1*4882a593Smuzhiyun // SPDX-License-Identifier: GPL-2.0
2*4882a593Smuzhiyun /*
3*4882a593Smuzhiyun * This is for all the tests relating directly to heap memory, including
4*4882a593Smuzhiyun * page allocation and slab allocations.
5*4882a593Smuzhiyun */
6*4882a593Smuzhiyun #include "lkdtm.h"
7*4882a593Smuzhiyun #include <linux/slab.h>
8*4882a593Smuzhiyun #include <linux/sched.h>
9*4882a593Smuzhiyun
10*4882a593Smuzhiyun static struct kmem_cache *double_free_cache;
11*4882a593Smuzhiyun static struct kmem_cache *a_cache;
12*4882a593Smuzhiyun static struct kmem_cache *b_cache;
13*4882a593Smuzhiyun
14*4882a593Smuzhiyun /*
15*4882a593Smuzhiyun * This tries to stay within the next largest power-of-2 kmalloc cache
16*4882a593Smuzhiyun * to avoid actually overwriting anything important if it's not detected
17*4882a593Smuzhiyun * correctly.
18*4882a593Smuzhiyun */
lkdtm_OVERWRITE_ALLOCATION(void)19*4882a593Smuzhiyun void lkdtm_OVERWRITE_ALLOCATION(void)
20*4882a593Smuzhiyun {
21*4882a593Smuzhiyun size_t len = 1020;
22*4882a593Smuzhiyun u32 *data = kmalloc(len, GFP_KERNEL);
23*4882a593Smuzhiyun if (!data)
24*4882a593Smuzhiyun return;
25*4882a593Smuzhiyun
26*4882a593Smuzhiyun data[1024 / sizeof(u32)] = 0x12345678;
27*4882a593Smuzhiyun kfree(data);
28*4882a593Smuzhiyun }
29*4882a593Smuzhiyun
lkdtm_WRITE_AFTER_FREE(void)30*4882a593Smuzhiyun void lkdtm_WRITE_AFTER_FREE(void)
31*4882a593Smuzhiyun {
32*4882a593Smuzhiyun int *base, *again;
33*4882a593Smuzhiyun size_t len = 1024;
34*4882a593Smuzhiyun /*
35*4882a593Smuzhiyun * The slub allocator uses the first word to store the free
36*4882a593Smuzhiyun * pointer in some configurations. Use the middle of the
37*4882a593Smuzhiyun * allocation to avoid running into the freelist
38*4882a593Smuzhiyun */
39*4882a593Smuzhiyun size_t offset = (len / sizeof(*base)) / 2;
40*4882a593Smuzhiyun
41*4882a593Smuzhiyun base = kmalloc(len, GFP_KERNEL);
42*4882a593Smuzhiyun if (!base)
43*4882a593Smuzhiyun return;
44*4882a593Smuzhiyun pr_info("Allocated memory %p-%p\n", base, &base[offset * 2]);
45*4882a593Smuzhiyun pr_info("Attempting bad write to freed memory at %p\n",
46*4882a593Smuzhiyun &base[offset]);
47*4882a593Smuzhiyun kfree(base);
48*4882a593Smuzhiyun base[offset] = 0x0abcdef0;
49*4882a593Smuzhiyun /* Attempt to notice the overwrite. */
50*4882a593Smuzhiyun again = kmalloc(len, GFP_KERNEL);
51*4882a593Smuzhiyun kfree(again);
52*4882a593Smuzhiyun if (again != base)
53*4882a593Smuzhiyun pr_info("Hmm, didn't get the same memory range.\n");
54*4882a593Smuzhiyun }
55*4882a593Smuzhiyun
lkdtm_READ_AFTER_FREE(void)56*4882a593Smuzhiyun void lkdtm_READ_AFTER_FREE(void)
57*4882a593Smuzhiyun {
58*4882a593Smuzhiyun int *base, *val, saw;
59*4882a593Smuzhiyun size_t len = 1024;
60*4882a593Smuzhiyun /*
61*4882a593Smuzhiyun * The slub allocator will use the either the first word or
62*4882a593Smuzhiyun * the middle of the allocation to store the free pointer,
63*4882a593Smuzhiyun * depending on configurations. Store in the second word to
64*4882a593Smuzhiyun * avoid running into the freelist.
