subst.c
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/*
* Copyright (C) 1998 by the Board of Trustees
* of Leland Stanford Junior University.
* Copyright (C) 1998 Digital Equipment Corporation
*
* This file is part of the SimOS distribution.
* See LICENSE file for terms of the license.
*
*/
/*
* Substitute the system calls by AINT equivalents.
*/
#include <stdio.h>
#include <stdlib.h>
#include <syscall.h>
#include <errno.h>
#include <string.h>
#include <sys/resource.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/mount.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#include <sys/mman.h>
#include <sys/utsname.h>
#include <sys/sysinfo.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <machine/hal_sysinfo.h>
#include <math.h>
#include "gamma.h"
#include "aint.h"
#include "sim.h"
#include "globals.h"
#include "opcodes.h"
#include "subst.h"
#include "protos.h"
#include "alpha_regs.h"
#define v0 REG_V0
#define a0 REG_A0
#define a1 REG_A1
#define a2 REG_A2
#define a3 REG_A3
#define a4 REG_A4
#define _arg1 16
#define _arg2 17
#define _arg3 18
#define _arg4 19
#define _arg5 20
#define _arg6 21
extern struct timeval start_real_time;
extern struct timezone tz;
aint_time_t virtual_time;
syscall_substitute syscall_table[LAST];
SyscallStatus aint_ioctl( thread_ptr pthread);
SyscallStatus aint_fcntl( thread_ptr pthread);
SyscallStatus aint_statfs( thread_ptr pthread);
SyscallStatus aint_lstat( thread_ptr pthread);
SyscallStatus aint_getdirentries( thread_ptr pthread);
SyscallStatus aint_close( thread_ptr pthread);
SyscallStatus aint_write( thread_ptr pthread);
SyscallStatus aint_read( thread_ptr pthread);
SyscallStatus aint_lseek( thread_ptr pthread);
SyscallStatus aint_exit( thread_ptr pthread);
SyscallStatus aint_fork( thread_ptr pthread);
SyscallStatus aint_open( thread_ptr pthread);
SyscallStatus aint_stat( thread_ptr pthread);
SyscallStatus aint_fstat( thread_ptr pthread);
SyscallStatus aint_brk( thread_ptr pthread);
SyscallStatus aint_getpagesize( thread_ptr pthread);
SyscallStatus aint_gettimeofday( thread_ptr pthread);
SyscallStatus aint_shmget( thread_ptr pthread);
SyscallStatus aint_shmat( thread_ptr pthread);
SyscallStatus aint_shmdt( thread_ptr pthread);
SyscallStatus aint_shmctl( thread_ptr pthread);
SyscallStatus aint_wait4( thread_ptr pthread);
SyscallStatus aint_getdtablesize( thread_ptr pthread);
SyscallStatus aint_getrusage( thread_ptr pthread);
SyscallStatus aint_getpid( thread_ptr pthread);
SyscallStatus aint_getuid( thread_ptr pthread);
SyscallStatus aint_usleep( thread_ptr pthread);
SyscallStatus aint_munmap( thread_ptr pthread);
SyscallStatus aint_mmap( thread_ptr pthread);
SyscallStatus aint_access( thread_ptr pthread);
SyscallStatus aint_gethostname( thread_ptr pthread);
SyscallStatus aint_uname( thread_ptr pthread);
SyscallStatus aint_flock( thread_ptr pthread);
SyscallStatus aint_signal( thread_ptr pthread);
SyscallStatus aint_sigaction( thread_ptr pthread);
SyscallStatus aint_pipe( thread_ptr pthread);
SyscallStatus aint_getsysinfo( thread_ptr pthread);
SyscallStatus aint_setsysinfo( thread_ptr pthread);
SyscallStatus aint_sigprocmask( thread_ptr pthread);
SyscallStatus aint_setrlimit( thread_ptr pthread);
SyscallStatus aint_getrlimit( thread_ptr pthread);
SyscallStatus aint_setsid( thread_ptr pthread);
SyscallStatus aint_chdir( thread_ptr pthread);
SyscallStatus aint_getgid( thread_ptr pthread);
SyscallStatus aint_getdomainname( thread_ptr pthread);
SyscallStatus aint_setuid( thread_ptr pthread);
SyscallStatus aint_madvise( thread_ptr pthread);
SyscallStatus aint_umask( thread_ptr pthread);
SyscallStatus aint_table( thread_ptr pthread);
SyscallStatus aint_unlink( thread_ptr pthread);
SyscallStatus aint_syscall( thread_ptr pthread);
SyscallStatus aint_dup( thread_ptr pthread);
SyscallStatus aint_pid_block( thread_ptr pthread);
SyscallStatus aint_pid_unblock( thread_ptr pthread);
SyscallStatus aint_kill( thread_ptr pthread);
SyscallStatus aint_sigstack( thread_ptr pthread);
int copy_string(thread_ptr pthread, char *buffer, long pointer);
int xaddr_space_strlen(thread_ptr pthread, long pointer);
int free_addr_space(thread_ptr pthread);
void init_thread (thread_ptr pthread, event_ptr pevent, int enqueue);
void copy_argv (thread_ptr pthread, int arg_start, int argc, char **argv,
char **envp);
void page_unmap(thread_ptr pthread, ulong addr);
SyscallStatus schedule_cleanup( thread_ptr pthread);
/* This function initializes icodes used for implementing exit() */
void
subst_init ()
{
/*
* Initialize the system call table for only the supported system calls.
