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      1 /*
      2  * Copyright (C) 2011 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 
     17 #ifndef ART_RUNTIME_VERIFIER_METHOD_VERIFIER_H_
     18 #define ART_RUNTIME_VERIFIER_METHOD_VERIFIER_H_
     19 
     20 #include <set>
     21 #include <vector>
     22 
     23 #include "base/casts.h"
     24 #include "base/macros.h"
     25 #include "base/stl_util.h"
     26 #include "class_reference.h"
     27 #include "dex_file.h"
     28 #include "dex_instruction.h"
     29 #include "instruction_flags.h"
     30 #include "method_reference.h"
     31 #include "mirror/object.h"
     32 #include "reg_type.h"
     33 #include "reg_type_cache-inl.h"
     34 #include "register_line.h"
     35 #include "safe_map.h"
     36 #include "UniquePtr.h"
     37 
     38 namespace art {
     39 
     40 struct ReferenceMap2Visitor;
     41 
     42 namespace verifier {
     43 
     44 class MethodVerifier;
     45 class DexPcToReferenceMap;
     46 
     47 /*
     48  * "Direct" and "virtual" methods are stored independently. The type of call used to invoke the
     49  * method determines which list we search, and whether we travel up into superclasses.
     50  *
     51  * (<clinit>, <init>, and methods declared "private" or "static" are stored in the "direct" list.
     52  * All others are stored in the "virtual" list.)
     53  */
     54 enum MethodType {
     55   METHOD_UNKNOWN  = 0,
     56   METHOD_DIRECT,      // <init>, private
     57   METHOD_STATIC,      // static
     58   METHOD_VIRTUAL,     // virtual, super
     59   METHOD_INTERFACE    // interface
     60 };
     61 std::ostream& operator<<(std::ostream& os, const MethodType& rhs);
     62 
     63 /*
     64  * An enumeration of problems that can turn up during verification.
     65  * Both VERIFY_ERROR_BAD_CLASS_SOFT and VERIFY_ERROR_BAD_CLASS_HARD denote failures that cause
     66  * the entire class to be rejected. However, VERIFY_ERROR_BAD_CLASS_SOFT denotes a soft failure
     67  * that can potentially be corrected, and the verifier will try again at runtime.
     68  * VERIFY_ERROR_BAD_CLASS_HARD denotes a hard failure that can't be corrected, and will cause
     69  * the class to remain uncompiled. Other errors denote verification errors that cause bytecode
     70  * to be rewritten to fail at runtime.
     71  */
     72 enum VerifyError {
     73   VERIFY_ERROR_BAD_CLASS_HARD,  // VerifyError; hard error that skips compilation.
     74   VERIFY_ERROR_BAD_CLASS_SOFT,  // VerifyError; soft error that verifies again at runtime.
     75 
     76   VERIFY_ERROR_NO_CLASS,        // NoClassDefFoundError.
     77   VERIFY_ERROR_NO_FIELD,        // NoSuchFieldError.
     78   VERIFY_ERROR_NO_METHOD,       // NoSuchMethodError.
     79   VERIFY_ERROR_ACCESS_CLASS,    // IllegalAccessError.
     80   VERIFY_ERROR_ACCESS_FIELD,    // IllegalAccessError.
     81   VERIFY_ERROR_ACCESS_METHOD,   // IllegalAccessError.
     82   VERIFY_ERROR_CLASS_CHANGE,    // IncompatibleClassChangeError.
     83   VERIFY_ERROR_INSTANTIATION,   // InstantiationError.
     84 };
     85 std::ostream& operator<<(std::ostream& os, const VerifyError& rhs);
     86 
     87 /*
     88  * Identifies the type of reference in the instruction that generated the verify error
     89  * (e.g. VERIFY_ERROR_ACCESS_CLASS could come from a method, field, or class reference).
     90  *
     91  * This must fit in two bits.
     92  */
     93 enum VerifyErrorRefType {
     94   VERIFY_ERROR_REF_CLASS  = 0,
     95   VERIFY_ERROR_REF_FIELD  = 1,
     96   VERIFY_ERROR_REF_METHOD = 2,
     97 };
     98 const int kVerifyErrorRefTypeShift = 6;
     99 
    100 // We don't need to store the register data for many instructions, because we either only need
    101 // it at branch points (for verification) or GC points and branches (for verification +
    102 // type-precise register analysis).
