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It enables shadow * stack manual via the arch_prctl(), instead of relying on glibc. It's * Makefile doesn't compile with shadow stack support, so it doesn't rely on * any particular glibc. As a result it can't do any operations that require * special glibc shadow stack support (longjmp(), swapcontext(), etc). Just * stick to the basics and hope the compiler doesn't do anything strange. */ #define _GNU_SOURCE #include <sys/syscall.h> #include <asm/mman.h> #include <sys/mman.h> #include <sys/stat.h> #include <sys/wait.h> #include <stdio.h> #include <stdlib.h> #include <fcntl.h> #include <unistd.h> #include <string.h> #include <errno.h> #include <stdbool.h> #include <x86intrin.h> #include <asm/prctl.h> #include <sys/prctl.h> #include <stdint.h> #include <signal.h> #include <pthread.h> #include <sys/ioctl.h> #include <linux/userfaultfd.h> #include <setjmp.h> #include <sys/ptrace.h> #include <sys/signal.h> #include <linux/elf.h> /* * Define the ABI defines if needed, so people can run the tests * without building the headers. */ #ifndef __NR_map_shadow_stack #define __NR_map_shadow_stack 453 #define SHADOW_STACK_SET_TOKEN (1ULL << 0) #define ARCH_SHSTK_ENABLE 0x5001 #define ARCH_SHSTK_DISABLE 0x5002 #define ARCH_SHSTK_LOCK 0x5003 #define ARCH_SHSTK_UNLOCK 0x5004 #define ARCH_SHSTK_STATUS 0x5005 #define ARCH_SHSTK_SHSTK (1ULL << 0) #define ARCH_SHSTK_WRSS (1ULL << 1) #define NT_X86_SHSTK 0x204 #endif #define SS_SIZE 0x200000 #define PAGE_SIZE 0x1000 #if (__GNUC__ < 8) || (__GNUC__ == 8 && __GNUC_MINOR__ < 5) int main(int argc, char *argv[]) { printf("[SKIP]\tCompiler does not support CET.\n"); return 0; } #else void write_shstk(unsigned long *addr, unsigned long val) { asm volatile("wrssq %[val], (%[addr])\n" : "=m" (addr) : [addr] "r" (addr), [val] "r" (val)); } static inline unsigned long __attribute__((always_inline)) get_ssp(void) { unsigned long ret = 0; asm volatile("xor %0, %0; rdsspq %0" : "=r" (ret)); return ret; } /* * For use in inline enablement of shadow stack. * * The program can't return from the point where shadow stack gets enabled * because there will be no address on the shadow stack. So it can't use * syscall() for enablement, since it is a function. * * Based on code from nolibc.h. Keep a copy here because this can't pull in all * of nolibc.h. */ #define ARCH_PRCTL(arg1, arg2) \ ({ \ long _ret; \ register long _num asm("eax") = __NR_arch_prctl; \ register long _arg1 asm("rdi") = (long)(arg1); \ register long _arg2 asm("rsi") = (long)(arg2); \ \ asm volatile ( \ "syscall\n" \ : "=a"(_ret) \ : "r"(_arg1), "r"(_arg2), \ "0"(_num) \ : "rcx", "r11", "memory", "cc" \ ); \ _ret; \ }) void *create_shstk(void *addr) { return (void *)syscall(__NR_map_shadow_stack, addr, SS_SIZE, SHADOW_STACK_SET_TOKEN); } void *create_normal_mem(void *addr) { return mmap(addr, SS_SIZE, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, 0, 0); } void free_shstk(void *shstk) { munmap(shstk, SS_SIZE); } int reset_shstk(void *shstk) { return madvise(shstk, SS_SIZE, MADV_DONTNEED); } void try_shstk(unsigned long new_ssp) { unsigned long ssp; printf("[INFO]\tnew_ssp = %lx, *new_ssp = %lx\n", new_ssp, *((unsigned long *)new_ssp)); ssp = get_ssp(); printf("[INFO]\tchanging ssp from %lx to %lx\n", ssp, new_ssp); asm volatile("rstorssp (%0)\n":: "r" (new_ssp)); asm volatile("saveprevssp"); printf("[INFO]\tssp is now %lx\n", get_ssp()); /* Switch back to original shadow stack */ ssp -= 8; asm volatile("rstorssp (%0)\n":: "r" (ssp)); asm