*/
syscall_table[SYS_exit] = &aint_exit;
syscall_table[SYS_ioctl] = &aint_ioctl;
syscall_table[SYS_fcntl] = &aint_fcntl;
syscall_table[SYS_statfs] = &aint_statfs;
syscall_table[SYS_lstat] = &aint_lstat;
syscall_table[SYS_getdirentries] = &aint_getdirentries;
syscall_table[SYS_close] = &aint_close;
syscall_table[SYS_open] = &aint_open;
syscall_table[SYS_stat] = &aint_stat;
syscall_table[SYS_fstat] = &aint_fstat;
syscall_table[SYS_write] = &aint_write;
syscall_table[SYS_read] = &aint_read;
syscall_table[SYS_lseek] = &aint_lseek;
syscall_table[SYS_fork] = &aint_fork;
syscall_table[SYS_obreak] = &aint_brk;
syscall_table[SYS_getpagesize] = &aint_getpagesize;
syscall_table[SYS_gettimeofday] = &aint_gettimeofday;
syscall_table[SYS_shmget] = &aint_shmget;
syscall_table[SYS_shmat] = &aint_shmat;
syscall_table[SYS_shmdt] = &aint_shmdt;
syscall_table[SYS_shmctl] = &aint_shmctl;
syscall_table[SYS_wait4] = &aint_wait4;
syscall_table[SYS_getdtablesize] = &aint_getdtablesize;
syscall_table[SYS_getrusage] = &aint_getrusage;
syscall_table[SYS_getpid] = &aint_getpid;
syscall_table[SYS_getuid] = &aint_getuid;
syscall_table[SYS_usleep_thread] = &aint_usleep;
syscall_table[SYS_execve] = &aint_execve;
syscall_table[SYS_munmap] = &aint_munmap;
syscall_table[SYS_mmap] = &aint_mmap;
syscall_table[SYS_access] = &aint_access;
syscall_table[SYS_gethostname] = &aint_gethostname;
syscall_table[SYS_uname] = &aint_uname;
syscall_table[SYS_flock] = &aint_flock;
syscall_table[SYS_signal] = &aint_signal;
syscall_table[SYS_sigaction] = &aint_sigaction;
syscall_table[SYS_pipe] = &aint_pipe;
syscall_table[SYS_getsysinfo] = &aint_getsysinfo;
syscall_table[SYS_setsysinfo] = &aint_setsysinfo;
syscall_table[SYS_sigprocmask] = &aint_sigprocmask;
syscall_table[SYS_setrlimit] = &aint_setrlimit;
syscall_table[SYS_getrlimit] = &aint_getrlimit;
syscall_table[SYS_setsid] = &aint_setsid;
syscall_table[SYS_chdir] = &aint_chdir;
syscall_table[SYS_getgid] = &aint_getgid;
syscall_table[SYS_getdomainname] = &aint_getdomainname;
syscall_table[SYS_setuid] = &aint_setuid;
syscall_table[SYS_madvise] = &aint_madvise;
syscall_table[SYS_umask] = &aint_umask;
syscall_table[SYS_table] = &aint_table;
syscall_table[SYS_unlink] = &aint_unlink;
syscall_table[SYS_syscall] = &aint_syscall;
syscall_table[SYS_dup] = &aint_dup;
syscall_table[SYS_pid_block] = &aint_pid_block;
syscall_table[SYS_pid_unblock] = &aint_pid_unblock;
syscall_table[SYS_kill] = &aint_kill;
syscall_table[SYS_sigstack] = &aint_sigstack;
}
/*
* All the system calls are faked by calling AINT substitues.
* The calling conventions assumed:
* func(arg1,arg2,arg3,...) means that
* reg16 = arg1, reg17 = arg2 etc
*/
SyscallStatus
callsys_f( thread_ptr pthread)
{
syscall_substitute aint_syscall;
/* Reset the process's lock_flag if set */
pthread->lock_flag = 0;
/* Lookup the system call in the table */
aint_syscall = syscall_table[pthread->st.reg[v0]];
#ifdef DEBUG
fprintf(stderr, "%d: system call %d\n",
pthread->pid, pthread->st.reg[v0]);
#endif
if (aint_syscall == NULL) {
fatal("Unsupported system call: %d\n", pthread->st.reg[v0]);
return SYSCALL_EXIT;
} else {
return (*aint_syscall)(pthread);
}
}
/*
* ioctl(
* int d,
* unsigned long request,
* void * arg );
*/
SyscallStatus
aint_ioctl( thread_ptr pthread)
{
/* The fd is in a0, the command in a1, and the output buf in a2 */
char mybuf[255];
int vfd, pfd, len;
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
len = (pthread->st.reg[_arg2] >> 16) & 0x1fff;
if ((pthread->st.reg[_arg2] >> 28) & 0x2) {
int i;
for (i = 0; i < len; i++) {
mybuf[i] = *(char *) addr2phys (pthread, pthread->st.reg[_arg3] + i);
}
}
pthread->st.reg[v0] = ioctl (pfd, pthread->st.reg[_arg2], mybuf);
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
/* if out parameter, then fill in the results */
if ((pthread->st.reg[_arg2] >> 28) && 0x4) {
int i;
for (i = 0; i < len; i++) {
*(char *) addr2phys (pthread, pthread->st.reg[_arg3] + i) = mybuf[i];
}
}
return SYSCALL_NEXT;
}
/*
* fcntl(
* int d,
* int request [ ,
* int argument | struct flock *argument ] );
*/
SyscallStatus
aint_fcntl( thread_ptr pthread)
{
char mybuf[255];
int vfd, pfd, len;
struct flock aint_flock;
char *p, *q, *buffer_p;
int i;
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
switch(pthread->st.reg[_arg2]) {
case F_GETLK:
case F_SETLK:
case F_SETLKW:
pthread->st.reg[v0] = fcntl (pfd,
pthread->st.reg[_arg2],
&aint_flock);
/* copy the result */
buffer_p = (char *) pthread->st.reg[_arg3];
q = (char *) &aint_flock;
for(i=0; i < sizeof(struct flock); i++,q++) {
char *p = (char *) addr2phys(pthread, (long) buffer_p+i);
*p = *q;
}
break;
default:
pthread->st.reg[v0] = fcntl (pfd,
pthread->st.reg[_arg2],
pthread->st.reg[_arg3]);
break;
}
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return (SYSCALL_NEXT);
}
/*
* int statfs(
* char *path,
* struct statfs *buffer,
* int length );
*/
SyscallStatus
aint_statfs( thread_ptr pthread)
{
char path_buf[MAX_PATH];
struct statfs aint_buffer;
char *buffer_p, *q;
int i;
/* use local variables for efficient access */
buffer_p = (char *) pthread->st.reg[_arg2];
q = (char *) &aint_buffer;
/* copy the pointer arguments */
copy_string(pthread, path_buf, pthread->st.reg[_arg1]);
/* make the system call */
pthread->st.reg[v0] = statfs(path_buf, &aint_buffer, pthread->st.reg[_arg3]);
/* copy the results */
for(i=0; i < sizeof(struct statfs); i++,q++) {
char *p = (char *) addr2phys(pthread, (long) buffer_p+i);
*p = *q;
}
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int lstat(
* const char *path,
* struct stat *buffer );
*/
SyscallStatus
aint_lstat( thread_ptr pthread)
{
char path_buf[MAX_PATH];
struct stat aint_buffer;
char *buffer_p, *q;
int i;
/* use local variables for efficient access */
buffer_p = (char *) pthread->st.reg[_arg2];
q = (char *) &aint_buffer;
/* copy the pointer arguments */
copy_string(pthread, path_buf, pthread->st.reg[_arg1]);
/* make the system call */
pthread->st.reg[v0] = lstat(path_buf, &aint_buffer);
/* copy the results */
for(i=0; i < sizeof(struct stat); i++,q++) {
char *p = (char *) addr2phys(pthread, (long) buffer_p+i);
*p = *q;
}
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int getdirentries(
* int fd,
* char *buf,
* int nbytes,
* long *basep );
*/
SyscallStatus
aint_getdirentries( thread_ptr pthread)
{
int vfd, pfd, nbytes;
char *aint_buf;
long base;
/* get the file descriptor */
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
/* set up the buffer */
nbytes = pthread->st.reg[_arg3];
aint_buf = (char *) malloc(nbytes);
if (aint_buf == NULL)
fatal("Out of memory\n");
/* set up the base pointer */
base = * (long *) addr2phys(pthread, pthread->st.reg[_arg4]);
/* make the call */
pthread->st.reg[v0] = getdirentries(pfd, aint_buf, nbytes, &base);
/* copy the output */
* (long *) addr2phys(pthread, pthread->st.reg[_arg4]) = base;
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int close (
* int filedes );
*/
SyscallStatus
aint_close( thread_ptr pthread)
{
int vfd, pfd;
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
#ifdef DEBUG
fprintf(stderr, "close: v: %d, p: %d\n", vfd, pfd);
#endif /* DEBUG */
/* nothing can be closed here, since other processes might have it open */
pthread->st.reg[v0] = 0;
/*
* mark the file descriptor free only if greater than 2. We don't want
* these descriptors viz. 0,1,2 to be reused for other files.
