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platform_build_blueprint/context_test.go
Colin Cross 95bec3331c Use strings instead of simpleNinjaStrings where possible 
Storing every string without ninja variable references through
simpleNinjaString costs 24 bytes and a heap allocation.  16 bytes
is used for the ninjaString.str string, 8 bytes for the
ninjaString.variables *[]variableReference.  An additional 8 bytes
is used for the resulting pointer into the heap.

The vast majority of calls to simpleNinjaString originate in
blueprint.parseBuildParams, which converts all of the parameters
passed to ctx.Build into ninjaStrings.  All together this was
allocating 1.575 GB of *ninjaString objects.

Add a parseNinjaOrSimpleStrings function that converts input strings
into ninjaStrings if they have ninja variable references, but also
returns a slice of plain strings for input strings without any ninja
variable references.  That still results in 1.39 GB of allocations just
for the output string slice, so also add an optimization that reuses
the input string slice as the output slice if all of the strings had
no variable references.

Plumb the resulting strings through everywhere that the []*ninjaStrings
were used.

This reduces the total memory allocations inside
blueprint.parseBuildParams in my AOSP aosp_cf_x86_64_phone-userdebug
build from 3.337 GB to 1.786 GB.

Test: ninja_strings_test.go
Change-Id: I51bc138a2a6b1cc7383c7df0a483ccb067ffa02b
2023-11-01 15:15:15 -07:00

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// Copyright 2014 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 blueprint
import (
"bytes"
"errors"
"fmt"
"path/filepath"
"reflect"
"strings"
"sync"
"testing"
"time"
"github.com/google/blueprint/parser"
)
type Walker interface {
Walk() bool
}
func walkDependencyGraph(ctx *Context, topModule *moduleInfo, allowDuplicates bool) (string, string) {
var outputDown string
var outputUp string
ctx.walkDeps(topModule, allowDuplicates,
func(dep depInfo, parent *moduleInfo) bool {
outputDown += ctx.ModuleName(dep.module.logicModule)
if tag, ok := dep.tag.(walkerDepsTag); ok {
if !tag.follow {
return false
}
}
if dep.module.logicModule.(Walker).Walk() {
return true
}
return false
},
func(dep depInfo, parent *moduleInfo) {
outputUp += ctx.ModuleName(dep.module.logicModule)
})
return outputDown, outputUp
}
type depsProvider interface {
Deps() []string
IgnoreDeps() []string
}
type fooModule struct {
SimpleName
properties struct {
Deps []string
Ignored_deps []string
Foo string
}
}
func newFooModule() (Module, []interface{}) {
m := &fooModule{}
return m, []interface{}{&m.properties, &m.SimpleName.Properties}
}
func (f *fooModule) GenerateBuildActions(ModuleContext) {
}
func (f *fooModule) Deps() []string {
return f.properties.Deps
}
func (f *fooModule) IgnoreDeps() []string {
return f.properties.Ignored_deps
}
func (f *fooModule) Foo() string {
return f.properties.Foo
}
func (f *fooModule) Walk() bool {
return true
}
type barModule struct {
SimpleName
properties struct {
Deps []string
Ignored_deps []string
Bar bool
}
}
func newBarModule() (Module, []interface{}) {
m := &barModule{}
return m, []interface{}{&m.properties, &m.SimpleName.Properties}
}
func (b *barModule) Deps() []string {
return b.properties.Deps
}
func (b *barModule) IgnoreDeps() []string {
return b.properties.Ignored_deps
}
func (b *barModule) GenerateBuildActions(ModuleContext) {
}
func (b *barModule) Bar() bool {
return b.properties.Bar
}
func (b *barModule) Walk() bool {
return false
}
type walkerDepsTag struct {
BaseDependencyTag
// True if the dependency should be followed, false otherwise.
follow bool
}
func depsMutator(mctx BottomUpMutatorContext) {
if m, ok := mctx.Module().(depsProvider); ok {
mctx.AddDependency(mctx.Module(), walkerDepsTag{follow: false}, m.IgnoreDeps()...)
mctx.AddDependency(mctx.Module(), walkerDepsTag{follow: true}, m.Deps()...)
}
}
func TestContextParse(t *testing.T) {
ctx := NewContext()
ctx.RegisterModuleType("foo_module", newFooModule)
ctx.RegisterModuleType("bar_module", newBarModule)
r := bytes.NewBufferString(`
foo_module {
name: "MyFooModule",
deps: ["MyBarModule"],
}
bar_module {
name: "MyBarModule",
}
`)
_, _, errs := ctx.parseOne(".", "Blueprint", r, parser.NewScope(nil), nil)
if len(errs) > 0 {
t.Errorf("unexpected parse errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
_, errs = ctx.ResolveDependencies(nil)
if len(errs) > 0 {
t.Errorf("unexpected dep errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
}
// > |===B---D - represents a non-walkable edge
// > A = represents a walkable edge
// > |===C===E---G
// > | | A should not be visited because it's the root node.
