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[/] [or1k/] [trunk/] [insight/] [gdb/] [29k-share/] [udi/] [udip2soc.c] - Rev 1765
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/* Copyright 1993, 1998 Free Software Foundation, Inc. This file is part of GDB. This program 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 2 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ static char udip2soc_c[]="@(#)udip2soc.c 2.11 Daniel Mann"; static char udip2soc_c_AMD[]="@(#)udip2soc.c 2.8, AMD"; /* * This module converts UDI Procedural calls into * UDI socket messages for UNIX. * It is used by DFE client processes ********************************************************************** HISTORY */ /* This is all unneeded on DOS machines. */ #ifndef __GO32__ #include <stdio.h> #include <string.h> /* Before sys/file.h for Unixware. */ #include <sys/types.h> #include <sys/file.h> /* This used to say sys/fcntl.h, but the only systems I know of that require that are old (pre-4.3, at least) BSD systems, which we probably don't need to worry about. */ #include <fcntl.h> #include <sys/wait.h> #include <sys/time.h> #include <sys/resource.h> #include <sys/socket.h> #include <netinet/in.h> #include <netdb.h> #include <signal.h> #include <sys/errno.h> #include "udiproc.h" #include "udisoc.h" extern int errno; extern int sys_nerr; extern int udr_errno; extern char* getenv(); /* local type decs. and macro defs. not in a .h file ************* MACRO/TYPE */ #define version_c 0x121 /* DFE-IPC version id */ #define TRUE -1 #define FALSE 0 #define PORT_NUM 7000 #define MAX_SESSIONS 5 /* maximum DFE-TIP connections */ #define SOC_BUF_SIZE 4* 1024 /* size of socket comms buffer */ #define SBUF_SIZE 500 /* size of string buffer */ #define ERRMSG_SIZE 500 /* size of error message buffer */ typedef struct connection_str /* record of connect session */ { int in_use; char connect_id[20]; /* connection identifier */ char domain_string[20]; /* dommaing for conection */ char tip_string[30]; /* TIP host name for AF_INET */ char tip_exe[80]; /* TIP exe name */ int dfe_sd; /* associated DFE socket */ int tip_pid; /* pid of TIP process */ struct sockaddr_in dfe_sockaddr; struct sockaddr_in tip_sockaddr_in; struct sockaddr tip_sockaddr; } connection_t; typedef struct session_str { int in_use; connection_t* soc_con_p; /* associated connection */ UDISessionId tip_id; /* associated TIP session ID */ } session_t; /* global dec/defs. which are not in a .h file ************* EXPORT DEC/DEFS */ UDIError dfe_errno; char dfe_errmsg[ERRMSG_SIZE];/* error string */ /* local dec/defs. which are not in a .h file *************** LOCAL DEC/DEFS */ LOCAL connection_t soc_con[MAX_SESSIONS]; LOCAL session_t session[MAX_SESSIONS]; LOCAL UDR udr; LOCAL UDR* udrs = &udr; /* UDR for current session */ LOCAL int current; /* int-id for current session */ LOCAL char sbuf[SBUF_SIZE]; /* String handler buffer */ LOCAL char config_file[80]; /* path/name for config file */ /***************************************************************** UDI_CONNECT * Establish a new FDE to TIP conection. The file "./udi_soc" or * "/etc/udi_soc" may be examined to obtain the conection information * if the "Config" parameter is not a completd "line entry". * * NOTE: the Session string must not start whith white-space characters. * Format of string is: * <session> <domain> <soc_name|host_name> <tip_exe|port> <pass to UDIconnect> * soc2cayman AF_INET cayman 7000 <not supported> * soc2tip AF_UNIX astring tip.exe ... */ UDIError UDIConnect(Config, Session) char *Config; /* in -- identification string */ UDISessionId *Session; /* out -- session ID */ { UDIInt32 service_id = UDIConnect_c; int domain; int cnt=0; int rcnt, pos, params_pos=0; char *tip_main_string; char *env_p; struct hostent *tip_info_p; FILE *fd; #if 0 FILE *f_p; #endif UDIUInt32 TIPIPCId; UDIUInt32 DFEIPCId; #if 0 /* This is crap. It assumes that udi_soc is executable! */ sprintf(sbuf, "which udi_soc"); f_p = popen(sbuf, "r"); if(f_p) { while( (sbuf[cnt++]=getc(f_p)) != EOF); sbuf[cnt-2]=0; } pclose(f_p); #endif for (rcnt=0; rcnt < MAX_SESSIONS && session[rcnt].in_use; rcnt++); if (rcnt >= MAX_SESSIONS) { sprintf(dfe_errmsg, "DFE-ipc ERROR: Too many sessions already open"); return UDIErrorIPCLimitation; } /* One connection can be multiplexed between several sessions. */ for (cnt=0; cnt < MAX_SESSIONS && soc_con[cnt].in_use; cnt++); if (cnt >= MAX_SESSIONS) { sprintf(dfe_errmsg, "DFE-ipc ERROR: Too many connections already open"); return UDIErrorIPCLimitation; } *Session = rcnt; session[rcnt].soc_con_p = &soc_con[cnt]; if (strchr(Config, ' ')) /* test if file entry given */ { soc_con[cnt].in_use = TRUE; sscanf(Config, "%s %s %s %s %n", soc_con[cnt].connect_id, soc_con[cnt].domain_string, soc_con[cnt].tip_string, soc_con[cnt].tip_exe, ¶ms_pos); tip_main_string = Config + params_pos; } else /* here if need to read udi_soc file */ { strcpy(config_file, "udi_soc"); env_p = getenv("UDICONF"); if (env_p) strcpy(config_file, env_p); fd = fopen(config_file, "r"); if (!fd) { sprintf(dfe_errmsg, "UDIConnect, can't open udi_soc file:\n%s ", strerror(errno)); dfe_errno = UDIErrorCantOpenConfigFile; goto tip_failure; } while (1) { if (fscanf(fd, "%s %s %s %s %[^\n]\n", soc_con[cnt].connect_id, soc_con[cnt].domain_string, soc_con[cnt].tip_string, soc_con[cnt].tip_exe, sbuf) == EOF) break; if (strcmp(Config, soc_con[cnt].connect_id) != 0) continue; soc_con[cnt].in_use = TRUE; /* here if entry found */ tip_main_string = sbuf; break; } fclose(fd); if (!soc_con[cnt].in_use) { sprintf(dfe_errmsg, "UDIConnect, can't find `%s' entry in udi_soc file", Config); dfe_errno = UDIErrorNoSuchConfiguration; goto tip_failure; } } /*----------------------------------------------------------- SELECT DOMAIN */ if (strcmp(soc_con[cnt].domain_string, "AF_UNIX") == 0) domain = AF_UNIX; else if (strcmp(soc_con[cnt].domain_string, "AF_INET") == 0) domain = AF_INET; else { sprintf(dfe_errmsg, "DFE-ipc ERROR: socket address family not known"); dfe_errno = UDIErrorBadConfigFileEntry; goto tip_failure; } /*---------------------------------------------------- MULTIPLEXED SOCKET ? */ /* If the requested session requires communication with a TIP which already has a socket connection established, then we do not create a new socket but multiplex the existing one. A TIP is said to use the same socket if socket-name/host-name and the domain are the same. */ for (rcnt=0; rcnt < MAX_SESSIONS; rcnt++) { if (soc_con[rcnt].in_use && rcnt != cnt && strcmp(soc_con[cnt].domain_string, soc_con[rcnt].domain_string) == 0 && strcmp(soc_con[cnt].tip_string, soc_con[rcnt].tip_string) == 0) { session[*Session].soc_con_p = &soc_con[rcnt]; soc_con[cnt].in_use = FALSE; /* don't need new connect */ goto tip_connect; } } /*------------------------------------------------------------------ SOCKET */ soc_con[cnt].dfe_sd = socket(domain, SOCK_STREAM, 0); if (soc_con[cnt].dfe_sd == -1) { sprintf(dfe_errmsg, "DFE-ipc ERROR, socket() call failed %s ", strerror (errno)); dfe_errno = UDIErrorUnknownError; goto tip_failure; } /*--------------------------------------------------------- AF_UNIX CONNECT */ if (domain == AF_UNIX) { if (strcmp(soc_con[cnt].tip_string, "*") == 0) { for (pos = 0; pos < 20; pos++) { int f; sprintf(soc_con[cnt].tip_string,"/tmp/U%d", getpid() + pos); f = open(soc_con[cnt].tip_string, O_CREAT); if (f == -1) continue; close(f); unlink(soc_con[cnt].tip_string); break; } if (pos >= 20) { sprintf(dfe_errmsg, "DFE-ipc ERROR, can't create random socket name"); dfe_errno = UDIErrorCantConnect; goto tip_failure; } } soc_con[cnt].tip_sockaddr.sa_family = domain; memcpy(soc_con[cnt].tip_sockaddr.sa_data, soc_con[cnt].tip_string, sizeof(soc_con[cnt].tip_sockaddr.sa_data)); if (connect(soc_con[cnt].dfe_sd, &soc_con[cnt].tip_sockaddr, sizeof(soc_con[cnt].tip_sockaddr))) { /* if connect() fails assume TIP not yet started */ /*------------------------------------------------------------ AF_UNIX