mirror of
https://github.com/AsahiLinux/u-boot
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24142ead21
These are not very important message. Change them to use the 'debug' level instead of 'detail'. Signed-off-by: Simon Glass <sjg@chromium.org>
536 lines
16 KiB
Python
536 lines
16 KiB
Python
# SPDX-License-Identifier: GPL-2.0+
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# Copyright 2018 Google, Inc
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# Written by Simon Glass <sjg@chromium.org>
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#
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# Holds and modifies the state information held by binman
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#
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from collections import defaultdict
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import hashlib
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import re
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import time
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import threading
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from dtoc import fdt
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import os
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from u_boot_pylib import tools
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from u_boot_pylib import tout
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OUR_PATH = os.path.dirname(os.path.realpath(__file__))
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# Map an dtb etype to its expected filename
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DTB_TYPE_FNAME = {
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'u-boot-spl-dtb': 'spl/u-boot-spl.dtb',
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'u-boot-tpl-dtb': 'tpl/u-boot-tpl.dtb',
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'u-boot-vpl-dtb': 'vpl/u-boot-vpl.dtb',
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}
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# Records the device-tree files known to binman, keyed by entry type (e.g.
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# 'u-boot-spl-dtb'). These are the output FDT files, which can be updated by
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# binman. They have been copied to <xxx>.out files.
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#
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# key: entry type (e.g. 'u-boot-dtb)
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# value: tuple:
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# Fdt object
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# Filename
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output_fdt_info = {}
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# Prefix to add to an fdtmap path to turn it into a path to the /binman node
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fdt_path_prefix = ''
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# Arguments passed to binman to provide arguments to entries
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entry_args = {}
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# True to use fake device-tree files for testing (see U_BOOT_DTB_DATA in
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# ftest.py)
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use_fake_dtb = False
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# The DTB which contains the full image information
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main_dtb = None
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# Allow entries to expand after they have been packed. This is detected and
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# forces a re-pack. If not allowed, any attempted expansion causes an error in
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# Entry.ProcessContentsUpdate()
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allow_entry_expansion = True
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# Don't allow entries to contract after they have been packed. Instead just
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# leave some wasted space. If allowed, this is detected and forces a re-pack,
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# but may result in entries that oscillate in size, thus causing a pack error.
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# An example is a compressed device tree where the original offset values
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# result in a larger compressed size than the new ones, but then after updating
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# to the new ones, the compressed size increases, etc.
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allow_entry_contraction = False
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# Number of threads to use for binman (None means machine-dependent)
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num_threads = None
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class Timing:
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"""Holds information about an operation that is being timed
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Properties:
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name: Operation name (only one of each name is stored)
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start: Start time of operation in seconds (None if not start)
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accum:: Amount of time spent on this operation so far, in seconds
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"""
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def __init__(self, name):
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self.name = name
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self.start = None # cause an error if TimingStart() is not called
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self.accum = 0.0
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# Holds timing info for each name:
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# key: name of Timing info (Timing.name)
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# value: Timing object
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timing_info = {}
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def GetFdtForEtype(etype):
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"""Get the Fdt object for a particular device-tree entry
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Binman keeps track of at least one device-tree file called u-boot.dtb but
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can also have others (e.g. for SPL). This function looks up the given
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entry and returns the associated Fdt object.
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Args:
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etype: Entry type of device tree (e.g. 'u-boot-dtb')
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Returns:
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Fdt object associated with the entry type
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"""
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value = output_fdt_info.get(etype);
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if not value:
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return None
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return value[0]
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def GetFdtPath(etype):
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"""Get the full pathname of a particular Fdt object
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Similar to GetFdtForEtype() but returns the pathname associated with the
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Fdt.
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Args:
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etype: Entry type of device tree (e.g. 'u-boot-dtb')
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Returns:
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Full path name to the associated Fdt
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"""
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return output_fdt_info[etype][0]._fname
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def GetFdtContents(etype='u-boot-dtb'):
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"""Looks up the FDT pathname and contents
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This is used to obtain the Fdt pathname and contents when needed by an
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entry. It supports a 'fake' dtb, allowing tests to substitute test data for
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the real dtb.
