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|
//
// $Id: snippets_udf.cc 4522 2014-01-30 11:00:18Z tomat $
//
//
// Copyright (c) 2001-2014, Andrew Aksyonoff
// Copyright (c) 2008-2014, Sphinx Technologies Inc
// All rights reserved
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License. You should have
// received a copy of the GPL license along with this program; if you
// did not, you can find it at http://www.gnu.org/
//
#include <my_global.h>
#include <string.h>
#include <assert.h>
#ifndef __WIN__
#include <sys/un.h>
#include <netdb.h>
#else
#include <winsock2.h>
#endif
#include <mysql_version.h>
#if MYSQL_VERSION_ID>=50515
#include "sql_class.h"
#include "sql_array.h"
#elif MYSQL_VERSION_ID>50100
#include "mysql_priv.h"
#include <mysql/plugin.h>
#else
#include "../mysql_priv.h"
#endif
#include <mysys_err.h>
#include <my_sys.h>
#if MYSQL_VERSION_ID>=50120
typedef uchar byte;
#endif
/// partially copy-pasted stuff that should be moved elsewhere
#ifdef UNALIGNED_RAM_ACCESS
/// pass-through wrapper
template < typename T > inline T sphUnalignedRead ( const T & tRef )
{
return tRef;
}
/// pass-through wrapper
template < typename T > void sphUnalignedWrite ( void * pPtr, const T & tVal )
{
*(T*)pPtr = tVal;
}
#else
/// unaligned read wrapper for some architectures (eg. SPARC)
template < typename T >
inline T sphUnalignedRead ( const T & tRef )
{
T uTmp;
byte * pSrc = (byte *) &tRef;
byte * pDst = (byte *) &uTmp;
for ( int i=0; i<(int)sizeof(T); i++ )
*pDst++ = *pSrc++;
return uTmp;
}
/// unaligned write wrapper for some architectures (eg. SPARC)
template < typename T >
void sphUnalignedWrite ( void * pPtr, const T & tVal )
{
byte * pDst = (byte *) pPtr;
byte * pSrc = (byte *) &tVal;
for ( int i=0; i<(int)sizeof(T); i++ )
*pDst++ = *pSrc++;
}
#endif /* UNALIGNED_RAM_ACCESS */
#define SPHINXSE_MAX_ALLOC (16*1024*1024)
#define SafeDelete(_arg) { if ( _arg ) delete ( _arg ); (_arg) = NULL; }
#define SafeDeleteArray(_arg) { if ( _arg ) delete [] ( _arg ); (_arg) = NULL; }
#define Min(a,b) ((a)<(b)?(a):(b))
#ifndef __WIN__
typedef unsigned int DWORD;
#endif
inline DWORD sphF2DW ( float f ) { union { float f; uint32 d; } u; u.f = f; return u.d; }
static char * sphDup ( const char * sSrc, int iLen=-1 )
{
if ( !sSrc )
return NULL;
if ( iLen<0 )
iLen = strlen(sSrc);
char * sRes = new char [ 1+iLen ];
memcpy ( sRes, sSrc, iLen );
sRes[iLen] = '\0';
return sRes;
}
static inline void sphShowErrno ( const char * sCall )
{
char sError[256];
snprintf ( sError, sizeof(sError), "%s() failed: [%d] %s", sCall, errno, strerror(errno) );
my_error ( ER_QUERY_ON_FOREIGN_DATA_SOURCE, MYF(0), sError );
}
static const bool sphReportErrors = true;
static bool sphSend ( int iFd, const char * pBuffer, int iSize, bool bReportErrors = false )
{
assert ( pBuffer );
assert ( iSize > 0 );
const int iResult = send ( iFd, pBuffer, iSize, 0 );
if ( iResult!=iSize )
{
if ( bReportErrors ) sphShowErrno("send");
return false;
}
return true;
}
static bool sphRecv ( int iFd, char * pBuffer, int iSize, bool bReportErrors = false )
{
assert ( pBuffer );
assert ( iSize > 0 );
while ( iSize )
{
const int iResult = recv ( iFd, pBuffer, iSize, 0 );
if ( iResult > 0 )
{
iSize -= iResult;
pBuffer += iSize;
} else if ( iResult==0 )
{
if ( bReportErrors )
my_error ( ER_CONNECT_TO_FOREIGN_DATA_SOURCE, MYF(0), "recv() failed: disconnected" );
