# this test creates a simple GNU image with docker tools and sees if it executes import ./make-test-python.nix ({ pkgs, ... }: { name = "docker-tools"; meta = with pkgs.lib.maintainers; { maintainers = [ lnl7 roberth ]; }; nodes = { docker = { ... }: { virtualisation = { diskSize = 2048; docker.enable = true; }; }; }; testScript = with pkgs.dockerTools; '' unix_time_second1 = "1970-01-01T00:00:01Z" docker.wait_for_unit("sockets.target") with subtest("includeStorePath"): with subtest("assumption"): docker.succeed("${examples.helloOnRoot} | docker load") docker.succeed("docker run --rm hello | grep -i hello") docker.succeed("docker image rm hello:latest") with subtest("includeStorePath = false; breaks example"): docker.succeed("${examples.helloOnRootNoStore} | docker load") docker.fail("docker run --rm hello | grep -i hello") docker.succeed("docker image rm hello:latest") with subtest("includeStorePath = false; works with mounted store"): docker.succeed("${examples.helloOnRootNoStore} | docker load") docker.succeed("docker run --rm --volume ${builtins.storeDir}:${builtins.storeDir}:ro hello | grep -i hello") docker.succeed("docker image rm hello:latest") with subtest("Ensure Docker images use a stable date by default"): docker.succeed( "docker load --input='${examples.bash}'" ) assert unix_time_second1 in docker.succeed( "docker inspect ${examples.bash.imageName} " + "| ${pkgs.jq}/bin/jq -r .[].Created", ) docker.succeed("docker run --rm ${examples.bash.imageName} bash --version") # Check imageTag attribute matches image docker.succeed("docker images --format '{{.Tag}}' | grep -F '${examples.bash.imageTag}'") docker.succeed("docker rmi ${examples.bash.imageName}") # The remaining combinations with subtest("Ensure imageTag attribute matches image"): docker.succeed( "docker load --input='${examples.bashNoTag}'" ) docker.succeed( "docker images --format '{{.Tag}}' | grep -F '${examples.bashNoTag.imageTag}'" ) docker.succeed("docker rmi ${examples.bashNoTag.imageName}:${examples.bashNoTag.imageTag}") docker.succeed( "docker load --input='${examples.bashNoTagLayered}'" ) docker.succeed( "docker images --format '{{.Tag}}' | grep -F '${examples.bashNoTagLayered.imageTag}'" ) docker.succeed("docker rmi ${examples.bashNoTagLayered.imageName}:${examples.bashNoTagLayered.imageTag}") docker.succeed( "${examples.bashNoTagStreamLayered} | docker load" ) docker.succeed( "docker images --format '{{.Tag}}' | grep -F '${examples.bashNoTagStreamLayered.imageTag}'" ) docker.succeed( "docker rmi ${examples.bashNoTagStreamLayered.imageName}:${examples.bashNoTagStreamLayered.imageTag}" ) docker.succeed( "docker load --input='${examples.nixLayered}'" ) docker.succeed("docker images --format '{{.Tag}}' | grep -F '${examples.nixLayered.imageTag}'") docker.succeed("docker rmi ${examples.nixLayered.imageName}") with subtest( "Check if the nix store is correctly initialized by listing " "dependencies of the installed Nix binary" ): docker.succeed( "docker load --input='${examples.nix}'", "docker run --rm ${examples.nix.imageName} nix-store -qR ${pkgs.nix}", "docker rmi ${examples.nix.imageName}", ) with subtest( "Ensure (layered) nix store has correct permissions " "and that the container starts when its process does not have uid 0" ): docker.succeed( "docker load --input='${examples.bashLayeredWithUser}'", "docker run -u somebody --rm ${examples.bashLayeredWithUser.imageName} ${pkgs.bash}/bin/bash -c 'test 555 == $(stat --format=%a /nix) && test 555 == $(stat --format=%a /nix/store)'", "docker rmi ${examples.bashLayeredWithUser.imageName}", ) with subtest("The nix binary symlinks are intact"): docker.succeed( "docker load --input='${examples.nix}'", "docker