smali语法
March 17, 2023
55754
前言
突然意识到自己的 smali 语法其实还是有挺多的细节地方是不懂,特此开一篇博客更加详细的记录一下 smali 语法。
smali
smali :一种介于 apk 和 java 源码之间的一种表示方式。使用 apktool 反编译 apk 后,会在反编译工程目录下生成一个 smali文件夹,一般而言,一个 smali 文件对应着一个类。
在 smali 代码中,声明语句一般都是以 .
开始。
基本信息
1 |
|
- <>中的内容表示必不可缺的,[]表示的是可选择的。
- 访问权限修饰符即
public, protected, private, default
。 - 而非权限修饰符则指的是
final, abstract
。 L
表示类的完整签名,如.super Ljava/lang/Object;
表明是继承于 java/lang/Object 类。- 经过混淆后,.source 可能为空。
类型对应
dalvik 的字节码有两大类类型,原始类型和引用类型。引用类型是对象和数组,其他一切都是原始类型。
smali | java |
---|---|
V | void - can only be used for return types |
Z | boolean |
B | byte (-128~127) |
S | short |
C | char |
I | int |
J | long (64 bits) |
F | float |
D | double (64 bits) |
L | 对象类型 |
[ | array |
注:
- 如果是int数组表示形式为 [I。
- 再比如数组类型 String[][],在 smali 中表示形式为 [[Ljava/lang/String;
寄存器
一个方法所申请的寄存器会分配给函数方法的参数 (parameter) 以及局部变量 (local variable) 。在 smali 中,一般有两种命名规则
- v 命名法
- p 命名法
假设方法申请了 m+n 个寄存器,其中局部变量占 m 个寄存器,参数占 n 个寄存器,对于不同的命名规则,其相应的命名如下:
属性 | v命名法 | p命名法 |
---|---|---|
局部变量 | ||
函数参数 |
一般来说都是 p 命名法,因为其具有较好的可读性,可以方便地让我们知道寄存器属于哪一种类型。
需要注意的是:
- 在非 static 方法中,p0 表示
this
,p1 表示第一个参数。 - 但是在 static 方法中,p0 表示第一个参数。
类方法声明
1 |
|
smali 指令符
底下的表是所有的 smali 语法的指令符号以及其的表示的含义及用法事例:
Opcode (hex) | Opcode name | Explanation | Example |
---|---|---|---|
00 | nop | 无操作 | 0000 - nop |
01 | move vx, vy | 将 vy 的值移入到 vx(4位,支持 int) | 0110 - move v0, v1 Moves v1 into v0. |
02 | move/from16 vx, vy | Moves the content of vy into vx. vy may be in the 64k register range while vx is one of the first 256 registers. | 0200 1900 - move/from16 v0, v25 Moves v25 into v0. |
03 | move/16 | ||
04 | move-wide | ||
05 | move-wide/from16 vx, vy | Moves a long/double value from vy to vx. vy may be in the 64k register range while wx is one of the first 256 registers. | 0516 0000 - move-wide/from16 v22, v0 Moves v0 into v22. |
06 | move-wide/16 | ||
07 | move-object vx, vy | Moves the object reference from vy to vx. | 0781 - move-object v1, v8 Moves the object reference in v8 to v1. |
08 | move-object/from16 vx,vy | Moves the object reference from vy to vx, vy can address 64k registers and vx can address 256 registers. | 0801 1500 - move-object/from16 v1, v21 Move the object reference in v21 to v1. |
09 | move-object/16 | ||
0A | move-result vx | Move the result value of the previous method invocation into vx. | 0A00 - move-result v0 Move the return value of a previous method invocation into v0. |
0B | move-result-wide vx | Move the long/double result value of the previous method invocation into vx,vx+1. | 0B02 - move-result-wide v2 Move the long/double result value of the previous method invocation into v2,v3. |
0C | move-result-object vx | Move the result object reference of the previous method invocation into vx. | 0C00 - move-result-object v0 |
0D | move-exception vx | Move the exception object reference thrown during a method invocation into vx. | 0D19 - move-exception v25 |
0E | return-void | 无返回值 | 0E00 - return-void |
0F | return vx | 将 vx 作为返回值返回 | 0F00 - return v0 Returns with return value in v0. |
10 | return-wide vx | Return with double/long result in vx,vx+1. | 1000 - return-wide v0 Returns with a double/long value in v0,v1. |
11 | return-object vx | 返回 vx 代表的实例化对象 | 1100 - return-object v0 Returns with object reference value in v0 |
12 | const/4 vx, lit4 | 将 4 位常量值放入 vx | 1221 - const/4 v1, #int2 Moves literal 2 into v1. The destination register is in the lower 4 bit in the second byte, the literal 2 is in the higher 4 bit. |
13 | const/16 vx, lit16 | 将 16 位常量值放入 vx | 1300 0A00 - const/16 v0, #int 10 Puts the literal constant of 10 into v0. |
14 | const vx, lit32 | 将 32 位常量值放入 vx | 1400 4E61 BC00 - const v0, #12345678 // #00BC614E Moves literal 12345678 into v0. |
15 | const/high16 v0, lit16 | Puts the 16 bit constant into the topmost bits of the register. Used to initialize float values. | 1500 2041 - const/high16 v0, #float 10.0 // #41200000 Moves the floating literal of 10.0 into v0. The 16 bit literal in the instruction carries the top 16 bits of the floating point number. |
16 | const-wide/16 vx, lit16 | Puts the integer constant into vx and vx+1 registers, expanding the integer constant into a long constant.. | 1600 0A00 - const-wide/16 v0, #long 10 Moves literal 10 into v0 and v1 registers. |
17 | const-wide/32 vx, lit32 | Puts the 32 bit constant into vx and vx+1 registers, expanding the integer constant into a long constant. | 1702 4e61 bc00 - const-wide/32 v2, #long 12345678 // #00bc614e Puts #12345678 into v2 and v3 registers. |
18 | const-wide vx, lit64 | Puts the 64 bit constant into vx and vx+1 registers. | 1802 874b 6b5d 54dc 2b00- const-wide v2, #long 12345678901234567 // #002bdc545d6b4b87 Puts #12345678901234567 into v2 and v3 registers. |
19 | const-wide/high16 vx,lit16 | Puts the 16 bit constant into the highest 16 bit of vx and vx+1 registers. Used to initialize double values. | 1900 2440 - const-wide/high16 v0, #double 10.0 // #402400000 Puts the double constant of 10.0 into v0 register. |
1A | const-string vx,string_id | Puts reference to a string constant identified by string_id into vx. | 1A08 0000 - const-string v8, “” // string@0000 Puts reference to string@0000 (entry #0 in the string table) into v8. |
1B | const-string-jumbo | ||
1C | const-class vx,type_id | Moves the class object of a class identified by type_id (e.g. Object.class) into vx. | 1C00 0100 - const-class v0, Test3 // type@0001 Moves reference to Test3.class (entry#1 in the type id table) into |
1D | monitor-enter vx | Obtains the monitor of the object referenced by vx. | 1D03 - monitor-enter v3 Obtains the monitor of the object referenced by v3. |
1E | monitor-exit | Releases the monitor of the object referenced by vx. | 1E03 - monitor-exit v3 Releases the monitor of the object referenced by v3. |
1F | check-cast vx, type_id | Checks whether the object reference in vx can be cast to an instance of a class referenced by type_id. Throws ClassCastException if the cast is not possible, continues execution otherwise. | 1F04 0100 - check-cast v4, Test3 // type@0001 Checks whether the object reference in v4 can be cast to type@0001 (entry #1 in the type id table) |
20 | instance-of vx,vy,type_id | Checks whether vy is instance of a class identified by type_id. Sets vx non-zero if it is, 0 otherwise. | 2040 0100 - instance-of v0, v4, Test3 // type@0001 Checks whether the object reference in v4 is an instance of type@0001 (entry #1 in the type id table). Sets v0 to non-zero if v4 is instance of Test3, 0 otherwise. |
