binutils-gdb/gas/ginsn.c
Indu Bhagat 91cdbed4d7 gas: scfi: untraceable control flow should be a hard error
PR gas/31284

Currently, if an indirect jump is seen, GCFG (a CFG of ginsns) cannot be
created, and the SCFI machinery bails out with a warning:
  "Warning: Untraceable control flow for func 'foo'; Skipping SCFI"

It is, however, better suited if this is a hard error.  Change it to a
hard error.  Also change the message to skip mentioning "SCFI", because
the error itself may also useful when ginsns are used for other passes
(distinct from SCFI) involving GCFG, like a pass to detect if there is
unreachable code.  Hence, simply say:
  "Error: untraceable control flow for func 'foo'"

gas/
PR gas/31284
	* ginsn.c (ginsn_data_end): Use as_bad instead of as_warn.

gas/testsuite/
PR gas/31284
	* gas/scfi/x86_64/ginsn-cofi-1.l: Adjust to the expected output
	in case of errors.
	* gas/scfi/x86_64/scfi-unsupported-cfg-1.l: Error not Warning.
2024-01-26 11:31:35 -08:00

1260 lines
29 KiB
C

/* ginsn.h - GAS instruction representation.
Copyright (C) 2023 Free Software Foundation, Inc.
This file is part of GAS, the GNU Assembler.
GAS is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GAS is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GAS; see the file COPYING. If not, write to the Free
Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
02110-1301, USA. */
#include "as.h"
#include "subsegs.h"
#include "ginsn.h"
#include "scfi.h"
#ifdef TARGET_USE_GINSN
static const char *const ginsn_type_names[] =
{
#define _GINSN_TYPE_ITEM(NAME, STR) STR,
_GINSN_TYPES
#undef _GINSN_TYPE_ITEM
};
static ginsnS *
ginsn_alloc (void)
{
ginsnS *ginsn = XCNEW (ginsnS);
return ginsn;
}
static ginsnS *
ginsn_init (enum ginsn_type type, const symbolS *sym, bool real_p)
{
ginsnS *ginsn = ginsn_alloc ();
ginsn->type = type;
ginsn->sym = sym;
if (real_p)
ginsn->flags |= GINSN_F_INSN_REAL;
return ginsn;
}
static void
ginsn_cleanup (ginsnS **ginsnp)
{
ginsnS *ginsn;
if (!ginsnp || !*ginsnp)
return;
ginsn = *ginsnp;
if (ginsn->scfi_ops)
{
scfi_ops_cleanup (ginsn->scfi_ops);
ginsn->scfi_ops = NULL;
}
free (ginsn);
*ginsnp = NULL;
}
static void
ginsn_set_src (struct ginsn_src *src, enum ginsn_src_type type, unsigned int reg,
offsetT immdisp)
{
if (!src)
return;
src->type = type;
/* Even when the use-case is SCFI, the value of reg may be > SCFI_MAX_REG_ID.
E.g., in AMD64, push fs etc. */
src->reg = reg;
src->immdisp = immdisp;
}
static void
ginsn_set_dst (struct ginsn_dst *dst, enum ginsn_dst_type type, unsigned int reg,
offsetT disp)
{
if (!dst)
return;
dst->type = type;
dst->reg = reg;
if (type == GINSN_DST_INDIRECT)
dst->disp = disp;
}
static void
ginsn_set_file_line (ginsnS *ginsn, const char *file, unsigned int line)
{
if (!ginsn)
return;
ginsn->file = file;
ginsn->line = line;
}
struct ginsn_src *
ginsn_get_src1 (ginsnS *ginsn)
{
return &ginsn->src[0];
}
struct ginsn_src *
ginsn_get_src2 (ginsnS *ginsn)
{
return &ginsn->src[1];
}
struct ginsn_dst *
ginsn_get_dst (ginsnS *ginsn)
{
return &ginsn->dst;
}
unsigned int
ginsn_get_src_reg (struct ginsn_src *src)
{
return src->reg;
}
enum ginsn_src_type
ginsn_get_src_type (struct ginsn_src *src)
{
return src->type;
}
offsetT
ginsn_get_src_disp (struct ginsn_src *src)
{
return src->immdisp;
}
offsetT
ginsn_get_src_imm (struct ginsn_src *src)
{
return src->immdisp;
}
unsigned int
ginsn_get_dst_reg (struct ginsn_dst *dst)
{
return dst->reg;
}
enum ginsn_dst_type
ginsn_get_dst_type (struct ginsn_dst *dst)
