Ejemplo n.º 1
0
static int r_debug_native_continue_syscall (RDebug *dbg, int pid, int num) {
// XXX: num is ignored
#if __linux__
	return ptrace (PTRACE_SYSCALL, pid, 0, 0);
#elif __BSD__
	ut64 pc = r_debug_reg_get (dbg, "PC");
	return ptrace (PTRACE_SYSCALL, pid, (void*)(size_t)pc, 0);
#else
	eprintf ("TODO: continue syscall not implemented yet\n");
	return -1;
#endif
}
Ejemplo n.º 2
0
static int esilbreak_check_pc (RDebug *dbg, ut64 pc) {
	EsilBreak *ew;
	RListIter *iter;
	if (!pc)
	pc = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_PC]);
	r_list_foreach (EWPS, iter, ew) {
		if (ew->rwx & R_IO_EXEC) {
			if (exprmatch (dbg, pc, ew->expr))
				return 1;
		}
	}
	return 0;
}
Ejemplo n.º 3
0
static int __esil_step(RDebug *dbg) {
    int oplen;
    ut8 buf[64];
    ut64 pc = 0LL; // getreg("pc")
    RAnalOp op;

    pc = r_debug_reg_get (dbg, "pc");
/// XXX. hack to trick vaddr issue
//pc = 0x100001478;
    memset (buf, 0, sizeof (buf));
    dbg->iob.read_at (dbg->iob.io, pc, buf, 64);
    eprintf ("READ 0x%08"PFMT64x" %02x %02x %02x\n", pc, buf[0], buf[1], buf[2]);
    oplen = r_anal_op (dbg->anal, &op, pc, buf, sizeof (buf));
    if (oplen>0) {
        if (*R_STRBUF_SAFEGET (&op.esil)) {
            eprintf ("ESIL: %s\n", R_STRBUF_SAFEGET (&op.esil));
        }
    }
    eprintf ("TODO: ESIL STEP\n");
    return true;
}
Ejemplo n.º 4
0
/* TODO: must return true/false */
static int r_debug_native_continue (RDebug *dbg, int pid, int tid, int sig) {
#if __WINDOWS__ && !__CYGWIN__
	if (ContinueDebugEvent (pid, tid, DBG_CONTINUE) == 0) {
		print_lasterr ((char *)__FUNCTION__, "ContinueDebugEvent");
		eprintf ("debug_contp: error\n");
		return false;
	}
	return tid;
#elif __APPLE__
	return xnu_continue (dbg, pid, tid, sig);
#elif __BSD__
	void *data = (void*)(size_t)((sig != -1) ? sig : dbg->reason.signum);
	ut64 pc = r_debug_reg_get (dbg, "pc");
	return ptrace (PTRACE_CONT, pid, (void*)(size_t)pc, (int)data) == 0;
#elif __CYGWIN__
	#warning "r_debug_native_continue not supported on this platform"
	return -1;
#else
	void *data = (void*)(size_t)((sig != -1) ? sig : dbg->reason.signum);
//eprintf ("SIG %d\n", dbg->reason.signum);
	return ptrace (PTRACE_CONT, pid, NULL, data) == 0;
#endif
}
Ejemplo n.º 5
0
Archivo: core.c Proyecto: 0x2F/radare2
static ut64 num_callback(RNum *userptr, const char *str, int *ok) {
	RCore *core = (RCore *)userptr; // XXX ?
	RAnalFunction *fcn;
	char *ptr, *bptr, *out;
	RFlagItem *flag;
	RIOSection *s;
	RAnalOp op;
	ut64 ret = 0;

