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operating system - In C, how is the main() method initially called?

How does a C program get started?

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The operating system calls the main() function. Eventually.

The Executable and Linkable Format (ELF) which many Unix OS's use defines an entry point address and an INIT address. That is where the program begins to run after the OS finishes its exec() call. On a Linux system this is _init in the .init section. After that returns it jumps to the entry point address which is _start in the .text section.

The C compiler links a standard library to every application which provides these operating system defined initialization and entry points. That library then calls main().

Here is my C source code for the example:

#include <stdio.h>

int main() {
  puts("Hello world!");
  return 0;
}

From objdump -d:

Disassembly of section .init:

0000000000001000 <_init>:
    1000:   f3 0f 1e fa             endbr64 
    1004:   48 83 ec 08             sub    $0x8,%rsp
    1008:   48 8b 05 d9 2f 00 00    mov    0x2fd9(%rip),%rax        # 3fe8 <__gmon_start__>
    100f:   48 85 c0                test   %rax,%rax
    1012:   74 02                   je     1016 <_init+0x16>
    1014:   ff d0                   callq  *%rax
    1016:   48 83 c4 08             add    $0x8,%rsp
    101a:   c3                      retq   

Disassembly of section .text:

0000000000001060 <_start>:
    1060:   f3 0f 1e fa             endbr64 
    1064:   31 ed                   xor    %ebp,%ebp
    1066:   49 89 d1                mov    %rdx,%r9
    1069:   5e                      pop    %rsi
    106a:   48 89 e2                mov    %rsp,%rdx
    106d:   48 83 e4 f0             and    $0xfffffffffffffff0,%rsp
    1071:   50                      push   %rax
    1072:   54                      push   %rsp
    1073:   4c 8d 05 66 01 00 00    lea    0x166(%rip),%r8        # 11e0 <__libc_csu_fini>
    107a:   48 8d 0d ef 00 00 00    lea    0xef(%rip),%rcx        # 1170 <__libc_csu_init>
    1081:   48 8d 3d c1 00 00 00    lea    0xc1(%rip),%rdi        # 1149 <main>
    1088:   ff 15 52 2f 00 00       callq  *0x2f52(%rip)          # 3fe0 <__libc_start_main@GLIBC_2.2.5>
    108e:   f4                      hlt    
    108f:   90                      nop

0000000000001140 <frame_dummy>:
    1140:   f3 0f 1e fa             endbr64 
    1144:   e9 77 ff ff ff          jmpq   10c0 <register_tm_clones>

From readelf -h you can see the Entry point address that matches _start:

ELF Header:
  Magic:   7f 45 4c 46 02 01 01 00 00 00 00 00 00 00 00 00 
  Class:                             ELF64
  Data:                              2's complement, little endian
  Version:                           1 (current)
  OS/ABI:                            UNIX - System V
  ABI Version:                       0
  Type:                              DYN (Shared object file)
  Machine:                           Advanced Micro Devices X86-64
  Version:                           0x1
  Entry point address:               0x1060
  Start of program headers:          64 (bytes into file)
  Start of section headers:          17416 (bytes into file)
  Flags:                             0x0
  Size of this header:               64 (bytes)
  Size of program headers:           56 (bytes)
  Number of program headers:         13
  Size of section headers:           64 (bytes)
  Number of section headers:         36
  Section header string table index: 35

From readelf -d:

Dynamic section at offset 0x2dc8 contains 27 entries:
  Tag        Type                         Name/Value
 0x0000000000000001 (NEEDED)             Shared library: [libc.so.6]
 0x000000000000000c (INIT)               0x1000
 0x000000000000000d (FINI)               0x11e8
 0x0000000000000019 (INIT_ARRAY)         0x3db8
 0x000000000000001b (INIT_ARRAYSZ)       8 (bytes)
 0x000000000000001a (FINI_ARRAY)         0x3dc0
 0x000000000000001c (FINI_ARRAYSZ)       8 (bytes)
 0x000000006ffffef5 (GNU_HASH)           0x3a0
 0x0000000000000005 (STRTAB)             0x470
 0x0000000000000006 (SYMTAB)             0x3c8
 0x000000000000000a (STRSZ)              130 (bytes)
 0x000000000000000b (SYMENT)             24 (bytes)
 0x0000000000000015 (DEBUG)              0x0
 0x0000000000000003 (PLTGOT)             0x3fb8
 0x0000000000000002 (PLTRELSZ)           24 (bytes)
 0x0000000000000014 (PLTREL)             RELA
 0x0000000000000017 (JMPREL)             0x5e0
 0x0000000000000007 (RELA)               0x520
 0x0000000000000008 (RELASZ)             192 (bytes)
 0x0000000000000009 (RELAENT)            24 (bytes)
 0x000000000000001e (FLAGS)              BIND_NOW
 0x000000006ffffffb (FLAGS_1)            Flags: NOW PIE
 0x000000006ffffffe (VERNEED)            0x500
 0x000000006fffffff (VERNEEDNUM)         1
 0x000000006ffffff0 (VERSYM)             0x4f2
 0x000000006ffffff9 (RELACOUNT)          3
 0x0000000000000000 (NULL)               0x0

You can see that INIT is equal to the address of _init.

There is a whole array of function pointers in INIT_ARRAY also. See objdump -s -j .init_array c-test:

c-test:     file format elf64-x86-64

Contents of section .init_array:
 3db8 40110000 00000000                    @.......        

You can see that address 0x3db8 is the same as INIT_ARRAY in the ELF header.

The address 0x1140 (remember little-endian byte layout from 40110000) is the function frame_dummy you can see in the disassembly. Which then calls register_tm_clones and who knows what else.

The code for initialization is in a set of files named crtbegin.o and crtend.o (and variants of those names). The __libc_start_main function is defined in libc.so.6. These libraries are part of GCC. That code does various things necessary for a C program like setting up stdin, stdout, global and static variables and other things.

The following article describes quite well what it does in Linux (taken from an answer below with less votes): http://dbp-consulting.com/tutorials/debugging/linuxProgramStartup.html

I believe someone else's answer already described what Windows does.


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