| blob | 4f70dc56b26f6ffc076b9757b47d5e2111678232 |
1 /* Control flow redundancy hardening
2 Copyright (C) 2022-2024 Free Software Foundation, Inc.
3 Contributed by Alexandre Oliva <oliva@adacore.com>
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 3, or (at your option) any later
10 version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 for more details.
17 Under Section 7 of GPL version 3, you are granted additional
18 permissions described in the GCC Runtime Library Exception, version
19 3.1, as published by the Free Software Foundation.
21 You should have received a copy of the GNU General Public License and
22 a copy of the GCC Runtime Library Exception along with this program;
23 see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
24 <http://www.gnu.org/licenses/>. */
26 /* Avoid infinite recursion. */
29 #include <stddef.h>
30 #include <stdbool.h>
32 /* This should be kept in sync with gcc/gimple-harden-control-flow.cc. */
33 #if __CHAR_BIT__ >= 28
34 # define VWORDmode __QI__
35 #elif __CHAR_BIT__ >= 14
36 # define VWORDmode __HI__
37 #else
38 # define VWORDmode __SI__
39 #endif
43 /* This function is optionally called at the end of a function to verify that
44 the VISITED array represents a sensible execution path in the CFG. It is
45 always expected to pass; the purpose is to detect attempts to subvert
46 execution by taking unexpected paths, or other execution errors. The
47 function, instrumented by pass_harden_control_flow_redundancy at a time in
48 which it had BLOCKS basic blocks (not counting ENTER and EXIT, so block 2
49 maps to index 0, the first bit of the first VWORD), sets a bit in the bit
50 array VISITED as it enters the corresponding basic block. CFG holds a
51 representation of the control flow graph at the time of the instrumentation:
52 an array of VWORDs holding, for each block, a sequence of predecessors, and
53 a sequence of successors. Each pred and succ sequence is represented as a
54 sequence of pairs (mask, index), terminated by an index-less all-zero mask.
55 If the bit corresponding to the block is set, then at least one of the pred
56 masks, and at least one of the succ masks, must have a bit set in
57 VISITED[index]. An ENTRY block predecessor and an EXIT block successor are
58 represented in a (mask, index) pair that tests the block's own bit. */
63 /* Compute the MASK for the bit representing BLOCK in WORDIDX's vword in a
64 visited blocks bit array. */
67 {
71 }
73 /* Check whether the bit corresponding to BLOCK is set in VISITED. */
76 {
77 vword mask;
82 }
84 /* Check whether any VISITED bits that would correspond to blocks after BLOCKS
85 are set. */
88 {
89 vword mask;
95 }
97 /* Read and consume a mask from **CFG_IT. (Consume meaning advancing the
98 iterator to the next word). If the mask is zero, return FALSE. Otherwise,
99 also read and consume an index, and set *MASK and/or *WORDIDX, whichever are
100 nonNULL, to the corresponding read values, and finally return TRUE. */
105 {
121 }
123 /* Return TRUE iff any of the bits in MASK is set in VISITED[WORDIDX]. */
127 {
129 }
131 /* Scan a sequence of pairs (mask, index) at **CFG_IT until its terminator is
132 reached and consumed. */
135 {
138 }
140 /* Check that at least one of the MASK bits in a sequence of pairs (mask,
141 index) at **CFG_IT is set in the corresponding VISITED[INDEX] word. Trap if
142 we reach the terminator without finding any. Consume the entire sequence
143 otherwise, so that *CFG_IT points just past the terminator, which may be the
144 beginning of the next sequence. */
147 {
148 vword mask;
151 /* If the block was visited, check that at least one of the
152 preds/succs was also visited. */
153 do
154 /* If we get to the end of the sequence without finding any
155 match, something is amiss. */
158 /* Keep searching until we find a match, at which point the
159 condition is satisfied. */
162 /* Consume the remaining entries in the sequence, whether we found a match or
163 skipped the block, so as to position the iterator at the beginning of the
164 next . */
168 }
170 /* Print out the CFG with BLOCKS blocks, presumed to be associated with CALLER.
171 This is expected to be optimized out entirely, unless the verbose part of
172 __hardcfr_check_fail is enabled. */
177 {
181 {
194 }
196 }
198 #ifndef ATTRIBUTE_UNUSED
199 # define ATTRIBUTE_UNUSED __attribute__ ((__unused__))
200 #endif
202 /* This is called when an out-of-line hardcfr check fails. All the arguments
203 are ignored, and it just traps, unless HARDCFR_VERBOSE_FAIL is enabled. IF
204 it is, it prints the PART of the CFG, expected to have BLOCKS blocks, that
205 failed at CALLER's BLOCK, and the VISITED bitmap. When the verbose mode is
206 enabled, it also forces __hardcfr_debug_cfg (above) to be compiled into an
207 out-of-line function, that could be called from a debugger.
208 */
210 #ifdef __BPF__
212 #endif
220 {
221 #if HARDCFR_VERBOSE_FAIL
234 {
235 /* Skip data for previous blocks. */
238 {
241 }
248 }
257 /* Reference __hardcfr_debug_cfg so that it's output out-of-line, so that it
258 can be called from a debugger. */
261 #endif
263 }
265 /* Check that, for each of the BLOCKS basic blocks, if its bit is set in
266 VISITED, at least one of its predecessors in CFG is also set, and at also
267 that at least one of its successors in CFG is also set. */
268 void
272 {
275 {
278 /* For each block, there are two sequences of pairs (mask, index), each
279 sequence terminated by a single all-zero mask (no index). The first
280 sequence is for predecessor blocks, the second is for successors. At
281 least one of each must be set. */
283 {
284 /* Consume predecessors. */
286 /* Consume successors. */
288 }
289 else
290 {
291 /* Check predecessors. */
295 /* Check successors. */
299 }
300 }
304 }