// Copyright 2016 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 import ( "fmt" "sort" "strings" "sync" "github.com/google/blueprint" "android/soong/android" "android/soong/cc/config" ) var ( // Any C flags added by sanitizer which libTooling tools may not // understand also need to be added to ClangLibToolingUnknownCflags in // cc/config/clang.go asanCflags = []string{ "-fno-omit-frame-pointer", "-fno-experimental-new-pass-manager", } asanLdflags = []string{"-Wl,-u,__asan_preinit"} hwasanCflags = []string{"-fno-omit-frame-pointer", "-Wno-frame-larger-than=", "-fsanitize-hwaddress-abi=platform", "-fno-experimental-new-pass-manager", // The following improves debug location information // availability at the cost of its accuracy. It increases // the likelihood of a stack variable's frame offset // to be recorded in the debug info, which is important // for the quality of hwasan reports. The downside is a // higher number of "optimized out" stack variables. // b/112437883. "-mllvm", "-instcombine-lower-dbg-declare=0", // TODO(b/159343917): HWASan and GlobalISel don't play nicely, and // GlobalISel is the default at -O0 on aarch64. "-mllvm", "--aarch64-enable-global-isel-at-O=-1", "-mllvm", "-fast-isel=false", } cfiCflags = []string{"-flto", "-fsanitize-cfi-cross-dso", "-fsanitize-blacklist=external/compiler-rt/lib/cfi/cfi_blocklist.txt"} // -flto and -fvisibility are required by clang when -fsanitize=cfi is // used, but have no effect on assembly files cfiAsflags = []string{"-flto", "-fvisibility=default"} cfiLdflags = []string{"-flto", "-fsanitize-cfi-cross-dso", "-fsanitize=cfi", "-Wl,-plugin-opt,O1"} cfiExportsMapPath = "build/soong/cc/config/cfi_exports.map" intOverflowCflags = []string{"-fsanitize-blacklist=build/soong/cc/config/integer_overflow_blocklist.txt"} minimalRuntimeFlags = []string{"-fsanitize-minimal-runtime", "-fno-sanitize-trap=integer,undefined", "-fno-sanitize-recover=integer,undefined"} hwasanGlobalOptions = []string{"heap_history_size=1023", "stack_history_size=512", "export_memory_stats=0", "max_malloc_fill_size=0"} ) type SanitizerType int func boolPtr(v bool) *bool { if v { return &v } else { return nil } } const ( Asan SanitizerType = iota + 1 hwasan tsan intOverflow cfi scs Fuzzer memtag_heap ) // Name of the sanitizer variation for this sanitizer type func (t SanitizerType) variationName() string { switch t { case Asan: return "asan" case hwasan: return "hwasan" case tsan: return "tsan" case intOverflow: return "intOverflow" case cfi: return "cfi" case scs: return "scs" case memtag_heap: return "memtag_heap" case Fuzzer: return "fuzzer" default: panic(fmt.Errorf("unknown SanitizerType %d", t)) } } // This is the sanitizer names in SANITIZE_[TARGET|HOST] func (t SanitizerType) name() string { switch t { case Asan: return "address" case hwasan: return "hwaddress" case memtag_heap: return "memtag_heap" case tsan: return "thread" case intOverflow: return "integer_overflow" case cfi: return "cfi" case scs: return "shadow-call-stack" case Fuzzer: return "fuzzer" default: panic(fmt.Errorf("unknown SanitizerType %d", t)) } } func (*Module) SanitizerSupported(t SanitizerType) bool { switch t { case Asan: return true case hwasan: return true case tsan: return true case intOverflow: return true case cfi: return true case scs: return true case Fuzzer: return true default: return false } } // incompatibleWithCfi returns true if a sanitizer is incompatible with CFI. func (t SanitizerType) incompatibleWithCfi() bool { return t == Asan || t == Fuzzer || t == hwasan } type SanitizeUserProps struct { Never *bool `android:"arch_variant"` // main sanitizers Address *bool `android:"arch_variant"` Thread *bool `android:"arch_variant"` Hwaddress *bool `android:"arch_variant"` // local sanitizers Undefined *bool `android:"arch_variant"` All_undefined *bool `android:"arch_variant"` Misc_undefined []string `android:"arch_variant"` Fuzzer *bool `android:"arch_variant"` Safestack *bool `android:"arch_variant"` Cfi *bool `android:"arch_variant"` Integer_overflow *bool `android:"arch_variant"` Scudo *bool `android:"arch_variant"` Scs *bool `android:"arch_variant"` Memtag_heap *bool `android:"arch_variant"` // A modifier for ASAN and HWASAN for write only instrumentation Writeonly *bool `android:"arch_variant"` // Sanitizers to run in the diagnostic mode (as opposed to the release mode). // Replaces abort() on error with a human-readable error message. // Address and Thread sanitizers always run in diagnostic mode. Diag struct { Undefined *bool `android:"arch_variant"` Cfi *bool `android:"arch_variant"` Integer_overflow *bool `android:"arch_variant"` Memtag_heap *bool `android:"arch_variant"` Misc_undefined []string `android:"arch_variant"` No_recover []string `android:"arch_variant"` } `android:"arch_variant"` // Sanitizers to run with flag configuration specified Config struct { // Enables CFI support flags for assembly-heavy libraries Cfi_assembly_support *bool `android:"arch_variant"` } `android:"arch_variant"` // value to pass to -fsanitize-recover= Recover []string // value to pass to -fsanitize-blacklist Blocklist *string } type SanitizeProperties struct { // Enable AddressSanitizer, ThreadSanitizer, UndefinedBehaviorSanitizer, and // others. Please see SanitizerUserProps in build/soong/cc/sanitize.go for // details. Sanitize SanitizeUserProps `android:"arch_variant"` SanitizerEnabled bool `blueprint:"mutated"` SanitizeDep bool `blueprint:"mutated"` MinimalRuntimeDep bool `blueprint:"mutated"` BuiltinsDep bool `blueprint:"mutated"` UbsanRuntimeDep bool `blueprint:"mutated"` InSanitizerDir bool `blueprint:"mutated"` Sanitizers []string `blueprint:"mutated"` DiagSanitizers []string `blueprint:"mutated"` } type sanitize struct { Properties SanitizeProperties } // Mark this tag with a check to see if apex dependency