run --rm ${examples.nix.imageName} ${pkgs.bash}/bin/bash -c 'test nix == $(readlink ${pkgs.nix}/bin/nix-daemon)'", "docker rmi ${examples.nix.imageName}", ) with subtest("The nix binary symlinks are intact when the image is layered"): docker.succeed( "docker load --input='${examples.nixLayered}'", "docker run --rm ${examples.nixLayered.imageName} ${pkgs.bash}/bin/bash -c 'test nix == $(readlink ${pkgs.nix}/bin/nix-daemon)'", "docker rmi ${examples.nixLayered.imageName}", ) with subtest("The pullImage tool works"): docker.succeed( "docker load --input='${examples.testNixFromDockerHub}'", "docker run --rm nix:2.2.1 nix-store --version", "docker rmi nix:2.2.1", ) with subtest("runAsRoot and entry point work"): docker.succeed( "docker load --input='${examples.nginx}'", "docker run --name nginx -d -p 8000:80 ${examples.nginx.imageName}", ) docker.wait_until_succeeds("curl -f http://localhost:8000/") docker.succeed( "docker rm --force nginx", "docker rmi '${examples.nginx.imageName}'", ) with subtest("A pulled image can be used as base image"): docker.succeed( "docker load --input='${examples.onTopOfPulledImage}'", "docker run --rm ontopofpulledimage hello", "docker rmi ontopofpulledimage", ) with subtest("Regression test for issue #34779"): docker.succeed( "docker load --input='${examples.runAsRootExtraCommands}'", "docker run --rm runasrootextracommands cat extraCommands", "docker run --rm runasrootextracommands cat runAsRoot", "docker rmi '${examples.runAsRootExtraCommands.imageName}'", ) with subtest("Ensure Docker images can use an unstable date"): docker.succeed( "docker load --input='${examples.unstableDate}'" ) assert unix_time_second1 not in docker.succeed( "docker inspect ${examples.unstableDate.imageName} " + "| ${pkgs.jq}/bin/jq -r .[].Created" ) with subtest("Ensure Layered Docker images can use an unstable date"): docker.succeed( "docker load --input='${examples.unstableDateLayered}'" ) assert unix_time_second1 not in docker.succeed( "docker inspect ${examples.unstableDateLayered.imageName} " + "| ${pkgs.jq}/bin/jq -r .[].Created" ) with subtest("Ensure Layered Docker images work"): docker.succeed( "docker load --input='${examples.layered-image}'", "docker run --rm ${examples.layered-image.imageName}", "docker run --rm ${examples.layered-image.imageName} cat extraCommands", ) with subtest("Ensure images built on top of layered Docker images work"): docker.succeed( "docker load --input='${examples.layered-on-top}'", "docker run --rm ${examples.layered-on-top.imageName}", ) with subtest("Ensure layered images built on top of layered Docker images work"): docker.succeed( "docker load --input='${examples.layered-on-top-layered}'", "docker run --rm ${examples.layered-on-top-layered.imageName}", ) def set_of_layers(image_name): return set( docker.succeed( f"docker inspect {image_name} " + "| ${pkgs.jq}/bin/jq -r '.[] | .RootFS.Layers | .[]'" ).split() ) with subtest("Ensure layers are shared between images"): docker.succeed( "docker load --input='${examples.another-layered-image}'" ) layers1 = set_of_layers("${examples.layered-image.imageName}") layers2 = set_of_layers("${examples.another-layered-image.imageName}") assert bool(layers1 & layers2) with subtest("Ensure order of layers is correct"): docker.succeed( "docker load --input='${examples.layersOrder}'" ) for index in 1, 2, 3: assert f"layer{index}" in docker.succeed( f"docker run --rm ${examples.layersOrder.imageName} cat /tmp/layer{index}" ) with subtest("Ensure environment variables are correctly inherited"): docker.succeed( "docker load --input='${examples.environmentVariables}'" ) out = docker.succeed("docker run --rm ${examples.environmentVariables.imageName} env") env = out.splitlines() assert "FROM_PARENT=true" in env, "envvars from the parent should be preserved" assert "FROM_CHILD=true" in env, "envvars from the child should be preserved" assert "LAST_LAYER=child" in env, "envvars from the child should take priority" with subtest("Ensure environment variables of layered images are correctly inherited"): docker.succeed( "docker load --input='${examples.environmentVariablesLayered}'" ) out = docker.succeed("docker run --rm ${examples.environmentVariablesLayered.imageName} env") env = out.splitlines() assert "FROM_PARENT=true" in env, "envvars from the parent should be preserved" assert "FROM_CHILD=true" in env, "envvars from the child should be preserved" assert "LAST_LAYER=child" in env, "envvars from the child should take priority" with subtest( "Ensure inherited environment variables of layered images are correctly resolved" ): # Read environment variables as stored in image config config = docker.succeed( "tar -xOf ${examples.environmentVariablesLayered} manifest.json | ${pkgs.jq}/bin/jq -r .[].Config" ).strip() out = docker.succeed( f"tar -xOf ${examples.environmentVariablesLayered} {config} | ${pkgs.jq}/bin/jq -r '.config.Env | .[]'" ) env = out.splitlines() assert ( sum(entry.startswith("LAST_LAYER") for entry in env) == 1 ), "envvars overridden by child should be unique" with subtest("Ensure image with only 2 layers can be loaded"): docker.succeed( "docker load --input='${examples.two-layered-image}'" ) with subtest( "Ensure the bulk layer doesn't miss store paths (regression test for #78744)" ): docker.succeed( "docker load --input='${pkgs.dockerTools.examples.bulk-layer}'", # Ensure the two output paths (ls and hello) are in the layer "docker run bulk-layer ls /bin/hello", ) with subtest( "Ensure the bulk layer with a base image respects the number of maxLayers" ): docker.succeed( "docker load --input='${pkgs.dockerTools.examples.layered-bulk-layer}'", # Ensure the image runs correctly "docker run layered-bulk-layer ls /bin/hello", ) # Ensure the image has the correct number of layers assert len(set_of_layers("layered-bulk-layer")) == 4 with subtest("Ensure only minimal paths are added to the store"): # TODO: make an example that has no store paths, for example by making # busybox non-self-referential. # This check tests that buildLayeredImage can build images that don't need a store. docker.succeed( "docker load --input='${pkgs.dockerTools.examples.no-store-paths}'" ) docker.succeed("docker run --rm no-store-paths ls / >/dev/console") # If busybox isn't self-referential, we need this line # docker.fail("docker run --rm no-store-paths ls /nix/store >/dev/console") # However, it currently is self-referential, so we check that it is the # only store path. docker.succeed("diff <(docker run --rm no-store-paths ls /nix/store) <(basename ${pkgs.pkgsStatic.busybox}) >/dev/console") with subtest("Ensure buildLayeredImage does not change store path contents."): docker.succeed( "docker load --input='${pkgs.dockerTools.examples.filesInStore}'", "docker run --rm file-in-store nix-store --verify --check-contents", "docker run --rm file-in-store |& grep 'some data'", ) with subtest("Ensure cross compiled image can be loaded and has correct arch."): docker.succeed( "docker load --input='${pkgs.dockerTools.examples.cross}'", ) assert ( docker.succeed( "docker inspect ${pkgs.dockerTools.examples.cross.imageName} " + "| ${pkgs.jq}/bin/jq -r .