Commit dfe537cf authored by Amit Daniel Kachhap's avatar Amit Daniel Kachhap Committed by Will Deacon

kselftest/arm64: Check forked child mte memory accessibility

This test covers the mte memory behaviour of the forked process with
different mapping properties and flags. It checks that all bytes of
forked child memory are accessible with the same tag as that of the
parent and memory accessed outside the tag range causes fault to
occur.
Co-developed-by: default avatarGabor Kertesz <gabor.kertesz@arm.com>
Signed-off-by: default avatarGabor Kertesz <gabor.kertesz@arm.com>
Signed-off-by: default avatarAmit Daniel Kachhap <amit.kachhap@arm.com>
Tested-by: default avatarCatalin Marinas <catalin.marinas@arm.com>
Acked-by: default avatarCatalin Marinas <catalin.marinas@arm.com>
Cc: Shuah Khan <shuah@kernel.org>
Cc: Catalin Marinas <catalin.marinas@arm.com>
Cc: Will Deacon <will@kernel.org>
Link: https://lore.kernel.org/r/20201002115630.24683-4-amit.kachhap@arm.comSigned-off-by: default avatarWill Deacon <will@kernel.org>
parent f3b2a26c
check_buffer_fill
check_tags_inclusion
check_child_memory
// SPDX-License-Identifier: GPL-2.0
// Copyright (C) 2020 ARM Limited
#define _GNU_SOURCE
#include <errno.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ucontext.h>
#include <sys/wait.h>
#include "kselftest.h"
#include "mte_common_util.h"
#include "mte_def.h"
#define BUFFER_SIZE (5 * MT_GRANULE_SIZE)
#define RUNS (MT_TAG_COUNT)
#define UNDERFLOW MT_GRANULE_SIZE
#define OVERFLOW MT_GRANULE_SIZE
static size_t page_size;
static int sizes[] = {
1, 537, 989, 1269, MT_GRANULE_SIZE - 1, MT_GRANULE_SIZE,
/* page size - 1*/ 0, /* page_size */ 0, /* page size + 1 */ 0
};
static int check_child_tag_inheritance(char *ptr, int size, int mode)
{
int i, parent_tag, child_tag, fault, child_status;
pid_t child;
parent_tag = MT_FETCH_TAG((uintptr_t)ptr);
fault = 0;
child = fork();
if (child == -1) {
ksft_print_msg("FAIL: child process creation\n");
return KSFT_FAIL;
} else if (child == 0) {
mte_initialize_current_context(mode, (uintptr_t)ptr, size);
/* Do copy on write */
memset(ptr, '1', size);
mte_wait_after_trig();
if (cur_mte_cxt.fault_valid == true) {
fault = 1;
goto check_child_tag_inheritance_err;
}
for (i = 0 ; i < size ; i += MT_GRANULE_SIZE) {
child_tag = MT_FETCH_TAG((uintptr_t)(mte_get_tag_address(ptr + i)));
if (parent_tag != child_tag) {
ksft_print_msg("FAIL: child mte tag mismatch\n");
fault = 1;
goto check_child_tag_inheritance_err;
}
}
mte_initialize_current_context(mode, (uintptr_t)ptr, -UNDERFLOW);
memset(ptr - UNDERFLOW, '2', UNDERFLOW);
mte_wait_after_trig();
if (cur_mte_cxt.fault_valid == false) {
fault = 1;
goto check_child_tag_inheritance_err;
}
mte_initialize_current_context(mode, (uintptr_t)ptr, size + OVERFLOW);
memset(ptr + size, '3', OVERFLOW);
mte_wait_after_trig();
if (cur_mte_cxt.fault_valid == false) {
fault = 1;
goto check_child_tag_inheritance_err;
}
check_child_tag_inheritance_err:
_exit(fault);
}
/* Wait for child process to terminate */
wait(&child_status);
if (WIFEXITED(child_status))
fault = WEXITSTATUS(child_status);
else
fault = 1;
return (fault) ? KSFT_FAIL : KSFT_PASS;
}
static int check_child_memory_mapping(int mem_type, int mode, int mapping)
{
char *ptr;
int run, result;
int item = sizeof(sizes)/sizeof(int);
item = sizeof(sizes)/sizeof(int);
mte_switch_mode(mode, MTE_ALLOW_NON_ZERO_TAG);
for (run = 0; run < item; run++) {
ptr = (char *)mte_allocate_memory_tag_range(sizes[run], mem_type, mapping,
UNDERFLOW, OVERFLOW);
if (check_allocated_memory_range(ptr, sizes[run], mem_type,
UNDERFLOW, OVERFLOW) != KSFT_PASS)
return KSFT_FAIL;
result = check_child_tag_inheritance(ptr, sizes[run], mode);
mte_free_memory_tag_range((void *)ptr, sizes[run], mem_type, UNDERFLOW, OVERFLOW);
if (result == KSFT_FAIL)
return result;
