ack/util/grind/run.c

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1990-08-31 18:22:53 +00:00
/* $Header$ */
/* Running a process and communication */
#include <signal.h>
#include <stdio.h>
#include <assert.h>
#include <alloc.h>
#include "ops.h"
#include "message.h"
#include "position.h"
#include "tree.h"
#include "file.h"
#include "symbol.h"
#include "idf.h"
#include "scope.h"
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#include "type.h"
#include "expr.h"
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#define MAXARG 128
extern char *strncpy();
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extern struct idf *str2idf();
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extern char *AObj;
extern FILE *db_out;
extern int debug;
extern char *progname;
extern int child_interrupted;
extern int interrupted;
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extern t_lineno currline;
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static int child_pid; /* process id of child */
static int to_child, from_child; /* file descriptors for communication */
static int child_status;
static int restoring;
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static int fild1[2], fild2[2]; /* pipe file descriptors */
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int disable_intr = 1;
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int db_ss;
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int stack_offset;
void signal_child();
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static void catch_sigpipe();
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static int stopped();
static int uputm(), ugetm();
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static t_addr curr_stop;
p_tree run_command;
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static void
ITOBUF(p, l, sz)
register char *p;
long l;
int sz;
{
register int i;
p +=sz;
for (i = sz; i > 0; i--) {
*--p = l;
l >>= 8;
}
}
static long
BUFTOI(p, sz)
register char *p;
int sz;
{
register long l = 0;
register int i;
for (i = sz; i>0; i--) {
l = (l << 8) | (*p++ & 0377);
}
return l;
}
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void
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init_run()
{
/* take file descriptors so that listing cannot take them */
int i;
for (i = 3; i <= 6; i++) close(i);
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if (pipe(fild1) < 0 ||
pipe(fild2) < 0 ||
fild1[0] != 3 ||
fild2[1] != 6) {
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fatal("something wrong with file descriptors");
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}
to_child = fild1[1];
from_child = fild2[0];
child_pid = 0;
if (currfile) CurrentScope = currfile->sy_file->f_scope;
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currline = 0;
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}
extern int errno;
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start_child(p)
p_tree p;
{
/* start up the process to be debugged and set up communication */
char *argp[MAXARG]; /* argument list */
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register p_tree pt = p->t_args[0], pt1 = 0;
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unsigned int nargs = 1; /* #args */
char *in_redirect = 0; /* standard input redirected */
char *out_redirect = 0; /* standard output redirected */
signal_child(SIGKILL); /* like families in China, this debugger is only
allowed one child
*/
if (p != run_command) {
freenode(run_command);
run_command = p;
}
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/* first check arguments and redirections and build argument list */
while (pt) {
switch(pt->t_oper) {
case OP_LINK:
pt1 = pt->t_args[1];
pt = pt->t_args[0];
continue;
case OP_NAME:
if (nargs < (MAXARG-1)) {
argp[nargs++] = pt->t_str;
}
else {
error("too many arguments");
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return;
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}
break;
case OP_INPUT:
if (in_redirect) {
error("input redirected twice?");
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return;
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}
in_redirect = pt->t_str;
break;
case OP_OUTPUT:
if (out_redirect) {
error("output redirected twice?");
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return;
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}
out_redirect = pt->t_str;
break;
}
if (pt != pt1) pt = pt1;
else break;
}
argp[0] = AObj;
argp[nargs] = 0;
/* create child process */
child_pid = fork();
if (child_pid < 0) {
error("could not create child");
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return;
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}
if (child_pid == 0) {
/* this is the child process */
close(fild1[1]);
close(fild2[0]);
signal(SIGINT, SIG_IGN);
/* I/O redirection */
if (in_redirect) {
int fd;
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close(0);
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if ((fd = open(in_redirect, 0)) < 0 ||
(fd != 0 && dup2(fd, 0) < 0)) {
perror(progname);
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exit(1);
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}
if (fd != 0) {
close(fd);
}
}
if (out_redirect) {
int fd;
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close(1);
if ((fd = creat(out_redirect, 0666)) < 0 ||
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(fd != 1 && dup2(fd, 1) < 0)) {
perror(progname);
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exit(1);
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}
if (fd != 1) {
close(fd);
}
}
/* and run process to be debugged */
execv(AObj, argp);
error("could not exec %s", AObj);
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exit(1);
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}
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/* close fild1[0] and fild2[1]; but we want those file descriptors occupied,
so we re-occupy them.
