// This file defines all the Open Data Services event handler functions for the
// GATEWAY application.
//
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <windows.h>
#include <sqlfront.h>
#include <sqldb.h>
#include <srv.h>
// Define some user message codes.
//
#define SRV_MAXERROR 20000
#define RPC_UNKNOWN SRV_MAXERROR + 1
#define COMPUTE_ROW SRV_MAXERROR + 2
#define REMOTE_MSG SRV_MAXERROR + 3
#define SEND_FAILED SRV_MAXERROR + 4
#define BULK_CMD "insert bulk"
// This error value must be sent back to the client in the event
// of a failure to login to the target database. It is used in the
// init_remote() function below.
//
#define REMOTE_FAIL 4002
// Declare the structure to use for our private data area.
// It will be passed to the event handlers in the SRV_PROC structure.
// It contains information to make and use a connection to the remote
// DBMS -- in this case a SQL Server.
//
// A gateway to a non-SQL Server DBMS would contain a different structure.
//
#define MAXPARAMS 255
typedef struct remote_dbms {
LOGINREC *login; // The SQL Server login structure
DBPROCESS *dbproc; // The connection to the remote SQL Server
BOOL bulk_mode; // Flag indicating "bulk insert" mode
short retparams[MAXPARAMS]; // tag return parameters
} REMOTE_DBMS;
// Declare the structure to be used for packing column metadata into the user datatype
// field. This is a new feature of SQL Server 6.0. The additional column metadata
// is available via dbcolinfo() in DB-Lib.
typedef struct _typeinfo
{
USHORT typeid;// used to hold the real user datatype
USHORT nullable:1, // TRUE/FALSE
case_sensitive:1,// TRUE, FALSE
updateable:2,// TRUE, FALSE, UNKNOWN
identity:1,// TRUE/FALSE
spare1:1,// spare fields
spare2:2,
spare3:8;
} TYPEINFO;
// The remote server name of this gateway
//
DBCHAR *remote_server = NULL;
SRV_PROC *Newsrvproc; // Latest SRV_PROC allocated.
// Mutex used for init_remote()
HANDLE init_remote_mutex = 0;
int dbcolntype(DBPROCESS *dbproc, int column);
int attn_handler(SRV_PROC *srvproc);
int chk_err(SRV_SERVER *server, SRV_PROC *srvproc, int srverror,
BYTE severity, BYTE state, int oserrnum, DBCHAR *errtext,
int errtextlen, DBCHAR *oserrtext, int oserrtextlen);
int init_remote(SRV_PROC *srvproc);
int init_server(SRV_SERVER *server);
int rpc_execute(SRV_PROC *srvproc);
int exit_remote(SRV_PROC *srvproc);
int lang_execute(SRV_PROC *srvproc);
int handle_results(DBPROCESS *rmtproc, SRV_PROC *srvproc);
int remotemsgs(DBPROCESS *dbproc, DBINT msgno, INT msgstate,
INT severity, LPCSTR msgtext, LPCSTR srvname, LPCSTR procname,
DBUSMALLINT line);
int remoteerr(DBPROCESS *dbproc, INT severity, INT dberr, INT oserr,
LPCSTR dberrstr, LPCSTR oserrstr);
void set_remote_server_name(char *name);
//
// This section defines the "call-back" functions supplied to the gateway
// application.
//
#pragma check_stack( off ) // turn off stack checking
//
// SET_REMOTE_SERVER_NAME
//
// This function sets the name of the remote server.
//
// Parameters:
// name - Pointer to name of server.
//
// Returns:
// none
//
void set_remote_server_name(name)
char *name;
{
remote_server = name;
}
//
// INIT_SERVER
// Initialize the server on a SRV_START event.
// Event handlers for the server are installed.
//
// Parameters:
// server - Pointer to SRV_SERVER structure
//
// Returns:
// SRV_CONTINUE
//
int init_server(server)
SRV_SERVER *server;
{
char log_buffer[256];
// When we get a connection request from a client, we want to
// call "init_remote()" to make a connection to the remote
// server.
//
srv_handle(server, (DBINT)SRV_CONNECT, init_remote);
// When the client issues a language request, call
// "lang_execute()" to send the SQL statement to the remote DBMS.
//
srv_handle(server, (DBINT)SRV_LANGUAGE, lang_execute);
// When the client issues an RSP, call "rpc_execute()"
// to send the RSP to the remote DBMS (the SQL Server).
//
srv_handle(server, (DBINT)SRV_RPC, rpc_execute);
// When a disconnect request is issued, call "exit_remote()"
// to close the connection to the remote DBMS.
//
srv_handle(server, (DBINT)SRV_DISCONNECT, exit_remote);
// Install the handler that will be called when the
// gateway receives an attention from one of its
// clients.
//
srv_handle(server, (DBINT)SRV_ATTENTION, attn_handler);
// Initialize dblib and configure for 100 connections
//
dbinit();
dbsetmaxprocs(100);
// Now we'll install the message and error handlers for any
// messages from the remote DBMS.
