/* * Copyright (C) 2017 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. */ #ifndef ART_COMPILER_LINKER_LINKER_PATCH_H_ #define ART_COMPILER_LINKER_LINKER_PATCH_H_ #include #include #include #include "base/bit_utils.h" #include "dex/method_reference.h" namespace art { class DexFile; namespace linker { class LinkerPatch { public: // Note: We explicitly specify the underlying type of the enum because GCC // would otherwise select a bigger underlying type and then complain that // 'art::LinkerPatch::patch_type_' is too small to hold all // values of 'enum class art::LinkerPatch::Type' // which is ridiculous given we have only a handful of values here. If we // choose to squeeze the Type into fewer than 8 bits, we'll have to declare // patch_type_ as an uintN_t and do explicit static_cast<>s. // // Note: Actual patching is instruction_set-dependent. enum class Type : uint8_t { kIntrinsicReference, // Boot image reference for an intrinsic, see IntrinsicObjects. kDataBimgRelRo, kMethodRelative, kMethodBssEntry, kJniEntrypointRelative, kCallRelative, kTypeRelative, kTypeBssEntry, kPublicTypeBssEntry, kPackageTypeBssEntry, kStringRelative, kStringBssEntry, kCallEntrypoint, kBakerReadBarrierBranch, }; static LinkerPatch IntrinsicReferencePatch(size_t literal_offset, uint32_t pc_insn_offset, uint32_t intrinsic_data) { LinkerPatch patch(literal_offset, Type::kIntrinsicReference, /* target_dex_file= */ nullptr); patch.intrinsic_data_ = intrinsic_data; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch DataBimgRelRoPatch(size_t literal_offset, uint32_t pc_insn_offset, uint32_t boot_image_offset) { LinkerPatch patch(literal_offset, Type::kDataBimgRelRo, /* target_dex_file= */ nullptr); patch.boot_image_offset_ = boot_image_offset; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch RelativeMethodPatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_method_idx) { LinkerPatch patch(literal_offset, Type::kMethodRelative, target_dex_file); patch.method_idx_ = target_method_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch MethodBssEntryPatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_method_idx) { LinkerPatch patch(literal_offset, Type::kMethodBssEntry, target_dex_file); patch.method_idx_ = target_method_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch RelativeJniEntrypointPatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_method_idx) { LinkerPatch patch(literal_offset, Type::kJniEntrypointRelative, target_dex_file); patch.method_idx_ = target_method_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch RelativeCodePatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t target_method_idx) { LinkerPatch patch(literal_offset, Type::kCallRelative, target_dex_file); patch.method_idx_ = target_method_idx; return patch; } static LinkerPatch RelativeTypePatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_type_idx) { LinkerPatch patch(literal_offset, Type::kTypeRelative, target_dex_file); patch.type_idx_ = target_type_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch TypeBssEntryPatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_type_idx) { LinkerPatch patch(literal_offset, Type::kTypeBssEntry, target_dex_file); patch.type_idx_ = target_type_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch PublicTypeBssEntryPatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_type_idx) { LinkerPatch patch(literal_offset, Type::kPublicTypeBssEntry, target_dex_file); patch.type_idx_ = target_type_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch PackageTypeBssEntryPatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_type_idx) { LinkerPatch patch(literal_offset, Type::kPackageTypeBssEntry, target_dex_file); patch.type_idx_ = target_type_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch RelativeStringPatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_string_idx) { LinkerPatch patch(literal_offset, Type::kStringRelative, target_dex_file); patch.string_idx_ = target_string_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch StringBssEntryPatch(size_t literal_offset, const DexFile* target_dex_file, uint32_t pc_insn_offset, uint32_t target_string_idx) { LinkerPatch patch(literal_offset, Type::kStringBssEntry, target_dex_file); patch.string_idx_ = target_string_idx; patch.pc_insn_offset_ = pc_insn_offset; return patch; } static LinkerPatch CallEntrypointPatch(size_t literal_offset, uint32_t entrypoint_offset) { LinkerPatch patch(literal_offset, Type::kCallEntrypoint, /* target_dex_file= */ nullptr); patch.entrypoint_offset_ = entrypoint_offset; return patch; } static LinkerPatch BakerReadBarrierBranchPatch(size_t literal_offset, uint32_t custom_value1 = 0u, uint32_t custom_value2 = 0u) { LinkerPatch patch(literal_offset, Type::kBakerReadBarrierBranch, /* target_dex_file= */ nullptr); patch.baker_custom_value1_ = custom_value1; patch.baker_custom_value2_ = custom_value2; return patch; } LinkerPatch(const LinkerPatch& other) = default; LinkerPatch& operator=(const LinkerPatch& other) = default; size_t LiteralOffset() const { return literal_offset_; } Type GetType() const { return patch_type_; } uint32_t IntrinsicData() const { DCHECK(patch_type_ == Type::kIntrinsicReference); return