/** @file
Parser PgSQL driver.
Copyright(c) 2001, 2003 ArtLebedev Group (http://www.artlebedev.com)
Author: Alexandr Petrosian <paf@design.ru> (http://paf.design.ru)
2007.10.25 using PgSQL 8.1.5
*/
static const char *RCSId="$Id: parser3pgsql.C,v 1.34 2008/12/25 02:33:56 misha Exp $";
#include "config_includes.h"
#include "pa_sql_driver.h"
#include <libpq-fe.h>
#include <libpq/libpq-fs.h>
// from catalog/pg_type.h
#define BOOLOID 16
#define INT8OID 20
#define INT2OID 21
#define INT4OID 23
#define OIDOID 26
#define FLOAT4OID 700
#define FLOAT8OID 701
#define DATEOID 1082
#define TIMEOID 1083
#define TIMESTAMPOID 1114
#define TIMESTAMPTZOID 1184
#define TIMETZOID 1266
#define NUMERICOID 1700
// LO_BUFSIZE from interfaces\libpq\fe-lobj.c = 8192 (0x2000)
// actually writing chunks of that size failed, reduced it twice
#define LO_BUFSIZE 0x1000
#include "ltdl.h"
#define MAX_COLS 500
#define MAX_STRING 0x400
#define MAX_NUMBER 20
#if _MSC_VER
# define snprintf _snprintf
# define strcasecmp _stricmp
#endif
#ifndef max
inline int max(int a,int b){ return a>b?a:b; }
inline int min(int a,int b){ return a<b?a:b; }
#endif
static char *lsplit(char *string, char delim){
if(string){
if(char *v=strchr(string, delim)){
*v=0;
return v+1;
}
}
return 0;
}
static char *lsplit(char **string_ref, char delim){
char *result=*string_ref;
char *next=lsplit(*string_ref, delim);
*string_ref=next;
return result;
}
static char* rsplit(char* string, char delim){
if(string){
if(char* v=strrchr(string, delim)){
*v=0;
return v+1;
}
}
return NULL;
}
static void toupper_str(char *out, const char *in, size_t size){
while(size--)
*out++=(char)toupper(*in++);
}
struct Connection {
SQL_Driver_services* services;
PGconn *conn;
const char* client_charset;
bool autocommit;
bool without_default_transactions;
};
/**
PgSQL server driver
*/
class PgSQL_Driver : public SQL_Driver {
public:
PgSQL_Driver() : SQL_Driver() {
}
/// get api version
int api_version(){ return SQL_DRIVER_API_VERSION; }
/// initialize driver by loading sql dynamic link library
const char *initialize(char *dlopen_file_spec){
return dlopen_file_spec?
dlink(dlopen_file_spec):"client library column is empty";
}
#define throwPQerror connection.services->_throw(PQerrorMessage(connection.conn))
#define PQclear_throw(msg) { \
PQclear(res); \
connection.services->_throw(msg); \
}
#define PQclear_throwPQerror PQclear_throw(PQerrorMessage(connection.conn))
/** connect
@param url
format: @b user:pass@host[:port]|[local]/database?
