如何实现在Windows上运行Linux程序,附示例代码(一)
微软在去年发布了Bash On Windows, 这项技术允许在Windows上运行Linux程序, 我相信已经有很多文章解释过Bash On Windows的原理,
而今天的这篇文章将会讲解如何自己实现一个简单的原生Linux程序运行器, 这个运行器在用户层实现, 原理和Bash On Windows不完全一样,比较接近Linux上的Wine.
初步了解ELF格式
首先让我们先了解什么是原生Linux程序, 以下说明摘自维基百科
In computing, the Executable and Linkable Format (ELF, formerly named Extensible Linking Format), is a common standard file format for executable files, object code, shared libraries, and core dumps. First published in the specification for the application binary interface (ABI) of the Unix operating system version named System V Release 4 (SVR4),[2] and later in the Tool Interface Standard,[1] it was quickly accepted among different vendors of Unix systems. In 1999, it was chosen as the standard binary file format for Unix and Unix-like systems on x86 processors by the 86open project.
By design, ELF is flexible, extensible, and cross-platform, not bound to any given central processing unit (CPU) or instruction set architecture. This has allowed it to be adopted by many different operating systems on many different hardware platforms.
Linux的可执行文件格式采用了ELF格式, 而Windows采用了PE格式, 也就是我们经常使用的exe文件的格式.
ELF格式的结构如下
大致上可以分为这些部分
- ELF头,在文件的最开头,储存了类型和版本等信息
- 程序头, 供程序运行时解释器(interpreter)使用
- 节头, 供程序编译时链接器(linker)使用, 运行时不需要读节头
- 节内容, 不同的节作用都不一样
- .text 代码节,保存了主要的程序代码
- .rodata 保存了只读的数据,例如字符串(const char*)
- .data 保存了可读写的数据,例如全局变量
- 还有其他各种各样的节
让我们来实际看一下Linux可执行程序的样子
以下的编译环境是Ubuntu 16.04 x64 + gcc 5.4.0, 编译环境不一样可能会得出不同的结果
首先创建hello.c,写入以下的代码
#include <stdio.h>
int max(int x, int y) {
return x > y ? x : y;
}
int main() {
printf("max is %d\n", max(123, 321));
printf("test many arguments %d %d %d %s %s %s %s %s %s\n", 1, 2, 3, "a", "b", "c", "d", "e", "f");
return 100;
}
然后使用gcc编译这份代码
gcc hello.c
编译完成后你可以看到hello.c旁边多了一个a.out, 这就是linux的可执行文件了, 现在可以在linux上运行它
./a.out
你可以看到以下输出
max is 321
test many arguments 1 2 3 a b c d e f
我们来看看a.out包含了什么,解析ELF文件可以使用readelf命令
readelf -a ./a.out
可以看到输出了以下的信息
ELF 头:
Magic: 7f 45 4c 46 02 01 01 00 00 00 00 00 00 00 00 00
类别: ELF64
数据: 2 补码,小端序 (little endian)
版本: 1 (current)
OS/ABI: UNIX - System V
ABI 版本: 0
类型: EXEC (可执行文件)
系统架构: Advanced Micro Devices X86-64
版本: 0x1
入口点地址: 0x400430
程序头起点: 64 (bytes into file)
Start of section headers: 6648 (bytes into file)
标志: 0x0
本头的大小: 64 (字节)
程序头大小: 56 (字节)
Number of program headers: 9
节头大小: 64 (字节)
节头数量: 31
字符串表索引节头: 28
节头:
[号] 名称 类型 地址 偏移量
大小 全体大小 旗标 链接 信息 对齐
[ 0] NULL 0000000000000000 00000000
0000000000000000 0000000000000000 0 0 0
[ 1] .interp PROGBITS 0000000000400238 00000238
000000000000001c 0000000000000000 A 0 0 1
[ 2] .note.ABI-tag NOTE 0000000000400254 00000254
0000000000000020 0000000000000000 A 0 0 4
[ 3] .note.gnu.build-i NOTE 0000000000400274 00000274
0000000000000024 0000000000000000 A 0 0 4