	if (ok) *ok = R_FALSE;
	switch (*str) {
	case '[':
{
		ut64 n = 0LL;
		int refsz = (core->assembler->bits & R_SYS_BITS_64)? 8: 4;
		const char *p = NULL;
		if (strlen (str)>5)
			p = strchr (str+5, ':');
		// TODO: honor LE
		if (p) {
			refsz = atoi (str+1);
			str = p;
		}
		// push state
		{
			if (str[0] && str[1]) {
				const char *q;
				char *o = strdup (str+1);
				if (o) {
					q = r_num_calc_index (core->num, NULL);
					if (q) {
						if (r_str_replace_char (o, ']', 0)>0) {
							n = r_num_math (core->num, o);
							r_num_calc_index (core->num, q);
						}
					}
					free (o);
				}
			}
		}
		// pop state
		if (ok) *ok = 1;
		ut32 num = 0;
		switch (refsz) {
		case 8:
		case 4:
		case 2:
		case 1:
			(void)r_io_read_at (core->io, n, (ut8*)&num, refsz);
			r_mem_copyendian ((ut8*)&num, (ut8*)&num, refsz, !core->assembler->big_endian);
			return num;
		default:
			eprintf ("Invalid reference size: %d (%s)\n", refsz, str);
			return 0LL;
		}
}
		break;
	case '$':
		if (ok) *ok = 1;
		// TODO: group analop-dependant vars after a char, so i can filter
		r_anal_op (core->anal, &op, core->offset,
			core->block, core->blocksize);
		switch (str[1]) {
		case '.': // can use pc, sp, a0, a1, ...
			return r_debug_reg_get (core->dbg, str+2);
		case 'k':
			if (str[2]!='{') {
				eprintf ("Expected '{' after 'k'.\n");
				break;
			}
			bptr = strdup (str+3);
			ptr = strchr (bptr, '}');
			if (ptr == NULL) {
				// invalid json
				free (bptr);
				break;
			}
			*ptr = '\0';
			ret = 0LL;
			out = sdb_querys (core->sdb, NULL, 0, bptr);
			if (out && *out) {
				if (strstr (out, "$k{")) {
					eprintf ("Recursivity is not permitted here\n");
				} else {
					ret = r_num_math (core->num, out);
				}
			}
			free (bptr);
			free (out);
			return ret;
			break;
		case '{':
			bptr = strdup (str+2);
			ptr = strchr (bptr, '}');
			if (ptr != NULL) {
				ut64 ret;
				ptr[0] = '\0';
				ret = r_config_get_i (core->config, bptr);
				free (bptr);
				return ret;
			}
			free (bptr);
			break;
		case 'c': return r_cons_get_size (NULL);
		case 'r': { int rows; r_cons_get_size (&rows); return rows; }
		case 'e': return r_anal_op_is_eob (&op);
		case 'j': return op.jump;
		case 'p': return r_sys_getpid ();
		case 'P': return (core->dbg->pid>0)? core->dbg->pid: 0;
		case 'f': return op.fail;
		case 'm': return op.ptr; // memref
		case 'v': return op.val; // immediate value
		case 'l': return op.size;
		case 'b': return core->blocksize;
		case 's':
			if (core->file) {
				return r_io_desc_size (core->io, core->file->desc);
			}
			return 0LL;
		case 'w': return r_config_get_i (core->config, "asm.bits") / 8;
		case 'S':
			s = r_io_section_vget (core->io, core->offset);
			return s? (str[2]=='S'? s->size: s->vaddr): 3;
		case '?': return core->num->value;
		case '$': return core->offset;
		case 'o': return r_io_section_vaddr_to_offset (core->io,
				core->offset);
		case 'C': return getref (core, atoi (str+2), 'r',
				R_ANAL_REF_TYPE_CALL);
		case 'J': return getref (core, atoi (str+2), 'r',
				R_ANAL_REF_TYPE_CODE);
		case 'D': return getref (core, atoi (str+2), 'r',
				R_ANAL_REF_TYPE_DATA);
		case 'X': return getref (core, atoi (str+2), 'x',
				R_ANAL_REF_TYPE_CALL);
		case 'I':
			fcn = r_anal_get_fcn_in (core->anal, core->offset, 0);
			return fcn? fcn->ninstr: 0;
		case 'F':
			fcn = r_anal_get_fcn_in (core->anal, core->offset, 0);
			return fcn? fcn->size: 0;
		}
		break;
	default:
		if (*str>'A') {
			// NOTE: functions override flags
			RAnalFunction *fcn = r_anal_fcn_find_name (core->anal, str);
			if (fcn) {
				if (ok) *ok = R_TRUE;
				return fcn->addr;
			}
#if 0
			ut64 addr = r_anal_fcn_label_get (core->anal, core->offset, str);
			if (addr != 0) {
				ret = addr;
			} else {
				...
			}
#endif
			if ((flag = r_flag_get (core->flags, str))) {
				ret = flag->offset;
				if (ok) *ok = R_TRUE;
			}
		}
		break;
	}
Ejemplo n.º 6
0
R_API int r_debug_esil_stepi (RDebug *d) {
	RAnalOp op;
	ut8 obuf[64];
	int ret = 1;
	dbg = d;
	if (!ESIL) {
		ESIL = r_anal_esil_new (32, true, 64);
		// TODO setup something?
		if (!ESIL) {
			return 0;
		}
	}

	r_debug_reg_sync (dbg, R_REG_TYPE_GPR, false);
	opc = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_PC]);
	dbg->iob.read_at (dbg->iob.io, opc, obuf, sizeof (obuf));

	//dbg->iob.read_at (dbg->iob.io, npc, buf, sizeof (buf));

	//dbg->anal->reg = dbg->reg; // hack
	ESIL->cb.hook_mem_read = &esilbreak_mem_read;
	ESIL->cb.hook_mem_write = &esilbreak_mem_write;
	ESIL->cb.hook_reg_read = &esilbreak_reg_read;
	ESIL->cb.hook_reg_write = &esilbreak_reg_write;

	if (prestep) {
		// required when a exxpression is like <= == ..
		// otherwise it will stop at the next instruction
		if (r_debug_step (dbg, 1)<1) {
			eprintf ("Step failed\n");
			return 0;
		}
		r_debug_reg_sync (dbg, R_REG_TYPE_GPR, false);
		//	npc = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_PC]);
	}

	if (r_anal_op (dbg->anal, &op, opc, obuf, sizeof (obuf), R_ANAL_OP_MASK_ESIL)) {
		if (esilbreak_check_pc (dbg, opc)) {
			eprintf ("STOP AT 0x%08"PFMT64x"\n", opc);
			ret = 0;
		} else {
			r_anal_esil_set_pc (ESIL, opc);
			eprintf ("0x%08"PFMT64x"  %s\n", opc, R_STRBUF_SAFEGET (&op.esil));
			(void)r_anal_esil_parse (ESIL, R_STRBUF_SAFEGET (&op.esil));
			//r_anal_esil_dumpstack (ESIL);
			r_anal_esil_stack_free (ESIL);
			ret = 1;
		}
	}
	if (!prestep) {
		if (ret && !has_match) {
			if (r_debug_step (dbg, 1)<1) {
				eprintf ("Step failed\n");
				return 0;
			}
			r_debug_reg_sync (dbg, R_REG_TYPE_GPR, false);
			//	npc = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_PC]);
		}
	}
	return ret;
}
Ejemplo n.º 7
0
static int cmd_seek(void *data, const char *input) {
	RCore *core = (RCore *)data;
	char *cmd, *p;
	ut64 off;

