/************** MyConn C++ Program Source Code File (.CPP) **************/ /* PROGRAM NAME: MYCONN */ /* ------------- */ /* Version 1.9 */ /* */ /* COPYRIGHT: */ /* ---------- */ /* (C) Copyright to the author Olivier BERTRAND 2007-2017 */ /* */ /* WHAT THIS PROGRAM DOES: */ /* ----------------------- */ /* Implements a connection to MySQL. */ /* It can optionally use the embedded MySQL library. */ /* */ /* WHAT YOU NEED TO COMPILE THIS PROGRAM: */ /* -------------------------------------- */ /* */ /* REQUIRED FILES: */ /* --------------- */ /* MYCONN.CPP - Source code */ /* MYCONN.H - MYCONN class declaration file */ /* GLOBAL.H - Global declaration file */ /* */ /* REQUIRED LIBRARIES: */ /* ------------------- */ /* Large model C library */ /* */ /* REQUIRED PROGRAMS: */ /* ------------------ */ /* IBM, Borland, GNU or Microsoft C++ Compiler and Linker */ /* */ /************************************************************************/ #include "my_global.h" #if !defined(MYSQL_PREPARED_STATEMENTS) #include "my_sys.h" #include "mysqld_error.h" #endif // !MYSQL_PREPARED_STATEMENTS #if defined(_WIN32) //#include #else // !_WIN32 #include "osutil.h" #endif // !_WIN32 #include "global.h" #include "plgdbsem.h" #include "plgcnx.h" // For DB types #include "resource.h" //#include "value.h" //#include "valblk.h" #include "xobject.h" #define DLL_EXPORT // Items are exported from this DLL #include "myconn.h" //extern "C" int zconv; int GetConvSize(void); extern MYSQL_PLUGIN_IMPORT uint mysqld_port; extern MYSQL_PLUGIN_IMPORT char *mysqld_unix_port; DllExport void PushWarning(PGLOBAL, THD*, int level = 1); // Returns the current used port uint GetDefaultPort(void) { return mysqld_port; } // end of GetDefaultPort #if !defined(MYSQL_PREPARED_STATEMENTS) /************************************************************************** Alloc struct for use with unbuffered reads. Data is fetched by domand when calling to mysql_fetch_row. mysql_data_seek is a noop. No other queries may be specified with the same MYSQL handle. There shouldn't be much processing per row because mysql server shouldn't have to wait for the client (and will not wait more than 30 sec/packet). NOTE: copied from client.c cli_use_result **************************************************************************/ static MYSQL_RES *connect_use_result(MYSQL *mysql) { MYSQL_RES *result; DBUG_ENTER("connect_use_result"); if (!mysql->fields) DBUG_RETURN(NULL); if (mysql->status != MYSQL_STATUS_GET_RESULT) { my_message(ER_UNKNOWN_ERROR, "Command out of sync", MYF(0)); DBUG_RETURN(NULL); } // endif status if (!(result = (MYSQL_RES*) my_malloc(PSI_NOT_INSTRUMENTED, sizeof(*result) + sizeof(ulong) * mysql->field_count, MYF(MY_WME | MY_ZEROFILL)))) DBUG_RETURN(NULL); result->lengths = (ulong*)(result+1); result->methods = mysql->methods; /* Ptrs: to one row */ if (!(result->row = (MYSQL_ROW)my_malloc(PSI_NOT_INSTRUMENTED, sizeof(result->row[0]) * (mysql->field_count+1), MYF(MY_WME)))) { my_free(result); DBUG_RETURN(NULL); } // endif row result->fields = mysql->fields; result->field_alloc = mysql->field_alloc; result->field_count = mysql->field_count; result->current_field = 0; result->handle = mysql; result->current_row = 0; mysql->fields = 0; /* fields is now in result */ clear_alloc_root(&mysql->field_alloc); mysql->status = MYSQL_STATUS_USE_RESULT; mysql->unbuffered_fetch_owner = &result->unbuffered_fetch_cancelled; DBUG_RETURN(result); /* Data is ready to be fetched */ } // end of connect_use_result #endif // !MYSQL_PREPARED_STATEMENTS /************************************************************************/ /* MyColumns: constructs the result blocks containing all columns */ /* of a MySQL table or view. */ /* info = TRUE to get catalog column information. */ /************************************************************************/ PQRYRES MyColumns(PGLOBAL g, THD *thd, const char *host, const char *db, const char *user, const char *pwd, const char *table, const char *colpat, int port, bool info) { int buftyp[] = {TYPE_STRING, TYPE_SHORT, TYPE_STRING, TYPE_INT, TYPE_STRING, TYPE_SHORT, TYPE_SHORT, TYPE_SHORT, TYPE_STRING, TYPE_STRING, TYPE_STRING, TYPE_STRING, TYPE_STRING}; XFLD fldtyp[] = {FLD_NAME, FLD_TYPE, FLD_TYPENAME, FLD_PREC, FLD_KEY, FLD_SCALE, FLD_RADIX, FLD_NULL, FLD_REM, FLD_NO, FLD_DEFAULT, FLD_EXTRA, FLD_CHARSET}; //unsigned int length[] = {0, 4, 16, 4, 4, 4, 4, 4, 0, 0, 0, 0, 0}; unsigned int length[] = {0, 4, 0, 4, 4, 4, 4, 4, 0, 0, 0, 0, 0}; PCSZ fmt; char *fld, *colname, *chset, v, buf[128], uns[16], zero[16]; int i, n, nf = 0, ncol = sizeof(buftyp) / sizeof(int); int len, type, prec, rc; bool b; PQRYRES qrp; PCOLRES crp; MYSQLC myc; if (!port) port = mysqld_port; if (!info) { /********************************************************************/ /* Open the connection with the MySQL server. */ /********************************************************************/ if (myc.Open(g, host, db, user, pwd, port)) return NULL; /********************************************************************/ /* Do an evaluation of the result size. */ /********************************************************************/ STRING cmd(g, 64, "SHOW FULL COLUMNS FROM "); b = cmd.Append('`'); b |= cmd.Append((PSZ)table); b |= cmd.Append('`'); b |= cmd.Append(" FROM "); b |= cmd.Append((PSZ)(db ? db : PlgGetUser(g)->DBName)); if (colpat) { b |= cmd.Append(" LIKE "); b |= cmd.Append((PSZ)colpat); } // endif colpat if (b) { strcpy(g->Message, "Out of memory"); return NULL; } // endif b if (trace(1)) htrc("MyColumns: cmd='%s'\n", cmd.GetStr()); if ((n = myc.GetResultSize(g, cmd.GetStr())) < 0) { myc.Close(); return NULL; } // endif n /********************************************************************/ /* Get the size of the name and default columns. */ /********************************************************************/ length[0] = myc.GetFieldLength(0); // length[10] = myc.GetFieldLength(5); } else { n = 0; length[0] = 128; } // endif info /**********************************************************************/ /* Allocate the structures used to refer to the result set. */ /**********************************************************************/ if (!(qrp = PlgAllocResult(g, ncol, n, IDS_COLUMNS + 3, buftyp, fldtyp, length, false, true))) return NULL; // Some columns must be renamed for (i = 0, crp = qrp->Colresp; crp; crp = crp->Next) switch (++i) { case 2: crp->Nulls = (char*)PlugSubAlloc(g, NULL, n); break; case 4: crp->Name = "Length"; break; case 5: crp->Name = "Key"; break; case 10: crp->Name = "Date_fmt"; break; case 11: crp->Name = "Default"; break; case 12: crp->Name = "Extra"; break; case 13: crp->Name = "Collation"; break; } // endswitch i if (info) return qrp; /**********************************************************************/ /* Now get the results into blocks. */ /**********************************************************************/ for (i = 0; i < n; /*i++*/) { if ((rc = myc.Fetch(g, -1)) == RC_FX) { myc.Close(); return NULL; } else if (rc == RC_EF) break; // Get column name colname = myc.GetCharField(0); crp = qrp->Colresp; // Column_Name crp->Kdata->SetValue(colname, i); // Get type, type name, precision, unsigned and zerofill chset = myc.GetCharField(2); fld = myc.GetCharField(1); prec = 0; len = 0; // v = (chset && !strcmp(chset, "binary")) ? 'B' : 0; v = 0; *uns = 0; *zero = 0; b = false; if (!strnicmp(fld, "enum", 4)) { char *p2, *p1 = fld + 6; // to skip enum(' while (true) { p2 = strchr(p1, '\''); len = MY_MAX(len, (int)(p2 - p1)); if (*++p2 != ',') break; p1 = p2 + 2; } // endwhile v = (len > 255) ? 