EXEC */ int pid; int statusp; char *arg0; arg0 = strrchr(soc_con[cnt].tip_exe,'/'); if (arg0) arg0++; else arg0 = soc_con[cnt].tip_exe; pid = vfork(); if (pid == 0) /* Child */ { execlp(soc_con[cnt].tip_exe, arg0, soc_con[cnt].domain_string, soc_con[cnt].tip_string, NULL); _exit(1); } if (waitpid(pid, &statusp, WNOHANG)) { sprintf(dfe_errmsg, "DFE-ipc ERROR: can't exec the TIP"); dfe_errno = UDIErrorCantStartTIP; goto tip_failure; } pos = 3; for (pos = 3; pos > 0; pos--) { if (!connect(soc_con[cnt].dfe_sd, &soc_con[cnt].tip_sockaddr, sizeof(soc_con[cnt].tip_sockaddr))) break; sleep(1); } if (pos == 0) { sprintf(dfe_errmsg, "DFE-ipc ERROR, connect() call failed: %s", strerror (errno)); dfe_errno = UDIErrorCantConnect; goto tip_failure; } } } /*--------------------------------------------------------- AF_INET CONNECT */ else if (domain == AF_INET) { fprintf(stderr, "DFE-ipc WARNING, need to have first started remote TIP"); soc_con[cnt].tip_sockaddr_in.sin_family = domain; soc_con[cnt].tip_sockaddr_in.sin_addr.s_addr = inet_addr(soc_con[cnt].tip_string); if (soc_con[cnt].tip_sockaddr_in.sin_addr.s_addr == -1) { tip_info_p = gethostbyname(soc_con[cnt].tip_string); if (tip_info_p == NULL) { sprintf(dfe_errmsg,"DFE-ipc ERROR, No such host %s", soc_con[cnt].tip_string); dfe_errno = UDIErrorNoSuchConnection; goto tip_failure; } memcpy((char *)&soc_con[cnt].tip_sockaddr_in.sin_addr, tip_info_p->h_addr, tip_info_p->h_length); } soc_con[cnt].tip_sockaddr_in.sin_port = htons(atoi(soc_con[cnt].tip_exe)); if (connect(soc_con[cnt].dfe_sd, (struct sockaddr *) &soc_con[cnt].tip_sockaddr_in, sizeof(soc_con[cnt].tip_sockaddr_in))) { sprintf(dfe_errmsg, "DFE-ipc ERROR, connect() call failed %s ", strerror (errno)); dfe_errno = UDIErrorCantConnect; goto tip_failure; } } /*------------------------------------------------------------- TIP CONNECT */ if (cnt == 0) udr_create(udrs, soc_con[cnt].dfe_sd, SOC_BUF_SIZE); tip_connect: current = cnt; session[*Session].in_use = TRUE; /* session id is now in use */ udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); DFEIPCId = (company_c << 16) + (product_c << 12) + version_c; udr_UDIUInt32(udrs, &DFEIPCId); udr_string(udrs, tip_main_string); udr_sendnow(udrs); udrs->udr_op = UDR_DECODE; /* recv all "out" parameters */ udr_UDIUInt32(udrs, &TIPIPCId); if ((TIPIPCId & 0xfff) < version_c) sprintf(dfe_errmsg, "DFE-ipc: Obsolete TIP Specified"); udr_UDIInt32(udrs, &soc_con[cnt].tip_pid); udr_UDISessionId(udrs, &session[*Session].tip_id); udr_UDIError(udrs, &dfe_errno); if (dfe_errno > 0) UDIKill(*Session, 0); return dfe_errno; tip_failure: soc_con[cnt].in_use = FALSE; session[*Session].in_use = FALSE; /* XXX - Should also close dfe_sd, but not sure what to do if muxed */ return dfe_errno; } /************************************************************** UDI_Disconnect * UDIDisconnect() should be called before exiting the * DFE to ensure proper shut down of the TIP. */ UDIError UDIDisconnect(Session, Terminate) UDISessionId Session; UDIBool Terminate; { int cnt; UDIInt32 service_id = UDIDisconnect_c; if(Session < 0 || Session > MAX_SESSIONS) { sprintf(dfe_errmsg," SessionId not valid (%d)", Session); return UDIErrorNoSuchConfiguration; } udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDISessionId(udrs, &session[Session].tip_id); udr_UDIBool(udrs, &Terminate); udr_sendnow(udrs); session[Session].in_use = FALSE; /* session id is now free */ for (cnt=0; cnt < MAX_SESSIONS; cnt++) if(session[cnt].in_use && session[cnt].soc_con_p == session[Session].soc_con_p ) break; if(cnt >= MAX_SESSIONS) /* test if socket not multiplexed */ if(shutdown(session[Session].soc_con_p->dfe_sd, 2)) { sprintf(dfe_errmsg, "DFE-ipc WARNING: socket shutdown failed"); return UDIErrorIPCInternal; } else session[Session].soc_con_p->in_use = 0; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /******************************************************************** UDI_KILL * UDIKill() is used to send a signal to