// Copyright 2015 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 cc // This file generates the final rules for compiling all C/C++. All properties related to // compiling should have been translated into builderFlags or another argument to the Transform* // functions. import ( "path/filepath" "runtime" "strconv" "strings" "github.com/google/blueprint" "github.com/google/blueprint/pathtools" "android/soong/android" "android/soong/cc/config" "android/soong/remoteexec" ) const ( objectExtension = ".o" staticLibraryExtension = ".a" ) var ( pctx = android.NewPackageContext("android/soong/cc") // Rule to invoke gcc with given command, flags, and dependencies. Outputs a .d depfile. cc = pctx.AndroidRemoteStaticRule("cc", android.RemoteRuleSupports{Goma: true, RBE: true}, blueprint.RuleParams{ Depfile: "${out}.d", Deps: blueprint.DepsGCC, Command: "$relPwd ${config.CcWrapper}$ccCmd -c $cFlags -MD -MF ${out}.d -o $out $in", CommandDeps: []string{"$ccCmd"}, }, "ccCmd", "cFlags") // Rule to invoke gcc with given command and flags, but no dependencies. ccNoDeps = pctx.AndroidStaticRule("ccNoDeps", blueprint.RuleParams{ Command: "$relPwd $ccCmd -c $cFlags -o $out $in", CommandDeps: []string{"$ccCmd"}, }, "ccCmd", "cFlags") // Rules to invoke ld to link binaries. Uses a .rsp file to list dependencies, as there may // be many. ld, ldRE = pctx.RemoteStaticRules("ld", blueprint.RuleParams{ Command: "$reTemplate$ldCmd ${crtBegin} @${out}.rsp " + "${crtEnd} -o ${out} ${ldFlags} ${extraLibFlags}", CommandDeps: []string{"$ldCmd"}, Rspfile: "${out}.rsp", RspfileContent: "${in} ${libFlags}", // clang -Wl,--out-implib doesn't update its output file if it hasn't changed. Restat: true, }, &remoteexec.REParams{ Labels: map[string]string{"type": "link", "tool": "clang"}, ExecStrategy: "${config.RECXXLinksExecStrategy}", Inputs: []string{"${out}.rsp", "$implicitInputs"}, RSPFiles: []string{"${out}.rsp"}, OutputFiles: []string{"${out}", "$implicitOutputs"}, ToolchainInputs: []string{"$ldCmd"}, Platform: map[string]string{remoteexec.PoolKey: "${config.RECXXLinksPool}"}, }, []string{"ldCmd", "crtBegin", "libFlags", "crtEnd", "ldFlags", "extraLibFlags"}, []string{"implicitInputs", "implicitOutputs"}) // Rules for .o files to combine to other .o files, using ld partial linking. partialLd, partialLdRE = pctx.RemoteStaticRules("partialLd", blueprint.RuleParams{ // Without -no-pie, clang 7.0 adds -pie to link Android files, // but -r and -pie cannot be used together. Command: "$reTemplate$ldCmd -fuse-ld=lld -nostdlib -no-pie -Wl,-r ${in} -o ${out} ${ldFlags}", CommandDeps: []string{"$ldCmd"}, }, &remoteexec.REParams{ Labels: map[string]string{"type": "link", "tool": "clang"}, ExecStrategy: "${config.RECXXLinksExecStrategy}", Inputs: []string{"$inCommaList", "$implicitInputs"}, OutputFiles: []string{"${out}", "$implicitOutputs"}, ToolchainInputs: []string{"$ldCmd"}, Platform: map[string]string{remoteexec.PoolKey: "${config.RECXXLinksPool}"}, }, []string{"ldCmd", "ldFlags"}, []string{"implicitInputs", "inCommaList", "implicitOutputs"}) // Rule to invoke `ar` with given cmd and flags, but no static library depenencies. ar = pctx.AndroidStaticRule("ar", blueprint.RuleParams{ Command: "rm -f ${out} && $arCmd $arFlags $out @${out}.rsp", CommandDeps: []string{"$arCmd"}, Rspfile: "${out}.rsp", RspfileContent: "${in}", }, "arCmd", "arFlags") // Rule to invoke `ar` with given cmd, flags, and library dependencies. Generates a .a // (archive) file from .o files. arWithLibs = pctx.AndroidStaticRule("arWithLibs", blueprint.RuleParams{ Command: "rm -f ${out} && $arCmd $arObjFlags $out @${out}.rsp && $arCmd $arLibFlags $out $arLibs", CommandDeps: []string{"$arCmd"}, Rspfile: "${out}.rsp", RspfileContent: "${arObjs}", }, "arCmd", "arObjFlags", "arObjs", "arLibFlags", "arLibs") // Rule to run objcopy --prefix-symbols (to prefix all symbols in a file with a given string). prefixSymbols = pctx.AndroidStaticRule("prefixSymbols", blueprint.RuleParams{ Command: "$objcopyCmd --prefix-symbols=${prefix} ${in} ${out}", CommandDeps: []string{"$objcopyCmd"}, }, "objcopyCmd", "prefix") _ = pctx.SourcePathVariable("stripPath", "build/soong/scripts/strip.sh") _ = pctx.SourcePathVariable("xzCmd", "prebuilts/build-tools/${config.HostPrebuiltTag}/bin/xz") _ = pctx.SourcePathVariable("createMiniDebugInfo", "prebuilts/build-tools/${config.HostPrebuiltTag}/bin/create_minidebuginfo") // Rule to invoke `strip` (to discard symbols and data from object files). strip = pctx.AndroidStaticRule("strip", blueprint.RuleParams{ Depfile: "${out}.d", Deps: blueprint.DepsGCC, Command: "XZ=$xzCmd CREATE_MINIDEBUGINFO=$createMiniDebugInfo CLANG_BIN=${config.ClangBin} $stripPath ${args} -i ${in} -o ${out} -d ${out}.d", CommandDeps: func() []string { if runtime.GOOS != "darwin" { return []string{"$stripPath", "$xzCmd", "$createMiniDebugInfo"} } else { return []string{"$stripPath", "$xzCmd"} } }(), Pool: darwinStripPool, }, "args") // Rule to invoke `strip` (to discard symbols and data from object files) on darwin architecture. darwinStrip = pctx.AndroidStaticRule("darwinStrip", blueprint.RuleParams{ Command: "${config.MacStripPath} -u -r -o $out $in", CommandDeps: []string{"${config.MacStripPath}"}, }) // b/132822437: objcopy uses a file descriptor per .o file when called on .a files, which runs the system out of // file descriptors on darwin. Limit concurrent calls to 5 on darwin. darwinStripPool = func() blueprint.Pool { if runtime.GOOS == "darwin" { return pctx.StaticPool("darwinStripPool", blueprint.PoolParams{ Depth: 5, }) } else { return nil } }() darwinLipo = pctx.AndroidStaticRule("darwinLipo", blueprint.RuleParams{ Command: "${config.MacLipoPath} -create -output $out $in", CommandDeps: []string{"${config.MacLipoPath}"}, }) _ = pctx.SourcePathVariable("archiveRepackPath", "build/soong/scripts/archive_repack.sh") // Rule to repack an archive (.a) file with a subset of object files. archiveRepack = pctx.AndroidStaticRule("archiveRepack", blueprint.RuleParams{ Depfile: "${out}.d", Deps: blueprint.DepsGCC, Command: "CLANG_BIN=${config.ClangBin} $archiveRepackPath -i ${in} -o ${out} -d ${out}.d ${objects}", CommandDeps: []string{"$archiveRepackPath"}, }, "objects") // Rule to create an empty file at a given path. emptyFile = pctx.AndroidStaticRule("emptyFile", blueprint.RuleParams{ Command: "rm -f $out && touch $out", }) _ = pctx.SourcePathVariable("tocPath", "build/soong/scripts/toc.sh") // A rule for extracting a table of contents from a shared library (.so). toc = pctx.AndroidStaticRule("toc", blueprint.RuleParams{ Depfile: "${out}.d", Deps: blueprint.DepsGCC, Command: "CLANG_BIN=$clangBin $tocPath $format -i ${in} -o ${out} -d ${out}.d", CommandDeps: []string{"$tocPath"}, Restat: true, }, "clangBin", "format") // Rules for invoking clang-tidy (a clang-based linter). clangTidy, clangTidyRE = pctx.RemoteStaticRules("clangTidy", blueprint.RuleParams{ Depfile: "${out}.d", Deps: blueprint.DepsGCC, Command: "CLANG_CMD=$clangCmd TIDY_FILE=$out " + "$tidyVars$reTemplate${config.ClangBin}/clang-tidy.sh $in $tidyFlags -- $cFlags", CommandDeps: []string{"${config.ClangBin}/clang-tidy.sh", "$ccCmd", "$tidyCmd"}, }, &remoteexec.REParams{ Labels: map[string]string{"type": "lint", "tool": "clang-tidy", "lang": "cpp"}, ExecStrategy: "${config.REClangTidyExecStrategy}", Inputs: []string{"$in"}, OutputFiles: []string{"${out}", "${out}.d"}, ToolchainInputs: []string{"$ccCmd", "$tidyCmd"}, EnvironmentVariables: []string{"CLANG_CMD", "TIDY_FILE", "TIDY_TIMEOUT"}, // Although clang-tidy has an option to "fix" source files, that feature is hardly useable // under parallel compilation and RBE. So we assume no OutputFiles here. // The clang-tidy fix option is best run locally in single thread. // Copying source file back to local caused two problems: // (1) New timestamps trigger clang and clang-tidy compilations again. // (2) Changing source files caused concurrent clang or clang-tidy jobs to crash. Platform: map[string]string{remoteexec.PoolKey: "${config.REClangTidyPool}"}, }, []string{"cFlags", "ccCmd", "clangCmd", "tidyCmd", "tidyFlags", "tidyVars"}, []string{}) _ = pctx.SourcePathVariable("yasmCmd", "prebuilts/misc/${config.HostPrebuiltTag}/yasm/yasm") // Rule for invoking yasm to compile .asm assembly files. yasm = pctx.AndroidStaticRule("yasm", blueprint.RuleParams{ Command: "$yasmCmd $asFlags -o $out $in && $yasmCmd $asFlags -M $in >$out.d", CommandDeps: []string{"$yasmCmd"}, Depfile: "$out.d", Deps: blueprint.DepsGCC, }, "asFlags") _ = pctx.SourcePathVariable("sAbiDumper", "prebuilts/clang-tools/${config.HostPrebuiltTag}/bin/header-abi-dumper") // -w has been added since header-abi-dumper does not