// 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"
"io"
"sort"
"strings"
"sync"
"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"}
asanLdflags = []string{"-Wl,-u,__asan_preinit"}
asanLibs = []string{"libasan"}
cfiCflags = []string{"-flto", "-fsanitize-cfi-cross-dso",
"-fsanitize-blacklist=external/compiler-rt/lib/cfi/cfi_blacklist.txt"}
cfiLdflags = []string{"-flto", "-fsanitize-cfi-cross-dso", "-fsanitize=cfi",
"-Wl,-plugin-opt,O1"}
cfiExportsMapPath = "build/soong/cc/config/cfi_exports.map"
cfiStaticLibsMutex sync.Mutex
intOverflowCflags = []string{"-fsanitize-blacklist=build/soong/cc/config/integer_overflow_blacklist.txt"}
minimalRuntimeFlags = []string{"-fsanitize-minimal-runtime", "-fno-sanitize-trap=integer", "-fno-sanitize-recover=integer"}
)
type sanitizerType int
func boolPtr(v bool) *bool {
if v {
return &v
} else {
return nil
}
}
const (
asan sanitizerType = iota + 1
tsan
intOverflow
cfi
)
func (t sanitizerType) String() string {
switch t {
case asan:
return "asan"
case tsan:
return "tsan"
case intOverflow:
return "intOverflow"
case cfi:
return "cfi"
default:
panic(fmt.Errorf("unknown sanitizerType %d", t))
}
}
type SanitizeProperties struct {
// enable AddressSanitizer, ThreadSanitizer, or UndefinedBehaviorSanitizer
Sanitize struct {
Never *bool `android:"arch_variant"`
// main sanitizers
Address *bool `android:"arch_variant"`
Thread *bool `android:"arch_variant"`
// local sanitizers
Undefined *bool `android:"arch_variant"`
All_undefined *bool `android:"arch_variant"`
Misc_undefined []string `android:"arch_variant"`
Coverage *bool `android:"arch_variant"`
Safestack *bool `android:"arch_variant"`
Cfi *bool `android:"arch_variant"`
Integer_overflow *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"`
Misc_undefined []string `android:"arch_variant"`
}
// value to pass to -fsanitize-recover=
Recover []string
// value to pass to -fsanitize-blacklist
Blacklist *string
} `android:"arch_variant"`
SanitizerEnabled bool `blueprint:"mutated"`
SanitizeDep bool `blueprint:"mutated"`
MinimalRuntimeDep bool `blueprint:"mutated"`
InSanitizerDir bool `blueprint:"mutated"`
}
type sanitize struct {
Properties SanitizeProperties
runtimeLibrary string
androidMkRuntimeLibrary string
}
func init() {
android.RegisterMakeVarsProvider(pctx, cfiMakeVarsProvider)
}
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)
}
// Never always wins.
if Bool(s.Never) {
return
}
var globalSanitizers []string
var globalSanitizersDiag []string
if ctx.clang() {
if ctx.Host() {
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 {
if s.Address == nil {
s.Address = boolPtr(true)
} else if *s.Address == false {
// Coverage w/o address is an error. If globalSanitizers includes both, and the module
// disables address, then disable coverage as well.
_, globalSanitizers = removeFromList("coverage", globalSanitizers)
}
}
if found, globalSanitizers = removeFromList("thread", globalSanitizers); found && s.Thread == nil {
s.Thread = boolPtr(true)
}
if found, globalSanitizers = removeFromList("coverage", globalSanitizers); found && s.Coverage == nil {
s.Coverage = 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)
}
}
if found, globalSanitizers = removeFromList("integer_overflow", globalSanitizers); found && s.Integer_overflow == nil {
if !ctx.Config().IntegerOverflowDisabledForPath(ctx.ModuleDir()) {
s.Integer_overflow = boolPtr(true)
}
}
if len(globalSanitizers) > 0 {
ctx.ModuleErrorf("unknown global sanitizer option %s", globalSanitizers[0])
}
if found, globalSanitizersDiag = removeFromList("integer_overflow", globalSanitizersDiag); found &&
s.Diag.Integer_overflow == nil && Bool(s.Integer_overflow) {
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 len(globalSanitizersDiag) > 0 {
ctx.ModuleErrorf("unknown global sanitizer diagnostics option %s", globalSanitizersDiag[0])
}
}
// 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)
}
}
// CFI needs gold linker, and mips toolchain does not have one.
