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postgresql/src/backend/commands/copy.c

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/*-------------------------------------------------------------------------
*
* copy.c
* Implements the COPY utility command
*
* Portions Copyright (c) 1996-2019, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* src/backend/commands/copy.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <ctype.h>
#include <unistd.h>
#include <sys/stat.h>
#include "access/heapam.h"
#include "access/htup_details.h"
#include "access/sysattr.h"
#include "access/tableam.h"
#include "access/xact.h"
#include "access/xlog.h"
#include "catalog/dependency.h"
#include "catalog/pg_authid.h"
#include "catalog/pg_type.h"
#include "commands/copy.h"
#include "commands/defrem.h"
#include "commands/trigger.h"
#include "executor/execPartition.h"
#include "executor/executor.h"
#include "executor/nodeModifyTable.h"
#include "executor/tuptable.h"
#include "foreign/fdwapi.h"
#include "libpq/libpq.h"
#include "libpq/pqformat.h"
#include "mb/pg_wchar.h"
#include "miscadmin.h"
#include "nodes/makefuncs.h"
#include "optimizer/optimizer.h"
#include "parser/parse_coerce.h"
#include "parser/parse_collate.h"
#include "parser/parse_expr.h"
#include "parser/parse_relation.h"
#include "port/pg_bswap.h"
#include "rewrite/rewriteHandler.h"
#include "storage/fd.h"
#include "tcop/tcopprot.h"
#include "utils/builtins.h"
#include "utils/lsyscache.h"
#include "utils/memutils.h"
#include "utils/partcache.h"
#include "utils/portal.h"
#include "utils/rel.h"
#include "utils/rls.h"
#include "utils/snapmgr.h"
#define ISOCTAL(c) (((c) >= '0') && ((c) <= '7'))
#define OCTVALUE(c) ((c) - '0')
/*
* Represents the different source/dest cases we need to worry about at
* the bottom level
*/
typedef enum CopyDest
{
COPY_FILE, /* to/from file (or a piped program) */
COPY_OLD_FE, /* to/from frontend (2.0 protocol) */
COPY_NEW_FE, /* to/from frontend (3.0 protocol) */
COPY_CALLBACK /* to/from callback function */
} CopyDest;
/*
* Represents the end-of-line terminator type of the input
*/
typedef enum EolType
{
EOL_UNKNOWN,
EOL_NL,
EOL_CR,
EOL_CRNL
} EolType;
/*
* Represents the heap insert method to be used during COPY FROM.
*/
typedef enum CopyInsertMethod
{
CIM_SINGLE, /* use table_tuple_insert or fdw routine */
CIM_MULTI, /* always use table_multi_insert */
CIM_MULTI_CONDITIONAL /* use table_multi_insert only if valid */
} CopyInsertMethod;
/*
* This struct contains all the state variables used throughout a COPY
* operation. For simplicity, we use the same struct for all variants of COPY,
* even though some fields are used in only some cases.
*
* Multi-byte encodings: all supported client-side encodings encode multi-byte
* characters by having the first byte's high bit set. Subsequent bytes of the
* character can have the high bit not set. When scanning data in such an
* encoding to look for a match to a single-byte (ie ASCII) character, we must
* use the full pg_encoding_mblen() machinery to skip over multibyte
* characters, else we might find a false match to a trailing byte. In
* supported server encodings, there is no possibility of a false match, and
* it's faster to make useless comparisons to trailing bytes than it is to
* invoke pg_encoding_mblen() to skip over them. encoding_embeds_ascii is true
* when we have to do it the hard way.
*/
typedef struct CopyStateData
{
/* low-level state data */
CopyDest copy_dest; /* type of copy source/destination */
FILE *copy_file; /* used if copy_dest == COPY_FILE */
StringInfo fe_msgbuf; /* used for all dests during COPY TO, only for
* dest == COPY_NEW_FE in COPY FROM */
bool is_copy_from; /* COPY TO, or COPY FROM? */
bool reached_eof; /* true if we read to end of copy data (not
* all copy_dest types maintain this) */
EolType eol_type; /* EOL type of input */
int file_encoding; /* file or remote side's character encoding */
bool need_transcoding; /* file encoding diff from server? */
bool encoding_embeds_ascii; /* ASCII can be non-first byte? */
/* parameters from the COPY command */
Relation rel; /* relation to copy to or from */
QueryDesc *queryDesc; /* executable query to copy from */
List *attnumlist; /* integer list of attnums to copy */
char *filename; /* filename, or NULL for STDIN/STDOUT */
bool is_program; /* is 'filename' a program to popen? */
copy_data_source_cb data_source_cb; /* function for reading data */
bool binary; /* binary format? */
bool freeze; /* freeze rows on loading? */
bool csv_mode; /* Comma Separated Value format? */
bool header_line; /* CSV header line? */
char *null_print; /* NULL marker string (server encoding!) */
int null_print_len; /* length of same */
char *null_print_client; /* same converted to file encoding */
char *delim; /* column delimiter (must be 1 byte) */
char *quote; /* CSV quote char (must be 1 byte) */
char *escape; /* CSV escape char (must be 1 byte) */
List *force_quote; /* list of column names */
bool force_quote_all; /* FORCE_QUOTE *? */
bool *force_quote_flags; /* per-column CSV FQ flags */
List *force_notnull; /* list of column names */
bool *force_notnull_flags; /* per-column CSV FNN flags */
List *force_null; /* list of column names */
bool *force_null_flags; /* per-column CSV FN flags */
bool convert_selectively; /* do selective binary conversion? */
List *convert_select; /* list of column names (can be NIL) */
bool *convert_select_flags; /* per-column CSV/TEXT CS flags */
Node *whereClause; /* WHERE condition (or NULL) */
/* these are just for error messages, see CopyFromErrorCallback */
const char *cur_relname; /* table name for error messages */
uint64 cur_lineno; /* line number for error messages */
const char *cur_attname; /* current att for error messages */
const char *cur_attval; /* current att value for error messages */
/*
* Working state for COPY TO/FROM
*/
MemoryContext copycontext; /* per-copy execution context */
/*
* Working state for COPY TO
*/
FmgrInfo *out_functions; /* lookup info for output functions */
MemoryContext rowcontext; /* per-row evaluation context */
/*
* Working state for COPY FROM
*/
AttrNumber num_defaults;
FmgrInfo *in_functions; /* array of input functions for each attrs */
Oid *typioparams; /* array of element types for in_functions */
int *defmap; /* array of default att numbers */
ExprState **defexprs; /* array of default att expressions */
bool volatile_defexprs; /* is any of defexprs volatile? */
List *range_table;
ExprState *qualexpr;
TransitionCaptureState *transition_capture;
/*
* These variables are used to reduce overhead in textual COPY FROM.
*
* attribute_buf holds the separated, de-escaped text for each field of
* the current line. The CopyReadAttributes functions return arrays of
* pointers into this buffer. We avoid palloc/pfree overhead by re-using
* the buffer on each cycle.
*/
StringInfoData attribute_buf;
/* field raw data pointers found by COPY FROM */
int max_fields;
char **raw_fields;
/*
* Similarly, line_buf holds the whole input line being processed. The
* input cycle is first to read the whole line into line_buf, convert it
* to server encoding there, and then extract the individual attribute
* fields into attribute_buf. line_buf is preserved unmodified so that we
* can display it in error messages if appropriate.
*/
StringInfoData line_buf;
bool line_buf_converted; /* converted to server encoding? */
bool line_buf_valid; /* contains the row being processed? */
/*
* Finally, raw_buf holds raw data read from the data source (file or
* client connection). CopyReadLine parses this data sufficiently to
* locate line boundaries, then transfers the data to line_buf and
* converts it. Note: we guarantee that there is a \0 at
* raw_buf[raw_buf_len].
*/
#define RAW_BUF_SIZE 65536 /* we palloc RAW_BUF_SIZE+1 bytes */
char *raw_buf;
int raw_buf_index; /* next byte to process */
int raw_buf_len; /* total # of bytes stored */
} CopyStateData;
/* DestReceiver for COPY (query) TO */
typedef struct
{
DestReceiver pub; /* publicly-known function pointers */
CopyState cstate; /* CopyStateData for the command */
uint64 processed; /* # of tuples processed */
} DR_copy;
/*
* No more than this many tuples per CopyMultiInsertBuffer
*
* Caution: Don't make this too big, as we could end up with this many
* CopyMultiInsertBuffer items stored in CopyMultiInsertInfo's
* multiInsertBuffers list. Increasing this can cause quadratic growth in
* memory requirements during copies into partitioned tables with a large
* number of partitions.
*/
#define MAX_BUFFERED_TUPLES 1000
/*
* Flush buffers if there are >= this many bytes, as counted by the input
* size, of tuples stored.
*/
#define MAX_BUFFERED_BYTES 65535
/* Trim the list of buffers back down to this number after flushing */
#define MAX_PARTITION_BUFFERS 32
/* Stores multi-insert data related to a single relation in CopyFrom. */
typedef struct CopyMultiInsertBuffer
{
TupleTableSlot *slots[MAX_BUFFERED_TUPLES]; /* Array to store tuples */
ResultRelInfo *resultRelInfo; /* ResultRelInfo for 'relid' */
BulkInsertState bistate; /* BulkInsertState for this rel */
int nused; /* number of 'slots' containing tuples */
uint64 linenos[MAX_BUFFERED_TUPLES]; /* Line # of tuple in copy
* stream */
} CopyMultiInsertBuffer;
/*
* Stores one or many CopyMultiInsertBuffers and details about the size and
* number of tuples which are stored in them. This allows multiple buffers to
* exist at once when COPYing into a partitioned table.
*/
typedef struct CopyMultiInsertInfo
{
List *multiInsertBuffers; /* List of tracked CopyMultiInsertBuffers */
int bufferedTuples; /* number of tuples buffered over all buffers */
int bufferedBytes; /* number of bytes from all buffered tuples */
CopyState cstate; /* Copy state for this CopyMultiInsertInfo */
EState *estate; /* Executor state used for COPY */
CommandId mycid; /* Command Id used for COPY */
int ti_options; /* table insert options */
} CopyMultiInsertInfo;
/*
* These macros centralize code used to process line_buf and raw_buf buffers.
* They are macros because they often do continue/break control and to avoid
* function call overhead in tight COPY loops.
*
* We must use "if (1)" because the usual "do {...} while(0)" wrapper would
* prevent the continue/break processing from working. We end the "if (1)"
* with "else ((void) 0)" to ensure the "if" does not unintentionally match
* any "else" in the calling code, and to avoid any compiler warnings about
* empty statements. See http://www.cit.gu.edu.au/~anthony/info/C/C.macros.
*/
/*
* This keeps the character read at the top of the loop in the buffer
* even if there is more than one read-ahead.
*/
#define IF_NEED_REFILL_AND_NOT_EOF_CONTINUE(extralen) \
if (1) \
{ \
if (raw_buf_ptr + (extralen) >= copy_buf_len && !hit_eof) \
{ \
raw_buf_ptr = prev_raw_ptr; /* undo fetch */ \
need_data = true; \
continue; \
} \
} else ((void) 0)
/* This consumes the remainder of the buffer and breaks */
#define IF_NEED_REFILL_AND_EOF_BREAK(extralen) \
if (1) \
{ \
if (raw_buf_ptr + (extralen) >= copy_buf_len && hit_eof) \
{ \
if (extralen) \
raw_buf_ptr = copy_buf_len; /* consume the partial character */ \
/* backslash just before EOF, treat as data char */ \
result = true; \
break; \
} \
} else ((void) 0)
/*
* Transfer any approved data to line_buf; must do this to be sure
* there is some room in raw_buf.
*/
#define REFILL_LINEBUF \
if (1) \
{ \
if (raw_buf_ptr > cstate->raw_buf_index) \
{ \
appendBinaryStringInfo(&cstate->line_buf, \
cstate->raw_buf + cstate->raw_buf_index, \
raw_buf_ptr - cstate->raw_buf_index); \
cstate->raw_buf_index = raw_buf_ptr; \
} \
} else ((void) 0)
/* Undo any read-ahead and jump out of the block. */
#define NO_END_OF_COPY_GOTO \
if (1) \
{ \
raw_buf_ptr = prev_raw_ptr + 1; \
goto not_end_of_copy; \
} else ((void) 0)
static const char BinarySignature[11] = "PGCOPY\n\377\r\n\0";
/* non-export function prototypes */
static CopyState BeginCopy(ParseState *pstate, bool is_from, Relation rel,
RawStmt *raw_query, Oid queryRelId, List *attnamelist,
List *options);
static void EndCopy(CopyState cstate);
static void ClosePipeToProgram(CopyState cstate);
static CopyState BeginCopyTo(ParseState *pstate, Relation rel, RawStmt *query,
Oid queryRelId, const char *filename, bool is_program,
List *attnamelist, List *options);
static void EndCopyTo(CopyState cstate);
static uint64 DoCopyTo(CopyState cstate);
static uint64 CopyTo(CopyState cstate);
static void CopyOneRowTo(CopyState cstate, TupleTableSlot *slot);
static bool CopyReadLine(CopyState cstate);
static bool CopyReadLineText(CopyState cstate);
static int CopyReadAttributesText(CopyState cstate);
static int CopyReadAttributesCSV(CopyState cstate);
static Datum CopyReadBinaryAttribute(CopyState cstate,
int column_no, FmgrInfo *flinfo,
Oid typioparam, int32 typmod,
bool *isnull);
static void CopyAttributeOutText(CopyState cstate, char *string);
static void CopyAttributeOutCSV(CopyState cstate, char *string,
bool use_quote, bool single_attr);
static List *CopyGetAttnums(TupleDesc tupDesc, Relation rel,
List *attnamelist);
static char *limit_printout_length(const char *str);
/* Low-level communications functions */
static void SendCopyBegin(CopyState cstate);
static void ReceiveCopyBegin(CopyState cstate);
static void SendCopyEnd(CopyState cstate);
static void CopySendData(CopyState cstate, const void *databuf, int datasize);
static void CopySendString(CopyState cstate, const char *str);
static void CopySendChar(CopyState cstate, char c);
static void CopySendEndOfRow(CopyState cstate);
static int CopyGetData(CopyState cstate, void *databuf,
int minread, int maxread);
static void CopySendInt32(CopyState cstate, int32 val);
static bool CopyGetInt32(CopyState cstate, int32 *val);
static void CopySendInt16(CopyState cstate, int16 val);
static bool CopyGetInt16(CopyState cstate, int16 *val);
/*
* Send copy start/stop messages for frontend copies. These have changed
* in past protocol redesigns.
*/
static void
SendCopyBegin(CopyState cstate)
{
if (PG_PROTOCOL_MAJOR(FrontendProtocol) >= 3)
{
/* new way */
StringInfoData buf;
int natts = list_length(cstate->attnumlist);
int16 format = (cstate->binary ? 1 : 0);
int i;
pq_beginmessage(&buf, 'H');
pq_sendbyte(&buf, format); /* overall format */
pq_sendint16(&buf, natts);
for (i = 0; i < natts; i++)
pq_sendint16(&buf, format); /* per-column formats */
pq_endmessage(&buf);
cstate->copy_dest = COPY_NEW_FE;
}
else
{
/* old way */
if (cstate->binary)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY BINARY is not supported to stdout or from stdin")));
pq_putemptymessage('H');
/* grottiness needed for old COPY OUT protocol */
pq_startcopyout();
cstate->copy_dest = COPY_OLD_FE;
}
}
static void
ReceiveCopyBegin(CopyState cstate)
{
if (PG_PROTOCOL_MAJOR(FrontendProtocol) >= 3)
{
/* new way */
StringInfoData buf;
int natts = list_length(cstate->attnumlist);
int16 format = (cstate->binary ? 1 : 0);
int i;
pq_beginmessage(&buf, 'G');
pq_sendbyte(&buf, format); /* overall format */
pq_sendint16(&buf, natts);
for (i = 0; i < natts; i++)
pq_sendint16(&buf, format); /* per-column formats */
pq_endmessage(&buf);
cstate->copy_dest = COPY_NEW_FE;
cstate->fe_msgbuf = makeStringInfo();
}
else
{
/* old way */
if (cstate->binary)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY BINARY is not supported to stdout or from stdin")));
pq_putemptymessage('G');
/* any error in old protocol will make us lose sync */
pq_startmsgread();
cstate->copy_dest = COPY_OLD_FE;
}
/* We *must* flush here to ensure FE knows it can send. */
pq_flush();
}
static void
SendCopyEnd(CopyState cstate)
{
if (cstate->copy_dest == COPY_NEW_FE)
{
/* Shouldn't have any unsent data */
Assert(cstate->fe_msgbuf->len == 0);
/* Send Copy Done message */
pq_putemptymessage('c');
}
else
{
CopySendData(cstate, "\\.", 2);
/* Need to flush out the trailer (this also appends a newline) */
CopySendEndOfRow(cstate);
pq_endcopyout(false);
}
}
/*----------
* CopySendData sends output data to the destination (file or frontend)
* CopySendString does the same for null-terminated strings
* CopySendChar does the same for single characters
* CopySendEndOfRow does the appropriate thing at end of each data row
* (data is not actually flushed except by CopySendEndOfRow)
*
* NB: no data conversion is applied by these functions
*----------
*/
static void
CopySendData(CopyState cstate, const void *databuf, int datasize)
{
appendBinaryStringInfo(cstate->fe_msgbuf, databuf, datasize);
}
static void
CopySendString(CopyState cstate, const char *str)
{
appendBinaryStringInfo(cstate->fe_msgbuf, str, strlen(str));
}
static void
CopySendChar(CopyState cstate, char c)
{
appendStringInfoCharMacro(cstate->fe_msgbuf, c);
}
static void
CopySendEndOfRow(CopyState cstate)
{
StringInfo fe_msgbuf = cstate->fe_msgbuf;
switch (cstate->copy_dest)
{
case COPY_FILE:
if (!cstate->binary)
{
/* Default line termination depends on platform */
#ifndef WIN32
CopySendChar(cstate, '\n');
#else
CopySendString(cstate, "\r\n");
#endif
}
if (fwrite(fe_msgbuf->data, fe_msgbuf->len, 1,
cstate->copy_file) != 1 ||
ferror(cstate->copy_file))
{
if (cstate->is_program)
{
if (errno == EPIPE)
{
/*
* The pipe will be closed automatically on error at
* the end of transaction, but we might get a better
* error message from the subprocess' exit code than
* just "Broken Pipe"
*/
ClosePipeToProgram(cstate);
/*
* If ClosePipeToProgram() didn't throw an error, the
* program terminated normally, but closed the pipe
* first. Restore errno, and throw an error.
