Merge tag 'clk-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/clk/linux
[platform/kernel/linux-starfive.git] / mm / kmsan / core.c
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3  * KMSAN runtime library.
4  *
5  * Copyright (C) 2017-2022 Google LLC
6  * Author: Alexander Potapenko <glider@google.com>
7  *
8  */
9
10 #include <asm/page.h>
11 #include <linux/compiler.h>
12 #include <linux/export.h>
13 #include <linux/highmem.h>
14 #include <linux/interrupt.h>
15 #include <linux/kernel.h>
16 #include <linux/kmsan_types.h>
17 #include <linux/memory.h>
18 #include <linux/mm.h>
19 #include <linux/mm_types.h>
20 #include <linux/mmzone.h>
21 #include <linux/percpu-defs.h>
22 #include <linux/preempt.h>
23 #include <linux/slab.h>
24 #include <linux/stackdepot.h>
25 #include <linux/stacktrace.h>
26 #include <linux/types.h>
27 #include <linux/vmalloc.h>
28
29 #include "../slab.h"
30 #include "kmsan.h"
31
32 bool kmsan_enabled __read_mostly;
33
34 /*
35  * Per-CPU KMSAN context to be used in interrupts, where current->kmsan is
36  * unavaliable.
37  */
38 DEFINE_PER_CPU(struct kmsan_ctx, kmsan_percpu_ctx);
39
40 void kmsan_internal_task_create(struct task_struct *task)
41 {
42         struct kmsan_ctx *ctx = &task->kmsan_ctx;
43         struct thread_info *info = current_thread_info();
44
45         __memset(ctx, 0, sizeof(*ctx));
46         ctx->allow_reporting = true;
47         kmsan_internal_unpoison_memory(info, sizeof(*info), false);
48 }
49
50 void kmsan_internal_poison_memory(void *address, size_t size, gfp_t flags,
51                                   unsigned int poison_flags)
52 {
53         u32 extra_bits =
54                 kmsan_extra_bits(/*depth*/ 0, poison_flags & KMSAN_POISON_FREE);
55         bool checked = poison_flags & KMSAN_POISON_CHECK;
56         depot_stack_handle_t handle;
57
58         handle = kmsan_save_stack_with_flags(flags, extra_bits);
59         kmsan_internal_set_shadow_origin(address, size, -1, handle, checked);
60 }
61
62 void kmsan_internal_unpoison_memory(void *address, size_t size, bool checked)
63 {
64         kmsan_internal_set_shadow_origin(address, size, 0, 0, checked);
65 }
66
67 depot_stack_handle_t kmsan_save_stack_with_flags(gfp_t flags,
68                                                  unsigned int extra)
69 {
70         unsigned long entries[KMSAN_STACK_DEPTH];
71         unsigned int nr_entries;
72         depot_stack_handle_t handle;
73
74         nr_entries = stack_trace_save(entries, KMSAN_STACK_DEPTH, 0);
75
76         /* Don't sleep. */
77         flags &= ~(__GFP_DIRECT_RECLAIM | __GFP_KSWAPD_RECLAIM);
78
79         handle = __stack_depot_save(entries, nr_entries, flags, true);
80         return stack_depot_set_extra_bits(handle, extra);
81 }
82
83 /* Copy the metadata following the memmove() behavior. */
84 void kmsan_internal_memmove_metadata(void *dst, void *src, size_t n)
85 {
86         depot_stack_handle_t old_origin = 0, new_origin = 0;
87         int src_slots, dst_slots, i, iter, step, skip_bits;
88         depot_stack_handle_t *origin_src, *origin_dst;
89         void *shadow_src, *shadow_dst;
90         u32 *align_shadow_src, shadow;
91         bool backwards;
92
93         shadow_dst = kmsan_get_metadata(dst, KMSAN_META_SHADOW);
94         if (!shadow_dst)
95                 return;
96         KMSAN_WARN_ON(!kmsan_metadata_is_contiguous(dst, n));
97
98         shadow_src = kmsan_get_metadata(src, KMSAN_META_SHADOW);
99         if (!shadow_src) {
100                 /*
101                  * @src is untracked: zero out destination shadow, ignore the
102                  * origins, we're done.
