blob: 39aaf33c2b43f3aa92d9a09d4d10b2b758ea3c15 [file] [log] [blame] [edit]
// Copyright 2020 The Android Open Source Project
//
// 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 rust
import (
"fmt"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/cc"
"android/soong/rust/config"
)
// TODO: When Rust has sanitizer-parity with CC, deduplicate this struct
type SanitizeProperties struct {
// enable AddressSanitizer, HWAddressSanitizer, and others.
Sanitize struct {
Address *bool `android:"arch_variant"`
Hwaddress *bool `android:"arch_variant"`
// Memory-tagging, only available on arm64
// if diag.memtag unset or false, enables async memory tagging
Memtag_heap *bool `android:"arch_variant"`
Fuzzer *bool `android:"arch_variant"`
Never *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 {
// Memory-tagging, only available on arm64
// requires sanitizer.memtag: true
// if set, enables sync memory tagging
Memtag_heap *bool `android:"arch_variant"`
}
}
SanitizerEnabled bool `blueprint:"mutated"`
SanitizeDep bool `blueprint:"mutated"`
// Used when we need to place libraries in their own directory, such as ASAN.
InSanitizerDir bool `blueprint:"mutated"`
}
var fuzzerFlags = []string{
"-C passes='sancov-module'",
"--cfg fuzzing",
"-C llvm-args=-sanitizer-coverage-level=3",
"-C llvm-args=-sanitizer-coverage-trace-compares",
"-C llvm-args=-sanitizer-coverage-inline-8bit-counters",
"-C llvm-args=-sanitizer-coverage-trace-geps",
"-C llvm-args=-sanitizer-coverage-prune-blocks=0",
// See https://github.com/rust-fuzz/cargo-fuzz/pull/193
"-C link-dead-code",
// Sancov breaks with lto
// TODO: Remove when https://bugs.llvm.org/show_bug.cgi?id=41734 is resolved and sancov-module works with LTO
"-C lto=no",
}
var asanFlags = []string{
"-Z sanitizer=address",
}
// See cc/sanitize.go's hwasanGlobalOptions for global hwasan options.
var hwasanFlags = []string{
"-Z sanitizer=hwaddress",
"-C target-feature=+tagged-globals",
// Flags from cc/sanitize.go hwasanFlags
"-C llvm-args=--aarch64-enable-global-isel-at-O=-1",
"-C llvm-args=-fast-isel=false",
"-C llvm-args=-instcombine-lower-dbg-declare=0",
// Additional flags for HWASAN-ified Rust/C interop
"-C llvm-args=--hwasan-with-ifunc",
}
func boolPtr(v bool) *bool {
if v {
return &v
} else {
return nil
}
}
func init() {
}
func (sanitize *sanitize) props() []interface{} {
return []interface{}{&sanitize.Properties}
}
func (sanitize *sanitize) begin(ctx BaseModuleContext) {
s := &sanitize.Properties.Sanitize
// Never always wins.
if Bool(s.Never) {
return
}
// rust_test targets default to SYNC MemTag unless explicitly set to ASYNC (via diag: {Memtag_heap}).
if binary, ok := ctx.RustModule().compiler.(binaryInterface); ok && binary.testBinary() {
if s.Memtag_heap == nil {
s.Memtag_heap = proptools.BoolPtr(true)
}
if s.Diag.Memtag_heap == nil {
s.Diag.Memtag_heap = proptools.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 || android.InList(ctx.Arch().ArchType.Name, arches) {
globalSanitizers = ctx.Config().SanitizeDevice()
globalSanitizersDiag = ctx.Config().SanitizeDeviceDiag()
}
}
if len(globalSanitizers) > 0 {
var found bool
// Global Sanitizers
if found, globalSanitizers = android.RemoveFromList("hwaddress", globalSanitizers); found && s.Hwaddress == nil {
// TODO(b/204776996): HWASan for static Rust binaries isn't supported yet.
if !ctx.RustModule().StaticExecutable() {
s.Hwaddress = proptools.BoolPtr(true)
}
}
if found, globalSanitizers = android.RemoveFromList("memtag_heap", globalSanitizers); found && s.Memtag_heap == nil {
if !ctx.Config().MemtagHeapDisabledForPath(ctx.ModuleDir()) {
s.Memtag_heap = proptools.BoolPtr(true)
}
}
if found, globalSanitizers = android.RemoveFromList("address", globalSanitizers); found && s.Address == nil {
s.Address = proptools.BoolPtr(true)
}
if found, globalSanitizers = android.RemoveFromList("fuzzer", globalSanitizers); found && s.Fuzzer == nil {
// TODO(b/204776996): HWASan for static Rust binaries isn't supported yet, and fuzzer enables HWAsan
if !ctx.RustModule().StaticExecutable() {
s.Fuzzer = proptools.BoolPtr(true)
}
}
// Global Diag Sanitizers
if found, globalSanitizersDiag = android.RemoveFromList("memtag_heap", globalSanitizersDiag); found &&
s.Diag.Memtag_heap == nil && Bool(s.Memtag_heap) {
s.Diag.Memtag_heap = proptools.BoolPtr(true)
}
}
// 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 = proptools.BoolPtr(true)
}
if s.Diag.Memtag_heap == nil {
s.Diag.Memtag_heap = proptools.BoolPtr(true)
}
} else if ctx.Config().MemtagHeapAsyncEnabledForPath(ctx.ModuleDir()) {
if s.Memtag_heap == nil {
s.Memtag_heap = proptools.BoolPtr(true)
}
}
}
// TODO:(b/178369775)
// For now sanitizing is only supported on devices
if ctx.Os() == android.Android && Bool(s.Fuzzer) {
sanitize.Properties.SanitizerEnabled = true
}
if ctx.Os() == android.Android && Bool(s.Address) {
sanitize.Properties.SanitizerEnabled = true
}
// HWASan requires AArch64 hardware feature (top-byte-ignore).