    103 enum RegisterTrackingMode {
    104   kTrackRegsBranches,
    105   kTrackCompilerInterestPoints,
    106   kTrackRegsAll,
    107 };
    108 
    109 // A mapping from a dex pc to the register line statuses as they are immediately prior to the
    110 // execution of that instruction.
    111 class PcToRegisterLineTable {
    112  public:
    113   PcToRegisterLineTable() {}
    114   ~PcToRegisterLineTable() {
    115     STLDeleteValues(&pc_to_register_line_);
    116   }
    117 
    118   // Initialize the RegisterTable. Every instruction address can have a different set of information
    119   // about what's in which register, but for verification purposes we only need to store it at
    120   // branch target addresses (because we merge into that).
    121   void Init(RegisterTrackingMode mode, InstructionFlags* flags, uint32_t insns_size,
    122             uint16_t registers_size, MethodVerifier* verifier);
    123 
    124   RegisterLine* GetLine(size_t idx) {
    125     auto result = pc_to_register_line_.find(idx);
    126     if (result == pc_to_register_line_.end()) {
    127       return NULL;
    128     } else {
    129       return result->second;
    130     }
    131   }
    132 
    133  private:
    134   typedef SafeMap<int32_t, RegisterLine*> Table;
    135   Table pc_to_register_line_;
    136 };
    137 
    138 // The verifier
    139 class MethodVerifier {
    140  public:
    141   enum FailureKind {
    142     kNoFailure,
    143     kSoftFailure,
    144     kHardFailure,
    145   };
    146 
    147   /* Verify a class. Returns "kNoFailure" on success. */
    148   static FailureKind VerifyClass(const mirror::Class* klass, bool allow_soft_failures,
    149                                  std::string* error)
    150       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    151   static FailureKind VerifyClass(const DexFile* dex_file, mirror::DexCache* dex_cache,
    152                                  mirror::ClassLoader* class_loader,
    153                                  const DexFile::ClassDef* class_def,
    154                                  bool allow_soft_failures, std::string* error)
    155       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    156 
    157   static void VerifyMethodAndDump(std::ostream& os, uint32_t method_idx, const DexFile* dex_file,
    158                                   mirror::DexCache* dex_cache, mirror::ClassLoader* class_loader,
    159                                   const DexFile::ClassDef* class_def,
    160                                   const DexFile::CodeItem* code_item,
    161                                   mirror::ArtMethod* method, uint32_t method_access_flags)
    162       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    163 
    164   uint8_t EncodePcToReferenceMapData() const;
    165 
    166   uint32_t DexFileVersion() const {
    167     return dex_file_->GetVersion();
    168   }
    169 
    170   RegTypeCache* GetRegTypeCache() {
    171     return &reg_types_;
    172   }
    173 
    174   // Log a verification failure.
    175   std::ostream& Fail(VerifyError error);
    176 
    177   // Log for verification information.
    178   std::ostream& LogVerifyInfo() {
    179     return info_messages_ << "VFY: " << PrettyMethod(dex_method_idx_, *dex_file_)
    180                           << '[' << reinterpret_cast<void*>(work_insn_idx_) << "] : ";
    181   }
    182 
    183   // Dump the failures encountered by the verifier.
    184   std::ostream& DumpFailures(std::ostream& os);
    185 
    186   // Dump the state of the verifier, namely each instruction, what flags are set on it, register
    187   // information
    188   void Dump(std::ostream& os) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    189 
    190   static const std::vector<uint8_t>* GetDexGcMap(MethodReference ref)
    191       LOCKS_EXCLUDED(dex_gc_maps_lock_);
    192 
    193   static const MethodReference* GetDevirtMap(const MethodReference& ref, uint32_t dex_pc)
    194       LOCKS_EXCLUDED(devirt_maps_lock_);
    195 
    196   // Returns true if the cast can statically be verified to be redundant
    197   // by using the check-cast elision peephole optimization in the verifier
    198   static bool IsSafeCast(MethodReference ref, uint32_t pc) LOCKS_EXCLUDED(safecast_map_lock_);
    199 
    200   // Fills 'monitor_enter_dex_pcs' with the dex pcs of the monitor-enter instructions corresponding
    201   // to the locks held at 'dex_pc' in method 'm'.
