utils/remote-exec.py - llvm-project/llvm - Git at Google

 #!/usr/bin/env python
 #===----------------------------------------------------------------------===##
 #
 # Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 # See https://llvm.org/LICENSE.txt for license information.
 # SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 #
 #===----------------------------------------------------------------------===##

 """
 Runs an executable on a remote host.

 This is meant to be used as an executor when running the LLVM and the Libraries
 tests on a target.
 """

 import argparse
 import os
 import posixpath
 import shlex
 import subprocess
 import sys
 import tarfile
 import tempfile
 import re

 def ssh(args, command):
     cmd = ['ssh', '-oBatchMode=yes']
     if args.extra_ssh_args is not None:
         cmd.extend(shlex.split(args.extra_ssh_args))
     return cmd + [args.host, command]


 def scp(args, src, dst):
     cmd = ['scp', '-q', '-oBatchMode=yes']
     if args.extra_scp_args is not None:
         cmd.extend(shlex.split(args.extra_scp_args))
     return cmd + [src, '{}:{}'.format(args.host, dst)]


 def main():
     parser = argparse.ArgumentParser()
     parser.add_argument('--host', type=str, required=True)
     parser.add_argument('--execdir', type=str, required=True)
     parser.add_argument('--extra-ssh-args', type=str, required=False)
     parser.add_argument('--extra-scp-args', type=str, required=False)
     parser.add_argument('--codesign_identity', type=str, required=False, default=None)
     parser.add_argument('--env', type=str, nargs='*', required=False, default=dict())

     # Note: The default value is for the backward compatibility with a hack in
     # libcxx test suite.
     # If an argument is a file that ends in `.tmp.exe`, assume it is the name
     # of an executable generated by a test file. We call these test-executables
     # below. This allows us to do custom processing like codesigning test-executables
     # and changing their path when running on the remote host. It's also possible
     # for there to be no such executable, for example in the case of a .sh.cpp
     # test.
     parser.add_argument('--exec-pattern', type=str, required=False, default='.*\.tmp\.exe',
                         help='The name regex pattern of the executables generated by \
                               a test file. Specifying it allows us to do custom \
                               processing like codesigning test-executables \
                               and changing their path when running on \
                               the remote host. It\'s also possible for there \
                               to be no such executable, for example in \
                               the case of a .sh.cpp test.')

     parser.add_argument("command", nargs=argparse.ONE_OR_MORE)
     args = parser.parse_args()
     commandLine = args.command

     # Create a temporary directory where the test will be run.
     # That is effectively the value of %T on the remote host.
     tmp = subprocess.check_output(
                   ssh(args, 'mktemp -d /tmp/llvm.XXXXXXXXXX'),
                   universal_newlines=True
               ).strip()

     isExecutable = lambda exe: re.match(args.exec_pattern, exe) and os.path.exists(exe)
     pathOnRemote = lambda file: posixpath.join(tmp, os.path.basename(file))

     try:
         # Do any necessary codesigning of test-executables found in the command line.
         if args.codesign_identity:
             for exe in filter(isExecutable, commandLine):
                 subprocess.check_call(
                     ['xcrun', 'codesign', '-f', '-s', args.codesign_identity, exe],
                     env={})

         # tar up the execution directory (which contains everything that's needed
         # to run the test), and copy the tarball over to the remote host.
         try:
             tmpTar = tempfile.NamedTemporaryFile(suffix='.tar', delete=False)
             with tarfile.open(fileobj=tmpTar, mode='w') as tarball:
                 tarball.add(args.execdir, arcname=os.path.basename(args.execdir))

             # Make sure we close the file before we scp it, because accessing
             # the temporary file while still open doesn't work on Windows.
             tmpTar.close()
             remoteTarball = pathOnRemote(tmpTar.name)
             subprocess.check_call(scp(args, tmpTar.name, remoteTarball))
         finally:
             # Make sure we close the file in case an exception happens before
             # we've closed it above -- otherwise close() is idempotent.
             tmpTar.close()
             os.remove(tmpTar.name)

         # Untar the dependencies in the temporary directory and remove the tarball.
         remoteCommands = [
             'tar -xf {} -C {} --strip-components 1'.format(remoteTarball, tmp),
             'rm {}'.format(remoteTarball)
         ]

         # Make sure all executables in the remote command line have 'execute'
         # permissions on the remote host. The host that compiled the test-executable
         # might not have a notion of 'executable' permissions.
         for exe in filter(isExecutable, commandLine):
             remoteCommands.append('chmod +x {}'.format(pathOnRemote(exe)))

         # Execute the command through SSH in the temporary directory, with the
         # correct environment. We tweak the command line to run it on the remote
         # host by transforming the path of test-executables to their path in the
         # temporary directory on the remote host.
         for i, x in enumerate(commandLine):
             if isExecutable(x):
                 commandLine[i] = pathOnRemote(x)
         remoteCommands.append('cd {}'.format(tmp))
         if args.env:
             remoteCommands.append('export {}'.format(' '.join(args.env)))
         remoteCommands.append(subprocess.list2cmdline(commandLine))

         # Finally, SSH to the remote host and execute all the commands.
         rc = subprocess.call(ssh(args, ' && '.join(remoteCommands)))
         return rc

     finally:
         # Make sure the temporary directory is removed when we're done.
         subprocess.check_call(ssh(args, 'rm -r {}'.format(tmp)))


 if __name__ == '__main__':
     exit(main())
	#!/usr/bin/env python
	#===----------------------------------------------------------------------===##
	#
	# Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	# See https://llvm.org/LICENSE.txt for license information.
	# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	#
	#===----------------------------------------------------------------------===##

	"""
	Runs an executable on a remote host.