//
dberrhandle(remoteerr);
dbmsghandle(remotemsgs);
// Create mutex to serialize init_remote
//
init_remote_mutex = CreateMutex(NULL, FALSE, NULL);
// Log Server information to log file
//
sprintf(log_buffer, "Client connections allowed = %s",
srv_sfield(server, SRV_CONNECTIONS, (int *)NULL));
srv_log(server, FALSE, log_buffer, SRV_NULLTERM);
printf("%s\n", log_buffer);
return(SRV_CONTINUE);
}
// INIT_REMOTE
// Event handler for a SRV_CONNECT event.
// A connection is made to the remote DBMS.
//
// In this example program, the connection is to a SQL Server.
// If using a non-SQL Server remote DBMS, the connection code
// would be different, but would probably still occur here.
//
// Parameters:
// srvproc - the handle to the client connection that got the SRV_CONNECT.
//
// Returns:
// SRV_CONTINUE
//
// Side Effects:
// If the connection to the remote dbms cannot be made, then issue
// a SRV_DISCONNECT request.
//
//
int init_remote(srvproc)
SRV_PROC *srvproc;
{
char *string;
int len;
REMOTE_DBMS *remote; // the private data area to keep
// track of the remote DBMS
// connection.
BOOLbImpersonated;
// Set Newsrvproc. This is used if we get an error on
// the open from DBLIB. Since there isn't a dbproc,
// it is clear which srvproc to send the msg back on when the
// DBLIB error-handler gets called.
//
// First lock out any other threads trying to connect using this same
// function.
//
WaitForSingleObject(init_remote_mutex, INFINITE);
Newsrvproc = srvproc;
if (SRV_TDSVERSION(srvproc) != SRV_TDS_6_0)
{
// Send a message to the client that they must be 4.2 or 6.0 clients.
// 4.2 client could be supported by
// converting all decimal/numeric values to float before sending to
// client, and omiting the column metadata packed into srv_setutype in
// the handle_results() function.
//
srv_sendmsg(srvproc,
SRV_MSG_ERROR,
(DBINT)REMOTE_FAIL,
(DBTINYINT)0,
(DBTINYINT)0,
NULL,
0,
0,
"Gateway sample application only supports version 6.0 clients.",
SRV_NULLTERM);
// Now allow other threads to enter this function.
//
ReleaseMutex(init_remote_mutex);
return(SRV_DISCONNECT);
}
// Allocate a REMOTE_DBMS information structure.
//
remote = (REMOTE_DBMS *)srv_alloc((DBINT)sizeof(*remote));
// Try to open a connection to the remote DBMS.
//
if (remote == NULL) {
// Send a message to the client that
// the remote connection failed.
//
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)REMOTE_FAIL, (DBTINYINT)0,
(DBTINYINT)0, NULL, 0, 0,
"Login to remote DBMS failed (srv_alloc).", SRV_NULLTERM);
ReleaseMutex(init_remote_mutex);
return(SRV_DISCONNECT);
}
// Set "bulk insert" mode flag to false.
//
remote->bulk_mode = FALSE;
// Allocate the LOGINREC structure used to make connections to the
// remote server. Open the connection in the SRV_CONNECT handler.
//
remote->login = dblogin();
if (remote->login == NULL) {
// Send a message to the client that the
// remote connection failed.
//
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)REMOTE_FAIL, (DBTINYINT)0,
(DBTINYINT)0, NULL, 0, 0,
"Login to remote DBMS failed (dblogin).", SRV_NULLTERM);
// Deallocate the remote structure and set the user data
// pointer in "srvproc" to null so that the disconnect
// handler won't try to disconnect from the remote dbms.
//
srv_free(remote);
ReleaseMutex(init_remote_mutex);
return(SRV_DISCONNECT);
}
remote->dbproc = (DBPROCESS *)NULL;
// Set the user name, password, and application name for the remote DBMS.
//
DBSETLUSER(remote->login, srv_pfield(srvproc, SRV_USER, (int *)NULL));
DBSETLPWD(remote->login, srv_pfield(srvproc, SRV_PWD, (int *)NULL));
DBSETLAPP(remote->login, srv_pfield(srvproc, SRV_APPLNAME, (int *)NULL));
DBSETLNATLANG(remote->login, srv_pfield(srvproc, SRV_NATLANG, (int *)NULL));
// following will let us pass decimal data back to client
DBSETLVERSION(remote->login, DBVER60);
//if client requested a trusted connection, gateway must do so too
if (srv_pfield(srvproc, SRV_LSECURE, (int *)NULL) == "TRUE")
DBSETLSECURE(remote->login);
// Even if client hasn't explicitly requested a trusted connection, he may be
// using integrated security if the server is set to mixed or integrated mode.
// To handle this case, always tryy to impersonate the client.
bImpersonated = srv_impersonate_client(srvproc);
// See if client has set Bulk Copy flag
//
if (strcmp(srv_pfield(srvproc, SRV_BCPFLAG, (int *)NULL), "TRUE") == 0)
BCP_SETL(remote->login, TRUE);
else
BCP_SETL(remote->login, FALSE);
// If no server name was specified as a parameter to the main program,
// then assume that the name is coming from the client.