*/
if (vfd > 2)
pthread->fd[vfd] = -1;
/* set the error if any */
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int open (
* const char *path,
* int oflag [ ,
* mode_t mode ] );
*/
SyscallStatus
aint_open( thread_ptr pthread)
{
int pfd, vfd, oflag;
oflag = pthread->st.reg[_arg2];
/* Search for an unused fd */
for (vfd = 0; vfd < MAX_FDNUM; vfd++)
if (pthread->fd[vfd] == -1)
break;
if (vfd < MAX_FDNUM) {
char filename[256], *c;
int i;
for (i = 0;; i++) {
c = (char *) addr2phys (pthread, pthread->st.reg[_arg1] + i);
filename[i] = *c;
if (*c == '\0')
break;
}
/* open the files in the non blocking mode */
pfd = open (filename, oflag | O_NONBLOCK,
pthread->st.reg[_arg3]);
/* change the owner and the group to that of the running process */
#ifdef ORACLE
if (((oflag & O_WRONLY) || (oflag & O_RDWR)) && (pfd != -1))
if (fchown(pfd, pthread->uid, pthread->gid))
perror("fchown");
#endif
pthread->fd[vfd] = pfd;
if (pfd == -1) {
pthread->st.reg[_arg4] = errno;
pthread->st.reg[v0] = -1;
}
else {
pthread->st.reg[_arg4] = 0;
pthread->st.reg[v0] = vfd;
}
#ifdef DEBUG
fprintf(stderr, "%d: open: %s, pfd: %d\n",
pthread->pid,
filename, pfd);
#endif
}
else {
pthread->st.reg[_arg4] = ENOMEM;
pthread->st.reg[v0] = -1;
}
return SYSCALL_NEXT;
}
/*
* ssize_t write(
* int filedes ,
* const void *buffer,
* size_t nbytes );
*/
SyscallStatus
aint_write( thread_ptr pthread)
{
int vfd, pfd;
int i, result;
void *buffer;
size_t nbytes;
char *mybuf;
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
#ifdef DEBUG
fprintf(stderr, "write: v: %d, p: %d\n", vfd, pfd);
#endif /* DEBUG */
buffer = (void *) pthread->st.reg[_arg2];
nbytes = pthread->st.reg[_arg3];
mybuf = (char *) malloc (nbytes + 1);
for (i = 0; i < nbytes; i++) {
mybuf[i] = *(char *) addr2phys (pthread, (long) buffer + i);
}
result = write (pfd, (caddr_t) mybuf, nbytes);
/*
* We assume that a result of -1 is returned only when a process blocks
* on writing a pipe. In that case, it will be put on a pipe_q and woken
* up on a subsequent read. The process, then retries the write.
*/
if (result == -1) {
#ifdef DEBUG
perror("aint_write");
#endif
/* clean up */
free(mybuf);
/* block */
event_block(pthread, E_BLOCK);
block_thr(&write_pipe_q, pthread);
return SYSCALL_SAME;
} else {
/* wake up everybody on the write queue */
unblock_list(pthread, &read_pipe_q);
}
pthread->st.reg[v0] = result;
pthread->st.reg[_arg4] = 0;
free(mybuf);
return SYSCALL_NEXT;
}
/*
* ssize_t read(
* int filedes,
* void *buffer,
* size_t nbytes );
*/
SyscallStatus
aint_read( thread_ptr pthread)
{
int pfd, vfd;
void *buffer;
size_t nbytes;
char *mybuf;
int i,result;
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
buffer = (void *) pthread->st.reg[_arg2];
nbytes = pthread->st.reg[_arg3];
mybuf = (char *) malloc (nbytes + 1);
result = read (pfd, mybuf, nbytes);
/*
* We assume that a result of -1 is returned only when a process blocks
* on reading a pipe. In that case, it will be put on a pipe_q and woken
* up on a subsequent write. The process, then retries the read.
*/
if (result == -1) {
/* clean up */
free(mybuf);
/* block */
event_block(pthread, E_BLOCK);
block_thr(&read_pipe_q, pthread);
#ifdef DEBUG_BLOCK
fprintf(stderr, "%d: read: v: %d, p: %d - blocking\n",
pthread->pid, vfd, pfd);
#endif /* DEBUG */
return SYSCALL_SAME;
} else {
/* wake up everybody on the write queue */
unblock_list(pthread, &write_pipe_q);
}
#ifdef DEBUG
fprintf(stderr, "read: v: %d, p: %d\n", vfd, pfd);
#endif /* DEBUG */
for (i = 0; i < result; i++)
*(char *) addr2phys (pthread, (long) buffer + i)
= mybuf[i];
pthread->st.reg[v0] = result;
pthread->st.reg[_arg4] = 0;
free (mybuf);
return SYSCALL_NEXT;
}
/*
* off_t lseek (
* int filedes,
* off_t offset,
* int whence );
*/
SyscallStatus
aint_lseek( thread_ptr pthread)
{
int vfd, pfd;
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
if (pfd > 2) {
pthread->st.reg[v0] = lseek (pfd, pthread->st.reg[_arg2],
pthread->st.reg[_arg3]);
}
else {
pthread->st.reg[v0] = lseek (pfd, 0, SEEK_CUR);
}
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* void exit (
* int status );
*/
SyscallStatus
aint_exit( thread_ptr pthread)
{
#ifdef DEBUG
fprintf(stderr, "%d: exiting\n", pthread->pid);
#endif /* DEBUG */
pthread->exitcode = pthread->st.reg[_arg1];
return SYSCALL_EXIT;
}
/*
* pid_t fork ( void );
*/
SyscallStatus
aint_fork( thread_ptr pthread)
{
int i;
thread_ptr child;
int pid;
event_ptr pevent;
SyscallStatus pcopy;
/* allocate a new thread */
INLINE_DEQUEUE (&free_q, child);
if (child == NULL)
fatal ("aint_fork: exceeded process limit (%d)\n", max_nprocs);
NEW_ITEM (event_free, sizeof (event_t), pevent, "aint_fork");
/* Ensure that each newly created thread has a unique pid */
max_pid++;
child->pid = pid = max_pid;
nprocs++;
if (nprocs > max_nprocs)
fatal ("aint_fork: exceeded process limit (%d)\n", max_nprocs);
/* copy the parent's effective uid and gid */
child->uid = pthread->uid;
child->gid = pthread->gid;
/* copy the parent's address space to the child */
copy_addr_space (pthread, child);
/*
* init_thread() must be called *after* copy_addr_space() since
* init_thread() uses the mapping fields set up by copy_addr_space().
