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SELF stands for Signed Executable and Linkable Format | [[Category:Software]] | ||
SELF stands for Signed Executable and Linkable Format. | |||
[[File:Self.png|thumb|alt=A screenshot of f0f's presentation at CCC2010.]] | [[File:Self.png|thumb|alt=A screenshot of f0f's presentation at CCC2010.]] | ||
It is the format used by the executables on the PS3 | |||
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 | |||
---- | |||
= Cryptography = | = Cryptography = | ||
Here is a small summary on how the | Here is a small summary on how the self cryptography works. | ||
Basically here are the steps being involved by the loaders: | Basically here are the steps being involved by the loaders: | ||
Loaders all have a static key and iv called respectively | Loaders all have a static key and iv called respectively erk and riv, those are keys for the first decryption step which are used to decrypt the very first 0x40 bytes of the self's metadata using AES256CBC | ||
Then the result is used as a key and iv to decrypt the rest of the metadata using AES128CTR, finally the decrypted metadata contains the keys and iv for each data sections which are still decrypted through AES128CTR. This security model is based on the fact that the first 0x40 bytes of the self's metadata once decrypted by the static AES256CBC key in the loader should never be the same from one binary to the other. The same goes for any other value used as an AES128CTR key or iv. | |||
Loaders are also involved with inflating the binaries using zlib. | |||
The self authenticity is based on other independent steps, HMAC-SHA1 and ECDSA for the actual signature. | |||
= | = File Format = | ||
Notes: | |||
*Numbers are stored in big endian format. | |||
=== SELF/SCE Header === | |||
typedef struct | |||
{ | |||
uint32_t magic; // "SCE\0" | |||
uint32_t version; // 2 | |||
uint16_t attribute; // 0x8000 - fself | |||
uint16_t category; | |||
uint32_t metadataInfoOffset; | |||
uint64_t fileOffset; | |||
uint64_t fileSize; | |||
uint64_t unknown06; | |||
uint64_t programInfoOffset; | |||
uint64_t elfHeaderOffset; | |||
uint64_t elfProgramHeadersOffset; | |||
uint64_t elfSectionHeadersOffset; | |||
uint64_t sInfoOffset; | |||
uint64_t versionInfoOffset; | |||
uint64_t controlInfoOffset; | |||
uint64_t controlInfoSize; | |||
uint64_t unknown15; | |||
} | |||
SELFHEADER_t; | |||
=== Program Info === | |||
typedef struct | |||
{ | |||
uint64_t programAuthId; | |||
uint64_t unknown01; | |||
uint16_t programVersion[4]; | |||
uint64_t unknown03; | |||
} | |||
PROGRAMINFO_t; | |||
=== ELF Header === | |||
See Spec here: [http://www.sco.com/developers/gabi/latest/ch4.eheader.html ELF Header] | |||
Notes: | |||
== | *e_type: ET_PS3PRX=0xFFA4 | ||
*EI_OSABI: ELFOSABI_CELL_LV2=0x66 | |||
=== ELF Program Headers === | |||
See Spec here: [http://www.sco.com/developers/gabi/latest/ch5.pheader.html ELF Program Headers] | |||
=== Segment Information === | |||
typedef struct | |||
{ | |||
uint64_t dataOffset; | |||
uint64_t dataSize; | |||
uint32_t compressed; //1:NO, 2:YES | |||
uint32_t unknown03; | |||
uint32_t unknown04; | |||
uint32_t encrypted; //0:NA, 1:YES, 2:NO | |||
} | |||
SEGMENTINFO_t; | |||
Notes: | |||
*There is one Segment Information for each ELF Program Header.<br> | |||
=== Control Information === | |||
typedef struct | |||
{ | |||
uint32_t unknown00; | |||
uint32_t unknown01; | |||
uint32_t unknown02; | |||
uint32_t unknown03; | |||
uint32_t controlFlags[8]; | |||
uint32_t unknown05; | |||
uint32_t unknown06; | |||
uint32_t unknown07; | |||
uint32_t unknown08; | |||
char digest[64]; | |||
uint32_t unknown10; | |||
uint32_t unknown11; | |||
} | |||
CONTROLINFO_t; | |||
=== Metadata Information === | |||
typedef struct | |||
{ | |||
uint8_t unknown00[32]; | |||
uint8_t key[32]; | |||
uint8_t ivec[32]; | |||
} | |||
METADATAINFO_t; | |||
Notes: | |||
*The key and ivec fields are encrypted using AES256CBC. | |||
*This is not present if it is an FSELF. | |||
=== | === Metadata Header === | ||
typedef struct | |||
typedef struct | { | ||
uint64_t signatureInputLength; | |||
uint32_t unknown02; | |||
} | uint32_t sectionCount; | ||
uint32_t keyCount; | |||
uint32_t signatureInfoSize; | |||
uint32_t unknown06; | |||
uint32_t unknown07; | |||
} | |||
METADATAHEADER_t; | |||
Notes: | |||
*The metadata header is located after the metadata info in the SELF file. | |||
*It is decrypted using AES128CTR with the key and ivec entries from the metadata information. | |||
*The signature input length is the number of bytes which are used to generate the SHA-1 which is used to generate the ECDSA signature. The length should be eveything from the beginning until the signature itself. The decrypted version of the input data is used. | |||
*This is only present if the metadata Information is present. | |||
=== Metadata Section Headers === | |||
typedef struct | |||
{ | |||
uint64_t dataOffset; | |||
uint64_t dataSize; | |||