'V' : 0; strcpy(buf, "enum"); b = true; } else if (!strnicmp(fld, "set", 3)) { len = (int)strlen(fld) - 2; v = 'V'; strcpy(buf, "set"); b = true; } else switch ((nf = sscanf(fld, "%[^(](%d,%d", buf, &len, &prec))) { case 3: nf = sscanf(fld, "%[^(](%d,%d) %s %s", buf, &len, &prec, uns, zero); break; case 2: nf = sscanf(fld, "%[^(](%d) %s %s", buf, &len, uns, zero) + 1; break; case 1: nf = sscanf(fld, "%s %s %s", buf, uns, zero) + 2; break; default: sprintf(g->Message, MSG(BAD_FIELD_TYPE), fld); myc.Close(); return NULL; } // endswitch nf if ((type = MYSQLtoPLG(buf, &v)) == TYPE_ERROR) { if (v == 'K') { // Skip this column sprintf(g->Message, "Column %s skipped (unsupported type %s)", colname, buf); PushWarning(g, thd); continue; } // endif v sprintf(g->Message, "Column %s unsupported type %s", colname, buf); myc.Close(); return NULL; } else if (type == TYPE_STRING) { if (v == 'X') { len = GetConvSize(); sprintf(g->Message, "Column %s converted to varchar(%d)", colname, len); PushWarning(g, thd); v = 'V'; } else len = MY_MIN(len, 4096); } // endif type qrp->Nblin++; crp = crp->Next; // Data_Type crp->Kdata->SetValue(type, i); switch (nf) { case 5: crp->Nulls[i] = 'Z'; break; case 4: crp->Nulls[i] = 'U'; break; default: crp->Nulls[i] = v; break; } // endswitch nf if (b) // enum or set nf = sscanf(fld, "%s ", buf); // get values crp = crp->Next; // Type_Name crp->Kdata->SetValue(buf, i); if (type == TYPE_DATE) { // When creating tables we do need info about date columns fmt = MyDateFmt(buf); len = strlen(fmt); } else fmt = NULL; crp = crp->Next; // Precision crp->Kdata->SetValue(len, i); crp = crp->Next; // key (was Length) fld = myc.GetCharField(4); crp->Kdata->SetValue(fld, i); crp = crp->Next; // Scale crp->Kdata->SetValue(prec, i); crp = crp->Next; // Radix crp->Kdata->SetValue(0, i); crp = crp->Next; // Nullable fld = myc.GetCharField(3); crp->Kdata->SetValue((toupper(*fld) == 'Y') ? 1 : 0, i); crp = crp->Next; // Remark fld = myc.GetCharField(8); crp->Kdata->SetValue(fld, i); crp = crp->Next; // Date format // crp->Kdata->SetValue((fmt) ? fmt : (char*) "", i); crp->Kdata->SetValue(fmt, i); crp = crp->Next; // New (default) fld = myc.GetCharField(5); crp->Kdata->SetValue(fld, i); crp = crp->Next; // New (extra) fld = myc.GetCharField(6); crp->Kdata->SetValue(fld, i); crp = crp->Next; // New (charset) fld = chset; crp->Kdata->SetValue(fld, i); i++; // Can be skipped } // endfor i #if 0 if (k > 1) { // Multicolumn primary key PVBLK vbp = qrp->Colresp->Next->Next->Next->Next->Kdata; for (i = 0; i < n; i++) if (vbp->GetIntValue(i)) vbp->SetValue(k, i); } // endif k #endif // 0 /**********************************************************************/ /* Close MySQL connection. */ /**********************************************************************/ myc.Close(); /**********************************************************************/ /* Return the result pointer for use by GetData routines. */ /**********************************************************************/ return qrp; } // end of MyColumns /************************************************************************/ /* SrcColumns: constructs the result blocks containing all columns */ /* resulting from an SQL source definition query execution. */ /************************************************************************/ PQRYRES SrcColumns(PGLOBAL g, const char *host, const char *db, const char *user, const char *pwd, const char *srcdef, int port) { char *query; int w; MYSQLC myc; PQRYRES qrp = NULL; if (!port) port = mysqld_port; if (!strnicmp(srcdef, "select ", 7) || strstr(srcdef, "%s")) { query = (char *)PlugSubAlloc(g, NULL, strlen(srcdef) + 10); if (strstr(srcdef, "%s")) sprintf(query, srcdef, "1=1"); // dummy where clause else strcpy(query, srcdef); if (!strnicmp(srcdef, "select ", 