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/*-------------------------------------------------------------------------
*
* pqformat.c
* Routines for formatting and parsing frontend/backend messages
*
* Outgoing messages are built up in a StringInfo buffer (which is expansible)
* and then sent in a single call to pq_putmessage. This module provides data
* formatting/conversion routines that are needed to produce valid messages.
* Note in particular the distinction between "raw data" and "text"; raw data
* is message protocol characters and binary values that are not subject to
* character set conversion, while text is converted by character encoding
* rules.
*
* Incoming messages are similarly read into a StringInfo buffer, via
* pq_getmessage, and then parsed and converted from that using the routines
* in this module.
*
* These same routines support reading and writing of external binary formats
* (typsend/typreceive routines). The conversion routines for individual
* data types are exactly the same, only initialization and completion
* are different.
*
*
* Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* src/backend/libpq/pqformat.c
*
*-------------------------------------------------------------------------
*/
/*
* INTERFACE ROUTINES
* Message assembly and output:
* pq_beginmessage - initialize StringInfo buffer
* pq_sendbyte - append a raw byte to a StringInfo buffer
* pq_sendint - append a binary integer to a StringInfo buffer
* pq_sendint64 - append a binary 8-byte int to a StringInfo buffer
* pq_sendfloat4 - append a float4 to a StringInfo buffer
* pq_sendfloat8 - append a float8 to a StringInfo buffer
* pq_sendbytes - append raw data to a StringInfo buffer
* pq_sendcountedtext - append a counted text string (with character set conversion)
* pq_sendtext - append a text string (with conversion)
* pq_sendstring - append a null-terminated text string (with conversion)
* pq_send_ascii_string - append a null-terminated text string (without conversion)
* pq_endmessage - send the completed message to the frontend
* Note: it is also possible to append data to the StringInfo buffer using
* the regular StringInfo routines, but this is discouraged since required
* character set conversion may not occur.
*
* typsend support (construct a bytea value containing external binary data):
* pq_begintypsend - initialize StringInfo buffer
* pq_endtypsend - return the completed string as a "bytea*"
*
* Special-case message output:
* pq_puttextmessage - generate a character set-converted message in one step
* pq_putemptymessage - convenience routine for message with empty body
*
* Message parsing after input:
* pq_getmsgbyte - get a raw byte from a message buffer
* pq_getmsgint - get a binary integer from a message buffer
* pq_getmsgint64 - get a binary 8-byte int from a message buffer
* pq_getmsgfloat4 - get a float4 from a message buffer
* pq_getmsgfloat8 - get a float8 from a message buffer
* pq_getmsgbytes - get raw data from a message buffer
* pq_copymsgbytes - copy raw data from a message buffer
* pq_getmsgtext - get a counted text string (with conversion)
* pq_getmsgstring - get a null-terminated text string (with conversion)
* pq_getmsgrawstring - get a null-terminated text string - NO conversion
* pq_getmsgend - verify message fully consumed
*/
#include "postgres.h"
#include <sys/param.h>
#include "libpq/libpq.h"
#include "libpq/pqformat.h"
#include "mb/pg_wchar.h"
#include "port/pg_bswap.h"
/* --------------------------------
* pq_beginmessage - initialize for sending a message
* --------------------------------
*/
void
pq_beginmessage(StringInfo buf, char msgtype)
{
initStringInfo(buf);
/*
* We stash the message type into the buffer's cursor field, expecting
* that the pq_sendXXX routines won't touch it. We could alternatively
* make it the first byte of the buffer contents, but this seems easier.
*/
buf->cursor = msgtype;
}
/* --------------------------------
* pq_beginmessage_reuse - initialize for sending a message, reuse buffer
*
* This requires the buffer to be allocated in a sufficiently long-lived
* memory context.
* --------------------------------
*/
void
pq_beginmessage_reuse(StringInfo buf, char msgtype)
{
resetStringInfo(buf);
/*
* We stash the message type into the buffer's cursor field, expecting
* that the pq_sendXXX routines won't touch it. We could alternatively
* make it the first byte of the buffer contents, but this seems easier.
*/
buf->cursor = msgtype;
}
/* --------------------------------
* pq_sendbytes - append raw data to a StringInfo buffer
* --------------------------------
*/
void
pq_sendbytes(StringInfo buf, const char *data, int datalen)
{
/* use variant that maintains a trailing null-byte, out of caution */
appendBinaryStringInfo(buf, data, datalen);
}
/* --------------------------------
* pq_sendcountedtext - append a counted text string (with character set conversion)
*
* The data sent to the frontend by this routine is a 4-byte count field
* followed by the string. The count includes itself or not, as per the
* countincludesself flag (pre-3.0 protocol requires it to include itself).