if ctx.Arch().ArchType != android.Arm64 {
s.Hwaddress = nil
}
// 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.RustModule().InRamdisk() || ctx.RustModule().InVendorRamdisk() || ctx.RustModule().InRecovery()) && !strings.HasPrefix(ctx.ModuleDir(), "bionic/libc") {
s.Hwaddress = nil
}
if Bool(s.Hwaddress) {
s.Address = nil
}
// Memtag_heap is only implemented on AArch64.
if ctx.Arch().ArchType != android.Arm64 {
s.Memtag_heap = nil
}
if ctx.Os() == android.Android && (Bool(s.Hwaddress) || Bool(s.Address) || Bool(s.Memtag_heap)) {
sanitize.Properties.SanitizerEnabled = true
}
}
type sanitize struct {
Properties SanitizeProperties
}
func (sanitize *sanitize) flags(ctx ModuleContext, flags Flags, deps PathDeps) (Flags, PathDeps) {
if !sanitize.Properties.SanitizerEnabled {
return flags, deps
}
if Bool(sanitize.Properties.Sanitize.Fuzzer) {
flags.RustFlags = append(flags.RustFlags, fuzzerFlags...)
if ctx.Arch().ArchType == android.Arm64 {
flags.RustFlags = append(flags.RustFlags, hwasanFlags...)
} else {
flags.RustFlags = append(flags.RustFlags, asanFlags...)
}
} else if Bool(sanitize.Properties.Sanitize.Hwaddress) {
flags.RustFlags = append(flags.RustFlags, hwasanFlags...)
} else if Bool(sanitize.Properties.Sanitize.Address) {
flags.RustFlags = append(flags.RustFlags, asanFlags...)
}
return flags, deps
}
func (sanitize *sanitize) deps(ctx BaseModuleContext, deps Deps) Deps {
return deps
}
func rustSanitizerRuntimeMutator(mctx android.BottomUpMutatorContext) {
if mod, ok := mctx.Module().(*Module); ok && mod.sanitize != nil {
if !mod.Enabled() {
return
}
if Bool(mod.sanitize.Properties.Sanitize.Memtag_heap) && mod.Binary() {
noteDep := "note_memtag_heap_async"
if Bool(mod.sanitize.Properties.Sanitize.Diag.Memtag_heap) {
noteDep = "note_memtag_heap_sync"
}
// If we're using snapshots, redirect to snapshot whenever possible
// TODO(b/178470649): clean manual snapshot redirections
snapshot := mctx.Provider(cc.SnapshotInfoProvider).(cc.SnapshotInfo)
if lib, ok := snapshot.StaticLibs[noteDep]; ok {
noteDep = lib
}
depTag := cc.StaticDepTag(true)
variations := append(mctx.Target().Variations(),
blueprint.Variation{Mutator: "link", Variation: "static"})
if mod.Device() {
variations = append(variations, mod.ImageVariation())
}
mctx.AddFarVariationDependencies(variations, depTag, noteDep)
}
variations := mctx.Target().Variations()
var depTag blueprint.DependencyTag
var deps []string
if mod.IsSanitizerEnabled(cc.Asan) ||
(mod.IsSanitizerEnabled(cc.Fuzzer) && mctx.Arch().ArchType != android.Arm64) {
variations = append(variations,
blueprint.Variation{Mutator: "link", Variation: "shared"})
depTag = cc.SharedDepTag()
deps = []string{config.LibclangRuntimeLibrary(mod.toolchain(mctx), "asan")}
} else if mod.IsSanitizerEnabled(cc.Hwasan) ||
(mod.IsSanitizerEnabled(cc.Fuzzer) && mctx.Arch().ArchType == android.Arm64) {
// TODO(b/204776996): HWASan for static Rust binaries isn't supported yet.
if binary, ok := mod.compiler.(binaryInterface); ok {
if binary.staticallyLinked() {
mctx.ModuleErrorf("HWASan is not supported for static Rust executables yet.")
}
}
// Always link against the shared library -- static binaries will pull in the static
// library during final link if necessary
variations = append(variations,
blueprint.Variation{Mutator: "link", Variation: "shared"})
depTag = cc.SharedDepTag()
deps = []string{config.LibclangRuntimeLibrary(mod.toolchain(mctx), "hwasan")}
}
if len(deps) > 0 {
mctx.AddFarVariationDependencies(variations, depTag, deps...)