    202   static void FindLocksAtDexPc(mirror::ArtMethod* m, uint32_t dex_pc,
    203                                std::vector<uint32_t>& monitor_enter_dex_pcs)
    204       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    205 
    206   // Returns the accessed field corresponding to the quick instruction's field
    207   // offset at 'dex_pc' in method 'm'.
    208   static mirror::ArtField* FindAccessedFieldAtDexPc(mirror::ArtMethod* m, uint32_t dex_pc)
    209       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    210 
    211   // Returns the invoked method corresponding to the quick instruction's vtable
    212   // index at 'dex_pc' in method 'm'.
    213   static mirror::ArtMethod* FindInvokedMethodAtDexPc(mirror::ArtMethod* m, uint32_t dex_pc)
    214       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    215 
    216   static void Init() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    217   static void Shutdown();
    218 
    219   static bool IsClassRejected(ClassReference ref)
    220       LOCKS_EXCLUDED(rejected_classes_lock_);
    221 
    222   bool CanLoadClasses() const {
    223     return can_load_classes_;
    224   }
    225 
    226   MethodVerifier(const DexFile* dex_file, mirror::DexCache* dex_cache,
    227                  mirror::ClassLoader* class_loader, const DexFile::ClassDef* class_def,
    228                  const DexFile::CodeItem* code_item,
    229                  uint32_t method_idx, mirror::ArtMethod* method,
    230                  uint32_t access_flags, bool can_load_classes, bool allow_soft_failures)
    231           SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    232 
    233   ~MethodVerifier() {
    234     STLDeleteElements(&failure_messages_);
    235   }
    236 
    237   // Run verification on the method. Returns true if verification completes and false if the input
    238   // has an irrecoverable corruption.
    239   bool Verify() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    240 
    241   // Describe VRegs at the given dex pc.
    242   std::vector<int32_t> DescribeVRegs(uint32_t dex_pc);
    243 
    244   static bool IsCandidateForCompilation(MethodReference& method_ref,
    245                                         const uint32_t access_flags);
    246 
    247  private:
    248   // Adds the given string to the beginning of the last failure message.
    249   void PrependToLastFailMessage(std::string);
    250 
    251   // Adds the given string to the end of the last failure message.
    252   void AppendToLastFailMessage(std::string);
    253 
    254   /*
    255    * Perform verification on a single method.
    256    *
    257    * We do this in three passes:
    258    *  (1) Walk through all code units, determining instruction locations,
    259    *      widths, and other characteristics.
    260    *  (2) Walk through all code units, performing static checks on
    261    *      operands.
    262    *  (3) Iterate through the method, checking type safety and looking
    263    *      for code flow problems.
    264    */
    265   static FailureKind VerifyMethod(uint32_t method_idx, const DexFile* dex_file,
    266                                   mirror::DexCache* dex_cache,
    267                                   mirror::ClassLoader* class_loader,
    268                                   const DexFile::ClassDef* class_def_idx,
    269                                   const DexFile::CodeItem* code_item,
    270                                   mirror::ArtMethod* method, uint32_t method_access_flags,
    271                                   bool allow_soft_failures)
    272           SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    273 
    274   void FindLocksAtDexPc() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    275 
    276   mirror::ArtField* FindAccessedFieldAtDexPc(uint32_t dex_pc)
    277       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    278 
    279   mirror::ArtMethod* FindInvokedMethodAtDexPc(uint32_t dex_pc)
    280       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    281 
    282   /*
    283    * Compute the width of the instruction at each address in the instruction stream, and store it in
    284    * insn_flags_. Addresses that are in the middle of an instruction, or that are part of switch
    285    * table data, are not touched (so the caller should probably initialize "insn_flags" to zero).
    286    *
    287    * The "new_instance_count_" and "monitor_enter_count_" fields in vdata are also set.
    288    *
    289    * Performs some static checks, notably:
    290    * - opcode of first instruction begins at index 0
    291    * - only documented instructions may appear
    292    * - each instruction follows the last
    293    * - last byte of last instruction is at (code_length-1)
    294    *
    295    * Logs an error and returns "false" on failure.