{
return dst->type;
}
offsetT
ginsn_get_dst_disp (struct ginsn_dst *dst)
{
return dst->disp;
}
void
label_ginsn_map_insert (const symbolS *label, ginsnS *ginsn)
{
const char *name = S_GET_NAME (label);
str_hash_insert (frchain_now->frch_ginsn_data->label_ginsn_map,
name, ginsn, 0 /* noreplace. */);
}
ginsnS *
label_ginsn_map_find (const symbolS *label)
{
const char *name = S_GET_NAME (label);
ginsnS *ginsn
= (ginsnS *) str_hash_find (frchain_now->frch_ginsn_data->label_ginsn_map,
name);
return ginsn;
}
ginsnS *
ginsn_new_phantom (const symbolS *sym)
{
ginsnS *ginsn = ginsn_alloc ();
ginsn->type = GINSN_TYPE_PHANTOM;
ginsn->sym = sym;
/* By default, GINSN_F_INSN_REAL is not set in ginsn->flags. */
return ginsn;
}
ginsnS *
ginsn_new_symbol (const symbolS *sym, bool func_begin_p)
{
ginsnS *ginsn = ginsn_alloc ();
ginsn->type = GINSN_TYPE_SYMBOL;
ginsn->sym = sym;
if (func_begin_p)
ginsn->flags |= GINSN_F_FUNC_MARKER;
return ginsn;
}
ginsnS *
ginsn_new_symbol_func_begin (const symbolS *sym)
{
return ginsn_new_symbol (sym, true);
}
ginsnS *
ginsn_new_symbol_func_end (const symbolS *sym)
{
return ginsn_new_symbol (sym, false);
}
ginsnS *
ginsn_new_symbol_user_label (const symbolS *sym)
{
ginsnS *ginsn = ginsn_new_symbol (sym, false);
ginsn->flags |= GINSN_F_USER_LABEL;
return ginsn;
}
ginsnS *
ginsn_new_add (const symbolS *sym, bool real_p,
enum ginsn_src_type src1_type, unsigned int src1_reg, offsetT src1_disp,
enum ginsn_src_type src2_type, unsigned int src2_reg, offsetT src2_disp,
enum ginsn_dst_type dst_type, unsigned int dst_reg, offsetT dst_disp)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_ADD, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src1_type, src1_reg, src1_disp);
ginsn_set_src (&ginsn->src[1], src2_type, src2_reg, src2_disp);
/* dst info. */
ginsn_set_dst (&ginsn->dst, dst_type, dst_reg, dst_disp);
return ginsn;
}
ginsnS *
ginsn_new_and (const symbolS *sym, bool real_p,
enum ginsn_src_type src1_type, unsigned int src1_reg, offsetT src1_disp,
enum ginsn_src_type src2_type, unsigned int src2_reg, offsetT src2_disp,
enum ginsn_dst_type dst_type, unsigned int dst_reg, offsetT dst_disp)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_AND, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src1_type, src1_reg, src1_disp);
ginsn_set_src (&ginsn->src[1], src2_type, src2_reg, src2_disp);
/* dst info. */
ginsn_set_dst (&ginsn->dst, dst_type, dst_reg, dst_disp);
return ginsn;
}
ginsnS *
ginsn_new_call (const symbolS *sym, bool real_p,
enum ginsn_src_type src_type, unsigned int src_reg,
const symbolS *src_text_sym)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_CALL, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src_type, src_reg, 0);
if (src_type == GINSN_SRC_SYMBOL)
ginsn->src[0].sym = src_text_sym;
return ginsn;
}
ginsnS *
ginsn_new_jump (const symbolS *sym, bool real_p,
enum ginsn_src_type src_type, unsigned int src_reg,
const symbolS *src_ginsn_sym)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_JUMP, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src_type, src_reg, 0);
if (src_type == GINSN_SRC_SYMBOL)
ginsn->src[0].sym = src_ginsn_sym;
return ginsn;
}
ginsnS *
ginsn_new_jump_cond (const symbolS *sym, bool real_p,
enum ginsn_src_type src_type, unsigned int src_reg,
const symbolS *src_ginsn_sym)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_JUMP_COND, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src_type, src_reg, 0);
if (src_type == GINSN_SRC_SYMBOL)