//
if (remote_server == NULL || remote_server[0] == '\0') {
remote_server = srv_pfield(srvproc, SRV_HOST, (int *)NULL);
}
// Try to open a connection to the remote DBMS.
//
if ((remote->dbproc = dbopen(remote->login,
remote_server)) == (DBPROCESS *)NULL) {
// Send a message to the client that
// the remote connection failed.
//
srv_sendmsg(srvproc,
SRV_MSG_ERROR,
(DBINT)REMOTE_FAIL,
(DBTINYINT)0,
(DBTINYINT)0,
NULL,
0,
0,
"Login to remote DBMS failed (dbopen).",
SRV_NULLTERM);
// Deallocate the remote structure and set the user data
// pointer in "srvproc" to null so that the disconnect
// handler won't try to disconnect from the remote DBMS.
//
srv_free(remote);
srv_setuserdata(srvproc, (BYTE *)NULL);
ReleaseMutex(init_remote_mutex);
if( bImpersonated )
srv_revert_to_self(srvproc);
return(SRV_DISCONNECT);
} else {
// Connection to the remote DBMS successful. Save
// remote data structure in the "srvproc" so it will be
// available to the other handlers. We'll also map the remote
// DBMS connection to our "srvproc".
//
srv_setuserdata(srvproc, (VOID *)remote);
dbsetuserdata(remote->dbproc, (VOID *)srvproc);
}
ReleaseMutex(init_remote_mutex);
// if currently running in user context, don't need to any more
if( bImpersonated )
srv_revert_to_self(srvproc);
// Display connect info on console
//
string = srv_pfield(srvproc, SRV_CPID, &len);
string[len] = '\0';
printf("\nClient process ID: %s\n", string);
string = srv_pfield(srvproc, SRV_USER, &len);
string[len] = '\0';
printf("User name: %s\n", string);
string = srv_pfield(srvproc, SRV_APPLNAME, &len);
string[len] = '\0';
if (len > 0)
printf("Application program name: %s\n", string);
string = srv_pfield(srvproc, SRV_RMTSERVER, &len);
string[len] = '\0';
if (len > 0)
printf("Remote Server: %s\n", string);
return(SRV_CONTINUE);
}
//
// LANG_EXECUTE
// Execute a client language request on the remote dbms.
// Any results from the remote dbms are passed back to the client.
//
// Parameters:
// srvproc - process handle to the current client connection.
//
// Returns:
// SRV_CONTINUE
//
int lang_execute(srvproc)
SRV_PROC *srvproc;
{
REMOTE_DBMS *rmt_dbms; // the remote database pointer
DBPROCESS *rmtproc; // our DBPROCESS pointer
DBCHAR *query; // pointer to language buffer
int query_len; // length of query
int status; // status of dblib calls
// Get the remote dbms pointer we saved in the srvproc via
// srv_setuserdata.
//
rmt_dbms = (REMOTE_DBMS *)srv_getuserdata(srvproc);
// Get the pointer to the remote DBPROCESS
//
rmtproc = rmt_dbms->dbproc;
// Get the pointer to the client language request command buffer.
//
query = srv_langptr(srvproc);
// See if the previous command was a "bulk insert" command
//
if (rmt_dbms->bulk_mode) {
// Get length of the SQL command.
//
query_len = srv_langlen(srvproc);
// If length of data is zero, then send a zero length buffer
// to the destination SQL Server. This is required in order to
// signal the SQL Server that no more data follows.
//
if (query_len == -1L)
query_len = 0L;
// Place buffer into target SQL server's buffer. Use
// dbfcmd() to pass all binary data from the language buffer on to
// the SQL Server.
//
status = dbfcmd(rmtproc, query, query_len);
rmt_dbms->bulk_mode = FALSE;
} else {
// Let's check for "insert bulk" request
//
if (srv_langlen(srvproc) > (sizeof(BULK_CMD) - 1))
if (strnicmp(query, BULK_CMD, (sizeof(BULK_CMD) - 1)) == 0)
rmt_dbms->bulk_mode = TRUE;
// Place buffer into target SQL server's buffer.
//
status = dbcmd(rmtproc,
query);
}
// If previous DBLIB call successful, send command buffer to SQL Server.
//
if (status == SUCCEED) { // if previous DBLIB call successful
status = dbsqlexec(rmtproc);
}
if (!SRV_GOT_ATTENTION(srvproc) && (status == SUCCEED)) {
//
// Get the remote dbms results and pass them back to
// client.
//
handle_results(rmtproc, srvproc);
} else {
//
// If an attention event was issued or the dbsqlexec failed,
// acknowledge with senddone.
//
if (DBDEAD(rmtproc)) {
printf("thread shutting down");
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)REMOTE_FAIL,
(DBTINYINT)23, (DBTINYINT)17, NULL, 0, 0, "Remote Server connection no longer active: \
thread shutting down"
, SRV_NULLTERM);
srv_senddone(srvproc, SRV_DONE_FINAL | SRV_DONE_ERROR,
(DBUSMALLINT)0, (DBINT)0);
srv_event(srvproc, SRV_DISCONNECT, NULL);
} else {
srv_senddone(srvproc, SRV_DONE_FINAL, (DBUSMALLINT)0, (DBINT)0);
}
}
return(SRV_CONTINUE);
}
//
// RPC_EXECUTE
// Execute a client RPC.
