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217 lines
8.0 KiB
Markdown
217 lines
8.0 KiB
Markdown
Executable and Linkable Format
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================================================================================
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ELF (Executable and Linkable Format) is a standard file format for executable files and shared libraries. Linux as many UNIX-like operating systems uses this format. Let's look on structure of the ELF-64 Object File Format and some defintions in the linux kernel source code related with it.
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An ELF object file consists of the following parts:
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* ELF header - describes the main characteristics of the object file: type, CPU architecture, the virtual address of the entry point, the size and offset the remaining parts and etc...;
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* Program header table - listing the available segments and their attributes. Program header table need loaders for placing sections of the file as virtual memory segments;
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* Section header table - contains description of the sections.
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Now let's look closer on these components.
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**ELF header**
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It located in the beginning of the object file. It's main point is to locate all other parts of the object file. File header contains following fields:
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* ELF identification - array of bytes which helps to identify the file as an ELF object file and also provides information about general object file characteristic;
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* Object file type - identifies the object file type. This field can describe that ELF file is relocatable object file, executable file and etc...;
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* Target architecture;
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* Version of the object file format;
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* Virtual address of the program entry point;
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* File offset of the program header table;
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* File offset of the section header table;
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* Size of an ELF header;
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* Size of a program header table entry;
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* and other fields...
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You can find `elf64_hdr` structure which presents ELF64 header in the linux kernel source code:
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```C
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typedef struct elf64_hdr {
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unsigned char e_ident[EI_NIDENT];
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Elf64_Half e_type;
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Elf64_Half e_machine;
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Elf64_Word e_version;
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Elf64_Addr e_entry;
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Elf64_Off e_phoff;
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Elf64_Off e_shoff;
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Elf64_Word e_flags;
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Elf64_Half e_ehsize;
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Elf64_Half e_phentsize;
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Elf64_Half e_phnum;
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Elf64_Half e_shentsize;
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Elf64_Half e_shnum;
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Elf64_Half e_shstrndx;
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} Elf64_Ehdr;
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```
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This structure defined in the [elf.h](https://github.com/torvalds/linux/blob/master/include/uapi/linux/elf.h)
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**Sections**
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All data stores in a sections in an Elf object file. Sections identified by index in the section header table. Section header contains following fields:
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* Section name;
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* Section type;
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* Section attributes;
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* Virtual address in memory;
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* Offset in file;
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* Size of section;
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* Link to other section;
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* Miscellaneous information;
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* Address alignment boundary;
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* Size of entries, if section has table;
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And presented with the following `elf64_shdr` structure in the linux kernel:
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```C
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typedef struct elf64_shdr {
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Elf64_Word sh_name;
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Elf64_Word sh_type;
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Elf64_Xword sh_flags;
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Elf64_Addr sh_addr;
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Elf64_Off sh_offset;
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Elf64_Xword sh_size;
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Elf64_Word sh_link;
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Elf64_Word sh_info;
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Elf64_Xword sh_addralign;
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Elf64_Xword sh_entsize;
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} Elf64_Shdr;
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```
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**Program header table**
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All sections are grouped into segments in an executable or shared object file. Program header is an array of structures which describe every segment. It looks like:
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```C
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typedef struct elf64_phdr {
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Elf64_Word p_type;
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Elf64_Word p_flags;
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Elf64_Off p_offset;
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Elf64_Addr p_vaddr;
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Elf64_Addr p_paddr;
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Elf64_Xword p_filesz;
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Elf64_Xword p_memsz;
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Elf64_Xword p_align;
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} Elf64_Phdr;
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```
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in the linux kernel source code.
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`elf64_phdr` defined in the same [elf.h](https://github.com/torvalds/linux/blob/master/include/uapi/linux/elf.h).
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And ELF object file also contains other fields/structures which you can find in the [Documentation](http://downloads.openwatcom.org/ftp/devel/docs/elf-64-gen.pdf). Better let's look on the `vmlinux`.