*/
errno = EPIPE;
}
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not write to COPY program: %m")));
}
else
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not write to COPY file: %m")));
}
break;
case COPY_OLD_FE:
/* The FE/BE protocol uses \n as newline for all platforms */
if (!cstate->binary)
CopySendChar(cstate, '\n');
if (pq_putbytes(fe_msgbuf->data, fe_msgbuf->len))
{
/* no hope of recovering connection sync, so FATAL */
ereport(FATAL,
(errcode(ERRCODE_CONNECTION_FAILURE),
errmsg("connection lost during COPY to stdout")));
}
break;
case COPY_NEW_FE:
/* The FE/BE protocol uses \n as newline for all platforms */
if (!cstate->binary)
CopySendChar(cstate, '\n');
/* Dump the accumulated row as one CopyData message */
(void) pq_putmessage('d', fe_msgbuf->data, fe_msgbuf->len);
break;
case COPY_CALLBACK:
Assert(false); /* Not yet supported. */
break;
}
resetStringInfo(fe_msgbuf);
}
/*
* CopyGetData reads data from the source (file or frontend)
*
* We attempt to read at least minread, and at most maxread, bytes from
* the source. The actual number of bytes read is returned; if this is
* less than minread, EOF was detected.
*
* Note: when copying from the frontend, we expect a proper EOF mark per
* protocol; if the frontend simply drops the connection, we raise error.
* It seems unwise to allow the COPY IN to complete normally in that case.
*
* NB: no data conversion is applied here.
*/
static int
CopyGetData(CopyState cstate, void *databuf, int minread, int maxread)
{
int bytesread = 0;
switch (cstate->copy_dest)
{
case COPY_FILE:
bytesread = fread(databuf, 1, maxread, cstate->copy_file);
if (ferror(cstate->copy_file))
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not read from COPY file: %m")));
if (bytesread == 0)
cstate->reached_eof = true;
break;
case COPY_OLD_FE:
/*
* We cannot read more than minread bytes (which in practice is 1)
* because old protocol doesn't have any clear way of separating
* the COPY stream from following data. This is slow, but not any
* slower than the code path was originally, and we don't care
* much anymore about the performance of old protocol.
*/
if (pq_getbytes((char *) databuf, minread))
{
/* Only a \. terminator is legal EOF in old protocol */
ereport(ERROR,
(errcode(ERRCODE_CONNECTION_FAILURE),
errmsg("unexpected EOF on client connection with an open transaction")));
}
bytesread = minread;
break;
case COPY_NEW_FE:
while (maxread > 0 && bytesread < minread && !cstate->reached_eof)
{
int avail;
while (cstate->fe_msgbuf->cursor >= cstate->fe_msgbuf->len)
{
/* Try to receive another message */
int mtype;
readmessage:
HOLD_CANCEL_INTERRUPTS();
pq_startmsgread();
mtype = pq_getbyte();
if (mtype == EOF)
ereport(ERROR,
(errcode(ERRCODE_CONNECTION_FAILURE),
errmsg("unexpected EOF on client connection with an open transaction")));
if (pq_getmessage(cstate->fe_msgbuf, 0))
ereport(ERROR,
(errcode(ERRCODE_CONNECTION_FAILURE),
errmsg("unexpected EOF on client connection with an open transaction")));
RESUME_CANCEL_INTERRUPTS();
switch (mtype)
{
case 'd': /* CopyData */
break;
case 'c': /* CopyDone */
/* COPY IN correctly terminated by frontend */
cstate->reached_eof = true;
return bytesread;
case 'f': /* CopyFail */
ereport(ERROR,
(errcode(ERRCODE_QUERY_CANCELED),
errmsg("COPY from stdin failed: %s",
pq_getmsgstring(cstate->fe_msgbuf))));
break;
case 'H': /* Flush */
case 'S': /* Sync */
/*
* Ignore Flush/Sync for the convenience of client
* libraries (such as libpq) that may send those
* without noticing that the command they just
* sent was COPY.
*/
goto readmessage;
default:
ereport(ERROR,
(errcode(ERRCODE_PROTOCOL_VIOLATION),
errmsg("unexpected message type 0x%02X during COPY from stdin",
mtype)));
break;
}
}
avail = cstate->fe_msgbuf->len - cstate->fe_msgbuf->cursor;
if (avail > maxread)
avail = maxread;
pq_copymsgbytes(cstate->fe_msgbuf, databuf, avail);
databuf = (void *) ((char *) databuf + avail);
maxread -= avail;
bytesread += avail;
}
break;
case COPY_CALLBACK:
bytesread = cstate->data_source_cb(databuf, minread, maxread);
break;
}
return bytesread;
}
/*
* These functions do apply some data conversion
*/
/*
* CopySendInt32 sends an int32 in network byte order
*/
static void
CopySendInt32(CopyState cstate, int32 val)
{
uint32 buf;
buf = pg_hton32((uint32) val);
CopySendData(cstate, &buf, sizeof(buf));
}
/*
* CopyGetInt32 reads an int32 that appears in network byte order
*
* Returns true if OK, false if EOF
*/
static bool
CopyGetInt32(CopyState cstate, int32 *val)
{
uint32 buf;
if (CopyGetData(cstate, &buf, sizeof(buf), sizeof(buf)) != sizeof(buf))
{
*val = 0; /* suppress compiler warning */
return false;
}
*val = (int32) pg_ntoh32(buf);
return true;
}
/*
* CopySendInt16 sends an int16 in network byte order
*/
static void
CopySendInt16(CopyState cstate, int16 val)
{
uint16 buf;
buf = pg_hton16((uint16) val);
CopySendData(cstate, &buf, sizeof(buf));
}
/*
* CopyGetInt16 reads an int16 that appears in network byte order
*/
static bool
CopyGetInt16(CopyState cstate, int16 *val)
{
uint16 buf;
if (CopyGetData(cstate, &buf, sizeof(buf), sizeof(buf)) != sizeof(buf))
{
*val = 0; /* suppress compiler warning */
return false;
}
*val = (int16) pg_ntoh16(buf);
return true;
}
/*
* CopyLoadRawBuf loads some more data into raw_buf
*
* Returns true if able to obtain at least one more byte, else false.
*
* If raw_buf_index < raw_buf_len, the unprocessed bytes are transferred
* down to the start of the buffer and then we load more data after that.
* This case is used only when a frontend multibyte character crosses a
* bufferload boundary.
*/
static bool
CopyLoadRawBuf(CopyState cstate)
{
int nbytes;
int inbytes;
if (cstate->raw_buf_index < cstate->raw_buf_len)
{
/* Copy down the unprocessed data */
nbytes = cstate->raw_buf_len - cstate->raw_buf_index;
memmove(cstate->raw_buf, cstate->raw_buf + cstate->raw_buf_index,
nbytes);
}
else
nbytes = 0; /* no data need be saved */
inbytes = CopyGetData(cstate, cstate->raw_buf + nbytes,
1, RAW_BUF_SIZE - nbytes);
nbytes += inbytes;
cstate->raw_buf[nbytes] = '\0';
cstate->raw_buf_index = 0;
cstate->raw_buf_len = nbytes;
return (inbytes > 0);
}
/*
* DoCopy executes the SQL COPY statement
*
* Either unload or reload contents of table <relation>, depending on <from>.
* (<from> = true means we are inserting into the table.) In the "TO" case
* we also support copying the output of an arbitrary SELECT, INSERT, UPDATE
* or DELETE query.
*
* If <pipe> is false, transfer is between the table and the file named
* <filename>. Otherwise, transfer is between the table and our regular
* input/output stream. The latter could be either stdin/stdout or a
* socket, depending on whether we're running under Postmaster control.
*
* Do not allow a Postgres user without the 'pg_read_server_files' or
* 'pg_write_server_files' role to read from or write to a file.
*
* Do not allow the copy if user doesn't have proper permission to access
* the table or the specifically requested columns.
*/
void
DoCopy(ParseState *pstate, const CopyStmt *stmt,
int stmt_location, int stmt_len,
uint64 *processed)
{
CopyState cstate;
bool is_from = stmt->is_from;
bool pipe = (stmt->filename == NULL);
Relation rel;
Oid relid;
RawStmt *query = NULL;
Node *whereClause = NULL;
/*
* Disallow COPY to/from file or program except to users with the
* appropriate role.
*/
if (!pipe)
{
if (stmt->is_program)
{
if (!is_member_of_role(GetUserId(), DEFAULT_ROLE_EXECUTE_SERVER_PROGRAM))
ereport(ERROR,
(errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
errmsg("must be superuser or a member of the pg_execute_server_program role to COPY to or from an external program"),
errhint("Anyone can COPY to stdout or from stdin. "
"psql's \\copy command also works for anyone.")));
}
else
{
if (is_from && !is_member_of_role(GetUserId(), DEFAULT_ROLE_READ_SERVER_FILES))
ereport(ERROR,
(errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
errmsg("must be superuser or a member of the pg_read_server_files role to COPY from a file"),
errhint("Anyone can COPY to stdout or from stdin. "
"psql's \\copy command also works for anyone.")));
if (!is_from && !is_member_of_role(GetUserId(), DEFAULT_ROLE_WRITE_SERVER_FILES))
ereport(ERROR,
(errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
errmsg("must be superuser or a member of the pg_write_server_files role to COPY to a file"),
errhint("Anyone can COPY to stdout or from stdin. "
"psql's \\copy command also works for anyone.")));
}
}
if (stmt->relation)
{
LOCKMODE lockmode = is_from ? RowExclusiveLock : AccessShareLock;
RangeTblEntry *rte;
TupleDesc tupDesc;
List *attnums;
ListCell *cur;
Assert(!stmt->query);
/* Open and lock the relation, using the appropriate lock type. */
rel = table_openrv(stmt->relation, lockmode);
relid = RelationGetRelid(rel);
rte = addRangeTableEntryForRelation(pstate, rel, lockmode,
NULL, false, false);
rte->requiredPerms = (is_from ? ACL_INSERT : ACL_SELECT);
if (stmt->whereClause)
{
/* add rte to column namespace */
addRTEtoQuery(pstate, rte, false, true, true);
/* Transform the raw expression tree */
whereClause = transformExpr(pstate, stmt->whereClause, EXPR_KIND_COPY_WHERE);
/* Make sure it yields a boolean result. */
whereClause = coerce_to_boolean(pstate, whereClause, "WHERE");
/* we have to fix its collations too */
assign_expr_collations(pstate, whereClause);
whereClause = eval_const_expressions(NULL, whereClause);
whereClause = (Node *) canonicalize_qual((Expr *) whereClause, false);
whereClause = (Node *) make_ands_implicit((Expr *) whereClause);
}
tupDesc = RelationGetDescr(rel);
attnums = CopyGetAttnums(tupDesc, rel, stmt->attlist);
foreach(cur, attnums)
{
int attno = lfirst_int(cur) -
FirstLowInvalidHeapAttributeNumber;
if (is_from)
rte->insertedCols = bms_add_member(rte->insertedCols, attno);
else
rte->selectedCols = bms_add_member(rte->selectedCols, attno);
}
ExecCheckRTPerms(pstate->p_rtable, true);
/*
* Permission check for row security policies.
*
* check_enable_rls will ereport(ERROR) if the user has requested
* something invalid and will otherwise indicate if we should enable
* RLS (returns RLS_ENABLED) or not for this COPY statement.
*
* If the relation has a row security policy and we are to apply it
* then perform a "query" copy and allow the normal query processing
* to handle the policies.
*
* If RLS is not enabled for this, then just fall through to the
* normal non-filtering relation handling.
*/
if (check_enable_rls(rte->relid, InvalidOid, false) == RLS_ENABLED)
{
SelectStmt *select;
ColumnRef *cr;
ResTarget *target;
RangeVar *from;
List *targetList = NIL;
if (is_from)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY FROM not supported with row-level security"),
errhint("Use INSERT statements instead.")));
/*
* Build target list
*
* If no columns are specified in the attribute list of the COPY
* command, then the target list is 'all' columns. Therefore, '*'
* should be used as the target list for the resulting SELECT
* statement.
*
* In the case that columns are specified in the attribute list,
* create a ColumnRef and ResTarget for each column and add them
* to the target list for the resulting SELECT statement.
*/
if (!stmt->attlist)
{
cr = makeNode(ColumnRef);
cr->fields = list_make1(makeNode(A_Star));
cr->location = -1;
target = makeNode(ResTarget);
target->name = NULL;
target->indirection = NIL;
target->val = (Node *) cr;
target->location = -1;
targetList = list_make1(target);
}
else
{
ListCell *lc;
foreach(lc, stmt->attlist)
{
/*
* Build the ColumnRef for each column. The ColumnRef
* 'fields' property is a String 'Value' node (see
* nodes/value.h) that corresponds to the column name
* respectively.
*/
cr = makeNode(ColumnRef);
cr->fields = list_make1(lfirst(lc));
cr->location = -1;
/* Build the ResTarget and add the ColumnRef to it. */
target = makeNode(ResTarget);
target->name = NULL;
target->indirection = NIL;
target->val = (Node *) cr;
target->location = -1;
/* Add each column to the SELECT statement's target list */
targetList = lappend(targetList, target);
}
}
/*
* Build RangeVar for from clause, fully qualified based on the
* relation which we have opened and locked.
*/
from = makeRangeVar(get_namespace_name(RelationGetNamespace(rel)),
pstrdup(RelationGetRelationName(rel)),
-1);
/* Build query */
select = makeNode(SelectStmt);
select->targetList = targetList;
select->fromClause = list_make1(from);
query = makeNode(RawStmt);
query->stmt = (Node *) select;
query->stmt_location = stmt_location;
query->stmt_len = stmt_len;
/*
* Close the relation for now, but keep the lock on it to prevent
* changes between now and when we start the query-based COPY.
*
* We'll reopen it later as part of the query-based COPY.
*/
table_close(rel, NoLock);
rel = NULL;
}
}
else
{
Assert(stmt->query);
query = makeNode(RawStmt);
query->stmt = stmt->query;
query->stmt_location = stmt_location;
query->stmt_len = stmt_len;
relid = InvalidOid;
rel = NULL;
}
if (is_from)
{
Assert(rel);
/* check read-only transaction and parallel mode */
if (XactReadOnly && !rel->rd_islocaltemp)
PreventCommandIfReadOnly("COPY FROM");
PreventCommandIfParallelMode("COPY FROM");
cstate = BeginCopyFrom(pstate, rel, stmt->filename, stmt->is_program,
NULL, stmt->attlist, stmt->options);
cstate->whereClause = whereClause;
*processed = CopyFrom(cstate); /* copy from file to database */
EndCopyFrom(cstate);
}
else
{
cstate = BeginCopyTo(pstate, rel, query, relid,
stmt->filename, stmt->is_program,
stmt->attlist, stmt->options);
*processed = DoCopyTo(cstate); /* copy from database to file */
EndCopyTo(cstate);
}
/*
* Close the relation. If reading, we can release the AccessShareLock we
* got; if writing, we should hold the lock until end of transaction to
* ensure that updates will be committed before lock is released.
*/
if (rel != NULL)
table_close(rel, (is_from ? NoLock : AccessShareLock));
}
/*
* Process the statement option list for COPY.
*
* Scan the options list (a list of DefElem) and transpose the information
* into cstate, applying appropriate error checking.
*
* cstate is assumed to be filled with zeroes initially.
*
* This is exported so that external users of the COPY API can sanity-check
* a list of options. In that usage, cstate should be passed as NULL
* (since external users don't know sizeof(CopyStateData)) and the collected
* data is just leaked until CurrentMemoryContext is reset.
*
* Note that additional checking, such as whether column names listed in FORCE
* QUOTE actually exist, has to be applied later. This just checks for
* self-consistency of the options list.
*/
void
ProcessCopyOptions(ParseState *pstate,
CopyState cstate,
bool is_from,
List *options)
{
bool format_specified = false;
ListCell *option;
/* Support external use for option sanity checking */
if (cstate == NULL)
cstate = (CopyStateData *) palloc0(sizeof(CopyStateData));
cstate->is_copy_from = is_from;
cstate->file_encoding = -1;
/* Extract options from the statement node tree */
foreach(option, options)
{
DefElem *defel = lfirst_node(DefElem, option);
if (strcmp(defel->defname, "format") == 0)
{
char *fmt = defGetString(defel);
if (format_specified)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
format_specified = true;
if (strcmp(fmt, "text") == 0)
/* default format */ ;
else if (strcmp(fmt, "csv") == 0)
cstate->csv_mode = true;
else if (strcmp(fmt, "binary") == 0)
cstate->binary = true;
else
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("COPY format \"%s\" not recognized", fmt),
parser_errposition(pstate, defel->location)));
}
else if (strcmp(defel->defname, "freeze") == 0)
{
if (cstate->freeze)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
cstate->freeze = defGetBoolean(defel);
}
else if (strcmp(defel->defname, "delimiter") == 0)
{
if (cstate->delim)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
cstate->delim = defGetString(defel);
}
else if (strcmp(defel->defname, "null") == 0)
{
if (cstate->null_print)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
cstate->null_print = defGetString(defel);
}
else if (strcmp(defel->defname, "header") == 0)
{
if (cstate->header_line)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
cstate->header_line = defGetBoolean(defel);
}
else if (strcmp(defel->defname, "quote") == 0)
{
if (cstate->quote)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
cstate->quote = defGetString(defel);
}
else if (strcmp(defel->defname, "escape") == 0)
{
if (cstate->escape)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
cstate->escape = defGetString(defel);
}
else if (strcmp(defel->defname, "force_quote") == 0)
{
if (cstate->force_quote || cstate->force_quote_all)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
if (defel->arg && IsA(defel->arg, A_Star))
cstate->force_quote_all = true;
else if (defel->arg && IsA(defel->arg, List))
cstate->force_quote = castNode(List, defel->arg);
else
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("argument to option \"%s\" must be a list of column names",
defel->defname),
parser_errposition(pstate, defel->location)));
}
else if (strcmp(defel->defname, "force_not_null") == 0)
{
if (cstate->force_notnull)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
if (defel->arg && IsA(defel->arg, List))
cstate->force_notnull = castNode(List, defel->arg);
else
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("argument to option \"%s\" must be a list of column names",
defel->defname),
parser_errposition(pstate, defel->location)));
}
else if (strcmp(defel->defname, "force_null") == 0)
{
if (cstate->force_null)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options")));
if (defel->arg && IsA(defel->arg, List))
cstate->force_null = castNode(List, defel->arg);
else
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("argument to option \"%s\" must be a list of column names",
defel->defname),
parser_errposition(pstate, defel->location)));
}
else if (strcmp(defel->defname, "convert_selectively") == 0)
{
/*
* Undocumented, not-accessible-from-SQL option: convert only the
* named columns to binary form, storing the rest as NULLs. It's
* allowed for the column list to be NIL.