21 | array-length vx,vy | Calculates the number of elements of the array referenced by vy and puts the length value into vx. | 2111 - array-length v1, v1 Calculates the number of elements of the array referenced by v1 and puts the result into v1. |
22 | new-instance vx,type | Instantiates an object type and puts the reference of the newly created instance into vx. | 2200 1500 - new-instance v0, java.io.FileInputStream // type@0015 Instantiates type@0015 (entry #15H in the type table) and puts its reference into v0. |
23 | new-array vx,vy,type_id | Generates a new array of type_id type and vy element size and puts the reference to the array into vx. | 2312 2500 - new-array v2, v1, char[] // type@0025 Generates a new array of type@0025 type and v1 size and puts the reference to the new array into v2. |
24 | filled-new-array {parameters},type_id | Generates a new array of type_id and fills it with the parameters5. Reference to the newly generated array can be obtained by a move-result-object instruction, immediately following the filled-new-array instruction. | 2420 530D 0000 - filled-new-array {v0,v0},[I // type@0D53 Generates a new array of type@0D53. The array’s size will be 2 and both elements will be filled with the contents of v0 register. |
25 | filled-new-array-range {vx..vy},type_id | Generates a new array of type_id and fills it with a range of parameters. Reference to the newly generated array can be obtained by a move-result-object instruction, immediately following the filled-new-array instruction. | 2503 0600 1300 - filled-new-array/range {v19..v21}, [B // type@0006 Generates a new array of type@0D53. The array’s size will be 3 and the elements will be filled using the v19,v20 and v21 registers4. |
26 | fill-array-data vx,array_data_offset | Fills the array referenced by vx with the static data. The location of the static data is the sum of the position of the current instruction and the offset | 2606 2500 0000 - fill-array-data v6, 00e6 // +0025 Fills the array referenced by v0 with the static data at current instruction+25H words location. The offset is expressed as a 32-bit number. The static data is stored in the following format: 0003 // Table type: static array data 0400 // Byte per array element (in this case, 4 byte integers) 0300 0000 // Number of elements in the table 0100 0000 // Element #0: integer 1 0200 0000 // Element #1: integer 2 0300 0000 // Element #2: integer3 |
27 | throw vx | Throws an exception object. The reference of the exception object is in vx. | 2700 - throw v0 Throws an exception. The exception object reference is in v0. |
28 | goto target | 跳转到 target | 28F0 - goto 0005 // -0010 Jumps to current position-16 words (hex 10). 0005 is the label of the target instruction. |
29 | goto/16 target | Unconditional jump by 16 bit offset2. | 2900 0FFE - goto/16 002f // -01f1 Jumps to the current position-1F1H words. 002F is the label of the target instruction. |
2A | goto/32 target | ||
2B | packed-switch vx,table | Implements a switch statement where the case constants are close to each other. The instruction uses an index table. vx indexes into this table to find the offset of the instruction for a particular case. If vx falls out of the index table, the execution continues on the next instruction (default case). | 2B02 0C00 0000 - packed-switch v2, 000c // +000c Execute a packed switch according to the switch argument in v2. The position of the index table is at current instruction+0CH words. The table looks like the following: 0001 // Table type: packed switch table 0300 // number of elements 0000 0000 // element base 0500 0000 0: 00000005 // case 0: +00000005 0700 0000 1: 00000007 // case 1: +00000007 0900 0000 2: 00000009 // case 2: +00000009 |
2C | sparse-switch vx,table | Implements a switch statement with sparse case table. The instruction uses a lookup table with case constants and offsets for each case constant. If there is no match in the table, execution continues on the next instruction (default case). | 2C02 0c00 0000 - sparse-switch v2, 000c // +000c Execute a sparse switch according to the switch argument in v2. The position of the lookup table is at current instruction+0CH words. The table looks like the following. 0002 // Table type: sparse switch table 0300 // number of elements 9cff ffff // first case: -100 fa00 0000 // second case constant: 250 e803 0000 // third case constant: 1000 0500 0000 // offset for the first case constant: +5 0700 0000 // offset for the second case constant: +7 0900 0000 // offset for the third case constant: +9 |
2D | cmpl-float | Compares the float values in vy and vz and sets the integer value in vx accordingly3 | 2D00 0607 - cmpl-float v0, v6, v7 Compares the float values in v6 and v7 then sets v0 accordingly. NaN bias is less-than, the instruction will return -1 if any of the parameters is NaN. |
2E | cmpg-float vx, vy, vz | Compares the float values in vy and vz and sets the integer value in vx accordingly3. | 2E00 0607 - cmpg-float v0, v6, v7 Compares the float values in v6 and v7 then sets v0 accordingly. NaN bias is greater-than, the instruction will return 1 if any of the parameters is NaN. |
2F | cmpl-double vx,vy,vz | Compares the double values in vy and vz2 and sets the integer value in vx accordingly3. | 2F19 0608 - cmpl-double v25, v6, v8 Compares the double values in v6,v7 and v8,v9 and sets v25 accordingly. NaN bias is less-than, the instruction will return -1 if any of the parameters is NaN. |
30 | cmpg-double vx, vy, vz | Compares the double values in vy and vz2 and sets the integer value in vx accordingly3. | 3000 080A - cmpg-double v0, v8, v10 Compares the double values in v8,v9 and v10,v11 then sets v0 accordingly. NaN bias is greater-than, the instruction will return 1 if any of the parameters is NaN. |
31 | cmp-long vx, vy, vz | Compares the long values in vy and vz and sets the integer value in vx accordingly3. | 3100 0204 - cmp-long v0, v2, v4 Compares the long values in v2 and v4 then sets v0 accordingly. |
32 | if-eq vx, vy, target | 如果 vx==vy 2则跳转到 target,vx 和 vy 是整数值 | 32b3 6600 - if-eq v3, v11, 0080 // +0066 Jumps to the current position+66H words if v3==v11. 0080 is the label of the target instruction. |
33 | if-ne vx,vy,target | 如果 vx != vy 则跳转到target,vx 和 vy 是整数值。 | 33A3 1000 - if-ne v3, v10, 002c // +0010 Jumps to the current position+10H words if v3!=v10. 002c is the label of the target instruction. |