volatile("saveprevssp"); } int test_shstk_pivot(void) { void *shstk = create_shstk(0); if (shstk == MAP_FAILED) { printf("[FAIL]\tError creating shadow stack: %d\n", errno); return 1; } try_shstk((unsigned long)shstk + SS_SIZE - 8); free_shstk(shstk); printf("[OK]\tShadow stack pivot\n"); return 0; } int test_shstk_faults(void) { unsigned long *shstk = create_shstk(0); /* Read shadow stack, test if it's zero to not get read optimized out */ if (*shstk != 0) goto err; /* Wrss memory that was already read. */ write_shstk(shstk, 1); if (*shstk != 1) goto err; /* Page out memory, so we can wrss it again. */ if (reset_shstk((void *)shstk)) goto err; write_shstk(shstk, 1); if (*shstk != 1) goto err; printf("[OK]\tShadow stack faults\n"); return 0; err: return 1; } unsigned long saved_ssp; unsigned long saved_ssp_val; volatile bool segv_triggered; void __attribute__((noinline)) violate_ss(void) { saved_ssp = get_ssp(); saved_ssp_val = *(unsigned long *)saved_ssp; /* Corrupt shadow stack */ printf("[INFO]\tCorrupting shadow stack\n"); write_shstk((void *)saved_ssp, 0); } void segv_handler(int signum, siginfo_t *si, void *uc) { printf("[INFO]\tGenerated shadow stack violation successfully\n"); segv_triggered = true; /* Fix shadow stack */ write_shstk((void *)saved_ssp, saved_ssp_val); } int test_shstk_violation(void) { struct sigaction sa = {}; sa.sa_sigaction = segv_handler; sa.sa_flags = SA_SIGINFO; if (sigaction(SIGSEGV, &sa, NULL)) return 1; segv_triggered = false; /* Make sure segv_triggered is set before violate_ss() */ asm volatile("" : : : "memory"); violate_ss(); signal(SIGSEGV, SIG_DFL); printf("[OK]\tShadow stack violation test\n"); return !segv_triggered; } /* Gup test state */ #define MAGIC_VAL 0x12345678 bool is_shstk_access; void *shstk_ptr; int fd; void reset_test_shstk(void *addr) { if (shstk_ptr) free_shstk(shstk_ptr); shstk_ptr = create_shstk(addr); } void test_access_fix_handler(int signum, siginfo_t *si, void *uc) { printf("[INFO]\tViolation from %s\n", is_shstk_access ? "shstk access" : "normal write"); segv_triggered = true; /* Fix shadow stack */ if (is_shstk_access) { reset_test_shstk(shstk_ptr); return; } free_shstk(shstk_ptr); create_normal_mem(shstk_ptr); } bool test_shstk_access(void *ptr) { is_shstk_access = true; segv_triggered = false; write_shstk(ptr, MAGIC_VAL); asm volatile("" : : : "memory"); return segv_triggered; } bool test_write_access(void *ptr) { is_shstk_access = false; segv_triggered = false; *(unsigned long *)ptr = MAGIC_VAL; asm volatile("" : : : "memory"); return segv_triggered; } bool gup_write(void *ptr) { unsigned long val; lseek(fd, (unsigned long)ptr, SEEK_SET); if (write(fd, &val, sizeof(val)) < 0) return 1; return 0; } bool gup_read(void *ptr) { unsigned long val; lseek(fd, (unsigned long)ptr, SEEK_SET); if (read(fd, &val, sizeof(val)) < 0) return 1; return 0; } int test_gup(void) { struct sigaction sa = {}; int status; pid_t pid; sa.sa_sigaction = test_access_fix_handler; sa.sa_flags = SA_SIGINFO; if (sigaction(SIGSEGV, &sa, NULL)) return 1; segv_triggered = false; fd = open("/proc/self/mem", O_RDWR); if (fd == -1) return 1; reset_test_shstk(0); if (gup_read(shstk_ptr)) return 1; if (test_shstk_access(shstk_ptr)) return 1; printf("[INFO]\tGup read -> shstk access success\n"); reset_test_shstk(0); if (gup_write(shstk_ptr)) return 1; if (test_shstk_access(shstk_ptr)) return 1; printf("[INFO]\tGup write -> shstk access success\n"); reset_test_shstk(0); if (gup_read(shstk_ptr)) return 1; if (!test_write_access(shstk_ptr)) return 