ClientCharset=charset& // transcode by parser
charset=value& // transcode by server with 'SET CLIENT_ENCODING=value'
datestyle=value& // 'SET DATESTYLE=value' available values are: ISO|SQL|Postgres|European|US|German [default=ISO]
autocommit=1& // each transaction is commited automatically (default)
WithoutDefaultTransaction=0 // 1 -- disable any BEGIN TRAN/COMMIT/ROLLBACK [can NOT be used with autocommit option]
*/
void connect(
char* url,
SQL_Driver_services& services,
void** connection_ref ///< output: Connection*
){
char* user=url;
char* host=rsplit(user, '@');
char* db=lsplit(host, '/');
char* pwd=lsplit(user, ':');
char* port=lsplit(host, ':');
char *options=lsplit(db, '?');
char* charset=0;
char* datestyle=0;
Connection& connection=*(Connection *)services.malloc(sizeof(Connection));
*connection_ref=&connection;
connection.services=&services;
connection.client_charset=0;
connection.autocommit=true;
connection.without_default_transactions=false;
connection.conn=PQsetdbLogin(
(host&&strcasecmp(host, "local")==0)?NULL/* local Unix domain socket */:host, port,
NULL, NULL, db, user, pwd);
if(!connection.conn)
services._throw("PQsetdbLogin failed");
if(PQstatus(connection.conn)!=CONNECTION_OK)
throwPQerror;
while(options){
if(char *key=lsplit(&options, '&')){
if(*key){
if(char *value=lsplit(key, '=')){
if(strcmp(key, "ClientCharset")==0){
toupper_str(value, value, strlen(value));
connection.client_charset=value;
} else if(strcasecmp(key, "charset")==0){
charset=value;
} else if(strcasecmp(key, "datestyle")==0){
datestyle=value;
} else if(strcasecmp(key, "autocommit")==0){
if(connection.without_default_transactions)
services._throw("options WithoutDefaultTransaction and autocommit can't be used together");
if(atoi(value)==0)
connection.autocommit=false;
} else if(strcmp(key, "WithoutDefaultTransaction")==0){
if(!connection.autocommit)
services._throw("options WithoutDefaultTransaction and autocommit can't be used together");
if(atoi(value)==1){
connection.without_default_transactions=true;
connection.autocommit=false;
}
} else
services._throw("unknown connect option" /*key*/);
} else
services._throw("connect option without =value" /*key*/);
}
}
}
if(charset){
char statement[MAX_STRING]="SET CLIENT_ENCODING=";
strncat(statement, charset, MAX_STRING);
_execute_cmd(connection, statement);
}
if(datestyle){
char statement[MAX_STRING]="SET DATESTYLE=";
strncat(statement, datestyle, MAX_STRING);
_execute_cmd(connection, statement);
}
_transaction_begin(connection);
}
void disconnect(void *aconnection){
Connection& connection=*static_cast<Connection*>(aconnection);
PQfinish(connection.conn);
connection.conn=0;
}
void commit(void *aconnection){
Connection& connection=*static_cast<Connection*>(aconnection);
_transaction_commit(connection);
_transaction_begin(connection);
}
void rollback(void *aconnection){
Connection& connection=*static_cast<Connection*>(aconnection);
_transaction_rollback(connection);
_transaction_begin(connection);
}
bool ping(void *aconnection) {
Connection& connection=*static_cast<Connection*>(aconnection);
return PQstatus(connection.conn)==CONNECTION_OK;
}
const char* quote(void *aconnection, const char *from, unsigned int length){
Connection& connection=*static_cast<Connection*>(aconnection);
char *result=(char*)connection.services->malloc_atomic(length*2+1);
int err=0;
PQescapeStringConn(connection.conn, result, from, length, &err);
return result;
}
void query(void *aconnection,
const char *astatement,
size_t placeholders_count, Placeholder* placeholders,
unsigned long offset, unsigned long limit,
SQL_Driver_query_event_handlers& handlers
){
Connection& connection=*static_cast<Connection*>(aconnection);
SQL_Driver_services& services=*connection.services;
PGconn *conn=connection.conn;
const char* client_charset=connection.client_charset;
const char* request_charset=services.request_charset();
bool transcode_needed=client_charset && strcmp(client_charset, request_charset)!=0;
const char** paramValues;
if(placeholders_count>0){
int binds_size=sizeof(char)*placeholders_count;
paramValues = static_cast<const char**>(services.malloc_atomic(binds_size));
_bind_parameters(placeholders_count, placeholders, paramValues, connection, transcode_needed);
}
if(transcode_needed){
// transcode query from $request:charset to ?ClientCharset
size_t length=strlen(astatement);
services.transcode(astatement, length,
astatement, length,
request_charset,
client_charset);
}
const char *statement=_preprocess_statement(connection, astatement, offset, limit);
// error after prepare?
PGresult *res;
if(placeholders_count>0){
res=PQexecParams(conn, statement, placeholders_count, NULL, paramValues, NULL, NULL, 0);
} else {
res=PQexec(conn, statement);
}
if(!res)
throwPQerror;
bool failed=false;
SQL_Error sql_error;
switch(PQresultStatus(res)) {
case PGRES_EMPTY_QUERY:
PQclear_throw("no query");
break;
case PGRES_COMMAND_OK: // empty result: insert|delete|update|...