34 | if-lt vx,vy,target | 如果 vx < vy 则跳转到 target,vx 和 vy 是整数值。 | 3432 CBFF - if-lt v2, v3, 0023 // -0035 Jumps to the current position-35H words if v2<v3. 0023 is the label of the target instruction. |
35 | if-ge vx, vy,target | 如果 vx >= vy 则跳转到 target,vx 和 vy 是整数值。 | 3510 1B00 - if-ge v0, v1, 002b // +001b Jumps to the current position+1BH words if v0>=v1. 002b is the label of the target instruction. |
36 | if-gt vx,vy,target | 如果 vx > vy 则跳转到 target,vx 和 vy 是整数值。 | 3610 1B00 - if-ge v0, v1, 002b // +001b Jumps to the current position+1BH words if v0>v1. 002b is the label of the target instruction. |
37 | if-le vx,vy,target | 如果 vx <= vy 则跳转到 target,vx 和 vy 是整数值。 | 3756 0B00 - if-le v6, v5, 0144 // +000b Jumps to the current position+0BH words if v6<=v5. 0144 is the label of the target instruction. |
38 | if-eqz vx,target | 如果 vx == 0 则跳转到 target,vx 是一个整数值。 | 3802 1900 - if-eqz v2, 0038 // +0019 Jumps to the current position+19H words if v2==0. 0038 is the label of the target instruction. |
39 | if-nez vx,target | 如果 vx != 0 则跳转到 target,vx 是一个整数值。 | 3902 1200 - if-nez v2, 0014 // +0012 Jumps to current position+18 words (hex 12) if v2 is nonzero. 0014 is the label of the target instruction. |
3A | if-ltz vx,target | Checks vx and jumps if vx<02. | 3A00 1600 - if-ltz v0, 002d // +0016 Jumps to the current position+16H words if v0<0. 002d is the label of the target instruction. |
3B | if-gez vx,target | Checks vx and jumps if vx>=02. | 3B00 1600 - if-gez v0, 002d // +0016 Jumps to the current position+16H words if v0 >=0. 002d is the label of the target instruction. |
3C | if-gtz vx,target | Checks vx and jumps if vx>02. | 3C00 1D00 - if-gtz v0, 004a // +001d Jumps to the current position+1DH words if v0>0. 004A is the label of the target instruction. |
3D | if-lez vx,target | Checks vx and jumps if vx<=02. | 3D00 1D00 - if-lez v0, 004a // +001d Jumps to the current position+1DH words if v0<=0. 004A is the label of the target instruction. |
3E | unused_3E | ||
3F | unused_3F | ||
40 | unused_40 | ||
41 | unused_41 | ||
42 | unused_42 | ||
43 | unused_43 | ||
44 | aget vx,vy,vz | Gets an integer value of an object reference array into vx. The array is referenced by vy and is indexed by vz. | 4407 0306 - aget v7, v3, v6 Gets an integer array element. The array is referenced by v3 and the element is indexed by v6. The element will be put into v7. |
45 | aget-wide vx,vy,vz | Gets a long/double value of long/double array into vx,vx+1. The array is referenced by vy and is indexed by vz. | 4505 0104 - aget-wide v5, v1, v4 Gets a long/double array element. The array is referenced by v1 and the element is indexed by v4. The element will be put into v5,v6. |
46 | aget-object vx,vy,vz | Gets an object reference value of an object reference array into vx. The array is referenced by vy and is indexed by vz. | 4602 0200 - aget-object v2, v2, v0 Gets an object reference array element. The array is referenced by v2 and the element is indexed by v0. The element will be put into v2. |
47 | aget-boolean vx,vy,vz | Gets a boolean value of a boolean array into vx. The array is referenced by vy and is indexed by vz. | 4700 0001 - aget-boolean v0, v0, v1 Gets a boolean array element. The array is referenced by v0 and the element is indexed by v1. The element will be put into v0. |
48 | aget-byte vx,vy,vz | Gets a byte value of a byte array into vx. The array is referenced by vy and is indexed by vz. | 4800 0001 - aget-byte v0, v0, v1 Gets a byte array element. The array is referenced by v0 and the element is indexed by v1. The element will be put into v0. |
49 | aget-char vx, vy,vz | Gets a char value of a character array into vx. The element is indexed by vz, the array object is referenced by vy | 4905 0003 - aget-char v5, v0, v3 Gets a character array element. The array is referenced by v0 and the element is indexed by v3. The element will be put into v5. |
4A | aget-short vx,vy,vz | Gets a short value of a short array into vx. The element is indexed by vz, the array object is referenced by vy. | 4A00 0001 - aget-short v0, v0, v1 Gets a short array element. The array is referenced by v0 and the element is indexed by v1. The element will be put into v0. |
4B | aput vx,vy,vz | Puts the integer value in vx into an element of an integer array. The element is indexed by vz, the array object is referenced by vy. | 4B00 0305 - aput v0, v3, v5 Puts the integer value in v2 into an integer array referenced by v0. The target array element is indexed by v1. |
4C | aput-wide vx,vy,vz | Puts the double/long value in vx,vx+1 into a double/long array. The array is referenced by vy, the element is indexed by vz. | 4C05 0104 - aput-wide v5, v1, v4 Puts the double/long value in v5,v6 into a double/long array referenced by v1. The target array element is indexed by v4. |
4D | aput-object vx,vy,vz | Puts the object reference value in vx into an element of an object reference array. The element is indexed by vz, the array object is referenced by vy. | 4D02 0100 - aput-object v2, v1, v0 Puts the object reference value in v2 into an object reference array referenced by v0. The target array element is indexed by v1. |
4E | aput-boolean vx,vy,vz | Puts the boolean value in vx into an element of a boolean array. The element is indexed by vz, the array object is referenced by vy. | 4E01 0002 - aput-boolean v1, v0, v2 Puts the boolean value in v1 into an object reference array referenced by v0. The target array element is indexed by v2. |
4F | aput-byte vx,vy,vz | Puts the byte value in vx into an element of a byte array. The element is indexed by vz, the array object is referenced by vy. | 4F02 0001 - aput-byte v2, v0, v1 Puts the boolean value in v2 into a byte array referenced by v0. The target array element is indexed by v1. |
50 | aput-char vx,vy,vz | Puts the char value in vx into an element of a character array. The element is indexed by vz, the array object is referenced by vy. | 5003 0001 - aput-char v3, v0, v1 Puts the character value in v3 into a character array referenced by v0. The target array element is indexed by v1. |
51 | aput-short vx,vy,vz | Puts the short value in vx into an element of a short array. The element is indexed by vz, the array object is referenced by vy. | 5102 0001 - aput-short v2, v0, v1 Puts the short value in v2 into a character array referenced by v0. The target array element is indexed by v1. |
52 | iget vx, vy, field_id | Reads an instance field into vx. The instance is referenced by vy. | 5210 0300 - iget v0, v1, Test2.i6:I // field@0003 Reads field@0003 into v0 (entry #3 in the field id table). The instance is referenced by v1. |