// > |===F===| B, D and E should not be walked.
func TestWalkDeps(t *testing.T) {
ctx := NewContext()
ctx.MockFileSystem(map[string][]byte{
"Android.bp": []byte(`
foo_module {
name: "A",
deps: ["B", "C"],
}
bar_module {
name: "B",
deps: ["D"],
}
foo_module {
name: "C",
deps: ["E", "F"],
}
foo_module {
name: "D",
}
bar_module {
name: "E",
deps: ["G"],
}
foo_module {
name: "F",
deps: ["G"],
}
foo_module {
name: "G",
}
`),
})
ctx.RegisterModuleType("foo_module", newFooModule)
ctx.RegisterModuleType("bar_module", newBarModule)
ctx.RegisterBottomUpMutator("deps", depsMutator)
_, errs := ctx.ParseBlueprintsFiles("Android.bp", nil)
if len(errs) > 0 {
t.Errorf("unexpected parse errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
_, errs = ctx.ResolveDependencies(nil)
if len(errs) > 0 {
t.Errorf("unexpected dep errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
topModule := ctx.moduleGroupFromName("A", nil).modules.firstModule()
outputDown, outputUp := walkDependencyGraph(ctx, topModule, false)
if outputDown != "BCEFG" {
t.Errorf("unexpected walkDeps behaviour: %s\ndown should be: BCEFG", outputDown)
}
if outputUp != "BEGFC" {
t.Errorf("unexpected walkDeps behaviour: %s\nup should be: BEGFC", outputUp)
}
}
// > |===B---D - represents a non-walkable edge
// > A = represents a walkable edge
// > |===C===E===\ A should not be visited because it's the root node.
// > | | B, D should not be walked.
// > |===F===G===H G should be visited multiple times
// > \===/ H should only be visited once
func TestWalkDepsDuplicates(t *testing.T) {
ctx := NewContext()
ctx.MockFileSystem(map[string][]byte{
"Android.bp": []byte(`
foo_module {
name: "A",
deps: ["B", "C"],
}
bar_module {
name: "B",
deps: ["D"],
}
foo_module {
name: "C",
deps: ["E", "F"],
}
foo_module {
name: "D",
}
foo_module {
name: "E",
deps: ["G"],
}
foo_module {
name: "F",
deps: ["G", "G"],
}
foo_module {
name: "G",
deps: ["H"],
}
foo_module {
name: "H",
}
`),
})
ctx.RegisterModuleType("foo_module", newFooModule)
ctx.RegisterModuleType("bar_module", newBarModule)
ctx.RegisterBottomUpMutator("deps", depsMutator)
_, errs := ctx.ParseBlueprintsFiles("Android.bp", nil)
if len(errs) > 0 {
t.Errorf("unexpected parse errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
_, errs = ctx.ResolveDependencies(nil)
if len(errs) > 0 {
t.Errorf("unexpected dep errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
topModule := ctx.moduleGroupFromName("A", nil).modules.firstModule()
outputDown, outputUp := walkDependencyGraph(ctx, topModule, true)
if outputDown != "BCEGHFGG" {
t.Errorf("unexpected walkDeps behaviour: %s\ndown should be: BCEGHFGG", outputDown)
}
if outputUp != "BHGEGGFC" {
t.Errorf("unexpected walkDeps behaviour: %s\nup should be: BHGEGGFC", outputUp)
}
}
// > - represents a non-walkable edge
// > A = represents a walkable edge
// > |===B-------\ A should not be visited because it's the root node.
// > | | B -> D should not be walked.
// > |===C===D===E B -> C -> D -> E should be walked
func TestWalkDepsDuplicates_IgnoreFirstPath(t *testing.T) {
ctx := NewContext()
ctx.MockFileSystem(map[string][]byte{
"Android.bp": []byte(`
foo_module {
name: "A",
deps: ["B"],
}
foo_module {
name: "B",
deps: ["C"],
ignored_deps: ["D"],
}
foo_module {
name: "C",
deps: ["D"],
}
foo_module {
name: "D",
deps: ["E"],
}
foo_module {
name: "E",
}
`),
})
ctx.RegisterModuleType("foo_module", newFooModule)
ctx.RegisterModuleType("bar_module", newBarModule)
ctx.RegisterBottomUpMutator("deps", depsMutator)
_, errs := ctx.ParseBlueprintsFiles("Android.bp", nil)
if len(errs) > 0 {
t.Errorf("unexpected parse errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
_, errs = ctx.ResolveDependencies(nil)
if len(errs) > 0 {
t.Errorf("unexpected dep errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
topModule := ctx.moduleGroupFromName("A", nil).modules.firstModule()
outputDown, outputUp := walkDependencyGraph(ctx, topModule, true)
expectedDown := "BDCDE"
if outputDown != expectedDown {
t.Errorf("unexpected walkDeps behaviour: %s\ndown should be: %s", outputDown, expectedDown)
}
expectedUp := "DEDCB"
if outputUp != expectedUp {
t.Errorf("unexpected walkDeps behaviour: %s\nup should be: %s", outputUp, expectedUp)
}
}
func TestCreateModule(t *testing.T) {
ctx := newContext()
ctx.MockFileSystem(map[string][]byte{
"Android.bp": []byte(`
foo_module {
name: "A",
deps: ["B", "C"],
}
`),
})
ctx.RegisterTopDownMutator("create", createTestMutator)
ctx.RegisterBottomUpMutator("deps", depsMutator)
ctx.RegisterModuleType("foo_module", newFooModule)
ctx.RegisterModuleType("bar_module", newBarModule)
_, errs := ctx.ParseBlueprintsFiles("Android.bp", nil)
if len(errs) > 0 {
t.Errorf("unexpected parse errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
_, errs = ctx.ResolveDependencies(nil)
if len(errs) > 0 {
t.Errorf("unexpected dep errors:")
for _, err := range errs {
t.Errorf(" %s", err)
}