//
// Note that in our example, the remote DBMS is an SQL Server.
// If our remote DBMS was a foreign DBMS, the code to send
// the query to the remote DBMS and receive remote results
// would be different. In this example, we'll just send
// the rpc along to the SQL Server.
//
// Parameters:
// srvproc - The Open Server process handle to use to send results to the
// client.
//
// Returns:
// SRV_CONTINUE
//
int rpc_execute(srvproc)
SRV_PROC *srvproc;
{
DBPROCESS *rmtproc; // Our DBPROCESS pointer
int i; // Index variable
short params;
short retparam;
short *paramarray;
DBCHAR complete_rpc_name[4 * (MAXNAME + 1)]; //database.owner.name;#
DBCHAR *rpc_db;
DBCHAR *rpc_owner;
DBCHAR *rpc_name;
int rpc_number;
char rpc_number_char[17];
DBCHAR *rpc_paramname;
BYTE rpc_paramstatus;
int rpc_paramtype;
DBINT rpc_parammaxlen;
DBINT rpc_paramlen;
void *rpc_paramdata;
DBNUMERIC numeric;//structure to hold numeric params
rmtproc = ((REMOTE_DBMS *)srv_getuserdata(srvproc))->dbproc;
paramarray = ((REMOTE_DBMS *)srv_getuserdata(srvproc))->retparams;
// initialize numeric structure
memset (&numeric, 0, sizeof(DBNUMERIC));
// Construct full RPC name and initialize the RPC to the remote DBMS.
//
memset (complete_rpc_name, 0, sizeof(complete_rpc_name));
rpc_db = srv_rpcdb(srvproc, (int *)NULL);
rpc_owner = srv_rpcowner(srvproc, (int *)NULL);
rpc_name = srv_rpcname(srvproc, (int *)NULL);
if (rpc_db != NULL) {
strcat(complete_rpc_name,rpc_db);
strcat(complete_rpc_name,".");
};
if (rpc_owner != NULL) {
strcat(complete_rpc_name,rpc_owner);
strcat(complete_rpc_name,".");
};
strcat(complete_rpc_name,rpc_name);
rpc_number = srv_rpcnumber(srvproc);
if (rpc_number > 0) {
strcat(complete_rpc_name,";");
itoa(rpc_number,rpc_number_char,10);
strcat(complete_rpc_name, rpc_number_char);
};
dbrpcinit(rmtproc, complete_rpc_name, (DBUSMALLINT)srv_rpcoptions(srvproc));
// Set up any RPC parameters.
//
params = srv_rpcparams(srvproc);
retparam = 1;
for (i = 1; i <= params; i++) {
rpc_paramname = srv_paramname(srvproc, i, (int *)NULL);
if (!strlen(rpc_paramname))
rpc_paramname = NULL;
rpc_paramstatus = (BYTE)srv_paramstatus(srvproc, i);
rpc_paramtype = srv_paramtype(srvproc, i);
rpc_parammaxlen = srv_parammaxlen(srvproc, i);
rpc_paramlen = srv_paramlen(srvproc, i);
rpc_paramdata = srv_paramdata(srvproc, i);
// DB-Lib requires maxlen of -1 for fixed-length datatypes, but ODS doesn't
// always return this. So set it.
switch (rpc_paramtype)
{
case SQLDECIMAL:
case SQLNUMERIC:
case SQLBIT:
case SQLINT1:
case SQLINT2:
case SQLINT4:
case SQLFLT4:
case SQLDATETIM4:
case SQLMONEY4:
case SQLMONEY:
case SQLDATETIME:
case SQLFLT8:
rpc_parammaxlen = -1;
break ;
default:
break ;
}
// Special handling for decimal types. DB-Lib treats them as fixed length datatypes
// that are the full size of a DBNUMERIC. ODS uses variable-length numeric data
// and only gives the exact bytes needed to represent the number
switch (rpc_paramtype)
{
case SQLDECIMAL:
case SQLNUMERIC:
memset (&numeric, 0, sizeof(DBNUMERIC));
memmove(&numeric, rpc_paramdata, rpc_paramlen);
rpc_paramdata = &numeric;
// ODS says null numeric values have a length of 2, dblib expects them to be 0
if (rpc_paramlen == 2)
rpc_paramlen = 0;
break;
default:
break;
}
dbrpcparam(rmtproc,rpc_paramname,rpc_paramstatus,rpc_paramtype,
rpc_parammaxlen,rpc_paramlen, rpc_paramdata);
// The current rpc may have three parameters, but only the
// first and third are return parameters. This means that
// dbnumrets() returns two parameters, not three. The first
// call to dbretdata() referes to the rpc's first parameter,
// and the second call to dbretdata() refers to the rpc's
// third parameter. To handle this, we map each return
// parameter to its original parameter so we can later
// reset the return value of the correct return parameters
// in "handle_results()".
//
if ((BYTE)srv_paramstatus(srvproc, i) & SRV_PARAMRETURN) {
paramarray[retparam] = i;
retparam++;
}
}
// Send the RPC to the remote DBMS.