the TIP. * This is a private IPC call. */ UDIError UDIKill(Session, Signal) UDISessionId Session; UDIInt32 Signal; { int cnt; UDIInt32 service_id = UDIKill_c; if(Session < 0 || Session > MAX_SESSIONS) { sprintf(dfe_errmsg," SessionId not valid (%d)", Session); return UDIErrorNoSuchConfiguration; } udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDISessionId(udrs, &session[Session].tip_id); udr_UDIInt32(udrs, &Signal); udr_sendnow(udrs); session[Session].in_use = FALSE; /* session id is now free */ for (cnt=0; cnt < MAX_SESSIONS; cnt++) if(session[cnt].in_use && session[cnt].soc_con_p == session[Session].soc_con_p ) break; if(cnt < MAX_SESSIONS) /* test if socket not multiplexed */ if(shutdown(session[Session].soc_con_p->dfe_sd, 2)) { sprintf(dfe_errmsg, "DFE-ipc WARNING: socket shutdown failed"); return UDIErrorIPCInternal; } else session[Session].soc_con_p->in_use = 0; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /************************************************** UDI_Set_Current_Connection * If you are connected to multiple TIPs, you can change * TIPs using UDISetCurrentConnection(). */ UDIError UDISetCurrentConnection(Session) UDISessionId Session; { UDIInt32 service_id = UDISetCurrentConnection_c; if(Session < 0 || Session > MAX_SESSIONS) return UDIErrorNoSuchConfiguration; if(!session[Session].in_use) /* test if not in use yet */ return UDIErrorNoSuchConnection; current = Session; /* change socket or multiplex the same socket */ udrs->sd = session[Session].soc_con_p->dfe_sd; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDISessionId(udrs, &session[Session].tip_id); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /************************************************************ UDI_Capabilities * The DFE uses UDICapabilities() to both inform the TIP * of what services the DFE offers and to inquire of the * TIP what services the TIP offers. */ UDIError UDICapabilities(TIPId, TargetId, DFEId, DFE, TIP, DFEIPCId, TIPIPCId, TIPString) UDIUInt32 *TIPId; /* out */ UDIUInt32 *TargetId; /* out */ UDIUInt32 DFEId; /* in */ UDIUInt32 DFE; /* in */ UDIUInt32 *TIP; /* out */ UDIUInt32 *DFEIPCId; /* out */ UDIUInt32 *TIPIPCId; /* out */ char *TIPString; /* out */ { UDIInt32 service_id = UDICapabilities_c; int size; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIInt32(udrs, &DFEId); udr_UDIInt32(udrs, &DFE); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" paramters */ udr_UDIInt32(udrs, TIPId); udr_UDIInt32(udrs, TargetId); udr_UDIInt32(udrs, TIP); udr_UDIInt32(udrs, DFEIPCId); *DFEIPCId = (company_c << 16) + (product_c << 12) + version_c; udr_UDIInt32(udrs, TIPIPCId); udr_string(udrs, sbuf); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ size = strlen(sbuf); if(size +1 > 80) return -1; /* test if sufficient space */ strcpy(TIPString, sbuf); return dfe_errno; } /********************************************************** UDI_Enumerate_TIPs * Used by the DFE to enquire about available TIP * connections. */ UDIError UDIEnumerateTIPs(UDIETCallback) int (*UDIETCallback)(); /* In -- function to callback */ { FILE *fp; fp = fopen(config_file, "r"); if(fp == NULL) return UDIErrorCantOpenConfigFile; while(fgets( sbuf, SBUF_SIZE, fp)) if(UDIETCallback( sbuf) == UDITerminateEnumeration) break; fclose( fp); return UDINoError; /* return success */ } /*********************************************************** UDI_GET_ERROR_MSG * Some errors are target specific. They are indicated * by a negative error return value. The DFE uses * UDIGetErrorMsg() to get the descriptive text for * the error message which can then be displayed to * the user. */ UDIError UDIGetErrorMsg(error_code, msg_len, msg, CountDone) UDIError error_code; /* In */ UDISizeT msg_len; /* In -- allowed message space */ char* msg; /* Out -- length of message*/ UDISizeT *CountDone; /* Out -- number of characters */ { UDIInt32 service_id = UDIGetErrorMsg_c; int size; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIError(udrs, &error_code); udr_UDISizeT(udrs, &msg_len); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_string(udrs, sbuf); udr_UDISizeT(udrs, CountDone); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ size = strlen(sbuf); if(size +1 > msg_len) return -1; /* test if sufficient space */ strcpy(msg, sbuf); return dfe_errno; } /******************************************************* UDI_GET_TARGET_CONFIG * UDIGetTargetConfig() gets information about the target. */ UDIError UDIGetTargetConfig(KnownMemory, NumberOfRanges, ChipVersions, NumberOfChips) UDIMemoryRange KnownMemory[]; /* Out */ UDIInt *NumberOfRanges; /* In and Out */ UDIUInt32 ChipVersions[]; /* Out */ UDIInt *NumberOfChips; /* In and Out */ { UDIInt32 service_id = UDIGetTargetConfig_c; int cnt; int MaxOfRanges = *NumberOfRanges; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIInt(udrs, NumberOfRanges); udr_UDIInt(udrs, NumberOfChips); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" paramters */ for(cnt=1; cnt <= MaxOfRanges; cnt++) udr_UDIMemoryRange(udrs, &KnownMemory[cnt-1]); udr_UDIInt(udrs, NumberOfRanges); udr_UDIInt(udrs, NumberOfChips); for(cnt=1; cnt <= *NumberOfChips; cnt++) udr_UDIUInt32(udrs, &ChipVersions[cnt -1]); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /********************************************************** UDI_CREATE_PRCOESS * UDICreateProcess() tells the target OS that a * process is to be created and gets a PID back unless * there is some error. */ UDIError UDICreateProcess(pid) UDIPId *pid; /* out */ { UDIInt32 service_id = UDICreateProcess_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIPId(udrs, pid); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /***************************************************** UDI_Set_Current_Process * UDISetCurrentProcess uses a pid supplied by * UDICreateProcess and sets it as the default for all * udi calls until a new one is set. A user of a */ UDIError UDISetCurrentProcess (pid) UDIPId pid; /* In */ { UDIInt32 service_id = UDISetCurrentProcess_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIPId(udrs, &pid); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /****************************************************** UDI_INITIALISE_PROCESS * UDIInitializeProcess() prepare process for * execution. (Reset processor if process os processor). */ UDIError UDIInitializeProcess( ProcessMemory, NumberOfRanges, EntryPoint, StackSizes, NumberOfStacks, ArgString) UDIMemoryRange ProcessMemory[]; /* In */ UDIInt NumberOfRanges; /* In */ UDIResource EntryPoint; /* In */ CPUSizeT *StackSizes; /* In */ UDIInt NumberOfStacks; /* In */ char *ArgString; /* In */ { UDIInt32 service_id = UDIInitializeProcess_c; int cnt; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIInt(udrs, &NumberOfRanges); for(cnt = 0; cnt < NumberOfRanges; cnt++) udr_UDIMemoryRange(udrs, &ProcessMemory[cnt] ); udr_UDIResource(udrs, &EntryPoint); udr_UDIInt(udrs, &NumberOfStacks); for(cnt = 0; cnt < NumberOfStacks; cnt++) udr_CPUSizeT(udrs, &StackSizes[cnt]); udr_string(udrs, ArgString); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /********************************************************* UDI_DESTROY_PROCESS * UDIDestroyProcess() frees a process resource * previously created by UDICreateProcess(). */ UDIError UDIDestroyProcess(pid) UDIPId pid; /* in */ { UDIInt32 service_id = UDIDestroyProcess_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIPId(udrs, &pid); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /****************************************************************** UDI_READ * UDIRead() reads a block of objects from a target * address space to host space. */ UDIError UDIRead (from, to, count, size, count_done, host_endian) UDIResource from; /* in - source address on target */ UDIHostMemPtr to; /* out - destination address on host */ UDICount count; /* in -- count of objects to be transferred */ UDISizeT size; /* in -- size of each object */ UDICount *count_done; /* out - count actually