check should be skipped func (t libraryDependencyTag) SkipApexAllowedDependenciesCheck() bool { return t.skipApexAllowedDependenciesCheck } var _ android.SkipApexAllowedDependenciesCheck = (*libraryDependencyTag)(nil) func init() { android.RegisterMakeVarsProvider(pctx, cfiMakeVarsProvider) android.RegisterMakeVarsProvider(pctx, hwasanMakeVarsProvider) } func (sanitize *sanitize) props() []interface{} { return []interface{}{&sanitize.Properties} } func (sanitize *sanitize) begin(ctx BaseModuleContext) { s := &sanitize.Properties.Sanitize // Don't apply sanitizers to NDK code. if ctx.useSdk() { s.Never = BoolPtr(true) } // Sanitizers do not work on Fuchsia yet. if ctx.Fuchsia() { s.Never = BoolPtr(true) } // Never always wins. if Bool(s.Never) { return } // cc_test targets default to SYNC MemTag unless explicitly set to ASYNC (via diag: {memtag_heap}). if ctx.testBinary() && s.Memtag_heap == nil { s.Memtag_heap = boolPtr(true) s.Diag.Memtag_heap = boolPtr(true) } var globalSanitizers []string var globalSanitizersDiag []string if ctx.Host() { if !ctx.Windows() { globalSanitizers = ctx.Config().SanitizeHost() } } else { arches := ctx.Config().SanitizeDeviceArch() if len(arches) == 0 || inList(ctx.Arch().ArchType.Name, arches) { globalSanitizers = ctx.Config().SanitizeDevice() globalSanitizersDiag = ctx.Config().SanitizeDeviceDiag() } } if len(globalSanitizers) > 0 { var found bool if found, globalSanitizers = removeFromList("undefined", globalSanitizers); found && s.All_undefined == nil { s.All_undefined = boolPtr(true) } if found, globalSanitizers = removeFromList("default-ub", globalSanitizers); found && s.Undefined == nil { s.Undefined = boolPtr(true) } if found, globalSanitizers = removeFromList("address", globalSanitizers); found && s.Address == nil { s.Address = boolPtr(true) } if found, globalSanitizers = removeFromList("thread", globalSanitizers); found && s.Thread == nil { s.Thread = boolPtr(true) } if found, globalSanitizers = removeFromList("fuzzer", globalSanitizers); found && s.Fuzzer == nil { s.Fuzzer = boolPtr(true) } if found, globalSanitizers = removeFromList("safe-stack", globalSanitizers); found && s.Safestack == nil { s.Safestack = boolPtr(true) } if found, globalSanitizers = removeFromList("cfi", globalSanitizers); found && s.Cfi == nil { if !ctx.Config().CFIDisabledForPath(ctx.ModuleDir()) { s.Cfi = boolPtr(true) } } // Global integer_overflow builds do not support static libraries. if found, globalSanitizers = removeFromList("integer_overflow", globalSanitizers); found && s.Integer_overflow == nil { if !ctx.Config().IntegerOverflowDisabledForPath(ctx.ModuleDir()) && !ctx.static() { s.Integer_overflow = boolPtr(true) } } if found, globalSanitizers = removeFromList("scudo", globalSanitizers); found && s.Scudo == nil { s.Scudo = boolPtr(true) } if found, globalSanitizers = removeFromList("hwaddress", globalSanitizers); found && s.Hwaddress == nil { s.Hwaddress = boolPtr(true) } if found, globalSanitizers = removeFromList("writeonly", globalSanitizers); found && s.Writeonly == nil { // Hwaddress and Address are set before, so we can check them here // If they aren't explicitly set in the blueprint/SANITIZE_(HOST|TARGET), they would be nil instead of false if s.Address == nil && s.Hwaddress == nil { ctx.ModuleErrorf("writeonly modifier cannot be used without 'address' or 'hwaddress'") } s.Writeonly = boolPtr(true) } if found, globalSanitizers = removeFromList("memtag_heap", globalSanitizers); found && s.Memtag_heap == nil { if !ctx.Config().MemtagHeapDisabledForPath(ctx.ModuleDir()) { s.Memtag_heap = boolPtr(true) } } if len(globalSanitizers) > 0 { ctx.ModuleErrorf("unknown global sanitizer option %s", globalSanitizers[0]) } // Global integer_overflow builds do not support static library diagnostics. if found, globalSanitizersDiag = removeFromList("integer_overflow", globalSanitizersDiag); found && s.Diag.Integer_overflow == nil && Bool(s.Integer_overflow) && !ctx.static() { s.Diag.Integer_overflow = boolPtr(true) } if found, globalSanitizersDiag = removeFromList("cfi", globalSanitizersDiag); found && s.Diag.Cfi == nil && Bool(s.Cfi) { s.Diag.Cfi = boolPtr(true) } if found, globalSanitizersDiag = removeFromList("memtag_heap", globalSanitizersDiag); found && s.Diag.Memtag_heap == nil && Bool(s.Memtag_heap) { s.Diag.Memtag_heap = boolPtr(true) } if len(globalSanitizersDiag) > 0 { ctx.ModuleErrorf("unknown global sanitizer diagnostics option %s", globalSanitizersDiag[0]) } } // Enable Memtag for all components in the include paths (for Aarch64 only) if ctx.Arch().ArchType == android.Arm64 { if ctx.Config().MemtagHeapSyncEnabledForPath(ctx.ModuleDir()) { if s.Memtag_heap == nil { s.Memtag_heap = boolPtr(true) } if s.Diag.Memtag_heap == nil { s.Diag.Memtag_heap = boolPtr(true) } } else if ctx.Config().MemtagHeapAsyncEnabledForPath(ctx.ModuleDir()) { if s.Memtag_heap == nil { s.Memtag_heap = boolPtr(true) } } } // Enable CFI for all components in the include paths (for Aarch64 only) if s.Cfi == nil && ctx.Config().CFIEnabledForPath(ctx.ModuleDir()) && ctx.Arch().ArchType == android.Arm64 { s.Cfi = boolPtr(true) if inList("cfi", ctx.Config().SanitizeDeviceDiag()) { s.Diag.Cfi = boolPtr(true) } } // Is CFI actually enabled? if !ctx.Config().EnableCFI() { s.Cfi = boolPtr(false) s.Diag.Cfi = boolPtr(false) } // Also disable CFI for arm32 until b/35157333 is fixed. if ctx.Arch().ArchType == android.Arm { s.Cfi = boolPtr(false) s.Diag.Cfi = boolPtr(false) } // HWASan requires AArch64 hardware feature (top-byte-ignore). if ctx.Arch().ArchType != android.Arm64 { s.Hwaddress = nil } // SCS is only implemented on AArch64. if ctx.Arch().ArchType != android.Arm64 { s.Scs = nil } // memtag_heap is only implemented on AArch64. if ctx.Arch().ArchType != android.Arm64 { s.Memtag_heap = nil } // Also disable CFI if ASAN is enabled. if