return false;
} else
{
if ( bReportErrors ) sphShowErrno("recv");
return false;
}
}
return true;
}
enum
{
SPHINX_SEARCHD_PROTO = 1,
SEARCHD_COMMAND_EXCERPT = 1,
VER_COMMAND_EXCERPT = 0x104,
};
/// known answers
enum
{
SEARCHD_OK = 0, ///< general success, command-specific reply follows
SEARCHD_ERROR = 1, ///< general failure, error message follows
SEARCHD_RETRY = 2, ///< temporary failure, error message follows, client should retry later
SEARCHD_WARNING = 3 ///< general success, warning message and command-specific reply follow
};
#define SPHINXSE_DEFAULT_SCHEME (char*) "sphinx"
#define SPHINXSE_DEFAULT_HOST (char*) "127.0.0.1"
#define SPHINXSE_DEFAULT_PORT 9312
#define SPHINXSE_DEFAULT_INDEX (char*) "*"
class CSphBuffer
{
private:
bool m_bOverrun;
int m_iSize;
int m_iLeft;
char * m_pBuffer;
char * m_pCurrent;
public:
explicit CSphBuffer ( const int iSize )
: m_bOverrun ( false )
, m_iSize ( iSize )
, m_iLeft ( iSize )
{
assert ( iSize > 0 );
m_pBuffer = new char[iSize];
m_pCurrent = m_pBuffer;
}
~CSphBuffer ()
{
SafeDeleteArray ( m_pBuffer );
}
const char * Ptr() const { return m_pBuffer; }
bool Finalize()
{
return !( m_bOverrun || m_iLeft!=0 || ( m_pCurrent - m_pBuffer )!=m_iSize );
}
void SendBytes ( const void * pBytes, int iBytes );
void SendWord ( short int v ) { v = ntohs(v); SendBytes ( &v, sizeof(v) ); } // NOLINT
void SendInt ( int v ) { v = ntohl(v); SendBytes ( &v, sizeof(v) ); }
void SendDword ( DWORD v ) { v = ntohl(v) ;SendBytes ( &v, sizeof(v) ); }
void SendUint64 ( ulonglong v ) { SendDword ( uint ( v>>32 ) ); SendDword ( uint ( v&0xFFFFFFFFUL ) ); }
void SendString ( const char * v ) { SendString ( v, strlen(v) ); }
void SendString ( const char * v, int iLen ) { SendDword(iLen); SendBytes ( v, iLen ); }
void SendFloat ( float v ) { SendDword ( sphF2DW(v) ); }
};
void CSphBuffer::SendBytes ( const void * pBytes, int iBytes )
{
if ( m_iLeft < iBytes )
{
m_bOverrun = true;
return;
}
memcpy ( m_pCurrent, pBytes, iBytes );
m_pCurrent += iBytes;
m_iLeft -= iBytes;
}
struct CSphUrl
{
char * m_sBuffer;
char * m_sFormatted;
char * m_sScheme;
char * m_sHost;
char * m_sIndex;
int m_iPort;
CSphUrl()
: m_sBuffer ( NULL )
, m_sFormatted ( NULL )
, m_sScheme ( SPHINXSE_DEFAULT_SCHEME )
, m_sHost ( SPHINXSE_DEFAULT_HOST )
, m_sIndex ( SPHINXSE_DEFAULT_INDEX )
, m_iPort ( SPHINXSE_DEFAULT_PORT )
{}
~CSphUrl()
{
SafeDeleteArray ( m_sFormatted );
SafeDeleteArray ( m_sBuffer );
}
bool Parse ( const char * sUrl, int iLen );
int Connect();
const char * Format();
};
const char * CSphUrl::Format()
{
if ( !m_sFormatted )
{
int iSize = 15 + strlen(m_sHost) + strlen(m_sIndex);
m_sFormatted = new char [ iSize ];
if ( m_iPort )
snprintf ( m_sFormatted, iSize, "inet://%s:%d/%s", m_sHost, m_iPort, m_sIndex );
else
snprintf ( m_sFormatted, iSize, "unix://%s/%s", m_sHost, m_sIndex );
}
return m_sFormatted;
}
// the following scheme variants are recognized
//
// inet://host/index
// inet://host:port/index
// unix://unix/domain/socket:index
// unix://unix/domain/socket
bool CSphUrl::Parse ( const char * sUrl, int iLen )
{
bool bOk = true;
while ( iLen )
{
bOk = false;
m_sBuffer = sphDup ( sUrl, iLen );
m_sScheme = m_sBuffer;
m_sHost = strstr ( m_sBuffer, "://" );
if ( !m_sHost )
break;
m_sHost[0] = '\0';
m_sHost += 2;
if ( !strcmp ( m_sScheme, "unix" ) )
