nixpkgs/lib/testing.nix
Eelco Dolstra ef82cd9c48 * Coverage report: propagate the build products of the VM test run.
* Run the Quake 3 with coverage instrumentation.

svn path=/nixos/trunk/; revision=25480
2011-01-09 22:21:22 +00:00

236 lines
6.9 KiB
Nix

{ nixpkgs, services, system }:
with import ./build-vms.nix { inherit nixpkgs services system; };
with pkgs;
rec {
inherit pkgs;
testDriver = stdenv.mkDerivation {
name = "nixos-test-driver";
buildInputs = [ makeWrapper perl ];
unpackPhase = "true";
installPhase =
''
mkdir -p $out/bin
cp ${./test-driver/test-driver.pl} $out/bin/nixos-test-driver
chmod u+x $out/bin/nixos-test-driver
libDir=$out/lib/perl5/site_perl
mkdir -p $libDir
cp ${./test-driver/Machine.pm} $libDir/Machine.pm
cp ${./test-driver/Logger.pm} $libDir/Logger.pm
wrapProgram $out/bin/nixos-test-driver \
--prefix PATH : "${imagemagick}/bin" \
--prefix PERL5LIB : "${lib.makePerlPath [ perlPackages.TermReadLineGnu perlPackages.XMLWriter ]}:$out/lib/perl5/site_perl"
'';
};
# Run an automated test suite in the given virtual network.
# `network' must be the result of a call to the
# `buildVirtualNetwork' function. `tests' is a Perl fragment
# describing the tests.
runTests = network: tests:
stdenv.mkDerivation {
name = "vm-test-run";
requiredSystemFeatures = [ "kvm" ];
inherit tests;
buildInputs = [ pkgs.qemu_kvm pkgs.libxslt ];
buildCommand =
''
mkdir -p $out/nix-support
LOGFILE=$out/log.xml ${testDriver}/bin/nixos-test-driver ${network}/vms/*/bin/run-*-vm || failed=1
# Generate a pretty-printed log.
xsltproc --output $out/log.html ${./test-driver/log2html.xsl} $out/log.xml
ln -s ${./test-driver/logfile.css} $out/logfile.css
ln -s ${./test-driver/treebits.js} $out/treebits.js
ln -s ${pkgs.jquery_ui}/js/jquery.min.js $out/
ln -s ${pkgs.jquery_ui}/js/jquery-ui.min.js $out/
touch $out/nix-support/hydra-build-products
echo "report testlog $out log.html" >> $out/nix-support/hydra-build-products
for i in */coverage-data; do
mkdir -p $out/coverage-data
mv $i $out/coverage-data/$(dirname $i)
done
[ -z "$failed" ] || touch $out/nix-support/failed
''; # */
};
# Generate a coverage report from the coverage data produced by
# runTests.
makeReport = x: runCommand "report" { buildInputs = [rsync]; }
''
mkdir -p $TMPDIR/gcov/
for d in ${x}/coverage-data/*; do
echo "doing $d"
[ -n "$(ls -A "$d")" ] || continue
for i in $(cd $d/nix/store && ls); do
if ! test -e $TMPDIR/gcov/nix/store/$i; then
echo "copying $i"
mkdir -p $TMPDIR/gcov/$(echo $i | cut -c34-)
rsync -rv /nix/store/$i/.build/* $TMPDIR/gcov/
fi
done
chmod -R u+w $TMPDIR/gcov
find $TMPDIR/gcov -name "*.gcda" -exec rm {} \;
for i in $(cd $d/nix/store && ls); do
rsync -rv $d/nix/store/$i/.build/* $TMPDIR/gcov/
done
find $TMPDIR/gcov -name "*.gcda" -exec chmod 644 {} \;
echo "producing info..."
${pkgs.lcov}/bin/geninfo --ignore-errors source,gcov $TMPDIR/gcov --output-file $TMPDIR/app.info
cat $TMPDIR/app.info >> $TMPDIR/full.info
done
echo "making report..."
mkdir -p $out/coverage
${pkgs.lcov}/bin/genhtml --show-details $TMPDIR/full.info -o $out/coverage
cp $TMPDIR/full.info $out/coverage/
mkdir -p $out/nix-support
cat ${x}/nix-support/hydra-build-products >> $out/nix-support/hydra-build-products
echo "report coverage $out/coverage" >> $out/nix-support/hydra-build-products
[ ! -e ${x}/nix-support/failed ] || touch $out/nix-support/failed
''; # */
makeTest = testFun: complete (call testFun);
makeTests = testsFun: lib.mapAttrs (name: complete) (call testsFun);
apply = makeTest; # compatibility
call = f: f { inherit pkgs nixpkgs system; };
complete = t: t // rec {
nodes =
if t ? nodes then t.nodes else
if t ? machine then { machine = t.machine; }
else { };
vms = buildVirtualNetwork { inherit nodes; };
testScript =
# Call the test script with the computed nodes.
if builtins.isFunction t.testScript
then t.testScript { inherit (vms) nodes; }
else t.testScript;
test = runTests vms testScript;
report = makeReport test;
# Generate a convenience wrapper for running the test driver
# interactively with the specified network.
driver = runCommand "nixos-test-driver"
{ buildInputs = [ makeWrapper];
inherit testScript;
}
''
mkdir -p $out/bin
ln -s ${vms}/bin/* $out/bin/
ln -s ${testDriver}/bin/* $out/bin/
wrapProgram $out/bin/nixos-test-driver \
--add-flags "${vms}/vms/*/bin/run-*-vm" \
--run "testScript=\"\$(cat $out/test-script)\"" \
--set testScript '"$testScript"'
echo "$testScript" > $out/test-script
''; # "
};
runInMachine =
{ drv
, machine
, preBuild ? ""
, postBuild ? ""
, ...
}:
let
vms =
buildVirtualNetwork { nodes = { client = machine; } ; };
buildrunner = writeText "vm-build" ''
source $1
${coreutils}/bin/mkdir -p $TMPDIR
cd $TMPDIR
$origBuilder $origArgs
exit $?
'';
testscript = ''
startAll;
${preBuild}
print STDERR $client->mustSucceed("env -i ${pkgs.bash}/bin/bash ${buildrunner} /hostfs".$client->stateDir."/saved-env");
${postBuild}
'';
vmRunCommand = writeText "vm-run" ''
${coreutils}/bin/mkdir -p vm-state-client
export > vm-state-client/saved-env
export PATH=${qemu_kvm}/bin:${coreutils}/bin
export tests='${testscript}'
${testDriver}/bin/nixos-test-driver ${vms}/vms/*/bin/run-*-vm
''; # */
in
lib.overrideDerivation drv (attrs: {
requiredSystemFeatures = [ "kvm" ];
builder = "${bash}/bin/sh";
args = ["-e" vmRunCommand];
origArgs = attrs.args;
origBuilder = attrs.builder;
});
runInMachineWithX = { require ? [], ...}@args :
let
client =
{ config, pkgs, ... }:
{
inherit require;
virtualisation.memorySize = 1024;
services.xserver.enable = true;
services.xserver.displayManager.slim.enable = false;
services.xserver.displayManager.auto.enable = true;
services.xserver.windowManager.default = "icewm";
services.xserver.windowManager.icewm.enable = true;
services.xserver.desktopManager.default = "none";
};
in
runInMachine ({
machine = client;
preBuild = ''
$client->waitForX;
'' ;
} // args );
simpleTest = as: (makeTest ({ ... }: as)).test;
}