//
dbrpcsend(rmtproc);
dbsqlok(rmtproc);
// Now get the remote DBMS results and pass them back to
// Open Server client.
//
handle_results(rmtproc, srvproc);
return(SRV_CONTINUE);
}
//
// HANDLE_RESULTS
// Once a command has been sent to the remote DBMS by the
// SRV_LANGUAGE handler, this routine processes the results
// and passes them back to the client.
//
// Parameters:
// rmtproc - The DBPROCESS handle to the remote DBMS.
// srvproc - The process handle to use to send results to the client.
//
// Returns:
// SUCCEED or FAIL.
//
int handle_results(rmtproc, srvproc)
DBPROCESS *rmtproc;
SRV_PROC *srvproc;
{
short cols; // data columns returned
int i; // index variable
BOOL results_sent; // number of result sets sent
BOOL gotcompute; // COMPUTE row indicator
short *paramarray;
RETCODE returnvalue; // value returned from dblib call
DBCOLdbcol;// column metadata structure
TYPEINFOtypeinfo;// used to send metadata in usertype
int dbcolsize;// size of DBCOL struct
BOOL bRowsAffected;// was command one that affects or returns rows
DBINT nRowsAffected;// result of DBCOUNT
DBNUMERIC numeric;// structure to hold precision and scale for numeric cols
short collen = 0;// holder for col data length
DBINTretlen;// for sending output params
DBINTrpc_paramtype;// for sending output params
results_sent = FALSE;
gotcompute = FALSE;
bRowsAffected = FALSE;
nRowsAffected = 0;
paramarray = ((REMOTE_DBMS *)srv_getuserdata(srvproc))->retparams;
// initialize the DBCOL structure
dbcolsize = sizeof(DBCOL);
memset(&dbcol, 0, dbcolsize);
dbcol.SizeOfStruct = dbcolsize;
// initialize numeric structure
memset (&numeric, 0, sizeof(DBNUMERIC));
// Process the results from the remote DBMS.
// Since a command may consist of multiple commands or a single
// command that has multiple sets of results, we'll loop through
// each results set.
//
while (TRUE) {
returnvalue = dbresults(rmtproc);
if (returnvalue == NO_MORE_RESULTS) {
break;
}
// Check to see if the client has sent an attention event. If
// so, simply discard data from remote server
//
if (SRV_GOT_ATTENTION(srvproc)) {
dbcancel(rmtproc);// See attn_handler comments
continue;
}
//
// If this is the second time through the loop,
// send a completion message to the client
// for the previous results sent.
//
if (results_sent == TRUE) {
// If there are some COMPUTE rows, send a message
// to the client that Data Services Library doesn't yet handle them.
//
if (gotcompute == TRUE) {
gotcompute = FALSE;
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)COMPUTE_ROW,
(DBTINYINT)0, (DBTINYINT)0, NULL, 0, 0,
"Data Services library can't handle COMPUTE rows.",
SRV_NULLTERM);
}
// If the previous batch was one that may
// have affected rows, set the DONE status
// accordingly.
//
if (bRowsAffected) {
srv_senddone(srvproc, SRV_DONE_MORE | SRV_DONE_COUNT,
(DBUSMALLINT)0, nRowsAffected);
} else
srv_senddone(srvproc, SRV_DONE_MORE, (DBUSMALLINT)0,
nRowsAffected);
}
// How many data columns are in the row?
// Non-"select" statements will have 0 columns.
//
cols = dbnumcols(rmtproc);
// Build the row description for the client return.
//
for (i = 1; i <= cols; i++) {
// Call "srv_describe()" for each column in the row.
// dbcolntype is used to preserve the nullability information
//that is lost by dbcoltype.
//
srv_describe(srvproc, i, (DBCHAR *)dbcolname(rmtproc, i), SRV_NULLTERM,
(DBINT)dbcolntype(rmtproc, i), dbcollen(rmtproc, i),
(DBINT)dbcolntype(rmtproc, i), dbcollen(rmtproc, i),
(BYTE *)NULL);
// Now pack additional col metadata into the usertype
// Note this code below does "SQL 6.0" style packing used by DB-Lib,
// and the ODS gateway ODBC driver if the resources DLL is set to use it
// "ODBC-style" metadata encoding uses a different structure, not shown here.
// See ODS Programmer's Reference for more details.
// get column metadata
dbcolinfo(rmtproc, CI_REGULAR, i, 0, &dbcol);
// reset to 0
*(DBINT*)&typeinfo = 0;
/* Set user type */
if (dbcol.UserType < 0)
typeinfo.typeid = 0;
else
typeinfo.typeid = (USHORT) dbcol.UserType;
if (dbcol.Identity == TRUE)
typeinfo.identity = TRUE;
if (dbcol.Null == TRUE)
typeinfo.nullable = TRUE;
else if (dbcol.Null == DBUNKNOWN)
typeinfo.nullable = DBUNKNOWN;
if (dbcol.CaseSensitive == TRUE)
typeinfo.case_sensitive = TRUE;
else if (dbcol.CaseSensitive == DBUNKNOWN)
typeinfo.case_sensitive = DBUNKNOWN;
if (dbcol.Updatable == TRUE)
typeinfo.updateable = TRUE;
else if (dbcol.Updatable == DBUNKNOWN)
typeinfo.updateable = DBUNKNOWN;
srv_setutype(srvproc, i, *(DBINT*)&typeinfo);
// If column is a decimal or numeric, need to setup a valid precision and
// scale. Normally this would be provided by dbdata() prior to srv_sendrow().