7)) strcat(query, " LIMIT 0"); } else query = (char *)srcdef; // Open a MySQL connection for this table if (myc.Open(g, host, db, user, pwd, port)) return NULL; // Send the source command to MySQL if (myc.ExecSQL(g, query, &w) == RC_OK) qrp = myc.GetResult(g, true); myc.Close(); return qrp; } // end of SrcColumns /* -------------------------- Class MYSQLC --------------------------- */ /***********************************************************************/ /* Implementation of the MYSQLC class. */ /***********************************************************************/ MYSQLC::MYSQLC(void) { m_DB = NULL; #if defined (MYSQL_PREPARED_STATEMENTS) m_Stmt = NULL; #endif // MYSQL_PREPARED_STATEMENTS m_Res = NULL; m_Rows = -1; m_Row = NULL; m_Fields = -1; N = 0; m_Use = false; } // end of MYSQLC constructor /***********************************************************************/ /* Get the number of lines of the result set. */ /* Currently we send the Select command and return m_Rows */ /* Perhaps should we use Select count(*) ... (?????) */ /* No because here we execute only one query instead of two */ /* (the select count(*) plus the normal query) */ /***********************************************************************/ int MYSQLC::GetResultSize(PGLOBAL g, PSZ sql) { if (m_Rows < 0) if (ExecSQL(g, sql) != RC_OK) return -1; return m_Rows; } // end of GetResultSize /***********************************************************************/ /* Open a MySQL (remote) connection. */ /***********************************************************************/ int MYSQLC::Open(PGLOBAL g, const char *host, const char *db, const char *user, const char *pwd, int pt, const char *csname) { const char *pipe = NULL; //uint cto = 10, nrt = 20; my_bool my_true= 1; m_DB = mysql_init(NULL); if (!m_DB) { strcpy(g->Message, "mysql_init failed: no memory"); return RC_FX; } // endif m_DB if (trace(1)) htrc("MYSQLC Open: m_DB=%.4X size=%d\n", m_DB, (int)sizeof(*m_DB)); // Removed to do like FEDERATED does //mysql_options(m_DB, MYSQL_READ_DEFAULT_GROUP, "client-mariadb"); //mysql_options(m_DB, MYSQL_OPT_USE_REMOTE_CONNECTION, NULL); //mysql_options(m_DB, MYSQL_OPT_CONNECT_TIMEOUT, &cto); //mysql_options(m_DB, MYSQL_OPT_READ_TIMEOUT, &nrt); //mysql_options(m_DB, MYSQL_OPT_WRITE_TIMEOUT, ...); #if defined(_WIN32) if (!strcmp(host, ".")) { mysql_options(m_DB, MYSQL_OPT_NAMED_PIPE, NULL); pipe = mysqld_unix_port; } // endif host #else // !_WIN32 if (!strcmp(host, "localhost")) pipe = mysqld_unix_port; #endif // !_WIN32 #if 0 if (pwd && !strcmp(pwd, "*")) { if (GetPromptAnswer(g, "*Enter password:")) { m_DB = NULL; return RC_FX; } else pwd = g->Message; } // endif pwd #endif // 0 /***********************************************************************/ /* BUG# 17044 Federated Storage Engine is not UTF8 clean */ /* Add set names to whatever charset the table is at open of table */ /* this sets the csname like 'set names utf8'. */ /***********************************************************************/ if (csname) mysql_options(m_DB, MYSQL_SET_CHARSET_NAME, csname); // Don't know what this one do but FEDERATED does it mysql_options(m_DB, MYSQL_OPT_USE_THREAD_SPECIFIC_MEMORY, (char*)&my_true); if (!mysql_real_connect(m_DB, host, user, pwd, db, pt, pipe, CLIENT_MULTI_RESULTS | CLIENT_REMEMBER_OPTIONS)) { #if defined(_DEBUG) sprintf(g->Message, "mysql_real_connect failed: (%d) %s", mysql_errno(m_DB), mysql_error(m_DB)); #else // !_DEBUG sprintf(g->Message, "(%d) %s", mysql_errno(m_DB), mysql_error(m_DB)); #endif // !