syscall.c 18.8 KB
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/*
 * Copyright (C) 1996-1998 by the Board of Trustees
 *    of Leland Stanford Junior University.
 * 
 * This file is part of the SimOS distribution. 
 * See LICENSE file for terms of the license. 
 *
 */

/**************************************************************
 * Syscall.c
 *
 * This file is used to emulate the system calls I want to
 * provide reliably.  Since Mipsy sometimes uses data handling,
 * I'll need to do this so that the system calls can see
 * coherent memory, which I provide by reading the caches
 * appropriately.  If the calls ran directly, as they do now,
 * incorrect memory can easily be seen by these calls
 *
 * Author: $Author: blythe $
 * Date:   $Date: 2002/05/29 01:09:11 $
 *
 * **************************************************************
 */

#include <stdio.h>
#include "simtypes.h"
#include "mipsy.h"
#include "cpu.h"
#include "sim_error.h"
#include "cp0.h"
#include "fpu.h"
#include "eventcallback.h"
#include "pcache.h"
#include "cpu_stats.h"
#include "simstats.h"
#include "cpu_interface.h"
#include "malloc.h"
#include "sim_error.h"
#include "solo_interface.h"
#include <bstring.h>

#include <sys/types.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <math.h>
#include <errno.h>
extern int errno;


/* Includes for syscalls we emulate */
#include <unistd.h>

#include "solo.h"
#include "solo_extras.h"
#include "sys.s"

#define PAGE_SIZE 4096
extern char *AppBrk;
extern uint soloLockBase;

/*
 * ReadSyscallStringNolength
 *
 * This routine reads, a byte at a time, a null terminated ascii string
 * used for input to a syscall. This read goes through Mipsy Caches.  As
 * such, it must issue a read and the go away if it misses.
 *
 * This routine should return 1 only when the string is completely intact in
 * S->syscallBuf[which].  It should return 0 when the processor is stalling
 * for memory it needs.
 *
 */
static int
ReadSyscallStringNolength(int cpuNum, int which, int base)
{
   int i;
   byte data;
   SoloState *S = &machineState[cpuNum]; 

   if (S->syscallState[which] == -1) {
      S->syscallState[which] = 0;
   }

/*  AllocateSyscallString(P, which, length);  */
				/* Allocate buffer area */

   SIM_DEBUG(('o', "Reading ascii string starting at index %d for syscall #%d(%s)\n",
              S->syscallState[which], S->syscallNum,
              syscallName[S->syscallNum]));

   /* Fill buffer coherently, bailing of if  I miss */
   for (i=S->syscallState[which];; i++) {
      if (SoloReadByte(cpuNum, base+i, &data) != SUCCESS) {
	 /* syscall_op case will set up P's stall information */
         
	 SIM_DEBUG(('o', "Ascii string read stalling at addr %8.8x for syscall #%d(%s)\n",
                    base+i,S->syscallNum, syscallName[S->syscallNum]));
	 return 0;
      } else {

         if (i >= SYSCALL_BUF_SIZE) {
            S->syscallBuf[which][SYSCALL_BUF_SIZE - 1] = 0;
            CPUError("Syscall string parameter with length  > SYSCALL_BUF_SIZE\n%s\n",
                       S->syscallBuf[which]);
         }

	 S->syscallBuf[which][i] = data;
	 S->syscallState[which]=i+1;
         if(data == 0)
            break;
      }
   }
   
   SIM_DEBUG(('o', "Ascii string read done for for syscall #%d(%s)\n",
              S->syscallNum, syscallName[S->syscallNum]));
   return 1;
}   





/*
 * ReadSyscallString
 *
 * This routine reads, a byte at a time, a string used for input to a
 * syscall. This read goes through Mipsy Caches.  As such, it must issue a
 * read and the go away if it misses. 
 *
 * This routine should return 1 only when the string is completely intact in
 * S->syscallBuf[which].  It should return 0 when the processor is stalling
 * for memory it needs.
 *
 */
static int
ReadSyscallString(int cpuNum, int which, int base, int length)
{
   int i;
   byte data;
   SoloState *S = &machineState[cpuNum]; 

   if (length == 0) {		/* If length is zero...I do nothing */
/* Currently using static allocation */
/*      S->syscallBuf[which] = NULL; */
      return 1;
   }
   if (S->syscallState[which] >= length) {
      return 1;			/* This buffer is all ready to go */
   }
   
   if (S->syscallState[0] == -1) { /* I suspect the [0] here is a bug */
      S->syscallState[0] = 0;
   }
/*  AllocateSyscallString(P, which, length);  */
				/* Allocate buffer area */