PQclear(res);
if(connection.autocommit)
commit(aconnection);
return;
case PGRES_TUPLES_OK:
break;
default:
PQclear_throwPQerror;
break;
}
#define CHECK(afailed) \
if(afailed) { \
failed=true; \
goto cleanup; \
}
int column_count=PQnfields(res);
if(!column_count)
PQclear_throw("result contains no columns");
if(column_count>MAX_COLS)
column_count=MAX_COLS;
unsigned int column_types[MAX_COLS];
bool transcode_column[MAX_COLS];
for(int i=0; i<column_count; i++){
column_types[i]=PQftype(res, i);
switch(column_types[i]){
case BOOLOID:
case INT8OID:
case INT2OID:
case INT4OID:
case FLOAT4OID:
case FLOAT8OID:
case DATEOID:
case TIMEOID:
case TIMESTAMPOID:
case TIMESTAMPTZOID:
case TIMETZOID:
case NUMERICOID:
transcode_column[i]=false;
break;
default:
transcode_column[i]=transcode_needed;
break;
}
char *name=PQfname(res, i);
size_t length=strlen(name);
char* strm=(char*)services.malloc(length+1);
memcpy(strm, name, length+1);
const char* str=strm;
if(transcode_needed) // transcode column name from ?ClientCharset to $request:charset
services.transcode(str, length,
str, length,
client_charset,
request_charset);
CHECK(handlers.add_column(sql_error, str, length));
}
CHECK(handlers.before_rows(sql_error));
if(unsigned long row_count=(unsigned long)PQntuples(res))
for(unsigned long r=0; r<row_count; r++) {
CHECK(handlers.add_row(sql_error));
for(int i=0; i<column_count; i++){
const char *cell=PQgetvalue(res, r, i);
size_t length;
const char* str;
switch(column_types[i]){
case OIDOID:
{
char *error_pos=0;
Oid oid=cell?atoi(cell):0;
int fd=lo_open(conn, oid, INV_READ);
if(fd>=0){
// seek to end
if(lo_lseek(conn, fd, 0, SEEK_END)<0)
PQclear_throwPQerror;
// get length
int size_tell=lo_tell(conn, fd);
if(size_tell<0)
PQclear_throwPQerror;
// seek to begin
if(lo_lseek(conn, fd, 0, SEEK_SET)<0)
PQclear_throwPQerror;
length=(size_t)size_tell;
if(length){
// read
char* strm=(char*)services.malloc(length+1);
if(!lo_read_ex(conn, fd, strm, size_tell))
PQclear_throw("lo_read can not read all bytes of object");
strm[length]=0;
str=strm;
} else
str=0;
if(lo_close(conn, fd)<0)
PQclear_throwPQerror;
} else
PQclear_throwPQerror;
}
default:
// normal column, read it normally
length=(size_t)PQgetlength(res, r, i);
if(length){
char* strm=(char*)services.malloc(length+1);
memcpy(strm, cell, length+1);
str=strm;
} else
str=0;
}
if(str && length && transcode_column[i]){
// transcode cell value from ?ClientCharset to $request:charset
services.transcode(str, length,
str, length,
client_charset,
request_charset);
}
CHECK(handlers.add_row_cell(sql_error, str, length));
}
}
cleanup:
PQclear(res);
if(failed)
services._throw(sql_error);
if(connection.autocommit)
commit(aconnection);
}
private:
void _bind_parameters(
size_t placeholders_count,
Placeholder* placeholders,
const char** paramValues,
Connection& connection,
bool transcode_needed
){
for(size_t i=0; i<placeholders_count; i++){
Placeholder& ph=placeholders[i];
if(transcode_needed){
size_t name_length;
connection.services->transcode(ph.name, strlen(ph.name),
ph.name, name_length,
connection.services->request_charset(),
connection.client_charset);
if(ph.value) {
size_t value_length;
connection.services->transcode(ph.value, strlen(ph.value),
ph.value, value_length,
connection.services->request_charset(),
connection.client_charset);
}
}
int name_numner=atoi(ph.name);
if(name_numner <= 0 || (size_t)name_numner > placeholders_count)
connection.services->_throw("bad bind parameter key");
paramValues[name_numner-1]=ph.value;
}
}
void _transaction_begin(Connection& connection){
_execute_transactions_cmd(connection, "BEGIN");
}
void _transaction_commit(Connection& connection){
_execute_transactions_cmd(connection, "COMMIT");
}
void _transaction_rollback(Connection& connection){
_execute_transactions_cmd(connection, "ROLLBACK");
}
void _execute_transactions_cmd(const Connection& connection, const char *query){
if(!connection.without_default_transactions) // with option ?WithoutDefaultTransaction=1 user must execute BEGIN/COMMIT/ROLLBACK by himself
_execute_cmd(connection, query);
}
// executes a query and throw away the result.
