{ depot, pkgs, lib, ... }:
let
# Seed a tvix-store with the tvix docs, then start a VM, ask it to list all
# files in /nix/store, and ensure the store path is present, which acts as a
# nice smoketest.
mkBootTest =
{ blobServiceAddr ? "memory://"
, directoryServiceAddr ? "memory://"
, pathInfoServiceAddr ? "memory://"
# The path to import.
, path
# Whether the path should be imported as a closure.
# If false, importPathName must be specified.
, isClosure ? false
# Whether to use nar-bridge to upload, rather than tvix-store copy.
# using nar-bridge currently is "slower", as the `pkgs.mkBinaryCache` build
# takes quite some time.
, useNarBridge ? false
, importPathName ? null
# Commands to run before starting the tvix-daemon. Useful to provide
# auxillary mock services.
, preStart ? ""
# The cmdline to pass to the VM.
# Defaults to tvix.find, which lists all files in the store.
, vmCmdline ? "tvix.find"
# The string we expect to find in the VM output.
# Defaults the value of `path` (the store path we upload).
, assertVMOutput ? path
}:
assert isClosure -> importPathName == null;
assert (!isClosure) -> importPathName != null;
pkgs.stdenv.mkDerivation ({
name = "run-vm";
nativeBuildInputs = [
depot.tvix.store
depot.tvix.boot.runVM
] ++ lib.optionals (isClosure && useNarBridge) [
depot.tvix.nar-bridge
pkgs.curl
pkgs.parallel
pkgs.xz.bin
];
buildCommand = ''
touch $out
# Ensure we can construct http clients.
export SSL_CERT_FILE=/dev/null
${preStart}
# Start the tvix daemon, listening on a unix socket.
BLOB_SERVICE_ADDR=${lib.escapeShellArg blobServiceAddr} \
DIRECTORY_SERVICE_ADDR=${lib.escapeShellArg directoryServiceAddr} \
PATH_INFO_SERVICE_ADDR=${lib.escapeShellArg pathInfoServiceAddr} \
tvix-store \
--otlp=false \
daemon -l $PWD/tvix-store.sock &
# Wait for the socket to be created.
while [ ! -e $PWD/tvix-store.sock ]; do sleep 1; done
# Export env vars so that subsequent tvix-store commands will talk to
# our tvix-store daemon over the unix socket.
export BLOB_SERVICE_ADDR=grpc+unix://$PWD/tvix-store.sock
export DIRECTORY_SERVICE_ADDR=grpc+unix://$PWD/tvix-store.sock
export PATH_INFO_SERVICE_ADDR=grpc+unix://$PWD/tvix-store.sock
'' + lib.optionalString (!isClosure) ''
echo "Importing ${path} into tvix-store with name ${importPathName}…"
cp -R ${path} ${importPathName}
outpath=$(tvix-store import ${importPathName})
echo "imported to $outpath"
'' + lib.optionalString (isClosure && !useNarBridge) ''
echo "Copying closure ${path}…"
# This picks up the `closure` key in `$NIX_ATTRS_JSON_FILE` automatically.
tvix-store --otlp=false copy
'' + lib.optionalString (isClosure && useNarBridge) ''
echo "Starting nar-bridge…"
nar-bridge \
--otlp=false \
-l $PWD/nar-bridge.sock &
# Wait for the socket to be created.
while [ ! -e $PWD/nar-bridge.sock ]; do sleep 1; done
# Upload. We can't use nix copy --to http://…, as it wants access to the nix db.
# However, we can use mkBinaryCache to assemble .narinfo and .nar.xz to upload,
# and then drive a HTTP client ourselves.
to_upload=${pkgs.mkBinaryCache { rootPaths = [path];}}
# Upload all NAR files (with some parallelism).
# As mkBinaryCache produces them xz-compressed, unpack them on the fly.
# nar-bridge doesn't care about the path we upload *to*, but a
# subsequent .narinfo upload need to refer to its contents (by narhash).
echo -e "Uploading NARs… "
ls -d $to_upload/nar/*.nar.xz | parallel 'xz -d < {} | curl -s -T - --unix-socket $PWD/nar-bridge.sock http://localhost:9000/nar/$(basename {} | cut -d "." -f 1).nar'
echo "Done."
