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emrun.py
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emrun.py
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#!/usr/bin/env python
# emrun: Implements machinery that allows running a .html page as if it was a standard executable file.
# Usage: emrun <options> filename.html <args to program>
# See emrun --help for more information
from __future__ import print_function
import os, platform, argparse, logging, re, pprint, atexit, subprocess, sys, time, struct, socket, cgi, tempfile, stat, shutil, json, uuid, shlex
from operator import itemgetter
from threading import Thread, RLock
if sys.version_info.major == 2:
import SocketServer as socketserver
from BaseHTTPServer import HTTPServer
from SimpleHTTPServer import SimpleHTTPRequestHandler
from urllib import unquote
from urlparse import urlsplit
from Queue import PriorityQueue
else:
import socketserver
from http.server import HTTPServer, SimpleHTTPRequestHandler
from urllib.parse import unquote, urlsplit
from queue import PriorityQueue
# Populated from cmdline params
emrun_options = None
# Represents the process object handle to the browser we opened to run the html page.
browser_process = None
# If we have routed browser output to file with --log_stdout and/or --log_stderr,
# these track the handles.
browser_stdout_handle = sys.stdout
browser_stderr_handle = sys.stderr
# This flag tracks whether the html page has sent any stdout messages back to us.
# Used to detect whether we might have gotten detached from the browser process we
# spawned, in which case we are not able to detect when user closes the browser with
# the close button.
have_received_messages = False
# At startup print a warning message once if user did not build with --emrun.
emrun_not_enabled_nag_printed = False
# Stores the exit() code of the html page when/if it quits.
page_exit_code = 0
# If this is set to a non-empty string, all processes by this name will be killed at exit.
# This is used to clean up after browsers that spawn subprocesses to handle the actual
# browser launch. For example opera has a launcher.exe that runs the actual opera browser.
# So killing browser_process would just kill launcher.exe and not the opera browser itself.
processname_killed_atexit = ""
# If user does not specify a --hostname parameter, this hostname is used to launch the server.
default_webserver_hostname = "localhost"
# If user does not specify a --port parameter, this port is used to launch the server.
default_webserver_port = 6931
# Location of Android Debug Bridge executable
ADB = ''
# Host OS detection to autolocate browsers and other OS-specific support needs.
WINDOWS = False
LINUX = False
MACOS = False
if os.name == 'nt':
WINDOWS = True
elif platform.system() == 'Linux':
LINUX = True
elif platform.mac_ver()[0] != '':
MACOS = True
import plistlib
# If you are running on an OS that is not any of these, must add explicit support for it.
if not WINDOWS and not LINUX and not MACOS:
raise Exception("Unknown OS!")
import_win32api_modules_warned_once = False
def import_win32api_modules():
try:
global win32api, winreg, GetObject
import win32api
from win32com.client import GetObject
try:
import winreg
except ImportError:
import _winreg as winreg
except Exception as e:
global import_win32api_modules_warned_once
if not import_win32api_modules_warned_once:
print(str(e), file=sys.stderr)
print("Importing Python win32 modules failed! This most likely occurs if you do not have PyWin32 installed! Get it from http://sourceforge.net/projects/pywin32/", file=sys.stderr)
import_win32api_modules_warned_once = True
raise
# Returns wallclock time in seconds.
def tick():
# Would like to return time.clock() since it's apparently better for
# precision, but it is broken on macOS 10.10 and Python 2.7.8.
return time.time()
# Absolute wallclock time in seconds specifying when the previous HTTP stdout message from
# the page was received.
last_message_time = tick()
# Absolute wallclock time in seconds telling when we launched emrun.
page_start_time = tick()
# Stores the time of most recent http page serve.
page_last_served_time = None
# Returns given log message formatted to be outputted on a HTML page.
def format_html(msg):
if not msg.endswith('\n'):
msg += '\n'
msg = cgi.escape(msg)
msg = msg.replace('\r\n', '<br />').replace('\n', '<br />')
return msg
# HTTP requests are handled from separate threads - synchronize them to avoid race conditions
http_mutex = RLock()
# Prints a log message to 'info' stdout channel. Always printed.
def logi(msg):
global last_message_time
with http_mutex:
if emrun_options.log_html:
sys.stdout.write(format_html(msg))
else:
print(msg, file=sys.stdout)
sys.stdout.flush()
last_message_time = tick()
# Prints a verbose log message to stdout channel. Only shown if run with --verbose.
def logv(msg):
global emrun_options, last_message_time
with http_mutex:
if emrun_options.verbose:
if emrun_options.log_html:
sys.stdout.write(format_html(msg))
else:
print(msg, file=sys.stdout)
sys.stdout.flush()
last_message_time = tick()
# Prints an error message to stderr channel.
def loge(msg):
global last_message_time
with http_mutex:
if emrun_options.log_html:
sys.stderr.write(format_html(msg))
else:
print(msg, file=sys.stderr)
sys.stderr.flush()
last_message_time = tick()
def format_eol(msg):
if WINDOWS:
msg = msg.replace('\r\n', '\n').replace('\n', '\r\n')