1; printf("[INFO]\tGup read -> write access success\n"); reset_test_shstk(0); if (gup_write(shstk_ptr)) return 1; if (!test_write_access(shstk_ptr)) return 1; printf("[INFO]\tGup write -> write access success\n"); close(fd); /* COW/gup test */ reset_test_shstk(0); pid = fork(); if (!pid) { fd = open("/proc/self/mem", O_RDWR); if (fd == -1) exit(1); if (gup_write(shstk_ptr)) { close(fd); exit(1); } close(fd); exit(0); } waitpid(pid, &status, 0); if (WEXITSTATUS(status)) { printf("[FAIL]\tWrite in child failed\n"); return 1; } if (*(unsigned long *)shstk_ptr == MAGIC_VAL) { printf("[FAIL]\tWrite in child wrote through to shared memory\n"); return 1; } printf("[INFO]\tCow gup write -> write access success\n"); free_shstk(shstk_ptr); signal(SIGSEGV, SIG_DFL); printf("[OK]\tShadow gup test\n"); return 0; } int test_mprotect(void) { struct sigaction sa = {}; sa.sa_sigaction = test_access_fix_handler; sa.sa_flags = SA_SIGINFO; if (sigaction(SIGSEGV, &sa, NULL)) return 1; segv_triggered = false; /* mprotect a shadow stack as read only */ reset_test_shstk(0); if (mprotect(shstk_ptr, SS_SIZE, PROT_READ) < 0) { printf("[FAIL]\tmprotect(PROT_READ) failed\n"); return 1; } /* try to wrss it and fail */ if (!test_shstk_access(shstk_ptr)) { printf("[FAIL]\tShadow stack access to read-only memory succeeded\n"); return 1; } /* * The shadow stack was reset above to resolve the fault, make the new one * read-only. */ if (mprotect(shstk_ptr, SS_SIZE, PROT_READ) < 0) { printf("[FAIL]\tmprotect(PROT_READ) failed\n"); return 1; } /* then back to writable */ if (mprotect(shstk_ptr, SS_SIZE, PROT_WRITE | PROT_READ) < 0) { printf("[FAIL]\tmprotect(PROT_WRITE) failed\n"); return 1; } /* then wrss to it and succeed */ if (test_shstk_access(shstk_ptr)) { printf("[FAIL]\tShadow stack access to mprotect() writable memory failed\n"); return 1; } free_shstk(shstk_ptr); signal(SIGSEGV, SIG_DFL); printf("[OK]\tmprotect() test\n"); return 0; } char zero[4096]; static void *uffd_thread(void *arg) { struct uffdio_copy req; int uffd = *(int *)arg; struct uffd_msg msg; int ret; while (1) { ret = read(uffd, &msg, sizeof(msg)); if (ret > 0) break; else if (errno == EAGAIN) continue; return (void *)1; } req.dst = msg.arg.pagefault.address; req.src = (__u64)zero; req.len = 4096; req.mode = 0; if (ioctl(uffd, UFFDIO_COPY, &req)) return (void *)1; return (void *)0; } int test_userfaultfd(void) { struct uffdio_register uffdio_register; struct uffdio_api uffdio_api; struct sigaction sa = {}; pthread_t thread; void *res; int uffd; sa.sa_sigaction = test_access_fix_handler; sa.sa_flags = SA_SIGINFO; if (sigaction(SIGSEGV, &sa, NULL)) return 1; uffd = syscall(__NR_userfaultfd, O_CLOEXEC | O_NONBLOCK); if (uffd < 0) { printf("[SKIP]\tUserfaultfd unavailable.\n"); return 0; } reset_test_shstk(0); uffdio_api.api = UFFD_API; uffdio_api.features = 0; if (ioctl(uffd, UFFDIO_API, &uffdio_api)) goto err; uffdio_register.range.start = (__u64)shstk_ptr; uffdio_register.range.len = 4096; uffdio_register.mode = UFFDIO_REGISTER_MODE_MISSING; if (ioctl(uffd, UFFDIO_REGISTER, &uffdio_register)) goto err; if (pthread_create(&thread, NULL, &uffd_thread, &uffd)) goto err; reset_shstk(shstk_ptr); test_shstk_access(shstk_ptr); if (pthread_join(thread, &res)) goto err; if (test_shstk_access(shstk_ptr)) goto err; free_shstk(shstk_ptr); signal(SIGSEGV, SIG_DFL); if (!res) printf("[OK]\tUserfaultfd test\n"); return !!res; err: free_shstk(shstk_ptr); close(uffd); signal(SIGSEGV, SIG_DFL); return 1; } /* Simple linked list for keeping track