{
// unix-domain socket
m_iPort = 0;
if (!( m_sIndex = strrchr ( m_sHost, ':' ) ))
m_sIndex = SPHINXSE_DEFAULT_INDEX;
else
{
*m_sIndex++ = '\0';
if ( !*m_sIndex )
m_sIndex = SPHINXSE_DEFAULT_INDEX;
}
bOk = true;
break;
}
if ( strcmp ( m_sScheme, "sphinx" )!=0 && strcmp ( m_sScheme, "inet" )!=0 )
break;
// inet
m_sHost++;
char * sPort = strchr ( m_sHost, ':' );
if ( sPort )
{
*sPort++ = '\0';
if ( *sPort )
{
m_sIndex = strchr ( sPort, '/' );
if ( m_sIndex )
*m_sIndex++ = '\0';
else
m_sIndex = SPHINXSE_DEFAULT_INDEX;
m_iPort = atoi(sPort);
if ( !m_iPort )
m_iPort = SPHINXSE_DEFAULT_PORT;
}
} else
{
m_sIndex = strchr ( m_sHost, '/' );
if ( m_sIndex )
*m_sIndex++ = '\0';
else
m_sIndex = SPHINXSE_DEFAULT_INDEX;
}
bOk = true;
break;
}
return bOk;
}
int CSphUrl::Connect()
{
struct sockaddr_in sin;
#ifndef __WIN__
struct sockaddr_un saun;
#endif
int iDomain = 0;
int iSockaddrSize = 0;
struct sockaddr * pSockaddr = NULL;
in_addr_t ip_addr;
if ( m_iPort )
{
iDomain = AF_INET;
iSockaddrSize = sizeof(sin);
pSockaddr = (struct sockaddr *) &sin;
memset ( &sin, 0, sizeof(sin) );
sin.sin_family = AF_INET;
sin.sin_port = htons ( m_iPort );
// resolve address
if ( (int)( ip_addr = inet_addr ( m_sHost ) )!=(int)INADDR_NONE )
memcpy ( &sin.sin_addr, &ip_addr, sizeof(ip_addr) );
else
{
int tmp_errno;
bool bError = false;
#if MYSQL_VERSION_ID>=50515
struct addrinfo *hp = NULL;
tmp_errno = getaddrinfo ( m_sHost, NULL, NULL, &hp );
if ( !tmp_errno || !hp || !hp->ai_addr )
{
bError = true;
if ( hp )
freeaddrinfo ( hp );
}
#else
struct hostent tmp_hostent, *hp;
char buff2 [ GETHOSTBYNAME_BUFF_SIZE ];
hp = my_gethostbyname_r ( m_sHost, &tmp_hostent, buff2, sizeof(buff2), &tmp_errno );
if ( !hp )
{
my_gethostbyname_r_free();
bError = true;
}
#endif
if ( bError )
{
char sError[256];
my_snprintf ( sError, sizeof(sError), "failed to resolve searchd host (name=%s)", m_sHost );
my_error ( ER_CONNECT_TO_FOREIGN_DATA_SOURCE, MYF(0), sError );
return -1;
}
#if MYSQL_VERSION_ID>=50515
memcpy ( &sin.sin_addr, hp->ai_addr, Min ( sizeof(sin.sin_addr), (size_t)hp->ai_addrlen ) );
freeaddrinfo ( hp );
#else
memcpy ( &sin.sin_addr, hp->h_addr, Min ( sizeof(sin.sin_addr), (size_t)hp->h_length ) );
my_gethostbyname_r_free();
#endif
}
} else
{
#ifndef __WIN__
iDomain = AF_UNIX;
iSockaddrSize = sizeof(saun);
pSockaddr = (struct sockaddr *) &saun;
memset ( &saun, 0, sizeof(saun) );
saun.sun_family = AF_UNIX;
strncpy ( saun.sun_path, m_sHost, sizeof(saun.sun_path)-1 );
#else
my_error ( ER_CONNECT_TO_FOREIGN_DATA_SOURCE, MYF(0), "Unix-domain sockets are not supported on Windows" );
return -1;
#endif
}
// connect to searchd and exchange versions
uint uServerVersion;
uint uClientVersion = htonl ( SPHINX_SEARCHD_PROTO );
int iSocket = -1;
const char * pError = NULL;
do
{
iSocket = (int)socket ( iDomain, SOCK_STREAM, 0 );
if ( iSocket==-1 )
{
pError = "Failed to create client socket";
break;
}
if ( connect ( iSocket, pSockaddr, iSockaddrSize )==-1 )
{
pError = "Failed to connect to searchd";
break;
}
if ( !sphRecv ( iSocket, (char *)&uServerVersion, sizeof(uServerVersion) ) )
{
pError = "Failed to receive searchd version";
break;
}
if ( !sphSend ( iSocket, (char *)&uClientVersion, sizeof(uClientVersion) ) )
{
pError = "Failed to send client version";
break;
}
}
while(0);
// fixme: compare versions?
