1*4f1223e8SApple OSS Distributions #include <machine/cpu_capabilities.h>
2*4f1223e8SApple OSS Distributions #include <os/thread_self_restrict.h>
3*4f1223e8SApple OSS Distributions #include <libkern/OSCacheControl.h>
4*4f1223e8SApple OSS Distributions #include <sys/time.h>
5*4f1223e8SApple OSS Distributions #include <darwintest.h>
6*4f1223e8SApple OSS Distributions #include <sys/types.h>
7*4f1223e8SApple OSS Distributions #include <sys/sysctl.h>
8*4f1223e8SApple OSS Distributions #include <sys/wait.h>
9*4f1223e8SApple OSS Distributions #include <sys/mman.h>
10*4f1223e8SApple OSS Distributions #include <ptrauth.h>
11*4f1223e8SApple OSS Distributions #include <stdlib.h>
12*4f1223e8SApple OSS Distributions #include <string.h>
13*4f1223e8SApple OSS Distributions #include <unistd.h>
14*4f1223e8SApple OSS Distributions #include <signal.h>
15*4f1223e8SApple OSS Distributions
16*4f1223e8SApple OSS Distributions /*
17*4f1223e8SApple OSS Distributions * What this test does and what this test does not do:
18*4f1223e8SApple OSS Distributions * - we test for unexpectedly-writeable MSRs in the implementaion-defined space
19*4f1223e8SApple OSS Distributions * - any that are found to be writeable are tested for ability to store at least a single bit
20*4f1223e8SApple OSS Distributions * - any found to do so are tested to reset in context switch or sooner
21*4f1223e8SApple OSS Distributions *
22*4f1223e8SApple OSS Distributions * This will detect any covert channels we create on accident
23*4f1223e8SApple OSS Distributions *
24*4f1223e8SApple OSS Distributions * What this test does not do:
25*4f1223e8SApple OSS Distributions * - test that registers that are allowed to be written per-thread are properly context switched
26*4f1223e8SApple OSS Distributions *
27*4f1223e8SApple OSS Distributions * And that is why there is a whitelist of regs that we DO intend to be writeable from userspace
28*4f1223e8SApple OSS Distributions * and we *KNOW* are properly context switched. Registers we *INTEND* userspace to write are
29*4f1223e8SApple OSS Distributions * in that list. Things like TPIDR_EL0, and others
30*4f1223e8SApple OSS Distributions *
31*4f1223e8SApple OSS Distributions */
32*4f1223e8SApple OSS Distributions
33*4f1223e8SApple OSS Distributions
34*4f1223e8SApple OSS Distributions #define NUM_THREADS 256
35*4f1223e8SApple OSS Distributions
36*4f1223e8SApple OSS Distributions T_GLOBAL_META(T_META_RUN_CONCURRENTLY(true));
37*4f1223e8SApple OSS Distributions
38*4f1223e8SApple OSS Distributions
39*4f1223e8SApple OSS Distributions #if defined(__arm64__) && defined(__LP64__)
40*4f1223e8SApple OSS Distributions
41*4f1223e8SApple OSS Distributions enum msr_op_reason {
42*4f1223e8SApple OSS Distributions msr_get_name, // -> const char *name
43*4f1223e8SApple OSS Distributions msr_read, // -> uint64_t val
44*4f1223e8SApple OSS Distributions msr_write, // <- uint64_t val
45*4f1223e8SApple OSS Distributions };
46*4f1223e8SApple OSS Distributions
47*4f1223e8SApple OSS Distributions typedef void (*msr_op)(enum msr_op_reason why, void *param);
48*4f1223e8SApple OSS Distributions
49*4f1223e8SApple OSS Distributions
50*4f1223e8SApple OSS Distributions static pthread_mutex_t threads_please_die_lock = PTHREAD_MUTEX_INITIALIZER;
51*4f1223e8SApple OSS Distributions static volatile bool did_fault;
52*4f1223e8SApple OSS Distributions static bool threads_please_die;
