? ?本文將介紹linux程序的執行過程，并以實際問題為切入點簡單介紹下ELF程序的加載過程。

【正文】用后態執行

我們知道在linux系統中可以通過諸如"./debug"方式執行一個程序，那么這個程序的執行過程中linux系統都做了什么？

本文以debug程序為例,介紹linux內核是如何一步步將debug進程執行起來的.

1 執行過程：

以system()實現為例，它是一種典型的可執行程序運行過程：

[cpp]?view plain?copy

#include???

#include???

#include???

#include???

int?system(const?char?*?cmdstring)??

{??

pid_t?pid;??

int?status;??

if(cmdstring?==?NULL){????????

return?(1);??

}??

if((pid?=?fork())<0){??

status?=?-1;??

}??

else?if(pid?=?0){??

execl("/bin/sh",?"sh",?"-c",?cmdstring,?(char?*)0);??

-exit(127);?//子進程正常執行則不會執行此語句??

}??

else{??

while(waitpid(pid,?&status,?0)?

if(errno?!=?EINTER){??

status?=?-1;??

break;??

}??

}??

}??

return?status;??

}??

觀察上面system實現:

1)system在當前進程中fork創建了一個子進程，并執行execl函數運行可執行文件；

2)execl/execve系列函數執行elf文件；

實際上系統通過execve->do_execve_common函數，將上步創建的子進程，完全替換成了可執行程序.

這個替換過程，其實也就是可執行程序的加載過程，也是本文著重介紹的內容.

3) execve使用實例:

#include

int execve(const char *filename, char *const argv[], char *const envp[]);?

[cpp]?view plain?copy

#include??

#include??

int?main(int?arg,?char?**args)??

{??

char?*argv[]={"ls","-al","/home/",?NULL};??

char?*envp[]={0,NULL};???

execve("/bin/ls",argv,envp);??

}??

【正文】內核態執行

linux系統中，可執行程序大多屬于ELF文件格式.

本節以實例介紹:execve("/home/debug",NULL,NULL);其中debug程序是elf格式.

當用后執行execve時，系統都做了什么？下面逐層分析：

1 系統調用：execve->do_execve->do_execve_common

[cpp]?view plain?copy

/*?filename為可執行文件:/home/debug;?

argv為NULL，表示可行程序不帶參數；?

envp為NULL，表示沒有指定環境變量;??*/???

int?do_execve(const?char?*filename,const?char?__user?*const?__user?*__argv,??

const?char?__user?*const?__user?*__envp)??

{??

struct?user_arg_ptr?argv?=?{?.ptr.native?=?__argv?};??

struct?user_arg_ptr?envp?=?{?.ptr.native?=?__envp?};??

return?do_execve_common(filename,?argv,?envp);??

}??

2?execve->do_execve->do_execve_common()注意此時當前進程是上文中創建的子進程。

bprm_mm_init()完成進程地址空間vma（包括棧）的初始化.

[cpp]?view plain?copy

/*?

*?sys_execve()?executes?a?new?program.?

*/??

static?int?do_execve_common(const?char?*filename,??

struct?user_arg_ptr?argv,??

struct?user_arg_ptr?envp)??

{??

/*注意linux_binprm是核心數據結構，它保存了可執行文件的信息；*/??

struct?linux_binprm?*bprm;??

struct?file?*file;??

struct?files_struct?*displaced;??

bool?clear_in_exec;??

int?retval;??

const?struct?cred?*cred?=?current_cred();??

/*?

*?We?move?the?actual?failure?in?case?of?RLIMIT_NPROC?excess?from?

*?set*uid()?to?execve()?because?too?many?poorly?written?programs?

*?don't?check?setuid()?return?code.??Here?we?additionally?recheck?

*?whether?NPROC?limit?is?still?exceeded.?

*/??

if?((current->flags?&?PF_NPROC_EXCEEDED)?&&??

atomic_read(&cred->user->processes)?>?rlimit(RLIMIT_NPROC))?{??

retval?=?-EAGAIN;??

goto?out_ret;??

}??

/*?We're?below?the?limit?(still?or?again),?so?we?don't?want?to?make?

*?further?execve()?calls?fail.?*/??

current->flags?&=?~PF_NPROC_EXCEEDED;??

retval?=?unshare_files(&displaced);??

if?(retval)??

goto?out_ret;??

retval?=?-ENOMEM;??

/*申請linux_binprm描述符，用以保存ELF可執行文件信息*/??

bprm?=?kzalloc(sizeof(*bprm),?GFP_KERNEL);??

if?(!bprm)??

goto?out_files;??

/*生成bprm->cred即準備可執行程序運行的用戶和組信息，主要根據當前進程的task->cred信息生成*/??

retval?=?prepare_bprm_creds(bprm);??

if?(retval)??

goto?out_free;??

retval?=?check_unsafe_exec(bprm);??

if?(retval?

goto?out_free;??

clear_in_exec?=?retval;??

current->in_execve?=?1;??

/*?

1:打開可執行程序?/home/debug;?

*/??

file?=?open_exec(filename);??

retval?=?PTR_ERR(file);??

if?(IS_ERR(file))??

goto?out_unmark;??

sched_exec();??

/*bprm->file為/home/debug文件描述符*/??

bprm->file?=?file;??

/*可執行文件名保存到bprm->filename中*/??

bprm->filename?=?filename;??

bprm->interp?=?filename;??

/*生成bprm->mm，即準備可執行程序的mm_struct信息，?

注意此時生成棧空間信息，不過后面會對棧空間再次調整?

注意此處的bprm->mm不是當前進程的，是bprm_mm_init申請的?

以后用作/home/debug進程的mm_struct;?

*/??

retval?=?bprm_mm_init(bprm);??

if?(retval)??

goto?out_file;??

/*可執行文件參數個數，對/home/debug來說argc=0，因為指定參數為NULL*/??

bprm->argc?=?count(argv,?MAX_ARG_STRINGS);??

if?((retval?=?bprm->argc)?

goto?out;??

/*envc=0參加bprm->argc*/??

bprm->envc?=?count(envp,?MAX_ARG_STRINGS);??

if?((retval?=?bprm->envc)?

goto?out;??

/*?

elf頭保存到bprm->buf中；?

實現方式：?kernel_read(bprm->file,?0,?bprm->buf,?BINPRM_BUF_SIZE);//128bytes?

*/??

retval?=?prepare_binprm(bprm);??

if?(retval?

goto?out;??

retval?=?copy_strings_kernel(1,?&bprm->filename,?bprm);??

if?(retval?

goto?out;??

/*保存execve中指定的環境變量到linux_binprm結構中*/??

bprm->exec?=?bprm->p;??

retval?=?copy_strings(bprm->envc,?envp,?bprm);??

if?(retval?

goto?out;??

/*保存execve中指定的可執行程序參數到linux_binprm結構中*/??

retval?=?copy_strings(bprm->argc,?argv,?bprm);??

if?(retval?

goto?out;??

/*??

該函數負責從flash上加載ELF文件：并將當前子進程信息替換為可執行文件中讀取的信息.?

elf_format->load_binary=load_elf_binary->arch_setup_additional_pages?:?register_binfmt中注冊的elf_format?

->install_special_mapping->insert_vm_struct?

*/??

retval?=?search_binary_handler(bprm);??

if?(retval?

goto?out;??

/*?execve?succeeded?*/??

current->fs->in_exec?=?0;??

current->in_execve?=?0;??

acct_update_integrals(current);??

free_bprm(bprm);??

if?(displaced)??

put_files_struct(displaced);??

return?retval;??

out:??

if?(bprm->mm)?{??

acct_arg_size(bprm,?0);??

mmput(bprm->mm);??

}??

out_file:??

if?(bprm->file)?{??

allow_write_access(bprm->file);??

fput(bprm->file);??