[].Architecture" ).strip() == "${if pkgs.system == "aarch64-linux" then "amd64" else "arm64"}" ) with subtest("buildLayeredImage doesn't dereference /nix/store symlink layers"): docker.succeed( "docker load --input='${examples.layeredStoreSymlink}'", "docker run --rm ${examples.layeredStoreSymlink.imageName} bash -c 'test -L ${examples.layeredStoreSymlink.passthru.symlink}'", "docker rmi ${examples.layeredStoreSymlink.imageName}", ) with subtest("buildImage supports registry/ prefix in image name"): docker.succeed( "docker load --input='${examples.prefixedImage}'" ) docker.succeed( "docker images --format '{{.Repository}}' | grep -F '${examples.prefixedImage.imageName}'" ) with subtest("buildLayeredImage supports registry/ prefix in image name"): docker.succeed( "docker load --input='${examples.prefixedLayeredImage}'" ) docker.succeed( "docker images --format '{{.Repository}}' | grep -F '${examples.prefixedLayeredImage.imageName}'" ) with subtest("buildLayeredImage supports running chown with fakeRootCommands"): docker.succeed( "docker load --input='${examples.layeredImageWithFakeRootCommands}'" ) docker.succeed( "docker run --rm ${examples.layeredImageWithFakeRootCommands.imageName} sh -c 'stat -c '%u' /home/jane | grep -E ^1000$'" ) with subtest("Ensure docker load on merged images loads all of the constituent images"): docker.succeed( "docker load --input='${examples.mergedBashAndRedis}'" ) docker.succeed( "docker images --format '{{.Repository}}-{{.Tag}}' | grep -F '${examples.bash.imageName}-${examples.bash.imageTag}'" ) docker.succeed( "docker images --format '{{.Repository}}-{{.Tag}}' | grep -F '${examples.redis.imageName}-${examples.redis.imageTag}'" ) docker.succeed("docker run --rm ${examples.bash.imageName} bash --version") docker.succeed("docker run --rm ${examples.redis.imageName} redis-cli --version") docker.succeed("docker rmi ${examples.bash.imageName}") docker.succeed("docker rmi ${examples.redis.imageName}") with subtest( "Ensure docker load on merged images loads all of the constituent images (missing tags)" ): docker.succeed( "docker load --input='${examples.mergedBashNoTagAndRedis}'" ) docker.succeed( "docker images --format '{{.Repository}}-{{.Tag}}' | grep -F '${examples.bashNoTag.imageName}-${examples.bashNoTag.imageTag}'" ) docker.succeed( "docker images --format '{{.Repository}}-{{.Tag}}' | grep -F '${examples.redis.imageName}-${examples.redis.imageTag}'" ) # we need to explicitly specify the generated tag here docker.succeed( "docker run --rm ${examples.bashNoTag.imageName}:${examples.bashNoTag.imageTag} bash --version" ) docker.succeed("docker run --rm ${examples.redis.imageName} redis-cli --version") docker.succeed("docker rmi ${examples.bashNoTag.imageName}:${examples.bashNoTag.imageTag}") docker.succeed("docker rmi ${examples.redis.imageName}") with subtest("mergeImages preserves owners of the original images"): docker.succeed( "docker load --input='${examples.mergedBashFakeRoot}'" ) docker.succeed( "docker run --rm ${examples.layeredImageWithFakeRootCommands.imageName} sh -c 'stat -c '%u' /home/jane | grep -E ^1000$'" ) with subtest("The image contains store paths referenced by the fakeRootCommands output"): docker.succeed( "docker run --rm ${examples.layeredImageWithFakeRootCommands.imageName} /hello/bin/layeredImageWithFakeRootCommands-hello" ) with subtest("exportImage produces a valid tarball"): docker.succeed( "tar -tf ${examples.exportBash} | grep '\./bin/bash' > /dev/null" ) with subtest("Ensure bare paths in contents are loaded correctly"): docker.succeed( "docker load --input='${examples.build-image-with-path}'", "docker run --rm build-image-with-path bash -c '[[ -e /hello.txt ]]'", "docker rmi build-image-with-path", ) docker.succeed( "${examples.layered-image-with-path} | docker load", "docker run --rm layered-image-with-path bash -c '[[ -e /hello.txt ]]'", "docker rmi layered-image-with-path", ) ''; })