# Upload all NARInfo files.
# FUTUREWORK: This doesn't upload them in order, and currently relies
# on PathInfoService not doing any checking.
# In the future, we might want to make this behaviour configurable,
# and disable checking here, to keep the logic simple.
ls -d $to_upload/*.narinfo | parallel 'curl -s -T - --unix-socket $PWD/nar-bridge.sock http://localhost:9000/$(basename {}) < {}'
'' + ''
# Invoke a VM using tvix as the backing store, ensure the outpath appears in its listing.
echo "Starting VM…"
CH_CMDLINE="${vmCmdline}" run-tvix-vm 2>&1 | tee output.txt
grep "${assertVMOutput}" output.txt
'';
requiredSystemFeatures = [ "kvm" ];
} // lib.optionalAttrs (isClosure && !useNarBridge) {
__structuredAttrs = true;
exportReferencesGraph.closure = [ path ];
});
systemFor = sys: (depot.ops.nixos.nixosFor sys).system;
testSystem = systemFor ({ modulesPath, pkgs, ... }: {
# Set some options necessary to evaluate.
boot.loader.systemd-boot.enable = true;
# TODO: figure out how to disable this without causing eval to fail
fileSystems."/" = {
device = "/dev/root";
fsType = "tmpfs";
};
services.getty.helpLine = "Onwards and upwards.";
systemd.services.do-shutdown = {
after = [ "getty.target" ];
description = "Shut down again";
wantedBy = [ "multi-user.target" ];
serviceConfig.Type = "oneshot";
script = "/run/current-system/sw/bin/systemctl poweroff --when=+10s";
};
# Don't warn about stateVersion.
system.stateVersion = "24.05";
});
in
depot.nix.readTree.drvTargets
{
docs-memory = (mkBootTest {
path = ../../docs;
importPathName = "docs";
});
docs-persistent = (mkBootTest {
blobServiceAddr = "objectstore+file:///build/blobs";
directoryServiceAddr = "sled:///build/directories.sled";
pathInfoServiceAddr = "sled:///build/pathinfo.sled";
path = ../../docs;
importPathName = "docs";
});
closure-tvix = (mkBootTest {
blobServiceAddr = "objectstore+file:///build/blobs";
path = depot.tvix.store;
isClosure = true;
});
closure-nixos = (mkBootTest {
blobServiceAddr = "objectstore+file:///build/blobs";
path = testSystem;
isClosure = true;
vmCmdline = "init=${testSystem}/init panic=-1"; # reboot immediately on panic
assertVMOutput = "Onwards and upwards.";
});
closure-nixos-bigtable = (mkBootTest {
blobServiceAddr = "objectstore+file:///build/blobs";
directoryServiceAddr = "bigtable://instance-1?project_id=project-1&table_name=directories&family_name=cf1";
pathInfoServiceAddr = "bigtable://instance-1?project_id=project-1&table_name=pathinfos&family_name=cf1";
path = testSystem;
useNarBridge = true;
preStart = ''
${pkgs.cbtemulator}/bin/cbtemulator -address $PWD/cbtemulator.sock &
timeout 22 sh -c 'until [ -e $PWD/cbtemulator.sock ]; do sleep 1; done'
export BIGTABLE_EMULATOR_HOST=unix://$PWD/cbtemulator.sock
${pkgs.google-cloud-bigtable-tool}/bin/cbt -instance instance-1 -project project-1 createtable directories
${pkgs.google-cloud-bigtable-tool}/bin/cbt -instance instance-1 -project project-1 createfamily directories cf1
${pkgs.google-cloud-bigtable-tool}/bin/cbt -instance instance-1 -project project-1 createtable pathinfos
${pkgs.google-cloud-bigtable-tool}/bin/cbt -instance instance-1 -project project-1 createfamily pathinfos cf1
'';
isClosure = true;
vmCmdline = "init=${testSystem}/init panic=-1"; # reboot immediately on panic
assertVMOutput = "Onwards and upwards.";
});
closure-nixos-s3 = (mkBootTest {
blobServiceAddr = "objectstore+s3://mybucket/blobs?aws_access_key_id=myaccesskey&aws_secret_access_key=supersecret&aws_endpoint_url=http%3A%2F%2Flocalhost%3A9000&aws_allow_http=1";
# we cannot use s3 here yet without any caching layer, as we don't allow "deeper" access to directories (non-root nodes)
# directoryServiceAddr = "objectstore+s3://mybucket/directories?aws_access_key_id=myaccesskey&aws_secret_access_key=supersecret&endpoint=http%3A%2F%2Flocalhost%3A9000&aws_allow_http=1";
directoryServiceAddr = "memory://";
pathInfoServiceAddr = "memory://";
path = testSystem;
useNarBridge = true;
preStart = ''
MINIO_ACCESS_KEY=myaccesskey MINIO_SECRET_KEY=supersecret MINIO_ADDRESS=127.0.0.1:9000 ${pkgs.minio}/bin/minio server $(mktemp -d) &
timeout 22 sh -c 'until ${pkgs.netcat}/bin/nc -z $0 $1; do sleep 1; done' localhost 9000
mc_config_dir=$(mktemp -d)
${pkgs.minio-client}/bin/mc --config-dir $mc_config_dir alias set 'myminio' 'http://127.0.0.1:9000' 'myaccesskey' 'supersecret'
${pkgs.minio-client}/bin/mc --config-dir $mc_config_dir mb myminio/mybucket
'';
isClosure = true;
vmCmdline = "init=${testSystem}/init panic=-1"; # reboot immediately on panic
assertVMOutput = "Onwards and upwards.";
});
closure-nixos-nar-bridge = (mkBootTest {
blobServiceAddr = "objectstore+file:///build/blobs";
path = testSystem;
useNarBridge = true;
isClosure = true;
vmCmdline = "init=${testSystem}/init panic=-1"; # reboot immediately on panic
assertVMOutput = "Onwards and upwards.";
});
}