| /* |
| * Copyright (C) 2011 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_RUNTIME_UTILS_H_ |
| #define ART_RUNTIME_UTILS_H_ |
| |
| #include <pthread.h> |
| #include <stdlib.h> |
| |
| #include <limits> |
| #include <memory> |
| #include <random> |
| #include <string> |
| #include <type_traits> |
| #include <vector> |
| |
| #include "arch/instruction_set.h" |
| #include "base/casts.h" |
| #include "base/logging.h" |
| #include "base/mutex.h" |
| #include "base/stringpiece.h" |
| #include "globals.h" |
| #include "primitive.h" |
| |
| class BacktraceMap; |
| |
| namespace art { |
| |
| class ArtField; |
| class ArtMethod; |
| class DexFile; |
| |
| namespace mirror { |
| class Class; |
| class Object; |
| class String; |
| } // namespace mirror |
| |
| template <typename T> |
| bool ParseUint(const char *in, T* out) { |
| char* end; |
| unsigned long long int result = strtoull(in, &end, 0); // NOLINT(runtime/int) |
| if (in == end || *end != '\0') { |
| return false; |
| } |
| if (std::numeric_limits<T>::max() < result) { |
| return false; |
| } |
| *out = static_cast<T>(result); |
| return true; |
| } |
| |
| template <typename T> |
| bool ParseInt(const char* in, T* out) { |
| char* end; |
| long long int result = strtoll(in, &end, 0); // NOLINT(runtime/int) |
| if (in == end || *end != '\0') { |
| return false; |
| } |
| if (result < std::numeric_limits<T>::min() || std::numeric_limits<T>::max() < result) { |
| return false; |
| } |
| *out = static_cast<T>(result); |
| return true; |
| } |
| |
| // Return whether x / divisor == x * (1.0f / divisor), for every float x. |
| static constexpr bool CanDivideByReciprocalMultiplyFloat(int32_t divisor) { |
| // True, if the most significant bits of divisor are 0. |
| return ((divisor & 0x7fffff) == 0); |
| } |
| |
| // Return whether x / divisor == x * (1.0 / divisor), for every double x. |
| static constexpr bool CanDivideByReciprocalMultiplyDouble(int64_t divisor) { |
| // True, if the most significant bits of divisor are 0. |
| return ((divisor & ((UINT64_C(1) << 52) - 1)) == 0); |
| } |
| |
| static inline uint32_t PointerToLowMemUInt32(const void* p) { |
| uintptr_t intp = reinterpret_cast<uintptr_t>(p); |
| DCHECK_LE(intp, 0xFFFFFFFFU); |
| return intp & 0xFFFFFFFFU; |
| } |
| |
| static inline bool NeedsEscaping(uint16_t ch) { |
| return (ch < ' ' || ch > '~'); |
| } |
| |
| std::string PrintableChar(uint16_t ch); |
| |
| // Returns an ASCII string corresponding to the given UTF-8 string. |
| // Java escapes are used for non-ASCII characters. |
| std::string PrintableString(const char* utf8); |
| |
| // Tests whether 's' starts with 'prefix'. |
| bool StartsWith(const std::string& s, const char* prefix); |
| |
| // Tests whether 's' ends with 'suffix'. |
| bool EndsWith(const std::string& s, const char* suffix); |
| |
| // Used to implement PrettyClass, PrettyField, PrettyMethod, and PrettyTypeOf, |
| // one of which is probably more useful to you. |
| // Returns a human-readable equivalent of 'descriptor'. So "I" would be "int", |
| // "[[I" would be "int[][]", "[Ljava/lang/String;" would be |
| // "java.lang.String[]", and so forth. |
| std::string PrettyDescriptor(mirror::String* descriptor) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| std::string PrettyDescriptor(const char* descriptor); |
| std::string PrettyDescriptor(mirror::Class* klass) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| std::string PrettyDescriptor(Primitive::Type type); |
| |
| // Returns a human-readable signature for 'f'. Something like "a.b.C.f" or |
| // "int a.b.C.f" (depending on the value of 'with_type'). |