*/
init_thread (child, pevent, 1);
/* the child's start time is the parent's plus the time for the fork */
#ifdef SOLO
child->time = 1;
#else
child->time = pthread->time + picode->cycles;
#endif
child->parent = pthread;
/* set the header information for the child */
child->headerp = pthread->headerp;
/* set the progarm text */
child->itext = pthread->itext;
/* link in the child to the parent's list of children */
child->sibling = pthread->youngest;
pthread->youngest = child;
/* the first instruction for the child is to return
child->picode = T2I(pthread->st.reg[31]); */
#ifndef SOLO
child->picode = picode->next;
#endif
/* the return value for the parent is the child's pid */
pthread->st.reg[v0] = pid + PID_OFFSET;
pthread->st.reg[_arg4] = 0;
/* the return value for the child is 0 */
child->st.reg[v0] = 0;
child->st.reg[_arg4] = 0;
/* Set child flags - r20 is 0 for parent and 1 for child */
pthread->st.reg[_arg5] = 0;
child->st.reg[_arg5] = 1;
/* copy the parent's signal handler vectors */
for (i = 0; i < MAX_SIGNALS; i++) {
child->sigv[i].sv_handler = pthread->sigv[i].sv_handler;
child->sigv[i].sv_mask = pthread->sigv[i].sv_mask;
child->sigv[i].sv_flags = pthread->sigv[i].sv_flags;
}
child->sigblocked = pthread->sigblocked;
/* copy parent's file descriptors */
for(i = 0; i < MAX_FDNUM; i++) {
if (i < 3)
child->fd[i] = i;
else {
child->fd[i] = pthread->fd[i];
}
}
#ifdef ORACLE
fprintf(stderr, "%d: fork: created %d\n", pthread->pid, child->pid);
#endif /* DEBUG */
/*
* Return from the parent. If generating any events, then first
* generate a fork event. The picode returned must be the one that
* calls event_fork...
*/
/* We first check if an ifork icode has been introduced at this point */
#ifdef SOLO
child->st.PC = pthread->st.PC + 4;
GammaNewThread(child);
return SYSCALL_NEXT;
#else
if (picode->next->func == event_fork) {
child->picode = child->picode->next;
return SYSCALL_NEXT;
}
else {
/* add a copy of ifork here */
pcopy = (SyscallStatus) malloc (sizeof (struct icode));
memcpy (pcopy, &ifork, sizeof (struct icode));
pcopy->next = picode->next;
pcopy->addr = picode->addr;
picode->next = pcopy;
return pcopy;
}
#endif
}
/*
* int stat(
* const char *path,
* struct stat *buffer );
*/
SyscallStatus
aint_stat( thread_ptr pthread)
{
char filename[256], *c;
unsigned char *statbuf = (unsigned char *) malloc (sizeof (struct stat));
int i;
/* Copy filename */
for (i = 0;; i++) {
c = (char *) addr2phys (pthread, pthread->st.reg[_arg1] + i);
filename[i] = *c;
if (*c == '\0')
break;
}
pthread->st.reg[v0] = stat (filename, (struct stat *) statbuf);
#ifdef DEBUG
fprintf(stderr, "stat: %s = %d\n", filename, pthread->st.reg[v0]);
#endif
/* Copy struct stat */
for (i = 0; i < sizeof (struct stat); i++) {
*(unsigned char *) addr2phys (pthread, pthread->st.reg[_arg2] + i)
= statbuf[i];
}
pthread->st.reg[_arg4] = pthread->st.reg[v0] ? errno : 0;
free ((void *) statbuf);
return SYSCALL_NEXT;
}
/*
* int fstat(
* int filedes,
* struct stat *buffer );
*/
SyscallStatus
aint_fstat( thread_ptr pthread)
{
int vfd, pfd;
unsigned char *statbuf = (unsigned char *) malloc (sizeof (struct stat));
int i;
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
pthread->st.reg[v0] = fstat (pfd, (struct stat *) statbuf);
/* Copy struct stat */
for (i = 0; i < sizeof (struct stat); i++) {
*(unsigned char *) addr2phys (pthread, pthread->st.reg[_arg2] + i)
= statbuf[i];
}
pthread->st.reg[_arg4] = 0;
free ((void *) statbuf);
return SYSCALL_NEXT;
}
/*
* int brk(
* void *addr );
*/
SyscallStatus
aint_brk( thread_ptr pthread)
{
ulong new_brk_address = pthread->st.reg[_arg1];
/* set the new break address */
pthread->headerp->total_data_size = new_brk_address;
/* report `all clear' */
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int getpagesize ( void );
*/
SyscallStatus
aint_getpagesize( thread_ptr pthread)
{
pthread->st.reg[v0] = getpagesize ();
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int gettimeofday (
* struct timeval *tp,
* struct timezone *tzp );
*
* Returns the virtual time, rather than the `real' time.
*/
SyscallStatus
aint_gettimeofday( thread_ptr pthread)
{
struct timeval tval;
int i;
pthread->st.reg[v0] = 0;
/* copy the start time */
bcopy((char *) &start_real_time, (char *) &tval, sizeof(struct timeval));
/* Add the virtual time in seconds */
tval.tv_sec += nint (virtual_time / CLOCKS_PER_SECOND);
/* Copy the timeval and timezone structs */
for (i = 0; i < sizeof (struct timeval); i++) {
*(char *) addr2phys (pthread, pthread->st.reg[_arg1] + i)
= *(char *) ((char *) &tval + i);
}
if (pthread->st.reg[_arg2] != 0) {
unsigned long p17 = pthread->st.reg[_arg2];
for (i = 0; i < sizeof (struct timezone); i++) {
*(char *) addr2phys (pthread, p17 + i)
= *(char *) ((char *) &tz + i);
}
}
if (pthread->st.reg[v0])
pthread->st.reg[_arg4] = errno;
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* pid_t wait4 (
* pid_t process_id
* union wait *status_location,
* int options,
* struct rusage *resource_usage );
*/
SyscallStatus
aint_wait4( thread_ptr pthread)
{
pid_t pid;
int *status_location;
int options;
struct rusage *resource_usage;
int childpid;
static int sync_children = 1; /* toggled each time */
/*
* force an explicit synchronization with the children
* - this is an imprecise solution. Does not take care of the race
* conditions arising out of multiple threads calling aint_wait4. For the
* correct implementation, there should be a sync_children per thread.
