Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Amit Daniel Kachhap | 1673 | 93.15% | 1 | 10.00% |
Andre Przywara | 72 | 4.01% | 4 | 40.00% |
Mark Brown | 51 | 2.84% | 5 | 50.00% |
Total | 1796 | 10 |
// SPDX-License-Identifier: GPL-2.0 // Copyright (C) 2020 ARM Limited #include <fcntl.h> #include <sched.h> #include <signal.h> #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <linux/auxvec.h> #include <sys/auxv.h> #include <sys/mman.h> #include <sys/prctl.h> #include <asm/hwcap.h> #include "kselftest.h" #include "mte_common_util.h" #include "mte_def.h" #define INIT_BUFFER_SIZE 256 struct mte_fault_cxt cur_mte_cxt; static unsigned int mte_cur_mode; static unsigned int mte_cur_pstate_tco; void mte_default_handler(int signum, siginfo_t *si, void *uc) { unsigned long addr = (unsigned long)si->si_addr; if (signum == SIGSEGV) { #ifdef DEBUG ksft_print_msg("INFO: SIGSEGV signal at pc=%lx, fault addr=%lx, si_code=%lx\n", ((ucontext_t *)uc)->uc_mcontext.pc, addr, si->si_code); #endif if (si->si_code == SEGV_MTEAERR) { if (cur_mte_cxt.trig_si_code == si->si_code) cur_mte_cxt.fault_valid = true; else ksft_print_msg("Got unexpected SEGV_MTEAERR at pc=$lx, fault addr=%lx\n", ((ucontext_t *)uc)->uc_mcontext.pc, addr); return; } /* Compare the context for precise error */ else if (si->si_code == SEGV_MTESERR) { if (cur_mte_cxt.trig_si_code == si->si_code && ((cur_mte_cxt.trig_range >= 0 && addr >= MT_CLEAR_TAG(cur_mte_cxt.trig_addr) && addr <= (MT_CLEAR_TAG(cur_mte_cxt.trig_addr) + cur_mte_cxt.trig_range)) || (cur_mte_cxt.trig_range < 0 && addr <= MT_CLEAR_TAG(cur_mte_cxt.trig_addr) && addr >= (MT_CLEAR_TAG(cur_mte_cxt.trig_addr) + cur_mte_cxt.trig_range)))) { cur_mte_cxt.fault_valid = true; /* Adjust the pc by 4 */ ((ucontext_t *)uc)->uc_mcontext.pc += 4; } else { ksft_print_msg("Invalid MTE synchronous exception caught!\n"); exit(1); } } else { ksft_print_msg("Unknown SIGSEGV exception caught!\n"); exit(1); } } else if (signum == SIGBUS) { ksft_print_msg("INFO: SIGBUS signal at pc=%lx, fault addr=%lx, si_code=%lx\n", ((ucontext_t *)uc)->uc_mcontext.pc, addr, si->si_code); if ((cur_mte_cxt.trig_range >= 0 && addr >= MT_CLEAR_TAG(cur_mte_cxt.trig_addr) && addr <= (MT_CLEAR_TAG(cur_mte_cxt.trig_addr) + cur_mte_cxt.trig_range)) || (cur_mte_cxt.trig_range < 0 && addr <= MT_CLEAR_TAG(cur_mte_cxt.trig_addr) && addr >= (MT_CLEAR_TAG(cur_mte_cxt.trig_addr) + cur_mte_cxt.trig_range))) { cur_mte_cxt.fault_valid = true; /* Adjust the pc by 4 */ ((ucontext_t *)uc)->uc_mcontext.pc += 4; } } } void mte_register_signal(int signal, void (*handler)(int, siginfo_t *, void *)) { struct sigaction sa; sa.sa_sigaction = handler; sa.sa_flags = SA_SIGINFO; sigemptyset(&sa.sa_mask); sigaction(signal, &sa, NULL); } void mte_wait_after_trig(void) { sched_yield(); } void *mte_insert_tags(void *ptr, size_t size) { void *tag_ptr; int align_size; if (!ptr || (unsigned long)(ptr) & MT_ALIGN_GRANULE) { ksft_print_msg("FAIL: Addr=%lx: invalid\n", ptr); return NULL; } align_size = MT_ALIGN_UP(size); tag_ptr = mte_insert_random_tag(ptr); mte_set_tag_address_range(tag_ptr, align_size); return tag_ptr; } void mte_clear_tags(void *ptr, size_t size) { if (!ptr || (unsigned