need to produce any sort of diagnostic information. sAbiDump, sAbiDumpRE = pctx.RemoteStaticRules("sAbiDump", blueprint.RuleParams{ Command: "rm -f $out && $reTemplate$sAbiDumper --root-dir . --root-dir $$OUT_DIR:out -o ${out} $in $exportDirs -- $cFlags -w -isystem prebuilts/clang-tools/${config.HostPrebuiltTag}/clang-headers", CommandDeps: []string{"$sAbiDumper"}, }, &remoteexec.REParams{ Labels: map[string]string{"type": "abi-dump", "tool": "header-abi-dumper"}, ExecStrategy: "${config.REAbiDumperExecStrategy}", Inputs: []string{"$sAbiLinkerLibs"}, Platform: map[string]string{ remoteexec.PoolKey: "${config.RECXXPool}", }, }, []string{"cFlags", "exportDirs"}, nil) _ = pctx.SourcePathVariable("sAbiLinker", "prebuilts/clang-tools/${config.HostPrebuiltTag}/bin/header-abi-linker") _ = pctx.SourcePathVariable("sAbiLinkerLibs", "prebuilts/clang-tools/${config.HostPrebuiltTag}/lib64") // Rule to combine .dump sAbi dump files from multiple source files into a single .ldump // sAbi dump file. sAbiLink, sAbiLinkRE = pctx.RemoteStaticRules("sAbiLink", blueprint.RuleParams{ Command: "$reTemplate$sAbiLinker --root-dir . --root-dir $$OUT_DIR:out -o ${out} $symbolFilter -arch $arch $exportedHeaderFlags @${out}.rsp", CommandDeps: []string{"$sAbiLinker"}, Rspfile: "${out}.rsp", RspfileContent: "${in}", }, &remoteexec.REParams{ Labels: map[string]string{"type": "tool", "name": "abi-linker"}, ExecStrategy: "${config.REAbiLinkerExecStrategy}", Inputs: []string{"$sAbiLinkerLibs", "${out}.rsp", "$implicitInputs"}, RSPFiles: []string{"${out}.rsp"}, OutputFiles: []string{"$out"}, ToolchainInputs: []string{"$sAbiLinker"}, Platform: map[string]string{remoteexec.PoolKey: "${config.RECXXPool}"}, }, []string{"symbolFilter", "arch", "exportedHeaderFlags"}, []string{"implicitInputs"}) _ = pctx.SourcePathVariable("sAbiDiffer", "prebuilts/clang-tools/${config.HostPrebuiltTag}/bin/header-abi-diff") // Rule to compare linked sAbi dump files (.ldump). sAbiDiff = pctx.RuleFunc("sAbiDiff", func(ctx android.PackageRuleContext) blueprint.RuleParams { commandStr := "($sAbiDiffer ${extraFlags} -lib ${libName} -arch ${arch} -o ${out} -new ${in} -old ${referenceDump})" commandStr += "|| (echo '${errorMessage}'" commandStr += " && (mkdir -p $$DIST_DIR/abidiffs && cp ${out} $$DIST_DIR/abidiffs/)" commandStr += " && exit 1)" return blueprint.RuleParams{ Command: commandStr, CommandDeps: []string{"$sAbiDiffer"}, } }, "extraFlags", "referenceDump", "libName", "arch", "errorMessage") // Rule to zip files. zip = pctx.AndroidStaticRule("zip", blueprint.RuleParams{ Command: "${SoongZipCmd} -o ${out} -C $$OUT_DIR -r ${out}.rsp", CommandDeps: []string{"${SoongZipCmd}"}, Rspfile: "${out}.rsp", RspfileContent: "$in", }) _ = pctx.SourcePathVariable("cxxExtractor", "prebuilts/clang-tools/${config.HostPrebuiltTag}/bin/cxx_extractor") _ = pctx.SourcePathVariable("kytheVnames", "build/soong/vnames.json") _ = pctx.VariableFunc("kytheCorpus", func(ctx android.PackageVarContext) string { return ctx.Config().XrefCorpusName() }) _ = pctx.VariableFunc("kytheCuEncoding", func(ctx android.PackageVarContext) string { return ctx.Config().XrefCuEncoding() }) // Rule to use kythe extractors to generate .kzip files, used to build code cross references. kytheExtract = pctx.StaticRule("kythe", blueprint.RuleParams{ Command: `rm -f $out && ` + `KYTHE_CORPUS=${kytheCorpus} ` + `KYTHE_OUTPUT_FILE=$out ` + `KYTHE_VNAMES=$kytheVnames ` + `KYTHE_KZIP_ENCODING=${kytheCuEncoding} ` + `KYTHE_CANONICALIZE_VNAME_PATHS=prefer-relative ` + `$cxxExtractor $cFlags $in `, CommandDeps: []string{"$cxxExtractor", "$kytheVnames"}, }, "cFlags") ) func PwdPrefix() string { // Darwin doesn't have /proc if runtime.GOOS != "darwin" { return "PWD=/proc/self/cwd" } return "" } func init() { // We run gcc/clang with PWD=/proc/self/cwd to remove $TOP from the // debug output. That way two builds in two different directories will // create the same output. pctx.StaticVariable("relPwd", PwdPrefix()) pctx.HostBinToolVariable("SoongZipCmd", "soong_zip") } // builderFlags contains various types of command line flags (and settings) for use in building // build statements related to C++. type builderFlags struct { // Global flags (which build system or toolchain is responsible for). These are separate from // local flags because they should appear first (so that they