mirror of
https://github.com/AsahiLinux/u-boot
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d4144e45b4
Buildman currently lacks testing in many areas, including its use of git, make and many command-line flags. Add a functional test which covers some of these areas. So far it does a fake 'build' of all boards for the current source tree. This version reads the real ~/.buildman and boards.cfg files. Future work will improve this. Signed-off-by: Simon Glass <sjg@chromium.org>
249 lines
8.3 KiB
Python
249 lines
8.3 KiB
Python
# Copyright (c) 2012 The Chromium OS Authors.
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#
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# SPDX-License-Identifier: GPL-2.0+
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#
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import re
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import glob
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import os
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import bsettings
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import command
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class Toolchain:
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"""A single toolchain
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Public members:
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gcc: Full path to C compiler
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path: Directory path containing C compiler
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cross: Cross compile string, e.g. 'arm-linux-'
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arch: Architecture of toolchain as determined from the first
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component of the filename. E.g. arm-linux-gcc becomes arm
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"""
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def __init__(self, fname, test, verbose=False):
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"""Create a new toolchain object.
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Args:
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fname: Filename of the gcc component
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test: True to run the toolchain to test it
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"""
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self.gcc = fname
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self.path = os.path.dirname(fname)
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self.cross = os.path.basename(fname)[:-3]
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pos = self.cross.find('-')
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self.arch = self.cross[:pos] if pos != -1 else 'sandbox'
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env = self.MakeEnvironment()
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# As a basic sanity check, run the C compiler with --version
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cmd = [fname, '--version']
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if test:
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result = command.RunPipe([cmd], capture=True, env=env,
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raise_on_error=False)
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self.ok = result.return_code == 0
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if verbose:
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print 'Tool chain test: ',
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if self.ok:
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print 'OK'
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else:
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print 'BAD'
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print 'Command: ', cmd
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print result.stdout
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print result.stderr
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else:
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self.ok = True
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self.priority = self.GetPriority(fname)
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def GetPriority(self, fname):
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"""Return the priority of the toolchain.
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Toolchains are ranked according to their suitability by their
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filename prefix.
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Args:
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fname: Filename of toolchain
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Returns:
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Priority of toolchain, 0=highest, 20=lowest.
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"""
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priority_list = ['-elf', '-unknown-linux-gnu', '-linux',
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'-none-linux-gnueabi', '-uclinux', '-none-eabi',
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'-gentoo-linux-gnu', '-linux-gnueabi', '-le-linux', '-uclinux']
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for prio in range(len(priority_list)):
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if priority_list[prio] in fname:
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return prio
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return prio
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def MakeEnvironment(self):
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"""Returns an environment for using the toolchain.
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Thie takes the current environment, adds CROSS_COMPILE and
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augments PATH so that the toolchain will operate correctly.
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"""
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env = dict(os.environ)
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env['CROSS_COMPILE'] = self.cross
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env['PATH'] += (':' + self.path)
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return env
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class Toolchains:
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"""Manage a list of toolchains for building U-Boot
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We select one toolchain for each architecture type
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Public members:
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toolchains: Dict of Toolchain objects, keyed by architecture name
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paths: List of paths to check for toolchains (may contain wildcards)
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"""
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def __init__(self):
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self.toolchains = {}
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self.paths = []
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self._make_flags = dict(bsettings.GetItems('make-flags'))
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def GetSettings(self):
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toolchains = bsettings.GetItems('toolchain')
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if not toolchains:
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print ("Warning: No tool chains - please add a [toolchain] section"
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" to your buildman config file %s. See README for details" %
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bsettings.config_fname)
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for name, value in toolchains:
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if '*' in value:
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self.paths += glob.glob(value)
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else:
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self.paths.append(value)
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def Add(self, fname, test=True, verbose=False):
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"""Add a toolchain to our list
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We select the given toolchain as our preferred one for its
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architecture if it is a higher priority than the others.
