test/py: add spi_flash tests

Add basic tests for the spi_flash subsystem.

Signed-off-by: Liam Beguin <liambeguin@gmail.com>
Reviewed-by: Stephen Warren <swarren@nvidia.com>
This commit is contained in:
Liam Beguin 2018-03-14 19:15:16 -04:00 committed by Tom Rini
parent c3342cd58f
commit 7f9b50a27c

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test/py/tests/test_sf.py Normal file
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# Copyright (c) 2016, Xilinx Inc. Michal Simek
# Copyright (c) 2017, Xiphos Systems Corp. All rights reserved.
#
# SPDX-License-Identifier: GPL-2.0
import re
import pytest
import random
import u_boot_utils
"""
Note: This test relies on boardenv_* containing configuration values to define
which SPI Flash areas are available for testing. Without this, this test will
be automatically skipped.
For example:
# A list of sections of Flash memory to be tested.
env__sf_configs = (
{
# Where in SPI Flash should the test operate.
'offset': 0x00000000,
# This value is optional.
# If present, specifies the [[bus:]cs] argument used in `sf probe`
# If missing, defaults to 0.
'id': '0:1',
# This value is optional.
# If set as a number, specifies the speed of the SPI Flash.
# If set as an array of 2, specifies a range for a random speed.
# If missing, defaults to 0.
'speed': 1000000,
# This value is optional.
# If present, specifies the size to use for read/write operations.
# If missing, the SPI Flash page size is used as a default (based on
# the `sf probe` output).
'len': 0x10000,
# This value is optional.
# If present, specifies if the test can write to Flash offset
# If missing, defaults to False.
'writeable': False,
# This value is optional.
# If present, specifies the expected CRC32 value of the flash area.
# If missing, extra check is ignored.
'crc32': 0xCAFECAFE,
},
)
"""
def sf_prepare(u_boot_console, env__sf_config):
"""Check global state of the SPI Flash before running any test.
Args:
u_boot_console: A U-Boot console connection.
env__sf_config: The single SPI Flash device configuration on which to
run the tests.
Returns:
sf_params: a dictionary of SPI Flash parameters.
"""
sf_params = {}
sf_params['ram_base'] = u_boot_utils.find_ram_base(u_boot_console)
probe_id = env__sf_config.get('id', 0)
speed = env__sf_config.get('speed', 0)
if isinstance(speed, int):
sf_params['speed'] = speed
else:
assert len(speed) == 2, "If speed is a list, it must have 2 entries"
sf_params['speed'] = random.randint(speed[0], speed[1])
cmd = 'sf probe %d %d' % (probe_id, sf_params['speed'])
output = u_boot_console.run_command(cmd)
assert 'SF: Detected' in output, 'No Flash device available'
m = re.search('page size (.+?) Bytes', output)
assert m, 'SPI Flash page size not recognized'
sf_params['page_size'] = int(m.group(1))
m = re.search('erase size (.+?) KiB', output)
assert m, 'SPI Flash erase size not recognized'
sf_params['erase_size'] = int(m.group(1))
sf_params['erase_size'] *= 1024
m = re.search('total (.+?) MiB', output)
assert m, 'SPI Flash total size not recognized'
sf_params['total_size'] = int(m.group(1))
sf_params['total_size'] *= 1024 * 1024
assert 'offset' in env__sf_config, \
'\'offset\' is required for this test.'
sf_params['len'] = env__sf_config.get('len', sf_params['erase_size'])
assert not env__sf_config['offset'] % sf_params['erase_size'], \
'offset not multiple of erase size.'
assert not sf_params['len'] % sf_params['erase_size'], \
'erase length not multiple of erase size.'
assert not (env__sf_config.get('writeable', False) and
'crc32' in env__sf_config), \
'Cannot check crc32 on writeable sections'
return sf_params
def sf_read(u_boot_console, env__sf_config, sf_params):
"""Helper function used to read and compute the CRC32 value of a section of
