Talk:SELF - SPRX
To be merged with SELF File Format and Decryption
NPDRM Header
typedef struct { u32 block_type; // this is 3(NPDRM) u32 block_size; // this is 0x90(sizeof(Self_NPDRM)) u32 unknown1; //So far always 0 u32 unknown2; //So far always 0 u32 magic; // 0x4E504400(NPD) u32 unknown3; // So far always 1 u32 license; // 1 Network License, 2 Local License, 3 Free u32 type; // 1 Executable, 21 Update for Disc Based Game u8 titleid[0x30]; u8 hash_unknown[0x10]; u8 hash1[0x10]; u8 hash2[0x10]; u8 padding[0x10]; } Self_NPDRM
Located after the Self Control Info.
App Info header:
Aligned to 0x10 bytes.
field | offset | type | notes |
---|---|---|---|
authid | 0x00 | u64 | |
unknown | 0x08 | u32 | |
app_type | 0x0c | u32 |
|
app_version | 0x10 | u64 |
Encrypted phdr offset entry
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.)
field | offset | type | notes |
---|---|---|---|
Encrypted Data Offset | 0x00 | u64 | |
Encrypted Data Size | 0x08 | u64 | |
unknown | 0x10 | u32 | This has been 1 in all the examples I have seen. |
unknown | 0x14 | u32 | Always 0, as far as I know. |
unknown | 0x18 | u32 | Always 0, as far as I know. |
unknown | 0x1c | u32 | This is 2 for loadable segment types, and 0 for other types. |
field | offset | type | notes |
---|---|---|---|
Magic | 0x0 | u32 | Must be "SCE\0" |
version | 0x4 | u32 | This must be 2 or the Self loader will abort |
flags | 0x8 | u16 |
0001: FW 1.00 (app version 1.0.0) ... 0001: FW 3.15 (app version 3.15.0) 0001: FW 3.20 (app version 3.20.0) 0001: FW 3.21 (app version 3.21.0) 0001: FW 3.30 (app version 3.30.0) 0004: FW 3.40 (app version 3.40.0) 0004: FW 3.41 (app version 3.40.0) 0004: FW 3.42 (app version 3.40.0) 0007: FW 3.50 (app version 3.55.0) 000a: FW 3.55 (app version 3.55.0) 000d: FW 3.56 (app version 3.56.0) 0010: FW 3.60 (app version 3.60.0) 0010: FW 3.61 (app version 3.61.0) 0013: FW 3.65 (app version 3.65.0) 0013: FW 3.66 (app version 3.66.0) 0016: FW 3.70 (app version 3.70.0) 0016: FW 3.72 (app version 3.70.0) |
NPDRM Self algorithm
THIS DOES NOT ALLOW TO OBTAIN 3.60+ keys, nor piracy as you require the rif, act.dat and IDPS
On NPDRM self decryption all the security levels of the PS3 are involved: user space (vsh), kernel space(lv2), hypervisor( lv1) and isolated SPU (metldr + appldr)
The process start on vsh.elf...
VSH
Once the vsh detects that user is trying to start a self, it looks for the appinfo header type. If the type is 8, then the control digest element type 3 (NPD element) is located. From this NPD header the vsh gets the license type (free, local or network license).
If a free content(type 3) is detected then a generic klicense will be use for further steps (go to LV2). That klicensee is already public (see geohot npdrm_omac_key_1).
npdrm_omac_key1 : 72F990788F9CFF745725F08E4C128387 # ps3publictools/include/oddkeys.h npdrm_omac_key2 : 6BA52976EFDA16EF3C339FB2971E256B # ... npdrm_omac_key3 : 9B515FEACF75064981AA604D91A54E97 # ...