void _execute_cmd(const Connection& connection, const char *query){
if(PGresult *res=PQexec(connection.conn, query))
PQclear(res); // throw away the result [don't need but must call]
else
throwPQerror;
}
const char *_preprocess_statement(
Connection& connection,
const char *astatement,
unsigned long offset,
unsigned long limit
){
PGconn *conn=connection.conn;
size_t statement_size=strlen(astatement);
char *result=(char *)connection.services->malloc(statement_size
+MAX_NUMBER*2+15 // limit # offset #
+MAX_STRING // in case of short 'strings'
+1);
// offset & limit -> suffixes
const char *o;
if(offset || limit!=SQL_NO_LIMIT){
char *cur=result;
memcpy(cur, astatement, statement_size); cur+=statement_size;
if(limit!=SQL_NO_LIMIT)
cur+=snprintf(cur, 7+MAX_NUMBER, " limit %u", limit);
if(offset)
cur+=snprintf(cur, 8+MAX_NUMBER, " offset %u", offset);
o=result;
} else
o=astatement;
// /**xxx**/'literal' -> oid
char *n=result;
while(*o) {
if(
o[0]=='/' &&
o[1]=='*' &&
o[2]=='*') { // name start
const char* saved_o=o;
o+=3;
while(*o)
if(
o[0]=='*' &&
o[1]=='*' &&
o[2]=='/' &&
o[3]=='\'') { // name end
saved_o=0; // found, marking that
o+=4;
Oid oid=lo_creat(conn, INV_READ|INV_WRITE);
if(oid==InvalidOid)
throwPQerror;
int fd=lo_open(conn, oid, INV_WRITE);
if(fd>=0) {
const char *start=o;
bool escaped=false;
while(*o && !(o[0]=='\'' && o[1]!='\'' && !escaped)) {
escaped=*o=='\\' || (o[0]=='\'' && o[1]=='\'');
if(escaped) {
// write pending, skip "\" or "'"
if(!lo_write_ex(conn, fd, start, o-start))
connection.services->_throw("lo_write could not write all bytes of object (1)");
start=++o;
} else
o++;
}
if(!lo_write_ex(conn, fd, start, o-start))
connection.services->_throw("lo_write can not write all bytes of object (2)");
if(lo_close(conn, fd)<0)
throwPQerror;
} else
throwPQerror;
if(*o)
o++; // skip "'"
n+=snprintf(n, MAX_NUMBER, "%u", oid);
break;
} else
o++; // /**skip**/'xxx'
if(saved_o) {
o=saved_o;
*n++=*o++;
}
} else
*n++=*o++;
}
*n=0;
return result;
}
private: // lo_read/write exchancements
bool lo_read_ex(PGconn *conn, int fd, const/*paf*/ char *buf, size_t len) {
return lo_rw_method (conn, fd, buf, len, lo_read);
}
bool lo_write_ex(PGconn *conn, int fd, const/*paf*/ char *buf, size_t len) {
return lo_rw_method (conn, fd, buf, len, lo_write);
}
bool lo_rw_method(PGconn *conn, int fd, const/*paf*/ char *buf, size_t len, int (*lo_func)(PGconn *conn, int fd, const/*paf*/ char *buf, size_t len)) {
int size_op;
while(len && (size_op=lo_func(conn, fd, buf, min(LO_BUFSIZE, len)))>0) {
buf+=size_op;
len-=size_op;
}
return len==0;
}
private: // conn client library funcs
typedef PGconn* (*t_PQsetdbLogin)(
const char *pghost,
const char *pgport,
const char *pgoptions,
const char *pgtty,
const char *dbName,
const char *login,
const char *pwd); t_PQsetdbLogin PQsetdbLogin;
typedef void (*t_PQfinish)(PGconn *conn); t_PQfinish PQfinish;
typedef char *(*t_PQerrorMessage)(const PGconn* conn); t_PQerrorMessage PQerrorMessage;
typedef ConnStatusType (*t_PQstatus)(const PGconn *conn); t_PQstatus PQstatus;
