mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-11-26 22:52:18 +00:00
99f5303c8b
Some filesystem tests are failing when their image is prepared with guestmount, but succeeding if loop mounts are used instead. The reason seems to be a race condition the guestmount(1) manual page explains: When guestunmount(1)/fusermount(1) exits, guestmount may still be running and cleaning up the mountpoint. The disk image will not be fully finalized. This means that scripts like the following have a nasty race condition: guestmount -a disk.img -i /mnt # copy things into /mnt guestunmount /mnt # immediately try to use 'disk.img' ** UNSAFE ** The solution is to use the --pid-file option to write the guestmount PID to a file, then after guestunmount spin waiting for this PID to exit. The Python standard library has an os.waitpid() function for waiting a child to terminate, but it cannot wait on non-child processes. Implement a utility function that can do this by polling the process repeatedly for a given duration, optionally killing the process if it won't terminate on its own. Apply the suggested solution with this utility function, which makes the failing tests succeed again. Signed-off-by: Alper Nebi Yasak <alpernebiyasak@gmail.com> Reviewed-by: Simon Glass <sjg@chromium.org>
377 lines
12 KiB
Python
377 lines
12 KiB
Python
# SPDX-License-Identifier: GPL-2.0
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# Copyright (c) 2016, NVIDIA CORPORATION. All rights reserved.
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# Utility code shared across multiple tests.
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import hashlib
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import inspect
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import os
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import os.path
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import pytest
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import signal
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import sys
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import time
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import re
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def md5sum_data(data):
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"""Calculate the MD5 hash of some data.
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Args:
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data: The data to hash.
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Returns:
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The hash of the data, as a binary string.
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"""
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h = hashlib.md5()
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h.update(data)
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return h.digest()
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def md5sum_file(fn, max_length=None):
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"""Calculate the MD5 hash of the contents of a file.
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Args:
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fn: The filename of the file to hash.
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max_length: The number of bytes to hash. If the file has more
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bytes than this, they will be ignored. If None or omitted, the
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entire file will be hashed.
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Returns:
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The hash of the file content, as a binary string.
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"""
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with open(fn, 'rb') as fh:
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if max_length:
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params = [max_length]
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else:
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params = []
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data = fh.read(*params)
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return md5sum_data(data)
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class PersistentRandomFile(object):
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"""Generate and store information about a persistent file containing
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random data."""
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def __init__(self, u_boot_console, fn, size):
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"""Create or process the persistent file.
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If the file does not exist, it is generated.
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If the file does exist, its content is hashed for later comparison.
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These files are always located in the "persistent data directory" of
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the current test run.
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Args:
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u_boot_console: A console connection to U-Boot.
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fn: The filename (without path) to create.
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size: The desired size of the file in bytes.
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Returns:
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Nothing.
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"""
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self.fn = fn
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self.abs_fn = u_boot_console.config.persistent_data_dir + '/' + fn
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if os.path.exists(self.abs_fn):
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u_boot_console.log.action('Persistent data file ' + self.abs_fn +
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' already exists')
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self.content_hash = md5sum_file(self.abs_fn)
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else:
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u_boot_console.log.action('Generating ' + self.abs_fn +
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' (random, persistent, %d bytes)' % size)
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data = os.urandom(size)
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with open(self.abs_fn, 'wb') as fh:
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fh.write(data)
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self.content_hash = md5sum_data(data)
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def attempt_to_open_file(fn):
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"""Attempt to open a file, without throwing exceptions.
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Any errors (exceptions) that occur during the attempt to open the file
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are ignored. This is useful in order to test whether a file (in
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particular, a device node) exists and can be successfully opened, in order
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to poll for e.g. USB enumeration completion.
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Args:
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fn: The filename to attempt to open.
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Returns:
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An open file handle to the file, or None if the file could not be
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opened.
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"""
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try:
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return open(fn, 'rb')
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except:
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return None
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def wait_until_open_succeeds(fn):
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"""Poll until a file can be opened, or a timeout occurs.