t.FailNow()
}
a := ctx.moduleGroupFromName("A", nil).modules.firstModule().logicModule.(*fooModule)
b := ctx.moduleGroupFromName("B", nil).modules.firstModule().logicModule.(*barModule)
c := ctx.moduleGroupFromName("C", nil).modules.firstModule().logicModule.(*barModule)
d := ctx.moduleGroupFromName("D", nil).modules.firstModule().logicModule.(*fooModule)
checkDeps := func(m Module, expected string) {
var deps []string
ctx.VisitDirectDeps(m, func(m Module) {
deps = append(deps, ctx.ModuleName(m))
})
got := strings.Join(deps, ",")
if got != expected {
t.Errorf("unexpected %q dependencies, got %q expected %q",
ctx.ModuleName(m), got, expected)
}
}
checkDeps(a, "B,C")
checkDeps(b, "D")
checkDeps(c, "D")
checkDeps(d, "")
}
func createTestMutator(ctx TopDownMutatorContext) {
type props struct {
Name string
Deps []string
}
ctx.CreateModule(newBarModule, "new_bar", &props{
Name: "B",
Deps: []string{"D"},
})
ctx.CreateModule(newBarModule, "new_bar", &props{
Name: "C",
Deps: []string{"D"},
})
ctx.CreateModule(newFooModule, "new_foo", &props{
Name: "D",
})
}
func TestWalkFileOrder(t *testing.T) {
// Run the test once to see how long it normally takes
start := time.Now()
doTestWalkFileOrder(t, time.Duration(0))
duration := time.Since(start)
// Run the test again, but put enough of a sleep into each visitor to detect ordering
// problems if they exist
doTestWalkFileOrder(t, duration)
}
// test that WalkBlueprintsFiles calls asyncVisitor in the right order
func doTestWalkFileOrder(t *testing.T, sleepDuration time.Duration) {
// setup mock context
ctx := newContext()
mockFiles := map[string][]byte{
"Android.bp": []byte(`
sample_module {
name: "a",
}
`),
"dir1/Android.bp": []byte(`
sample_module {
name: "b",
}
`),
"dir1/dir2/Android.bp": []byte(`
sample_module {
name: "c",
}
`),
}
ctx.MockFileSystem(mockFiles)
// prepare to monitor the visit order
visitOrder := []string{}
visitLock := sync.Mutex{}
correctVisitOrder := []string{"Android.bp", "dir1/Android.bp", "dir1/dir2/Android.bp"}
// sleep longer when processing the earlier files
chooseSleepDuration := func(fileName string) (duration time.Duration) {
duration = time.Duration(0)
for i := len(correctVisitOrder) - 1; i >= 0; i-- {
if fileName == correctVisitOrder[i] {
return duration
}
duration = duration + sleepDuration
}
panic("unrecognized file name " + fileName)
}
visitor := func(file *parser.File) {
time.Sleep(chooseSleepDuration(file.Name))
visitLock.Lock()
defer visitLock.Unlock()
visitOrder = append(visitOrder, file.Name)
}
keys := []string{"Android.bp", "dir1/Android.bp", "dir1/dir2/Android.bp"}
// visit the blueprints files
ctx.WalkBlueprintsFiles(".", keys, visitor)
// check the order
if !reflect.DeepEqual(visitOrder, correctVisitOrder) {
t.Errorf("Incorrect visit order; expected %v, got %v", correctVisitOrder, visitOrder)
}
}
// test that WalkBlueprintsFiles reports syntax errors
func TestWalkingWithSyntaxError(t *testing.T) {
// setup mock context
ctx := newContext()
mockFiles := map[string][]byte{
"Android.bp": []byte(`
sample_module {
name: "a" "b",
}
`),
"dir1/Android.bp": []byte(`
sample_module {
name: "b",
`),
"dir1/dir2/Android.bp": []byte(`
sample_module {
name: "c",
}
`),
}
ctx.MockFileSystem(mockFiles)
keys := []string{"Android.bp", "dir1/Android.bp", "dir1/dir2/Android.bp"}
// visit the blueprints files
_, errs := ctx.WalkBlueprintsFiles(".", keys, func(file *parser.File) {})
expectedErrs := []error{
errors.New(`Android.bp:3:18: expected "}", found String`),
errors.New(`dir1/Android.bp:4:3: expected "}", found EOF`),
}
if fmt.Sprintf("%s", expectedErrs) != fmt.Sprintf("%s", errs) {
t.Errorf("Incorrect errors; expected:\n%s\ngot:\n%s", expectedErrs, errs)
}
}
func TestParseFailsForModuleWithoutName(t *testing.T) {
ctx := NewContext()
ctx.MockFileSystem(map[string][]byte{
"Android.bp": []byte(`
foo_module {
name: "A",
}
bar_module {
deps: ["A"],
}
`),
})
ctx.RegisterModuleType("foo_module", newFooModule)
ctx.RegisterModuleType("bar_module", newBarModule)
_, errs := ctx.ParseBlueprintsFiles("Android.bp", nil)
expectedErrs := []error{
errors.New(`Android.bp:6:4: property 'name' is missing from a module`),
}
if fmt.Sprintf("%s", expectedErrs) != fmt.Sprintf("%s", errs) {
t.Errorf("Incorrect errors; expected:\n%s\ngot:\n%s", expectedErrs, errs)
}
}
func Test_findVariant(t *testing.T) {
module := &moduleInfo{
variant: variant{
name: "normal_local",
variations: variationMap{
"normal": "normal",
"local": "local",
},
dependencyVariations: variationMap{
"normal": "normal",
},
},
}
type alias struct {
variant variant
target int
}
makeDependencyGroup := func(in ...interface{}) *moduleGroup {
group := &moduleGroup{
name: "dep",
}
for _, x := range in {
switch m := x.(type) {
case *moduleInfo:
m.group = group
group.modules = append(group.modules, m)
case alias:
// aliases may need to target modules that haven't been processed
// yet, put an empty alias in for now.