if ( pError )
{
char sError[1024];
snprintf ( sError, sizeof(sError), "%s [%d] %s", Format(), errno, strerror(errno) );
my_error ( ER_CONNECT_TO_FOREIGN_DATA_SOURCE, MYF(0), sError );
if ( iSocket!=-1 )
close ( iSocket );
return -1;
}
return iSocket;
}
struct CSphResponse
{
char * m_pBuffer;
char * m_pBody;
CSphResponse ()
: m_pBuffer ( NULL )
, m_pBody ( NULL )
{}
explicit CSphResponse ( DWORD uSize )
: m_pBody ( NULL )
{
m_pBuffer = new char[uSize];
}
~CSphResponse ()
{
SafeDeleteArray ( m_pBuffer );
}
static CSphResponse * Read ( int iSocket, int iClientVersion );
};
CSphResponse *
CSphResponse::Read ( int iSocket, int iClientVersion )
{
char sHeader[8];
if ( !sphRecv ( iSocket, sHeader, sizeof(sHeader) ) )
return NULL;
int iStatus = ntohs ( sphUnalignedRead ( *(short int *) &sHeader[0] ) );
int iVersion = ntohs ( sphUnalignedRead ( *(short int *) &sHeader[2] ) );
DWORD uLength = ntohl ( sphUnalignedRead ( *(DWORD *) &sHeader[4] ) );
if ( iVersion<iClientVersion )
return NULL;
if ( uLength<=SPHINXSE_MAX_ALLOC )
{
CSphResponse * pResponse = new CSphResponse ( uLength );
if ( !sphRecv ( iSocket, pResponse->m_pBuffer, uLength ) )
{
SafeDelete ( pResponse );
return NULL;
}
pResponse->m_pBody = pResponse->m_pBuffer;
if ( iStatus!=SEARCHD_OK )
{
DWORD uSize = ntohl ( *(DWORD *)pResponse->m_pBuffer );
if ( iStatus==SEARCHD_WARNING )
{
pResponse->m_pBody += uSize; // fixme: report the warning somehow
} else
{
char * sMessage = sphDup ( pResponse->m_pBuffer + sizeof(DWORD), uSize );
my_error ( ER_QUERY_ON_FOREIGN_DATA_SOURCE, MYF(0), sMessage );
SafeDeleteArray ( sMessage );
SafeDelete ( pResponse );
return NULL;
}
}
return pResponse;
}
return NULL;
}
/// udf
#ifdef _MSC_VER
#define DLLEXPORT __declspec(dllexport)
#else
#define DLLEXPORT
#endif
extern "C"
{
DLLEXPORT my_bool sphinx_snippets_init ( UDF_INIT * pUDF, UDF_ARGS * pArgs, char * sMessage );
DLLEXPORT void sphinx_snippets_deinit ( UDF_INIT * pUDF );
DLLEXPORT char * sphinx_snippets ( UDF_INIT * pUDF, UDF_ARGS * pArgs, char * sResult, unsigned long * pLength, char * pIsNull, char * sError );
};
#define MAX_MESSAGE_LENGTH 255
#define MAX_RESULT_LENGTH 255
struct CSphSnippets
{
CSphUrl m_tUrl;
CSphResponse * m_pResponse;
int m_iBeforeMatch;
int m_iAfterMatch;
int m_iChunkSeparator;
int m_iStripMode;
int m_iPassageBoundary;
int m_iLimit;
int m_iLimitWords;
int m_iLimitPassages;
int m_iAround;
int m_iPassageId;
int m_iFlags;
CSphSnippets()
: m_pResponse(NULL)
, m_iBeforeMatch(0)
, m_iAfterMatch(0)
, m_iChunkSeparator(0)
, m_iStripMode(0)
, m_iPassageBoundary(0)
// defaults
, m_iLimit(256)
, m_iLimitWords(0)
, m_iLimitPassages(0)
, m_iAround(5)
, m_iPassageId(1)
, m_iFlags(1)
{
}
~CSphSnippets()
{
SafeDelete ( m_pResponse );
}
};
#define KEYWORD(NAME) else if ( strncmp ( NAME, pArgs->attributes[i], pArgs->attribute_lengths[i] )==0 )
