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1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 | /* * Parts derived from tests/kernel/fatal/src/main.c, which has the * following copyright and license: * * Copyright (c) 2017 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include <zephyr.h> #include <ztest.h> #include <kernel_structs.h> #include <string.h> #include <stdlib.h> #include <app_memory/app_memdomain.h> #include <sys/util.h> #include <debug/stack.h> #include <syscall_handler.h> #include "test_syscall.h" #if defined(CONFIG_ARC) #include <arch/arc/v2/mpu/arc_core_mpu.h> #endif #if defined(CONFIG_ARM) extern void arm_core_mpu_disable(void); #endif #define INFO(fmt, ...) printk(fmt, ##__VA_ARGS__) #define PIPE_LEN 1 #define BYTES_TO_READ_WRITE 1 #define STACKSIZE (1024 + CONFIG_TEST_EXTRA_STACKSIZE) K_SEM_DEFINE(uthread_start_sem, 0, 1); K_SEM_DEFINE(uthread_end_sem, 0, 1); K_SEM_DEFINE(test_revoke_sem, 0, 1); K_SEM_DEFINE(expect_fault_sem, 0, 1); /* * Create partitions. part0 is for all variables to run * ztest and this test suite. part1 is for * subsequent test specifically for this new implementation. */ FOR_EACH(K_APPMEM_PARTITION_DEFINE, part0, part1); /* * Create memory domains. dom0 is for the ztest and this * test suite, specifically. dom1 is for a specific test * in this test suite. */ struct k_mem_domain dom0; struct k_mem_domain dom1; K_APP_DMEM(part0) static volatile bool give_uthread_end_sem; K_APP_DMEM(part0) bool mem_access_check; K_APP_BMEM(part0) static volatile bool expect_fault; K_APP_BMEM(part0) static volatile unsigned int expected_reason; /* * We need something that can act as a memory barrier * from usermode threads to ensure expect_fault and * expected_reason has been updated. We'll just make an * arbitrary system call to force one. */ #define BARRIER() k_sem_give(&expect_fault_sem) void k_sys_fatal_error_handler(unsigned int reason, const z_arch_esf_t *pEsf) { INFO("Caught system error -- reason %d\n", reason); if (expect_fault && expected_reason == reason) { /* * If there is a user thread waiting for notification to exit, * give it that notification. */ if (give_uthread_end_sem) { give_uthread_end_sem = false; k_sem_give(&uthread_end_sem); } expect_fault = false; expected_reason = 0; BARRIER(); ztest_test_pass(); } else { printk("Unexpected fault during test"); k_fatal_halt(reason); } } /** * @brief Test to check if the thread is in user mode * * @ingroup kernel_memprotect_tests */ static void is_usermode(void) { /* Confirm that we are in fact running in user mode. */ expect_fault = false; BARRIER(); zassert_true(_is_user_context(), "thread left in kernel mode"); } /** * @brief Test to write to a control register * * @ingroup kernel_memprotect_tests */ static void write_control(void) { /* Try to write to a control register. */ #if defined(CONFIG_X86) expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); __asm__ volatile ( "mov %cr0, %eax;\n\t" "and $0xfffeffff, %eax;\n\t" "mov %eax, %cr0;\n\t" ); zassert_unreachable("Write to control register did not fault"); #elif defined(CONFIG_ARM) unsigned int msr_value; expect_fault = false; BARRIER(); __asm__ volatile ( "mrs %0, CONTROL;\n\t" "bic %0, #1;\n\t" "msr CONTROL, %0;\n\t" "mrs %0, CONTROL;\n\t" : "=r" (msr_value):: ); zassert_true((msr_value & 1), "Write to control register was successful"); #elif defined(CONFIG_ARC) unsigned int er_status; expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); /* _ARC_V2_ERSTATUS is privilege aux reg */ __asm__ volatile ( "lr %0, [0x402]\n" : "=r" (er_status):: ); #else #error "Not implemented for this architecture" zassert_unreachable("Write to control register did not fault"); #endif } /** * @brief Test to