1*38fd1498Szrj /* RTL manipulation functions exported by Pointer Bounds Checker.
2*38fd1498Szrj Copyright (C) 2014-2018 Free Software Foundation, Inc.
3*38fd1498Szrj Contributed by Ilya Enkovich (ilya.enkovich@intel.com)
4*38fd1498Szrj
5*38fd1498Szrj This file is part of GCC.
6*38fd1498Szrj
7*38fd1498Szrj GCC is free software; you can redistribute it and/or modify it under
8*38fd1498Szrj the terms of the GNU General Public License as published by the Free
9*38fd1498Szrj Software Foundation; either version 3, or (at your option) any later
10*38fd1498Szrj version.
11*38fd1498Szrj
12*38fd1498Szrj GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13*38fd1498Szrj WARRANTY; without even the implied warranty of MERCHANTABILITY or
14*38fd1498Szrj FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15*38fd1498Szrj for more details.
16*38fd1498Szrj
17*38fd1498Szrj You should have received a copy of the GNU General Public License
18*38fd1498Szrj along with GCC; see the file COPYING3. If not see
19*38fd1498Szrj <http://www.gnu.org/licenses/>. */
20*38fd1498Szrj
21*38fd1498Szrj #include "config.h"
22*38fd1498Szrj #include "system.h"
23*38fd1498Szrj #include "coretypes.h"
24*38fd1498Szrj #include "backend.h"
25*38fd1498Szrj #include "target.h"
26*38fd1498Szrj #include "rtl.h"
27*38fd1498Szrj #include "tree.h"
28*38fd1498Szrj #include "memmodel.h"
29*38fd1498Szrj #include "emit-rtl.h"
30*38fd1498Szrj #include "expr.h"
31*38fd1498Szrj #include "rtl-chkp.h"
32*38fd1498Szrj #include "tree-chkp.h"
33*38fd1498Szrj
34*38fd1498Szrj static hash_map<tree, rtx> *chkp_rtx_bounds_map;
35*38fd1498Szrj
36*38fd1498Szrj /* Get bounds rtx associated with NODE via
37*38fd1498Szrj chkp_set_rtl_bounds call. */
38*38fd1498Szrj rtx
chkp_get_rtl_bounds(tree node)39*38fd1498Szrj chkp_get_rtl_bounds (tree node)
40*38fd1498Szrj {
41*38fd1498Szrj rtx *slot;
42*38fd1498Szrj
43*38fd1498Szrj if (!chkp_rtx_bounds_map)
44*38fd1498Szrj return NULL_RTX;
45*38fd1498Szrj
46*38fd1498Szrj slot = chkp_rtx_bounds_map->get (node);
47*38fd1498Szrj return slot ? *slot : NULL_RTX;
48*38fd1498Szrj }
49*38fd1498Szrj
50*38fd1498Szrj /* Associate bounds rtx VAL with NODE. */
51*38fd1498Szrj void
chkp_set_rtl_bounds(tree node,rtx val)52*38fd1498Szrj chkp_set_rtl_bounds (tree node, rtx val)
53*38fd1498Szrj {
54*38fd1498Szrj if (!chkp_rtx_bounds_map)
55*38fd1498Szrj chkp_rtx_bounds_map = new hash_map<tree, rtx>;
56*38fd1498Szrj
57*38fd1498Szrj chkp_rtx_bounds_map->put (node, val);
58*38fd1498Szrj }
59*38fd1498Szrj
60*38fd1498Szrj /* Reset all bounds stored via chkp_set_rtl_bounds. */
61*38fd1498Szrj void
chkp_reset_rtl_bounds()62*38fd1498Szrj chkp_reset_rtl_bounds ()
63*38fd1498Szrj {
64*38fd1498Szrj if (!chkp_rtx_bounds_map)
65*38fd1498Szrj return;
66*38fd1498Szrj
67*38fd1498Szrj delete chkp_rtx_bounds_map;
68*38fd1498Szrj chkp_rtx_bounds_map = NULL;
69*38fd1498Szrj }
70*38fd1498Szrj
71*38fd1498Szrj /* Split SLOT identifying slot for function value or
72*38fd1498Szrj argument into two parts SLOT_VAL and SLOT_BND.