ginsn->src[0].sym = src_ginsn_sym;
return ginsn;
}
ginsnS *
ginsn_new_mov (const symbolS *sym, bool real_p,
enum ginsn_src_type src_type, unsigned int src_reg, offsetT src_disp,
enum ginsn_dst_type dst_type, unsigned int dst_reg, offsetT dst_disp)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_MOV, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src_type, src_reg, src_disp);
/* dst info. */
ginsn_set_dst (&ginsn->dst, dst_type, dst_reg, dst_disp);
return ginsn;
}
ginsnS *
ginsn_new_store (const symbolS *sym, bool real_p,
enum ginsn_src_type src_type, unsigned int src_reg,
enum ginsn_dst_type dst_type, unsigned int dst_reg, offsetT dst_disp)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_STORE, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src_type, src_reg, 0);
/* dst info. */
gas_assert (dst_type == GINSN_DST_INDIRECT);
ginsn_set_dst (&ginsn->dst, dst_type, dst_reg, dst_disp);
return ginsn;
}
ginsnS *
ginsn_new_load (const symbolS *sym, bool real_p,
enum ginsn_src_type src_type, unsigned int src_reg, offsetT src_disp,
enum ginsn_dst_type dst_type, unsigned int dst_reg)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_LOAD, sym, real_p);
/* src info. */
gas_assert (src_type == GINSN_SRC_INDIRECT);
ginsn_set_src (&ginsn->src[0], src_type, src_reg, src_disp);
/* dst info. */
ginsn_set_dst (&ginsn->dst, dst_type, dst_reg, 0);
return ginsn;
}
ginsnS *
ginsn_new_sub (const symbolS *sym, bool real_p,
enum ginsn_src_type src1_type, unsigned int src1_reg, offsetT src1_disp,
enum ginsn_src_type src2_type, unsigned int src2_reg, offsetT src2_disp,
enum ginsn_dst_type dst_type, unsigned int dst_reg, offsetT dst_disp)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_SUB, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src1_type, src1_reg, src1_disp);
ginsn_set_src (&ginsn->src[1], src2_type, src2_reg, src2_disp);
/* dst info. */
ginsn_set_dst (&ginsn->dst, dst_type, dst_reg, dst_disp);
return ginsn;
}
/* PS: Note this API does not identify the displacement values of
src1/src2/dst. At this time, it is unnecessary for correctness to support
the additional argument. */
ginsnS *
ginsn_new_other (const symbolS *sym, bool real_p,
enum ginsn_src_type src1_type, unsigned int src1_val,
enum ginsn_src_type src2_type, unsigned int src2_val,
enum ginsn_dst_type dst_type, unsigned int dst_reg)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_OTHER, sym, real_p);
/* src info. */
ginsn_set_src (&ginsn->src[0], src1_type, src1_val, src1_val);
/* GINSN_SRC_INDIRECT src2_type is not expected. */
gas_assert (src2_type != GINSN_SRC_INDIRECT);
ginsn_set_src (&ginsn->src[1], src2_type, src2_val, src2_val);
/* dst info. */
ginsn_set_dst (&ginsn->dst, dst_type, dst_reg, 0);
return ginsn;
}
ginsnS *
ginsn_new_return (const symbolS *sym, bool real_p)
{
ginsnS *ginsn = ginsn_init (GINSN_TYPE_RETURN, sym, real_p);
return ginsn;
}
void
ginsn_set_where (ginsnS *ginsn)
{
const char *file;
unsigned int line;
file = as_where (&line);
ginsn_set_file_line (ginsn, file, line);
}
int
ginsn_link_next (ginsnS *ginsn, ginsnS *next)
{
int ret = 0;
/* Avoid data corruption by limiting the scope of the API. */
if (!ginsn || ginsn->next)
return 1;
ginsn->next = next;
return ret;
}
bool
ginsn_track_reg_p (unsigned int dw2reg, enum ginsn_gen_mode gmode)
{
bool track_p = false;
if (gmode == GINSN_GEN_SCFI && dw2reg <= SCFI_MAX_REG_ID)
{
/* FIXME - rename this to tc_ ? */
track_p |= SCFI_CALLEE_SAVED_REG_P (dw2reg);
track_p |= (dw2reg == REG_FP);
