaslHandshake
*/
void rd_kafka_bufq_connection_reset(rd_kafka_broker_t *rkb,
rd_kafka_bufq_t *rkbufq) {
rd_kafka_buf_t *rkbuf, *tmp;
rd_ts_t now = rd_clock();
rd_kafka_assert(rkb->rkb_rk, thrd_is_current(rkb->rkb_thread));
rd_rkb_dbg(rkb, QUEUE, "BUFQ",
"Updating %d buffers on connection reset",
rd_atomic32_get(&rkbufq->rkbq_cnt));
TAILQ_FOREACH_SAFE(rkbuf, &rkbufq->rkbq_bufs, rkbuf_link, tmp) {
switch (rkbuf->rkbuf_reqhdr.ApiKey) {
case RD_KAFKAP_ApiVersion:
case RD_KAFKAP_SaslHandshake:
rd_kafka_bufq_deq(rkbufq, rkbuf);
rd_kafka_buf_callback(rkb->rkb_rk, rkb,
RD_KAFKA_RESP_ERR__DESTROY, NULL,
rkbuf);
break;
default:
/* Reset buffer send position and corrid */
rd_slice_seek(&rkbuf->rkbuf_reader, 0);
rkbuf->rkbuf_corrid = 0;
/* Reset timeout */
rd_kafka_buf_calc_timeout(rkb->rkb_rk, rkbuf, now);
break;
}
}
}
void rd_kafka_bufq_dump(rd_kafka_broker_t *rkb,
const char *fac,
rd_kafka_bufq_t *rkbq) {
rd_kafka_buf_t *rkbuf;
int cnt = rd_kafka_bufq_cnt(rkbq);
rd_ts_t now;
if (!cnt)
return;
now = rd_clock();
rd_rkb_dbg(rkb, BROKER, fac, "bufq with %d buffer(s):", cnt);
TAILQ_FOREACH(rkbuf, &rkbq->rkbq_bufs, rkbuf_link) {
rd_rkb_dbg(rkb, BROKER, fac,
" Buffer %s (%" PRIusz " bytes, corrid %" PRId32
", "
"connid %d, prio %d, retry %d in %lldms, "
"timeout in %lldms)",
rd_kafka_ApiKey2str(rkbuf->rkbuf_reqhdr.ApiKey),
rkbuf->rkbuf_totlen, rkbuf->rkbuf_corrid,
rkbuf->rkbuf_connid, rkbuf->rkbuf_prio,
rkbuf->rkbuf_retries,
rkbuf->rkbuf_ts_retry
? (rkbuf->rkbuf_ts_retry - now) / 1000LL
: 0,
rkbuf->rkbuf_ts_timeout
? (rkbuf->rkbuf_ts_timeout - now) / 1000LL
: 0);
}
}
/**
* @brief Calculate the effective timeout for a request attempt
*/
void rd_kafka_buf_calc_timeout(const rd_kafka_t *rk,
rd_kafka_buf_t *rkbuf,
rd_ts_t now) {
if (likely(rkbuf->rkbuf_rel_timeout)) {
/* Default:
* Relative timeout, set request timeout to
* to now + rel timeout. */
rkbuf->rkbuf_ts_timeout = now + rkbuf->rkbuf_rel_timeout * 1000;
} else if (!rkbuf->rkbuf_force_timeout) {
/* Use absolute timeout, limited by socket.timeout.ms */
rd_ts_t sock_timeout =
now + rk->rk_conf.socket_timeout_ms * 1000;
rkbuf->rkbuf_ts_timeout =
RD_MIN(sock_timeout, rkbuf->rkbuf_abs_timeout);
} else {
/* Use absolue timeout without limit. */
rkbuf->rkbuf_ts_timeout = rkbuf->rkbuf_abs_timeout;
}
}
/**
* Retry failed request, if permitted.
* @remark \p rkb may be NULL
* @remark the retry count is only increased for actually transmitted buffers,
* if there is a failure while the buffers lingers in the output queue
* (rkb_outbufs) then the retry counter is not increased.
* Returns 1 if the request was scheduled for retry, else 0.
*/
int rd_kafka_buf_retry(rd_kafka_broker_t *rkb, rd_kafka_buf_t *rkbuf) {
int incr_retry = rd_kafka_buf_was_sent(rkbuf) ? 1 : 0;
/* Don't allow retries of dummy/empty buffers */
rd_assert(rd_buf_len(&rkbuf->rkbuf_buf) > 0);
if (unlikely(!rkb || rkb->rkb_source == RD_KAFKA_INTERNAL ||
rd_kafka_terminating(rkb->rkb_rk) ||
rkbuf->rkbuf_retries + incr_retry >
rkbuf->rkbuf_max_retries))
return 0;
/* Absolute timeout, check for expiry. */
if (rkbuf->rkbuf_abs_timeout && rkbuf->rkbuf_abs_timeout < rd_clock())
return 0; /* Expired */
/* Try again */
rkbuf->rkbuf_ts_sent = 0;
rkbuf->rkbuf_ts_timeout = 0; /* Will be updated in calc_timeout() */
rkbuf->rkbuf_retries += incr_retry;
rd_kafka_buf_keep(rkbuf);
rd_kafka_broker_buf_retry(rkb, rkbuf);
return 1;
}
/**
* @brief Handle RD_KAFKA_OP_RECV_BUF.
