ppsspp/ext/libkirk/kirk_engine.h
2013-02-24 16:28:40 +08:00

247 lines
6.9 KiB
C

/*
Draan proudly presents:
With huge help from community:
coyotebean, Davee, hitchhikr, kgsws, liquidzigong, Mathieulh, Proxima, SilverSpring
******************** KIRK-ENGINE ********************
An Open-Source implementation of KIRK (PSP crypto engine) algorithms and keys.
Includes also additional routines for hash forging.
********************
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef KIRK_ENGINE
#define KIRK_ENGINE
typedef unsigned char u8;
typedef unsigned short int u16;
typedef unsigned int u32;
//Kirk return values
#define KIRK_OPERATION_SUCCESS 0
#define KIRK_NOT_ENABLED 1
#define KIRK_INVALID_MODE 2
#define KIRK_HEADER_HASH_INVALID 3
#define KIRK_DATA_HASH_INVALID 4
#define KIRK_SIG_CHECK_INVALID 5
#define KIRK_UNK_1 6
#define KIRK_UNK_2 7
#define KIRK_UNK_3 8
#define KIRK_UNK_4 9
#define KIRK_UNK_5 0xA
#define KIRK_UNK_6 0xB
#define KIRK_NOT_INITIALIZED 0xC
#define KIRK_INVALID_OPERATION 0xD
#define KIRK_INVALID_SEED_CODE 0xE
#define KIRK_INVALID_SIZE 0xF
#define KIRK_DATA_SIZE_ZERO 0x10
typedef struct
{
int mode; //0
int unk_4; //4
int unk_8; //8
int keyseed; //C
int data_size; //10
} KIRK_AES128CBC_HEADER; //0x14
typedef struct
{
u8 AES_key[16]; //0
u8 CMAC_key[16]; //10
u8 CMAC_header_hash[16]; //20
u8 CMAC_data_hash[16]; //30
u8 unused[32]; //40
u32 mode; //60
u8 ecdsa_hash; //64
u8 unk3[11]; //65
u32 data_size; //70
u32 data_offset; //74
u8 unk4[8]; //78
u8 unk5[16]; //80
} KIRK_CMD1_HEADER; //0x90
typedef struct
{
u8 AES_key[16]; //0
u8 header_sig_r[20]; //10
u8 header_sig_s[20]; //24
u8 data_sig_r[20]; //38
u8 data_sig_s[20]; //4C
u32 mode; //60
u8 ecdsa_hash; //64
u8 unk3[11]; //65
u32 data_size; //70
u32 data_offset; //74
u8 unk4[8]; //78
u8 unk5[16]; //80
} KIRK_CMD1_ECDSA_HEADER; //0x90
typedef struct
{
u8 r[0x14];
u8 s[0x14];
} ECDSA_SIG; //0x28
typedef struct
{
u8 x[0x14];
u8 y[0x14];
} ECDSA_POINT; //0x28
typedef struct
{
u32 data_size; //0
} KIRK_SHA1_HEADER; //4
typedef struct
{
u8 private_key[0x14];
ECDSA_POINT public_key;
} KIRK_CMD12_BUFFER;
typedef struct
{
u8 multiplier[0x14];
ECDSA_POINT public_key;
} KIRK_CMD13_BUFFER;
typedef struct
{
u8 enc_private[0x20]; //0
u8 message_hash[0x14]; //20
} KIRK_CMD16_BUFFER;//0x34
typedef struct
{
ECDSA_POINT public_key; //0
u8 message_hash[0x14]; //28
ECDSA_SIG signature; //3C
} KIRK_CMD17_BUFFER;//0x64
//mode passed to sceUtilsBufferCopyWithRange
#define KIRK_CMD_DECRYPT_PRIVATE 1
#define KIRK_CMD_2 2
#define KIRK_CMD_3 3
#define KIRK_CMD_ENCRYPT_IV_0 4
#define KIRK_CMD_ENCRYPT_IV_FUSE 5
#define KIRK_CMD_ENCRYPT_IV_USER 6
#define KIRK_CMD_DECRYPT_IV_0 7
#define KIRK_CMD_DECRYPT_IV_FUSE 8
#define KIRK_CMD_DECRYPT_IV_USER 9
#define KIRK_CMD_PRIV_SIGN_CHECK 10
#define KIRK_CMD_SHA1_HASH 11
#define KIRK_CMD_ECDSA_GEN_KEYS 12
#define KIRK_CMD_ECDSA_MULTIPLY_POINT 13
#define KIRK_CMD_PRNG 14
#define KIRK_CMD_15 15
#define KIRK_CMD_ECDSA_SIGN 16
#define KIRK_CMD_ECDSA_VERIFY 17
//"mode" in header
#define KIRK_MODE_CMD1 1