disable memory protection * * @ingroup kernel_memprotect_tests */ static void disable_mmu_mpu(void) { /* Try to disable memory protections. */ #if defined(CONFIG_X86) expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); __asm__ volatile ( "mov %cr0, %eax;\n\t" "and $0x7ffeffff, %eax;\n\t" "mov %eax, %cr0;\n\t" ); #elif defined(CONFIG_ARM) expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); arm_core_mpu_disable(); #elif defined(CONFIG_ARC) expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); arc_core_mpu_disable(); #else #error "Not implemented for this architecture" #endif zassert_unreachable("Disable MMU/MPU did not fault"); } /** * @brief Test to read from kernel RAM * * @ingroup kernel_memprotect_tests */ static void read_kernram(void) { /* Try to read from kernel RAM. */ void *p; expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); p = _current->init_data; printk("%p\n", p); zassert_unreachable("Read from kernel RAM did not fault"); } /** * @brief Test to write to kernel RAM * * @ingroup kernel_memprotect_tests */ static void write_kernram(void) { /* Try to write to kernel RAM. */ expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); _current->init_data = NULL; zassert_unreachable("Write to kernel RAM did not fault"); } extern int _k_neg_eagain; #include <linker/linker-defs.h> /** * @brief Test to write kernel RO * * @ingroup kernel_memprotect_tests */ static void write_kernro(void) { /* Try to write to kernel RO. */ const char *const ptr = (const char *const)&_k_neg_eagain; zassert_true(ptr < _image_rodata_end && ptr >= _image_rodata_start, "_k_neg_eagain is not in rodata"); expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); _k_neg_eagain = -EINVAL; zassert_unreachable("Write to kernel RO did not fault"); } /** * @brief Test to write to kernel text section * * @ingroup kernel_memprotect_tests */ static void write_kerntext(void) { /* Try to write to kernel text. */ expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); memset(&z_is_thread_essential, 0, 4); zassert_unreachable("Write to kernel text did not fault"); } static int kernel_data; /** * @brief Testto read from kernel data section * * @ingroup kernel_memprotect_tests */ static void read_kernel_data(void) { /* Try to read from embedded kernel data. */ int value; expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); value = kernel_data; printk("%d\n", value); zassert_unreachable("Read from data did not fault"); } /** * @brief Test to write to kernel data section * * @ingroup kernel_memprotect_tests */ static void write_kernel_data(void) { expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); kernel_data = 1; zassert_unreachable("Write to data did not fault"); } /* * volatile to avoid compiler mischief. */ K_APP_DMEM(part0) volatile int *priv_stack_ptr; #if defined(CONFIG_X86) /* * We can't inline this in the code or make it static * or local without triggering a warning on -Warray-bounds. */ K_APP_DMEM(part0) size_t size = MMU_PAGE_SIZE; #elif defined(CONFIG_ARC) K_APP_DMEM(part0) s32_t size = (0 - CONFIG_PRIVILEGED_STACK_SIZE - STACK_GUARD_SIZE); #endif /** * @brief Test to read provileged stack * * @ingroup kernel_memprotect_tests */ static void read_priv_stack(void) { /* Try to read from privileged stack. */ #if defined(CONFIG_X86) || defined(CONFIG_ARC) int s[1]; s[0] = 0; priv_stack_ptr = &s[0]; priv_stack_ptr = (int *)((unsigned char *)priv_stack_ptr - size); #elif defined(CONFIG_ARM) /* priv_stack_ptr set by test_main() */ #else #error "Not implemented for this architecture" #endif expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); printk("%d\n", *priv_stack_ptr); zassert_unreachable("Read from privileged stack did not