	if (*input=='r') {
		if (input[1] && input[2]) {
			if (core->io->debug) {
				off = r_debug_reg_get (core->dbg, input+2);
				r_io_sundo_push (core->io, core->offset);
				r_core_seek (core, off, 1);
			} else {
				RReg *orig = core->dbg->reg;
				core->dbg->reg = core->anal->reg;
				off = r_debug_reg_get (core->dbg, input+2);
				core->dbg->reg = orig;
				r_core_seek (core, off, 1);
			}
		} else eprintf ("|Usage| 'sr pc' seek to program counter register\n");
	} else
	if (*input) {
		const char *inputnum = strchr (input+1, ' ');
		int sign = 1;
		inputnum = inputnum? inputnum+1: input+1;
		off = r_num_math (core->num, inputnum);
		if (*inputnum== '-') off = -off;
#if 0
		if (input[0]!='/' && inputnum && isalpha (inputnum[0]) && off == 0) {
			if (!r_flag_get (core->flags, inputnum)) {
				eprintf ("Cannot find address for '%s'\n", inputnum);
				return R_FALSE;
			}
		}
#endif
		if (input[0]==' ') {
			switch (input[1]) {
			case '-': sign=-1;
			case '+': input++; break;
			}
		}

		switch (*input) {
		case 'C':
			if (input[1]=='*') {
				r_core_cmd0 (core, "C*~^\"CC");
			} else
			if (input[1]==' ') {
				typedef struct {
					ut64 addr;
					char *str;
				} MetaCallback;
				int count = 0;
				MetaCallback cb = { 0, NULL };
				ut64 addr;
				char key[128];
				const char *val, *comma;
				char *list = sdb_get (core->anal->sdb_meta, "meta.C", 0);
				char *str, *next, *cur = list;
				if (list) {
					for (;;) {
						cur = sdb_anext (cur, &next);
						addr = sdb_atoi (cur);
						snprintf (key, sizeof (key)-1, "meta.C.0x%"PFMT64x, addr);
						val = sdb_const_get (core->anal->sdb_meta, key, 0);
						if (val) {
							comma = strchr (val, ',');
							if (comma) {
								str = (char *)sdb_decode (comma+1, 0);
								if (strstr (str, input+2)) {
									r_cons_printf ("0x%08"PFMT64x"  %s\n", addr, str);
									count++;
									cb.addr = addr;
									free (cb.str);
									cb.str = str;
								} else free (str);
							}
						} else eprintf ("sdb_const_get key not found '%s'\n", key);
						if (!next)
							break;
						cur = next;
					}
				}