* The passed text string need not be null-terminated, and the data sent
* to the frontend isn't either.
* --------------------------------
*/
void
pq_sendcountedtext(StringInfo buf, const char *str, int slen,
bool countincludesself)
{
int extra = countincludesself ? 4 : 0;
char *p;
p = pg_server_to_client(str, slen);
if (p != str) /* actual conversion has been done? */
{
slen = strlen(p);
pq_sendint32(buf, slen + extra);
appendBinaryStringInfoNT(buf, p, slen);
pfree(p);
}
else
{
pq_sendint32(buf, slen + extra);
appendBinaryStringInfoNT(buf, str, slen);
}
}
/* --------------------------------
* pq_sendtext - append a text string (with conversion)
*
* The passed text string need not be null-terminated, and the data sent
* to the frontend isn't either. Note that this is not actually useful
* for direct frontend transmissions, since there'd be no way for the
* frontend to determine the string length. But it is useful for binary
* format conversions.
* --------------------------------
*/
void
pq_sendtext(StringInfo buf, const char *str, int slen)
{
char *p;
p = pg_server_to_client(str, slen);
if (p != str) /* actual conversion has been done? */
{
slen = strlen(p);
appendBinaryStringInfo(buf, p, slen);
pfree(p);
}
else
appendBinaryStringInfo(buf, str, slen);
}
/* --------------------------------
* pq_sendstring - append a null-terminated text string (with conversion)
*
* NB: passed text string must be null-terminated, and so is the data
* sent to the frontend.
* --------------------------------
*/
void
pq_sendstring(StringInfo buf, const char *str)
{
int slen = strlen(str);
char *p;
p = pg_server_to_client(str, slen);
if (p != str) /* actual conversion has been done? */
{
slen = strlen(p);
appendBinaryStringInfoNT(buf, p, slen + 1);
pfree(p);
}
else
appendBinaryStringInfoNT(buf, str, slen + 1);
}
/* --------------------------------
* pq_send_ascii_string - append a null-terminated text string (without conversion)
*
* This function intentionally bypasses encoding conversion, instead just
* silently replacing any non-7-bit-ASCII characters with question marks.
* It is used only when we are having trouble sending an error message to
* the client with normal localization and encoding conversion. The caller
* should already have taken measures to ensure the string is just ASCII;
* the extra work here is just to make certain we don't send a badly encoded
* string to the client (which might or might not be robust about that).
*
* NB: passed text string must be null-terminated, and so is the data
* sent to the frontend.
* --------------------------------
*/
void
pq_send_ascii_string(StringInfo buf, const char *str)
{
while (*str)
{
char ch = *str++;
if (IS_HIGHBIT_SET(ch))
ch = '?';
appendStringInfoCharMacro(buf, ch);
}
appendStringInfoChar(buf, '\0');
}
/* --------------------------------
* pq_sendfloat4 - append a float4 to a StringInfo buffer
*
* The point of this routine is to localize knowledge of the external binary
* representation of float4, which is a component of several datatypes.
*
* We currently assume that float4 should be byte-swapped in the same way
* as int4. This rule is not perfect but it gives us portability across
* most IEEE-float-using architectures.
* --------------------------------
*/
void
pq_sendfloat4(StringInfo buf, float4 f)
{
union
{
float4 f;
uint32 i;
} swap;
swap.f = f;
pq_sendint32(buf, swap.i);
}
/* --------------------------------
* pq_sendfloat8 - append a float8 to a StringInfo buffer
*
* The point of this routine is to localize knowledge of the external binary
* representation of float8, which is a component of several datatypes.
*
* We currently assume that float8 should be byte-swapped in the same way
* as int8. This rule is not perfect but it gives us portability across
* most IEEE-float-using architectures.
* --------------------------------
*/
void
pq_sendfloat8(StringInfo buf, float8 f)
{
union
{
float8 f;
int64 i;
} swap;
swap.f = f;
pq_sendint64(buf, swap.i);
}
/* --------------------------------
* pq_endmessage - send the completed message to the frontend
*
* The data buffer is pfree()d, but if the StringInfo was allocated with
* makeStringInfo then the caller must still pfree it.