may be overridden by local flags). globalCommonFlags string globalAsFlags string globalYasmFlags string globalCFlags string globalToolingCFlags string // A separate set of cFlags for clang LibTooling tools globalToolingCppFlags string // A separate set of cppFlags for clang LibTooling tools globalConlyFlags string globalCppFlags string globalLdFlags string // Local flags (which individual modules are responsible for). These may override global flags. localCommonFlags string localAsFlags string localYasmFlags string localCFlags string localToolingCFlags string // A separate set of cFlags for clang LibTooling tools localToolingCppFlags string // A separate set of cppFlags for clang LibTooling tools localConlyFlags string localCppFlags string localLdFlags string libFlags string // Flags to add to the linker directly after specifying libraries to link. extraLibFlags string // Flags to add to the linker last. tidyFlags string // Flags that apply to clang-tidy sAbiFlags string // Flags that apply to header-abi-dumps aidlFlags string // Flags that apply to aidl source files rsFlags string // Flags that apply to renderscript source files toolchain config.Toolchain // True if these extra features are enabled. tidy bool needTidyFiles bool gcovCoverage bool sAbiDump bool emitXrefs bool assemblerWithCpp bool // True if .s files should be processed with the c preprocessor. systemIncludeFlags string proto android.ProtoFlags protoC bool // If true, compile protos as `.c` files. Otherwise, output as `.cc`. protoOptionsFile bool // If true, output a proto options file. yacc *YaccProperties lex *LexProperties } // StripFlags represents flags related to stripping. This is separate from builderFlags, as these // flags are useful outside of this package (such as for Rust). type StripFlags struct { Toolchain config.Toolchain StripKeepSymbols bool StripKeepSymbolsList string StripKeepSymbolsAndDebugFrame bool StripKeepMiniDebugInfo bool StripAddGnuDebuglink bool StripUseGnuStrip bool } // Objects is a collection of file paths corresponding to outputs for C++ related build statements. type Objects struct { objFiles android.Paths tidyFiles android.Paths tidyDepFiles android.Paths // link dependent .tidy files coverageFiles android.Paths sAbiDumpFiles android.Paths kytheFiles android.Paths } func (a Objects) Copy() Objects { return Objects{ objFiles: append(android.Paths{}, a.objFiles...), tidyFiles: append(android.Paths{}, a.tidyFiles...), tidyDepFiles: append(android.Paths{}, a.tidyDepFiles...), coverageFiles: append(android.Paths{}, a.coverageFiles...), sAbiDumpFiles: append(android.Paths{}, a.sAbiDumpFiles...), kytheFiles: append(android.Paths{}, a.kytheFiles...), } } func (a Objects) Append(b Objects) Objects { return Objects{ objFiles: append(a.objFiles, b.objFiles...), tidyFiles: append(a.tidyFiles, b.tidyFiles...), tidyDepFiles: append(a.tidyDepFiles, b.tidyDepFiles...), coverageFiles: append(a.coverageFiles, b.coverageFiles...), sAbiDumpFiles: append(a.sAbiDumpFiles, b.sAbiDumpFiles...), kytheFiles: append(a.kytheFiles, b.kytheFiles...), } } // Generate rules for compiling multiple .c, .cpp, or .S files to individual .o files func transformSourceToObj(ctx ModuleContext, subdir string, srcFiles, noTidySrcs, timeoutTidySrcs android.Paths, flags builderFlags, pathDeps android.Paths, cFlagsDeps android.Paths) Objects { // Source files are one-to-one with tidy, coverage, or kythe files, if enabled. objFiles := make(android.Paths, len(srcFiles)) var tidyFiles android.Paths noTidySrcsMap := make(map[string]bool) var tidyVars string if flags.tidy { tidyFiles = make(android.Paths, 0, len(srcFiles)) for _, path := range noTidySrcs { noTidySrcsMap[path.String()] = true } tidyTimeout := ctx.Config().Getenv("TIDY_TIMEOUT") if len(tidyTimeout) > 0 { tidyVars += "TIDY_TIMEOUT=" + tidyTimeout + " " // add timeoutTidySrcs into noTidySrcsMap if TIDY_TIMEOUT is set for _, path := range timeoutTidySrcs { noTidySrcsMap[path.String()] = true } } } var coverageFiles android.Paths if flags.gcovCoverage { coverageFiles = make(android.Paths, 0, len(srcFiles)) } var kytheFiles android.Paths if flags.emitXrefs { kytheFiles = make(android.Paths, 0, len(srcFiles)) } // Produce fully expanded flags for use by C tools, C compiles, C++ tools, C++ compiles, and asm compiles // respectively. toolingCflags := flags.globalCommonFlags + " " + flags.globalToolingCFlags + " " + flags.globalConlyFlags + " " + flags.localCommonFlags + " " + flags.localToolingCFlags + " " + flags.localConlyFlags + " " + flags.systemIncludeFlags cflags := flags.globalCommonFlags + " " + flags.globalCFlags + " " + flags.globalConlyFlags + " " + flags.localCommonFlags + " " + flags.localCFlags + " " + flags.localConlyFlags + " " + flags.systemIncludeFlags toolingCppflags := flags.globalCommonFlags + " " + flags.globalToolingCFlags + " " + flags.globalToolingCppFlags + " " + flags.localCommonFlags + " " + flags.localToolingCFlags + " " + flags.localToolingCppFlags + " " + flags.systemIncludeFlags cppflags := flags.globalCommonFlags + " " + flags.globalCFlags + " " + flags.globalCppFlags + " " + flags.localCommonFlags + " " + flags.localCFlags + " " + flags.localCppFlags + " " + flags.systemIncludeFlags asflags := flags.globalCommonFlags + " " + flags.globalAsFlags + " " + flags.localCommonFlags + " " + flags.localAsFlags + " " + flags.systemIncludeFlags var sAbiDumpFiles android.Paths if flags.sAbiDump { sAbiDumpFiles = make(android.Paths, 0, len(srcFiles)) } cflags += " ${config.NoOverrideGlobalCflags}" toolingCflags += " ${config.NoOverrideGlobalCflags}" cppflags += " ${config.NoOverrideGlobalCflags}" toolingCppflags += " ${config.NoOverrideGlobalCflags}" if flags.toolchain.Is64Bit() { cflags += " ${config.NoOverride64GlobalCflags}" toolingCflags += " ${config.NoOverride64GlobalCflags}" cppflags += " ${config.NoOverride64GlobalCflags}" toolingCppflags += " ${config.NoOverride64GlobalCflags}" } modulePath := android.PathForModuleSrc(ctx).String() if android.IsThirdPartyPath(modulePath) { cflags += " ${config.NoOverrideExternalGlobalCflags}" toolingCflags += " ${config.NoOverrideExternalGlobalCflags}" cppflags += " ${config.NoOverrideExternalGlobalCflags}" toolingCppflags += " ${config.NoOverrideExternalGlobalCflags}" } // Multiple source files have build rules usually share the same cFlags or tidyFlags. // Define only one version in this module and share it in multiple build rules. // To simplify the code, the shared variables are all named as $flags. shared := ctx.getSharedFlags() // Share flags only when there are multiple files or tidy rules. var hasMultipleRules = len(srcFiles) > 1 || flags.tidy var shareFlags = func(kind string, flags string) string { if !hasMultipleRules || len(flags) < 60 { // Modules have long names and so do the module variables. // It does not save space by replacing a short name with a long one. return flags } mapKey := kind + flags n, ok := shared.flagsMap[mapKey] if !ok { shared.numSharedFlags += 1 n = strconv.Itoa(shared.numSharedFlags) shared.flagsMap[mapKey] = n ctx.Variable(pctx, kind+n, flags) } return "$" + kind + n } for i, srcFile := range srcFiles { objFile := android.ObjPathWithExt(ctx, subdir, srcFile, "o") objFiles[i] = objFile // Register compilation build statements. The actual rule used depends on the source file type. switch srcFile.Ext() { case ".asm": ctx.Build(pctx, android.BuildParams{ Rule: yasm, Description: "yasm " + srcFile.Rel(), Output: objFile, Input: srcFile, Implicits: cFlagsDeps, OrderOnly: pathDeps, Args: map[string]string{ "asFlags": shareFlags("asFlags", flags.globalYasmFlags+" "+flags.localYasmFlags), }, }) continue case ".o": objFiles[i] = srcFile continue } var moduleFlags string var moduleToolingFlags string var ccCmd string tidy := flags.tidy coverage := flags.gcovCoverage dump := flags.sAbiDump rule := cc emitXref := flags.emitXrefs switch srcFile.Ext() { case ".s": if !flags.assemblerWithCpp { rule = ccNoDeps } fallthrough case ".S": ccCmd = "clang" moduleFlags = asflags tidy = false coverage = false dump = false emitXref = false case ".c": ccCmd = "clang" moduleFlags = cflags moduleToolingFlags = toolingCflags case ".cpp", ".cc", ".cxx", ".mm": ccCmd = "clang++" moduleFlags = cppflags moduleToolingFlags = toolingCppflags case ".h", ".hpp": ctx.PropertyErrorf("srcs", "Header file %s is not supported, instead use export_include_dirs or local_include_dirs.", srcFile) continue default: ctx.PropertyErrorf("srcs", "File %s has unknown extension. Supported extensions: .s, .S, .c, .cpp, .cc, .cxx, .mm", srcFile) continue } // ccCmd is "clang" or "clang++" ccDesc := ccCmd ccCmd = "${config.ClangBin}/" + ccCmd var implicitOutputs