group.modules = append(group.modules, nil)
default:
t.Fatalf("unexpected type %T", x)
}
}
for i, x := range in {
switch m := x.(type) {
case *moduleInfo:
// already added in the first pass
case alias:
group.modules[i] = &moduleAlias{
variant: m.variant,
target: group.modules[m.target].moduleOrAliasTarget(),
}
default:
t.Fatalf("unexpected type %T", x)
}
}
return group
}
tests := []struct {
name string
possibleDeps *moduleGroup
variations []Variation
far bool
reverse bool
want string
}{
{
name: "AddVariationDependencies(nil)",
// A dependency that matches the non-local variations of the module
possibleDeps: makeDependencyGroup(
&moduleInfo{
variant: variant{
name: "normal",
variations: variationMap{
"normal": "normal",
},
},
},
),
variations: nil,
far: false,
reverse: false,
want: "normal",
},
{
name: "AddVariationDependencies(nil) to alias",
// A dependency with an alias that matches the non-local variations of the module
possibleDeps: makeDependencyGroup(
alias{
variant: variant{
name: "normal",
variations: variationMap{
"normal": "normal",
},
},
target: 1,
},
&moduleInfo{
variant: variant{
name: "normal_a",
variations: variationMap{
"normal": "normal",
"a": "a",
},
},
},
),
variations: nil,
far: false,
reverse: false,
want: "normal_a",
},
{
name: "AddVariationDependencies(a)",
// A dependency with local variations
possibleDeps: makeDependencyGroup(
&moduleInfo{
variant: variant{
name: "normal_a",
variations: variationMap{
"normal": "normal",
"a": "a",
},
},
},
),
variations: []Variation{{"a", "a"}},
far: false,
reverse: false,
want: "normal_a",
},
{
name: "AddFarVariationDependencies(far)",
// A dependency with far variations
possibleDeps: makeDependencyGroup(
&moduleInfo{
variant: variant{
name: "",
variations: nil,
},
},
&moduleInfo{
variant: variant{
name: "far",
variations: variationMap{
"far": "far",
},
},
},
),
variations: []Variation{{"far", "far"}},
far: true,
reverse: false,
want: "far",
},
{
name: "AddFarVariationDependencies(far) to alias",
// A dependency with far variations and aliases
possibleDeps: makeDependencyGroup(
alias{
variant: variant{
name: "far",
variations: variationMap{
"far": "far",
},
},
target: 2,
},
&moduleInfo{
variant: variant{
name: "far_a",
variations: variationMap{
"far": "far",
"a": "a",
},
},
},
&moduleInfo{
variant: variant{
name: "far_b",
variations: variationMap{
"far": "far",
"b": "b",
},
},
},
),
variations: []Variation{{"far", "far"}},
far: true,
reverse: false,
want: "far_b",
},
{
name: "AddFarVariationDependencies(far, b) to missing",
// A dependency with far variations and aliases
possibleDeps: makeDependencyGroup(
alias{
variant: variant{
name: "far",
variations: variationMap{
"far": "far",
},
},
target: 1,
},
&moduleInfo{
variant: variant{
name: "far_a",
variations: variationMap{
"far": "far",
"a": "a",
},
},
},
),
variations: []Variation{{"far", "far"}, {"a", "b"}},
far: true,
reverse: false,
want: "nil",
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got, _ := findVariant(module, tt.possibleDeps, tt.variations, tt.far, tt.reverse)
if g, w := got == nil, tt.want == "nil"; g != w {
t.Fatalf("findVariant() got = %v, want %v", got, tt.want)
}
if got != nil {
if g, w := got.String(), fmt.Sprintf("module %q variant %q", "dep", tt.want); g != w {
t.Errorf("findVariant() got = %v, want %v", g, w)
}
}
})
}
}
func Test_parallelVisit(t *testing.T) {
addDep := func(from, to *moduleInfo) {
from.directDeps = append(from.directDeps, depInfo{to, nil})
from.forwardDeps = append(from.forwardDeps, to)
to.reverseDeps = append(to.reverseDeps, from)
}
create := func(name string) *moduleInfo {
m := &moduleInfo{
group: &moduleGroup{
name: name,
},
}
m.group.modules = modulesOrAliases{m}
return m
}
moduleA := create("A")
moduleB := create("B")
moduleC := create("C")
moduleD := create("D")
moduleE := create("E")
moduleF := create("F")
moduleG := create("G")
// A depends on B, B depends on C. Nothing depends on D through G, and they don't depend on
// anything.