}??

out_unmark:??

if?(clear_in_exec)??

current->fs->in_exec?=?0;??

current->in_execve?=?0;??

out_free:??

free_bprm(bprm);??

out_files:??

if?(displaced)??

reset_files_struct(displaced);??

out_ret:??

return?retval;??

}??

2.1 ELF頭讀取過程：do_execve_common()->prepare_binprm()

[cpp]?view plain?copy

int?prepare_binprm(struct?linux_binprm?*bprm)??

{??

umode_t?mode;??

struct?inode?*?inode?=?file_inode(bprm->file);??

int?retval;??

mode?=?inode->i_mode;??

if?(bprm->file->f_op?==?NULL)??

return?-EACCES;??

/*?clear?any?previous?set[ug]id?data?from?a?previous?binary?*/??

bprm->cred->euid?=?current_euid();??

bprm->cred->egid?=?current_egid();??

if?(!(bprm->file->f_path.mnt->mnt_flags?&?MNT_NOSUID)?&&??

!current->no_new_privs?&&??

kuid_has_mapping(bprm->cred->user_ns,?inode->i_uid)?&&??

kgid_has_mapping(bprm->cred->user_ns,?inode->i_gid))?{??

/*?Set-uid??*/??

if?(mode?&?S_ISUID)?{??

bprm->per_clear?|=?PER_CLEAR_ON_SETID;??

bprm->cred->euid?=?inode->i_uid;??

}??

/*?Set-gid??*/??

/*?

*?If?setgid?is?set?but?no?group?execute?bit?then?this?

*?is?a?candidate?for?mandatory?locking,?not?a?setgid?

*?executable.?

*/??

if?((mode?&?(S_ISGID?|?S_IXGRP))?==?(S_ISGID?|?S_IXGRP))?{??

bprm->per_clear?|=?PER_CLEAR_ON_SETID;??

bprm->cred->egid?=?inode->i_gid;??

}??

}??

/*?fill?in?binprm?security?blob?*/??

retval?=?security_bprm_set_creds(bprm);??

if?(retval)??

return?retval;??

bprm->cred_prepared?=?1;??

memset(bprm->buf,?0,?BINPRM_BUF_SIZE);??

/*?

elf頭保存到bprm->buf中?

*/??

return?kernel_read(bprm->file,?0,?bprm->buf,?BINPRM_BUF_SIZE);??

}??

[ELF文件加載]

ELF文件格式：https://baike.baidu.com/item/ELF/7120560?fr=aladdin

3.1文件頭(Elf header)?：

Elf頭在程序的開始部位，作為引路表描述整個ELF的文件結構，其信息大致分為四部分：一是系統相關信息，二是目標文件類型，三是加載相關信息，四是鏈接相關信息。?

其中系統相關信息包括elf文件魔數(標識elf文件)，平臺位數，數據編碼方式，elf頭部版本，硬件平臺e_machine，目標文件版本 e_version，處理器特定標志e_ftags：這些信息的引入極大增強了elf文件的可移植性，使交叉編譯成為可能。目標文件類型用e_type的值表示，可重定位文件為1，可執行文件為2，共享文件為3;加載相關信息有：程序進入點e_entry．程序頭表偏移量e_phoff，elf頭部長度 e_ehsize，程序頭表中一個條目的長度e_phentsize，程序頭表條目數目e_phnum;鏈接相關信息有：節頭表偏移量e_shoff，節頭表中一個條目的長度e_shentsize，節頭表條目個數e_shnum ，節頭表字符索引e shstmdx。可使用命令"readelf -h filename"來察看文件頭的內容。?

文件頭的數據結構如下：?

[cpp]?view plain?copy

typedef?struct?elf32_hdr{???

unsigned?char?e_ident[EI_NIDENT];???

Elf32_Half?e_type;//目標文件類型???

Elf32_Half?e_machine;//硬件平臺???

Elf32_Word?e_version;//elf頭部版本???

Elf32_Addr?e_entry;//程序進入點???

Elf32_Off?e_phoff;//程序頭表偏移量???

Elf32_Off?e_shoff;//節頭表偏移量???

Elf32_Word?e_flags;/處理器特定標志???

Elf32_Half?e_ehsize;//elf頭部長度???

Elf32_Half?e_phentsize;//程序頭表中一個條目的長度???

Elf32_Half?e_phnum;//程序頭表條目數目???

Elf32_Half?e_shentsize;//節頭表中一個條目的長度???

Elf32_Half?e_shnum;//節頭表條目個數???

Elf32_Half?e_shstrmdx;//節頭表字符索引???

}Elf32_Ehdr;???

程序頭表(program header table)?

程序頭表告訴系統如何建立一個進程映像．它是從加載執行的角度來看待elf文件．從它的角度看．elf文件被分成許多段，elf文件中的代碼、鏈接信息和注釋都以段的形式存放。每個段都在程序頭表中有一個表項描述，包含以下屬性：段的類型，段的駐留位置相對于文件開始處的偏移，段在內存中的首字節地址，段的物理地址，段在文件映像中的字節數．段在內存映像中的字節數，段在內存和文件中的對齊標記。可用"readelf -l filename"察看程序頭表中的內容。程序頭表的結構如下：?

[cpp]?view plain?copy

typedef?struct?elf32_phdr{???

Elf32_Word?p_type;?//段的類型???

Elf32_Off?p_offset;?//段的位置相對于文件開始處的偏移???

Elf32_Addr?p_vaddr;?//段在內存中的首字節地址???

Elf32_Addr?p_paddr;//段的物理地址???

Elf32_Word?p_filesz;//段在文件映像中的字節數???

Elf32_Word?p_memsz;//段在內存映像中的字節數???

Elf32_Word?p_flags;//段的標記???

Elf32_Word?p_align;，/段在內存中的對齊標記???

)Elf32_Phdr;???

節頭表(section header table)?

節頭表描述程序節，為編譯器和鏈接器服務。它把elf文件分成了許多節．每個節保存著用于不同目的的數據．這些數據可能被前面的程序頭重復使用，完成一次任務所需的信息往往被分散到不同的節里。由于節中數據的用途不同，節被分成不同的類型，每種類型的節都有自己組織數據的方式。每一個節在節頭表中都有一個表項描述該節的屬性，節的屬性包括小節名在字符表中的索引，類型，屬性，運行時的虛擬地址，文件偏移，以字節為單位的大小，小節的對齊等信息，可使用"readelf -S filename"來察看節頭表的內容。節頭表的結構如下：?

[cpp]?view plain?copy

typedef?struct{???

Elf32_Word?sh_name;//小節名在字符表中的索引???

E1t32_Word?sh_type;//小節的類型???

Elf32_Word?sh_flags;//小節屬性???

Elf32_Addr?sh_addr;?//小節在運行時的虛擬地址???

Elf32_Off?sh_offset;//小節的文件偏移???

Elf32_Word?sh_size;//小節的大小．以字節為單位???

Elf32_Word?sh_link;//鏈接的另外一小節的索引???

Elf32?Word?sh_info;//附加的小節信息???

Elf32?Word?sh_addralign;//小節的對齊???

Elf32?Word?sh_entsize;?//一些sections保存著一張固定大小入口的表。就像符號表???

}Elf32_Shdr;???

3.2 ELF文件加載的的實現代碼：

代碼流程:?do_execve_common()->search_binary_handler->load_binary=load_elf_binary()

[cpp]?view plain?copy

static?int?load_elf_binary(struct?linux_binprm?*bprm)??