53 | iget-wide vx,vy,field_id | Reads an instance field into vx1. The instance is referenced by vy. | 5320 0400 - iget-wide v0, v2, Test2.l0:J // field@0004 Reads field@0004 into v0 and v1 registers (entry #4 in the field id table). The instance is referenced by v2. |
54 | iget-object vx,vy,field_id | Reads an object reference instance field into vx. The instance is referenced by vy. | iget-object v1, v2, LineReader.fis:Ljava/io/FileInputStream; // field@0002 Reads field@0002 into v1 (entry #2 in the field id table). The instance is referenced by v2. |
55 | iget-boolean vx,vy,field_id | Reads a boolean instance field into vx. The instance is referenced by vy. | 55FC 0000 - iget-boolean v12, v15, Test2.b0:Z // field@0000 Reads the boolean field@0000 into v12 register (entry #0 in the field id table). The instance is referenced by v15. |
56 | iget-byte vx,vy,field_id | Reads a byte instance field into vx. The instance is referenced by vy. | 5632 0100 - iget-byte v2, v3, Test3.bi1:B // field@0001 Reads the char field@0001 into v2 register (entry #1 in the field id table). The instance is referenced by v3. |
57 | iget-char vx,vy,field_id | Reads a char instance field into vx. The instance is referenced by vy. | 5720 0300 - iget-char v0, v2, Test3.ci1:C // field@0003 Reads the char field@0003 into v0 register (entry #3 in the field id table). The instance is referenced by v2. |
58 | iget-short vx,vy,field_id | Reads a short instance field into vx. The instance is referenced by vy. | 5830 0800 - iget-short v0, v3, Test3.si1:S // field@0008 Reads the short field@0008 into v0 register (entry #8 in the field id table). The instance is referenced by v3. |
59 | iput vx,vy, field_id | Puts vx into an instance field. The instance is referenced by vy. | 5920 0200 - iput v0,v2, Test2.i6:I // field@0002 Stores v0 into field@0002 (entry #2 in the field id table). The instance is referenced by v2. |
5A | iput-wide vx,vy, field_id | Puts the wide value located in vx and vx+1 registers into an instance field. The instance is referenced by vy. | 5A20 0000 - iput-wide v0,v2, Test2.d0:D // field@0000 Stores the wide value in v0, v1 registers into field@0000 (entry #0 in the field id table). The instance is referenced by v2. |
5B | iput-object vx,vy,field_id | Puts the object reference in vx into an instance field. The instance is referenced by vy. | 5B20 0000 - iput-object v0, v2, LineReader.bis:Ljava/io/BufferedInputStream; // field@0000 Stores the object reference in v0 into field@0000 (entry #0 in the field table). The instance is referenced by v2. |
5C | iput-boolean vx,vy, field_id | Puts the boolean value located in vx into an instance field. The instance is referenced by vy. | 5C30 0000 - iput-boolean v0, v3, Test2.b0:Z // field@0000 Puts the boolean value in v0 into field@0000 (entry #0 in the field id table). The instance is referenced by v3. |
5D | iput-byte vx,vy,field_id | Puts the byte value located in vx into an instance field. The instance is referenced by vy. | 5D20 0100 - iput-byte v0, v2, Test3.bi1:B // field@0001 Puts the boolean value in v0 into field@0001 (entry #1 in the field id table). The instance is referenced by v2. |
5E | iput-char vx,vy,field_id | Puts the char value located in vx into an instance field. The instance is referenced by vy. | 5E20 0300 - iput-char v0, v2, Test3.ci1:C // field@0003 Puts the char value in v0 into field@0003 (entry #3 in the field id table). The instance is referenced by v2. |
5F | iput-short vx,vy,field_id | Puts the short value located in vx into an instance field. The instance is referenced by vy. | 5F21 0800 - iput-short v1, v2, Test3.si1:S // field@0008 Puts the short value in v1 into field@0008 (entry #8 in the field id table). The instance is referenced by v2. |
60 | sget vx,field_id | Reads the integer field identified by the field_id into vx. | 6000 0700 - sget v0, Test3.is1:I // field@0007 Reads field@0007 (entry #7 in the field id table) into v0. |
61 | sget-wide vx, field_id | Reads the static field identified by the field_id into vx and vx+1 registers. | 6100 0500 - sget-wide v0, Test2.l1:J // field@0005 Reads field@0005 (entry #5 in the field id table) into v0 and v1 registers. |
62 | sget-object vx,field_id | Reads the object reference field identified by the field_id into vx. | 6201 0C00 - sget-object v1, Test3.os1:Ljava/lang/Object; // field@000c Reads field@000c (entry #CH in the field id table) into v1. |
63 | sget-boolean vx,field_id | Reads the boolean static field identified by the field_id into vx. | 6300 0C00 - sget-boolean v0, Test2.sb:Z // field@000c Reads boolean field@000c (entry #12 in the field id table) into v0. |
64 | sget-byte vx,field_id | Reads the byte static field identified by the field_id into vx. | 6400 0200 - sget-byte v0, Test3.bs1:B // field@0002 Reads byte field@0002 (entry #2 in the field id table) into v0. |
65 | sget-char vx,field_id | Reads the char static field identified by the field_id into vx. | 6500 0700 - sget-char v0, Test3.cs1:C // field@0007 Reads byte field@0007 (entry #7 in the field id table) into v0. |
66 | sget-short vx,field_id | Reads the short static field identified by the field_id into vx. | 6600 0B00 - sget-short v0, Test3.ss1:S // field@000b Reads short field@000b (entry #BH in the field id table) into v0. |
67 | sput vx, field_id | Puts vx into a static field. | 6700 0100 - sput v0, Test2.i5:I // field@0001 Stores v0 into field@0001 (entry #1 in the field id table). |
68 | sput-wide vx, field_id | Puts vx and vx+1 into a static field. | 6800 0500 - sput-wide v0, Test2.l1:J // field@0005 Puts the long value in v0 and v1 into the field@0005 static field (entry #5 in the field id table). |
69 | sput-object vx,field_id | Puts object reference in vx into a static field. | 6900 0c00 - sput-object v0, Test3.os1:Ljava/lang/Object; // field@000c Puts the object reference value in v0 into the field@000c static field (entry #CH in the field id table). |
6A | sput-boolean vx,field_id | Puts boolean value in vx into a static field. | 6A00 0300 - sput-boolean v0, Test3.bls1:Z // field@0003 Puts the byte value in v0 into the field@0003 static field (entry #3 in the field id table). |
6B | sput-byte vx,field_id | Puts byte value in vx into a static field. | 6B00 0200 - sput-byte v0, Test3.bs1:B // field@0002 Puts the byte value in v0 into the field@0002 static field (entry #2 in the field id table). |
