Without this, browser refused to play the video. To reproduce press `open`
on an uploaded video on CZO. Chrome gives us the following error
in console:
Refused to load media from '<source>' because it violates the
following Content Security Policy directive: "default-src 'none'".
Note that 'media-src' was not explicitly set, so 'default-src' is
used as a fallback.
The `unless` step errors out if /usr/bin/psql does not exist at
first evaluation time -- protect that with a `test -f` check, and
protect the actual `createuser` with a dependency on `postgresql-client`.
To work around `Zulip::Safepackage` not actually being safe to
instantiate more than once, we move the instantiation of
`Package[postgresql-client]` into a class which can be safely
included one or more times.
This endpoint verifies that the services that Zulip needs to function
are running, and Django can talk to them. It is designed to be used
as a readiness probe[^1] for Zulip, either by Kubernetes, or some other
reverse-proxy load-balancer in front of Zulip. Because of this, it
limits access to only localhost and the IP addresses of configured
reverse proxies.
Tests are limited because we cannot stop running services (which would
impact other concurrent tests) and there would be extremely limited
utility to mocking the very specific methods we're calling to raising
the exceptions that we're looking for.
[^1]: https://kubernetes.io/docs/tasks/configure-pod-container/configure-liveness-readiness-startup-probes/
The rolling restart configuration of uwsgi attempted to re-chdir the
CWD to the new `/home/zulip/deployments/current` before `lazy-apps`
loaded the application in the forked child. It successfully did so --
however, the "main" process was still running in the original
`/home/zulip/deployments/current`, which somehow (?) tainted the
search path of the children processes.
Set the parent uwsgi process to start in `/`, so that the old deploy
directory cannot taint the load order of later children processes.
This is common in cases where the reverse proxy itself is making
health-check requests to the Zulip server; these requests have no
X-Forwarded-* headers, so would normally hit the error case of
"request through the proxy, but no X-Forwarded-Proto header".
Add an additional special-case for when the request's originating IP
address is resolved to be the reverse proxy itself; in these cases,
HTTP requests with no X-Forwarded-Proto are acceptable.
All `X-amz-*` headers must be included in the signed request to S3;
since Django did not take those headers into account (it constructed a
request from scratch, while nginx's request inherits them from the
end-user's request), the proxied request fails to be signed correctly.
Strip off the `X-amz-cf-id` header added by CloudFront. While we
would ideally strip off all `X-amz-*` headers, this requires a
third-party module[^1].
[^1]: https://github.com/openresty/headers-more-nginx-module#more_clear_input_headers
Restore the default django.utils.log.AdminEmailHandler when
ERROR_REPORTING is enabled. Those with more sophisticated needs can
turn it off and use Sentry or a Sentry-compatible system.
Signed-off-by: Anders Kaseorg <anders@zulip.com>
The `time` field is based on the file metadata in S3, which means that
touching the file contents in S3 can move backups around in the list.
Switch to using `start_time` as the sort key, which is based on the
contents of the JSON file stored as part of the backup, so is not
affected by changes in S3 metadata.
supervisord's log rotation is only "every x bytes" which is not a good
enough policy for tracking auditing logs. The default is also 10 logs
of 50MB, which is very much not enough for active instances.
Switch to tracking 14 days of daily logs.
Combine nginx and Django middlware to stop putting misleading warnings
about `CSRF_TRUSTED_ORIGINS` when the issue is untrusted proxies.
This attempts to, in the error logs, diagnose and suggest next steps
to fix common proxy misconfigurations.
See also #24599 and zulip/docker-zulip#403.
Updating the pgroonga package is not sufficient to upgrade the
extension in PostgreSQL -- an `ALTER EXTENSION pgroonga UPDATE` must
explicitly be run[^1]. Failure to do so can lead to unexpected behavior,
including crashes of PostgreSQL.
Expand on the existing `pgroonga_setup.sql.applied` file, to track
which version of the PostgreSQL extension has been configured. If the
file exists but is empty, we run `ALTER EXTENSION pgroonga UPDATE`
regardless -- if it is a no-op, it still succeeds with a `NOTICE`:
```
zulip=# ALTER EXTENSION pgroonga UPDATE;
NOTICE: version "3.0.8" of extension "pgroonga" is already installed
ALTER EXTENSION
```
The simple `ALTER EXTENSION` is sufficient for the
backwards-compatible case[^1] -- which, for our usage, is every
upgrade since 0.9 -> 1.0. Since version 1.0 was released in 2015,
before pgroonga support was added to Zulip in 2016, we can assume for
the moment that all pgroonga upgrades are backwards-compatible, and
not bother regenerating indexes.
Fixes: #25989.
[^1]: https://pgroonga.github.io/upgrade/
This was only necessary for PGroonga 1.x, and the `pgroonga` schema
will most likely be removed at some point inthe future, which will
make this statement error out.
Drop the unnecessary statement.
The syntax in `/etc/resolv.conf` does not include any brackets:
```
nameserver 2001:db8::a3
```
However, the format of the nginx `resolver` directive[^1] requires that
IPv6 addresses be enclosed in brackets.