53*4f1223e8SApple OSS Distributions
54*4f1223e8SApple OSS Distributions static const char *registers_skipped[] = {
55*4f1223e8SApple OSS Distributions "S3_3_C13_C0_2", //TPIDR_EL0
56*4f1223e8SApple OSS Distributions "S3_4_C15_C15_6", //JCTL_EL0
57*4f1223e8SApple OSS Distributions };
58*4f1223e8SApple OSS Distributions
59*4f1223e8SApple OSS Distributions #define DECLARE_TEST(_op0, _op1, _n, _m, _op2) \
60*4f1223e8SApple OSS Distributions static void __attribute__((optnone)) \
61*4f1223e8SApple OSS Distributions msr_test_S ## _op0 ## _ ## _op1 ## _C ## _n ## _C ## _m ## _ ## _op2 (enum msr_op_reason why, void *param) \
62*4f1223e8SApple OSS Distributions { \
63*4f1223e8SApple OSS Distributions switch (why) { \
64*4f1223e8SApple OSS Distributions case msr_get_name: \
65*4f1223e8SApple OSS Distributions *(const char **)param = "S" #_op0 "_" #_op1 "_C" #_n "_C" #_m "_" #_op2; \
66*4f1223e8SApple OSS Distributions break; \
67*4f1223e8SApple OSS Distributions \
68*4f1223e8SApple OSS Distributions case msr_read: \
69*4f1223e8SApple OSS Distributions *(uint64_t*)param = __builtin_arm_rsr64("S" #_op0 "_" #_op1 "_C" #_n "_C" #_m "_" #_op2); \
70*4f1223e8SApple OSS Distributions break; \
71*4f1223e8SApple OSS Distributions \
72*4f1223e8SApple OSS Distributions case msr_write: \
73*4f1223e8SApple OSS Distributions __builtin_arm_wsr64("S" #_op0 "_" #_op1 "_C" #_n "_C" #_m "_" #_op2, *(const uint64_t*)param); \
74*4f1223e8SApple OSS Distributions break; \
75*4f1223e8SApple OSS Distributions } \
76*4f1223e8SApple OSS Distributions }
77*4f1223e8SApple OSS Distributions
78*4f1223e8SApple OSS Distributions #include "user_msrs.inc"
79*4f1223e8SApple OSS Distributions #undef DECLARE_TEST
80*4f1223e8SApple OSS Distributions #define DECLARE_TEST(_op0, _op1, _n, _m, _op2) msr_test_S ## _op0 ## _ ## _op1 ## _C ## _n ## _C ## _m ## _ ## _op2,
81*4f1223e8SApple OSS Distributions static msr_op tests[] = {
82*4f1223e8SApple OSS Distributions #include "user_msrs.inc"
83*4f1223e8SApple OSS Distributions };
84*4f1223e8SApple OSS Distributions #undef DECLARE_TEST
85*4f1223e8SApple OSS Distributions
86*4f1223e8SApple OSS Distributions static void*
thread_func(void * param)87*4f1223e8SApple OSS Distributions thread_func(void *param)
88*4f1223e8SApple OSS Distributions {
89*4f1223e8SApple OSS Distributions bool die;
90*4f1223e8SApple OSS Distributions
91*4f1223e8SApple OSS Distributions (void)param;
92*4f1223e8SApple OSS Distributions
93*4f1223e8SApple OSS Distributions do {
94*4f1223e8SApple OSS Distributions pthread_mutex_lock(&threads_please_die_lock);
95*4f1223e8SApple OSS Distributions die = threads_please_die;
96*4f1223e8SApple OSS Distributions pthread_mutex_unlock(&threads_please_die_lock);
97*4f1223e8SApple OSS Distributions } while (!die);
98*4f1223e8SApple OSS Distributions
99*4f1223e8SApple OSS Distributions return NULL;
100*4f1223e8SApple OSS Distributions }
101*4f1223e8SApple OSS Distributions
102*4f1223e8SApple OSS Distributions static void
msr_test(msr_op op)103*4f1223e8SApple OSS Distributions msr_test(msr_op op)
104*4f1223e8SApple OSS Distributions {
105*4f1223e8SApple OSS Distributions struct timeval time_start, time_end, time_passed;
106*4f1223e8SApple OSS Distributions uint64_t val, new_val, wrote_val;
107*4f1223e8SApple OSS Distributions pthread_t threads[NUM_THREADS];