{??

struct?file?*interpreter?=?NULL;?/*?to?shut?gcc?up?*/??

unsigned?long?load_addr?=?0,?load_bias?=?0;??

int?load_addr_set?=?0;??

char?*?elf_interpreter?=?NULL;??

unsigned?long?error;??

struct?elf_phdr?*elf_ppnt,?*elf_phdata;??

unsigned?long?elf_bss,?elf_brk;??

int?retval,?i;??

unsigned?int?size;??

unsigned?long?elf_entry;??

unsigned?long?interp_load_addr?=?0;??

unsigned?long?start_code,?end_code,?start_data,?end_data;??

unsigned?long?reloc_func_desc?__maybe_unused?=?0;??

int?executable_stack?=?EXSTACK_DEFAULT;??

unsigned?long?def_flags?=?0;??

struct?pt_regs?*regs?=?current_pt_regs();??

//Elf32_Ehdr??

struct?{??

struct?elfhdr?elf_ex;??

struct?elfhdr?interp_elf_ex;??

}?*loc;??

loc?=?kmalloc(sizeof(*loc),?GFP_KERNEL);??

if?(!loc)?{??

retval?=?-ENOMEM;??

goto?out_ret;??

}??

/*?

進程的ELF頭保存在此?

*/??

/*?Get?the?exec-header?*/??

loc->elf_ex?=?*((struct?elfhdr?*)bprm->buf);??

retval?=?-ENOEXEC;??

/*?First?of?all,?some?simple?consistency?checks?*/??

if?(memcmp(loc->elf_ex.e_ident,?ELFMAG,?SELFMAG)?!=?0)??

goto?out;??

if?(loc->elf_ex.e_type?!=?ET_EXEC?&&?loc->elf_ex.e_type?!=?ET_DYN)??

goto?out;??

if?(!elf_check_arch(&loc->elf_ex))??

goto?out;??

if?(!bprm->file->f_op?||?!bprm->file->f_op->mmap)??

goto?out;??

/*?Now?read?in?all?of?the?header?information?*/??

if?(loc->elf_ex.e_phentsize?!=?sizeof(struct?elf_phdr))??

goto?out;??

if?(loc->elf_ex.e_phnum?

loc->elf_ex.e_phnum?>?65536U?/?sizeof(struct?elf_phdr))??

goto?out;??

size?=?loc->elf_ex.e_phnum?*?sizeof(struct?elf_phdr);??

retval?=?-ENOMEM;??

elf_phdata?=?kmalloc(size,?GFP_KERNEL);??

if?(!elf_phdata)??

goto?out;??

/*??

保存所有程序段到elf_phdata;注意此處elf_phdr與elfhdr的區別?

1??elf_phdr如下:程序頭?

Program?Headers:?

Type???????????Offset???VirtAddr???PhysAddr???FileSiz?MemSiz??Flg?Align?

EXIDX??????????0x000000?0x00000000?0x00000000?0x00000?0x00000?R???0x4?

PHDR???????????0x000034?0x00008034?0x00008034?0x00120?0x00120?R?E?0x4?

INTERP?????????0x000154?0x00008154?0x00008154?0x00019?0x00019?R???0x1?

[Requesting?program?interpreter:?/lib/ld-linux-armhf.so.3]?

LOAD???????????0x000000?0x00008000?0x00008000?0xb22914?0xb22914?R?E?0x8000?

LOAD???????????0xb22914?0x00b32914?0x00b32914?0x16b4a0?0x3a22d0?RW??0x8000?

DYNAMIC????????0xb25df8?0x00b35df8?0x00b35df8?0x00178?0x00178?RW??0x4?

NOTE???????????0x000170?0x00008170?0x00008170?0x00044?0x00044?R???0x4?

TLS????????????0xb22914?0x00b32914?0x00b32914?0x00000?0x00004?R???0x4?

GNU_STACK??????0x000000?0x00000000?0x00000000?0x00000?0x00000?RWE?0x4?

2??elfhder如下:elf頭?

ELF?Header:?

Magic:???7f?45?4c?46?01?01?01?00?00?00?00?00?00?00?00?00??

Class:?????????????????????????????ELF32?

Data:??????????????????????????????2's?complement,?little?endian?

Version:???????????????????????????1?(current)?

OS/ABI:????????????????????????????UNIX?-?System?V?

ABI?Version:???????????????????????0?

Type:??????????????????????????????EXEC?(Executable?file)?

Machine:???????????????????????????ARM?

Version:???????????????????????????0x1?

Entry?point?address:???????????????0x2fa31?

Start?of?program?headers:??????????52?(bytes?into?file)?

Start?of?section?headers:??????????13164260?(bytes?into?file)?

Flags:?????????????????????????????0x5000402,?has?entry?point,?Version5?EABI,??

Size?of?this?header:???????????????52?(bytes)?

Size?of?program?headers:???????????32?(bytes)?

Number?of?program?headers:?????????9?

Size?of?section?headers:???????????40?(bytes)?

Number?of?section?headers:?????????28?

Section?header?string?table?index:?27?

*/??

/*?程序段存到elf_phdata?*/??

retval?=?kernel_read(bprm->file,?loc->elf_ex.e_phoff,??

(char?*)elf_phdata,?size);??

if?(retval?!=?size)?{??

if?(retval?>=?0)??

retval?=?-EIO;??

goto?out_free_ph;??

}??

elf_ppnt?=?elf_phdata;??

elf_bss?=?0;??

elf_brk?=?0;??

start_code?=?~0UL;??

end_code?=?0;??

start_data?=?0;??

end_data?=?0;??

/*遍歷程序段，每個段32字節描述*/??

for?(i?=?0;?i?elf_ex.e_phnum;?i++)?{??

if?(elf_ppnt->p_type?==?PT_INTERP)?{??

/*?This?is?the?program?interpreter?used?for?

*?shared?libraries?-?for?now?assume?that?this?

*?is?an?a.out?format?binary?

*/??

retval?=?-ENOEXEC;??

if?(elf_ppnt->p_filesz?>?PATH_MAX?||???

elf_ppnt->p_filesz?

goto?out_free_ph;??

retval?=?-ENOMEM;??

elf_interpreter?=?kmalloc(elf_ppnt->p_filesz,??

GFP_KERNEL);??

if?(!elf_interpreter)??

goto?out_free_ph;??

retval?=?kernel_read(bprm->file,?elf_ppnt->p_offset,??

elf_interpreter,??

elf_ppnt->p_filesz);??

if?(retval?!=?elf_ppnt->p_filesz)?{??

if?(retval?>=?0)??

retval?=?-EIO;??

goto?out_free_interp;??

}??

/*?make?sure?path?is?NULL?terminated?*/??

retval?=?-ENOEXEC;??

if?(elf_interpreter[elf_ppnt->p_filesz?-?1]?!=?'\0')??

goto?out_free_interp;??

/*elf_interpreter:/lib/ld-linux-armhf.so.3;bprm->filename:/bin/echo?見上面注釋*/??

interpreter?=?open_exec(elf_interpreter);??

retval?=?PTR_ERR(interpreter);??

if?(IS_ERR(interpreter))??

goto?out_free_interp;??

/*?

*?If?the?binary?is?not?readable?then?enforce?

*?mm->dumpable?=?0?regardless?of?the?interpreter's?

*?permissions.?

*/??

would_dump(bprm,?interpreter);??

retval?=?kernel_read(interpreter,?0,?bprm->buf,??

BINPRM_BUF_SIZE);??

if?(retval?!=?BINPRM_BUF_SIZE)?{??

if?(retval?>=?0)??

retval?=?-EIO;??

goto?out_free_dentry;??

}??

/*?Get?the?exec?headers?*/??

loc->interp_elf_ex?=?*((struct?elfhdr?*)bprm->buf);??

break;??

}??

elf_ppnt++;??

}??

elf_ppnt?=?elf_phdata;??

for?(i?=?0;?i?elf_ex.e_phnum;?i++,?elf_ppnt++)??

if?(elf_ppnt->p_type?==?PT_GNU_STACK)?{??

if?(elf_ppnt->p_flags?&?PF_X)??

executable_stack?=?EXSTACK_ENABLE_X;??

else??

executable_stack?=?EXSTACK_DISABLE_X;??

break;??

}??