*/
void rd_kafka_buf_handle_op(rd_kafka_op_t *rko, rd_kafka_resp_err_t err) {
rd_kafka_buf_t *request, *response;
rd_kafka_t *rk;
request = rko->rko_u.xbuf.rkbuf;
rko->rko_u.xbuf.rkbuf = NULL;
/* NULL on op_destroy() */
if (request->rkbuf_replyq.q) {
int32_t version = request->rkbuf_replyq.version;
/* Current queue usage is done, but retain original replyq for
* future retries, stealing
* the current reference. */
request->rkbuf_orig_replyq = request->rkbuf_replyq;
rd_kafka_replyq_clear(&request->rkbuf_replyq);
/* Callback might need to version check so we retain the
* version across the clear() call which clears it. */
request->rkbuf_replyq.version = version;
}
if (!request->rkbuf_cb) {
rd_kafka_buf_destroy(request);
return;
}
/* Let buf_callback() do destroy()s */
response = request->rkbuf_response; /* May be NULL */
request->rkbuf_response = NULL;
if (!(rk = rko->rko_rk)) {
rd_assert(request->rkbuf_rkb != NULL);
rk = request->rkbuf_rkb->rkb_rk;
}
rd_kafka_buf_callback(rk, request->rkbuf_rkb, err, response, request);
}
/**
* Call request.rkbuf_cb(), but:
* - if the rkbuf has a rkbuf_replyq the buffer is enqueued on that queue
* with op type RD_KAFKA_OP_RECV_BUF.
* - else call rkbuf_cb().
*
* \p response may be NULL.
*
* Will decrease refcount for both response and request, eventually.
*
* The decision to retry, and the call to buf_retry(), is delegated
* to the buffer's response callback.
*/
void rd_kafka_buf_callback(rd_kafka_t *rk,
rd_kafka_broker_t *rkb,
rd_kafka_resp_err_t err,
rd_kafka_buf_t *response,
rd_kafka_buf_t *request) {
rd_kafka_interceptors_on_response_received(
rk, -1, rkb ? rd_kafka_broker_name(rkb) : "",
rkb ? rd_kafka_broker_id(rkb) : -1, request->rkbuf_reqhdr.ApiKey,
request->rkbuf_reqhdr.ApiVersion, request->rkbuf_reshdr.CorrId,
response ? response->rkbuf_totlen : 0,
response ? response->rkbuf_ts_sent : -1, err);
if (err != RD_KAFKA_RESP_ERR__DESTROY && request->rkbuf_replyq.q) {
rd_kafka_op_t *rko = rd_kafka_op_new(RD_KAFKA_OP_RECV_BUF);
rd_kafka_assert(NULL, !request->rkbuf_response);
request->rkbuf_response = response;
/* Increment refcnt since rko_rkbuf will be decref:ed
* if replyq_enq() fails and we dont want the rkbuf gone in that
* case. */
rd_kafka_buf_keep(request);
rko->rko_u.xbuf.rkbuf = request;
rko->rko_err = err;
/* Copy original replyq for future retries, with its own
* queue reference. */
rd_kafka_replyq_copy(&request->rkbuf_orig_replyq,
&request->rkbuf_replyq);
rd_kafka_replyq_enq(&request->rkbuf_replyq, rko, 0);
rd_kafka_buf_destroy(request); /* from keep above */
return;
}
if (request->rkbuf_cb)
request->rkbuf_cb(rk, rkb, err, response, request,
request->rkbuf_opaque);
rd_kafka_buf_destroy(request);
if (response)
rd_kafka_buf_destroy(response);
}
/**
* @brief Set the maker callback, which will be called just prior to sending
* to construct the buffer contents.
*
* Use this when the usable ApiVersion must be known but the broker may
* currently be down.
*
* See rd_kafka_make_req_cb_t documentation for more info.
*/
void rd_kafka_buf_set_maker(rd_kafka_buf_t *rkbuf,
rd_kafka_make_req_cb_t *make_cb,
void *make_opaque,
void (*free_make_opaque_cb)(void *make_opaque)) {
rd_assert(!rkbuf->rkbuf_make_req_cb &&
!(rkbuf->rkbuf_flags & RD_KAFKA_OP_F_NEED_MAKE));
rkbuf->rkbuf_make_req_cb = make_cb;
rkbuf->rkbuf_make_opaque = make_opaque;
rkbuf->rkbuf_free_make_opaque_cb = free_make_opaque_cb;
rkbuf->rkbuf_flags |= RD_KAFKA_OP_F_NEED_MAKE;
}
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