# SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD # SPDX-License-Identifier: CC0-1.0 import re from typing import List from typing import Optional from typing import Union import pexpect import pytest from test_panic_util import PanicTestDut TARGETS_XTENSA_SINGLE_CORE = [ pytest.mark.esp32s2, ] TARGETS_XTENSA_DUAL_CORE = [ pytest.mark.esp32, pytest.mark.esp32s3, ] TARGETS_XTENSA = TARGETS_XTENSA_SINGLE_CORE + TARGETS_XTENSA_DUAL_CORE TARGETS_RISCV_SINGLE_CORE = [ pytest.mark.esp32c2, pytest.mark.esp32c3, pytest.mark.esp32c6, pytest.mark.esp32h2, ] TARGETS_RISCV_DUAL_CORE = [ pytest.mark.esp32p4, ] TARGETS_RISCV = TARGETS_RISCV_SINGLE_CORE + TARGETS_RISCV_DUAL_CORE # Markers for all the targets this test currently runs on TARGETS_ALL = TARGETS_XTENSA + TARGETS_RISCV # Some tests only run on dual-core targets, they use the config below. TARGETS_DUAL_CORE = TARGETS_XTENSA_DUAL_CORE + TARGETS_RISCV_DUAL_CORE # Most tests run on all targets and with all configs. # This list is passed to @pytest.mark.parametrize for each of the test cases. # It creates an outer product of the sets: [configs] x [targets], # with some exceptions. CONFIGS = [ pytest.param('coredump_flash_bin_crc', marks=TARGETS_ALL), pytest.param('coredump_flash_elf_sha', marks=TARGETS_ALL), pytest.param('coredump_uart_bin_crc', marks=TARGETS_ALL), pytest.param('coredump_uart_elf_crc', marks=TARGETS_ALL), pytest.param('coredump_flash_custom_stack', marks=TARGETS_RISCV), pytest.param('gdbstub', marks=TARGETS_ALL), pytest.param('panic', marks=TARGETS_ALL), ] CONFIGS_DUAL_CORE = [ pytest.param('coredump_flash_bin_crc', marks=TARGETS_DUAL_CORE), pytest.param('coredump_flash_elf_sha', marks=TARGETS_DUAL_CORE), pytest.param('coredump_uart_bin_crc', marks=TARGETS_DUAL_CORE), pytest.param('coredump_uart_elf_crc', marks=TARGETS_DUAL_CORE), pytest.param('gdbstub', marks=TARGETS_DUAL_CORE), pytest.param('panic', marks=TARGETS_DUAL_CORE), ] # Some tests run on all targets but need to behave differently on the dual-core ones. # This list is used to check if the target is a dual-core one. TARGETS_DUAL_CORE_NAMES = [x.mark.name for x in TARGETS_DUAL_CORE] # The tests which panic on external stack require PSRAM capable runners CONFIGS_EXTRAM_STACK = [ pytest.param('coredump_extram_stack', marks=[pytest.mark.esp32, pytest.mark.psram]), pytest.param('coredump_extram_stack', marks=[pytest.mark.esp32s2, pytest.mark.generic]), pytest.param('coredump_extram_stack', marks=[pytest.mark.esp32s3, pytest.mark.quad_psram]), ] CONFIGS_HW_STACK_GUARD = [ pytest.param('coredump_flash_bin_crc', marks=TARGETS_RISCV), pytest.param('coredump_uart_bin_crc', marks=TARGETS_RISCV), pytest.param('coredump_uart_elf_crc', marks=TARGETS_RISCV), pytest.param('gdbstub', marks=TARGETS_RISCV), pytest.param('panic', marks=TARGETS_RISCV), ] CONFIGS_HW_STACK_GUARD_DUAL_CORE = [ pytest.param('coredump_flash_bin_crc', marks=TARGETS_RISCV_DUAL_CORE), pytest.param('coredump_uart_bin_crc', marks=TARGETS_RISCV_DUAL_CORE), pytest.param('coredump_uart_elf_crc', marks=TARGETS_RISCV_DUAL_CORE), pytest.param('gdbstub', marks=TARGETS_RISCV_DUAL_CORE), pytest.param('panic', marks=TARGETS_RISCV_DUAL_CORE), ] CONFIG_CAPTURE_DRAM = [pytest.param('coredump_flash_capture_dram', marks=TARGETS_ALL)] # Panic abort information will start with this string. PANIC_ABORT_PREFIX = 'Panic reason: ' def get_default_backtrace(config: str) -> List[str]: return [config, 'app_main', 'main_task', 'vPortTaskWrapper'] def common_test(dut: PanicTestDut, config: str, expected_backtrace: Optional[List[str]] = None, check_cpu_reset: Optional[bool] = True, expected_coredump: Optional[List[Union[str, re.Pattern]]] = None) -> None: if 