/* glpsql.c */ /*********************************************************************** * This code is part of GLPK (GNU Linear Programming Kit). * * Author: Heinrich Schuchardt . * * Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, * 2009, 2010, 2011, 2013 Andrew Makhorin, Department for Applied * Informatics, Moscow Aviation Institute, Moscow, Russia. All rights * reserved. E-mail: . * * GLPK is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * GLPK is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public * License for more details. * * You should have received a copy of the GNU General Public License * along with GLPK. If not, see . ***********************************************************************/ #ifdef HAVE_CONFIG_H #include #endif #include "glpmpl.h" #include "glpsql.h" #ifdef ODBC_DLNAME #define HAVE_ODBC #define libodbc ODBC_DLNAME #define h_odbc (get_env_ptr()->h_odbc) #endif #ifdef MYSQL_DLNAME #define HAVE_MYSQL #define libmysql MYSQL_DLNAME #define h_mysql (get_env_ptr()->h_mysql) #endif static void *db_iodbc_open_int(TABDCA *dca, int mode, const char **sqllines); static void *db_mysql_open_int(TABDCA *dca, int mode, const char **sqllines); /**********************************************************************/ #if defined(HAVE_ODBC) || defined(HAVE_MYSQL) #define SQL_FIELD_MAX 100 /* maximal field count */ #define SQL_FDLEN_MAX 255 /* maximal field length */ /*********************************************************************** * NAME * * args_concat - concatenate arguments * * SYNOPSIS * * static char **args_concat(TABDCA *dca); * * DESCRIPTION * * The arguments passed in dca are SQL statements. A SQL statement may * be split over multiple arguments. The last argument of a SQL * statement will be terminated with a semilocon. Each SQL statement is * merged into a single zero terminated string. Boundaries between * arguments are replaced by space. * * RETURNS * * Buffer with SQL statements */ static char **args_concat(TABDCA *dca) { const char *arg; int i; int j; int j0; int j1; int len; int lentot; int narg; int nline = 0; void *ret; char **sqllines = NULL; narg = mpl_tab_num_args(dca); /* The SQL statements start with argument 3. */ if (narg < 3) return NULL; /* Count the SQL statements */ for (j = 3; j <= narg; j++) { arg = mpl_tab_get_arg(dca, j); len = strlen(arg); if (arg[len-1] == ';' || j == narg) nline ++; } /* Allocate string buffer. */ sqllines = (char **) xmalloc((nline+1) * sizeof(char **)); /* Join arguments */ sqllines[0] = NULL; j0 = 3; i = 0; lentot = 0; for (j = 3; j <= narg; j++) { arg = mpl_tab_get_arg(dca, j); len = strlen(arg); /* add length of part */ lentot += len; /* add length of space separating parts or 0x00 at end of SQL statement */ lentot++; if (arg[len-1] == ';' || j == narg) { /* Join arguments for a single SQL statement */ sqllines[i] = xmalloc(lentot); sqllines[i+1] = NULL; sqllines[i][0] = 0x00; for (j1 = j0; j1 <= j; j1++) { if(j1>j0) strcat(sqllines[i], " "); strcat(sqllines[i], mpl_tab_get_arg(dca, j1)); } len = strlen(sqllines[i]); if (sqllines[i][len-1] == ';') sqllines[i][len-1] = 0x00; j0 = j+1; i++; lentot = 0; } } return sqllines; } /*********************************************************************** * NAME * * free_buffer - free multiline string buffer * * SYNOPSIS * * static void free_buffer(char **buf); * * DESCRIPTION * * buf is a list of strings terminated by NULL. * The memory for the strings and for the list is released. */ static void free_buffer(char **buf) { int i; for(i = 0; buf[i] != NULL; i++) xfree(buf[i]); xfree(buf); } static int db_escaped_string_length(const char* from) /* length of escaped string */ { int count; const char *pointer; for (pointer = from, count = 0; *pointer != (char) '\0'; pointer++, count++) { switch (*pointer) { case '\'': count++; break; } } return count; } static int db_escape_string (char *to, const char *from) /* escape string*/ { const char *source = from; char *target = to; unsigned int remaining; remaining = strlen(from); if (to == NULL) to = (char *) (from + remaining); while (remaining > 0) { switch (*source) { case '\'': *target = '\''; target++; *target = '\''; break; default: *target = *source; } source++; target++; remaining--; } /* Write the terminating NUL character. */ *target = '\0'; return target - to; } static char *db_generate_select_stmt(TABDCA *dca) /* generate select statement */ { char *arg; char const *field; char *query; int j; int narg; int nf; int total; total = 50; nf = mpl_tab_num_flds(dca); narg = mpl_tab_num_args(dca); for (j=1; j <= nf && j <= SQL_FIELD_MAX; j++) { field = mpl_tab_get_name(dca, j); total += strlen(field); total += 2; } arg = (char *) mpl_tab_get_arg(dca, narg); total += strlen(arg); query = xmalloc( total * sizeof(char)); strcpy (query, "SELECT "); for (j=1; j <= nf && j <= SQL_FIELD_MAX; j++) { field = mpl_tab_get_name(dca, j); strcat(query, field); if ( j < nf ) strcat(query, ", "); } strcat(query, " FROM "); strcat(query, arg); return query; } static char *db_generate_insert_stmt(TABDCA *dca) /* generate insert statement */ { char *arg; char const *field; char *query; int j; int narg; int nf; int total; total = 50; nf = mpl_tab_num_flds(dca); narg = mpl_tab_num_args(dca); for (j=1; j <= nf && j <= SQL_FIELD_MAX; j++) { field = mpl_tab_get_name(dca, j); total += strlen(field); total += 5; } arg = (char *) mpl_tab_get_arg(dca, narg); total += strlen(arg); query = xmalloc( (total+1) * sizeof(char)); strcpy (query, "INSERT INTO "); strcat(query, arg); strcat(query, " ( "); for (j=1; j <= nf && j <= SQL_FIELD_MAX; j++) { field = mpl_tab_get_name(dca, j); strcat(query, field); if ( j < nf ) strcat(query, ", "); } strcat(query, " ) VALUES ( "); for (j=1; j <= nf && j <= SQL_FIELD_MAX; j++) { strcat(query, "?"); if ( j < nf ) strcat(query, ", "); } strcat(query, " )"); return query; } #endif /**********************************************************************/ #ifndef HAVE_ODBC void *db_iodbc_open(TABDCA *dca, int mode) { xassert(dca == dca); xassert(mode == mode); xprintf("iODBC table driver not supported\n"); return NULL; } int db_iodbc_read(TABDCA *dca, void *link) { xassert(dca != dca); xassert(link != link); return 0; } int db_iodbc_write(TABDCA *dca, void *link) { xassert(dca != dca); xassert(link != link); return 0; } int db_iodbc_close(TABDCA *dca, void *link) { xassert(dca != dca); xassert(link != link); return 0; } #else #if defined(__CYGWIN__) || defined(__MINGW32__) || defined(__WOE__) #include #endif #include #include struct db_odbc { int mode; /*'R' = Read, 'W' = Write*/ SQLHDBC hdbc; /*connection handle*/ SQLHENV henv; /*environment handle*/ SQLHSTMT hstmt; /*statement handle*/ SQLSMALLINT nresultcols; /* columns in result*/ SQLULEN collen[SQL_FIELD_MAX+1]; SQLLEN outlen[SQL_FIELD_MAX+1]; SQLSMALLINT coltype[SQL_FIELD_MAX+1]; SQLCHAR data[SQL_FIELD_MAX+1][SQL_FDLEN_MAX+1]; #if 1 /* 12/I-2014 */ SQLDOUBLE datanum[SQL_FIELD_MAX+1]; #endif SQLCHAR colname[SQL_FIELD_MAX+1][SQL_FDLEN_MAX+1]; int isnumeric[SQL_FIELD_MAX+1]; int nf; /* number of fields in the csv file */ int ref[1+SQL_FIELD_MAX]; /* ref[k] = k', if k-th field of the csv file corresponds to k'-th field in the table statement; if ref[k] = 0, k-th field of the csv file is ignored */ SQLCHAR *query; /* query generated by db_iodbc_open */ }; SQLRETURN SQL_API dl_SQLAllocHandle ( SQLSMALLINT HandleType, SQLHANDLE InputHandle, SQLHANDLE *OutputHandle) { typedef SQLRETURN SQL_API ep_SQLAllocHandle( SQLSMALLINT HandleType, SQLHANDLE InputHandle, SQLHANDLE *OutputHandle); ep_SQLAllocHandle *fn; fn = (ep_SQLAllocHandle *) xdlsym(h_odbc, "SQLAllocHandle"); xassert(fn != NULL); return (*fn)(HandleType, InputHandle, OutputHandle); } SQLRETURN SQL_API dl_SQLBindCol ( SQLHSTMT StatementHandle, SQLUSMALLINT ColumnNumber, SQLSMALLINT TargetType, SQLPOINTER TargetValue, SQLLEN BufferLength, SQLLEN *StrLen_or_Ind) { typedef SQLRETURN SQL_API ep_SQLBindCol( SQLHSTMT StatementHandle, SQLUSMALLINT ColumnNumber, SQLSMALLINT TargetType, SQLPOINTER TargetValue, SQLLEN BufferLength, SQLLEN *StrLen_or_Ind); ep_SQLBindCol *fn; fn = (ep_SQLBindCol *) xdlsym(h_odbc, "SQLBindCol"); xassert(fn != NULL); return (*fn)(StatementHandle, ColumnNumber, TargetType, TargetValue, BufferLength, StrLen_or_Ind); } SQLRETURN SQL_API dl_SQLCloseCursor ( SQLHSTMT StatementHandle) { typedef SQLRETURN SQL_API ep_SQLCloseCursor ( SQLHSTMT StatementHandle); ep_SQLCloseCursor *fn; fn = (ep_SQLCloseCursor *) xdlsym(h_odbc, "SQLCloseCursor"); xassert(fn != NULL); return (*fn)(StatementHandle); } SQLRETURN SQL_API dl_SQLDisconnect ( SQLHDBC ConnectionHandle) { typedef SQLRETURN SQL_API ep_SQLDisconnect( SQLHDBC ConnectionHandle); ep_SQLDisconnect *fn; fn = (ep_SQLDisconnect *) xdlsym(h_odbc, "SQLDisconnect"); xassert(fn != NULL); return (*fn)(ConnectionHandle); } SQLRETURN SQL_API dl_SQLDriverConnect ( SQLHDBC hdbc, SQLHWND hwnd, SQLCHAR *szConnStrIn, SQLSMALLINT cbConnStrIn, SQLCHAR *szConnStrOut, SQLSMALLINT cbConnStrOutMax, SQLSMALLINT *pcbConnStrOut, SQLUSMALLINT fDriverCompletion) { typedef SQLRETURN SQL_API ep_SQLDriverConnect( SQLHDBC hdbc, SQLHWND hwnd, SQLCHAR * szConnStrIn, SQLSMALLINT cbConnStrIn, SQLCHAR * szConnStrOut, SQLSMALLINT cbConnStrOutMax, SQLSMALLINT * pcbConnStrOut, SQLUSMALLINT fDriverCompletion); ep_SQLDriverConnect *fn; fn = (ep_SQLDriverConnect *) xdlsym(h_odbc, "SQLDriverConnect"); xassert(fn != NULL); return (*fn)(hdbc, hwnd, szConnStrIn, cbConnStrIn, szConnStrOut, cbConnStrOutMax, pcbConnStrOut, fDriverCompletion); } SQLRETURN SQL_API dl_SQLEndTran ( SQLSMALLINT HandleType, SQLHANDLE Handle, SQLSMALLINT CompletionType) { typedef SQLRETURN SQL_API ep_SQLEndTran ( SQLSMALLINT HandleType, SQLHANDLE Handle, SQLSMALLINT CompletionType); ep_SQLEndTran *fn; fn = (ep_SQLEndTran *) xdlsym(h_odbc, "SQLEndTran"); xassert(fn != NULL); return (*fn)(HandleType, Handle, CompletionType); } SQLRETURN SQL_API dl_SQLExecDirect ( SQLHSTMT StatementHandle, SQLCHAR * StatementText, SQLINTEGER TextLength) { typedef SQLRETURN SQL_API ep_SQLExecDirect ( SQLHSTMT StatementHandle, SQLCHAR * StatementText, SQLINTEGER TextLength); ep_SQLExecDirect *fn; fn = (ep_SQLExecDirect *) xdlsym(h_odbc, "SQLExecDirect"); xassert(fn != NULL); return (*fn)(StatementHandle, StatementText, TextLength); } SQLRETURN SQL_API dl_SQLFetch ( SQLHSTMT StatementHandle) { typedef SQLRETURN SQL_API ep_SQLFetch ( SQLHSTMT StatementHandle); ep_SQLFetch *fn; fn = (ep_SQLFetch*) xdlsym(h_odbc, "SQLFetch"); xassert(fn != NULL); return (*fn)(StatementHandle); } SQLRETURN SQL_API dl_SQLFreeHandle ( SQLSMALLINT HandleType, SQLHANDLE Handle) { typedef SQLRETURN SQL_API ep_SQLFreeHandle ( SQLSMALLINT HandleType, SQLHANDLE Handle); ep_SQLFreeHandle *fn; fn = (ep_SQLFreeHandle *) xdlsym(h_odbc, "SQLFreeHandle"); xassert(fn != NULL); return (*fn)(HandleType, Handle); } SQLRETURN SQL_API dl_SQLDescribeCol ( SQLHSTMT StatementHandle, SQLUSMALLINT ColumnNumber, SQLCHAR * ColumnName, SQLSMALLINT BufferLength, SQLSMALLINT * NameLength, SQLSMALLINT * DataType, SQLULEN * ColumnSize, SQLSMALLINT * DecimalDigits, SQLSMALLINT * Nullable) { typedef SQLRETURN SQL_API ep_SQLDescribeCol ( SQLHSTMT StatementHandle, SQLUSMALLINT ColumnNumber, SQLCHAR *ColumnName, SQLSMALLINT BufferLength, SQLSMALLINT *NameLength, SQLSMALLINT *DataType, SQLULEN *ColumnSize, SQLSMALLINT *DecimalDigits, SQLSMALLINT *Nullable); ep_SQLDescribeCol *fn; fn = (ep_SQLDescribeCol *) xdlsym(h_odbc, "SQLDescribeCol"); xassert(fn != NULL); return (*fn)(StatementHandle, ColumnNumber, ColumnName, BufferLength, NameLength, DataType, ColumnSize, DecimalDigits, Nullable); } SQLRETURN SQL_API dl_SQLGetDiagRec ( SQLSMALLINT HandleType, SQLHANDLE Handle, SQLSMALLINT RecNumber, SQLCHAR *Sqlstate, SQLINTEGER *NativeError, SQLCHAR *MessageText, SQLSMALLINT BufferLength, SQLSMALLINT *TextLength) { typedef SQLRETURN SQL_API ep_SQLGetDiagRec ( SQLSMALLINT HandleType, SQLHANDLE Handle, SQLSMALLINT RecNumber, SQLCHAR *Sqlstate, SQLINTEGER *NativeError, SQLCHAR *MessageText, SQLSMALLINT BufferLength, SQLSMALLINT *TextLength); ep_SQLGetDiagRec *fn; fn = (ep_SQLGetDiagRec *) xdlsym(h_odbc, "SQLGetDiagRec"); xassert(fn != NULL); return (*fn)(HandleType, Handle, RecNumber, Sqlstate, NativeError, MessageText, BufferLength, TextLength); } SQLRETURN SQL_API dl_SQLGetInfo ( SQLHDBC ConnectionHandle, SQLUSMALLINT InfoType, SQLPOINTER InfoValue, SQLSMALLINT BufferLength, SQLSMALLINT *StringLength) { typedef SQLRETURN SQL_API ep_SQLGetInfo ( SQLHDBC ConnectionHandle, SQLUSMALLINT InfoType, SQLPOINTER InfoValue, SQLSMALLINT BufferLength, SQLSMALLINT *StringLength); ep_SQLGetInfo *fn; fn = (ep_SQLGetInfo *) xdlsym(h_odbc, "SQLGetInfo"); xassert(fn != NULL); return (*fn)(ConnectionHandle, InfoType, InfoValue, BufferLength, StringLength); } SQLRETURN SQL_API dl_SQLNumResultCols ( SQLHSTMT StatementHandle, SQLSMALLINT *ColumnCount) { typedef SQLRETURN SQL_API ep_SQLNumResultCols ( SQLHSTMT StatementHandle, SQLSMALLINT *ColumnCount); ep_SQLNumResultCols *fn; fn = (ep_SQLNumResultCols *) xdlsym(h_odbc, "SQLNumResultCols"); xassert(fn != NULL); return (*fn)(StatementHandle, ColumnCount); } SQLRETURN SQL_API dl_SQLSetConnectAttr ( SQLHDBC ConnectionHandle, SQLINTEGER Attribute, SQLPOINTER Value, SQLINTEGER StringLength) { typedef SQLRETURN SQL_API ep_SQLSetConnectAttr ( SQLHDBC ConnectionHandle, SQLINTEGER Attribute, SQLPOINTER Value, SQLINTEGER StringLength); ep_SQLSetConnectAttr *fn; fn = (ep_SQLSetConnectAttr *) xdlsym(h_odbc, "SQLSetConnectAttr"); xassert(fn != NULL); return (*fn)(ConnectionHandle, Attribute, Value, StringLength); } SQLRETURN SQL_API dl_SQLSetEnvAttr ( SQLHENV EnvironmentHandle, SQLINTEGER Attribute, SQLPOINTER Value, SQLINTEGER StringLength) { typedef SQLRETURN SQL_API ep_SQLSetEnvAttr ( SQLHENV EnvironmentHandle, SQLINTEGER Attribute, SQLPOINTER Value, SQLINTEGER StringLength); ep_SQLSetEnvAttr *fn; fn = (ep_SQLSetEnvAttr *) xdlsym(h_odbc, "SQLSetEnvAttr"); xassert(fn != NULL); return (*fn)(EnvironmentHandle, Attribute, Value, StringLength); } static void extract_error( char *fn, SQLHANDLE handle, SQLSMALLINT type); static int is_numeric( SQLSMALLINT coltype); /*********************************************************************** * NAME * * db_iodbc_open - open connection to ODBC data base * * SYNOPSIS * * #include "glpsql.h" * void *db_iodbc_open(TABDCA *dca, int mode); * * DESCRIPTION * * The routine db_iodbc_open opens a connection to an ODBC data base. * It then executes the sql statements passed. * * In the case of table read the SELECT statement is executed. * * In the case of table write the INSERT statement is prepared. * RETURNS * * The routine returns a pointer to data storage area created. */ void *db_iodbc_open(TABDCA *dca, int mode) { void *ret; char **sqllines; sqllines = args_concat(dca); if (sqllines == NULL) { xprintf("Missing arguments in table statement.\n" "Please, supply table driver, dsn, and query.\n"); return NULL; } ret = db_iodbc_open_int(dca, mode, (const char **) sqllines); free_buffer(sqllines); return ret; } static void *db_iodbc_open_int(TABDCA *dca, int mode, const char **sqllines) { struct db_odbc *sql; SQLRETURN ret; SQLCHAR FAR *dsn; SQLCHAR info[256]; SQLSMALLINT colnamelen; SQLSMALLINT nullable; SQLSMALLINT scale; const char *arg; int narg; int i, j; int total; if (libodbc == NULL) { xprintf("No loader for shared ODBC library available\n"); return NULL; } if (h_odbc == NULL) { h_odbc = xdlopen(libodbc); if (h_odbc == NULL) { xprintf("unable to open library %s\n", libodbc); xprintf("%s\n", get_err_msg()); return NULL; } } sql = (struct db_odbc *) xmalloc(sizeof(struct db_odbc)); if (sql == NULL) return NULL; sql->mode = mode; sql->hdbc = NULL; sql->henv = NULL; sql->hstmt = NULL; sql->query = NULL; narg = mpl_tab_num_args(dca); dsn = (SQLCHAR FAR *) mpl_tab_get_arg(dca, 2); /* allocate an environment handle */ ret = dl_SQLAllocHandle(SQL_HANDLE_ENV, SQL_NULL_HANDLE, &(sql->henv)); /* set attribute to enable application to run as ODBC 3.0 application */ ret = dl_SQLSetEnvAttr(sql->henv, SQL_ATTR_ODBC_VERSION, (void *) SQL_OV_ODBC3, 0); /* allocate a connection handle */ ret = dl_SQLAllocHandle(SQL_HANDLE_DBC, sql->henv, &(sql->hdbc)); /* connect */ ret = dl_SQLDriverConnect(sql->hdbc, NULL, dsn, SQL_NTS, NULL, 0, NULL, SQL_DRIVER_COMPLETE); if (SQL_SUCCEEDED(ret)) { /* output information about data base connection */ xprintf("Connected to "); dl_SQLGetInfo(sql->hdbc, SQL_DBMS_NAME, (SQLPOINTER)info, sizeof(info), NULL); xprintf("%s ", info); dl_SQLGetInfo(sql->hdbc, SQL_DBMS_VER, (SQLPOINTER)info, sizeof(info), NULL); xprintf("%s - ", info); dl_SQLGetInfo(sql->hdbc, SQL_DATABASE_NAME, (SQLPOINTER)info, sizeof(info), NULL); xprintf("%s\n", info); } else { /* describe error */ xprintf("Failed to connect\n"); extract_error("SQLDriverConnect", sql->hdbc, SQL_HANDLE_DBC); dl_SQLFreeHandle(SQL_HANDLE_DBC, sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_ENV, sql->henv); xfree(sql); return NULL; } /* set AUTOCOMMIT on*/ ret = dl_SQLSetConnectAttr(sql->hdbc, SQL_ATTR_AUTOCOMMIT, (SQLPOINTER)SQL_AUTOCOMMIT_ON, 0); /* allocate a statement handle */ ret = dl_SQLAllocHandle(SQL_HANDLE_STMT, sql->hdbc, &(sql->hstmt)); /* initialization queries */ for(j = 0; sqllines[j+1] != NULL; j++) { sql->query = (SQLCHAR *) sqllines[j]; xprintf("%s\n", sql->query); ret = dl_SQLExecDirect(sql->hstmt, sql->query, SQL_NTS); switch (ret) { case SQL_SUCCESS: case SQL_SUCCESS_WITH_INFO: case SQL_NO_DATA_FOUND: break; default: xprintf("db_iodbc_open: Query\n\"%s\"\nfailed.\n", sql->query); extract_error("SQLExecDirect", sql->hstmt, SQL_HANDLE_STMT); dl_SQLFreeHandle(SQL_HANDLE_STMT, sql->hstmt); dl_SQLDisconnect(sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_DBC, sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_ENV, sql->henv); xfree(sql); return NULL; } /* commit statement */ dl_SQLEndTran(SQL_HANDLE_ENV, sql->henv, SQL_COMMIT); } if ( sql->mode == 'R' ) { sql->nf = mpl_tab_num_flds(dca); for(j = 0; sqllines[j] != NULL; j++) arg = sqllines[j]; total = strlen(arg); if (total > 7 && 0 == strncmp(arg, "SELECT ", 7)) { total = strlen(arg); sql->query = xmalloc( (total+1) * sizeof(char)); strcpy (sql->query, arg); } else { sql->query = db_generate_select_stmt(dca); } xprintf("%s\n", sql->query); if (dl_SQLExecDirect(sql->hstmt, sql->query, SQL_NTS) != SQL_SUCCESS) { xprintf("db_iodbc_open: Query\n\"%s\"\nfailed.