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Args:
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etype: Entry type to look up (e.g. 'u-boot.dtb').
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Returns:
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tuple:
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pathname to Fdt
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Fdt data (as bytes)
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"""
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if etype not in output_fdt_info:
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return None, None
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if not use_fake_dtb:
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pathname = GetFdtPath(etype)
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data = GetFdtForEtype(etype).GetContents()
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else:
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fname = output_fdt_info[etype][1]
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pathname = tools.get_input_filename(fname)
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data = tools.read_file(pathname)
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return pathname, data
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def UpdateFdtContents(etype, data):
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"""Update the contents of a particular device tree
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The device tree is updated and written back to its file. This affects what
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is returned from future called to GetFdtContents(), etc.
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Args:
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etype: Entry type (e.g. 'u-boot-dtb')
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data: Data to replace the DTB with
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"""
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dtb, fname = output_fdt_info[etype]
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dtb_fname = dtb.GetFilename()
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tools.write_file(dtb_fname, data)
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dtb = fdt.FdtScan(dtb_fname)
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output_fdt_info[etype] = [dtb, fname]
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def SetEntryArgs(args):
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"""Set the value of the entry args
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This sets up the entry_args dict which is used to supply entry arguments to
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entries.
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Args:
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args: List of entry arguments, each in the format "name=value"
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"""
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global entry_args
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entry_args = {}
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tout.debug('Processing entry args:')
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if args:
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for arg in args:
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m = re.match('([^=]*)=(.*)', arg)
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if not m:
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raise ValueError("Invalid entry arguemnt '%s'" % arg)
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name, value = m.groups()
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tout.debug(' %20s = %s' % (name, value))
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entry_args[name] = value
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tout.debug('Processing entry args done')
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def GetEntryArg(name):
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"""Get the value of an entry argument
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Args:
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name: Name of argument to retrieve
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Returns:
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String value of argument
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"""
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return entry_args.get(name)
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def GetEntryArgBool(name):
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"""Get the value of an entry argument as a boolean
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Args:
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name: Name of argument to retrieve
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Returns:
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False if the entry argument is consider False (empty, '0' or 'n'), else
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True
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"""
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val = GetEntryArg(name)
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return val and val not in ['n', '0']
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def Prepare(images, dtb):
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"""Get device tree files ready for use
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This sets up a set of device tree files that can be retrieved by
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GetAllFdts(). This includes U-Boot proper and any SPL device trees.
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Args:
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images: List of images being used
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dtb: Main dtb
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"""
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global output_fdt_info, main_dtb, fdt_path_prefix
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# Import these here in case libfdt.py is not available, in which case
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# the above help option still works.
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from dtoc import fdt
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from dtoc import fdt_util
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# If we are updating the DTBs we need to put these updated versions
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# where Entry_blob_dtb can find them. We can ignore 'u-boot.dtb'
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# since it is assumed to be the one passed in with options.dt, and
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# was handled just above.
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main_dtb = dtb
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output_fdt_info.clear()
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fdt_path_prefix = ''
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output_fdt_info['u-boot-dtb'] = [dtb, 'u-boot.dtb']
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if use_fake_dtb:
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for etype, fname in DTB_TYPE_FNAME.items():
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output_fdt_info[etype] = [dtb, fname]
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else:
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fdt_set = {}
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for etype, fname in DTB_TYPE_FNAME.items():
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infile = tools.get_input_filename(fname, allow_missing=True)
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if infile and os.path.exists(infile):
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fname_dtb = fdt_util.EnsureCompiled(infile)
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out_fname = tools.get_output_filename('%s.out' %
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os.path.split(fname)[1])
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tools.write_file(out_fname, tools.read_file(fname_dtb))
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other_dtb = fdt.FdtScan(out_fname)
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output_fdt_info[etype] = [other_dtb, out_fname]
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def PrepareFromLoadedData(image):
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"""Get device tree files ready for use with a loaded image
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Loaded images are different from images that are being created by binman,
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since there is generally already an fdtmap and we read the description from
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that. This provides the position and size of every entry in the image with
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no calculation required.
