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/*
* librdkafka - Apache Kafka C library
*
* Copyright (c) 2012,2013 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.
* PRESS 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.
*/
#ifndef _RDKAFKA_MSG_H_
#define _RDKAFKA_MSG_H_
#include "rdsysqueue.h"
#include "rdkafka_proto.h"
#include "rdkafka_header.h"
/**
* @brief Internal RD_KAFKA_MSG_F_.. flags
*/
#define RD_KAFKA_MSG_F_RKT_RDLOCKED 0x100000 /* rkt is rdlock():ed */
/**
* @brief Message.MsgAttributes for MsgVersion v0..v1,
* also used for MessageSet.Attributes for MsgVersion v2.
*/
#define RD_KAFKA_MSG_ATTR_GZIP (1 << 0)
#define RD_KAFKA_MSG_ATTR_SNAPPY (1 << 1)
#define RD_KAFKA_MSG_ATTR_LZ4 (3)
#define RD_KAFKA_MSG_ATTR_ZSTD (4)
#define RD_KAFKA_MSG_ATTR_COMPRESSION_MASK 0x7
#define RD_KAFKA_MSG_ATTR_CREATE_TIME (0 << 3)
#define RD_KAFKA_MSG_ATTR_LOG_APPEND_TIME (1 << 3)
/**
* @brief MessageSet.Attributes for MsgVersion v2
*
* Attributes:
* -------------------------------------------------------------------------------------------------
* | Unused (6-15) | Control (5) | Transactional (4) | Timestamp Type (3) |
* Compression Type (0-2) |
* -------------------------------------------------------------------------------------------------
*/
/* Compression types same as MsgVersion 0 above */
/* Timestamp type same as MsgVersion 0 above */
#define RD_KAFKA_MSGSET_V2_ATTR_TRANSACTIONAL (1 << 4)
#define RD_KAFKA_MSGSET_V2_ATTR_CONTROL (1 << 5)
typedef struct rd_kafka_msg_s {
rd_kafka_message_t rkm_rkmessage; /* MUST be first field */
#define rkm_len rkm_rkmessage.len
#define rkm_payload rkm_rkmessage.payload
#define rkm_opaque rkm_rkmessage._private
#define rkm_partition rkm_rkmessage.partition
#define rkm_offset rkm_rkmessage.offset
#define rkm_key rkm_rkmessage.key
#define rkm_key_len rkm_rkmessage.key_len
#define rkm_err rkm_rkmessage.err
TAILQ_ENTRY(rd_kafka_msg_s) rkm_link;
int rkm_flags;
/* @remark These additional flags must not collide with
* the RD_KAFKA_MSG_F_* flags in rdkafka.h */
#define RD_KAFKA_MSG_F_FREE_RKM 0x10000 /* msg_t is allocated */
#define RD_KAFKA_MSG_F_ACCOUNT 0x20000 /* accounted for in curr_msgs */
#define RD_KAFKA_MSG_F_PRODUCER 0x40000 /* Producer message */
#define RD_KAFKA_MSG_F_CONTROL 0x80000 /* Control message */
rd_kafka_timestamp_type_t rkm_tstype; /* rkm_timestamp type */
int64_t rkm_timestamp; /* Message format V1.
* Meaning of timestamp depends on
* message Attribute LogAppendtime (broker)
* or CreateTime (producer).
* Unit is milliseconds since epoch (UTC).*/
rd_kafka_headers_t *rkm_headers; /**< Parsed headers list, if any. */
rd_kafka_msg_status_t rkm_status; /**< Persistence status. Updated in
* the ProduceResponse handler:
* this value is always up to date.
*/
int32_t rkm_broker_id; /**< Broker message was produced to
* or fetched from. */
union {
struct {
rd_ts_t ts_timeout; /* Message timeout */
rd_ts_t ts_enq; /* Enqueue/Produce time */
rd_ts_t ts_backoff; /* Backoff next Produce until
* this time. */
uint64_t msgid; /**< Message sequencial id,
* used to maintain ordering.
* Starts at 1. */
uint64_t last_msgid; /**< On retry this is set
* on the first message
* in a batch to point
* out the last message
* of the batch so that
* the batch can be
* identically reconstructed.