*/
if (cstate->convert_selectively)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
cstate->convert_selectively = true;
if (defel->arg == NULL || IsA(defel->arg, List))
cstate->convert_select = castNode(List, defel->arg);
else
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("argument to option \"%s\" must be a list of column names",
defel->defname),
parser_errposition(pstate, defel->location)));
}
else if (strcmp(defel->defname, "encoding") == 0)
{
if (cstate->file_encoding >= 0)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("conflicting or redundant options"),
parser_errposition(pstate, defel->location)));
cstate->file_encoding = pg_char_to_encoding(defGetString(defel));
if (cstate->file_encoding < 0)
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("argument to option \"%s\" must be a valid encoding name",
defel->defname),
parser_errposition(pstate, defel->location)));
}
else
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("option \"%s\" not recognized",
defel->defname),
parser_errposition(pstate, defel->location)));
}
/*
* Check for incompatible options (must do these two before inserting
* defaults)
*/
if (cstate->binary && cstate->delim)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("cannot specify DELIMITER in BINARY mode")));
if (cstate->binary && cstate->null_print)
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("cannot specify NULL in BINARY mode")));
/* Set defaults for omitted options */
if (!cstate->delim)
cstate->delim = cstate->csv_mode ? "," : "\t";
if (!cstate->null_print)
cstate->null_print = cstate->csv_mode ? "" : "\\N";
cstate->null_print_len = strlen(cstate->null_print);
if (cstate->csv_mode)
{
if (!cstate->quote)
cstate->quote = "\"";
if (!cstate->escape)
cstate->escape = cstate->quote;
}
/* Only single-byte delimiter strings are supported. */
if (strlen(cstate->delim) != 1)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY delimiter must be a single one-byte character")));
/* Disallow end-of-line characters */
if (strchr(cstate->delim, '\r') != NULL ||
strchr(cstate->delim, '\n') != NULL)
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("COPY delimiter cannot be newline or carriage return")));
if (strchr(cstate->null_print, '\r') != NULL ||
strchr(cstate->null_print, '\n') != NULL)
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("COPY null representation cannot use newline or carriage return")));
/*
* Disallow unsafe delimiter characters in non-CSV mode. We can't allow
* backslash because it would be ambiguous. We can't allow the other
* cases because data characters matching the delimiter must be
* backslashed, and certain backslash combinations are interpreted
* non-literally by COPY IN. Disallowing all lower case ASCII letters is
* more than strictly necessary, but seems best for consistency and
* future-proofing. Likewise we disallow all digits though only octal
* digits are actually dangerous.
*/
if (!cstate->csv_mode &&
strchr("\\.abcdefghijklmnopqrstuvwxyz0123456789",
cstate->delim[0]) != NULL)
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("COPY delimiter cannot be \"%s\"", cstate->delim)));
/* Check header */
if (!cstate->csv_mode && cstate->header_line)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY HEADER available only in CSV mode")));
/* Check quote */
if (!cstate->csv_mode && cstate->quote != NULL)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY quote available only in CSV mode")));
if (cstate->csv_mode && strlen(cstate->quote) != 1)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY quote must be a single one-byte character")));
if (cstate->csv_mode && cstate->delim[0] == cstate->quote[0])
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("COPY delimiter and quote must be different")));
/* Check escape */
if (!cstate->csv_mode && cstate->escape != NULL)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY escape available only in CSV mode")));
if (cstate->csv_mode && strlen(cstate->escape) != 1)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY escape must be a single one-byte character")));
/* Check force_quote */
if (!cstate->csv_mode && (cstate->force_quote || cstate->force_quote_all))
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY force quote available only in CSV mode")));
if ((cstate->force_quote || cstate->force_quote_all) && is_from)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY force quote only available using COPY TO")));
/* Check force_notnull */
if (!cstate->csv_mode && cstate->force_notnull != NIL)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY force not null available only in CSV mode")));
if (cstate->force_notnull != NIL && !is_from)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY force not null only available using COPY FROM")));
/* Check force_null */
if (!cstate->csv_mode && cstate->force_null != NIL)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY force null available only in CSV mode")));
if (cstate->force_null != NIL && !is_from)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY force null only available using COPY FROM")));
/* Don't allow the delimiter to appear in the null string. */
if (strchr(cstate->null_print, cstate->delim[0]) != NULL)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY delimiter must not appear in the NULL specification")));
/* Don't allow the CSV quote char to appear in the null string. */
if (cstate->csv_mode &&
strchr(cstate->null_print, cstate->quote[0]) != NULL)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("CSV quote character must not appear in the NULL specification")));
}
/*
* Common setup routines used by BeginCopyFrom and BeginCopyTo.
*
* Iff <binary>, unload or reload in the binary format, as opposed to the
* more wasteful but more robust and portable text format.
*
* Iff <oids>, unload or reload the format that includes OID information.
* On input, we accept OIDs whether or not the table has an OID column,
* but silently drop them if it does not. On output, we report an error
* if the user asks for OIDs in a table that has none (not providing an
* OID column might seem friendlier, but could seriously confuse programs).
*
* If in the text format, delimit columns with delimiter <delim> and print
* NULL values as <null_print>.
*/
static CopyState
BeginCopy(ParseState *pstate,
bool is_from,
Relation rel,
RawStmt *raw_query,
Oid queryRelId,
List *attnamelist,
List *options)
{
CopyState cstate;
TupleDesc tupDesc;
int num_phys_attrs;
MemoryContext oldcontext;
/* Allocate workspace and zero all fields */
cstate = (CopyStateData *) palloc0(sizeof(CopyStateData));
/*
* We allocate everything used by a cstate in a new memory context. This
* avoids memory leaks during repeated use of COPY in a query.
*/
cstate->copycontext = AllocSetContextCreate(CurrentMemoryContext,
"COPY",
ALLOCSET_DEFAULT_SIZES);
oldcontext = MemoryContextSwitchTo(cstate->copycontext);
/* Extract options from the statement node tree */
ProcessCopyOptions(pstate, cstate, is_from, options);
/* Process the source/target relation or query */
if (rel)
{
Assert(!raw_query);
cstate->rel = rel;
tupDesc = RelationGetDescr(cstate->rel);
}
else
{
List *rewritten;
Query *query;
PlannedStmt *plan;
DestReceiver *dest;
Assert(!is_from);
cstate->rel = NULL;
/*
* Run parse analysis and rewrite. Note this also acquires sufficient
* locks on the source table(s).
*
* Because the parser and planner tend to scribble on their input, we
* make a preliminary copy of the source querytree. This prevents
* problems in the case that the COPY is in a portal or plpgsql
* function and is executed repeatedly. (See also the same hack in
* DECLARE CURSOR and PREPARE.) XXX FIXME someday.
*/
rewritten = pg_analyze_and_rewrite(copyObject(raw_query),
pstate->p_sourcetext, NULL, 0,
NULL);
/* check that we got back something we can work with */
if (rewritten == NIL)
{
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("DO INSTEAD NOTHING rules are not supported for COPY")));
}
else if (list_length(rewritten) > 1)
{
ListCell *lc;
/* examine queries to determine which error message to issue */
foreach(lc, rewritten)
{
Query *q = lfirst_node(Query, lc);
if (q->querySource == QSRC_QUAL_INSTEAD_RULE)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("conditional DO INSTEAD rules are not supported for COPY")));
if (q->querySource == QSRC_NON_INSTEAD_RULE)
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("DO ALSO rules are not supported for the COPY")));
}
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("multi-statement DO INSTEAD rules are not supported for COPY")));
}
query = linitial_node(Query, rewritten);
/* The grammar allows SELECT INTO, but we don't support that */
if (query->utilityStmt != NULL &&
IsA(query->utilityStmt, CreateTableAsStmt))
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY (SELECT INTO) is not supported")));
Assert(query->utilityStmt == NULL);
/*
* Similarly the grammar doesn't enforce the presence of a RETURNING
* clause, but this is required here.
*/
if (query->commandType != CMD_SELECT &&
query->returningList == NIL)
{
Assert(query->commandType == CMD_INSERT ||
query->commandType == CMD_UPDATE ||
query->commandType == CMD_DELETE);
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("COPY query must have a RETURNING clause")));
}
/* plan the query */
plan = pg_plan_query(query, CURSOR_OPT_PARALLEL_OK, NULL);
/*
* With row level security and a user using "COPY relation TO", we
* have to convert the "COPY relation TO" to a query-based COPY (eg:
* "COPY (SELECT * FROM relation) TO"), to allow the rewriter to add
* in any RLS clauses.
*
* When this happens, we are passed in the relid of the originally
* found relation (which we have locked). As the planner will look up
* the relation again, we double-check here to make sure it found the
* same one that we have locked.
*/
if (queryRelId != InvalidOid)
{
/*
* Note that with RLS involved there may be multiple relations,
* and while the one we need is almost certainly first, we don't
* make any guarantees of that in the planner, so check the whole
* list and make sure we find the original relation.
*/
if (!list_member_oid(plan->relationOids, queryRelId))
ereport(ERROR,
(errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
errmsg("relation referenced by COPY statement has changed")));
}
/*
* Use a snapshot with an updated command ID to ensure this query sees
* results of any previously executed queries.
*/
PushCopiedSnapshot(GetActiveSnapshot());
UpdateActiveSnapshotCommandId();
/* Create dest receiver for COPY OUT */
dest = CreateDestReceiver(DestCopyOut);
((DR_copy *) dest)->cstate = cstate;
/* Create a QueryDesc requesting no output */
cstate->queryDesc = CreateQueryDesc(plan, pstate->p_sourcetext,
GetActiveSnapshot(),
InvalidSnapshot,
dest, NULL, NULL, 0);
/*
* Call ExecutorStart to prepare the plan for execution.
*
* ExecutorStart computes a result tupdesc for us
*/
ExecutorStart(cstate->queryDesc, 0);
tupDesc = cstate->queryDesc->tupDesc;
}
/* Generate or convert list of attributes to process */
cstate->attnumlist = CopyGetAttnums(tupDesc, cstate->rel, attnamelist);
num_phys_attrs = tupDesc->natts;
/* Convert FORCE_QUOTE name list to per-column flags, check validity */
cstate->force_quote_flags = (bool *) palloc0(num_phys_attrs * sizeof(bool));
if (cstate->force_quote_all)
{
int i;
for (i = 0; i < num_phys_attrs; i++)
cstate->force_quote_flags[i] = true;
}
else if (cstate->force_quote)
{
List *attnums;
ListCell *cur;
attnums = CopyGetAttnums(tupDesc, cstate->rel, cstate->force_quote);
foreach(cur, attnums)
{
int attnum = lfirst_int(cur);
Form_pg_attribute attr = TupleDescAttr(tupDesc, attnum - 1);
if (!list_member_int(cstate->attnumlist, attnum))
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("FORCE_QUOTE column \"%s\" not referenced by COPY",
NameStr(attr->attname))));
cstate->force_quote_flags[attnum - 1] = true;
}
}
/* Convert FORCE_NOT_NULL name list to per-column flags, check validity */
cstate->force_notnull_flags = (bool *) palloc0(num_phys_attrs * sizeof(bool));
if (cstate->force_notnull)
{
List *attnums;
ListCell *cur;
attnums = CopyGetAttnums(tupDesc, cstate->rel, cstate->force_notnull);
foreach(cur, attnums)
{
int attnum = lfirst_int(cur);
Form_pg_attribute attr = TupleDescAttr(tupDesc, attnum - 1);
if (!list_member_int(cstate->attnumlist, attnum))
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("FORCE_NOT_NULL column \"%s\" not referenced by COPY",
NameStr(attr->attname))));
cstate->force_notnull_flags[attnum - 1] = true;
}
}
/* Convert FORCE_NULL name list to per-column flags, check validity */
cstate->force_null_flags = (bool *) palloc0(num_phys_attrs * sizeof(bool));
if (cstate->force_null)
{
List *attnums;
ListCell *cur;
attnums = CopyGetAttnums(tupDesc, cstate->rel, cstate->force_null);
foreach(cur, attnums)
{
int attnum = lfirst_int(cur);
Form_pg_attribute attr = TupleDescAttr(tupDesc, attnum - 1);
if (!list_member_int(cstate->attnumlist, attnum))
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("FORCE_NULL column \"%s\" not referenced by COPY",
NameStr(attr->attname))));
cstate->force_null_flags[attnum - 1] = true;
}
}
/* Convert convert_selectively name list to per-column flags */
if (cstate->convert_selectively)
{
List *attnums;
ListCell *cur;
cstate->convert_select_flags = (bool *) palloc0(num_phys_attrs * sizeof(bool));
attnums = CopyGetAttnums(tupDesc, cstate->rel, cstate->convert_select);
foreach(cur, attnums)
{
int attnum = lfirst_int(cur);
Form_pg_attribute attr = TupleDescAttr(tupDesc, attnum - 1);
if (!list_member_int(cstate->attnumlist, attnum))
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg_internal("selected column \"%s\" not referenced by COPY",
NameStr(attr->attname))));
cstate->convert_select_flags[attnum - 1] = true;
}
}
/* Use client encoding when ENCODING option is not specified. */
if (cstate->file_encoding < 0)
cstate->file_encoding = pg_get_client_encoding();
/*
* Set up encoding conversion info. Even if the file and server encodings
* are the same, we must apply pg_any_to_server() to validate data in
* multibyte encodings.
*/
cstate->need_transcoding =
(cstate->file_encoding != GetDatabaseEncoding() ||
pg_database_encoding_max_length() > 1);
/* See Multibyte encoding comment above */
cstate->encoding_embeds_ascii = PG_ENCODING_IS_CLIENT_ONLY(cstate->file_encoding);
cstate->copy_dest = COPY_FILE; /* default */
MemoryContextSwitchTo(oldcontext);
return cstate;
}
/*
* Closes the pipe to an external program, checking the pclose() return code.
*/
static void
ClosePipeToProgram(CopyState cstate)
{
int pclose_rc;
Assert(cstate->is_program);
pclose_rc = ClosePipeStream(cstate->copy_file);
if (pclose_rc == -1)
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not close pipe to external command: %m")));
else if (pclose_rc != 0)
{
/*
* If we ended a COPY FROM PROGRAM before reaching EOF, then it's
* expectable for the called program to fail with SIGPIPE, and we
* should not report that as an error. Otherwise, SIGPIPE indicates a
* problem.
*/
if (cstate->is_copy_from && !cstate->reached_eof &&
wait_result_is_signal(pclose_rc, SIGPIPE))
return;
ereport(ERROR,
(errcode(ERRCODE_EXTERNAL_ROUTINE_EXCEPTION),
errmsg("program \"%s\" failed",
cstate->filename),
errdetail_internal("%s", wait_result_to_str(pclose_rc))));
}
}
/*
* Release resources allocated in a cstate for COPY TO/FROM.
*/
static void
EndCopy(CopyState cstate)
{
if (cstate->is_program)
{
ClosePipeToProgram(cstate);
}
else
{
if (cstate->filename != NULL && FreeFile(cstate->copy_file))
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not close file \"%s\": %m",
cstate->filename)));
}
MemoryContextDelete(cstate->copycontext);
pfree(cstate);
}
/*
* Setup CopyState to read tuples from a table or a query for COPY TO.
*/
static CopyState
BeginCopyTo(ParseState *pstate,
Relation rel,
RawStmt *query,
Oid queryRelId,
const char *filename,
bool is_program,
List *attnamelist,
List *options)
{
CopyState cstate;
bool pipe = (filename == NULL);
MemoryContext oldcontext;
if (rel != NULL && rel->rd_rel->relkind != RELKIND_RELATION)
{
if (rel->rd_rel->relkind == RELKIND_VIEW)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy from view \"%s\"",
RelationGetRelationName(rel)),
errhint("Try the COPY (SELECT ...) TO variant.")));
else if (rel->rd_rel->relkind == RELKIND_MATVIEW)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy from materialized view \"%s\"",
RelationGetRelationName(rel)),
errhint("Try the COPY (SELECT ...) TO variant.")));
else if (rel->rd_rel->relkind == RELKIND_FOREIGN_TABLE)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy from foreign table \"%s\"",
RelationGetRelationName(rel)),
errhint("Try the COPY (SELECT ...) TO variant.")));
else if (rel->rd_rel->relkind == RELKIND_SEQUENCE)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy from sequence \"%s\"",
RelationGetRelationName(rel))));
else if (rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy from partitioned table \"%s\"",
RelationGetRelationName(rel)),
errhint("Try the COPY (SELECT ...) TO variant.")));
else
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy from non-table relation \"%s\"",
RelationGetRelationName(rel))));
}
cstate = BeginCopy(pstate, false, rel, query, queryRelId, attnamelist,
options);
oldcontext = MemoryContextSwitchTo(cstate->copycontext);
if (pipe)
{
Assert(!is_program); /* the grammar does not allow this */
if (whereToSendOutput != DestRemote)
cstate->copy_file = stdout;
}
else
{
cstate->filename = pstrdup(filename);
cstate->is_program = is_program;
if (is_program)
{
cstate->copy_file = OpenPipeStream(cstate->filename, PG_BINARY_W);
if (cstate->copy_file == NULL)
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not execute command \"%s\": %m",
cstate->filename)));
}
else
{
mode_t oumask; /* Pre-existing umask value */
struct stat st;
/*
* Prevent write to relative path ... too easy to shoot oneself in
* the foot by overwriting a database file ...