[ 4] .gnu.hash GNU_HASH 0000000000400298 00000298
000000000000001c 0000000000000000 A 5 0 8
[ 5] .dynsym DYNSYM 00000000004002b8 000002b8
0000000000000060 0000000000000018 A 6 1 8
[ 6] .dynstr STRTAB 0000000000400318 00000318
000000000000003f 0000000000000000 A 0 0 1
[ 7] .gnu.version VERSYM 0000000000400358 00000358
0000000000000008 0000000000000002 A 5 0 2
[ 8] .gnu.version_r VERNEED 0000000000400360 00000360
0000000000000020 0000000000000000 A 6 1 8
[ 9] .rela.dyn RELA 0000000000400380 00000380
0000000000000018 0000000000000018 A 5 0 8
[10] .rela.plt RELA 0000000000400398 00000398
0000000000000030 0000000000000018 AI 5 24 8
[11] .init PROGBITS 00000000004003c8 000003c8
000000000000001a 0000000000000000 AX 0 0 4
[12] .plt PROGBITS 00000000004003f0 000003f0
0000000000000030 0000000000000010 AX 0 0 16
[13] .plt.got PROGBITS 0000000000400420 00000420
0000000000000008 0000000000000000 AX 0 0 8
[14] .text PROGBITS 0000000000400430 00000430
00000000000001f2 0000000000000000 AX 0 0 16
[15] .fini PROGBITS 0000000000400624 00000624
0000000000000009 0000000000000000 AX 0 0 4
[16] .rodata PROGBITS 0000000000400630 00000630
0000000000000050 0000000000000000 A 0 0 8
[17] .eh_frame_hdr PROGBITS 0000000000400680 00000680
000000000000003c 0000000000000000 A 0 0 4
[18] .eh_frame PROGBITS 00000000004006c0 000006c0
0000000000000114 0000000000000000 A 0 0 8
[19] .init_array INIT_ARRAY 0000000000600e10 00000e10
0000000000000008 0000000000000000 WA 0 0 8
[20] .fini_array FINI_ARRAY 0000000000600e18 00000e18
0000000000000008 0000000000000000 WA 0 0 8
[21] .jcr PROGBITS 0000000000600e20 00000e20
0000000000000008 0000000000000000 WA 0 0 8
[22] .dynamic DYNAMIC 0000000000600e28 00000e28
00000000000001d0 0000000000000010 WA 6 0 8
[23] .got PROGBITS 0000000000600ff8 00000ff8
0000000000000008 0000000000000008 WA 0 0 8
[24] .got.plt PROGBITS 0000000000601000 00001000
0000000000000028 0000000000000008 WA 0 0 8
[25] .data PROGBITS 0000000000601028 00001028
0000000000000010 0000000000000000 WA 0 0 8
[26] .bss NOBITS 0000000000601038 00001038
0000000000000008 0000000000000000 WA 0 0 1
[27] .comment PROGBITS 0000000000000000 00001038
0000000000000034 0000000000000001 MS 0 0 1
[28] .shstrtab STRTAB 0000000000000000 000018ea
000000000000010c 0000000000000000 0 0 1
[29] .symtab SYMTAB 0000000000000000 00001070
0000000000000660 0000000000000018 30 47 8
[30] .strtab STRTAB 0000000000000000 000016d0
000000000000021a 0000000000000000 0 0 1
Key to Flags:
W (write), A (alloc), X (execute), M (merge), S (strings), l (large)
I (info), L (link order), G (group), T (TLS), E (exclude), x (unknown)
O (extra OS processing required) o (OS specific), p (processor specific)
There are no section groups in this file.