'gdbstub' in config: dut.expect_exact('Entering gdb stub now.') dut.start_gdb_for_gdbstub() frames = dut.gdb_backtrace() if expected_backtrace is not None: dut.verify_gdb_backtrace(frames, expected_backtrace) dut.revert_log_level() return # don't expect "Rebooting" output below # We will only perform comparisons for ELF files, as we are not introducing any new fields to the binary file format. if 'bin' in config: expected_coredump = None if 'uart' in config: dut.process_coredump_uart(expected_coredump) elif 'flash' in config: dut.process_coredump_flash(expected_coredump) elif 'panic' in config: pass dut.expect('Rebooting...') if check_cpu_reset: dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_task_wdt_cpu0(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_exact( 'Task watchdog got triggered. The following tasks/users did not reset the watchdog in time:' ) dut.expect_exact('CPU 0: main') if dut.is_xtensa: # on Xtensa, dumping registers on abort is not necessary, we only need to dump the backtrace dut.expect_none('register dump:') dut.expect_exact('Print CPU 0 (current core) backtrace') dut.expect_backtrace() else: # on RISC-V, need to dump both registers and stack memory to reconstruct the backtrace dut.expect_reg_dump(core=0) dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') coredump_pattern = (PANIC_ABORT_PREFIX + 'Task watchdog got triggered. ' 'The following tasks/users did not reset the watchdog in time:\n - ') if dut.is_multi_core: coredump_pattern += 'IDLE0 (CPU 0)' else: coredump_pattern += 'IDLE (CPU 0)' common_test( dut, config, expected_backtrace=get_default_backtrace(test_func_name), expected_coredump=[coredump_pattern] ) @pytest.mark.parametrize('config', CONFIGS_DUAL_CORE, indirect=True) @pytest.mark.generic def test_task_wdt_cpu1(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_exact( 'Task watchdog got triggered. The following tasks/users did not reset the watchdog in time:' ) dut.expect_exact('CPU 1: Infinite loop') expected_backtrace = ['infinite_loop', 'vPortTaskWrapper'] if dut.is_xtensa: # see comment in test_task_wdt_cpu0 dut.expect_none('register dump:') dut.expect_exact('Print CPU 1 backtrace') dut.expect_backtrace() else: # on RISC-V, need to dump both registers and stack memory to reconstruct the backtrace dut.expect_reg_dump(core=1) dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') coredump_pattern = (PANIC_ABORT_PREFIX + 'Task watchdog got triggered. ' 'The following tasks/users did not reset the watchdog in time:\n - IDLE1 (CPU 1)') common_test( dut, config, expected_backtrace=expected_backtrace, expected_coredump=[coredump_pattern] ) @pytest.mark.parametrize('config', CONFIGS_EXTRAM_STACK, indirect=True) def test_panic_extram_stack(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_none('Allocated stack is not in external RAM') dut.expect_none('Guru Meditation') dut.expect_backtrace() dut.expect_elf_sha256() # Check that coredump is getting written to flash dut.expect_exact('Save core dump to flash...') # And that the stack is replaced and restored dut.expect_exact('Backing up stack @') dut.expect_exact('Restoring stack') # The caller must be accessible after restoring the stack dut.expect_exact('Core dump has been saved to flash.') common_test(dut, config) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_int_wdt( dut: PanicTestDut, target: str, config: str, test_func_name: str ) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Interrupt wdt timeout on CPU0') dut.expect_reg_dump(0) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() if target in TARGETS_DUAL_CORE_NAMES: dut.expect_reg_dump(1) if dut.is_xtensa: dut.expect_backtrace() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') common_test(dut, config, expected_backtrace=get_default_backtrace(test_func_name)) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_int_wdt_cache_disabled( dut: PanicTestDut, target: str, config: str, test_func_name: str ) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Interrupt wdt timeout on CPU0') dut.expect_reg_dump(0) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() if target in TARGETS_DUAL_CORE_NAMES: dut.expect_reg_dump(1) if dut.is_xtensa: dut.expect_backtrace() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') common_test(dut, config, expected_backtrace=get_default_backtrace(test_func_name)) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_cache_error(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.target in ['esp32c3', 'esp32c2']: dut.expect_gme('Cache error') dut.expect_exact('Cached memory region accessed while ibus or cache is disabled') elif dut.target in ['esp32c6', 'esp32h2']: dut.expect_gme('Cache error') dut.expect_exact('Cache access error') elif dut.target in ['esp32s2']: # Cache error interrupt is not enabled, IDF-1558 dut.expect_gme('IllegalInstruction') elif dut.target in ['esp32p4']: # TODO IDF-7515 dut.expect_gme('Instruction access fault') else: dut.expect_gme('Cache disabled but cached memory region accessed') dut.expect_reg_dump(0) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') expected_backtrace = ['die'] + get_default_backtrace(test_func_name) if dut.target in ['esp32s2', 'esp32s3']: # 'test_cache_error' missing from GDB backtrace on ESP32-S2 and ESP-S3, IDF-6561 expected_backtrace = ['die', 'app_main', 'main_task', 'vPortTaskWrapper'] common_test( dut, config, expected_backtrace=expected_backtrace, check_cpu_reset=(dut.target != 'esp32') ) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_stack_overflow(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.is_xtensa: dut.expect_gme('Unhandled debug exception') dut.expect_exact('Stack canary watchpoint triggered (main)') else: # Stack watchpoint handling missing on RISC-V, IDF-6397 dut.expect_gme('Breakpoint') dut.expect_reg_dump(0) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') common_test(dut, config, expected_backtrace=get_default_backtrace(test_func_name)) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_instr_fetch_prohibited( dut: PanicTestDut, config: str, test_func_name: str ) -> None: dut.run_test_func(test_func_name) if dut.is_xtensa: dut.expect_gme('InstrFetchProhibited') dut.expect_reg_dump(0) dut.expect_backtrace() expected_backtrace = ['_init'] + get_default_backtrace(test_func_name) else: dut.expect_gme('Instruction access fault') dut.expect_reg_dump(0) dut.expect_stack_dump() # On RISC-V, GDB is not able to determine the correct backtrace after # a jump to an invalid address. expected_backtrace = ['??'] dut.expect_elf_sha256() dut.expect_none('Guru Meditation') common_test( dut, config, expected_backtrace=expected_backtrace, ) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_illegal_instruction( dut: PanicTestDut, config: str, test_func_name: str ) -> None: dut.run_test_func(test_func_name) if dut.is_xtensa: dut.expect_gme('IllegalInstruction') else: dut.expect_gme('Illegal instruction') dut.expect_reg_dump(0) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') common_test(dut, config, expected_backtrace=get_default_backtrace(test_func_name)) def check_x_prohibited(dut: PanicTestDut, config: str, test_func_name: str, operation: str) -> None: dut.run_test_func(test_func_name) if dut.is_xtensa: dut.expect_gme(f'{operation}Prohibited') else: dut.expect_gme(f'{operation} access