*/
if (!is_absolute_path(filename))
ereport(ERROR,
(errcode(ERRCODE_INVALID_NAME),
errmsg("relative path not allowed for COPY to file")));
oumask = umask(S_IWGRP | S_IWOTH);
PG_TRY();
{
cstate->copy_file = AllocateFile(cstate->filename, PG_BINARY_W);
}
PG_FINALLY();
{
umask(oumask);
}
PG_END_TRY();
if (cstate->copy_file == NULL)
{
/* copy errno because ereport subfunctions might change it */
int save_errno = errno;
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not open file \"%s\" for writing: %m",
cstate->filename),
(save_errno == ENOENT || save_errno == EACCES) ?
errhint("COPY TO instructs the PostgreSQL server process to write a file. "
"You may want a client-side facility such as psql's \\copy.") : 0));
}
if (fstat(fileno(cstate->copy_file), &st))
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not stat file \"%s\": %m",
cstate->filename)));
if (S_ISDIR(st.st_mode))
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("\"%s\" is a directory", cstate->filename)));
}
}
MemoryContextSwitchTo(oldcontext);
return cstate;
}
/*
* This intermediate routine exists mainly to localize the effects of setjmp
* so we don't need to plaster a lot of variables with "volatile".
*/
static uint64
DoCopyTo(CopyState cstate)
{
bool pipe = (cstate->filename == NULL);
bool fe_copy = (pipe && whereToSendOutput == DestRemote);
uint64 processed;
PG_TRY();
{
if (fe_copy)
SendCopyBegin(cstate);
processed = CopyTo(cstate);
if (fe_copy)
SendCopyEnd(cstate);
}
PG_CATCH();
{
/*
* Make sure we turn off old-style COPY OUT mode upon error. It is
* okay to do this in all cases, since it does nothing if the mode is
* not on.
*/
pq_endcopyout(true);
PG_RE_THROW();
}
PG_END_TRY();
return processed;
}
/*
* Clean up storage and release resources for COPY TO.
*/
static void
EndCopyTo(CopyState cstate)
{
if (cstate->queryDesc != NULL)
{
/* Close down the query and free resources. */
ExecutorFinish(cstate->queryDesc);
ExecutorEnd(cstate->queryDesc);
FreeQueryDesc(cstate->queryDesc);
PopActiveSnapshot();
}
/* Clean up storage */
EndCopy(cstate);
}
/*
* Copy from relation or query TO file.
*/
static uint64
CopyTo(CopyState cstate)
{
TupleDesc tupDesc;
int num_phys_attrs;
ListCell *cur;
uint64 processed;
if (cstate->rel)
tupDesc = RelationGetDescr(cstate->rel);
else
tupDesc = cstate->queryDesc->tupDesc;
num_phys_attrs = tupDesc->natts;
cstate->null_print_client = cstate->null_print; /* default */
/* We use fe_msgbuf as a per-row buffer regardless of copy_dest */
cstate->fe_msgbuf = makeStringInfo();
/* Get info about the columns we need to process. */
cstate->out_functions = (FmgrInfo *) palloc(num_phys_attrs * sizeof(FmgrInfo));
foreach(cur, cstate->attnumlist)
{
int attnum = lfirst_int(cur);
Oid out_func_oid;
bool isvarlena;
Form_pg_attribute attr = TupleDescAttr(tupDesc, attnum - 1);
if (cstate->binary)
getTypeBinaryOutputInfo(attr->atttypid,
&out_func_oid,
&isvarlena);
else
getTypeOutputInfo(attr->atttypid,
&out_func_oid,
&isvarlena);
fmgr_info(out_func_oid, &cstate->out_functions[attnum - 1]);
}
/*
* Create a temporary memory context that we can reset once per row to
* recover palloc'd memory. This avoids any problems with leaks inside
* datatype output routines, and should be faster than retail pfree's
* anyway. (We don't need a whole econtext as CopyFrom does.)
*/
cstate->rowcontext = AllocSetContextCreate(CurrentMemoryContext,
"COPY TO",
ALLOCSET_DEFAULT_SIZES);
if (cstate->binary)
{
/* Generate header for a binary copy */
int32 tmp;
/* Signature */
CopySendData(cstate, BinarySignature, 11);
/* Flags field */
tmp = 0;
CopySendInt32(cstate, tmp);
/* No header extension */
tmp = 0;
CopySendInt32(cstate, tmp);
}
else
{
/*
* For non-binary copy, we need to convert null_print to file
* encoding, because it will be sent directly with CopySendString.
*/
if (cstate->need_transcoding)
cstate->null_print_client = pg_server_to_any(cstate->null_print,
cstate->null_print_len,
cstate->file_encoding);
/* if a header has been requested send the line */
if (cstate->header_line)
{
bool hdr_delim = false;
foreach(cur, cstate->attnumlist)
{
int attnum = lfirst_int(cur);
char *colname;
if (hdr_delim)
CopySendChar(cstate, cstate->delim[0]);
hdr_delim = true;
colname = NameStr(TupleDescAttr(tupDesc, attnum - 1)->attname);
CopyAttributeOutCSV(cstate, colname, false,
list_length(cstate->attnumlist) == 1);
}
CopySendEndOfRow(cstate);
}
}
if (cstate->rel)
{
TupleTableSlot *slot;
TableScanDesc scandesc;
scandesc = table_beginscan(cstate->rel, GetActiveSnapshot(), 0, NULL);
slot = table_slot_create(cstate->rel, NULL);
processed = 0;
while (table_scan_getnextslot(scandesc, ForwardScanDirection, slot))
{
CHECK_FOR_INTERRUPTS();
/* Deconstruct the tuple ... */
slot_getallattrs(slot);
/* Format and send the data */
CopyOneRowTo(cstate, slot);
processed++;
}
ExecDropSingleTupleTableSlot(slot);
table_endscan(scandesc);
}
else
{
/* run the plan --- the dest receiver will send tuples */
ExecutorRun(cstate->queryDesc, ForwardScanDirection, 0L, true);
processed = ((DR_copy *) cstate->queryDesc->dest)->processed;
}
if (cstate->binary)
{
/* Generate trailer for a binary copy */
CopySendInt16(cstate, -1);
/* Need to flush out the trailer */
CopySendEndOfRow(cstate);
}
MemoryContextDelete(cstate->rowcontext);
return processed;
}
/*
* Emit one row during CopyTo().
*/
static void
CopyOneRowTo(CopyState cstate, TupleTableSlot *slot)
{
bool need_delim = false;
FmgrInfo *out_functions = cstate->out_functions;
MemoryContext oldcontext;
ListCell *cur;
char *string;
MemoryContextReset(cstate->rowcontext);
oldcontext = MemoryContextSwitchTo(cstate->rowcontext);
if (cstate->binary)
{
/* Binary per-tuple header */
CopySendInt16(cstate, list_length(cstate->attnumlist));
}
/* Make sure the tuple is fully deconstructed */
slot_getallattrs(slot);
foreach(cur, cstate->attnumlist)
{
int attnum = lfirst_int(cur);
Datum value = slot->tts_values[attnum - 1];
bool isnull = slot->tts_isnull[attnum - 1];
if (!cstate->binary)
{
if (need_delim)
CopySendChar(cstate, cstate->delim[0]);
need_delim = true;
}
if (isnull)
{
if (!cstate->binary)
CopySendString(cstate, cstate->null_print_client);
else
CopySendInt32(cstate, -1);
}
else
{
if (!cstate->binary)
{
string = OutputFunctionCall(&out_functions[attnum - 1],
value);
if (cstate->csv_mode)
CopyAttributeOutCSV(cstate, string,
cstate->force_quote_flags[attnum - 1],
list_length(cstate->attnumlist) == 1);
else
CopyAttributeOutText(cstate, string);
}
else
{
bytea *outputbytes;
outputbytes = SendFunctionCall(&out_functions[attnum - 1],
value);
CopySendInt32(cstate, VARSIZE(outputbytes) - VARHDRSZ);
CopySendData(cstate, VARDATA(outputbytes),
VARSIZE(outputbytes) - VARHDRSZ);
}
}
}
CopySendEndOfRow(cstate);
MemoryContextSwitchTo(oldcontext);
}
/*
* error context callback for COPY FROM
*
* The argument for the error context must be CopyState.
*/
void
CopyFromErrorCallback(void *arg)
{
CopyState cstate = (CopyState) arg;
char curlineno_str[32];
snprintf(curlineno_str, sizeof(curlineno_str), UINT64_FORMAT,
cstate->cur_lineno);
if (cstate->binary)
{
/* can't usefully display the data */
if (cstate->cur_attname)
errcontext("COPY %s, line %s, column %s",
cstate->cur_relname, curlineno_str,
cstate->cur_attname);
else
errcontext("COPY %s, line %s",
cstate->cur_relname, curlineno_str);
}
else
{
if (cstate->cur_attname && cstate->cur_attval)
{
/* error is relevant to a particular column */
char *attval;
attval = limit_printout_length(cstate->cur_attval);
errcontext("COPY %s, line %s, column %s: \"%s\"",
cstate->cur_relname, curlineno_str,
cstate->cur_attname, attval);
pfree(attval);
}
else if (cstate->cur_attname)
{
/* error is relevant to a particular column, value is NULL */
errcontext("COPY %s, line %s, column %s: null input",
cstate->cur_relname, curlineno_str,
cstate->cur_attname);
}
else
{
/*
* Error is relevant to a particular line.
*
* If line_buf still contains the correct line, and it's already
* transcoded, print it. If it's still in a foreign encoding, it's
* quite likely that the error is precisely a failure to do
* encoding conversion (ie, bad data). We dare not try to convert
* it, and at present there's no way to regurgitate it without
* conversion. So we have to punt and just report the line number.
*/
if (cstate->line_buf_valid &&
(cstate->line_buf_converted || !cstate->need_transcoding))
{
char *lineval;
lineval = limit_printout_length(cstate->line_buf.data);
errcontext("COPY %s, line %s: \"%s\"",
cstate->cur_relname, curlineno_str, lineval);
pfree(lineval);
}
else
{
errcontext("COPY %s, line %s",
cstate->cur_relname, curlineno_str);
}
}
}
}
/*
* Make sure we don't print an unreasonable amount of COPY data in a message.
*
* It would seem a lot easier to just use the sprintf "precision" limit to
* truncate the string. However, some versions of glibc have a bug/misfeature
* that vsnprintf will always fail (return -1) if it is asked to truncate
* a string that contains invalid byte sequences for the current encoding.
* So, do our own truncation. We return a pstrdup'd copy of the input.
*/
static char *
limit_printout_length(const char *str)
{
#define MAX_COPY_DATA_DISPLAY 100
int slen = strlen(str);
int len;
char *res;
/* Fast path if definitely okay */
if (slen <= MAX_COPY_DATA_DISPLAY)
return pstrdup(str);
/* Apply encoding-dependent truncation */
len = pg_mbcliplen(str, slen, MAX_COPY_DATA_DISPLAY);
/*
* Truncate, and add "..." to show we truncated the input.
*/
res = (char *) palloc(len + 4);
memcpy(res, str, len);
strcpy(res + len, "...");
return res;
}
/*
* Allocate memory and initialize a new CopyMultiInsertBuffer for this
* ResultRelInfo.
*/
static CopyMultiInsertBuffer *
CopyMultiInsertBufferInit(ResultRelInfo *rri)
{
CopyMultiInsertBuffer *buffer;
buffer = (CopyMultiInsertBuffer *) palloc(sizeof(CopyMultiInsertBuffer));
memset(buffer->slots, 0, sizeof(TupleTableSlot *) * MAX_BUFFERED_TUPLES);
buffer->resultRelInfo = rri;
buffer->bistate = GetBulkInsertState();
buffer->nused = 0;
return buffer;
}
/*
* Make a new buffer for this ResultRelInfo.
*/
static inline void
CopyMultiInsertInfoSetupBuffer(CopyMultiInsertInfo *miinfo,
ResultRelInfo *rri)
{
CopyMultiInsertBuffer *buffer;
buffer = CopyMultiInsertBufferInit(rri);
/* Setup back-link so we can easily find this buffer again */
rri->ri_CopyMultiInsertBuffer = buffer;
/* Record that we're tracking this buffer */
miinfo->multiInsertBuffers = lappend(miinfo->multiInsertBuffers, buffer);
}
/*
* Initialize an already allocated CopyMultiInsertInfo.
*
* If rri is a non-partitioned table then a CopyMultiInsertBuffer is set up
* for that table.
*/
static void
CopyMultiInsertInfoInit(CopyMultiInsertInfo *miinfo, ResultRelInfo *rri,
CopyState cstate, EState *estate, CommandId mycid,
int ti_options)
{
miinfo->multiInsertBuffers = NIL;
miinfo->bufferedTuples = 0;
miinfo->bufferedBytes = 0;
miinfo->cstate = cstate;
miinfo->estate = estate;
miinfo->mycid = mycid;
miinfo->ti_options = ti_options;
/*
* Only setup the buffer when not dealing with a partitioned table.
* Buffers for partitioned tables will just be setup when we need to send
* tuples their way for the first time.
*/
if (rri->ri_RelationDesc->rd_rel->relkind != RELKIND_PARTITIONED_TABLE)
CopyMultiInsertInfoSetupBuffer(miinfo, rri);
}
/*
* Returns true if the buffers are full
*/
static inline bool
CopyMultiInsertInfoIsFull(CopyMultiInsertInfo *miinfo)
{
if (miinfo->bufferedTuples >= MAX_BUFFERED_TUPLES ||
miinfo->bufferedBytes >= MAX_BUFFERED_BYTES)
return true;
return false;
}
/*
* Returns true if we have no buffered tuples
*/
static inline bool
CopyMultiInsertInfoIsEmpty(CopyMultiInsertInfo *miinfo)
{
return miinfo->bufferedTuples == 0;
}
/*
* Write the tuples stored in 'buffer' out to the table.
*/
static inline void
CopyMultiInsertBufferFlush(CopyMultiInsertInfo *miinfo,
CopyMultiInsertBuffer *buffer)
{
MemoryContext oldcontext;
int i;
uint64 save_cur_lineno;
CopyState cstate = miinfo->cstate;
EState *estate = miinfo->estate;
CommandId mycid = miinfo->mycid;
int ti_options = miinfo->ti_options;
bool line_buf_valid = cstate->line_buf_valid;
int nused = buffer->nused;
ResultRelInfo *resultRelInfo = buffer->resultRelInfo;
TupleTableSlot **slots = buffer->slots;
/* Set es_result_relation_info to the ResultRelInfo we're flushing. */
estate->es_result_relation_info = resultRelInfo;
/*
* Print error context information correctly, if one of the operations
* below fail.
*/
cstate->line_buf_valid = false;
save_cur_lineno = cstate->cur_lineno;
/*
* table_multi_insert may leak memory, so switch to short-lived memory
* context before calling it.
*/
oldcontext = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
table_multi_insert(resultRelInfo->ri_RelationDesc,
slots,
nused,
mycid,
ti_options,
buffer->bistate);
MemoryContextSwitchTo(oldcontext);
for (i = 0; i < nused; i++)
{
/*
* If there are any indexes, update them for all the inserted tuples,
* and run AFTER ROW INSERT triggers.
*/
if (resultRelInfo->ri_NumIndices > 0)
{
List *recheckIndexes;
cstate->cur_lineno = buffer->linenos[i];
recheckIndexes =
ExecInsertIndexTuples(buffer->slots[i], estate, false, NULL,
NIL);
ExecARInsertTriggers(estate, resultRelInfo,
slots[i], recheckIndexes,
cstate->transition_capture);
list_free(recheckIndexes);
}
/*
* There's no indexes, but see if we need to run AFTER ROW INSERT
* triggers anyway.
*/
else if (resultRelInfo->ri_TrigDesc != NULL &&
(resultRelInfo->ri_TrigDesc->trig_insert_after_row ||
resultRelInfo->ri_TrigDesc->trig_insert_new_table))
{
cstate->cur_lineno = buffer->linenos[i];
ExecARInsertTriggers(estate, resultRelInfo,
slots[i], NIL, cstate->transition_capture);
}
ExecClearTuple(slots[i]);
}
/* Mark that all slots are free */
buffer->nused = 0;
/* reset cur_lineno and line_buf_valid to what they were */
cstate->line_buf_valid = line_buf_valid;
cstate->cur_lineno = save_cur_lineno;
}
/*
* Drop used slots and free member for this buffer.
*
* The buffer must be flushed before cleanup.
*/
static inline void
CopyMultiInsertBufferCleanup(CopyMultiInsertInfo *miinfo,
CopyMultiInsertBuffer *buffer)
{
int i;
/* Ensure buffer was flushed */
Assert(buffer->nused == 0);
/* Remove back-link to ourself */
buffer->resultRelInfo->ri_CopyMultiInsertBuffer = NULL;
FreeBulkInsertState(buffer->bistate);
/* Since we only create slots on demand, just drop the non-null ones. */
for (i = 0; i < MAX_BUFFERED_TUPLES && buffer->slots[i] != NULL; i++)
ExecDropSingleTupleTableSlot(buffer->slots[i]);
table_finish_bulk_insert(buffer->resultRelInfo->ri_RelationDesc,
miinfo->ti_options);
pfree(buffer);
}
/*
* Write out all stored tuples in all buffers out to the tables.
*
* Once flushed we also trim the tracked buffers list down to size by removing
* the buffers created earliest first.
*
* Callers should pass 'curr_rri' is the ResultRelInfo that's currently being
* used. When cleaning up old buffers we'll never remove the one for
* 'curr_rri'.
*/
static inline void
CopyMultiInsertInfoFlush(CopyMultiInsertInfo *miinfo, ResultRelInfo *curr_rri)
{
ListCell *lc;
foreach(lc, miinfo->multiInsertBuffers)
{
CopyMultiInsertBuffer *buffer = (CopyMultiInsertBuffer *) lfirst(lc);
CopyMultiInsertBufferFlush(miinfo, buffer);
}
miinfo->bufferedTuples = 0;
miinfo->bufferedBytes = 0;
/*
* Trim the list of tracked buffers down if it exceeds the limit. Here we
* remove buffers starting with the ones we created first. It seems more
* likely that these older ones are less likely to be needed than ones
* that were just created.
*/
while (list_length(miinfo->multiInsertBuffers) > MAX_PARTITION_BUFFERS)
{
CopyMultiInsertBuffer *buffer;
buffer = (CopyMultiInsertBuffer *) linitial(miinfo->multiInsertBuffers);
/*
* We never want to remove the buffer that's currently being used, so
* if we happen to find that then move it to the end of the list.