Bool(s.Address) || Bool(s.Hwaddress) { s.Cfi = boolPtr(false) s.Diag.Cfi = boolPtr(false) } // Disable sanitizers that depend on the UBSan runtime for windows/darwin builds. if !ctx.Os().Linux() { s.Cfi = boolPtr(false) s.Diag.Cfi = boolPtr(false) s.Misc_undefined = nil s.Undefined = nil s.All_undefined = nil s.Integer_overflow = nil } // Also disable CFI for VNDK variants of components if ctx.isVndk() && ctx.useVndk() { if ctx.static() { // Cfi variant for static vndk should be captured as vendor snapshot, // so don't strictly disable Cfi. s.Cfi = nil s.Diag.Cfi = nil } else { s.Cfi = boolPtr(false) s.Diag.Cfi = boolPtr(false) } } // HWASan ramdisk (which is built from recovery) goes over some bootloader limit. // Keep libc instrumented so that ramdisk / vendor_ramdisk / recovery can run hwasan-instrumented code if necessary. if (ctx.inRamdisk() || ctx.inVendorRamdisk() || ctx.inRecovery()) && !strings.HasPrefix(ctx.ModuleDir(), "bionic/libc") { s.Hwaddress = nil } if ctx.staticBinary() { s.Address = nil s.Fuzzer = nil s.Thread = nil } if Bool(s.All_undefined) { s.Undefined = nil } if !ctx.toolchain().Is64Bit() { // TSAN and SafeStack are not supported on 32-bit architectures s.Thread = nil s.Safestack = nil // TODO(ccross): error for compile_multilib = "32"? } if ctx.Os() != android.Windows && (Bool(s.All_undefined) || Bool(s.Undefined) || Bool(s.Address) || Bool(s.Thread) || Bool(s.Fuzzer) || Bool(s.Safestack) || Bool(s.Cfi) || Bool(s.Integer_overflow) || len(s.Misc_undefined) > 0 || Bool(s.Scudo) || Bool(s.Hwaddress) || Bool(s.Scs) || Bool(s.Memtag_heap)) { sanitize.Properties.SanitizerEnabled = true } // Disable Scudo if ASan or TSan is enabled, or if it's disabled globally. if Bool(s.Address) || Bool(s.Thread) || Bool(s.Hwaddress) || ctx.Config().DisableScudo() { s.Scudo = nil } if Bool(s.Hwaddress) { s.Address = nil s.Thread = nil } // TODO(b/131771163): CFI transiently depends on LTO, and thus Fuzzer is // mutually incompatible. if Bool(s.Fuzzer) { s.Cfi = boolPtr(false) } } func (sanitize *sanitize) deps(ctx BaseModuleContext, deps Deps) Deps { if !sanitize.Properties.SanitizerEnabled { // || c.static() { return deps } return deps } func toDisableImplicitIntegerChange(flags []string) bool { // Returns true if any flag is fsanitize*integer, and there is // no explicit flag about sanitize=implicit-integer-sign-change. for _, f := range flags { if strings.Contains(f, "sanitize=implicit-integer-sign-change") { return false } } for _, f := range flags { if strings.HasPrefix(f, "-fsanitize") && strings.Contains(f, "integer") { return true } } return false } func toDisableUnsignedShiftBaseChange(flags []string) bool { // Returns true if any flag is fsanitize*integer, and there is // no explicit flag about sanitize=unsigned-shift-base. for _, f := range flags { if strings.Contains(f, "sanitize=unsigned-shift-base") { return false } } for _, f := range flags { if strings.HasPrefix(f, "-fsanitize") && strings.Contains(f, "integer") { return true } } return false } func (sanitize *sanitize) flags(ctx ModuleContext, flags Flags) Flags { minimalRuntimeLib := config.UndefinedBehaviorSanitizerMinimalRuntimeLibrary(ctx.toolchain()) + ".a" minimalRuntimePath := "${config.ClangAsanLibDir}/" + minimalRuntimeLib builtinsRuntimeLib := config.BuiltinsRuntimeLibrary(ctx.toolchain()) + ".a" builtinsRuntimePath := "${config.ClangAsanLibDir}/" + builtinsRuntimeLib if sanitize.Properties.MinimalRuntimeDep { flags.Local.LdFlags = append(flags.Local.LdFlags, minimalRuntimePath, "-Wl,--exclude-libs,"+minimalRuntimeLib) } if sanitize.Properties.BuiltinsDep { flags.libFlags = append([]string{builtinsRuntimePath}, flags.libFlags...) } if !sanitize.Properties.SanitizerEnabled && !sanitize.Properties.UbsanRuntimeDep { return flags } if Bool(sanitize.Properties.Sanitize.Address) { if ctx.Arch().ArchType == android.Arm { // Frame pointer based unwinder in ASan requires ARM frame setup. // TODO: put in flags? flags.RequiredInstructionSet = "arm" } flags.Local.CFlags = append(flags.Local.CFlags, asanCflags...) flags.Local.LdFlags = append(flags.Local.LdFlags, asanLdflags...) if Bool(sanitize.Properties.Sanitize.Writeonly) { flags.Local.CFlags = append(flags.Local.CFlags, "-mllvm", "-asan-instrument-reads=0") } if ctx.Host() { // -nodefaultlibs (provided with libc++) prevents the driver from linking // libraries needed with -fsanitize=address. http://b/18650275 (WAI) flags.Local.LdFlags = append(flags.Local.LdFlags, "-Wl,--no-as-needed") } else { flags.Local.CFlags = append(flags.Local.CFlags, "-mllvm", "-asan-globals=0") if ctx.bootstrap() { flags.DynamicLinker = "/system/bin/bootstrap/linker_asan" } else { flags.DynamicLinker = "/system/bin/linker_asan" } if flags.Toolchain.Is64Bit() { flags.DynamicLinker += "64" } } } if Bool(sanitize.Properties.Sanitize.Hwaddress) { flags.Local.CFlags = append(flags.Local.CFlags, hwasanCflags...) if Bool(sanitize.Properties.Sanitize.Writeonly) { flags.Local.CFlags = append(flags.Local.CFlags, "-mllvm", "-hwasan-instrument-reads=0") } } if Bool(sanitize.Properties.Sanitize.Fuzzer) { flags.Local.CFlags = append(flags.Local.CFlags, "-fsanitize=fuzzer-no-link") // TODO(b/131771163): LTO and Fuzzer support is mutually incompatible. _, flags.Local.LdFlags = removeFromList("-flto", flags.Local.LdFlags) _, flags.Local.CFlags = removeFromList("-flto", flags.Local.CFlags) flags.Local.LdFlags = append(flags.Local.LdFlags, "-fno-lto") flags.Local.CFlags = append(flags.Local.CFlags, "-fno-lto") // TODO(b/142430592): Upstream linker scripts for sanitizer runtime libraries // discard the sancov_lowest_stack symbol, because it's emulated TLS (and thus // doesn't match the linker script due to the "__emutls_v." prefix). flags.Local.LdFlags = append(flags.Local.LdFlags, "-fno-sanitize-coverage=stack-depth") flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize-coverage=stack-depth") // TODO(b/133876586): Experimental PM breaks sanitizer coverage. flags.Local.CFlags = append(flags.Local.CFlags, "-fno-experimental-new-pass-manager") // Disable fortify for fuzzing builds. Generally, we'll be building with // UBSan or ASan here and the fortify checks pollute the stack traces. flags.Local.CFlags = append(flags.Local.CFlags, "-U_FORTIFY_SOURCE") // Build fuzzer-sanitized libraries with an $ORIGIN DT_RUNPATH. Android's // linker uses DT_RUNPATH, not DT_RPATH. When we deploy cc_fuzz targets and // their libraries to /data/fuzz//lib, any transient shared library gets // the DT_RUNPATH from the shared library above it, and not the executable, // meaning that the lookup falls back to the system. Adding the $ORIGIN to the // DT_RUNPATH here means that transient shared libraries can be found // colocated with their parents. flags.Local.LdFlags = append(flags.Local.LdFlags, `-Wl,-rpath,\$$ORIGIN`) } if Bool(sanitize.Properties.Sanitize.Cfi) { if ctx.Arch().ArchType == android.Arm { // __cfi_check needs to be built as Thumb (see the code in linker_cfi.cpp). LLVM is not set up // to do this on a function basis, so force Thumb on the entire module. flags.RequiredInstructionSet = "thumb" } flags.Local.CFlags = append(flags.Local.CFlags, cfiCflags...) flags.Local.AsFlags = append(flags.Local.AsFlags, cfiAsflags...) if Bool(sanitize.Properties.Sanitize.Config.Cfi_assembly_support) { flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize-cfi-canonical-jump-tables") } // Only append the default visibility flag if -fvisibility has not already been set // to hidden. if !inList("-fvisibility=hidden", flags.Local.CFlags) { flags.Local.CFlags = append(flags.Local.CFlags, "-fvisibility=default") } flags.Local.LdFlags = append(flags.Local.LdFlags, cfiLdflags...) if ctx.staticBinary() { _, flags.Local.CFlags = removeFromList("-fsanitize-cfi-cross-dso", flags.Local.CFlags) _, flags.Local.LdFlags = removeFromList("-fsanitize-cfi-cross-dso", flags.Local.LdFlags) } } if Bool(sanitize.Properties.Sanitize.Integer_overflow) { flags.Local.CFlags = append(flags.Local.CFlags, intOverflowCflags...) } if len(sanitize.Properties.Sanitizers) > 0 { sanitizeArg := "-fsanitize=" + strings.Join(sanitize.Properties.Sanitizers, ",") flags.Local.CFlags = append(flags.Local.CFlags, sanitizeArg) flags.Local.AsFlags = append(flags.Local.AsFlags, sanitizeArg) if ctx.Host() { // Host sanitizers only link symbols in the final executable, so // there will always be undefined symbols in intermediate libraries. _, flags.Global.LdFlags = removeFromList("-Wl,--no-undefined", flags.Global.LdFlags) flags.Local.LdFlags = append(flags.Local.LdFlags, sanitizeArg) // non-Bionic toolchain prebuilts are missing UBSan's vptr and function sanitizers if !ctx.toolchain().Bionic() { flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize=vptr,function") } } if enableMinimalRuntime(sanitize) { flags.Local.CFlags = append(flags.Local.CFlags, strings.Join(minimalRuntimeFlags, " ")) flags.libFlags = append([]string{minimalRuntimePath}, flags.libFlags...) flags.Local.LdFlags = append(flags.Local.LdFlags, "-Wl,--exclude-libs,"+minimalRuntimeLib) if !ctx.toolchain().Bionic() { flags.libFlags = append([]string{builtinsRuntimePath}, flags.libFlags...) } } if Bool(sanitize.Properties.Sanitize.Fuzzer) { // When fuzzing, we wish to crash with diagnostics on any bug. flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize-trap=all", "-fno-sanitize-recover=all") } else if ctx.Host() { flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize-recover=all") } else { flags.Local.CFlags = append(flags.Local.CFlags, "-fsanitize-trap=all", "-ftrap-function=abort") } // http://b/119329758, Android core does not boot up with this sanitizer yet. if toDisableImplicitIntegerChange(flags.Local.CFlags) { flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize=implicit-integer-sign-change") } // http://b/171275751, Android doesn't build with this sanitizer yet. if toDisableUnsignedShiftBaseChange(flags.Local.CFlags) { flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize=unsigned-shift-base") } } if len(sanitize.Properties.DiagSanitizers) > 0 { flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize-trap="+strings.Join(sanitize.Properties.DiagSanitizers, ",")) } // FIXME: enable RTTI if diag + (cfi or vptr) if sanitize.Properties.Sanitize.Recover != nil { flags.Local.CFlags = append(flags.Local.CFlags, "-fsanitize-recover="+ strings.Join(sanitize.Properties.Sanitize.Recover, ",")) } if sanitize.Properties.Sanitize.Diag.No_recover != nil { flags.Local.CFlags = append(flags.Local.CFlags, "-fno-sanitize-recover="+ strings.Join(sanitize.Properties.Sanitize.Diag.No_recover, ",")) } blocklist := android.OptionalPathForModuleSrc(ctx, sanitize.Properties.Sanitize.Blocklist) if blocklist.Valid() { flags.Local.CFlags = append(flags.Local.CFlags, "-fsanitize-blacklist="+blocklist.String()) flags.CFlagsDeps = append(flags.CFlagsDeps, blocklist.Path()) } return flags } func (sanitize *sanitize) AndroidMkEntries(ctx AndroidMkContext, entries *android.AndroidMkEntries) { // Add a suffix for cfi/hwasan/scs-enabled static/header libraries to allow surfacing // both the sanitized and non-sanitized variants to make without a name conflict. if entries.Class == "STATIC_LIBRARIES" || entries.Class == "HEADER_LIBRARIES" { if Bool(sanitize.Properties.Sanitize.Cfi) { entries.SubName += ".cfi" } if Bool(sanitize.Properties.Sanitize.Hwaddress) { entries.SubName += ".hwasan" } if Bool(sanitize.Properties.Sanitize.Scs) { entries.SubName += ".scs" } } } func (sanitize *sanitize) inSanitizerDir() bool { return sanitize.Properties.InSanitizerDir } // getSanitizerBoolPtr returns the SanitizerTypes associated bool pointer from SanitizeProperties. func (sanitize *sanitize) getSanitizerBoolPtr(t SanitizerType) *bool { switch t { case Asan: return sanitize.Properties.Sanitize.Address case hwasan: return sanitize.Properties.Sanitize.Hwaddress case tsan: return sanitize.Properties.Sanitize.Thread case intOverflow: return sanitize.Properties.Sanitize.Integer_overflow case cfi: return sanitize.Properties.Sanitize.Cfi case scs: return sanitize.Properties.Sanitize.Scs case memtag_heap: return sanitize.Properties.Sanitize.Memtag_heap case Fuzzer: return sanitize.Properties.Sanitize.Fuzzer default: panic(fmt.Errorf("unknown SanitizerType %d", t)) } } // isUnsanitizedVariant returns true if no sanitizers are enabled. func (sanitize *sanitize) isUnsanitizedVariant() bool { return !sanitize.isSanitizerEnabled(Asan) && !sanitize.isSanitizerEnabled(hwasan) && !sanitize.isSanitizerEnabled(tsan) && !sanitize.isSanitizerEnabled(cfi) && !sanitize.isSanitizerEnabled(scs) && !sanitize.isSanitizerEnabled(memtag_heap) && !sanitize.isSanitizerEnabled(Fuzzer) } // isVariantOnProductionDevice returns true if variant is for production devices (no non-production sanitizers enabled). func (sanitize *sanitize) isVariantOnProductionDevice() bool { return !sanitize.isSanitizerEnabled(Asan) && !sanitize.isSanitizerEnabled(hwasan) && !sanitize.isSanitizerEnabled(tsan) && !sanitize.isSanitizerEnabled(Fuzzer) } func (sanitize *sanitize) SetSanitizer(t SanitizerType, b bool) { switch t { case Asan: sanitize.Properties.Sanitize.Address = boolPtr(b) case hwasan: sanitize.Properties.Sanitize.Hwaddress = boolPtr(b) case tsan: sanitize.Properties.Sanitize.Thread = boolPtr(b) case intOverflow: sanitize.Properties.Sanitize.Integer_overflow = boolPtr(b) case cfi: sanitize.Properties.Sanitize.Cfi = boolPtr(b) case scs: sanitize.Properties.Sanitize.Scs = boolPtr(b) case memtag_heap: sanitize.Properties.Sanitize.Memtag_heap = boolPtr(b) case Fuzzer: sanitize.Properties.Sanitize.Fuzzer = boolPtr(b) default: panic(fmt.Errorf("unknown SanitizerType %d", t)) } if b { sanitize.Properties.SanitizerEnabled = true } } // Check if the sanitizer is explicitly disabled (as opposed to nil by // virtue of not being set). func (sanitize *sanitize) isSanitizerExplicitlyDisabled(t SanitizerType) bool { if sanitize == nil { return false } sanitizerVal := sanitize.getSanitizerBoolPtr(t) return sanitizerVal != nil && *sanitizerVal == false } // There isn't an analog of the method above (ie:isSanitizerExplicitlyEnabled) // because enabling a sanitizer either directly (via the blueprint) or // indirectly (via a mutator) sets the bool ptr to true, and you can't // distinguish between the cases. It isn't needed though - both cases can be // treated identically. func (sanitize *sanitize) isSanitizerEnabled(t SanitizerType) bool { if sanitize == nil { return false } sanitizerVal := sanitize.getSanitizerBoolPtr(t) return sanitizerVal != nil && *sanitizerVal == true } // IsSanitizableDependencyTag returns true if the dependency tag is sanitizable. func IsSanitizableDependencyTag(tag blueprint.DependencyTag) bool { switch t := tag.(type) { case dependencyTag: return t == reuseObjTag || t == objDepTag case libraryDependencyTag: return true default: return false } } func (m *Module) SanitizableDepTagChecker() SantizableDependencyTagChecker { return IsSanitizableDependencyTag } // Determines if the current module is a static library going to be captured // as vendor snapshot. Such modules must create both cfi and non-cfi variants, // except for ones which explicitly disable cfi. func needsCfiForVendorSnapshot(mctx android.TopDownMutatorContext) bool { if isVendorProprietaryModule(mctx) { return false } c := mctx.Module().(PlatformSanitizeable) if !c.InVendor() { return false } if !c.StaticallyLinked() { return false } if c.IsPrebuilt() { return false } if !c.SanitizerSupported(cfi) { return false } return c.SanitizePropDefined() && !c.SanitizeNever() && !c.IsSanitizerExplicitlyDisabled(cfi) } // Propagate sanitizer requirements down from binaries func sanitizerDepsMutator(t SanitizerType) func(android.TopDownMutatorContext) { return func(mctx android.TopDownMutatorContext) { if c, ok := mctx.Module().(PlatformSanitizeable); ok { enabled := c.IsSanitizerEnabled(t) if t == cfi && needsCfiForVendorSnapshot(mctx) { // We shouldn't change the result of isSanitizerEnabled(cfi) to correctly // determine defaultVariation in sanitizerMutator below. // Instead, just mark SanitizeDep to forcefully create cfi variant. enabled = true c.SetSanitizeDep(true) } if enabled { isSanitizableDependencyTag := c.SanitizableDepTagChecker() mctx.WalkDeps(func(child, parent android.Module) bool { if !isSanitizableDependencyTag(mctx.OtherModuleDependencyTag(child)) { return false } if d, ok := child.(PlatformSanitizeable); ok && d.SanitizePropDefined() && !d.SanitizeNever() && !d.IsSanitizerExplicitlyDisabled(t) { if t == cfi || t == hwasan || t == scs { if d.StaticallyLinked() && d.SanitizerSupported(t) { // Rust does not support some of these sanitizers, so we need to check if it's // supported before setting this true. d.SetSanitizeDep(true) } } else { d.SetSanitizeDep(true) } } return true }) } } else if sanitizeable, ok := mctx.Module().(Sanitizeable); ok { // If an APEX module includes a lib which is enabled for a sanitizer T, then // the APEX module is also enabled for the same sanitizer type. mctx.VisitDirectDeps(func(child android.Module) { if c, ok := child.(*Module); ok && c.sanitize.isSanitizerEnabled(t) { sanitizeable.EnableSanitizer(t.name()) } }) } } } func (c *Module) SanitizeNever() bool { return Bool(c.sanitize.Properties.Sanitize.Never) } func (c *Module) IsSanitizerExplicitlyDisabled(t SanitizerType) bool { return c.sanitize.isSanitizerExplicitlyDisabled(t) } // Propagate the ubsan minimal runtime dependency when there are integer overflow sanitized static dependencies. func sanitizerRuntimeDepsMutator(mctx android.TopDownMutatorContext) { // Change this to PlatformSanitizable when/if non-cc modules support ubsan sanitizers. if c, ok := mctx.Module().