addDep(moduleA, moduleB)
addDep(moduleB, moduleC)
t.Run("no modules", func(t *testing.T) {
errs := parallelVisit(nil, bottomUpVisitorImpl{}, 1,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
panic("unexpected call to visitor")
})
if errs != nil {
t.Errorf("expected no errors, got %q", errs)
}
})
t.Run("bottom up", func(t *testing.T) {
order := ""
errs := parallelVisit([]*moduleInfo{moduleA, moduleB, moduleC}, bottomUpVisitorImpl{}, 1,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
order += module.group.name
return false
})
if errs != nil {
t.Errorf("expected no errors, got %q", errs)
}
if g, w := order, "CBA"; g != w {
t.Errorf("expected order %q, got %q", w, g)
}
})
t.Run("pause", func(t *testing.T) {
order := ""
errs := parallelVisit([]*moduleInfo{moduleA, moduleB, moduleC, moduleD}, bottomUpVisitorImpl{}, 1,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
if module == moduleC {
// Pause module C on module D
unpause := make(chan struct{})
pause <- pauseSpec{moduleC, moduleD, unpause}
<-unpause
}
order += module.group.name
return false
})
if errs != nil {
t.Errorf("expected no errors, got %q", errs)
}
if g, w := order, "DCBA"; g != w {
t.Errorf("expected order %q, got %q", w, g)
}
})
t.Run("cancel", func(t *testing.T) {
order := ""
errs := parallelVisit([]*moduleInfo{moduleA, moduleB, moduleC}, bottomUpVisitorImpl{}, 1,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
order += module.group.name
// Cancel in module B
return module == moduleB
})
if errs != nil {
t.Errorf("expected no errors, got %q", errs)
}
if g, w := order, "CB"; g != w {
t.Errorf("expected order %q, got %q", w, g)
}
})
t.Run("pause and cancel", func(t *testing.T) {
order := ""
errs := parallelVisit([]*moduleInfo{moduleA, moduleB, moduleC, moduleD}, bottomUpVisitorImpl{}, 1,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
if module == moduleC {
// Pause module C on module D
unpause := make(chan struct{})
pause <- pauseSpec{moduleC, moduleD, unpause}
<-unpause
}
order += module.group.name
// Cancel in module D
return module == moduleD
})
if errs != nil {
t.Errorf("expected no errors, got %q", errs)
}
if g, w := order, "D"; g != w {
t.Errorf("expected order %q, got %q", w, g)
}
})
t.Run("parallel", func(t *testing.T) {
order := ""
errs := parallelVisit([]*moduleInfo{moduleA, moduleB, moduleC}, bottomUpVisitorImpl{}, 3,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
order += module.group.name
return false
})
if errs != nil {
t.Errorf("expected no errors, got %q", errs)
}
if g, w := order, "CBA"; g != w {
t.Errorf("expected order %q, got %q", w, g)
}
})
t.Run("pause existing", func(t *testing.T) {
order := ""
errs := parallelVisit([]*moduleInfo{moduleA, moduleB, moduleC}, bottomUpVisitorImpl{}, 3,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
if module == moduleA {
// Pause module A on module B (an existing dependency)
unpause := make(chan struct{})
pause <- pauseSpec{moduleA, moduleB, unpause}
<-unpause
}
order += module.group.name
return false
})
if errs != nil {
t.Errorf("expected no errors, got %q", errs)
}
if g, w := order, "CBA"; g != w {
t.Errorf("expected order %q, got %q", w, g)
}
})
t.Run("cycle", func(t *testing.T) {
errs := parallelVisit([]*moduleInfo{moduleA, moduleB, moduleC}, bottomUpVisitorImpl{}, 3,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
if module == moduleC {
// Pause module C on module A (a dependency cycle)
unpause := make(chan struct{})
pause <- pauseSpec{moduleC, moduleA, unpause}
<-unpause
}
return false
})
want := []string{
`encountered dependency cycle`,
`module "C" depends on module "A"`,
`module "A" depends on module "B"`,
`module "B" depends on module "C"`,
}
for i := range want {
if len(errs) <= i {
t.Errorf("missing error %s", want[i])
} else if !strings.Contains(errs[i].Error(), want[i]) {
t.Errorf("expected error %s, got %s", want[i], errs[i])
}
}
if len(errs) > len(want) {
for _, err := range errs[len(want):] {
t.Errorf("unexpected error %s", err.Error())
}
}
})
t.Run("pause cycle", func(t *testing.T) {
errs := parallelVisit([]*moduleInfo{moduleA, moduleB, moduleC, moduleD}, bottomUpVisitorImpl{}, 3,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
if module == moduleC {
// Pause module C on module D
unpause := make(chan struct{})
pause <- pauseSpec{moduleC, moduleD, unpause}
<-unpause
}
if module == moduleD {
// Pause module D on module C (a pause cycle)
unpause := make(chan struct{})
pause <- pauseSpec{moduleD, moduleC, unpause}
<-unpause
}
return false
})
want := []string{
`encountered dependency cycle`,
`module "D" depends on module "C"`,
`module "C" depends on module "D"`,
}
for i := range want {
if len(errs) <= i {
t.Errorf("missing error %s", want[i])
} else if !strings.Contains(errs[i].Error(), want[i]) {
t.Errorf("expected error %s, got %s", want[i], errs[i])
}
}
if len(errs) > len(want) {
for _, err := range errs[len(want):] {
t.Errorf("unexpected error %s", err.Error())
}
}
})
t.Run("pause cycle with deps", func(t *testing.T) {
pauseDeps := map[*moduleInfo]*moduleInfo{
// F and G form a pause cycle
moduleF: moduleG,
moduleG: moduleF,
// D depends on E which depends on the pause cycle, making E the first alphabetical
// entry in pauseMap, which is not part of the cycle.