	This is meant to be used as an executor when running the LLVM and the Libraries
	tests on a target.
	"""

	import argparse
	import os
	import posixpath
	import shlex
	import subprocess
	import sys
	import tarfile
	import tempfile
	import re

	def ssh(args, command):
	cmd = ['ssh', '-oBatchMode=yes']
	if args.extra_ssh_args is not None:
	cmd.extend(shlex.split(args.extra_ssh_args))
	return cmd + [args.host, command]


	def scp(args, src, dst):
	cmd = ['scp', '-q', '-oBatchMode=yes']
	if args.extra_scp_args is not None:
	cmd.extend(shlex.split(args.extra_scp_args))
	return cmd + [src, '{}:{}'.format(args.host, dst)]


	def main():
	parser = argparse.ArgumentParser()
	parser.add_argument('--host', type=str, required=True)
	parser.add_argument('--execdir', type=str, required=True)
	parser.add_argument('--extra-ssh-args', type=str, required=False)
	parser.add_argument('--extra-scp-args', type=str, required=False)
	parser.add_argument('--codesign_identity', type=str, required=False, default=None)
	parser.add_argument('--env', type=str, nargs='*', required=False, default=dict())

	# Note: The default value is for the backward compatibility with a hack in
	# libcxx test suite.
	# If an argument is a file that ends in `.tmp.exe`, assume it is the name
	# of an executable generated by a test file. We call these test-executables
	# below. This allows us to do custom processing like codesigning test-executables
	# and changing their path when running on the remote host. It's also possible
	# for there to be no such executable, for example in the case of a .sh.cpp
	# test.
	parser.add_argument('--exec-pattern', type=str, required=False, default='.*\.tmp\.exe',
	help='The name regex pattern of the executables generated by \
	a test file. Specifying it allows us to do custom \
	processing like codesigning test-executables \
	and changing their path when running on \
	the remote host. It\'s also possible for there \
	to be no such executable, for example in \
	the case of a .sh.cpp test.')

	parser.add_argument("command", nargs=argparse.ONE_OR_MORE)
	args = parser.parse_args()
	commandLine = args.command

	# Create a temporary directory where the test will be run.
	# That is effectively the value of %T on the remote host.
	tmp = subprocess.check_output(
	ssh(args, 'mktemp -d /tmp/llvm.XXXXXXXXXX'),
	universal_newlines=True
	).strip()

	isExecutable = lambda exe: re.match(args.exec_pattern, exe) and os.path.exists(exe)
	pathOnRemote = lambda file: posixpath.join(tmp, os.path.basename(file))

	try:
	# Do any necessary codesigning of test-executables found in the command line.
	if args.codesign_identity:
	for exe in filter(isExecutable, commandLine):
	subprocess.check_call(
	['xcrun', 'codesign', '-f', '-s', args.codesign_identity, exe],
	env={})

	# tar up the execution directory (which contains everything that's needed
	# to run the test), and copy the tarball over to the remote host.
	try:
	tmpTar = tempfile.NamedTemporaryFile(suffix='.tar', delete=False)
	with tarfile.open(fileobj=tmpTar, mode='w') as tarball:
	tarball.add(args.execdir, arcname=os.path.basename(args.execdir))

	# Make sure we close the file before we scp it, because accessing
	# the temporary file while still open doesn't work on Windows.
	tmpTar.close()
	remoteTarball = pathOnRemote(tmpTar.name)
	subprocess.check_call(scp(args, tmpTar.name, remoteTarball))
	finally:
	# Make sure we close the file in case an exception happens before
	# we've closed it above -- otherwise close() is idempotent.
	tmpTar.close()
	os.remove(tmpTar.name)

	# Untar the dependencies in the temporary directory and remove the tarball.
	remoteCommands = [
	'tar -xf {} -C {} --strip-components 1'.format(remoteTarball, tmp),
	'rm {}'.format(remoteTarball)
	]

	# Make sure all executables in the remote command line have 'execute'
	# permissions on the remote host. The host that compiled the test-executable
	# might not have a notion of 'executable' permissions.
	for exe in filter(isExecutable, commandLine):
	remoteCommands.append('chmod +x {}'.format(pathOnRemote(exe)))

	# Execute the command through SSH in the temporary directory, with the
	# correct environment. We tweak the command line to run it on the remote
	# host by transforming the path of test-executables to their path in the
	# temporary directory on the remote host.
	for i, x in enumerate(commandLine):
	if isExecutable(x):
	commandLine[i] = pathOnRemote(x)
	remoteCommands.append('cd {}'.format(tmp))
	if args.env:
	remoteCommands.append('export {}'.format(' '.join(args.env)))
	remoteCommands.append(subprocess.list2cmdline(commandLine))

	# Finally, SSH to the remote host and execute all the commands.
	rc = subprocess.call(ssh(args, ' && '.join(remoteCommands)))
	return rc

	finally:
	# Make sure the temporary directory is removed when we're done.
	subprocess.check_call(ssh(args, 'rm -r {}'.format(tmp)))


	if __name__ == '__main__':
	exit(main())