return msg
# Prints a message to the browser stdout output stream.
def browser_logi(msg):
global browser_stdout_handle, last_message_time
msg = format_eol(msg)
print(msg, file=browser_stdout_handle)
browser_stdout_handle.flush()
last_message_time = tick()
# Prints a message to the browser stderr output stream.
def browser_loge(msg):
global browser_stderr_handle, last_message_time
msg = format_eol(msg)
print(msg, file=browser_stderr_handle)
browser_stderr_handle.flush()
last_message_time = tick()
# Unquotes a unicode string. (translates ascii-encoded utf string back to utf)
def unquote_u(source):
result = unquote(source)
if '%u' in result:
result = result.replace('%u','\\u').decode('unicode_escape')
return result
temp_firefox_profile_dir = None
# Deletes the temporary created Firefox profile (if one exists)
def delete_emrun_safe_firefox_profile():
global temp_firefox_profile_dir
if temp_firefox_profile_dir != None:
logv('remove_tree("' + temp_firefox_profile_dir + '")')
remove_tree(temp_firefox_profile_dir)
temp_firefox_profile_dir = None
# Firefox has a lot of default behavior that makes it unsuitable for automated/unattended run.
# This function creates a temporary profile directory that customized Firefox with various flags that enable
# automated runs.
def create_emrun_safe_firefox_profile():
global temp_firefox_profile_dir
temp_firefox_profile_dir = tempfile.mkdtemp(prefix='temp_emrun_firefox_profile_')
f = open(os.path.join(temp_firefox_profile_dir, 'prefs.js'), 'w')
f.write('''
// Lift the default max 20 workers limit to something higher to avoid hangs when page needs to spawn a lot of threads.
user_pref("dom.workers.maxPerDomain", 100);
// Always allow opening popups
user_pref("browser.popups.showPopupBlocker", false);
user_pref("dom.disable_open_during_load", false);
// Don't ask user if he wants to set Firefox as the default system browser
user_pref("browser.shell.checkDefaultBrowser", false);
user_pref("browser.shell.skipDefaultBrowserCheck", true);
// If automated runs crash, don't resume old tabs on the next run or show safe mode dialogs or anything else extra.
user_pref("browser.sessionstore.resume_from_crash", false);
user_pref("services.sync.prefs.sync.browser.sessionstore.restore_on_demand", false);
user_pref("browser.sessionstore.restore_on_demand", false);
user_pref("browser.sessionstore.max_resumed_crashes", -1);
user_pref("toolkip.startup.max_resumed_crashes", -1);
// Don't show the slow script dialog popup
user_pref("dom.max_script_run_time", 0);
user_pref("dom.max_chrome_script_run_time", 0);
// Don't open a home page at startup
user_pref("startup.homepage_override_url", "about:blank");
user_pref("startup.homepage_welcome_url", "about:blank");
user_pref("browser.startup.homepage", "about:blank");
// Don't try to perform browser (auto)update on the background
user_pref("app.update.auto", false);
user_pref("app.update.enabled", false);
user_pref("app.update.silent", false);
user_pref("app.update.mode", 0);
user_pref("app.update.service.enabled", false);
// Don't check compatibility with add-ons, or (auto)update them
user_pref("extensions.lastAppVersion", '');
user_pref("plugins.hide_infobar_for_outdated_plugin", true);
user_pref("plugins.update.url", '');
// Disable health reporter
user_pref("datareporting.healthreport.service.enabled", false);
// Disable crash reporter
user_pref("toolkit.crashreporter.enabled", false);
// Don't show WhatsNew on first run after every update
user_pref("browser.startup.homepage_override.mstone","ignore");
// Don't show 'know your rights' and a bunch of other nag windows at startup
user_pref("browser.rights.3.shown", true);
user_pref('devtools.devedition.promo.shown', true);
user_pref('extensions.shownSelectionUI', true);
user_pref('browser.newtabpage.introShown', true);
user_pref('browser.download.panel.shown', true);
user_pref('browser.customizemode.tip0.shown', true);
user_pref("browser.toolbarbuttons.introduced.pocket-button", true);
// Start in private browsing mode to not cache anything to disk (everything will be wiped anyway after this run)
user_pref("browser.privatebrowsing.autostart", true);
// Don't ask the user if he wants to close the browser when there are multiple tabs.
user_pref("browser.tabs.warnOnClose", false);
// Allow the launched script window to close itself, so that we don't need to kill the browser process in order to move on.
user_pref("dom.allow_scripts_to_close_windows", true);
// Set various update timers to a large value in the future in order to not
// trigger a large mass of update HTTP traffic on each Firefox run on the clean profile.
