platform_build_soong/android/testing.go

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// Copyright 2017 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package android
import (
"fmt"
"path/filepath"
"regexp"
"sort"
"strings"
"testing"
"github.com/google/blueprint"
)
func NewTestContext(config Config) *TestContext {
namespaceExportFilter := func(namespace *Namespace) bool {
return true
}
nameResolver := NewNameResolver(namespaceExportFilter)
ctx := &TestContext{
Context: &Context{blueprint.NewContext(), config},
NameResolver: nameResolver,
}
ctx.SetNameInterface(nameResolver)
ctx.postDeps = append(ctx.postDeps, registerPathDepsMutator)
ctx.SetFs(ctx.config.fs)
if ctx.config.mockBpList != "" {
ctx.SetModuleListFile(ctx.config.mockBpList)
}
return ctx
}
func NewTestArchContext(config Config) *TestContext {
ctx := NewTestContext(config)
ctx.preDeps = append(ctx.preDeps, registerArchMutator)
return ctx
}
type TestContext struct {
*Context
preArch, preDeps, postDeps, finalDeps []RegisterMutatorFunc
NameResolver *NameResolver
}
func (ctx *TestContext) PreArchMutators(f RegisterMutatorFunc) {
ctx.preArch = append(ctx.preArch, f)
}
func (ctx *TestContext) HardCodedPreArchMutators(f RegisterMutatorFunc) {
// Register mutator function as normal for testing.
ctx.PreArchMutators(f)
}
func (ctx *TestContext) PreDepsMutators(f RegisterMutatorFunc) {
ctx.preDeps = append(ctx.preDeps, f)
}
func (ctx *TestContext) PostDepsMutators(f RegisterMutatorFunc) {
ctx.postDeps = append(ctx.postDeps, f)
}
func (ctx *TestContext) FinalDepsMutators(f RegisterMutatorFunc) {
ctx.finalDeps = append(ctx.finalDeps, f)
}
func (ctx *TestContext) Register() {
registerMutators(ctx.Context.Context, ctx.preArch, ctx.preDeps, ctx.postDeps, ctx.finalDeps)
ctx.RegisterSingletonType("env", EnvSingleton)
}
func (ctx *TestContext) ParseFileList(rootDir string, filePaths []string) (deps []string, errs []error) {
// This function adapts the old style ParseFileList calls that are spread throughout the tests
// to the new style that takes a config.
return ctx.Context.ParseFileList(rootDir, filePaths, ctx.config)
}
func (ctx *TestContext) ParseBlueprintsFiles(rootDir string) (deps []string, errs []error) {
// This function adapts the old style ParseBlueprintsFiles calls that are spread throughout the
// tests to the new style that takes a config.
return ctx.Context.ParseBlueprintsFiles(rootDir, ctx.config)
}
func (ctx *TestContext) RegisterModuleType(name string, factory ModuleFactory) {
ctx.Context.RegisterModuleType(name, ModuleFactoryAdaptor(factory))
}
func (ctx *TestContext) RegisterSingletonType(name string, factory SingletonFactory) {
ctx.Context.RegisterSingletonType(name, SingletonFactoryAdaptor(ctx.Context, factory))
}
func (ctx *TestContext) ModuleForTests(name, variant string) TestingModule {
var module Module
ctx.VisitAllModules(func(m blueprint.Module) {
if ctx.ModuleName(m) == name && ctx.ModuleSubDir(m) == variant {
module = m.(Module)
}
})
if module == nil {
// find all the modules that do exist
var allModuleNames []string
var allVariants []string
ctx.VisitAllModules(func(m blueprint.Module) {
allModuleNames = append(allModuleNames, ctx.ModuleName(m))
if ctx.ModuleName(m) == name {
allVariants = append(allVariants, ctx.ModuleSubDir(m))
}
})
sort.Strings(allModuleNames)
sort.Strings(allVariants)
if len(allVariants) == 0 {
panic(fmt.Errorf("failed to find module %q. All modules:\n %s",
name, strings.Join(allModuleNames, "\n ")))
} else {
panic(fmt.Errorf("failed to find module %q variant %q. All variants:\n %s",
name, variant, strings.Join(allVariants, "\n ")))
}
}
return TestingModule{module}
}
func (ctx *TestContext) ModuleVariantsForTests(name string) []string {
var variants []string
ctx.VisitAllModules(func(m blueprint.Module) {
if ctx.ModuleName(m) == name {
variants = append(variants, ctx.ModuleSubDir(m))
}
})
return variants
}
// SingletonForTests returns a TestingSingleton for the singleton registered with the given name.