android.WritablePaths if coverage { gcnoFile := android.ObjPathWithExt(ctx, subdir, srcFile, "gcno") implicitOutputs = append(implicitOutputs, gcnoFile) coverageFiles = append(coverageFiles, gcnoFile) } ctx.Build(pctx, android.BuildParams{ Rule: rule, Description: ccDesc + " " + srcFile.Rel(), Output: objFile, ImplicitOutputs: implicitOutputs, Input: srcFile, Implicits: cFlagsDeps, OrderOnly: pathDeps, Args: map[string]string{ "cFlags": shareFlags("cFlags", moduleFlags), "ccCmd": ccCmd, // short and not shared }, }) // Register post-process build statements (such as for tidy or kythe). if emitXref { kytheFile := android.ObjPathWithExt(ctx, subdir, srcFile, "kzip") ctx.Build(pctx, android.BuildParams{ Rule: kytheExtract, Description: "Xref C++ extractor " + srcFile.Rel(), Output: kytheFile, Input: srcFile, Implicits: cFlagsDeps, OrderOnly: pathDeps, Args: map[string]string{ "cFlags": shareFlags("cFlags", moduleFlags), }, }) kytheFiles = append(kytheFiles, kytheFile) } // Even with tidy, some src file could be skipped by noTidySrcsMap. if tidy && !noTidySrcsMap[srcFile.String()] { tidyFile := android.ObjPathWithExt(ctx, subdir, srcFile, "tidy") tidyFiles = append(tidyFiles, tidyFile) tidyCmd := "${config.ClangBin}/clang-tidy" rule := clangTidy reducedCFlags := moduleFlags if ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_CLANG_TIDY") { rule = clangTidyRE // b/248371171, work around RBE input processor problem // some cflags rejected by input processor, but usually // do not affect included files or clang-tidy reducedCFlags = config.TidyReduceCFlags(reducedCFlags) } sharedCFlags := shareFlags("cFlags", reducedCFlags) srcRelPath := srcFile.Rel() // Add the .tidy rule ctx.Build(pctx, android.BuildParams{ Rule: rule, Description: "clang-tidy " + srcRelPath, Output: tidyFile, Input: srcFile, Implicits: cFlagsDeps, OrderOnly: pathDeps, Args: map[string]string{ "cFlags": sharedCFlags, "ccCmd": ccCmd, "clangCmd": ccDesc, "tidyCmd": tidyCmd, "tidyFlags": shareFlags("tidyFlags", config.TidyFlagsForSrcFile(srcFile, flags.tidyFlags)), "tidyVars": tidyVars, // short and not shared }, }) } if dump { sAbiDumpFile := android.ObjPathWithExt(ctx, subdir, srcFile, "sdump") sAbiDumpFiles = append(sAbiDumpFiles, sAbiDumpFile) dumpRule := sAbiDump if ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_ABI_DUMPER") { dumpRule = sAbiDumpRE } ctx.Build(pctx, android.BuildParams{ Rule: dumpRule, Description: "header-abi-dumper " + srcFile.Rel(), Output: sAbiDumpFile, Input: srcFile, Implicit: objFile, Implicits: cFlagsDeps, OrderOnly: pathDeps, Args: map[string]string{ "cFlags": shareFlags("cFlags", moduleToolingFlags), "exportDirs": shareFlags("exportDirs", flags.sAbiFlags), }, }) } } var tidyDepFiles android.Paths if flags.needTidyFiles { tidyDepFiles = tidyFiles } return Objects{ objFiles: objFiles, tidyFiles: tidyFiles, tidyDepFiles: tidyDepFiles, coverageFiles: coverageFiles, sAbiDumpFiles: sAbiDumpFiles, kytheFiles: kytheFiles, } } // Generate a rule for compiling multiple .o files to a static library (.a) func transformObjToStaticLib(ctx android.ModuleContext, objFiles android.Paths, wholeStaticLibs android.Paths, flags builderFlags, outputFile android.ModuleOutPath, deps android.Paths, validations android.Paths) { arCmd := "${config.ClangBin}/llvm-ar" arFlags := "" if !ctx.Darwin() { arFlags += " --format=gnu" } if len(wholeStaticLibs) == 0 { ctx.Build(pctx, android.BuildParams{ Rule: ar, Description: "static link " + outputFile.Base(), Output: outputFile, Inputs: objFiles, Implicits: deps, Validations: validations, Args: map[string]string{ "arFlags": "crsPD" + arFlags, "arCmd": arCmd, }, }) } else { ctx.Build(pctx, android.BuildParams{ Rule: arWithLibs, Description: "static link " + outputFile.Base(), Output: outputFile, Inputs: append(objFiles, wholeStaticLibs...), Implicits: deps, Args: map[string]string{ "arCmd": arCmd, "arObjFlags": "crsPD" + arFlags, "arObjs": strings.Join(objFiles.Strings(), " "), "arLibFlags": "cqsL" + arFlags, "arLibs": strings.Join(wholeStaticLibs.Strings(), " "), }, }) } } // Generate a rule for compiling multiple .o files, plus static libraries, whole static libraries, // and shared libraries, to a shared library (.so) or dynamic executable func transformObjToDynamicBinary(ctx android.ModuleContext, objFiles, sharedLibs, staticLibs, lateStaticLibs, wholeStaticLibs, deps, crtBegin, crtEnd