This allows it to read/write to the user's clipboard properly. Prior to
this, it would be writing to the Clipboard server running under the
window user, which doesn't impact other users (like anon).
Co-authored-by: Daniel Bertalan <dani@danielbertalan.dev>
The clipboard service hasn't been ported to user-based portals with
others services as it is needed at `GUI::Application` creation and thus
before the first login, as the `LoginServer` needs one.
This problem as been solved thanks to session-based portals, a clipboard
portal is now created at boot for the "login" session and another for
each "user" session.
With a user-based portal, the "login" portal would have needed to be
created for the `root` user, exposing us to security issues. It now, can
be owned by the `window` user.
Various changes are needed to support this:
- The directory is created by Core::Account on login (and located in
/tmp).
- Service's sockets are now deleted on exit (to allow re-creation)
- SystemServer needs to handle SIGTERM to correctly destroy services.
This service is responsible for loading network configuration from a
/etc/Network.ini config file. It sets up static IP address + mask or
starts DHCPClient depending on configuration.
This will allow using the console tty and WindowServer regardless of
your kernel command line. Also this fixes a bug where, when booting in
text mode, the console was in graphical mode, and would not accept
input.
Previously the CI would hang on the "Check manpages for completeness"
step on any utility that unveils the /tmp/portal/lookup file because
it was not created during the generate-manpages SystemMode.
This will allow utilities that resolve hostnames (e.g. netstat, arp) to
pass the export-argsparser-mangpages.sh check.
There's a fair amount of VERIFY/TODO calls in LibSQL that will crash the
SQL server if we hit an unimplemented feature or some bug. Restart the
server if this happens to help with debugging / development.
In CI / or local testing when you run `serenity.sh tests`, the system
will boot itself in self test mode, and the test runner will be launched
by SystemServer. Previously we were setting up settings for that
environment in the `SystemServer.ini`. This makes reproducing CI
failures a bit confusing, as the system will behavior differently if you
run in self-test mode, vs running `run-tests-and-shutdown.sh` or
`run-tests` manually in a session.
This change moves the settings to `run-tests`, so no matter how you try
to run the test runner, it will always behave the same.
ConfigServer is an IPC service that provides access to application
configuration and settings. The idea is to replace all uses of
Core::ConfigFile with IPC requests to ConfigServer.
This first cut of the API is pretty similar to Core::ConfigFile.
The old:
auto config = Core::ConfigFile::open_for_app("App");
auto value = config->read_entry("Group", "Key");
The new:
auto value = Config::read_string("App", "Group", "Key");
ConfigServer uses the ~/.config directory as its backing store
and all the files remain human-editable. :^)
A SPICE agent communicates with the host OS to provide nifty features
like clipboard sharing :^)
This patch implements only plain-text clipboard sharing.
See: github.com/freedesktop/spice-protocol/blob/master/spice/vd_agent.h
Adds new service FileSystemAccessServer which allows programs to
request a file descriptor for any file on the file system.
The user can be prompted to choose the path with a FilePicker, or the
path can be provided by the application which will show a MessageBox
showing the pid and name of the calling process and allows the user to
approve or deny the request.
This will run all the tests that are children of this service with
deadly UBSAN, ensuring we don't get any UBSAN regressions in on-target
tests anymore. :^)
Some of these were using 660 permissions which meant that other users
in the "users" group could connect to anon's service processes.
Let's tighten things up by not allowing that. :^)
This service daemon will act as an intermediary between the Inspector
program and the inspectable programs it wants to inspect.
Programs can make themselves available for inspection by connecting
to /tmp/portal/inspectables using the Core::EventLoop RPC protocol.
After looking closely at this, I realized that we've been running
all the service processes under separate user accounts even though
there's actually no need to.
Since we already use pledge() and unveil() to limit the scope and
access of these programs, separating them to another UID doesn't
achieve anything meaningful. So let's bring them back to the "anon"
user account and simplify things.
Programs affected:
- ImageDecoder
- RequestServer
- WebContent
- WebSocket
Longer term, I'd like for all of these to get spawned for the current
desktop user somehow, possibly by some kind of session manager, or
perhaps by the Browser program itself. But for now they remain under
SystemServer's control.
I can't say I like starting yet another thing on boot... but now that
LookupServer provides mDNS (and optionaly DNS) services to other hosts,
we have to start it on boot, not when the first local client connects.
The current ProtocolServer was really only used for requests, and with
the recent introduction of the WebSocket service, long-lasting
connections with another server are not part of it. To better reflect
this, this commit renames it to RequestServer.
This commit also changes the existing 'protocol' portal to 'request',
the existing 'protocol' user and group to 'request', and most mentions
of the 'download' aspect of the request to 'request' when relevant, to
make everything consistent across the system.
Note that LibProtocol still exists as-is, but the more generic Client
class and the more specific Download class have both been renamed to a
more accurate RequestClient and Request to match the new names.
This commit only change names, not behaviors.
The WebSocket service isolates communication with a WebSocket to its
own isolated process. Similar to other isolating services, it has its
own user and group.
This is useful for CI where we don't want to spend a minute and a half
benchmarking Vector::append, and we don't have a good way to pass
test-specific arguments yet. :)
With this patch the window manager related functionality is split out
onto a new endpoint pair named WindowManagerServer/Client. This allows
window manager functionality to be potentially privilege separated in
the future. To this end, a new client named WMConnectionClient
is used to maintain a window manager connection. When a process
connects to the endpoint and greets the WindowServer as a window manager
(via Window::make_window_manager(int)), they're subscribed to the events
they requested via the WM event mask.
This patch also removes the hardcoding of the Taskbar WindowType to
receive WM events automatically. However, being a window manager still
requires having an active window, at the moment.