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*/
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close(fild1[0]);
close(fild2[1]);
pipe(fild1); /* to occupy file descriptors */
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signal(SIGPIPE, catch_sigpipe);
{
struct message_hdr m;
if (! ugetm(&m)) {
error("child not responding");
init_run();
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return;
}
curr_stop = BUFTOI(m.m_buf+1, (int) PS);
CurrentScope = get_scope_from_addr(curr_stop);
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}
perform_items();
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if (! restoring) {
int stop_reason = item_addr_actions(curr_stop, 1, 1);
if (! stop_reason) (void) send_cont(1);
else (void) stopped("stopped", curr_stop, stop_reason);
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}
}
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void
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signal_child(sig)
{
if (child_pid) {
kill(child_pid, sig);
if (sig == SIGKILL) {
wait(&child_status);
init_run();
}
}
}
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static void
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catch_sigpipe()
{
child_pid = 0;
}
static int
ureceive(p, c)
char *p;
long c;
{
int i;
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char buf[0x1000];
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if (! child_pid) {
error("no process");
return 0;
}
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if (! p) p = buf;
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while (c >= 0x1000) {
i = read(from_child, p, 0x1000);
if (i <= 0) {
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if (i == 0) {
child_pid = 0;
}
else error("read failed");
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return 0;
}
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if (p != buf) p += i;
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c -= i;
}
while (c > 0) {
i = read(from_child, p, (int)c);
if (i <= 0) {
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if (i == 0) {
child_pid = 0;
}
else error("read failed");
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return 0;
}
p += i;
c -= i;
}
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return 1;
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}
static int
usend(p, c)
char *p;
long c;
{
int i;
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if (! child_pid) {
error("no process");
return 0;
}
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while (c >= 0x1000) {
i = write(to_child, p, 0x1000);
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if (i < 0) {
if (child_pid) error("write failed");
return 0;
}
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p += i;
c -= i;
}
while (c > 0) {
i = write(to_child, p, (int)c);
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if (i < 0) {
if (child_pid) error("write failed");
return 0;
}
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p += i;
c -= i;
}
return 1;
}
static int
ugetm(message)
struct message_hdr *message;
{
if (! ureceive((char *) message, (long) sizeof(struct message_hdr))) {
return 0;
}
if (debug) printf("Got %d\n", message->m_type);
return 1;
}
static int
uputm(message)
struct message_hdr *message;
{
if (! usend((char *) message, (long) sizeof(struct message_hdr))) {
return 0;
}
if (debug) printf("Sent %d\n", message->m_type);
return 1;
}
static struct message_hdr answer;
static int single_stepping;
static int
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stopped(s, a, stop_reason)
char *s; /* stop message */
t_addr a; /* address where stopped */
int stop_reason; /* status entry causing the stop */
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{
p_position pos;
if (s && a) {
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fprintf(db_out, "%s ", s);
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pos = print_position(a, 1);
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if (stop_reason) {
fprintf(db_out, " (status entry %d)", stop_reason);
}
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fputs("\n", db_out);
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list_position(pos);
handle_displays();
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}
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curr_stop = a;
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CurrentScope = get_scope_from_addr(a);
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return 1;
}
static int
could_send(m, stop_message)
struct message_hdr *m;
{
int type;
t_addr a;
static int level = 0;
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int child_dead = 0;
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int stop_reason;
level++;
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for (;;) {
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stop_reason = 0;
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if (! child_pid) {
error("no process");
return 0;
}
if (m->m_type & M_DB_RUN) {
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disable_intr = 0;
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stack_offset = 0;
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}
if (!child_interrupted && (! uputm(m) || ! ugetm(&answer))) {
child_dead = 1;
}
disable_intr = 1;
if ((interrupted || child_interrupted) && ! child_dead) {
while (child_interrupted && answer.m_type != M_INTR) {
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if (! ugetm(&answer)) {
child_dead = 1;
break;
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}
}
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if (interrupted && ! child_dead) {
level--;
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if (! level) {
child_interrupted = 0;
interrupted = 0;
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return stopped("interrupted", (t_addr) BUFTOI(answer.m_buf+1, (int)PS), 0);
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}
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return 1;
}
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}
if (child_dead) {
wait(&child_status);
if (child_status & 0177) {
fprintf(db_out,
"child died with signal %d\n",
child_status & 0177);
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}
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else {
fprintf(db_out,
"child terminated, exit status %d\n",
child_status >> 8);
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}
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init_run();
level--;
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return 1;
}
a = BUFTOI(answer.m_buf+1, (int)PS);
type = answer.m_type & 0377;
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if (type == M_END_SS) type = 0;
else if (type == M_OK || type == M_DB_SS) type = 1;
else type = 2;
if (m->m_type & M_DB_RUN) {
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/* run command */
CurrentScope = get_scope_from_addr((t_addr) a);
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if (!(stop_reason = item_addr_actions(a, type, stop_message))
&& (type == 1)) {
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/* no explicit breakpoints at this position.