func (ctx *TestContext) SingletonForTests(name string) TestingSingleton {
allSingletonNames := []string{}
for _, s := range ctx.Singletons() {
n := ctx.SingletonName(s)
if n == name {
return TestingSingleton{
singleton: s.(*singletonAdaptor).Singleton,
provider: s.(testBuildProvider),
}
}
allSingletonNames = append(allSingletonNames, n)
}
panic(fmt.Errorf("failed to find singleton %q."+
"\nall singletons: %v", name, allSingletonNames))
}
type testBuildProvider interface {
BuildParamsForTests() []BuildParams
RuleParamsForTests() map[blueprint.Rule]blueprint.RuleParams
}
type TestingBuildParams struct {
BuildParams
RuleParams blueprint.RuleParams
}
func newTestingBuildParams(provider testBuildProvider, bparams BuildParams) TestingBuildParams {
return TestingBuildParams{
BuildParams: bparams,
RuleParams: provider.RuleParamsForTests()[bparams.Rule],
}
}
func maybeBuildParamsFromRule(provider testBuildProvider, rule string) (TestingBuildParams, []string) {
var searchedRules []string
for _, p := range provider.BuildParamsForTests() {
searchedRules = append(searchedRules, p.Rule.String())
if strings.Contains(p.Rule.String(), rule) {
return newTestingBuildParams(provider, p), searchedRules
}
}
return TestingBuildParams{}, searchedRules
}
func buildParamsFromRule(provider testBuildProvider, rule string) TestingBuildParams {
p, searchRules := maybeBuildParamsFromRule(provider, rule)
if p.Rule == nil {
panic(fmt.Errorf("couldn't find rule %q.\nall rules: %v", rule, searchRules))
}
return p
}
func maybeBuildParamsFromDescription(provider testBuildProvider, desc string) TestingBuildParams {
for _, p := range provider.BuildParamsForTests() {
if strings.Contains(p.Description, desc) {
return newTestingBuildParams(provider, p)
}
}
return TestingBuildParams{}
}
func buildParamsFromDescription(provider testBuildProvider, desc string) TestingBuildParams {
p := maybeBuildParamsFromDescription(provider, desc)
if p.Rule == nil {
panic(fmt.Errorf("couldn't find description %q", desc))
}
return p
}
func maybeBuildParamsFromOutput(provider testBuildProvider, file string) (TestingBuildParams, []string) {
var searchedOutputs []string
for _, p := range provider.BuildParamsForTests() {
outputs := append(WritablePaths(nil), p.Outputs...)
outputs = append(outputs, p.ImplicitOutputs...)
if p.Output != nil {
outputs = append(outputs, p.Output)
}
for _, f := range outputs {
if f.String() == file || f.Rel() == file {
return newTestingBuildParams(provider, p), nil
}
searchedOutputs = append(searchedOutputs, f.Rel())
}
}
return TestingBuildParams{}, searchedOutputs
}
func buildParamsFromOutput(provider testBuildProvider, file string) TestingBuildParams {
p, searchedOutputs := maybeBuildParamsFromOutput(provider, file)
if p.Rule == nil {
panic(fmt.Errorf("couldn't find output %q.\nall outputs: %v",
file, searchedOutputs))
}
return p
}
func allOutputs(provider testBuildProvider) []string {
var outputFullPaths []string
for _, p := range provider.BuildParamsForTests() {
outputs := append(WritablePaths(nil), p.Outputs...)
outputs = append(outputs, p.ImplicitOutputs...)
if p.Output != nil {
outputs = append(outputs, p.Output)
}
outputFullPaths = append(outputFullPaths, outputs.Strings()...)