/*?Some?simple?consistency?checks?for?the?interpreter?*/??

if?(elf_interpreter)?{??

retval?=?-ELIBBAD;??

/*?Not?an?ELF?interpreter?*/??

if?(memcmp(loc->interp_elf_ex.e_ident,?ELFMAG,?SELFMAG)?!=?0)??

goto?out_free_dentry;??

/*?Verify?the?interpreter?has?a?valid?arch?*/??

if?(!elf_check_arch(&loc->interp_elf_ex))??

goto?out_free_dentry;??

}??

/*?Flush?all?traces?of?the?currently?running?executable?*/??

retval?=?flush_old_exec(bprm);??

if?(retval)??

goto?out_free_dentry;??

/*?OK,?This?is?the?point?of?no?return?*/??

current->mm->def_flags?=?def_flags;??

/*?Do?this?immediately,?since?STACK_TOP?as?used?in?setup_arg_pages?

may?depend?on?the?personality.??*/??

SET_PERSONALITY(loc->elf_ex);??

//executable_stack?=?EXSTACK_DISABLE_X;??

if?(elf_read_implies_exec(loc->elf_ex,?executable_stack))??

current->personality?|=?READ_IMPLIES_EXEC;??

if?(!(current->personality?&?ADDR_NO_RANDOMIZE)?&&?randomize_va_space)??

current->flags?|=?PF_RANDOMIZE;????

/*?

current切換為bprm->filename,bprm->tcomm為進程名?

*/??

setup_new_exec(bprm);??

/*?Do?this?so?that?we?can?load?the?interpreter,?if?need?be.??We?will?

change?some?of?these?later?*/??

current->mm->free_area_cache?=?current->mm->mmap_base;??

current->mm->cached_hole_size?=?0;??

//最終指定進程棧對應的vma??

retval?=?setup_arg_pages(bprm,?randomize_stack_top(STACK_TOP),??

executable_stack);??

if?(retval?

send_sig(SIGKILL,?current,?0);??

goto?out_free_dentry;??

}??

current->mm->start_stack?=?bprm->p;??

/*?Now?we?do?a?little?grungy?work?by?mmapping?the?ELF?image?into?

the?correct?location?in?memory.?*/??

for(i?=?0,?elf_ppnt?=?elf_phdata;??

i?elf_ex.e_phnum;?i++,?elf_ppnt++)?{??

int?elf_prot?=?0,?elf_flags;??

unsigned?long?k,?vaddr;??

#ifndef?gSysDebugInfoExec??

/*?

Program?Headers:?

Type???????????Offset???VirtAddr???PhysAddr???FileSiz?MemSiz??Flg?Align?

EXIDX??????????0x000000?0x00000000?0x00000000?0x00000?0x00000?R???0x4?

PHDR???????????0x000034?0x00008034?0x00008034?0x00120?0x00120?R?E?0x4?

INTERP?????????0x000154?0x00008154?0x00008154?0x00019?0x00019?R???0x1?

[Requesting?program?interpreter:?/lib/ld-linux-armhf.so.3]?

LOAD???????????0x000000?0x00008000?0x00008000?0xb22914?0xb22914?R?E?0x8000?

LOAD???????????0xb22914?0x00b32914?0x00b32914?0x16b4a0?0x3a22d0?RW??0x8000?

DYNAMIC????????0xb25df8?0x00b35df8?0x00b35df8?0x00178?0x00178?RW??0x4?

NOTE???????????0x000170?0x00008170?0x00008170?0x00044?0x00044?R???0x4?

TLS????????????0xb22914?0x00b32914?0x00b32914?0x00000?0x00004?R???0x4?

GNU_STACK??????0x000000?0x00000000?0x00000000?0x00000?0x00000?RWE?0x4?

*/??

/*?此處可以打印出/usr/bin/snmp進程的所有程序段?

也可以通過readelf?命令讀出program?header?

*/??

#endif??

/*?

program?header中LOAD表示的就是p_type?

p_type為PT_LOAD的段需要加載進內存?

*/??

if?(elf_ppnt->p_type?!=?PT_LOAD)??

continue;??

if?(unlikely?(elf_brk?>?elf_bss))?{??

unsigned?long?nbyte;??

/*?There?was?a?PT_LOAD?segment?with?p_memsz?>?p_filesz?

before?this?one.?Map?anonymous?pages,?if?needed,?

and?clear?the?area.??*/??

retval?=?set_brk(elf_bss?+?load_bias,??

elf_brk?+?load_bias);??

if?(retval)?{??

send_sig(SIGKILL,?current,?0);??

goto?out_free_dentry;??

}??

nbyte?=?ELF_PAGEOFFSET(elf_bss);??

if?(nbyte)?{??

nbyte?=?ELF_MIN_ALIGN?-?nbyte;??

if?(nbyte?>?elf_brk?-?elf_bss)??

nbyte?=?elf_brk?-?elf_bss;??

if?(clear_user((void?__user?*)elf_bss?+??

load_bias,?nbyte))?{??

/*?

*?This?bss-zeroing?can?fail?if?the?ELF?

*?file?specifies?odd?protections.?So?

*?we?don't?check?the?return?value?

*/??

}??

}??

}??

if?(elf_ppnt->p_flags?&?PF_R)??

elf_prot?|=?PROT_READ;??

if?(elf_ppnt->p_flags?&?PF_W)??

elf_prot?|=?PROT_WRITE;??

if?(elf_ppnt->p_flags?&?PF_X)??

elf_prot?|=?PROT_EXEC;??

elf_flags?=?MAP_PRIVATE?|?MAP_DENYWRITE?|?MAP_EXECUTABLE;??

vaddr?=?elf_ppnt->p_vaddr;??

if?(loc->elf_ex.e_type?==?ET_EXEC?||?load_addr_set)?{??

elf_flags?|=?MAP_FIXED;??

}?else?if?(loc->elf_ex.e_type?==?ET_DYN)?{??

/*?Try?and?get?dynamic?programs?out?of?the?way?of?the?

*?default?mmap?base,?as?well?as?whatever?program?they?

*?might?try?to?exec.??This?is?because?the?brk?will?

*?follow?the?loader,?and?is?not?movable.??*/??

#ifdef?CONFIG_ARCH_BINFMT_ELF_RANDOMIZE_PIE??

/*?Memory?randomization?might?have?been?switched?off?

*?in?runtime?via?sysctl?or?explicit?setting?of?

*?personality?flags.?

*?If?that?is?the?case,?retain?the?original?non-zero?

*?load_bias?value?in?order?to?establish?proper?

*?non-randomized?mappings.?

*/??

if?(current->flags?&?PF_RANDOMIZE)??

load_bias?=?0;??

else??

load_bias?=?ELF_PAGESTART(ELF_ET_DYN_BASE?-?vaddr);??

#else??

load_bias?=?ELF_PAGESTART(ELF_ET_DYN_BASE?-?vaddr);??

#endif??

}??

/*?

該函數增加vma；增加/proc/smaps的一個段?

*/??

error?=?elf_map(bprm->file,?load_bias?+?vaddr,?elf_ppnt,?elf_prot,?elf_flags,?0);??

if?(BAD_ADDR(error))?{??

send_sig(SIGKILL,?current,?0);??

retval?=?IS_ERR((void?*)error)????

PTR_ERR((void*)error)?:?-EINVAL;??

goto?out_free_dentry;??

}??

if?(!load_addr_set)?{??

load_addr_set?=?1;??

load_addr?=?(elf_ppnt->p_vaddr?-?elf_ppnt->p_offset);??

if?(loc->elf_ex.e_type?==?ET_DYN)?{??

load_bias?+=?error?-??

ELF_PAGESTART(load_bias?+?vaddr);??

load_addr?+=?load_bias;??

reloc_func_desc?=?load_bias;??

}??