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This function uses the same output_fdt_info[] as Prepare(). It finds the
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device tree files, adds a reference to the fdtmap and sets the FDT path
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prefix to translate from the fdtmap (where the root node is the image node)
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to the normal device tree (where the image node is under a /binman node).
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Args:
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images: List of images being used
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"""
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global output_fdt_info, main_dtb, fdt_path_prefix
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tout.info('Preparing device trees')
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output_fdt_info.clear()
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fdt_path_prefix = ''
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output_fdt_info['fdtmap'] = [image.fdtmap_dtb, 'u-boot.dtb']
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main_dtb = None
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tout.info(" Found device tree type 'fdtmap' '%s'" % image.fdtmap_dtb.name)
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for etype, value in image.GetFdts().items():
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entry, fname = value
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out_fname = tools.get_output_filename('%s.dtb' % entry.etype)
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tout.info(" Found device tree type '%s' at '%s' path '%s'" %
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(etype, out_fname, entry.GetPath()))
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entry._filename = entry.GetDefaultFilename()
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data = entry.ReadData()
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tools.write_file(out_fname, data)
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dtb = fdt.Fdt(out_fname)
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dtb.Scan()
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image_node = dtb.GetNode('/binman')
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if 'multiple-images' in image_node.props:
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image_node = dtb.GetNode('/binman/%s' % image.image_node)
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fdt_path_prefix = image_node.path
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output_fdt_info[etype] = [dtb, None]
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tout.info(" FDT path prefix '%s'" % fdt_path_prefix)
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def GetAllFdts():
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"""Yield all device tree files being used by binman
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Yields:
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Device trees being used (U-Boot proper, SPL, TPL, VPL)
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"""
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if main_dtb:
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yield main_dtb
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for etype in output_fdt_info:
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dtb = output_fdt_info[etype][0]
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if dtb != main_dtb:
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yield dtb
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def GetUpdateNodes(node, for_repack=False):
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"""Yield all the nodes that need to be updated in all device trees
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The property referenced by this node is added to any device trees which
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have the given node. Due to removable of unwanted nodes, SPL and TPL may
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not have this node.
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Args:
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node: Node object in the main device tree to look up
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for_repack: True if we want only nodes which need 'repack' properties
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added to them (e.g. 'orig-offset'), False to return all nodes. We
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don't add repack properties to SPL/TPL device trees.
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Yields:
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Node objects in each device tree that is in use (U-Boot proper, which
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is node, SPL and TPL)
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"""
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yield node
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for entry_type, (dtb, fname) in output_fdt_info.items():
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if dtb != node.GetFdt():
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if for_repack and entry_type != 'u-boot-dtb':
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continue
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other_node = dtb.GetNode(fdt_path_prefix + node.path)
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if other_node:
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yield other_node
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def AddZeroProp(node, prop, for_repack=False):
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"""Add a new property to affected device trees with an integer value of 0.
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Args:
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prop_name: Name of property
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for_repack: True is this property is only needed for repacking
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"""
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for n in GetUpdateNodes(node, for_repack):
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n.AddZeroProp(prop)
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def AddSubnode(node, name):
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"""Add a new subnode to a node in affected device trees
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Args:
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node: Node to add to
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name: name of node to add
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Returns:
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New subnode that was created in main tree
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"""
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first = None
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for n in GetUpdateNodes(node):
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subnode = n.AddSubnode(name)
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if not first:
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first = subnode
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return first
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def AddString(node, prop, value):
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"""Add a new string property to affected device trees
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Args:
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prop_name: Name of property
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value: String value (which will be \0-terminated in the DT)
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"""
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for n in GetUpdateNodes(node):
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n.AddString(prop, value)
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def AddInt(node, prop, value):
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"""Add a new string property to affected device trees
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Args:
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prop_name: Name of property
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val: Integer value of property
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"""
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for n in GetUpdateNodes(node):
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n.AddInt(prop, value)
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def SetInt(node, prop, value, for_repack=False):
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"""Update an integer property in affected device trees with an integer value
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This is not allowed to change the size of the FDT.
