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Merge pull request #116282 from nh2/programs-turbovnc
turbovnc: Add programs.turbovnc, add test for headless software OpenGL
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commit
296c47d7b2
@ -177,6 +177,7 @@
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./programs/tmux.nix
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./programs/traceroute.nix
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./programs/tsm-client.nix
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./programs/turbovnc.nix
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./programs/udevil.nix
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./programs/usbtop.nix
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./programs/vim.nix
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54
nixos/modules/programs/turbovnc.nix
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54
nixos/modules/programs/turbovnc.nix
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@ -0,0 +1,54 @@
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# Global configuration for the SSH client.
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{ config, lib, pkgs, ... }:
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with lib;
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let
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cfg = config.programs.turbovnc;
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in
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{
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options = {
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programs.turbovnc = {
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ensureHeadlessSoftwareOpenGL = mkOption {
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type = types.bool;
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default = false;
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description = ''
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Whether to set up NixOS such that TurboVNC's built-in software OpenGL
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implementation works.
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This will enable <option>hardware.opengl.enable</option> so that OpenGL
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programs can find Mesa's llvmpipe drivers.
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Setting this option to <code>false</code> does not mean that software
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OpenGL won't work; it may still work depending on your system
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configuration.
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This option is also intended to generate warnings if you are using some
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configuration that's incompatible with using headless software OpenGL
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in TurboVNC.
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'';
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};
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};
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};
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config = mkIf cfg.ensureHeadlessSoftwareOpenGL {
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# TurboVNC has builtin support for Mesa llvmpipe's `swrast`
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# software rendering to implemnt GLX (OpenGL on Xorg).
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# However, just building TurboVNC with support for that is not enough
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# (it only takes care of the X server side part of OpenGL);
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# the indiviudual applications (e.g. `glxgears`) also need to directly load
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# the OpenGL libs.
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# Thus, this creates `/run/opengl-driver` populated by Mesa so that the applications
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# can find the llvmpipe `swrast.so` software rendering DRI lib via `libglvnd`.
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# This comment exists to explain why `hardware.` is involved,
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# even though 100% software rendering is used.
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hardware.opengl.enable = true;
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};
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}
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@ -408,6 +408,7 @@ in
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trickster = handleTest ./trickster.nix {};
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trilium-server = handleTestOn ["x86_64-linux"] ./trilium-server.nix {};
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tuptime = handleTest ./tuptime.nix {};
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turbovnc-headless-server = handleTest ./turbovnc-headless-server.nix {};
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ucg = handleTest ./ucg.nix {};
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udisks2 = handleTest ./udisks2.nix {};
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unbound = handleTest ./unbound.nix {};
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171
nixos/tests/turbovnc-headless-server.nix
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171
nixos/tests/turbovnc-headless-server.nix
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@ -0,0 +1,171 @@
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import ./make-test-python.nix ({ pkgs, lib, ... }: {
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name = "turbovnc-headless-server";
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meta = {
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maintainers = with lib.maintainers; [ nh2 ];
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};
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machine = { pkgs, ... }: {
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environment.systemPackages = with pkgs; [
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glxinfo
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procps # for `pkill`, `pidof` in the test
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scrot # for screenshotting Xorg
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turbovnc
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];
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programs.turbovnc.ensureHeadlessSoftwareOpenGL = true;
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networking.firewall = {
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# Reject instead of drop, for failures instead of hangs.
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rejectPackets = true;
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allowedTCPPorts = [
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5900 # VNC :0, for seeing what's going on in the server
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];
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};
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# So that we can ssh into the VM, see e.g.
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# http://blog.patapon.info/nixos-local-vm/#accessing-the-vm-with-ssh
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services.openssh.enable = true;
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services.openssh.permitRootLogin = "yes";
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users.extraUsers.root.password = "";
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users.mutableUsers = false;
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};
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testScript = ''
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def wait_until_terminated_or_succeeds(
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termination_check_shell_command,
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success_check_shell_command,
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get_detail_message_fn,
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retries=60,
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retry_sleep=0.5,
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):
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def check_success():
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command_exit_code, _output = machine.execute(success_check_shell_command)
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return command_exit_code == 0
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for _ in range(retries):
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exit_check_exit_code, _output = machine.execute(termination_check_shell_command)
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is_terminated = exit_check_exit_code != 0
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if is_terminated:
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if check_success():
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return
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else:
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details = get_detail_message_fn()
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raise Exception(
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f"termination check ({termination_check_shell_command}) triggered without command succeeding ({success_check_shell_command}); details: {details}"
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)
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else:
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if check_success():
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return
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time.sleep(retry_sleep)
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if not check_success():
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details = get_detail_message_fn()
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raise Exception(
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f"action timed out ({success_check_shell_command}); details: {details}"
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)
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# Below we use the pattern:
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# (cmd | tee stdout.log) 3>&1 1>&2 2>&3 | tee stderr.log
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# to capture both stderr and stdout while also teeing them, see:
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# https://unix.stackexchange.com/questions/6430/how-to-redirect-stderr-and-stdout-to-different-files-and-also-display-in-termina/6431#6431
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# Starts headless VNC server, backgrounding it.