程序头:
Type Offset VirtAddr PhysAddr
FileSiz MemSiz Flags Align
PHDR 0x0000000000000040 0x0000000000400040 0x0000000000400040
0x00000000000001f8 0x00000000000001f8 R E 8
INTERP 0x0000000000000238 0x0000000000400238 0x0000000000400238
0x000000000000001c 0x000000000000001c R 1
[Requesting program interpreter: /lib64/ld-linux-x86-64.so.2]
LOAD 0x0000000000000000 0x0000000000400000 0x0000000000400000
0x00000000000007d4 0x00000000000007d4 R E 200000
LOAD 0x0000000000000e10 0x0000000000600e10 0x0000000000600e10
0x0000000000000228 0x0000000000000230 RW 200000
DYNAMIC 0x0000000000000e28 0x0000000000600e28 0x0000000000600e28
0x00000000000001d0 0x00000000000001d0 RW 8
NOTE 0x0000000000000254 0x0000000000400254 0x0000000000400254
0x0000000000000044 0x0000000000000044 R 4
GNU_EH_FRAME 0x0000000000000680 0x0000000000400680 0x0000000000400680
0x000000000000003c 0x000000000000003c R 4
GNU_STACK 0x0000000000000000 0x0000000000000000 0x0000000000000000
0x0000000000000000 0x0000000000000000 RW 10
GNU_RELRO 0x0000000000000e10 0x0000000000600e10 0x0000000000600e10
0x00000000000001f0 0x00000000000001f0 R 1
Section to Segment mapping:
段节...
00
01 .interp
02 .interp .note.ABI-tag .note.gnu.build-id .gnu.hash .dynsym .dynstr .gnu.version .gnu.version_r .rela.dyn .rela.plt .init .plt .plt.got .text .fini .rodata .eh_frame_hdr .eh_frame
03 .init_array .fini_array .jcr .dynamic .got .got.plt .data .bss
04 .dynamic
05 .note.ABI-tag .note.gnu.build-id
06 .eh_frame_hdr
07
08 .init_array .fini_array .jcr .dynamic .got
Dynamic section at offset 0xe28 contains 24 entries:
标记 类型 名称/值
0x0000000000000001 (NEEDED) 共享库:[libc.so.6]
0x000000000000000c (INIT) 0x4003c8
0x000000000000000d (FINI) 0x400624
0x0000000000000019 (INIT_ARRAY) 0x600e10
0x000000000000001b (INIT_ARRAYSZ) 8 (bytes)
0x000000000000001a (FINI_ARRAY) 0x600e18
0x000000000000001c (FINI_ARRAYSZ) 8 (bytes)
0x000000006ffffef5 (GNU_HASH) 0x400298
0x0000000000000005 (STRTAB) 0x400318
0x0000000000000006 (SYMTAB) 0x4002b8
0x000000000000000a (STRSZ) 63 (bytes)
0x000000000000000b (SYMENT) 24 (bytes)
0x0000000000000015 (DEBUG) 0x0
0x0000000000000003 (PLTGOT) 0x601000
0x0000000000000002 (PLTRELSZ) 48 (bytes)
0x0000000000000014 (PLTREL) RELA
0x0000000000000017 (JMPREL) 0x400398
0x0000000000000007 (RELA) 0x400380
0x0000000000000008 (RELASZ) 24 (bytes)
0x0000000000000009 (RELAENT) 24 (bytes)
0x000000006ffffffe (VERNEED) 0x400360
0x000000006fffffff (VERNEEDNUM) 1
0x000000006ffffff0 (VERSYM) 0x400358
0x0000000000000000 (NULL) 0x0
重定位节 '.rela.dyn' 位于偏移量 0x380 含有 1 个条目:
偏移量 信息 类型 符号值 符号名称 + 加数
000000600ff8 000300000006 R_X86_64_GLOB_DAT 0000000000000000 __gmon_start__ + 0
重定位节 '.rela.plt' 位于偏移量 0x398 含有 2 个条目:
偏移量 信息 类型 符号值 符号名称 + 加数
000000601018 000100000007 R_X86_64_JUMP_SLO 0000000000000000 printf@GLIBC_2.2.5 + 0
000000601020 000200000007 R_X86_64_JUMP_SLO 0000000000000000 __libc_start_main@GLIBC_2.2.5 + 0
The decoding of unwind sections for machine type Advanced Micro Devices X86-64 is not currently supported.