108*4f1223e8SApple OSS Distributions bool readable, writeable;
109*4f1223e8SApple OSS Distributions const char *reg_name;
110*4f1223e8SApple OSS Distributions unsigned i;
111*4f1223e8SApple OSS Distributions
112*4f1223e8SApple OSS Distributions op(msr_get_name, ®_name);
113*4f1223e8SApple OSS Distributions T_LOG("sub-test '%s'\n", reg_name);
114*4f1223e8SApple OSS Distributions
115*4f1223e8SApple OSS Distributions for (i = 0; i < sizeof(registers_skipped) / sizeof(*registers_skipped); i++) {
116*4f1223e8SApple OSS Distributions if (!strcmp(registers_skipped[i], reg_name)) {
117*4f1223e8SApple OSS Distributions T_LOG("\tskipping this register by request");
118*4f1223e8SApple OSS Distributions return;
119*4f1223e8SApple OSS Distributions }
120*4f1223e8SApple OSS Distributions }
121*4f1223e8SApple OSS Distributions
122*4f1223e8SApple OSS Distributions //let's see if we can read and write it
123*4f1223e8SApple OSS Distributions did_fault = false;
124*4f1223e8SApple OSS Distributions op(msr_read, &val);
125*4f1223e8SApple OSS Distributions readable = !did_fault;
126*4f1223e8SApple OSS Distributions
127*4f1223e8SApple OSS Distributions did_fault = false;
128*4f1223e8SApple OSS Distributions op(msr_write, &val);
129*4f1223e8SApple OSS Distributions writeable = !did_fault;
130*4f1223e8SApple OSS Distributions
131*4f1223e8SApple OSS Distributions T_LOG("\tcan read: %s\n", readable ? "YES" : "NO");
132*4f1223e8SApple OSS Distributions T_LOG("\tcan write: %s\n", writeable ? "YES" : "NO");
133*4f1223e8SApple OSS Distributions if (readable) {
134*4f1223e8SApple OSS Distributions T_LOG("\tvalue found: 0x%016llx\n", (unsigned long long)val);
135*4f1223e8SApple OSS Distributions }
136*4f1223e8SApple OSS Distributions
137*4f1223e8SApple OSS Distributions if (!readable || !writeable) {
138*4f1223e8SApple OSS Distributions T_LOG("\t RW needed for more testing. no further testing will be performed\n");
139*4f1223e8SApple OSS Distributions return;
140*4f1223e8SApple OSS Distributions }
141*4f1223e8SApple OSS Distributions
142*4f1223e8SApple OSS Distributions //write inverse of what we read and see if the read differs
143*4f1223e8SApple OSS Distributions wrote_val = ~val;
144*4f1223e8SApple OSS Distributions op(msr_write, &wrote_val);
145*4f1223e8SApple OSS Distributions op(msr_read, &new_val);
146*4f1223e8SApple OSS Distributions
147*4f1223e8SApple OSS Distributions if (new_val == val) {
148*4f1223e8SApple OSS Distributions T_LOG("\t reg seems to not take writes (0x%016llx). no further testing will be performed\n", val);
149*4f1223e8SApple OSS Distributions return;
150*4f1223e8SApple OSS Distributions }
151*4f1223e8SApple OSS Distributions T_LOG("\twrote 0x%016llx, saw 0x%016llx\n", (unsigned long long)wrote_val, (unsigned long long)new_val);
152*4f1223e8SApple OSS Distributions wrote_val = new_val;
153*4f1223e8SApple OSS Distributions
154*4f1223e8SApple OSS Distributions //verify it flips to original value at context switch or otherwise
155*4f1223e8SApple OSS Distributions //for context switch to happen, spin up a lot of threads
156*4f1223e8SApple OSS Distributions pthread_mutex_lock(&threads_please_die_lock);
157*4f1223e8SApple OSS Distributions threads_please_die = false;
158*4f1223e8SApple OSS Distributions pthread_mutex_unlock(&threads_please_die_lock);
159*4f1223e8SApple OSS Distributions for (i = 0; i < NUM_THREADS; i++) {
