# SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD # SPDX-License-Identifier: Unlicense OR CC0-1.0 from __future__ import print_function import os import struct import zlib import pytest from pytest_embedded import Dut # To prepare a runner for these tests, # 1. Connect an FPGA with C3 image # 2. Use a COM port for programming and export it as ESPPORT # e.g export ESPPORT=/dev/ttyUSB0 # 3. Use another COM port for resetting efuses and connect its DTR pin to efuse reset pin on the FPGA board. # Export it as EFUSEPORT # e.g export EFUSEPORT=/dev/ttyUSB1 # 4. Run these tests def corrupt_signature(signed_bootloader, seed=0, corrupt_sig=True, corrupt_crc=False, corrupt_single_block=None): # type: (bytes, int, bool, bool, int) -> bytes image = signed_bootloader[:-4096] signature = signed_bootloader[-4096:] sig_blocks = (signature[0:1216], signature[1216:2432], signature[2432:3648]) new_blocks = tuple(corrupt_sig_block(s, seed, corrupt_sig, corrupt_crc) for s in sig_blocks) # if corrupt_single_block is None, corrupt all blocks # otherwise, only corrupt the one with that index set corr_sig_blocks = tuple(new_blocks[n] if corrupt_single_block in [None, n] else sig_blocks[n] for n in range(3)) return image + b''.join(corr_sig_blocks) + signature[3648:] def corrupt_sig_block(sig_block, seed=0, corrupt_sig=True, corrupt_crc=False): # type: (bytes, int, bool, bool) -> bytes assert len(sig_block) == 1216 magic = sig_block[0] assert magic in [0xe7, 0xff] if magic != 0xe7: return sig_block # not valid data = sig_block[:812] new_sig = sig = sig_block[812:1196] crc = sig_block[1196:1200] padding = sig_block[1200:1216] if corrupt_sig: corrupt_idx = seed % len(sig) corrupt_delta = zlib.crc32(bytes(seed)) & 0xFF if corrupt_delta == 0: corrupt_delta = 1 new_byte = sig[corrupt_idx] ^ corrupt_delta new_sig = sig[0:corrupt_idx] + bytes([new_byte]) + sig[corrupt_idx + 1:] assert new_sig != sig if not corrupt_crc: crc = struct.pack(' None: dut.serial.erase_app_header() dut.serial.reset_efuses() dut.burn_wafer_version() dut.serial.bootloader_flash(os.path.join(dut.app.binary_path, 'bootloader/bootloader.bin')) dut.serial.partition_table_flash(os.path.join(dut.app.binary_path, 'partition_table/partition-table.bin')) dut.serial.app_flash(os.path.join(dut.app.binary_path, 'secure_boot.bin')) # Test secure boot flow. # Correctly signed bootloader + correctly signed app should work @pytest.mark.esp32c3 @pytest.mark.esp32s3 def test_examples_security_secure_boot(dut: Dut) -> None: dut_start_secure_app(dut) dut.expect('Secure Boot is enabled', timeout=10) dut.serial.reset_efuses() dut.burn_wafer_version() # Test efuse key index and key block combination. # Any key index can be written to any key block and should work @pytest.mark.esp32c3 @pytest.mark.esp32s3 # Increasing the test timeout to 1200s as the test runs for 18 iterations # and thus the default 600s timeout is not sufficient @pytest.mark.timeout(1200) def test_examples_security_secure_boot_key_combo(dut: Dut) -> None: dut_start_secure_app(dut) dut.expect('Secure Boot is enabled', timeout=10) for index in range(3): for block in range(6): dut.serial.reset_efuses() dut.burn_wafer_version() dut.secure_boot_burn_en_bit() dut.secure_boot_burn_digest('test_rsa_3072_key.pem', index, block) dut.expect('Secure Boot is enabled', timeout=10) dut.serial.reset_efuses() dut.burn_wafer_version() # Test secure boot key revoke. # If a key is revoked, bootloader signed with that key should fail verification @pytest.mark.esp32c3 @pytest.mark.esp32s3 def