ocaml/byterun/debugger.c

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/***********************************************************************/
/* */
/* Objective Caml */
/* */
/* Xavier Leroy, projet Cristal, INRIA Rocquencourt */
/* */
/* Copyright 1996 Institut National de Recherche en Informatique et */
/* en Automatique. All rights reserved. This file is distributed */
/* under the terms of the GNU Library General Public License. */
/* */
/***********************************************************************/
/* $Id$ */
/* Interface with the debugger */
#include <string.h>
#include "config.h"
#include "debugger.h"
#include "fail.h"
#include "fix_code.h"
#include "instruct.h"
#include "intext.h"
#include "io.h"
#include "misc.h"
#include "mlvalues.h"
#include "stacks.h"
#include "sys.h"
int debugger_in_use = 0;
unsigned long event_count;
#if !defined(HAS_SOCKETS) || defined(_WIN32)
void debugger_init(void)
{
}
void debugger(enum event_kind event)
{
}
#else
#ifdef HAS_UNISTD
#include <unistd.h>
#endif
#include <sys/types.h>
#include <sys/wait.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <netdb.h>
static int sock_domain; /* Socket domain for the debugger */
static union { /* Socket address for the debugger */
struct sockaddr s_gen;
struct sockaddr_un s_unix;
struct sockaddr_in s_inet;
} sock_addr;
static int sock_addr_len; /* Length of sock_addr */
static int dbg_socket = -1; /* The socket connected to the debugger */
static struct channel * dbg_in; /* Input channel on the socket */
static struct channel * dbg_out;/* Output channel on the socket */
static void open_connection(void)
{
dbg_socket = socket(sock_domain, SOCK_STREAM, 0);
if (dbg_socket == -1 ||
connect(dbg_socket, &sock_addr.s_gen, sock_addr_len) == -1)
fatal_error("cannot connect to debugger");
dbg_in = open_descriptor(dbg_socket);
dbg_out = open_descriptor(dbg_socket);
if (!debugger_in_use) putword(dbg_out, -1); /* first connection */
putword(dbg_out, getpid());
flush(dbg_out);
}
static void close_connection(void)
{
close_channel(dbg_in);
close_channel(dbg_out);
dbg_socket = -1; /* was closed by close_channel */
}
void debugger_init(void)
{
char * address;
char * port, * p;
struct hostent * host;
int n;
address = getenv("CAML_DEBUG_SOCKET");
if (address == NULL) return;
/* Parse the address */
port = NULL;
for (p = address; *p != 0; p++) {
if (*p == ':') { *p = 0; port = p+1; break; }
}
if (port == NULL) {
/* Unix domain */
sock_domain = PF_UNIX;
sock_addr.s_unix.sun_family = AF_UNIX;
strncpy(sock_addr.s_unix.sun_path, address,
sizeof(sock_addr.s_unix.sun_path));
sock_addr_len =
((char *)&(sock_addr.s_unix.sun_path) - (char *)&(sock_addr.s_unix))
+ strlen(address);
} else {
/* Internet domain */
sock_domain = PF_INET;
for (p = (char *) &sock_addr.s_inet, n = sizeof(sock_addr.s_inet);
n > 0; n--) *p++ = 0;
sock_addr.s_inet.sin_family = AF_INET;
sock_addr.s_inet.sin_addr.s_addr = inet_addr(address);
if (sock_addr.s_inet.sin_addr.s_addr == -1) {
host = gethostbyname(address);
if (host == NULL)
fatal_error_arg("Unknown debugging host %s\n", address);
memmove(&sock_addr.s_inet.sin_addr, host->h_addr, host->h_length);
}
sock_addr.s_inet.sin_port = htons(atoi(port));
sock_addr_len = sizeof(sock_addr.s_inet);
}
open_connection();
debugger_in_use = 1;
trap_barrier = stack_high;
}
static value getval(struct channel *chan)
{
value res;
if (really_getblock(chan, (char *) &res, sizeof(res)) == 0)
raise_end_of_file(); /* Bad, but consistent with getword */
return res;
}
static void putval(struct channel *chan, value val)
{
really_putblock(chan, (char *) &val, sizeof(val));
}
static void safe_output_value(struct channel *chan, value val)
{
struct longjmp_buffer raise_buf, * saved_external_raise;
/* Catch exceptions raised by output_val */
saved_external_raise = external_raise;
if (sigsetjmp(raise_buf.buf, 0) == 0) {