#define CHECK_TYPE(TYPE) \
if ( pArgs->arg_type[i]!=TYPE ) \
{ \
snprintf ( sMessage, MAX_MESSAGE_LENGTH, \
"%.*s argument must be a string", \
(int)pArgs->attribute_lengths[i], \
pArgs->attributes[i] ); \
bFail = true; \
break; \
} \
if ( TYPE==STRING_RESULT && !pArgs->args[i] ) \
{ \
snprintf ( sMessage, MAX_MESSAGE_LENGTH, \
"%.*s argument must be constant (and not NULL)", \
(int)pArgs->attribute_lengths[i], \
pArgs->attributes[i] ); \
bFail = true; \
break; \
}
#define STRING CHECK_TYPE(STRING_RESULT)
#define INT CHECK_TYPE(INT_RESULT); int iValue =(int)*(long long *)pArgs->args[i]
my_bool sphinx_snippets_init ( UDF_INIT * pUDF, UDF_ARGS * pArgs, char * sMessage )
{
if ( pArgs->arg_count < 3 )
{
strncpy ( sMessage, "insufficient arguments", MAX_MESSAGE_LENGTH );
return 1;
}
bool bFail = false;
CSphSnippets * pOpts = new CSphSnippets;
for ( uint i = 0; i < pArgs->arg_count; i++ )
{
if ( i < 3 )
{
if ( pArgs->arg_type[i]!=STRING_RESULT )
{
strncpy ( sMessage, "first three arguments must be of string type", MAX_MESSAGE_LENGTH );
bFail = true;
break;
}
}
KEYWORD("sphinx")
{
STRING;
if ( !pOpts->m_tUrl.Parse ( pArgs->args[i], pArgs->lengths[i] ) )
{
strncpy ( sMessage, "failed to parse connection string", MAX_MESSAGE_LENGTH );
bFail = true;
break;
}
}
KEYWORD("before_match") { STRING; pOpts->m_iBeforeMatch = i; }
KEYWORD("after_match") { STRING; pOpts->m_iAfterMatch = i; }
KEYWORD("chunk_separator") { STRING; pOpts->m_iChunkSeparator = i; }
KEYWORD("html_strip_mode") { STRING; pOpts->m_iStripMode = i; }
KEYWORD("passage_boundary") { STRING; pOpts->m_iPassageBoundary = i; }
KEYWORD("limit") { INT; pOpts->m_iLimit = iValue; }
KEYWORD("limit_words") { INT; pOpts->m_iLimitWords = iValue; }
KEYWORD("limit_passages") { INT; pOpts->m_iLimitPassages = iValue; }
KEYWORD("around") { INT; pOpts->m_iAround = iValue; }
KEYWORD("start_passage_id") { INT; pOpts->m_iPassageId = iValue; }
KEYWORD("exact_phrase") { INT; if ( iValue ) pOpts->m_iFlags |= 2; }
KEYWORD("single_passage") { INT; if ( iValue ) pOpts->m_iFlags |= 4; }
KEYWORD("use_boundaries") { INT; if ( iValue ) pOpts->m_iFlags |= 8; }
KEYWORD("weight_order") { INT; if ( iValue ) pOpts->m_iFlags |= 16; }
KEYWORD("query_mode") { INT; if ( iValue ) pOpts->m_iFlags |= 32; }
KEYWORD("force_all_words") { INT; if ( iValue ) pOpts->m_iFlags |= 64; }
KEYWORD("load_files") { INT; if ( iValue ) pOpts->m_iFlags |= 128; }
KEYWORD("allow_empty") { INT; if ( iValue ) pOpts->m_iFlags |= 256; }
KEYWORD("emit_zones") { INT; if ( iValue ) pOpts->m_iFlags |= 512; }
KEYWORD("load_files_scattered") { INT; if ( iValue ) pOpts->m_iFlags |= 1024; }
else
{
snprintf ( sMessage, MAX_MESSAGE_LENGTH, "unrecognized argument: %.*s",
(int)pArgs->attribute_lengths[i], pArgs->attributes[i] );