}
return outputFullPaths
}
// TestingModule is wrapper around an android.Module that provides methods to find information about individual
// ctx.Build parameters for verification in tests.
type TestingModule struct {
module Module
}
// Module returns the Module wrapped by the TestingModule.
func (m TestingModule) Module() Module {
return m.module
}
// MaybeRule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name. Returns an empty
// BuildParams if no rule is found.
func (m TestingModule) MaybeRule(rule string) TestingBuildParams {
r, _ := maybeBuildParamsFromRule(m.module, rule)
return r
}
// Rule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name. Panics if no rule is found.
func (m TestingModule) Rule(rule string) TestingBuildParams {
return buildParamsFromRule(m.module, rule)
}
// MaybeDescription finds a call to ctx.Build with BuildParams.Description set to a the given string. Returns an empty
// BuildParams if no rule is found.
func (m TestingModule) MaybeDescription(desc string) TestingBuildParams {
return maybeBuildParamsFromDescription(m.module, desc)
}
// Description finds a call to ctx.Build with BuildParams.Description set to a the given string. Panics if no rule is
// found.
func (m TestingModule) Description(desc string) TestingBuildParams {
return buildParamsFromDescription(m.module, desc)
}
// MaybeOutput finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
// value matches the provided string. Returns an empty BuildParams if no rule is found.
func (m TestingModule) MaybeOutput(file string) TestingBuildParams {
p, _ := maybeBuildParamsFromOutput(m.module, file)
return p
}
// Output finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
// value matches the provided string. Panics if no rule is found.
func (m TestingModule) Output(file string) TestingBuildParams {
return buildParamsFromOutput(m.module, file)
}
// AllOutputs returns all 'BuildParams.Output's and 'BuildParams.Outputs's in their full path string forms.
func (m TestingModule) AllOutputs() []string {
return allOutputs(m.module)
}
// TestingSingleton is wrapper around an android.Singleton that provides methods to find information about individual
// ctx.Build parameters for verification in tests.
type TestingSingleton struct {
singleton Singleton
provider testBuildProvider
}
// Singleton returns the Singleton wrapped by the TestingSingleton.
func (s TestingSingleton) Singleton() Singleton {
return s.singleton
}
// MaybeRule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name. Returns an empty
// BuildParams if no rule is found.
func (s TestingSingleton) MaybeRule(rule string) TestingBuildParams {
r, _ := maybeBuildParamsFromRule(s.provider, rule)
return r
}
// Rule finds a call to ctx.Build with BuildParams.Rule set to a rule with the given name. Panics if no rule is found.
func (s TestingSingleton) Rule(rule string) TestingBuildParams {
return buildParamsFromRule(s.provider, rule)
}
// MaybeDescription finds a call to ctx.Build with BuildParams.Description set to a the given string. Returns an empty
// BuildParams if no rule is found.
func (s TestingSingleton) MaybeDescription(desc string) TestingBuildParams {
return maybeBuildParamsFromDescription(s.provider, desc)
}
// Description finds a call to ctx.Build with BuildParams.Description set to a the given string. Panics if no rule is
// found.
func (s TestingSingleton) Description(desc string) TestingBuildParams {
return buildParamsFromDescription(s.provider, desc)
}
// MaybeOutput finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
// value matches the provided string. Returns an empty BuildParams if no rule is found.
func (s TestingSingleton) MaybeOutput(file string) TestingBuildParams {
p, _ := maybeBuildParamsFromOutput(s.provider, file)
return p
}
// Output finds a call to ctx.Build with a BuildParams.Output or BuildParams.Outputs whose String() or Rel()
// value matches the provided string. Panics if no rule is found.
func (s TestingSingleton) Output(file string) TestingBuildParams {
return buildParamsFromOutput(s.provider, file)
}
// AllOutputs returns all 'BuildParams.Output's and 'BuildParams.Outputs's in their full path string forms.