if !ctx.Config().EnableCFI() || ctx.Arch().ArchType == android.Mips || ctx.Arch().ArchType == android.Mips64 {
s.Cfi = nil
s.Diag.Cfi = nil
}
// Also disable CFI for arm32 until b/35157333 is fixed.
if ctx.Arch().ArchType == android.Arm {
s.Cfi = nil
s.Diag.Cfi = nil
}
// Also disable CFI if ASAN is enabled.
if Bool(s.Address) {
s.Cfi = nil
s.Diag.Cfi = nil
}
// Also disable CFI for host builds.
if ctx.Host() {
s.Cfi = nil
s.Diag.Cfi = nil
}
// Also disable CFI for VNDK variants of components
if ctx.isVndk() && ctx.useVndk() {
s.Cfi = nil
s.Diag.Cfi = nil
}
if ctx.staticBinary() {
s.Address = nil
s.Coverage = 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.Coverage) || Bool(s.Safestack) || Bool(s.Cfi) || Bool(s.Integer_overflow) || len(s.Misc_undefined) > 0) {
sanitize.Properties.SanitizerEnabled = true
}
if Bool(s.Coverage) {
if !Bool(s.Address) {
ctx.ModuleErrorf(`Use of "coverage" also requires "address"`)
}
}
}
func (sanitize *sanitize) deps(ctx BaseModuleContext, deps Deps) Deps {
if !sanitize.Properties.SanitizerEnabled { // || c.static() {
return deps
}
if ctx.Device() {
if Bool(sanitize.Properties.Sanitize.Address) {
deps.StaticLibs = append(deps.StaticLibs, asanLibs...)
}
}
return deps
}
func (sanitize *sanitize) flags(ctx ModuleContext, flags Flags) Flags {
minimalRuntimeLib := config.UndefinedBehaviorSanitizerMinimalRuntimeLibrary(ctx.toolchain()) + ".a"
minimalRuntimePath := "${config.ClangAsanLibDir}/" + minimalRuntimeLib
if ctx.Device() && sanitize.Properties.MinimalRuntimeDep {
flags.LdFlags = append(flags.LdFlags, minimalRuntimePath)
flags.LdFlags = append(flags.LdFlags, "-Wl,--exclude-libs,"+minimalRuntimeLib)
}
if !sanitize.Properties.SanitizerEnabled {
return flags
}
if !ctx.clang() {
ctx.ModuleErrorf("Use of sanitizers requires clang")
}
var sanitizers []string
var diagSanitizers []string
if Bool(sanitize.Properties.Sanitize.All_undefined) {
sanitizers = append(sanitizers, "undefined")
} else {
if Bool(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, sanitize.Properties.Sanitize.Misc_undefined...)
}
if Bool(sanitize.Properties.Sanitize.Diag.Undefined) {
diagSanitizers = append(diagSanitizers, "undefined")
}
diagSanitizers = append(diagSanitizers, sanitize.Properties.Sanitize.Diag.Misc_undefined...)
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.CFlags = append(flags.CFlags, asanCflags...)
flags.LdFlags = append(flags.LdFlags, asanLdflags...)
if ctx.Host() {
// -nodefaultlibs (provided with libc++) prevents the driver from linking
// libraries needed with -fsanitize=address. http://b/18650275 (WAI)
flags.LdFlags = append(flags.LdFlags, "-Wl,--no-as-needed")
} else {
flags.CFlags = append(flags.CFlags, "-mllvm", "-asan-globals=0")
flags.DynamicLinker = "/system/bin/linker_asan"
if flags.Toolchain.Is64Bit() {
flags.DynamicLinker += "64"
}
}
sanitizers = append(sanitizers, "address")
diagSanitizers = append(diagSanitizers, "address")
}
if Bool(sanitize.Properties.Sanitize.Thread) {
sanitizers = append(sanitizers, "thread")
}
if Bool(sanitize.Properties.Sanitize.Coverage) {
flags.CFlags = append(flags.CFlags, "-fsanitize-coverage=trace-pc-guard,indirect-calls,trace-cmp")
}
if Bool(sanitize.Properties.Sanitize.Safestack) {
sanitizers = append(sanitizers, "safe-stack")
}
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"
}
sanitizers = append(sanitizers, "cfi")
flags.CFlags = append(flags.CFlags, cfiCflags...)