bFail = true;
break;
}
}
if ( bFail )
{
SafeDelete ( pOpts );
return 1;
}
pUDF->ptr = (char *)pOpts;
return 0;
}
#undef STRING
#undef INT
#undef KEYWORD
#undef CHECK_TYPE
#define ARG(i) pArgs->args[i], pArgs->lengths[i]
#define ARG_LEN(VAR, LEN) ( VAR ? pArgs->lengths[VAR] : LEN )
#define SEND_STRING(INDEX, DEFAULT) \
if ( INDEX ) \
tBuffer.SendString ( ARG(INDEX) ); \
else \
tBuffer.SendString ( DEFAULT, sizeof(DEFAULT) - 1 );
char * sphinx_snippets ( UDF_INIT * pUDF, UDF_ARGS * pArgs, char * sResult, unsigned long * pLength, char * pIsNull, char * pError )
{
CSphSnippets * pOpts = (CSphSnippets *)pUDF->ptr;
assert ( pOpts );
if ( !pArgs->args[0] || !pArgs->args[1] || !pArgs->args[2] )
{
*pIsNull = 1;
return sResult;
}
const int iSize = 68 +
pArgs->lengths[1] + // index
pArgs->lengths[2] + // words
ARG_LEN ( pOpts->m_iBeforeMatch, 3 ) +
ARG_LEN ( pOpts->m_iAfterMatch, 4 ) +
ARG_LEN ( pOpts->m_iChunkSeparator, 5 ) +
ARG_LEN ( pOpts->m_iStripMode, 5 ) +
ARG_LEN ( pOpts->m_iPassageBoundary, 0 ) +
4 + pArgs->lengths[0]; // document
CSphBuffer tBuffer(iSize);
tBuffer.SendWord ( SEARCHD_COMMAND_EXCERPT );
tBuffer.SendWord ( VER_COMMAND_EXCERPT );
tBuffer.SendDword ( iSize - 8 );
tBuffer.SendDword ( 0 );
tBuffer.SendDword ( pOpts->m_iFlags );
tBuffer.SendString ( ARG(1) ); // index
tBuffer.SendString ( ARG(2) ); // words
SEND_STRING ( pOpts->m_iBeforeMatch, "<b>" );
SEND_STRING ( pOpts->m_iAfterMatch, "</b>" );
SEND_STRING ( pOpts->m_iChunkSeparator, " ... " );
tBuffer.SendInt ( pOpts->m_iLimit );
tBuffer.SendInt ( pOpts->m_iAround );
tBuffer.SendInt ( pOpts->m_iLimitPassages );
tBuffer.SendInt ( pOpts->m_iLimitWords );
tBuffer.SendInt ( pOpts->m_iPassageId );
SEND_STRING ( pOpts->m_iStripMode, "index" );
SEND_STRING ( pOpts->m_iPassageBoundary, "" );
// single document
tBuffer.SendInt ( 1 );
tBuffer.SendString ( ARG(0) );
int iSocket = -1;
do
{
if ( !tBuffer.Finalize() )
{
my_error ( ER_QUERY_ON_FOREIGN_DATA_SOURCE, MYF(0), "INTERNAL ERROR: failed to build request" );
break;
}
iSocket = pOpts->m_tUrl.Connect();
if ( iSocket==-1 ) break;
if ( !sphSend ( iSocket, tBuffer.Ptr(), iSize, sphReportErrors ) ) break;
CSphResponse * pResponse = CSphResponse::Read ( iSocket, VER_COMMAND_EXCERPT );
if ( !pResponse ) break;
close ( iSocket );
pOpts->m_pResponse = pResponse;
*pLength = ntohl ( *(DWORD *)pResponse->m_pBody );
return pResponse->m_pBody + sizeof(DWORD);
}
while(0);
if ( iSocket!=-1 )
close ( iSocket );
*pError = 1;
return sResult;
}
#undef SEND_STRING
#undef ARG_LEN
#undef ARG
void sphinx_snippets_deinit ( UDF_INIT * pUDF )
{
CSphSnippets * pOpts = (CSphSnippets *)pUDF->ptr;
SafeDelete ( pOpts );
}
//
// $Id: snippets_udf.cc 4522 2014-01-30 11:00:18Z tomat $
//
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