65*4882a593Smuzhiyun */
66*4882a593Smuzhiyun size_t offset = sizeof(*base);
67*4882a593Smuzhiyun
68*4882a593Smuzhiyun base = kmalloc(len, GFP_KERNEL);
69*4882a593Smuzhiyun if (!base) {
70*4882a593Smuzhiyun pr_info("Unable to allocate base memory.\n");
71*4882a593Smuzhiyun return;
72*4882a593Smuzhiyun }
73*4882a593Smuzhiyun
74*4882a593Smuzhiyun val = kmalloc(len, GFP_KERNEL);
75*4882a593Smuzhiyun if (!val) {
76*4882a593Smuzhiyun pr_info("Unable to allocate val memory.\n");
77*4882a593Smuzhiyun kfree(base);
78*4882a593Smuzhiyun return;
79*4882a593Smuzhiyun }
80*4882a593Smuzhiyun
81*4882a593Smuzhiyun *val = 0x12345678;
82*4882a593Smuzhiyun base[offset] = *val;
83*4882a593Smuzhiyun pr_info("Value in memory before free: %x\n", base[offset]);
84*4882a593Smuzhiyun
85*4882a593Smuzhiyun kfree(base);
86*4882a593Smuzhiyun
87*4882a593Smuzhiyun pr_info("Attempting bad read from freed memory\n");
88*4882a593Smuzhiyun saw = base[offset];
89*4882a593Smuzhiyun if (saw != *val) {
90*4882a593Smuzhiyun /* Good! Poisoning happened, so declare a win. */
91*4882a593Smuzhiyun pr_info("Memory correctly poisoned (%x)\n", saw);
92*4882a593Smuzhiyun BUG();
93*4882a593Smuzhiyun }
94*4882a593Smuzhiyun pr_info("Memory was not poisoned\n");
95*4882a593Smuzhiyun
96*4882a593Smuzhiyun kfree(val);
97*4882a593Smuzhiyun }
98*4882a593Smuzhiyun
lkdtm_WRITE_BUDDY_AFTER_FREE(void)99*4882a593Smuzhiyun void lkdtm_WRITE_BUDDY_AFTER_FREE(void)
100*4882a593Smuzhiyun {
101*4882a593Smuzhiyun unsigned long p = __get_free_page(GFP_KERNEL);
102*4882a593Smuzhiyun if (!p) {
103*4882a593Smuzhiyun pr_info("Unable to allocate free page\n");
104*4882a593Smuzhiyun return;
105*4882a593Smuzhiyun }
106*4882a593Smuzhiyun
107*4882a593Smuzhiyun pr_info("Writing to the buddy page before free\n");
108*4882a593Smuzhiyun memset((void *)p, 0x3, PAGE_SIZE);
109*4882a593Smuzhiyun free_page(p);
110*4882a593Smuzhiyun schedule();
111*4882a593Smuzhiyun pr_info("Attempting bad write to the buddy page after free\n");
112*4882a593Smuzhiyun memset((void *)p, 0x78, PAGE_SIZE);
113*4882a593Smuzhiyun /* Attempt to notice the overwrite. */
114*4882a593Smuzhiyun p = __get_free_page(GFP_KERNEL);
115*4882a593Smuzhiyun free_page(p);
116*4882a593Smuzhiyun schedule();
117*4882a593Smuzhiyun }
118*4882a593Smuzhiyun
lkdtm_READ_BUDDY_AFTER_FREE(void)119*4882a593Smuzhiyun void lkdtm_READ_BUDDY_AFTER_FREE(void)
120*4882a593Smuzhiyun {
121*4882a593Smuzhiyun unsigned long p = __get_free_page(GFP_KERNEL);
122*4882a593Smuzhiyun int saw, *val;
123*4882a593Smuzhiyun int *base;
124*4882a593Smuzhiyun
125*4882a593Smuzhiyun if (!p) {
126*4882a593Smuzhiyun pr_info("Unable to allocate free page\n");
127*4882a593Smuzhiyun return;
128*4882a593Smuzhiyun }
129*4882a593Smuzhiyun
130*4882a593Smuzhiyun val = kmalloc(1024, GFP_KERNEL);
131*4882a593Smuzhiyun if (!val) {
132*4882a593Smuzhiyun pr_info("Unable to allocate val memory.\n");
133*4882a593Smuzhiyun free_page(p);
134*4882a593Smuzhiyun return;
135*4882a593Smuzhiyun }
136*4882a593Smuzhiyun
137*4882a593Smuzhiyun base = (int *)p;
138*4882a593Smuzhiyun
139*4882a593Smuzhiyun *val = 0x12345678;
140*4882a593Smuzhiyun base[0] = *val;
141*4882a593Smuzhiyun pr_info("Value in memory before free: %x\n", base[0]);
142*4882a593Smuzhiyun free_page(p);
143*4882a593Smuzhiyun pr_info("Attempting to read from freed memory\n");
144*4882a593Smuzhiyun saw = base[0];
145*4882a593Smuzhiyun if (saw != *val) {
146*4882a593Smuzhiyun /* Good! Poisoning happened, so declare a win. */