*/
#ifndef SOLO
if (sync_children) {
sync_children = 0;
event_yield(picode, pthread);
return SYSCALL_SAME;
} else {
sync_children = 1;
}
#endif
pid = pthread->st.reg[_arg1];
if (pid >= 0)
pid -= PID_OFFSET;
if (pthread->st.reg[_arg2]) {
status_location = (int *) PMAP(pthread->st.reg[_arg2]);
} else {
status_location = (int *) NULL;
}
options = pthread->st.reg[_arg3];
if (pthread->st.reg[_arg4]) {
resource_usage = (struct rusage *) PMAP(pthread->st.reg[_arg4]);
} else {
resource_usage = (struct rusage *) NULL;
}
if ((pid == -1) && (options == 0)) {
childpid = wait_for_child (pthread);
if (childpid == 0) {
#ifdef SOLO
GammaStall(pthread,cpu_blocked);
return SYSCALL_NEXT;
#endif
event_block (pthread, E_WAIT);
sleep_thr (pthread);
pthread->runstate = R_WAIT;
return SYSCALL_SAME;
}
pthread->st.reg[v0] = childpid + PID_OFFSET;
if (childpid == -1)
pthread->st.reg[_arg4] = ECHILD;
else if (status_location)
*status_location = threads[childpid].exitcode;
return SYSCALL_NEXT;
}
else {
fatal ("aint_wait4(): unimplemented option %d\n", options);
}
}
/*
* int getdtablesize(void);
*/
SyscallStatus
aint_getdtablesize( thread_ptr pthread)
{
pthread->st.reg[v0] = MAX_FDNUM;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int getrusage(
* int who,
* struct rusage *r_usage );
*/
SyscallStatus
aint_getrusage( thread_ptr pthread)
{
struct rusage mybuf;
int i;
pthread->st.reg[v0] = getrusage (pthread->st.reg[_arg1], &mybuf);
/* Copy the struct rusage */
for (i = 0; i < sizeof (struct rusage); i++)
*(unsigned char *) addr2phys (pthread, pthread->st.reg[_arg2] + i)
= *(unsigned char *) ((long) &mybuf + i);
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
#ifdef CALL_TRACE
extern int call_trace_enable;
#endif
/*
* pid_t getpid(void );
*/
SyscallStatus
aint_getpid( thread_ptr pthread)
{
#ifdef DEBUG
fprintf(stderr, "%d: getpid\n", pthread->pid);
#endif
/*
* return pids starting from 3000 - having low pids could be a problem
* for some applications.
*/
pthread->st.reg[v0] = PID_OFFSET + pthread->pid;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* uid_t getuid(void);
*
* Should return uid in v0 and effective uid in a4. Thanks to the hidden
* API.
*/
SyscallStatus
aint_getuid( thread_ptr pthread)
{
pthread->st.reg[v0] = getuid();
pthread->st.reg[a4] = pthread->uid;
#ifdef DEBUG
fprintf(stderr, "uid: %d, effective uid %d\n",
pthread->st.reg[v0], pthread->st.reg[a4]);
#endif
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* void usleep(
* unsigned mseconds );
*/
SyscallStatus
aint_usleep( thread_ptr pthread)
{
ulong secs = pthread->st.reg[_arg1] * 1000000;
event_timed_block(pthread, E_BLOCK, secs *CLOCKS_PER_SECOND);
block_thr(&sleep_q, pthread);
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int execve (
* const char *path,
* char * const argv[ ],
* char * const envp[ ] );
*/
SyscallStatus
aint_execve( thread_ptr pthread)
{
#ifdef SOLO
CPUError("forget aint_execve for now \n");
return 0;
#else
char *path_buf,**argv_buf,**env_buf;
int i,argc;
long *pp;
event_ptr pevent;
long path_ptr = pthread->st.reg[_arg1];
long *argv_ptr = (long *) pthread->st.reg[_arg2];
long *env_ptr = (long *) pthread->st.reg[_arg3];
/* allocate memory for the buffers */
path_buf = (char *) malloc(MAX_PATH);
argv_buf = (char **) malloc(MAX_ARGV);
env_buf = (char **) malloc(MAX_ENV);
/* copy the pathname */
copy_string(pthread, path_buf,path_ptr);
#ifdef DEBUG
fprintf(stderr, "execve: %s\n", path_buf);
#endif /* DEBUG */
/* copy argv */
pp = (long *) addr2phys(pthread,(long) argv_ptr);
for(i=0; *pp ; i++) {
/* find out how much space we need */
argv_buf[i] = malloc(xaddr_space_strlen(pthread, (long) *pp));
/* copy the ith argument */
copy_string(pthread, argv_buf[i], (long) *pp);
pp = (long *) addr2phys(pthread,(long) ++argv_ptr);
}
argv_buf[i] = '\0';
argc = i;
/* copy env */
pp = (long *) addr2phys(pthread,(long) env_ptr);
for(i=0; *pp ; i++) {
/* find out how much space we need */
env_buf[i] = malloc(xaddr_space_strlen(pthread, (long) *pp));
/* copy the ith argument */
copy_string(pthread, env_buf[i], (long) *pp);
pp = (long *) addr2phys(pthread, (long) ++env_ptr);
}
env_buf[i] = '\0';
/* free the existing address space */
free_addr_space(pthread);
/* get a new event structure */
NEW_ITEM (event_free, sizeof (event_t), pevent, "aint_fork");
/* initialize the thread, but don't enqueue it */
init_thread(pthread, pevent, 0);
/* read the headers from the object file */
read_hdrs(path_buf, pthread);
/* read the text */
read_text(path_buf, pthread);
/* create address space */
create_addr_space(pthread);
/* copy the arguments */
copy_argv(pthread, 0, argc, argv_buf, env_buf);
/* The new thread is ready for execution */
return (pthread->picode);
#endif
}
/*
* Given a buffer and a pointer in the simulated virtual address
* space, this copies a string pointed by pointer into buffer in
* AINT address space
*/
copy_string(thread_ptr pthread, char *buffer, long pointer)
{
int i;
char *p;
/* translate from simulated to AINT address space */
p = (char *) addr2phys(pthread,pointer);
for(i=0; *p ; i++) {
/* store a character */
buffer[i] = *p;
/* translate from simulated to AINT address space */
p = (char *) addr2phys(pthread,++pointer);
}
/* put a null character */
buffer[i] = '\0';
}
/* A cross address space strlen */
xaddr_space_strlen(thread_ptr pthread, long pointer)
{
int i;
char *p;
/* translate from simulated to AINT address space */
p = (char *) addr2phys(pthread,pointer);
for(i=0; *p ; i++) {
/* translate from simulated to AINT address space */
p = (char *) addr2phys(pthread,++pointer);
}
/* plus the null character */
return i+1;
}
/*
* int munmap (
* caddr_t addr,
* size_t len );
*/
SyscallStatus
aint_munmap( thread_ptr pthread)
{
int num_pages;
int i;
long addr = pthread->st.reg[_arg1];
long len = pthread->st.reg[_arg2];
/* round up the length to the next multiple of the page size */
num_pages = len / TB_PAGESIZE;
for ( i=0; i < num_pages ; i++) {
page_unmap(pthread, addr + i * TB_PAGESIZE);
}
/* indicate that all is well */
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* caddr_t mmap (
* caddr_t addr,
* size_t len,
* int prot,
* int flags,
* int filedes,
* off_t off );
*
* Only Anonymous pages are supported.