\n", sql->query); extract_error("SQLExecDirect", sql->hstmt, SQL_HANDLE_STMT); dl_SQLFreeHandle(SQL_HANDLE_STMT, sql->hstmt); dl_SQLDisconnect(sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_DBC, sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_ENV, sql->henv); xfree(sql->query); xfree(sql); return NULL; } xfree(sql->query); /* determine number of result columns */ ret = dl_SQLNumResultCols(sql->hstmt, &sql->nresultcols); total = sql->nresultcols; if (total > SQL_FIELD_MAX) { xprintf("db_iodbc_open: Too many fields (> %d) in query.\n" "\"%s\"\n", SQL_FIELD_MAX, sql->query); dl_SQLFreeHandle(SQL_HANDLE_STMT, sql->hstmt); dl_SQLDisconnect(sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_DBC, sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_ENV, sql->henv); xfree(sql->query); return NULL; } for (i = 1; i <= total; i++) { /* return a set of attributes for a column */ ret = dl_SQLDescribeCol(sql->hstmt, (SQLSMALLINT) i, sql->colname[i], SQL_FDLEN_MAX, &colnamelen, &(sql->coltype[i]), &(sql->collen[i]), &scale, &nullable); sql->isnumeric[i] = is_numeric(sql->coltype[i]); /* bind columns to program vars, converting all types to CHAR*/ if (sql->isnumeric[i]) #if 0 /* 12/I-2014 */ { dl_SQLBindCol(sql->hstmt, i, SQL_DOUBLE, sql->data[i], #else { dl_SQLBindCol(sql->hstmt, i, SQL_DOUBLE, &sql->datanum[i], #endif SQL_FDLEN_MAX, &(sql->outlen[i])); } else { dl_SQLBindCol(sql->hstmt, i, SQL_CHAR, sql->data[i], SQL_FDLEN_MAX, &(sql->outlen[i])); } for (j = sql->nf; j >= 1; j--) { if (strcmp(mpl_tab_get_name(dca, j), sql->colname[i]) == 0) break; } sql->ref[i] = j; } } else if ( sql->mode == 'W' ) { for(j = 0; sqllines[j] != NULL; j++) arg = sqllines[j]; if ( NULL != strchr(arg, '?') ) { total = strlen(arg); sql->query = xmalloc( (total+1) * sizeof(char)); strcpy (sql->query, arg); } else { sql->query = db_generate_insert_stmt(dca); } xprintf("%s\n", sql->query); } return sql; } int db_iodbc_read(TABDCA *dca, void *link) { struct db_odbc *sql; SQLRETURN ret; char buf[SQL_FDLEN_MAX+1]; int i; int len; double num; sql = (struct db_odbc *) link; xassert(sql != NULL); xassert(sql->mode == 'R'); ret=dl_SQLFetch(sql->hstmt); if (ret== SQL_ERROR) return -1; if (ret== SQL_NO_DATA_FOUND) return -1; /*EOF*/ for (i=1; i <= sql->nresultcols; i++) { if (sql->ref[i] > 0) { len = sql->outlen[i]; if (len != SQL_NULL_DATA) { if (sql->isnumeric[i]) { mpl_tab_set_num(dca, sql->ref[i], #if 0 /* 12/I-2014 */ *((const double *) sql->data[i])); #else (const double) sql->datanum[i]); #endif } else { if (len > SQL_FDLEN_MAX) len = SQL_FDLEN_MAX; else if (len < 0) len = 0; strncpy(buf, (const char *) sql->data[i], len); buf[len] = 0x00; mpl_tab_set_str(dca, sql->ref[i], strtrim(buf)); } } } } return 0; } int db_iodbc_write(TABDCA *dca, void *link) { struct db_odbc *sql; char *part; char *query; char *template; char num[50]; int k; int len; int nf; sql = (struct db_odbc *) link; xassert(sql != NULL); xassert(sql->mode == 'W'); len = strlen(sql->query); template = (char *) xmalloc( (len + 1) * sizeof(char) ); strcpy(template, sql->query); nf = mpl_tab_num_flds(dca); for (k = 1; k <= nf; k++) { switch (mpl_tab_get_type(dca, k)) { case 'N': len += 20; break; case 'S': len += db_escaped_string_length(mpl_tab_get_str(dca, k)); len += 2; break; default: xassert(dca != dca); } } query = xmalloc( (len + 1 ) * sizeof(char) ); query[0] = 0x00; for (k = 1, part = strtok (template, "?"); (part != NULL); part = strtok (NULL, "?"), k++) { if (k > nf) break; strcat( query, part ); switch (mpl_tab_get_type(dca, k)) { case 'N': #if 0 /* 02/XI-2010 by xypron */ sprintf(num, "%-18g",mpl_tab_get_num(dca, k)); #else sprintf(num, "%.*g", DBL_DIG, mpl_tab_get_num(dca, k)); #endif strcat( query, num ); break; case 'S': strcat( query, "'"); db_escape_string( query + strlen(query), mpl_tab_get_str(dca, k) ); strcat( query, "'"); break; default: xassert(dca != dca); } } if (part != NULL) strcat(query, part); if (dl_SQLExecDirect(sql->hstmt, (SQLCHAR *) query, SQL_NTS) != SQL_SUCCESS) { xprintf("db_iodbc_write: Query\n\"%s\"\nfailed.