Difference between revisions of "IMG3 File Format"

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The '''IMG3''' file format was introduced with [[iOS|iPhone OS]] 2.0b4 to replace the broken [[S5L File Formats|IMG2 format]]. This format is used on all devices with an [[S5L8955|A6X]] or older; [[S5L8960|A7]] and newer devices use [[IM4P File Format|IM4P]] and [[IMG4 File Format|IMG4]] files.
This is the replacement for the [[IMG2 File Format]] from firmware 2.0 and onward
 
   
==Header==
+
==Encryption==
  +
Apple got smarter this time, requiring the Hardware AES engine to be run per file. Decrypt the [[KBAG]] tag data with the [[GID Key]] to get the key and IV, and use those to decrypt the [[DATA]] section of the firmware file.
struct Img3 {
 
unsigned int magic; // fourcc="IMG3"
 
unsigned int fullSize; // full size of fw image
 
unsigned int sizeNoPack; // size of fw image without header
 
unsigned int sigCheckArea; // although that is just my name for it, this is the
 
// size of the start of the data section (the code) up to
 
// the start of the RSA signature (SHSH section)
 
unsigned int iden; // identifier of image, used when bootrom is parsing images
 
// list to find LLB (illb), LLB parsing it to find iBoot (ibot),
 
// etc.
 
 
} typedef Img3;
 
   
  +
In the current method, iBoot will always use the first 16 bytes of the [[KBAG]] as the IV, then the remaining 16 (aes-128, used with [[S5L8900]] and [[S5L8720]]), 24 (aes-192), or 32 (aes-256, used with [[S5L8920]]) bytes for the key.
==Tag Format==
 
unsigned int magic;
 
unsigned int total_length; //data_length+0xC
 
unsigned int data_length;
 
   
==Tags==
+
== Contents ==
  +
All numbers are stored in [[wikipedia:Endianness#Little-endian|little endian]] byte order; this includes the magic ''numbers'' (<code>magic</code> and <code>ident</code>).
VERS: Version
 
  +
typedef struct img3File {
SEPO: Unknown
 
  +
uint32_t magic; // ASCII_LE("Img3")
PROD: Processor to be used with.
 
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uint32_t fullSize; // full size of fw image
CHIP: Chip to be used with. "0x8900" for [[S5L8900]] and "0x8720" for [[S5L8720]]. Instead of there being a check against some piece of hardware, whatever is verifying this (bootrom / iBoot / LLB / etc.) has this hardcoded in.
 
  +
uint32_t sizeNoPack; // size of fw image without header
BORD: Board to be used with
 
  +
uint32_t sigCheckArea;// although that is just my name for it, this is the
[[KBAG]]: contains the KEY and IV required to decrypt encrypted with the [[GID-key]]
 
  +
// size of the start of the data section (the code) up to
SHSH: RSA encrypted SHA1 hash of the file
 
  +
// the start of the RSA signature (SHSH section)
CERT: Certificate
 
  +
uint32_t ident; // identifier of image, used when bootrom is parsing images
[[ECID]]: Exclusive Chip ID unique to every device with iPhone OS.
 
  +
// list to find LLB (illb), LLB parsing it to find iBoot (ibot),
  +
// etc.
  +
img3Tag tags[]; // continues until end of file
  +
};
   
  +
typedef struct img3Tag {
==Signature Check==
 
  +
uint32_t magic; // [[#Tags|see below]]
Decryption is done using the modulus at cert + 0xA15
 
  +
uint32_t totalLength; // length of tag including "magic" and these two length values
0xC to HSHS is SHAed
 
  +
uint32_t dataLength; // length of tag data
  +
uint8_t data[dataLength];
  +
uint8_t pad[totalLength - dataLength - 12]; // Typically padded to 4 byte multiple
  +
};
   
==Encryption==
+
== Tags ==
  +
Due to being written in little-endian byte order, these tags are actually backwards when written to the file (e.g. <code>VERS</code> is stored as <code>S&nbsp;R&nbsp;E&nbsp;V</code>).
Apple got smarter this time, requiring the Hardware AES engine to be run per file. Decrypt the [[KBAG]] tag data (0x20 byte?) with the hardware AES engine and get the 0x10 byte IV and the 0x10 byte KEY.
 