}
return KSFT_PASS;
}
static int check_child_file_mapping(int mem_type, int mode, int mapping)
{
char *ptr, *map_ptr;
int run, fd, map_size, result = KSFT_PASS;
int total = sizeof(sizes)/sizeof(int);
mte_switch_mode(mode, MTE_ALLOW_NON_ZERO_TAG);
for (run = 0; run < total; run++) {
fd = create_temp_file();
if (fd == -1)
return KSFT_FAIL;
map_size = sizes[run] + OVERFLOW + UNDERFLOW;
map_ptr = (char *)mte_allocate_file_memory(map_size, mem_type, mapping, false, fd);
if (check_allocated_memory(map_ptr, map_size, mem_type, false) != KSFT_PASS) {
close(fd);
return KSFT_FAIL;
}
ptr = map_ptr + UNDERFLOW;
mte_initialize_current_context(mode, (uintptr_t)ptr, sizes[run]);
/* Only mte enabled memory will allow tag insertion */
ptr = mte_insert_tags((void *)ptr, sizes[run]);
if (!ptr || cur_mte_cxt.fault_valid == true) {
ksft_print_msg("FAIL: Insert tags on file based memory\n");
munmap((void *)map_ptr, map_size);
close(fd);
return KSFT_FAIL;
}
result = check_child_tag_inheritance(ptr, sizes[run], mode);
mte_clear_tags((void *)ptr, sizes[run]);
munmap((void *)map_ptr, map_size);
close(fd);
if (result != KSFT_PASS)
return KSFT_FAIL;
}
return KSFT_PASS;
}
int main(int argc, char *argv[])
{
int err;
int item = sizeof(sizes)/sizeof(int);
page_size = getpagesize();
if (!page_size) {
ksft_print_msg("ERR: Unable to get page size\n");
return KSFT_FAIL;
}
sizes[item - 3] = page_size - 1;
sizes[item - 2] = page_size;
sizes[item - 1] = page_size + 1;
err = mte_default_setup();
if (err)
return err;
/* Register SIGSEGV handler */
mte_register_signal(SIGSEGV, mte_default_handler);
mte_register_signal(SIGBUS, mte_default_handler);
evaluate_test(check_child_memory_mapping(USE_MMAP, MTE_SYNC_ERR, MAP_PRIVATE),
"Check child anonymous memory with private mapping, precise mode and mmap memory\n");
evaluate_test(check_child_memory_mapping(USE_MMAP, MTE_SYNC_ERR, MAP_SHARED),
"Check child anonymous memory with shared mapping, precise mode and mmap memory\n");
evaluate_test(check_child_memory_mapping(USE_MMAP, MTE_ASYNC_ERR, MAP_PRIVATE),
"Check child anonymous memory with private mapping, imprecise mode and mmap memory\n");
evaluate_test(check_child_memory_mapping(USE_MMAP, MTE_ASYNC_ERR, MAP_SHARED),
"Check child anonymous memory with shared mapping, imprecise mode and mmap memory\n");
evaluate_test(check_child_memory_mapping(USE_MPROTECT, MTE_SYNC_ERR, MAP_PRIVATE),
"Check child anonymous memory with private mapping, precise mode and mmap/mprotect memory\n");
evaluate_test(check_child_memory_mapping(USE_MPROTECT, MTE_SYNC_ERR, MAP_SHARED),
"Check child anonymous memory with shared mapping, precise mode and mmap/mprotect memory\n");
evaluate_test(check_child_file_mapping(USE_MMAP, MTE_SYNC_ERR, MAP_PRIVATE),
"Check child file memory with private mapping, precise mode and mmap memory\n");
evaluate_test(check_child_file_mapping(USE_MMAP, MTE_SYNC_ERR, MAP_SHARED),
"Check child file memory with shared mapping, precise mode and mmap memory\n");
evaluate_test(check_child_memory_mapping(USE_MMAP, MTE_ASYNC_ERR, MAP_PRIVATE),
"Check child file memory with private mapping, imprecise mode and mmap memory\n");
evaluate_test(check_child_memory_mapping(USE_MMAP, MTE_ASYNC_ERR, MAP_SHARED),
"Check child file memory with shared mapping, imprecise mode and mmap memory\n");
evaluate_test(check_child_memory_mapping(USE_MPROTECT, MTE_SYNC_ERR, MAP_PRIVATE),
"Check child file memory with private mapping, precise mode and mmap/mprotect memory\n");
evaluate_test(check_child_memory_mapping(USE_MPROTECT, MTE_SYNC_ERR, MAP_SHARED),
"Check child file memory with shared mapping, precise mode and mmap/mprotect memory\n");
mte_restore_setup();
ksft_print_cnts();
return ksft_get_fail_cnt() == 0 ? KSFT_PASS : KSFT_FAIL;
}
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