}??

k?=?elf_ppnt->p_vaddr;??

if?(k?

start_code?=?k;??

if?(start_data?

start_data?=?k;??

/*?

*?Check?to?see?if?the?section's?size?will?overflow?the?

*?allowed?task?size.?Note?that?p_filesz?must?always?be?

*?<=?p_memsz?so?it?is?only?necessary?to?check?p_memsz.?

*/??

if?(BAD_ADDR(k)?||?elf_ppnt->p_filesz?>?elf_ppnt->p_memsz?||??

elf_ppnt->p_memsz?>?TASK_SIZE?||??

TASK_SIZE?-?elf_ppnt->p_memsz?

/*?set_brk?can?never?work.?Avoid?overflows.?*/??

send_sig(SIGKILL,?current,?0);??

retval?=?-EINVAL;??

goto?out_free_dentry;??

}??

/*?

代碼段:?

i=3:type=0x1;offset=0x0;vaddr=0x8000;paddr=0x8000;?

filesz=0xba81e0;memsz=0xba81e0;flags=0x5;align=0x8000?

數據段+程序段:?

i=4:type=0x1;offset=0xba81e0;vaddr=0xbb81e0;paddr=0xbb81e0;?

filesz=0x7799a4;memsz=0x48f922c;flags=0x6;align=0x8000?

//elf_bss=0x1331b84,elf_brk=0x54b140c?

*/??

k?=?elf_ppnt->p_vaddr?+?elf_ppnt->p_filesz;??

if?(k?>?elf_bss)??

elf_bss?=?k;??

if?((elf_ppnt->p_flags?&?PF_X)?&&?end_code?

end_code?=?k;??

if?(end_data?

end_data?=?k;??

k?=?elf_ppnt->p_vaddr?+?elf_ppnt->p_memsz;??

if?(k?>?elf_brk)??

elf_brk?=?k;??

}??

loc->elf_ex.e_entry?+=?load_bias;??

elf_bss?+=?load_bias;??

elf_brk?+=?load_bias;??

start_code?+=?load_bias;??

end_code?+=?load_bias;??

start_data?+=?load_bias;??

end_data?+=?load_bias;??

#ifndef?gSysDebugInfoExec??

/*?

此時已經有3個vma；?

elf_bss=0x105b0,elf_brk=0x105b8;bias=0x0?

start_code=0x8000,end_code=0x8490;start_data=0x10490;end_data=0x105b0?

[00008000-00009000]?,0000018f?00000875?--代碼段?

[00010000-00011000]?,0000038f?00100873?--數據段?

[7ecbb000-7ecdd000]?,0000038f?00100173?--進程的棧?

*/??

#endif???

/*?Calling?set_brk?effectively?mmaps?the?pages?that?we?need?

*?for?the?bss?and?break?sections.??We?must?do?this?before?

*?mapping?in?the?interpreter,?to?make?sure?it?doesn't?wind?

*?up?getting?placed?where?the?bss?needs?to?go.?

*/??

/*??

1?在此為bss段申請虛擬地址空間，注意此處的地址空間?

為用戶態進程的虛擬地址空間vm_brk，類似于malloc過程。?

如果申請的虛擬地址空間即bss段大小?大于系統空閑的物理內存?

則有可能申請失敗，可以通過?echo?1?>?/proc/sys/vm/overcommit_memory??

去掉對內存大小的檢測來規避失敗的風險。?

2?并未真正分配物理內存?

3?set_brk后vma沒有變化因為elf_bss，elf_brk在數據段區間?

elf_bss=0x105b0,elf_brk=0x105b8;bias=0x0?

start_code=0x8000,end_code=0x8490;start_data=0x10490;end_data=0x105b0?

[00008000-00009000]?,0000018f?00000875?--代碼段?

[00010000-00011000]?,0000038f?00100873?--數據段?

[7ecbb000-7ecdd000]?,0000038f?00100173?--進程的棧?

*/??

retval?=?set_brk(elf_bss,?elf_brk);??

if?(retval)?{??

send_sig(SIGKILL,?current,?0);??

goto?out_free_dentry;??

}??

if?(likely(elf_bss?!=?elf_brk)?&&?unlikely(padzero(elf_bss)))?{??

send_sig(SIGSEGV,?current,?0);??

retval?=?-EFAULT;?/*?Nobody?gets?to?see?this,?but..?*/??

goto?out_free_dentry;??

}??

if?(elf_interpreter)?{??

unsigned?long?interp_map_addr?=?0;??

elf_entry?=?load_elf_interp(&loc->interp_elf_ex,??

interpreter,??

&interp_map_addr,??

load_bias);??

if?(!IS_ERR((void?*)elf_entry))?{??

/*?

*?load_elf_interp()?returns?relocation?

*?adjustment?

*/??

interp_load_addr?=?elf_entry;??

elf_entry?+=?loc->interp_elf_ex.e_entry;??

}??

if?(BAD_ADDR(elf_entry))?{??

force_sig(SIGSEGV,?current);??

retval?=?IS_ERR((void?*)elf_entry)????

(int)elf_entry?:?-EINVAL;??

goto?out_free_dentry;??

}??

reloc_func_desc?=?interp_load_addr;??

allow_write_access(interpreter);??

fput(interpreter);??

kfree(elf_interpreter);??

}?else?{??

elf_entry?=?loc->elf_ex.e_entry;??

if?(BAD_ADDR(elf_entry))?{??

force_sig(SIGSEGV,?current);??

retval?=?-EINVAL;??

goto?out_free_dentry;??

}??

}??

kfree(elf_phdata);??

set_binfmt(&elf_format);??

#ifdef?ARCH_HAS_SETUP_ADDITIONAL_PAGES??

retval?=?arch_setup_additional_pages(bprm,?!!elf_interpreter);??

if?(retval?

send_sig(SIGKILL,?current,?0);??

goto?out;??

}??

#endif?/*?ARCH_HAS_SETUP_ADDITIONAL_PAGES?*/??

install_exec_creds(bprm);??

retval?=?create_elf_tables(bprm,?&loc->elf_ex,??

load_addr,?interp_load_addr);??

if?(retval?

send_sig(SIGKILL,?current,?0);??

goto?out;??

}??

/*?N.B.?passed_fileno?might?not?be?initialized??*/??

current->mm->end_code?=?end_code;??

current->mm->start_code?=?start_code;??

current->mm->start_data?=?start_data;??

current->mm->end_data?=?end_data;??

current->mm->start_stack?=?bprm->p;??

#ifdef?arch_randomize_brk??

if?((current->flags?&?PF_RANDOMIZE)?&&?(randomize_va_space?>?1))?{??

current->mm->brk?=?current->mm->start_brk?=??

arch_randomize_brk(current->mm);??

#ifdef?CONFIG_COMPAT_BRK??

current->brk_randomized?=?1;??

#endif??

}??

#endif??

if?(current->personality?&?MMAP_PAGE_ZERO)?{??

/*?Why?this,?you?ask?????Well?SVr4?maps?page?0?as?read-only,?

and?some?applications?"depend"?upon?this?behavior.?

Since?we?do?not?have?the?power?to?recompile?these,?we?

emulate?the?SVr4?behavior.?Sigh.?*/??

error?=?vm_mmap(NULL,?0,?PAGE_SIZE,?PROT_READ?|?PROT_EXEC,??

MAP_FIXED?|?MAP_PRIVATE,?0);??

}??

#ifdef?ELF_PLAT_INIT??

/*?

*?The?ABI?may?specify?that?certain?registers?be?set?up?in?special?

*?ways?(on?i386?%edx?is?the?address?of?a?DT_FINI?function,?for?

*?example.??In?addition,?it?may?also?specify?(eg,?PowerPC64?ELF)?

*?that?the?e_entry?field?is?the?address?of?the?function?descriptor?

*?for?the?startup?routine,?rather?than?the?address?of?the?startup?