fault') dut.expect_reg_dump(0) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') common_test(dut, config, expected_backtrace=get_default_backtrace(test_func_name)) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_storeprohibited(dut: PanicTestDut, config: str, test_func_name: str) -> None: check_x_prohibited(dut, config, test_func_name, 'Store') @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_loadprohibited(dut: PanicTestDut, config: str, test_func_name: str) -> None: check_x_prohibited(dut, config, test_func_name, 'Load') @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_abort(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) regex_pattern = rb'abort\(\) was called at PC [0-9xa-f]+ on core 0' dut.expect(regex_pattern) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none(['Guru Meditation', 'Re-entered core dump']) coredump_pattern = re.compile(PANIC_ABORT_PREFIX + regex_pattern.decode('utf-8')) common_test( dut, config, expected_backtrace=[ 'panic_abort', 'esp_system_abort', 'abort' ] + get_default_backtrace(test_func_name), expected_coredump=[coredump_pattern] ) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_ub(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) regex_pattern = rb'Undefined behavior of type out_of_bounds' dut.expect(regex_pattern) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none(['Guru Meditation', 'Re-entered core dump']) coredump_pattern = re.compile(PANIC_ABORT_PREFIX + regex_pattern.decode('utf-8')) common_test( dut, config, expected_backtrace=[ 'panic_abort', 'esp_system_abort', '__ubsan_default_handler', '__ubsan_handle_out_of_bounds' ] + get_default_backtrace(test_func_name), expected_coredump=[coredump_pattern] ) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_abort_cache_disabled( dut: PanicTestDut, config: str, test_func_name: str ) -> None: if dut.target == 'esp32s2': pytest.xfail(reason='Crashes in itoa which is not in ROM, IDF-3572') dut.run_test_func(test_func_name) regex_pattern = rb'abort\(\) was called at PC [0-9xa-f]+ on core 0' dut.expect(regex_pattern) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none(['Guru Meditation', 'Re-entered core dump']) coredump_pattern = re.compile(PANIC_ABORT_PREFIX + regex_pattern.decode('utf-8')) common_test( dut, config, expected_backtrace=[ 'panic_abort', 'esp_system_abort', 'abort' ] + get_default_backtrace(test_func_name), expected_coredump=[coredump_pattern] ) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_assert(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) regex_pattern = rb'assert failed:[\s\w()]*?\s[.\w/]*\.(?:c|cpp|h|hpp):\d.*$' dut.expect(re.compile(regex_pattern, re.MULTILINE)) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none(['Guru Meditation', 'Re-entered core dump']) coredump_pattern = re.compile(PANIC_ABORT_PREFIX + regex_pattern.decode('utf-8'), re.MULTILINE) common_test( dut, config, expected_backtrace=[ 'panic_abort', 'esp_system_abort', '__assert_func' ] + get_default_backtrace(test_func_name), expected_coredump=[coredump_pattern] ) @pytest.mark.parametrize('config', CONFIGS, indirect=True) @pytest.mark.generic def test_assert_cache_disabled( dut: PanicTestDut, config: str, test_func_name: str ) -> None: if dut.target == 'esp32s2': pytest.xfail(reason='Crashes in itoa which is not in ROM, IDF-3572') dut.run_test_func(test_func_name) regex_pattern = rb'assert failed: [0-9xa-fA-F]+.