track_p |= (dw2reg == REG_SP);
}
return track_p;
}
static bool
ginsn_indirect_jump_p (ginsnS *ginsn)
{
bool ret_p = false;
if (!ginsn)
return ret_p;
ret_p = (ginsn->type == GINSN_TYPE_JUMP
&& ginsn->src[0].type == GINSN_SRC_REG);
return ret_p;
}
static bool
ginsn_direct_local_jump_p (ginsnS *ginsn)
{
bool ret_p = false;
if (!ginsn)
return ret_p;
ret_p |= (ginsn->type == GINSN_TYPE_JUMP
&& ginsn->src[0].type == GINSN_SRC_SYMBOL);
return ret_p;
}
static char *
ginsn_src_print (struct ginsn_src *src)
{
size_t len = 40;
char *src_str = XNEWVEC (char, len);
memset (src_str, 0, len);
switch (src->type)
{
case GINSN_SRC_REG:
snprintf (src_str, len, "%%r%d, ", ginsn_get_src_reg (src));
break;
case GINSN_SRC_IMM:
snprintf (src_str, len, "%lld, ",
(long long int) ginsn_get_src_imm (src));
break;
case GINSN_SRC_INDIRECT:
snprintf (src_str, len, "[%%r%d+%lld], ", ginsn_get_src_reg (src),
(long long int) ginsn_get_src_disp (src));
break;
default:
break;
}
return src_str;
}
static char*
ginsn_dst_print (struct ginsn_dst *dst)
{
size_t len = GINSN_LISTING_OPND_LEN;
char *dst_str = XNEWVEC (char, len);
memset (dst_str, 0, len);
if (dst->type == GINSN_DST_REG)
{
char *buf = XNEWVEC (char, 32);
sprintf (buf, "%%r%d", ginsn_get_dst_reg (dst));
strcat (dst_str, buf);
}
else if (dst->type == GINSN_DST_INDIRECT)
{
char *buf = XNEWVEC (char, 32);
sprintf (buf, "[%%r%d+%lld]", ginsn_get_dst_reg (dst),
(long long int) ginsn_get_dst_disp (dst));
strcat (dst_str, buf);
}
gas_assert (strlen (dst_str) < GINSN_LISTING_OPND_LEN);
return dst_str;
}
static const char*
ginsn_type_func_marker_print (ginsnS *ginsn)
{
int id = 0;
static const char * const ginsn_sym_strs[] =
{ "", "FUNC_BEGIN", "FUNC_END" };
if (GINSN_F_FUNC_BEGIN_P (ginsn))
id = 1;
else if (GINSN_F_FUNC_END_P (ginsn))
id = 2;
return ginsn_sym_strs[id];
}
static char*
ginsn_print (ginsnS *ginsn)
{
struct ginsn_src *src;
struct ginsn_dst *dst;
int str_size = 0;
size_t len = GINSN_LISTING_LEN;
char *ginsn_str = XNEWVEC (char, len);
memset (ginsn_str, 0, len);
str_size = snprintf (ginsn_str, GINSN_LISTING_LEN, "ginsn: %s",
ginsn_type_names[ginsn->type]);
gas_assert (str_size >= 0 && str_size < GINSN_LISTING_LEN);
/* For some ginsn types, no further information is printed for now. */
if (ginsn->type == GINSN_TYPE_CALL
|| ginsn->type == GINSN_TYPE_RETURN)
goto end;
else if (ginsn->type == GINSN_TYPE_SYMBOL)
{
if (GINSN_F_USER_LABEL_P (ginsn))
str_size += snprintf (ginsn_str + str_size,
GINSN_LISTING_LEN - str_size,
" %s", S_GET_NAME (ginsn->sym));
else
str_size += snprintf (ginsn_str + str_size,
GINSN_LISTING_LEN - str_size,
" %s", ginsn_type_func_marker_print (ginsn));
goto end;
}
/* src 1. */
src = ginsn_get_src1 (ginsn);
str_size += snprintf (ginsn_str + str_size, GINSN_LISTING_LEN - str_size,
" %s", ginsn_src_print (src));
gas_assert (str_size >= 0 && str_size < GINSN_LISTING_LEN);
/* src 2. */
src = ginsn_get_src2 (ginsn);
str_size += snprintf (ginsn_str + str_size, GINSN_LISTING_LEN - str_size,
"%s", ginsn_src_print (src));
gas_assert (str_size >= 0 && str_size < GINSN_LISTING_LEN);
/* dst. */
dst = ginsn_get_dst (ginsn);
str_size += snprintf (ginsn_str + str_size, GINSN_LISTING_LEN - str_size,
"%s", ginsn_dst_print (dst));
end:
gas_assert (str_size >= 0 && str_size < GINSN_LISTING_LEN);
return ginsn_str;
}
static void
gbb_cleanup (gbbS **bbp)
{
gbbS *bb = NULL;
if (!bbp && !*bbp)
return;
bb = *bbp;
if (bb->entry_state)
{
free (bb->entry_state);
bb->entry_state = NULL;
}
if (bb->exit_state)