// "01/01/2100" is 4102437600 as seconds since Unix epoch.
user_pref("app.update.lastUpdateTime.addon-background-update-timer", 4102437600);
user_pref("app.update.lastUpdateTime.background-update-timer", 4102437600);
user_pref("app.update.lastUpdateTime.blocklist-background-update-timer", 4102437600);
user_pref("app.update.lastUpdateTime.browser-cleanup-thumbnails", 4102437600);
user_pref("app.update.lastUpdateTime.experiments-update-timer", 4102437600);
user_pref("app.update.lastUpdateTime.search-engine-update-timer", 4102437600);
user_pref("app.update.lastUpdateTime.xpi-signature-verification", 4102437600);
user_pref("extensions.getAddons.cache.lastUpdate", 4102437600);
user_pref("media.gmp-eme-adobe.lastUpdate", 4102437600);
user_pref("media.gmp-gmpopenh264.lastUpdate", 4102437600);
user_pref("datareporting.healthreport.nextDataSubmissionTime", 4102437600439);
// Detect directly when executing if asm.js does not validate by throwing an error.
user_pref("javascript.options.throw_on_asmjs_validation_failure", true);
// Sending Firefox Health Report Telemetry data is not desirable, since these are automated runs.
user_pref("datareporting.healthreport.uploadEnabled", false);
user_pref("datareporting.healthreport.service.enabled", false);
user_pref("datareporting.healthreport.service.firstRun", false);
user_pref("toolkit.telemetry.enabled", false);
user_pref("toolkit.telemetry.unified", false);
user_pref("datareporting.policy.dataSubmissionEnabled", false);
user_pref("datareporting.policy.dataSubmissionPolicyBypassNotification", true);
// Allow window.dump() to print directly to console
user_pref("browser.dom.window.dump.enabled", true);
// Disable background add-ons related update & information check pings
user_pref("extensions.update.enabled", false);
user_pref("extensions.getAddons.cache.enabled", false);
// Enable wasm
user_pref("javascript.options.wasm", true);
// Enable SharedArrayBuffer (this profile is for a testing environment, so Spectre/Meltdown don't apply)
user_pref("javascript.options.shared_memory", true);
''')
f.close()
logv('create_emrun_safe_firefox_profile: Created new Firefox profile "' + temp_firefox_profile_dir + '"')
return temp_firefox_profile_dir
# Returns whether the browser page we spawned is still running.
# (note, not perfect atm, in case we are running in detached mode)
def is_browser_process_alive():
global browser_process
return browser_process and browser_process.poll() == None
# Kills browser_process and processname_killed_atexit. Also removes the temporary Firefox profile that
# was created, if one exists.
def kill_browser_process():
global browser_process, processname_killed_atexit, emrun_options, ADB
if browser_process:
try:
logv('Terminating browser process..')
browser_process.kill()
delete_emrun_safe_firefox_profile()
except Exception as e:
logv('Failed with error ' + str(e) + '!')
browser_process = None
processname_killed_atexit = ''
return
if len(processname_killed_atexit) > 0:
if emrun_options.android:
logv("Terminating Android app '" + processname_killed_atexit + "'.")
subprocess.call([ADB, 'shell', 'am', 'force-stop', processname_killed_atexit])
else:
logv("Terminating all processes that have string '" + processname_killed_atexit + "' in their name.")
if WINDOWS:
process_image = processname_killed_atexit if '.exe' in processname_killed_atexit else (processname_killed_atexit + '.exe')
process = subprocess.Popen(['taskkill', '/F', '/IM', process_image, '/T'], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
process.communicate()
else:
try:
subprocess.call(['pkill', processname_killed_atexit])
except OSError as e:
try:
subprocess.call(['killall', processname_killed_atexit])
except OSError as e:
loge('Both commands pkill and killall failed to clean up the spawned browser process. Perhaps neither of these utilities is available on your system?')
delete_emrun_safe_firefox_profile()
# Clear the process name to represent that the browser is now dead.
processname_killed_atexit = ''
# Our custom HTTP web server that will server the target page to run via .html.
# This is used so that we can load the page via a http:// URL instead of a file:// URL, since those wouldn't work too well unless user allowed XHR without CORS rules.
# Also, the target page will route its stdout and stderr back to here via HTTP requests.
class HTTPWebServer(socketserver.ThreadingMixIn, HTTPServer):
# Log messaging arriving via HTTP can come in out of sequence. Implement a sequencing mechanism to enforce ordered transmission.
expected_http_seq_num = -1
# Stores messages that have arrived out of order, pending for a send as soon as the missing message arrives.
# Kept in sorted order, first element is the oldest message received.
http_message_queue = []
def handle_incoming_message(self, seq_num, log, data):
global have_received_messages
with http_mutex:
have_received_messages = True
if self.expected_http_seq_num == -1:
self.expected_http_seq_num = seq_num+1
log(data)
elif seq_num == -1: # Message arrived without a sequence number? Just log immediately
log(data)
elif seq_num == self.expected_http_seq_num:
log(data)
self.expected_http_seq_num += 1
self.print_messages_due()
elif seq_num < self.expected_http_seq_num:
log(data)
else:
self.http_message_queue += [(seq_num, data, log)]
self.http_message_queue.sort(key=itemgetter(0))
if len(self.http_message_queue) > 16:
self.print_next_message()
# If it's been too long since we we got a message, prints out the oldest queued message, ignoring the proper order.
# This ensures that if any messages are actually lost, that the message queue will be orderly flushed.
def print_timed_out_messages(self):
global last_message_time
with http_mutex:
now = tick()
max_message_queue_time = 5
if len(self.http_message_queue) > 0 and now - last_message_time > max_message_queue_time:
self.print_next_message()
# Skips to printing the next message in queue now, independent of whether there was missed messages in the sequence numbering.