*$' dut.expect(re.compile(regex_pattern, re.MULTILINE)) if dut.is_xtensa: dut.expect_backtrace() else: dut.expect_stack_dump() dut.expect_elf_sha256() dut.expect_none(['Guru Meditation', 'Re-entered core dump']) coredump_pattern = re.compile(PANIC_ABORT_PREFIX + regex_pattern.decode('utf-8'), re.MULTILINE) common_test( dut, config, expected_backtrace=[ 'panic_abort', 'esp_system_abort', '__assert_func' ] + get_default_backtrace(test_func_name), expected_coredump=[coredump_pattern] ) def cache_error_log_check(dut: PanicTestDut) -> None: if dut.is_xtensa: if dut.target == 'esp32s3': dut.expect_exact("Guru Meditation Error: Core / panic'ed (Cache disabled but cached memory region accessed)") dut.expect_exact('Write back error occurred while dcache tries to write back to flash') dut.expect_exact('The following backtrace may not indicate the code that caused Cache invalid access') else: dut.expect_exact("Guru Meditation Error: Core 0 panic'ed (LoadStoreError)") else: dut.expect_exact("Guru Meditation Error: Core 0 panic'ed (Store access fault)") dut.expect_reg_dump(0) if dut.target == 'esp32s3': dut.expect_reg_dump(1) dut.expect_cpu_reset() @pytest.mark.generic @pytest.mark.supported_targets @pytest.mark.parametrize('config', ['panic'], indirect=True) def test_assert_cache_write_back_error_can_print_backtrace( dut: PanicTestDut, config: str, test_func_name: str ) -> None: dut.run_test_func(test_func_name) cache_error_log_check(dut) @pytest.mark.generic @pytest.mark.supported_targets @pytest.mark.parametrize('config', ['panic'], indirect=True) def test_assert_cache_write_back_error_can_print_backtrace2( dut: PanicTestDut, config: str, test_func_name: str ) -> None: dut.run_test_func(test_func_name) cache_error_log_check(dut) @pytest.mark.esp32 @pytest.mark.generic @pytest.mark.parametrize('config', ['panic_delay'], indirect=True) def test_panic_delay(dut: PanicTestDut) -> None: dut.run_test_func('test_storeprohibited') try: dut.expect_exact('Rebooting...', timeout=4) except pexpect.TIMEOUT: # We are supposed to NOT find the output for the specified time pass else: # If we actually match the output within the timeout, it means the delay didn't work raise AssertionError('Rebooted too early, delay is too short') dut.expect_exact('Rebooting...', timeout=3) dut.expect_exact('rst:0xc (SW_CPU_RESET)') ######################### # for memprot test only # ######################### # Memprot-related tests are supported only on targets with PMS/PMA peripheral; # currently ESP32-S2, ESP32-C3, ESP32-C2, ESP32-H2 and ESP32-C6 are supported CONFIGS_MEMPROT_IDRAM = [ pytest.param('memprot_esp32s2', marks=[pytest.mark.esp32s2]), pytest.param('memprot_esp32c3', marks=[pytest.mark.esp32c3]), pytest.param('memprot_esp32c2', marks=[pytest.mark.esp32c2]), pytest.param('memprot_esp32c6', marks=[pytest.mark.esp32c6]), pytest.param('memprot_esp32h2', marks=[pytest.mark.esp32h2]), pytest.param('memprot_esp32p4', marks=[pytest.mark.esp32p4]) ] CONFIGS_MEMPROT_DCACHE = [ pytest.param('memprot_esp32s2', marks=pytest.mark.esp32s2), ] CONFIGS_MEMPROT_RTC_FAST_MEM = [ pytest.param('memprot_esp32s2', marks=[pytest.mark.esp32s2]), pytest.param('memprot_esp32c3', marks=[pytest.mark.esp32c3]), pytest.param('memprot_esp32c6', marks=[pytest.mark.esp32c6]), pytest.param('memprot_esp32h2', marks=[pytest.mark.esp32h2]), pytest.param('memprot_esp32p4', marks=[pytest.mark.esp32p4]) ] CONFIGS_MEMPROT_RTC_SLOW_MEM = [ pytest.param('memprot_esp32s2', marks=[pytest.mark.esp32s2]), ] CONFIGS_MEMPROT_FLASH_IDROM = [ pytest.param('memprot_esp32c6', marks=[pytest.mark.esp32c6]), pytest.param('memprot_esp32h2', marks=[pytest.mark.esp32h2]), pytest.param('memprot_esp32p4', marks=[pytest.mark.esp32p4]) ] @pytest.mark.parametrize('config', CONFIGS_MEMPROT_DCACHE, indirect=True) @pytest.mark.generic def test_dcache_read_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_exact(r'Test error: Test function has returned') dut.expect_cpu_reset() # TODO: IDF-6820: ESP32-S2 -> Fix