| std::string PrettyField(ArtField* f, bool with_type = true) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| std::string PrettyField(uint32_t field_idx, const DexFile& dex_file, bool with_type = true); |
| |
| // Returns a human-readable signature for 'm'. Something like "a.b.C.m" or |
| // "a.b.C.m(II)V" (depending on the value of 'with_signature'). |
| std::string PrettyMethod(ArtMethod* m, bool with_signature = true) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| std::string PrettyMethod(uint32_t method_idx, const DexFile& dex_file, bool with_signature = true); |
| |
| // Returns a human-readable form of the name of the *class* of the given object. |
| // So given an instance of java.lang.String, the output would |
| // be "java.lang.String". Given an array of int, the output would be "int[]". |
| // Given String.class, the output would be "java.lang.Class<java.lang.String>". |
| std::string PrettyTypeOf(mirror::Object* obj) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| |
| // Returns a human-readable form of the type at an index in the specified dex file. |
| // Example outputs: char[], java.lang.String. |
| std::string PrettyType(uint32_t type_idx, const DexFile& dex_file); |
| |
| // Returns a human-readable form of the name of the given class. |
| // Given String.class, the output would be "java.lang.Class<java.lang.String>". |
| std::string PrettyClass(mirror::Class* c) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| |
| // Returns a human-readable form of the name of the given class with its class loader. |
| std::string PrettyClassAndClassLoader(mirror::Class* c) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| |
| // Returns a human-readable version of the Java part of the access flags, e.g., "private static " |
| // (note the trailing whitespace). |
| std::string PrettyJavaAccessFlags(uint32_t access_flags); |
| |
| // Returns a human-readable size string such as "1MB". |
| std::string PrettySize(int64_t size_in_bytes); |
| |
| // Performs JNI name mangling as described in section 11.3 "Linking Native Methods" |
| // of the JNI spec. |
| std::string MangleForJni(const std::string& s); |
| |
| // Turn "java.lang.String" into "Ljava/lang/String;". |
| std::string DotToDescriptor(const char* class_name); |
| |
| // Turn "Ljava/lang/String;" into "java.lang.String" using the conventions of |
| // java.lang.Class.getName(). |
| std::string DescriptorToDot(const char* descriptor); |
| |
| // Turn "Ljava/lang/String;" into "java/lang/String" using the opposite conventions of |
| // java.lang.Class.getName(). |
| std::string DescriptorToName(const char* descriptor); |
| |
| // Tests for whether 's' is a valid class name in the three common forms: |
| bool IsValidBinaryClassName(const char* s); // "java.lang.String" |
| bool IsValidJniClassName(const char* s); // "java/lang/String" |
| bool IsValidDescriptor(const char* s); // "Ljava/lang/String;" |
| |
| // Returns whether the given string is a valid field or method name, |
| // additionally allowing names that begin with '<' and end with '>'. |
| bool IsValidMemberName(const char* s); |
| |
| // Returns the JNI native function name for the non-overloaded method 'm'. |
| std::string JniShortName(ArtMethod* m) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| // Returns the JNI native function name for the overloaded method 'm'. |
| std::string JniLongName(ArtMethod* m) |
| SHARED_REQUIRES(Locks::mutator_lock_); |
| |
| bool ReadFileToString(const std::string& file_name, std::string* result); |
| bool PrintFileToLog(const std::string& file_name, LogSeverity level); |
| |