				switch (count) {
				case 0:
					eprintf ("No matching comments\n");
					break;
				case 1:
					off = cb.addr;
					r_io_sundo_push (core->io, core->offset);
					r_core_seek (core, off, 1);
					r_core_block_read (core, 0);
					break;
				default:
					eprintf ("Too many results\n");
					break;
				}
				free (cb.str);
			} else eprintf ("Usage: sC[?*] comment-grep\n"
				"sC*        list all comments\n"
				"sC const   seek to comment matching 'const'\n");
			break;
		case ' ':
			r_io_sundo_push (core->io, core->offset);
			r_core_seek (core, off*sign, 1);
			r_core_block_read (core, 0);
			break;
		case '/':
			{
			const char *pfx = r_config_get (core->config, "search.prefix");
//kwidx cfg var is ignored
			int kwidx = core->search->n_kws; //(int)r_config_get_i (core->config, "search.kwidx")-1;
			if (kwidx<0) kwidx = 0;
			switch (input[1]) {
			case ' ':
			case 'x':
				r_config_set_i (core->config, "search.count", 1);
				r_core_cmdf (core, "s+1; p8 ; .%s;s-1;s %s%d_0;f-%s%d_0",
					input, pfx, kwidx, pfx, kwidx, pfx, kwidx);
				r_config_set_i (core->config, "search.count", 0);
				break;
			default:
				eprintf ("unknown search method\n");
				break;
			}
			}
			break;
		case '.':
			for (input++;*input=='.';input++);
			r_core_seek_base (core, input);
			break;
		case '*':
			r_io_sundo_list (core->io);
			break;
		case '+':
			if (input[1]!='\0') {
				int delta = (input[1]=='+')? core->blocksize: off;
				r_io_sundo_push (core->io, core->offset);
				r_core_seek_delta (core, delta);
			} else {
				off = r_io_sundo_redo (core->io);
				if (off != UT64_MAX)
					r_core_seek (core, off, 0);
			}
			break;
		case '-':
			if (input[1]!='\0') {
				int delta = (input[1]=='-') ? -core->blocksize: -off;
				r_io_sundo_push (core->io, core->offset);
				r_core_seek_delta (core, delta);
			} else {
				off = r_io_sundo (core->io, core->offset);
				if (off != UT64_MAX)
					r_core_seek (core, off, 0);
			}
			break;
		case 'n':
			r_io_sundo_push (core->io, core->offset);
			r_core_seek_next (core, r_config_get (core->config, "scr.nkey"));
			break;
		case 'p':
			r_io_sundo_push (core->io, core->offset);
			r_core_seek_previous (core, r_config_get (core->config, "scr.nkey"));
			break;
		case 'a':
			off = core->blocksize;
			if (input[1]&&input[2]) {
				cmd = strdup (input);
				p = strchr (cmd+2, ' ');
				if (p) {
					off = r_num_math (core->num, p+1);;
					*p = '\0';
				}
				cmd[0] = 's';
				// perform real seek if provided
				r_cmd_call (core->rcmd, cmd);
				free (cmd);
			}
			r_io_sundo_push (core->io, core->offset);
			r_core_seek_align (core, off, 0);
			break;
		case 'b':
			if (off == 0)
				off = core->offset;
			r_io_sundo_push (core->io, core->offset);
			r_core_anal_bb_seek (core, off);
			break;
		case 'f':
			if (strlen(input) > 2 && input[1]==' ') {
				RAnalFunction *fcn = r_anal_fcn_find_name (core->anal, input+2);
				if (fcn) {
					r_core_seek (core, fcn->addr, 1);
				}
				break;
			}
			RAnalFunction *fcn = r_anal_fcn_find (core->anal, core->offset, 0);
			if (fcn) {
				r_core_seek (core, fcn->addr+fcn->size, 1);
			}
			break;
		case 'o':
			{
			RAnalOp op;
			int val=0, ret, i, n = r_num_math (core->num, input+1);
			if (n==0) n = 1;
			if (n<0) {
				int ret = prevopsz (core, n);
				ret = r_anal_op (core->anal, &op,
						core->offset, core->block, core->blocksize);
				val += ret;
			} else
			for (val=i=0; i<n; i++) {
				ret = r_anal_op (core->anal, &op,
						core->offset, core->block, core->blocksize);
				if (ret<1)
					break;
				r_core_seek_delta (core, ret);
				val += ret;
			}
			core->num->value = val;
			}
			break;
		case 'g':
			{
			RIOSection *s = r_io_section_vget (core->io, core->offset);
			if (s) r_core_seek (core, s->vaddr, 1);
			else r_core_seek (core, 0, 1);
			}
			break;
		case 'G':
			{
			RIOSection *s = r_io_section_vget (core->io, core->offset);
			// XXX: this +2 is a hack. must fix gap between sections
			if (s) r_core_seek (core, s->vaddr+s->size+2, 1);
			else r_core_seek (core, core->file->size, 1);
			}
			break;
		case '?': {
			const char * help_message[] = {
			"Usage: s", "", " # Seek commands",
			"s", "", "Print current address",
			"s", " addr", "Seek to address",
			"s-", "", "Undo seek",
			"s-", " n", "Seek n bytes backward",
			"s--", "", "Seek blocksize bytes backward",
			"s+", "", "Redo seek",
			"s+", " n", "Seek n bytes forward",
			"s++", "", "Seek blocksize bytes forward",
			"s*", "", "List undo seek history",
			"s/", " DATA", "Search for next occurrence of 'DATA'",
			"s/x", " 9091", "Search for next occurrence of \\x90\\x91",
			"s.", "hexoff", "Seek honoring a base from core->offset",
			"sa", " [[+-]a] [asz]", "Seek asz (or bsize) aligned to addr",
			"sb", "", "Seek aligned to bb start",
			"sC", " string", "Seek to comment matching given string",
			"sf", "", "Seek to next function (f->addr+f->size)",
			"sf", " function", "Seek to address of specified function",
			"sg/sG", "", "Seek begin (sg) or end (sG) of section or file",
			"sn/sp", "", "Seek next/prev scr.nkey",
			"so", " [N]", "Seek to N next opcode(s)",
			"sr", " pc", "Seek to register",
			//"sp [page]  seek page N (page = block)",
			NULL
			};
			r_core_cmd_help(core, help_message);
		}
			break;
		}
	} else r_cons_printf ("0x%"PFMT64x"\n", core->offset);
	return 0;
}
Ejemplo n.º 8
0
R_API int r_debug_continue_kill(RDebug *dbg, int sig) {
	ut64 pc;
	int retwait, ret = R_FALSE;
	if (!dbg)
		return R_FALSE;
#if __WINDOWS__
	r_cons_break(w32_break_process, dbg);
#endif
repeat:
	if (r_debug_is_dead (dbg))
		return R_FALSE;
	if (dbg->h && dbg->h->cont) {
		r_bp_restore (dbg->bp, R_TRUE); // set sw breakpoints
		ret = dbg->h->cont (dbg, dbg->pid, dbg->tid, sig);
		dbg->reason.signum = 0;
		retwait = r_debug_wait (dbg);
#if __WINDOWS__
		if (retwait != R_DEBUG_REASON_DEAD) {
			ret = dbg->tid;
		}
#endif
		r_bp_restore (dbg->bp, R_FALSE); // unset sw breakpoints
		//r_debug_recoil (dbg);
		if (r_debug_recoil (dbg) || (dbg->reason.type == R_DEBUG_REASON_BREAKPOINT)) {
			/* check if cur bp demands tracing or not */
			pc = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_PC]);
			RBreakpointItem *b = r_bp_get_at (dbg->bp, pc);
			if (b) {
				/* check if cur bp demands tracing or not */
				if (b->trace) {
					eprintf("hit tracepoit at: %"PFMT64x"\n",pc);
				} else {
					eprintf("hit breakpoint at: %"PFMT64x"\n",pc);
				}
				if (dbg->trace->enabled)
					r_debug_trace_pc (dbg);
				// TODO: delegate this to RCore.bphit(RCore, RBreakopintItem)
				if (dbg->corebind.core && dbg->corebind.bphit) {
					dbg->corebind.bphit (dbg->corebind.core, b);
				}
				if (b->trace) {
					r_debug_step (dbg, 1);
					goto repeat;
				}
			}
		}
#if 0
#if __UNIX__
		/* XXX Uh? */
		if (dbg->stop_all_threads && dbg->pid>0)
			r_sandbox_kill (dbg->pid, SIGSTOP);
#endif
#endif
		r_debug_select (dbg, dbg->pid, ret);
		sig = 0; // clear continuation after signal if needed
		if (retwait == R_DEBUG_REASON_SIGNAL && dbg->reason.signum != -1) {
			int what = r_debug_signal_what (dbg, dbg->reason.signum);
			if (what & R_DBG_SIGNAL_CONT) {
				sig = dbg->reason.signum;
				eprintf ("Continue into the signal %d handler\n", sig);
				goto repeat;
			} else if (what & R_DBG_SIGNAL_SKIP) {
				// skip signal. requires skipping one instruction
				ut8 buf[64];
				RAnalOp op = {0};
				ut64 pc = r_debug_reg_get (dbg, "pc");
				dbg->iob.read_at (dbg->iob.io, pc, buf, sizeof (buf));
				r_anal_op (dbg->anal, &op, pc, buf, sizeof (buf));
				if (op.size>0) {
					const char *signame = r_debug_signal_resolve_i (dbg, dbg->reason.signum);
					r_debug_reg_set (dbg, "pc", pc+op.size);
					eprintf ("Skip signal %d handler %s\n",
						dbg->reason.signum, signame);
					goto repeat;
				} else  {
					ut64 pc = r_debug_reg_get (dbg, "pc");
					eprintf ("Stalled with an exception at 0x%08"PFMT64x"\n", pc);
				}
			}
		}
	}
	return ret;
}
Ejemplo n.º 9
0
R_API int r_debug_step_over(RDebug *dbg, int steps) {
	RAnalOp op;
	ut64 buf_pc, pc;
	ut8 buf[DBG_BUF_SIZE];
	int i;

	if (r_debug_is_dead (dbg))
		return R_FALSE;

	if (steps < 1)
		steps = 1;

	if (dbg->h && dbg->h->step_over) {
		for (i = 0; i < steps; i++)
			if (!dbg->h->step_over (dbg))
				return R_FALSE;
		return i;
	}

	if (!dbg->anal || !dbg->reg)
		return R_FALSE;

	// Initial refill
	buf_pc = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_PC]);
	dbg->iob.read_at (dbg->iob.io, buf_pc, buf, sizeof (buf));

	for (i = 0; i < steps; i++) {
		pc = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_PC]);
		// Try to keep the buffer full 
		if (pc - buf_pc > sizeof (buf)) { 
			buf_pc = pc;
			dbg->iob.read_at (dbg->iob.io, buf_pc, buf, sizeof (buf));
		}
		// Analyze the opcode
		if (!r_anal_op (dbg->anal, &op, pc, buf + (pc - buf_pc), sizeof (buf) - (pc - buf_pc))) {
			eprintf ("Decode error at %"PFMT64x"\n", pc);
			return R_FALSE;
		}

		// Skip over all the subroutine calls
		if (op.type == R_ANAL_OP_TYPE_CALL  ||
			op.type == R_ANAL_OP_TYPE_CCALL ||
			op.type == R_ANAL_OP_TYPE_UCALL ||
			op.type == R_ANAL_OP_TYPE_UCCALL) {

			// Use op.fail here instead of pc+op.size to enforce anal backends to fill in this field
			if (!r_debug_continue_until (dbg, op.fail)) {
				eprintf ("Could not step over call @ 0x%"PFMT64x"\n", pc);
				return R_FALSE;
			}
		} else if ((op.prefix & (R_ANAL_OP_PREFIX_REP | R_ANAL_OP_PREFIX_REPNE | R_ANAL_OP_PREFIX_LOCK))) {
			//eprintf ("REP: skip to next instruction...\n");
			if (!r_debug_continue_until (dbg, pc+op.size)) {
				eprintf ("step over failed over rep\n");
				return R_FALSE;
			}
		} else r_debug_step (dbg, 1);
	}

	return i;
}
Ejemplo n.º 10
0
R_API int r_debug_step_soft(RDebug *dbg) {
	ut8 buf[32];
	ut64 pc, sp;
	ut64 next[2];
	RAnalOp op;
	int br, i, ret;
	union {
		ut64 r64;
		ut32 r32[2];
	} sp_top;

	if (r_debug_is_dead (dbg))
		return R_FALSE;

	pc = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_PC]);
	sp = r_debug_reg_get (dbg, dbg->reg->name[R_REG_NAME_SP]);

	if (dbg->iob.read_at) {
		if (dbg->iob.read_at (dbg->iob.io, pc, buf, sizeof (buf)) < 0)
			return R_FALSE;
	} else return R_FALSE;

	if (!r_anal_op (dbg->anal, &op, pc, buf, sizeof (buf)))
		return R_FALSE;

	if (op.type == R_ANAL_OP_TYPE_ILL)
		return R_FALSE;

	switch (op.type) {
	case R_ANAL_OP_TYPE_RET:
		dbg->iob.read_at (dbg->iob.io, sp, (ut8 *)&sp_top, 8);
		next[0] = (dbg->bits == R_SYS_BITS_32) ? sp_top.r32[0] : sp_top.r64;
		br = 1;
		break;

	case R_ANAL_OP_TYPE_CJMP:
	case R_ANAL_OP_TYPE_CCALL:
		next[0] = op.jump;
		next[1] = op.fail;
		br = 2;
		break;

	case R_ANAL_OP_TYPE_CALL:
	case R_ANAL_OP_TYPE_JMP:
		next[0] = op.jump;
		br = 1;
		break;

	default:
		next[0] = op.addr + op.size;
		br = 1;
		break;
	}

	for (i = 0; i < br; i++)
		r_bp_add_sw (dbg->bp, next[i], dbg->bpsize, R_BP_PROT_EXEC);

	ret = r_debug_continue (dbg);

	for (i = 0; i < br; i++)
		r_bp_del (dbg->bp, next[i]);

	return ret;
}
Ejemplo n.º 11
0
static ut64 num_callback(RNum *userptr, const char *str, int *ok) {
	RCore *core = (RCore *)userptr; // XXX ?
	RAnalFunction *fcn;
	char *ptr, *bptr;
	RFlagItem *flag;
	RIOSection *s;
	RAnalOp op;
	ut64 ret = 0;

	if (ok) *ok = R_FALSE;
	if (*str=='[') {
		int refsz = (core->assembler->bits & R_SYS_BITS_64)? 8: 4;
		const char *p = strchr (str+5, ':');
		ut64 n;
		// TODO: honor endian
		if (p) {
			refsz = atoi (str+1);
			str = p;
		}
		// push state
		{
			char *o = strdup (str+1);
			const char *q = r_num_calc_index (core->num, NULL);
			r_str_replace_char (o, ']', 0);
			n = r_num_math (core->num, o);
			r_num_calc_index (core->num, q);
			free (o);
		}
		// pop state
		switch (refsz) {
		case 8: {
			ut64 num = 0;
			r_io_read_at (core->io, n, (ut8*)&num, sizeof (num));
			return num; }
		case 4: {
			ut32 num = 0;
			r_io_read_at (core->io, n, (ut8*)&num, sizeof (num));
			return num; }
		case 2: {
			ut16 num = 0;
			r_io_read_at (core->io, n, (ut8*)&num, sizeof (num));
			return num; }
		case 1: {
			ut8 num = 0;
			r_io_read_at (core->io, n, (ut8*)&num, sizeof (num));
			return num; }
		default:
			eprintf ("Invalid reference size: %d (%s)\n", refsz, str);
			break;
		}
	} else
	if (str[0]=='$') {
		if (ok) *ok = 1;
		// TODO: group analop-dependant vars after a char, so i can filter
		r_anal_op (core->anal, &op, core->offset,
			core->block, core->blocksize);
		switch (str[1]) {
		case '.': // can use pc, sp, a0, a1, ...
			return r_debug_reg_get (core->dbg, str+2);
		case '{':
			bptr = strdup (str+2);
			ptr = strchr (bptr, '}');
			if (ptr != NULL) {
				ut64 ret;
				ptr[0] = '\0';
				ret = r_config_get_i (core->config, bptr);
				free (bptr);
				return ret;
			}
			break;
		case 'h': {
			int rows;
			r_cons_get_size (&rows);
			return rows;
			}
		case 'e': return op.eob;
		case 'j': return op.jump;
		case 'f': return op.fail;
		case 'r': return op.ref;
		case 'l': return op.length;
		case 'b': return core->blocksize;
		case 's': return core->file->size;
		case 'w': return r_config_get_i (core->config, "asm.bits") / 8;
		case 'S':
			s = r_io_section_get (core->io, 
				r_io_section_vaddr_to_offset (core->io,
				core->offset));
			return s? (str[2]=='S'? s->size: s->offset): 0;
		case '?': return core->num->value;
		case '$': return core->offset;
		case 'o': return core->io->off;
		case 'C': return getref (core, atoi (str+2), 'r',
				R_ANAL_REF_TYPE_CALL);
		case 'J': return getref (core, atoi (str+2), 'r',
				R_ANAL_REF_TYPE_CODE);
		case 'D': return getref (core, atoi (str+2), 'r',
				R_ANAL_REF_TYPE_DATA);
		case 'X': return getref (core, atoi (str+2), 'x',
				R_ANAL_REF_TYPE_CALL);
		case 'I':
			fcn = r_anal_fcn_find (core->anal, core->offset, 0);
			return fcn? fcn->ninstr: 0;
		case 'F':
			fcn = r_anal_fcn_find (core->anal, core->offset, 0);
			return fcn? fcn->size: 0;
		}
	} else
	if (*str>'A') {
		if ((flag = r_flag_get (core->flags, str))) {
			ret = flag->offset;
			if (ok) *ok = R_TRUE;
		}
	}
	return ret;
}
Ejemplo n.º 12
0
//TODO improve this code
static int __xnu_wait (RDebug *dbg, int pid) {
	// here comes the important thing
	kern_return_t kr;
	int ret_code, reason = R_DEBUG_REASON_UNKNOWN;
	mig_reply_error_t reply;
	bool ret;
	exc_msg msg;
	if (!dbg) {
		return reason;
	}
	msg.hdr.msgh_local_port = ex.exception_port;
	msg.hdr.msgh_size = sizeof (exc_msg);
	for (;;) {
		kr = mach_msg (
			&msg.hdr,
			MACH_RCV_MSG | MACH_RCV_INTERRUPT, 0,
			sizeof (exc_msg), ex.exception_port,
			MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL);
		if (kr == MACH_RCV_INTERRUPTED) {
			reason = R_DEBUG_REASON_MACH_RCV_INTERRUPTED;
			break;
		} else if (kr != MACH_MSG_SUCCESS) {
			eprintf ("message didn't succeded\n");
			break;
		}
		ret = validate_mach_message (dbg, &msg);
		if (!ret) {
			ret = handle_dead_notify (dbg, &msg);
			if (ret) {
				reason = R_DEBUG_REASON_DEAD;
				break;
			}
		}
		if (!ret) {
			encode_reply (&reply, &msg.hdr, KERN_FAILURE);
			kr = mach_msg (&reply.Head, MACH_SEND_MSG | MACH_SEND_INTERRUPT,
					reply.Head.msgh_size, 0,
					MACH_PORT_NULL, MACH_MSG_TIMEOUT_NONE,
					MACH_PORT_NULL);
			if (reply.Head.msgh_remote_port != 0 && kr != MACH_MSG_SUCCESS) {
				kr = mach_port_deallocate(mach_task_self (), reply.Head.msgh_remote_port);
				if (kr != KERN_SUCCESS) {
					eprintf ("failed to deallocate reply port\n");
				}
			}
			continue;
		}

		reason = handle_exception_message (dbg, &msg, &ret_code);
		encode_reply (&reply, &msg.hdr, ret_code);
		kr = mach_msg (&reply.Head, MACH_SEND_MSG | MACH_SEND_INTERRUPT,
				reply.Head.msgh_size, 0,
				MACH_PORT_NULL, 0,
				MACH_PORT_NULL);
		if (reply.Head.msgh_remote_port != 0 && kr != MACH_MSG_SUCCESS) {
			kr = mach_port_deallocate(mach_task_self (), reply.Head.msgh_remote_port);
			if (kr != KERN_SUCCESS)
				eprintf ("failed to deallocate reply port\n");
		}
		break; // to avoid infinite loops
	}
	dbg->stopaddr = r_debug_reg_get (dbg, "PC");
	return reason;
}
Ejemplo n.º 13
0
static int cmd_seek(void *data, const char *input) {
	RCore *core = (RCore *)data;
	char *cmd, *p;
	ut64 off;

	if (*input == 'r') {
		if (input[1] && input[2]) {
			if (core->io->debug) {
				off = r_debug_reg_get (core->dbg, input + 2);
				r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
				r_core_seek (core, off, 1);
			} else {
				RReg *orig = core->dbg->reg;
				core->dbg->reg = core->anal->reg;
				off = r_debug_reg_get (core->dbg, input + 2);
				core->dbg->reg = orig;
				r_core_seek (core, off, 1);
			}
		} else eprintf ("|Usage| 'sr PC' seek to program counter register\n");
	}
	if (*input) {
		char* ptr;
		if ((ptr = strstr(input, "+.")) != NULL) {
			char* dup = strdup(input);
			dup[ptr - input] = '\x00';
			off = r_num_math (core->num, dup + 1);
			core->offset = off;
			free (dup);
		}
		const char *inputnum = strchr (input, ' ');
		int sign = 1;
		{
			const char *u_num = inputnum? inputnum + 1: input + 1;
			off = r_num_math (core->num, u_num);
			if (*u_num == '-') off = -off;
		}
#if 0
		if (input[0]!='/' && inputnum && isalpha (inputnum[0]) && off == 0) {
			if (!r_flag_get (core->flags, inputnum)) {
				eprintf ("Cannot find address for '%s'\n", inputnum);
				return false;
			}
		}
#endif
		if (input[0]==' ') {
			switch (input[1]) {
			case '-': sign=-1;
			case '+': input++; break;
			}
		}

		switch (*input) {
		case 'C':
			if (input[1]=='*') {
				r_core_cmd0 (core, "C*~^\"CC");
			} else
			if (input[1]==' ') {
				typedef struct {
					ut64 addr;
					char *str;
				} MetaCallback;
				int count = 0;
				MetaCallback cb = { 0, NULL };
				ut64 addr;
				char key[128];
				const char *val, *comma;
				char *list = sdb_get (core->anal->sdb_meta, "meta.C", 0);
				char *str, *next, *cur = list;
				if (list) {
					for (;;) {
						cur = sdb_anext (cur, &next);
						addr = sdb_atoi (cur);
						snprintf (key, sizeof (key)-1, "meta.C.0x%"PFMT64x, addr);
						val = sdb_const_get (core->anal->sdb_meta, key, 0);
						if (val) {
							comma = strchr (val, ',');
							if (comma) {
								str = (char *)sdb_decode (comma+1, 0);
								if (strstr (str, input+2)) {
									r_cons_printf ("0x%08"PFMT64x"  %s\n", addr, str);
									count++;
									cb.addr = addr;
									free (cb.str);
									cb.str = str;
								} else free (str);
							}
						} else eprintf ("sdb_const_get key not found '%s'\n", key);
						if (!next)
							break;
						cur = next;
					}
				}

				switch (count) {
				case 0:
					eprintf ("No matching comments\n");
					break;
				case 1:
					off = cb.addr;
					r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
					r_core_seek (core, off, 1);
					r_core_block_read (core);
					break;
				default:
					eprintf ("Too many results\n");
					break;
				}
				free (cb.str);
			} else {
				const char *help_msg[] = {
					"Usage:", "sC", "Comment grep",
					"sC", "*", "List all comments",
					"sC", " str", "Seek to the first comment matching 'str'",
					NULL };
				r_core_cmd_help (core, help_msg);
			}
			break;
		case ' ':
			r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
			r_core_seek (core, off * sign, 1);
			r_core_block_read (core);
			break;
		case '/':
			{
			const char *pfx = r_config_get (core->config, "search.prefix");
			ut64 from = r_config_get_i (core->config, "search.from");
//kwidx cfg var is ignored
			int kwidx = core->search->n_kws; //(int)r_config_get_i (core->config, "search.kwidx")-1;
			if (kwidx<0) kwidx = 0;
			switch (input[1]) {
			case ' ':
			case 'v':
			case 'V':
			case 'w':
			case 'W':
			case 'z':
			case 'm':
			case 'c':
			case 'A':
			case 'e':
			case 'E':
			case 'i':
			case 'R':
			case 'r':
			case '/':
			case 'x':
				r_config_set_i (core->config, "search.from", core->offset+1);
				r_config_set_i (core->config, "search.count", 1);
				r_core_cmdf (core, "s+1; %s; s-1; s %s%d_0; f-%s%d_0",
					input, pfx, kwidx, pfx, kwidx, pfx, kwidx);
				r_config_set_i (core->config, "search.from", from);
				r_config_set_i (core->config, "search.count", 0);
				break;
			case '?':
				eprintf ("Usage: s/.. arg.\n");
				r_cons_printf ("/?\n");
				break;
			default:
				eprintf ("unknown search method\n");
				break;
			}
			}
			break;
		case '.':
			for (input++;*input=='.';input++);
			r_core_seek_base (core, input);
			break;
		case '*':
		case '=':
		case 'j':
			r_io_sundo_list (core->io, input[0]);
			break;
		case '+':
			if (input[1]!='\0') {
				int delta = (input[1]=='+')? core->blocksize: off;
				r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
				r_core_seek_delta (core, delta);
			} else {
				RIOUndos *undo = r_io_sundo_redo (core->io);
				if (undo != NULL)
					r_core_seek (core, undo->off, 0);
			}
			break;
		case '-':
			if (input[1]!='\0') {
				int delta = (input[1]=='-') ? -core->blocksize: -off;
				r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
				r_core_seek_delta (core, delta);
			} else {
				RIOUndos *undo = r_io_sundo (core->io, core->offset);
				if (undo) {
					r_core_seek (core, undo->off, 0);
					r_core_block_read (core);
				}
			}
			break;
		case 'n':
			r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
			r_core_seek_next (core, r_config_get (core->config, "scr.nkey"));
			break;
		case 'p':
			r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
			r_core_seek_previous (core, r_config_get (core->config, "scr.nkey"));
			break;
		case 'a':
			off = core->blocksize;
			if (input[1]&&input[2]) {
				cmd = strdup (input);
				p = strchr (cmd+2, ' ');
				if (p) {
					off = r_num_math (core->num, p+1);;
					*p = '\0';
				}
				cmd[0] = 's';
				// perform real seek if provided
				r_cmd_call (core->rcmd, cmd);
				free (cmd);
			}
			r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
			r_core_seek_align (core, off, 0);
			break;
		case 'b':
			if (off == 0)
				off = core->offset;
			r_io_sundo_push (core->io, core->offset, r_print_get_cursor (core->print));
			r_core_anal_bb_seek (core, off);
			break;
		case 'f': // "sf"
			if (strlen(input) > 2 && input[1]==' ') {
				RAnalFunction *fcn = r_anal_fcn_find_name (core->anal, input+2);
				if (fcn) {
					r_core_seek (core, fcn->addr, 1);
				}
				break;
			}
			RAnalFunction *fcn = r_anal_get_fcn_in (core->anal, core->offset, 0);
			if (fcn) {
				r_core_seek (core, fcn->addr + r_anal_fcn_size (fcn), 1);
			}
			break;
		case 'o': // "so"
			{
			RAnalOp op;
			int val=0, ret, i, n = r_num_math (core->num, input+1);
			if (n==0) n = 1;
			if (n<0) {
				int instr_len;
				ut64 addr = core->offset;
				int numinstr = n * -1;
				if (r_core_prevop_addr (core, core->offset, numinstr, &addr)) {
					ret = core->offset - addr;
				} else {
					ret = r_core_asm_bwdis_len (core, &instr_len, &addr, numinstr);
				}
				r_core_seek (core, addr, true);
				val += ret;
			} else {
				for (val=i=0; i<n; i++) {
					ret = r_anal_op (core->anal, &op,
							core->offset, core->block, core->blocksize);
					if (ret<1)
						ret = 1;
					r_core_seek_delta (core, ret);
					val += ret;
				}
			}
			core->num->value = val;
			}
			break;
		case 'g': // "sg"
			{
			RIOSection *s = r_io_section_vget (core->io, core->offset);
			if (s) r_core_seek (core, s->vaddr, 1);
			else r_core_seek (core, 0, 1);
			}
			break;
		case 'G': // "sG"
			{
			if (!core->file) break;
			RIOSection *s = r_io_section_vget (core->io, core->offset);
			// XXX: this +2 is a hack. must fix gap between sections
			if (s) r_core_seek (core, s->vaddr+s->size+2, 1);
			else r_core_seek (core, r_io_desc_size (core->io, core->file->desc), 1);
			}
			break;
		case 'l': // "sl"
			{
			int sl_arg = r_num_math (core->num, input+1);
			const char *help_msg[] = {
				"Usage:", "sl+ or sl- or slc", "",
				"sl", " [line]", "Seek to absolute line",
				"sl", "[+-][line]", "Seek to relative line",
				"slc", "", "Clear line cache",
				"sll", "", "Show total number of lines",
				NULL };
			switch (input[1]) {
			case 0:
				if (!core->print->lines_cache) {
					__init_seek_line (core);
				}
				__get_current_line (core);
				break;
			case ' ':
				if (!core->print->lines_cache) {
					__init_seek_line (core);
				}
				__seek_line_absolute (core, sl_arg);
				break;
			case '+':
			case '-':
				if (!core->print->lines_cache) {
					__init_seek_line (core);
				}
				__seek_line_relative (core, sl_arg);
				break;
			case 'c':
				__clean_lines_cache (core);
				break;
			case 'l':
				if (!core->print->lines_cache) {
					__init_seek_line (core);
				}
				eprintf ("%d lines\n", core->print->lines_cache_sz-1);
				break;
			case '?':
				r_core_cmd_help (core, help_msg);
				break;
			}
			}
			break;
		case ':':
			printPadded (core, atoi (input + 1));
			break;
		case '?': {
			const char * help_message[] = {
			"Usage: s", "", " # Seek commands",
			"s", "", "Print current address",
			"s:", "pad", "Print current address with N padded zeros (defaults to 8)",
			"s", " addr", "Seek to address",
			"s-", "", "Undo seek",
			"s-", " n", "Seek n bytes backward",
			"s--", "", "Seek blocksize bytes backward",
			"s+", "", "Redo seek",
			"s+", " n", "Seek n bytes forward",
			"s++", "", "Seek blocksize bytes forward",
			"s[j*=]", "", "List undo seek history (JSON, =list, *r2)",
			"s/", " DATA", "Search for next occurrence of 'DATA'",
			"s/x", " 9091", "Search for next occurrence of \\x90\\x91",
			"s.", "hexoff", "Seek honoring a base from core->offset",
			"sa", " [[+-]a] [asz]", "Seek asz (or bsize) aligned to addr",
			"sb", "", "Seek aligned to bb start",
			"sC", "[?] string", "Seek to comment matching given string",
			"sf", "", "Seek to next function (f->addr+f->size)",
			"sf", " function", "Seek to address of specified function",
			"sg/sG", "", "Seek begin (sg) or end (sG) of section or file",
			"sl", "[?] [+-]line", "Seek to line",
			"sn/sp", "", "Seek next/prev scr.nkey",
			"so", " [N]", "Seek to N next opcode(s)",
			"sr", " pc", "Seek to register",
			//"sp [page]  seek page N (page = block)",
			NULL
			};
			r_core_cmd_help(core, help_message);
		}
			break;
		}
	} else r_cons_printf ("0x%"PFMT64x"\n", core->offset);
	return 0;
}