moduleD: moduleE,
moduleE: moduleF,
}
errs := parallelVisit([]*moduleInfo{moduleD, moduleE, moduleF, moduleG}, bottomUpVisitorImpl{}, 4,
func(module *moduleInfo, pause chan<- pauseSpec) bool {
if dep, ok := pauseDeps[module]; ok {
unpause := make(chan struct{})
pause <- pauseSpec{module, dep, unpause}
<-unpause
}
return false
})
want := []string{
`encountered dependency cycle`,
`module "G" depends on module "F"`,
`module "F" depends on module "G"`,
}
for i := range want {
if len(errs) <= i {
t.Errorf("missing error %s", want[i])
} else if !strings.Contains(errs[i].Error(), want[i]) {
t.Errorf("expected error %s, got %s", want[i], errs[i])
}
}
if len(errs) > len(want) {
for _, err := range errs[len(want):] {
t.Errorf("unexpected error %s", err.Error())
}
}
})
}
func TestPackageIncludes(t *testing.T) {
dir1_foo_bp := `
blueprint_package_includes {
match_all: ["use_dir1"],
}
foo_module {
name: "foo",
}
`
dir2_foo_bp := `
blueprint_package_includes {
match_all: ["use_dir2"],
}
foo_module {
name: "foo",
}
`
mockFs := map[string][]byte{
"dir1/Android.bp": []byte(dir1_foo_bp),
"dir2/Android.bp": []byte(dir2_foo_bp),
}
testCases := []struct {
desc string
includeTags []string
expectedDir string
expectedErr string
}{
{
desc: "use_dir1 is set, use dir1 foo",
includeTags: []string{"use_dir1"},
expectedDir: "dir1",
},
{
desc: "use_dir2 is set, use dir2 foo",
includeTags: []string{"use_dir2"},
expectedDir: "dir2",
},
{
desc: "duplicate module error if both use_dir1 and use_dir2 are set",
includeTags: []string{"use_dir1", "use_dir2"},
expectedDir: "",
expectedErr: `module "foo" already defined`,
},
}
for _, tc := range testCases {
t.Run(tc.desc, func(t *testing.T) {
ctx := NewContext()
// Register mock FS
ctx.MockFileSystem(mockFs)
// Register module types
ctx.RegisterModuleType("foo_module", newFooModule)
RegisterPackageIncludesModuleType(ctx)
// Add include tags for test case
ctx.AddIncludeTags(tc.includeTags...)
// Run test
_, actualErrs := ctx.ParseFileList(".", []string{"dir1/Android.bp", "dir2/Android.bp"}, nil)
// Evaluate
if !strings.Contains(fmt.Sprintf("%s", actualErrs), fmt.Sprintf("%s", tc.expectedErr)) {
t.Errorf("Expected errors: %s, got errors: %s\n", tc.expectedErr, actualErrs)
}
if tc.expectedErr != "" {
return // expectedDir check not necessary
}
actualBpFile := ctx.moduleGroupFromName("foo", nil).modules.firstModule().relBlueprintsFile
if tc.expectedDir != filepath.Dir(actualBpFile) {
t.Errorf("Expected foo from %s, got %s\n", tc.expectedDir, filepath.Dir(actualBpFile))
}
})
}
}
func TestDeduplicateOrderOnlyDeps(t *testing.T) {
b := func(output string, inputs []string, orderOnlyDeps []string) *buildDef {
return &buildDef{
OutputStrings: []string{output},
InputStrings: inputs,
OrderOnlyStrings: orderOnlyDeps,
}
}
m := func(bs ...*buildDef) *moduleInfo {
return &moduleInfo{actionDefs: localBuildActions{buildDefs: bs}}
}
type testcase struct {
modules []*moduleInfo
expectedPhonys []*buildDef
conversions map[string][]string
}
testCases := []testcase{{
modules: []*moduleInfo{
m(b("A", nil, []string{"d"})),
m(b("B", nil, []string{"d"})),
},
expectedPhonys: []*buildDef{
b("dedup-GKw-c0PwFokMUQ6T-TUmEWnZ4_VlQ2Qpgw-vCTT0-OQ", []string{"d"}, nil),
},
conversions: map[string][]string{
"A": []string{"dedup-GKw-c0PwFokMUQ6T-TUmEWnZ4_VlQ2Qpgw-vCTT0-OQ"},
"B": []string{"dedup-GKw-c0PwFokMUQ6T-TUmEWnZ4_VlQ2Qpgw-vCTT0-OQ"},
},
}, {
modules: []*moduleInfo{
m(b("A", nil, []string{"a"})),
m(b("B", nil, []string{"b"})),
},
}, {
modules: []*moduleInfo{
m(b("A", nil, []string{"a"})),
m(b("B", nil, []string{"b"})),
m(b("C", nil, []string{"a"})),
},
expectedPhonys: []*buildDef{b("dedup-ypeBEsobvcr6wjGzmiPcTaeG7_gUfE5yuYB3ha_uSLs", []string{"a"}, nil)},
conversions: map[string][]string{