    296    */
    297   bool ComputeWidthsAndCountOps();
    298 
    299   /*
    300    * Set the "in try" flags for all instructions protected by "try" statements. Also sets the
    301    * "branch target" flags for exception handlers.
    302    *
    303    * Call this after widths have been set in "insn_flags".
    304    *
    305    * Returns "false" if something in the exception table looks fishy, but we're expecting the
    306    * exception table to be somewhat sane.
    307    */
    308   bool ScanTryCatchBlocks() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    309 
    310   /*
    311    * Perform static verification on all instructions in a method.
    312    *
    313    * Walks through instructions in a method calling VerifyInstruction on each.
    314    */
    315   bool VerifyInstructions();
    316 
    317   /*
    318    * Perform static verification on an instruction.
    319    *
    320    * As a side effect, this sets the "branch target" flags in InsnFlags.
    321    *
    322    * "(CF)" items are handled during code-flow analysis.
    323    *
    324    * v3 4.10.1
    325    * - target of each jump and branch instruction must be valid
    326    * - targets of switch statements must be valid
    327    * - operands referencing constant pool entries must be valid
    328    * - (CF) operands of getfield, putfield, getstatic, putstatic must be valid
    329    * - (CF) operands of method invocation instructions must be valid
    330    * - (CF) only invoke-direct can call a method starting with '<'
    331    * - (CF) <clinit> must never be called explicitly
    332    * - operands of instanceof, checkcast, new (and variants) must be valid
    333    * - new-array[-type] limited to 255 dimensions
    334    * - can't use "new" on an array class
    335    * - (?) limit dimensions in multi-array creation
    336    * - local variable load/store register values must be in valid range
    337    *
    338    * v3 4.11.1.2
    339    * - branches must be within the bounds of the code array
    340    * - targets of all control-flow instructions are the start of an instruction
    341    * - register accesses fall within range of allocated registers
    342    * - (N/A) access to constant pool must be of appropriate type
    343    * - code does not end in the middle of an instruction
    344    * - execution cannot fall off the end of the code
    345    * - (earlier) for each exception handler, the "try" area must begin and
    346    *   end at the start of an instruction (end can be at the end of the code)
    347    * - (earlier) for each exception handler, the handler must start at a valid
    348    *   instruction
    349    */
    350   bool VerifyInstruction(const Instruction* inst, uint32_t code_offset);
    351 
    352   /* Ensure that the register index is valid for this code item. */
    353   bool CheckRegisterIndex(uint32_t idx);
    354 
    355   /* Ensure that the wide register index is valid for this code item. */
    356   bool CheckWideRegisterIndex(uint32_t idx);
    357 
    358   // Perform static checks on a field get or set instruction. All we do here is ensure that the
    359   // field index is in the valid range.
    360   bool CheckFieldIndex(uint32_t idx);
    361 
    362   // Perform static checks on a method invocation instruction. All we do here is ensure that the
    363   // method index is in the valid range.
    364   bool CheckMethodIndex(uint32_t idx);
    365 
    366   // Perform static checks on a "new-instance" instruction. Specifically, make sure the class
    367   // reference isn't for an array class.
    368   bool CheckNewInstance(uint32_t idx);
    369 
    370   /* Ensure that the string index is in the valid range. */
    371   bool CheckStringIndex(uint32_t idx);
    372 
    373   // Perform static checks on an instruction that takes a class constant. Ensure that the class
    374   // index is in the valid range.
    375   bool CheckTypeIndex(uint32_t idx);
    376 
    377   // Perform static checks on a "new-array" instruction. Specifically, make sure they aren't
    378   // creating an array of arrays that causes the number of dimensions to exceed 255.
    379   bool CheckNewArray(uint32_t idx);
    380 
    381   // Verify an array data table. "cur_offset" is the offset of the fill-array-data instruction.
    382   bool CheckArrayData(uint32_t cur_offset);
    383 
    384   // Verify that the target of a branch instruction is valid. We don't expect code to jump directly
    385   // into an exception handler, but it's valid to do so as long as the target isn't a
    386   // "move-exception" instruction. We verify that in a later stage.
    387   // The dex format forbids certain instructions from branching to themselves.
    388   // Updates "insn_flags_", setting the "branch target" flag.
    389   bool CheckBranchTarget(uint32_t cur_offset);
    390 
    391   // Verify a switch table. "cur_offset" is the offset of the switch instruction.