| // Splits a string using the given separator character into a vector of |
| // strings. Empty strings will be omitted. |
| void Split(const std::string& s, char separator, std::vector<std::string>* result); |
| |
| // Trims whitespace off both ends of the given string. |
| std::string Trim(const std::string& s); |
| |
| // Joins a vector of strings into a single string, using the given separator. |
| template <typename StringT> std::string Join(const std::vector<StringT>& strings, char separator); |
| |
| // Returns the calling thread's tid. (The C libraries don't expose this.) |
| pid_t GetTid(); |
| |
| // Returns the given thread's name. |
| std::string GetThreadName(pid_t tid); |
| |
| // Returns details of the given thread's stack. |
| void GetThreadStack(pthread_t thread, void** stack_base, size_t* stack_size, size_t* guard_size); |
| |
| // Reads data from "/proc/self/task/${tid}/stat". |
| void GetTaskStats(pid_t tid, char* state, int* utime, int* stime, int* task_cpu); |
| |
| // Returns the name of the scheduler group for the given thread the current process, or the empty string. |
| std::string GetSchedulerGroupName(pid_t tid); |
| |
| // Sets the name of the current thread. The name may be truncated to an |
| // implementation-defined limit. |
| void SetThreadName(const char* thread_name); |
| |
| // Dumps the native stack for thread 'tid' to 'os'. |
| void DumpNativeStack(std::ostream& os, |
| pid_t tid, |
| BacktraceMap* map = nullptr, |
| const char* prefix = "", |
| ArtMethod* current_method = nullptr, |
| void* ucontext = nullptr) |
| NO_THREAD_SAFETY_ANALYSIS; |
| |
| // Dumps the kernel stack for thread 'tid' to 'os'. Note that this is only available on linux-x86. |
| void DumpKernelStack(std::ostream& os, |
| pid_t tid, |
| const char* prefix = "", |
| bool include_count = true); |
| |
| // Find $ANDROID_ROOT, /system, or abort. |
| const char* GetAndroidRoot(); |
| |
| // Find $ANDROID_DATA, /data, or abort. |
| const char* GetAndroidData(); |
| // Find $ANDROID_DATA, /data, or return null. |
| const char* GetAndroidDataSafe(std::string* error_msg); |
| |
| // Returns the dalvik-cache location, with subdir appended. Returns the empty string if the cache |
| // could not be found (or created). |
| std::string GetDalvikCache(const char* subdir, bool create_if_absent = true); |
| // Returns the dalvik-cache location, or dies trying. subdir will be |
| // appended to the cache location. |
| std::string GetDalvikCacheOrDie(const char* subdir, bool create_if_absent = true); |
| // Return true if we found the dalvik cache and stored it in the dalvik_cache argument. |
| // have_android_data will be set to true if we have an ANDROID_DATA that exists, |
| // dalvik_cache_exists will be true if there is a dalvik-cache directory that is present. |
| // The flag is_global_cache tells whether this cache is /data/dalvik-cache. |
| void GetDalvikCache(const char* subdir, bool create_if_absent, std::string* dalvik_cache, |
| bool* have_android_data, bool* dalvik_cache_exists, bool* is_global_cache); |
| |
| // Returns the absolute dalvik-cache path for a DexFile or OatFile. The path returned will be |
| // rooted at cache_location. |
| bool GetDalvikCacheFilename(const char* file_location, const char* cache_location, |
| std::string* filename, std::string* error_msg); |
| // Returns the absolute dalvik-cache path for a DexFile or OatFile, or |
| // dies trying. The path returned will be rooted at cache_location. |
| std::string GetDalvikCacheFilenameOrDie(const char* file_location, |
| const char* cache_location); |
| |
| // Returns the system location for an image |