"A": []string{"dedup-ypeBEsobvcr6wjGzmiPcTaeG7_gUfE5yuYB3ha_uSLs"},
"B": []string{"b"},
"C": []string{"dedup-ypeBEsobvcr6wjGzmiPcTaeG7_gUfE5yuYB3ha_uSLs"},
},
}, {
modules: []*moduleInfo{
m(b("A", nil, []string{"a", "b"}),
b("B", nil, []string{"a", "b"})),
m(b("C", nil, []string{"a", "c"}),
b("D", nil, []string{"a", "c"})),
},
expectedPhonys: []*buildDef{
b("dedup--44g_C5MPySMYMOb1lLzwTRymLuXe4tNWQO4UFViBgM", []string{"a", "b"}, nil),
b("dedup-9F3lHN7zCZFVHkHogt17VAR5lkigoAdT9E_JZuYVP8E", []string{"a", "c"}, nil)},
conversions: map[string][]string{
"A": []string{"dedup--44g_C5MPySMYMOb1lLzwTRymLuXe4tNWQO4UFViBgM"},
"B": []string{"dedup--44g_C5MPySMYMOb1lLzwTRymLuXe4tNWQO4UFViBgM"},
"C": []string{"dedup-9F3lHN7zCZFVHkHogt17VAR5lkigoAdT9E_JZuYVP8E"},
"D": []string{"dedup-9F3lHN7zCZFVHkHogt17VAR5lkigoAdT9E_JZuYVP8E"},
},
}}
for index, tc := range testCases {
t.Run(fmt.Sprintf("TestCase-%d", index), func(t *testing.T) {
ctx := NewContext()
actualPhonys := ctx.deduplicateOrderOnlyDeps(tc.modules)
if len(actualPhonys.variables) != 0 {
t.Errorf("No variables expected but found %v", actualPhonys.variables)
}
if len(actualPhonys.rules) != 0 {
t.Errorf("No rules expected but found %v", actualPhonys.rules)
}
if e, a := len(tc.expectedPhonys), len(actualPhonys.buildDefs); e != a {
t.Errorf("Expected %d build statements but got %d", e, a)
}
for i := 0; i < len(tc.expectedPhonys); i++ {
a := actualPhonys.buildDefs[i]
e := tc.expectedPhonys[i]
if !reflect.DeepEqual(e.Outputs, a.Outputs) {
t.Errorf("phonys expected %v but actualPhonys %v", e.Outputs, a.Outputs)
}
if !reflect.DeepEqual(e.Inputs, a.Inputs) {
t.Errorf("phonys expected %v but actualPhonys %v", e.Inputs, a.Inputs)
}
}
find := func(k string) *buildDef {
for _, m := range tc.modules {
for _, b := range m.actionDefs.buildDefs {
if reflect.DeepEqual(b.OutputStrings, []string{k}) {
return b
}
}
}
return nil
}
for k, conversion := range tc.conversions {
actual := find(k)
if actual == nil {
t.Errorf("Couldn't find %s", k)
}
if !reflect.DeepEqual(actual.OrderOnlyStrings, conversion) {
t.Errorf("expected %s.OrderOnly = %v but got %v", k, conversion, actual.OrderOnly)
}
}
})
}
}
func TestSourceRootDirAllowed(t *testing.T) {
type pathCase struct {
path string
decidingPrefix string
allowed bool
}
testcases := []struct {
desc string
rootDirs []string
pathCases []pathCase
}{
{
desc: "simple case",
rootDirs: []string{
"a",
"b/c/d",
"-c",
"-d/c/a",
"c/some_single_file",
},
pathCases: []pathCase{
{
path: "a",
decidingPrefix: "a",
allowed: true,
},
{
path: "a/b/c",
decidingPrefix: "a",
allowed: true,
},
{
path: "b",
decidingPrefix: "",
allowed: true,
},
{
path: "b/c/d/a",
decidingPrefix: "b/c/d",
allowed: true,
},
{
path: "c",
decidingPrefix: "c",
allowed: false,
},
{
path: "c/a/b",
decidingPrefix: "c",
allowed: false,
},
{
path: "c/some_single_file",
decidingPrefix: "c/some_single_file",
allowed: true,
},
{
path: "d/c/a/abc",
decidingPrefix: "d/c/a",
allowed: false,
},
},
},
{
desc: "root directory order matters",
rootDirs: []string{
"-a",
"a/c/some_allowed_file",
"a/b/d/some_allowed_file",
"a/b",
"a/c",
"-a/b/d",
},
pathCases: []pathCase{
{
path: "a",
decidingPrefix: "a",
allowed: false,
},
{
path: "a/some_disallowed_file",
decidingPrefix: "a",
allowed: false,
},
{
path: "a/c/some_allowed_file",
decidingPrefix: "a/c/some_allowed_file",
allowed: true,
},
{
path: "a/b/d/some_allowed_file",
decidingPrefix: "a/b/d/some_allowed_file",
allowed: true,
},
{
path: "a/b/c",
decidingPrefix: "a/b",
allowed: true,
},
{
path: "a/b/c/some_allowed_file",
decidingPrefix: "a/b",
allowed: true,
},
{
path: "a/b/d",
decidingPrefix: "a/b/d",
allowed: false,
},
},
},
}
for _, tc := range testcases {
dirs := SourceRootDirs{}
dirs.Add(tc.rootDirs...)