#define KIRK_MODE_CMD2 2
#define KIRK_MODE_CMD3 3
#define KIRK_MODE_ENCRYPT_CBC 4
#define KIRK_MODE_DECRYPT_CBC 5
//sceUtilsBufferCopyWithRange errors
#define SUBCWR_NOT_16_ALGINED 0x90A
#define SUBCWR_HEADER_HASH_INVALID 0x920
#define SUBCWR_BUFFER_TOO_SMALL 0x1000
/*
// Private Sig + Cipher
0x01: Super-Duper decryption (no inverse)
0x02: Encrypt Operation (inverse of 0x03)
0x03: Decrypt Operation (inverse of 0x02)
// Cipher
0x04: Encrypt Operation (inverse of 0x07) (IV=0)
0x05: Encrypt Operation (inverse of 0x08) (IV=FuseID)
0x06: Encrypt Operation (inverse of 0x09) (IV=UserDefined)
0x07: Decrypt Operation (inverse of 0x04)
0x08: Decrypt Operation (inverse of 0x05)
0x09: Decrypt Operation (inverse of 0x06)
// Sig Gens
0x0A: Private Signature Check (checks for private SCE sig)
0x0B: SHA1 Hash
0x0C: Mul1
0x0D: Mul2
0x0E: Random Number Gen
0x0F: (absolutely no idea ?could be KIRK initialization)
0x10: Signature Gen
// Sig Checks
0x11: Signature Check (checks for generated sigs)
0x12: Certificate Check (idstorage signatures)
*/
//kirk-like funcs
int kirk_CMD0(u8* outbuff, u8* inbuff, int size, int generate_trash);
int kirk_CMD1(u8* outbuff, u8* inbuff, int size);
int kirk_CMD4(u8* outbuff, u8* inbuff, int size);
int kirk_CMD7(u8* outbuff, u8* inbuff, int size);
int kirk_CMD10(u8* inbuff, int insize);
int kirk_CMD11(u8* outbuff, u8* inbuff, int size);
int kirk_CMD12(u8* outbuff, int outsize);
int kirk_CMD13(u8* outbuff, int outsize,u8* inbuff, int insize);
int kirk_CMD14(u8* outbuff, int outsize);
int kirk_CMD16(u8* outbuff, int outsize,u8* inbuff, int insize);
int kirk_CMD17(u8* inbuff, int insize);
int kirk_init(); //CMD 0xF?
int kirk_init2(u8 *, u32, u32, u32);
//helper funcs
u8* kirk_4_7_get_key(int key_type);
//kirk "ex" functions
int kirk_CMD1_ex(u8* outbuff, u8* inbuff, int size, KIRK_CMD1_HEADER* header);
//sce-like funcs
int sceUtilsSetFuseID(u8*fuse);
int sceUtilsBufferCopyWithRange(u8* outbuff, int outsize, u8* inbuff, int insize, int cmd);
void decrypt_kirk16_private(u8 *dA_out, u8 *dA_enc);
void encrypt_kirk16_private(u8 *dA_out, u8 *dA_dec);
// Prototypes for the Elliptic Curve and Big Number functions
int ecdsa_get_params(u32 type, u8 *p, u8 *a, u8 *b, u8 *N, u8 *Gx, u8 *Gy);
int ecdsa_set_curve(u8* p,u8* a,u8* b,u8* N,u8* Gx,u8* Gy);
void ecdsa_set_pub(u8 *Q);
void ecdsa_set_priv(u8 *k);
int ecdsa_verify(u8 *hash, u8 *R, u8 *S);
void ecdsa_sign(u8 *hash, u8 *R, u8 *S);
void ec_priv_to_pub(u8 *k, u8 *Q);
void ec_pub_mult(u8 *k, u8 *Q);
void bn_copy(u8 *d, u8 *a, u32 n);
int bn_compare(u8 *a, u8 *b, u32 n);
void bn_reduce(u8 *d, u8 *N, u32 n);
void bn_add(u8 *d, u8 *a, u8 *b, u8 *N, u32 n);
void bn_sub(u8 *d, u8 *a, u8 *b, u8 *N, u32 n);
void bn_to_mon(u8 *d, u8 *N, u32 n);
void bn_from_mon(u8 *d, u8 *N, u32 n);
void bn_mon_mul(u8 *d, u8 *a, u8 *b, u8 *N, u32 n);
void bn_mon_inv(u8 *d, u8 *a, u8 *N, u32 n);
void hex_dump(char *str, u8 *buf, int size);
#define round_up(x,n) (-(-(x) & -(n)))
#define array_size(x) (sizeof(x) / sizeof(*(x)))
#endif