    392   // Updates "insn_flags_", setting the "branch target" flag.
    393   bool CheckSwitchTargets(uint32_t cur_offset);
    394 
    395   // Check the register indices used in a "vararg" instruction, such as invoke-virtual or
    396   // filled-new-array.
    397   // - vA holds word count (0-5), args[] have values.
    398   // There are some tests we don't do here, e.g. we don't try to verify that invoking a method that
    399   // takes a double is done with consecutive registers. This requires parsing the target method
    400   // signature, which we will be doing later on during the code flow analysis.
    401   bool CheckVarArgRegs(uint32_t vA, uint32_t arg[]);
    402 
    403   // Check the register indices used in a "vararg/range" instruction, such as invoke-virtual/range
    404   // or filled-new-array/range.
    405   // - vA holds word count, vC holds index of first reg.
    406   bool CheckVarArgRangeRegs(uint32_t vA, uint32_t vC);
    407 
    408   // Extract the relative offset from a branch instruction.
    409   // Returns "false" on failure (e.g. this isn't a branch instruction).
    410   bool GetBranchOffset(uint32_t cur_offset, int32_t* pOffset, bool* pConditional,
    411                        bool* selfOkay);
    412 
    413   /* Perform detailed code-flow analysis on a single method. */
    414   bool VerifyCodeFlow() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    415 
    416   // Set the register types for the first instruction in the method based on the method signature.
    417   // This has the side-effect of validating the signature.
    418   bool SetTypesFromSignature() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    419 
    420   /*
    421    * Perform code flow on a method.
    422    *
    423    * The basic strategy is as outlined in v3 4.11.1.2: set the "changed" bit on the first
    424    * instruction, process it (setting additional "changed" bits), and repeat until there are no
    425    * more.
    426    *
    427    * v3 4.11.1.1
    428    * - (N/A) operand stack is always the same size
    429    * - operand stack [registers] contain the correct types of values
    430    * - local variables [registers] contain the correct types of values
    431    * - methods are invoked with the appropriate arguments
    432    * - fields are assigned using values of appropriate types
    433    * - opcodes have the correct type values in operand registers
    434    * - there is never an uninitialized class instance in a local variable in code protected by an
    435    *   exception handler (operand stack is okay, because the operand stack is discarded when an
    436    *   exception is thrown) [can't know what's a local var w/o the debug info -- should fall out of
    437    *   register typing]
    438    *
    439    * v3 4.11.1.2
    440    * - execution cannot fall off the end of the code
    441    *
    442    * (We also do many of the items described in the "static checks" sections, because it's easier to
    443    * do them here.)
    444    *
    445    * We need an array of RegType values, one per register, for every instruction. If the method uses
    446    * monitor-enter, we need extra data for every register, and a stack for every "interesting"
    447    * instruction. In theory this could become quite large -- up to several megabytes for a monster
    448    * function.
    449    *
    450    * NOTE:
    451    * The spec forbids backward branches when there's an uninitialized reference in a register. The
    452    * idea is to prevent something like this:
    453    *   loop:
    454    *     move r1, r0
    455    *     new-instance r0, MyClass
    456    *     ...
    457    *     if-eq rN, loop  // once
    458    *   initialize r0
    459    *
    460    * This leaves us with two different instances, both allocated by the same instruction, but only
    461    * one is initialized. The scheme outlined in v3 4.11.1.4 wouldn't catch this, so they work around
    462    * it by preventing backward branches. We achieve identical results without restricting code
    463    * reordering by specifying that you can't execute the new-instance instruction if a register
    464    * contains an uninitialized instance created by that same instruction.
    465    */
    466   bool CodeFlowVerifyMethod() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    467 
    468   /*
    469    * Perform verification for a single instruction.
    470    *
    471    * This requires fully decoding the instruction to determine the effect it has on registers.
    472    *
    473    * Finds zero or more following instructions and sets the "changed" flag if execution at that
    474    * point needs to be (re-)evaluated. Register changes are merged into "reg_types_" at the target
    475    * addresses. Does not set or clear any other flags in "insn_flags_".