6C | sput-char vx,field_id | Puts char value in vx into a static field. | 6C01 0700 - sput-char v1, Test3.cs1:C // field@0007 Puts the char value in v1 into the field@0007 static field (entry #7 in the field id table). |
6D | sput-short vx,field_id | Puts short value in vx into a static field. | 6D00 0B00 - sput-short v0, Test3.ss1:S // field@000b Puts the short value in v0 into the field@000b static field (entry #BH in the field id table). |
6E | invoke-virtual { parameters }, methodtocall | Invokes a virtual method with parameters. | 6E53 0600 0421 - invoke-virtual { v4, v0, v1, v2, v3}, Test2.method5:(IIII)V // method@0006 Invokes the 6th method in the method table with the following arguments: v4 is the “this” instance, v0, v1, v2, and v3 are the method parameters. The method has 5 arguments (4 MSB bits of the second byte)5. |
6F | invoke-super {parameter},methodtocall | Invokes the virtual method of the immediate parent class. | 6F10 A601 0100 invoke-super {v1},java.io.FilterOutputStream.close:()V // method@01a6 Invokes method@01a6 with one parameter, v1. |
70 | invoke-direct { parameters }, methodtocall | Invokes a method with parameters without the virtual method resolution. | 7010 0800 0100 - invoke-direct {v1}, java.lang.Object. |
71 | invoke-static {parameters}, methodtocall | Invokes a static method with parameters. | 7110 3400 0400 - invoke-static {v4}, java.lang.Integer.parseInt:( Ljava/lang/String;)I // method@0034 Invokes method@34 static method. The method is called with one parameter, v45. |
72 | invoke-interface {parameters},methodtocall | Invokes an interface method. | 7240 2102 3154 invoke-interface {v1, v3, v4, v5}, mwfw.IReceivingProtocolAdapter.receivePackage:( ILjava/lang/String;Ljava/io/InputStream;)Z // method@0221 Invokes method@221 interface method using parameters in v1,v3,v4 and v55. |
73 | unused_73 | ||
74 | invoke-virtual/range {vx..vy},methodtocall | Invokes virtual method with a range of registers. The instruction specifies the first register and the number of registers to be passed to the method. | 7403 0600 1300 - invoke-virtual {v19..v21}, Test2.method5:(IIII)V // method@0006 Invokes the 6th method in the method table with the following arguments: v19 is the “this” instance, v20 and v21 are the method parameters. |
75 | invoke-super/range | Invokes the virtual method of the immediate parent class. The instruction specifies the first register and the number of registers to be passed to the method. | 7501 A601 0100 invoke-super {v1},java.io.FilterOutputStream.close:()V // method@01a6 Invokes method@01a6 with one parameter, v1. |
76 | invoke-direct/range {vx..vy},methodtocall | Invokes direct method with a range of registers. The instruction specifies the first register and the number of registers to be passed to the method. | 7603 3A00 1300 - invoke-direct/range {v19..21},java.lang.Object. |
77 | invoke-static/range {vx..vy},methodtocall | Invokes static method with a range of registers. The instruction specifies the first register and the number of registers to be passed to the method. | 7703 3A00 1300 - invoke-static/range {v19..21},java.lang.Integer.parseInt:( Ljava/lang/String;)I // method@0034 Invokes method@3A with 1 parameters (second byte of the instruction=03). The parameter is stored in v19 (5th,6th bytes of the instruction). |
78 | invoke-interface-range | Invokes an interface method with a range of registers. The instruction specifies the first register and the number of registers to be passed to the method. | 7840 2102 0100 invoke-interface {v1..v4}, mwfw.IReceivingProtocolAdapter.receivePackage:( ILjava/lang/String;Ljava/io/InputStream;)Z // method@0221 Invokes method@221 interface method using parameters in v1..v4. |
79 | unused_79 | ||
7A | unused_7A | ||
7B | neg-int vx,vy | Calculates vx=-vy. | 7B01 - neg-int v1,v0 Calculates -v0 and stores the result in v1. |
7C | not-int vx,vy | ||
7D | neg-long vx,vy | Calculates vx,vx+1=-(vy,vy+1) | 7D02 - neg-long v2,v0 Calculates -(v0,v1) and stores the result into (v2,v3) |
7E | not-long vx,vy | ||
7F | neg-float vx,vy | Calculates vx=-vy | 7F01 - neg-float v1,v0 Calculates -v0 and stores the result into v1. |
80 | neg-double vx,vy | Calculates vx,vx+1=-(vy,vy+1) | 8002 - neg-double v2,v0 Calculates -(v0,v1) and stores the result into (v2,v3) |
81 | int-to-long vx, vy | Converts the integer in vy into a long in vx,vx+1. | 8106 - int-to-long v6, v0 Converts an integer in v0 into a long in v6,v7. |
82 | int-to-float vx, vy | Converts the integer in vx into a float in vx. | 8206 - int-to-float v6, v0 Converts the integer in v0 into a float in v6. |
83 | int-to-double vx, vy | Converts the integer in vy into the double in vx,vx+1. | 8306 - int-to-double v6, v0 Converts the integer in v0 into a double in v6,v7 |
84 | long-to-int vx,vy | Converts the long value in vy,vy+1 into an integer in vx. | 8424 - long-to-int v4, v2 Converts the long value in v2,v3 into an integer value in v4. |
85 | long-to-float vx, vy | Converts the long value in vy,vy+1 into a float in vx. | 8510 - long-to-float v0, v1 Convcerts the long value in v1,v2 into a float value in v0. |
86 | long-to-double vx, vy | Converts the long value in vy,vy+1 into a double value in vx,vx+1. | 8610 - long-to-double v0, v1 Converts the long value in v1,v2 into a double value in v0,v1. |
87 | float-to-int vx, vy | Converts the float value in vy into an integer value in vx. | 8730 - float-to-int v0, v3 Converts the float value in v3 into an integer value in v0. |
88 | float-to-long vx,vy | Converts the float value in vy into a long value in vx. | 8830 - float-to-long v0, v3 Converts the float value in v3 into a long value in v0,v1. |
89 | float-to-double vx, vy | Converts the float value in vy into a double value in vx,vx+1. | 8930 - float-to-double v0, v3 Converts the float value in v3 into a double value in v0,v1. |
8A | double-to-int vx, vy | Converts the double value in vy,vy+1 into an integer value in vx. | 8A40 - double-to-int v0, v4 Converts the double value in v4,v5 into an integer value in v0. |
8B | double-to-long vx, vy | Converts the double value in vy,vy+1 into a long value in vx,vx+1. | 8B40 - double-to-long v0, v4 Converts the double value in v4,v5 into a long value in v0,v1. |
8C | double-to-float vx, vy | Converts the double value in vy,vy+1 into a float value in vx. | 8C40 - double-to-float v0, v4 Converts the double value in v4,v5 into a float value in v0,v1. |
8D | int-to-byte vx,vy | Converts the int value in vy to a byte value and stores it in vx. | 8D00 - int-to-byte v0, v0 Converts the integer in v0 into a byte and puts the byte value into v0. |
