#!/usr/bin/env bats -*- bats -*- # # tests for podman load # load helpers # Custom helpers for this test only. These just save us having to duplicate # the same thing four times (two tests, each with -i and stdin). # # initialize, read image ID and name get_iid_and_name() { run_podman images -a --format '{{.ID}} {{.Repository}}:{{.Tag}}' read iid img_name < <(echo "$output") archive=$PODMAN_TMPDIR/myimage-$(random_string 8).tar } # Simple verification of image ID and name verify_iid_and_name() { run_podman images -a --format '{{.ID}} {{.Repository}}:{{.Tag}}' read new_iid new_img_name < <(echo "$output") # Verify is "$new_iid" "$iid" "Image ID of loaded image == original" is "$new_img_name" "$1" "Name & tag of restored image" } @test "podman load invalid file" { # Regression test for #9672 to make sure invalid input yields errors. invalid=$PODMAN_TMPDIR/invalid echo "I am an invalid file and should cause a podman-load error" > $invalid run_podman 125 load -i $invalid # podman and podman-remote emit different messages; this is a common string is "$output" ".*payload does not match any of the supported image formats .*" \ "load -i INVALID fails with expected diagnostic" } @test "podman save to pipe and load" { # Generate a random name and tag (must be lower-case) local random_name=x0$(random_string 12 | tr A-Z a-z) local random_tag=t0$(random_string 7 | tr A-Z a-z) local fqin=localhost/$random_name:$random_tag run_podman tag $IMAGE $fqin # Believe it or not, 'podman load' would barf if any path element # included a capital letter archive=$PODMAN_TMPDIR/MySubDirWithCaps/MyImage-$(random_string 8).tar mkdir -p $(dirname $archive) # We can't use run_podman because that uses the BATS 'run' function # which redirects stdout and stderr. Here we need to guarantee # that podman's stdout is a pipe, not any other form of redirection $PODMAN save --format oci-archive $fqin | cat >$archive if [ "$status" -ne 0 ]; then die "Command failed: podman save ... | cat" fi # Make sure we can reload it run_podman rmi $fqin run_podman load -i $archive # FIXME: cannot compare IID, see #7371, so we check only the tag run_podman images $fqin --format '{{.Repository}}:{{.Tag}}' is "$output" "$fqin" "image preserves name across save/load" # Load with a new tag local new_name=x1$(random_string 14 | tr A-Z a-z) local new_tag=t1$(random_string 6 | tr A-Z a-z) run_podman rmi $fqin run_podman load -i $archive run_podman images --format '{{.Repository}}:{{.Tag}}' --sort tag is "${lines[0]}" "$IMAGE" "image is preserved" is "${lines[1]}" "$fqin" "image is reloaded with old fqin" # Clean up run_podman rmi $fqin } @test "podman load - by image ID" { # FIXME: how to build a simple archive instead? get_iid_and_name # Save image by ID, and remove it. run_podman save $iid -o $archive run_podman rmi $iid # Load using -i; IID should be preserved, but name is not. run_podman load -i $archive verify_iid_and_name ":" # Same as above, using stdin run_podman rmi $iid run_podman load < $archive verify_iid_and_name ":" # Same as above, using stdin but with `podman image load` run_podman rmi $iid run_podman image load < $archive verify_iid_and_name ":" # Cleanup: since load-by-iid doesn't preserve name, re-tag it; # otherwise our global teardown will rmi and re-pull our standard image. run_podman tag $iid $img_name } @test "podman load - by image name" { get_iid_and_name run_podman save $img_name -o $archive run_podman rmi $iid # Load using -i; this time the image should be tagged. run_podman load -i $archive verify_iid_and_name $img_name run_podman rmi $iid # Also make sure that `image load` behaves the same. run_podman image load -i $archive verify_iid_and_name $img_name run_podman rmi $iid # Same as above, using stdin run_podman load < $archive verify_iid_and_name $img_name } @test "podman load - redirect corrupt payload" { run_podman 125 load <<< "Danger, Will Robinson!! This is a corrupt tarball!" is "$output" \ ".*payload does not match any of the supported image formats .*" \ "Diagnostic from 'podman load' unknown/corrupt payload" } @test "podman load - multi-image archive" { # img1 & 2 should be images that are not locally present; they must also # be usable on the host arch. The nonlocal image (:000000xx) is kept # up-to-date for all RHEL/Fedora arches; the other image we use is # the one tagged ':multiimage', which as of 2021-07-15 is :20210610 # but that tag will grow stale over time. If/when this test fails, # your first approach should be to manually update :multiimage to # point to a more recent testimage. (Use the quay.io GUI, it's waaay # easier than pulling/pushing the correct manifest.) img1=${PODMAN_NONLOCAL_IMAGE_FQN} img2="$PODMAN_TEST_IMAGE_REGISTRY/$PODMAN_TEST_IMAGE_USER/$PODMAN_TEST_IMAGE_NAME:multiimage" archive=$PODMAN_TMPDIR/myimage-$(random_string 8).tar run_podman pull $img1 run_podman pull $img2 run_podman save -m -o $archive $img1 $img2 run_podman rmi -f $img1 $img2 run_podman load -i $archive run_podman image exists $img1 run_podman image exists $img2 run_podman rmi -f $img1 $img2 } @test "podman load - multi-image archive with redirect" { # (see comments in test above re: img1 & 2) img1=${PODMAN_NONLOCAL_IMAGE_FQN} img2="$PODMAN_TEST_IMAGE_REGISTRY/$PODMAN_TEST_IMAGE_USER/$PODMAN_TEST_IMAGE_NAME:multiimage" archive=$PODMAN_TMPDIR/myimage-$(random_string 8).tar run_podman pull $img1 run_podman pull $img2 # We can't use run_podman because that uses the BATS 'run' function # which redirects stdout and stderr. Here we need to guarantee # that podman's stdout is a pipe, not any other form of redirection $PODMAN save -m $img1 $img2 | cat >$archive if [ "$status" -ne 0 ]; then die "Command failed: podman save ... | cat" fi run_podman rmi -f $img1 $img2 run_podman load -i $archive run_podman image exists $img1 run_podman image exists $img2 run_podman rmi -f $img1 $img2 } @test "podman save --oci-accept-uncompressed-layers" { archive=$PODMAN_TMPDIR/myimage-$(random_string 8).tar untar=$PODMAN_TMPDIR/myuntar-$(random_string 8) mkdir -p $untar # Create a tarball, unpack it and make sure the layers are uncompressed. run_podman save -o $archive --format oci-archive --uncompressed $IMAGE run tar -C $untar -xvf $archive run file $untar/blobs/sha256/* is "$output" ".*POSIX tar archive" "layers are uncompressed" } # vim: filetype=sh