{
free (bb->exit_state);
bb->exit_state = NULL;
}
free (bb);
*bbp = NULL;
}
static void
bb_add_edge (gbbS* from_bb, gbbS *to_bb)
{
gedgeS *tmpedge = NULL;
gedgeS *gedge;
bool exists = false;
if (!from_bb || !to_bb)
return;
/* Create a new edge object. */
gedge = XCNEW (gedgeS);
gedge->dst_bb = to_bb;
gedge->next = NULL;
gedge->visited = false;
/* Add it in. */
if (from_bb->out_gedges == NULL)
{
from_bb->out_gedges = gedge;
from_bb->num_out_gedges++;
}
else
{
/* Get the tail of the list. */
tmpedge = from_bb->out_gedges;
while (tmpedge)
{
/* Do not add duplicate edges. Duplicated edges will cause unwanted
failures in the forward and backward passes for SCFI. */
if (tmpedge->dst_bb == to_bb)
{
exists = true;
break;
}
if (tmpedge->next)
tmpedge = tmpedge->next;
else
break;
}
if (!exists)
{
tmpedge->next = gedge;
from_bb->num_out_gedges++;
}
else
free (gedge);
}
}
static void
cfg_add_bb (gcfgS *gcfg, gbbS *gbb)
{
gbbS *last_bb = NULL;
if (!gcfg->root_bb)
gcfg->root_bb = gbb;
else
{
last_bb = gcfg->root_bb;
while (last_bb->next)
last_bb = last_bb->next;
last_bb->next = gbb;
}
gcfg->num_gbbs++;
gbb->id = gcfg->num_gbbs;
}
static gbbS *
add_bb_at_ginsn (const symbolS *func, gcfgS *gcfg, ginsnS *ginsn, gbbS *prev_bb,
int *errp);
static gbbS *
find_bb (gcfgS *gcfg, ginsnS *ginsn)
{
gbbS *found_bb = NULL;
gbbS *gbb = NULL;
if (!ginsn)
return found_bb;
if (ginsn->visited)
{
cfg_for_each_bb (gcfg, gbb)
{
if (gbb->first_ginsn == ginsn)
{
found_bb = gbb;
break;
}
}
/* Must be found if ginsn is visited. */
gas_assert (found_bb);
}
return found_bb;
}
static gbbS *
find_or_make_bb (const symbolS *func, gcfgS *gcfg, ginsnS *ginsn, gbbS *prev_bb,
int *errp)
{
gbbS *found_bb = NULL;
found_bb = find_bb (gcfg, ginsn);
if (found_bb)
return found_bb;
return add_bb_at_ginsn (func, gcfg, ginsn, prev_bb, errp);
}
/* Add the basic block starting at GINSN to the given GCFG.
Also adds an edge from the PREV_BB to the newly added basic block.
This is a recursive function which returns the root of the added
basic blocks. */
static gbbS *
add_bb_at_ginsn (const symbolS *func, gcfgS *gcfg, ginsnS *ginsn, gbbS *prev_bb,
int *errp)
{
gbbS *current_bb = NULL;
ginsnS *target_ginsn = NULL;
const symbolS *taken_label;
while (ginsn)
{
/* Skip these as they may be right after a GINSN_TYPE_RETURN.
For GINSN_TYPE_RETURN, we have already considered that as
end of bb, and a logical exit from function. */
if (GINSN_F_FUNC_END_P (ginsn))
{
ginsn = ginsn->next;
continue;
}
if (ginsn->visited)
{
/* If the ginsn has been visited earlier, the bb must exist by now
in the cfg. */
prev_bb = current_bb;
current_bb = find_bb (gcfg, ginsn);
gas_assert (current_bb);
/* Add edge from the prev_bb. */
if (prev_bb)
bb_add_edge (prev_bb, current_bb);
break;
}
else if (current_bb && GINSN_F_USER_LABEL_P (ginsn))
{
/* Create new bb starting at this label ginsn. */
prev_bb = current_bb;
find_or_make_bb (func, gcfg, ginsn, prev_bb, errp);
break;
}
if (current_bb == NULL)
{
/* Create a new bb. */
current_bb = XCNEW (gbbS);
cfg_add_bb (gcfg, current_bb);
/* Add edge for the Not Taken, or Fall-through path. */
if (prev_bb)
bb_add_edge (prev_bb, current_bb);
}
if (current_bb->first_ginsn == NULL)
current_bb->first_ginsn = ginsn;
ginsn->visited = true;
current_bb->num_ginsns++;
current_bb->last_ginsn = ginsn;
/* Note that BB is _not_ split on ginsn of type GINSN_TYPE_CALL. */
if (ginsn->type == GINSN_TYPE_JUMP
|| ginsn->type == GINSN_TYPE_JUMP_COND
|| ginsn->type == GINSN_TYPE_RETURN)
{