def print_next_message(self):
with http_mutex:
if len(self.http_message_queue) > 0:
self.expected_http_seq_num = self.http_message_queue[0][0]
self.print_messages_due()
# Completely flushes all out-of-order messages in the queue.
def print_all_messages(self):
with http_mutex:
while len(self.http_message_queue) > 0:
self.print_next_message()
# Prints any messages that are now due after we logged some other previous messages.
def print_messages_due(self):
with http_mutex:
while len(self.http_message_queue) > 0:
msg = self.http_message_queue[0]
if msg[0] == self.expected_http_seq_num:
msg[2](msg[1])
self.expected_http_seq_num += 1
self.http_message_queue.pop(0)
else:
return
def serve_forever(self, timeout=0.5):
global emrun_options, last_message_time, page_exit_code, have_received_messages, emrun_not_enabled_nag_printed
self.is_running = True
self.timeout = timeout
while self.is_running:
now = tick()
# Did user close browser?
if browser_process:
browser_quit_code = browser_process.poll()
if browser_quit_code != None:
delete_emrun_safe_firefox_profile()
if not emrun_options.serve_after_close:
if not have_received_messages:
emrun_options.serve_after_close = True
logv('Warning: emrun got detached from the target browser process (the process quit with code ' + str(browser_quit_code) + '). Cannot detect when user closes the browser. Behaving as if --serve_after_close was passed in.')
if not emrun_options.browser:
logv('Try passing the --browser=/path/to/browser option to avoid this from occurring. See https://github.com/kripken/emscripten/issues/3234 for more discussion.')
else:
self.shutdown()
logv('Browser process has quit. Shutting down web server.. Pass --serve_after_close to keep serving the page even after the browser closes.')
# Serve HTTP
self.handle_request()
# Process message log queue
self.print_timed_out_messages()
# If web page was silent for too long without printing anything, kill process.
time_since_message = now - last_message_time
if emrun_options.silence_timeout != 0 and time_since_message > emrun_options.silence_timeout:
self.shutdown()
logi('No activity in ' + str(emrun_options.silence_timeout) + ' seconds. Quitting web server with return code ' + str(emrun_options.timeout_returncode) + '. (--silence_timeout option)')
page_exit_code = emrun_options.timeout_returncode
emrun_options.kill_on_exit = True
# If the page has been running too long as a whole, kill process.
time_since_start = now - page_start_time
if emrun_options.timeout != 0 and time_since_start > emrun_options.timeout:
self.shutdown()
logi('Page has not finished in ' + str(emrun_options.timeout) + ' seconds. Quitting web server with return code ' + str(emrun_options.timeout_returncode) + '. (--timeout option)')
emrun_options.kill_on_exit = True
page_exit_code = emrun_options.timeout_returncode
# If we detect that the page is not running with emrun enabled, print a warning message.
if not emrun_not_enabled_nag_printed and page_last_served_time is not None:
time_since_page_serve = now - page_last_served_time
if not have_received_messages and time_since_page_serve > 10:
logi('The html page you are running is not emrun-capable. Stdout, stderr and exit(returncode) capture will not work. Recompile the application with the --emrun linker flag to enable this, or pass --no_emrun_detect to emrun to hide this check.')
emrun_not_enabled_nag_printed = True
# Clean up at quit, print any leftover messages in queue.
self.print_all_messages()
def handle_error(self, request, client_address):
err = sys.exc_info()[1].args[0]
# Filter out the useless '[Errno 10054] An existing connection was forcibly closed by the remote host' errors that occur when we
# forcibly kill the client.
if err != 10054:
socketserver.BaseServer.handle_error(self, request, client_address)
def shutdown(self):
self.is_running = False
self.print_all_messages()
return 1
# Processes HTTP request back to the browser.
class HTTPHandler(SimpleHTTPRequestHandler):
def send_head(self):
global page_last_served_time
path = self.translate_path(self.path)
f = None
if os.path.isdir(path):
if not self.path.endswith('/'):
self.send_response(301)
self.send_header("Location", self.path + "/")
self.end_headers()
return None
for index in "index.html", "index.htm":
index = os.path.join(path, index)
if os.path.isfile(index):
path = index
break
else:
# Manually implement directory listing support.
return self.list_directory(path)
try:
f = open(path, 'rb')
except IOError:
self.send_error(404, "File not found: " + path)
return None
self.send_response(200)
guess_file_type = path
# All files of type x.gz are served as gzip-compressed, which means the browser will transparently decode the file before passing the uncompressed bytes to the JS page.
# Note: In a slightly silly manner, detect files ending with "gz" and not ".gz", since both Unity and UE4 generate multiple files with .jsgz, .datagz, .memgz, .symbolsgz suffixes and so on,
# so everything goes.
# Note 2: If the JS application would like to receive the actual bits of a gzipped file, instead of having the browser decompress it immediately, then it can't use the suffix .gz when using emrun.