fault"); } /** * @brief Test to write to privilege stack * * @ingroup kernel_memprotect_tests */ static void write_priv_stack(void) { /* Try to write to privileged stack. */ #if defined(CONFIG_X86) || defined(CONFIG_ARC) int s[1]; s[0] = 0; priv_stack_ptr = &s[0]; priv_stack_ptr = (int *)((unsigned char *)priv_stack_ptr - size); #elif defined(CONFIG_ARM) /* priv_stack_ptr set by test_main() */ #else #error "Not implemented for this architecture" #endif expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); *priv_stack_ptr = 42; zassert_unreachable("Write to privileged stack did not fault"); } K_APP_BMEM(part0) static struct k_sem sem; /** * @brief Test to pass a user object to system call * * @ingroup kernel_memprotect_tests */ static void pass_user_object(void) { /* Try to pass a user object to a system call. */ expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; BARRIER(); k_sem_init(&sem, 0, 1); zassert_unreachable("Pass a user object to a syscall did not fault"); } static struct k_sem ksem; /** * @brief Test to pass object to a system call without permissions * * @ingroup kernel_memprotect_tests */ static void pass_noperms_object(void) { /* Try to pass a object to a system call w/o permissions. */ expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; BARRIER(); k_sem_init(&ksem, 0, 1); zassert_unreachable("Pass an unauthorized object to a " "syscall did not fault"); } struct k_thread kthread_thread; K_THREAD_STACK_DEFINE(kthread_stack, STACKSIZE); void thread_body(void) { } /** * @brief Test to start kernel thread from usermode * * @ingroup kernel_memprotect_tests */ static void start_kernel_thread(void) { /* Try to start a kernel thread from a usermode thread */ expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; BARRIER(); k_thread_create(&kthread_thread, kthread_stack, STACKSIZE, (k_thread_entry_t)thread_body, NULL, NULL, NULL, K_PRIO_PREEMPT(1), K_INHERIT_PERMS, K_NO_WAIT); zassert_unreachable("Create a kernel thread did not fault"); } struct k_thread uthread_thread; K_THREAD_STACK_DEFINE(uthread_stack, STACKSIZE); static void uthread_body(void) { /* Notify our creator that we are alive. */ k_sem_give(&uthread_start_sem); /* Request notification of when we should exit. */ give_uthread_end_sem = true; /* Wait until notified by the fault handler or by the creator. */ k_sem_take(&uthread_end_sem, K_FOREVER); } /** * @brief Test to read from another thread's stack * * @ingroup kernel_memprotect_tests */ static void read_other_stack(void) { /* Try to read from another thread's stack. */ unsigned int *ptr; k_thread_create(&uthread_thread, uthread_stack, STACKSIZE, (k_thread_entry_t)uthread_body, NULL, NULL, NULL, -1, K_USER | K_INHERIT_PERMS, K_NO_WAIT); /* Ensure that the other thread has begun. */ k_sem_take(&uthread_start_sem, K_FOREVER); /* Try to directly read the stack of the other thread. */ ptr = (unsigned int *)Z_THREAD_STACK_BUFFER(uthread_stack); expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); printk("%u\n", *ptr); /* Shouldn't be reached, but if so, let the other thread exit */ if (give_uthread_end_sem) { give_uthread_end_sem = false; k_sem_give(&uthread_end_sem); } zassert_unreachable("Read from other thread stack did not fault"); } /** * @brief Test to write to other thread's stack * * @ingroup kernel_memprotect_tests */ static void write_other_stack(void) { /* Try to write to another thread's stack. */ unsigned int *ptr; k_thread_create(&uthread_thread, uthread_stack, STACKSIZE, (k_thread_entry_t)uthread_body, NULL, NULL, NULL, -1, K_USER | K_INHERIT_PERMS, K_NO_WAIT); /* Ensure that the other thread has begun. */ k_sem_take(&uthread_start_sem, K_FOREVER); /* Try to directly write the stack of the other