*/
int retries; /* Number of retries so far */
} producer;
#define rkm_ts_timeout rkm_u.producer.ts_timeout
#define rkm_ts_enq rkm_u.producer.ts_enq
#define rkm_msgid rkm_u.producer.msgid
struct {
rd_kafkap_bytes_t binhdrs; /**< Unparsed
* binary headers in
* protocol msg */
int32_t leader_epoch; /**< Leader epoch at the time
* the message was fetched. */
} consumer;
} rkm_u;
} rd_kafka_msg_t;
TAILQ_HEAD(rd_kafka_msg_head_s, rd_kafka_msg_s);
/** @returns the absolute time a message was enqueued (producer) */
#define rd_kafka_msg_enq_time(rkm) ((rkm)->rkm_ts_enq)
/**
* @returns the message's total maximum on-wire size.
* @remark Depending on message version (MagicByte) the actual size
* may be smaller.
*/
static RD_INLINE RD_UNUSED size_t
rd_kafka_msg_wire_size(const rd_kafka_msg_t *rkm, int MsgVersion) {
static const size_t overheads[] = {
[0] = RD_KAFKAP_MESSAGE_V0_OVERHEAD,
[1] = RD_KAFKAP_MESSAGE_V1_OVERHEAD,
[2] = RD_KAFKAP_MESSAGE_V2_MAX_OVERHEAD};
size_t size;
rd_dassert(MsgVersion >= 0 && MsgVersion <= 2);
size = overheads[MsgVersion] + rkm->rkm_len + rkm->rkm_key_len;
if (MsgVersion == 2 && rkm->rkm_headers)
size += rd_kafka_headers_serialized_size(rkm->rkm_headers);
return size;
}
/**
* @returns the maximum total on-wire message size regardless of MsgVersion.
*
* @remark This does not account for the ProduceRequest, et.al, just the
* per-message overhead.
*/
static RD_INLINE RD_UNUSED size_t rd_kafka_msg_max_wire_size(size_t keylen,
size_t valuelen,
size_t hdrslen) {
return RD_KAFKAP_MESSAGE_V2_MAX_OVERHEAD + keylen + valuelen + hdrslen;
}
/**
* @returns the enveloping rd_kafka_msg_t pointer for a rd_kafka_msg_t
* wrapped rd_kafka_message_t.
*/
static RD_INLINE RD_UNUSED rd_kafka_msg_t *
rd_kafka_message2msg(rd_kafka_message_t *rkmessage) {
return (rd_kafka_msg_t *)rkmessage;
}
/**
* @brief Message queue with message and byte counters.
*/
TAILQ_HEAD(rd_kafka_msgs_head_s, rd_kafka_msg_s);
typedef struct rd_kafka_msgq_s {
struct rd_kafka_msgs_head_s rkmq_msgs; /* TAILQ_HEAD */
int32_t rkmq_msg_cnt;
int64_t rkmq_msg_bytes;
struct {
rd_ts_t abstime; /**< Allow wake-ups after this point in time.*/
int32_t msg_cnt; /**< Signal wake-up when this message count
* is reached. */
int64_t msg_bytes; /**< .. or when this byte count is
* reached. */
rd_bool_t on_first; /**< Wake-up on first message enqueued
* regardless of .abstime. */
rd_bool_t signalled; /**< Wake-up (already) signalled. */
} rkmq_wakeup;
} rd_kafka_msgq_t;
#define RD_KAFKA_MSGQ_INITIALIZER(rkmq) \
{ .rkmq_msgs = TAILQ_HEAD_INITIALIZER((rkmq).rkmq_msgs) }
#define RD_KAFKA_MSGQ_FOREACH(elm, head) \
TAILQ_FOREACH(elm, &(head)->rkmq_msgs, rkm_link)
/* @brief Check if queue is empty. Proper locks must be held. */
#define RD_KAFKA_MSGQ_EMPTY(rkmq) TAILQ_EMPTY(&(rkmq)->rkmq_msgs)
/**
* Returns the number of messages in the specified queue.
*/
static RD_INLINE RD_UNUSED int rd_kafka_msgq_len(const rd_kafka_msgq_t *rkmq) {
return (int)rkmq->rkmq_msg_cnt;
}
/**
* Returns the total number of bytes in the specified queue.