multiple panic reasons in different runs @pytest.mark.parametrize('config', CONFIGS_MEMPROT_DCACHE, indirect=True) @pytest.mark.generic @pytest.mark.xfail('config.getvalue("target") == "esp32s2"', reason='Incorrect panic reason may be observed', run=False) def test_dcache_write_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Memory protection fault') dut.expect(r'Write operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_backtrace() dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_IDRAM, indirect=True) @pytest.mark.generic def test_iram_reg1_write_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.target == 'esp32s2': dut.expect_gme('Memory protection fault') dut.expect(r'Write operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_backtrace() elif dut.target == 'esp32c3': dut.expect_exact(r'Test error: Test function has returned') elif dut.target in ['esp32c2', 'esp32c6', 'esp32h2', 'esp32p4']: dut.expect_gme('Store access fault') dut.expect_reg_dump(0) dut.expect_stack_dump() dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_IDRAM, indirect=True) @pytest.mark.generic def test_iram_reg2_write_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.target == 'esp32s2': dut.expect_gme('Memory protection fault') dut.expect(r'Write operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_backtrace() elif dut.target == 'esp32c3': dut.expect_gme('Memory protection fault') dut.expect(r' memory type: (\S+)') dut.expect(r' faulting address: [0-9xa-f]+') dut.expect(r' operation type: (\S+)') dut.expect_reg_dump(0) dut.expect_stack_dump() elif dut.target in ['esp32c2', 'esp32c6', 'esp32h2', 'esp32p4']: dut.expect_gme('Store access fault') dut.expect_reg_dump(0) dut.expect_stack_dump() dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_IDRAM, indirect=True) @pytest.mark.generic def test_iram_reg3_write_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.target == 'esp32s2': dut.expect_gme('Memory protection fault') dut.expect(r'Write operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_backtrace() elif dut.target == 'esp32c3': dut.expect_gme('Memory protection fault') dut.expect(r' memory type: (\S+)') dut.expect(r' faulting address: [0-9xa-f]+') dut.expect(r' operation type: (\S+)') dut.expect_reg_dump(0) dut.expect_stack_dump() elif dut.target in ['esp32c2', 'esp32c6', 'esp32h2', 'esp32p4']: dut.expect_gme('Store access fault') dut.expect_reg_dump(0) dut.expect_stack_dump() dut.expect_cpu_reset() # TODO: IDF-6820: ESP32-S2 -> Fix incorrect panic reason: Unhandled debug exception @pytest.mark.parametrize('config', CONFIGS_MEMPROT_IDRAM, indirect=True) @pytest.mark.generic @pytest.mark.xfail('config.getvalue("target") == "esp32s2"', reason='Incorrect panic reason may be observed', run=False) def test_iram_reg4_write_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.target == 'esp32s2': dut.expect_gme('Memory protection fault') dut.expect(r'Write operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_backtrace() elif dut.target == 'esp32c3': dut.expect_gme('Memory protection fault') dut.expect(r' memory type: (\S+)') dut.expect(r' faulting address: [0-9xa-f]+') dut.expect(r' operation type: (\S+)') dut.expect_reg_dump(0) dut.expect_stack_dump() elif dut.target in ['esp32c2', 'esp32c6', 'eps32h2']: dut.expect_gme('Store access fault') dut.expect_reg_dump(0) dut.expect_stack_dump() dut.expect_cpu_reset() # TODO: IDF-6820: ESP32-S2 -> Fix multiple panic reasons in different runs @pytest.mark.parametrize('config', CONFIGS_MEMPROT_IDRAM, indirect=True) @pytest.mark.generic @pytest.mark.xfail('config.getvalue("target") == "esp32s2"', reason='Multiple panic reasons for the same test may