thread. */ ptr = (unsigned int *) Z_THREAD_STACK_BUFFER(uthread_stack); expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); *ptr = 0U; /* Shouldn't be reached, but if so, let the other thread exit */ if (give_uthread_end_sem) { give_uthread_end_sem = false; k_sem_give(&uthread_end_sem); } zassert_unreachable("Write to other thread stack did not fault"); } /** * @brief Test to revoke access to kobject without permission * * @ingroup kernel_memprotect_tests */ static void revoke_noperms_object(void) { /* Attempt to revoke access to kobject w/o permissions*/ expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; BARRIER(); k_object_release(&ksem); zassert_unreachable("Revoke access to unauthorized object " "did not fault"); } /** * @brief Test to access object after revoking access * * @ingroup kernel_memprotect_tests */ static void access_after_revoke(void) { k_object_release(&test_revoke_sem); /* Try to access an object after revoking access to it */ expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; BARRIER(); k_sem_take(&test_revoke_sem, K_NO_WAIT); zassert_unreachable("Using revoked object did not fault"); } static void umode_enter_func(void) { if (_is_user_context()) { /* * Have to explicitly call ztest_test_pass() because * k_thread_user_mode_enter() does not return. We have * to signal a pass status or else run_test() will hang * forever waiting on test_end_signal semaphore. */ ztest_test_pass(); } else { zassert_unreachable("Thread did not enter user mode"); } } /** * @brief Test to check enter to usermode * * @ingroup kernel_memprotect_tests */ static void user_mode_enter(void) { expect_fault = false; BARRIER(); k_thread_user_mode_enter((k_thread_entry_t)umode_enter_func, NULL, NULL, NULL); } /* Define and initialize pipe. */ K_PIPE_DEFINE(kpipe, PIPE_LEN, BYTES_TO_READ_WRITE); K_APP_BMEM(part0) static size_t bytes_written_read; /** * @brief Test to write to kobject using pipe * * @ingroup kernel_memprotect_tests */ static void write_kobject_user_pipe(void) { /* * Attempt to use system call from k_pipe_get to write over * a kernel object. */ expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; BARRIER(); k_pipe_get(&kpipe, &uthread_start_sem, BYTES_TO_READ_WRITE, &bytes_written_read, 1, K_NO_WAIT); zassert_unreachable("System call memory write validation " "did not fault"); } /** * @brief Test to read from kobject using pipe * * @ingroup kernel_memprotect_tests */ static void read_kobject_user_pipe(void) { /* * Attempt to use system call from k_pipe_put to read a * kernel object. */ expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; BARRIER(); k_pipe_put(&kpipe, &uthread_start_sem, BYTES_TO_READ_WRITE, &bytes_written_read, 1, K_NO_WAIT); zassert_unreachable("System call memory read validation " "did not fault"); } /* Create bool in part1 partitions */ K_APP_DMEM(part1) bool thread_bool; static void shared_mem_thread(void) { /* * Try to access thread_bool_1 in denied memory * domain. */ expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; BARRIER(); thread_bool = false; zassert_unreachable("Thread accessed global in other " "memory domain\n"); } /** * @brief Test to access other memory domain * * @ingroup kernel_memprotect_tests */ static void access_other_memdomain(void) { struct k_mem_partition *parts[] = {&part0}; /* * Following tests the ability for a thread to access data * in a domain that it is denied. */ k_mem_domain_init(&dom1, ARRAY_SIZE(parts), parts); /* remove current thread from domain dom0 and add to dom1 */ k_mem_domain_remove_thread(k_current_get()); k_mem_domain_add_thread(&dom1, k_current_get()); /* Create user mode thread */ k_thread_create(&uthread_thread, uthread_stack, STACKSIZE, (k_thread_entry_t)shared_mem_thread, NULL, NULL, NULL, -1, K_USER | K_INHERIT_PERMS, K_NO_WAIT); k_thread_abort(k_current_get()); } #if defined(CONFIG_ARM) extern u8_t *z_priv_stack_find(void *obj); extern k_thread_stack_t ztest_thread_stack[]; #endif struct k_mem_domain add_thread_drop_dom; struct k_mem_domain add_part_drop_dom; struct k_mem_domain remove_thread_drop_dom; struct k_mem_domain remove_part_drop_dom; struct k_mem_domain add_thread_ctx_dom; struct k_mem_domain add_part_ctx_dom; struct k_mem_domain remove_thread_ctx_dom; struct k_mem_domain remove_part_ctx_dom; K_APPMEM_PARTITION_DEFINE(access_part); K_APP_BMEM(access_part) volatile bool test_bool; static void user_half(void *arg1, void *arg2, void *arg3) { test_bool = 1; if (!expect_fault) { ztest_test_pass(); } else { ztest_test_fail(); } } /** * Show that changing between memory domains and dropping to user mode works * as expected. * * @ingroup kernel_memprotect_tests */ static void domain_add_thread_drop_to_user(void) { struct k_mem_partition *parts[] = {&part0, &access_part, &ztest_mem_partition}; expect_fault = false; k_mem_domain_init(&add_thread_drop_dom, ARRAY_SIZE(parts), parts); k_mem_domain_remove_thread(k_current_get()); k_sleep(1); k_mem_domain_add_thread(&add_thread_drop_dom, k_current_get()); k_thread_user_mode_enter(user_half, NULL, NULL, NULL); } /* Show that adding a partition to a domain and then dropping to user mode * works as expected. * * @ingroup kernel_memprotect_tests */ static void domain_add_part_drop_to_user(void) { struct k_mem_partition *parts[] = {&part0, &ztest_mem_partition}; expect_fault = false; k_mem_domain_init(&add_part_drop_dom, ARRAY_SIZE(parts), parts); k_mem_domain_remove_thread(k_current_get()); k_mem_domain_add_thread(&add_part_drop_dom, k_current_get()); k_sleep(1); k_mem_domain_add_partition(&add_part_drop_dom, &access_part); k_thread_user_mode_enter(user_half, NULL, NULL, NULL); } /* Show that self-removing from a memory domain and then dropping to user * mode faults as expected. * * @ingroup kernel_memprotect_tests */ static void domain_remove_thread_drop_to_user(void) { struct k_mem_partition *parts[] = {&part0, &access_part, &ztest_mem_partition}; expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; k_mem_domain_init(&remove_thread_drop_dom, ARRAY_SIZE(parts), parts); k_mem_domain_remove_thread(k_current_get()); k_mem_domain_add_thread(&remove_thread_drop_dom, k_current_get()); k_sleep(1); k_mem_domain_remove_thread(k_current_get()); k_thread_user_mode_enter(user_half, NULL, NULL, NULL); } /** * Show that self-removing a partition from a domain we are a membed of, * and then dropping to user mode faults as expected. * * @ingroup kernel_memprotect_tests */ static void domain_remove_part_drop_to_user(void) { struct k_mem_partition *parts[] = {&part0, &access_part, &ztest_mem_partition}; expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; k_mem_domain_init(&remove_part_drop_dom, ARRAY_SIZE(parts), parts); k_mem_domain_remove_thread(k_current_get()); k_mem_domain_add_thread(&remove_part_drop_dom, k_current_get()); k_sleep(1); k_mem_domain_remove_partition(&remove_part_drop_dom, &access_part); k_thread_user_mode_enter(user_half, NULL, NULL, NULL); } static void user_ctx_switch_half(void *arg1, void *arg2, void *arg3) { test_bool = 1; k_sem_give(&uthread_end_sem); } static void spawn_user(void) { k_sem_reset(&uthread_end_sem); k_object_access_grant(&uthread_end_sem, k_current_get()); k_thread_create(&kthread_thread, kthread_stack, STACKSIZE, user_ctx_switch_half, NULL, NULL, NULL, K_PRIO_PREEMPT(1), K_INHERIT_PERMS | K_USER, K_NO_WAIT); k_sem_take(&uthread_end_sem, K_FOREVER); if (expect_fault) { ztest_test_fail(); } } /** * Show that