// Copyright 2019 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" "strings" "testing" "github.com/google/blueprint" "android/soong/shared" ) func builderContext() BuilderContext { return BuilderContextForTesting(TestConfig("out", nil, "", map[string][]byte{ "ld": nil, "a.o": nil, "b.o": nil, "cp": nil, "a": nil, "b": nil, "ls": nil, "ln": nil, "turbine": nil, "java": nil, "javac": nil, })) } func ExampleRuleBuilder() { ctx := builderContext() rule := NewRuleBuilder(pctx, ctx) rule.Command(). Tool(PathForSource(ctx, "ld")). Inputs(PathsForTesting("a.o", "b.o")). FlagWithOutput("-o ", PathForOutput(ctx, "linked")) rule.Command().Text("echo success") // To add the command to the build graph: // rule.Build("link", "link") fmt.Printf("commands: %q\n", strings.Join(rule.Commands(), " && ")) fmt.Printf("tools: %q\n", rule.Tools()) fmt.Printf("inputs: %q\n", rule.Inputs()) fmt.Printf("outputs: %q\n", rule.Outputs()) // Output: // commands: "ld a.o b.o -o out/linked && echo success" // tools: ["ld"] // inputs: ["a.o" "b.o"] // outputs: ["out/linked"] } func ExampleRuleBuilder_SymlinkOutputs() { ctx := builderContext() rule := NewRuleBuilder(pctx, ctx) rule.Command(). Tool(PathForSource(ctx, "ln")). FlagWithInput("-s ", PathForTesting("a.o")). SymlinkOutput(PathForOutput(ctx, "a")) rule.Command().Text("cp out/a out/b"). ImplicitSymlinkOutput(PathForOutput(ctx, "b")) fmt.Printf("commands: %q\n", strings.Join(rule.Commands(), " && ")) fmt.Printf("tools: %q\n", rule.Tools()) fmt.Printf("inputs: %q\n", rule.Inputs()) fmt.Printf("outputs: %q\n", rule.Outputs()) fmt.Printf("symlink_outputs: %q\n", rule.SymlinkOutputs()) // Output: // commands: "ln -s a.o out/a && cp out/a out/b" // tools: ["ln"] // inputs: ["a.o"] // outputs: ["out/a" "out/b"] // symlink_outputs: ["out/a" "out/b"] } func ExampleRuleBuilder_Temporary() { ctx := builderContext() rule := NewRuleBuilder(pctx, ctx) rule.Command(). Tool(PathForSource(ctx, "cp")). Input(PathForSource(ctx, "a")). Output(PathForOutput(ctx, "b")) rule.Command(). Tool(PathForSource(ctx, "cp")). Input(PathForOutput(ctx, "b")). Output(PathForOutput(ctx, "c")) rule.Temporary(PathForOutput(ctx, "b")) fmt.Printf("commands: %q\n", strings.Join(rule.Commands(), " && ")) fmt.Printf("tools: %q\n", rule.Tools()) fmt.Printf("inputs: %q\n", rule.Inputs()) fmt.Printf("outputs: %q\n", rule.Outputs()) // Output: // commands: "cp a out/b && cp out/b out/c" // tools: ["cp"] // inputs: ["a"] // outputs: ["out/c"] } func ExampleRuleBuilder_DeleteTemporaryFiles() { ctx := builderContext() rule := NewRuleBuilder(pctx, ctx) rule.Command(). Tool(PathForSource(ctx, "cp")). Input(PathForSource(ctx, "a")). Output(PathForOutput(ctx, "b")) rule.Command(). Tool(PathForSource(ctx, "cp")). Input(PathForOutput(ctx, "b")). Output(PathForOutput(ctx, "c")) rule.Temporary(PathForOutput(ctx, "b")) rule.DeleteTemporaryFiles() fmt.Printf("commands: %q\n", strings.Join(rule.Commands(), " && ")) fmt.Printf("tools: %q\n", rule.Tools()) fmt.Printf("inputs: %q\n", rule.Inputs()) fmt.Printf("outputs: %q\n", rule.Outputs()) // Output: // commands: "cp a out/b && cp out/b out/c && rm -f out/b" // tools: ["cp"] // inputs: ["a"] // outputs: ["out/c"] } func ExampleRuleBuilder_Installs() { ctx := builderContext() rule := NewRuleBuilder(pctx, ctx) out := PathForOutput(ctx, "linked") rule.Command(). Tool(PathForSource(ctx, "ld")). Inputs(PathsForTesting("a.o", "b.o")). FlagWithOutput("-o ", out) rule.Install(out, "/bin/linked") rule.Install(out, "/sbin/linked") fmt.Printf("rule.Installs().String() = %q\n", rule.Installs().String()) // Output: // rule.Installs().String() = "out/linked:/bin/linked out/linked:/sbin/linked" } func ExampleRuleBuilderCommand() { ctx := builderContext() rule := NewRuleBuilder(pctx, ctx) // chained rule.Command(). Tool(PathForSource(ctx, "ld")). Inputs(PathsForTesting("a.o", "b.o")). FlagWithOutput("-o ", PathForOutput(ctx, "linked")) // unchained cmd := rule.Command() cmd.Tool(PathForSource(ctx, "ld")) cmd.Inputs(PathsForTesting("a.o", "b.o")) cmd.FlagWithOutput("-o ", PathForOutput(ctx, "linked")) // mixed: cmd = rule.Command().Tool(PathForSource(ctx, "ld")) cmd.Inputs(PathsForTesting("a.o", "b.o")) cmd.FlagWithOutput("-o ", PathForOutput(ctx, "linked")) } func ExampleRuleBuilderCommand_Flag() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "ls")).Flag("-l")) // Output: // ls -l } func ExampleRuleBuilderCommand_Flags() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "ls")).Flags([]string{"-l", "-a"})) // Output: // ls -l -a } func ExampleRuleBuilderCommand_FlagWithArg() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "ls")). FlagWithArg("--sort=", "time")) // Output: // ls --sort=time } func ExampleRuleBuilderCommand_FlagForEachArg() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "ls")). FlagForEachArg("--sort=", []string{"time", "size"})) // Output: // ls --sort=time --sort=size } func ExampleRuleBuilderCommand_FlagForEachInput() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "turbine")). FlagForEachInput("--classpath ", PathsForTesting("a.jar", "b.jar"))) // Output: // turbine --classpath a.jar --classpath b.jar } func ExampleRuleBuilderCommand_FlagWithInputList() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "java")). FlagWithInputList("-classpath=", PathsForTesting("a.jar", "b.jar"), ":")) // Output: // java -classpath=a.jar:b.jar } func ExampleRuleBuilderCommand_FlagWithInput() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "java")). FlagWithInput("-classpath=", PathForSource(ctx, "a"))) // Output: // java -classpath=a } func ExampleRuleBuilderCommand_FlagWithList() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "ls")). FlagWithList("--sort=", []string{"time", "size"}, ",")) // Output: // ls --sort=time,size } func ExampleRuleBuilderCommand_FlagWithRspFileInputList() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Tool(PathForSource(ctx, "javac")). FlagWithRspFileInputList("@", PathForOutput(ctx, "foo.rsp"), PathsForTesting("a.java", "b.java")). String()) // Output: // javac @out/foo.rsp } func ExampleRuleBuilderCommand_String() { ctx := builderContext() fmt.Println(NewRuleBuilder(pctx, ctx).Command(). Text("FOO=foo"). Text("echo $FOO"). String()) // Output: // FOO=foo echo $FOO } func TestRuleBuilder(t *testing.T) { fs := map[string][]byte{ "dep_fixer": nil, "input": nil, "Implicit": nil, "Input": nil, "OrderOnly": nil, "OrderOnlys": nil, "Tool": nil, "input2": nil, "tool2": nil, "input3": nil, } pathCtx := PathContextForTesting(TestConfig("out_local", nil, "", fs)) ctx := builderContextForTests{ PathContext: pathCtx, } addCommands := func(rule *RuleBuilder) { cmd := rule.Command(). DepFile(PathForOutput(ctx, "module/DepFile")). Flag("Flag"). FlagWithArg("FlagWithArg=", "arg"). FlagWithDepFile("FlagWithDepFile=", PathForOutput(ctx, "module/depfile")). FlagWithInput("FlagWithInput=", PathForSource(ctx, "input")). FlagWithOutput("FlagWithOutput=", PathForOutput(ctx, "module/output")). FlagWithRspFileInputList("FlagWithRspFileInputList=", PathForOutput(ctx, "rsp"), Paths{ PathForSource(ctx, "RspInput"), PathForOutput(ctx, "other/RspOutput2"), }). Implicit(PathForSource(ctx, "Implicit")). ImplicitDepFile(PathForOutput(ctx, "module/ImplicitDepFile")). ImplicitOutput(PathForOutput(ctx, "module/ImplicitOutput")). Input(PathForSource(ctx, "Input")). Output(PathForOutput(ctx, "module/Output")). OrderOnly(PathForSource(ctx, "OrderOnly")). SymlinkOutput(PathForOutput(ctx, "module/SymlinkOutput")). ImplicitSymlinkOutput(PathForOutput(ctx, "module/ImplicitSymlinkOutput")). Text("Text"). Tool(PathForSource(ctx, "Tool")) rule.Command(). Text("command2"). DepFile(PathForOutput(ctx, "module/depfile2")). Input(PathForSource(ctx, "input2")). Output(PathForOutput(ctx, "module/output2")). OrderOnlys(PathsForSource(ctx, []string{"OrderOnlys"})). Tool(PathForSource(ctx, "tool2")) // Test updates to the first command after the second command has been started cmd.Text("after command2") // Test updating a command when the previous update did not replace the cmd variable cmd.Text("old cmd") // Test a command that uses the output of a previous command as an input rule.Command(). Text("command3"). Input(PathForSource(ctx, "input3")). Input(PathForOutput(ctx, "module/output2")). Output(PathForOutput(ctx, "module/output3")). Text(cmd.PathForInput(PathForSource(ctx, "input3"))). Text(cmd.PathForOutput(PathForOutput(ctx, "module/output2"))) } wantInputs := PathsForSource(ctx, []string{"Implicit", "Input", "input", "input2", "input3"}) wantRspFileInputs := Paths{PathForSource(ctx, "RspInput"), PathForOutput(ctx, "other/RspOutput2")} wantOutputs := PathsForOutput(ctx, []string{ "module/ImplicitOutput", "module/ImplicitSymlinkOutput", "module/Output", "module/SymlinkOutput", "module/output", "module/output2", "module/output3"}) wantDepFiles := PathsForOutput(ctx, []string{ "module/DepFile", "module/depfile", "module/ImplicitDepFile", "module/depfile2"}) wantTools := PathsForSource(ctx, []string{"Tool", "tool2"}) wantOrderOnlys := PathsForSource(ctx, []string{"OrderOnly", "OrderOnlys"}) wantSymlinkOutputs := PathsForOutput(ctx, []string{ "module/ImplicitSymlinkOutput", "module/SymlinkOutput"}) t.Run("normal", func(t *testing.T) { rule := NewRuleBuilder(pctx, ctx) addCommands(rule) wantCommands := []string{ "out_local/module/DepFile Flag FlagWithArg=arg FlagWithDepFile=out_local/module/depfile " + "FlagWithInput=input FlagWithOutput=out_local/module/output FlagWithRspFileInputList=out_local/rsp " + "Input out_local/module/Output out_local/module/SymlinkOutput Text Tool after command2 old cmd", "command2 out_local/module/depfile2 input2 out_local/module/output2 tool2", "command3 input3 out_local/module/output2 out_local/module/output3 input3 out_local/module/output2", } wantDepMergerCommand := "out_local/host/" + ctx.Config().PrebuiltOS() + "/bin/dep_fixer " + "out_local/module/DepFile out_local/module/depfile out_local/module/ImplicitDepFile out_local/module/depfile2" wantRspFileContent := "$in" AssertDeepEquals(t, "rule.Commands()", wantCommands, rule.Commands()) AssertDeepEquals(t, "rule.Inputs()", wantInputs, rule.Inputs()) AssertDeepEquals(t, "rule.RspfileInputs()", wantRspFileInputs, rule.RspFileInputs()) AssertDeepEquals(t, "rule.Outputs()", wantOutputs, rule.Outputs()) AssertDeepEquals(t, "rule.SymlinkOutputs()", wantSymlinkOutputs, rule.SymlinkOutputs()) AssertDeepEquals(t, "rule.DepFiles()", wantDepFiles, rule.DepFiles()) AssertDeepEquals(t, "rule.Tools()", wantTools, rule.Tools()) AssertDeepEquals(t, "rule.OrderOnlys()", wantOrderOnlys, rule.OrderOnlys()) AssertSame(t, "rule.depFileMergerCmd()", wantDepMergerCommand, rule.depFileMergerCmd(rule.DepFiles()).String()) AssertSame(t, "rule.composeRspFileContent()", wantRspFileContent, rule.composeRspFileContent(rule.RspFileInputs())) }) t.Run("sbox", func(t *testing.T) { rule := NewRuleBuilder(pctx, ctx).Sbox(PathForOutput(ctx, "module"), PathForOutput(ctx, "sbox.textproto")) addCommands(rule) wantCommands := []string{ "__SBOX_SANDBOX_DIR__/out/DepFile Flag FlagWithArg=arg FlagWithDepFile=__SBOX_SANDBOX_DIR__/out/depfile " + "FlagWithInput=input FlagWithOutput=__SBOX_SANDBOX_DIR__/out/output " + "FlagWithRspFileInputList=out_local/rsp Input __SBOX_SANDBOX_DIR__/out/Output " + "__SBOX_SANDBOX_DIR__/out/SymlinkOutput Text Tool after command2 old cmd", "command2 __SBOX_SANDBOX_DIR__/out/depfile2 input2 __SBOX_SANDBOX_DIR__/out/output2 tool2", "command3 input3 __SBOX_SANDBOX_DIR__/out/output2 __SBOX_SANDBOX_DIR__/out/output3 input3 __SBOX_SANDBOX_DIR__/out/output2", } wantDepMergerCommand := "out_local/host/" + ctx.Config().PrebuiltOS() + "/bin/dep_fixer __SBOX_SANDBOX_DIR__/out/DepFile __SBOX_SANDBOX_DIR__/out/depfile __SBOX_SANDBOX_DIR__/out/ImplicitDepFile __SBOX_SANDBOX_DIR__/out/depfile2" wantRspFileContent := "$in" AssertDeepEquals(t, "rule.Commands()", wantCommands, rule.Commands()) AssertDeepEquals(t, "rule.Inputs()", wantInputs, rule.Inputs()) AssertDeepEquals(t, "rule.RspfileInputs()", wantRspFileInputs, rule.RspFileInputs()) AssertDeepEquals(t, "rule.Outputs()", wantOutputs, rule.Outputs()) AssertDeepEquals(t, "rule.SymlinkOutputs()", wantSymlinkOutputs, rule.SymlinkOutputs()) AssertDeepEquals(t, "rule.DepFiles()", wantDepFiles, rule.DepFiles()) AssertDeepEquals(t, "rule.Tools()", wantTools, rule.Tools()) AssertDeepEquals(t, "rule.OrderOnlys()", wantOrderOnlys, rule.OrderOnlys()) AssertSame(t, "rule.depFileMergerCmd()", wantDepMergerCommand, rule.depFileMergerCmd(rule.DepFiles()).String()) AssertSame(t, "rule.composeRspFileContent()", wantRspFileContent, rule.composeRspFileContent(rule.RspFileInputs())) }) t.Run("sbox tools", func(t *testing.T) { rule := NewRuleBuilder(pctx, ctx).Sbox(PathForOutput(ctx, "module"), PathForOutput(ctx, "sbox.textproto")).SandboxTools() addCommands(rule) wantCommands := []string{ "__SBOX_SANDBOX_DIR__/out/DepFile Flag FlagWithArg=arg FlagWithDepFile=__SBOX_SANDBOX_DIR__/out/depfile " + "FlagWithInput=input FlagWithOutput=__SBOX_SANDBOX_DIR__/out/output " + "FlagWithRspFileInputList=out_local/rsp Input __SBOX_SANDBOX_DIR__/out/Output " + "__SBOX_SANDBOX_DIR__/out/SymlinkOutput Text __SBOX_SANDBOX_DIR__/tools/src/Tool after command2 old cmd", "command2 __SBOX_SANDBOX_DIR__/out/depfile2 input2 __SBOX_SANDBOX_DIR__/out/output2 __SBOX_SANDBOX_DIR__/tools/src/tool2", "command3 input3 __SBOX_SANDBOX_DIR__/out/output2 __SBOX_SANDBOX_DIR__/out/output3 input3 __SBOX_SANDBOX_DIR__/out/output2", } wantDepMergerCommand := "__SBOX_SANDBOX_DIR__/tools/out/bin/dep_fixer __SBOX_SANDBOX_DIR__/out/DepFile __SBOX_SANDBOX_DIR__/out/depfile __SBOX_SANDBOX_DIR__/out/ImplicitDepFile __SBOX_SANDBOX_DIR__/out/depfile2" wantRspFileContent := "$in" AssertDeepEquals(t, "rule.Commands()", wantCommands, rule.Commands()) AssertDeepEquals(t, "rule.Inputs()", wantInputs, rule.Inputs()) AssertDeepEquals(t, "rule.RspfileInputs()", wantRspFileInputs, rule.RspFileInputs()) AssertDeepEquals(t, "rule.Outputs()", wantOutputs, rule.Outputs()) AssertDeepEquals(t, "rule.SymlinkOutputs()", wantSymlinkOutputs, rule.SymlinkOutputs()) AssertDeepEquals(t, "rule.DepFiles()", wantDepFiles, rule.DepFiles()) AssertDeepEquals(t, "rule.Tools()", wantTools, rule.Tools()) AssertDeepEquals(t, "rule.OrderOnlys()", wantOrderOnlys, rule.OrderOnlys()) AssertSame(t, "rule.depFileMergerCmd()", wantDepMergerCommand, rule.depFileMergerCmd(rule.DepFiles()).String()) AssertSame(t, "rule.composeRspFileContent()", wantRspFileContent, rule.composeRspFileContent(rule.RspFileInputs())) }) } func testRuleBuilderFactory() Module { module := &testRuleBuilderModule{} module.AddProperties(&module.properties) InitAndroidModule(module) return module } type testRuleBuilderModule struct { ModuleBase properties struct { Srcs []string Restat bool Sbox bool } } func (t *testRuleBuilderModule) GenerateAndroidBuildActions(ctx ModuleContext) { in := PathsForSource(ctx, t.properties.Srcs) out := PathForModuleOut(ctx, "gen", ctx.ModuleName()) outDep := PathForModuleOut(ctx, "gen", ctx.ModuleName()+".d") outDir := PathForModuleOut(ctx, "gen") manifestPath := PathForModuleOut(ctx, "sbox.textproto") testRuleBuilder_Build(ctx, in, out, outDep, outDir, manifestPath, t.properties.Restat, t.properties.Sbox) } type testRuleBuilderSingleton struct{} func testRuleBuilderSingletonFactory() Singleton { return &testRuleBuilderSingleton{} } func (t *testRuleBuilderSingleton) GenerateBuildActions(ctx SingletonContext) { in := PathForSource(ctx, "bar") out := PathForOutput(ctx, "singleton/gen/baz") outDep := PathForOutput(ctx, "singleton/gen/baz.d") outDir := PathForOutput(ctx, "singleton/gen") manifestPath := PathForOutput(ctx, "singleton/sbox.textproto") testRuleBuilder_Build(ctx, Paths{in}, out, outDep, outDir, manifestPath, true, false) } func testRuleBuilder_Build(ctx BuilderContext, in Paths, out, outDep, outDir, manifestPath WritablePath, restat, sbox bool) { rule := NewRuleBuilder(pctx, ctx) if sbox { rule.Sbox(outDir, manifestPath) } rule.Command().Tool(PathForSource(ctx, "cp")).Inputs(in).Output(out).ImplicitDepFile(outDep) if restat { rule.Restat() } rule.Build("rule", "desc") } var prepareForRuleBuilderTest = FixtureRegisterWithContext(func(ctx RegistrationContext) { ctx.RegisterModuleType("rule_builder_test", testRuleBuilderFactory) ctx.RegisterSingletonType("rule_builder_test", testRuleBuilderSingletonFactory) }) func TestRuleBuilder_Build(t *testing.T) { fs := MockFS{ "bar": nil, "cp": nil, } bp := ` rule_builder_test { name: "foo", srcs: ["bar"], restat: true, } rule_builder_test { name: "foo_sbox", srcs: ["bar"], sbox: true, } ` result := GroupFixturePreparers( prepareForRuleBuilderTest, FixtureWithRootAndroidBp(bp), fs.AddToFixture(), ).RunTest(t) check := func(t *testing.T, params TestingBuildParams, wantCommand, wantOutput, wantDepfile string, wantRestat bool, extraImplicits, extraCmdDeps []string) { t.Helper() command := params.RuleParams.Command re := regexp.MustCompile(" # hash of input list: [a-z0-9]*$") command = re.ReplaceAllLiteralString(command, "") AssertStringEquals(t, "RuleParams.Command", wantCommand, command) wantDeps := append([]string{"cp"}, extraCmdDeps...) AssertArrayString(t, "RuleParams.CommandDeps", wantDeps, params.RuleParams.CommandDeps) AssertBoolEquals(t, "RuleParams.Restat", wantRestat, params.RuleParams.Restat) wantImplicits := append([]string{"bar"}, extraImplicits...) AssertPathsRelativeToTopEquals(t, "Implicits", wantImplicits, params.Implicits) AssertPathRelativeToTopEquals(t, "Output", wantOutput, params.Output) if len(params.ImplicitOutputs) != 0 { t.Errorf("want ImplicitOutputs = [], got %q", params.ImplicitOutputs.Strings()) } AssertPathRelativeToTopEquals(t, "Depfile", wantDepfile, params.Depfile) if params.Deps != blueprint.DepsGCC { t.Errorf("want Deps = %q, got %q", blueprint.DepsGCC, params.Deps) } } t.Run("module", func(t *testing.T) { outFile := "out/soong/.intermediates/foo/gen/foo" check(t, result.ModuleForTests("foo", "").Rule("rule").RelativeToTop(), "cp bar "+outFile, outFile, outFile+".d", true, nil, nil) }) t.Run("sbox", func(t *testing.T) { outDir := "out/soong/.intermediates/foo_sbox" outFile := filepath.Join(outDir, "gen/foo_sbox") depFile := filepath.Join(outDir, "gen/foo_sbox.d") manifest := filepath.Join(outDir, "sbox.textproto") sbox := filepath.Join("out", "soong", "host", result.Config.PrebuiltOS(), "bin/sbox") sandboxPath := shared.TempDirForOutDir("out/soong") cmd := `rm -rf ` + outDir + `/gen && ` + sbox + ` --sandbox-path ` + sandboxPath + ` --manifest ` + manifest check(t, result.ModuleForTests("foo_sbox", "").Output("gen/foo_sbox").RelativeToTop(), cmd, outFile, depFile, false, []string{manifest}, []string{sbox}) }) t.Run("singleton", func(t *testing.T) { outFile := filepath.Join("out/soong/singleton/gen/baz") check(t, result.SingletonForTests("rule_builder_test").Rule("rule").RelativeToTop(), "cp bar "+outFile, outFile, outFile+".d", true, nil, nil) }) } func TestRuleBuilderHashInputs(t *testing.T) { // The basic idea here is to verify that the command (in the case of a // non-sbox rule) or the sbox textproto manifest contain a hash of the // inputs. // By including a hash of the inputs, we cause the rule to re-run if // the list of inputs changes because the command line or a dependency // changes. bp := ` rule_builder_test { name: "hash0", srcs: ["in1.txt", "in2.txt"], } rule_builder_test { name: "hash0_sbox", srcs: ["in1.txt", "in2.txt"], sbox: true, } rule_builder_test { name: "hash1", srcs: ["in1.txt", "in2.txt", "in3.txt"], } rule_builder_test { name: "hash1_sbox", srcs: ["in1.txt", "in2.txt", "in3.txt"], sbox: true, } ` testcases := []struct { name string expectedHash string }{ { name: "hash0", // sha256 value obtained from: echo -en 'in1.txt\nin2.txt' | sha256sum expectedHash: "18da75b9b1cc74b09e365b4ca2e321b5d618f438cc632b387ad9dc2ab4b20e9d", }, { name: "hash1", // sha256 value obtained from: echo -en 'in1.txt\nin2.txt\nin3.txt' | sha256sum expectedHash: "a38d432a4b19df93140e1f1fe26c97ff0387dae01fe506412b47208f0595fb45", }, } result := GroupFixturePreparers( prepareForRuleBuilderTest, FixtureWithRootAndroidBp(bp), ).RunTest(t) for _, test := range testcases { t.Run(test.name, func(t *testing.T) { t.Run("sbox", func(t *testing.T) { gen := result.ModuleForTests(test.name+"_sbox", "") manifest := RuleBuilderSboxProtoForTests(t, gen.Output("sbox.textproto")) hash := manifest.Commands[0].GetInputHash() AssertStringEquals(t, "hash", test.expectedHash, hash) }) t.Run("", func(t *testing.T) { gen := result.ModuleForTests(test.name+"", "") command := gen.Output("gen/" + test.name).RuleParams.Command if g, w := command, " # hash of input list: "+test.expectedHash; !strings.HasSuffix(g, w) { t.Errorf("Expected command line to end with %q, got %q", w, g) } }) }) } }