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Args:
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prop_name: Name of property
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for_repack: True is this property is only needed for repacking
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"""
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for n in GetUpdateNodes(node, for_repack):
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tout.debug("File %s: Update node '%s' prop '%s' to %#x" %
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(n.GetFdt().name, n.path, prop, value))
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n.SetInt(prop, value)
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def CheckAddHashProp(node):
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hash_node = node.FindNode('hash')
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if hash_node:
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algo = hash_node.props.get('algo')
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if not algo:
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return "Missing 'algo' property for hash node"
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if algo.value == 'sha256':
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size = 32
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else:
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return "Unknown hash algorithm '%s'" % algo.value
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for n in GetUpdateNodes(hash_node):
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n.AddEmptyProp('value', size)
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def CheckSetHashValue(node, get_data_func):
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hash_node = node.FindNode('hash')
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if hash_node:
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algo = hash_node.props.get('algo').value
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if algo == 'sha256':
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m = hashlib.sha256()
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m.update(get_data_func())
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data = m.digest()
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for n in GetUpdateNodes(hash_node):
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n.SetData('value', data)
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def SetAllowEntryExpansion(allow):
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"""Set whether post-pack expansion of entries is allowed
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Args:
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allow: True to allow expansion, False to raise an exception
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"""
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global allow_entry_expansion
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allow_entry_expansion = allow
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def AllowEntryExpansion():
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"""Check whether post-pack expansion of entries is allowed
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Returns:
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True if expansion should be allowed, False if an exception should be
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raised
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"""
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return allow_entry_expansion
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def SetAllowEntryContraction(allow):
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"""Set whether post-pack contraction of entries is allowed
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Args:
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allow: True to allow contraction, False to raise an exception
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"""
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global allow_entry_contraction
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allow_entry_contraction = allow
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def AllowEntryContraction():
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"""Check whether post-pack contraction of entries is allowed
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Returns:
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True if contraction should be allowed, False if an exception should be
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raised
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"""
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return allow_entry_contraction
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def SetThreads(threads):
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"""Set the number of threads to use when building sections
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Args:
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threads: Number of threads to use (None for default, 0 for
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single-threaded)
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"""
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global num_threads
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num_threads = threads
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def GetThreads():
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"""Get the number of threads to use when building sections
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Returns:
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Number of threads to use (None for default, 0 for single-threaded)
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"""
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return num_threads
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def GetTiming(name):
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"""Get the timing info for a particular operation
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The object is created if it does not already exist.
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Args:
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name: Operation name to get
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Returns:
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Timing object for the current thread
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"""
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threaded_name = '%s:%d' % (name, threading.get_ident())
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timing = timing_info.get(threaded_name)
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if not timing:
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timing = Timing(threaded_name)
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timing_info[threaded_name] = timing
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return timing
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def TimingStart(name):
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"""Start the timer for an operation
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Args:
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name: Operation name to start
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"""
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timing = GetTiming(name)
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timing.start = time.monotonic()
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def TimingAccum(name):
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"""Stop and accumlate the time for an operation
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This measures the time since the last TimingStart() and adds that to the
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accumulated time.
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Args:
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name: Operation name to start
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"""
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timing = GetTiming(name)
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timing.accum += time.monotonic() - timing.start
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def TimingShow():
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"""Show all timing information"""
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duration = defaultdict(float)
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for threaded_name, timing in timing_info.items():
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name = threaded_name.split(':')[0]
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duration[name] += timing.accum
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for name, seconds in duration.items():
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print('%10s: %10.1fms' % (name, seconds * 1000))
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def GetVersion(path=OUR_PATH):
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"""Get the version string for binman
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Args:
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path: Path to 'version' file
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Returns:
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str: String version, e.g. 'v2021.10'
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"""
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version_fname = os.path.join(path, 'version')
|
|
if os.path.exists(version_fname):
|
|
version = tools.read_file(version_fname, binary=False)
|
|
else:
|
|
version = '(unreleased)'
|
|
return version
|