# To work around, one can use the suffix .gzip instead.
if 'Accept-Encoding' in self.headers and 'gzip' in self.headers['Accept-Encoding'] and path.lower().endswith('gz'):
self.send_header('Content-Encoding', 'gzip')
logv('Serving ' + path + ' as gzip-compressed.')
guess_file_type = guess_file_type[:-2]
if guess_file_type.endswith('.'): guess_file_type = guess_file_type[:-1]
ctype = self.guess_type(guess_file_type)
if guess_file_type.lower().endswith('.wasm'):
ctype = 'application/wasm'
self.send_header("Content-type", ctype)
fs = os.fstat(f.fileno())
self.send_header("Content-Length", str(fs[6]))
self.send_header("Last-Modified", self.date_time_string(fs.st_mtime))
self.send_header('Cache-Control','no-cache, must-revalidate')
self.send_header('Connection','close')
self.send_header('Expires','-1')
self.send_header('Access-Control-Allow-Origin', '*')
self.end_headers()
page_last_served_time = tick()
return f
def log_request(self, code):
# Filter out 200 OK messages to remove noise.
if code is not 200:
SimpleHTTPRequestHandler.log_request(self, code)
def log_message(self, format, *args):
msg = "%s - - [%s] %s\n" % (self.address_string(), self.log_date_time_string(), format%args)
if not 'favicon.ico' in msg: # Filter out 404 messages on favicon.ico not being found to remove noise.
sys.stderr.write(msg)
def do_POST(self):
global page_exit_code, emrun_options, have_received_messages
(_, _, path, query, _) = urlsplit(self.path)
logv('POST: "' + self.path + '" (path: "' + path + '", query: "' + query + '")')
if query.startswith('file='): # Binary file dump/upload handling. Requests to "stdio.html?file=filename" will write binary data to the given file.
data = self.rfile.read(int(self.headers['Content-Length']))
filename = query[len('file='):]
dump_out_directory = 'dump_out'
try:
os.mkdir(dump_out_directory)
except:
pass
filename = os.path.join(dump_out_directory, os.path.normpath(filename))
open(filename, 'wb').write(data)
print('Wrote ' + str(len(data)) + ' bytes to file "' + filename + '".')
have_received_messages = True
elif path == '/system_info':
system_info = json.loads(get_system_info(format_json=True))
try:
browser_info = json.loads(get_browser_info(browser_exe, format_json=True))
except:
browser_info = ''
data = { 'system': system_info, 'browser': browser_info }
self.send_response(200)
self.send_header("Content-type", "application/json")
self.send_header('Cache-Control','no-cache, must-revalidate')
self.send_header('Connection','close')
self.send_header('Expires','-1')
self.end_headers()
self.wfile.write(json.dumps(data))
return
else:
data = self.rfile.read(int(self.headers['Content-Length']))
if str is not bytes and isinstance(data, bytes):
data = data.decode('utf-8')
data = data.replace("+", " ")
data = unquote_u(data)
# The user page sent a message with POST. Parse the message and log it to stdout/stderr.
is_stdout = False
is_stderr = False
seq_num = -1
# The html shell is expected to send messages of form ^out^(number)^(message) or ^err^(number)^(message).
if data.startswith('^err^'):
is_stderr = True
elif data.startswith('^out^'):
is_stdout = True
if is_stderr or is_stdout:
try:
i = data.index('^', 5)
seq_num = int(data[5:i])
data = data[i+1:]
except:
pass
is_exit = data.startswith('^exit^')
if data == '^pageload^': # Browser is just notifying that it has successfully launched the page.
have_received_messages = True
elif not is_exit:
log = browser_loge if is_stderr else browser_logi
self.server.handle_incoming_message(seq_num, log, data)
elif not emrun_options.serve_after_exit:
page_exit_code = int(data[6:])
logv('Web page has quit with a call to exit() with return code ' + str(page_exit_code) + '. Shutting down web server. Pass --serve_after_exit to keep serving even after the page terminates with exit().')
