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/*-------------------------------------------------------------------------
*
* pqmq.c
* Use the frontend/backend protocol for communication over a shm_mq
*
* Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* src/backend/libpq/pqmq.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "libpq/libpq.h"
#include "libpq/pqformat.h"
#include "libpq/pqmq.h"
#include "miscadmin.h"
#include "pgstat.h"
#include "tcop/tcopprot.h"
#include "utils/builtins.h"
static shm_mq_handle *pq_mq_handle;
static bool pq_mq_busy = false;
static pid_t pq_mq_parallel_leader_pid = 0;
static pid_t pq_mq_parallel_leader_backend_id = InvalidBackendId;
static void pq_cleanup_redirect_to_shm_mq(dsm_segment *seg, Datum arg);
static void mq_comm_reset(void);
static int mq_flush(void);
static int mq_flush_if_writable(void);
static bool mq_is_send_pending(void);
static int mq_putmessage(char msgtype, const char *s, size_t len);
static void mq_putmessage_noblock(char msgtype, const char *s, size_t len);
static const PQcommMethods PqCommMqMethods = {
mq_comm_reset,
mq_flush,
mq_flush_if_writable,
mq_is_send_pending,
mq_putmessage,
mq_putmessage_noblock
};
/*
* Arrange to redirect frontend/backend protocol messages to a shared-memory
* message queue.
*/
void
pq_redirect_to_shm_mq(dsm_segment *seg, shm_mq_handle *mqh)
{
PqCommMethods = &PqCommMqMethods;
pq_mq_handle = mqh;
whereToSendOutput = DestRemote;
FrontendProtocol = PG_PROTOCOL_LATEST;
on_dsm_detach(seg, pq_cleanup_redirect_to_shm_mq, (Datum) 0);
}
/*
* When the DSM that contains our shm_mq goes away, we need to stop sending
* messages to it.
*/
static void
pq_cleanup_redirect_to_shm_mq(dsm_segment *seg, Datum arg)
{
pq_mq_handle = NULL;
whereToSendOutput = DestNone;
}
/*
* Arrange to SendProcSignal() to the parallel leader each time we transmit
* message data via the shm_mq.
*/
void
pq_set_parallel_leader(pid_t pid, BackendId backend_id)
{
Assert(PqCommMethods == &PqCommMqMethods);
pq_mq_parallel_leader_pid = pid;
pq_mq_parallel_leader_backend_id = backend_id;
}
static void
mq_comm_reset(void)
{
/* Nothing to do. */
}
static int
mq_flush(void)
{
/* Nothing to do. */
return 0;
}
static int
mq_flush_if_writable(void)
{
/* Nothing to do. */
return 0;
}
static bool
mq_is_send_pending(void)
{
/* There's never anything pending. */
return 0;
}
/*
* Transmit a libpq protocol message to the shared memory message queue
* selected via pq_mq_handle. We don't include a length word, because the
* receiver will know the length of the message from shm_mq_receive().
*/
static int
mq_putmessage(char msgtype, const char *s, size_t len)
{
shm_mq_iovec iov[2];
shm_mq_result result;
/*
* If we're sending a message, and we have to wait because the queue is
* full, and then we get interrupted, and that interrupt results in trying
* to send another message, we respond by detaching the queue. There's no
* way to return to the original context, but even if there were, just
* queueing the message would amount to indefinitely postponing the
* response to the interrupt. So we do this instead.
*/
if (pq_mq_busy)
{
if (pq_mq_handle != NULL)
shm_mq_detach(pq_mq_handle);
pq_mq_handle = NULL;
return EOF;
}
/*
* If the message queue is already gone, just ignore the message. This
* doesn't necessarily indicate a problem; for example, DEBUG messages can
* be generated late in the shutdown sequence, after all DSMs have already
* been detached.
*/
if (pq_mq_handle == NULL)
return 0;
pq_mq_busy = true;
iov[0].data = &msgtype;
iov[0].len = 1;
iov[1].data = s;
iov[1].len = len;
Assert(pq_mq_handle != NULL);
for (;;)
{
result = shm_mq_sendv(pq_mq_handle, iov, 2, true);
if (pq_mq_parallel_leader_pid != 0)
SendProcSignal(pq_mq_parallel_leader_pid,
PROCSIG_PARALLEL_MESSAGE,
pq_mq_parallel_leader_backend_id);
if (result != SHM_MQ_WOULD_BLOCK)
break;
(void) WaitLatch(MyLatch, WL_LATCH_SET | WL_EXIT_ON_PM_DEATH, 0,
WAIT_EVENT_MQ_PUT_MESSAGE);
ResetLatch(MyLatch);
CHECK_FOR_INTERRUPTS();
}
pq_mq_busy = false;
Assert(result == SHM_MQ_SUCCESS || result == SHM_MQ_DETACHED);
if (result != SHM_MQ_SUCCESS)
return EOF;
return 0;
}
static void
mq_putmessage_noblock(char msgtype, const char *s, size_t len)
{
/*
* While the shm_mq machinery does support sending a message in
* non-blocking mode, there's currently no way to try sending beginning to
* send the message that doesn't also commit us to completing the
* transmission. This could be improved in the future, but for now we
* don't need it.