* --------------------------------
*/
void
pq_endmessage(StringInfo buf)
{
/* msgtype was saved in cursor field */
(void) pq_putmessage(buf->cursor, buf->data, buf->len);
/* no need to complain about any failure, since pqcomm.c already did */
pfree(buf->data);
buf->data = NULL;
}
/* --------------------------------
* pq_endmessage_reuse - send the completed message to the frontend
*
* The data buffer is *not* freed, allowing to reuse the buffer with
* pq_beginmessage_reuse.
--------------------------------
*/
void
pq_endmessage_reuse(StringInfo buf)
{
/* msgtype was saved in cursor field */
(void) pq_putmessage(buf->cursor, buf->data, buf->len);
}
/* --------------------------------
* pq_begintypsend - initialize for constructing a bytea result
* --------------------------------
*/
void
pq_begintypsend(StringInfo buf)
{
initStringInfo(buf);
/* Reserve four bytes for the bytea length word */
appendStringInfoCharMacro(buf, '\0');
appendStringInfoCharMacro(buf, '\0');
appendStringInfoCharMacro(buf, '\0');
appendStringInfoCharMacro(buf, '\0');
}
/* --------------------------------
* pq_endtypsend - finish constructing a bytea result
*
* The data buffer is returned as the palloc'd bytea value. (We expect
* that it will be suitably aligned for this because it has been palloc'd.)
* We assume the StringInfoData is just a local variable in the caller and
* need not be pfree'd.
* --------------------------------
*/
bytea *
pq_endtypsend(StringInfo buf)
{
bytea *result = (bytea *) buf->data;
/* Insert correct length into bytea length word */
Assert(buf->len >= VARHDRSZ);
SET_VARSIZE(result, buf->len);
return result;
}
/* --------------------------------
* pq_puttextmessage - generate a character set-converted message in one step
*
* This is the same as the pqcomm.c routine pq_putmessage, except that
* the message body is a null-terminated string to which encoding
* conversion applies.
* --------------------------------
*/
void
pq_puttextmessage(char msgtype, const char *str)
{
int slen = strlen(str);
char *p;
p = pg_server_to_client(str, slen);
if (p != str) /* actual conversion has been done? */
{
(void) pq_putmessage(msgtype, p, strlen(p) + 1);
pfree(p);
return;
}
(void) pq_putmessage(msgtype, str, slen + 1);
}
/* --------------------------------
* pq_putemptymessage - convenience routine for message with empty body
* --------------------------------
*/
void
pq_putemptymessage(char msgtype)
{
(void) pq_putmessage(msgtype, NULL, 0);
}
/* --------------------------------
* pq_getmsgbyte - get a raw byte from a message buffer
* --------------------------------
*/
int
pq_getmsgbyte(StringInfo msg)
{
if (msg->cursor >= msg->len)
ereport(ERROR,
(errcode(ERRCODE_PROTOCOL_VIOLATION),
errmsg("no data left in message")));
return (unsigned char) msg->data[msg->cursor++];
}
/* --------------------------------
* pq_getmsgint - get a binary integer from a message buffer
*
* Values are treated as unsigned.
* --------------------------------
*/
unsigned int
pq_getmsgint(StringInfo msg, int b)
{
unsigned int result;
unsigned char n8;
uint16 n16;
uint32 n32;
switch (b)
{
case 1:
pq_copymsgbytes(msg, (char *) &n8, 1);
result = n8;
break;
case 2:
pq_copymsgbytes(msg, (char *) &n16, 2);
result = pg_ntoh16(n16);
break;
case 4:
pq_copymsgbytes(msg, (char *) &n32, 4);
result = pg_ntoh32(n32);
break;
default:
elog(ERROR, "unsupported integer size %d", b);
result = 0; /* keep compiler quiet */
break;
}
return result;
}
/* --------------------------------
* pq_getmsgint64 - get a binary 8-byte int from a message buffer
*
* It is tempting to merge this with pq_getmsgint, but we'd have to make the
* result int64 for all data widths --- that could be a big performance
* hit on machines where int64 isn't efficient.
* --------------------------------
*/
int64
pq_getmsgint64(StringInfo msg)
{
uint64 n64;
pq_copymsgbytes(msg, (char *) &n64, sizeof(n64));
return pg_ntoh64(n64);
}
/* --------------------------------
* pq_getmsgfloat4 - get a float4 from a message buffer
*
* See notes for pq_sendfloat4.