*/
if (buffer->resultRelInfo == curr_rri)
{
miinfo->multiInsertBuffers = list_delete_first(miinfo->multiInsertBuffers);
miinfo->multiInsertBuffers = lappend(miinfo->multiInsertBuffers, buffer);
buffer = (CopyMultiInsertBuffer *) linitial(miinfo->multiInsertBuffers);
}
CopyMultiInsertBufferCleanup(miinfo, buffer);
miinfo->multiInsertBuffers = list_delete_first(miinfo->multiInsertBuffers);
}
}
/*
* Cleanup allocated buffers and free memory
*/
static inline void
CopyMultiInsertInfoCleanup(CopyMultiInsertInfo *miinfo)
{
ListCell *lc;
foreach(lc, miinfo->multiInsertBuffers)
CopyMultiInsertBufferCleanup(miinfo, lfirst(lc));
list_free(miinfo->multiInsertBuffers);
}
/*
* Get the next TupleTableSlot that the next tuple should be stored in.
*
* Callers must ensure that the buffer is not full.
*/
static inline TupleTableSlot *
CopyMultiInsertInfoNextFreeSlot(CopyMultiInsertInfo *miinfo,
ResultRelInfo *rri)
{
CopyMultiInsertBuffer *buffer = rri->ri_CopyMultiInsertBuffer;
int nused = buffer->nused;
Assert(buffer != NULL);
Assert(nused < MAX_BUFFERED_TUPLES);
if (buffer->slots[nused] == NULL)
buffer->slots[nused] = table_slot_create(rri->ri_RelationDesc, NULL);
return buffer->slots[nused];
}
/*
* Record the previously reserved TupleTableSlot that was reserved by
* CopyMultiInsertInfoNextFreeSlot as being consumed.
*/
static inline void
CopyMultiInsertInfoStore(CopyMultiInsertInfo *miinfo, ResultRelInfo *rri,
TupleTableSlot *slot, int tuplen, uint64 lineno)
{
CopyMultiInsertBuffer *buffer = rri->ri_CopyMultiInsertBuffer;
Assert(buffer != NULL);
Assert(slot == buffer->slots[buffer->nused]);
/* Store the line number so we can properly report any errors later */
buffer->linenos[buffer->nused] = lineno;
/* Record this slot as being used */
buffer->nused++;
/* Update how many tuples are stored and their size */
miinfo->bufferedTuples++;
miinfo->bufferedBytes += tuplen;
}
/*
* Copy FROM file to relation.
*/
uint64
CopyFrom(CopyState cstate)
{
ResultRelInfo *resultRelInfo;
ResultRelInfo *target_resultRelInfo;
ResultRelInfo *prevResultRelInfo = NULL;
EState *estate = CreateExecutorState(); /* for ExecConstraints() */
ModifyTableState *mtstate;
ExprContext *econtext;
TupleTableSlot *singleslot = NULL;
MemoryContext oldcontext = CurrentMemoryContext;
PartitionTupleRouting *proute = NULL;
ErrorContextCallback errcallback;
CommandId mycid = GetCurrentCommandId(true);
int ti_options = 0; /* start with default options for insert */
BulkInsertState bistate = NULL;
CopyInsertMethod insertMethod;
CopyMultiInsertInfo multiInsertInfo = {0}; /* pacify compiler */
uint64 processed = 0;
bool has_before_insert_row_trig;
bool has_instead_insert_row_trig;
bool leafpart_use_multi_insert = false;
Assert(cstate->rel);
/*
* The target must be a plain, foreign, or partitioned relation, or have
* an INSTEAD OF INSERT row trigger. (Currently, such triggers are only
* allowed on views, so we only hint about them in the view case.)
*/
if (cstate->rel->rd_rel->relkind != RELKIND_RELATION &&
cstate->rel->rd_rel->relkind != RELKIND_FOREIGN_TABLE &&
cstate->rel->rd_rel->relkind != RELKIND_PARTITIONED_TABLE &&
!(cstate->rel->trigdesc &&
cstate->rel->trigdesc->trig_insert_instead_row))
{
if (cstate->rel->rd_rel->relkind == RELKIND_VIEW)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy to view \"%s\"",
RelationGetRelationName(cstate->rel)),
errhint("To enable copying to a view, provide an INSTEAD OF INSERT trigger.")));
else if (cstate->rel->rd_rel->relkind == RELKIND_MATVIEW)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy to materialized view \"%s\"",
RelationGetRelationName(cstate->rel))));
else if (cstate->rel->rd_rel->relkind == RELKIND_SEQUENCE)
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy to sequence \"%s\"",
RelationGetRelationName(cstate->rel))));
else
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("cannot copy to non-table relation \"%s\"",
RelationGetRelationName(cstate->rel))));
}
/*----------
* Check to see if we can avoid writing WAL
*
* If archive logging/streaming is not enabled *and* either
* - table was created in same transaction as this COPY
* - data is being written to relfilenode created in this transaction
* then we can skip writing WAL. It's safe because if the transaction
* doesn't commit, we'll discard the table (or the new relfilenode file).
* If it does commit, we'll have done the table_finish_bulk_insert() at
* the bottom of this routine first.
*
* As mentioned in comments in utils/rel.h, the in-same-transaction test
* is not always set correctly, since in rare cases rd_newRelfilenodeSubid
* can be cleared before the end of the transaction. The exact case is
* when a relation sets a new relfilenode twice in same transaction, yet
* the second one fails in an aborted subtransaction, e.g.
*
* BEGIN;
* TRUNCATE t;
* SAVEPOINT save;
* TRUNCATE t;
* ROLLBACK TO save;
* COPY ...
*
* Also, if the target file is new-in-transaction, we assume that checking
* FSM for free space is a waste of time, even if we must use WAL because
* of archiving. This could possibly be wrong, but it's unlikely.
*
* The comments for table_tuple_insert and RelationGetBufferForTuple
* specify that skipping WAL logging is only safe if we ensure that our
* tuples do not go into pages containing tuples from any other
* transactions --- but this must be the case if we have a new table or
* new relfilenode, so we need no additional work to enforce that.
*
* We currently don't support this optimization if the COPY target is a
* partitioned table as we currently only lazily initialize partition
* information when routing the first tuple to the partition. We cannot
* know at this stage if we can perform this optimization. It should be
* possible to improve on this, but it does mean maintaining heap insert
* option flags per partition and setting them when we first open the
* partition.
*
* This optimization is not supported for relation types which do not
* have any physical storage, with foreign tables and views using
* INSTEAD OF triggers entering in this category. Partitioned tables
* are not supported as per the description above.
*----------
*/
/* createSubid is creation check, newRelfilenodeSubid is truncation check */
if (RELKIND_HAS_STORAGE(cstate->rel->rd_rel->relkind) &&
(cstate->rel->rd_createSubid != InvalidSubTransactionId ||
cstate->rel->rd_newRelfilenodeSubid != InvalidSubTransactionId))
{
ti_options |= TABLE_INSERT_SKIP_FSM;
if (!XLogIsNeeded())
ti_options |= TABLE_INSERT_SKIP_WAL;
}
/*
* Optimize if new relfilenode was created in this subxact or one of its
* committed children and we won't see those rows later as part of an
* earlier scan or command. The subxact test ensures that if this subxact
* aborts then the frozen rows won't be visible after xact cleanup. Note
* that the stronger test of exactly which subtransaction created it is
* crucial for correctness of this optimization. The test for an earlier
* scan or command tolerates false negatives. FREEZE causes other sessions
* to see rows they would not see under MVCC, and a false negative merely
* spreads that anomaly to the current session.
*/
if (cstate->freeze)
{
/*
* We currently disallow COPY FREEZE on partitioned tables. The
* reason for this is that we've simply not yet opened the partitions
* to determine if the optimization can be applied to them. We could
* go and open them all here, but doing so may be quite a costly
* overhead for small copies. In any case, we may just end up routing
* tuples to a small number of partitions. It seems better just to
* raise an ERROR for partitioned tables.
*/
if (cstate->rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
{
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("cannot perform COPY FREEZE on a partitioned table")));
}
/*
* Tolerate one registration for the benefit of FirstXactSnapshot.
* Scan-bearing queries generally create at least two registrations,
* though relying on that is fragile, as is ignoring ActiveSnapshot.
* Clear CatalogSnapshot to avoid counting its registration. We'll
* still detect ongoing catalog scans, each of which separately
* registers the snapshot it uses.
*/
InvalidateCatalogSnapshot();
if (!ThereAreNoPriorRegisteredSnapshots() || !ThereAreNoReadyPortals())
ereport(ERROR,
(errcode(ERRCODE_INVALID_TRANSACTION_STATE),
errmsg("cannot perform COPY FREEZE because of prior transaction activity")));
if (cstate->rel->rd_createSubid != GetCurrentSubTransactionId() &&
cstate->rel->rd_newRelfilenodeSubid != GetCurrentSubTransactionId())
ereport(ERROR,
(errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
errmsg("cannot perform COPY FREEZE because the table was not created or truncated in the current subtransaction")));
ti_options |= TABLE_INSERT_FROZEN;
}
/*
* We need a ResultRelInfo so we can use the regular executor's
* index-entry-making machinery. (There used to be a huge amount of code
* here that basically duplicated execUtils.c ...)
*/
resultRelInfo = makeNode(ResultRelInfo);
InitResultRelInfo(resultRelInfo,
cstate->rel,
1, /* must match rel's position in range_table */
NULL,
0);
target_resultRelInfo = resultRelInfo;
/* Verify the named relation is a valid target for INSERT */
CheckValidResultRel(resultRelInfo, CMD_INSERT);
ExecOpenIndices(resultRelInfo, false);
estate->es_result_relations = resultRelInfo;
estate->es_num_result_relations = 1;
estate->es_result_relation_info = resultRelInfo;
ExecInitRangeTable(estate, cstate->range_table);
/*
* Set up a ModifyTableState so we can let FDW(s) init themselves for
* foreign-table result relation(s).
*/
mtstate = makeNode(ModifyTableState);
mtstate->ps.plan = NULL;
mtstate->ps.state = estate;
mtstate->operation = CMD_INSERT;
mtstate->resultRelInfo = estate->es_result_relations;
if (resultRelInfo->ri_FdwRoutine != NULL &&
resultRelInfo->ri_FdwRoutine->BeginForeignInsert != NULL)
resultRelInfo->ri_FdwRoutine->BeginForeignInsert(mtstate,
resultRelInfo);
/* Prepare to catch AFTER triggers. */
AfterTriggerBeginQuery();
/*
* If there are any triggers with transition tables on the named relation,
* we need to be prepared to capture transition tuples.
*
* Because partition tuple routing would like to know about whether
* transition capture is active, we also set it in mtstate, which is
* passed to ExecFindPartition() below.
*/
cstate->transition_capture = mtstate->mt_transition_capture =
MakeTransitionCaptureState(cstate->rel->trigdesc,
RelationGetRelid(cstate->rel),
CMD_INSERT);
/*
* If the named relation is a partitioned table, initialize state for
* CopyFrom tuple routing.
*/
if (cstate->rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
proute = ExecSetupPartitionTupleRouting(estate, NULL, cstate->rel);
if (cstate->whereClause)
cstate->qualexpr = ExecInitQual(castNode(List, cstate->whereClause),
&mtstate->ps);
/*
* It's generally more efficient to prepare a bunch of tuples for
* insertion, and insert them in one table_multi_insert() call, than call
* table_tuple_insert() separately for every tuple. However, there are a
* number of reasons why we might not be able to do this. These are
* explained below.
*/
if (resultRelInfo->ri_TrigDesc != NULL &&
(resultRelInfo->ri_TrigDesc->trig_insert_before_row ||
resultRelInfo->ri_TrigDesc->trig_insert_instead_row))
{
/*
* Can't support multi-inserts when there are any BEFORE/INSTEAD OF
* triggers on the table. Such triggers might query the table we're
* inserting into and act differently if the tuples that have already
* been processed and prepared for insertion are not there.
*/
insertMethod = CIM_SINGLE;
}
else if (proute != NULL && resultRelInfo->ri_TrigDesc != NULL &&
resultRelInfo->ri_TrigDesc->trig_insert_new_table)
{
/*
* For partitioned tables we can't support multi-inserts when there
* are any statement level insert triggers. It might be possible to
* allow partitioned tables with such triggers in the future, but for
* now, CopyMultiInsertInfoFlush expects that any before row insert
* and statement level insert triggers are on the same relation.
*/
insertMethod = CIM_SINGLE;
}
else if (resultRelInfo->ri_FdwRoutine != NULL ||
cstate->volatile_defexprs)
{
/*
* Can't support multi-inserts to foreign tables or if there are any
* volatile default expressions in the table. Similarly to the
* trigger case above, such expressions may query the table we're
* inserting into.
*
* Note: It does not matter if any partitions have any volatile
* default expressions as we use the defaults from the target of the
* COPY command.
*/
insertMethod = CIM_SINGLE;
}
else if (contain_volatile_functions(cstate->whereClause))
{
/*
* Can't support multi-inserts if there are any volatile function
* expressions in WHERE clause. Similarly to the trigger case above,
* such expressions may query the table we're inserting into.
*/
insertMethod = CIM_SINGLE;
}
else
{
/*
* For partitioned tables, we may still be able to perform bulk
* inserts. However, the possibility of this depends on which types
* of triggers exist on the partition. We must disable bulk inserts
* if the partition is a foreign table or it has any before row insert
* or insert instead triggers (same as we checked above for the parent
* table). Since the partition's resultRelInfos are initialized only
* when we actually need to insert the first tuple into them, we must
* have the intermediate insert method of CIM_MULTI_CONDITIONAL to
* flag that we must later determine if we can use bulk-inserts for
* the partition being inserted into.
*/
if (proute)
insertMethod = CIM_MULTI_CONDITIONAL;
else
insertMethod = CIM_MULTI;
CopyMultiInsertInfoInit(&multiInsertInfo, resultRelInfo, cstate,
estate, mycid, ti_options);
}
/*
* If not using batch mode (which allocates slots as needed) set up a
* tuple slot too. When inserting into a partitioned table, we also need
* one, even if we might batch insert, to read the tuple in the root
* partition's form.
*/
if (insertMethod == CIM_SINGLE || insertMethod == CIM_MULTI_CONDITIONAL)
{
singleslot = table_slot_create(resultRelInfo->ri_RelationDesc,
&estate->es_tupleTable);
bistate = GetBulkInsertState();
}
has_before_insert_row_trig = (resultRelInfo->ri_TrigDesc &&
resultRelInfo->ri_TrigDesc->trig_insert_before_row);
has_instead_insert_row_trig = (resultRelInfo->ri_TrigDesc &&
resultRelInfo->ri_TrigDesc->trig_insert_instead_row);
/*
* Check BEFORE STATEMENT insertion triggers. It's debatable whether we
* should do this for COPY, since it's not really an "INSERT" statement as
* such. However, executing these triggers maintains consistency with the
* EACH ROW triggers that we already fire on COPY.
*/
ExecBSInsertTriggers(estate, resultRelInfo);
econtext = GetPerTupleExprContext(estate);
/* Set up callback to identify error line number */
errcallback.callback = CopyFromErrorCallback;
errcallback.arg = (void *) cstate;
errcallback.previous = error_context_stack;
error_context_stack = &errcallback;
for (;;)
{
TupleTableSlot *myslot;
bool skip_tuple;
CHECK_FOR_INTERRUPTS();
/*
* Reset the per-tuple exprcontext. We do this after every tuple, to
* clean-up after expression evaluations etc.
*/
ResetPerTupleExprContext(estate);
/* select slot to (initially) load row into */
if (insertMethod == CIM_SINGLE || proute)
{
myslot = singleslot;
Assert(myslot != NULL);
}
else
{
Assert(resultRelInfo == target_resultRelInfo);
Assert(insertMethod == CIM_MULTI);
myslot = CopyMultiInsertInfoNextFreeSlot(&multiInsertInfo,
resultRelInfo);
}
/*
* Switch to per-tuple context before calling NextCopyFrom, which does
* evaluate default expressions etc. and requires per-tuple context.
*/
MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
ExecClearTuple(myslot);
/* Directly store the values/nulls array in the slot */
if (!NextCopyFrom(cstate, econtext, myslot->tts_values, myslot->tts_isnull))
break;
ExecStoreVirtualTuple(myslot);
/*
* Constraints and where clause might reference the tableoid column,
* so (re-)initialize tts_tableOid before evaluating them.
*/
myslot->tts_tableOid = RelationGetRelid(target_resultRelInfo->ri_RelationDesc);
/* Triggers and stuff need to be invoked in query context. */
MemoryContextSwitchTo(oldcontext);
if (cstate->whereClause)
{
econtext->ecxt_scantuple = myslot;
/* Skip items that don't match COPY's WHERE clause */
if (!ExecQual(cstate->qualexpr, econtext))
continue;
}
/* Determine the partition to insert the tuple into */
if (proute)
{
TupleConversionMap *map;
/*
* Attempt to find a partition suitable for this tuple.
* ExecFindPartition() will raise an error if none can be found or
* if the found partition is not suitable for INSERTs.
*/
resultRelInfo = ExecFindPartition(mtstate, target_resultRelInfo,
proute, myslot, estate);
if (prevResultRelInfo != resultRelInfo)
{
/* Determine which triggers exist on this partition */
has_before_insert_row_trig = (resultRelInfo->ri_TrigDesc &&
resultRelInfo->ri_TrigDesc->trig_insert_before_row);
has_instead_insert_row_trig = (resultRelInfo->ri_TrigDesc &&
resultRelInfo->ri_TrigDesc->trig_insert_instead_row);
/*
* Disable multi-inserts when the partition has BEFORE/INSTEAD
* OF triggers, or if the partition is a foreign partition.
*/
leafpart_use_multi_insert = insertMethod == CIM_MULTI_CONDITIONAL &&
!has_before_insert_row_trig &&
!has_instead_insert_row_trig &&
resultRelInfo->ri_FdwRoutine == NULL;
/* Set the multi-insert buffer to use for this partition. */
if (leafpart_use_multi_insert)
{
if (resultRelInfo->ri_CopyMultiInsertBuffer == NULL)
CopyMultiInsertInfoSetupBuffer(&multiInsertInfo,
resultRelInfo);
}
else if (insertMethod == CIM_MULTI_CONDITIONAL &&
!CopyMultiInsertInfoIsEmpty(&multiInsertInfo))
{
/*
* Flush pending inserts if this partition can't use
* batching, so rows are visible to triggers etc.