*/
elog(ERROR, "not currently supported");
}
/*
* Parse an ErrorResponse or NoticeResponse payload and populate an ErrorData
* structure with the results.
*/
void
pq_parse_errornotice(StringInfo msg, ErrorData *edata)
{
/* Initialize edata with reasonable defaults. */
MemSet(edata, 0, sizeof(ErrorData));
edata->elevel = ERROR;
edata->assoc_context = CurrentMemoryContext;
/* Loop over fields and extract each one. */
for (;;)
{
char code = pq_getmsgbyte(msg);
const char *value;
if (code == '\0')
{
pq_getmsgend(msg);
break;
}
value = pq_getmsgrawstring(msg);
switch (code)
{
case PG_DIAG_SEVERITY:
/* ignore, trusting we'll get a nonlocalized version */
break;
case PG_DIAG_SEVERITY_NONLOCALIZED:
if (strcmp(value, "DEBUG") == 0)
{
/*
* We can't reconstruct the exact DEBUG level, but
* presumably it was >= client_min_messages, so select
* DEBUG1 to ensure we'll pass it on to the client.
*/
edata->elevel = DEBUG1;
}
else if (strcmp(value, "LOG") == 0)
{
/*
* It can't be LOG_SERVER_ONLY, or the worker wouldn't
* have sent it to us; so LOG is the correct value.
*/
edata->elevel = LOG;
}
else if (strcmp(value, "INFO") == 0)
edata->elevel = INFO;
else if (strcmp(value, "NOTICE") == 0)
edata->elevel = NOTICE;
else if (strcmp(value, "WARNING") == 0)
edata->elevel = WARNING;
else if (strcmp(value, "ERROR") == 0)
edata->elevel = ERROR;
else if (strcmp(value, "FATAL") == 0)
edata->elevel = FATAL;
else if (strcmp(value, "PANIC") == 0)
edata->elevel = PANIC;
else
elog(ERROR, "unrecognized error severity: \"%s\"", value);
break;
case PG_DIAG_SQLSTATE:
if (strlen(value) != 5)
elog(ERROR, "invalid SQLSTATE: \"%s\"", value);
edata->sqlerrcode = MAKE_SQLSTATE(value[0], value[1], value[2],
value[3], value[4]);
break;
case PG_DIAG_MESSAGE_PRIMARY:
edata->message = pstrdup(value);
break;
case PG_DIAG_MESSAGE_DETAIL:
edata->detail = pstrdup(value);
break;
case PG_DIAG_MESSAGE_HINT:
edata->hint = pstrdup(value);
break;
case PG_DIAG_STATEMENT_POSITION:
edata->cursorpos = pg_strtoint32(value);
break;
case PG_DIAG_INTERNAL_POSITION:
edata->internalpos = pg_strtoint32(value);
break;
case PG_DIAG_INTERNAL_QUERY:
edata->internalquery = pstrdup(value);
break;
case PG_DIAG_CONTEXT:
edata->context = pstrdup(value);
break;
case PG_DIAG_SCHEMA_NAME:
edata->schema_name = pstrdup(value);
break;
case PG_DIAG_TABLE_NAME:
edata->table_name = pstrdup(value);
break;
case PG_DIAG_COLUMN_NAME:
edata->column_name = pstrdup(value);
break;
case PG_DIAG_DATATYPE_NAME:
edata->datatype_name = pstrdup(value);
break;
case PG_DIAG_CONSTRAINT_NAME:
edata->constraint_name = pstrdup(value);
break;
case PG_DIAG_SOURCE_FILE:
edata->filename = pstrdup(value);
break;
case PG_DIAG_SOURCE_LINE:
edata->lineno = pg_strtoint32(value);
break;
case PG_DIAG_SOURCE_FUNCTION:
edata->funcname = pstrdup(value);
break;
default:
elog(ERROR, "unrecognized error field code: %d", (int) code);
break;
}
}
}
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