Also, child did not stop because of
SETSS or SETSSF, otherwise we would
have gotten END_SS.
So, continue.
*/
if ((m->m_type & 0177) != M_CONT) {
m->m_type = M_CONT | (m->m_type & M_DB_SS);
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}
continue;
}
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if (type != 0 && single_stepping) {
m->m_type = M_CLRSS;
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if (! uputm(m) || ! ugetm(&answer)) return 0;
}
single_stepping = 0;
}
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level--;
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if (stop_message) {
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return stopped("stopped", a, stop_reason);
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}
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return 1;
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}
/*NOTREACHED*/
}
static int
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getbytes(size, from, to, kind, errmess)
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long size;
t_addr from;
char *to;
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int kind;
int errmess;
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{
struct message_hdr m;
m.m_type = kind;
ITOBUF(m.m_buf+1, size, (int) LS);
ITOBUF(m.m_buf+LS+1, (long)from, (int) PS);
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if (! could_send(&m, 0)) {
return 0;
}
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switch(answer.m_type) {
case M_FAIL:
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if (errmess) error("could not get value");
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return 0;
case M_INTR:
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if (errmess) error("interrupted");
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return 0;
case M_DATA:
return ureceive(to, BUFTOI(answer.m_buf+1, (int)LS));
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default:
assert(0);
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}
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/*NOTREACHED*/
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}
int
get_bytes(size, from, to)
long size;
t_addr from;
char *to;
{
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return getbytes(size, from, to, M_GETBYTES, 1);
}
int
get_string(size, from, to)
long size;
t_addr from;
char *to;
{
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int retval = getbytes(size, from, to, M_GETSTR, 0);
to[(int)BUFTOI(answer.m_buf+1, (int)LS)] = 0;
return retval;
}
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void
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set_bytes(size, from, to)
long size;
char *from;
t_addr to;
{
struct message_hdr m;
m.m_type = M_SETBYTES;
ITOBUF(m.m_buf+1, size, (int) LS);
ITOBUF(m.m_buf+LS+1, (long) to, (int) PS);
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if (! uputm(&m) || ! usend(from, size) || ! ugetm(&m)) {
return;
}
switch(answer.m_type) {
case M_FAIL:
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error("could not handle this SET request");
break;
case M_INTR:
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error("interrupted");
break;
case M_OK:
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break;
default:
assert(0);
}
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}
t_addr
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get_dump(globbuf, stackbuf)
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char **globbuf, **stackbuf;
{
struct message_hdr m;
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struct message_hdr *globm, *stackm;
long sz;
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m.m_type = M_DUMP;
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if (! could_send(&m, 0)) {
return 0;
}
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switch(answer.m_type) {
case M_FAIL:
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error("request for DUMP failed");
return 0;
case M_INTR:
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error("interrupted");
return 0;
case M_DGLOB:
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break;
default:
assert(0);
}
sz = BUFTOI(answer.m_buf+1, (int)LS);
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*globbuf = malloc((unsigned) (sz+sizeof(struct message_hdr)));
if (! *globbuf
|| ! ureceive(*globbuf+sizeof(struct message_hdr), sz)
|| ! ugetm(&m)) {
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if (*globbuf) free(*globbuf);
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else error("could not allocate enougn memory");
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return 0;
}
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globm = (struct message_hdr *) *globbuf;
*globm = answer;
assert(m.m_type == M_DSTACK);
sz = BUFTOI(m.m_buf+1, (int)LS);
*stackbuf = malloc((unsigned) sz+sizeof(struct message_hdr));
if (! *stackbuf || ! ureceive(*stackbuf+sizeof(struct message_hdr), sz)) {
free(*globbuf);