*/
static RD_INLINE RD_UNUSED size_t
rd_kafka_msgq_size(const rd_kafka_msgq_t *rkmq) {
return (size_t)rkmq->rkmq_msg_bytes;
}
void rd_kafka_msg_destroy(rd_kafka_t *rk, rd_kafka_msg_t *rkm);
int rd_kafka_msg_new(rd_kafka_topic_t *rkt,
int32_t force_partition,
int msgflags,
char *payload,
size_t len,
const void *keydata,
size_t keylen,
void *msg_opaque);
static RD_INLINE RD_UNUSED void rd_kafka_msgq_init(rd_kafka_msgq_t *rkmq) {
TAILQ_INIT(&rkmq->rkmq_msgs);
rkmq->rkmq_msg_cnt = 0;
rkmq->rkmq_msg_bytes = 0;
}
#if ENABLE_DEVEL
#define rd_kafka_msgq_verify_order(rktp, rkmq, exp_first_msgid, gapless) \
rd_kafka_msgq_verify_order0(__FUNCTION__, __LINE__, rktp, rkmq, \
exp_first_msgid, gapless)
#else
#define rd_kafka_msgq_verify_order(rktp, rkmq, exp_first_msgid, gapless) \
do { \
} while (0)
#endif
void rd_kafka_msgq_verify_order0(const char *function,
int line,
const struct rd_kafka_toppar_s *rktp,
const rd_kafka_msgq_t *rkmq,
uint64_t exp_first_msgid,
rd_bool_t gapless);
/**
* Concat all elements of 'src' onto tail of 'dst'.
* 'src' will be cleared.
* Proper locks for 'src' and 'dst' must be held.
*/
static RD_INLINE RD_UNUSED void rd_kafka_msgq_concat(rd_kafka_msgq_t *dst,
rd_kafka_msgq_t *src) {
TAILQ_CONCAT(&dst->rkmq_msgs, &src->rkmq_msgs, rkm_link);
dst->rkmq_msg_cnt += src->rkmq_msg_cnt;
dst->rkmq_msg_bytes += src->rkmq_msg_bytes;
rd_kafka_msgq_init(src);
rd_kafka_msgq_verify_order(NULL, dst, 0, rd_false);
}
/**
* Move queue 'src' to 'dst' (overwrites dst)
* Source will be cleared.
*/
static RD_INLINE RD_UNUSED void rd_kafka_msgq_move(rd_kafka_msgq_t *dst,
rd_kafka_msgq_t *src) {
TAILQ_MOVE(&dst->rkmq_msgs, &src->rkmq_msgs, rkm_link);
dst->rkmq_msg_cnt = src->rkmq_msg_cnt;
dst->rkmq_msg_bytes = src->rkmq_msg_bytes;
rd_kafka_msgq_init(src);
rd_kafka_msgq_verify_order(NULL, dst, 0, rd_false);
}
/**
* @brief Prepend all elements of \ src onto head of \p dst.
* \p src will be cleared/re-initialized.
*
* @locks proper locks for \p src and \p dst MUST be held.
*/
static RD_INLINE RD_UNUSED void rd_kafka_msgq_prepend(rd_kafka_msgq_t *dst,
rd_kafka_msgq_t *src) {
rd_kafka_msgq_concat(src, dst);
rd_kafka_msgq_move(dst, src);
rd_kafka_msgq_verify_order(NULL, dst, 0, rd_false);
}
/**
* rd_free all msgs in msgq and reinitialize the msgq.
*/
static RD_INLINE RD_UNUSED void rd_kafka_msgq_purge(rd_kafka_t *rk,
rd_kafka_msgq_t *rkmq) {
rd_kafka_msg_t *rkm, *next;
next = TAILQ_FIRST(&rkmq->rkmq_msgs);
while (next) {
rkm = next;
next = TAILQ_NEXT(next, rkm_link);
rd_kafka_msg_destroy(rk, rkm);
}
rd_kafka_msgq_init(rkmq);
}
/**
* Remove message from message queue
*/
static RD_INLINE RD_UNUSED rd_kafka_msg_t *
rd_kafka_msgq_deq(rd_kafka_msgq_t *rkmq, rd_kafka_msg_t *rkm, int do_count) {
if (likely(do_count)) {
rd_kafka_assert(NULL, rkmq->rkmq_msg_cnt > 0);
rd_kafka_assert(NULL,
rkmq->rkmq_msg_bytes >=
(int64_t)(rkm->rkm_len + rkm->rkm_key_len));
rkmq->rkmq_msg_cnt--;
rkmq->rkmq_msg_bytes -= rkm->rkm_len + rkm->rkm_key_len;
}
TAILQ_REMOVE(&rkmq->rkmq_msgs, rkm, rkm_link);
return rkm;
}
static RD_INLINE RD_UNUSED rd_kafka_msg_t *
rd_kafka_msgq_pop(rd_kafka_msgq_t *rkmq) {
rd_kafka_msg_t *rkm;
if (((rkm = TAILQ_FIRST(&rkmq->rkmq_msgs))))
rd_kafka_msgq_deq(rkmq, rkm, 1);
return rkm;
}
/**
* @returns the first message in the queue, or NULL if empty.