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Continually attempt to open a file, and return when this succeeds, or
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raise an exception after a timeout.
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Args:
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fn: The filename to attempt to open.
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Returns:
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An open file handle to the file.
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"""
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for i in range(100):
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fh = attempt_to_open_file(fn)
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if fh:
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return fh
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time.sleep(0.1)
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raise Exception('File could not be opened')
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def wait_until_file_open_fails(fn, ignore_errors):
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"""Poll until a file cannot be opened, or a timeout occurs.
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Continually attempt to open a file, and return when this fails, or
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raise an exception after a timeout.
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Args:
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fn: The filename to attempt to open.
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ignore_errors: Indicate whether to ignore timeout errors. If True, the
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function will simply return if a timeout occurs, otherwise an
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exception will be raised.
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Returns:
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Nothing.
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"""
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for i in range(100):
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fh = attempt_to_open_file(fn)
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if not fh:
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return
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fh.close()
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time.sleep(0.1)
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if ignore_errors:
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return
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raise Exception('File can still be opened')
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def run_and_log(u_boot_console, cmd, ignore_errors=False):
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"""Run a command and log its output.
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Args:
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u_boot_console: A console connection to U-Boot.
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cmd: The command to run, as an array of argv[], or a string.
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If a string, note that it is split up so that quoted spaces
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will not be preserved. E.g. "fred and" becomes ['"fred', 'and"']
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ignore_errors: Indicate whether to ignore errors. If True, the function
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will simply return if the command cannot be executed or exits with
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an error code, otherwise an exception will be raised if such
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problems occur.
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Returns:
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The output as a string.
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"""
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if isinstance(cmd, str):
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cmd = cmd.split()
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runner = u_boot_console.log.get_runner(cmd[0], sys.stdout)
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output = runner.run(cmd, ignore_errors=ignore_errors)
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runner.close()
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return output
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def run_and_log_expect_exception(u_boot_console, cmd, retcode, msg):
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"""Run a command that is expected to fail.
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This runs a command and checks that it fails with the expected return code
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and exception method. If not, an exception is raised.
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Args:
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u_boot_console: A console connection to U-Boot.
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cmd: The command to run, as an array of argv[].
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retcode: Expected non-zero return code from the command.
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msg: String that should be contained within the command's output.
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"""
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try:
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runner = u_boot_console.log.get_runner(cmd[0], sys.stdout)
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runner.run(cmd)
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except Exception as e:
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assert(retcode == runner.exit_status)
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assert(msg in runner.output)
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else:
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raise Exception("Expected an exception with retcode %d message '%s',"
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"but it was not raised" % (retcode, msg))
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finally:
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runner.close()
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ram_base = None
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def find_ram_base(u_boot_console):
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"""Find the running U-Boot's RAM location.
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Probe the running U-Boot to determine the address of the first bank
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of RAM. This is useful for tests that test reading/writing RAM, or
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load/save files that aren't associated with some standard address
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typically represented in an environment variable such as
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${kernel_addr_r}. The value is cached so that it only needs to be
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actively read once.
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Args:
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u_boot_console: A console connection to U-Boot.
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Returns:
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The address of U-Boot's first RAM bank, as an integer.
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"""
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global ram_base
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if u_boot_console.config.buildconfig.get('config_cmd_bdi', 'n') != 'y':
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pytest.skip('bdinfo command not supported')
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if ram_base == -1:
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pytest.skip('Previously failed to find RAM bank start')
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if ram_base is not None:
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return ram_base
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with u_boot_console.log.section('find_ram_base'):
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response = u_boot_console.run_command('bdinfo')
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for l in response.split('\n'):
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if '-> start' in l or 'memstart =' in l:
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ram_base = int(l.split('=')[1].strip(), 16)
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break
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if ram_base is None:
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ram_base = -1
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raise Exception('Failed to find RAM bank start in `bdinfo`')
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# We don't want ram_base to be zero as some functions test if the given
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# address is NULL (0). Besides, on some RISC-V targets the low memory
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# is protected that prevents S-mode U-Boot from access.
