Home | History | Annotate | Download | only in libdex 
      1 /*
      2  * Copyright (C) 2008 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 /*
     18  * Dalvik instruction utility functions.
     19  */
     20 #ifndef LIBDEX_INSTRUTILS_H_
     21 #define LIBDEX_INSTRUTILS_H_
     22 
     23 #include "DexFile.h"
     24 #include "DexOpcodes.h"
     25 
     26 /*
     27  * Possible instruction formats associated with Dalvik opcodes.
     28  *
     29  * See the file opcode-gen/README.txt for information about updating
     30  * opcodes and instruction formats.
     31  */
     32 enum InstructionFormat {
     33     kFmt00x = 0,    // unknown format (also used for "breakpoint" opcode)
     34     kFmt10x,        // op
     35     kFmt12x,        // op vA, vB
     36     kFmt11n,        // op vA, #+B
     37     kFmt11x,        // op vAA
     38     kFmt10t,        // op +AA
     39     kFmt20bc,       // [opt] op AA, thing@BBBB
     40     kFmt20t,        // op +AAAA
     41     kFmt22x,        // op vAA, vBBBB
     42     kFmt21t,        // op vAA, +BBBB
     43     kFmt21s,        // op vAA, #+BBBB
     44     kFmt21h,        // op vAA, #+BBBB00000[00000000]
     45     kFmt21c,        // op vAA, thing@BBBB
     46     kFmt23x,        // op vAA, vBB, vCC
     47     kFmt22b,        // op vAA, vBB, #+CC
     48     kFmt22t,        // op vA, vB, +CCCC
     49     kFmt22s,        // op vA, vB, #+CCCC
     50     kFmt22c,        // op vA, vB, thing@CCCC
     51     kFmt22cs,       // [opt] op vA, vB, field offset CCCC
     52     kFmt30t,        // op +AAAAAAAA
     53     kFmt32x,        // op vAAAA, vBBBB
     54     kFmt31i,        // op vAA, #+BBBBBBBB
     55     kFmt31t,        // op vAA, +BBBBBBBB
     56     kFmt31c,        // op vAA, string@BBBBBBBB
     57     kFmt35c,        // op {vC,vD,vE,vF,vG}, thing@BBBB
     58     kFmt35ms,       // [opt] invoke-virtual+super
     59     kFmt3rc,        // op {vCCCC .. v(CCCC+AA-1)}, thing@BBBB
     60     kFmt3rms,       // [opt] invoke-virtual+super/range
     61     kFmt51l,        // op vAA, #+BBBBBBBBBBBBBBBB
     62     kFmt35mi,       // [opt] inline invoke
     63     kFmt3rmi,       // [opt] inline invoke/range
     64 };
     65 
     66 /*
     67  * Types of indexed reference that are associated with opcodes whose
     68  * formats include such an indexed reference (e.g., 21c and 35c).
     69  */
     70 enum InstructionIndexType {
     71     kIndexUnknown = 0,
     72     kIndexNone,         // has no index
     73     kIndexVaries,       // "It depends." Used for throw-verification-error
     74     kIndexTypeRef,      // type reference index
     75     kIndexStringRef,    // string reference index
     76     kIndexMethodRef,    // method reference index
     77     kIndexFieldRef,     // field reference index
     78     kIndexInlineMethod, // inline method index (for inline linked methods)
     79     kIndexVtableOffset, // vtable offset (for static linked methods)
     80     kIndexFieldOffset   // field offset (for static linked fields)
     81 };
     82 
     83 /*
     84  * Instruction width implied by an opcode's format; a value in the
     85  * range 0 to 5. Note that there are special "pseudo-instructions"
     86  * which are used to encode switch and data tables, and these don't
     87  * have a fixed width. See dexGetWidthFromInstruction(), below.
     88  */
     89 typedef u1 InstructionWidth;
     90 
     91 /*
     92  * Opcode control flow flags, used by the verifier and JIT.