   SIM_DEBUG(('o', "Reading string starting at index %d(/%d) for syscall #%d(%s)\n",
              S->syscallState[which], length, S->syscallNum,
              syscallName[S->syscallNum]));

   /* Fill buffer coherently, bailing of if  I miss */
   for (i=S->syscallState[which]; i<length; i++) {
      if (SoloReadByte(cpuNum, base+i, &data) != SUCCESS) {
	 /* syscall_op case will set up P's stall information */
	 SIM_DEBUG(('o', "String read stalling at addr %8.8x for syscall #%d(%s)\n",
                    base+i,S->syscallNum, syscallName[S->syscallNum]));
	 return 0;
      } else {
	 S->syscallBuf[which][i] = data;
	 S->syscallState[which]=i+1;
      }
   }
   
   SIM_DEBUG(('o', "String read done for for syscall #%d(%s)\n",
              S->syscallNum, syscallName[S->syscallNum]));
   return 1;
}   

/*
 * WriteSyscallString
 *
 * This routine writes, a byte at a time, a string derived from output of a
 * syscall. This write goes through Mipsy Caches.  As such, it must issue a
 * write and the go away if it misses. 
 *
 * This routine should return 1 only when the string is completely written from
 * S->syscallBuf[which].  It should return 0 when the processor is stalling
 * for memory it needs.
 *
 */
static int
WriteSyscallString(int cpuNum, int which, int base, int length)
{
   int i;
   SoloState *S = &machineState[cpuNum]; 

   if (length == 0) {		/* If length is zero...I do nothing */
      return 1;
   }
   if (S->syscallState[which] >= length) {
      return 1;			/* This buffer is all ready to go */
   }

   SIM_DEBUG(('o', "Writing string starting at index %d(/%d) for syscall #%d(%s)\n",
              S->syscallState[which], length, S->syscallNum,
              syscallName[S->syscallNum]));

   /* Fill buffer coherently, bailing of if  I miss */
   for (i=S->syscallState[which]; i<length; i++) {
       if (SoloWriteByte(cpuNum, base+i, S->syscallBuf[which][i]) != SUCCESS) {
	 S->syscallState[which] = i;
				/* Store partial progress indication */

	 /* syscall_op case will set up P's stall information */
	 SIM_DEBUG(('o', "String write stalling at addr %8.8x for syscall #%d(%s)\n",
                    base+i,S->syscallNum, syscallName[S->syscallNum]));
	 return 0;
      }
   }
   
   SIM_DEBUG(('o', "String write done for for syscall #%d(%s)\n",
              S->syscallNum, syscallName[S->syscallNum]));
   return 1;
}   
   

/*
 * SoloEmulateSystemCall
 *
 * This routine emulates system calls, often over multiple steps.  A call
 * may come here multiple times before the syscall is ultimately
 * satisfied.
 *
 * This routine must return 0 if the system call is not complete!
 *
 * Switch cases should break(!) to the end if they complete successfully for
 * cleanup code to run.
 */
int
SoloEmulateSyscall(int cpuNum, int syscallNum)
{
   long r4, r5, r6;
   long err;
   SoloState *S = &machineState[cpuNum]; 
   CPUState *P = &(PE[cpuNum]);

   if (!(((syscallNum+SYSVoffset) == SYS_pause) && (S->syscallState[0] != -1))) {
      SIM_DEBUG(('o',"EmulateSyscall by cpu %d  syscallNum %d (%s)\n", cpuNum,
                 syscallNum, syscallName[syscallNum]));
   }

   if (S->syscallNum != -1 &&
       S->syscallNum != syscallNum) {
				/*
				 * This is the BEGINNING of emulation of a new
				 * system call, not the continuation of an old
				 * one!!  Initialize the state!  I do this
				 * same work at the completion of a syscall,
				 * so if I see this it means something is
				 * wrong!
				 */
      CPUWarning("EmulateSyscall saw different syscallNum (new: %d, old %d\n",
		   syscallNum, S->syscallNum);
      /* Clean up */
      S->syscallState[0] = -1;	/* Strings are uninitialized */
      S->syscallState[1] = -1;  /* Strings are uninitialized */
   }

   S->syscallNum = syscallNum;

   /* WARNING: Do not return 1 inside this switch. Use "break" instead */
   switch (syscallNum+SYSVoffset) {