160*4f1223e8SApple OSS Distributions if (pthread_create(threads + i, NULL, thread_func, NULL)) {
161*4f1223e8SApple OSS Distributions T_ASSERT_FAIL("cannot create thread %d\n", i);
162*4f1223e8SApple OSS Distributions }
163*4f1223e8SApple OSS Distributions }
164*4f1223e8SApple OSS Distributions
165*4f1223e8SApple OSS Distributions gettimeofday(&time_start, NULL);
166*4f1223e8SApple OSS Distributions while (1) {
167*4f1223e8SApple OSS Distributions op(msr_read, &new_val);
168*4f1223e8SApple OSS Distributions if (new_val != wrote_val) {
169*4f1223e8SApple OSS Distributions T_LOG("\tvalue reverted to 0x%016llx from 0x%016llx\n", (unsigned long long)new_val, (unsigned long long)wrote_val);
170*4f1223e8SApple OSS Distributions break;
171*4f1223e8SApple OSS Distributions }
172*4f1223e8SApple OSS Distributions
173*4f1223e8SApple OSS Distributions gettimeofday(&time_end, NULL);
174*4f1223e8SApple OSS Distributions timersub(&time_end, &time_start, &time_passed);
175*4f1223e8SApple OSS Distributions if (time_passed.tv_sec) { //wait one second at most
176*4f1223e8SApple OSS Distributions T_FAIL("\ttoo long for register to be cleared, last read value was 0x%016llx, expected revert to 0x%016llx!", (unsigned long long)new_val, (unsigned long long)val);
177*4f1223e8SApple OSS Distributions break;
178*4f1223e8SApple OSS Distributions }
179*4f1223e8SApple OSS Distributions }
180*4f1223e8SApple OSS Distributions pthread_mutex_lock(&threads_please_die_lock);
181*4f1223e8SApple OSS Distributions threads_please_die = true;
182*4f1223e8SApple OSS Distributions pthread_mutex_unlock(&threads_please_die_lock);
183*4f1223e8SApple OSS Distributions for (i = 0; i < NUM_THREADS; i++) {
184*4f1223e8SApple OSS Distributions if (pthread_join(threads[i], NULL)) {
185*4f1223e8SApple OSS Distributions T_ASSERT_FAIL("cannot join thread %d\n", i);
186*4f1223e8SApple OSS Distributions }
187*4f1223e8SApple OSS Distributions }
188*4f1223e8SApple OSS Distributions }
189*4f1223e8SApple OSS Distributions
190*4f1223e8SApple OSS Distributions static void
sig_caught(int signo,siginfo_t * sinfop,void * ucontext)191*4f1223e8SApple OSS Distributions sig_caught(int signo, siginfo_t *sinfop, void *ucontext)
192*4f1223e8SApple OSS Distributions {
193*4f1223e8SApple OSS Distributions _STRUCT_MCONTEXT64 *ctx = ((ucontext_t *)ucontext)->uc_mcontext;
194*4f1223e8SApple OSS Distributions void (*pc)(void);
195*4f1223e8SApple OSS Distributions uint32_t instr;
196*4f1223e8SApple OSS Distributions
197*4f1223e8SApple OSS Distributions (void)sinfop;
198*4f1223e8SApple OSS Distributions
199*4f1223e8SApple OSS Distributions if (signo != SIGILL) {
200*4f1223e8SApple OSS Distributions T_ASSERT_FAIL("We did not expect signal %d", signo);
201*4f1223e8SApple OSS Distributions }
202*4f1223e8SApple OSS Distributions
203*4f1223e8SApple OSS Distributions pc = (void (*)(void))__darwin_arm_thread_state64_get_pc(ctx->__ss);
204*4f1223e8SApple OSS Distributions instr = *(uint32_t*)pc;
205*4f1223e8SApple OSS Distributions
206*4f1223e8SApple OSS Distributions if ((instr & 0xffd00000) != 0xd5100000) {
207*4f1223e8SApple OSS Distributions T_ASSERT_FAIL("We did not expect SIGILL on an instr that is not an MSR/MRS. [%p] = 0x%08x", (void*)pc, instr);
208*4f1223e8SApple OSS Distributions }
209*4f1223e8SApple OSS Distributions
210*4f1223e8SApple OSS Distributions pc = (void (*)(void))(((uintptr_t)pc) + 4);