*
* @locks caller's responsibility
*/
static RD_INLINE RD_UNUSED rd_kafka_msg_t *
rd_kafka_msgq_first(const rd_kafka_msgq_t *rkmq) {
return TAILQ_FIRST(&rkmq->rkmq_msgs);
}
/**
* @returns the last message in the queue, or NULL if empty.
*
* @locks caller's responsibility
*/
static RD_INLINE RD_UNUSED rd_kafka_msg_t *
rd_kafka_msgq_last(const rd_kafka_msgq_t *rkmq) {
return TAILQ_LAST(&rkmq->rkmq_msgs, rd_kafka_msgs_head_s);
}
/**
* @returns the MsgId of the first message in the queue, or 0 if empty.
*
* @locks caller's responsibility
*/
static RD_INLINE RD_UNUSED uint64_t
rd_kafka_msgq_first_msgid(const rd_kafka_msgq_t *rkmq) {
const rd_kafka_msg_t *rkm = TAILQ_FIRST(&rkmq->rkmq_msgs);
if (rkm)
return rkm->rkm_u.producer.msgid;
else
return 0;
}
rd_bool_t rd_kafka_msgq_allow_wakeup_at(rd_kafka_msgq_t *rkmq,
const rd_kafka_msgq_t *dest_rkmq,
rd_ts_t *next_wakeup,
rd_ts_t now,
rd_ts_t linger_us,
int32_t batch_msg_cnt,
int64_t batch_msg_bytes);
/**
* @returns true if msgq may be awoken.
*/
static RD_INLINE RD_UNUSED rd_bool_t
rd_kafka_msgq_may_wakeup(const rd_kafka_msgq_t *rkmq, rd_ts_t now) {
/* No: Wakeup already signalled */
if (rkmq->rkmq_wakeup.signalled)
return rd_false;
/* Yes: Wakeup linger time has expired */
if (now >= rkmq->rkmq_wakeup.abstime)
return rd_true;
/* Yes: First message enqueued may trigger wakeup */
if (rkmq->rkmq_msg_cnt == 1 && rkmq->rkmq_wakeup.on_first)
return rd_true;
/* Yes: batch.size or batch.num.messages exceeded */
if (rkmq->rkmq_msg_cnt >= rkmq->rkmq_wakeup.msg_cnt ||
rkmq->rkmq_msg_bytes > rkmq->rkmq_wakeup.msg_bytes)
return rd_true;
/* No */
return rd_false;
}
/**
* @brief Message ordering comparator using the message id
* number to order messages in ascending order (FIFO).
*/
static RD_INLINE int rd_kafka_msg_cmp_msgid(const void *_a, const void *_b) {
const rd_kafka_msg_t *a = _a, *b = _b;
rd_dassert(a->rkm_u.producer.msgid);
return RD_CMP(a->rkm_u.producer.msgid, b->rkm_u.producer.msgid);
}
/**
* @brief Message ordering comparator using the message id
* number to order messages in descending order (LIFO).
*/
static RD_INLINE int rd_kafka_msg_cmp_msgid_lifo(const void *_a,
const void *_b) {
const rd_kafka_msg_t *a = _a, *b = _b;
rd_dassert(a->rkm_u.producer.msgid);
return RD_CMP(b->rkm_u.producer.msgid, a->rkm_u.producer.msgid);
}
/**
* @brief Insert message at its sorted position using the msgid.
* @remark This is an O(n) operation.
* @warning The message must have a msgid set.
* @returns the message count of the queue after enqueuing the message.
*/
int rd_kafka_msgq_enq_sorted0(rd_kafka_msgq_t *rkmq,
rd_kafka_msg_t *rkm,
int (*order_cmp)(const void *, const void *));
/**
* @brief Insert message at its sorted position using the msgid.
* @remark This is an O(n) operation.
* @warning The message must have a msgid set.
* @returns the message count of the queue after enqueuing the message.
*/
int rd_kafka_msgq_enq_sorted(const rd_kafka_topic_t *rkt,
rd_kafka_msgq_t *rkmq,
rd_kafka_msg_t *rkm);
/**
* Insert message at head of message queue.