8E | int-to-char vx,vy | Converts the int value in vy to a char value and stores it in vx. | 8E33 - int-to-char v3, v3 Converts the integer in v3 into a char and puts the char value into v3. |
8F | int-to-short vx,vy | Converts the int value in vy to a short value and stores it in vx. | 8F00 - int-to-short v0, v0 Converts the integer in v0 into a short and puts the short value into v3. |
90 | add-int vx,vy,vz | Calculates vy+vz and puts the result into vx. | 9000 0203 - add-int v0, v2, v3 Adds v3 to v2 and puts the result into v04. |
91 | sub-int vx,vy,vz | Calculates vy-vz and puts the result into vx. | 9100 0203 - sub-int v0, v2, v3 Subtracts v3 from v2 and puts the result into v0. |
92 | mul-int vx, vy, vz | Multiplies vz with wy and puts the result int vx. | 9200 0203 - mul-int v0,v2,v3 Multiplies v2 with w3 and puts the result into v0 |
93 | div-int vx,vy,vz | Divides vy with vz and puts the result into vx. | 9303 0001 - div-int v3, v0, v1 Divides v0 with v1 and puts the result into v3. |
94 | rem-int vx,vy,vz | Calculates vy % vz and puts the result into vx. | 9400 0203 - rem-int v0, v2, v3 Calculates v3 % v2 and puts the result into v0. |
95 | and-int vx, vy, vz | Calculates vy AND vz and puts the result into vx. | 9503 0001 - and-int v3, v0, v1 Calculates v0 AND v1 and puts the result into v3. |
96 | or-int vx, vy, vz | Calculates vy OR vz and puts the result into vx. | 9603 0001 - or-int v3, v0, v1 Calculates v0 OR v1 and puts the result into v3. |
97 | xor-int vx, vy, vz | Calculates vy XOR vz and puts the result into vx. | 9703 0001 - xor-int v3, v0, v1 Calculates v0 XOR v1 and puts the result into v3. |
98 | shl-int vx, vy, vz | Shift vy left by the positions specified by vz and store the result into vx. | 9802 0001 - shl-int v2, v0, v1 Shift v0 left by the positions specified by v1 and store the result in v2. |
99 | shr-int vx, vy, vz | Shift vy right by the positions specified by vz and store the result into vx. | 9902 0001 - shr-int v2, v0, v1 Shift v0 right by the positions specified by v1 and store the result in v2. |
9A | ushr-int vx, vy, vz | Unsigned shift right (>>>) vy by the positions specified by vz and store the result into vx. | 9A02 0001 - ushr-int v2, v0, v1 Unsigned shift v0 right by the positions specified by v1 and store the result in v2. |
9B | add-long vx, vy, vz | Adds vy to vz and puts the result into vx1. | 9B00 0305 - add-long v0, v3, v5 The long value in v3,v4 is added to the value in v5,v6 and the result is stored in v0,v1. |
9C | sub-long vx,vy,vz | Calculates vy-vz and puts the result into vx1. | 9C00 0305 - sub-long v0, v3, v5 Subtracts the long value in v5,v6 from the long value in v3,v4 and puts the result into v0,v1. |
9D | mul-long vx,vy,vz | Calculates vy*vz and puts the result into vx1. | 9D00 0305 - mul-long v0, v3, v5 Multiplies the long value in v5,v6 with the long value in v3,v4 and puts the result into v0,v1. |
9E | div-long vx, vy, vz | Calculates vy/vz and puts the result into vx1. | 9E06 0002 - div-long v6, v0, v2 Divides the long value in v0,v1 with the long value in v2,v3 and pust the result into v6,v7. |
9F | rem-long vx,vy,vz | Calculates vy % vz and puts the result into vx1. | 9F06 0002 - rem-long v6, v0, v2 Calculates v0,v1 % v2,v3 and puts the result into v6,v7. |
A0 | and-long vx, vy, vz | Calculates the vy AND vz and puts the result into vx1. | A006 0002 - and-long v6, v0, v2 Calculates v0,v1 AND v2,v3 and puts the result into v6,v7. |
A1 | or-long vx, vy, vz | Calculates the vy OR vz and puts the result into vx1. | A106 0002 - or-long v6, v0, v2 Calculates v0,v1 OR v2,v3 and puts the result into v6,v7. |
A2 | xor-long vx, vy, vz | Calculates the vy XOR vz and puts the result into vx1. | A206 0002 - xor-long v6, v0, v2 Calculates v0,v1 XOR v2,v3 and puts the result into v6,v7. |
A3 | shl-long vx, vy, vz | Shifts left vy by vz positions and stores the result in vx1. | A302 0004 - shl-long v2, v0, v4 Shift v0,v1 by postions specified by v4 and puts the result into v2,v3. |
A4 | shr-long vx,vy,vz | Shifts right vy by vz positions and stores the result in vx1. | A402 0004 - shr-long v2, v0, v4 Shift v0,v1 by postions specified by v4 and puts the result into v2,v3. |
A5 | ushr-long vx, vy, vz | Unsigned shifts right vy by vz positions and stores the result in vx1. | A502 0004 - ushr-long v2, v0, v4 Unsigned shift v0,v1 by postions specified by v4 and puts the result into v2,v3. |
A6 | add-float vx,vy,vz | Adds vy to vz and puts the result into vx. | A600 0203 - add-float v0, v2, v3 Adds the floating point numbers in v2 and v3 and puts the result into v0. |
A7 | sub-float vx,vy,vz | Calculates vy-vz and puts the result into vx. | A700 0203 - sub-float v0, v2, v3 Calculates v2-v3 and puts the result into v0. |
A8 | mul-float vx, vy, vz | Multiplies vy with vz and puts the result into vx. | A803 0001 - mul-float v3, v0, v1 Multiplies v0 with v1 and puts the result into v3. |
A9 | div-float vx, vy, vz | Calculates vy/vz and puts the result into vx. | A903 0001 - div-float v3, v0, v1 Divides v0 with v1 and puts the result into v3. |
AA | rem-float vx,vy,vz | Calculates vy % vz and puts the result into vx. | AA03 0001 - rem-float v3, v0, v1 Calculates v0 % v1 and puts the result into v3. |
AB | add-double vx,vy,vz | Adds vy to vz and puts the result into vx1. | AB00 0305 - add-double v0, v3, v5 Adds the double value in v5,v6 registers to the double value in v3,v4 registers and places the result in v0,v1 registers. |
AC | sub-double vx,vy,vz | Calculates vy-vz and puts the result into vx1. | AC00 0305 - sub-double v0, v3, v5 Subtracts the value in v5,v6 from the value in v3,v4 and puts the result into v0,v1. |
AD | mul-double vx, vy, vz | Multiplies vy with vz and puts the result into vx1. | AD06 0002 - mul-double v6, v0, v2 Multiplies the double value in v0,v1 with the double value in v2,v3 and puts the result into v6,v7. |
AE | div-double vx, vy, vz | Calculates vy/vz and puts the result into vx1. | AE06 0002 - div-double v6, v0, v2 Divides the double value in v0,v1 with the double value in v2,v3 and puts the result into v6,v7. |
AF | rem-double vx,vy,vz | Calculates vy % vz and puts the result into vx1. | AF06 0002 - rem-double v6, v0, v2 Calculates v0,v1 % v2,v3 and puts the result into v6,v7. |
B0 | add-int/2addr vx,vy | Adds vy to vx. | B010 - add-int/2addr v0,v1 Adds v1 to v0. |
B1 | sub-int/2addr vx,vy | Calculates vx-vy and puts the result into vx. | B140 - sub-int/2addr v0, v4 Subtracts v4 from v0 and puts the result into v0. |