Symbol table '.dynsym' contains 4 entries:
Num: Value Size Type Bind Vis Ndx Name
0: 0000000000000000 0 NOTYPE LOCAL DEFAULT UND
1: 0000000000000000 0 FUNC GLOBAL DEFAULT UND printf@GLIBC_2.2.5 (2)
2: 0000000000000000 0 FUNC GLOBAL DEFAULT UND __libc_start_main@GLIBC_2.2.5 (2)
3: 0000000000000000 0 NOTYPE WEAK DEFAULT UND __gmon_start__
Symbol table '.symtab' contains 68 entries:
Num: Value Size Type Bind Vis Ndx Name
0: 0000000000000000 0 NOTYPE LOCAL DEFAULT UND
1: 0000000000400238 0 SECTION LOCAL DEFAULT 1
2: 0000000000400254 0 SECTION LOCAL DEFAULT 2
3: 0000000000400274 0 SECTION LOCAL DEFAULT 3
4: 0000000000400298 0 SECTION LOCAL DEFAULT 4
5: 00000000004002b8 0 SECTION LOCAL DEFAULT 5
6: 0000000000400318 0 SECTION LOCAL DEFAULT 6
7: 0000000000400358 0 SECTION LOCAL DEFAULT 7
8: 0000000000400360 0 SECTION LOCAL DEFAULT 8
9: 0000000000400380 0 SECTION LOCAL DEFAULT 9
10: 0000000000400398 0 SECTION LOCAL DEFAULT 10
11: 00000000004003c8 0 SECTION LOCAL DEFAULT 11
12: 00000000004003f0 0 SECTION LOCAL DEFAULT 12
13: 0000000000400420 0 SECTION LOCAL DEFAULT 13
14: 0000000000400430 0 SECTION LOCAL DEFAULT 14
15: 0000000000400624 0 SECTION LOCAL DEFAULT 15
16: 0000000000400630 0 SECTION LOCAL DEFAULT 16
17: 0000000000400680 0 SECTION LOCAL DEFAULT 17
18: 00000000004006c0 0 SECTION LOCAL DEFAULT 18
19: 0000000000600e10 0 SECTION LOCAL DEFAULT 19
20: 0000000000600e18 0 SECTION LOCAL DEFAULT 20
21: 0000000000600e20 0 SECTION LOCAL DEFAULT 21
22: 0000000000600e28 0 SECTION LOCAL DEFAULT 22
23: 0000000000600ff8 0 SECTION LOCAL DEFAULT 23
24: 0000000000601000 0 SECTION LOCAL DEFAULT 24
25: 0000000000601028 0 SECTION LOCAL DEFAULT 25
26: 0000000000601038 0 SECTION LOCAL DEFAULT 26
27: 0000000000000000 0 SECTION LOCAL DEFAULT 27
28: 0000000000000000 0 FILE LOCAL DEFAULT ABS crtstuff.c
29: 0000000000600e20 0 OBJECT LOCAL DEFAULT 21 __JCR_LIST__
30: 0000000000400460 0 FUNC LOCAL DEFAULT 14 deregister_tm_clones
31: 00000000004004a0 0 FUNC LOCAL DEFAULT 14 register_tm_clones
32: 00000000004004e0 0 FUNC LOCAL DEFAULT 14 __do_global_dtors_aux
33: 0000000000601038 1 OBJECT LOCAL DEFAULT 26 completed.7585
34: 0000000000600e18 0 OBJECT LOCAL DEFAULT 20 __do_global_dtors_aux_fin
35: 0000000000400500 0 FUNC LOCAL DEFAULT 14 frame_dummy
36: 0000000000600e10 0 OBJECT LOCAL DEFAULT 19 __frame_dummy_init_array_
37: 0000000000000000 0 FILE LOCAL DEFAULT ABS hello.c
38: 0000000000000000 0 FILE LOCAL DEFAULT ABS crtstuff.c
39: 00000000004007d0 0 OBJECT LOCAL DEFAULT 18 __FRAME_END__
40: 0000000000600e20 0 OBJECT LOCAL DEFAULT 21 __JCR_END__
41: 0000000000000000 0 FILE LOCAL DEFAULT ABS
42: 0000000000600e18 0 NOTYPE LOCAL DEFAULT 19 __init_array_end
43: 0000000000600e28 0 OBJECT LOCAL DEFAULT 22 _DYNAMIC