| std::string GetSystemImageFilename(const char* location, InstructionSet isa); |
| |
| // Check whether the given magic matches a known file type. |
| bool IsZipMagic(uint32_t magic); |
| bool IsDexMagic(uint32_t magic); |
| bool IsOatMagic(uint32_t magic); |
| |
| // Wrapper on fork/execv to run a command in a subprocess. |
| bool Exec(std::vector<std::string>& arg_vector, std::string* error_msg); |
| |
| class VoidFunctor { |
| public: |
| template <typename A> |
| inline void operator() (A a ATTRIBUTE_UNUSED) const { |
| } |
| |
| template <typename A, typename B> |
| inline void operator() (A a ATTRIBUTE_UNUSED, B b ATTRIBUTE_UNUSED) const { |
| } |
| |
| template <typename A, typename B, typename C> |
| inline void operator() (A a ATTRIBUTE_UNUSED, B b ATTRIBUTE_UNUSED, C c ATTRIBUTE_UNUSED) const { |
| } |
| }; |
| |
| template <typename Vector> |
| void Push32(Vector* buf, int32_t data) { |
| static_assert(std::is_same<typename Vector::value_type, uint8_t>::value, "Invalid value type"); |
| buf->push_back(data & 0xff); |
| buf->push_back((data >> 8) & 0xff); |
| buf->push_back((data >> 16) & 0xff); |
| buf->push_back((data >> 24) & 0xff); |
| } |
| |
| inline bool TestBitmap(size_t idx, const uint8_t* bitmap) { |
| return ((bitmap[idx / kBitsPerByte] >> (idx % kBitsPerByte)) & 0x01) != 0; |
| } |
| |
| static inline constexpr bool ValidPointerSize(size_t pointer_size) { |
| return pointer_size == 4 || pointer_size == 8; |
| } |
| |
| void DumpMethodCFG(ArtMethod* method, std::ostream& os) SHARED_REQUIRES(Locks::mutator_lock_); |
| void DumpMethodCFG(const DexFile* dex_file, uint32_t dex_method_idx, std::ostream& os); |
| |
| static inline const void* EntryPointToCodePointer(const void* entry_point) { |
| uintptr_t code = reinterpret_cast<uintptr_t>(entry_point); |
| // TODO: Make this Thumb2 specific. It is benign on other architectures as code is always at |
| // least 2 byte aligned. |
| code &= ~0x1; |
| return reinterpret_cast<const void*>(code); |
| } |
| |
| using UsageFn = void (*)(const char*, ...); |
| |
| template <typename T> |
| static void ParseUintOption(const StringPiece& option, |
| const std::string& option_name, |
| T* out, |
| UsageFn Usage, |
| bool is_long_option = true) { |
| std::string option_prefix = option_name + (is_long_option ? "=" : ""); |
| DCHECK(option.starts_with(option_prefix)); |
| const char* value_string = option.substr(option_prefix.size()).data(); |
| int64_t parsed_integer_value = 0; |
| if (!ParseInt(value_string, &parsed_integer_value)) { |
| Usage("Failed to parse %s '%s' as an integer", option_name.c_str(), value_string); |
| } |
| if (parsed_integer_value < 0) { |
| Usage("%s passed a negative value %d", option_name.c_str(), parsed_integer_value); |
| } |
| *out = dchecked_integral_cast<T>(parsed_integer_value); |
| } |
| |
| void ParseDouble(const std::string& option, |
| char after_char, |
| double min, |
| double max, |
| double* parsed_value, |
| UsageFn Usage); |
| |
| #if defined(__BIONIC__) |
| struct Arc4RandomGenerator { |
| typedef uint32_t result_type; |
| static constexpr uint32_t min() { return std::numeric_limits<uint32_t>::min(); } |
| static constexpr uint32_t max() { return std::numeric_limits<uint32_t>::max(); } |
| uint32_t operator() () { return arc4random(); } |
| }; |
| using RNG = Arc4RandomGenerator; |
| #else |
| using RNG = std::random_device; |
| #endif |
| |
| template <typename T> |
| T GetRandomNumber(T min, T max) { |
| CHECK_LT(min, max); |
| std::uniform_int_distribution<T> dist(min, max); |
| RNG rng; |
| return dist(rng); |
| } |
| |
| } // namespace art |
| |
| #endif // ART_RUNTIME_UTILS_H_ |