uint32_t unknown02; | |||
uint32_t programIndex; | |||
uint32_t unknown04; | |||
uint32_t sha1Index; | |||
uint32_t encrypted; //1:NO, 3:YES | |||
uint32_t keyIndex; | |||
uint32_t ivecIndex; | |||
uint32_t compressed; //1:NO, 2:YES | |||
} | |||
METADATASECTIONHEADER_t; | |||
Notes: | |||
*The metadata section headers are located after the metadata header in the SELF file. | |||
*The number of sections is indicated by the sectionCount entry in the metadata header. | |||
*They are decrypted using AES128CTR with the key and ivec entries from the metadata information. | |||
*Section data is decrypted using AES128CTR with the key and ivec from the metadata keys specified by keyIndex and ivecIndex. | |||
*Section data will also need to be uncompressed using zlib. | |||
*The dataOffsets of the metadata section headers match in general the segment information dataOffsets. | |||
*This is only present if the metadata header is present. | |||
=== Metadata Keys === | |||
typedef uint8_t METADATAKEY_t [16]; | |||
Notes: | |||
* | *The metadata keys are located after the metadata section headers in the SELF file. | ||
* | *The number of keys is indicated by the keyCount entry in the metadata header. | ||
*They are decrypted using AES128CTR with the key and ivec entries from the metadata information. | |||
*If the sha1Index points to a key, then key[sha1Index] and key[sha1Index+1] form the 160-bit hash. key[sha1Index+2] to key[key[sha1Index+6] form the 512-bit key for the HMAC-SHA1. The HMAC-SHA1 is calculated on the decrypted data and before the decompression. | |||
= | === Signature Information === | ||
typedef struct | |||
{ | |||
uint32_t unknown00; | |||
uint32_t signatureSize; | |||
uint64_t unknown02; | |||
uint64_t unknown03; | |||
uint64_t unknown04; | |||
uint64_t unknown05; | |||
uint32_t unknown06; | |||
uint32_t unknown07; | |||
} | |||
SIGNATUREINFO_t; | |||
Notes: | |||
*The signature information is located after the metadata keys in the SELF file. | |||
*It is only present if the signatureInfoSize in the metadata header is not zero. | |||
*It is decrypted using AES128CTR with the key and ivec entries from the metadata information. | |||
=== | === Signature === | ||
typedef struct | |||
{ | |||
uint8_t r[21]; | |||
uint8_t s[21]; | |||
uint8_t padding[6]; | |||
} | |||
SIGNATURE_t; | |||
Notes: | |||
*The signature is located after the the signature information in the SELF file. | |||
*It is even present if the signature information is not present. | |||
*It is decrypted using AES128CTR with the key and ivec entries from the metadata information. | |||
= | = Extracting an ELF<br> = | ||
=== ELF Header === | |||
Elf64_Ehdr elfHeader; | |||
fseek ( selfFile, fix64 ( selfHeader.elfHeaderOffset ), SEEK_SET ); | |||
fread ( &elfHeader, sizeof ( Elf64_Ehdr ), 1, selfFile ); | |||
fseek ( elfFile, 0, SEEK_SET ); | |||
fwrite ( &elfHeader, sizeof ( Elf64_Ehdr ), 1, elfFile ); | |||
=== | === Section Headers === | ||
Elf64_Shdr elfSectionHeaders[100]; | |||
fseek ( selfFile, fix64 ( selfHeader.elfSectionHeadersOffset ), SEEK_SET ); | |||
fread ( elfSectionHeaders, sizeof ( Elf64_Shdr ), fix16 ( elfHeader.e_shnum ), selfFile ); | |||
fseek ( elfFile, fix64 ( elfHeader.e_shoff ), SEEK_SET ); | |||
fwrite ( elfSectionHeaders, sizeof ( Elf64_Shdr ), fix16 ( elfHeader.e_shnum ), elfFile ); | |||
== | === Section Data === | ||
Notes: | |||
*Unknown, manually copying the data over works for now. | |||
*There should be a section data offset somewhere. | |||
=== | === Program Headers === | ||
Elf64_Phdr elfProgramHeaders[100]; | |||
fseek ( selfFile, fix64 ( selfHeader.elfProgramHeadersOffset ), SEEK_SET ); | |||
fread ( elfProgramHeaders, sizeof ( Elf64_Phdr ), fix16 ( elfHeader.e_phnum ), selfFile ); | |||
fseek ( elfFile, fix64 ( elfHeader.e_phoff ), SEEK_SET ); | |||
fwrite ( elfProgramHeaders, sizeof ( Elf64_Phdr ), fix16 ( elfHeader.e_phnum ), elfFile ); | |||
=== | === Program Data === | ||
Notes: | |||
*Load the metadata information and decrypt the key and ivec entries using AES256CBC using erk and riv. | |||
*Load the metadata header and decrypt it using AES128CTR with the key and ivec entries from the metadata information. | |||
*Load sectionCount metadata section headers and decrypt them using AES128CTR with the key and ivec entries from the metadata information. | |||
*Load keyCount metadata keys and decrypt them using AES128CTR with the key and ivec entries from the metadata information. | |||
*For each metadata section: | |||
**In the SELF file, fseek to dataOffset and read in dataSize bytes. | |||
**Decrypt the data using AES128CTR with the key and ivec from the metadata keys specified by keyIndex and ivecIndex from the metadata section header. | |||
**Uncompress the data using zlib. | |||
**Write it to the ELF file as the program section specified by section Index in the metadata section header. | |||
''' Source: http://ps3wiki.lan.st/index.php?title=SELF_File_Format_and_Decryption ''' | |||