for _, pc := range tc.pathCases {
t.Run(fmt.Sprintf("%s: %s", tc.desc, pc.path), func(t *testing.T) {
allowed, decidingPrefix := dirs.SourceRootDirAllowed(pc.path)
if allowed != pc.allowed {
if pc.allowed {
t.Errorf("expected path %q to be allowed, but was not; root allowlist: %q", pc.path, tc.rootDirs)
} else {
t.Errorf("path %q was allowed unexpectedly; root allowlist: %q", pc.path, tc.rootDirs)
}
}
if decidingPrefix != pc.decidingPrefix {
t.Errorf("expected decidingPrefix to be %q, but got %q", pc.decidingPrefix, decidingPrefix)
}
})
}
}
}
func TestSourceRootDirs(t *testing.T) {
root_foo_bp := `
foo_module {
name: "foo",
deps: ["foo_dir1", "foo_dir_ignored_special_case"],
}
`
dir1_foo_bp := `
foo_module {
name: "foo_dir1",
deps: ["foo_dir_ignored"],
}
`
dir_ignored_foo_bp := `
foo_module {
name: "foo_dir_ignored",
}
`
dir_ignored_special_case_foo_bp := `
foo_module {
name: "foo_dir_ignored_special_case",
}
`
mockFs := map[string][]byte{
"Android.bp": []byte(root_foo_bp),
"dir1/Android.bp": []byte(dir1_foo_bp),
"dir_ignored/Android.bp": []byte(dir_ignored_foo_bp),
"dir_ignored/special_case/Android.bp": []byte(dir_ignored_special_case_foo_bp),
}
fileList := []string{}
for f := range mockFs {
fileList = append(fileList, f)
}
testCases := []struct {
sourceRootDirs []string
expectedModuleDefs []string
unexpectedModuleDefs []string
expectedErrs []string
}{
{
sourceRootDirs: []string{},
expectedModuleDefs: []string{
"foo",
"foo_dir1",
"foo_dir_ignored",
"foo_dir_ignored_special_case",
},
},
{
sourceRootDirs: []string{"-", ""},
unexpectedModuleDefs: []string{
"foo",
"foo_dir1",
"foo_dir_ignored",
"foo_dir_ignored_special_case",
},
},
{
sourceRootDirs: []string{"-"},
unexpectedModuleDefs: []string{
"foo",
"foo_dir1",
"foo_dir_ignored",
"foo_dir_ignored_special_case",
},
},
{
sourceRootDirs: []string{"dir1"},
expectedModuleDefs: []string{
"foo",
"foo_dir1",
"foo_dir_ignored",
"foo_dir_ignored_special_case",
},
},
{
sourceRootDirs: []string{"-dir1"},
expectedModuleDefs: []string{
"foo",
"foo_dir_ignored",
"foo_dir_ignored_special_case",
},
unexpectedModuleDefs: []string{
"foo_dir1",
},
expectedErrs: []string{
`Android.bp:2:2: module "foo" depends on skipped module "foo_dir1"; "foo_dir1" was defined in files(s) [dir1/Android.bp], but was skipped for reason(s) ["dir1/Android.bp" is a descendant of "dir1", and that path prefix was not included in PRODUCT_SOURCE_ROOT_DIRS]`,
},
},
{
sourceRootDirs: []string{"-", "dir1"},
expectedModuleDefs: []string{
"foo_dir1",
},
unexpectedModuleDefs: []string{
"foo",
"foo_dir_ignored",
"foo_dir_ignored_special_case",
},
expectedErrs: []string{
`dir1/Android.bp:2:2: module "foo_dir1" depends on skipped module "foo_dir_ignored"; "foo_dir_ignored" was defined in files(s) [dir_ignored/Android.bp], but was skipped for reason(s) ["dir_ignored/Android.bp" is a descendant of "", and that path prefix was not included in PRODUCT_SOURCE_ROOT_DIRS]`,
},
},
{
sourceRootDirs: []string{"-", "dir1", "dir_ignored/special_case/Android.bp"},
expectedModuleDefs: []string{
"foo_dir1",
"foo_dir_ignored_special_case",
},
unexpectedModuleDefs: []string{
"foo",
"foo_dir_ignored",
},
expectedErrs: []string{
"dir1/Android.bp:2:2: module \"foo_dir1\" depends on skipped module \"foo_dir_ignored\"; \"foo_dir_ignored\" was defined in files(s) [dir_ignored/Android.bp], but was skipped for reason(s) [\"dir_ignored/Android.bp\" is a descendant of \"\", and that path prefix was not included in PRODUCT_SOURCE_ROOT_DIRS]",
},
},
}
for _, tc := range testCases {
t.Run(fmt.Sprintf(`source root dirs are %q`, tc.sourceRootDirs), func(t *testing.T) {
ctx := NewContext()
ctx.MockFileSystem(mockFs)
ctx.RegisterModuleType("foo_module", newFooModule)
ctx.RegisterBottomUpMutator("deps", depsMutator)
ctx.AddSourceRootDirs(tc.sourceRootDirs...)
RegisterPackageIncludesModuleType(ctx)
ctx.ParseFileList(".", fileList, nil)
_, actualErrs := ctx.ResolveDependencies(nil)
stringErrs := []string(nil)
for _, err := range actualErrs {
stringErrs = append(stringErrs, err.Error())
}
if !reflect.DeepEqual(tc.expectedErrs, stringErrs) {
t.Errorf("expected to find errors %v; got %v", tc.expectedErrs, stringErrs)
}
for _, modName := range tc.expectedModuleDefs {
allMods := ctx.moduleGroupFromName(modName, nil)
if allMods == nil || len(allMods.modules) != 1 {
mods := modulesOrAliases{}
if allMods != nil {
mods = allMods.modules
}
t.Errorf("expected to find one definition for module %q, but got %v", modName, mods)
}
}
for _, modName := range tc.unexpectedModuleDefs {
allMods := ctx.moduleGroupFromName(modName, nil)
if allMods != nil {
t.Errorf("expected to find no definitions for module %q, but got %v", modName, allMods.modules)
}
}
})
}
}
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