func (s TestingSingleton) AllOutputs() []string {
return allOutputs(s.provider)
}
func FailIfErrored(t *testing.T, errs []error) {
t.Helper()
if len(errs) > 0 {
for _, err := range errs {
t.Error(err)
}
t.FailNow()
}
}
func FailIfNoMatchingErrors(t *testing.T, pattern string, errs []error) {
t.Helper()
matcher, err := regexp.Compile(pattern)
if err != nil {
t.Errorf("failed to compile regular expression %q because %s", pattern, err)
}
found := false
for _, err := range errs {
if matcher.FindStringIndex(err.Error()) != nil {
found = true
break
}
}
if !found {
t.Errorf("missing the expected error %q (checked %d error(s))", pattern, len(errs))
for i, err := range errs {
Reland: Deduplicate APEX variants that would build identically APEX variants that share the same SDK version and updatability almost always use identical command line arguments to build but with different intermediates directories. This causes unnecessary build time and disk space for duplicated work. Deduplicate APEX variants that would build identically. Create aliases from the per-APEX variations to the new shared variations so that the APEX modules can continue to depend on them via the APEX name as the variation. This has one significant change in behavior. Before this change, if an APEX had two libraries in its direct dependencies and one of those libraries depended on the other, and the second library had stubs, then the first library would depend on the implementation of the second library and not the stubs. After this change, if the first library is also present in a second APEX but the second library is not, then the common variant shared between the two APEXes would use the stubs, not the implementation. In a correctly configured set of build rules this change will be irrelevant, because if the compilation worked for the second APEX using stubs then it will work for the common variant using stubs. However, if an incorrect change to the build rules is made this could lead to confusing errors, as a previously-working common variant could suddenly stop building when a module is added to a new APEX without its dependencies that require implementation APIs to compile. This change reduces the number of modules in an AOSP arm64-userdebug build by 3% (52242 to 50586), reduces the number of variants of the libcutils module from 74 to 53, and reduces the number of variants of the massive libart[d] modules from 44 to 32. This relands I0529837476a253c32b3dfb98dcccf107427c742c with a fix to always mark permissions XML files of java_sdk_library modules as unique per apex since they contain the APEX filename, and a fix to UpdateUniqueApexVariationsForDeps to check ApexInfo.InApexes instead of DepIsInSameApex to check if two modules are in the same apex to account for a module that depends on another in a way that doesn't normally include the dependency in the APEX (e.g. a libs property), but the dependency is directly included in the APEX. Bug: 164216768 Test: go test ./build/soong/apex/... Change-Id: I2ae170601f764e5b88d0be2e0e6adc84e3a4d9cc
2020-08-12 03:17:01 +08:00
t.Errorf("errs[%d] = %q", i, err)
}
}
}
func CheckErrorsAgainstExpectations(t *testing.T, errs []error, expectedErrorPatterns []string) {
t.Helper()
if expectedErrorPatterns == nil {
FailIfErrored(t, errs)
} else {
for _, expectedError := range expectedErrorPatterns {
FailIfNoMatchingErrors(t, expectedError, errs)
}
if len(errs) > len(expectedErrorPatterns) {
t.Errorf("additional errors found, expected %d, found %d",
len(expectedErrorPatterns), len(errs))
for i, expectedError := range expectedErrorPatterns {
t.Errorf("expectedErrors[%d] = %s", i, expectedError)
}
for i, err := range errs {
t.Errorf("errs[%d] = %s", i, err)
}
}
}
}
func SetInMakeForTests(config Config) {
config.inMake = true
}
func AndroidMkEntriesForTest(t *testing.T, config Config, bpPath string, mod blueprint.Module) []AndroidMkEntries {
var p AndroidMkEntriesProvider
var ok bool
if p, ok = mod.(AndroidMkEntriesProvider); !ok {
t.Errorf("module does not implement AndroidMkEntriesProvider: " + mod.Name())
}
entriesList := p.AndroidMkEntries()
for i, _ := range entriesList {
entriesList[i].fillInEntries(config, bpPath, mod)
}
return entriesList
}
func AndroidMkDataForTest(t *testing.T, config Config, bpPath string, mod blueprint.Module) AndroidMkData {
var p AndroidMkDataProvider
var ok bool
if p, ok = mod.(AndroidMkDataProvider); !ok {
t.Errorf("module does not implement AndroidMkDataProvider: " + mod.Name())
}
data := p.AndroidMk()
data.fillInData(config, bpPath, mod)
return data
}
// Normalize the path for testing.
//
// If the path is relative to the build directory then return the relative path
// to avoid tests having to deal with the dynamically generated build directory.
//
// Otherwise, return the supplied path as it is almost certainly a source path
// that is relative to the root of the source tree.
//
// The build and source paths should be distinguishable based on their contents.
func NormalizePathForTesting(path Path) string {
p := path.String()
if w, ok := path.(WritablePath); ok {
rel, err := filepath.Rel(w.buildDir(), p)
if err != nil {
panic(err)
}
return rel
}
return p
}
func NormalizePathsForTesting(paths Paths) []string {
var result []string
for _, path := range paths {
relative := NormalizePathForTesting(path)
result = append(result, relative)
}
return result
}