B2 | mul-int/2addr vx,vy | Multiplies vx with vy. | B210 - mul-int/2addr v0, v1 Multiples v0 with v1 and puts the result into v0. |
B3 | div-int/2addr vx,vy | Divides vx with vy and puts the result into vx. | B310 - div-int/2addr v0, v1 Divides v0 with v1 and puts the result into v0. |
B4 | rem-int/2addr vx,vy | Calculates vx % vy and puts the result into vx | B410 - rem-int/2addr v0, v1 Calculates v0 % v1 and puts the result into v0. |
B5 | and-int/2addr vx, vy | Calculates vx AND vy and puts the result into vx. | B510 - and-int/2addr v0, v1 Calculates v0 AND v1 and puts the result into v0. |
B6 | or-int/2addr vx, vy | Calculates vx OR vy and puts the result into vx. | B610 - or-int/2addr v0, v1 Calculates v0 OR v1 and puts the result into v0. |
B7 | xor-int/2addr vx, vy | Calculates vx XOR vy and puts the result into vx. | B710 - xor-int/2addr v0, v1 Calculates v0 XOR v1 and puts the result into v0. |
B8 | shl-int/2addr vx, vy | Shifts vx left by vy positions. | B810 - shl-int/2addr v0, v1 Shift v0 left by v1 positions. |
B9 | shr-int/2addr vx, vy | Shifts vx right by vy positions. | B910 - shr-int/2addr v0, v1 Shift v0 right by v1 positions. |
BA | ushr-int/2addr vx, vy | Unsigned shift right (>>>) vx by the positions specified by vy. | BA10 - ushr-int/2addr v0, v1 Unsigned shift v0 by the positions specified by v1. |
BB | add-long/2addr vx,vy | Adds vy to vx1. | BB20 - add-long/2addr v0, v2 Adds the long value in v2,v3 registers to the long value in v0,v1 registers. |
BC | sub-long/2addr vx,vy | Calculates vx-vy and puts the result into vx1. | BC70 - sub-long/2addr v0, v7 Subtracts the long value in v7,v8 from the long value in v0,v1 and puts the result into v0,v1. |
BD | mul-long/2addr vx,vy | Calculates vx*vy and puts the result into vx1. | BD70 - mul-long/2addr v0, v7 Multiplies the long value in v7,v8 with the long value in v0,v1 and puts the result into v0,v1. |
BE | div-long/2addr vx, vy | Calculates vx/vy and puts the result into vx1. | BE20 - div-long/2addr v0, v2 Divides the long value in v0,v1 with the long value in v2,v3 and puts the result into v0,v1 |
BF | rem-long/2addr vx,vy | Calculates vx % vy and puts the result into vx1. | BF20 - rem-long/2addr v0, v2 Calculates v0,v1 % v2,v3 and puts the result into v0,v1 |
C0 | and-long/2addr vx, vy | Calculates vx AND vy and puts the result into vx1. | C020 - and-long/2addr v0, v2 Calculates v0,v1 OR v2,v3 and puts the result into v0,v1. |
C1 | or-long/2addr vx, vy | Calculates vx OR vy and puts the result into vx1. | C120 - or-long/2addr v0, v2 Calculates v0,v1 OR v2,v3 and puts the result into v0,v1. |
C2 | xor-long/2addr vx, vy | Calculates vx XOR vy and puts the result into vx1. | C220 - xor-long/2addr v0, v2 Calculates v0,v1 XOR v2,v3 and puts the result into v0,v1. |
C3 | shl-long/2addr vx, vy | Shifts left the value in vx,vx+1 by the positions specified by vy and stores the result in vx,vx+1. | C320 - shl-long/2addr v0, v2 Shifts left v0,v1 by the positions specified by v2. |
C4 | shr-long/2addr vx, vy | Shifts right the value in vx,vx+1 by the positions specified by vy and stores the result in vx,vx+1. | C420 - shr-long/2addr v0, v2 Shifts right v0,v1 by the positions specified by v2. |
C5 | ushr-long/2addr vx, vy | Unsigned shifts right the value in vx,vx+1 by the positions specified by vy and stores the result in vx,vx+1. | C520 - ushr-long/2addr v0, v2 Unsigned shifts right v0,v1 by the positions specified by v2. |
C6 | add-float/2addr vx,vy | Adds vy to vx. | C640 - add-float/2addr v0,v4 Adds v4 to v0. |
C7 | sub-float/2addr vx,vy | Calculates vx-vy and stores the result in vx. | C740 - sub-float/2addr v0,v4 Adds v4 to v0. |
C8 | mul-float/2addr vx, vy | Multiplies vx with vy. | C810 - mul-float/2addr v0, v1 Multiplies v0 with v1. |
C9 | div-float/2addr vx, vy | Calculates vx/vy and puts the result into vx. | C910 - div-float/2addr v0, v1 Divides v0 with v1 and puts the result into v0. |
CA | rem-float/2addr vx,vy | Calculates vx/vy and puts the result into vx. | CA10 - rem-float/2addr v0, v1 Calculates v0 % v1 and puts the result into v0. |
CB | add-double/2addr vx, vy | Adds vy to vx1. | CB70 - add-double/2addr v0, v7 Adds v7 to v0. |
CC | sub-double/2addr vx, vy | Calculates vx-vy and puts the result into vx1. | CC70 - sub-double/2addr v0, v7 Subtracts the value in v7,v8 from the value in v0,v1 and puts the result into v0,v1. |
CD | mul-double/2addr vx, vy | Multiplies vx with vy1. | CD20 - mul-double/2addr v0, v2 Multiplies the double value in v0,v1 with the double value in v2,v3 and puts the result into v0,v1. |
CE | div-double/2addr vx, vy | Calculates vx/vy and puts the result into vx1. | CE20 - div-double/2addr v0, v2 Divides the double value in v0,v1 with the double value in v2,v3 and puts the value into v0,v1. |
CF | rem-double/2addr vx,vy | Calculates vx % vy and puts the result into vx1. | CF20 - rem-double/2addr v0, v2 Calculates v0,v1 % v2,v3 and puts the value into v0,v1. |
D0 | add-int/lit16 vx,vy,lit16 | Adds vy to lit16 and stores the result into vx. | D001 D204 - add-int/lit16 v1, v0, #int 1234 // #04d2 Adds v0 to literal 1234 and stores the result into v1. |
D1 | sub-int/lit16 vx,vy,lit16 | Calculates vy - lit16 and stores the result into vx. | D101 D204 - sub-int/lit16 v1, v0, #int 1234 // #04d2 Calculates v0 - literal 1234 and stores the result into v1. |
D2 | mul-int/lit16 vx,vy,lit16 | Calculates vy * lit16 and stores the result into vx. | D201 D204 - mul-int/lit16 v1, v0, #int 1234 // #04d2 Calculates v0 * literal 1234 and stores the result into v1. |
D3 | div-int/lit16 vx,vy,lit16 | Calculates vy / lit16 and stores the result into vx. | D301 D204 - div-int/lit16 v1, v0, #int 1234 // #04d2 Calculates v0 / literal 1234 and stores the result into v1. |
D4 | rem-int/lit16 vx,vy,lit16 | Calculates vy % lit16 and stores the result into vx. | D401 D204 - rem-int/lit16 v1, v0, #int 1234 // #04d2 Calculates v0 % literal 1234 and stores the result into v1. |
D5 | and-int/lit16 vx,vy,lit16 | Calculates vy AND lit16 and stores the result into vx. | D501 D204 - and-int/lit16 v1, v0, #int 1234 // #04d2 Calculates v0 AND literal 1234 and stores the result into v1. |
D6 | or-int/lit16 vx,vy,lit16 | Calculates vy OR lit16 and stores the result into vx. | D601 D204 - or-int/lit16 v1, v0, #int 1234 // #04d2 Calculates v0 OR literal 1234 and stores the result into v1. |
