SELF File Format: Difference between revisions
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uint64_t e_shoff; /* section header offset */ | uint64_t e_shoff; /* section header offset */ | ||
uint16_t e_flags; /* processor-specific flags */ | uint16_t e_flags; /* processor-specific flags */ | ||
uint32_t e_ehsize; /* ELF header size */ | |||
uint16_t e_phentsize; /* size of program header entry */ | uint16_t e_phentsize; /* size of program header entry */ | ||
uint16_t e_phnum; /* number of program header entries */ | uint16_t e_phnum; /* number of program header entries */ |
Revision as of 12:22, 3 March 2013
SELF stands for Signed Executable and Linkable Format.
It is the format used by the executables on the PS3 (SCE Header Version 2), PS Vita (SCE Header Version 3) It consists of an elf whose sections might be encrypted using AES CTR and signed using ECDSA + HMAC-SHA1 It has a specific header here called SCE header where it stores all the parameters for this process
File Format
Notes:
- Numbers are stored in little endian format.
SELF/SCE Header
Struct
typedef struct {
uint32_t magic; /* 53434500 = SCE\0 */ uint32_t version; /* header version 3*/ uint16_t sdk_type; /* */ uint16_t header_type; /* 1 self, 2 unknown, 3 pkg */ uint32_t metadata_offset; /* metadata offset */ uint64_t header_len; /* self header length */ uint64_t elf_filesize; /* ELF file length */ uint64_t self_filesize; /* SELF file length */ uint64_t unknown; /* UNKNOWN */ uint64_t self_offset; /* SELF offset */ uint64_t appinfo_offset; /* app info offset */ uint64_t elf_offset; /* ELF #1 offset */ uint64_t phdr_offset; /* program header offset */ uint64_t shdr_offset; /* section header offset */ uint64_t section_info_offset; /* section info offset */ uint64_t sceversion_offset; /* version offset */ uint64_t controlinfo_offset; /* control info offset */ uint64_t controlinfo_size; /* control info size */ uint64_t padding;
} __attribute__((packed)) SELF;
Table
field | offset | type | notes |
---|---|---|---|
magic | 0x0 | u32 | Must be "SCE\0" |
version | 0x4 | u32 | This must be 3 |
sdk_type | 0x8 | u16 | This corresponds to the revision of the key to decrypt |
header_type | 0xA | u16 | 1 self, 2 rvk, 3 pkg, 4 spp |
metadata_offset | 0xC | u32 | Offset to the checksums. Must be at least 20 bytes before the end of the header |
header_len | 0x10 | u64 | This is the length of the header (including the fake elf headers) |
Encrypted size | 0x18 | u64 | The size of the encrypted part of the self file. |
File size | 0x20 | u64 | The size of the encrypted part of the self file. |
unknown | 0x28 | u64 | Must be 0 |
self_offset | 0x30 | u64 | SELF Offset |
App_info_offset | 0x38 | u64 | An offset in the header, usually at 0x80. See App info header. |
elf_offset | 0x40 | u64 | offset to the elf header |
phdr_offset | 0x48 | u64 | offset to phdr |
shdr_offset | 0x50 | u64 | offset to shdr |
encrypted phdr sizes/offsets table offset | 0x58 | u64 | Offset to a table which maps phdr entries to the actual offset/size within the encrypted fself.
Because fselfs can be compressed, they might not match the values listed within the elf. |
sceversion header | 0x60 | u64 | Offset to a header which contains some version information, including an offset to the .sceversion section of the encrypted elf. |
Control Information | 0x68 | u64 | several information containers |
Control Information Size | 0x70 | u64 |
comments
The real ELF data is located after the SCE header (see header size).
App Info
Struct
typedef struct {
uint64_t authid; /* auth id */ uint32_t vendor_id; /* vendor id */ uint32_t self_type; /* app type * 0x0D - , uint64_t version; /* app version */ uint64_t padding; /* UNKNOWN */
} __attribute__((packed)) APP_INFO;
Table
field | offset | type | notes |
---|---|---|---|
authid | 0x00 | u64 | |
unknown | 0x08 | u32 | |
app_type | 0x0c | u32 |
*0x08 SDK Debug? 0.945.040 |
app_version | 0x10 | u64 |
Comments
Aligned to 0x10 bytes.