73*38fd1498Szrj First is the slot for regular value and the other one is
74*38fd1498Szrj for bounds. */
75*38fd1498Szrj void
chkp_split_slot(rtx slot,rtx * slot_val,rtx * slot_bnd)76*38fd1498Szrj chkp_split_slot (rtx slot, rtx *slot_val, rtx *slot_bnd)
77*38fd1498Szrj {
78*38fd1498Szrj int i;
79*38fd1498Szrj int val_num = 0;
80*38fd1498Szrj int bnd_num = 0;
81*38fd1498Szrj rtx *val_tmps;
82*38fd1498Szrj rtx *bnd_tmps;
83*38fd1498Szrj
84*38fd1498Szrj *slot_bnd = 0;
85*38fd1498Szrj
86*38fd1498Szrj if (!slot
87*38fd1498Szrj || GET_CODE (slot) != PARALLEL)
88*38fd1498Szrj {
89*38fd1498Szrj *slot_val = slot;
90*38fd1498Szrj return;
91*38fd1498Szrj }
92*38fd1498Szrj
93*38fd1498Szrj val_tmps = XALLOCAVEC (rtx, XVECLEN (slot, 0));
94*38fd1498Szrj bnd_tmps = XALLOCAVEC (rtx, XVECLEN (slot, 0));
95*38fd1498Szrj
96*38fd1498Szrj for (i = 0; i < XVECLEN (slot, 0); i++)
97*38fd1498Szrj {
98*38fd1498Szrj rtx elem = XVECEXP (slot, 0, i);
99*38fd1498Szrj rtx reg = GET_CODE (elem) == EXPR_LIST ? XEXP (elem, 0) : elem;
100*38fd1498Szrj
101*38fd1498Szrj if (!reg)
102*38fd1498Szrj continue;
103*38fd1498Szrj
104*38fd1498Szrj if (POINTER_BOUNDS_MODE_P (GET_MODE (reg)) || CONST_INT_P (reg))
105*38fd1498Szrj bnd_tmps[bnd_num++] = elem;
106*38fd1498Szrj else
107*38fd1498Szrj val_tmps[val_num++] = elem;
108*38fd1498Szrj }
109*38fd1498Szrj
110*38fd1498Szrj gcc_assert (val_num);
111*38fd1498Szrj
112*38fd1498Szrj if (!bnd_num)
113*38fd1498Szrj {
114*38fd1498Szrj *slot_val = slot;
115*38fd1498Szrj return;
116*38fd1498Szrj }
117*38fd1498Szrj
118*38fd1498Szrj if ((GET_CODE (val_tmps[0]) == EXPR_LIST) || (val_num > 1))
119*38fd1498Szrj *slot_val = gen_rtx_PARALLEL (GET_MODE (slot),
120*38fd1498Szrj gen_rtvec_v (val_num, val_tmps));
121*38fd1498Szrj else
122*38fd1498Szrj *slot_val = val_tmps[0];
123*38fd1498Szrj
124*38fd1498Szrj if ((GET_CODE (bnd_tmps[0]) == EXPR_LIST) || (bnd_num > 1))
125*38fd1498Szrj *slot_bnd = gen_rtx_PARALLEL (VOIDmode,
126*38fd1498Szrj gen_rtvec_v (bnd_num, bnd_tmps));
127*38fd1498Szrj else
128*38fd1498Szrj *slot_bnd = bnd_tmps[0];
129*38fd1498Szrj }
130*38fd1498Szrj
131*38fd1498Szrj /* Join previously splitted to VAL and BND rtx for function
132*38fd1498Szrj value or argument and return it. */
133*38fd1498Szrj rtx
chkp_join_splitted_slot(rtx val,rtx bnd)134*38fd1498Szrj chkp_join_splitted_slot (rtx val, rtx bnd)
135*38fd1498Szrj {
136*38fd1498Szrj rtx res;
137*38fd1498Szrj int i, n = 0;
138*38fd1498Szrj
139*38fd1498Szrj if (!bnd)
140*38fd1498Szrj return val;
141*38fd1498Szrj
142*38fd1498Szrj if (GET_CODE (val) == PARALLEL)
143*38fd1498Szrj n += XVECLEN (val, 0);
144*38fd1498Szrj else