// But if there are no rows in the result set, srv_sendrow() will not
// be called, and ODS will send the header when srv_senddone() is called.
if ((dbcol.Type == SQLNUMERIC) || (dbcol.Type == SQLDECIMAL))
{
numeric.precision = dbcol.Precision;
numeric.scale = dbcol.Scale;
srv_setcoldata(srvproc, i, &numeric);
}
}
// Send each row from the remote DBMS to the client.
//
while (TRUE) {
returnvalue = dbnextrow(rmtproc);
if (returnvalue == NO_MORE_ROWS) {
break;
}
// If it's not a regular row, it's a COMPUTE row.
// This SQL extension is particular to Sybase
// TRANSACT-SQL and is not yet supported.
//
if (DBROWTYPE(rmtproc) != REG_ROW) {
gotcompute = TRUE;
continue;
} else
gotcompute = FALSE;
// The row description is built. Move the
// rows from the remote server to the client.
//
for (i = 1; i <= cols; i++) {
srv_setcollen(srvproc, i, (collen = (short)dbdatlen(rmtproc, i)));
// special handling for the srv_setcoldata pointer if the value is null numeric
// dbdata does not point to a valid numeric structure in this case
// so point instead to the numeric structure set up at srv_describe time
if ( ((dbcoltype(rmtproc, i) == SQLDECIMAL) || (dbcoltype(rmtproc, i) == SQLNUMERIC))
&& (collen == 0))
{
srv_setcoldata(srvproc, i, &numeric);
}
else
srv_setcoldata(srvproc, i, dbdata(rmtproc, i));
}
// Check to see if the client has issued an attention event.
// If so, discard data from the remote server.
//
if (SRV_GOT_ATTENTION(srvproc)) {
dbcancel(rmtproc);// See attn_handler comments
continue;
}
// Now put the row in the ODS output buffer
srv_sendrow(srvproc);
}
// Check to see if any parameter were returned from
// the remote DBMS. If so, pass them through to the
// client.
for (i = 1; i <= dbnumrets(rmtproc); i++) {
//
// If the return parameters are a result of
// an rpc, we used srv_paramset() to set the return
// value. If the return parameters are not the
// result of an rpc, we use srv_returnval().
//
retlen = dbretlen(rmtproc, i);
rpc_paramtype = dbrettype(rmtproc, i);
// special handling for decimal types. need to add 2 bytes for precision & scale
// from what is returned by dbretlen
if ((rpc_paramtype == SQLNUMERIC)|| (rpc_paramtype == SQLDECIMAL))
retlen += 2;
if (srv_rpcname(srvproc, NULL) != NULL) {
//
// The current rpc may have three parameters, but
// only the first and third are return parameters.
// This means that dbnumrets() returns two parameters,
// not three. The first call to dbretdata() refers to
// the rpc's first parameter, and the second call to
// dbretdata() refers to the rpc's third parameter.
// To handle this, we map each return parameter to
// its original parameter so we can later reset the
// return value of the correct return parameters in
// handle_results().
//
srv_paramset(srvproc, paramarray[i], dbretdata(rmtproc, i), retlen);
} else {
srv_returnval(srvproc, (DBCHAR *)dbretname(rmtproc, i), SRV_NULLTERM,
SRV_PARAMRETURN, rpc_paramtype,
retlen, retlen,dbretdata(rmtproc, i));
}
}
// Check to see if we got a return status code from the
// remote DBMS. Pass it through to the client.
//
if (dbhasretstat(rmtproc))
srv_sendstatus(srvproc, dbretstatus(rmtproc));
// If the command was one where count is meaningful
// send the srv_senddone message accordingly.
//
bRowsAffected = dbiscount(rmtproc);
nRowsAffected = DBCOUNT(rmtproc);
// Set flag so that we will send a completion
// message for the current set of results.
//
results_sent = TRUE;
}
// If there are some COMPUTE rows, send a message
// to the client that Open Services Library doesn't handle them yet.
//
if (gotcompute == TRUE) {
gotcompute = FALSE;
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)COMPUTE_ROW, (DBTINYINT)0,
(DBTINYINT)0, NULL, 0, 0,
"Data Services Library can't handle COMPUTE rows.",
SRV_NULLTERM);
}
// Send the final done packet for the execution of the command batch.
//
// If the previous batch was one that may
// have affected rows, set the DONE status
// accordingly.
//
if (bRowsAffected) {
srv_senddone(srvproc, SRV_DONE_FINAL | SRV_DONE_COUNT,
(DBUSMALLINT)0, nRowsAffected);
} else
srv_senddone(srvproc, SRV_DONE_FINAL, (DBUSMALLINT)0,
nRowsAffected);
return(SUCCEED);
}
// EXIT_REMOTE
// Handler for SRV_DISCONNECT events.