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def start_xvnc():
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xvnc_command = " ".join(
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[
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"Xvnc",
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":0",
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"-iglx",
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"-auth /root/.Xauthority",
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"-geometry 1240x900",
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"-depth 24",
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"-rfbwait 5000",
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"-deferupdate 1",
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"-verbose",
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"-securitytypes none",
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# We don't enforce localhost listening such that we
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# can connect from outside the VM using
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# env QEMU_NET_OPTS=hostfwd=tcp::5900-:5900 $(nix-build nixos/tests/turbovnc-headless-server.nix -A driver)/bin/nixos-test-driver
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# for testing purposes, and so that we can in the future
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# add another test case that connects the TurboVNC client.
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# "-localhost",
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]
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)
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machine.execute(
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# Note trailing & for backgrounding.
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f"({xvnc_command} | tee /tmp/Xvnc.stdout) 3>&1 1>&2 2>&3 | tee /tmp/Xvnc.stderr &",
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)
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# Waits until the server log message that tells us that GLX is ready
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# (requires `-verbose` above), avoiding screenshoting racing below.
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def wait_until_xvnc_glx_ready():
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machine.wait_until_succeeds("test -f /tmp/Xvnc.stderr")
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wait_until_terminated_or_succeeds(
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termination_check_shell_command="pidof Xvnc",
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success_check_shell_command="grep 'GLX: Initialized DRISWRAST' /tmp/Xvnc.stderr",
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get_detail_message_fn=lambda: "Contents of /tmp/Xvnc.stderr:\n"
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+ machine.succeed("cat /tmp/Xvnc.stderr"),
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)
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# Checks that we detect glxgears failing when
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# `LIBGL_DRIVERS_PATH=/nonexistent` is set
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# (in which case software rendering should not work).
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def test_glxgears_failing_with_bad_driver_path():
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machine.execute(
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# Note trailing & for backgrounding.
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"(env DISPLAY=:0 LIBGL_DRIVERS_PATH=/nonexistent glxgears -info | tee /tmp/glxgears-should-fail.stdout) 3>&1 1>&2 2>&3 | tee /tmp/glxgears-should-fail.stderr &"
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)
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machine.wait_until_succeeds("test -f /tmp/glxgears-should-fail.stderr")
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wait_until_terminated_or_succeeds(
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termination_check_shell_command="pidof glxgears",
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success_check_shell_command="grep 'libGL error: failed to load driver: swrast' /tmp/glxgears-should-fail.stderr",
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get_detail_message_fn=lambda: "Contents of /tmp/glxgears-should-fail.stderr:\n"
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+ machine.succeed("cat /tmp/glxgears-should-fail.stderr"),
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)
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machine.wait_until_fails("pidof glxgears")
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# Starts glxgears, backgrounding it. Waits until it prints the `GL_RENDERER`.
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# Does not quit glxgears.
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def test_glxgears_prints_renderer():
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machine.execute(
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# Note trailing & for backgrounding.
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"(env DISPLAY=:0 glxgears -info | tee /tmp/glxgears.stdout) 3>&1 1>&2 2>&3 | tee /tmp/glxgears.stderr &"
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)
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machine.wait_until_succeeds("test -f /tmp/glxgears.stderr")
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wait_until_terminated_or_succeeds(
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termination_check_shell_command="pidof glxgears",
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success_check_shell_command="grep 'GL_RENDERER' /tmp/glxgears.stdout",
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get_detail_message_fn=lambda: "Contents of /tmp/glxgears.stderr:\n"
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+ machine.succeed("cat /tmp/glxgears.stderr"),
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)
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with subtest("Start Xvnc"):
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start_xvnc()
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wait_until_xvnc_glx_ready()
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with subtest("Ensure bad driver path makes glxgears fail"):
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test_glxgears_failing_with_bad_driver_path()
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with subtest("Run 3D application (glxgears)"):
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test_glxgears_prints_renderer()
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# Take screenshot; should display the glxgears.
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machine.succeed("scrot --display :0 /tmp/glxgears.png")
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# Copy files down.
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machine.copy_from_vm("/tmp/glxgears.png")
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machine.copy_from_vm("/tmp/glxgears.stdout")
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machine.copy_from_vm("/tmp/glxgears-should-fail.stdout")
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machine.copy_from_vm("/tmp/glxgears-should-fail.stderr")
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machine.copy_from_vm("/tmp/Xvnc.stdout")
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machine.copy_from_vm("/tmp/Xvnc.stderr")
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'';
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})
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@ -1,6 +1,7 @@
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{ lib
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, stdenv
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, fetchFromGitHub
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, nixosTests
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# Dependencies
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, cmake
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@ -101,6 +102,8 @@ stdenv.mkDerivation rec {
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--prefix PATH : ${lib.makeBinPath [ openssh ]}
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'';
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passthru.tests.turbovnc-headless-server = nixosTests.turbovnc-headless-server;
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meta = {
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homepage = "https://turbovnc.org/";
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license = lib.licenses.gpl2Plus;
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