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syft/test/integration/catalog_packages_test.go
Christopher Angelo Phillips afc0c1acd9
855 attest registry source only (#856) 
Add source.NewFromRegistry function so that the syft attest command can always explicitly ask for an OCIRegistry provider rather than rely on local daemon detection for image sources.

Attestation can not be used where local images loaded in a daemon are the source. Digest values for the layer identification step in attestation can sometimes vary across workstations.

This fix makes it so that attest is generating an SBOM for, and attesting to, a source that exists in an OCI registry. It should never load a source from a local user docker/podman daemon.

Signed-off-by: Christopher Phillips <christopher.phillips@anchore.com>
Co-authored-by: Alex Goodman <alex.goodman@anchore.com>
2022-03-01 23:16:42 -05:00

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package integration
import (
"github.com/stretchr/testify/require"
"testing"
"github.com/anchore/syft/syft/linux"
"github.com/anchore/syft/syft/pkg/cataloger"
"github.com/google/go-cmp/cmp"
"github.com/anchore/stereoscope/pkg/imagetest"
"github.com/anchore/syft/syft/source"
"github.com/anchore/syft/internal"
"github.com/anchore/syft/syft/pkg"
)
func BenchmarkImagePackageCatalogers(b *testing.B) {
fixtureImageName := "image-pkg-coverage"
imagetest.GetFixtureImage(b, "docker-archive", fixtureImageName)
tarPath := imagetest.GetFixtureImageTarPath(b, fixtureImageName)
var pc *pkg.Catalog
for _, c := range cataloger.ImageCatalogers(cataloger.DefaultConfig()) {
// in case of future alteration where state is persisted, assume no dependency is safe to reuse
userInput := "docker-archive:" + tarPath
sourceInput, err := source.ParseInput(userInput, false)
require.NoError(b, err)
theSource, cleanupSource, err := source.New(*sourceInput, nil, nil)
b.Cleanup(cleanupSource)
if err != nil {
b.Fatalf("unable to get source: %+v", err)
}
resolver, err := theSource.FileResolver(source.SquashedScope)
if err != nil {
b.Fatalf("unable to get resolver: %+v", err)
}
theDistro := linux.IdentifyRelease(resolver)
b.Run(c.Name(), func(b *testing.B) {
for i := 0; i < b.N; i++ {
pc, _, err = cataloger.Catalog(resolver, theDistro, c)
if err != nil {
b.Fatalf("failure during benchmark: %+v", err)
}
}
})
b.Logf("catalog for %q number of packages: %d", c.Name(), pc.PackageCount())
}
}
func TestPkgCoverageImage(t *testing.T) {
sbom, _ := catalogFixtureImage(t, "image-pkg-coverage")
observedLanguages := internal.NewStringSet()
definedLanguages := internal.NewStringSet()
for _, l := range pkg.AllLanguages {
definedLanguages.Add(l.String())
}
// for image scans we should not expect to see any of the following package types
definedLanguages.Remove(pkg.Go.String())
definedLanguages.Remove(pkg.Rust.String())
observedPkgs := internal.NewStringSet()
definedPkgs := internal.NewStringSet()
for _, p := range pkg.AllPkgs {
definedPkgs.Add(string(p))
}
// for image scans we should not expect to see any of the following package types
definedPkgs.Remove(string(pkg.KbPkg))
definedPkgs.Remove(string(pkg.GoModulePkg))
definedPkgs.Remove(string(pkg.RustPkg))
var cases []testCase
cases = append(cases, commonTestCases...)
cases = append(cases, imageOnlyTestCases...)
for _, c := range cases {
t.Run(c.name, func(t *testing.T) {
pkgCount := 0
for a := range sbom.Artifacts.PackageCatalog.Enumerate(c.pkgType) {
if a.Language.String() != "" {
observedLanguages.Add(a.Language.String())
}
observedPkgs.Add(string(a.Type))
expectedVersion, ok := c.pkgInfo[a.Name]
if !ok {
t.Errorf("unexpected package found: %s", a.Name)
}
if expectedVersion != a.Version {