_DEBUG mysql_close(m_DB); m_DB = NULL; return RC_FX; } // endif mysql_real_connect return RC_OK; } // end of Open /***********************************************************************/ /* Returns true if the connection is still alive. */ /***********************************************************************/ bool MYSQLC::Connected(void) { //int rc; if (!m_DB) return FALSE; //else if ((rc = mysql_ping(m_DB)) == CR_SERVER_GONE_ERROR) // return FALSE; else return TRUE; } // end of Connected #if 0 // Not used /***********************************************************************/ /* Returns the thread ID of the current MySQL connection. */ /***********************************************************************/ ulong MYSQLC::GetThreadID(void) { return (m_DB) ? mysql_thread_id(m_DB) : 0; } // end of GetThreadID /***********************************************************************/ /* Returns a string that represents the server version number. */ /***********************************************************************/ const char *MYSQLC::ServerInfo(void) { return (m_DB) ? mysql_get_server_info(m_DB) : NULL; } // end of ServerInfo /***********************************************************************/ /* Returns the version number of the server as a number that */ /* represents the MySQL server version in this format: */ /* major_version*10000 + minor_version *100 + sub_version */ /***********************************************************************/ ulong MYSQLC::ServerVersion(void) { return (m_DB) ? mysql_get_server_version(m_DB) : 0; } // end of ServerVersion #endif // 0 /**************************************************************************/ /* KillQuery: Send MySQL a Kill Query command. */ /**************************************************************************/ int MYSQLC::KillQuery(ulong id) { char kill[20]; sprintf(kill, "KILL QUERY %u", (unsigned int) id); //return (m_DB) ? mysql_query(m_DB, kill) : 1; return (m_DB) ? mysql_real_query(m_DB, kill, strlen(kill)) : 1; } // end of KillQuery #if defined (MYSQL_PREPARED_STATEMENTS) /***********************************************************************/ /* Prepare the SQL statement used to insert into a MySQL table. */ /***********************************************************************/ int MYSQLC::PrepareSQL(PGLOBAL g, const char *stmt) { if (!m_DB) { strcpy(g->Message, "MySQL not connected"); return -4; } else if (m_Stmt) return -1; // should not append #if defined(ALPHA) if (!(m_Stmt = mysql_prepare(m_DB, stmt, strlen(stmt)))) { sprintf(g->Message, "mysql_prepare failed: %s [%s]", mysql_error(m_DB), stmt); return -1; } // endif m_Stmt // Return the parameter count from the statement return mysql_param_count(m_Stmt); #else // !ALPHA if (!(m_Stmt = mysql_stmt_init(m_DB))) { strcpy(g->Message, "mysql_stmt_init(), out of memory"); return -2; } // endif m_Stmt if (mysql_stmt_prepare(m_Stmt, stmt, strlen(stmt))) { sprintf(g->Message, "mysql_stmt_prepare() failed: (%d) %s", mysql_stmt_errno(m_Stmt), mysql_stmt_error(m_Stmt)); return -3; } // endif prepare // Return the parameter count from the statement return mysql_stmt_param_count(m_Stmt); #endif // !ALPHA } // end of PrepareSQL /***********************************************************************/ /* Bind the parameter buffers. */ /***********************************************************************/ int MYSQLC::BindParams(PGLOBAL g, MYSQL_BIND *bind) { if (!m_DB) { strcpy(g->Message, "MySQL not connected"); return RC_FX; } else assert(m_Stmt); #if defined(ALPHA) if (mysql_bind_param(m_Stmt, bind)) { sprintf(g->Message, "mysql_bind_param() failed: %s", mysql_stmt_error(m_Stmt)); #else // !ALPHA if (mysql_stmt_bind_param(m_Stmt, bind)) { sprintf(g->Message, "mysql_stmt_bind_param() failed: %s", mysql_stmt_error(m_Stmt)); #endif // !ALPHA return RC_FX; } // endif bind return RC_OK; /***********************************************************************/ /* Execute a prepared statement. */ /***********************************************************************/ int