Adjust the `resolver_ip` puppet function to surround any IPv6
addresses extracted from `/etc/resolv.conf` with square brackets, and
any addresses from `application_server.resolver` to gain brackets if
necessary.
Fixes: #26013.
[^1]: http://nginx.org/en/docs/http/ngx_http_core_module.html#resolver
04cf68b45e make nginx responsible for downloading (and caching)
files from S3. As noted in that commit, nginx implements its own
non-blocking DNS resolver, since the base syscall is blocking, so
requires an explicit nameserver configuration. That commit used
127.0.0.53, which is provided by systemd-resolved, as the resolver.
However, that service may not always be enabled and running, and may
in fact not even be installed (e.g. on Docker). Switch to parsing
`/etc/resolv.conf` and using the first-provided nameserver. In many
deployments, this will still be `127.0.0.53`, but for others it will
provide a working DNS server which is external to the host.
In the event that a server is misconfigured and has no resolvers in
`/etc/resolv.conf`, it will error out:
```console
Error: Evaluation Error: Error while evaluating a Function Call, No nameservers found in /etc/resolv.conf! Configure one by setting application_server.nameserver in /etc/zulip/zulip.conf (file: /home/zulip/deployments/current/puppet/zulip/manifests/app_frontend_base.pp, line: 76, column: 70) on node example.zulipdev.org
```
Django has a `SECURE_PROXY_SSL_HEADER` setting[^1] which controls if
it examines a header, usually provided by upstream proxies, to allow
it to treat requests as "secure" even if the proximal HTTP connection
was not encrypted. This header is usually the `X-Forwarded-Proto`
header, and the Django configuration has large warnings about ensuring
that this setting is not enabled unless `X-Forwarded-Proto` is
explicitly controlled by the proxy, and cannot be supplied by the
end-user.
In the absence of this setting, Django checks the `wsgi.url_scheme`
property of the WSGI environment[^2].
Zulip did not control the value of the `X-Forwarded-Proto` header,
because it did not set the `SECURE_PROXY_SSL_HEADER` setting (though
see below). However, uwsgi has undocumented code which silently
overrides the `wsgi.url_scheme` property based on the
`HTTP_X_FORWARDED_PROTO` property[^3] (and hence the
`X-Forwarded-Proto` header), thus doing the same as enabling the
Django `SECURE_PROXY_SSL_HEADER` setting, but in a way that cannot be
disabled. It also sets `wsgi.url_scheme` to `https` if the
`X-Forwarded-SSL` header is set to `on` or `1`[^4], providing an
alternate route to deceive to Django.
These combine to make Zulip always trust `X-Forwarded-Proto` or
``X-Forwarded-SSL` headers from external sources, and thus able to
trick Django into thinking a request is "secure" when it is not.
However, Zulip is not accessible via unencrypted channels, since it
redirects all `http` requests to `https` at the nginx level; this
mitigates the vulnerability.
Regardless, we harden Zulip against this vulnerability provided by the
undocumented uwsgi feature, by stripping off `X-Forwarded-SSL` headers
before they reach uwsgi, and setting `X-Forwarded-Proto` only if the
request was received directly from a trusted proxy.
Tornado, because it does not use uwsgi, is an entirely separate
codepath. It uses the `proxy_set_header` values from
`puppet/zulip/files/nginx/zulip-include-common/proxy`, which set
`X-Forwarded-Proto` to the scheme that nginx received the request
over. As such, `SECURE_PROXY_SSL_HEADER` was set in Tornado, and only
Tornado; since the header was always set in nginx, this was safe.
However, it was also _incorrect_ in cases where nginx did not do SSL
termination, but an upstream proxy did -- it would mark those requests
as insecure when they were actually secure. We adjust the
`proxy_set_header X-Forwarded-Proto` used to talk to Tornado to
respect the proxy if it is trusted, or the local scheme if not.
[^1]: https://docs.djangoproject.com/en/4.2/ref/settings/#secure-proxy-ssl-header
[^2]: https://wsgi.readthedocs.io/en/latest/definitions.html#envvar-wsgi.url_scheme
[^3]: 73efb013e9/core/protocol.c (L558-L561)
[^4]: 73efb013e9/core/protocol.c (L531-L534)
1c76036c61 raised the number of `minfds` in Supervisor from 40k to
1M. If Supervisor cannot guarantee that number of available file
descriptors, it will fail to start; `/etc/security/limits.conf` was
hence adjusted upwards as well. However, on some virtualized
environments, including Proxmox LXC, setting
`/etc/security/limits.conf` may not be enough to raise the
system-level limits. This causes `supervisord` with the larger
`minfds` to fail to start.
The limit of 1000000 was chosen to be arbitrarily high, assuming it
came without cost; it is not expected to ever be reached on any
deployment. 262b19346e already lowered one aspect of that
changeset, upon determining it did come with a cost. Potentially
breaking virtualized deployments during upgrade is another cost of
that change.
Lower the `minfds` it back down to 40k, partially reverting
1c76036c61, but allow adjusting it upwards for extremely large
deployments. We do not expect any except the largest deployments to
ever hit the 40k limit, and a frictionless deployment for the
vanishingly small number of huge deployments is not worth the
potential upgrade hiccups for the much more frequent smaller
deployments.