android.Paths, groupLate bool, flags builderFlags, outputFile android.WritablePath, implicitOutputs android.WritablePaths, validations android.Paths) { ldCmd := "${config.ClangBin}/clang++" var libFlagsList []string if len(flags.libFlags) > 0 { libFlagsList = append(libFlagsList, flags.libFlags) } if len(wholeStaticLibs) > 0 { if ctx.Host() && ctx.Darwin() { libFlagsList = append(libFlagsList, android.JoinWithPrefix(wholeStaticLibs.Strings(), "-force_load ")) } else { libFlagsList = append(libFlagsList, "-Wl,--whole-archive ") libFlagsList = append(libFlagsList, wholeStaticLibs.Strings()...) libFlagsList = append(libFlagsList, "-Wl,--no-whole-archive ") } } libFlagsList = append(libFlagsList, staticLibs.Strings()...) if groupLate && !ctx.Darwin() && len(lateStaticLibs) > 0 { libFlagsList = append(libFlagsList, "-Wl,--start-group") } libFlagsList = append(libFlagsList, lateStaticLibs.Strings()...) if groupLate && !ctx.Darwin() && len(lateStaticLibs) > 0 { libFlagsList = append(libFlagsList, "-Wl,--end-group") } for _, lib := range sharedLibs { libFile := lib.String() if ctx.Windows() { libFile = pathtools.ReplaceExtension(libFile, "lib") } libFlagsList = append(libFlagsList, libFile) } deps = append(deps, staticLibs...) deps = append(deps, lateStaticLibs...) deps = append(deps, wholeStaticLibs...) deps = append(deps, crtBegin...) deps = append(deps, crtEnd...) rule := ld args := map[string]string{ "ldCmd": ldCmd, "crtBegin": strings.Join(crtBegin.Strings(), " "), "libFlags": strings.Join(libFlagsList, " "), "extraLibFlags": flags.extraLibFlags, "ldFlags": flags.globalLdFlags + " " + flags.localLdFlags, "crtEnd": strings.Join(crtEnd.Strings(), " "), } if ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_CXX_LINKS") { rule = ldRE args["implicitOutputs"] = strings.Join(implicitOutputs.Strings(), ",") args["implicitInputs"] = strings.Join(deps.Strings(), ",") } ctx.Build(pctx, android.BuildParams{ Rule: rule, Description: "link " + outputFile.Base(), Output: outputFile, ImplicitOutputs: implicitOutputs, Inputs: objFiles, Implicits: deps, OrderOnly: sharedLibs, Validations: validations, Args: args, }) } // Generate a rule to combine .dump sAbi dump files from multiple source files // into a single .ldump sAbi dump file func transformDumpToLinkedDump(ctx android.ModuleContext, sAbiDumps android.Paths, soFile android.Path, baseName, exportedHeaderFlags string, symbolFile android.OptionalPath, excludedSymbolVersions, excludedSymbolTags []string) android.OptionalPath { outputFile := android.PathForModuleOut(ctx, baseName+".lsdump") implicits := android.Paths{soFile} symbolFilterStr := "-so " + soFile.String() if symbolFile.Valid() { implicits = append(implicits, symbolFile.Path()) symbolFilterStr += " -v " + symbolFile.String() } for _, ver := range excludedSymbolVersions { symbolFilterStr += " --exclude-symbol-version " + ver } for _, tag := range excludedSymbolTags { symbolFilterStr += " --exclude-symbol-tag " + tag } rule := sAbiLink args := map[string]string{ "symbolFilter": symbolFilterStr, "arch": ctx.Arch().ArchType.Name, "exportedHeaderFlags": exportedHeaderFlags, } if ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_ABI_LINKER") { rule = sAbiLinkRE rbeImplicits := implicits.Strings() for _, p := range strings.Split(exportedHeaderFlags, " ") { if len(p) > 2 { // Exclude the -I prefix. rbeImplicits = append(rbeImplicits, p[2:]) } } args["implicitInputs"] = strings.Join(rbeImplicits, ",") } ctx.Build(pctx, android.BuildParams{ Rule: rule, Description: "header-abi-linker " + outputFile.Base(), Output: outputFile, Inputs: sAbiDumps, Implicits: implicits, Args: args, }) return android.OptionalPathForPath(outputFile) } func transformAbiDumpToAbiDiff(ctx android.ModuleContext, inputDump, referenceDump android.Path, baseName, nameExt string, extraFlags []string, errorMessage string) android.Path { var outputFile android.ModuleOutPath if nameExt != "" { outputFile = android.PathForModuleOut(ctx, baseName+"."