44: 0000000000600e10 0 NOTYPE LOCAL DEFAULT 19 __init_array_start
45: 0000000000400680 0 NOTYPE LOCAL DEFAULT 17 __GNU_EH_FRAME_HDR
46: 0000000000601000 0 OBJECT LOCAL DEFAULT 24 _GLOBAL_OFFSET_TABLE_
47: 0000000000400620 2 FUNC GLOBAL DEFAULT 14 __libc_csu_fini
48: 0000000000000000 0 NOTYPE WEAK DEFAULT UND _ITM_deregisterTMCloneTab
49: 0000000000601028 0 NOTYPE WEAK DEFAULT 25 data_start
50: 0000000000601038 0 NOTYPE GLOBAL DEFAULT 25 _edata
51: 0000000000400624 0 FUNC GLOBAL DEFAULT 15 _fini
52: 0000000000000000 0 FUNC GLOBAL DEFAULT UND printf@@GLIBC_2.2.5
53: 0000000000400526 22 FUNC GLOBAL DEFAULT 14 max
54: 0000000000000000 0 FUNC GLOBAL DEFAULT UND __libc_start_main@@GLIBC_
55: 0000000000601028 0 NOTYPE GLOBAL DEFAULT 25 __data_start
56: 0000000000000000 0 NOTYPE WEAK DEFAULT UND __gmon_start__
57: 0000000000601030 0 OBJECT GLOBAL HIDDEN 25 __dso_handle
58: 0000000000400630 4 OBJECT GLOBAL DEFAULT 16 _IO_stdin_used
59: 00000000004005b0 101 FUNC GLOBAL DEFAULT 14 __libc_csu_init
60: 0000000000601040 0 NOTYPE GLOBAL DEFAULT 26 _end
61: 0000000000400430 42 FUNC GLOBAL DEFAULT 14 _start
62: 0000000000601038 0 NOTYPE GLOBAL DEFAULT 26 __bss_start
63: 000000000040053c 109 FUNC GLOBAL DEFAULT 14 main
64: 0000000000000000 0 NOTYPE WEAK DEFAULT UND _Jv_RegisterClasses
65: 0000000000601038 0 OBJECT GLOBAL HIDDEN 25 __TMC_END__
66: 0000000000000000 0 NOTYPE WEAK DEFAULT UND _ITM_registerTMCloneTable
67: 00000000004003c8 0 FUNC GLOBAL DEFAULT 11 _init
Version symbols section '.gnu.version' contains 4 entries:
地址: 0000000000400358 Offset: 0x000358 Link: 5 (.dynsym)
000: 0 (*本地*) 2 (GLIBC_2.2.5) 2 (GLIBC_2.2.5) 0 (*本地*)
Version needs section '.gnu.version_r' contains 1 entries:
地址:0x0000000000400360 Offset: 0x000360 Link: 6 (.dynstr)
000000: 版本: 1 文件:libc.so.6 计数:1
0x0010:名称:GLIBC_2.2.5 标志:无 版本:2
Displaying notes found at file offset 0x00000254 with length 0x00000020:
Owner Data size Description
GNU 0x00000010 NT_GNU_ABI_TAG (ABI version tag)
OS: Linux, ABI: 2.6.32
Displaying notes found at file offset 0x00000274 with length 0x00000024:
Owner Data size Description
GNU 0x00000014 NT_GNU_BUILD_ID (unique build ID bitstring)
Build ID: debd3d7912be860a432b5c685a6cff7fd9418528
从上面的信息中我们可以知道这个文件的类型是ELF64, 也就是64位的可执行程序, 并且有9个程序头和31个节头, 各个节的作用大家可以在网上找到资料, 这篇文章中只涉及到以下的节
- .init 程序初始化的代码
- .rela.dyn 需要重定位的变量列表
- .rela.plt 需要重定位的函数列表
- .plt 调用动态链接函数的代码
- .text 保存了主要的程序代码
- .init 保存了程序的初始化代码, 用于初始化全局变量等
- .fini 保存了程序的终止代码, 用于析构全局变量等
- .rodata 保存了只读的数据,例如字符串(const char*)
- .data 保存了可读写的数据,例如全局变量
- .dynsym 动态链接的符号表
- .dynstr 动态链接的符号名称字符串
- .dynamic 动态链接所需要的信息,供程序运行时使用(不需要访问节头)
什么是动态链接
上面的程序中调用了printf函数, 然而这个函数的实现并不在./a.out中, 那么printf函数在哪里, 又是怎么被调用的?