103                  */
104                 __memset(shadow_dst, 0, n);
105                 return;
106         }
107         KMSAN_WARN_ON(!kmsan_metadata_is_contiguous(src, n));
108
109         __memmove(shadow_dst, shadow_src, n);
110
111         origin_dst = kmsan_get_metadata(dst, KMSAN_META_ORIGIN);
112         origin_src = kmsan_get_metadata(src, KMSAN_META_ORIGIN);
113         KMSAN_WARN_ON(!origin_dst || !origin_src);
114         src_slots = (ALIGN((u64)src + n, KMSAN_ORIGIN_SIZE) -
115                      ALIGN_DOWN((u64)src, KMSAN_ORIGIN_SIZE)) /
116                     KMSAN_ORIGIN_SIZE;
117         dst_slots = (ALIGN((u64)dst + n, KMSAN_ORIGIN_SIZE) -
118                      ALIGN_DOWN((u64)dst, KMSAN_ORIGIN_SIZE)) /
119                     KMSAN_ORIGIN_SIZE;
120         KMSAN_WARN_ON((src_slots < 1) || (dst_slots < 1));
121         KMSAN_WARN_ON((src_slots - dst_slots > 1) ||
122                       (dst_slots - src_slots < -1));
123
124         backwards = dst > src;
125         i = backwards ? min(src_slots, dst_slots) - 1 : 0;
126         iter = backwards ? -1 : 1;
127
128         align_shadow_src =
129                 (u32 *)ALIGN_DOWN((u64)shadow_src, KMSAN_ORIGIN_SIZE);
130         for (step = 0; step < min(src_slots, dst_slots); step++, i += iter) {
131                 KMSAN_WARN_ON(i < 0);
132                 shadow = align_shadow_src[i];
133                 if (i == 0) {
134                         /*
135                          * If @src isn't aligned on KMSAN_ORIGIN_SIZE, don't
136                          * look at the first @src % KMSAN_ORIGIN_SIZE bytes
137                          * of the first shadow slot.
138                          */
139                         skip_bits = ((u64)src % KMSAN_ORIGIN_SIZE) * 8;
140                         shadow = (shadow >> skip_bits) << skip_bits;
141                 }
142                 if (i == src_slots - 1) {
143                         /*
144                          * If @src + n isn't aligned on
145                          * KMSAN_ORIGIN_SIZE, don't look at the last
146                          * (@src + n) % KMSAN_ORIGIN_SIZE bytes of the
147                          * last shadow slot.
148                          */
149                         skip_bits = (((u64)src + n) % KMSAN_ORIGIN_SIZE) * 8;
150                         shadow = (shadow << skip_bits) >> skip_bits;
151                 }
152                 /*
153                  * Overwrite the origin only if the corresponding
154                  * shadow is nonempty.
155                  */
156                 if (origin_src[i] && (origin_src[i] != old_origin) && shadow) {
157                         old_origin = origin_src[i];
158                         new_origin = kmsan_internal_chain_origin(old_origin);
159                         /*
160                          * kmsan_internal_chain_origin() may return
161                          * NULL, but we don't want to lose the previous
162                          * origin value.
163                          */
164                         if (!new_origin)
165                                 new_origin = old_origin;
166                 }
167                 if (shadow)
168                         origin_dst[i] = new_origin;
169                 else
170                         origin_dst[i] = 0;
171         }
172         /*
173          * If dst_slots is greater than src_slots (i.e.
174          * dst_slots == src_slots + 1), there is an extra origin slot at the
175          * beginning or end of the destination buffer, for which we take the
176          * origin from the previous slot.
177          * This is only done if the part of the source shadow corresponding to
178          * slot is non-zero.
179          *
180          * E.g. if we copy 8 aligned bytes that are marked as uninitialized
181          * and have origins o111 and o222, to an unaligned buffer with offset 1,
182          * these two origins are copied to three origin slots, so one of then
183          * needs to be duplicated, depending on the copy direction (@backwards)
184          *
185          *   src shadow: |uuuu|uuuu|....|
186          *   src origin: |o111|o222|....|
187          *
188          * backwards = 0:
189          *   dst shadow: |.uuu|uuuu|u...|
190          *   dst origin: |....|o111|o222| - fill the empty slot with o111
191          * backwards = 1:
192          *   dst shadow: |.uuu|uuuu|u...|
193          *   dst origin: |o111|o222|....| - fill the empty slot with o222
194          */
195         if (src_slots < dst_slots) {
196                 if (backwards) {
197                         shadow = align_shadow_src[src_slots - 1];
198                         skip_bits = (((u64)dst + n) % KMSAN_ORIGIN_SIZE) * 8;
199                         shadow = (shadow << skip_bits) >> skip_bits;
200                         if (shadow)
201                                 /* src_slots > 0, therefore dst_slots is at least 2 */
202                                 origin_dst[dst_slots - 1] =
203                                         origin_dst[dst_slots - 2];
204                 } else {
205                         shadow = align_shadow_src[0];
206                         skip_bits = ((u64)dst % KMSAN_ORIGIN_SIZE) * 8;
207                         shadow = (shadow >> skip_bits) << skip_bits;
208                         if (shadow)
209                                 origin_dst[0] = origin_dst[1];
210                 }
211         }
212 }
213
214 depot_stack_handle_t kmsan_internal_chain_origin(depot_stack_handle_t id)
215 {
216         unsigned long entries[3];
217         u32 extra_bits;
218         int depth;
219         bool uaf;
220         depot_stack_handle_t handle;
221
222         if (!id)
223                 return id;
224         /*
225          * Make sure we have enough spare bits in @id to hold the UAF bit and
226          * the chain depth.