(*Module); ok && c.sanitize != nil { isSanitizableDependencyTag := c.SanitizableDepTagChecker() mctx.WalkDeps(func(child, parent android.Module) bool { if !isSanitizableDependencyTag(mctx.OtherModuleDependencyTag(child)) { return false } d, ok := child.(*Module) if !ok || !d.static() { return false } if d.sanitize != nil { if enableMinimalRuntime(d.sanitize) { // If a static dependency is built with the minimal runtime, // make sure we include the ubsan minimal runtime. c.sanitize.Properties.MinimalRuntimeDep = true } else if enableUbsanRuntime(d.sanitize) { // If a static dependency runs with full ubsan diagnostics, // make sure we include the ubsan runtime. c.sanitize.Properties.UbsanRuntimeDep = true } if c.sanitize.Properties.MinimalRuntimeDep && c.sanitize.Properties.UbsanRuntimeDep { // both flags that this mutator might set are true, so don't bother recursing return false } if c.Os() == android.Linux { c.sanitize.Properties.BuiltinsDep = true } return true } if p, ok := d.linker.(*snapshotLibraryDecorator); ok { if Bool(p.properties.Sanitize_minimal_dep) { c.sanitize.Properties.MinimalRuntimeDep = true } if Bool(p.properties.Sanitize_ubsan_dep) { c.sanitize.Properties.UbsanRuntimeDep = true } } return false }) } } // Add the dependency to the runtime library for each of the sanitizer variants func sanitizerRuntimeMutator(mctx android.BottomUpMutatorContext) { if c, ok := mctx.Module().(*Module); ok && c.sanitize != nil { if !c.Enabled() { return } var sanitizers []string var diagSanitizers []string if Bool(c.sanitize.Properties.Sanitize.All_undefined) { sanitizers = append(sanitizers, "undefined") } else { if Bool(c.sanitize.Properties.Sanitize.Undefined) { sanitizers = append(sanitizers, "bool", "integer-divide-by-zero", "return", "returns-nonnull-attribute", "shift-exponent", "unreachable", "vla-bound", // TODO(danalbert): The following checks currently have compiler performance issues. //"alignment", //"bounds", //"enum", //"float-cast-overflow", //"float-divide-by-zero", //"nonnull-attribute", //"null", //"shift-base", //"signed-integer-overflow", // TODO(danalbert): Fix UB in libc++'s __tree so we can turn this on. // https://llvm.org/PR19302 // http://reviews.llvm.org/D6974 // "object-size", ) } sanitizers = append(sanitizers, c.sanitize.Properties.Sanitize.Misc_undefined...) } if Bool(c.sanitize.Properties.Sanitize.Diag.Undefined) { diagSanitizers = append(diagSanitizers, "undefined") } diagSanitizers = append(diagSanitizers, c.sanitize.Properties.Sanitize.Diag.Misc_undefined...) if Bool(c.sanitize.Properties.Sanitize.Address) { sanitizers = append(sanitizers, "address") diagSanitizers = append(diagSanitizers, "address") } if Bool(c.sanitize.Properties.Sanitize.Hwaddress) { sanitizers = append(sanitizers, "hwaddress") } if Bool(c.sanitize.Properties.Sanitize.Thread) { sanitizers = append(sanitizers, "thread") } if Bool(c.sanitize.Properties.Sanitize.Safestack) { sanitizers = append(sanitizers, "safe-stack") } if Bool(c.sanitize.Properties.Sanitize.Cfi) { sanitizers = append(sanitizers, "cfi") if Bool(c.sanitize.Properties.Sanitize.Diag.Cfi) { diagSanitizers = append(diagSanitizers, "cfi") } } if Bool(c.sanitize.Properties.Sanitize.Integer_overflow) { sanitizers = append(sanitizers, "unsigned-integer-overflow") sanitizers = append(sanitizers, "signed-integer-overflow") if Bool(c.sanitize.Properties.Sanitize.Diag.Integer_overflow) { diagSanitizers = append(diagSanitizers, "unsigned-integer-overflow") diagSanitizers = append(diagSanitizers, "signed-integer-overflow") } } if Bool(c.sanitize.Properties.Sanitize.Scudo) { sanitizers = append(sanitizers, "scudo") } if Bool(c.sanitize.Properties.Sanitize.Scs) { sanitizers = append(sanitizers, "shadow-call-stack") } if Bool(c.sanitize.Properties.Sanitize.Memtag_heap) && c.binary() { noteDep := "note_memtag_heap_async" if Bool(c.sanitize.Properties.Sanitize.Diag.Memtag_heap) { noteDep = "note_memtag_heap_sync" } depTag := libraryDependencyTag{Kind: staticLibraryDependency, wholeStatic: true} variations := append(mctx.Target().Variations(), blueprint.Variation{Mutator: "link", Variation: "static"}) if c.Device() { variations = append(variations, c.ImageVariation()) } mctx.AddFarVariationDependencies(variations, depTag, noteDep) } if Bool(c.sanitize.Properties.Sanitize.Fuzzer) { sanitizers = append(sanitizers, "fuzzer-no-link") } // Save the list of sanitizers. These will be used again when generating // the build rules (for Cflags, etc.) c.sanitize.Properties.Sanitizers = sanitizers c.sanitize.Properties.DiagSanitizers = diagSanitizers // TODO(b/150822854) Hosts have a different default behavior and assume the runtime library is used. if c.Host() { diagSanitizers = sanitizers } // Determine the runtime library required runtimeLibrary := "" var extraStaticDeps []string toolchain := c.toolchain(mctx) if Bool(c.sanitize.Properties.Sanitize.Address) { runtimeLibrary = config.AddressSanitizerRuntimeLibrary(toolchain) } else if Bool(c.sanitize.Properties.Sanitize.Hwaddress) { if c.staticBinary() { runtimeLibrary = config.HWAddressSanitizerStaticLibrary(toolchain) extraStaticDeps = []string{"libdl"} } else { runtimeLibrary = config.HWAddressSanitizerRuntimeLibrary(toolchain) } } else if Bool(c.sanitize.Properties.Sanitize.Thread) { runtimeLibrary = config.ThreadSanitizerRuntimeLibrary(toolchain) } else if Bool(c.sanitize.Properties.Sanitize.Scudo) { if len(diagSanitizers) == 0 && !c.sanitize.Properties.UbsanRuntimeDep { runtimeLibrary = config.ScudoMinimalRuntimeLibrary(toolchain) } else { runtimeLibrary = config.ScudoRuntimeLibrary(toolchain) } } else if len(diagSanitizers) > 0 || c.sanitize.Properties.UbsanRuntimeDep || Bool(c.sanitize.Properties.Sanitize.Fuzzer) || Bool(c.sanitize.Properties.Sanitize.Undefined) || Bool(c.sanitize.Properties.Sanitize.All_undefined) { runtimeLibrary = config.UndefinedBehaviorSanitizerRuntimeLibrary(toolchain) } if runtimeLibrary != "" && (toolchain.Bionic() || c.sanitize.Properties.UbsanRuntimeDep) { // UBSan is supported on non-bionic linux host builds as well // Adding dependency to the runtime library. We are using *FarVariation* // because the runtime libraries themselves are not mutated by sanitizer // mutators and thus don't have sanitizer variants whereas this module // has been already mutated. // // Note that by adding dependency with {static|shared}DepTag, the lib is // added to libFlags and LOCAL_SHARED_LIBRARIES by cc.Module if c.staticBinary() { deps := append(extraStaticDeps, runtimeLibrary) // If we're using snapshots and in vendor, redirect to snapshot whenever possible if c.VndkVersion() == mctx.DeviceConfig().VndkVersion() { snapshots := vendorSnapshotStaticLibs(mctx.Config()) for idx, dep := range deps { if lib, ok := snapshots.get(dep, mctx.Arch().ArchType); ok { deps[idx] = lib } } } // static executable gets static runtime libs depTag := libraryDependencyTag{Kind: staticLibraryDependency} variations := append(mctx.Target().Variations(), blueprint.Variation{Mutator: "link", Variation: "static"}) if c.Device() { variations = append(variations, c.ImageVariation()) } mctx.AddFarVariationDependencies(variations, depTag, deps...) } else if !c.static() && !c.Header() { // If we're using snapshots and in vendor, redirect to snapshot whenever possible if c.VndkVersion() == mctx.DeviceConfig().VndkVersion() { snapshots := vendorSnapshotSharedLibs(mctx.Config()) if lib, ok := snapshots.get(runtimeLibrary, mctx.Arch().ArchType); ok { runtimeLibrary = lib } } // Skip apex dependency check for sharedLibraryDependency // when sanitizer diags are enabled. Skipping the check will allow // building with diag libraries without having to list the // dependency in Apex's allowed_deps file. diagEnabled := len(diagSanitizers) > 0 // dynamic executable and shared libs get shared runtime libs depTag := libraryDependencyTag{ Kind: sharedLibraryDependency, Order: earlyLibraryDependency, skipApexAllowedDependenciesCheck: diagEnabled, } variations := append(mctx.Target().Variations(), blueprint.Variation{Mutator: "link", Variation: "shared"}) if c.Device() { variations = append(variations, c.ImageVariation()) } c.addSharedLibDependenciesWithVersions(mctx, variations, depTag, runtimeLibrary, "", true) } // static lib does not have dependency to the runtime library. The // dependency will be added to the executables or shared libs using // the static lib. } } } type Sanitizeable interface { android.Module IsSanitizerEnabled(ctx android.BaseModuleContext, sanitizerName string) bool EnableSanitizer(sanitizerName string) AddSanitizerDependencies(ctx android.BottomUpMutatorContext, sanitizerName string) } func (c *Module) SanitizePropDefined() bool { return c.sanitize != nil } func (c *Module) IsSanitizerEnabled(t SanitizerType) bool { return c.sanitize.isSanitizerEnabled(t) } func (c *Module) SanitizeDep() bool { return c.sanitize.Properties.SanitizeDep } func (c *Module) StaticallyLinked() bool { return c.static() } func (c *Module) SetInSanitizerDir() { if c.sanitize != nil { c.sanitize.Properties.InSanitizerDir = true } } func (c *Module) SetSanitizer(t SanitizerType, b bool) { if c.sanitize != nil { c.sanitize.SetSanitizer(t, b) } } func (c *Module) SetSanitizeDep(b bool) { if c.sanitize != nil { c.sanitize.Properties.SanitizeDep = b } } var _ PlatformSanitizeable = (*Module)(nil) // Create sanitized variants for modules that need them func sanitizerMutator(t SanitizerType) func(android.BottomUpMutatorContext) { return func(mctx android.BottomUpMutatorContext) { if c, ok := mctx.Module().(PlatformSanitizeable); ok && c.SanitizePropDefined() { if c.IsDependencyRoot() && c.IsSanitizerEnabled(t) { modules := mctx.CreateVariations(t.variationName()) modules[0].(PlatformSanitizeable).SetSanitizer(t, true) } else if c.IsSanitizerEnabled(t) || c.SanitizeDep() { isSanitizerEnabled := c.IsSanitizerEnabled(t) if c.StaticallyLinked() || c.Header() || t == Asan || t == Fuzzer { // Static and header libs are split into non-sanitized and sanitized variants. // Shared libs are not split. However, for asan and fuzzer, we split even for shared // libs because a library sanitized for asan/fuzzer can't be linked from a library // that isn't sanitized for asan/fuzzer. // // Note for defaultVariation: since we don't split for shared libs but for static/header // libs, it is possible for the sanitized variant of a static/header lib to depend // on non-sanitized variant of a shared lib. Such unfulfilled variation causes an // error when the module is split. defaultVariation is the name of the variation that // will be used when such a dangling dependency occurs during the split of the current // module. By setting it to the name of the sanitized variation, the dangling dependency // is redirected to the sanitized variant of the dependent module. defaultVariation := t.variationName() // Not all PlatformSanitizeable modules support the CFI sanitizer cfiSupported := mctx.Module().(PlatformSanitizeable).SanitizerSupported(cfi) mctx.SetDefaultDependencyVariation(&defaultVariation) modules := mctx.CreateVariations("", t.variationName()) modules[0].(PlatformSanitizeable).SetSanitizer(t, false) modules[1].(PlatformSanitizeable).SetSanitizer(t, true) modules[0].(PlatformSanitizeable).SetSanitizeDep(false) modules[1].(PlatformSanitizeable).SetSanitizeDep(false) if mctx.Device() && t.incompatibleWithCfi() && cfiSupported { // TODO: Make sure that cfi mutator runs "after" any of the sanitizers that // are incompatible with cfi modules[1].