transferred */ UDIBool host_endian; /* in -- flag for endian information */ { UDIInt32 service_id = UDIRead_c; int byte_count; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIResource(udrs, &from); udr_UDICount(udrs, &count); udr_UDISizeT(udrs, &size); udr_UDIBool(udrs, &host_endian); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" paramters */ udr_UDICount(udrs, count_done); byte_count = (*count_done) * size; if(*count_done > 0 && *count_done <= count) udr_bytes(udrs, to, byte_count); if(udr_errno) return udr_errno; udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /****************************************************************** UDI_WRITE * UDIWrite() writes a block of objects from host * space to a target address+space. */ UDIError UDIWrite( from, to, count, size, count_done, host_endian ) UDIHostMemPtr from; /* in -- source address on host */ UDIResource to; /* in -- destination address on target */ UDICount count; /* in -- count of objects to be transferred */ UDISizeT size; /* in -- size of each object */ UDICount *count_done; /* out - count actually transferred */ UDIBool host_endian; /* in -- flag for endian information */ { UDIInt32 service_id = UDIWrite_c; int byte_count = count * size; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIResource(udrs, &to); udr_UDICount(udrs, &count); udr_UDISizeT(udrs, &size); udr_UDIBool(udrs, &host_endian); udr_bytes(udrs, from, byte_count); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" paramters */ udr_UDICount(udrs, count_done); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /******************************************************************** UDI_COPY * UDICopy() copies a block of objects from one target * get address/space to another target address/space. */ UDIError UDICopy(from, to, count, size, count_done, direction ) UDIResource from; /* in -- destination address on target */ UDIResource to; /* in -- source address on target */ UDICount count; /* in -- count of objects to be transferred */ UDISizeT size; /* in -- size of each object */ UDICount *count_done; /* out - count actually transferred */ UDIBool direction; /* in -- high-to-low or reverse */ { UDIInt32 service_id = UDICopy_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIResource(udrs, &from); udr_UDIResource(udrs, &to); udr_UDICount(udrs, &count); udr_UDISizeT(udrs, &size); udr_UDIBool(udrs, &direction); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDICount(udrs, count_done); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /***************************************************************** UDI_EXECUTE * UDIExecute() continues execution of the default * process from the current PC. */ UDIError UDIExecute() { UDIInt32 service_id = UDIExecute_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /******************************************************************** UDI_STEP * UDIStep() specifies a number of "instruction" * steps to make. */ UDIError UDIStep(steps, steptype, range) UDIUInt32 steps; /* in -- number of steps */ UDIStepType steptype; /* in -- type of stepping to be done */ UDIRange range; /* in -- range if StepInRange is TRUE */ { UDIInt32 service_id = UDIStep_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIInt32(udrs, &steps); udr_UDIStepType(udrs, &steptype); udr_UDIRange(udrs, &range); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /******************************************************************** UDI_STOP * UDIStop() stops the default process */ UDIVoid UDIStop() { if (strcmp(session[current].soc_con_p->domain_string, "AF_UNIX") == 0) kill(session[current].soc_con_p->tip_pid, SIGINT); else udr_signal(udrs); /* XXX - should clean up session[] and soc_con[] structs here as well... */ return; } /******************************************************************** UDI_WAIT * UDIWait() returns the state of the target procesor. */ UDIError UDIWait(maxtime, pid, stop_reason) UDIInt32 maxtime; /* in -- maximum time to wait for completion */ UDIPId *pid; /* out -- pid of process which stopped if any */ UDIUInt32 *stop_reason; /* out -- PC where process stopped */ { UDIInt32 service_id = UDIWait_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIInt32(udrs, &maxtime); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIPId(udrs, pid); udr_UDIUInt32(udrs, stop_reason); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /********************************************************** UDI_SET_BREAKPOINT * UDISetBreakpoint() sets a breakpoint at an adress * and uses the passcount to state how many * times that instruction should be hit before the * break occurs. */ UDIError UDISetBreakpoint (addr, passcount, type, break_id) UDIResource addr; /* in -- where breakpoint gets set */ UDIInt32 passcount; /* in -- passcount for breakpoint */ UDIBreakType type; /* in -- breakpoint type */ UDIBreakId *break_id; /* out - assigned break id */ { UDIInt32 service_id = UDISetBreakpoint_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIResource(udrs, &addr); udr_UDIInt32(udrs, &passcount); udr_UDIBreakType(udrs, &type); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIBreakId(udrs, break_id); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /******************************************************** UDI_QUERY_BREAKPOINT */ UDIError UDIQueryBreakpoint (break_id, addr, passcount, type, current_count) UDIBreakId break_id; /* in -- assigned break id */ UDIResource *addr; /* out - where breakpoint was set */ UDIInt32 *passcount; /* out - trigger passcount for breakpoint */ UDIBreakType *type; /* out - breakpoint type */ UDIInt32 *current_count; /* out - current count for breakpoint */ { UDIInt32 service_id = UDIQueryBreakpoint_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIBreakId(udrs, &break_id); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIResource(udrs, addr); udr_UDIInt32(udrs, passcount); udr_UDIBreakType(udrs, type); udr_UDIInt32(udrs, current_count); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /******************************************************** UDI_CLEAR_BREAKPOINT * UDIClearBreakpoint() is used to clear a breakpoint. */ UDIError UDIClearBreakpoint (break_id) UDIBreakId break_id; /* in -- assigned break id */ { UDIInt32 service_id = UDIClearBreakpoint_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIBreakId(udrs, &break_id); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /************************************************************** UDI_GET_STDOUT * UDIGetStdout() is called when a call to * UDIWait() indicates there is STD output data ready. */ UDIError UDIGetStdout(buf, bufsize, count_done) UDIHostMemPtr buf; /* out -- buffer to be filled */ UDISizeT bufsize; /* in -- buffer size in bytes */ UDISizeT *count_done; /* out -- number of bytes written to buf */ { UDIInt32 service_id = UDIGetStdout_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDISizeT(udrs, &bufsize); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDISizeT(udrs, count_done); udr_bytes(udrs, buf, *count_done); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /************************************************************** UDI_GET_STDERR * UDIGetStderr() is called when a call to * UDIWait() indicates there is STDERR output data ready */ UDIError UDIGetStderr(buf, bufsize, count_done) UDIHostMemPtr buf; /* out -- buffer to be filled */ UDISizeT bufsize; /* in -- buffer size in bytes */ UDISizeT *count_done; /* out -- number of bytes written to buf */ { UDIInt32 service_id = UDIGetStderr_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDISizeT(udrs, &bufsize); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDISizeT(udrs, count_done); udr_bytes(udrs, buf, *count_done); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /*************************************************************** UDI_PUT_STDIN * UDIPutStdin() is called whenever the DFE wants to * deliver an input character to the TIP. */ UDIError UDIPutStdin (buf, count, count_done) UDIHostMemPtr buf; /* in -- buffer to be filled */ UDISizeT count; /* in -- buffer size in bytes */ UDISizeT *count_done; /* out - number of bytes written to buf */ { UDIInt32 service_id = UDIPutStdin_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDISizeT(udrs, &count); udr_bytes(udrs, buf, count); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDISizeT(udrs, count_done); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /************************************************************** UDI_STDIN_MODE * UDIStdinMode() is used to change the mode that chazcters * are fetched from the user. */ UDIError UDIStdinMode(mode) UDIMode *mode; /* out - */ { UDIInt32 service_id = UDIStdinMode_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIMode(udrs, mode); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /*************************************************************** UDI_PUT_TRANS * UDIPutTrans() is used to feed input to the passthru mode. */ UDIError UDIPutTrans (buf, count, count_done) UDIHostMemPtr buf; /* in -- buffer address containing input data */ UDISizeT count; /* in -- number of bytes in buf */ UDISizeT *count_done; /* out-- number of bytes transfered */ { UDIInt32 service_id = UDIPutTrans_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDISizeT(udrs, &count); udr_bytes(udrs, buf, count); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDISizeT(udrs, count_done); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /*************************************************************** UDI_GET_TRANS * UDIGetTrans() is used to get output lines from the * passthru mode. */ UDIError UDIGetTrans (buf, bufsize, count_done) UDIHostMemPtr buf; /* out -- buffer to be filled */ UDISizeT bufsize; /* in -- size of buf */ UDISizeT *count_done; /* out -- number of bytes in buf */ { UDIInt32 service_id = UDIGetTrans_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDISizeT(udrs, &bufsize); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDISizeT(udrs, count_done); udr_bytes(udrs, buf, *count_done); udr_UDIError(udrs, &dfe_errno); /* get any TIP error */ return dfe_errno; } /************************************************************** UDI_Trans_Mode * UDITransMode() is used to change the mode that the * transparent routines operate in. */ UDIError UDITransMode(mode) UDIMode *mode; /* out -- selected mode */ { UDIInt32 service_id = UDITransMode_c; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); udr_UDIMode(udrs, mode); udr_sendnow(udrs); if(udr_errno) return udr_errno; udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ udr_UDIError(udrs, &dfe_errno); return dfe_errno; } /******************************************************************** UDI_TEST */ UDIError UDITest( cnt, str_p, array) UDISizeT cnt; UDIHostMemPtr str_p; UDIInt32 array[]; { UDIInt32 service_id = UDITest_c; UDIInt16 scnt = cnt; UDISizeT r_cnt; char buf[256]; udr_errno = 0; udrs->udr_op = UDR_ENCODE; /* send all "in" parameters */ udr_UDIInt32(udrs, &service_id); printf("send cnt=%d scnt=%d\n", cnt, scnt); udr_UDISizeT(udrs, &cnt); udr_UDIInt16(udrs, &scnt); printf(" array[0]=0x%x array[1]=0x%x array[2]=0x%x array[3]=0x%x\n", array[0], array[1], array[2], array[3]); udr_bytes(udrs, (char*)array, 4*sizeof(UDIInt32)); printf(" string=%s\n", str_p); udr_string(udrs, str_p); udr_sendnow(udrs); if(udr_errno) { fprintf(stderr, " DFE-ipc Send ERROR\n"); return udr_errno; } udrs->udr_op = UDR_DECODE; /* receive all "out" parameters */ printf("recv "); udr_UDISizeT(udrs, &r_cnt); udr_UDIInt16(udrs, &scnt); printf(" rcnt=%d scnt=%d\n", r_cnt, scnt); udr_bytes(udrs, (char*)array, 4*sizeof(UDIInt32)); printf(" array[0]=0x%x array[1]=0x%x array[2]=0x%x array[3]=0x%x\n", array[0], array[1], array[2], array[3]); udr_string(udrs, str_p); printf(" string=%s\n", str_p); udr_UDIError(udrs, &dfe_errno); return dfe_errno; } UDIUInt32 UDIGetDFEIPCId() { return ((company_c << 16) + (product_c << 12) + version_c); } #endif /* __GO32__ */