    476    */
    477   bool CodeFlowVerifyInstruction(uint32_t* start_guess)
    478       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    479 
    480   // Perform verification of a new array instruction
    481   void VerifyNewArray(const Instruction* inst, bool is_filled, bool is_range)
    482       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    483 
    484   // Helper to perform verification on puts of primitive type.
    485   void VerifyPrimitivePut(const RegType& target_type, const RegType& insn_type,
    486                           const uint32_t vregA) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    487 
    488   // Perform verification of an aget instruction. The destination register's type will be set to
    489   // be that of component type of the array unless the array type is unknown, in which case a
    490   // bottom type inferred from the type of instruction is used. is_primitive is false for an
    491   // aget-object.
    492   void VerifyAGet(const Instruction* inst, const RegType& insn_type,
    493                   bool is_primitive) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    494 
    495   // Perform verification of an aput instruction.
    496   void VerifyAPut(const Instruction* inst, const RegType& insn_type,
    497                   bool is_primitive) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    498 
    499   // Lookup instance field and fail for resolution violations
    500   mirror::ArtField* GetInstanceField(const RegType& obj_type, int field_idx)
    501       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    502 
    503   // Lookup static field and fail for resolution violations
    504   mirror::ArtField* GetStaticField(int field_idx) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    505 
    506   // Perform verification of an iget or sget instruction.
    507   void VerifyISGet(const Instruction* inst, const RegType& insn_type,
    508                    bool is_primitive, bool is_static)
    509       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    510 
    511   // Perform verification of an iput or sput instruction.
    512   void VerifyISPut(const Instruction* inst, const RegType& insn_type,
    513                    bool is_primitive, bool is_static)
    514       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    515 
    516   // Returns the access field of a quick field access (iget/iput-quick) or NULL
    517   // if it cannot be found.
    518   mirror::ArtField* GetQuickFieldAccess(const Instruction* inst, RegisterLine* reg_line)
    519       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    520 
    521   // Perform verification of an iget-quick instruction.
    522   void VerifyIGetQuick(const Instruction* inst, const RegType& insn_type,
    523                        bool is_primitive)
    524       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    525 
    526   // Perform verification of an iput-quick instruction.
    527   void VerifyIPutQuick(const Instruction* inst, const RegType& insn_type,
    528                        bool is_primitive)
    529       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    530 
    531   // Resolves a class based on an index and performs access checks to ensure the referrer can
    532   // access the resolved class.
    533   const RegType& ResolveClassAndCheckAccess(uint32_t class_idx)
    534       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    535 
    536   /*
    537    * For the "move-exception" instruction at "work_insn_idx_", which must be at an exception handler
    538    * address, determine the Join of all exceptions that can land here. Fails if no matching
    539    * exception handler can be found or if the Join of exception types fails.
    540    */
    541   const RegType& GetCaughtExceptionType()
    542       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    543 
    544   /*
    545    * Resolves a method based on an index and performs access checks to ensure
    546    * the referrer can access the resolved method.
    547    * Does not throw exceptions.
    548    */
    549   mirror::ArtMethod* ResolveMethodAndCheckAccess(uint32_t method_idx, MethodType method_type)
    550       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    551 
    552   /*
    553    * Verify the arguments to a method. We're executing in "method", making
    554    * a call to the method reference in vB.
    555    *
    556    * If this is a "direct" invoke, we allow calls to <init>. For calls to
    557    * <init>, the first argument may be an uninitialized reference. Otherwise,
    558    * calls to anything starting with '<' will be rejected, as will any
    559    * uninitialized reference arguments.
    560    *
    561    * For non-static method calls, this will verify that the method call is
    562    * appropriate for the "this" argument.
    563    *
    564    * The method reference is in vBBBB. The "is_range" parameter determines
    565    * whether we use 0-4 "args" values or a range of registers defined by
    566    * vAA and vCCCC.
    567    *
    568    * Widening conversions on integers and references are allowed, but
    569    * narrowing conversions are not.
    570    *
    571    * Returns the resolved method on success, NULL on failure (with *failure
    572    * set appropriately).
    573    */
    574   mirror::ArtMethod* VerifyInvocationArgs(const Instruction* inst,
    575                                           MethodType method_type,
    576                                           bool is_range, bool is_super)
    577       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    578 
    579   mirror::ArtMethod* GetQuickInvokedMethod(const Instruction* inst,
    580                                            RegisterLine* reg_line,
    581                                            bool is_range)
    582       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    583 
    584   mirror::ArtMethod* VerifyInvokeVirtualQuickArgs(const Instruction* inst, bool is_range)
    585   SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    586 
    587   /*
    588    * Verify that the target instruction is not "move-exception". It's important that the only way
    589    * to execute a move-exception is as the first instruction of an exception handler.
    590    * Returns "true" if all is well, "false" if the target instruction is move-exception.
    591    */
    592   bool CheckNotMoveException(const uint16_t* insns, int insn_idx);
    593 
    594   /*
    595   * Control can transfer to "next_insn". Merge the registers from merge_line into the table at
    596   * next_insn, and set the changed flag on the target address if any of the registers were changed.
    597   * Returns "false" if an error is encountered.
    598   */
    599   bool UpdateRegisters(uint32_t next_insn, const RegisterLine* merge_line)
    600       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    601 
    602   // Is the method being verified a constructor?
    603   bool IsConstructor() const {
    604     return (method_access_flags_ & kAccConstructor) != 0;
    605   }
    606 
    607   // Is the method verified static?
    608   bool IsStatic() const {
    609     return (method_access_flags_ & kAccStatic) != 0;
    610   }
    611 
    612   // Return the register type for the method.
    613   const RegType& GetMethodReturnType() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    614 
    615   // Get a type representing the declaring class of the method.
    616   const RegType& GetDeclaringClass() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    617 
    618   /*
    619    * Generate the GC map for a method that has just been verified (i.e. we're doing this as part of
    620    * verification). For type-precise determination we have all the data we need, so we just need to
    621    * encode it in some clever fashion.
    622    * Returns a pointer to a newly-allocated RegisterMap, or NULL on failure.
    623    */
    624   const std::vector<uint8_t>* GenerateGcMap();
    625 
    626   // Verify that the GC map associated with method_ is well formed
    627   void VerifyGcMap(const std::vector<uint8_t>& data);
    628 
    629   // Compute sizes for GC map data
    630   void ComputeGcMapSizes(size_t* gc_points, size_t* ref_bitmap_bits, size_t* log2_max_gc_pc);
    631 
    632   InstructionFlags* CurrentInsnFlags();
    633 
    634   // All the GC maps that the verifier has created
    635   typedef SafeMap<const MethodReference, const std::vector<uint8_t>*,
    636       MethodReferenceComparator> DexGcMapTable;
    637   static ReaderWriterMutex* dex_gc_maps_lock_ DEFAULT_MUTEX_ACQUIRED_AFTER;
    638   static DexGcMapTable* dex_gc_maps_ GUARDED_BY(dex_gc_maps_lock_);
    639   static void SetDexGcMap(MethodReference ref, const std::vector<uint8_t>& dex_gc_map)
    640       LOCKS_EXCLUDED(dex_gc_maps_lock_);
    641 
    642 
    643   // Cast elision types.
    644   typedef std::set<uint32_t> MethodSafeCastSet;
    645   typedef SafeMap<const MethodReference, const MethodSafeCastSet*,
    646       MethodReferenceComparator> SafeCastMap;
    647   MethodVerifier::MethodSafeCastSet* GenerateSafeCastSet()
    648       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    649   static void SetSafeCastMap(MethodReference ref, const MethodSafeCastSet* mscs);
    650       LOCKS_EXCLUDED(safecast_map_lock_);
    651   static ReaderWriterMutex* safecast_map_lock_ DEFAULT_MUTEX_ACQUIRED_AFTER;
    652   static SafeCastMap* safecast_map_ GUARDED_BY(safecast_map_lock_);
    653 
    654   // Devirtualization map.