145*38fd1498Szrj n++;
146*38fd1498Szrj
147*38fd1498Szrj if (GET_CODE (bnd) == PARALLEL)
148*38fd1498Szrj n += XVECLEN (bnd, 0);
149*38fd1498Szrj else
150*38fd1498Szrj n++;
151*38fd1498Szrj
152*38fd1498Szrj res = gen_rtx_PARALLEL (GET_MODE (val), rtvec_alloc (n));
153*38fd1498Szrj
154*38fd1498Szrj n = 0;
155*38fd1498Szrj
156*38fd1498Szrj if (GET_CODE (val) == PARALLEL)
157*38fd1498Szrj for (i = 0; i < XVECLEN (val, 0); i++)
158*38fd1498Szrj XVECEXP (res, 0, n++) = XVECEXP (val, 0, i);
159*38fd1498Szrj else
160*38fd1498Szrj XVECEXP (res, 0, n++) = val;
161*38fd1498Szrj
162*38fd1498Szrj if (GET_CODE (bnd) == PARALLEL)
163*38fd1498Szrj for (i = 0; i < XVECLEN (bnd, 0); i++)
164*38fd1498Szrj XVECEXP (res, 0, n++) = XVECEXP (bnd, 0, i);
165*38fd1498Szrj else
166*38fd1498Szrj XVECEXP (res, 0, n++) = bnd;
167*38fd1498Szrj
168*38fd1498Szrj return res;
169*38fd1498Szrj }
170*38fd1498Szrj
171*38fd1498Szrj /* If PAR is PARALLEL holding registers then transform
172*38fd1498Szrj it into PARALLEL holding EXPR_LISTs of those regs
173*38fd1498Szrj and zero constant (similar to how function value
174*38fd1498Szrj on multiple registers looks like). */
175*38fd1498Szrj void
chkp_put_regs_to_expr_list(rtx par)176*38fd1498Szrj chkp_put_regs_to_expr_list (rtx par)
177*38fd1498Szrj {
178*38fd1498Szrj int n;
179*38fd1498Szrj
180*38fd1498Szrj if (GET_CODE (par) != PARALLEL
181*38fd1498Szrj || GET_CODE (XVECEXP (par, 0, 0)) == EXPR_LIST)
182*38fd1498Szrj return;
183*38fd1498Szrj
184*38fd1498Szrj for (n = 0; n < XVECLEN (par, 0); n++)
185*38fd1498Szrj XVECEXP (par, 0, n) = gen_rtx_EXPR_LIST (VOIDmode,
186*38fd1498Szrj XVECEXP (par, 0, n),
187*38fd1498Szrj const0_rtx);
188*38fd1498Szrj }
189*38fd1498Szrj
190*38fd1498Szrj /* Search rtx PAR describing function return value for an
191*38fd1498Szrj item related to value at offset OFFS and return it.
192*38fd1498Szrj Return NULL if item was not found. */
193*38fd1498Szrj rtx
chkp_get_value_with_offs(rtx par,rtx offs)194*38fd1498Szrj chkp_get_value_with_offs (rtx par, rtx offs)
195*38fd1498Szrj {
196*38fd1498Szrj int n;
197*38fd1498Szrj
198*38fd1498Szrj gcc_assert (GET_CODE (par) == PARALLEL);
199*38fd1498Szrj
200*38fd1498Szrj for (n = 0; n < XVECLEN (par, 0); n++)
201*38fd1498Szrj {
202*38fd1498Szrj rtx par_offs = XEXP (XVECEXP (par, 0, n), 1);
203*38fd1498Szrj if (INTVAL (offs) == INTVAL (par_offs))
204*38fd1498Szrj return XEXP (XVECEXP (par, 0, n), 0);
205*38fd1498Szrj }
206*38fd1498Szrj
207*38fd1498Szrj return NULL;
208*38fd1498Szrj }
209*38fd1498Szrj
210*38fd1498Szrj /* Emit instructions to store BOUNDS for pointer VALUE
211*38fd1498Szrj stored in MEM.