SPI Flash memory.
Args:
u_boot_console: A U-Boot console connection.
env__sf_config: The single SPI Flash device configuration on which to
run the tests.
sf_params: SPI Flash parameters.
Returns:
CRC32 value of SPI Flash section
"""
addr = sf_params['ram_base']
offset = env__sf_config['offset']
count = sf_params['len']
pattern = random.randint(0, 0xFF)
crc_expected = env__sf_config.get('crc32', None)
cmd = 'mw.b %08x %02x %x' % (addr, pattern, count)
u_boot_console.run_command(cmd)
crc_pattern = u_boot_utils.crc32(u_boot_console, addr, count)
if crc_expected:
assert crc_pattern != crc_expected
cmd = 'sf read %08x %08x %x' % (addr, offset, count)
response = u_boot_console.run_command(cmd)
assert 'Read: OK' in response, 'Read operation failed'
crc_readback = u_boot_utils.crc32(u_boot_console, addr, count)
assert crc_pattern != crc_readback, 'sf read did not update RAM content.'
if crc_expected:
assert crc_readback == crc_expected
return crc_readback
def sf_update(u_boot_console, env__sf_config, sf_params):
"""Helper function used to update a section of SPI Flash memory.
Args:
u_boot_console: A U-Boot console connection.
env__sf_config: The single SPI Flash device configuration on which to
run the tests.
Returns:
CRC32 value of SPI Flash section
"""
addr = sf_params['ram_base']
offset = env__sf_config['offset']
count = sf_params['len']
pattern = int(random.random() * 0xFF)
cmd = 'mw.b %08x %02x %x' % (addr, pattern, count)
u_boot_console.run_command(cmd)
crc_pattern = u_boot_utils.crc32(u_boot_console, addr, count)
cmd = 'sf update %08x %08x %x' % (addr, offset, count)
u_boot_console.run_command(cmd)
crc_readback = sf_read(u_boot_console, env__sf_config, sf_params)
assert crc_readback == crc_pattern
@pytest.mark.buildconfigspec('cmd_sf')
@pytest.mark.buildconfigspec('cmd_crc32')
@pytest.mark.buildconfigspec('cmd_memory')
def test_sf_read(u_boot_console, env__sf_config):
sf_params = sf_prepare(u_boot_console, env__sf_config)
sf_read(u_boot_console, env__sf_config, sf_params)
@pytest.mark.buildconfigspec('cmd_sf')
@pytest.mark.buildconfigspec('cmd_crc32')
@pytest.mark.buildconfigspec('cmd_memory')
def test_sf_read_twice(u_boot_console, env__sf_config):
sf_params = sf_prepare(u_boot_console, env__sf_config)
crc1 = sf_read(u_boot_console, env__sf_config, sf_params)
sf_params['ram_base'] += 0x100
crc2 = sf_read(u_boot_console, env__sf_config, sf_params)
assert crc1 == crc2, 'CRC32 of two successive read operation do not match'
@pytest.mark.buildconfigspec('cmd_sf')
@pytest.mark.buildconfigspec('cmd_crc32')
@pytest.mark.buildconfigspec('cmd_memory')
def test_sf_erase(u_boot_console, env__sf_config):
if not env__sf_config.get('writeable', False):
pytest.skip('Flash config is tagged as not writeable')
sf_params = sf_prepare(u_boot_console, env__sf_config)
addr = sf_params['ram_base']
offset = env__sf_config['offset']
count = sf_params['len']
cmd = 'sf erase %08x %x' % (offset, count)
output = u_boot_console.run_command(cmd)
assert 'Erased: OK' in output, 'Erase operation failed'
cmd = 'mw.b %08x ff %x' % (addr, count)
u_boot_console.run_command(cmd)
crc_ffs = u_boot_utils.crc32(u_boot_console, addr, count)
crc_read = sf_read(u_boot_console, env__sf_config, sf_params)
assert crc_ffs == crc_read, 'Unexpected CRC32 after erase operation.'
@pytest.mark.buildconfigspec('cmd_sf')
@pytest.mark.buildconfigspec('cmd_crc32')
@pytest.mark.buildconfigspec('cmd_memory')
def test_sf_update(u_boot_console, env__sf_config):
if not env__sf_config.get('writeable', False):
pytest.skip('Flash config is tagged as not writeable')
sf_params = sf_prepare(u_boot_console, env__sf_config)
sf_update(u_boot_console, env__sf_config, sf_params)