intrinsic_data_; } uint32_t BootImageOffset() const { DCHECK(patch_type_ == Type::kDataBimgRelRo); return boot_image_offset_; } MethodReference TargetMethod() const { DCHECK(patch_type_ == Type::kMethodRelative || patch_type_ == Type::kMethodBssEntry || patch_type_ == Type::kJniEntrypointRelative || patch_type_ == Type::kCallRelative); return MethodReference(target_dex_file_, method_idx_); } const DexFile* TargetTypeDexFile() const { DCHECK(patch_type_ == Type::kTypeRelative || patch_type_ == Type::kTypeBssEntry || patch_type_ == Type::kPublicTypeBssEntry || patch_type_ == Type::kPackageTypeBssEntry); return target_dex_file_; } dex::TypeIndex TargetTypeIndex() const { DCHECK(patch_type_ == Type::kTypeRelative || patch_type_ == Type::kTypeBssEntry || patch_type_ == Type::kPublicTypeBssEntry || patch_type_ == Type::kPackageTypeBssEntry); return dex::TypeIndex(type_idx_); } const DexFile* TargetStringDexFile() const { DCHECK(patch_type_ == Type::kStringRelative || patch_type_ == Type::kStringBssEntry); return target_dex_file_; } dex::StringIndex TargetStringIndex() const { DCHECK(patch_type_ == Type::kStringRelative || patch_type_ == Type::kStringBssEntry); return dex::StringIndex(string_idx_); } uint32_t PcInsnOffset() const { DCHECK(patch_type_ == Type::kIntrinsicReference || patch_type_ == Type::kDataBimgRelRo || patch_type_ == Type::kMethodRelative || patch_type_ == Type::kMethodBssEntry || patch_type_ == Type::kJniEntrypointRelative || patch_type_ == Type::kTypeRelative || patch_type_ == Type::kTypeBssEntry || patch_type_ == Type::kPublicTypeBssEntry || patch_type_ == Type::kPackageTypeBssEntry || patch_type_ == Type::kStringRelative || patch_type_ == Type::kStringBssEntry); return pc_insn_offset_; } uint32_t EntrypointOffset() const { DCHECK(patch_type_ == Type::kCallEntrypoint); return entrypoint_offset_; } uint32_t GetBakerCustomValue1() const { DCHECK(patch_type_ == Type::kBakerReadBarrierBranch); return baker_custom_value1_; } uint32_t GetBakerCustomValue2() const { DCHECK(patch_type_ == Type::kBakerReadBarrierBranch); return baker_custom_value2_; } private: LinkerPatch(size_t literal_offset, Type patch_type, const DexFile* target_dex_file) : target_dex_file_(target_dex_file), literal_offset_(literal_offset), patch_type_(patch_type) { cmp1_ = 0u; cmp2_ = 0u; // The compiler rejects methods that are too big, so the compiled code // of a single method really shouln't be anywhere close to 16MiB. DCHECK(IsUint<24>(literal_offset)); } const DexFile* target_dex_file_; // TODO: Clean up naming. Some patched locations are literals but others are not. uint32_t literal_offset_ : 24; // Method code size up to 16MiB. Type patch_type_ : 8; union { uint32_t cmp1_; // Used for relational operators. uint32_t boot_image_offset_; // Data to write to the .data.bimg.rel.ro entry. uint32_t method_idx_; // Method index for Call/Method patches. uint32_t type_idx_; // Type index for Type patches. uint32_t string_idx_; // String index for String patches. uint32_t intrinsic_data_; // Data for IntrinsicObjects. uint32_t entrypoint_offset_; // Entrypoint offset in the Thread object. uint32_t baker_custom_value1_; static_assert(sizeof(method_idx_) == sizeof(cmp1_), "needed by relational operators"); static_assert(sizeof(type_idx_) == sizeof(cmp1_), "needed by relational operators"); static_assert(sizeof(string_idx_) == sizeof(cmp1_), "needed by relational operators"); static_assert(sizeof(intrinsic_data_) == sizeof(cmp1_), "needed by relational operators"); static_assert(sizeof(baker_custom_value1_) == sizeof(cmp1_), "needed by relational operators"); }; union { // Note: To avoid uninitialized padding on 64-bit systems, we use `size_t` for `cmp2_`. // This allows a hashing function to treat an array of linker patches as raw memory. size_t cmp2_; // Used for relational operators. // Literal offset of the insn loading PC (same as literal_offset if it's the same insn, // may be different if the PC-relative addressing needs multiple insns). uint32_t pc_insn_offset_; uint32_t baker_custom_value2_; static_assert(sizeof(pc_insn_offset_) <= sizeof(cmp2_), "needed by relational operators"); static_assert(sizeof(baker_custom_value2_) <= sizeof(cmp2_), "needed by relational operators"); }; friend bool operator==(const LinkerPatch& lhs, const LinkerPatch& rhs); friend bool operator<(const LinkerPatch& lhs, const LinkerPatch& rhs); }; std::ostream& operator<<(std::ostream& os, LinkerPatch::Type type); inline bool operator==(const LinkerPatch& lhs, const LinkerPatch& rhs) { return lhs.literal_offset_ == rhs.literal_offset_ && lhs.patch_type_ == rhs.patch_type_ && lhs.target_dex_file_ == rhs.target_dex_file_ && lhs.cmp1_ == rhs.cmp1_ && lhs.cmp2_ == rhs.cmp2_; } inline bool operator<(const LinkerPatch& lhs, const LinkerPatch& rhs) { return (lhs.literal_offset_ != rhs.literal_offset_) ? lhs.literal_offset_ < rhs.literal_offset_ : (lhs.patch_type_ != rhs.patch_type_) ? lhs.patch_type_ < rhs.patch_type_ : (lhs.target_dex_file_ != rhs.target_dex_file_) ? lhs.target_dex_file_ < rhs.target_dex_file_ : (lhs.cmp1_ != rhs.cmp1_) ? lhs.cmp1_ < rhs.cmp1_ : lhs.cmp2_ < rhs.cmp2_; } } // namespace linker } // namespace art #endif // ART_COMPILER_LINKER_LINKER_PATCH_H_