\n", query); extract_error("SQLExecDirect", sql->hdbc, SQL_HANDLE_DBC); xfree(query); xfree(template); return 1; } xfree(query); xfree(template); return 0; } int db_iodbc_close(TABDCA *dca, void *link) { struct db_odbc *sql; sql = (struct db_odbc *) link; xassert(sql != NULL); /* Commit */ if ( sql->mode == 'W' ) dl_SQLEndTran(SQL_HANDLE_ENV, sql->henv, SQL_COMMIT); if ( sql->mode == 'R' ) dl_SQLCloseCursor(sql->hstmt); dl_SQLFreeHandle(SQL_HANDLE_STMT, sql->hstmt); dl_SQLDisconnect(sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_DBC, sql->hdbc); dl_SQLFreeHandle(SQL_HANDLE_ENV, sql->henv); if ( sql->mode == 'W' ) xfree(sql->query); xfree(sql); dca->link = NULL; return 0; } static void extract_error( char *fn, SQLHANDLE handle, SQLSMALLINT type) { SQLINTEGER i = 0; SQLINTEGER native; SQLCHAR state[ 7 ]; SQLCHAR text[256]; SQLSMALLINT len; SQLRETURN ret; xprintf("\nThe driver reported the following diagnostics whilst " "running %s\n", fn); do { ret = dl_SQLGetDiagRec(type, handle, ++i, state, &native, text, sizeof(text), &len ); if (SQL_SUCCEEDED(ret)) xprintf("%s:%ld:%ld:%s\n", state, i, native, text); } while( ret == SQL_SUCCESS ); } static int is_numeric(SQLSMALLINT coltype) { int ret = 0; switch (coltype) { case SQL_DECIMAL: case SQL_NUMERIC: case SQL_SMALLINT: case SQL_INTEGER: case SQL_REAL: case SQL_FLOAT: case SQL_DOUBLE: case SQL_TINYINT: case SQL_BIGINT: ret = 1; break; } return ret; } #endif /**********************************************************************/ #ifndef HAVE_MYSQL void *db_mysql_open(TABDCA *dca, int mode) { xassert(dca == dca); xassert(mode == mode); xprintf("MySQL table driver not supported\n"); return NULL; } int db_mysql_read(TABDCA *dca, void *link) { xassert(dca != dca); xassert(link != link); return 0; } int db_mysql_write(TABDCA *dca, void *link) { xassert(dca != dca); xassert(link != link); return 0; } int db_mysql_close(TABDCA *dca, void *link) { xassert(dca != dca); xassert(link != link); return 0; } #else #if defined(__CYGWIN__) || defined(__MINGW32__) || defined(__WOE__) #include #endif #ifdef __CYGWIN__ #define byte_defined 1 #endif #if 0 /* 12/II-2014; to fix namespace bug */ #include #include #endif #include struct db_mysql { int mode; /*'R' = Read, 'W' = Write*/ MYSQL *con; /*connection*/ MYSQL_RES *res; /*result*/ int nf; /* number of fields in the csv file */ int ref[1+SQL_FIELD_MAX]; /* ref[k] = k', if k-th field of the csv file corresponds to k'-th field in the table statement; if ref[k] = 0, k-th field of the csv file is ignored */ char *query; /* query generated by db_mysql_open */ }; void STDCALL dl_mysql_close(MYSQL *sock) { typedef void STDCALL ep_mysql_close(MYSQL *sock); ep_mysql_close *fn; fn = (ep_mysql_close *) xdlsym(h_mysql, "mysql_close"); xassert(fn != NULL); return (*fn)(sock); } const char * STDCALL dl_mysql_error(MYSQL *mysql) { typedef const char * STDCALL ep_mysql_error(MYSQL *mysql); ep_mysql_error *fn; fn = (ep_mysql_error *) xdlsym(h_mysql, "mysql_error"); xassert(fn != NULL); return (*fn)(mysql); } MYSQL_FIELD * STDCALL dl_mysql_fetch_fields(MYSQL_RES *res) { typedef MYSQL_FIELD * STDCALL ep_mysql_fetch_fields(MYSQL_RES *res); ep_mysql_fetch_fields *fn; fn = (ep_mysql_fetch_fields *) xdlsym(h_mysql, "mysql_fetch_fields"); xassert(fn != NULL); return (*fn)(res); } unsigned long * STDCALL dl_mysql_fetch_lengths(MYSQL_RES *result) { typedef unsigned long * STDCALL ep_mysql_fetch_lengths(MYSQL_RES *result); ep_mysql_fetch_lengths *fn; fn = (ep_mysql_fetch_lengths *) xdlsym(h_mysql, "mysql_fetch_lengths"); xassert(fn != NULL); return (*fn)(result); } MYSQL_ROW STDCALL dl_mysql_fetch_row(MYSQL_RES *result) { typedef MYSQL_ROW STDCALL ep_mysql_fetch_row(MYSQL_RES *result); ep_mysql_fetch_row *fn; fn = (ep_mysql_fetch_row *) xdlsym(h_mysql, "mysql_fetch_row"); xassert(fn != NULL); return (*fn)(result); } unsigned int STDCALL dl_mysql_field_count(MYSQL *mysql) { typedef unsigned int STDCALL ep_mysql_field_count(MYSQL *mysql); ep_mysql_field_count *fn; fn = (ep_mysql_field_count *) xdlsym(h_mysql, "mysql_field_count"); xassert(fn != NULL); return (*fn)(mysql); } MYSQL * STDCALL dl_mysql_init(MYSQL *mysql) { typedef MYSQL * STDCALL ep_mysql_init(MYSQL *mysql); ep_mysql_init *fn; fn = (ep_mysql_init *) xdlsym(h_mysql, "mysql_init"); xassert(fn != NULL); return (*fn)(mysql); } unsigned int STDCALL dl_mysql_num_fields(MYSQL_RES *res) { typedef unsigned int STDCALL ep_mysql_num_fields(MYSQL_RES *res); ep_mysql_num_fields *fn; fn = (ep_mysql_num_fields *) xdlsym(h_mysql, "mysql_num_fields"); xassert(fn != NULL); return (*fn)(res); } int STDCALL dl_mysql_query(MYSQL *mysql, const char *q) { typedef int STDCALL ep_mysql_query(MYSQL *mysql, const char *q); ep_mysql_query *fn; fn = (ep_mysql_query *) xdlsym(h_mysql, "mysql_query"); xassert(fn != NULL); return (*fn)(mysql, q); } MYSQL * STDCALL dl_mysql_real_connect(MYSQL *mysql, const char *host, const char *user, const char *passwd, const char *db, unsigned int port, const char *unix_socket, unsigned long clientflag) { typedef MYSQL * STDCALL ep_mysql_real_connect(MYSQL *mysql, const char *host, const char *user, const char *passwd, const char *db, unsigned int port, const char *unix_socket, unsigned long clientflag); ep_mysql_real_connect *fn; fn = (ep_mysql_real_connect *) xdlsym(h_mysql, "mysql_real_connect"); xassert(fn != NULL); return (*fn)(mysql, host, user, passwd, db, port, unix_socket, clientflag); } MYSQL_RES * STDCALL dl_mysql_use_result(MYSQL *mysql) { typedef MYSQL_RES * STDCALL ep_mysql_use_result(MYSQL *mysql); ep_mysql_use_result *fn; fn = (ep_mysql_use_result *) xdlsym(h_mysql, "mysql_use_result"); xassert(fn != NULL); return (*fn)(mysql); } /*********************************************************************** * NAME * * db_mysql_open - open connection to ODBC data base * * SYNOPSIS * * #include "glpsql.h" * void *db_mysql_open(TABDCA *dca, int mode); * * DESCRIPTION * * The routine db_mysql_open opens a connection to a MySQL data base. * It then executes the sql statements passed. * * In the case of table read the SELECT statement is executed. * * In the case of table write the INSERT statement is prepared. * RETURNS * * The routine returns a pointer to data storage area created. */ void *db_mysql_open(TABDCA *dca, int mode) { void *ret; char **sqllines; sqllines = args_concat(dca); if (sqllines == NULL) { xprintf("Missing arguments in table statement.\n" "Please, supply table driver, dsn, and query.\n"); return NULL; } ret = db_mysql_open_int(dca, mode, (const char **) sqllines); free_buffer(sqllines); return ret; } static void *db_mysql_open_int(TABDCA *dca, int mode, const char **sqllines) { struct db_mysql *sql = NULL; char *arg = NULL; const char *field; MYSQL_FIELD *fields; char *keyword; char *value; char *query; char *dsn; /* "Server=[server_name];Database=[database_name];UID=[username];*/ /* PWD=[password];Port=[port]"*/ char *server = NULL; /* Server */ char *user = NULL; /* UID */ char *password = NULL; /* PWD */ char *database = NULL; /* Database */ unsigned int port = 0; /* Port */ int narg; int i, j, total; if (libmysql == NULL) { xprintf("No loader for shared MySQL library available\n"); return NULL; } if (h_mysql == NULL) { h_mysql = xdlopen(libmysql); if (h_mysql == NULL) { xprintf("unable to open library %s\n", libmysql); xprintf("%s\n", get_err_msg()); return NULL; } } sql = (struct db_mysql *) xmalloc(sizeof(struct db_mysql)); if (sql == NULL) return NULL; sql->mode = mode; sql->res = NULL; sql->query = NULL; sql->nf = mpl_tab_num_flds(dca); narg = mpl_tab_num_args(dca); if (narg < 3 ) xprintf("MySQL driver: string list too short \n"); /* get connection string*/ dsn = (char *) mpl_tab_get_arg(dca, 2); /* copy connection string*/ i = strlen(dsn); i++; arg = xmalloc(i * sizeof(char)); strcpy(arg, dsn); /*tokenize connection string*/ for (i = 1, keyword = strtok (arg, "="); (keyword != NULL); keyword = strtok (NULL, "="), i++) { value = strtok (NULL, ";"); if (value==NULL) { xprintf("db_mysql_open: Missing value for keyword %s\n", keyword); xfree(arg); xfree(sql); return NULL; } if (0 == strcmp(keyword, "Server")) server = value; else if (0 == strcmp(keyword, "Database")) database = value; else if (0 == strcmp(keyword, "UID")) user = value; else if (0 == strcmp(keyword, "PWD")) password = value; else if (0 == strcmp(keyword, "Port")) port = (unsigned int) atol(value); } /* Connect to database */ sql->con = dl_mysql_init(NULL); if (!dl_mysql_real_connect(sql->con, server, user, password, database, port, NULL, 0)) { xprintf("db_mysql_open: Connect failed\n"); xprintf("%s\n", dl_mysql_error(sql->con)); xfree(arg); xfree(sql); return NULL; } xfree(arg); for(j = 0; sqllines[j+1] != NULL; j++) { query = (char *) sqllines[j]; xprintf("%s\n", query); if (dl_mysql_query(sql->con, query)) { xprintf("db_mysql_open: Query\n\"%s\"\nfailed.