147*4882a593Smuzhiyun pr_info("Memory correctly poisoned (%x)\n", saw);
148*4882a593Smuzhiyun BUG();
149*4882a593Smuzhiyun }
150*4882a593Smuzhiyun pr_info("Buddy page was not poisoned\n");
151*4882a593Smuzhiyun
152*4882a593Smuzhiyun kfree(val);
153*4882a593Smuzhiyun }
154*4882a593Smuzhiyun
lkdtm_SLAB_FREE_DOUBLE(void)155*4882a593Smuzhiyun void lkdtm_SLAB_FREE_DOUBLE(void)
156*4882a593Smuzhiyun {
157*4882a593Smuzhiyun int *val;
158*4882a593Smuzhiyun
159*4882a593Smuzhiyun val = kmem_cache_alloc(double_free_cache, GFP_KERNEL);
160*4882a593Smuzhiyun if (!val) {
161*4882a593Smuzhiyun pr_info("Unable to allocate double_free_cache memory.\n");
162*4882a593Smuzhiyun return;
163*4882a593Smuzhiyun }
164*4882a593Smuzhiyun
165*4882a593Smuzhiyun /* Just make sure we got real memory. */
166*4882a593Smuzhiyun *val = 0x12345678;
167*4882a593Smuzhiyun pr_info("Attempting double slab free ...\n");
168*4882a593Smuzhiyun kmem_cache_free(double_free_cache, val);
169*4882a593Smuzhiyun kmem_cache_free(double_free_cache, val);
170*4882a593Smuzhiyun }
171*4882a593Smuzhiyun
lkdtm_SLAB_FREE_CROSS(void)172*4882a593Smuzhiyun void lkdtm_SLAB_FREE_CROSS(void)
173*4882a593Smuzhiyun {
174*4882a593Smuzhiyun int *val;
175*4882a593Smuzhiyun
176*4882a593Smuzhiyun val = kmem_cache_alloc(a_cache, GFP_KERNEL);
177*4882a593Smuzhiyun if (!val) {
178*4882a593Smuzhiyun pr_info("Unable to allocate a_cache memory.\n");
179*4882a593Smuzhiyun return;
180*4882a593Smuzhiyun }
181*4882a593Smuzhiyun
182*4882a593Smuzhiyun /* Just make sure we got real memory. */
183*4882a593Smuzhiyun *val = 0x12345679;
184*4882a593Smuzhiyun pr_info("Attempting cross-cache slab free ...\n");
185*4882a593Smuzhiyun kmem_cache_free(b_cache, val);
186*4882a593Smuzhiyun }
187*4882a593Smuzhiyun
lkdtm_SLAB_FREE_PAGE(void)188*4882a593Smuzhiyun void lkdtm_SLAB_FREE_PAGE(void)
189*4882a593Smuzhiyun {
190*4882a593Smuzhiyun unsigned long p = __get_free_page(GFP_KERNEL);
191*4882a593Smuzhiyun
192*4882a593Smuzhiyun pr_info("Attempting non-Slab slab free ...\n");
193*4882a593Smuzhiyun kmem_cache_free(NULL, (void *)p);
194*4882a593Smuzhiyun free_page(p);
195*4882a593Smuzhiyun }
196*4882a593Smuzhiyun
197*4882a593Smuzhiyun /*
198*4882a593Smuzhiyun * We have constructors to keep the caches distinctly separated without
199*4882a593Smuzhiyun * needing to boot with "slab_nomerge".
200*4882a593Smuzhiyun */
ctor_double_free(void * region)201*4882a593Smuzhiyun static void ctor_double_free(void *region)
202*4882a593Smuzhiyun { }
ctor_a(void * region)203*4882a593Smuzhiyun static void ctor_a(void *region)
204*4882a593Smuzhiyun { }
ctor_b(void * region)205*4882a593Smuzhiyun static void ctor_b(void *region)
206*4882a593Smuzhiyun { }
207*4882a593Smuzhiyun
lkdtm_heap_init(void)208*4882a593Smuzhiyun void __init lkdtm_heap_init(void)
209*4882a593Smuzhiyun {
210*4882a593Smuzhiyun double_free_cache = kmem_cache_create("lkdtm-heap-double_free",
211*4882a593Smuzhiyun 64, 0, 0, ctor_double_free);
212*4882a593Smuzhiyun a_cache = kmem_cache_create("lkdtm-heap-a", 64, 0, 0, ctor_a);
213*4882a593Smuzhiyun b_cache = kmem_cache_create("lkdtm-heap-b", 64, 0, 0, ctor_b);
214*4882a593Smuzhiyun }
215*4882a593Smuzhiyun
lkdtm_heap_exit(void)216*4882a593Smuzhiyun void __exit lkdtm_heap_exit(void)
217*4882a593Smuzhiyun {
218*4882a593Smuzhiyun kmem_cache_destroy(double_free_cache);
219*4882a593Smuzhiyun kmem_cache_destroy(a_cache);
220*4882a593Smuzhiyun kmem_cache_destroy(b_cache);
221*4882a593Smuzhiyun }
222