*?routine?itself.??This?macro?performs?whatever?initialization?to?

*?the?regs?structure?is?required?as?well?as?any?relocations?to?the?

*?function?descriptor?entries?when?executing?dynamically?links?apps.?

*/??

ELF_PLAT_INIT(regs,?reloc_func_desc);??

#endif??

/*?可執行程序從elf_entry開始運行,exec返回時pc=elf_entry出棧?*/??

start_thread(regs,?elf_entry,?bprm->p);??

retval?=?0;??

out:??

kfree(loc);??

out_ret:??

return?retval;??

/*?error?cleanup?*/??

out_free_dentry:??

allow_write_access(interpreter);??

if?(interpreter)??

fput(interpreter);??

out_free_interp:??

kfree(elf_interpreter);??

out_free_ph:??

kfree(elf_phdata);??

goto?out;??

}??

總結：

此處要重點區分理解 ELF header和programheader的概念。

1>ELF頭描述整個程序的信息。

Praogramheader：每個程序段(比如代碼段、bss段、數據段等)都有一個這樣的頭部信息，用來描述這個程序段在文件中的大小，位置 以及放到內存上的大小和位置信息。

程序段的頭部信息，保存在文件的e_phoff處，且程序段個數為e_phnum個，如例子中為9個;

2>加載可執行的elf文件。do_execve_common->search_binary_handler

/*

load elf?load_binary=load_elf_binary->arch_setup_additional_pages

->install_special_mapping->insert_vm_struct插入虛擬內存區，即進程地址空間.

*/

search_binary_handler(bprm)->(*fn)(struct linux_binprm *) = fmt->load_binary;

3> 加載程序program段，load_elf_binary：

1) setup_new_exec(bprm);切換當前進程為bprm->filename程序。

->???__set_task_comm(current,kbasename(bprm->filename), true);

設置進程名稱、current信息，以便切換時current即為bprm->filename程序。

注意此時當前進程current被替換掉了。

2) elf_map函數增加vma；增加/proc/smaps的一個段

error = elf_map(bprm->file, load_bias +vaddr, elf_ppnt, elf_prot, elf_flags, 0);

3) 系統在load_elf_binary獲取程序段頭部信息，并進行校驗。

4> creds設置：

1）?prepare_exec_creds會準備bprm->cred，日后install_exec_creds設置給當前進程。

2）setup_new_exec在install_exec_creds之前會比較bprm->cred,current->cred等

3）install_exec_creds(bprm);中安裝bprm->cred到當前進程的creds

之后bprm->cred = NULL;

在install_exec_creds中要比較current->cred和current->real_cred，

可以考慮cred與real_cred設置成相同。

開放平臺的方案是在install_exec_creds->security_bprm_committing_creds(bprm);

階段將用戶id和組id改變，之前階段cred和real_cred都是0.

【實例】

舉例：一個進程的ELF header?和program header和section header

ps：可執行文件和動態庫各自分別有自己的頭部信息；

#readelf –a sonia > sonia

ELF Header:

[cpp]?view plain?copy

Magic:???7f?45?4c?46?01?01?01?0000?00?00?00?00?00?00?00??

Class:????????????????????????????ELF32??

Data:?????????????????????????????2's?complement,?little?endian??

Version:??????????????????????????1?(current)??

OS/ABI:???????????????????????????UNIX?-?System?V??

ABIVersion:???????????????????????0??

Type:?????????????????????????????EXEC?(Executable?file)??

Machine:??????????????????????????ARM??

Version:??????????????????????????0x1??

Entry?point?address:??????????????0x32cfd??

Start?of?program?headers:?????????52?(bytes?into?file)??

Start?of?section?headers:?????????20061364?(bytes?into?file)??

Flags:????????????????????????????0x5000402,?has?entry?point,?Version5?EABI,???

Size?of?this?header:??????????????52?(bytes)??

Size?of?program?headers:??????????32?(bytes)??

Number?of?program?headers:????????9??

Size?of?section?headers:??????????40?(bytes)??

Number?of?section?headers:????????28??

Section?header?string?table?index:?27??

Section Headers: [25]bss段即未初始化全局變量和靜態變量保存地;查找對應代碼段和bss段地址需要參考這個頭信息；

[cpp]?view plain?copy

[Nr]?Name??????????????Type????????????Addr?????Off???Size???ES?Flg?Lk?Inf?Al??

[0]???????????????????NULL????????????00000000?000000?000000?00??????0??0??0??

[1]?.interp???????????PROGBITS????????00008154?000154?000019?00???A?0???0??1??

[2]?.note.ABI-tag?????NOTE????????????00008170?000170?000020?00???A?0???0??4??

[3]?.note.gnu.build-i?NOTE???????????00008190?000190?000024?00???A?0???0??4??

[4]?.hash?????????????HASH????????????000081b4?0001b4?00245c?04???A?5???0??4??

[5]?.dynsym???????????DYNSYM??????????0000a610?002610?0050e0?10???A?6???1??4??

[6]?.dynstr???????????STRTAB??????????0000f6f0?0076f0?006ea4?00???A?0???0??1??

[7]?.gnu.version??????VERSYM??????????00016594?00e594?000a1c?02???A?5???0??2??

[8]?.gnu.version_r????VERNEED?????????00016fb0?00efb0?000180?00???A?6???8??4??

[9]?.rel.dyn??????????REL?????????????00017130?00f130?0001a0?08???A?5???0??4??

[10]?.rel.plt??????????REL?????????????000172d0?00f2d0?0015e0?08???A?5??12??4??

[11]?.init????????????PROGBITS????????000188b0?0108b000000c?00??AX??0??0??4??

[12]?.plt?????????????PROGBITS????????000188bc?0108bc002300?04??AX??0??0??4??

[13]?.text?????????????PROGBITS????????0001ac00?012c00?822c18?00??AX?0???0?256??

[14]?.fini????????????PROGBITS????????0083d818?835818000008?00??AX??0??0??4??

[15]?.rodata??????????PROGBITS????????0083d820?8358202b36d8?00???A??0??0??8??

[16]?.eh_frame????????PROGBITS????????00bb01dc?ba81dc?000004?00???A?0???0??4??

[17]?.tbss?????????????NOBITS??????????00bb81e0?ba81e0?000004?00?WAT??0??0??4??

[18]?.init_array??????INIT_ARRAY??????00bb81e0?ba81e0000b0c?00??WA??0??0??4??

[19]?.fini_array??????FINI_ARRAY??????00bb8cec?ba8cec000004?00??WA??0??0??4??

[20]?.jcr?????????????PROGBITS????????00bb8cf0?ba8cf0000004?00??WA??0??0??4??

[21]?.data.rel.ro?????PROGBITS????????00bb8cf8?ba8cf8002a00?00??WA??0??0??8??

[22]?.dynamic?????????DYNAMIC?????????00bbb6f8?bab6f8000178?08??WA??6??0??4??

[23]?.got?????????????PROGBITS????????00bbb870?bab8700012e0?04??WA??0??0??4??

[24]?.data????????????PROGBITS????????00bbcb50?bacb50775034?00??WA??0??0??8??

[25]?.bss??????????????NOBITS??????????01331b88?1321b84?417f884?00??WA?0???0??8??

[26]?.ARM.attributes??ARM_ATTRIBUTES??00000000?1321b84000039?00??????0???0??1??

[27]?.shstrtab?????????STRTAB??????????00000000?1321bbd?0000f5?00??????0??0??1??

ey?to?Flags:??

W(write),?A?(alloc),?X?(execute),?M?(merge),?S?(strings)??

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.