*/
CopyMultiInsertInfoFlush(&multiInsertInfo, resultRelInfo);
}
if (bistate != NULL)
ReleaseBulkInsertStatePin(bistate);
prevResultRelInfo = resultRelInfo;
}
/*
* For ExecInsertIndexTuples() to work on the partition's indexes
*/
estate->es_result_relation_info = resultRelInfo;
/*
* If we're capturing transition tuples, we might need to convert
* from the partition rowtype to root rowtype.
*/
if (cstate->transition_capture != NULL)
{
if (has_before_insert_row_trig)
{
/*
* If there are any BEFORE triggers on the partition,
* we'll have to be ready to convert their result back to
* tuplestore format.
*/
cstate->transition_capture->tcs_original_insert_tuple = NULL;
cstate->transition_capture->tcs_map =
resultRelInfo->ri_PartitionInfo->pi_PartitionToRootMap;
}
else
{
/*
* Otherwise, just remember the original unconverted
* tuple, to avoid a needless round trip conversion.
*/
cstate->transition_capture->tcs_original_insert_tuple = myslot;
cstate->transition_capture->tcs_map = NULL;
}
}
/*
* We might need to convert from the root rowtype to the partition
* rowtype.
*/
map = resultRelInfo->ri_PartitionInfo->pi_RootToPartitionMap;
if (insertMethod == CIM_SINGLE || !leafpart_use_multi_insert)
{
/* non batch insert */
if (map != NULL)
{
TupleTableSlot *new_slot;
new_slot = resultRelInfo->ri_PartitionInfo->pi_PartitionTupleSlot;
myslot = execute_attr_map_slot(map->attrMap, myslot, new_slot);
}
}
else
{
/*
* Prepare to queue up tuple for later batch insert into
* current partition.
*/
TupleTableSlot *batchslot;
/* no other path available for partitioned table */
Assert(insertMethod == CIM_MULTI_CONDITIONAL);
batchslot = CopyMultiInsertInfoNextFreeSlot(&multiInsertInfo,
resultRelInfo);
if (map != NULL)
myslot = execute_attr_map_slot(map->attrMap, myslot,
batchslot);
else
{
/*
* This looks more expensive than it is (Believe me, I
* optimized it away. Twice.). The input is in virtual
* form, and we'll materialize the slot below - for most
* slot types the copy performs the work materialization
* would later require anyway.
*/
ExecCopySlot(batchslot, myslot);
myslot = batchslot;
}
}
/* ensure that triggers etc see the right relation */
myslot->tts_tableOid = RelationGetRelid(resultRelInfo->ri_RelationDesc);
}
skip_tuple = false;
/* BEFORE ROW INSERT Triggers */
if (has_before_insert_row_trig)
{
if (!ExecBRInsertTriggers(estate, resultRelInfo, myslot))
skip_tuple = true; /* "do nothing" */
}
if (!skip_tuple)
{
/*
* If there is an INSTEAD OF INSERT ROW trigger, let it handle the
* tuple. Otherwise, proceed with inserting the tuple into the
* table or foreign table.
*/
if (has_instead_insert_row_trig)
{
ExecIRInsertTriggers(estate, resultRelInfo, myslot);
}
else
{
/* Compute stored generated columns */
if (resultRelInfo->ri_RelationDesc->rd_att->constr &&
resultRelInfo->ri_RelationDesc->rd_att->constr->has_generated_stored)
ExecComputeStoredGenerated(estate, myslot);
/*
* If the target is a plain table, check the constraints of
* the tuple.
*/
if (resultRelInfo->ri_FdwRoutine == NULL &&
resultRelInfo->ri_RelationDesc->rd_att->constr)
ExecConstraints(resultRelInfo, myslot, estate);
/*
* Also check the tuple against the partition constraint, if
* there is one; except that if we got here via tuple-routing,
* we don't need to if there's no BR trigger defined on the
* partition.
*/
if (resultRelInfo->ri_PartitionCheck &&
(proute == NULL || has_before_insert_row_trig))
ExecPartitionCheck(resultRelInfo, myslot, estate, true);
/* Store the slot in the multi-insert buffer, when enabled. */
if (insertMethod == CIM_MULTI || leafpart_use_multi_insert)
{
/*
* The slot previously might point into the per-tuple
* context. For batching it needs to be longer lived.
*/
ExecMaterializeSlot(myslot);
/* Add this tuple to the tuple buffer */
CopyMultiInsertInfoStore(&multiInsertInfo,
resultRelInfo, myslot,
cstate->line_buf.len,
cstate->cur_lineno);
/*
* If enough inserts have queued up, then flush all
* buffers out to their tables.
*/
if (CopyMultiInsertInfoIsFull(&multiInsertInfo))
CopyMultiInsertInfoFlush(&multiInsertInfo, resultRelInfo);
}
else
{
List *recheckIndexes = NIL;
/* OK, store the tuple */
if (resultRelInfo->ri_FdwRoutine != NULL)
{
myslot = resultRelInfo->ri_FdwRoutine->ExecForeignInsert(estate,
resultRelInfo,
myslot,
NULL);
if (myslot == NULL) /* "do nothing" */
continue; /* next tuple please */
/*
* AFTER ROW Triggers might reference the tableoid
* column, so (re-)initialize tts_tableOid before
* evaluating them.
*/
myslot->tts_tableOid = RelationGetRelid(resultRelInfo->ri_RelationDesc);
}
else
{
/* OK, store the tuple and create index entries for it */
table_tuple_insert(resultRelInfo->ri_RelationDesc,
myslot, mycid, ti_options, bistate);
if (resultRelInfo->ri_NumIndices > 0)
recheckIndexes = ExecInsertIndexTuples(myslot,
estate,
false,
NULL,
NIL);
}
/* AFTER ROW INSERT Triggers */
ExecARInsertTriggers(estate, resultRelInfo, myslot,
recheckIndexes, cstate->transition_capture);
list_free(recheckIndexes);
}
}
/*
* We count only tuples not suppressed by a BEFORE INSERT trigger
* or FDW; this is the same definition used by nodeModifyTable.c
* for counting tuples inserted by an INSERT command.
*/
processed++;
}
}
/* Flush any remaining buffered tuples */
if (insertMethod != CIM_SINGLE)
{
if (!CopyMultiInsertInfoIsEmpty(&multiInsertInfo))
CopyMultiInsertInfoFlush(&multiInsertInfo, NULL);
}
/* Done, clean up */
error_context_stack = errcallback.previous;
if (bistate != NULL)
FreeBulkInsertState(bistate);
MemoryContextSwitchTo(oldcontext);
/*
* In the old protocol, tell pqcomm that we can process normal protocol
* messages again.
*/
if (cstate->copy_dest == COPY_OLD_FE)
pq_endmsgread();
/* Execute AFTER STATEMENT insertion triggers */
ExecASInsertTriggers(estate, target_resultRelInfo, cstate->transition_capture);
/* Handle queued AFTER triggers */
AfterTriggerEndQuery(estate);
ExecResetTupleTable(estate->es_tupleTable, false);
/* Allow the FDW to shut down */
if (target_resultRelInfo->ri_FdwRoutine != NULL &&
target_resultRelInfo->ri_FdwRoutine->EndForeignInsert != NULL)
target_resultRelInfo->ri_FdwRoutine->EndForeignInsert(estate,
target_resultRelInfo);
/* Tear down the multi-insert buffer data */
if (insertMethod != CIM_SINGLE)
CopyMultiInsertInfoCleanup(&multiInsertInfo);
ExecCloseIndices(target_resultRelInfo);
/* Close all the partitioned tables, leaf partitions, and their indices */
if (proute)
ExecCleanupTupleRouting(mtstate, proute);
/* Close any trigger target relations */
ExecCleanUpTriggerState(estate);
FreeExecutorState(estate);
return processed;
}
/*
* Setup to read tuples from a file for COPY FROM.
*
* 'rel': Used as a template for the tuples
* 'filename': Name of server-local file to read
* 'attnamelist': List of char *, columns to include. NIL selects all cols.
* 'options': List of DefElem. See copy_opt_item in gram.y for selections.
*
* Returns a CopyState, to be passed to NextCopyFrom and related functions.
*/
CopyState
BeginCopyFrom(ParseState *pstate,
Relation rel,
const char *filename,
bool is_program,
copy_data_source_cb data_source_cb,
List *attnamelist,
List *options)
{
CopyState cstate;
bool pipe = (filename == NULL);
TupleDesc tupDesc;
AttrNumber num_phys_attrs,
num_defaults;
FmgrInfo *in_functions;
Oid *typioparams;
int attnum;
Oid in_func_oid;
int *defmap;
ExprState **defexprs;
MemoryContext oldcontext;
bool volatile_defexprs;
cstate = BeginCopy(pstate, true, rel, NULL, InvalidOid, attnamelist, options);
oldcontext = MemoryContextSwitchTo(cstate->copycontext);
/* Initialize state variables */
cstate->reached_eof = false;
cstate->eol_type = EOL_UNKNOWN;
cstate->cur_relname = RelationGetRelationName(cstate->rel);
cstate->cur_lineno = 0;
cstate->cur_attname = NULL;
cstate->cur_attval = NULL;
/* Set up variables to avoid per-attribute overhead. */
initStringInfo(&cstate->attribute_buf);
initStringInfo(&cstate->line_buf);
cstate->line_buf_converted = false;
cstate->raw_buf = (char *) palloc(RAW_BUF_SIZE + 1);
cstate->raw_buf_index = cstate->raw_buf_len = 0;
/* Assign range table, we'll need it in CopyFrom. */
if (pstate)
cstate->range_table = pstate->p_rtable;
tupDesc = RelationGetDescr(cstate->rel);
num_phys_attrs = tupDesc->natts;
num_defaults = 0;
volatile_defexprs = false;
/*
* Pick up the required catalog information for each attribute in the
* relation, including the input function, the element type (to pass to
* the input function), and info about defaults and constraints. (Which
* input function we use depends on text/binary format choice.)
*/
in_functions = (FmgrInfo *) palloc(num_phys_attrs * sizeof(FmgrInfo));
typioparams = (Oid *) palloc(num_phys_attrs * sizeof(Oid));
defmap = (int *) palloc(num_phys_attrs * sizeof(int));
defexprs = (ExprState **) palloc(num_phys_attrs * sizeof(ExprState *));
for (attnum = 1; attnum <= num_phys_attrs; attnum++)
{
Form_pg_attribute att = TupleDescAttr(tupDesc, attnum - 1);
/* We don't need info for dropped attributes */
if (att->attisdropped)
continue;
/* Fetch the input function and typioparam info */
if (cstate->binary)
getTypeBinaryInputInfo(att->atttypid,
&in_func_oid, &typioparams[attnum - 1]);
else
getTypeInputInfo(att->atttypid,
&in_func_oid, &typioparams[attnum - 1]);
fmgr_info(in_func_oid, &in_functions[attnum - 1]);
/* Get default info if needed */
if (!list_member_int(cstate->attnumlist, attnum) && !att->attgenerated)
{
/* attribute is NOT to be copied from input */
/* use default value if one exists */
Expr *defexpr = (Expr *) build_column_default(cstate->rel,
attnum);
if (defexpr != NULL)
{
/* Run the expression through planner */
defexpr = expression_planner(defexpr);
/* Initialize executable expression in copycontext */
defexprs[num_defaults] = ExecInitExpr(defexpr, NULL);
defmap[num_defaults] = attnum - 1;
num_defaults++;
/*
* If a default expression looks at the table being loaded,
* then it could give the wrong answer when using
* multi-insert. Since database access can be dynamic this is
* hard to test for exactly, so we use the much wider test of
* whether the default expression is volatile. We allow for
* the special case of when the default expression is the
* nextval() of a sequence which in this specific case is
* known to be safe for use with the multi-insert
* optimization. Hence we use this special case function
* checker rather than the standard check for
* contain_volatile_functions().
*/
if (!volatile_defexprs)
volatile_defexprs = contain_volatile_functions_not_nextval((Node *) defexpr);
}
}
}
/* We keep those variables in cstate. */
cstate->in_functions = in_functions;
cstate->typioparams = typioparams;
cstate->defmap = defmap;
cstate->defexprs = defexprs;
cstate->volatile_defexprs = volatile_defexprs;
cstate->num_defaults = num_defaults;
cstate->is_program = is_program;
if (data_source_cb)
{
cstate->copy_dest = COPY_CALLBACK;
cstate->data_source_cb = data_source_cb;
}
else if (pipe)
{
Assert(!is_program); /* the grammar does not allow this */
if (whereToSendOutput == DestRemote)
ReceiveCopyBegin(cstate);
else
cstate->copy_file = stdin;
}
else
{
cstate->filename = pstrdup(filename);
if (cstate->is_program)
{
cstate->copy_file = OpenPipeStream(cstate->filename, PG_BINARY_R);
if (cstate->copy_file == NULL)
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not execute command \"%s\": %m",
cstate->filename)));
}
else
{
struct stat st;
cstate->copy_file = AllocateFile(cstate->filename, PG_BINARY_R);
if (cstate->copy_file == NULL)
{
/* copy errno because ereport subfunctions might change it */
int save_errno = errno;
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not open file \"%s\" for reading: %m",
cstate->filename),
(save_errno == ENOENT || save_errno == EACCES) ?
errhint("COPY FROM instructs the PostgreSQL server process to read a file. "
"You may want a client-side facility such as psql's \\copy.") : 0));
}
if (fstat(fileno(cstate->copy_file), &st))
ereport(ERROR,
(errcode_for_file_access(),
errmsg("could not stat file \"%s\": %m",
cstate->filename)));
if (S_ISDIR(st.st_mode))
ereport(ERROR,
(errcode(ERRCODE_WRONG_OBJECT_TYPE),
errmsg("\"%s\" is a directory", cstate->filename)));
}
}
if (cstate->binary)
{
/* Read and verify binary header */
char readSig[11];
int32 tmp;
/* Signature */
if (CopyGetData(cstate, readSig, 11, 11) != 11 ||
memcmp(readSig, BinarySignature, 11) != 0)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("COPY file signature not recognized")));
/* Flags field */
if (!CopyGetInt32(cstate, &tmp))
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("invalid COPY file header (missing flags)")));
if ((tmp & (1 << 16)) != 0)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("invalid COPY file header (WITH OIDS)")));
tmp &= ~(1 << 16);
if ((tmp >> 16) != 0)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("unrecognized critical flags in COPY file header")));
/* Header extension length */
if (!CopyGetInt32(cstate, &tmp) ||
tmp < 0)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("invalid COPY file header (missing length)")));
/* Skip extension header, if present */
while (tmp-- > 0)
{
if (CopyGetData(cstate, readSig, 1, 1) != 1)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("invalid COPY file header (wrong length)")));
}
}
/* create workspace for CopyReadAttributes results */
if (!cstate->binary)
{
AttrNumber attr_count = list_length(cstate->attnumlist);
cstate->max_fields = attr_count;
cstate->raw_fields = (char **) palloc(attr_count * sizeof(char *));
}
MemoryContextSwitchTo(oldcontext);
return cstate;
}
/*
* Read raw fields in the next line for COPY FROM in text or csv mode.
* Return false if no more lines.
*
* An internal temporary buffer is returned via 'fields'. It is valid until
* the next call of the function. Since the function returns all raw fields
* in the input file, 'nfields' could be different from the number of columns
* in the relation.
*
* NOTE: force_not_null option are not applied to the returned fields.
*/
bool
NextCopyFromRawFields(CopyState cstate, char ***fields, int *nfields)
{
int fldct;
bool done;
/* only available for text or csv input */
Assert(!cstate->binary);
/* on input just throw the header line away */
if (cstate->cur_lineno == 0 && cstate->header_line)
{
cstate->cur_lineno++;
if (CopyReadLine(cstate))
return false; /* done */
}
cstate->cur_lineno++;
/* Actually read the line into memory here */
done = CopyReadLine(cstate);
/*
* EOF at start of line means we're done. If we see EOF after some
* characters, we act as though it was newline followed by EOF, ie,
* process the line and then exit loop on next iteration.
*/
if (done && cstate->line_buf.len == 0)
return false;
/* Parse the line into de-escaped field values */
if (cstate->csv_mode)
fldct = CopyReadAttributesCSV(cstate);
else
fldct = CopyReadAttributesText(cstate);
*fields = cstate->raw_fields;
*nfields = fldct;
return true;
}
/*
* Read next tuple from file for COPY FROM. Return false if no more tuples.
*
* 'econtext' is used to evaluate default expression for each columns not
* read from the file. It can be NULL when no default values are used, i.e.
* when all columns are read from the file.
*
* 'values' and 'nulls' arrays must be the same length as columns of the
* relation passed to BeginCopyFrom. This function fills the arrays.
* Oid of the tuple is returned with 'tupleOid' separately.
*/
bool
NextCopyFrom(CopyState cstate, ExprContext *econtext,
Datum *values, bool *nulls)
{
TupleDesc tupDesc;
AttrNumber num_phys_attrs,
attr_count,
num_defaults = cstate->num_defaults;
FmgrInfo *in_functions = cstate->in_functions;
Oid *typioparams = cstate->typioparams;
int i;
int *defmap = cstate->defmap;
ExprState **defexprs = cstate->defexprs;
tupDesc = RelationGetDescr(cstate->rel);
num_phys_attrs = tupDesc->natts;
attr_count = list_length(cstate->attnumlist);
/* Initialize all values for row to NULL */
MemSet(values, 0, num_phys_attrs * sizeof(Datum));
MemSet(nulls, true, num_phys_attrs * sizeof(bool));
if (!cstate->binary)
{
char **field_strings;
ListCell *cur;
int fldct;
int fieldno;
char *string;
/* read raw fields in the next line */
if (!NextCopyFromRawFields(cstate, &field_strings, &fldct))
return false;
/* check for overflowing fields */
if (attr_count > 0 && fldct > attr_count)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("extra data after last expected column")));
fieldno = 0;
/* Loop to read the user attributes on the line. */
foreach(cur, cstate->attnumlist)
{
int attnum = lfirst_int(cur);
int m = attnum - 1;
Form_pg_attribute att = TupleDescAttr(tupDesc, m);
if (fieldno >= fldct)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("missing data for column \"%s\"",
NameStr(att->attname))));
string = field_strings[fieldno++];
if (cstate->convert_select_flags &&
!cstate->convert_select_flags[m])
{
/* ignore input field, leaving column as NULL */
continue;
}
if (cstate->csv_mode)
{
if (string == NULL &&
cstate->force_notnull_flags[m])
{
/*
* FORCE_NOT_NULL option is set and column is NULL -
* convert it to the NULL string.