*/
SyscallStatus
aint_mmap( thread_ptr pthread)
{
caddr_t addr = (caddr_t) pthread->st.reg[_arg1];
size_t original_size, size = pthread->st.reg[_arg2];
int prot = pthread->st.reg[_arg3];
int flags = pthread->st.reg[_arg4];
int filedes = pthread->st.reg[_arg5];
off_t offset = pthread->st.reg[_arg6];
ulong npages;
int i;
trace_flag = 1;
/* A few sanity checks */
if ( (filedes != -1) ^ ((flags & MAP_ANONYMOUS) == 0)) {
fatal("File descriptor should be -1 for mapping anonymous pages");
}
original_size = size;
size = ALIGN(size, TB_PAGESIZE);
npages = size / TB_PAGESIZE;
/*
* If addr is zero, allocate from the end of the private area, expanding
it further.
*/
if ((addr == 0) && ((flags & MAP_FIXED) == 0)) {
addr = (caddr_t) pthread->mmap_size + MMAP_AREA_START;
pthread->mmap_size += size;
}
for(i=0; i < npages; i++) {
ulong page, key, tag, page_start_addr;
/* extract the relevant fields from the address */
page_start_addr = (ulong) addr + TB_PAGESIZE * i;
page = TB_VPAGE(page_start_addr);
tag = TB_TAG(page);
key = TB_KEY(page);
/* introduce a mapping if not alrady present */
if (is_mapped(pthread, page_start_addr, page, key, tag))
page_unmap(pthread, page_start_addr);
if ((flags & MAP_ANONYMOUS) == 0) {
int pfd = pthread->fd[filedes];
/*
* mmap fails because of the rounding up of the size. So let's
* keep it exact and manipulate the last call
*/
if (i != npages - 1)
mmap_tlb_miss(pthread,page_start_addr, page, key, tag,
TB_PAGESIZE, prot, pfd,
flags, offset+TB_PAGESIZE * i);
else
mmap_tlb_miss(pthread,page_start_addr, page, key, tag,
TB_PAGESIZE - (size - original_size),prot,
pfd, flags, offset + TB_PAGESIZE * i);
} else {
tlb_miss(pthread, page_start_addr, page, key, tag, 1);
}
}
/* put the return value in */
pthread->st.reg[v0] = (ulong) addr;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int access (
* const char *path,
* int access_mode) ;
*/
SyscallStatus
aint_access( thread_ptr pthread)
{
char path_buf[MAX_PATH];
/* copy the pointer arguments */
copy_string(pthread, path_buf, pthread->st.reg[_arg1]);
/* make the system call */
pthread->st.reg[v0] = access(path_buf, pthread->st.reg[_arg2]);
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int gethostname (
* char *address,
* int address_len );
*/
SyscallStatus
aint_gethostname( thread_ptr pthread)
{
int address_len;
int i;
char *aint_buffer, *p, *q;
/* set up the buffer */
address_len = pthread->st.reg[_arg2];
aint_buffer = (char *) malloc(address_len);
if (aint_buffer == NULL)
fatal("Out of memory\n");
/* make the call */
pthread->st.reg[v0] = gethostname(aint_buffer, address_len);
/* copy the output */
q = aint_buffer;
for(i=0; i < address_len; i++,q++) {
char *p = (char *) addr2phys(pthread, (long) aint_buffer + i);
*p = *q;
}
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int uname (
* struct utsname *name );
*/
SyscallStatus
aint_uname( thread_ptr pthread)
{
struct utsname aint_buffer;
char *buffer_p, *q;
int i;
/* use local variables for efficient access */
buffer_p = (char *) pthread->st.reg[_arg1];
q = (char *) &aint_buffer;
/* make the system call */
pthread->st.reg[v0] = uname(&aint_buffer);
/* copy the results */
for(i=0; i < sizeof(struct utsname); i++,q++) {
char *p = (char *) addr2phys(pthread, (long) buffer_p+i);
*p = *q;
}
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int flock(
* int filedes,
* int operation );
*/
SyscallStatus
aint_flock( thread_ptr pthread)
{
int vfd, pfd;
vfd = pthread->st.reg[_arg1];
pfd = pthread->fd[vfd];
/* make the system call */
pthread->st.reg[v0] = flock(pfd, pthread->st.reg[_arg2]);
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* void (*signal (
* int sig,
* void (*function) (int))) (int);
*/
SyscallStatus
aint_signal( thread_ptr pthread)
{
int sig = pthread->st.reg[_arg1];
#ifdef DEBUG
fprintf(stderr,"signal handler for %d\n",sig);
#endif /* DEBUG */
/* report `all clear' */
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int sigaction (
* int signal,
* const struct sigaction *action,
* struct sigaction *o_action );
*/
SyscallStatus
aint_sigaction( thread_ptr pthread)
{
int signal = pthread->st.reg[_arg1];
#ifdef DEBUG
fprintf(stderr,"signal handler for %d\n",signal);
#endif /* DEBUG */
/* report `all clear' */
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int pipe (
* int filedes[2] );
* After looking into the OSF sources, it became clear that the file
* descriptors are passed out in regs v0 and a4 respectively and not in
* memory.