227          */
228         BUILD_BUG_ON(
229                 (1 << STACK_DEPOT_EXTRA_BITS) <= (KMSAN_MAX_ORIGIN_DEPTH << 1));
230
231         extra_bits = stack_depot_get_extra_bits(id);
232         depth = kmsan_depth_from_eb(extra_bits);
233         uaf = kmsan_uaf_from_eb(extra_bits);
234
235         /*
236          * Stop chaining origins once the depth reached KMSAN_MAX_ORIGIN_DEPTH.
237          * This mostly happens in the case structures with uninitialized padding
238          * are copied around many times. Origin chains for such structures are
239          * usually periodic, and it does not make sense to fully store them.
240          */
241         if (depth == KMSAN_MAX_ORIGIN_DEPTH)
242                 return id;
243
244         depth++;
245         extra_bits = kmsan_extra_bits(depth, uaf);
246
247         entries[0] = KMSAN_CHAIN_MAGIC_ORIGIN;
248         entries[1] = kmsan_save_stack_with_flags(__GFP_HIGH, 0);
249         entries[2] = id;
250         /*
251          * @entries is a local var in non-instrumented code, so KMSAN does not
252          * know it is initialized. Explicitly unpoison it to avoid false
253          * positives when __stack_depot_save() passes it to instrumented code.
254          */
255         kmsan_internal_unpoison_memory(entries, sizeof(entries), false);
256         handle = __stack_depot_save(entries, ARRAY_SIZE(entries), __GFP_HIGH,
257                                     true);
258         return stack_depot_set_extra_bits(handle, extra_bits);
259 }
260
261 void kmsan_internal_set_shadow_origin(void *addr, size_t size, int b,
262                                       u32 origin, bool checked)
263 {
264         u64 address = (u64)addr;
265         void *shadow_start;
266         u32 *origin_start;
267         size_t pad = 0;
268
269         KMSAN_WARN_ON(!kmsan_metadata_is_contiguous(addr, size));
270         shadow_start = kmsan_get_metadata(addr, KMSAN_META_SHADOW);
271         if (!shadow_start) {
272                 /*
273                  * kmsan_metadata_is_contiguous() is true, so either all shadow
274                  * and origin pages are NULL, or all are non-NULL.
275                  */
276                 if (checked) {
277                         pr_err("%s: not memsetting %ld bytes starting at %px, because the shadow is NULL\n",
278                                __func__, size, addr);
279                         KMSAN_WARN_ON(true);
280                 }
281                 return;
282         }
283         __memset(shadow_start, b, size);
284
285         if (!IS_ALIGNED(address, KMSAN_ORIGIN_SIZE)) {
286                 pad = address % KMSAN_ORIGIN_SIZE;
287                 address -= pad;
288                 size += pad;
289         }
290         size = ALIGN(size, KMSAN_ORIGIN_SIZE);
291         origin_start =
292                 (u32 *)kmsan_get_metadata((void *)address, KMSAN_META_ORIGIN);
293
294         for (int i = 0; i < size / KMSAN_ORIGIN_SIZE; i++)
295                 origin_start[i] = origin;
296 }
297
298 struct page *kmsan_vmalloc_to_page_or_null(void *vaddr)
299 {
300         struct page *page;
301
302         if (!kmsan_internal_is_vmalloc_addr(vaddr) &&
303             !kmsan_internal_is_module_addr(vaddr))
304                 return NULL;
305         page = vmalloc_to_page(vaddr);
306         if (pfn_valid(page_to_pfn(page)))
307                 return page;
308         else
309                 return NULL;
310 }
311
312 void kmsan_internal_check_memory(void *addr, size_t size, const void *user_addr,
313                                  int reason)
314 {
315         depot_stack_handle_t cur_origin = 0, new_origin = 0;
316         unsigned long addr64 = (unsigned long)addr;
317         depot_stack_handle_t *origin = NULL;
318         unsigned char *shadow = NULL;
319         int cur_off_start = -1;
320         int chunk_size;
321         size_t pos = 0;
322
323         if (!size)
324                 return;
325         KMSAN_WARN_ON(!kmsan_metadata_is_contiguous(addr, size));
326         while (pos < size) {
327                 chunk_size = min(size - pos,
328                                  PAGE_SIZE - ((addr64 + pos) % PAGE_SIZE));
329                 shadow = kmsan_get_metadata((void *)(addr64 + pos),
330                                             KMSAN_META_SHADOW);
331                 if (!shadow) {
332                         /*
333                          * This page is untracked. If there were uninitialized
334                          * bytes before, report them.