/* Indirect Jumps or direct jumps to symbols non-local to the
function must not be seen here. The caller must have already
checked for that. */
gas_assert (!ginsn_indirect_jump_p (ginsn));
if (ginsn->type == GINSN_TYPE_JUMP)
gas_assert (ginsn_direct_local_jump_p (ginsn));
/* Direct Jumps. May include conditional or unconditional change of
flow. What is important for CFG creation is that the target be
local to function. */
if (ginsn->type == GINSN_TYPE_JUMP_COND
|| ginsn_direct_local_jump_p (ginsn))
{
gas_assert (ginsn->src[0].type == GINSN_SRC_SYMBOL);
taken_label = ginsn->src[0].sym;
gas_assert (taken_label);
/* Preserve the prev_bb to be the dominator bb as we are
going to follow the taken path of the conditional branch
soon. */
prev_bb = current_bb;
/* Follow the target on the taken path. */
target_ginsn = label_ginsn_map_find (taken_label);
/* Add the bb for the target of the taken branch. */
if (target_ginsn)
find_or_make_bb (func, gcfg, target_ginsn, prev_bb, errp);
else
{
*errp = GCFG_JLABEL_NOT_PRESENT;
as_warn_where (ginsn->file, ginsn->line,
_("missing label '%s' in func '%s' may result in imprecise cfg"),
S_GET_NAME (taken_label), S_GET_NAME (func));
}
/* Add the bb for the fall through path. */
find_or_make_bb (func, gcfg, ginsn->next, prev_bb, errp);
}
else if (ginsn->type == GINSN_TYPE_RETURN)
{
/* We'll come back to the ginsns following GINSN_TYPE_RETURN
from another path if they are indeed reachable code. */
break;
}
/* Current BB has been processed. */
current_bb = NULL;
}
ginsn = ginsn->next;
}
return current_bb;
}
static int
gbbs_compare (const void *v1, const void *v2)
{
const gbbS *bb1 = *(const gbbS **) v1;
const gbbS *bb2 = *(const gbbS **) v2;
if (bb1->first_ginsn->id < bb2->first_ginsn->id)
return -1;
else if (bb1->first_ginsn->id > bb2->first_ginsn->id)
return 1;
else if (bb1->first_ginsn->id == bb2->first_ginsn->id)
return 0;
return 0;
}
/* Synthesize DWARF CFI and emit it. */
static int
ginsn_pass_execute_scfi (const symbolS *func, gcfgS *gcfg, gbbS *root_bb)
{
int err = scfi_synthesize_dw2cfi (func, gcfg, root_bb);
if (!err)
scfi_emit_dw2cfi (func);
return err;
}
/* Traverse the list of ginsns for the function and warn if some
ginsns are not visited.
FIXME - this code assumes the caller has already performed a pass over
ginsns such that the reachable ginsns are already marked. Revisit this - we
should ideally make this pass self-sufficient. */
static int
ginsn_pass_warn_unreachable_code (const symbolS *func,
gcfgS *gcfg ATTRIBUTE_UNUSED,
ginsnS *root_ginsn)
{
ginsnS *ginsn;
bool unreach_p = false;
if (!gcfg || !func || !root_ginsn)
return 0;
ginsn = root_ginsn;
while (ginsn)
{
/* Some ginsns of type GINSN_TYPE_SYMBOL remain unvisited. Some
may even be excluded from the CFG as they are not reachable, given
their function, e.g., user labels after return machine insn. */
if (!ginsn->visited
&& !GINSN_F_FUNC_END_P (ginsn)
&& !GINSN_F_USER_LABEL_P (ginsn))
{
unreach_p = true;
break;
}
ginsn = ginsn->next;
}
if (unreach_p)
as_warn_where (ginsn->file, ginsn->line,
_("GINSN: found unreachable code in func '%s'"),
S_GET_NAME (func));
return unreach_p;
}
void
gcfg_get_bbs_in_prog_order (gcfgS *gcfg, gbbS **prog_order_bbs)
{
uint64_t i = 0;
gbbS *gbb;
if (!prog_order_bbs)
return;
cfg_for_each_bb (gcfg, gbb)
{
gas_assert (i < gcfg->num_gbbs);
prog_order_bbs[i++] = gbb;
}
qsort (prog_order_bbs, gcfg->num_gbbs, sizeof (gbbS *), gbbs_compare);
}
/* Build the control flow graph for the ginsns of the function.