MYSQLC::ExecStmt(PGLOBAL g) { if (!m_DB) { strcpy(g->Message, "MySQL not connected"); return RC_FX; } // endif m_DB #if defined(ALPHA) if (mysql_execute(m_Stmt)) { sprintf(g->Message, "mysql_execute() failed: %s", mysql_stmt_error(m_Stmt)); return RC_FX; } // endif execute #else // !ALPHA if (mysql_stmt_execute(m_Stmt)) { sprintf(g->Message, "mysql_stmt_execute() failed: %s", mysql_stmt_error(m_Stmt)); return RC_FX; } // endif execute #endif // !ALPHA // Check the total number of affected rows if (mysql_stmt_affected_rows(m_Stmt) != 1) { sprintf(g->Message, "Invalid affected rows by MySQL"); return RC_FX; } // endif affected_rows return RC_OK; } // end of ExecStmt #endif // MYSQL_PREPARED_STATEMENTS /***********************************************************************/ /* Exec the Select SQL command and get back the result size in rows. */ /***********************************************************************/ int MYSQLC::ExecSQL(PGLOBAL g, const char *query, int *w) { int rc = RC_OK; if (!m_DB) { strcpy(g->Message, "MySQL not connected"); return RC_FX; } // endif m_DB if (w) *w = 0; if (m_Rows >= 0) return RC_OK; // Already done //if (mysql_query(m_DB, query) != 0) { if (mysql_real_query(m_DB, query, strlen(query))) { char *msg = (char*)PlugSubAlloc(g, NULL, 512 + strlen(query)); sprintf(msg, "(%d) %s [%s]", mysql_errno(m_DB), mysql_error(m_DB), query); strncpy(g->Message, msg, sizeof(g->Message) - 1); g->Message[sizeof(g->Message) - 1] = 0; rc = RC_FX; //} else if (mysql_field_count(m_DB) > 0) { } else if (m_DB->field_count > 0) { if (m_Use) #if defined(MYSQL_PREPARED_STATEMENTS) m_Res = mysql_use_result(m_DB); #else // !MYSQL_PREPARED_STATEMENTS) m_Res = connect_use_result(m_DB); #endif // !MYSQL_PREPARED_STATEMENTS else m_Res = mysql_store_result(m_DB); if (!m_Res) { char *msg = (char*)PlugSubAlloc(g, NULL, 512 + strlen(query)); sprintf(msg, "mysql_store_result failed: %s", mysql_error(m_DB)); strncpy(g->Message, msg, sizeof(g->Message) - 1); g->Message[sizeof(g->Message) - 1] = 0; rc = RC_FX; } else { m_Fields = mysql_num_fields(m_Res); m_Rows = (!m_Use) ? (int)mysql_num_rows(m_Res) : 0; if (trace(1)) htrc("ExecSQL: m_Res=%.4X size=%d m_Fields=%d m_Rows=%d\n", m_Res, sizeof(*m_Res), m_Fields, m_Rows); } // endif m_Res } else { // m_Rows = (int)mysql_affected_rows(m_DB); m_Rows = (int)m_DB->affected_rows; sprintf(g->Message, "Affected rows: %d\n", m_Rows); rc = RC_NF; } // endif field count if (w) // *w = mysql_warning_count(m_DB); *w = m_DB->warning_count; return rc; } // end of ExecSQL /***********************************************************************/ /* Get table size by executing "select count(*) from table_name". */ /***********************************************************************/ int MYSQLC::GetTableSize(PGLOBAL g __attribute__((unused)), PSZ query) { if (mysql_real_query(m_DB, query, strlen(query))) { #if defined(_DEBUG) char *msg = (char*)PlugSubAlloc(g, NULL, 512 + strlen(query)); sprintf(msg, "(%d) %s [%s]", mysql_errno(m_DB), mysql_error(m_DB), query); strncpy(g->Message, msg, sizeof(g->Message) - 1); g->Message[sizeof(g->Message) - 1] = 0; #endif // _DEBUG return -2; } // endif mysql_real_query if (!(m_Res = mysql_store_result(m_DB))) return -3; // Get the resulting count value m_Rows = (int)mysql_num_rows(m_Res); // Should be 1 if (m_Rows && (m_Row = mysql_fetch_row(m_Res))) return atoi(*m_Row); return -4; } // end of GetTableSize /***********************************************************************/ /* Move to a specific row and column */ /***********************************************************************/ void MYSQLC::DataSeek(my_ulonglong row) { MYSQL_ROWS *tmp = 0; //DBUG_PRINT("info",("mysql_data_seek(%ld)",(long) row)); if (m_Res->data) for (tmp = m_Res->data->data; row-- && tmp; tmp = tmp->next) ; m_Res->current_row = 0; m_Res->data_cursor = tmp; } // end of DataSeek /***********************************************************************/ /* Fetch one result line from the query result set. */ /***********************************************************************/ int MYSQLC::Fetch(PGLOBAL g, int pos) { if (!m_DB) { strcpy(g->Message, "MySQL not connected"); return RC_FX; } // endif m_DB if (!m_Res) { // Result set was not initialized strcpy(g->Message, MSG(FETCH_NO_RES)); return RC_FX; } else N++; if (pos >= 0) // mysql_data_seek(m_Res, (my_ulonglong)pos); DataSeek((my_ulonglong)pos); m_Row = mysql_fetch_row(m_Res); return (m_Row) ? RC_OK : RC_EF; } // end of Fetch /***********************************************************************/ /* Get one field of the current row. */ /***********************************************************************/ char *MYSQLC::GetCharField(int i) { if (m_Res && m_Row) { #if defined(_DEBUG) // MYSQL_FIELD *fld = mysql_fetch_field_direct(m_Res, i); #endif // _DEBUG MYSQL_ROW row = m_Row + i; return (row) ? (char*)*row : (char*)""; } else return NULL; } // end of GetCharField /***********************************************************************/ /* Get the max length of the field. */ /***********************************************************************/ int MYSQLC::GetFieldLength(int i) { if (m_Res) { // MYSQL_FIELD *fld = mysql_fetch_field_direct(m_Res, i); // return fld->max_length; return (m_Res)->fields[i].max_length; } else return 0; } // end of GetFieldLength /***********************************************************************/ /* Return next field of the query results. */ /***********************************************************************/ MYSQL_FIELD *MYSQLC::GetNextField(void) { return (m_Res->current_field >= m_Res->field_count) ? NULL : &m_Res->fields[m_Res->current_field++]; } // end of GetNextField /***********************************************************************/ /* Make a CONNECT result structure from the MySQL result. */ /***********************************************************************/ PQRYRES MYSQLC::GetResult(PGLOBAL g, bool pdb) { PCSZ fmt; char *name, v= 0; int n; bool uns; PCOLRES *pcrp, crp; PQRYRES qrp; MYSQL_FIELD *fld; MYSQL_ROW row; if (!m_Res || !m_Fields) { sprintf(g->Message, "%s result", (m_Res) ? "Void" : "No"); return NULL; } // endif m_Res /*********************************************************************/ /* Put the result in storage for future retrieval. */ /*********************************************************************/ qrp = (PQRYRES)PlugSubAlloc(g, NULL, sizeof(QRYRES)); pcrp = &qrp->Colresp; qrp->Continued = FALSE; qrp->Truncated = FALSE; qrp->Info = FALSE; qrp->Suball = TRUE; qrp->BadLines = 0; qrp->Maxsize = m_Rows; qrp->Maxres = m_Rows; qrp->Nbcol = 0; qrp->Nblin = 0; qrp->Cursor = 0; //for (fld = mysql_fetch_field(m_Res); fld; // fld = mysql_fetch_field(m_Res)) { for (fld = GetNextField(); fld; fld = GetNextField()) { *pcrp = (PCOLRES)PlugSubAlloc(g, NULL, sizeof(COLRES)); crp = *pcrp; pcrp = &crp->Next; memset(crp, 0, sizeof(COLRES)); crp->Ncol = ++qrp->Nbcol; name = (char*)PlugSubAlloc(g, NULL, fld->name_length + 1); strcpy(name, fld->name); crp->Name = name; if ((crp->Type = MYSQLtoPLG(fld->type, &v)) == TYPE_ERROR) { sprintf(g->Message, "Type %d not supported for column %s", fld->type, crp->Name); return NULL; } else if (crp->Type == TYPE_DATE && !pdb) // For direct MySQL connection, display the MySQL date string crp->Type = TYPE_STRING; else crp->Var = v; crp->Prec = (crp->Type == TYPE_DOUBLE || crp->Type == TYPE_DECIM) ? fld->decimals : 0; CHARSET_INFO *cs= get_charset(fld->charsetnr, MYF(0)); crp->Clen = GetTypeSize(crp->Type, fld->length); crp->Length = fld->length / (cs ? cs->mbmaxlen : 1); uns = (fld->flags & (UNSIGNED_FLAG | ZEROFILL_FLAG)) ? true : false; if (!