self.server.shutdown()
self.send_response(200)
self.send_header("Content-type", "text/plain")
self.send_header('Cache-Control','no-cache, must-revalidate')
self.send_header('Connection','close')
self.send_header('Expires','-1')
self.end_headers()
self.wfile.write(b'OK')
# Returns stdout by running command with universal_newlines=True
def check_output(cmd, universal_newlines=True, *args, **kwargs):
if hasattr(subprocess, "run"):
return subprocess.run(cmd, universal_newlines=universal_newlines, stdout=subprocess.PIPE, check=True, *args, **kwargs).stdout
else:
# check_output is considered as an old API so prefer subprocess.run if possible
return subprocess.check_output(cmd, universal_newlines=universal_newlines, *args, **kwargs)
# From http://stackoverflow.com/questions/4842448/getting-processor-information-in-python
# Returns a string with something like "AMD64, Intel(R) Core(TM) i5-2557M CPU @ 1.70GHz, Intel64 Family 6 Model 42 Stepping 7, GenuineIntel"
def get_cpu_info():
physical_cores = 1
logical_cores = 1
frequency = 0
try:
if WINDOWS:
import_win32api_modules()
root_winmgmts = GetObject("winmgmts:root\cimv2")
cpus = root_winmgmts.ExecQuery("Select * from Win32_Processor")
cpu_name = cpus[0].Name + ', ' + platform.processor()
physical_cores = int(check_output(['wmic', 'cpu', 'get', 'NumberOfCores']).split('\n')[1].strip())
logical_cores = int(check_output(['wmic', 'cpu', 'get', 'NumberOfLogicalProcessors']).split('\n')[1].strip())
frequency = int(check_output(['wmic', 'cpu', 'get', 'MaxClockSpeed']).split('\n')[1].strip())
elif MACOS:
cpu_name = check_output(['sysctl', '-n', 'machdep.cpu.brand_string']).strip()
physical_cores = int(check_output(['sysctl', '-n', 'machdep.cpu.core_count']).strip())
logical_cores = int(check_output(['sysctl', '-n', 'machdep.cpu.thread_count']).strip())
frequency = int(check_output(['sysctl', '-n', 'hw.cpufrequency']).strip()) // 1000000
elif LINUX:
all_info = check_output(['cat', '/proc/cpuinfo']).strip()
for line in all_info.split("\n"):
if "model name" in line:
cpu_name = re.sub( ".*model name.*:", "", line, 1).strip()
lscpu = check_output(['lscpu'])
frequency = int(float(re.search('CPU MHz: (.*)', lscpu).group(1).strip()) + 0.5)
sockets = int(re.search('Socket\(s\): (.*)', lscpu).group(1).strip())
physical_cores = sockets * int(re.search('Core\(s\) per socket: (.*)', lscpu).group(1).strip())
logical_cores = physical_cores * int(re.search('Thread\(s\) per core: (.*)', lscpu).group(1).strip())
except Exception as e:
import traceback
print(traceback.format_exc())
return { 'model': 'Unknown ("' + str(e) + '")',
'physicalCores': 1,
'logicalCores': 1,
'frequency': 0
}
return { 'model': platform.machine() + ', ' + cpu_name,
'physicalCores': physical_cores,
'logicalCores': logical_cores,
'frequency': frequency
}
def get_android_cpu_infoline():
lines = check_output([ADB, 'shell', 'cat', '/proc/cpuinfo']).split('\n')
processor = ''
hardware = ''
for line in lines:
if line.startswith('Processor'):
processor = line[line.find(':')+1:].strip()
elif line.startswith('Hardware'):
hardware = line[line.find(':')+1:].strip()
freq = int(check_output([ADB, 'shell', 'cat', '/sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_max_freq']).strip())//1000
return 'CPU: ' + processor + ', ' + hardware + ' @ ' + str(freq) + ' MHz'
def win_get_gpu_info():
gpus = []
def find_gpu_model(model):
for gpu in gpus:
if gpu['model'] == model: return gpu
return None
try:
import_win32api_modules()
except:
return []
for i in range(0, 16):
try:
hHardwareReg = winreg.OpenKey(winreg.HKEY_LOCAL_MACHINE, "HARDWARE")
hDeviceMapReg = winreg.OpenKey(hHardwareReg, "DEVICEMAP")
hVideoReg = winreg.OpenKey(hDeviceMapReg, "VIDEO")
VideoCardString = winreg.QueryValueEx(hVideoReg,"\Device\Video"+str(i))[0]
#Get Rid of Registry/Machine from the string
VideoCardStringSplit = VideoCardString.split("\\")
ClearnVideoCardString = "\\".join(VideoCardStringSplit[3:])
#Go up one level for detailed
VideoCardStringRoot = "\\".join(VideoCardStringSplit[3:len(VideoCardStringSplit)-1])
#Get the graphics card information
hVideoCardReg = winreg.OpenKey(winreg.HKEY_LOCAL_MACHINE, ClearnVideoCardString)
try:
VideoCardDescription = winreg.QueryValueEx(hVideoCardReg, "Device Description")[0]
except WindowsError:
VideoCardDescription = winreg.QueryValueEx(hVideoCardReg, "DriverDesc")[0]
try:
driverVersion = winreg.QueryValueEx(hVideoCardReg, "DriverVersion")[0]
VideoCardDescription += ', driver version ' + driverVersion
except:
pass
try:
driverDate = winreg.QueryValueEx(hVideoCardReg, "DriverDate")[0]
VideoCardDescription += ' (' + driverDate + ')'
except:
pass
VideoCardMemorySize = winreg.QueryValueEx(hVideoCardReg, "HardwareInformation.MemorySize")[0]
try:
vram = struct.unpack('l',bytes(VideoCardMemorySize))[0]
except struct.error:
vram = int(VideoCardMemorySize)