  +
[[VERS]]: [[iBoot]] version of the image
  +
[[SEPO]]: Security Epoch
  +
[[SDOM]]: Security Domain
  +
[[PROD]]: Production Mode
  +
[[CHIP]]: Chip to be used with. example: <code>0x8900</code> for [[S5L8900]].
  +
[[BORD]]: Board to be used with
  +
[[KBAG]]: Contains the IV and key required to decrypt; encrypted with the [[GID Key]]
  +
[[SHSH]]: RSA encrypted SHA1 hash of the file
  +
[[CERT]]: Certificate
  +
[[ECID]]: Exclusive Chip ID unique to every device
  +
[[TYPE]]: Type of image, should contain the same string as the header's <code>ident</code>
  +
[[DATA]]: Real content of the file
  +
[[Nonce|NONC]]: [[Nonce]] used when file was signed.
  +
[[CEPO]]: Chip epoch
  +
[[OVRD]]:
  +
[[RAND]]:
  +
[[SALT]]:
   
  +
==Signature Check==
iBoot has support for aes-192 and aes-256 also. In the current method, iBoot will always use the first 16 bytes as the IV, then the remaining 16 (aes-128, current method), 24 (aes-192), or 32 (aes-256) bytes for the key.
 
  +
Decryption is done using the modulus at cert + 0xA15
  +
0xC to [[SHSH]] is SHAed
   
  +
[[Category:File Formats]]
==Resources==
 
[http://www.iphonelinux.org/img3.tar.gz cmw's IMG3 Unpacker]
 

Revision as of 14:42, 19 October 2018

The IMG3 file format was introduced with iPhone OS 2.0b4 to replace the broken IMG2 format. This format is used on all devices with an A6X or older; A7 and newer devices use IM4P and IMG4 files.

Encryption

Apple got smarter this time, requiring the Hardware AES engine to be run per file. Decrypt the KBAG tag data with the GID Key to get the key and IV, and use those to decrypt the DATA section of the firmware file.

In the current method, iBoot will always use the first 16 bytes of the KBAG as the IV, then the remaining 16 (aes-128, used with S5L8900 and S5L8720), 24 (aes-192), or 32 (aes-256, used with S5L8920) bytes for the key.

Contents

All numbers are stored in little endian byte order; this includes the magic numbers (magic and ident).

typedef struct img3File {
    uint32_t magic;       // ASCII_LE("Img3")
    uint32_t fullSize;    // full size of fw image
    uint32_t sizeNoPack;  // size of fw image without header
    uint32_t sigCheckArea;// although that is just my name for it, this is the
                          // size of the start of the data section (the code) up to
                          // the start of the RSA signature (SHSH section)
    uint32_t ident;       // identifier of image, used when bootrom is parsing images
                          // list to find LLB (illb), LLB parsing it to find iBoot (ibot),
                          // etc. 
    img3Tag  tags[];      // continues until end of file
};
typedef struct img3Tag {
    uint32_t magic;            // see below
    uint32_t totalLength;      // length of tag including "magic" and these two length values
    uint32_t dataLength;       // length of tag data
    uint8_t  data[dataLength];
    uint8_t  pad[totalLength - dataLength - 12]; // Typically padded to 4 byte multiple
};

Tags

Due to being written in little-endian byte order, these tags are actually backwards when written to the file (e.g. VERS is stored as S R E V).

VERS: iBoot version of the image
SEPO: Security Epoch
SDOM: Security Domain
PROD: Production Mode
CHIP: Chip to be used with. example: 0x8900 for S5L8900.
BORD: Board to be used with
KBAG: Contains the IV and key required to decrypt; encrypted with the GID Key
SHSH: RSA encrypted SHA1 hash of the file
CERT: Certificate
ECID: Exclusive Chip ID unique to every device
TYPE: Type of image, should contain the same string as the header's ident
DATA: Real content of the file
NONC: Nonce used when file was signed.
CEPO: Chip epoch
OVRD: 
RAND: 
SALT:

Signature Check

Decryption is done using the modulus at cert + 0xA15
0xC to SHSH is SHAed