changing between memory domains and then switching to another * thread in the same domain works as expected. * * @ingroup kernel_memprotect_tests */ static void domain_add_thread_context_switch(void) { struct k_mem_partition *parts[] = {&part0, &access_part, &ztest_mem_partition}; expect_fault = false; k_mem_domain_init(&add_thread_ctx_dom, ARRAY_SIZE(parts), parts); k_mem_domain_remove_thread(k_current_get()); k_sleep(1); k_mem_domain_add_thread(&add_thread_ctx_dom, k_current_get()); spawn_user(); } /* Show that adding a partition to a domain and then switching to another * user thread in the same domain works as expected. * * @ingroup kernel_memprotect_tests */ static void domain_add_part_context_switch(void) { struct k_mem_partition *parts[] = {&part0, &ztest_mem_partition}; expect_fault = false; k_mem_domain_init(&add_part_ctx_dom, ARRAY_SIZE(parts), parts); k_mem_domain_remove_thread(k_current_get()); k_mem_domain_add_thread(&add_part_ctx_dom, k_current_get()); k_sleep(1); k_mem_domain_add_partition(&add_part_ctx_dom, &access_part); spawn_user(); } /* Show that self-removing from a memory domain and then switching to another * user thread in the same domain faults as expected. * * @ingroup kernel_memprotect_tests */ static void domain_remove_thread_context_switch(void) { struct k_mem_partition *parts[] = {&part0, &access_part, &ztest_mem_partition}; expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; k_mem_domain_init(&remove_thread_ctx_dom, ARRAY_SIZE(parts), parts); k_mem_domain_remove_thread(k_current_get()); k_mem_domain_add_thread(&remove_thread_ctx_dom, k_current_get()); k_sleep(1); k_mem_domain_remove_thread(k_current_get()); spawn_user(); } /** * Show that self-removing a partition from a domain we are a member of, * and then switching to another user thread in the same domain faults as * expected. * * @ingroup kernel_memprotect_tests */ static void domain_remove_part_context_switch(void) { struct k_mem_partition *parts[] = {&part0, &access_part, &ztest_mem_partition}; expect_fault = true; expected_reason = K_ERR_CPU_EXCEPTION; k_mem_domain_init(&remove_part_ctx_dom, ARRAY_SIZE(parts), parts); k_mem_domain_remove_thread(k_current_get()); k_mem_domain_add_thread(&remove_part_ctx_dom, k_current_get()); k_sleep(1); k_mem_domain_remove_partition(&remove_part_ctx_dom, &access_part); spawn_user(); } /* * Stack testing */ #define NUM_STACKS 3 #define STEST_STACKSIZE (1024 + CONFIG_TEST_EXTRA_STACKSIZE) K_THREAD_STACK_DEFINE(stest_stack, STEST_STACKSIZE); K_THREAD_STACK_ARRAY_DEFINE(stest_stack_array, NUM_STACKS, STEST_STACKSIZE); struct foo { int bar; K_THREAD_STACK_MEMBER(stack, STEST_STACKSIZE); int baz; }; struct foo stest_member_stack; void z_impl_stack_info_get(u32_t *start_addr, u32_t *size) { *start_addr = k_current_get()->stack_info.start; *size = k_current_get()->stack_info.size; } Z_SYSCALL_HANDLER(stack_info_get, start_addr, size) { Z_OOPS(Z_SYSCALL_MEMORY_WRITE(start_addr, sizeof(u32_t))); Z_OOPS(Z_SYSCALL_MEMORY_WRITE(size, sizeof(u32_t))); z_impl_stack_info_get((u32_t *)start_addr, (u32_t *)size); return 0; } int z_impl_check_perms(void *addr, size_t size, int write) { return z_arch_buffer_validate(addr, size, write); } Z_SYSCALL_HANDLER(check_perms, addr, size, write) { return z_impl_check_perms((void *)addr, size, write); } void stack_buffer_scenarios(k_thread_stack_t *stack_obj, size_t obj_size) { size_t stack_size; u8_t val; char *stack_start, *stack_ptr, *stack_end, *obj_start, *obj_end; volatile char *pos; expect_fault = false; /* Dump interesting information */ stack_info_get((u32_t *)&stack_start, (u32_t *)&stack_size); printk(" - Thread reports buffer %p size %zu\n", stack_start, stack_size); stack_end = stack_start + stack_size; obj_end = (char *)stack_obj + obj_size; obj_start = (char *)stack_obj; /* Assert that the created stack object, with the reserved data * removed, can hold a thread buffer of STEST_STACKSIZE */ zassert_true(STEST_STACKSIZE <= (obj_size - K_THREAD_STACK_RESERVED), "bad stack size in object"); /* Check that the stack info in the thread marks a region * completely contained within the stack object */ zassert_true(stack_end <= obj_end, "stack size in thread struct out of bounds (overflow)"); zassert_true(stack_start >= obj_start, "stack size in thread struct out of bounds (underflow)"); /* Check that the entire stack buffer is read/writable */ printk(" - check read/write to stack buffer\n"); /* Address of this stack variable is guaranteed to part of * the active stack, and close to the actual stack pointer. * Some CPUs have hardware stack overflow detection which * faults on memory access within the stack buffer but below * the stack pointer. * * First test does direct read & write starting at the estimated * stack pointer up to the highest addresses in the buffer */ stack_ptr = &val; for (pos = stack_ptr; pos < stack_end; pos++) { /* pos is volatile so this doesn't get optimized out */ val = *pos; *pos = val; } if (z_arch_is_user_context()) { /* If we're in user mode, check every byte in the stack buffer * to ensure that the thread has permissions on it. */ for (pos = stack_start; pos < stack_end; pos++) { zassert_false(check_perms((void *)pos, 1, 1), "bad MPU/MMU permission on stack buffer at address %p", pos); } /* Bounds check the user accessible area, it shouldn't extend * before or after the stack. Because of memory protection HW * alignment constraints, we test the end of the stack object * and not the buffer. */ zassert_true(check_perms(obj_start - 1, 1, 0), "user mode access to memory before start of stack object"); zassert_true(check_perms(obj_end, 1, 0), "user mode access past end of stack object"); } /* This API is being removed just whine about it for now */ if (Z_THREAD_STACK_BUFFER(stack_obj) != stack_start) { printk("WARNING: Z_THREAD_STACK_BUFFER() reports %p\n", Z_THREAD_STACK_BUFFER(stack_obj)); } if (z_arch_is_user_context()) { zassert_true(stack_size <= obj_size - K_THREAD_STACK_RESERVED, "bad stack size in thread struct"); } k_sem_give(&uthread_end_sem); } void stest_thread_entry(void *p1, void *p2, void *p3) { bool drop = (bool)p3; if (drop) { k_thread_user_mode_enter(stest_thread_entry, p1, p2, (void *)false); } else { stack_buffer_scenarios((k_thread_stack_t *)p1, (size_t)p2); } } void stest_thread_launch(void *stack_obj, size_t obj_size, u32_t flags, bool drop) { k_thread_create(&uthread_thread, stack_obj, STEST_STACKSIZE, stest_thread_entry, stack_obj, (void *)obj_size, (void *)drop, -1, flags, K_NO_WAIT); k_sem_take(&uthread_end_sem, K_FOREVER); stack_analyze("test_thread", (char *)uthread_thread.stack_info.start, uthread_thread.stack_info.size); } void scenario_entry(void *stack_obj, size_t obj_size) { printk("Stack object %p[%zu]\n", stack_obj, obj_size); printk(" - Testing supervisor mode\n"); stest_thread_launch(stack_obj, obj_size, 0, false); printk(" - Testing user mode (direct launch)\n"); stest_thread_launch(stack_obj, obj_size, K_USER | K_INHERIT_PERMS, false); printk(" - Testing user mode (drop)\n"); stest_thread_launch(stack_obj, obj_size, K_INHERIT_PERMS, true); } void test_stack_buffer(void) { printk("Reserved space: %u\n", K_THREAD_STACK_RESERVED); printk("Provided stack size: %u\n", STEST_STACKSIZE); scenario_entry(stest_stack, sizeof(stest_stack)); for (int i = 0; i < NUM_STACKS; i++) { scenario_entry(stest_stack_array[i], sizeof(stest_stack_array[i])); } scenario_entry(&stest_member_stack.stack, sizeof(stest_member_stack.stack)); } void