*/
string = cstate->null_print;
}
else if (string != NULL && cstate->force_null_flags[m]
&& strcmp(string, cstate->null_print) == 0)
{
/*
* FORCE_NULL option is set and column matches the NULL
* string. It must have been quoted, or otherwise the
* string would already have been set to NULL. Convert it
* to NULL as specified.
*/
string = NULL;
}
}
cstate->cur_attname = NameStr(att->attname);
cstate->cur_attval = string;
values[m] = InputFunctionCall(&in_functions[m],
string,
typioparams[m],
att->atttypmod);
if (string != NULL)
nulls[m] = false;
cstate->cur_attname = NULL;
cstate->cur_attval = NULL;
}
Assert(fieldno == attr_count);
}
else
{
/* binary */
int16 fld_count;
ListCell *cur;
cstate->cur_lineno++;
if (!CopyGetInt16(cstate, &fld_count))
{
/* EOF detected (end of file, or protocol-level EOF) */
return false;
}
if (fld_count == -1)
{
/*
* Received EOF marker. In a V3-protocol copy, wait for the
* protocol-level EOF, and complain if it doesn't come
* immediately. This ensures that we correctly handle CopyFail,
* if client chooses to send that now.
*
* Note that we MUST NOT try to read more data in an old-protocol
* copy, since there is no protocol-level EOF marker then. We
* could go either way for copy from file, but choose to throw
* error if there's data after the EOF marker, for consistency
* with the new-protocol case.
*/
char dummy;
if (cstate->copy_dest != COPY_OLD_FE &&
CopyGetData(cstate, &dummy, 1, 1) > 0)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("received copy data after EOF marker")));
return false;
}
if (fld_count != attr_count)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("row field count is %d, expected %d",
(int) fld_count, attr_count)));
i = 0;
foreach(cur, cstate->attnumlist)
{
int attnum = lfirst_int(cur);
int m = attnum - 1;
Form_pg_attribute att = TupleDescAttr(tupDesc, m);
cstate->cur_attname = NameStr(att->attname);
i++;
values[m] = CopyReadBinaryAttribute(cstate,
i,
&in_functions[m],
typioparams[m],
att->atttypmod,
&nulls[m]);
cstate->cur_attname = NULL;
}
}
/*
* Now compute and insert any defaults available for the columns not
* provided by the input data. Anything not processed here or above will
* remain NULL.
*/
for (i = 0; i < num_defaults; i++)
{
/*
* The caller must supply econtext and have switched into the
* per-tuple memory context in it.
*/
Assert(econtext != NULL);
Assert(CurrentMemoryContext == econtext->ecxt_per_tuple_memory);
values[defmap[i]] = ExecEvalExpr(defexprs[i], econtext,
&nulls[defmap[i]]);
}
return true;
}
/*
* Clean up storage and release resources for COPY FROM.
*/
void
EndCopyFrom(CopyState cstate)
{
/* No COPY FROM related resources except memory. */
EndCopy(cstate);
}
/*
* Read the next input line and stash it in line_buf, with conversion to
* server encoding.
*
* Result is true if read was terminated by EOF, false if terminated
* by newline. The terminating newline or EOF marker is not included
* in the final value of line_buf.
*/
static bool
CopyReadLine(CopyState cstate)
{
bool result;
resetStringInfo(&cstate->line_buf);
cstate->line_buf_valid = true;
/* Mark that encoding conversion hasn't occurred yet */
cstate->line_buf_converted = false;
/* Parse data and transfer into line_buf */
result = CopyReadLineText(cstate);
if (result)
{
/*
* Reached EOF. In protocol version 3, we should ignore anything
* after \. up to the protocol end of copy data. (XXX maybe better
* not to treat \. as special?)
*/
if (cstate->copy_dest == COPY_NEW_FE)
{
do
{
cstate->raw_buf_index = cstate->raw_buf_len;
} while (CopyLoadRawBuf(cstate));
}
}
else
{
/*
* If we didn't hit EOF, then we must have transferred the EOL marker
* to line_buf along with the data. Get rid of it.
*/
switch (cstate->eol_type)
{
case EOL_NL:
Assert(cstate->line_buf.len >= 1);
Assert(cstate->line_buf.data[cstate->line_buf.len - 1] == '\n');
cstate->line_buf.len--;
cstate->line_buf.data[cstate->line_buf.len] = '\0';
break;
case EOL_CR:
Assert(cstate->line_buf.len >= 1);
Assert(cstate->line_buf.data[cstate->line_buf.len - 1] == '\r');
cstate->line_buf.len--;
cstate->line_buf.data[cstate->line_buf.len] = '\0';
break;
case EOL_CRNL:
Assert(cstate->line_buf.len >= 2);
Assert(cstate->line_buf.data[cstate->line_buf.len - 2] == '\r');
Assert(cstate->line_buf.data[cstate->line_buf.len - 1] == '\n');
cstate->line_buf.len -= 2;
cstate->line_buf.data[cstate->line_buf.len] = '\0';
break;
case EOL_UNKNOWN:
/* shouldn't get here */
Assert(false);
break;
}
}
/* Done reading the line. Convert it to server encoding. */
if (cstate->need_transcoding)
{
char *cvt;
cvt = pg_any_to_server(cstate->line_buf.data,
cstate->line_buf.len,
cstate->file_encoding);
if (cvt != cstate->line_buf.data)
{
/* transfer converted data back to line_buf */
resetStringInfo(&cstate->line_buf);
appendBinaryStringInfo(&cstate->line_buf, cvt, strlen(cvt));
pfree(cvt);
}
}
/* Now it's safe to use the buffer in error messages */
cstate->line_buf_converted = true;
return result;
}
/*
* CopyReadLineText - inner loop of CopyReadLine for text mode
*/
static bool
CopyReadLineText(CopyState cstate)
{
char *copy_raw_buf;
int raw_buf_ptr;
int copy_buf_len;
bool need_data = false;
bool hit_eof = false;
bool result = false;
char mblen_str[2];
/* CSV variables */
bool first_char_in_line = true;
bool in_quote = false,
last_was_esc = false;
char quotec = '\0';
char escapec = '\0';
if (cstate->csv_mode)
{
quotec = cstate->quote[0];
escapec = cstate->escape[0];
/* ignore special escape processing if it's the same as quotec */
if (quotec == escapec)
escapec = '\0';
}
mblen_str[1] = '\0';
/*
* The objective of this loop is to transfer the entire next input line
* into line_buf. Hence, we only care for detecting newlines (\r and/or
* \n) and the end-of-copy marker (\.).
*
* In CSV mode, \r and \n inside a quoted field are just part of the data
* value and are put in line_buf. We keep just enough state to know if we
* are currently in a quoted field or not.
*
* These four characters, and the CSV escape and quote characters, are
* assumed the same in frontend and backend encodings.
*
* For speed, we try to move data from raw_buf to line_buf in chunks
* rather than one character at a time. raw_buf_ptr points to the next
* character to examine; any characters from raw_buf_index to raw_buf_ptr
* have been determined to be part of the line, but not yet transferred to
* line_buf.
*
* For a little extra speed within the loop, we copy raw_buf and
* raw_buf_len into local variables.
*/
copy_raw_buf = cstate->raw_buf;
raw_buf_ptr = cstate->raw_buf_index;
copy_buf_len = cstate->raw_buf_len;
for (;;)
{
int prev_raw_ptr;
char c;
/*
* Load more data if needed. Ideally we would just force four bytes
* of read-ahead and avoid the many calls to
* IF_NEED_REFILL_AND_NOT_EOF_CONTINUE(), but the COPY_OLD_FE protocol
* does not allow us to read too far ahead or we might read into the
* next data, so we read-ahead only as far we know we can. One
* optimization would be to read-ahead four byte here if
* cstate->copy_dest != COPY_OLD_FE, but it hardly seems worth it,
* considering the size of the buffer.
*/
if (raw_buf_ptr >= copy_buf_len || need_data)
{
REFILL_LINEBUF;
/*
* Try to read some more data. This will certainly reset
* raw_buf_index to zero, and raw_buf_ptr must go with it.
*/
if (!CopyLoadRawBuf(cstate))
hit_eof = true;
raw_buf_ptr = 0;
copy_buf_len = cstate->raw_buf_len;
/*
* If we are completely out of data, break out of the loop,
* reporting EOF.
*/
if (copy_buf_len <= 0)
{
result = true;
break;
}
need_data = false;
}
/* OK to fetch a character */
prev_raw_ptr = raw_buf_ptr;
c = copy_raw_buf[raw_buf_ptr++];
if (cstate->csv_mode)
{
/*
* If character is '\\' or '\r', we may need to look ahead below.
* Force fetch of the next character if we don't already have it.
* We need to do this before changing CSV state, in case one of
* these characters is also the quote or escape character.
*
* Note: old-protocol does not like forced prefetch, but it's OK
* here since we cannot validly be at EOF.
*/
if (c == '\\' || c == '\r')
{
IF_NEED_REFILL_AND_NOT_EOF_CONTINUE(0);
}
/*
* Dealing with quotes and escapes here is mildly tricky. If the
* quote char is also the escape char, there's no problem - we
* just use the char as a toggle. If they are different, we need
* to ensure that we only take account of an escape inside a
* quoted field and immediately preceding a quote char, and not
* the second in an escape-escape sequence.
*/
if (in_quote && c == escapec)
last_was_esc = !last_was_esc;
if (c == quotec && !last_was_esc)
in_quote = !in_quote;
if (c != escapec)
last_was_esc = false;
/*
* Updating the line count for embedded CR and/or LF chars is
* necessarily a little fragile - this test is probably about the
* best we can do. (XXX it's arguable whether we should do this
* at all --- is cur_lineno a physical or logical count?)
*/
if (in_quote && c == (cstate->eol_type == EOL_NL ? '\n' : '\r'))
cstate->cur_lineno++;
}
/* Process \r */
if (c == '\r' && (!cstate->csv_mode || !in_quote))
{
/* Check for \r\n on first line, _and_ handle \r\n. */
if (cstate->eol_type == EOL_UNKNOWN ||
cstate->eol_type == EOL_CRNL)
{
/*
* If need more data, go back to loop top to load it.
*
* Note that if we are at EOF, c will wind up as '\0' because
* of the guaranteed pad of raw_buf.
*/
IF_NEED_REFILL_AND_NOT_EOF_CONTINUE(0);
/* get next char */
c = copy_raw_buf[raw_buf_ptr];
if (c == '\n')
{
raw_buf_ptr++; /* eat newline */
cstate->eol_type = EOL_CRNL; /* in case not set yet */
}
else
{
/* found \r, but no \n */
if (cstate->eol_type == EOL_CRNL)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
!cstate->csv_mode ?
errmsg("literal carriage return found in data") :
errmsg("unquoted carriage return found in data"),
!cstate->csv_mode ?
errhint("Use \"\\r\" to represent carriage return.") :
errhint("Use quoted CSV field to represent carriage return.")));
/*
* if we got here, it is the first line and we didn't find
* \n, so don't consume the peeked character
*/
cstate->eol_type = EOL_CR;
}
}
else if (cstate->eol_type == EOL_NL)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
!cstate->csv_mode ?
errmsg("literal carriage return found in data") :
errmsg("unquoted carriage return found in data"),
!cstate->csv_mode ?
errhint("Use \"\\r\" to represent carriage return.") :
errhint("Use quoted CSV field to represent carriage return.")));
/* If reach here, we have found the line terminator */
break;
}
/* Process \n */
if (c == '\n' && (!cstate->csv_mode || !in_quote))
{
if (cstate->eol_type == EOL_CR || cstate->eol_type == EOL_CRNL)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
!cstate->csv_mode ?
errmsg("literal newline found in data") :
errmsg("unquoted newline found in data"),
!cstate->csv_mode ?
errhint("Use \"\\n\" to represent newline.") :
errhint("Use quoted CSV field to represent newline.")));
cstate->eol_type = EOL_NL; /* in case not set yet */
/* If reach here, we have found the line terminator */
break;
}
/*
* In CSV mode, we only recognize \. alone on a line. This is because
* \. is a valid CSV data value.
*/
if (c == '\\' && (!cstate->csv_mode || first_char_in_line))
{
char c2;
IF_NEED_REFILL_AND_NOT_EOF_CONTINUE(0);
IF_NEED_REFILL_AND_EOF_BREAK(0);
/* -----
* get next character
* Note: we do not change c so if it isn't \., we can fall
* through and continue processing for file encoding.
* -----
*/
c2 = copy_raw_buf[raw_buf_ptr];
if (c2 == '.')
{
raw_buf_ptr++; /* consume the '.' */
/*
* Note: if we loop back for more data here, it does not
* matter that the CSV state change checks are re-executed; we
* will come back here with no important state changed.
*/
if (cstate->eol_type == EOL_CRNL)
{
/* Get the next character */
IF_NEED_REFILL_AND_NOT_EOF_CONTINUE(0);
/* if hit_eof, c2 will become '\0' */
c2 = copy_raw_buf[raw_buf_ptr++];
if (c2 == '\n')
{
if (!cstate->csv_mode)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("end-of-copy marker does not match previous newline style")));
else
NO_END_OF_COPY_GOTO;
}
else if (c2 != '\r')
{
if (!cstate->csv_mode)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("end-of-copy marker corrupt")));
else
NO_END_OF_COPY_GOTO;
}
}
/* Get the next character */
IF_NEED_REFILL_AND_NOT_EOF_CONTINUE(0);
/* if hit_eof, c2 will become '\0' */
c2 = copy_raw_buf[raw_buf_ptr++];
if (c2 != '\r' && c2 != '\n')
{
if (!cstate->csv_mode)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("end-of-copy marker corrupt")));
else
NO_END_OF_COPY_GOTO;
}
if ((cstate->eol_type == EOL_NL && c2 != '\n') ||
(cstate->eol_type == EOL_CRNL && c2 != '\n') ||
(cstate->eol_type == EOL_CR && c2 != '\r'))
{
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("end-of-copy marker does not match previous newline style")));
}
/*
* Transfer only the data before the \. into line_buf, then
* discard the data and the \. sequence.
*/
if (prev_raw_ptr > cstate->raw_buf_index)
appendBinaryStringInfo(&cstate->line_buf,
cstate->raw_buf + cstate->raw_buf_index,
prev_raw_ptr - cstate->raw_buf_index);
cstate->raw_buf_index = raw_buf_ptr;
result = true; /* report EOF */
break;
}
else if (!cstate->csv_mode)
/*
* If we are here, it means we found a backslash followed by
* something other than a period. In non-CSV mode, anything
* after a backslash is special, so we skip over that second
* character too. If we didn't do that \\. would be
* considered an eof-of copy, while in non-CSV mode it is a
* literal backslash followed by a period. In CSV mode,
* backslashes are not special, so we want to process the
* character after the backslash just like a normal character,
* so we don't increment in those cases.
*/
raw_buf_ptr++;
}
/*
* This label is for CSV cases where \. appears at the start of a
* line, but there is more text after it, meaning it was a data value.
* We are more strict for \. in CSV mode because \. could be a data
* value, while in non-CSV mode, \. cannot be a data value.
*/
not_end_of_copy:
/*
* Process all bytes of a multi-byte character as a group.
*
* We only support multi-byte sequences where the first byte has the
* high-bit set, so as an optimization we can avoid this block
* entirely if it is not set.
*/
if (cstate->encoding_embeds_ascii && IS_HIGHBIT_SET(c))
{
int mblen;
/*
* It is enough to look at the first byte in all our encodings, to
* get the length. (GB18030 is a bit special, but still works for
* our purposes; see comment in pg_gb18030_mblen())
*/
mblen_str[0] = c;
mblen = pg_encoding_mblen(cstate->file_encoding, mblen_str);
IF_NEED_REFILL_AND_NOT_EOF_CONTINUE(mblen - 1);
IF_NEED_REFILL_AND_EOF_BREAK(mblen - 1);
raw_buf_ptr += mblen - 1;
}
first_char_in_line = false;
} /* end of outer loop */
/*
* Transfer any still-uncopied data to line_buf.
*/
REFILL_LINEBUF;
return result;
}
/*
* Return decimal value for a hexadecimal digit
*/
static int
GetDecimalFromHex(char hex)
{
if (isdigit((unsigned char) hex))
return hex - '0';
else
return tolower((unsigned char) hex) - 'a' + 10;
}
/*
* Parse the current line into separate attributes (fields),
* performing de-escaping as needed.
*
* The input is in line_buf. We use attribute_buf to hold the result
* strings. cstate->raw_fields[k] is set to point to the k'th attribute
* string, or NULL when the input matches the null marker string.
* This array is expanded as necessary.
*
* (Note that the caller cannot check for nulls since the returned
* string would be the post-de-escaping equivalent, which may look
* the same as some valid data string.)
*
* delim is the column delimiter string (must be just one byte for now).
* null_print is the null marker string. Note that this is compared to
* the pre-de-escaped input string.
*
* The return value is the number of fields actually read.
*/
static int
CopyReadAttributesText(CopyState cstate)
{
char delimc = cstate->delim[0];
int fieldno;
char *output_ptr;
char *cur_ptr;
char *line_end_ptr;
/*
* We need a special case for zero-column tables: check that the input
* line is empty, and return.
*/
if (cstate->max_fields <= 0)
{
if (cstate->line_buf.len != 0)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("extra data after last expected column")));
return 0;
}
resetStringInfo(&cstate->attribute_buf);
/*
* The de-escaped attributes will certainly not be longer than the input
* data line, so we can just force attribute_buf to be large enough and
* then transfer data without any checks for enough space. We need to do
* it this way because enlarging attribute_buf mid-stream would invalidate
* pointers already stored into cstate->raw_fields[].
*/
if (cstate->attribute_buf.maxlen <= cstate->line_buf.len)
enlargeStringInfo(&cstate->attribute_buf, cstate->line_buf.len);
output_ptr = cstate->attribute_buf.data;
/* set pointer variables for loop */
cur_ptr = cstate->line_buf.data;
line_end_ptr = cstate->line_buf.data + cstate->line_buf.len;
/* Outer loop iterates over fields */
fieldno = 0;
for (;;)
{
bool found_delim = false;
char *start_ptr;
char *end_ptr;
int input_len;
bool saw_non_ascii = false;
/* Make sure there is enough space for the next value */
if (fieldno >= cstate->max_fields)
{
cstate->max_fields *= 2;
cstate->raw_fields =
repalloc(cstate->raw_fields, cstate->max_fields * sizeof(char *));
}
/* Remember start of field on both input and output sides */
start_ptr = cur_ptr;
cstate->raw_fields[fieldno] = output_ptr;
/*
* Scan data for field.