* --------------------------------
*/
float4
pq_getmsgfloat4(StringInfo msg)
{
union
{
float4 f;
uint32 i;
} swap;
swap.i = pq_getmsgint(msg, 4);
return swap.f;
}
/* --------------------------------
* pq_getmsgfloat8 - get a float8 from a message buffer
*
* See notes for pq_sendfloat8.
* --------------------------------
*/
float8
pq_getmsgfloat8(StringInfo msg)
{
union
{
float8 f;
int64 i;
} swap;
swap.i = pq_getmsgint64(msg);
return swap.f;
}
/* --------------------------------
* pq_getmsgbytes - get raw data from a message buffer
*
* Returns a pointer directly into the message buffer; note this
* may not have any particular alignment.
* --------------------------------
*/
const char *
pq_getmsgbytes(StringInfo msg, int datalen)
{
const char *result;
if (datalen < 0 || datalen > (msg->len - msg->cursor))
ereport(ERROR,
(errcode(ERRCODE_PROTOCOL_VIOLATION),
errmsg("insufficient data left in message")));
result = &msg->data[msg->cursor];
msg->cursor += datalen;
return result;
}
/* --------------------------------
* pq_copymsgbytes - copy raw data from a message buffer
*
* Same as above, except data is copied to caller's buffer.
* --------------------------------
*/
void
pq_copymsgbytes(StringInfo msg, char *buf, int datalen)
{
if (datalen < 0 || datalen > (msg->len - msg->cursor))
ereport(ERROR,
(errcode(ERRCODE_PROTOCOL_VIOLATION),
errmsg("insufficient data left in message")));
memcpy(buf, &msg->data[msg->cursor], datalen);
msg->cursor += datalen;
}
/* --------------------------------
* pq_getmsgtext - get a counted text string (with conversion)
*
* Always returns a pointer to a freshly palloc'd result.
* The result has a trailing null, *and* we return its strlen in *nbytes.
* --------------------------------
*/
char *
pq_getmsgtext(StringInfo msg, int rawbytes, int *nbytes)
{
char *str;
char *p;
if (rawbytes < 0 || rawbytes > (msg->len - msg->cursor))
ereport(ERROR,
(errcode(ERRCODE_PROTOCOL_VIOLATION),
errmsg("insufficient data left in message")));
str = &msg->data[msg->cursor];
msg->cursor += rawbytes;
p = pg_client_to_server(str, rawbytes);
if (p != str) /* actual conversion has been done? */
*nbytes = strlen(p);
else
{
p = (char *) palloc(rawbytes + 1);
memcpy(p, str, rawbytes);
p[rawbytes] = '\0';
*nbytes = rawbytes;
}
return p;
}
/* --------------------------------
* pq_getmsgstring - get a null-terminated text string (with conversion)
*
* May return a pointer directly into the message buffer, or a pointer
* to a palloc'd conversion result.
* --------------------------------
*/
const char *
pq_getmsgstring(StringInfo msg)
{
char *str;
int slen;
str = &msg->data[msg->cursor];
/*
* It's safe to use strlen() here because a StringInfo is guaranteed to
* have a trailing null byte. But check we found a null inside the
* message.
*/
slen = strlen(str);
if (msg->cursor + slen >= msg->len)
ereport(ERROR,
(errcode(ERRCODE_PROTOCOL_VIOLATION),
errmsg("invalid string in message")));
msg->cursor += slen + 1;
return pg_client_to_server(str, slen);
}
/* --------------------------------
* pq_getmsgrawstring - get a null-terminated text string - NO conversion
*
* Returns a pointer directly into the message buffer.
* --------------------------------
*/
const char *
pq_getmsgrawstring(StringInfo msg)
{
char *str;
int slen;
str = &msg->data[msg->cursor];
/*
* It's safe to use strlen() here because a StringInfo is guaranteed to
* have a trailing null byte. But check we found a null inside the
* message.
*/
slen = strlen(str);
if (msg->cursor + slen >= msg->len)
ereport(ERROR,
(errcode(ERRCODE_PROTOCOL_VIOLATION),
errmsg("invalid string in message")));
msg->cursor += slen + 1;
return str;
}
/* --------------------------------
* pq_getmsgend - verify message fully consumed
* --------------------------------
*/
void
pq_getmsgend(StringInfo msg)
{
if (msg->cursor != msg->len)
ereport(ERROR,
(errcode(ERRCODE_PROTOCOL_VIOLATION),
errmsg("invalid message format")));
}
|