// Closes remote DBMS connection if appropriate.
//
// The code to disconnect from the remote DBMS is SQL Server specific. If
// using a non-SQL Server database, the disconnect from the remote database
// would be different but would probably still occur here.
//
// Parameters:
// srvproc - the handle to the client connection
//
// Returns:
// SRV_CONTINUE
//
int exit_remote(srvproc)
SRV_PROC *srvproc;
{
char *string;
int len;
REMOTE_DBMS *remote; // pointer to target connect structure
remote = (REMOTE_DBMS *)srv_getuserdata(srvproc);
// Is there a REMOTE_DBMS structure to clean-up?
//
if (remote != (REMOTE_DBMS *)NULL) {
// Is there a live dbproc?
//
if (remote->dbproc != (DBPROCESS *)NULL) {
dbclose(remote->dbproc);
}
dbfreelogin(remote->login);
srv_free(remote);
}
// Display info on console
//
string = srv_pfield(srvproc, SRV_CPID, &len);
string[len] = '\0';
printf("\nClient connection closed, process ID: %s\n", string);
return(SRV_CONTINUE);
}
// CHK_ERR
// Print out errors.
//
// Parameters:
// server - pointer to gateway server structure.
// srvproc - pointer to client connection structure
// errornum - error number.
// severity - error severity.
// state - error state.
// oserrnum - operating system error number, if any.
// errtext - the text of the error message.
// errtextlen - length of the errtext message
// oserrtext - the text of the operating system error message.
// oserrtextlen - length of the errtext message
//
// Returns:
// SRV_CONTINUE, SRV_CANCEL, or SRV_EXIT
//
RETCODE chk_err(server, srvproc, errornum, severity, state, oserrnum, errtext,
errtextlen, oserrtext, oserrtextlen)
SRV_SERVER *server;
SRV_PROC *srvproc;
int errornum;
BYTE severity;
BYTE state;
int oserrnum;
DBCHAR *errtext;
int errtextlen;
DBCHAR *oserrtext;
int oserrtextlen;
{
char log_buffer[256];
char error[256];
char oserror[256];
memcpy(error, errtext, errtextlen);
error[errtextlen] = '\0';
memcpy(oserror, oserrtext, oserrtextlen);
oserror[oserrtextlen] = '\0';
// Strip out resource information. Get the actual error number.
errornum = (errornum & 0x0000FFFF);
// Operating system error?
//
if (oserrnum != SRV_ENO_OS_ERR) {
sprintf(log_buffer, "SERVER OS ERROR: %d: %s.", oserrnum, oserror);
if (server)
srv_log(server, TRUE, log_buffer, SRV_NULLTERM);
else// If application not initialized log to screen
printf ("%s\n", log_buffer);
}
// Is this a fatal error for the server?
//
if (severity >= SRV_FATAL_SERVER) {
sprintf(log_buffer,
"SERVER: FATAL SERVER ERROR: errornum = %d, severity = %d, state = %d: %s.",
errornum, severity, state, error);
if (server)
srv_log(server, TRUE, log_buffer, SRV_NULLTERM);
else// If application not initialized log to screen
printf ("%s\n", log_buffer);
return(SRV_EXIT);
} else {
//
// Did the "srvproc" get a fatal error?
//
if (severity >= SRV_FATAL_PROCESS) {
sprintf(log_buffer,
"SERVER: FATAL CONNECT ERROR: errornum = %d, severity = %d, state = %d: %s.",
errornum, severity, state, error);
if (server)
srv_log(server, TRUE, log_buffer, SRV_NULLTERM);
else// If application not initialized log to screen
printf ("%s\n", log_buffer);
return(SRV_CANCEL);
}
}
// A non-fatal error or an information message received.
// We'll pass it through to the client.
//
if (srvproc != (SRV_PROC *)NULL && (server != NULL))
if (severity < 10) { // if informational message
srv_sendmsg(srvproc, SRV_MSG_INFO, (DBINT)errornum, severity, 0,
NULL, 0, 0, error, SRV_NULLTERM);
} else { // must be an error message
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)errornum, severity, 0,
NULL, 0, 0, error, SRV_NULLTERM);
} else {
sprintf(log_buffer, "ODS ERROR: errornum = %d, severity = %d: %s",
errornum, severity, error);
if (server)
srv_log(server, TRUE, log_buffer, SRV_NULLTERM);
else// If application not initialized log to screen
printf ("%s\n", log_buffer);
}
return(SRV_CONTINUE);
}
// REMOTEMSGS
// DBLIB calls this routine when any messages are received
// from the remote DBMS. It gets the remote message information and
// sends it back to the client as a message.
//
// Parameters:
// dbproc - The handler to the remote DBMS process that sent the message.
// msgno - The message number.
// msgstate - The message state.
// severity - The message severity.
// msgtext - The text of the message.
// srvname - The server name
// procname - The stored procedure name (if there was one)
// line - The line number of the procedure
//
// The following three parameters are available in TDS4.0 and above:
//
// srvname - The name of the server that sent the message.