However if a paid content is to be loaded the vsh loads the act.dat and the rif associated to the content (if local it will locate a file with the same titleid on NPD element, if remote it will download to vsh process memory)
Then the signature is checked (last 0x28 bytes of both RIF and act.dat). The curves used are on vsh.self. It is a 3 element table, having the first curve nulled. The curve index for rif/act is 2. The curve values are negated as in the apploader and has the following structure
struct curve { uint8_t p[0x14]; uint8_t a[0x14]; uint8_t b[0x14]; uint8_t N[0x14]; uint8_t Gx[0x14]; uint8_t Gy[0x14]; }
If the curve checks then vsh will process the rif:
struct rif { uint8_t unk1[0x10]; //version, license type and user number uint8_t titleid[0x30]; //Content ID uint8 padding[0xC]; //Padding for randomness uint32_t actDatIndex; //Key index on act.dat between 0x00 and 0x7F uint8 key[0x10]; //encrypted klicensee uint64_t unk2; //timestamp?? uint64_t unk3; //Always 0 uint8_t rs[0x28]; };
struct ACTDAT { uint8_t unk1[0x10]; //Version, User number uint8_t keyTable[0x800]; //Key Table ...... uint8_t signature[0x28]; }
Using the RIF_KEY it will obtain the actdatIndex:
AES_KEY rifKey; int result = AES_set_decrypt_key(RIF_KEY, 0x80, &rifKey); AES_decrypt(&rif->padding, &rif->padding, &rifKey);
And finally having the actDat key index the execution pass to LV2 syscall 471
LV2
Lv2 is accessed using syscall471 which haves the following syntax:
int syscall_471(uint32_t type, char* titleID, void* klicensee, uint8_t* actdat, uint8_t* rif, int32_t licenseType, uint8_t* magicVersion);
The function has different parameters depending if the content is debug, free or paid:
FREE: syscall471(npd.type, &npd.titleID, freeklicensee, NULL, NULL, npd.license, &npd); PAID: syscall471(npd.type, &npd.titleID, NULL, &actdat.keyTable[rif.actDatIndex], &rif.key, npd.license, &npd);
The lv2 keeps a memory table with contentID and the associated key. When it receives a free content (r5 is not null) then copies the titleID and the klicensee to the table. For a paid content the rif.key is converted to the klicensee using:
AES_KEY IDPSKey, ConstKey, ActDatKey; uint8_t encrConst[0x10]; uint8_t decryptedActDat[0x10]; uint8_t klicensee[0x10]; int result = AES_set_encrypt_key(&IDPSVariation, 0x80, &IDPSKey); AES_encrypt(&CONSTACTDAT, &encrConst, &IDPSKey); result = AES_set_decrypt_key(&encrConst,0x80,&ConstKey); AES_decrypt(actDat,&decryptedActDat,&ConstKey); result = AES_set_decrypt_key(&decryptedActDat,0x80,&ActDatKey); AES_decrypt(rif,&klicensee,&ActDatKey);
where CONSTACTDAT is a constant value on lv2, IDPSVaritaion appears to be IDPS (not checked but DRM_Manager_initialize (see graf_chokolo's "bible") to something with the same structure), actdat are the 0x10bytes selected by rif keyIndex, and rif is rif.key (bytes 0x50-0x5f).
Once transformed it is stored on memory table...
I haven't check further steps on vsh nor lv2 so perhaps there are further transformations on the paid case (NOT FOR THE FREE AS I HAVE DECRYPTED THOSE) so we are jumping directly to the appldr
AppLdr
As you can see from graf_chokolo payloads a parameter is passed on spu_args.field60. That parameter is the previously stored klicensee.
However this key must be transformed (again) even for the free case. The transformation is:
uint8_t decryptedKLicensee[0x10] uint8_t KLicenseeDecryptKey[] = {0xf2, 0xfb, 0xca, 0x7a, 0x75, 0xb0, 0x4e, 0xdc, 0x13, 0x90, 0x63, 0x8c, 0xcd, 0xfd, 0xd1, 0xee}; AES_KEY KLicenseeKey int result = AES_set_decrypt_key(KLicenseeDecryptKey,0x80,&KLICENSEEKEY); AES_decrypt(klicensee,&decryptedKLicensee,&KLicenseeKey); EY is another key located inside the apploader and klicensee is the parameter.
Then we can finally remove the NPDRM layer using:
AES_KEY key; uint8_t iv[0x10]; memset(&iv[0],0,0x10); int result = AES_set_decrypt_key(&KLicenseeDecryptKey,0x80,&key); AES_cbc_encrypt(self + self->metaoffset + 0x20, self + self->metaoffset + 0x20,0x40,&key,&iv,0);
Observe the above code in action at [1]
Once that layer is removed we proceed as normal:
- Decrypt using AESCBC256 with the NPDRM keys to obtain the metadata keys
- Decrypt using AESCTR128 the data sha,hmac,iv keys
- Decrypt the data.
Source: http://www.ps3hax.net/showpost.php?p=259713&postcount=1 JuanNadie
Footnote: KLicenseeDecryptKey is located in appldr twice, e.g.
1.00:
Offset(h) 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 000187C0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................ 000187D0 F2 FB CA 7A 75 B0 4E DC 13 90 63 8C CD FD D1 EE òûÊzu°NÜ..cŒÍýÑî 000187E0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................ 000187F0 F2 FB CA 7A 75 B0 4E DC 13 90 63 8C CD FD D1 EE òûÊzu°NÜ..cŒÍýÑî
3.15:
Offset(h) 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 00018EB0 F2 FB CA 7A 75 B0 4E DC 13 90 63 8C CD FD D1 EE òûÊzu°NÜ..cŒÍýÑî 00018EC0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................ 00018ED0 F2 FB CA 7A 75 B0 4E DC 13 90 63 8C CD FD D1 EE òûÊzu°NÜ..cŒÍýÑî 00018EE0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
3.55:
Offset(h) 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 00019730 F2 FB CA 7A 75 B0 4E DC 13 90 63 8C CD FD D1 EE òûÊzu°NÜ..cŒÍýÑî 00019740 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................ 00019750 F2 FB CA 7A 75 B0 4E DC 13 90 63 8C CD FD D1 EE òûÊzu°NÜ..cŒÍýÑî 00019760 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
3.56:
Offset(h) 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 0001F920 F2 FB CA 7A 75 B0 4E DC 13 90 63 8C CD FD D1 EE òûÊzu°NÜ..cŒÍýÑî 0001F930 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................ 0001F940 F2 FB CA 7A 75 B0 4E DC 13 90 63 8C CD FD D1 EE òûÊzu°NÜ..cŒÍýÑî 0001F950 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
hex
appldr/npdrm 0.92-3.31: rev_0x01.rar (2.39 KB)