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vmlinux
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--------------------------------------------------------------------------------
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`vmlinux` is relocatable ELF object file too. So we can look on it with the `readelf` util. First of all let's look on a header:
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```
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$ readelf -h vmlinux
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ELF Header:
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Magic: 7f 45 4c 46 02 01 01 00 00 00 00 00 00 00 00 00
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Class: ELF64
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Data: 2's complement, little endian
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Version: 1 (current)
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OS/ABI: UNIX - System V
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ABI Version: 0
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Type: EXEC (Executable file)
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Machine: Advanced Micro Devices X86-64
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Version: 0x1
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Entry point address: 0x1000000
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Start of program headers: 64 (bytes into file)
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Start of section headers: 381608416 (bytes into file)
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Flags: 0x0
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Size of this header: 64 (bytes)
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Size of program headers: 56 (bytes)
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Number of program headers: 5
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Size of section headers: 64 (bytes)
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Number of section headers: 73
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Section header string table index: 70
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```
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Here we can see that `vmlinux` is 64-bit executable file.
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We can read from the [Documentation/x86/x86_64/mm.txt](https://github.com/torvalds/linux/blob/master/Documentation/x86/x86_64/mm.txt):
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```
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ffffffff80000000 - ffffffffa0000000 (=512 MB) kernel text mapping, from phys 0
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```
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So we can find it in the `vmlinux` with:
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```
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readelf -s vmlinux | grep ffffffff81000000
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1: ffffffff81000000 0 SECTION LOCAL DEFAULT 1
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65099: ffffffff81000000 0 NOTYPE GLOBAL DEFAULT 1 _text
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90766: ffffffff81000000 0 NOTYPE GLOBAL DEFAULT 1 startup_64
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```
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Note that here is address of the `startup_64` routine is not `ffffffff80000000`, but `ffffffff81000000` and now i'll explain why.
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We can see following definition in the [arch/x86/kernel/vmlinux.lds.S](https://github.com/torvalds/linux/blob/master/arch/x86/kernel/vmlinux.lds.S):
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```
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. = __START_KERNEL;
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...
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...
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..
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/* Text and read-only data */
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.text : AT(ADDR(.text) - LOAD_OFFSET) {
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_text = .;
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...
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...
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...
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}
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```
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Where `__START_KERNEL` is:
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```
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#define __START_KERNEL (__START_KERNEL_map + __PHYSICAL_START)
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```
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`__START_KERNEL_map` is the value from documentation - `ffffffff80000000` and `__PHYSICAL_START` is `0x1000000`. That's why address of the `startup_64` is `ffffffff81000000`.
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And the last we can get program headers from `vmlinux` with the following command:
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```
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readelf -l vmlinux
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Elf file type is EXEC (Executable file)
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Entry point 0x1000000
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There are 5 program headers, starting at offset 64
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Program Headers:
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Type Offset VirtAddr PhysAddr
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FileSiz MemSiz Flags Align
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LOAD 0x0000000000200000 0xffffffff81000000 0x0000000001000000
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0x0000000000cfd000 0x0000000000cfd000 R E 200000
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LOAD 0x0000000001000000 0xffffffff81e00000 0x0000000001e00000
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0x0000000000100000 0x0000000000100000 RW 200000
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LOAD 0x0000000001200000 0x0000000000000000 0x0000000001f00000
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0x0000000000014d98 0x0000000000014d98 RW 200000
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LOAD 0x0000000001315000 0xffffffff81f15000 0x0000000001f15000
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0x000000000011d000 0x0000000000279000 RWE 200000
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NOTE 0x0000000000b17284 0xffffffff81917284 0x0000000001917284
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0x0000000000000024 0x0000000000000024 4
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Section to Segment mapping:
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Segment Sections...
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00 .text .notes __ex_table .rodata __bug_table .pci_fixup .builtin_fw
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.tracedata __ksymtab __ksymtab_gpl __kcrctab __kcrctab_gpl
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__ksymtab_strings __param __modver
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01 .data .vvar
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02 .data..percpu
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03 .init.text .init.data .x86_cpu_dev.init .altinstructions
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.altinstr_replacement .iommu_table .apicdrivers .exit.text
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.smp_locks .data_nosave .bss .brk
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```
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Here we can see five segments with sections list. All of these sections you can find in the generated linker script at - `arch/x86/kernel/vmlinux.lds`.
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That's all. Of course it's not a full description of ELF object format, but if you are interesting in it, you can find documentation - [here](http://downloads.openwatcom.org/ftp/devel/docs/elf-64-gen.pdf)
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