*/
static RD_INLINE RD_UNUSED void rd_kafka_msgq_insert(rd_kafka_msgq_t *rkmq,
rd_kafka_msg_t *rkm) {
TAILQ_INSERT_HEAD(&rkmq->rkmq_msgs, rkm, rkm_link);
rkmq->rkmq_msg_cnt++;
rkmq->rkmq_msg_bytes += rkm->rkm_len + rkm->rkm_key_len;
}
/**
* Append message to tail of message queue.
*/
static RD_INLINE RD_UNUSED int rd_kafka_msgq_enq(rd_kafka_msgq_t *rkmq,
rd_kafka_msg_t *rkm) {
TAILQ_INSERT_TAIL(&rkmq->rkmq_msgs, rkm, rkm_link);
rkmq->rkmq_msg_bytes += rkm->rkm_len + rkm->rkm_key_len;
return (int)++rkmq->rkmq_msg_cnt;
}
/**
* @returns true if the MsgId extents (first, last) in the two queues overlap.
*/
static RD_INLINE RD_UNUSED rd_bool_t
rd_kafka_msgq_overlap(const rd_kafka_msgq_t *a, const rd_kafka_msgq_t *b) {
const rd_kafka_msg_t *fa, *la, *fb, *lb;
if (RD_KAFKA_MSGQ_EMPTY(a) || RD_KAFKA_MSGQ_EMPTY(b))
return rd_false;
fa = rd_kafka_msgq_first(a);
fb = rd_kafka_msgq_first(b);
la = rd_kafka_msgq_last(a);
lb = rd_kafka_msgq_last(b);
return (rd_bool_t)(
fa->rkm_u.producer.msgid <= lb->rkm_u.producer.msgid &&
fb->rkm_u.producer.msgid <= la->rkm_u.producer.msgid);
}
/**
* Scans a message queue for timed out messages and removes them from
* 'rkmq' and adds them to 'timedout', returning the number of timed out
* messages.
* 'timedout' must be initialized.
*/
int rd_kafka_msgq_age_scan(struct rd_kafka_toppar_s *rktp,
rd_kafka_msgq_t *rkmq,
rd_kafka_msgq_t *timedout,
rd_ts_t now,
rd_ts_t *abs_next_timeout);
void rd_kafka_msgq_split(rd_kafka_msgq_t *leftq,
rd_kafka_msgq_t *rightq,
rd_kafka_msg_t *first_right,
int cnt,
int64_t bytes);
rd_kafka_msg_t *rd_kafka_msgq_find_pos(const rd_kafka_msgq_t *rkmq,
const rd_kafka_msg_t *start_pos,
const rd_kafka_msg_t *rkm,
int (*cmp)(const void *, const void *),
int *cntp,
int64_t *bytesp);
void rd_kafka_msgq_set_metadata(rd_kafka_msgq_t *rkmq,
int32_t broker_id,
int64_t base_offset,
int64_t timestamp,
rd_kafka_msg_status_t status);
void rd_kafka_msgq_move_acked(rd_kafka_msgq_t *dest,
rd_kafka_msgq_t *src,
uint64_t last_msgid,
rd_kafka_msg_status_t status);
int rd_kafka_msg_partitioner(rd_kafka_topic_t *rkt,
rd_kafka_msg_t *rkm,
rd_dolock_t do_lock);
rd_kafka_message_t *rd_kafka_message_get(struct rd_kafka_op_s *rko);
rd_kafka_message_t *rd_kafka_message_get_from_rkm(struct rd_kafka_op_s *rko,
rd_kafka_msg_t *rkm);
rd_kafka_message_t *rd_kafka_message_new(void);
/**
* @returns a (possibly) wrapped Kafka protocol message sequence counter
* for the non-overflowing \p seq.
*/
static RD_INLINE RD_UNUSED int32_t rd_kafka_seq_wrap(int64_t seq) {
return (int32_t)(seq & (int64_t)INT32_MAX);
}
void rd_kafka_msgq_dump(FILE *fp, const char *what, rd_kafka_msgq_t *rkmq);
rd_kafka_msg_t *ut_rd_kafka_msg_new(size_t msgsize);
void ut_rd_kafka_msgq_purge(rd_kafka_msgq_t *rkmq);
int unittest_msg(void);
#endif /* _RDKAFKA_MSG_H_ */
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