printf函数的实现在glibc库中, 也就是/lib/x86_64-linux-gnu/libc.so.6中, 在执行./a.out的时候会在glibc库中找到这个函数并进行调用, 我们来看看这段代码
执行以下命令反编译./a.out
objdump -c -S ./a.out
我们可以看到以下的代码
00000000004003f0 <printf@plt-0x10>:
4003f0: ff 35 12 0c 20 00 pushq 0x200c12(%rip) # 601008 <_GLOBAL_OFFSET_TABLE_+0x8>
4003f6: ff 25 14 0c 20 00 jmpq *0x200c14(%rip) # 601010 <_GLOBAL_OFFSET_TABLE_+0x10>
4003fc: 0f 1f 40 00 nopl 0x0(%rax)
0000000000400400 <printf@plt>:
400400: ff 25 12 0c 20 00 jmpq *0x200c12(%rip) # 601018 <_GLOBAL_OFFSET_TABLE_+0x18>
400406: 68 00 00 00 00 pushq $0x0
40040b: e9 e0 ff ff ff jmpq 4003f0 <_init+0x28>
000000000040053c <main>:
40053c: 55 push %rbp
40053d: 48 89 e5 mov %rsp,%rbp
400540: be 41 01 00 00 mov $0x141,%esi
400545: bf 7b 00 00 00 mov $0x7b,%edi
40054a: e8 d7 ff ff ff callq 400526 <max>
40054f: 89 c6 mov %eax,%esi
400551: bf 38 06 40 00 mov $0x400638,%edi
400556: b8 00 00 00 00 mov $0x0,%eax
40055b: e8 a0 fe ff ff callq 400400 <printf@plt>
在这一段代码中,我们可以看到调用printf会首先调用0x400400的printf@pltprintf@plt会负责在运行时找到实际的printf函数并跳转到该函数
在这里实际的printf函数会保存在0x400406 + 0x200c12 = 0x601018中
需要注意的是0x601018一开始并不会指向实际的printf函数,而是会指向0x400406, 为什么会这样? 因为Linux的可执行程序为了考虑性能,不会在一开始就解决所有动态连接的函数,而是选择了延迟解决.
在上面第一次jmpq *0x200c12(%rip)会跳转到下一条指令0x400406, 又会继续跳转到0x4003f0, 再跳转到0x601010指向的地址, 0x601010指向的地址就是延迟解决的实现, 第一次延迟解决成功后, 0x601018就会指向实际的printf, 以后调用就会直接跳转到实际的printf上.
程序入口点
Linux程序运行首先会从_start函数开始, 上面readelf中的入口点地址0x400430就是_start函数的地址,
0000000000400430 <_start>:
400430: 31 ed xor %ebp,%ebp
400432: 49 89 d1 mov %rdx,%r9
400435: 5e pop %rsi
400436: 48 89 e2 mov %rsp,%rdx
400439: 48 83 e4 f0 and $0xfffffffffffffff0,%rsp
40043d: 50 push %rax
40043e: 54 push %rsp
40043f: 49 c7 c0 20 06 40 00 mov $0x400620,%r8
400446: 48 c7 c1 b0 05 40 00 mov $0x4005b0,%rcx
40044d: 48 c7 c7 3c 05 40 00 mov $0x40053c,%rdi
400454: e8 b7 ff ff ff callq 400410 <__libc_start_main@plt>
400459: f4 hlt
40045a: 66 0f 1f 44 00 00 nopw 0x0(%rax,%rax,1)
接下来_start函数会调用__libc_start_main函数, __libc_start_main是libc库中定义的初始化函数, 负责初始化全局变量和调用main函数等工作.
__libc_start_main函数还负责设置返回值和退出进程, 可以看到上面调用__libc_start_main后的指令是hlt, 这个指令永远不会被执行.
如果您发现该资源为电子书等存在侵权的资源或对该资源描述不正确等,可点击“私信”按钮向作者进行反馈;如作者无回复可进行平台仲裁,我们会在第一时间进行处理!
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