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Args:
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fname: Filename of toolchain's gcc driver
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test: True to run the toolchain to test it
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"""
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toolchain = Toolchain(fname, test, verbose)
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add_it = toolchain.ok
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if toolchain.arch in self.toolchains:
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add_it = (toolchain.priority <
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self.toolchains[toolchain.arch].priority)
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if add_it:
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self.toolchains[toolchain.arch] = toolchain
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def Scan(self, verbose):
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"""Scan for available toolchains and select the best for each arch.
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We look for all the toolchains we can file, figure out the
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architecture for each, and whether it works. Then we select the
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highest priority toolchain for each arch.
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Args:
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verbose: True to print out progress information
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"""
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if verbose: print 'Scanning for tool chains'
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for path in self.paths:
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if verbose: print " - scanning path '%s'" % path
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for subdir in ['.', 'bin', 'usr/bin']:
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dirname = os.path.join(path, subdir)
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if verbose: print " - looking in '%s'" % dirname
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for fname in glob.glob(dirname + '/*gcc'):
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if verbose: print " - found '%s'" % fname
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self.Add(fname, True, verbose)
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def List(self):
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"""List out the selected toolchains for each architecture"""
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print 'List of available toolchains (%d):' % len(self.toolchains)
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if len(self.toolchains):
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for key, value in sorted(self.toolchains.iteritems()):
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print '%-10s: %s' % (key, value.gcc)
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else:
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print 'None'
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def Select(self, arch):
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"""Returns the toolchain for a given architecture
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Args:
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args: Name of architecture (e.g. 'arm', 'ppc_8xx')
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returns:
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toolchain object, or None if none found
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"""
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for name, value in bsettings.GetItems('toolchain-alias'):
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if arch == name:
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arch = value
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if not arch in self.toolchains:
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raise ValueError, ("No tool chain found for arch '%s'" % arch)
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return self.toolchains[arch]
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def ResolveReferences(self, var_dict, args):
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"""Resolve variable references in a string
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This converts ${blah} within the string to the value of blah.
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This function works recursively.
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Args:
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var_dict: Dictionary containing variables and their values
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args: String containing make arguments
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Returns:
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Resolved string
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>>> bsettings.Setup()
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>>> tcs = Toolchains()
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>>> tcs.Add('fred', False)
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>>> var_dict = {'oblique' : 'OBLIQUE', 'first' : 'fi${second}rst', \
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'second' : '2nd'}
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>>> tcs.ResolveReferences(var_dict, 'this=${oblique}_set')
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'this=OBLIQUE_set'
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>>> tcs.ResolveReferences(var_dict, 'this=${oblique}_set${first}nd')
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'this=OBLIQUE_setfi2ndrstnd'
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"""
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re_var = re.compile('(\$\{[-_a-z0-9A-Z]{1,}\})')
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while True:
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m = re_var.search(args)
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if not m:
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break
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lookup = m.group(0)[2:-1]
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value = var_dict.get(lookup, '')
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args = args[:m.start(0)] + value + args[m.end(0):]
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return args
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def GetMakeArguments(self, board):
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"""Returns 'make' arguments for a given board
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The flags are in a section called 'make-flags'. Flags are named
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after the target they represent, for example snapper9260=TESTING=1
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will pass TESTING=1 to make when building the snapper9260 board.
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References to other boards can be added in the string also. For
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example:
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[make-flags]
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at91-boards=ENABLE_AT91_TEST=1
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snapper9260=${at91-boards} BUILD_TAG=442
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snapper9g45=${at91-boards} BUILD_TAG=443
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This will return 'ENABLE_AT91_TEST=1 BUILD_TAG=442' for snapper9260
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and 'ENABLE_AT91_TEST=1 BUILD_TAG=443' for snapper9g45.
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A special 'target' variable is set to the board target.
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Args:
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board: Board object for the board to check.
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Returns:
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'make' flags for that board, or '' if none
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"""
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self._make_flags['target'] = board.target
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arg_str = self.ResolveReferences(self._make_flags,
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self._make_flags.get(board.target, ''))
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args = arg_str.split(' ')
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i = 0
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while i < len(args):
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if not args[i]:
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del args[i]
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else:
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i += 1
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return args
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