335                          */
336                         if (cur_origin) {
337                                 kmsan_enter_runtime();
338                                 kmsan_report(cur_origin, addr, size,
339                                              cur_off_start, pos - 1, user_addr,
340                                              reason);
341                                 kmsan_leave_runtime();
342                         }
343                         cur_origin = 0;
344                         cur_off_start = -1;
345                         pos += chunk_size;
346                         continue;
347                 }
348                 for (int i = 0; i < chunk_size; i++) {
349                         if (!shadow[i]) {
350                                 /*
351                                  * This byte is unpoisoned. If there were
352                                  * poisoned bytes before, report them.
353                                  */
354                                 if (cur_origin) {
355                                         kmsan_enter_runtime();
356                                         kmsan_report(cur_origin, addr, size,
357                                                      cur_off_start, pos + i - 1,
358                                                      user_addr, reason);
359                                         kmsan_leave_runtime();
360                                 }
361                                 cur_origin = 0;
362                                 cur_off_start = -1;
363                                 continue;
364                         }
365                         origin = kmsan_get_metadata((void *)(addr64 + pos + i),
366                                                     KMSAN_META_ORIGIN);
367                         KMSAN_WARN_ON(!origin);
368                         new_origin = *origin;
369                         /*
370                          * Encountered new origin - report the previous
371                          * uninitialized range.
372                          */
373                         if (cur_origin != new_origin) {
374                                 if (cur_origin) {
375                                         kmsan_enter_runtime();
376                                         kmsan_report(cur_origin, addr, size,
377                                                      cur_off_start, pos + i - 1,
378                                                      user_addr, reason);
379                                         kmsan_leave_runtime();
380                                 }
381                                 cur_origin = new_origin;
382                                 cur_off_start = pos + i;
383                         }
384                 }
385                 pos += chunk_size;
386         }
387         KMSAN_WARN_ON(pos != size);
388         if (cur_origin) {
389                 kmsan_enter_runtime();
390                 kmsan_report(cur_origin, addr, size, cur_off_start, pos - 1,
391                              user_addr, reason);
392                 kmsan_leave_runtime();
393         }
394 }
395
396 bool kmsan_metadata_is_contiguous(void *addr, size_t size)
397 {
398         char *cur_shadow = NULL, *next_shadow = NULL, *cur_origin = NULL,
399              *next_origin = NULL;
400         u64 cur_addr = (u64)addr, next_addr = cur_addr + PAGE_SIZE;
401         depot_stack_handle_t *origin_p;
402         bool all_untracked = false;
403
404         if (!size)
405                 return true;
406
407         /* The whole range belongs to the same page. */
408         if (ALIGN_DOWN(cur_addr + size - 1, PAGE_SIZE) ==
409             ALIGN_DOWN(cur_addr, PAGE_SIZE))
410                 return true;
411
412         cur_shadow = kmsan_get_metadata((void *)cur_addr, /*is_origin*/ false);
413         if (!cur_shadow)
414                 all_untracked = true;
415         cur_origin = kmsan_get_metadata((void *)cur_addr, /*is_origin*/ true);
416         if (all_untracked && cur_origin)
417                 goto report;
418
419         for (; next_addr < (u64)addr + size;
420              cur_addr = next_addr, cur_shadow = next_shadow,
421              cur_origin = next_origin, next_addr += PAGE_SIZE) {
422                 next_shadow = kmsan_get_metadata((void *)next_addr, false);
423                 next_origin = kmsan_get_metadata((void *)next_addr, true);
424                 if (all_untracked) {
425                         if (next_shadow || next_origin)
426                                 goto report;
427                         if (!next_shadow && !next_origin)
428                                 continue;
429                 }
430                 if (((u64)cur_shadow == ((u64)next_shadow - PAGE_SIZE)) &&
431                     ((u64)cur_origin == ((u64)next_origin - PAGE_SIZE)))
432                         continue;
433                 goto report;
434         }
435         return true;
436
437 report:
438         pr_err("%s: attempting to access two shadow page ranges.\n", __func__);
439         pr_err("Access of size %ld at %px.\n", size, addr);
440         pr_err("Addresses belonging to different ranges: %px and %px\n",
441                (void *)cur_addr, (void *)next_addr);
442         pr_err("page[0].shadow: %px, page[1].shadow: %px\n", cur_shadow,
443                next_shadow);
444         pr_err("page[0].origin: %px, page[1].origin: %px\n", cur_origin,
445                next_origin);
446         origin_p = kmsan_get_metadata(addr, KMSAN_META_ORIGIN);
447         if (origin_p) {
448                 pr_err("Origin: %08x\n", *origin_p);
449                 kmsan_print_origin(*origin_p);
450         } else {
451                 pr_err("Origin: unavailable\n");
452         }
453         return false;
454 }