}
}
}
func (sanitize *sanitize) SetSanitizer(t cc.SanitizerType, b bool) {
sanitizerSet := false
switch t {
case cc.Fuzzer:
sanitize.Properties.Sanitize.Fuzzer = boolPtr(b)
sanitizerSet = true
case cc.Asan:
sanitize.Properties.Sanitize.Address = boolPtr(b)
sanitizerSet = true
case cc.Hwasan:
sanitize.Properties.Sanitize.Hwaddress = boolPtr(b)
sanitizerSet = true
case cc.Memtag_heap:
sanitize.Properties.Sanitize.Memtag_heap = boolPtr(b)
sanitizerSet = true
default:
panic(fmt.Errorf("setting unsupported sanitizerType %d", t))
}
if b && sanitizerSet {
sanitize.Properties.SanitizerEnabled = true
}
}
func (m *Module) UbsanRuntimeNeeded() bool {
return false
}
func (m *Module) MinimalRuntimeNeeded() bool {
return false
}
func (m *Module) UbsanRuntimeDep() bool {
return false
}
func (m *Module) MinimalRuntimeDep() bool {
return false
}
// Check if the sanitizer is explicitly disabled (as opposed to nil by
// virtue of not being set).
func (sanitize *sanitize) isSanitizerExplicitlyDisabled(t cc.SanitizerType) bool {
if sanitize == nil {
return false
}
if Bool(sanitize.Properties.Sanitize.Never) {
return true
}
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 cc.SanitizerType) bool {
if sanitize == nil || !sanitize.Properties.SanitizerEnabled {
return false
}
sanitizerVal := sanitize.getSanitizerBoolPtr(t)
return sanitizerVal != nil && *sanitizerVal == true
}
func (sanitize *sanitize) getSanitizerBoolPtr(t cc.SanitizerType) *bool {
switch t {
case cc.Fuzzer:
return sanitize.Properties.Sanitize.Fuzzer
case cc.Asan:
return sanitize.Properties.Sanitize.Address
case cc.Hwasan:
return sanitize.Properties.Sanitize.Hwaddress
case cc.Memtag_heap:
return sanitize.Properties.Sanitize.Memtag_heap
default:
return nil
}
}
func (sanitize *sanitize) AndroidMk(ctx AndroidMkContext, entries *android.AndroidMkEntries) {
// Add a suffix for hwasan rlib libraries to allow surfacing both the sanitized and
// non-sanitized variants to make without a name conflict.
if entries.Class == "RLIB_LIBRARIES" || entries.Class == "STATIC_LIBRARIES" {
if sanitize.isSanitizerEnabled(cc.Hwasan) {
entries.SubName += ".hwasan"
}
}
}
func (mod *Module) SanitizerSupported(t cc.SanitizerType) bool {
if mod.Host() {
return false
}
switch t {
case cc.Fuzzer:
return true
case cc.Asan:
return true
case cc.Hwasan:
// TODO(b/180495975): HWASan for static Rust binaries isn't supported yet.
if mod.StaticExecutable() {
return false
}
return true
case cc.Memtag_heap:
return true
default:
return false
}
}
func (mod *Module) IsSanitizerEnabled(t cc.SanitizerType) bool {
return mod.sanitize.isSanitizerEnabled(t)
}
func (mod *Module) IsSanitizerExplicitlyDisabled(t cc.SanitizerType) bool {
if mod.Host() {
return true
}
// TODO(b/178365482): Rust/CC interop doesn't work just yet; don't sanitize rust_ffi modules until
// linkage issues are resolved.
if lib, ok := mod.compiler.(libraryInterface); ok {
if lib.shared() || lib.static() {
return true
}
}
return mod.sanitize.isSanitizerExplicitlyDisabled(t)
}
func (mod *Module) SanitizeDep() bool {
return mod.sanitize.Properties.SanitizeDep
}
func (mod *Module) SetSanitizer(t cc.SanitizerType, b bool) {
if !Bool(mod.sanitize.Properties.Sanitize.Never) {
mod.sanitize.SetSanitizer(t, b)
}
}
func (mod *Module) SetSanitizeDep(b bool) {
mod.sanitize.Properties.SanitizeDep = b
}
func (mod *Module) StaticallyLinked() bool {
if lib, ok := mod.compiler.(libraryInterface); ok {
return lib.rlib() || lib.static()
} else if binary, ok := mod.compiler.(binaryInterface); ok {
return binary.staticallyLinked()
}
return false
}
func (mod *Module) SetInSanitizerDir() {
mod.sanitize.Properties.InSanitizerDir = true
}
func (mod *Module) SanitizeNever() bool {
return Bool(mod.sanitize.Properties.Sanitize.Never)
}
var _ cc.PlatformSanitizeable = (*Module)(nil)
func IsSanitizableDependencyTag(tag blueprint.DependencyTag) bool {
switch t := tag.(type) {
case dependencyTag:
return t.library
default:
return cc.IsSanitizableDependencyTag(tag)
}
}
func (m *Module) SanitizableDepTagChecker() cc.SantizableDependencyTagChecker {
return IsSanitizableDependencyTag
}