upstream/mercurial-mirror Files · contrib/catapipe.py

packaging: support building WiX installers with PyOxidizer...

packaging: support building WiX installers with PyOxidizer We initially implemented PyOxidizer support for Inno installers. That did most of the heavy work of integrating PyOxidizer into the packaging system. Implementing WiX installer support was pretty straightforward. Aspects of this patch look very similar to Inno's. The main difference is the handling of the Visual C++ Redistributable Runtime files. The WiX installer was formerly using merge modules to install the VC++ 9.0 runtime because this feature is supported by the WiX installer (it isn't easily available to Inno installers). Our strategy for the runtime files is to install the vcruntime140.dll file next to hg.exe just like any other file. While we could leverage WiX's functionality for invoking a VCRedist installer, I don't want to deal with the complexity at this juncture. So, we let run_pyoxidizer() copy vcruntime140.dll into the staging directory (like it does for Inno) and our dynamic WiX XML generator picks it up as a regular file and installs it. We did, however, have to teach mercurial.wxs how to conditionally use the merge modules. But this was rather straightforward. Comparing the file layout of the WiX installers before and after: * Various lib/*.{pyd, dll} files no longer exist * python27.dll was replaced by python37.dll * vcruntime140.dll was added All these changes are expected due to the transition to Python 3 and to PyOxidizer, which embeded the .pyd and .dll files in hg.exe. Differential Revision: https://phab.mercurial-scm.org/D8477

Augie Fackler - - Load All Authors

File last commit:

r43346:2372284d default


                r45260:c9517d9d

default

Download file

             catapipe.py
        
                    121 lines
            
             | 3.6 KiB
            
                | text/x-python
            
             |
                PythonLexer
            
             / contrib / catapipe.py
          
                    History
                
                 |
                  Annotation
                 | Raw
                 |Copy content
                 |Copy permalink

      #!/usr/bin/env python3

      #

      # Copyright 2018 Google LLC.

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      """Tool read primitive events from a pipe to produce a catapult trace.

      Usage:

          Terminal 1: $ catapipe.py /tmp/mypipe /tmp/trace.json

          Terminal 2: $ HGCATAPULTSERVERPIPE=/tmp/mypipe hg root

          <ctrl-c catapipe.py in Terminal 1>

          $ catapult/tracing/bin/trace2html /tmp/trace.json  # produce /tmp/trace.html

          <open trace.html in your browser of choice; the WASD keys are very useful>

          (catapult is located at https://github.com/catapult-project/catapult)

      For now the event stream supports

        START $SESSIONID ...

      and

        END $SESSIONID ...

      events. Everything after the SESSIONID (which must not contain spaces)

      is used as a label for the event. Events are timestamped as of when

      they arrive in this process and are then used to produce catapult

      traces that can be loaded in Chrome's about:tracing utility. It's

      important that the event stream *into* this process stay simple,

      because we have to emit it from the shell scripts produced by

      run-tests.py.

      Typically you'll want to place the path to the named pipe in the

      HGCATAPULTSERVERPIPE environment variable, which both run-tests and hg

      understand. To trace *only* run-tests, use HGTESTCATAPULTSERVERPIPE instead.

      """

      from __future__ import absolute_import, print_function

      import argparse

      import json

      import os

      import timeit

      _TYPEMAP = {

          'START': 'B',

          'END': 'E',

          'COUNTER': 'C',

      }

      _threadmap = {}

      # Timeit already contains the whole logic about which timer to use based on

      # Python version and OS

      timer = timeit.default_timer

      def main():

          parser = argparse.ArgumentParser()

          parser.add_argument(

              'pipe',

              type=str,

              nargs=1,

              help='Path of named pipe to create and listen on.',

          )

          parser.add_argument(

              'output',

              default='trace.json',

              type=str,

              nargs='?',

              help='Path of json file to create where the traces ' 'will be stored.',

          )

          parser.add_argument(

              '--debug',

              default=False,

              action='store_true',

              help='Print useful debug messages',

          )

          args = parser.parse_args()

          fn = args.pipe[0]

          os.mkfifo(fn)

          try:

              with open(fn) as f, open(args.output, 'w') as out:

                  out.write('[\n')

                  start = timer()

                  while True:

                      ev = f.readline().strip()

                      if not ev:

                          continue

                      now = timer()

                      if args.debug:

                          print(ev)

                      verb, session, label = ev.split(' ', 2)

                      if session not in _threadmap:

                          _threadmap[session] = len(_threadmap)

                      if verb == 'COUNTER':

                          amount, label = label.split(' ', 1)

                          payload_args = {'value': int(amount)}

                      else:

                          payload_args = {}

                      pid = _threadmap[session]

                      ts_micros = (now - start) * 1000000

                      out.write(

                          json.dumps(

                              {

                                  "name": label,

                                  "cat": "misc",

                                  "ph": _TYPEMAP[verb],

                                  "ts": ts_micros,

                                  "pid": pid,

                                  "tid": 1,

                                  "args": payload_args,

                              }

                          )

                      )

                      out.write(',\n')

          finally:

              os.unlink(fn)

      if __name__ == '__main__':

          main()

	Site-wide shortcuts
/	Use quick search box
g h	Goto home page
g g	Goto my private gists page
g G	Goto my public gists page
g 0-9	Goto bookmarked items from 0-9
n r	New repository page
n g	New gist page

	Repositories
g s	Goto summary page
g c	Goto changelog page
g f	Goto files page
g F	Goto files page with file search activated
g p	Goto pull requests page
g o	Goto repository settings
g O	Goto repository access permissions settings
t s	Toggle sidebar on some pages

				#!/usr/bin/env python3
				#
				# Copyright 2018 Google LLC.
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.
				"""Tool read primitive events from a pipe to produce a catapult trace.

				Usage:
				Terminal 1: $ catapipe.py /tmp/mypipe /tmp/trace.json
				Terminal 2: $ HGCATAPULTSERVERPIPE=/tmp/mypipe hg root
				<ctrl-c catapipe.py in Terminal 1>
				$ catapult/tracing/bin/trace2html /tmp/trace.json # produce /tmp/trace.html
				<open trace.html in your browser of choice; the WASD keys are very useful>
				(catapult is located at https://github.com/catapult-project/catapult)

				For now the event stream supports

				START $SESSIONID ...

				and

				END $SESSIONID ...

				events. Everything after the SESSIONID (which must not contain spaces)
				is used as a label for the event. Events are timestamped as of when
				they arrive in this process and are then used to produce catapult
				traces that can be loaded in Chrome's about:tracing utility. It's
				important that the event stream into this process stay simple,
				because we have to emit it from the shell scripts produced by
				run-tests.py.

				Typically you'll want to place the path to the named pipe in the
				HGCATAPULTSERVERPIPE environment variable, which both run-tests and hg
				understand. To trace only run-tests, use HGTESTCATAPULTSERVERPIPE instead.
				"""
				from __future__ import absolute_import, print_function

				import argparse
				import json
				import os
				import timeit

				_TYPEMAP = {
				'START': 'B',
				'END': 'E',
				'COUNTER': 'C',
				}

				_threadmap = {}

				# Timeit already contains the whole logic about which timer to use based on
				# Python version and OS
				timer = timeit.default_timer


				def main():
				parser = argparse.ArgumentParser()
				parser.add_argument(
				'pipe',
				type=str,
				nargs=1,
				help='Path of named pipe to create and listen on.',
				)
				parser.add_argument(
				'output',
				default='trace.json',
				type=str,
				nargs='?',
				help='Path of json file to create where the traces ' 'will be stored.',
				)
				parser.add_argument(
				'--debug',
				default=False,
				action='store_true',
				help='Print useful debug messages',
				)
				args = parser.parse_args()
				fn = args.pipe[0]
				os.mkfifo(fn)
				try:
				with open(fn) as f, open(args.output, 'w') as out:
				out.write('[\n')
				start = timer()
				while True:
				ev = f.readline().strip()
				if not ev:
				continue
				now = timer()
				if args.debug:
				print(ev)
				verb, session, label = ev.split(' ', 2)
				if session not in _threadmap:
				_threadmap[session] = len(_threadmap)
				if verb == 'COUNTER':
				amount, label = label.split(' ', 1)
				payload_args = {'value': int(amount)}
				else:
				payload_args = {}
				pid = _threadmap[session]
				ts_micros = (now - start) * 1000000
				out.write(
				json.dumps(
				{
				"name": label,
				"cat": "misc",
				"ph": _TYPEMAP[verb],
				"ts": ts_micros,
				"pid": pid,
				"tid": 1,
				"args": payload_args,
				}
				)
				)
				out.write(',\n')
				finally:
				os.unlink(fn)


				if __name__ == '__main__':
				main()