z_impl_missing_syscall(void) { /* Shouldn't ever get here; no handler function compiled */ k_panic(); } void test_unimplemented_syscall(void) { expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; missing_syscall(); } void test_bad_syscall(void) { expect_fault = true; expected_reason = K_ERR_KERNEL_OOPS; z_arch_syscall_invoke0(INT_MAX); } static struct k_sem recycle_sem; void test_object_recycle(void) { struct _k_object *ko; int perms_count = 0; ko = z_object_find(&recycle_sem); (void)memset(ko->perms, 0xFF, sizeof(ko->perms)); z_object_recycle(&recycle_sem); zassert_true(ko != NULL, "kernel object not found"); zassert_true(ko->flags & K_OBJ_FLAG_INITIALIZED, "object wasn't marked as initialized"); for (int i = 0; i < CONFIG_MAX_THREAD_BYTES; i++) { perms_count += popcount(ko->perms[i]); } zassert_true(perms_count == 1, "invalid number of thread permissions"); } #define test_oops(provided, expected) do { \ expect_fault = true; \ expected_reason = expected; \ z_except_reason(provided); \ } while (false) void test_oops_panic(void) { test_oops(K_ERR_KERNEL_PANIC, K_ERR_KERNEL_OOPS); } void test_oops_oops(void) { test_oops(K_ERR_KERNEL_OOPS, K_ERR_KERNEL_OOPS); } void test_oops_exception(void) { test_oops(K_ERR_CPU_EXCEPTION, K_ERR_KERNEL_OOPS); } void test_oops_maxint(void) { test_oops(INT_MAX, K_ERR_KERNEL_OOPS); } void test_oops_stackcheck(void) { test_oops(K_ERR_STACK_CHK_FAIL, K_ERR_STACK_CHK_FAIL); } void test_main(void) { struct k_mem_partition *parts[] = {&part0, &part1, &ztest_mem_partition}; k_mem_domain_remove_thread(k_current_get()); k_mem_domain_init(&dom0, ARRAY_SIZE(parts), parts); k_mem_domain_add_thread(&dom0, k_current_get()); #if defined(CONFIG_ARM) priv_stack_ptr = (int *)z_priv_stack_find(ztest_thread_stack); #endif k_thread_access_grant(k_current_get(), &kthread_thread, &kthread_stack, &uthread_thread, &uthread_stack, &uthread_start_sem, &uthread_end_sem, &test_revoke_sem, &kpipe, &expect_fault_sem); ztest_test_suite(userspace, ztest_user_unit_test(is_usermode), ztest_user_unit_test(write_control), ztest_user_unit_test(disable_mmu_mpu), ztest_user_unit_test(read_kernram), ztest_user_unit_test(write_kernram), ztest_user_unit_test(write_kernro), ztest_user_unit_test(write_kerntext), ztest_user_unit_test(read_kernel_data), ztest_user_unit_test(write_kernel_data), ztest_user_unit_test(read_priv_stack), ztest_user_unit_test(write_priv_stack), ztest_user_unit_test(pass_user_object), ztest_user_unit_test(pass_noperms_object), ztest_user_unit_test(start_kernel_thread), ztest_user_unit_test(read_other_stack), ztest_user_unit_test(write_other_stack), ztest_user_unit_test(revoke_noperms_object), ztest_user_unit_test(access_after_revoke), ztest_unit_test(user_mode_enter), ztest_user_unit_test(write_kobject_user_pipe), ztest_user_unit_test(read_kobject_user_pipe), ztest_unit_test(access_other_memdomain), ztest_unit_test(domain_add_thread_drop_to_user), ztest_unit_test(domain_add_part_drop_to_user), ztest_unit_test(domain_remove_part_drop_to_user), ztest_unit_test(domain_remove_thread_drop_to_user), ztest_unit_test(domain_add_thread_context_switch), ztest_unit_test(domain_add_part_context_switch), ztest_unit_test(domain_remove_part_context_switch), ztest_unit_test(domain_remove_thread_context_switch), ztest_unit_test(test_stack_buffer), ztest_user_unit_test(test_unimplemented_syscall), ztest_user_unit_test(test_bad_syscall), ztest_user_unit_test(test_oops_panic), ztest_user_unit_test(test_oops_oops), ztest_user_unit_test(test_oops_exception), ztest_user_unit_test(test_oops_maxint), ztest_user_unit_test(test_oops_stackcheck), ztest_unit_test(test_object_recycle) ); ztest_run_test_suite(userspace); } |