test_examples_security_secure_boot_key_revoke(dut: Dut) -> None: dut_start_secure_app(dut) dut.expect('Secure Boot is enabled', timeout=10) for index in range(3): dut.serial.reset_efuses() dut.burn_wafer_version() dut.secure_boot_burn_en_bit() dut.serial.burn_efuse('SECURE_BOOT_KEY_REVOKE%d' % index, 1) dut.secure_boot_burn_digest('test_rsa_3072_key.pem', index, 0) dut.expect('secure boot verification failed', timeout=5) dut.serial.reset_efuses() dut.burn_wafer_version() # Test bootloader signature corruption. # Corrupt one byte at a time of bootloader signature and test that the verification fails @pytest.mark.esp32c3 @pytest.mark.esp32s3 @pytest.mark.timeout(18000) # Increasing the test timeout to 18000s as the test runs for 384 iterations # and thus the default 600s timeout is not sufficient def test_examples_security_secure_boot_corrupt_bl_sig(dut: Dut) -> None: dut_start_secure_app(dut) dut.expect('Secure Boot is enabled', timeout=10) bootloader_bin = os.path.join(dut.app.binary_path, 'bootloader/bootloader.bin') with open(bootloader_bin, 'rb') as f: signed_bl = f.read() seeds = range(0, 384) max_seed = max(seeds) for seed in seeds: print('Case %d / %d' % (seed, max_seed)) corrupt_bl = corrupt_signature(signed_bl, seed=seed) with open('corrupt_bl.bin', 'wb') as corrupt_file: corrupt_file.write(corrupt_bl) dut.serial.reset_efuses() dut.burn_wafer_version() dut.serial.bootloader_flash('corrupt_bl.bin') dut.secure_boot_burn_en_bit() dut.secure_boot_burn_digest('test_rsa_3072_key.pem', 0, 0) # Though the order of flashing and burning efuse would not effect the test, # if we flash bootlader before burning en bit, even with no_stub = True # it still calls run_stub() and throws an error as it fails to start stub. dut.expect('Signature Check Failed', timeout=10) dut.serial.reset_efuses() dut.burn_wafer_version() # Test app signature corruption. # Corrupt app signature, one byte at a time, and test that the verification fails @pytest.mark.esp32c3 @pytest.mark.esp32s3 @pytest.mark.timeout(18000) # Increasing the test timeout to 18000s as the test runs for 385 iterations # and thus the default 600s timeout is not sufficient def test_examples_security_secure_boot_corrupt_app_sig(dut: Dut) -> None: dut_start_secure_app(dut) dut.expect('Secure Boot is enabled', timeout=10) app_bin = os.path.join(dut.app.binary_path, 'secure_boot.bin') with open(app_bin, 'rb') as f: signed_app = f.read() seeds = range(0, 384) max_seed = max(seeds) for seed in seeds: print('Case %d / %d' % (seed, max_seed)) corrupt_app = corrupt_signature(signed_app, seed=seed) with open('corrupt_app.bin', 'wb') as corrupt_file: corrupt_file.write(corrupt_app) dut.serial.reset_efuses() dut.burn_wafer_version() dut.serial.app_flash('corrupt_app.bin') dut.secure_boot_burn_en_bit() dut.secure_boot_burn_digest('test_rsa_3072_key.pem', 0, 0) dut.expect('Signature Check Failed', timeout=10) dut.expect('image valid, signature bad', timeout=2) print('Testing invalid CRC...') # Valid signature but invalid CRC dut.serial.reset_efuses() dut.burn_wafer_version() corrupt_app = corrupt_signature(signed_app, corrupt_sig=False, corrupt_crc=True) with open('corrupt_app.bin', 'wb') as corrupt_file: corrupt_file.write(corrupt_app) dut.serial.app_flash('corrupt_app.bin') dut.secure_boot_burn_en_bit() dut.secure_boot_burn_digest('test_rsa_3072_key.pem', 0, 0) dut.expect('Sig block 0 invalid: Stored CRC ends', timeout=2) dut.expect('Secure boot signature verification failed', timeout=2) dut.expect('No bootable app partitions in the partition table', timeout=2)