*/
SyscallStatus
aint_pipe( thread_ptr pthread)
{
int vfd0, vfd1;
ulong address = pthread->st.reg[_arg1];
int aint_fd[2];
/* make the system call */
pthread->st.reg[v0] = pipe(aint_fd);
/* make them non blocking */
fcntl(aint_fd[0], F_SETFL, O_NONBLOCK);
fcntl(aint_fd[1], F_SETFL, O_NONBLOCK);
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
/* first look for unused file descriptors */
for (vfd0 = 0; vfd0 < MAX_FDNUM; vfd0++)
if (pthread->fd[vfd0] == -1)
break;
/* introduce the pthread fd to AINT fd mapping */
pthread->fd[vfd0] = aint_fd[0];
/* copy the results */
pthread->st.reg[v0] = vfd0;
/* first look for unused file descriptors */
for (vfd1 = 0; vfd1 < MAX_FDNUM; vfd1++)
if (pthread->fd[vfd1] == -1)
break;
/* introduce the pthrad fd to AINT fd mapping */
pthread->fd[vfd1] = aint_fd[1];
/* copy the results */
pthread->st.reg[a4] = vfd1;
#ifdef DEBUG
fprintf(stderr, "created pipe v: %d %d p: %d %d\n", vfd0, vfd1,
aint_fd[0], aint_fd[1]);
#endif /* DEBUG */
return SYSCALL_NEXT;
}
/*
* getsysinfo(op, buffer, nbytes, start, arg)
* unsigned long op;
* datatype *buffer;
* unsigned long nbytes;
* int *start;
* datatype *arg;
*/
SyscallStatus
aint_getsysinfo( thread_ptr pthread)
{
ulong op = pthread->st.reg[_arg1];
char *buffer = (char *) PMAP(pthread->st.reg[_arg2]);
ulong nbytes = pthread->st.reg[_arg3];
int *start;
char *arg;
if (pthread->st.reg[_arg4])
start = (int *) PMAP(pthread->st.reg[_arg4]);
else
start = (int *) NULL;
if (pthread->st.reg[_arg5])
arg = (char *) PMAP(pthread->st.reg[_arg5]);
else
arg = (char *) NULL;
pthread->st.reg[v0] = getsysinfo(op, buffer, nbytes, start, arg);
if (pthread->st.reg[v0] == -1)
pthread->st.reg[_arg4] = errno;
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* setsysinfo(op, buffer, nbytes, start, arg, flag)
* unsigned long op;
* datatype *buffer;
* unsigned long nbytes;
* int *start;
* datatype *arg;
* unsigned long flag;
*/
SyscallStatus
aint_setsysinfo( thread_ptr pthread)
{
ulong op = pthread->st.reg[_arg1];
char *buffer = (char *) PMAP(pthread->st.reg[_arg2]);
ulong nbytes = pthread->st.reg[_arg3];
int *start;
char *arg;
ulong flag = pthread->st.reg[_arg6];
if (pthread->st.reg[_arg5])
arg = (char *) PMAP(pthread->st.reg[_arg5]);
else
arg = (char *) NULL;
pthread->st.reg[v0] = setsysinfo(op, buffer, nbytes, start, arg, flag);
if (pthread->st.reg[v0] == -1)
pthread->st.reg[_arg4] = errno;
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int sigprocmask(
* int how,
* sigset_t *set,
* sigset_t *o_set );
*/
SyscallStatus
aint_sigprocmask( thread_ptr pthread)
{
/* report `all clear' */
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int setrlimit(
* int resource1,
* struct rlimit *rlp );
*
* - not implemented yet.
*/
SyscallStatus
aint_setrlimit( thread_ptr pthread)
{
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int getrlimit (
* int resource1,
* struct rlimit *rlp );
*/
SyscallStatus
aint_getrlimit( thread_ptr pthread)
{
int resource1 = pthread->st.reg[_arg1];
struct rlimit aint_buffer;
char *buffer_p, *q;
int i;
/* use local variables for efficient access */
buffer_p = (char *) pthread->st.reg[_arg2];
q = (char *) &aint_buffer;
/* make the system call */
pthread->st.reg[v0] = getrlimit(resource1, &aint_buffer);
/* copy the results */
for(i=0; i < sizeof(struct rlimit); i++,q++) {
char *p = (char *) addr2phys(pthread, (long) buffer_p+i);
*p = *q;
}
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* pid_t setsid( void );
*
* - not implemented yet.
*/
SyscallStatus
aint_setsid( thread_ptr pthread)
{
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int chdir (
* const char *path );
*/
SyscallStatus
aint_chdir( thread_ptr pthread)
{
int i;
char *aint_buffer, *path;
/* copy path */
path = (char *) pthread->st.reg[_arg1];
/* find out how much space we need */
if ((aint_buffer = malloc(xaddr_space_strlen(pthread, (long) path)))
== NULL)
perror("aint_chdir");
copy_string(pthread, aint_buffer, (long) path);
/* make the call */
pthread->st.reg[v0] = chdir(aint_buffer);
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* gid_t getgid( void );
*
* Should return gid in v0 and effective gid in a4. Thanks to the hidden
* API.
*
*/
SyscallStatus
aint_getgid( thread_ptr pthread)
{
pthread->st.reg[v0] = getgid();
pthread->st.reg[a4] = pthread->gid;
#ifdef DEBUG
fprintf(stderr, "gid: %d, effective gid %d\n",
pthread->st.reg[v0], pthread->st.reg[a4]);
#endif
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int getdomainname(name, namelen)
* char *name;
* int namelen;
*/
SyscallStatus
aint_getdomainname( thread_ptr pthread)
{
int namelen;
int i;
char *aint_buffer, *p, *q, *output_addr;
/* set up the buffer */
output_addr = (char *) pthread->st.reg[_arg1];
namelen = pthread->st.reg[_arg2];
aint_buffer = (char *) malloc(namelen);
if (aint_buffer == NULL)
fatal("Out of memory\n");
/* make the call */
pthread->st.reg[v0] = getdomainname(aint_buffer, namelen);
/* copy the output */
q = aint_buffer;
for(i=0; i < namelen; i++,q++) {
char *p = (char *) addr2phys(pthread, (long) output_addr + i);
*p = *q;
}
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int setuid(uid_t uid);
*
*/
SyscallStatus
aint_setuid( thread_ptr pthread)
{
uid_t uid = (uid_t) pthread->st.reg[_arg1];
pthread->st.reg[v0] = setuid(uid);
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int madvise (
* caddr_t addr,
* size_t len,
* int behav );
* - not implemented
*/
SyscallStatus
aint_madvise( thread_ptr pthread)
{
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int umask(mode_t cmask)
*
*/
SyscallStatus
aint_umask( thread_ptr pthread)
{
mode_t mode = (mode_t) pthread->st.reg[_arg1];
pthread->st.reg[v0] = umask(mode);
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int table(id, index, addr, nel, lel)
* int id;
* int index;
* char *addr;
* int nel;
* u_int lel;
*
* - not sure how well this implementation is working.