// Only append the default visibility flag if -fvisibility has not already been set
// to hidden.
if !inList("-fvisibility=hidden", flags.CFlags) {
flags.CFlags = append(flags.CFlags, "-fvisibility=default")
}
flags.LdFlags = append(flags.LdFlags, cfiLdflags...)
if ctx.Device() {
// Work around a bug in Clang. The CFI sanitizer requires LTO, and when
// LTO is enabled, the Clang driver fails to enable emutls for Android.
// See b/72706604 or https://github.com/android-ndk/ndk/issues/498.
flags.LdFlags = append(flags.LdFlags, "-Wl,-plugin-opt,-emulated-tls")
}
flags.ArGoldPlugin = true
if Bool(sanitize.Properties.Sanitize.Diag.Cfi) {
diagSanitizers = append(diagSanitizers, "cfi")
}
if ctx.staticBinary() {
_, flags.CFlags = removeFromList("-fsanitize-cfi-cross-dso", flags.CFlags)
_, flags.LdFlags = removeFromList("-fsanitize-cfi-cross-dso", flags.LdFlags)
}
}
if Bool(sanitize.Properties.Sanitize.Integer_overflow) {
if !ctx.static() {
sanitizers = append(sanitizers, "unsigned-integer-overflow")
sanitizers = append(sanitizers, "signed-integer-overflow")
flags.CFlags = append(flags.CFlags, intOverflowCflags...)
if Bool(sanitize.Properties.Sanitize.Diag.Integer_overflow) {
diagSanitizers = append(diagSanitizers, "unsigned-integer-overflow")
diagSanitizers = append(diagSanitizers, "signed-integer-overflow")
}
}
}
if len(sanitizers) > 0 {
sanitizeArg := "-fsanitize=" + strings.Join(sanitizers, ",")
flags.CFlags = append(flags.CFlags, sanitizeArg)
if ctx.Host() {
flags.CFlags = append(flags.CFlags, "-fno-sanitize-recover=all")
flags.LdFlags = append(flags.LdFlags, sanitizeArg)
// Host sanitizers only link symbols in the final executable, so
// there will always be undefined symbols in intermediate libraries.
_, flags.LdFlags = removeFromList("-Wl,--no-undefined", flags.LdFlags)
} else {
flags.CFlags = append(flags.CFlags, "-fsanitize-trap=all", "-ftrap-function=abort")
if enableMinimalRuntime(sanitize) {
flags.CFlags = append(flags.CFlags, strings.Join(minimalRuntimeFlags, " "))
flags.libFlags = append([]string{minimalRuntimePath}, flags.libFlags...)
flags.LdFlags = append(flags.LdFlags, "-Wl,--exclude-libs,"+minimalRuntimeLib)
}
}
}
if len(diagSanitizers) > 0 {
flags.CFlags = append(flags.CFlags, "-fno-sanitize-trap="+strings.Join(diagSanitizers, ","))
}
// FIXME: enable RTTI if diag + (cfi or vptr)
if sanitize.Properties.Sanitize.Recover != nil {
flags.CFlags = append(flags.CFlags, "-fsanitize-recover="+
strings.Join(sanitize.Properties.Sanitize.Recover, ","))
}
// Link a runtime library if needed.