long)(ptr) & MT_ALIGN_GRANULE) { ksft_print_msg("FAIL: Addr=%lx: invalid\n", ptr); return; } size = MT_ALIGN_UP(size); ptr = (void *)MT_CLEAR_TAG((unsigned long)ptr); mte_clear_tag_address_range(ptr, size); } static void *__mte_allocate_memory_range(size_t size, int mem_type, int mapping, size_t range_before, size_t range_after, bool tags, int fd) { void *ptr; int prot_flag, map_flag; size_t entire_size = size + range_before + range_after; switch (mem_type) { case USE_MALLOC: return malloc(entire_size) + range_before; case USE_MMAP: case USE_MPROTECT: break; default: ksft_print_msg("FAIL: Invalid allocate request\n"); return NULL; } prot_flag = PROT_READ | PROT_WRITE; if (mem_type == USE_MMAP) prot_flag |= PROT_MTE; map_flag = mapping; if (fd == -1) map_flag = MAP_ANONYMOUS | map_flag; if (!(mapping & MAP_SHARED)) map_flag |= MAP_PRIVATE; ptr = mmap(NULL, entire_size, prot_flag, map_flag, fd, 0); if (ptr == MAP_FAILED) { ksft_print_msg("FAIL: mmap allocation\n"); return NULL; } if (mem_type == USE_MPROTECT) { if (mprotect(ptr, entire_size, prot_flag | PROT_MTE)) { munmap(ptr, size); ksft_print_msg("FAIL: mprotect PROT_MTE property\n"); return NULL; } } if (tags) ptr = mte_insert_tags(ptr + range_before, size); return ptr; } void *mte_allocate_memory_tag_range(size_t size, int mem_type, int mapping, size_t range_before, size_t range_after) { return __mte_allocate_memory_range(size, mem_type, mapping, range_before, range_after, true, -1); } void *mte_allocate_memory(size_t size, int mem_type, int mapping, bool tags) { return __mte_allocate_memory_range(size, mem_type, mapping, 0, 0, tags, -1); } void *mte_allocate_file_memory(size_t size, int mem_type, int mapping, bool tags, int fd) { int index; char buffer[INIT_BUFFER_SIZE]; if (mem_type != USE_MPROTECT && mem_type != USE_MMAP) { ksft_print_msg("FAIL: Invalid mmap file request\n"); return NULL; } /* Initialize the file for mappable size */ lseek(fd, 0, SEEK_SET); for (index = INIT_BUFFER_SIZE; index < size; index += INIT_BUFFER_SIZE) { if (write(fd, buffer, INIT_BUFFER_SIZE) != INIT_BUFFER_SIZE) { perror("initialising buffer"); return NULL; } } index -= INIT_BUFFER_SIZE; if (write(fd, buffer, size - index) != size - index) { perror("initialising buffer"); return NULL; } return __mte_allocate_memory_range(size, mem_type, mapping, 0, 0, tags, fd); } void *mte_allocate_file_memory_tag_range(size_t size, int mem_type, int mapping, size_t range_before, size_t range_after, int fd) { int index; char buffer[INIT_BUFFER_SIZE]; int map_size = size + range_before + range_after; if (mem_type != USE_MPROTECT && mem_type != USE_MMAP) { ksft_print_msg("FAIL: Invalid mmap file request\n"); return NULL; } /* Initialize the file for mappable size */ lseek(fd, 0, SEEK_SET); for (index = INIT_BUFFER_SIZE; index < map_size; index += INIT_BUFFER_SIZE) if (write(fd, buffer, INIT_BUFFER_SIZE) != INIT_BUFFER_SIZE) { perror("initialising buffer"); return NULL; } index -= INIT_BUFFER_SIZE; if (write(fd, buffer, map_size - index) != map_size - index) { perror("initialising buffer"); return NULL; } return __mte_allocate_memory_range(size, mem_type, mapping, range_before, range_after, true, fd); } static void __mte_free_memory_range(void *ptr, size_t size, int mem_type, size_t range_before, size_t range_after, bool tags) { switch (mem_type) { case USE_MALLOC: free(ptr - range_before); break; case USE_MMAP: case USE_MPROTECT: if (tags) mte_clear_tags(ptr, size); munmap(ptr - range_before, size + range_before + range_after); break; default: ksft_print_msg("FAIL: Invalid free request\n"); break; } } void mte_free_memory_tag_range(void *ptr, size_t size, int mem_type, size_t range_before, size_t range_after) { __mte_free_memory_range(ptr, size, mem_type, range_before, range_after, true); } void mte_free_memory(void *ptr, size_t size, int mem_type, bool tags) { __mte_free_memory_range(ptr, size, mem_type, 0, 0, tags); } void mte_initialize_current_context(int mode, uintptr_t ptr, ssize_t range) { cur_mte_cxt.fault_valid = false; cur_mte_cxt.trig_addr = ptr; cur_mte_cxt.trig_range = range; if (mode == MTE_SYNC_ERR) cur_mte_cxt.trig_si_code = SEGV_MTESERR; else if (mode == MTE_ASYNC_ERR) cur_mte_cxt.trig_si_code = SEGV_MTEAERR; else cur_mte_cxt.trig_si_code = 0; } int mte_switch_mode(int mte_option, unsigned long incl_mask) { unsigned long en = 0; switch (mte_option) { case MTE_NONE_ERR: case MTE_SYNC_ERR: case MTE_ASYNC_ERR: break; default: ksft_print_msg("FAIL: Invalid MTE option %x\n", mte_option); return -EINVAL; } if (incl_mask & ~MT_INCLUDE_TAG_MASK) { ksft_print_msg("FAIL: Invalid incl_mask %lx\n", incl_mask); return -EINVAL; } en = PR_TAGGED_ADDR_ENABLE; switch (mte_option) { case MTE_SYNC_ERR: en |= PR_MTE_TCF_SYNC; break; case MTE_ASYNC_ERR: en |= PR_MTE_TCF_ASYNC; break; case MTE_NONE_ERR: en |= PR_MTE_TCF_NONE; break; } en |= (incl_mask << PR_MTE_TAG_SHIFT); /* Enable address tagging ABI, mte error reporting mode and tag inclusion mask. */ if (prctl(PR_SET_TAGGED_ADDR_CTRL, en, 0, 0, 0) != 0) { ksft_print_msg("FAIL:prctl PR_SET_TAGGED_ADDR_CTRL for mte mode\n"); return -EINVAL; } return 0; } int mte_default_setup(void) { unsigned long hwcaps2 = getauxval(AT_HWCAP2); unsigned long en = 0; int ret; if (!(hwcaps2 & HWCAP2_MTE)) { ksft_print_msg("SKIP: MTE features unavailable\n"); return KSFT_SKIP; } /* Get current mte mode */ ret = prctl(PR_GET_TAGGED_ADDR_CTRL, en, 0, 0, 0); if (ret < 0) { ksft_print_msg("FAIL:prctl PR_GET_TAGGED_ADDR_CTRL with error =%d\n", ret); return KSFT_FAIL; } if (ret & PR_MTE_TCF_SYNC) mte_cur_mode = MTE_SYNC_ERR; else if (ret & PR_MTE_TCF_ASYNC) mte_cur_mode = MTE_ASYNC_ERR; else if (ret & PR_MTE_TCF_NONE) mte_cur_mode = MTE_NONE_ERR; mte_cur_pstate_tco = mte_get_pstate_tco(); /* Disable PSTATE.TCO */ mte_disable_pstate_tco(); return 0; } void mte_restore_setup(void) { mte_switch_mode(mte_cur_mode, MTE_ALLOW_NON_ZERO_TAG); if (mte_cur_pstate_tco == MT_PSTATE_TCO_EN) mte_enable_pstate_tco(); else if (mte_cur_pstate_tco == MT_PSTATE_TCO_DIS) mte_disable_pstate_tco(); } int create_temp_file(void) { int fd; char filename[] = "/dev/shm/tmp_XXXXXX"; /* Create a file in the tmpfs filesystem */ fd = mkstemp(&filename[0]); if (fd == -1) { perror(filename); ksft_print_msg("FAIL: Unable to open temporary file\n"); return 0; } unlink(&filename[0]); return fd; }
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