typedef PGresult *(*t_PQexec)(PGconn *conn,
const char *query); t_PQexec PQexec;
typedef PGresult *(*t_PQexecParams)(
PGconn *conn,
const char *query,
int nParams,
const Oid *paramTypes,
const char * const *paramValues,
const int *paramLengths,
const int *paramFormats,
int resultFormat); t_PQexecParams PQexecParams;
typedef ExecStatusType (*t_PQresultStatus)(const PGresult *res); t_PQresultStatus PQresultStatus;
typedef int (*t_PQgetlength)(const PGresult *res,
int tup_num,
int field_num); t_PQgetlength PQgetlength;
typedef char* (*t_PQgetvalue)(const PGresult *res,
int tup_num,
int field_num); t_PQgetvalue PQgetvalue;
typedef int (*t_PQntuples)(const PGresult *res); t_PQntuples PQntuples;
typedef char *(*t_PQfname)(const PGresult *res,
int field_index); t_PQfname PQfname;
typedef int (*t_PQnfields)(const PGresult *res); t_PQnfields PQnfields;
typedef void (*t_PQclear)(PGresult *res); t_PQclear PQclear;
typedef Oid (*t_PQftype)(const PGresult *res, int field_num); t_PQftype PQftype;
typedef size_t (*t_PQescapeStringConn)(PGconn *conn,
char *to, const char *from, size_t length,
int *error); t_PQescapeStringConn PQescapeStringConn;
typedef int (*t_lo_open)(PGconn *conn, Oid lobjId, int mode); t_lo_open lo_open;
typedef int (*t_lo_close)(PGconn *conn, int fd); t_lo_close lo_close;
typedef int (*t_lo_read)(PGconn *conn, int fd, const/*paf*/ char *buf, size_t len); t_lo_read lo_read;
typedef int (*t_lo_write)(PGconn *conn, int fd, const/*paf*/ char *buf, size_t len); t_lo_write lo_write;
typedef int (*t_lo_lseek)(PGconn *conn, int fd, int offset, int whence); t_lo_lseek lo_lseek;
typedef Oid (*t_lo_creat)(PGconn *conn, int mode); t_lo_creat lo_creat;
typedef int (*t_lo_tell)(PGconn *conn, int fd); t_lo_tell lo_tell;
typedef int (*t_lo_unlink)(PGconn *conn, Oid lobjId); t_lo_unlink lo_unlink;
typedef Oid (*t_lo_import)(PGconn *conn, const char *filename); t_lo_import lo_import;
typedef int (*t_lo_export)(PGconn *conn, Oid lobjId, const char *filename); t_lo_export lo_export;
private: // conn client library funcs linking
const char *dlink(const char *dlopen_file_spec) {
if(lt_dlinit())
return lt_dlerror();
lt_dlhandle handle=lt_dlopen(dlopen_file_spec);
if(!handle)
return "can not open the dynamic link module";
#define DSLINK(name, action) \
name=(t_##name)lt_dlsym(handle, #name); \
if(!name) \
action;
#define DLINK(name) DSLINK(name, return "function " #name " was not found")
DLINK(PQsetdbLogin);
DLINK(PQerrorMessage);
DLINK(PQstatus);
DLINK(PQfinish);
DLINK(PQgetvalue);
DLINK(PQgetlength);
DLINK(PQntuples);
DLINK(PQfname);
DLINK(PQnfields);
DLINK(PQclear);
DLINK(PQresultStatus);
DLINK(PQexec);
DLINK(PQexecParams);
DLINK(PQftype);
DLINK(PQescapeStringConn);
DLINK(lo_open); DLINK(lo_close);
DLINK(lo_read); DLINK(lo_write);
DLINK(lo_lseek); DLINK(lo_creat);
DLINK(lo_tell); DLINK(lo_unlink);
DLINK(lo_import); DLINK(lo_export);
return 0;
}
};
extern "C" SQL_Driver *SQL_DRIVER_CREATE() {
return new PgSQL_Driver();
}
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