ELF Header
Struct
typedef struct { uint8_t e_ident[16]; /* ELF identification */ uint16_t e_type; /* object file type */ uint16_t e_machine; /* machine type */ uint32_t e_version; /* object file version */ uint64_t e_entry; /* entry point address */ uint64_t e_phoff; /* program header offset */ uint64_t e_shoff; /* section header offset */ uint16_t e_flags; /* processor-specific flags */ uint32_t e_ehsize; /* ELF header size */ uint16_t e_phentsize; /* size of program header entry */ uint16_t e_phnum; /* number of program header entries */ uint16_t e_shentsize; /* size of section header entry */ uint16_t e_shnum; /* number of section header entries */ uint16_t e_shstrndx; /* section name string table index */ } __attribute__((packed)) ELF;
Table
Name of the variable | Offset | Size | Notes |
---|---|---|---|
e_ident[0] ,e_ident[1] ,e_ident[2] ,e_ident[3] |
elf_offset+(0,1,2,3) | 0x4 | Magic |
e_ident[4] | elf_offset+4 | 0x1 | Class Type [ELFCLASS32 = 1][ELFCLASS64 = 2] |
e_ident[5] | elf_offset+5 | 0x1 | Data Type [ELFDATA2LSB (i.e. le) = 1][ELFDATA2MSB (i.e. be) = 2] |
e_ident[6]->e_ident[15] | elf_offset+(6->15) | 0x1 | they are all zeros |
e_type | elf_offset+0x10 | 0x2 | PRX=0xFE00 EXEC=0x0002 |
e_machine | elf_offset+0x12 | 0x2 | seems to be 0x28 as machine type |
e_version | elf_offset+0x14 | 0x4 | elf version |
Comments
See Specifications here: ELF Header ELF-64 Object File Format
Notes:
- e_type: ET_PSVPRX=0xFE00
- e_type: ET_PSVELF=0x0002
ELF Program Headers
Struct
typedef struct { uint32_t p_type; /* type of segment */ uint32_t p_flags; /* segment attributes */ uint64_t p_offset; /* offset in file */ uint64_t p_vaddr; /* virtual address in memory */ uint64_t p_paddr; /* reserved */ uint64_t p_filesz; /* size of segment in file */ uint64_t p_memsz; /* size of segment in memory */ uint64_t p_align; /* alignment of segment */ } __attribute__((packed)) ELF_PHDR;
Table
Comments
See Spec here: ELF Program Headers
ELF Section Headers
Struct
typedef struct { uint32_t sh_name; /* section name */ uint32_t sh_type; /* section type */ uint64_t sh_flags; /* section attributes */ uint64_t sh_addr; /* virtual address in memory */ uint64_t sh_offset; /* offset in file */ uint64_t sh_size; /* size of section */ uint32_t sh_link; /* link to other section */ uint32_t sh_info; /* miscellaneous information */ uint64_t sh_addralign; /* address alignment boundary */ uint64_t sh_entsize; /* size of entries, if section has table */ } __attribute__((packed)) ELF_SHDR;
Table
Comments
Segment Information
Struct
typedef struct {
uint64_t offset; uint64_t size; uint32_t compressed; // 2=compressed uint32_t unknown1; uint32_t encrypted; // 1=encrypted uint32_t unknown2;
} __attribute__((packed)) SECTION_INFO;
Table
field | offset | type | notes |
---|---|---|---|
Encrypted Data Offset | 0x00 | u64 | |
Encrypted Data Size | 0x08 | u64 | |
Compression | 0x10 | u32 | |
unknown | 0x14 | u32 | |
Encryption | 0x18 | u32 | |
unknown | 0x1C | u32 |
Comments
There is one of these entries for each phdr entry in the elf file so that the ps3 knows where to decrypt the data from. (because it might also be compressed.)
Notes:
- There is one Segment Information for each ELF Program Header.
SCE Version Info
Struct
typedef struct {
uint32_t unknown1; uint32_t unknown2; uint32_t unknown3; uint32_t unknown4;
} __attribute__((packed)) SCEVERSION_INFO;
Table
Comment
Control Information
Struct
typedef struct {
uint32_t type; // 4== ; 6==;7== uint32_t size; uint64_t unknown; // 0;1
union { // type 4 0x50 bytes struct { uint8_t digest1[20]; //hash digest, same for every file uint8_t digest2[20]; //sha1 hash digest calculated of .elf file... uint8_t digest3[12]; // uint64_t padding; } file_digest50;
// type 6 0x110 bytes struct { uint32_t unknown1; // 0x00000001 uint8_t unknown2[252]; } file_digest110;
// type 7 0x50 bytes struct { uint64_t unknown1; uint64_t unknown2; uint64_t unknown3; uint64_t unknown4; uint64_t unknown5; uint64_t unknown6; uint64_t unknown7; uint64_t unknown8; } file_digest50_2; };
} __attribute__((packed)) CONTROL_INFO;