if not find_gpu_model(VideoCardDescription):
gpus += [{ 'model': VideoCardDescription, 'ram': vram }]
except WindowsError:
pass
return gpus
def linux_get_gpu_info():
glinfo = ''
try:
glxinfo = check_output('glxinfo')
for line in glxinfo.split("\n"):
if "OpenGL vendor string:" in line: gl_vendor = line[len("OpenGL vendor string:"):].strip()
if "OpenGL version string:" in line: gl_version = line[len("OpenGL version string:"):].strip()
if "OpenGL renderer string:" in line: gl_renderer = line[len("OpenGL renderer string:"):].strip()
glinfo = gl_vendor + ' ' + gl_renderer + ', GL version ' + gl_version
except Exception as e:
logv(e)
adapterinfo = ''
try:
vgainfo = check_output(['lshw', '-C', 'display'], stderr=subprocess.PIPE)
vendor = re.search("vendor: (.*)", vgainfo).group(1).strip()
product = re.search("product: (.*)", vgainfo).group(1).strip()
description = re.search("description: (.*)", vgainfo).group(1).strip()
clock = re.search("clock: (.*)", vgainfo).group(1).strip()
adapterinfo = vendor + ' ' + product + ', ' + description + ' (' + clock + ')'
except Exception as e:
logv(e)
ram = 0
try:
vgainfo = check_output('lspci -v -s $(lspci | grep VGA | cut -d " " -f 1)', shell=True, stderr=subprocess.PIPE)
ram = int(re.search("\[size=([0-9]*)M\]", vgainfo).group(1)) * 1024 * 1024
except Exception as e:
logv(e)
model = (adapterinfo + ' ' + glinfo).strip()
if not model: model = 'Unknown'
return [{'model': model, 'ram': ram}]
def macos_get_gpu_info():
gpus = []
try:
info = check_output(['system_profiler', 'SPDisplaysDataType'])
info = info.split("Chipset Model:")[1:]
for gpu in info:
model_name = gpu.split('\n')[0].strip()
bus = re.search("Bus: (.*)", gpu).group(1).strip()
memory = int(re.search("VRAM (.*?): (.*) MB", gpu).group(2).strip())
gpus += [{'model': model_name + ' (' + bus + ')', 'ram': memory * 1024 * 1024}]
return gpus
except:
pass
def get_gpu_info():
if WINDOWS: return win_get_gpu_info()
elif LINUX: return linux_get_gpu_info()
elif MACOS: return macos_get_gpu_info()
else: return []
def get_executable_version(filename):
try:
if WINDOWS:
info = win32api.GetFileVersionInfo(filename, "\\")
ms = info['FileVersionMS']
ls = info['FileVersionLS']
version = win32api.HIWORD(ms), win32api.LOWORD(ms), win32api.HIWORD(ls), win32api.LOWORD(ls)
return '.'.join(map(str, version))
elif MACOS:
plistfile = filename[0:filename.find('MacOS')] + 'Info.plist'
info = plistlib.readPlist(plistfile)
# Data in Info.plists is a bit odd, this check combo gives best information on each browser.
if 'firefox' in filename.lower():
return info['CFBundleShortVersionString']
if 'opera' in filename.lower():
return info['CFBundleVersion']
else:
return info['CFBundleShortVersionString']
elif LINUX:
if 'firefox' in filename.lower():
version = check_output([filename, '-v'])
version = version.replace('Mozilla Firefox ', '')
return version.strip()
else:
return ""
except Exception as e:
logv(e)
return ""
def get_browser_build_date(filename):
try:
if MACOS:
plistfile = filename[0:filename.find('MacOS')] + 'Info.plist'
info = plistlib.readPlist(plistfile)
# Data in Info.plists is a bit odd, this check combo gives best information on each browser.
if 'firefox' in filename.lower():
return '20' + '-'.join(map((lambda x: x.zfill(2)), info['CFBundleVersion'][2:].split('.')))
except Exception as e:
logv(e)
# No exact information about the build date, so take the last modified date of the file.
# This is not right, but assuming that one installed the browser shortly after the update was
# available, it's shooting close.
try:
return time.strftime("%Y-%m-%d %H:%M:%S", time.gmtime(os.path.getmtime(filename)))
except Exception as e:
logv(e)
return '(unknown)'
def get_browser_info(filename, format_json):
if format_json:
return json.dumps({
'name': browser_display_name(filename),
'version': get_executable_version(filename),
'buildDate': get_browser_build_date(filename)
}, indent=2)
else:
return 'Browser: ' + browser_display_name(filename) + ' ' + get_executable_version(filename) + ', build ' + get_browser_build_date(filename)
# http://stackoverflow.com/questions/580924/python-windows-file-version-attribute
def win_get_file_properties(fname):
propNames = ('Comments', 'InternalName', 'ProductName',
'CompanyName', 'LegalCopyright', 'ProductVersion',
'FileDescription', 'LegalTrademarks', 'PrivateBuild',
'FileVersion', 'OriginalFilename', 'SpecialBuild')
props = {'FixedFileInfo': None, 'StringFileInfo': None, 'FileVersion': None}
try:
import win32api
# backslash as parm returns dictionary of numeric info corresponding to VS_FIXEDFILEINFO struc
fixedInfo = win32api.GetFileVersionInfo(fname, '\\')
props['FixedFileInfo'] = fixedInfo
props['FileVersion'] = "%d.%d.%d.%d" % (fixedInfo['FileVersionMS'] / 65536,
fixedInfo['FileVersionMS'] % 65536, fixedInfo['FileVersionLS'] / 65536,
fixedInfo['FileVersionLS'] % 65536)