\n", query); xprintf("%s\n",dl_mysql_error(sql->con)); dl_mysql_close(sql->con); xfree(sql); return NULL; } } if ( sql->mode == 'R' ) { sql->nf = mpl_tab_num_flds(dca); for(j = 0; sqllines[j] != NULL; j++) arg = (char *) sqllines[j]; total = strlen(arg); if (total > 7 && 0 == strncmp(arg, "SELECT ", 7)) { total = strlen(arg); query = xmalloc( (total+1) * sizeof(char)); strcpy (query, arg); } else { query = db_generate_select_stmt(dca); } xprintf("%s\n", query); if (dl_mysql_query(sql->con, query)) { xprintf("db_mysql_open: Query\n\"%s\"\nfailed.\n", query); xprintf("%s\n",dl_mysql_error(sql->con)); dl_mysql_close(sql->con); xfree(query); xfree(sql); return NULL; } xfree(query); sql->res = dl_mysql_use_result(sql->con); if (sql->res) { /* create references between query results and table fields*/ total = dl_mysql_num_fields(sql->res); if (total > SQL_FIELD_MAX) { xprintf("db_mysql_open: Too many fields (> %d) in query.\n" "\"%s\"\n", SQL_FIELD_MAX, query); xprintf("%s\n",dl_mysql_error(sql->con)); dl_mysql_close(sql->con); xfree(query); xfree(sql); return NULL; } fields = dl_mysql_fetch_fields(sql->res); for (i = 1; i <= total; i++) { for (j = sql->nf; j >= 1; j--) { if (strcmp(mpl_tab_get_name(dca, j), fields[i-1].name) == 0) break; } sql->ref[i] = j; } } else { if(dl_mysql_field_count(sql->con) == 0) { xprintf("db_mysql_open: Query was not a SELECT\n\"%s\"\n", query); xprintf("%s\n",dl_mysql_error(sql->con)); xfree(query); xfree(sql); return NULL; } else { xprintf("db_mysql_open: Query\n\"%s\"\nfailed.\n", query); xprintf("%s\n",dl_mysql_error(sql->con)); xfree(query); xfree(sql); return NULL; } } } else if ( sql->mode == 'W' ) { for(j = 0; sqllines[j] != NULL; j++) arg = (char *) sqllines[j]; if ( NULL != strchr(arg, '?') ) { total = strlen(arg); query = xmalloc( (total+1) * sizeof(char)); strcpy (query, arg); } else query = db_generate_insert_stmt(dca); sql->query = query; xprintf("%s\n", query); } return sql; } int db_mysql_read(TABDCA *dca, void *link) { struct db_mysql *sql; char buf[255+1]; char **row; unsigned long *lengths; MYSQL_FIELD *fields; double num; int len; unsigned long num_fields; int i; sql = (struct db_mysql *) link; xassert(sql != NULL); xassert(sql->mode == 'R'); if (NULL == sql->res) { xprintf("db_mysql_read: no result set available"); return 1; } if (NULL==(row = (char **)dl_mysql_fetch_row(sql->res))) { return -1; /*EOF*/ } lengths = dl_mysql_fetch_lengths(sql->res); fields = dl_mysql_fetch_fields(sql->res); num_fields = dl_mysql_num_fields(sql->res); for (i=1; i <= num_fields; i++) { if (row[i-1] != NULL) { len = (size_t) lengths[i-1]; if (len > 255) len = 255; strncpy(buf, (const char *) row[i-1], len); buf[len] = 0x00; if (0 != (fields[i-1].flags & NUM_FLAG)) { strspx(buf); /* remove spaces*/ if (str2num(buf, &num) != 0) { xprintf("'%s' cannot be converted to a number.\n", buf); return 1; } if (sql->ref[i] > 0) mpl_tab_set_num(dca, sql->ref[i], num); } else { if (sql->ref[i] > 0) mpl_tab_set_str(dca, sql->ref[i], strtrim(buf)); } } } return 0; } int db_mysql_write(TABDCA *dca, void *link) { struct db_mysql *sql; char *part; char *query; char *template; char num[50]; int k; int len; int nf; sql = (struct db_mysql *) link; xassert(sql != NULL); xassert(sql->mode == 'W'); len = strlen(sql->query); template = (char *) xmalloc( (len + 1) * sizeof(char) ); strcpy(template, sql->query); nf = mpl_tab_num_flds(dca); for (k = 1; k <= nf; k++) { switch (mpl_tab_get_type(dca, k)) { case 'N': len += 20; break; case 'S': len += db_escaped_string_length(mpl_tab_get_str(dca, k)); len += 2; break; default: xassert(dca != dca); } } query = xmalloc( (len + 1 ) * sizeof(char) ); query[0] = 0x00; for (k = 1, part = strtok (template, "?"); (part != NULL); part = strtok (NULL, "?"), k++) { if (k > nf) break; strcat( query, part ); switch (mpl_tab_get_type(dca, k)) { case 'N': #if 0 /* 02/XI-2010 by xypron */ sprintf(num, "%-18g",mpl_tab_get_num(dca, k)); #else sprintf(num, "%.*g", DBL_DIG, mpl_tab_get_num(dca, k)); #endif strcat( query, num ); break; case 'S': strcat( query, "'"); db_escape_string( query + strlen(query), mpl_tab_get_str(dca, k) ); strcat( query, "'"); break; default: xassert(dca != dca); } } if (part != NULL) strcat(query, part); if (dl_mysql_query(sql->con, query)) { xprintf("db_mysql_write: Query\n\"%s\"\nfailed.\n", query); xprintf("%s\n",dl_mysql_error(sql->con)); xfree(query); xfree(template); return 1; } xfree(query); xfree(template); return 0; } int db_mysql_close(TABDCA *dca, void *link) { struct db_mysql *sql; sql = (struct db_mysql *) link; xassert(sql != NULL); dl_mysql_close(sql->con); if ( sql->mode == 'W' ) xfree(sql->query); xfree(sql); dca->link = NULL; return 0; } #endif /* eof */