211*4f1223e8SApple OSS Distributions pc = ptrauth_sign_unauthenticated(pc, ptrauth_key_function_pointer, 0);
212*4f1223e8SApple OSS Distributions
213*4f1223e8SApple OSS Distributions did_fault = true;
214*4f1223e8SApple OSS Distributions
215*4f1223e8SApple OSS Distributions // skip the instruction
216*4f1223e8SApple OSS Distributions __darwin_arm_thread_state64_set_pc_fptr(ctx->__ss, pc);
217*4f1223e8SApple OSS Distributions }
218*4f1223e8SApple OSS Distributions
219*4f1223e8SApple OSS Distributions static bool
is_release_kernel(void)220*4f1223e8SApple OSS Distributions is_release_kernel(void)
221*4f1223e8SApple OSS Distributions {
222*4f1223e8SApple OSS Distributions /*
223*4f1223e8SApple OSS Distributions * I apologize to anyone reading this code!! I promise you that I felt
224*4f1223e8SApple OSS Distributions * as dirty writing this as you do reading this. I asked in the proper
225*4f1223e8SApple OSS Distributions * channels, but nobody had a good idea how to detect a release kernel
226*4f1223e8SApple OSS Distributions * from userspace. Sadly, we need that here as the mitigations at hand
227*4f1223e8SApple OSS Distributions * are only applied in RELEASE builds. Again: I am sorry.
228*4f1223e8SApple OSS Distributions */
229*4f1223e8SApple OSS Distributions char ver_str[1024] = {};
230*4f1223e8SApple OSS Distributions size_t len = sizeof(ver_str) - 1;
231*4f1223e8SApple OSS Distributions
232*4f1223e8SApple OSS Distributions (void)sysctlbyname("kern.version", ver_str, &len, NULL, 0);
233*4f1223e8SApple OSS Distributions
234*4f1223e8SApple OSS Distributions return !!strstr(ver_str, "/RELEASE_ARM64");
235*4f1223e8SApple OSS Distributions }
236*4f1223e8SApple OSS Distributions
237*4f1223e8SApple OSS Distributions #endif // defined(__arm64__) && defined(__LP64__)
238*4f1223e8SApple OSS Distributions
239*4f1223e8SApple OSS Distributions T_DECL(user_msrs, "Userspace MSR access test")
240*4f1223e8SApple OSS Distributions {
241*4f1223e8SApple OSS Distributions #if defined(__arm64__) && defined(__LP64__)
242*4f1223e8SApple OSS Distributions if (is_release_kernel()) {
243*4f1223e8SApple OSS Distributions struct sigaction sa_old, sa_new = {.__sigaction_u = { .__sa_sigaction = sig_caught, }, .sa_flags = SA_SIGINFO, };
244*4f1223e8SApple OSS Distributions unsigned i;
245*4f1223e8SApple OSS Distributions
246*4f1223e8SApple OSS Distributions sigaction(SIGILL, &sa_new, &sa_old);
247*4f1223e8SApple OSS Distributions
248*4f1223e8SApple OSS Distributions for (i = 0; i < sizeof(tests) / sizeof(*tests); i++) {
249*4f1223e8SApple OSS Distributions msr_test(tests[i]);
250*4f1223e8SApple OSS Distributions }
251*4f1223e8SApple OSS Distributions
252*4f1223e8SApple OSS Distributions sigaction(SIGILL, &sa_old, NULL);
253*4f1223e8SApple OSS Distributions
254*4f1223e8SApple OSS Distributions T_PASS("Userspace MSR access test passed");
255*4f1223e8SApple OSS Distributions } else {
256*4f1223e8SApple OSS Distributions T_PASS("Userspace MSR access test only runs on release kernels");
257*4f1223e8SApple OSS Distributions }
258*4f1223e8SApple OSS Distributions #else // defined(__arm64__) && defined(__LP64__)
259*4f1223e8SApple OSS Distributions T_SKIP("userspace MSR access test skipped - not ARM64.64");
260*4f1223e8SApple OSS Distributions #endif // defined(__arm64__) && defined(__LP64__)
261*4f1223e8SApple OSS Distributions }
262