     93  */
     94 typedef u1 OpcodeFlags;
     95 enum OpcodeFlagsBits {
     96     kInstrCanBranch     = 1,        // conditional or unconditional branch
     97     kInstrCanContinue   = 1 << 1,   // flow can continue to next statement
     98     kInstrCanSwitch     = 1 << 2,   // switch statement
     99     kInstrCanThrow      = 1 << 3,   // could cause an exception to be thrown
    100     kInstrCanReturn     = 1 << 4,   // returns, no additional statements
    101     kInstrInvoke        = 1 << 5,   // a flavor of invoke
    102 };
    103 
    104 /*
    105  * Struct that includes a pointer to each of the opcode information
    106  * tables.
    107  *
    108  * Note: We use "u1*" here instead of the names of the enumerated
    109  * types to guarantee that elements don't use much space. We hold out
    110  * hope for a standard way to indicate the size of an enumerated type
    111  * that works for both C and C++, but in the mean time, this will
    112  * suffice.
    113  */
    114 struct InstructionInfoTables {
    115     u1*                formats;    /* InstructionFormat elements */
    116     u1*                indexTypes; /* InstructionIndexType elements */
    117     OpcodeFlags*       flags;
    118     InstructionWidth*  widths;
    119 };
    120 
    121 /*
    122  * Global InstructionInfoTables struct.
    123  */
    124 extern InstructionInfoTables gDexOpcodeInfo;
    125 
    126 /*
    127  * Holds the contents of a decoded instruction.
    128  */
    129 struct DecodedInstruction {
    130     u4      vA;
    131     u4      vB;
    132     u8      vB_wide;        /* for kFmt51l */
    133     u4      vC;
    134     u4      arg[5];         /* vC/D/E/F/G in invoke or filled-new-array */
    135     Opcode  opcode;
    136     InstructionIndexType indexType;
    137 };
    138 
    139 /*
    140  * Return the instruction width of the specified opcode, or 0 if not defined.
    141  */
    142 DEX_INLINE size_t dexGetWidthFromOpcode(Opcode opcode)
    143 {
    144     assert((u4) opcode < kNumPackedOpcodes);
    145     return gDexOpcodeInfo.widths[opcode];
    146 }
    147 
    148 /*
    149  * Return the width of the specified instruction, or 0 if not defined.  Also
    150  * works for special OP_NOP entries, including switch statement data tables
    151  * and array data.
    152  */
    153 size_t dexGetWidthFromInstruction(const u2* insns);
    154 
    155 /*
    156  * Returns the flags for the specified opcode.
    157  */
    158 DEX_INLINE OpcodeFlags dexGetFlagsFromOpcode(Opcode opcode)
    159 {
    160     assert((u4) opcode < kNumPackedOpcodes);
    161     return gDexOpcodeInfo.flags[opcode];
    162 }
    163 
    164 /*
    165  * Returns true if the given flags represent a goto (unconditional branch).
    166  */
    167 DEX_INLINE bool dexIsGoto(OpcodeFlags flags)
    168 {
    169     return (flags & (kInstrCanBranch | kInstrCanContinue)) == kInstrCanBranch;
    170 }
    171 
    172 /*
    173  * Return the instruction format for the specified opcode.
    174  */
    175 DEX_INLINE InstructionFormat dexGetFormatFromOpcode(Opcode opcode)
    176 {
    177     assert((u4) opcode < kNumPackedOpcodes);
    178     return (InstructionFormat) gDexOpcodeInfo.formats[opcode];
    179 }
    180 
    181 /*
    182  * Return the instruction index type for the specified opcode.
    183  */
    184 DEX_INLINE InstructionIndexType dexGetIndexTypeFromOpcode(Opcode opcode)
    185 {
    186     assert((u4) opcode < kNumPackedOpcodes);
    187     return (InstructionIndexType) gDexOpcodeInfo.indexTypes[opcode];
    188 }
    189 
    190 /*
    191  * Decode the instruction pointed to by "insns".
    192  */
    193 void dexDecodeInstruction(const u2* insns, DecodedInstruction* pDec);
    194 
    195 #endif  // LIBDEX_INSTRUTILS_H_
    196