It is important that the target adds an appropriate ginsn:
- GINSN_TYPE_JUMP,
- GINSN_TYPE_JUMP_COND,
- GINSN_TYPE_CALL,
- GINSN_TYPE_RET
at the associated points in the function. The correctness of the CFG
depends on the accuracy of these 'change of flow instructions'. */
gcfgS *
gcfg_build (const symbolS *func, int *errp)
{
gcfgS *gcfg;
ginsnS *first_ginsn;
gcfg = XCNEW (gcfgS);
first_ginsn = frchain_now->frch_ginsn_data->gins_rootP;
add_bb_at_ginsn (func, gcfg, first_ginsn, NULL /* prev_bb. */, errp);
return gcfg;
}
void
gcfg_cleanup (gcfgS **gcfgp)
{
gcfgS *cfg;
gbbS *bb, *next_bb;
gedgeS *edge, *next_edge;
if (!gcfgp || !*gcfgp)
return;
cfg = *gcfgp;
bb = gcfg_get_rootbb (cfg);
while (bb)
{
next_bb = bb->next;
/* Cleanup all the edges. */
edge = bb->out_gedges;
while (edge)
{
next_edge = edge->next;
free (edge);
edge = next_edge;
}
gbb_cleanup (&bb);
bb = next_bb;
}
free (cfg);
*gcfgp = NULL;
}
gbbS *
gcfg_get_rootbb (gcfgS *gcfg)
{
gbbS *rootbb = NULL;
if (!gcfg || !gcfg->num_gbbs)
return NULL;
rootbb = gcfg->root_bb;
return rootbb;
}
void
gcfg_print (const gcfgS *gcfg, FILE *outfile)
{
gbbS *gbb = NULL;
gedgeS *gedge = NULL;
uint64_t total_ginsns = 0;
cfg_for_each_bb(gcfg, gbb)
{
fprintf (outfile, "BB [%" PRIu64 "] with num insns: %" PRIu64,
gbb->id, gbb->num_ginsns);
fprintf (outfile, " [insns: %u to %u]\n",
gbb->first_ginsn->line, gbb->last_ginsn->line);
total_ginsns += gbb->num_ginsns;
bb_for_each_edge(gbb, gedge)
fprintf (outfile, " outgoing edge to %" PRIu64 "\n",
gedge->dst_bb->id);
}
fprintf (outfile, "\nTotal ginsns in all GBBs = %" PRIu64 "\n",
total_ginsns);
}
void
frch_ginsn_data_init (const symbolS *func, symbolS *start_addr,
enum ginsn_gen_mode gmode)
{
/* FIXME - error out if prev object is not free'd ? */
frchain_now->frch_ginsn_data = XCNEW (struct frch_ginsn_data);
frchain_now->frch_ginsn_data->mode = gmode;
/* Annotate with the current function symbol. */
frchain_now->frch_ginsn_data->func = func;
/* Create a new start address symbol now. */
frchain_now->frch_ginsn_data->start_addr = start_addr;
/* Assume the set of ginsn are apt for CFG creation, by default. */
frchain_now->frch_ginsn_data->gcfg_apt_p = true;
frchain_now->frch_ginsn_data->label_ginsn_map = str_htab_create ();
}
void
frch_ginsn_data_cleanup (void)
{
ginsnS *ginsn = NULL;
ginsnS *next_ginsn = NULL;
ginsn = frchain_now->frch_ginsn_data->gins_rootP;
while (ginsn)
{
next_ginsn = ginsn->next;
ginsn_cleanup (&ginsn);
ginsn = next_ginsn;
}
if (frchain_now->frch_ginsn_data->label_ginsn_map)
htab_delete (frchain_now->frch_ginsn_data->label_ginsn_map);
free (frchain_now->frch_ginsn_data);
frchain_now->frch_ginsn_data = NULL;
}
/* Append GINSN to the list of ginsns for the current function being
assembled. */
int
frch_ginsn_data_append (ginsnS *ginsn)
{
ginsnS *last = NULL;
ginsnS *temp = NULL;
uint64_t id = 0;
if (!ginsn)
return 1;
if (frchain_now->frch_ginsn_data->gins_lastP)
id = frchain_now->frch_ginsn_data->gins_lastP->id;
/* Do the necessary preprocessing on the set of input GINSNs:
- Update each ginsn with its ID.