surface', run=False) def test_dram_reg1_execute_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.target == 'esp32s2': dut.expect_gme('Memory protection fault') dut.expect(r'Unknown operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_corrupted_backtrace() elif dut.target in ['esp32c3', 'esp32c2', 'esp32c6', 'esp32h2', 'esp32p4']: dut.expect_gme('Instruction access fault') dut.expect_reg_dump(0) dut.expect_stack_dump() dut.expect_cpu_reset() # TODO: IDF-6820: ESP32-S2 -> Fix multiple panic reasons in different runs @pytest.mark.parametrize('config', CONFIGS_MEMPROT_IDRAM, indirect=True) @pytest.mark.generic @pytest.mark.xfail('config.getvalue("target") == "esp32s2"', reason='Multiple panic reasons for the same test may surface', run=False) def test_dram_reg2_execute_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.target == 'esp32s2': dut.expect_gme('InstructionFetchError') dut.expect_reg_dump(0) dut.expect_corrupted_backtrace() elif dut.target in ['esp32c3', 'esp32c2', 'esp32c6', 'esp32h2', 'esp32p4']: dut.expect_gme('Instruction access fault') dut.expect_reg_dump(0) dut.expect_stack_dump() dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_RTC_FAST_MEM, indirect=True) @pytest.mark.generic def test_rtc_fast_reg1_execute_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_exact(r'Test error: Test function has returned') dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_RTC_FAST_MEM, indirect=True) @pytest.mark.generic @pytest.mark.skipif('config.getvalue("target") in ["esp32c6", "esp32h2", "esp32p4"]', reason='Not a violation condition, no PMS peripheral case') def test_rtc_fast_reg2_execute_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Memory protection fault') if dut.target == 'esp32s2': dut.expect(r'Read operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_backtrace() elif dut.target == 'esp32c3': dut.expect(r' memory type: (\S+)') dut.expect(r' faulting address: [0-9xa-f]+') dut.expect(r' operation type: (\S+)') dut.expect_reg_dump(0) dut.expect_stack_dump() dut.expect_cpu_reset() # TODO: IDF-6820: ESP32-S2 -> Fix multiple panic reasons in different runs @pytest.mark.parametrize('config', CONFIGS_MEMPROT_RTC_FAST_MEM, indirect=True) @pytest.mark.generic @pytest.mark.xfail('config.getvalue("target") == "esp32s2"', reason='Multiple panic reasons for the same test may surface', run=False) def test_rtc_fast_reg3_execute_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.target == 'esp32s2': dut.expect_gme('Memory protection fault') dut.expect(r'Unknown operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_backtrace() elif dut.target == 'esp32c3': dut.expect_gme('Memory protection fault') dut.expect(r' memory type: (\S+)') dut.expect(r' faulting address: [0-9xa-f]+') dut.expect(r' operation type: (\S+)') dut.expect_reg_dump(0) dut.expect_stack_dump() elif dut.target in ['esp32c6', 'esp32h2', 'esp32p4']: dut.expect_gme('Instruction access fault') dut.expect_reg_dump(0) dut.expect_stack_dump() dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_RTC_SLOW_MEM, indirect=True) @pytest.mark.generic def test_rtc_slow_reg1_execute_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Memory protection fault') dut.expect(r'Read operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_corrupted_backtrace() dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_RTC_SLOW_MEM, indirect=True) @pytest.mark.generic def test_rtc_slow_reg2_execute_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Memory protection fault') dut.expect(r'Read operation at address [0-9xa-f]+ not permitted \((\S+)\)') dut.expect_reg_dump(0) dut.expect_corrupted_backtrace() dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_FLASH_IDROM, indirect=True) @pytest.mark.generic