212*38fd1498Szrj Function is used by expand to pass bounds for args
213*38fd1498Szrj passed on stack. */
214*38fd1498Szrj void
chkp_emit_bounds_store(rtx bounds,rtx value,rtx mem)215*38fd1498Szrj chkp_emit_bounds_store (rtx bounds, rtx value, rtx mem)
216*38fd1498Szrj {
217*38fd1498Szrj gcc_assert (MEM_P (mem));
218*38fd1498Szrj
219*38fd1498Szrj if (REG_P (bounds) || CONST_INT_P (bounds))
220*38fd1498Szrj {
221*38fd1498Szrj rtx ptr;
222*38fd1498Szrj
223*38fd1498Szrj if (REG_P (value))
224*38fd1498Szrj ptr = value;
225*38fd1498Szrj else
226*38fd1498Szrj {
227*38fd1498Szrj rtx slot = adjust_address (value, Pmode, 0);
228*38fd1498Szrj ptr = gen_reg_rtx (Pmode);
229*38fd1498Szrj emit_move_insn (ptr, slot);
230*38fd1498Szrj }
231*38fd1498Szrj
232*38fd1498Szrj if (CONST_INT_P (bounds))
233*38fd1498Szrj bounds = targetm.calls.load_bounds_for_arg (value, ptr, bounds);
234*38fd1498Szrj
235*38fd1498Szrj targetm.calls.store_bounds_for_arg (ptr, mem,
236*38fd1498Szrj bounds, NULL);
237*38fd1498Szrj }
238*38fd1498Szrj else
239*38fd1498Szrj {
240*38fd1498Szrj int i;
241*38fd1498Szrj
242*38fd1498Szrj gcc_assert (GET_CODE (bounds) == PARALLEL);
243*38fd1498Szrj gcc_assert (GET_CODE (value) == PARALLEL || MEM_P (value) || REG_P (value));
244*38fd1498Szrj
245*38fd1498Szrj for (i = 0; i < XVECLEN (bounds, 0); i++)
246*38fd1498Szrj {
247*38fd1498Szrj rtx reg = XEXP (XVECEXP (bounds, 0, i), 0);
248*38fd1498Szrj rtx offs = XEXP (XVECEXP (bounds, 0, i), 1);
249*38fd1498Szrj rtx slot = adjust_address (mem, Pmode, INTVAL (offs));
250*38fd1498Szrj rtx ptr;
251*38fd1498Szrj
252*38fd1498Szrj if (GET_CODE (value) == PARALLEL)
253*38fd1498Szrj ptr = chkp_get_value_with_offs (value, offs);
254*38fd1498Szrj else if (MEM_P (value))
255*38fd1498Szrj {
256*38fd1498Szrj rtx tmp = adjust_address (value, Pmode, INTVAL (offs));
257*38fd1498Szrj ptr = gen_reg_rtx (Pmode);
258*38fd1498Szrj emit_move_insn (ptr, tmp);
259*38fd1498Szrj }
260*38fd1498Szrj else
261*38fd1498Szrj ptr = gen_rtx_SUBREG (Pmode, value, INTVAL (offs));
262*38fd1498Szrj
263*38fd1498Szrj targetm.calls.store_bounds_for_arg (ptr, slot, reg, NULL);
264*38fd1498Szrj }
265*38fd1498Szrj }
266*38fd1498Szrj }
267*38fd1498Szrj
268*38fd1498Szrj /* Emit code to copy bounds for structure VALUE of type TYPE
269*38fd1498Szrj copied to SLOT. */
270*38fd1498Szrj void
chkp_copy_bounds_for_stack_parm(rtx slot,rtx value,tree type)271*38fd1498Szrj chkp_copy_bounds_for_stack_parm (rtx slot, rtx value, tree type)
272*38fd1498Szrj {
273*38fd1498Szrj bitmap have_bound;
274*38fd1498Szrj bitmap_iterator bi;
275*38fd1498Szrj unsigned i;
276*38fd1498Szrj rtx tmp = NULL, bnd;
277*38fd1498Szrj
278*38fd1498Szrj gcc_assert (TYPE_SIZE (type));
279*38fd1498Szrj gcc_assert (MEM_P (value));
280*38fd1498Szrj gcc_assert (MEM_P (slot));
281*38fd1498Szrj gcc_assert (RECORD_OR_UNION_TYPE_P (type));
282*38fd1498Szrj
283*38fd1498Szrj bitmap_obstack_initialize (NULL);
284*38fd1498Szrj have_bound = BITMAP_ALLOC (NULL);
285*38fd1498Szrj chkp_find_bound_slots (type, have_bound);
286*38fd1498Szrj
287*38fd1498Szrj EXECUTE_IF_SET_IN_BITMAP (have_bound, 0, i, bi)
288*38fd1498Szrj {
289*38fd1498Szrj rtx ptr = adjust_address (value, Pmode, i * POINTER_SIZE / 8);
290*38fd1498Szrj rtx to = adjust_address (slot, Pmode, i * POINTER_SIZE / 8);
291*38fd1498Szrj
292*38fd1498Szrj if (!tmp)
293*38fd1498Szrj tmp = gen_reg_rtx (Pmode);
294*38fd1498Szrj
295*38fd1498Szrj emit_move_insn (tmp, ptr);
296*38fd1498Szrj bnd = targetm.calls.load_bounds_for_arg (ptr, tmp, NULL);
297*38fd1498Szrj targetm.calls.store_bounds_for_arg (tmp, to, bnd, NULL);
298*38fd1498Szrj }
299*38fd1498Szrj
300*38fd1498Szrj BITMAP_FREE (have_bound);
301*38fd1498Szrj bitmap_obstack_release (NULL);
302*38fd1498Szrj }
303