external_raise = &raise_buf;
output_val(chan, val, Val_unit);
} else {
/* Send wrong magic number, will cause input_value to fail */
really_putblock(chan, "\000\000\000\000", 4);
}
external_raise = saved_external_raise;
}
#define Pc(sp) ((code_t)(sp[0]))
#define Env(sp) (sp[1])
#define Extra_args(sp) (Long_val((sp[2])))
#define Locals(sp) (sp + 3)
void debugger(enum event_kind event)
{
int frame_number;
value * frame;
long i, pos;
value val;
if (dbg_socket == -1) return; /* Not connected to a debugger. */
/* Reset current frame */
frame_number = 0;
frame = extern_sp + 1;
/* Report the event to the debugger */
switch(event) {
case PROGRAM_START: /* Nothing to report */
goto command_loop;
case EVENT_COUNT:
putch(dbg_out, REP_EVENT);
break;
case BREAKPOINT:
putch(dbg_out, REP_BREAKPOINT);
break;
case PROGRAM_EXIT:
putch(dbg_out, REP_EXITED);
break;
case TRAP_BARRIER:
putch(dbg_out, REP_TRAP);
break;
case UNCAUGHT_EXC:
putch(dbg_out, REP_UNCAUGHT_EXC);
break;
}
putword(dbg_out, event_count);
if (event == EVENT_COUNT || event == BREAKPOINT) {
putword(dbg_out, stack_high - frame);
putword(dbg_out, (Pc(frame) - start_code) * sizeof(opcode_t));
} else {
/* No PC and no stack frame associated with other events */
putword(dbg_out, 0);
putword(dbg_out, 0);
}
flush(dbg_out);
command_loop:
/* Read and execute the commands sent by the debugger */
while(1) {
switch(getch(dbg_in)) {
case REQ_SET_EVENT:
pos = getword(dbg_in);
Assert (pos >= 0);
Assert (pos < code_size);
set_instruction(start_code + pos / sizeof(opcode_t), EVENT);
break;
case REQ_SET_BREAKPOINT:
pos = getword(dbg_in);
Assert (pos >= 0);
Assert (pos < code_size);
set_instruction(start_code + pos / sizeof(opcode_t), BREAK);
break;
case REQ_RESET_INSTR:
pos = getword(dbg_in);
Assert (pos >= 0);
Assert (pos < code_size);
pos = pos / sizeof(opcode_t);
set_instruction(start_code + pos, saved_code[pos]);
break;
case REQ_CHECKPOINT:
i = fork();
if (i == 0) {
close_connection(); /* Close parent connection. */
open_connection(); /* Open new connection with debugger */
} else {
putword(dbg_out, i);
flush(dbg_out);
}
break;
case REQ_GO:
event_count = getword(dbg_in);
return;
case REQ_STOP:
exit(0);
break;
case REQ_WAIT:
wait(NULL);
break;
case REQ_INITIAL_FRAME:
frame = extern_sp + 1;
/* Fall through */
case REQ_GET_FRAME:
putword(dbg_out, stack_high - frame);
putword(dbg_out, (Pc(frame) - start_code) * sizeof(opcode_t));
flush(dbg_out);
break;
case REQ_SET_FRAME:
i = getword(dbg_in);
frame = stack_high - i;
break;
case REQ_UP_FRAME:
i = getword(dbg_in);
if (frame + Extra_args(frame) + i + 3 >= stack_high) {
putword(dbg_out, -1);
} else {
frame += Extra_args(frame) + i + 3;
putword(dbg_out, stack_high - frame);
putword(dbg_out, (Pc(frame) - start_code) * sizeof(opcode_t));
}
flush(dbg_out);
break;
case REQ_SET_TRAP_BARRIER:
i = getword(dbg_in);
trap_barrier = stack_high - i;
break;
case REQ_GET_LOCAL:
i = getword(dbg_in);
putval(dbg_out, Locals(frame)[i]);
flush(dbg_out);
break;
case REQ_GET_ENVIRONMENT:
i = getword(dbg_in);
putval(dbg_out, Field(Env(frame), i));
flush(dbg_out);
break;
case REQ_GET_GLOBAL:
i = getword(dbg_in);
putval(dbg_out, Field(global_data, i));
flush(dbg_out);
break;
case REQ_GET_ACCU:
putval(dbg_out, *extern_sp);
flush(dbg_out);
break;
case REQ_GET_HEADER:
val = getval(dbg_in);
putword(dbg_out, Hd_val(val));
flush(dbg_out);
break;
case REQ_GET_FIELD:
val = getval(dbg_in);
i = getword(dbg_in);
if (Tag_val(val) != Double_array_tag) {
putch(dbg_out, 0);
putval(dbg_out, Field(val, i));
} else {
double d = Double_field(val, i);
putch(dbg_out, 1);
really_putblock(dbg_out, (char *) &d, 8);
}
flush(dbg_out);
break;
case REQ_MARSHAL_OBJ:
val = getval(dbg_in);
safe_output_value(dbg_out, val);
flush(dbg_out);
break;
case REQ_GET_CLOSURE_CODE:
val = getval(dbg_in);
putword(dbg_out, (Code_val(val) - start_code) * sizeof(opcode_t));
flush(dbg_out);
break;
}
}
}
#endif