*
* Note that in this loop, we are scanning to locate the end of field
* and also speculatively performing de-escaping. Once we find the
* end-of-field, we can match the raw field contents against the null
* marker string. Only after that comparison fails do we know that
* de-escaping is actually the right thing to do; therefore we *must
* not* throw any syntax errors before we've done the null-marker
* check.
*/
for (;;)
{
char c;
end_ptr = cur_ptr;
if (cur_ptr >= line_end_ptr)
break;
c = *cur_ptr++;
if (c == delimc)
{
found_delim = true;
break;
}
if (c == '\\')
{
if (cur_ptr >= line_end_ptr)
break;
c = *cur_ptr++;
switch (c)
{
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
{
/* handle \013 */
int val;
val = OCTVALUE(c);
if (cur_ptr < line_end_ptr)
{
c = *cur_ptr;
if (ISOCTAL(c))
{
cur_ptr++;
val = (val << 3) + OCTVALUE(c);
if (cur_ptr < line_end_ptr)
{
c = *cur_ptr;
if (ISOCTAL(c))
{
cur_ptr++;
val = (val << 3) + OCTVALUE(c);
}
}
}
}
c = val & 0377;
if (c == '\0' || IS_HIGHBIT_SET(c))
saw_non_ascii = true;
}
break;
case 'x':
/* Handle \x3F */
if (cur_ptr < line_end_ptr)
{
char hexchar = *cur_ptr;
if (isxdigit((unsigned char) hexchar))
{
int val = GetDecimalFromHex(hexchar);
cur_ptr++;
if (cur_ptr < line_end_ptr)
{
hexchar = *cur_ptr;
if (isxdigit((unsigned char) hexchar))
{
cur_ptr++;
val = (val << 4) + GetDecimalFromHex(hexchar);
}
}
c = val & 0xff;
if (c == '\0' || IS_HIGHBIT_SET(c))
saw_non_ascii = true;
}
}
break;
case 'b':
c = '\b';
break;
case 'f':
c = '\f';
break;
case 'n':
c = '\n';
break;
case 'r':
c = '\r';
break;
case 't':
c = '\t';
break;
case 'v':
c = '\v';
break;
/*
* in all other cases, take the char after '\'
* literally
*/
}
}
/* Add c to output string */
*output_ptr++ = c;
}
/* Check whether raw input matched null marker */
input_len = end_ptr - start_ptr;
if (input_len == cstate->null_print_len &&
strncmp(start_ptr, cstate->null_print, input_len) == 0)
cstate->raw_fields[fieldno] = NULL;
else
{
/*
* At this point we know the field is supposed to contain data.
*
* If we de-escaped any non-7-bit-ASCII chars, make sure the
* resulting string is valid data for the db encoding.
*/
if (saw_non_ascii)
{
char *fld = cstate->raw_fields[fieldno];
pg_verifymbstr(fld, output_ptr - fld, false);
}
}
/* Terminate attribute value in output area */
*output_ptr++ = '\0';
fieldno++;
/* Done if we hit EOL instead of a delim */
if (!found_delim)
break;
}
/* Clean up state of attribute_buf */
output_ptr--;
Assert(*output_ptr == '\0');
cstate->attribute_buf.len = (output_ptr - cstate->attribute_buf.data);
return fieldno;
}
/*
* Parse the current line into separate attributes (fields),
* performing de-escaping as needed. This has exactly the same API as
* CopyReadAttributesText, except we parse the fields according to
* "standard" (i.e. common) CSV usage.
*/
static int
CopyReadAttributesCSV(CopyState cstate)
{
char delimc = cstate->delim[0];
char quotec = cstate->quote[0];
char escapec = cstate->escape[0];
int fieldno;
char *output_ptr;
char *cur_ptr;
char *line_end_ptr;
/*
* We need a special case for zero-column tables: check that the input
* line is empty, and return.
*/
if (cstate->max_fields <= 0)
{
if (cstate->line_buf.len != 0)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("extra data after last expected column")));
return 0;
}
resetStringInfo(&cstate->attribute_buf);
/*
* The de-escaped attributes will certainly not be longer than the input
* data line, so we can just force attribute_buf to be large enough and
* then transfer data without any checks for enough space. We need to do
* it this way because enlarging attribute_buf mid-stream would invalidate
* pointers already stored into cstate->raw_fields[].
*/
if (cstate->attribute_buf.maxlen <= cstate->line_buf.len)
enlargeStringInfo(&cstate->attribute_buf, cstate->line_buf.len);
output_ptr = cstate->attribute_buf.data;
/* set pointer variables for loop */
cur_ptr = cstate->line_buf.data;
line_end_ptr = cstate->line_buf.data + cstate->line_buf.len;
/* Outer loop iterates over fields */
fieldno = 0;
for (;;)
{
bool found_delim = false;
bool saw_quote = false;
char *start_ptr;
char *end_ptr;
int input_len;
/* Make sure there is enough space for the next value */
if (fieldno >= cstate->max_fields)
{
cstate->max_fields *= 2;
cstate->raw_fields =
repalloc(cstate->raw_fields, cstate->max_fields * sizeof(char *));
}
/* Remember start of field on both input and output sides */
start_ptr = cur_ptr;
cstate->raw_fields[fieldno] = output_ptr;
/*
* Scan data for field,
*
* The loop starts in "not quote" mode and then toggles between that
* and "in quote" mode. The loop exits normally if it is in "not
* quote" mode and a delimiter or line end is seen.
*/
for (;;)
{
char c;
/* Not in quote */
for (;;)
{
end_ptr = cur_ptr;
if (cur_ptr >= line_end_ptr)
goto endfield;
c = *cur_ptr++;
/* unquoted field delimiter */
if (c == delimc)
{
found_delim = true;
goto endfield;
}
/* start of quoted field (or part of field) */
if (c == quotec)
{
saw_quote = true;
break;
}
/* Add c to output string */
*output_ptr++ = c;
}
/* In quote */
for (;;)
{
end_ptr = cur_ptr;
if (cur_ptr >= line_end_ptr)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("unterminated CSV quoted field")));
c = *cur_ptr++;
/* escape within a quoted field */
if (c == escapec)
{
/*
* peek at the next char if available, and escape it if it
* is an escape char or a quote char
*/
if (cur_ptr < line_end_ptr)
{
char nextc = *cur_ptr;
if (nextc == escapec || nextc == quotec)
{
*output_ptr++ = nextc;
cur_ptr++;
continue;
}
}
}
/*
* end of quoted field. Must do this test after testing for
* escape in case quote char and escape char are the same
* (which is the common case).
*/
if (c == quotec)
break;
/* Add c to output string */
*output_ptr++ = c;
}
}
endfield:
/* Terminate attribute value in output area */
*output_ptr++ = '\0';
/* Check whether raw input matched null marker */
input_len = end_ptr - start_ptr;
if (!saw_quote && input_len == cstate->null_print_len &&
strncmp(start_ptr, cstate->null_print, input_len) == 0)
cstate->raw_fields[fieldno] = NULL;
fieldno++;
/* Done if we hit EOL instead of a delim */
if (!found_delim)
break;
}
/* Clean up state of attribute_buf */
output_ptr--;
Assert(*output_ptr == '\0');
cstate->attribute_buf.len = (output_ptr - cstate->attribute_buf.data);
return fieldno;
}
/*
* Read a binary attribute
*/
static Datum
CopyReadBinaryAttribute(CopyState cstate,
int column_no, FmgrInfo *flinfo,
Oid typioparam, int32 typmod,
bool *isnull)
{
int32 fld_size;
Datum result;
if (!CopyGetInt32(cstate, &fld_size))
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("unexpected EOF in COPY data")));
if (fld_size == -1)
{
*isnull = true;
return ReceiveFunctionCall(flinfo, NULL, typioparam, typmod);
}
if (fld_size < 0)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("invalid field size")));
/* reset attribute_buf to empty, and load raw data in it */
resetStringInfo(&cstate->attribute_buf);
enlargeStringInfo(&cstate->attribute_buf, fld_size);
if (CopyGetData(cstate, cstate->attribute_buf.data,
fld_size, fld_size) != fld_size)
ereport(ERROR,
(errcode(ERRCODE_BAD_COPY_FILE_FORMAT),
errmsg("unexpected EOF in COPY data")));
cstate->attribute_buf.len = fld_size;
cstate->attribute_buf.data[fld_size] = '\0';
/* Call the column type's binary input converter */
result = ReceiveFunctionCall(flinfo, &cstate->attribute_buf,
typioparam, typmod);
/* Trouble if it didn't eat the whole buffer */
if (cstate->attribute_buf.cursor != cstate->attribute_buf.len)
ereport(ERROR,
(errcode(ERRCODE_INVALID_BINARY_REPRESENTATION),
errmsg("incorrect binary data format")));
*isnull = false;
return result;
}
/*
* Send text representation of one attribute, with conversion and escaping
*/
#define DUMPSOFAR() \
do { \
if (ptr > start) \
CopySendData(cstate, start, ptr - start); \
} while (0)
static void
CopyAttributeOutText(CopyState cstate, char *string)
{
char *ptr;
char *start;
char c;
char delimc = cstate->delim[0];
if (cstate->need_transcoding)
ptr = pg_server_to_any(string, strlen(string), cstate->file_encoding);
else
ptr = string;
/*
* We have to grovel through the string searching for control characters
* and instances of the delimiter character. In most cases, though, these
* are infrequent. To avoid overhead from calling CopySendData once per
* character, we dump out all characters between escaped characters in a
* single call. The loop invariant is that the data from "start" to "ptr"
* can be sent literally, but hasn't yet been.
*
* We can skip pg_encoding_mblen() overhead when encoding is safe, because
* in valid backend encodings, extra bytes of a multibyte character never
* look like ASCII. This loop is sufficiently performance-critical that
* it's worth making two copies of it to get the IS_HIGHBIT_SET() test out
* of the normal safe-encoding path.
*/
if (cstate->encoding_embeds_ascii)
{
start = ptr;
while ((c = *ptr) != '\0')
{
if ((unsigned char) c < (unsigned char) 0x20)
{
/*
* \r and \n must be escaped, the others are traditional. We
* prefer to dump these using the C-like notation, rather than
* a backslash and the literal character, because it makes the
* dump file a bit more proof against Microsoftish data
* mangling.
*/
switch (c)
{
case '\b':
c = 'b';
break;
case '\f':
c = 'f';
break;
case '\n':
c = 'n';
break;
case '\r':
c = 'r';
break;
case '\t':
c = 't';
break;
case '\v':
c = 'v';
break;
default:
/* If it's the delimiter, must backslash it */
if (c == delimc)
break;
/* All ASCII control chars are length 1 */
ptr++;
continue; /* fall to end of loop */
}
/* if we get here, we need to convert the control char */
DUMPSOFAR();
CopySendChar(cstate, '\\');
CopySendChar(cstate, c);
start = ++ptr; /* do not include char in next run */
}
else if (c == '\\' || c == delimc)
{
DUMPSOFAR();
CopySendChar(cstate, '\\');
start = ptr++; /* we include char in next run */
}
else if (IS_HIGHBIT_SET(c))
ptr += pg_encoding_mblen(cstate->file_encoding, ptr);
else
ptr++;
}
}
else
{
start = ptr;
while ((c = *ptr) != '\0')
{
if ((unsigned char) c < (unsigned char) 0x20)
{
/*
* \r and \n must be escaped, the others are traditional. We
* prefer to dump these using the C-like notation, rather than
* a backslash and the literal character, because it makes the
* dump file a bit more proof against Microsoftish data
* mangling.
*/
switch (c)
{
case '\b':
c = 'b';
break;
case '\f':
c = 'f';
break;
case '\n':
c = 'n';
break;
case '\r':
c = 'r';
break;
case '\t':
c = 't';
break;
case '\v':
c = 'v';
break;
default:
/* If it's the delimiter, must backslash it */
if (c == delimc)
break;
/* All ASCII control chars are length 1 */
ptr++;
continue; /* fall to end of loop */
}
/* if we get here, we need to convert the control char */
DUMPSOFAR();
CopySendChar(cstate, '\\');
CopySendChar(cstate, c);
start = ++ptr; /* do not include char in next run */
}
else if (c == '\\' || c == delimc)
{
DUMPSOFAR();
CopySendChar(cstate, '\\');
start = ptr++; /* we include char in next run */
}
else
ptr++;
}
}
DUMPSOFAR();
}
/*
* Send text representation of one attribute, with conversion and
* CSV-style escaping
*/
static void
CopyAttributeOutCSV(CopyState cstate, char *string,
bool use_quote, bool single_attr)
{
char *ptr;
char *start;
char c;
char delimc = cstate->delim[0];
char quotec = cstate->quote[0];
char escapec = cstate->escape[0];
/* force quoting if it matches null_print (before conversion!) */
if (!use_quote && strcmp(string, cstate->null_print) == 0)
use_quote = true;
if (cstate->need_transcoding)
ptr = pg_server_to_any(string, strlen(string), cstate->file_encoding);
else
ptr = string;
/*
* Make a preliminary pass to discover if it needs quoting
*/
if (!use_quote)
{
/*
* Because '\.' can be a data value, quote it if it appears alone on a
* line so it is not interpreted as the end-of-data marker.
*/
if (single_attr && strcmp(ptr, "\\.") == 0)
use_quote = true;
else
{
char *tptr = ptr;
while ((c = *tptr) != '\0')
{
if (c == delimc || c == quotec || c == '\n' || c == '\r')
{
use_quote = true;
break;
}
if (IS_HIGHBIT_SET(c) && cstate->encoding_embeds_ascii)
tptr += pg_encoding_mblen(cstate->file_encoding, tptr);
else
tptr++;
}
}
}
if (use_quote)
{
CopySendChar(cstate, quotec);
/*
* We adopt the same optimization strategy as in CopyAttributeOutText
*/
start = ptr;
while ((c = *ptr) != '\0')
{
if (c == quotec || c == escapec)
{
DUMPSOFAR();
CopySendChar(cstate, escapec);
start = ptr; /* we include char in next run */
}
if (IS_HIGHBIT_SET(c) && cstate->encoding_embeds_ascii)
ptr += pg_encoding_mblen(cstate->file_encoding, ptr);
else
ptr++;
}
DUMPSOFAR();
CopySendChar(cstate, quotec);
}
else
{
/* If it doesn't need quoting, we can just dump it as-is */
CopySendString(cstate, ptr);
}
}
/*
* CopyGetAttnums - build an integer list of attnums to be copied
*
* The input attnamelist is either the user-specified column list,
* or NIL if there was none (in which case we want all the non-dropped
* columns).
*
* We don't include generated columns in the generated full list and we don't
* allow them to be specified explicitly. They don't make sense for COPY
* FROM, but we could possibly allow them for COPY TO. But this way it's at
* least ensured that whatever we copy out can be copied back in.
*
* rel can be NULL ... it's only used for error reports.
*/
static List *
CopyGetAttnums(TupleDesc tupDesc, Relation rel, List *attnamelist)
{
List *attnums = NIL;
if (attnamelist == NIL)
{
/* Generate default column list */
int attr_count = tupDesc->natts;
int i;
for (i = 0; i < attr_count; i++)
{
if (TupleDescAttr(tupDesc, i)->attisdropped)
continue;
if (TupleDescAttr(tupDesc, i)->attgenerated)
continue;
attnums = lappend_int(attnums, i + 1);
}
}
else
{
/* Validate the user-supplied list and extract attnums */
ListCell *l;
foreach(l, attnamelist)
{
char *name = strVal(lfirst(l));
int attnum;
int i;
/* Lookup column name */
attnum = InvalidAttrNumber;
for (i = 0; i < tupDesc->natts; i++)
{
Form_pg_attribute att = TupleDescAttr(tupDesc, i);
if (att->attisdropped)
continue;
if (namestrcmp(&(att->attname), name) == 0)
{
if (att->attgenerated)
ereport(ERROR,
(errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
errmsg("column \"%s\" is a generated column",
name),
errdetail("Generated columns cannot be used in COPY.")));
attnum = att->attnum;
break;
}
}
if (attnum == InvalidAttrNumber)
{
if (rel != NULL)
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
errmsg("column \"%s\" of relation \"%s\" does not exist",
name, RelationGetRelationName(rel))));
else
ereport(ERROR,
(errcode(ERRCODE_UNDEFINED_COLUMN),
errmsg("column \"%s\" does not exist",
name)));
}
/* Check for duplicates */
if (list_member_int(attnums, attnum))
ereport(ERROR,
(errcode(ERRCODE_DUPLICATE_COLUMN),
errmsg("column \"%s\" specified more than once",
name)));
attnums = lappend_int(attnums, attnum);
}
}
return attnums;
}
/*
* copy_dest_startup --- executor startup
*/
static void
copy_dest_startup(DestReceiver *self, int operation, TupleDesc typeinfo)
{
/* no-op */
}
/*
* copy_dest_receive --- receive one tuple
*/
static bool
copy_dest_receive(TupleTableSlot *slot, DestReceiver *self)
{
DR_copy *myState = (DR_copy *) self;
CopyState cstate = myState->cstate;
/* Send the data */
CopyOneRowTo(cstate, slot);
myState->processed++;
return true;
}
/*
* copy_dest_shutdown --- executor end
*/
static void
copy_dest_shutdown(DestReceiver *self)
{
/* no-op */
}
/*
* copy_dest_destroy --- release DestReceiver object
*/
static void
copy_dest_destroy(DestReceiver *self)
{
pfree(self);
}
/*
* CreateCopyDestReceiver -- create a suitable DestReceiver object
*/
DestReceiver *
CreateCopyDestReceiver(void)
{
DR_copy *self = (DR_copy *) palloc(sizeof(DR_copy));
self->pub.receiveSlot = copy_dest_receive;
self->pub.rStartup = copy_dest_startup;
self->pub.rShutdown = copy_dest_shutdown;
self->pub.rDestroy = copy_dest_destroy;
self->pub.mydest = DestCopyOut;
self->cstate = NULL; /* will be set later */
self->processed = 0;
return (DestReceiver *) self;
}
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