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# Let's add 2MiB then (size of an ARM LPAE/v8 section).
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ram_base += 1024 * 1024 * 2
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return ram_base
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class PersistentFileHelperCtxMgr(object):
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"""A context manager for Python's "with" statement, which ensures that any
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generated file is deleted (and hence regenerated) if its mtime is older
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than the mtime of the Python module which generated it, and gets an mtime
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newer than the mtime of the Python module which generated after it is
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generated. Objects of this type should be created by factory function
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persistent_file_helper rather than directly."""
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def __init__(self, log, filename):
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"""Initialize a new object.
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Args:
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log: The Logfile object to log to.
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filename: The filename of the generated file.
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Returns:
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Nothing.
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"""
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self.log = log
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self.filename = filename
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def __enter__(self):
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frame = inspect.stack()[1]
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module = inspect.getmodule(frame[0])
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self.module_filename = module.__file__
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self.module_timestamp = os.path.getmtime(self.module_filename)
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if os.path.exists(self.filename):
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filename_timestamp = os.path.getmtime(self.filename)
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if filename_timestamp < self.module_timestamp:
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self.log.action('Removing stale generated file ' +
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self.filename)
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os.unlink(self.filename)
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def __exit__(self, extype, value, traceback):
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if extype:
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try:
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os.path.unlink(self.filename)
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except:
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pass
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return
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logged = False
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for i in range(20):
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filename_timestamp = os.path.getmtime(self.filename)
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if filename_timestamp > self.module_timestamp:
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break
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if not logged:
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self.log.action(
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'Waiting for generated file timestamp to increase')
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logged = True
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os.utime(self.filename)
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time.sleep(0.1)
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def persistent_file_helper(u_boot_log, filename):
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"""Manage the timestamps and regeneration of a persistent generated
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file. This function creates a context manager for Python's "with"
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statement
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Usage:
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with persistent_file_helper(u_boot_console.log, filename):
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code to generate the file, if it's missing.
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Args:
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u_boot_log: u_boot_console.log.
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filename: The filename of the generated file.
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Returns:
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A context manager object.
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"""
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return PersistentFileHelperCtxMgr(u_boot_log, filename)
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def crc32(u_boot_console, address, count):
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"""Helper function used to compute the CRC32 value of a section of RAM.
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Args:
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u_boot_console: A U-Boot console connection.
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address: Address where data starts.
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count: Amount of data to use for calculation.
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Returns:
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CRC32 value
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"""
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bcfg = u_boot_console.config.buildconfig
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has_cmd_crc32 = bcfg.get('config_cmd_crc32', 'n') == 'y'
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assert has_cmd_crc32, 'Cannot compute crc32 without CONFIG_CMD_CRC32.'
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output = u_boot_console.run_command('crc32 %08x %x' % (address, count))
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m = re.search('==> ([0-9a-fA-F]{8})$', output)
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assert m, 'CRC32 operation failed.'
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return m.group(1)
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def waitpid(pid, timeout=60, kill=False):
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"""Wait a process to terminate by its PID
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This is an alternative to a os.waitpid(pid, 0) call that works on
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processes that aren't children of the python process.
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Args:
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pid: PID of a running process.
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timeout: Time in seconds to wait.
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kill: Whether to forcibly kill the process after timeout.
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Returns:
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True, if the process ended on its own.
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False, if the process was killed by this function.
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Raises:
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TimeoutError, if the process is still running after timeout.
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"""
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try:
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for _ in range(timeout):
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os.kill(pid, 0)
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time.sleep(1)
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if kill:
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os.kill(pid, signal.SIGKILL)
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return False
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except ProcessLookupError:
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return True
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raise TimeoutError(
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"Process with PID {} did not terminate after {} seconds."
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.format(pid, timeout)
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)
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