*/
SyscallStatus
aint_table( thread_ptr pthread)
{
int id = pthread->st.reg[_arg1];
int index = pthread->st.reg[_arg2];
char *addr;
int nel = pthread->st.reg[_arg4];
u_int lel = pthread->st.reg[_arg5];
char *aint_buffer;
char *p, *q;
int i;
if (nel > 0) {
/* the call copies from kernel to user space */
size_t size = lel * nel;
addr = (char *) pthread->st.reg[_arg3];
aint_buffer = (char *) malloc(size);
/* make the call itself */
pthread->st.reg[v0] = table(id, index, aint_buffer, nel, lel);
/* copy the results */
q = aint_buffer;
for(i=0; i < size; i++,q++) {
p = (char *) addr2phys(pthread, (long) addr + i);
*p = *q;
}
} else {
/* the call copies from user space to kernel space */
/*
* copy the buffer from the simulated address space to the AINT
* address space
*/
size_t size = lel * nel;
addr = (char *) pthread->st.reg[_arg3];
aint_buffer = (char *) malloc(lel * nel);
p = aint_buffer;
for(i=0; i < size; i++,p++) {
q = (char *) addr2phys(pthread, (long) addr + i);
*p = *q;
}
/* make the call itself */
pthread->st.reg[v0] = table(id, index, aint_buffer, nel, lel);
}
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int unlink (
* const char *path );
*/
SyscallStatus
aint_unlink( thread_ptr pthread)
{
int i;
char *aint_buffer, *path;
/* copy path */
path = (char *) pthread->st.reg[_arg1];
/* find out how much space we need */
if ((aint_buffer = malloc(xaddr_space_strlen(pthread, (long) path)))
== NULL)
perror("aint_chdir");
copy_string(pthread, aint_buffer, (long) path);
/* make the call */
pthread->st.reg[v0] = unlink(aint_buffer);
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int syscall(number, arg..);
*
* - indirect system call.
*/
SyscallStatus
aint_syscall( thread_ptr pthread)
{
int number = pthread->st.reg[_arg1];
ulong arg1, arg2, arg3, arg4, arg5;
/* some cheating to be done here */
if (number == 33554449) {
pthread->st.reg[v0] = 204;
pthread->st.reg[a3] = 0;
pthread->st.reg[a4] = 0;
return SYSCALL_NEXT;
}
arg1 = pthread->st.reg[_arg2];
arg2 = pthread->st.reg[_arg3];
arg3 = pthread->st.reg[_arg4];
arg4 = pthread->st.reg[_arg5];
arg5 = pthread->st.reg[_arg6];
/* now fill in the information */
pthread->st.reg[v0] = number;
pthread->st.reg[_arg1] = pthread->st.reg[_arg2];
pthread->st.reg[_arg2] = pthread->st.reg[_arg3];
pthread->st.reg[_arg3] = pthread->st.reg[_arg4];
pthread->st.reg[_arg4] = pthread->st.reg[_arg5];
pthread->st.reg[_arg5] = pthread->st.reg[_arg6];
return callsys_f( pthread);
}
/*
* int dup(
* int filedes );
*/
SyscallStatus
aint_dup( thread_ptr pthread)
{
int pfd, vfd;
int filedes = pthread->st.reg[_arg1];
int new_file_descriptor;
/* get the AINT descriptor */
pfd = pthread->fd[filedes];
/* make the actual system call */
new_file_descriptor = dup(pfd);
/* Search for an unused fd */
for (vfd = 0; vfd < MAX_FDNUM; vfd++)
if (pthread->fd[vfd] == -1)
break;
pthread->fd[vfd] = new_file_descriptor;
#ifdef DEBUG
fprintf(stderr, "dup: vfd1: %d, vfd2: %d\n pfd1: %d, pfd2: %d\n",
filedes, vfd, pfd, new_file_descriptor);
#endif
/* return this virtual fd */
pthread->st.reg[v0] = vfd;
if (pthread->st.reg[v0] < 0) {
pthread->st.reg[_arg4] = errno;
}
else
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
#ifdef DEBUG
int trace_on = 0;
#endif
/*
* int pid_block
* (struct timeval *tp,
* long flags);
*/
SyscallStatus
aint_pid_block( thread_ptr pthread)
{
int i;
struct timeval t;
char *p;
ulong tp;
long flags;
long secs;
/* do a byte by byte copy */
tp = pthread->st.reg[_arg1];
#ifdef DEBUG_BLOCK
fprintf(stderr, "%d: blocking\n", pthread->pid);
#endif
if (tp) {
p = (char *) &t;
for(i=0; i < sizeof(struct timeval); i++, p++) {
*p = *(char *) PMAP(tp+i);
}
flags = pthread->st.reg[_arg2];
secs = t.tv_sec;
/* block for a specified period */
if (secs) {
#ifdef DEBUG_BLOCK
fprintf(stderr, "for %d seconds\n", secs);
#endif
event_timed_block(pthread, E_BLOCK, secs *CLOCKS_PER_SECOND);
block_thr(&sleep_q, pthread);
} else {
/* Just yield to some other thread */
event_yield(picode, pthread);
}
} else {
/* block till woken up */
event_block(pthread, E_BLOCK);
block_thr(&sleep_q, pthread);
}
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int pid_unblock
* (pid_t pid
* long flags);
*/
SyscallStatus
aint_pid_unblock( thread_ptr pthread)
{
int i;
pid_t pid;
pid = pthread->st.reg[_arg1];
if (pid >= 0)
pid -= PID_OFFSET;
#ifdef DEBUG
fprintf(stderr, "%d: unblocking %d\n", pthread->pid, pid);
#endif
/* wake it up if it is not running */
if (threads[pid].runstate != R_RUN)
event_unblock(pthread, &threads[pid]);
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int kill(
* pid_t process,
* int signal );
*
* - implements signal 0 only.
*/
SyscallStatus
aint_kill( thread_ptr pthread)
{
pid_t pid;
int signal;
pid = (pid_t) pthread->st.reg[_arg1];
signal = (int) pthread->st.reg[_arg2];
#ifdef DEBUG
fprintf(stderr, "%d: checking for %d\n",
pthread->pid,
pid);
#endif
if (signal != 0)
fatal("aint_kill: unimplemented signal %d", signal);
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}
/*
* int sigstack (
* struct sigstack *instack,
* struct sigstack *outstack );
* - unimplemented.
*/
SyscallStatus
aint_sigstack( thread_ptr pthread)
{
pthread->st.reg[v0] = 0;
pthread->st.reg[_arg4] = 0;
return SYSCALL_NEXT;
}