t.Errorf("unexpected package version (pkg=%s): %s, expected: %s", a.Name, a.Version, expectedVersion)
}
if a.Language != c.pkgLanguage {
t.Errorf("bad language (pkg=%+v): %+v", a.Name, a.Language)
}
if a.Type != c.pkgType {
t.Errorf("bad package type (pkg=%+v): %+v", a.Name, a.Type)
}
pkgCount++
}
if pkgCount != len(c.pkgInfo)+c.duplicates {
t.Logf("Discovered packages of type %+v", c.pkgType)
for a := range sbom.Artifacts.PackageCatalog.Enumerate(c.pkgType) {
t.Log(" ", a)
}
t.Fatalf("unexpected package count: %d!=%d", pkgCount, len(c.pkgInfo))
}
})
}
observedLanguages.Remove(pkg.UnknownLanguage.String())
definedLanguages.Remove(pkg.UnknownLanguage.String())
observedPkgs.Remove(string(pkg.UnknownPkg))
definedPkgs.Remove(string(pkg.UnknownPkg))
// ensure that integration test cases stay in sync with the available catalogers
if diff := cmp.Diff(definedLanguages, observedLanguages); diff != "" {
t.Errorf("language coverage incomplete (languages=%d, coverage=%d)", len(definedLanguages), len(observedLanguages))
t.Errorf("definedLanguages mismatch observedLanguages (-want +got):\n%s", diff)
}
if diff := cmp.Diff(definedPkgs, observedPkgs); diff != "" {
t.Errorf("package coverage incomplete (packages=%d, coverage=%d)", len(definedPkgs), len(observedPkgs))
t.Errorf("definedPkgs mismatch observedPkgs (-want +got):\n%s", diff)
}
}
func TestPkgCoverageDirectory(t *testing.T) {
sbom, _ := catalogDirectory(t, "test-fixtures/image-pkg-coverage")
observedLanguages := internal.NewStringSet()
definedLanguages := internal.NewStringSet()
for _, l := range pkg.AllLanguages {
definedLanguages.Add(l.String())
}
observedPkgs := internal.NewStringSet()
definedPkgs := internal.NewStringSet()
for _, p := range pkg.AllPkgs {
definedPkgs.Add(string(p))
}
var cases []testCase
cases = append(cases, commonTestCases...)
cases = append(cases, dirOnlyTestCases...)
for _, test := range cases {
t.Run(test.name, func(t *testing.T) {
actualPkgCount := 0
for actualPkg := range sbom.Artifacts.PackageCatalog.Enumerate(test.pkgType) {
observedLanguages.Add(actualPkg.Language.String())
observedPkgs.Add(string(actualPkg.Type))
expectedVersion, ok := test.pkgInfo[actualPkg.Name]
if !ok {
t.Errorf("unexpected package found: %s", actualPkg.Name)
}
if expectedVersion != actualPkg.Version {
t.Errorf("unexpected package version (pkg=%s): %s", actualPkg.Name, actualPkg.Version)
}
if actualPkg.Language != test.pkgLanguage {
t.Errorf("bad language (pkg=%+v): %+v", actualPkg.Name, actualPkg.Language)
}
if actualPkg.Type != test.pkgType {
t.Errorf("bad package type (pkg=%+v): %+v", actualPkg.Name, actualPkg.Type)
}
actualPkgCount++
}
if actualPkgCount != len(test.pkgInfo)+test.duplicates {
for actualPkg := range sbom.Artifacts.PackageCatalog.Enumerate(test.pkgType) {
t.Log(" ", actualPkg)
}
t.Fatalf("unexpected package count: %d!=%d", actualPkgCount, len(test.pkgInfo))
}
})
}
observedLanguages.Remove(pkg.UnknownLanguage.String())
definedLanguages.Remove(pkg.UnknownLanguage.String())
observedPkgs.Remove(string(pkg.UnknownPkg))
definedPkgs.Remove(string(pkg.UnknownPkg))
// for directory scans we should not expect to see any of the following package types
definedPkgs.Remove(string(pkg.KbPkg))
// ensure that integration test commonTestCases stay in sync with the available catalogers
if len(observedLanguages) < len(definedLanguages) {
t.Errorf("language coverage incomplete (languages=%d, coverage=%d)", len(definedLanguages), len(observedLanguages))
}
if len(observedPkgs) < len(definedPkgs) {
t.Errorf("package coverage incomplete (packages=%d, coverage=%d)", len(definedPkgs), len(observedPkgs))
}
}
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