Program Headers: 注意LOAD表示需要加載入內存的程序段

Type?????????? Offset?? VirtAddr??PhysAddr?? FileSiz MemSiz? Flg Align

EXIDX????????? 0x000000 0x000000000x00000000 0x00000 0x00000 R?? 0x4

PHDR?????????? 0x000034 0x000080340x00008034 0x00120 0x00120 R E 0x4

INTERP???????? 0x000154 0x000081540x00008154 0x00019 0x00019 R?? 0x1

[Requesting program interpreter: /lib/ld-linux-armhf.so.3]

LOAD?????????? 0x000000 0x000080000x00008000 0xba81e0 0xba81e0 R E 0x8000?

->.hash + .rodata等等需要加載進內存的段;load_elf_binary是需要申請內存，存放這些段;

動態庫加載和可執行文件執行時都需要對應的加載;

LOAD?????????? 0xba81e0 0x00bb81e0 0x00bb81e0?0x7799a4 ?0x48f922c RW?0x8000

->.data數據段+.bss段+.got段等等段的大小：0x48f922c-0x7799a4=417F888

DYNAMIC??????? 0xbab6f8 0x00bbb6f80x00bbb6f8 0x00178 0x00178 RW? 0x4

NOTE?????????? 0x000170 0x000081700x00008170 0x00044 0x00044 R?? 0x4

TLS??????????? 0xba81e0 0x00bb81e00x00bb81e0 0x00000 0x00004 R?? 0x4

GNU_STACK????? 0x000000 0x000000000x00000000 0x00000 0x00000 RWE 0x4-此段會決定棧的空間。

#/home/snmpd &

1?第一次為用戶進程分配棧空間 do_execve_common->__bprm_mm_init

并把棧空間VMA插入進程的地址空間中。

1)?初始化過程指定程序棧的空間為vm_start:7efff000;vm_end:0x7f000000

[0x7efff000,0x7f000000]，此處的棧不是當前進程的，是

bprm->filename=/usr/bin/snmp的。

2)?之后我們還會有對棧的空間所調整

3)?因為用戶態進程共享用戶態虛擬地址空間，所以每個進程的棧頂地址都是這個0x7efff000。

~__bprm_mm_init:current:sh;filename:/home/snmpd;vm_start:7efff000;vm_end:0x7f000000

[7efff000-7f000000],0000038f 00118173

Elf頭和程序頭

type=0x2;phoff=0x34;flags=0x5000002;phnum=0x8;

type=0x200;phoff=0xfe;flags=0x0;phnum=0x1061;

lf_interpreter:/lib/ld-linux-armhf.so.3;bprm->filename:/home/snmpd

load_elf_binary-913current:sh;bprm->filename is /home/snmpd bprm->tcomm=snmpd

current->top_stack=0x7effff91

進程地址空間的棧區間調整之前

[7effe000-7f000000],0000038f 00118173

2?調整棧空間的大小setup_arg_pages，調整后為[7ea7a000-7ea9c000]

do_execve_common->search_binary_handler-> load_elf_binary->setup_arg_pages

stack_top=0x7ea9c000;mmap_min_addr=4096

6i=0:6type=0x70000001;offset=0x484;vaddr=0x8484;paddr=0x8484;filesz=0x8;memsz=0x8;flags=0x4;align=0x4

6i=1:6type=0x6;offset=0x34;vaddr=0x8034;paddr=0x8034;filesz=0x100;memsz=0x100;flags=0x5;align=0x4

6i=2:6type=0x3;offset=0x134;vaddr=0x8134;paddr=0x8134;filesz=0x19;memsz=0x19;flags=0x4;align=0x1

6i=3:6type=0x1;offset=0x0;vaddr=0x8000;paddr=0x8000;filesz=0x490;memsz=0x490;flags=0x5;align=0x8000

6load_elf_binary-1039i=3 current:snmpd;bprm->filename is /home/snmpd,e_type:2,p_type:1

進程地址空間增加代碼段之前，棧空間調整之后的棧為如下區間：

[7ea7a000-7ea9c000] ,0000038f 00100173 –調整后的棧

3?進程地址空間中增加代碼段elf_map，調整后為[00008000-00009000]

do_execve_common->search_binary_handler-> load_elf_binary->?elf_map

elf_map-342

current:snmpd;addr:0x8000;size:0x1000;p_filesz:0x490;p_offset:0x0;p_vaddr:0x8000

load_elf_binary-1058current:snmpd;bprm->filename is /home/snmpd

[00008000-00009000],0000018f 00000875—代碼段

[7ea7a000-7ea9c000],0000038f 00100173 –棧

6i=4:6type=0x1;offset=0x490;vaddr=0x10490;paddr=0x10490;filesz=0x120;memsz=0x128;flags=0x6;align=0x8000

進程地址空間增加數據段之前

6load_elf_binary-1039i=4 current:snmpd;bprm->filename is /home/snmpd,e_type:2,p_type:1

[00008000-00009000],0000018f 00000875 – 代碼段

[7ea7a000-7ea9c000],0000038f 00100173 –棧

4?進程地址空間中增加程序段elf_map，調整后為[00010000-00011000]

do_execve_common->search_binary_handler-> load_elf_binary->?elf_map

elf_map-342current:snmpd;addr:0x10000;size:0x1000;p_filesz:0x120;p_offset:0x490;p_vaddr:0x10490

6load_elf_binary-1058current:snmpd;bprm->filename is /home/snmpd

[00008000-00009000],0000018f 00000875 –代碼段

[00010000-00011000],0000038f 00100873 –數據段

[7ea7a000-7ea9c000],0000038f 00100173—棧

6i=5:6type=0x2;offset=0x49c;vaddr=0x1049c;paddr=0x1049c;filesz=0xe8;memsz=0xe8;flags=0x6;align=0x4

6i=6:6type=0x4;offset=0x150;vaddr=0x8150;paddr=0x8150;filesz=0x44;memsz=0x44;flags=0x4;align=0x4

6i=7:6type=0x6474e551;offset=0x0;vaddr=0x0;paddr=0x0;filesz=0x0;memsz=0x0;flags=0x6;align=0x4

進程地址空間中增加bss段之前

load_elf_binary-1136current:snmpd;bprm->filename is/home/snmpd,elf_bss=0x105b0,elf_brk=0x105b8;bias=0x0

6start_code=0x8000,end_code=0x8490;start_data=0x10490;end_data=0x105b0

[00008000-00009000],0000018f 00000875

[00010000-00011000],0000038f 00100873

[7ea7a000-7ea9c000],0000038f 00100173

5?進程地址空間中增加bss段set_brk，調整后為[00010000-00011000]

do_execve_common->search_binary_handler-> load_elf_binary->?set_brk

注意bss段增加之后，程序段并沒有變化，因為bss段在data段的區間內

load_elf_binary-1168current:snmpd;bprm->filename is /home/snmpd

[00008000-00009000],0000018f 00000875

[00010000-00011000],0000038f 00100873

[7ea7a000-7ea9c000],0000038f 00100173

6?進程地址空間中增加其余段load_elf_interp，調整后為：

do_execve_common->search_binary_handler-> load_elf_binary->?load_elf_interp

6elf_map-342current:snmpd;addr:0x0 ;size:0x1a000;p_filesz:0x19308;p_offset:0x0;p_vaddr:0x0

6elf_map-342current:snmpd;addr:0x76f24000;size:0x2000;p_filesz:0xb50;p_offset:0x19d38;p_vaddr:0x21d38

分析對比smaps：

6load_elf_binary-1226current:snmpd;bprm->filename is /home/snmpd

[00008000-00009000],0000018f 00000875 –代碼段

[00010000-00011000],0000038f 00100873 –數據段/bss段

[76f03000-76f1d000],0000018f 00000875

[76f23000-76f24000],0000018f 00040075

[76f24000-76f26000],0000038f 00100873

[7ea7a000-7ea9c000],0000038f 00100173 –棧

[00008000-00009000],0000018f 00000875

[00010000-00011000],0000038f 00100873

[76f03000-76f1d000],0000018f 00000875

[76f23000-76f24000],0000018f 00040075

[76f24000-76f26000],0000038f 00100873

[7ea7a000-7ea9c000],0000038f 00100173

buf=0x103d008

以上分析對比smaps：

#cat /proc/239/smaps

[cpp]?view plain?copy

00008000-00009000r-xp?00000000?00:0e?23330821??/home/snmpd?-代碼段??