D7 | xor-int/lit16 vx,vy,lit16 | Calculates vy XOR lit16 and stores the result into vx. | D701 D204 - xor-int/lit16 v1, v0, #int 1234 // #04d2 Calculates v0 XOR literal 1234 and stores the result into v1. |
D8 | add-int/lit8 vx,vy,lit8 | Adds vy to lit8 and stores the result into vx. | D800 0201 - add-int/lit8 v0,v2, #int1 Adds literal 1 to v2 and stores the result into v0. |
D9 | sub-int/lit8 vx,vy,lit8 | Calculates vy-lit8 and stores the result into vx. | D900 0201 - sub-int/lit8 v0,v2, #int1 Calculates v2-1 and stores the result into v0. |
DA | mul-int/lit-8 vx,vy,lit8 | Multiplies vy with lit8 8-bit literal constant and puts the result into vx. | DA00 0002 - mul-int/lit8 v0,v0, #int2 Multiplies v0 with literal 2 and puts the result into v0. |
DB | div-int/lit8 vx,vy,lit8 | Calculates vy/lit8 and stores the result into vx. | DB00 0203 - mul-int/lit8 v0,v2, #int3 Calculates v2/3 and stores the result into v0. |
DC | rem-int/lit8 vx,vy,lit8 | Calculates vy % lit8 and stores the result into vx. | DC00 0203 - rem-int/lit8 v0,v2, #int3 Calculates v2 % 3 and stores the result into v0. |
DD | and-int/lit8 vx,vy,lit8 | Calculates vy AND lit8 and stores the result into vx. | DD00 0203 - and-int/lit8 v0,v2, #int3 Calculates v2 AND 3 and stores the result into v0. |
DE | or-int/lit8 vx, vy, lit8 | Calculates vy OR lit8 and puts the result into vx. | DE00 0203 - or-int/lit8 v0, v2, #int 3 Calculates v2 OR literal 3 and puts the result into v0. |
DF | xor-int/lit8 vx, vy, lit8 | Calculates vy XOR lit8 and puts the result into vx. | DF00 0203 | 0008: xor-int/lit8 v0, v2, #int 3 Calculates v2 XOR literal 3 and puts the result into v0. |
E0 | shl-int/lit8 vx, vy, lit8 | Shift v0 left by the bit positions specified by the literal constant and put the result into vx. | E001 0001 - shl-int/lit8 v1, v0, #int 1 Shift v0 left by 1 position and put the result into v1. |
E1 | shr-int/lit8 vx, vy, lit8 | Shift v0 right by the bit positions specified by the literal constant and put the result into vx. | E101 0001 - shr-int/lit8 v1, v0, #int 1 Shift v0 right by 1 position and put the result into v1. |
E2 | ushr-int/lit8 vx, vy, lit8 | Unsigned right shift of v0 (>>>) by the bit positions specified by the literal constant and put the result into vx. | E201 0001 - ushr-int/lit8 v1, v0, #int 1 Unsigned shift v0 right by 1 position and put the result into v1. |
E3 | unused_E3 | ||
E4 | unused_E4 | ||
E5 | unused_E5 | ||
E6 | unused_E6 | ||
E7 | unused_E7 | ||
E8 | unused_E8 | ||
E9 | unused_E9 | ||
EA | unused_EA | ||
EB | unused_EB | ||
EC | unused_EC | ||
ED | unused_ED | ||
EE | execute-inline {parameters},inline ID | Executes the inline method identified by inline ID6. | EE20 0300 0100 - execute-inline {v1, v0}, inline #0003 Executes inline method #3 using v1 as “this” and passing one parameter in v0. |
EF | unused_EF | ||
F0 | invoke-direct-empty | Stands as a placeholder for pruned empty methods like Object. |
F010 F608 0000 - invoke-direct-empty {v0}, Ljava/lang/Object;. |
F1 | unused_F1 | ||
F2 | iget-quick vx,vy,offset | Gets the value stored at offset in vy instance’s data area to vx6. | F221 1000 - iget-quick v1, v2, [obj+0010] Gets the value at offset 0CH of the instance pointed by v2 and stores the object reference in v1. |
F3 | iget-wide-quick vx,vy,offset | Gets the object reference value stored at offset in vy instance’s data area to vx,vx+16. | F364 3001 - iget-wide-quick v4, v6, [obj+0130] Gets the value at offset 130H of the instance pointed by v6 and stores the object reference in v4,v5. |
F4 | iget-object-quick vx,vy,offset | Gets the object reference value stored at offset in vy instance’s data area to vx6. | F431 0C00 - iget-object-quick v1, v3, [obj+000c] Gets the object reference value at offset 0CH of the instance pointed by v3 and stores the object reference in v1. |
F5 | iput-quick vx,vy,offset | Puts the value stored in vx to offset in vy instance’s data area6. | F521 1000 - iput-quick v1, v2, [obj+0010] Puts the object reference value in v1 to offset 10H of the instance pointed by v2. |
F6 | iput-wide-quick vx,vy,offset | Puts the value stored in vx,vx+1 to offset in vy instance’s data area6. | F652 7001 - iput-wide-quick v2, v5, [obj+0170] Puts the value in v2,v3 to offset 170H of the instance pointed by v5. |
F7 | iput-object-quick vx,vy,offset | Puts the object reference value stored in vx to offset in vy instance’s data area to vx6. | F701 4C00 - iput-object-quick v1, v0, [obj+004c] Puts the object reference value in v1 to offset 0CH of the instance pointed by v3. |
F8 | invoke-virtual-quick {parameters},vtable offset | Invokes a virtual method using the vtable of the target object6. | F820 B800 CF00 - invoke-virtual-quick {v15, v12}, vtable #00b8 Invokes a virtual method. The target object instance is pointed by v15 and vtable entry #B8 points to the method to be called. v12 is a parameter to the method call. |
F9 | invoke-virtual-quick/range {parameter range},vtable offset | Invokes a virtual method using the vtable of the target object6 | F906 1800 0000 - invoke-virtual-quick/range {v0..v5},vtable #0018 Invokes a method using the vtable of the instance pointed by v0. v1..v5 registers are parameters to the method call. |
FA | invoke-super-quick {parameters},vtable offset | Invokes a virtual method in the target object’s immediate parent class using the vtable of that parent class6. | FA40 8100 3254 - invoke-super-quick {v2, v3, v4, v5}, vtable #0081 Invokes a method using the vtable of the immediate parent class of instance pointed by v2. v3, v4 and v5 registers are parameters to the method call. |
FB | invoke-super-quick/range {register range},vtable offset | Invokes a virtual method in the target object’s immediate parent class using the vtable of that parent class6. | F906 1B00 0000 - invoke-super-quick/range {v0..v5}, vtable #001b Invokes a method using the vtable of the immediate parent class of instance pointed by v0. v1..v5 registers are parameters to the method call. |
FC | unused_FC | ||
FD | unused_FD | ||
FE | unused_FE | ||
FF | unused_FF |
最后附上循环、switch 以及 try-catch 三大常见的语句的事例。
循环
1 |
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switch 语句
1 |
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其中case定义情况有两种:
1 |
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或者:
1 |
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try-catch 语句
1 |
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- 本文作者:ShouCheng
- 本文链接:http://shoucheng3.github.io/2023/03/17/2023-03-17-smali%E8%AF%AD%E6%B3%95/index.html
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