runtimeLibrary := ""
if Bool(sanitize.Properties.Sanitize.Address) {
runtimeLibrary = config.AddressSanitizerRuntimeLibrary(ctx.toolchain())
} else if Bool(sanitize.Properties.Sanitize.Thread) {
runtimeLibrary = config.ThreadSanitizerRuntimeLibrary(ctx.toolchain())
} else if len(diagSanitizers) > 0 {
runtimeLibrary = config.UndefinedBehaviorSanitizerRuntimeLibrary(ctx.toolchain())
}
if runtimeLibrary != "" {
// ASan runtime library must be the first in the link order.
flags.libFlags = append([]string{
"${config.ClangAsanLibDir}/" + runtimeLibrary + ctx.toolchain().ShlibSuffix(),
}, flags.libFlags...)
sanitize.runtimeLibrary = runtimeLibrary
// When linking against VNDK, use the vendor variant of the runtime lib
sanitize.androidMkRuntimeLibrary = sanitize.runtimeLibrary
if ctx.useVndk() {
sanitize.androidMkRuntimeLibrary = sanitize.runtimeLibrary + vendorSuffix
}
}
blacklist := android.OptionalPathForModuleSrc(ctx, sanitize.Properties.Sanitize.Blacklist)
if blacklist.Valid() {
flags.CFlags = append(flags.CFlags, "-fsanitize-blacklist="+blacklist.String())
flags.CFlagsDeps = append(flags.CFlagsDeps, blacklist.Path())
}
return flags
}
func (sanitize *sanitize) AndroidMk(ctx AndroidMkContext, ret *android.AndroidMkData) {
ret.Extra = append(ret.Extra, func(w io.Writer, outputFile android.Path) {
if sanitize.androidMkRuntimeLibrary != "" {
fmt.Fprintln(w, "LOCAL_SHARED_LIBRARIES += "+sanitize.androidMkRuntimeLibrary)
}
})
// Add a suffix for CFI-enabled static libraries to allow surfacing both to make without a
// name conflict.
if ret.Class == "STATIC_LIBRARIES" && Bool(sanitize.Properties.Sanitize.Cfi) {
ret.SubName += ".cfi"
}
}
func (sanitize *sanitize) inSanitizerDir() bool {
return sanitize.Properties.InSanitizerDir
}
func (sanitize *sanitize) getSanitizerBoolPtr(t sanitizerType) *bool {
switch t {
case asan:
return sanitize.Properties.Sanitize.Address
case tsan:
return sanitize.Properties.Sanitize.Thread
case intOverflow:
return sanitize.Properties.Sanitize.Integer_overflow
case cfi:
return sanitize.Properties.Sanitize.Cfi
default:
panic(fmt.Errorf("unknown sanitizerType %d", t))
}
}
func (sanitize *sanitize) isUnsanitizedVariant() bool {
return !sanitize.isSanitizerEnabled(asan) &&
!sanitize.isSanitizerEnabled(tsan) &&
!sanitize.isSanitizerEnabled(cfi)
}
func (sanitize *sanitize) isVariantOnProductionDevice() bool {
return !sanitize.isSanitizerEnabled(asan) &&
!sanitize.isSanitizerEnabled(tsan)
}
func (sanitize *sanitize) SetSanitizer(t sanitizerType, b bool) {
switch t {
case asan:
sanitize.Properties.Sanitize.Address = boolPtr(b)
if !b {
sanitize.Properties.Sanitize.Coverage = nil
}
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)
sanitize.Properties.Sanitize.Diag.Cfi = 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
}
// Propagate asan requirements down from binaries
func sanitizerDepsMutator(t sanitizerType) func(android.TopDownMutatorContext) {
return func(mctx android.TopDownMutatorContext) {
if c, ok := mctx.Module().(*Module); ok && c.sanitize.isSanitizerEnabled(t) {
mctx.VisitDepsDepthFirst(func(module android.Module) {
if d, ok := module.(*Module); ok && d.sanitize != nil &&
!Bool(d.sanitize.Properties.Sanitize.Never) &&
!d.sanitize.isSanitizerExplicitlyDisabled(t) {
if (t == cfi && d.static()) || t != cfi {
d.sanitize.Properties.SanitizeDep = true
}
}
})
}
}
}
// Propagate the ubsan minimal runtime dependency when there are integer overflow sanitized static dependencies.