of mappings in test_guard_gap() */ struct node { struct node *next; void *mapping; }; /* * This tests whether mmap will place other mappings in a shadow stack's guard * gap. The steps are: * 1. Finds an empty place by mapping and unmapping something. * 2. Map a shadow stack in the middle of the known empty area. * 3. Map a bunch of PAGE_SIZE mappings. These will use the search down * direction, filling any gaps until it encounters the shadow stack's * guard gap. * 4. When a mapping lands below the shadow stack from step 2, then all * of the above gaps are filled. The search down algorithm will have * looked at the shadow stack gaps. * 5. See if it landed in the gap. */ int test_guard_gap(void) { void *free_area, *shstk, *test_map = (void *)0xFFFFFFFFFFFFFFFF; struct node *head = NULL, *cur; free_area = mmap(0, SS_SIZE * 3, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); munmap(free_area, SS_SIZE * 3); shstk = create_shstk(free_area + SS_SIZE); if (shstk == MAP_FAILED) return 1; while (test_map > shstk) { test_map = mmap(0, PAGE_SIZE, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); if (test_map == MAP_FAILED) return 1; cur = malloc(sizeof(*cur)); cur->mapping = test_map; cur->next = head; head = cur; } while (head) { cur = head; head = cur->next; munmap(cur->mapping, PAGE_SIZE); free(cur); } free_shstk(shstk); if (shstk - test_map - PAGE_SIZE != PAGE_SIZE) return 1; printf("[OK]\tGuard gap test\n"); return 0; } /* * Too complicated to pull it out of the 32 bit header, but also get the * 64 bit one needed above. Just define a copy here. */ #define __NR_compat_sigaction 67 /* * Call 32 bit signal handler to get 32 bit signals ABI. Make sure * to push the registers that will get clobbered. */ int sigaction32(int signum, const struct sigaction *restrict act, struct sigaction *restrict oldact) { register long syscall_reg asm("eax") = __NR_compat_sigaction; register long signum_reg asm("ebx") = signum; register long act_reg asm("ecx") = (long)act; register long oldact_reg asm("edx") = (long)oldact; int ret = 0; asm volatile ("int $0x80;" : "=a"(ret), "=m"(oldact) : "r"(syscall_reg), "r"(signum_reg), "r"(act_reg), "r"(oldact_reg) : "r8", "r9", "r10", "r11" ); return ret; } sigjmp_buf jmp_buffer; void segv_gp_handler(int signum, siginfo_t *si, void *uc) { segv_triggered = true; /* * To work with old glibc, this can't rely on siglongjmp working with * shadow stack enabled, so disable shadow stack before siglongjmp(). */ ARCH_PRCTL(ARCH_SHSTK_DISABLE, ARCH_SHSTK_SHSTK); siglongjmp(jmp_buffer, -1); } /* * Transition to 32 bit mode and check that a #GP triggers a segfault. */ int test_32bit(void) { struct sigaction sa = {}; struct sigaction *sa32; /* Create sigaction in 32 bit address range */ sa32 = mmap(0, 4096, PROT_READ | PROT_WRITE, MAP_32BIT | MAP_PRIVATE | MAP_ANONYMOUS, 0, 0); sa32->sa_flags = SA_SIGINFO; sa.sa_sigaction = segv_gp_handler; sa.sa_flags = SA_SIGINFO; if (sigaction(SIGSEGV, &sa, NULL)) return 1; segv_triggered = false; /* Make sure segv_triggered is set before triggering the #GP */ asm volatile("" : : : "memory"); /* * Set handler to somewhere in 32 bit address space */ sa32->sa_handler = (void *)sa32; if (sigaction32(SIGUSR1, sa32, NULL)) return 1; if (!sigsetjmp(jmp_buffer, 1)) raise(SIGUSR1); if (segv_triggered) printf("[OK]\t32 bit test\n"); return !segv_triggered; } void segv_handler_ptrace(int signum, siginfo_t *si, void *uc) { /* The SSP adjustment caused a segfault. */ exit(0); } int test_ptrace(void) { unsigned long saved_ssp, ssp = 