def test_irom_reg_write_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Store access fault') dut.expect_reg_dump(0) dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_FLASH_IDROM, indirect=True) @pytest.mark.generic def test_drom_reg_write_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Store access fault') dut.expect_reg_dump(0) dut.expect_cpu_reset() @pytest.mark.parametrize('config', CONFIGS_MEMPROT_FLASH_IDROM, indirect=True) @pytest.mark.generic def test_drom_reg_execute_violation(dut: PanicTestDut, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_gme('Instruction access fault') dut.expect_reg_dump(0) dut.expect_cpu_reset() @pytest.mark.esp32 @pytest.mark.generic @pytest.mark.parametrize('config', ['gdbstub_coredump'], indirect=True) def test_gdbstub_coredump(dut: PanicTestDut) -> None: test_func_name = 'test_storeprohibited' dut.run_test_func(test_func_name) dut.process_coredump_uart() dut.expect_exact('Entering gdb stub now.') dut.start_gdb_for_gdbstub() frames = dut.gdb_backtrace() dut.verify_gdb_backtrace(frames, get_default_backtrace(test_func_name)) dut.revert_log_level() return # don't expect "Rebooting" output below def test_hw_stack_guard_cpu(dut: PanicTestDut, cpu: int) -> None: dut.expect_exact(f'Guru Meditation Error: Core {cpu} panic\'ed (Stack protection fault).') dut.expect_none('ASSIST_DEBUG is not triggered BUT interrupt occurred!') dut.expect_exact(f'Detected in task "HWSG{cpu}"') addr = dut.expect('at 0x([0-9a-fA-F]{8})') assert addr.group(1) != b'00000000' addr = dut.expect('Stack pointer: 0x([0-9a-fA-F]{8})') assert addr.group(1) != b'00000000' addr = dut.expect(r'Stack bounds: 0x([0-9a-fA-F]{8})') assert addr.group(1) != b'00000000' start_addr = int(addr.group(1), 16) addr = dut.expect(r' - 0x([0-9a-fA-F]{8})') assert addr.group(1) != b'00000000' end_addr = int(addr.group(1), 16) assert end_addr > start_addr @pytest.mark.parametrize('config', CONFIGS_HW_STACK_GUARD, indirect=True) @pytest.mark.generic def test_hw_stack_guard_cpu0(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) test_hw_stack_guard_cpu(dut, 0) common_test(dut, config) @pytest.mark.parametrize('config', CONFIGS_HW_STACK_GUARD_DUAL_CORE, indirect=True) @pytest.mark.generic def test_hw_stack_guard_cpu1(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) test_hw_stack_guard_cpu(dut, 1) common_test(dut, config) @pytest.mark.esp32 @pytest.mark.parametrize('config', ['panic'], indirect=True) @pytest.mark.generic def test_illegal_access(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) if dut.is_xtensa: dut.expect(r'\[1\] val: (-?\d+) at 0x80000000', timeout=30) dut.expect_gme('LoadProhibited') dut.expect_reg_dump(0) dut.expect_backtrace() dut.expect_elf_sha256() dut.expect_none('Guru Meditation') @pytest.mark.parametrize('config', CONFIG_CAPTURE_DRAM, indirect=True) @pytest.mark.generic def test_capture_dram(dut: PanicTestDut, config: str, test_func_name: str) -> None: dut.run_test_func(test_func_name) dut.expect_elf_sha256() dut.expect_none(['Guru Meditation', 'Re-entered core dump']) core_elf_file = dut.process_coredump_flash() dut.start_gdb_for_coredump(core_elf_file) assert dut.gdb_data_eval_expr('g_data_var') == '43' assert dut.gdb_data_eval_expr('g_bss_var') == '55' assert re.search(r'0x[0-9a-fA-F]+ "Coredump Test"', dut.gdb_data_eval_expr('g_heap_ptr')) assert int(dut.gdb_data_eval_expr('g_cd_iram')) == 0x4243 assert int(dut.gdb_data_eval_expr('g_cd_dram')) == 0x4344 if dut.target != 'esp32c2': assert int(dut.gdb_data_eval_expr('g_rtc_data_var')) == 0x55AA assert int(dut.gdb_data_eval_expr('g_rtc_fast_var')) == 0xAABBCCDD