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if (*stackbuf) free(*stackbuf);
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else error("could not allocate enougn memory");
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return 0;
}
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stackm = (struct message_hdr *) *stackbuf;
*stackm = m;
ITOBUF(globm->m_buf+SP_OFF, BUFTOI(stackm->m_buf+SP_OFF, (int)PS), (int) PS);
return BUFTOI(globm->m_buf+PC_OFF, (int)PS);
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}
int
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put_dump(globbuf, stackbuf)
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char *globbuf, *stackbuf;
{
struct message_hdr m;
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struct message_hdr *globm = (struct message_hdr *) globbuf,
*stackm = (struct message_hdr *) stackbuf;
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stackbuf += sizeof(struct message_hdr);
globbuf += sizeof(struct message_hdr);
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if (! child_pid) {
restoring = 1;
start_child(run_command);
restoring = 0;
}
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return uputm(globm)
&& usend(globbuf, BUFTOI(globm->m_buf+1, (int) LS))
&& uputm(stackm)
&& usend(stackbuf, BUFTOI(stackm->m_buf+1, (int) LS))
&& ugetm(&m)
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&& stopped("restored", BUFTOI(m.m_buf+1, (int) PS), 0);
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}
t_addr *
get_EM_regs(level)
int level;
{
struct message_hdr m;
static t_addr buf[5];
register t_addr *to = &buf[0];
m.m_type = M_GETEMREGS;
ITOBUF(m.m_buf+1, (long) level, (int) LS);
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if (! could_send(&m, 0)) {
return 0;
}
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switch(answer.m_type) {
case M_FAIL:
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error("request for registers failed");
return 0;
case M_INTR:
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error("interrupted");
return 0;
case M_GETEMREGS:
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break;
default:
assert(0);
}
*to++ = (t_addr) BUFTOI(answer.m_buf+LB_OFF, (int)PS);
*to++ = (t_addr) BUFTOI(answer.m_buf+AB_OFF, (int)PS);
*to++ = (t_addr) BUFTOI(answer.m_buf+PC_OFF, (int)PS);
*to++ = (t_addr) BUFTOI(answer.m_buf+HP_OFF, (int)PS);
*to++ = (t_addr) BUFTOI(answer.m_buf+PC_OFF, (int)PS);
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return buf;
}
int
set_pc(PC)
t_addr PC;
{
struct message_hdr m;
m.m_type = M_SETEMREGS;
ITOBUF(m.m_buf+PC_OFF, (long)PC, (int)PS);
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if (! could_send(&m, 0)) return 0;
switch(answer.m_type) {
case M_FAIL:
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error("could not set PC to %lx", (long) PC);
return 0;
case M_INTR:
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error("interrupted");
return 0;
case M_OK:
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return 1;
default:
assert(0);
}
/*NOTREACHED*/
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}
int
send_cont(stop_message)
int stop_message;
{
struct message_hdr m;
m.m_type = (M_CONT | (db_ss ? M_DB_SS : 0));
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return could_send(&m, stop_message) && child_pid;
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}
int
singlestep(type, count)
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int type;
long count;
{
struct message_hdr m;
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m.m_type = (type ? M_SETSSF : M_SETSS) | (db_ss ? M_DB_SS : 0);
ITOBUF(m.m_buf+1, count, (int) LS);
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single_stepping = 1;
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if (could_send(&m, 1) && child_pid) return 1;
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single_stepping = 0;
return 0;
}
int
set_or_clear_breakpoint(a, type)
t_addr a;
int type;
{
struct message_hdr m;
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m.m_type = type ? M_SETBP : M_CLRBP;
ITOBUF(m.m_buf+1, (long) a, (int) PS);
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if (debug) printf("%s breakpoint at 0x%lx\n", type ? "setting" : "clearing", (long) a);
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if (child_pid && ! could_send(&m, 0)) {
}
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return 1;
}
int
set_or_clear_trace(start, end, type)
t_addr start, end;
int type;
{
struct message_hdr m;
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m.m_type = type ? M_SETTRACE : M_CLRTRACE;
ITOBUF(m.m_buf+1, (long)start, (int) PS);
ITOBUF(m.m_buf+PS+1, (long)end, (int) PS);
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if (debug) printf("%s trace at [0x%lx,0x%lx]\n", type ? "setting" : "clearing", (long) start, (long) end);
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if (child_pid && ! could_send(&m, 0)) {
return 0;
}
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return 1;
}