// procname - The procedure name, if any, of the remote DBMS command.
// line - The remote DBMS command buffer line to which the msg applies.
//
// Returns:
// 0
//
int remotemsgs(dbproc, msgno, msgstate, severity, msgtext, srvname, procname, line)
DBPROCESS *dbproc;
DBINT msgno;
INT msgstate;
INT severity;
LPCSTR msgtext;
LPCSTR srvname;
LPCSTR procname;
DBUSMALLINT line;
{
SRV_PROC *srvproc;
// If a remote DBMS error was received during the remote
// open, the dbproc is NULL and a message is sent back on the
// most recent srvproc.
//
if (dbproc == (DBPROCESS *)NULL) {
srvproc = Newsrvproc;
} else {
if ((srvproc = (SRV_PROC *)dbgetuserdata(dbproc)) == NULL) {
//
// An error was received after the dbproc was assigned, but
// before we were able to associate our srvproc.
//
srvproc = Newsrvproc;
}
}
if (severity < 10) { // if informational message
srv_sendmsg(srvproc, SRV_MSG_INFO, msgno, (DBTINYINT)severity,
(DBTINYINT)msgstate, NULL, 0, 0, (DBCHAR *)msgtext, SRV_NULLTERM);
return(0);
}
// Trap login fail message
if (msgno == REMOTE_FAIL){
// Send a message to the client that
// the remote connection failed.
//
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)msgno, (DBTINYINT)severity,
(DBTINYINT)msgstate, NULL, 0, 0,
"Login to remote DBMS failed (dbopen).", SRV_NULLTERM);
}
// must be an error message
srv_sendmsg(srvproc, SRV_MSG_ERROR, msgno, (DBTINYINT)severity,
(DBTINYINT)msgstate, NULL, 0, 0, (DBCHAR *)msgtext, SRV_NULLTERM);
return(0);
}
// REMOTEERR
// This is the handler for error messages from the remote DBMS, in this
// case DBLIB. It gets called whenever a DBLIB error occurs. It takes
// the error message and passes it back to the client.
//
// Parameters:
// dbproc - The process handle for the remote DBMS.
// severity - The severity of the error.
// dberr - The DBLIB error number.
// oserr - The operating system error, if any.
// dberrstr - The text of the DBLIB error.
// oserrstr - The text of operating system error, if any.
//
// Returns:
// INT_EXIT to exit the program.
// INT_CANCEL to cause a FAIL return from the DBLIB routine that got
// the error.
//
int remoteerr(dbproc, severity, dberr, oserr, dberrstr, oserrstr)
DBPROCESS *dbproc;
INT severity;
INT dberr;
INT oserr;
LPCSTR dberrstr;
LPCSTR oserrstr;
{
SRV_PROC *srvproc = (SRV_PROC *)NULL;
// If the DBLIB process is dead or we get a DBLIB error SQLESMSG
// ("General SQL Server Error:...") then simply ignore it. The error
// message has already been sent to the client.
//
if (dberr == SQLESMSG) {
return(INT_CANCEL);
}
//
// A remote DBMS error may have been issued during the remote
// open. In this case, the dbproc will be NULL and a message
// will be sent on the most recent srvproc.
//
if (dbproc == (DBPROCESS *)NULL) {
srvproc = Newsrvproc;
} else {
if ((srvproc = (SRV_PROC *)dbgetuserdata(dbproc)) == NULL) {
// An error was issued after the dbproc was assigned but before
// we were able to associate our srvproc.
//
srvproc = Newsrvproc;
}
}
// Trap connection failure error
if (dberr == SQLECONN){
// Send a message to the client that
// the remote connection failed.
//
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)REMOTE_FAIL, (DBTINYINT)severity,
(DBTINYINT)0, NULL, 0, 0,
"Unable to establish connection to remote DBMS (dbopen).", SRV_NULLTERM);
return(INT_CANCEL);
}
//
// Send error message to client.
//
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)REMOTE_MSG,
(DBTINYINT)severity, (DBTINYINT)0, NULL, 0, 0,
(DBCHAR *)dberrstr, SRV_NULLTERM);
if (oserr != DBNOERR) {
srv_sendmsg(srvproc, SRV_MSG_ERROR, (DBINT)REMOTE_MSG,
(DBTINYINT)severity, (DBTINYINT)0, NULL, 0, 0,
(DBCHAR *)oserrstr, SRV_NULLTERM);
}
return(INT_CANCEL);
}
// ATTN_HANDLER
// This is an event handler that will be called when the gateway receives
// an attention from a client.
//
// Parameters:
// srvproc - Pointer to the client connection structure
// receiving the attention.
//
// Returns:
// SRV_CONTINUE
//
int attn_handler(srvproc)
SRV_PROC *srvproc;
{
// Open Data Services NT receives client attention events asynchronously.
// Being handle_results may be calling dbresults or dbnextrow, we can not
// process the attention with the dbcancel call here. Instead dbcancel
// will be called after the attention has been detected using
// SRV_GOT_ATTENTION.
return(SRV_CONTINUE);
}
#pragma check_stack() // set stack checking to its default setting