(PlatformSanitizeable).SetSanitizer(cfi, false) } // For cfi/scs/hwasan, we can export both sanitized and un-sanitized variants // to Make, because the sanitized version has a different suffix in name. // For other types of sanitizers, suppress the variation that is disabled. if t != cfi && t != scs && t != hwasan { if isSanitizerEnabled { modules[0].(PlatformSanitizeable).SetPreventInstall() modules[0].(PlatformSanitizeable).SetHideFromMake() } else { modules[1].(PlatformSanitizeable).SetPreventInstall() modules[1].(PlatformSanitizeable).SetHideFromMake() } } // Export the static lib name to make if c.StaticallyLinked() && c.ExportedToMake() { if t == cfi { cfiStaticLibs(mctx.Config()).add(c, c.Module().Name()) } else if t == hwasan { hwasanStaticLibs(mctx.Config()).add(c, c.Module().Name()) } } } else { // Shared libs are not split. Only the sanitized variant is created. modules := mctx.CreateVariations(t.variationName()) modules[0].(PlatformSanitizeable).SetSanitizer(t, true) modules[0].(PlatformSanitizeable).SetSanitizeDep(false) // locate the asan libraries under /data/asan if mctx.Device() && t == Asan && isSanitizerEnabled { modules[0].(PlatformSanitizeable).SetInSanitizerDir() } if mctx.Device() && t.incompatibleWithCfi() { // TODO: Make sure that cfi mutator runs "after" any of the sanitizers that // are incompatible with cfi modules[0].(PlatformSanitizeable).SetSanitizer(cfi, false) } } } c.SetSanitizeDep(false) } else if sanitizeable, ok := mctx.Module().(Sanitizeable); ok && sanitizeable.IsSanitizerEnabled(mctx, t.name()) { // APEX modules fall here sanitizeable.AddSanitizerDependencies(mctx, t.name()) mctx.CreateVariations(t.variationName()) } else if c, ok := mctx.Module().(*Module); ok { //TODO: When Rust modules have vendor support, enable this path for PlatformSanitizeable // Check if it's a snapshot module supporting sanitizer if s, ok := c.linker.(snapshotSanitizer); ok && s.isSanitizerEnabled(t) { // Set default variation as above. defaultVariation := t.variationName() mctx.SetDefaultDependencyVariation(&defaultVariation) modules := mctx.CreateVariations("", t.variationName()) modules[0].(*Module).linker.(snapshotSanitizer).setSanitizerVariation(t, false) modules[1].(*Module).linker.(snapshotSanitizer).setSanitizerVariation(t, true) // Export the static lib name to make if c.static() && c.ExportedToMake() { if t == cfi { // use BaseModuleName which is the name for Make. cfiStaticLibs(mctx.Config()).add(c, c.BaseModuleName()) } } } } } } type sanitizerStaticLibsMap struct { // libsMap contains one list of modules per each image and each arch. // e.g. libs[vendor]["arm"] contains arm modules installed to vendor libsMap map[ImageVariantType]map[string][]string libsMapLock sync.Mutex sanitizerType SanitizerType } func newSanitizerStaticLibsMap(t SanitizerType) *sanitizerStaticLibsMap { return &sanitizerStaticLibsMap{ sanitizerType: t, libsMap: make(map[ImageVariantType]map[string][]string), } } // Add the current module to sanitizer static libs maps // Each module should pass its exported name as names of Make and Soong can differ. func (s *sanitizerStaticLibsMap) add(c LinkableInterface, name string) { image := GetImageVariantType(c) arch := c.Module().Target().Arch.ArchType.String() s.libsMapLock.Lock() defer s.libsMapLock.Unlock() if _, ok := s.libsMap[image]; !ok { s.libsMap[image] = make(map[string][]string) } s.libsMap[image][arch] = append(s.libsMap[image][arch], name) } // Exports makefile variables in the following format: // SOONG_{sanitizer}_{image}_{arch}_STATIC_LIBRARIES // e.g. SOONG_cfi_core_x86_STATIC_LIBRARIES // These are to be used by use_soong_sanitized_static_libraries. // See build/make/core/binary.mk for more details. func (s *sanitizerStaticLibsMap) exportToMake(ctx android.MakeVarsContext) { for _, image := range android.SortedStringKeys(s.libsMap) { archMap := s.libsMap[ImageVariantType(image)] for _, arch := range android.SortedStringKeys(archMap) { libs := archMap[arch] sort.Strings(libs) key := fmt.Sprintf( "SOONG_%s_%s_%s_STATIC_LIBRARIES", s.sanitizerType.variationName(), image, // already upper arch) ctx.Strict(key, strings.Join(libs, " ")) } } } var cfiStaticLibsKey = android.NewOnceKey("cfiStaticLibs") func cfiStaticLibs(config android.Config) *sanitizerStaticLibsMap { return config.Once(cfiStaticLibsKey, func() interface{} { return newSanitizerStaticLibsMap(cfi) }).(*sanitizerStaticLibsMap) } var hwasanStaticLibsKey = android.NewOnceKey("hwasanStaticLibs") func hwasanStaticLibs(config android.Config) *sanitizerStaticLibsMap { return config.Once(hwasanStaticLibsKey, func() interface{} { return newSanitizerStaticLibsMap(hwasan) }).(*sanitizerStaticLibsMap) } func enableMinimalRuntime(sanitize *sanitize) bool { if !Bool(sanitize.Properties.Sanitize.Address) && !Bool(sanitize.Properties.Sanitize.Hwaddress) && !Bool(sanitize.Properties.Sanitize.Fuzzer) && (Bool(sanitize.Properties.Sanitize.Integer_overflow) || len(sanitize.Properties.Sanitize.Misc_undefined) > 0 || Bool(sanitize.Properties.Sanitize.Undefined) || Bool(sanitize.Properties.Sanitize.All_undefined)) && !(Bool(sanitize.Properties.Sanitize.Diag.Integer_overflow) || Bool(sanitize.Properties.Sanitize.Diag.Cfi) || Bool(sanitize.Properties.Sanitize.Diag.Undefined) || len(sanitize.Properties.Sanitize.Diag.Misc_undefined) > 0) { return true } return false } func enableUbsanRuntime(sanitize *sanitize) bool { return Bool(sanitize.Properties.Sanitize.Diag.Integer_overflow) || Bool(sanitize.Properties.Sanitize.Diag.Undefined) || len(sanitize.Properties.Sanitize.Diag.Misc_undefined) > 0 } func cfiMakeVarsProvider(ctx android.MakeVarsContext) { cfiStaticLibs(ctx.Config()).exportToMake(ctx) } func hwasanMakeVarsProvider(ctx android.MakeVarsContext) { hwasanStaticLibs(ctx.Config()).exportToMake(ctx) }