func minimalRuntimeDepsMutator() func(android.TopDownMutatorContext) {
return func(mctx android.TopDownMutatorContext) {
if c, ok := mctx.Module().(*Module); ok && c.sanitize != nil {
mctx.VisitDepsDepthFirst(func(module android.Module) {
if d, ok := module.(*Module); ok && d.static() && d.sanitize != nil {
// If a static dependency will be built with the minimal runtime,
// make sure we include the ubsan minimal runtime.
if enableMinimalRuntime(d.sanitize) {
c.sanitize.Properties.MinimalRuntimeDep = true
}
}
})
}
}
}
// 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().(*Module); ok && c.sanitize != nil {
if c.isDependencyRoot() && c.sanitize.isSanitizerEnabled(t) {
modules := mctx.CreateVariations(t.String())
modules[0].(*Module).sanitize.SetSanitizer(t, true)
} else if c.sanitize.isSanitizerEnabled(t) || c.sanitize.Properties.SanitizeDep {
// Save original sanitizer status before we assign values to variant
// 0 as that overwrites the original.
isSanitizerEnabled := c.sanitize.isSanitizerEnabled(t)
modules := mctx.CreateVariations("", t.String())
modules[0].(*Module).sanitize.SetSanitizer(t, false)
modules[1].(*Module).sanitize.SetSanitizer(t, true)
modules[0].(*Module).sanitize.Properties.SanitizeDep = false
modules[1].(*Module).sanitize.Properties.SanitizeDep = false
// We don't need both variants active for anything but CFI-enabled
// target static libraries, so suppress the appropriate variant in
// all other cases.
if t == cfi {
if c.static() {
if !mctx.Device() {
if isSanitizerEnabled {
modules[0].(*Module).Properties.PreventInstall = true
modules[0].(*Module).Properties.HideFromMake = true
} else {
modules[1].(*Module).Properties.PreventInstall = true
modules[1].(*Module).Properties.HideFromMake = true
}
} else {
cfiStaticLibs := cfiStaticLibs(mctx.Config())
cfiStaticLibsMutex.Lock()
*cfiStaticLibs = append(*cfiStaticLibs, c.Name())
cfiStaticLibsMutex.Unlock()
}
} else {
modules[0].(*Module).Properties.PreventInstall = true
modules[0].(*Module).Properties.HideFromMake = true
}
} else if t == asan {
if mctx.Device() {
// CFI and ASAN are currently mutually exclusive so disable
// CFI if this is an ASAN variant.
modules[1].(*Module).sanitize.Properties.InSanitizerDir = true
modules[1].(*Module).sanitize.SetSanitizer(cfi, false)
}
if isSanitizerEnabled {
modules[0].(*Module).Properties.PreventInstall = true
modules[0].(*Module).Properties.HideFromMake = true
} else {
modules[1].(*Module).Properties.PreventInstall = true
modules[1].(*Module).Properties.HideFromMake = true
}
}
}
c.sanitize.Properties.SanitizeDep = false
}
}
}
func cfiStaticLibs(config android.Config) *[]string {
return config.Once("cfiStaticLibs", func() interface{} {
return &[]string{}
}).(*[]string)
}
func enableMinimalRuntime(sanitize *sanitize) bool {
if !Bool(sanitize.Properties.Sanitize.Address) &&
(Bool(sanitize.Properties.Sanitize.Integer_overflow) ||
len(sanitize.Properties.Sanitize.Misc_undefined) > 0) &&
!(Bool(sanitize.Properties.Sanitize.Diag.Integer_overflow) ||
Bool(sanitize.Properties.Sanitize.Diag.Cfi) ||
len(sanitize.Properties.Sanitize.Diag.Misc_undefined) > 0) {
return true
}
return false
}
func cfiMakeVarsProvider(ctx android.MakeVarsContext) {
cfiStaticLibs := cfiStaticLibs(ctx.Config())
sort.Strings(*cfiStaticLibs)
ctx.Strict("SOONG_CFI_STATIC_LIBRARIES", strings.Join(*cfiStaticLibs, " "))
}