/* Handled syscalls */

   case SYS_exit:
      CPUError("SoloMipsy should handle exit() (SYS_exit) in CPURun!\n");
      break;

   case SYS_brk:
   {
      int fd;
      void *ret;
      unsigned long incr;
      
      SIM_DEBUG(('o', "Mipsy caught brk()...pP->R[4] = 0x%8.8x\n",P->R[4]));
      
      if ((char *) P->R[4] > AppBrk) {
				/* Will need more heap..grab 1MB more,
  				   or how much the application requested,
				   whichever is more */
	 if ( ((unsigned long) P->R[4] - (unsigned long) AppBrk) > 0x100000) {
	    incr = ((unsigned long) P->R[4] - (unsigned long) AppBrk);
            /* has to be page aligned */
            incr = ((incr + PAGE_SIZE - 1)/PAGE_SIZE)*PAGE_SIZE;
	 } else {
	    incr = 0x100000;
	 }

#if 0
	 if ((uint) AppBrk+incr > soloLockBase) {
	    CPUError("Mipsy: application brk() would have encroached on lock space:\nCurrent heap top: %8.8x  soloLockBase: %8.8x\n",
		     AppBrk, soloLockBase);
	 }
#endif
	 CPUPrint("Mipsy: Extending application heap region: %8.8x to %8.8x\n",
		 AppBrk, AppBrk + incr);

	 fd = open("/dev/zero", O_RDWR);
	 if (fd == -1) {
	    CPUError("brk emulation: /dev/zero open (for heap mmap) failed");
	 }
	 ret = (char *) mmap((void *) AppBrk, incr,
			     PROT_READ|PROT_WRITE,
			     MAP_SHARED|MAP_FIXED, fd, 0);
	 if (ret != (char *) (AppBrk)) {
	    perror("Mapping new heap region for application");
	    (void) close(fd);
	    return -1;
	 }
	 AppBrk += incr;	/* incr more memory now available */
      } 
      /* memory already ready from before, just return success */

      P->R[7] = 0;		/* Return success */
      break;
   }

   case SYS_fxstat:
      
      SIM_DEBUG(('o', "Emulating fxstat() system call\n"));
      r4 = P->R[4];
      r5 = P->R[5];
      r6 = P->R[6];

      if (S->syscallState[0] == -1) {
				/* first time through */
	 S->syscallState[0] = 0;	 
         /* the  libc stub code looks at a3 to decide if the call succeeded or failed */
         err = _fxstat(r4, r5, (struct stat *)S->syscallBuf[0]);
         if(err < 0) {
            P->R[7] = 1;
            P->R[2] = errno;
            break;
         } else {
            P->syscallStatus = 0;
            P->syscallResult = err;
         }
      }

      if (!WriteSyscallString(cpuNum, 0, r6, sizeof(struct stat))) {
	 return STALL;
      } else {
         P->R[7] = P->syscallStatus;
         P->R[2] = P->syscallResult;
      }


      /* errno may not be supported correctly across threads */

      /* Success */
      break;
      


   case SYS_open:
      
      SIM_DEBUG(('o', "Emulating open() system call\n"));
      r4 = P->R[4];
      r5 = P->R[5];
      r6 = P->R[6];

      if (!ReadSyscallStringNolength(cpuNum, 0, r4)) {
	 return STALL;
      }

      err = open((const void *) S->syscallBuf[0], r5, r6);

      /* the  libc stub code looks at a3 to decide if the call succeeded or failed */
      if(err < 0) {
         P->R[7] = 1;
         P->R[2] = errno;
      } else {
         P->R[7] = 0;
         P->R[2] = err;
      }
      /* errno may not be supported correctly across threads */

      /* Success */
      break;
      
      
   case SYS_close:
      SIM_DEBUG(('o', "Emulating close() system call\n"));
      r4 = P->R[4];
      err = close(r4);
      /* the  libc stub code looks at a3 to decide if the call succeeded or failed */
      if(err < 0) {
         P->R[7] = 1;
         P->R[2] = errno;
      } else {
         P->R[7] = 0;
         P->R[2] = err;
      }
      break;
      
   case SYS_read:
      SIM_DEBUG(('o', "Emulating read() system call...WARNING: incompletely tested!\n"));
      r4 = P->R[4];
      r5 = P->R[5];
      r6 = P->R[6];

      if (r6 > SYSCALL_BUF_SIZE) {
	 CPUError("Detected read syscall length (%d) > SYSCALL_BUF_SIZE",
		    r6);
      }