+nameExt+".abidiff") } else { outputFile = android.PathForModuleOut(ctx, baseName+".abidiff") } libName := strings.TrimSuffix(baseName, filepath.Ext(baseName)) ctx.Build(pctx, android.BuildParams{ Rule: sAbiDiff, Description: "header-abi-diff " + outputFile.Base(), Output: outputFile, Input: inputDump, Implicit: referenceDump, Args: map[string]string{ "referenceDump": referenceDump.String(), "libName": libName, "arch": ctx.Arch().ArchType.Name, "extraFlags": strings.Join(extraFlags, " "), "errorMessage": errorMessage, }, }) return outputFile } // Generate a rule for extracting a table of contents from a shared library (.so) func TransformSharedObjectToToc(ctx android.ModuleContext, inputFile android.Path, outputFile android.WritablePath) { var format string if ctx.Darwin() { format = "--macho" } else if ctx.Windows() { format = "--pe" } else { format = "--elf" } ctx.Build(pctx, android.BuildParams{ Rule: toc, Description: "generate toc " + inputFile.Base(), Output: outputFile, Input: inputFile, Args: map[string]string{ "clangBin": "${config.ClangBin}", "format": format, }, }) } // Generate a rule for compiling multiple .o files to a .o using ld partial linking func transformObjsToObj(ctx android.ModuleContext, objFiles android.Paths, flags builderFlags, outputFile android.WritablePath, deps android.Paths) { ldCmd := "${config.ClangBin}/clang++" rule := partialLd args := map[string]string{ "ldCmd": ldCmd, "ldFlags": flags.globalLdFlags + " " + flags.localLdFlags, } if ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_CXX_LINKS") { rule = partialLdRE args["inCommaList"] = strings.Join(objFiles.Strings(), ",") args["implicitInputs"] = strings.Join(deps.Strings(), ",") } ctx.Build(pctx, android.BuildParams{ Rule: rule, Description: "link " + outputFile.Base(), Output: outputFile, Inputs: objFiles, Implicits: deps, Args: args, }) } // Generate a rule for running objcopy --prefix-symbols on a binary func transformBinaryPrefixSymbols(ctx android.ModuleContext, prefix string, inputFile android.Path, flags builderFlags, outputFile android.WritablePath) { objcopyCmd := "${config.ClangBin}/llvm-objcopy" ctx.Build(pctx, android.BuildParams{ Rule: prefixSymbols, Description: "prefix symbols " + outputFile.Base(), Output: outputFile, Input: inputFile, Args: map[string]string{ "objcopyCmd": objcopyCmd, "prefix": prefix, }, }) } // Registers a build statement to invoke `strip` (to discard symbols and data from object files). func transformStrip(ctx android.ModuleContext, inputFile android.Path, outputFile android.WritablePath, flags StripFlags) { args := "" if flags.StripAddGnuDebuglink { args += " --add-gnu-debuglink" } if flags.StripKeepMiniDebugInfo { args += " --keep-mini-debug-info" } if flags.StripKeepSymbols { args += " --keep-symbols" } if flags.StripKeepSymbolsList != "" { args += " -k" + flags.StripKeepSymbolsList } if flags.StripKeepSymbolsAndDebugFrame { args += " --keep-symbols-and-debug-frame" } ctx.Build(pctx, android.BuildParams{ Rule: strip, Description: "strip " + outputFile.Base(), Output: outputFile, Input: inputFile, Args: map[string]string{ "args": args, }, }) } // Registers build statement to invoke `strip` on darwin architecture. func transformDarwinStrip(ctx android.ModuleContext, inputFile android.Path, outputFile android.WritablePath) { ctx.Build(pctx, android.BuildParams{ Rule: darwinStrip, Description: "strip " + outputFile.Base(), Output: outputFile, Input: inputFile, }) } func transformDarwinUniversalBinary(ctx android.ModuleContext, outputFile android.WritablePath, inputFiles ...android.Path) { ctx.Build(pctx, android.BuildParams{ Rule: darwinLipo, Description: "lipo " + outputFile.Base(), Output: outputFile, Inputs: inputFiles, }) } // Registers build statement to zip one or more coverage files. func transformCoverageFilesToZip(ctx android.ModuleContext, inputs Objects, baseName string) android.OptionalPath { if len(inputs.coverageFiles) > 0 { outputFile := android.PathForModuleOut(ctx, baseName+".zip") ctx.Build(pctx, android.BuildParams{ Rule: zip, Description: "zip " + outputFile.Base(), Inputs: inputs.coverageFiles, Output: outputFile, }) return android.OptionalPathForPath(outputFile) } return android.OptionalPath{} } // Rule to repack an archive (.a) file with a subset of object files. func transformArchiveRepack(ctx android.ModuleContext, inputFile android.Path, outputFile android.WritablePath, objects []string) { ctx.Build(pctx, android.BuildParams{ Rule: archiveRepack, Description: "Repack archive " + outputFile.Base(), Output: outputFile, Input: inputFile, Args: map[string]string{ "objects": strings.Join(objects, " "), }, }) }