(crp->Kdata = AllocValBlock(g, NULL, crp->Type, m_Rows, crp->Clen, 0, FALSE, TRUE, uns))) { sprintf(g->Message, MSG(INV_RESULT_TYPE), GetFormatType(crp->Type)); return NULL; } else if (crp->Type == TYPE_DATE) { fmt = MyDateFmt(fld->type); crp->Kdata->SetFormat(g, fmt, strlen(fmt)); } // endif's if (fld->flags & NOT_NULL_FLAG) crp->Nulls = NULL; else { if (m_Rows) { crp->Nulls = (char*)PlugSubAlloc(g, NULL, m_Rows); memset(crp->Nulls, ' ', m_Rows); } // endif m_Rows crp->Kdata->SetNullable(true); } // endelse fld->flags } // endfor fld *pcrp = NULL; assert(qrp->Nbcol == m_Fields); /*********************************************************************/ /* Now fill the allocated result structure. */ /*********************************************************************/ for (n = 0; n < m_Rows; n++) { if (!(m_Row = mysql_fetch_row(m_Res))) { sprintf(g->Message, "Missing row %d from result", n + 1); return NULL; } // endif m_Row for (crp = qrp->Colresp; crp; crp = crp->Next) { if ((row = m_Row + (crp->Ncol - 1))) { if (*row) crp->Kdata->SetValue((PSZ)*row, n); else { if (!*row && crp->Nulls) crp->Nulls[n] = '*'; // Null value crp->Kdata->Reset(n); } // endelse *row } } // endfor crp } // endfor n qrp->Nblin = n; return qrp; } // end of GetResult /***********************************************************************/ /* Free the current result. */ /***********************************************************************/ void MYSQLC::FreeResult(void) { if (m_Res) { mysql_free_result(m_Res); m_Res = NULL; } // endif m_Res // Reset the connection m_Row = NULL; m_Rows = -1; m_Fields = -1; N = 0; } // end of FreeResult /***********************************************************************/ /* Place the cursor at the beginning of the result set. */ /***********************************************************************/ int MYSQLC::Rewind(PGLOBAL g, PSZ sql) { int rc = RC_OK; if (m_Res) DataSeek(0); else if (sql) rc = ExecSQL(g, sql); return rc; } // end of Rewind /***********************************************************************/ /* Exec the Select SQL command and return ncol or afrws (TDBMYEXC). */ /***********************************************************************/ int MYSQLC::ExecSQLcmd(PGLOBAL g, const char *query, int *w) { int rc = RC_OK; if (!m_DB) { strcpy(g->Message, "MySQL not connected"); return RC_FX; } else *w = 0; if (!stricmp(query, "Warning") || !stricmp(query, "Note") || !stricmp(query, "Error")) return RC_INFO; else m_Afrw = 0; //if (mysql_query(m_DB, query) != 0) { if (mysql_real_query(m_DB, query, strlen(query))) { m_Afrw = (int)mysql_errno(m_DB); sprintf(g->Message, "Remote: %s", mysql_error(m_DB)); rc = RC_FX; //} else if (!(m_Fields = mysql_field_count(m_DB))) { } else if (!(m_Fields = (int)m_DB->field_count)) { // m_Afrw = (int)mysql_affected_rows(m_DB); m_Afrw = (int)m_DB->affected_rows; rc = RC_NF; } // endif's //*w = mysql_warning_count(m_DB); *w = m_DB->warning_count; return rc; } // end of ExecSQLcmd /***********************************************************************/ /* Close the connection. */ /***********************************************************************/ void MYSQLC::Close(void) { FreeResult(); if (trace(1)) htrc("MYSQLC Close: m_DB=%.4X\n", m_DB); mysql_close(m_DB); m_DB = NULL; } // end of Close #if 0 // not used yet /***********************************************************************/ /* Discard additional results from a stored procedure. */ /***********************************************************************/ void MYSQLC::DiscardResults(void) { MYSQL_RES *res; while (!mysql_next_result(m_DB)) { res = mysql_store_result(m_DB); mysql_free_result(res); } // endwhile next result } // end of DiscardResults #endif // 0