Size:??????????????????4?kB??

Rss:???????????????????4?kB??

Pss:???????????????????4?kB??

Shared_Clean:??????????0?kB??

Shared_Dirty:??????????0?kB??

Private_Clean:?????????4?kB??

Private_Dirty:?????????0?kB??

Referenced:????????????4?kB??

Anonymous:?????????????0?kB??

AnonHugePages:?????????0?kB??

Swap:??????????????????0?kB??

KernelPageSize:????????4?kB??

MMUPageSize:???????????4?kB??

Locked:????????????????0?kB??

VmFlags:rd?ex?mr?mw?me?dw??

00010000-00011000rw-p?00000000?00:0e?23330821??/home/snmpd–數據段/bss段??

Size:??????????????????4?kB??

Rss:???????????????????4?kB??

Pss:???????????????????4?kB??

Shared_Clean:??????????0?kB??

Shared_Dirty:??????????0?kB??

Private_Clean:?????????0?kB??

Private_Dirty:?????????4?kB??

Referenced:????????????4?kB??

Anonymous:?????????????4?kB??

AnonHugePages:?????????0?kB??

Swap:??????????????????0?kB??

KernelPageSize:????????4?kB??

MMUPageSize:???????????4?kB??

Locked:????????????????0?kB??

VmFlags:rd?wr?mr?mw?me?dw?ac??

0103d000-01060000rw-p?00000000?00:00?0??????????[heap]??

Size:????????????????140?kB??

Rss:???????????????????8?kB??

Pss:???????????????????8?kB??

Shared_Clean:??????????0?kB??

Shared_Dirty:??????????0?kB??

Private_Clean:?????????0?kB??

Private_Dirty:?????????8?kB??

Referenced:????????????8?kB??

Anonymous:?????????????8?kB??

AnonHugePages:?????????0?kB??

Swap:??????????????????0?kB??

KernelPageSize:????????4?kB??

MMUPageSize:???????????4?kB??

Locked:????????????????0?kB??

VmFlags:rd?wr?mr?mw?me?ac??

76dff000-76ef6000r-xp?00000000?1f:05?154???????/lib/libc-2.19-2014.06.so??

Size:????????????????988?kB??

Rss:?????????????????236?kB??

Pss:??????????????????34?kB??

Shared_Clean:????????236?kB??

Shared_Dirty:??????????0?kB??

Private_Clean:?????????0?kB??

Private_Dirty:?????????0?kB??

Referenced:??????????236?kB??

Anonymous:?????????????0?kB??

AnonHugePages:?????????0?kB??

Swap:??????????????????0?kB??

KernelPageSize:????????4?kB??

MMUPageSize:???????????4?kB??

Locked:????????????????0?kB??

VmFlags:rd?ex?mr?mw?me??

【動態庫加載】

對于同一個動態庫來說，不同進程中的vma區間不同，但對應相同的文件頁，所以一旦動態庫被一個進程加載到了內存中，其他進程不用再次從flash上加載，也就是說這個動態庫是共享的.

不同進程中同一動態庫對應的虛擬地址雖然不同，但動態庫加載進內存的物理偏移地址是相同的.當進程訪問動態庫中的一個函數時，這個函數的地址如果未經過分頁映射，即有可能初次訪問，則觸發缺頁異常，文件頁的缺頁異常處理流程會根據這個函數在動態庫中的偏移地址（即時不同進程，這個偏移地址也是相同的）找到對應文件頁，并判斷是否需要從flash中讀數據到該文件頁.

1 加載動態庫的系統調用：sys_userlib->load_shlib=load_elf_library

2 查找動態庫的bss段信息：binfmt_elf.c:

/*file表示動態庫文件;shdata輸出變量，區section頭部信息*/

[cpp]?view plain?copy

int?load_elf_library_section(struct?file?*file,struct?elf_shdr?*shdata)??

{??

struct?elf_shdr?*elf_shdata;??

struct?elf_shdr?*eppnt;??

unsigned?long?elf_bss,bss,len;??

int?retval,error,i,j;??

struct?elfhdr?elf_ex;??

/*讀取elf頭*/??

retval?=?kernel_read(file,0,(char?*)&elf_ex，sizeof(elf_ex));??

/*所有section頭的總大小*/??

j?=sizeof(struct?elf_shdr)*elf_ex.e_shnum;??

elf_shdata?=?kmalloc(j,GFP_KERNEL);??

eppnt?=?elf_shdata;??

/*讀取section?header*/??

retval?=?kernel_read(file,elf_ex.e_shoff,(char?*)eppnt，j);??

for(j=0,i=0;i

{??

if(SH_NOBITS==eppnt->sh_type)??

{??

printk("bss?section:\n");??

memcpy(shdata,eppnt,sizeof(struct?elf_shdr));??

}??

dump_elf_shdr(eppnt);//打印section頭部信息??

eppnt++;??

}??

kfree(elf_shdata);??

return?error;??

}??

filemap_fault()文件頁缺頁異常處理中可以根據動態庫的名稱，導出動態庫的指定段信息(如bss、data段等) .

3 動態庫加載過程:

1>可以通過命令:

#strace ls ?--查看動態庫加載過程，一般流程open(".so")->mmap();

2>文件頁缺頁異常中真正從flash上獲取動態庫內容：filemap_fault;

3>具體過程可以參考如下博文：

linux文件讀取過程：http://blog.csdn.net/eleven_xiy/article/details/73609237

linux內存回收機制：http://blog.csdn.net/eleven_xiy/article/details/75195490;

4?動態庫鏈接過程舉例：

4.1 基本信息

程序名：debug;連接動態庫：libdebug.so;

窗口終端環境變量：

#export

export HOME='/'

export PATH='/sbin:/usr/sbin:/bin:/usr/bin'

export PWD='/'

執行過程：./debug sh進程中執行execve(debug);

execve返回時debug進程開始執行;

debug進程首先鏈接動態庫,默認嘗試路徑open(/lib/libdebug.so);open(/usr/lib/libdebug.so);

如果配置export LD_LIBRARY_PATH='/mnt/mtd'?

則嘗試open(/mnt/mtd/libdebug.so);open(/lib/libdebug.so);open(/usr/lib/libdebug.so);

debug進程執行main入口函數;

telnet終端環境變量，遵循/etc/profile中配置:

export HOME='/'

export LD_LIBRARY_PATH='/usr/local/lib:/usr/lib:/mnt/mtd/'

export PATH='/sbin:/usr/sbin:/bin:/usr/bin'

export PWD='/'

可執行程序鏈接動態庫是在elf程序exec執行之后，main入口函數執行之前；

編譯過程指定鏈接路徑為：/lib;/usr/lib + LD_LIBRARY_PATH;

可執行文件中定位動態庫中符號：?GOT和PLT原理簡析

【總結】

本文介紹了可執行文件和動態庫加載過程，舉例說明了ELF 文件的elf頭，程序頭(program header)和section header. 值得注意的是 :

1 程序頭中的LOAD(PT_LOAD)段，是需要加載進內存的,且load_elf_binary/load_elf_library過程都需要加載，這個段中不只包含data和bss段,

可以通過readelf -a查看Section to Segment mapping中表明了LOAD包含的段;

2 section header中真正指明了程序的數據段、bss段(SH_NOBITS).

3 ELF程序執行過程中，讀取ELF各頭部信息，并逐步替換掉當前進程(包括進程名，進程地址空間等)，最后切換到ELF程序執行.

當前進程不需要主動退出，就切換到ELF程序中,因為當前進程所有信息都被ELF替換掉了.

?