    655   typedef SafeMap<const uint32_t, MethodReference> PcToConcreteMethodMap;
    656   typedef SafeMap<const MethodReference, const PcToConcreteMethodMap*,
    657       MethodReferenceComparator> DevirtualizationMapTable;
    658   MethodVerifier::PcToConcreteMethodMap* GenerateDevirtMap()
    659       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
    660 
    661   static ReaderWriterMutex* devirt_maps_lock_ DEFAULT_MUTEX_ACQUIRED_AFTER;
    662   static DevirtualizationMapTable* devirt_maps_ GUARDED_BY(devirt_maps_lock_);
    663   static void SetDevirtMap(MethodReference ref,
    664                            const PcToConcreteMethodMap* pc_method_map)
    665         LOCKS_EXCLUDED(devirt_maps_lock_);
    666   typedef std::set<ClassReference> RejectedClassesTable;
    667   static ReaderWriterMutex* rejected_classes_lock_ DEFAULT_MUTEX_ACQUIRED_AFTER;
    668   static RejectedClassesTable* rejected_classes_ GUARDED_BY(rejected_classes_lock_);
    669 
    670   static void AddRejectedClass(ClassReference ref)
    671       LOCKS_EXCLUDED(rejected_classes_lock_);
    672 
    673   RegTypeCache reg_types_;
    674 
    675   PcToRegisterLineTable reg_table_;
    676 
    677   // Storage for the register status we're currently working on.
    678   UniquePtr<RegisterLine> work_line_;
    679 
    680   // The address of the instruction we're currently working on, note that this is in 2 byte
    681   // quantities
    682   uint32_t work_insn_idx_;
    683 
    684   // Storage for the register status we're saving for later.
    685   UniquePtr<RegisterLine> saved_line_;
    686 
    687   const uint32_t dex_method_idx_;  // The method we're working on.
    688   // Its object representation if known.
    689   mirror::ArtMethod* mirror_method_ GUARDED_BY(Locks::mutator_lock_);
    690   const uint32_t method_access_flags_;  // Method's access flags.
    691   const DexFile* const dex_file_;  // The dex file containing the method.
    692   // The dex_cache for the declaring class of the method.
    693   mirror::DexCache* dex_cache_ GUARDED_BY(Locks::mutator_lock_);
    694   // The class loader for the declaring class of the method.
    695   mirror::ClassLoader* class_loader_ GUARDED_BY(Locks::mutator_lock_);
    696   const DexFile::ClassDef* const class_def_;  // The class def of the declaring class of the method.
    697   const DexFile::CodeItem* const code_item_;  // The code item containing the code for the method.
    698   const RegType* declaring_class_;  // Lazily computed reg type of the method's declaring class.
    699   // Instruction widths and flags, one entry per code unit.
    700   UniquePtr<InstructionFlags[]> insn_flags_;
    701   // The dex PC of a FindLocksAtDexPc request, -1 otherwise.
    702   uint32_t interesting_dex_pc_;
    703   // The container into which FindLocksAtDexPc should write the registers containing held locks,
    704   // NULL if we're not doing FindLocksAtDexPc.
    705   std::vector<uint32_t>* monitor_enter_dex_pcs_;
    706 
    707   // The types of any error that occurs.
    708   std::vector<VerifyError> failures_;
    709   // Error messages associated with failures.
    710   std::vector<std::ostringstream*> failure_messages_;
    711   // Is there a pending hard failure?
    712   bool have_pending_hard_failure_;
    713   // Is there a pending runtime throw failure? A runtime throw failure is when an instruction
    714   // would fail at runtime throwing an exception. Such an instruction causes the following code
    715   // to be unreachable. This is set by Fail and used to ensure we don't process unreachable
    716   // instructions that would hard fail the verification.
    717   bool have_pending_runtime_throw_failure_;
    718 
    719   // Info message log use primarily for verifier diagnostics.
    720   std::ostringstream info_messages_;
    721 
    722   // The number of occurrences of specific opcodes.
    723   size_t new_instance_count_;
    724   size_t monitor_enter_count_;
    725 
    726   const bool can_load_classes_;
    727 
    728   // Converts soft failures to hard failures when false. Only false when the compiler isn't
    729   // running and the verifier is called from the class linker.
    730   const bool allow_soft_failures_;
    731 
    732   // Indicates if the method being verified contains at least one check-cast instruction.
    733   bool has_check_casts_;
    734 
    735   // Indicates if the method being verified contains at least one invoke-virtual/range
    736   // or invoke-interface/range.
    737   bool has_virtual_or_interface_invokes_;
    738 };
    739 std::ostream& operator<<(std::ostream& os, const MethodVerifier::FailureKind& rhs);
    740 
    741 }  // namespace verifier
    742 }  // namespace art
    743 
    744 #endif  // ART_RUNTIME_VERIFIER_METHOD_VERIFIER_H_
    745