      if (S->syscallState[0] == -1) {
				/* first time through */
/*	 AllocateSyscallString(P, 0, r6);  */
	 S->syscallState[0] = 0;	 
	 err = read(r4, (void *) S->syscallBuf[0], r6);
         /* the  libc stub code looks at a3 to decide if the call succeeded or failed */
         if(err < 0) {
            P->R[7] = 1;
            P->R[2] = errno;
            break;
         } else {
            P->syscallStatus = 0;
            P->syscallResult = err;
         }
      }

      if (!WriteSyscallString(cpuNum, 0, r5, P->syscallResult)) {
	 SIM_DEBUG(('o', "read() returning STALL\n"));
	 return STALL;
      } else {
         P->R[7] = P->syscallStatus;
         P->R[2] = P->syscallResult;
      }


      /* errno may not be supported correctly across threads */

      /* Success */
      break;

   case SYS_write:
      
      SIM_DEBUG(('o', "Emulating write() system call\n"));
      r4 = P->R[4];
      r5 = P->R[5];
      r6 = P->R[6];

      if (r6 > SYSCALL_BUF_SIZE) {
	 CPUError("Detected write syscall length (%d) > SYSCALL_BUF_SIZE",
		    r6);
      }

      if (!ReadSyscallString(cpuNum, 0, r5, r6)) {
	 return STALL;
      }

      err = write(r4, (const void *) S->syscallBuf[0], r6);
      /* the  libc stub code looks at a3 to decide if the call succeeded or failed */
      if(err < 0) {
         P->R[7] = 1;
         P->R[2] = errno;
      } else {
         P->R[7] = 0;
         P->R[2] = err;
      }
      /* errno may not be supported correctly across threads */
      /* Success */
      break;
      

   case SYS_prctl:
      if (P->R[4] == PR_GETNSHARE) {
	 P->R[7] = 0;		/* Allow Share Group queries */
      } else {
	 CPUError("Encountered unsupported %d (prctl) function code #%d, exiting\n",
		 syscallNum, P->R[4]);
      }
      break;			/* Success if here */

/* Passed MipsyHandleSyscall after some Prologue*/

/* Passed directly to MipsyHandleSyscall */
/* These functions areguments are clean and can be sent directly */
   case SYS_syscall:		/* I have NO IDEA what this does */
   case SYS_ioctl:

   case SYS_dup:
   case SYS_pipe:
   case SYS_setuid:
   case SYS_getuid:
   case SYS_getpid:
   case SYS_kill:
   case SYS_lseek:
/* WARNING: --- Watch ksigaction --- */
   case SYS_ksigaction:
      MipsyHandleSyscall(P);
      break;

/* Intercept this call as a request to determine if you're on mipsy. The user 
   program can check the return value */
   case SYS_sync:
      P->R[REG_V0] = IN_MIPSY;
      break;

/* Yet Another Syscall Hack -- this one stalls the CPU for a small, random
   number of cycles.  Register a2 provides a 'shift factor' which allows us
   to model exponential backoff. */
   case SYS_pause:
      {
         static uint stallTime[SIM_MAXCPUS];
	 uint shiftamount, mask;

         if (S->syscallState[0] == -1) {
	    shiftamount = (P->R[4] > 24) ? 24 : P->R[4];
            mask = (32 << shiftamount) - 1;
            S->syscallState[0] = 0;	 
            stallTime[cpuNum] = random() & mask;
	    CPUPrint("EmulateSyscall: SYS_pause cpu %d backs off for %d cycles (MAX %d)\n",
		   cpuNum, stallTime[cpuNum], mask);
         }
         if (stallTime[cpuNum] > 0) {
            stallTime[cpuNum]--;
            return STALL;
         }
      }
      break;

/* Non-handled syscalls  */


   case SYS_fork:
   case SYS_creat:
   case SYS_link:
   case SYS_unlink:
   case SYS_execv:
   case SYS_chdir:
   case SYS_time:
   case SYS_chmod:
   case SYS_chown:
   case SYS_mount:
   case SYS_umount:
   case SYS_stime:
   case SYS_stat: 
   case SYS_ptrace:
   case SYS_alarm:
   case SYS_utime:
   case SYS_access:
   case SYS_nice:
   case SYS_statfs:
   case SYS_fstatfs:
   case SYS_setpgrp:
   case SYS_syssgi:
   case SYS_times:
   case SYS_profil:
   case SYS_plock:
   case SYS_setgid:
   case SYS_getgid:
   case SYS_msgsys:
   case SYS_sysmips:
   case SYS_acct:
   case SYS_shmsys:
   case SYS_semsys:
   case SYS_uadmin:
   case SYS_sysmp:
   case SYS_utssys:
   case SYS_execve:
   case SYS_umask:
   case SYS_chroot:
   case SYS_fcntl:
   case SYS_ulimit:
   case SYS_rmdir:
   case SYS_mkdir:
   case SYS_getdents:
   case SYS_sginap:
   case SYS_sgikopt:
   case SYS_sysfs:
   case SYS_getmsg:
   case SYS_putmsg:
   case SYS_poll:
/* This system call is internal for mips signal handling code */
   case SYS_sigreturn:

/* 4.3BSD-compatible socket/protocol system calls */
   case SYS_accept:
   case SYS_bind:
   case SYS_connect:
   case SYS_gethostid:
   case SYS_getpeername:
   case SYS_getsockname:
   case SYS_getsockopt:
   case SYS_listen:
   case SYS_recv:
   case SYS_recvfrom:
   case SYS_recvmsg:
   case SYS_select:
   case SYS_send:
   case SYS_sendmsg:
   case SYS_sendto:
   case SYS_sethostid:
   case SYS_setsockopt:
   case SYS_shutdown:
   case SYS_socket:
   case SYS_gethostname:
   case SYS_sethostname:
   case SYS_getdomainname:
   case SYS_setdomainname:

/* other 4.3BSD system calls */
   case SYS_truncate:
   case SYS_ftruncate:
   case SYS_rename:
   case SYS_symlink:
   case SYS_readlink:
   case SYS_nfssvc:
   case SYS_getfh:
   case SYS_async_daemon: 
   case SYS_exportfs:
   case SYS_setregid:
   case SYS_setreuid:
   case SYS_getitimer:
   case SYS_setitimer:
   case SYS_adjtime:
   case SYS_BSD_getime:

/* Parallel processing system calls */
   case SYS_sproc:
   case SYS_procblk:
   case SYS_sprocsp:

/* memory-mapped file calls */
   case SYS_mmap:
   case SYS_munmap:
   case SYS_mprotect:
   case SYS_msync:
   case SYS_madvise:
   case SYS_pagelock:
   case SYS_getpagesize:

/* BSD quotactl syscall, used to be libattach */
   case SYS_quotactl:

/* 4.3BSD set/getpgrp syscalls */
   case SYS_BSDgetpgrp:
   case SYS_BSDsetpgrp:

/* 4.3BSD vhangup, fsync, and fchdir */ 
   case SYS_vhangup:
   case SYS_fsync:
   case SYS_fchdir:

/* 4.3BSD getrlimit/setrlimit syscalls */
   case SYS_getrlimit:
   case SYS_setrlimit:

/* mips cache syscalls */
   case SYS_cacheflush:
   case SYS_cachectl:

/* 4.3BSD fchown/fchmod syscalls */
   case SYS_fchown:
   case SYS_fchmod:

/* 4.3BSD socketpair syscall */
   case SYS_socketpair:

/* SVR4.1 new syscalls */
   case SYS_sysinfo:
   case SYS_nuname:
   case SYS_xstat:
   case SYS_lxstat:
   case SYS_xmknod:

/* Posix.1 signal calls */
   case SYS_sigpending:
   case SYS_sigprocmask:
   case SYS_sigsuspend:

/* Posix.4 signal calls */
   case SYS_sigpoll:
   case SYS_swapctl:

   case SYS_getcontext:
   case SYS_setcontext:
   case SYS_waitsys:
   case SYS_sigstack:
   case SYS_sigaltstack:
   case SYS_sigsendset:

   case SYS_statvfs:
   case SYS_fstatvfs:
   case SYS_getpmsg:
   case SYS_putpmsg:

/* more SVR4.1 new syscall */
   case SYS_lchown:
   case SYS_priocntl:

/* Posix.4 signal calls */
   case SYS_ksigqueue:

      CPUError("Encountered unsupported system call #%d (%s), exiting\n",
		 syscallNum, syscallName[syscallNum]);
      break;
   default:
      CPUError("Encountered invalid system call #%d (?? %s), exiting\n",
		 syscallNum, syscallName[syscallNum]);
      break;

   }

   /* Clean up this syscall's internal state */

   if (S->syscallState[0] != -1) {
       S->syscallState[0]=-1;
   }
   if (S->syscallState[1] != -1) {
       S->syscallState[1]=-1;
   }
   S->syscallNum = -1;

   return 1;			/* This instruction is now complete */
}