Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Michael Ellerman | 478 | 100.00% | 2 | 100.00% |
Total | 478 | 2 |
// SPDX-License-Identifier: GPL-2.0+ // // Copyright 2022, Michael Ellerman, IBM Corp. // // Test that the 4PB address space SLB handling doesn't corrupt userspace registers // (r9-r13) due to a SLB fault while saving the PPR. // // The bug was introduced in f384796c4 ("powerpc/mm: Add support for handling > 512TB // address in SLB miss") and fixed in 4c2de74cc869 ("powerpc/64: Interrupts save PPR on // stack rather than thread_struct"). // // To hit the bug requires the task struct and kernel stack to be in different segments. // Usually that requires more than 1TB of RAM, or if that's not practical, boot the kernel // with "disable_1tb_segments". // // The test works by creating mappings above 512TB, to trigger the large address space // support. It creates 64 mappings, double the size of the SLB, to cause SLB faults on // each access (assuming naive replacement). It then loops over those mappings touching // each, and checks that r9-r13 aren't corrupted. // // It then forks another child and tries again, because a new child process will get a new // kernel stack and thread struct allocated, which may be more optimally placed to trigger // the bug. It would probably be better to leave the previous child processes hanging // around, so that kernel stack & thread struct allocations are not reused, but that would // amount to a 30 second fork bomb. The current design reliably triggers the bug on // unpatched kernels. #include <signal.h> #include <stdio.h> #include <stdlib.h> #include <sys/mman.h> #include <sys/types.h> #include <sys/wait.h> #include <unistd.h> #include "utils.h" #ifndef MAP_FIXED_NOREPLACE #define MAP_FIXED_NOREPLACE MAP_FIXED // "Should be safe" above 512TB #endif #define BASE_ADDRESS (1ul << 50) // 1PB #define STRIDE (2ul << 40) // 2TB #define SLB_SIZE 32 #define NR_MAPPINGS (SLB_SIZE * 2) static volatile sig_atomic_t signaled; static void signal_handler(int sig) { signaled = 1; } #define CHECK_REG(_reg) \ if (_reg != _reg##_orig) { \ printf(str(_reg) " corrupted! Expected 0x%lx != 0x%lx\n", _reg##_orig, \ _reg); \ _exit(1); \ } static int touch_mappings(void) { unsigned long r9_orig, r10_orig, r11_orig, r12_orig, r13_orig; unsigned long r9, r10, r11, r12, r13; unsigned long addr, *p; int i; for (i = 0; i < NR_MAPPINGS; i++) { addr = BASE_ADDRESS + (i * STRIDE); p = (unsigned long *)addr; asm volatile("mr %0, %%r9 ;" // Read original GPR values "mr %1, %%r10 ;" "mr %2, %%r11 ;" "mr %3, %%r12 ;" "mr %4, %%r13 ;" "std %10, 0(%11) ;" // Trigger SLB fault "mr %5, %%r9 ;" // Save possibly corrupted values "mr %6, %%r10 ;" "mr %7, %%r11 ;" "mr %8, %%r12 ;" "mr %9, %%r13 ;" "mr %%r9, %0 ;" // Restore original values "mr %%r10, %1 ;" "mr %%r11, %2 ;" "mr %%r12, %3 ;" "mr %%r13, %4 ;" : "=&b"(r9_orig), "=&b"(r10_orig), "=&b"(r11_orig), "=&b"(r12_orig), "=&b"(r13_orig), "=&b"(r9), "=&b"(r10), "=&b"(r11), "=&b"(r12), "=&b"(r13) : "b"(i), "b"(p) : "r9", "r10", "r11", "r12", "r13"); CHECK_REG(r9); CHECK_REG(r10); CHECK_REG(r11); CHECK_REG(r12); CHECK_REG(r13); } return 0; } static int test(void) { unsigned long page_size, addr, *p; struct sigaction action; bool hash_mmu; int i, status; pid_t pid; // This tests a hash MMU specific bug. FAIL_IF(using_hash_mmu(&hash_mmu)); SKIP_IF(!hash_mmu); // 4K kernels don't support 4PB address space SKIP_IF(sysconf(_SC_PAGESIZE) < 65536); page_size = sysconf(_SC_PAGESIZE); for (i = 0; i < NR_MAPPINGS; i++) { addr = BASE_ADDRESS + (i * STRIDE); p = mmap((void *)addr, page_size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS | MAP_FIXED_NOREPLACE, -1, 0); if (p == MAP_FAILED) { perror("mmap"); printf("Error: couldn't mmap(), confirm kernel has 4PB support?\n"); return 1; } } action.sa_handler = signal_handler; action.sa_flags = SA_RESTART; FAIL_IF(sigaction(SIGALRM, &action, NULL) < 0); // Seen to always crash in under ~10s on affected kernels. alarm(30); while (!signaled) { // Fork new processes, to increase the chance that we hit the case where // the kernel stack and task struct are in different segments. pid = fork(); if (pid == 0) exit(touch_mappings()); FAIL_IF(waitpid(-1, &status, 0) == -1); FAIL_IF(WIFSIGNALED(status)); FAIL_IF(!WIFEXITED(status)); FAIL_IF(WEXITSTATUS(status)); } return 0; } int main(void) { return test_harness(test, "large_vm_gpr_corruption"); }
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