# \VarFileInfo\Translation returns list of available (language, codepage)
# pairs that can be used to retreive string info. We are using only the first pair.
lang, codepage = win32api.GetFileVersionInfo(fname, '\\VarFileInfo\\Translation')[0]
# any other must be of the form \StringfileInfo\%04X%04X\parm_name, middle
# two are language/codepage pair returned from above
strInfo = {}
for propName in propNames:
strInfoPath = u'\\StringFileInfo\\%04X%04X\\%s' % (lang, codepage, propName)
## print str_info
strInfo[propName] = win32api.GetFileVersionInfo(fname, strInfoPath)
props['StringFileInfo'] = strInfo
except:
pass
return props
def get_computer_model():
try:
if MACOS:
try:
with open(os.path.join(os.getenv("HOME"), '.emrun.hwmodel.cached'), 'r') as f:
model = f.read()
return model
except:
pass
try:
# http://apple.stackexchange.com/questions/98080/can-a-macs-model-year-be-determined-via-terminal-command
serial = check_output(['system_profiler', 'SPHardwareDataType'])
serial = re.search("Serial Number (.*): (.*)", serial)
serial = serial.group(2).strip()[-4:]
cmd = ['curl', '-s', 'http://support-sp.apple.com/sp/product?cc=' + serial]
logv(str(cmd))
model = check_output(cmd)
model = re.search('<configCode>(.*)</configCode>', model)
model = model.group(1).strip()
open(os.path.join(os.getenv("HOME"), '.emrun.hwmodel.cached'), 'w').write(model) # Cache the hardware model to disk
return model
except:
hwmodel = check_output(['sysctl', 'hw.model'])
hwmodel = re.search('hw.model: (.*)', hwmodel).group(1).strip()
return hwmodel
elif WINDOWS:
manufacturer = check_output(['wmic', 'baseboard', 'get', 'manufacturer']).split('\n')[1].strip()
version = check_output(['wmic', 'baseboard', 'get', 'version']).split('\n')[1].strip()
product = check_output(['wmic', 'baseboard', 'get', 'product']).split('\n')[1].strip()
if 'Apple' in manufacturer: return manufacturer + ' ' + version + ', ' + product
else: return manufacturer + ' ' + product + ', ' + version
elif LINUX:
board_vendor = check_output(['cat', '/sys/devices/virtual/dmi/id/board_vendor']).strip()
board_name = check_output(['cat', '/sys/devices/virtual/dmi/id/board_name']).strip()
board_version = check_output(['cat', '/sys/devices/virtual/dmi/id/board_version']).strip()
bios_vendor = check_output(['cat', '/sys/devices/virtual/dmi/id/bios_vendor']).strip()
bios_version = check_output(['cat', '/sys/devices/virtual/dmi/id/bios_version']).strip()
bios_date = check_output(['cat', '/sys/devices/virtual/dmi/id/bios_date']).strip()
return board_vendor + ' ' + board_name + ' ' + board_version + ', ' + bios_vendor + ' ' + bios_version + ' (' + bios_date + ')'
except Exception as e:
logv(str(e))
return 'Generic'
def get_os_version():
bitness = ' (64bit)' if platform.machine() in ['AMD64', 'x86_64'] else ' (32bit)'
try:
if WINDOWS:
import_win32api_modules()
versionHandle = winreg.OpenKey(winreg.HKEY_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion")
productName = winreg.QueryValueEx(versionHandle, "ProductName")
version = ''
try:
version = ' ' + check_output(['wmic', 'os', 'get', 'version']).split('\n')[1].strip()
except:
pass
return productName[0] + version + bitness
elif MACOS:
return 'macOS ' + platform.mac_ver()[0] + bitness
elif LINUX:
kernel_version = check_output(['uname', '-r']).strip()
return ' '.join(platform.linux_distribution()) + ', linux kernel ' + kernel_version + ' ' + platform.architecture()[0] + bitness
except:
return 'Unknown OS'
def get_system_memory():
global emrun_options
try:
if LINUX or emrun_options.android:
if emrun_options.android:
lines = check_output([ADB, 'shell', 'cat', '/proc/meminfo']).split('\n')
else:
mem = open('/proc/meminfo', 'r')
lines = mem.readlines()
mem.close()
for i in lines:
sline = i.split()
if str(sline[0]) == 'MemTotal:':
return int(sline[1]) * 1024
elif WINDOWS:
return win32api.GlobalMemoryStatusEx()['TotalPhys']
elif MACOS:
return int(check_output(['sysctl', '-n', 'hw.memsize']).strip())
except:
return -1
# Finds the given executable 'program' in PATH. Operates like the Unix tool 'which'.
def which(program):
def is_exe(fpath):
return os.path.isfile(fpath) and os.access(fpath, os.X_OK)
fpath, fname = os.path.split(program)
if fpath:
if is_exe(program):
return program
else:
for path in os.environ["PATH"].split(os.pathsep):
path = path.strip('"')
exe_file = os.path.join(path, program)
if is_exe(exe_file):
return exe_file
if WINDOWS and not '.' in fname:
if is_exe(exe_file + '.exe'):
return exe_file + '.exe'
if is_exe(exe_file + '.cmd'):
return exe_file + '.cmd'
if is_exe(exe_file + '.bat'):
return exe_file + '.bat'
return None
def win_get_default_browser():
import_win32api_modules()
# Look in the registry for the default system browser on Windows without relying on
# 'start %1' since that method has an issue, see comment below.
try: