zulip/tools/run-dev.py

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#!/usr/bin/env python3
import argparse
import asyncio
import os
import pwd
import signal
import subprocess
import sys
from typing import Any, List, Sequence
from urllib.parse import urlunparse
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TOOLS_DIR = os.path.dirname(os.path.abspath(__file__))
sys.path.insert(0, os.path.dirname(TOOLS_DIR))
# check for the venv
from tools.lib import sanity_check
sanity_check.check_venv(__file__)
from tornado import httpclient, httputil, web
from tornado.platform.asyncio import AsyncIOMainLoop
from tools.lib.test_script import add_provision_check_override_param, assert_provisioning_status_ok
if "posix" in os.name and os.geteuid() == 0:
raise RuntimeError("run-dev.py should not be run as root.")
DESCRIPTION = """
Starts the app listening on localhost, for local development.
This script launches the Django and Tornado servers, then runs a reverse proxy
which serves to both of them. After it's all up and running, browse to
http://localhost:9991/
Note that, while runserver and runtornado have the usual auto-restarting
behavior, the reverse proxy itself does *not* automatically restart on changes
to this file.
"""
parser = argparse.ArgumentParser(
description=DESCRIPTION, formatter_class=argparse.RawTextHelpFormatter
)
parser.add_argument("--test", action="store_true", help="Use the testing database and ports")
parser.add_argument("--minify", action="store_true", help="Minifies assets for testing in dev")
parser.add_argument("--interface", help="Set the IP or hostname for the proxy to listen on")
parser.add_argument(
"--no-clear-memcached",
action="store_false",
dest="clear_memcached",
help="Do not clear memcached on startup",
)
parser.add_argument("--streamlined", action="store_true", help="Avoid process_queue, etc.")
parser.add_argument(
"--enable-tornado-logging",
action="store_true",
help="Enable access logs from tornado proxy server.",
)
add_provision_check_override_param(parser)
options = parser.parse_args()
assert_provisioning_status_ok(options.skip_provision_check)
if options.interface is None:
user_id = os.getuid()
user_name = pwd.getpwuid(user_id).pw_name
if user_name in ["vagrant", "zulipdev"]:
# In the Vagrant development environment, we need to listen on
# all ports, and it's safe to do so, because Vagrant is only
# exposing certain guest ports (by default just 9991) to the
# host. The same argument applies to the remote development
# servers using username "zulipdev".
options.interface = None
else:
# Otherwise, only listen to requests on localhost for security.
options.interface = "127.0.0.1"
elif options.interface == "":
options.interface = None
runserver_args: List[str] = []
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base_port = 9991
if options.test:
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base_port = 9981
settings_module = "zproject.test_settings"
# Don't auto-reload when running Puppeteer tests
runserver_args = ["--noreload"]
tornado_autoreload = []
else:
settings_module = "zproject.settings"
tornado_autoreload = ["-m", "tornado.autoreload"]
manage_args = [f"--settings={settings_module}"]
os.environ["DJANGO_SETTINGS_MODULE"] = settings_module
from scripts.lib.zulip_tools import CYAN, ENDC
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proxy_port = base_port
django_port = base_port + 1
tornado_port = base_port + 2
webpack_port = base_port + 3
os.chdir(os.path.join(os.path.dirname(__file__), ".."))
if options.clear_memcached:
subprocess.check_call("./scripts/setup/flush-memcached")
# Set up a new process group, so that we can later kill run{server,tornado}
# and all of the processes they spawn.
os.setpgrp()
# Save pid of parent process to the pid file. It can be used later by
# tools/stop-run-dev to kill the server without having to find the
# terminal in question.
if options.test:
pid_file_path = os.path.join(os.path.join(os.getcwd(), "var/puppeteer/run_dev.pid"))
else:
pid_file_path = os.path.join(os.path.join(os.getcwd(), "var/run/run_dev.pid"))
# Required for compatibility python versions.
if not os.path.exists(os.path.dirname(pid_file_path)):
os.makedirs(os.path.dirname(pid_file_path))
with open(pid_file_path, "w+") as f:
f.write(str(os.getpgrp()) + "\n")
def server_processes() -> List[List[str]]:
main_cmds = [
[
"./manage.py",
"rundjangoserver",
*manage_args,
*runserver_args,
f"127.0.0.1:{django_port}",
],
[
"env",
"PYTHONUNBUFFERED=1",
"python3",
*tornado_autoreload,
"./manage.py",
"runtornado",
*manage_args,
f"127.0.0.1:{tornado_port}",
],
]
if options.streamlined:
# The streamlined operation allows us to do many
# things, but search/etc. features won't work.
return main_cmds
other_cmds = [
["./manage.py", "process_queue", "--all", *manage_args],
[
"env",
"PGHOST=127.0.0.1", # Force password authentication using .pgpass
"./puppet/zulip/files/postgresql/process_fts_updates",
"--quiet",
],
["./manage.py", "deliver_scheduled_messages"],
]
# NORMAL (but slower) operation:
return main_cmds + other_cmds
def do_one_time_webpack_compile() -> None:
# We just need to compile webpack assets once at startup, not run a daemon,
# in test mode. Additionally, webpack-dev-server doesn't support running 2
# copies on the same system, so this model lets us run the Puppeteer tests
# with a running development server.
subprocess.check_call(["./tools/webpack", "--quiet", "--test"])
def start_webpack_watcher() -> "subprocess.Popen[bytes]":
webpack_cmd = ["./tools/webpack", "--watch", f"--port={webpack_port}"]
if options.minify:
webpack_cmd.append("--minify")
if options.interface is None:
# If interface is None and we're listening on all ports, we also need
# to disable the webpack host check so that webpack will serve assets.
webpack_cmd.append("--disable-host-check")
if options.interface:
webpack_cmd.append(f"--host={options.interface}")
else:
webpack_cmd.append("--host=0.0.0.0")
return subprocess.Popen(webpack_cmd)
def transform_url(protocol: str, path: str, query: str, target_port: int, target_host: str) -> str:
# generate url with target host
host = ":".join((target_host, str(target_port)))
# Here we are going to rewrite the path a bit so that it is in parity with
# what we will have for production
newpath = urlunparse((protocol, host, path, "", query, ""))
return newpath
client: httpclient.AsyncHTTPClient
dependencies: Remove WebSockets system for sending messages. Zulip has had a small use of WebSockets (specifically, for the code path of sending messages, via the webapp only) since ~2013. We originally added this use of WebSockets in the hope that the latency benefits of doing so would allow us to avoid implementing a markdown local echo; they were not. Further, HTTP/2 may have eliminated the latency difference we hoped to exploit by using WebSockets in any case. While we’d originally imagined using WebSockets for other endpoints, there was never a good justification for moving more components to the WebSockets system. This WebSockets code path had a lot of downsides/complexity, including: * The messy hack involving constructing an emulated request object to hook into doing Django requests. * The `message_senders` queue processor system, which increases RAM needs and must be provisioned independently from the rest of the server). * A duplicate check_send_receive_time Nagios test specific to WebSockets. * The requirement for users to have their firewalls/NATs allow WebSocket connections, and a setting to disable them for networks where WebSockets don’t work. * Dependencies on the SockJS family of libraries, which has at times been poorly maintained, and periodically throws random JavaScript exceptions in our production environments without a deep enough traceback to effectively investigate. * A total of about 1600 lines of our code related to the feature. * Increased load on the Tornado system, especially around a Zulip server restart, and especially for large installations like zulipchat.com, resulting in extra delay before messages can be sent again. As detailed in https://github.com/zulip/zulip/pull/12862#issuecomment-536152397, it appears that removing WebSockets moderately increases the time it takes for the `send_message` API query to return from the server, but does not significantly change the time between when a message is sent and when it is received by clients. We don’t understand the reason for that change (suggesting the possibility of a measurement error), and even if it is a real change, we consider that potential small latency regression to be acceptable. If we later want WebSockets, we’ll likely want to just use Django Channels. Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
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class BaseHandler(web.RequestHandler):
# target server ip
target_host: str = "127.0.0.1"
# target server port
target_port: int
def _add_request_headers(
self,
exclude_lower_headers_list: Sequence[str] = [],
) -> httputil.HTTPHeaders:
headers = httputil.HTTPHeaders()
for header, v in self.request.headers.get_all():
if header.lower() not in exclude_lower_headers_list:
headers.add(header, v)
return headers
def get(self) -> None:
dependencies: Remove WebSockets system for sending messages. Zulip has had a small use of WebSockets (specifically, for the code path of sending messages, via the webapp only) since ~2013. We originally added this use of WebSockets in the hope that the latency benefits of doing so would allow us to avoid implementing a markdown local echo; they were not. Further, HTTP/2 may have eliminated the latency difference we hoped to exploit by using WebSockets in any case. While we’d originally imagined using WebSockets for other endpoints, there was never a good justification for moving more components to the WebSockets system. This WebSockets code path had a lot of downsides/complexity, including: * The messy hack involving constructing an emulated request object to hook into doing Django requests. * The `message_senders` queue processor system, which increases RAM needs and must be provisioned independently from the rest of the server). * A duplicate check_send_receive_time Nagios test specific to WebSockets. * The requirement for users to have their firewalls/NATs allow WebSocket connections, and a setting to disable them for networks where WebSockets don’t work. * Dependencies on the SockJS family of libraries, which has at times been poorly maintained, and periodically throws random JavaScript exceptions in our production environments without a deep enough traceback to effectively investigate. * A total of about 1600 lines of our code related to the feature. * Increased load on the Tornado system, especially around a Zulip server restart, and especially for large installations like zulipchat.com, resulting in extra delay before messages can be sent again. As detailed in https://github.com/zulip/zulip/pull/12862#issuecomment-536152397, it appears that removing WebSockets moderately increases the time it takes for the `send_message` API query to return from the server, but does not significantly change the time between when a message is sent and when it is received by clients. We don’t understand the reason for that change (suggesting the possibility of a measurement error), and even if it is a real change, we consider that potential small latency regression to be acceptable. If we later want WebSockets, we’ll likely want to just use Django Channels. Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
2019-07-23 01:43:40 +02:00
pass
def head(self) -> None:
pass
def post(self) -> None:
pass
def put(self) -> None:
pass
def patch(self) -> None:
pass
def options(self) -> None:
pass
def delete(self) -> None:
pass
def handle_response(self, response: Any) -> None:
if response.error and not isinstance(response.error, httpclient.HTTPError):
self.set_status(500)
self.write("Internal server error:\n" + str(response.error))
else:
self.set_status(response.code, response.reason)
self._headers = httputil.HTTPHeaders() # clear tornado default header
for header, v in response.headers.get_all():
# some header appear multiple times, eg 'Set-Cookie'
if header.lower() != "transfer-encoding":
self.add_header(header, v)
if response.body:
self.write(response.body)
self.finish()
async def prepare(self) -> None:
if "X-REAL-IP" not in self.request.headers:
self.request.headers["X-REAL-IP"] = self.request.remote_ip
if "X-FORWARDED_PORT" not in self.request.headers:
self.request.headers["X-FORWARDED-PORT"] = str(proxy_port)
url = transform_url(
self.request.protocol,
self.request.path,
self.request.query,
self.target_port,
self.target_host,
)
try:
request = httpclient.HTTPRequest(
url=url,
method=self.request.method,
headers=self._add_request_headers(["upgrade-insecure-requests"]),
follow_redirects=False,
body=getattr(self.request, "body"),
allow_nonstandard_methods=True,
# use large timeouts to handle polling requests
connect_timeout=240.0,
request_timeout=240.0,
# https://github.com/tornadoweb/tornado/issues/2743
decompress_response=False,
)
response = await client.fetch(request, raise_error=False)
self.handle_response(response)
except httpclient.HTTPError as e:
if hasattr(e, "response") and e.response:
self.handle_response(e.response)
else:
self.set_status(500)
self.write("Internal server error:\n" + str(e))
self.finish()
dependencies: Remove WebSockets system for sending messages. Zulip has had a small use of WebSockets (specifically, for the code path of sending messages, via the webapp only) since ~2013. We originally added this use of WebSockets in the hope that the latency benefits of doing so would allow us to avoid implementing a markdown local echo; they were not. Further, HTTP/2 may have eliminated the latency difference we hoped to exploit by using WebSockets in any case. While we’d originally imagined using WebSockets for other endpoints, there was never a good justification for moving more components to the WebSockets system. This WebSockets code path had a lot of downsides/complexity, including: * The messy hack involving constructing an emulated request object to hook into doing Django requests. * The `message_senders` queue processor system, which increases RAM needs and must be provisioned independently from the rest of the server). * A duplicate check_send_receive_time Nagios test specific to WebSockets. * The requirement for users to have their firewalls/NATs allow WebSocket connections, and a setting to disable them for networks where WebSockets don’t work. * Dependencies on the SockJS family of libraries, which has at times been poorly maintained, and periodically throws random JavaScript exceptions in our production environments without a deep enough traceback to effectively investigate. * A total of about 1600 lines of our code related to the feature. * Increased load on the Tornado system, especially around a Zulip server restart, and especially for large installations like zulipchat.com, resulting in extra delay before messages can be sent again. As detailed in https://github.com/zulip/zulip/pull/12862#issuecomment-536152397, it appears that removing WebSockets moderately increases the time it takes for the `send_message` API query to return from the server, but does not significantly change the time between when a message is sent and when it is received by clients. We don’t understand the reason for that change (suggesting the possibility of a measurement error), and even if it is a real change, we consider that potential small latency regression to be acceptable. If we later want WebSockets, we’ll likely want to just use Django Channels. Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
2019-07-23 01:43:40 +02:00
class WebPackHandler(BaseHandler):
target_port = webpack_port
dependencies: Remove WebSockets system for sending messages. Zulip has had a small use of WebSockets (specifically, for the code path of sending messages, via the webapp only) since ~2013. We originally added this use of WebSockets in the hope that the latency benefits of doing so would allow us to avoid implementing a markdown local echo; they were not. Further, HTTP/2 may have eliminated the latency difference we hoped to exploit by using WebSockets in any case. While we’d originally imagined using WebSockets for other endpoints, there was never a good justification for moving more components to the WebSockets system. This WebSockets code path had a lot of downsides/complexity, including: * The messy hack involving constructing an emulated request object to hook into doing Django requests. * The `message_senders` queue processor system, which increases RAM needs and must be provisioned independently from the rest of the server). * A duplicate check_send_receive_time Nagios test specific to WebSockets. * The requirement for users to have their firewalls/NATs allow WebSocket connections, and a setting to disable them for networks where WebSockets don’t work. * Dependencies on the SockJS family of libraries, which has at times been poorly maintained, and periodically throws random JavaScript exceptions in our production environments without a deep enough traceback to effectively investigate. * A total of about 1600 lines of our code related to the feature. * Increased load on the Tornado system, especially around a Zulip server restart, and especially for large installations like zulipchat.com, resulting in extra delay before messages can be sent again. As detailed in https://github.com/zulip/zulip/pull/12862#issuecomment-536152397, it appears that removing WebSockets moderately increases the time it takes for the `send_message` API query to return from the server, but does not significantly change the time between when a message is sent and when it is received by clients. We don’t understand the reason for that change (suggesting the possibility of a measurement error), and even if it is a real change, we consider that potential small latency regression to be acceptable. If we later want WebSockets, we’ll likely want to just use Django Channels. Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
2019-07-23 01:43:40 +02:00
class DjangoHandler(BaseHandler):
target_port = django_port
dependencies: Remove WebSockets system for sending messages. Zulip has had a small use of WebSockets (specifically, for the code path of sending messages, via the webapp only) since ~2013. We originally added this use of WebSockets in the hope that the latency benefits of doing so would allow us to avoid implementing a markdown local echo; they were not. Further, HTTP/2 may have eliminated the latency difference we hoped to exploit by using WebSockets in any case. While we’d originally imagined using WebSockets for other endpoints, there was never a good justification for moving more components to the WebSockets system. This WebSockets code path had a lot of downsides/complexity, including: * The messy hack involving constructing an emulated request object to hook into doing Django requests. * The `message_senders` queue processor system, which increases RAM needs and must be provisioned independently from the rest of the server). * A duplicate check_send_receive_time Nagios test specific to WebSockets. * The requirement for users to have their firewalls/NATs allow WebSocket connections, and a setting to disable them for networks where WebSockets don’t work. * Dependencies on the SockJS family of libraries, which has at times been poorly maintained, and periodically throws random JavaScript exceptions in our production environments without a deep enough traceback to effectively investigate. * A total of about 1600 lines of our code related to the feature. * Increased load on the Tornado system, especially around a Zulip server restart, and especially for large installations like zulipchat.com, resulting in extra delay before messages can be sent again. As detailed in https://github.com/zulip/zulip/pull/12862#issuecomment-536152397, it appears that removing WebSockets moderately increases the time it takes for the `send_message` API query to return from the server, but does not significantly change the time between when a message is sent and when it is received by clients. We don’t understand the reason for that change (suggesting the possibility of a measurement error), and even if it is a real change, we consider that potential small latency regression to be acceptable. If we later want WebSockets, we’ll likely want to just use Django Channels. Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
2019-07-23 01:43:40 +02:00
class TornadoHandler(BaseHandler):
target_port = tornado_port
class Application(web.Application):
def __init__(self, enable_logging: bool = False) -> None:
handlers = [
(r"/json/events.*", TornadoHandler),
(r"/api/v1/events.*", TornadoHandler),
(r"/webpack.*", WebPackHandler),
(r"/.*", DjangoHandler),
]
super().__init__(handlers, enable_logging=enable_logging)
def log_request(self, handler: BaseHandler) -> None:
if self.settings["enable_logging"]:
super().log_request(handler)
def print_listeners() -> None:
# Since we can't import settings from here, we duplicate some
# EXTERNAL_HOST logic from dev_settings.py.
IS_DEV_DROPLET = pwd.getpwuid(os.getuid()).pw_name == "zulipdev"
if IS_DEV_DROPLET:
# Technically, the `zulip.` is a subdomain of the server, so
# this is kinda misleading, but 99% of development is done on
# the default/zulip subdomain.
default_hostname = "zulip." + os.uname()[1].lower()
else:
default_hostname = "localhost"
external_host = os.getenv("EXTERNAL_HOST", f"{default_hostname}:{proxy_port}")
print(f"\nStarting Zulip on:\n\n\t{CYAN}http://{external_host}/{ENDC}\n\nInternal ports:")
ports = [
(proxy_port, "Development server proxy (connect here)"),
(django_port, "Django"),
(tornado_port, "Tornado"),
]
if not options.test:
ports.append((webpack_port, "webpack"))
for port, label in ports:
print(f" {port}: {label}")
print()
children = []
async def serve() -> None:
global client
AsyncIOMainLoop().install()
if options.test:
do_one_time_webpack_compile()
else:
children.append(start_webpack_watcher())
for cmd in server_processes():
children.append(subprocess.Popen(cmd))
client = httpclient.AsyncHTTPClient()
app = Application(enable_logging=options.enable_tornado_logging)
try:
app.listen(proxy_port, address=options.interface)
except OSError as e:
if e.errno == 98:
print("\n\nERROR: You probably have another server running!!!\n\n")
raise
print_listeners()
loop = asyncio.new_event_loop()
try:
loop.run_until_complete(serve())
for s in (signal.SIGINT, signal.SIGTERM):
loop.add_signal_handler(s, loop.stop)
loop.run_forever()
finally:
for child in children:
child.terminate()
print("Waiting for children to stop...")
for child in children:
child.wait()
# Remove pid file when development server closed correctly.
os.remove(pid_file_path)