0; struct sigaction sa= {}; struct iovec iov; int status; int pid; iov.iov_base = &ssp; iov.iov_len = sizeof(ssp); pid = fork(); if (!pid) { ssp = get_ssp(); sa.sa_sigaction = segv_handler_ptrace; sa.sa_flags = SA_SIGINFO; if (sigaction(SIGSEGV, &sa, NULL)) return 1; ptrace(PTRACE_TRACEME, NULL, NULL, NULL); /* * The parent will tweak the SSP and return from this function * will #CP. */ raise(SIGTRAP); exit(1); } while (waitpid(pid, &status, 0) != -1 && WSTOPSIG(status) != SIGTRAP); if (ptrace(PTRACE_GETREGSET, pid, NT_X86_SHSTK, &iov)) { printf("[INFO]\tFailed to PTRACE_GETREGS\n"); goto out_kill; } if (!ssp) { printf("[INFO]\tPtrace child SSP was 0\n"); goto out_kill; } saved_ssp = ssp; iov.iov_len = 0; if (!ptrace(PTRACE_SETREGSET, pid, NT_X86_SHSTK, &iov)) { printf("[INFO]\tToo small size accepted via PTRACE_SETREGS\n"); goto out_kill; } iov.iov_len = sizeof(ssp) + 1; if (!ptrace(PTRACE_SETREGSET, pid, NT_X86_SHSTK, &iov)) { printf("[INFO]\tToo large size accepted via PTRACE_SETREGS\n"); goto out_kill; } ssp += 1; if (!ptrace(PTRACE_SETREGSET, pid, NT_X86_SHSTK, &iov)) { printf("[INFO]\tUnaligned SSP written via PTRACE_SETREGS\n"); goto out_kill; } ssp = 0xFFFFFFFFFFFF0000; if (!ptrace(PTRACE_SETREGSET, pid, NT_X86_SHSTK, &iov)) { printf("[INFO]\tKernel range SSP written via PTRACE_SETREGS\n"); goto out_kill; } /* * Tweak the SSP so the child with #CP when it resumes and returns * from raise() */ ssp = saved_ssp + 8; iov.iov_len = sizeof(ssp); if (ptrace(PTRACE_SETREGSET, pid, NT_X86_SHSTK, &iov)) { printf("[INFO]\tFailed to PTRACE_SETREGS\n"); goto out_kill; } if (ptrace(PTRACE_DETACH, pid, NULL, NULL)) { printf("[INFO]\tFailed to PTRACE_DETACH\n"); goto out_kill; } waitpid(pid, &status, 0); if (WEXITSTATUS(status)) return 1; printf("[OK]\tPtrace test\n"); return 0; out_kill: kill(pid, SIGKILL); return 1; } int main(int argc, char *argv[]) { int ret = 0; if (ARCH_PRCTL(ARCH_SHSTK_ENABLE, ARCH_SHSTK_SHSTK)) { printf("[SKIP]\tCould not enable Shadow stack\n"); return 1; } if (ARCH_PRCTL(ARCH_SHSTK_DISABLE, ARCH_SHSTK_SHSTK)) { ret = 1; printf("[FAIL]\tDisabling shadow stack failed\n"); } if (ARCH_PRCTL(ARCH_SHSTK_ENABLE, ARCH_SHSTK_SHSTK)) { printf("[SKIP]\tCould not re-enable Shadow stack\n"); return 1; } if (ARCH_PRCTL(ARCH_SHSTK_ENABLE, ARCH_SHSTK_WRSS)) { printf("[SKIP]\tCould not enable WRSS\n"); ret = 1; goto out; } /* Should have succeeded if here, but this is a test, so double check. */ if (!get_ssp()) { printf("[FAIL]\tShadow stack disabled\n"); return 1; } if (test_shstk_pivot()) { ret = 1; printf("[FAIL]\tShadow stack pivot\n"); goto out; } if (test_shstk_faults()) { ret = 1; printf("[FAIL]\tShadow stack fault test\n"); goto out; } if (test_shstk_violation()) { ret = 1; printf("[FAIL]\tShadow stack violation test\n"); goto out; } if (test_gup()) { ret = 1; printf("[FAIL]\tShadow shadow stack gup\n"); goto out; } if (test_mprotect()) { ret = 1; printf("[FAIL]\tShadow shadow mprotect test\n"); goto out; } if (test_userfaultfd()) { ret = 1; printf("[FAIL]\tUserfaultfd test\n"); goto out; } if (test_guard_gap()) { ret = 1; printf("[FAIL]\tGuard gap test\n"); goto out; } if (test_ptrace()) { ret = 1; printf("[FAIL]\tptrace test\n"); } if (test_32bit()) { ret = 1; printf("[FAIL]\t32 bit test\n"); goto out; } return ret; out: /* * Disable shadow stack before the function returns, or there will be a * shadow stack violation. */ if (ARCH_PRCTL(ARCH_SHSTK_DISABLE, ARCH_SHSTK_SHSTK)) { ret = 1; printf("[FAIL]\tDisabling shadow stack failed\n"); } return ret; } #endif |