While you iterate, also keep gcfg_apt_p updated by checking whether any
ginsn is inappropriate for GCFG creation. */
temp = ginsn;
while (temp)
{
temp->id = ++id;
if (ginsn_indirect_jump_p (temp)
|| (ginsn->type == GINSN_TYPE_JUMP
&& !ginsn_direct_local_jump_p (temp)))
frchain_now->frch_ginsn_data->gcfg_apt_p = false;
if (listing & LISTING_GINSN_SCFI)
listing_newline (ginsn_print (temp));
/* The input GINSN may be a linked list of multiple ginsns chained
together. Find the last ginsn in the input chain of ginsns. */
last = temp;
temp = temp->next;
}
/* Link in the ginsn to the tail. */
if (!frchain_now->frch_ginsn_data->gins_rootP)
frchain_now->frch_ginsn_data->gins_rootP = ginsn;
else
ginsn_link_next (frchain_now->frch_ginsn_data->gins_lastP, ginsn);
frchain_now->frch_ginsn_data->gins_lastP = last;
return 0;
}
enum ginsn_gen_mode
frch_ginsn_gen_mode (void)
{
enum ginsn_gen_mode gmode = GINSN_GEN_NONE;
if (frchain_now->frch_ginsn_data)
gmode = frchain_now->frch_ginsn_data->mode;
return gmode;
}
int
ginsn_data_begin (const symbolS *func)
{
ginsnS *ginsn;
/* The previous block of asm must have been processed by now. */
if (frchain_now->frch_ginsn_data)
as_bad (_("GINSN process for prev func not done"));
/* FIXME - hard code the mode to GINSN_GEN_SCFI.
This can be changed later when other passes on ginsns are formalised. */
frch_ginsn_data_init (func, symbol_temp_new_now (), GINSN_GEN_SCFI);
/* Create and insert ginsn with function begin marker. */
ginsn = ginsn_new_symbol_func_begin (func);
frch_ginsn_data_append (ginsn);
return 0;
}
int
ginsn_data_end (const symbolS *label)
{
ginsnS *ginsn;
gbbS *root_bb;
gcfgS *gcfg = NULL;
const symbolS *func;
int err = 0;
if (!frchain_now->frch_ginsn_data)
return err;
/* Insert Function end marker. */
ginsn = ginsn_new_symbol_func_end (label);
frch_ginsn_data_append (ginsn);
func = frchain_now->frch_ginsn_data->func;
/* Build the cfg of ginsn(s) of the function. */
if (!frchain_now->frch_ginsn_data->gcfg_apt_p)
{
as_bad (_("untraceable control flow for func '%s'"),
S_GET_NAME (func));
goto end;
}
gcfg = gcfg_build (func, &err);
root_bb = gcfg_get_rootbb (gcfg);
if (!root_bb)
{
as_bad (_("Bad cfg of ginsn of func '%s'"), S_GET_NAME (func));
goto end;
}
/* Execute the desired passes on ginsns. */
err = ginsn_pass_execute_scfi (func, gcfg, root_bb);
if (err)
goto end;
/* Other passes, e.g., warn for unreachable code can be enabled too. */
ginsn = frchain_now->frch_ginsn_data->gins_rootP;
err = ginsn_pass_warn_unreachable_code (func, gcfg, ginsn);
end:
if (gcfg)
gcfg_cleanup (&gcfg);
frch_ginsn_data_cleanup ();
return err;
}
/* Add GINSN_TYPE_SYMBOL type ginsn for user-defined labels. These may be
branch targets, and hence are necessary for control flow graph. */
void
ginsn_frob_label (const symbolS *label)
{
ginsnS *label_ginsn;
const char *file;
unsigned int line;
if (frchain_now->frch_ginsn_data)
{
/* PS: Note how we keep the actual LABEL symbol as ginsn->sym.
Take care to avoid inadvertent updates or cleanups of symbols. */
label_ginsn = ginsn_new_symbol_user_label (label);
/* Keep the location updated. */
file = as_where (&line);
ginsn_set_file_line (label_ginsn, file, line);
frch_ginsn_data_append (label_ginsn);
label_ginsn_map_insert (label, label_ginsn);
}
}
const symbolS *
ginsn_data_func_symbol (void)
{
const symbolS *func = NULL;
if (frchain_now->frch_ginsn_data)
func = frchain_now->frch_ginsn_data->func;
return func;
}
#else
int
ginsn_data_begin (const symbolS *func ATTRIBUTE_UNUSED)
{
as_bad (_("ginsn unsupported for target"));
return 1;
}
int
ginsn_data_end (const symbolS *label ATTRIBUTE_UNUSED)
{
as_bad (_("ginsn unsupported for target"));
return 1;
}
void
ginsn_frob_label (const symbolS *sym ATTRIBUTE_UNUSED)
{
return;
}
const symbolS *
ginsn_data_func_symbol (void)
{
return NULL;
}
#endif /* TARGET_USE_GINSN. */