Difference between revisions of "SceSblSsMgr"

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Line 396: Line 396:
 
// key_size - 128 / 192 / 256 (size in bits)
 
// key_size - 128 / 192 / 256 (size in bits)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesEcbEncForDriver(char *src, char *dst, int size, char* key, int key_size, int mask_enable);
+
int sceSblDmac5AesEcbEncForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, int mask_enable);
 
</source>
 
</source>
  
Line 418: Line 418:
 
// key_size - 128 / 192 / 256 (size in bits)
 
// key_size - 128 / 192 / 256 (size in bits)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesEcbDecForDriver(char *src, char *dst, int size, char* key, int key_size, int mask_enable);
+
int sceSblDmac5AesEcbDecForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, int mask_enable);
 
</source>
 
</source>
  
Line 441: Line 441:
 
// key_id - 0 - used with sceSblAuthMgrSetDmac5Key. uses slot_id range 0x0C-0x17 internally
 
// key_id - 0 - used with sceSblAuthMgrSetDmac5Key. uses slot_id range 0x0C-0x17 internally
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesEcbEncNPForDriver(char *src, char *dst, int size, char *key, int key_size, int key_id, int mask_enable);
+
int sceSblDmac5AesEcbEncNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, int key_id, int mask_enable);
 
</source>
 
</source>
  
Line 464: Line 464:
 
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
 
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesEcbDecNPForDriver(char *src, char *dst, int size, char *key, int key_size, int key_id, int mask_enable);
+
int sceSblDmac5AesEcbDecNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, int key_id, int mask_enable);
 
</source>
 
</source>
  
Line 484: Line 484:
 
// key_size - 0x80 / 0xC0 / 0x100 (size in bits)
 
// key_size - 0x80 / 0xC0 / 0x100 (size in bits)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesEcbEncWithKeyslotForDriver(char *src, char *dst, int size, int slot_id, int key_size, int mask_enable);
+
int sceSblDmac5AesEcbEncWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, int mask_enable);
 
</source>
 
</source>
  
Line 504: Line 504:
 
// key_size - 128 / 192 / 256 (size in bits)
 
// key_size - 128 / 192 / 256 (size in bits)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesEcbDecWithKeyslotForDriver(char *src, char *dst, int size, int slot_id, int key_size, int mask_enable);
+
int sceSblDmac5AesEcbDecWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, int mask_enable);
 
</source>
 
</source>
  
Line 532: Line 532:
 
// key_size - 192 (size in bits) - other sizes also work
 
// key_size - 192 (size in bits) - other sizes also work
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5DesEcbEncWithKeyslotForDriver(char *src, char *dst, int size, int slot_id, int key_size, int mask_enable);
+
int sceSblDmac5DesEcbEncWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, int mask_enable);
 
</source>
 
</source>
  
Line 560: Line 560:
 
// key_size - 192 (size in bits) - other sizes also work
 
// key_size - 192 (size in bits) - other sizes also work
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5DesEcbDecWithKeyslotForDriver(char *src, char *dst, int size, int slot_id, int key_size, int mask_enable);
+
int sceSblDmac5DesEcbDecWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, int mask_enable);
 
</source>
 
</source>
  
Line 589: Line 589:
 
// iv - length is 8 for DES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// iv - length is 8 for DES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5DesCbcEncWithKeyslotForDriver(char *src, char *dst, int size, int slot_id, int key_size, char* iv, int mask_enable);
+
int sceSblDmac5DesCbcEncWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, void *iv, int mask_enable);
 
</source>
 
</source>
  
Line 618: Line 618:
 
// iv - length is 8 for DES
 
// iv - length is 8 for DES
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5DesCbcDecWithKeyslotForDriver(char *src, char *dst, int size, int slot_id, int key_size, char* iv, int mask_enable);
+
int sceSblDmac5DesCbcDecWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, void *iv, int mask_enable);
 
</source>
 
</source>
  
Line 641: Line 641:
 
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesCbcEncForDriver(char *src, char *dst, int size, char *key, int key_size, char *iv, int mask_enable);
+
int sceSblDmac5AesCbcEncForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable);
 
</source>
 
</source>
  
Line 666: Line 666:
 
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesCbcDecForDriver(char *src, char *dst, int size, char *key, int key_size, char *iv, int mask_enable);
+
int sceSblDmac5AesCbcDecForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable);
 
</source>
 
</source>
  
Line 690: Line 690:
 
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
 
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesCbcEncNPForDriver(char *src, char *dst, int size, char *key, int key_size, char *iv, int key_id, int mask_enable);
+
int sceSblDmac5AesCbcEncNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int key_id, int mask_enable);
 
</source>
 
</source>
  
Line 714: Line 714:
 
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
 
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesCbcDecNPForDriver(char *src, char *dst, int size, char *key, int key_size, char *iv, int key_id, int mask_enable);
+
int sceSblDmac5AesCbcDecNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int key_id, int mask_enable);
 
</source>
 
</source>
  
Line 739: Line 739:
 
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesCtrEncForDriver(char *src, char *dst, int size, char *key, int key_size, char *iv, int mask_enable);
+
int sceSblDmac5AesCtrEncForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable);
 
</source>
 
</source>
  
Line 764: Line 764:
 
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
 
// mask_enable = 1
 
// mask_enable = 1
int sceSblDmac5AesCtrDecForDriver(char *src, char *dst, int size, char *key, int key_size, char *iv, int mask_enable);
+
int sceSblDmac5AesCtrDecForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable);
 
</source>
 
</source>
  
Line 784: Line 784:
 
// mask_enable = 1
 
// mask_enable = 1
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblSsMgrSha1ForDriver(char *src, char *dst, int size, char *iv, int mask_enable, int command_bit);
+
int sceSblSsMgrSha1ForDriver(const void *src, void *dst, SceSize size, void *iv, int mask_enable, int command_bit);
 
</source>
 
</source>
  
Line 808: Line 808:
 
// mask_enable = 1
 
// mask_enable = 1
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5Sha1HmacTransformForDriver(char *src, char *dst, int size, char *key, char *iv, int mask_enable, int command_bit);
+
int sceSblDmac5Sha1HmacTransformForDriver(const void *src, void *dst, SceSize size, const void *key, void *iv, int mask_enable, int command_bit);
 
</source>
 
</source>
  
Line 834: Line 834:
 
// mask_enable = 1
 
// mask_enable = 1
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5Sha1HmacNPForDriver(char *src, char *dst, int size, char *key, char *iv, int key_id, int mask_enable, int command_bit);
+
int sceSblDmac5Sha1HmacNPForDriver(const void *src, void *dst, SceSize size, const void *key, void *iv, int key_id, int mask_enable, int command_bit);
 
</source>
 
</source>
  
Line 856: Line 856:
 
// mask_enable = 1
 
// mask_enable = 1
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5Sha256HmacForDriver(char *src, char *dst, int size, char *key, char *iv, int mask_enable, int command_bit);
+
int sceSblDmac5Sha256HmacForDriver(const void *src, void *dst, SceSize size, const void *key, void *iv, int mask_enable, int command_bit);
 
</source>
 
</source>
  
Line 880: Line 880:
 
// mask_enable = 1
 
// mask_enable = 1
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5AesCmacForDriver(char *src, char *dst, int size, char *key, int key_size, char *iv, int mask_enable, int command_bit);
+
int sceSblDmac5AesCmacForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable, int command_bit);
 
</source>
 
</source>
  
Line 905: Line 905:
 
// mask_enable = 1
 
// mask_enable = 1
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5AesCmacNPForDriver(char *src, char *dst, int size, char *key, int key_size, char *iv, int key_id, int mask_enable, int command_bit);
+
int sceSblDmac5AesCmacNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int key_id, int mask_enable, int command_bit);
 
</source>
 
</source>
  
Line 927: Line 927:
 
// mask_enable = 1
 
// mask_enable = 1
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
 
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5AesCmacWithKeyslotForDriver(char *src, char *dst, int size, int slot_id, int key_size, char *iv, int mask_enable, int command_bit);
+
int sceSblDmac5AesCmacWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, void *iv, int mask_enable, int command_bit);
 
</source>
 
</source>
  
Line 942: Line 942:
 
Used in [[SceNpDrm]].
 
Used in [[SceNpDrm]].
  
<source lang="c">int sceSblSsMgrExecuteDmac5HashCommandForDriver(char *src, char *dst, int size, char *iv, int mask_enable, int command, int command_bit);</source>
+
<source lang="c">int sceSblSsMgrExecuteDmac5HashCommandForDriver(const void *src, void *dst, SceSize size, void *iv, int mask_enable, int command, int command_bit);</source>
  
 
=== sceSblSsEncryptWithPortabilityForDriver ===
 
=== sceSblSsEncryptWithPortabilityForDriver ===
Line 956: Line 956:
 
Strangely it does not communicate with [[F00D_Commands#0x1000A|encdec_w_portability_sm command 0x1000A]]. That's because anyway this SM command is not implemented in release FWs.
 
Strangely it does not communicate with [[F00D_Commands#0x1000A|encdec_w_portability_sm command 0x1000A]]. That's because anyway this SM command is not implemented in release FWs.
  
<source lang="C">int sceSblSsEncryptWithPortabilityForDriver(int key_id, char *iv, ScePortabilityData *plain, ScePortabilityData *enc);</source>
+
<source lang="C">int sceSblSsEncryptWithPortabilityForDriver(int key_id, void *iv, ScePortabilityData *plain, ScePortabilityData *enc);</source>
  
 
=== sceSblSsDecryptWithPortabilityForDriver ===
 
=== sceSblSsDecryptWithPortabilityForDriver ===
Line 972: Line 972:
 
Executes F00D [[F00D_Commands#0x2000A_-_DecryptWithPortability|encdec_w_portability_sm command 0x2000A]].
 
Executes F00D [[F00D_Commands#0x2000A_-_DecryptWithPortability|encdec_w_portability_sm command 0x2000A]].
  
<source lang="C">int sceSblSsDecryptWithPortabilityForDriver(SceUInt32 key_type, char *iv, ScePortabilityData *enc, ScePortabilityData *plain);</source>
+
<source lang="C">int sceSblSsDecryptWithPortabilityForDriver(SceUInt32 key_type, void *iv, ScePortabilityData *enc, ScePortabilityData *plain);</source>
  
 
=== sceSblSsGetNvsDataForDriver ===
 
=== sceSblSsGetNvsDataForDriver ===
Line 990: Line 990:
 
// pData - destination buffer
 
// pData - destination buffer
 
// size - 2, 4, 8, 0x10, 0x20
 
// size - 2, 4, 8, 0x10, 0x20
int sceSblSsGetNvsDataForDriver(SceSblSsNvsData index, void *pData, int size);
+
int sceSblSsGetNvsDataForDriver(SceSblSsNvsData index, void *pData, SceSize size);
 
</source>
 
</source>
  
Line 1,009: Line 1,009:
 
// pData - source buffer
 
// pData - source buffer
 
// size - 2, 4, 8, 0x10, 0x20
 
// size - 2, 4, 8, 0x10, 0x20
int sceSblSsSetNvsDataForDriver(SceSblSsNvsData index, void *pData, int size);
+
int sceSblSsSetNvsDataForDriver(SceSblSsNvsData index, void *pData, SceSize size);
 
</source>
 
</source>
  

Revision as of 02:13, 13 June 2020

Module

Known NIDs

Version Name World Privilege NID
1.69 SceSblSsMgr Non-secure Kernel 0xFDDD93FA
3.60 SceSblSsMgr Non-secure Kernel 0x4E913538

Libraries

Known NIDs

Version Name World Visibility NID
1.69-3.60 SceSblSsMgrForKernel Non-secure Kernel 0x74580D9F
1.69-3.60 SceSblSsMgrForDriver Non-secure Kernel 0x61E9428D
1.69 SceSblSsMgr Non-secure Kernel 0xEC86E4B0
1.69-3.60 SceSblQafMgr Non-secure User 0x756B7E89
1.69-3.60 SceSblRng Non-secure User 0x1843F124
1.69-3.60 SceSblDmac5Mgr Non-secure User 0x437366A2
1.69-3.60 SceSblAimgr Non-secure User 0xD473F968

Types

SceKitActivationData

Offset Size Description
0x00 0x4 Magic "act\0"
0x04 0x4 Format version
0x08 0x4 Issue number (increment each activation, prevent rollback)
0x0C 0x4 Start validity time unix timestamp
0x10 0x4 End validity time unix timestamp
0x14 0x10 Activation key
0x24 0x1C Unused
0x40 0x40 Encrypted Token (First 0x30 bytes of SceKitActivationData then 0x10 byte CMAC) 
typedef struct SceConsoleId {
	uint16_t unk; // {0, 0}
	uint16_t company_code; // {0, 1}
	uint16_t product_code;
	uint16_t product_sub_code;
	uint8_t chassis_check;
	uint8_t unknown[7];
} SceConsoleId;

typedef struct SceOpenPsId {
	uint8_t open_psid[0x10];
} SceOpenPsId;

typedef struct ScePsCode {
	uint16_t company_code; // {0, 1}
	uint16_t product_code;
	uint16_t product_sub_code;
	uint16_t factory_code; // = chassis_check >> 2;
} ScePsCode;

typedef struct Sce SceVisibleId {
	char visible_id[0x20];
} SceVisibleId;

typedef enum SceSblSsNvsData {
	SCE_SBL_SS_NVS_DATA_UNK_4A4            = 0, // offset 0x4A4, size 4
	SCE_SBL_SS_NVS_DATA_UNK_500            = 1, // offset 0x500, size 1
	SCE_SBL_SS_NVS_DATA_UNK_482            = 2, // offset 0x482, size 1
	SCE_SBL_SS_NVS_DATA_UNK_4E0            = 3, // offset 0x4E0, size 0x20
	SCE_SBL_SS_NVS_DATA_UNK_483            = 4, // offset 0x483, size 1
	SCE_SBL_SS_NVS_DATA_UNK_486            = 5  // offset 0x486, size 1
} SceSblSsNvsData;

typedef struct SceKitActivationDataToken { // size is 0x40 bytes
  char magic[4]; // "act\n"
  uint32_t issue_no;
  uint32_t format_version;
  uint32_t start_date;
  uint32_t end_date;
  char open_psid[0x10];
  char padding[0xC];
  char cmac[0x10];
} SceKitActivationDataToken;

// This is what embeds the tm0:activation/act.dat file
typedef struct SceKitActivationData { // size is 0x80 bytes
  char magic[4]; // "act\n"
  uint32_t issue_no;
  uint32_t format_version;
  uint32_t start_date;
  uint32_t end_date;
  char open_psid[0x10];
  char padding[0x1C];
  char encrypted_token[0x40];
} SceKitActivationData;

typedef struct SceQafToken { // size is 0x80 bytes
  SceUInt32 qaf_version;
  SceUInt32 unk_4;
  char qaf_name[0x10]; // "NO_FLAGS" by default
  char unk_18[8];
  char consoleid[0x10];
  char qa_flags[0x10];
  char unk_40[0x30];
  char cmac[0x10]; // AES256CMAC of SceQafToken with zeroed CMAC field
} SceQafToken;

typedef struct ScePortabilityData { // size is 0x24
   SceSize msg_size; // max size is 0x20
   uint8_t msg[0x20];
} ScePortabilityData;

// Used by run_encdec_cmd, itself called by sceSblDmac5EncDec for example.
typedef struct dmac_op_ctx {
	dmac_op_ctx_heap *ctx_heap_addr;
	uint keyring_key_count; // if keyring_key_count < 0x100, keyring_key_count is used as DKey
	uint unk_8;
	SceUID dmac_opid; // used with sceKernelDmaOpFreeForDriver
	char iv[0x28]; // iv_size can be 0, 8, 0x10 or 0x28 depending on cmd itself depending on key_size
} dmac_op_ctx;

typedef struct dmac_op_ctx_heap { // size is 0x40 on FW 0.990
	uint cmd;
	uint unk_4; // 0x100
	uint unk_8; // 0 if unk_flag = 0, 0x3ffff else
	uint dmac5_op;
	char reserved[0x30];
} dmac_op_ctx_heap;

SceSblSsMgrForKernel

sceSblNvsReadDataForKernel

Version NID
0.990-3.60 0xC2EC8F5A

Previous name was sceSblSsMgrGetSysconDataForKernel and sceSblSsMgrNvsReadDataForKernel.

Calls sceSysconNvsReadDataForDriver.

Trying to read at offset 0-0x3FF: error 0x8025023C (cannot read SNVS using this function, need to use new protocols, to be documented).

Trying to read at offset > 0xB5F: error 0x80250001 (out of range). 

int sceSblNvsReadDataForKernel(int offset, char *buffer, int size);

sceSblNvsWriteDataForKernel

Version NID
0.990-3.60 0xE29E161C

Previous name was sceSblSsMgrSetSysconDataForKernel and sceSblSsMgrNvsWriteDataForKernel.

Calls sceSysconNvsWriteDataForDriver. 

int sceSblNvsWriteDataForKernel(int offset, char *buffer, int size);

return_ffffffff

Version NID
0.990-3.60 0x516ECC08

From 0.990 to 3.60, all it does is return -1; // 0xFFFFFFFF. 

int return_ffffffff(void);

sceSblQafManagerGetQafTokenForKernel

Version NID
0.931-0.990 0x281FD75A 
int sceSblQafManagerGetQafTokenForKernel(SceQafToken *pToken);

sceSblQafManagerSetQafTokenForKernel

Version NID
0.931-0.990 0x8E9447A1 
int sceSblQafManagerSetQafTokenForKernel(SceQafToken *pToken);

get_qaf_token

Version NID
1.03 0x228A6653

On 0.990, only returns -1. 

SceQafToken *temp_token = token;
sceSblNvsReadDataForKernel(0x480, flag, 1);
	if (!flag) {
		nvs_read(0x400, temp_token, 0x80);
		ret = exec_qaf_sm(temp_token, 0);
	}
return ret;
int get_qaf_token(SceQafToken *token)

sceSblQafManagerClearQafTokenForKernel

Version NID
0.931-0.990 0xD45155C6 
int sceSblQafManagerClearQafTokenForKernel(void);
uint32_t ret;
  char qaf_token[0x80];

  memset(&qaf_token, 0xFF, 0x80);
  SceKernelSuspendForDriver_4DF40893(0);
  ret = sceSblNvsWriteDataForKernel(0x400, &qaf_token, 0x80);
  if (!ret) // if qaf_token successfully written, set a flag at 0x480
    ret = sceSblNvsWriteDataForKernel(0x480, 1, 1);
  SceKernelSuspendForDriver_2BB92967(0);
  return ret;

sceSblQafManagerGetQAFlagsForKernel

Version NID
0.990-3.60 0x83D254FF 
int sceSblQafManagerGetQAFlagsForKernel(char buffer[0x10]);

sceSblQafManagerGetQafNameForKernel

Version NID
0.990-3.60 0xE2DD0378 
if ( byte_81008725 & 2 ) {
    char workaround_string = "qaf_workaround";
    memcpy(buffer, workaround_string, max_len);
} else {
	sceSblNvsReadDataForKernel(0x480, flag, 1);
	if (flag) {
		sceSblNvsReadDataForKernel(0x400, buf, 0x80);
		memcpy(buffer, buf, 0x18);
	}
}
int sceSblQafManagerGetQafNameForKernel(char *buffer, unsigned int max_len);

SceSblSsMgrForDriver

Cryptographic functions in this module typically have 3 variations:

  1. Use key - meaning that the key that you provide is used directly for encryption/decryption.
  2. Use slot_id - meaning that you have to use sceSblAuthMgrSetDmac5KeyForKernel function to set the key into a specific slot. In this case you select a key from F00D by key_id. It will be encrypted by F00D and placed into the slot selected by slot_id.
  3. Use key_id - meaning that the call to sceSblAuthMgrSetDmac5KeyForKernel will happen internally. In this case the key from F00D is also selected by key_id and encrypted by F00D. It is then placed into one of the available slots. Default slot range is 0xC-0x17.

sceSblRngPseudoRandomNumberForDriver

Version NID
3.60 0x4F9BFBE5

Temp name was sceSblSsMgrGetRandomNumberForDriver. 

int sceSblRngPseudoRandomNumberForDriver(char* result, int size);

sceSblRngGenuineRandomNumberForDriver

Version NID
0.990-3.60 0xAC57F4F0

Temp name was sceSblSsMgrGetRandomDataForDriver.

Generates random data of length 0x40 bytes by doing: sceSblDmac5RndForDriver(dest, 0x40, 1);

Used in SceKrm, SceSblGcAuthMgr. 

int sceSblRngGenuineRandomNumberForDriver(char* dest);

sceSblDmac5AllocOpForDriver

Version NID
0.931 0x18A1BF77
3.60 not present

sceSblDmac5FreeOpForDriver

Version NID
0.931 0xEB462E80
3.60 not present

sceSblDmac5DirectCryptForDriver

Version NID
0.931 0x29BE9D99
3.60 not present

sceSblDmac5RndForDriver

Version NID
3.60 0x4DD1B2E5

Temp name was sceSblSsMgrGetRandomDataCropForDriver.

Generates random data of length by executing Dmac5 command 0x4.

Data is then cropped to fit the size in pOutputBuffer.

Used in SceMsif. 

int sceSblDmac5RndForDriver(char* pOutputBuffer, int size, int unk);

sceSblDmac5AesEcbEncForDriver

Version NID
0.990-3.60 0xC517770D

Temp name was sceSblSsMgrAESECBEncryptForDriver.

Executes Dmac5 command 0x1.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// mask_enable = 1
int sceSblDmac5AesEcbEncForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, int mask_enable);

sceSblDmac5AesEcbDecForDriver

Version NID
0.990-3.60 0x7C978BE7

Temp name was sceSblSsMgrAESECBDecryptForDriver.

Executes Dmac5 command 0x2.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// mask_enable = 1
int sceSblDmac5AesEcbDecForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, int mask_enable);

sceSblDmac5AesEcbEncNPForDriver

Version NID
0.990-3.60 0x0F7D28AF

Temp name was sceSblSsMgrAESECBEncryptWithKeygenForDriver.

Executes Dmac5 command 0x1.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// key_id - 0 - used with sceSblAuthMgrSetDmac5Key. uses slot_id range 0x0C-0x17 internally
// mask_enable = 1
int sceSblDmac5AesEcbEncNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, int key_id, int mask_enable);

sceSblDmac5AesEcbDecNPForDriver

Version NID
3.60 0x197ACF6F

Temp name was sceSblSsMgrAESECBDecryptWithKeygenForDriver.

Executes Dmac5 command 0x2.

no usages found 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
// mask_enable = 1
int sceSblDmac5AesEcbDecNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, int key_id, int mask_enable);

sceSblDmac5AesEcbEncWithKeyslotForDriver

Version NID
3.60 0x01BE0374

Executes Dmac5 command 0x1.

Used in SceSblMgKeyMgr. 

// size - size of data in src
// slot_id - 0x1C, 0x1D, 0x1E, 0x1F
// key_size - 0x80 / 0xC0 / 0x100 (size in bits)
// mask_enable = 1
int sceSblDmac5AesEcbEncWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, int mask_enable);

sceSblDmac5AesEcbDecWithKeyslotForDriver

Version NID
3.60 0x8B4700CB

Executes Dmac5 command 0x2.

Used in SceSblMgKeyMgr. 

// size - size of data in src
// slot_id - 0x1D, ?
// key_size - 128 / 192 / 256 (size in bits)
// mask_enable = 1
int sceSblDmac5AesEcbDecWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, int mask_enable);

sceSblDmac5DesEcbEncWithKeyslotForDriver

Version NID
3.60 0x37DD5CBF

Temp name was sceSblSsMgrDES64ECBEncryptForDriver.

This also implements 3DES. Chosen function depends on key size.

  • for 64 - DES
  • for 128 - not tested. assuming 3DES with K1 = K3.
  • for 192 - 3DES

Executes Dmac5 command 0x41.

Used in SceSblMgKeyMgr. 

// size - size of data in src
// slot_id - 0x1C, ?
// key_size - 192 (size in bits) - other sizes also work
// mask_enable = 1
int sceSblDmac5DesEcbEncWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, int mask_enable);

sceSblDmac5DesEcbDecWithKeyslotForDriver

Version NID
3.60 0x8EAFB18A

Temp name was sceSblSsMgrDES64ECBDecryptForDriver.

This also implements 3DES. Chosen function depends on key size.

  • for 64 - DES
  • for 128 - not tested. assuming 3DES with K1 = K3.
  • for 192 - 3DES

Executes Dmac5 command 0x42.

Used in SceSblMgKeyMgr. 

// size - size of data in src
// slot_id - 0x1C, ?
// key_size - 192 (size in bits) - other sizes also work
// mask_enable = 1
int sceSblDmac5DesEcbDecWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, int mask_enable);

sceSblDmac5DesCbcEncWithKeyslotForDriver

Version NID
3.60 0x05B38698

Temp name was sceSblSsMgrDES64CBCEncryptForDriver.

This also probably implements 3DES. Chosen function depends on key size.

  • for 0x40 - DES
  • for 0x80 - not tested. assuming 3DES with K1 = K3.
  • for 0xC0 - 3DES

Executes Dmac5 command 0x49.

no usages found 

// size - size of data in src
// slot_id - 0x1D, ?
// key_size - ? - does not matter ?
// iv - length is 8 for DES - will be updated after encryption (most likely for encrypting data in blocks?)
// mask_enable = 1
int sceSblDmac5DesCbcEncWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, void *iv, int mask_enable);

sceSblDmac5DesCbcDecWithKeyslotForDriver

Version NID
3.60 0x926BCCF0

Temp name was sceSblSsMgrDES64CBCDecryptForDriver.

This also probably implements 3DES. Chosen function depends on key size.

  • for 0x40 - DES
  • for 0x80 - not tested. assuming 3DES with K1 = K3.
  • for 0xC0 - 3DES

Executes Dmac5 command 0x4A.

no usages found 

// size - size of data in src
// slot_id - 0x1D, ?
// key_size - ? - does not matter ?
// iv - length is 8 for DES
// mask_enable = 1
int sceSblDmac5DesCbcDecWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, void *iv, int mask_enable);

sceSblDmac5AesCbcEncForDriver

Version NID
0.990-3.60 0xE6E1AD15

Temp name was sceSblSsMgrAESCBCEncryptForDriver.

Executes Dmac5 command 0x9.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (lenght in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
// mask_enable = 1
int sceSblDmac5AesCbcEncForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable);

sceSblDmac5AesCbcDecForDriver

Version NID
0.990-3.60 0x121FA69F

SCE maybe made a typo: sceSblDmac5AEsCbcDecForDriver.

Temp name was sceSblSsMgrAESCBCDecryptForDriver.

Executes Dmac5 command 0xA.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
// mask_enable = 1
int sceSblDmac5AesCbcDecForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable);

sceSblDmac5AesCbcEncNPForDriver

Version NID
0.990-3.60 0x711C057A

Temp name was sceSblSsMgrAESCBCEncryptWithKeygenForDriver.

Executes Dmac5 command 0x9.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
// mask_enable = 1
int sceSblDmac5AesCbcEncNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int key_id, int mask_enable);

sceSblDmac5AesCbcDecNPForDriver

Version NID
0.990-3.60 0x1901CB5E

Temp name was sceSblSsMgrAESCBCDecryptWithKeygenForDriver.

Executes Dmac5 command 0xA.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
// mask_enable = 1
int sceSblDmac5AesCbcDecNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int key_id, int mask_enable);

sceSblDmac5AesCtrEncForDriver

Version NID
1.50-3.60 0x82B5DCEF

Temp name was sceSblSsMgrAESCTREncryptForDriver.

Executes Dmac5 command 0x21.

Used in SceNpDrm.

This function can also be used for decryption since CTR is symmetric function. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20
// key_size - 128 / 192 / 256 (size in bits)
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
// mask_enable = 1
int sceSblDmac5AesCtrEncForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable);

sceSblDmac5AesCtrDecForDriver

Version NID
3.60 0x7D46768C

Temp name was sceSblSsMgrAESCTRDecryptForDriver.

Executes Dmac5 command 0x22.

no usages found

this function can also be used for encryption since CTR is symmetric function 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20
// key_size - 128 / 192 / 256 (size in bits)
// iv - length is 0x10 for AES - will be updated after encryption (most likely for encrypting data in blocks?)
// mask_enable = 1
int sceSblDmac5AesCtrDecForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable);

sceSblDmac5Sha1ForDriver

Version NID
3.60 0xEB3AF9B5

Executes Dmac5 command 0x3.

Used in ScePfsMgr. 

// size - size of data in src
// iv = 0
// mask_enable = 1
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblSsMgrSha1ForDriver(const void *src, void *dst, SceSize size, void *iv, int mask_enable, int command_bit);

sceSblDmac5Sha1HmacTransformForDriver

Version NID
0.990-3.60 0x6704D985

Temp name was sceSblSsMgrHMACSHA1ForDriver.

Executes Dmac5 command 0x23.

Used in ScePfsMgr.

Key size is always 256 bits. 

// size - size of data in src
// iv = 0
// mask_enable = 1
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5Sha1HmacTransformForDriver(const void *src, void *dst, SceSize size, const void *key, void *iv, int mask_enable, int command_bit);

sceSblDmac5Sha1HmacNPForDriver

Version NID
3.60 0x92E37656

Temp name was sceSblSsMgrHMACSHA1WithKeygenForDriver.

Executes Dmac5 command 0x23.

no usages found

key_size is always 256 bits 

// size - size of data in src
// key - length is always 0x20 bytes
// iv = 0
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. uses slot_id range 0x0C-0x17 internally
// mask_enable = 1
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5Sha1HmacNPForDriver(const void *src, void *dst, SceSize size, const void *key, void *iv, int key_id, int mask_enable, int command_bit);

sceSblDmac5Sha256HmacForDriver

Version NID
3.60 0x79F38554

Temp name was sceSblSsMgrHMACSHA256ForDriver.

Executes Dmac5 command 0x33.

no usages found 

// size - size of data in src
// iv = 0
// mask_enable = 1
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5Sha256HmacForDriver(const void *src, void *dst, SceSize size, const void *key, void *iv, int mask_enable, int command_bit);

sceSblDmac5AesCmacForDriver

Version NID
0.990-3.60 0x1B14658D

Temp name was sceSblSsMgrAESCMACForDriver.

Executes Dmac5 command 0x3B.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// iv = 0
// mask_enable = 1
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5AesCmacForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int mask_enable, int command_bit);

sceSblDmac5AesCmacNPForDriver

Version NID
3.60 0x83B058F5

Temp name was sceSblSsMgrAESCMACWithKeygenForDriver.

Executes Dmac5 command 0x3B.

Used in ScePfsMgr. 

// size - size of data in src
// key - length is 0x10 / 0x18 / 0x20 (length in bytes)
// key_size - 128 / 192 / 256 (size in bits)
// iv = 0
// key_id - 0 - used with sceSblAuthMgrSetDmac5KeyForDriver. Uses slot_id range 0x0C-0x17 internally
// mask_enable = 1
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5AesCmacNPForDriver(const void *src, void *dst, SceSize size, const void *key, SceSize key_size, void *iv, int key_id, int mask_enable, int command_bit);

sceSblDmac5AesCmacWithKeyslotForDriver

Version NID
3.60 0xEA6ACB6D

Executes Dmac5 command 0x3B.

no usages found 

// size - size of data in src
// slot_id - 0x1D, ?
// key_size - 128 / 192 / 256 (size in bits)
// iv = 0
// mask_enable = 1
// command_bit = 0 / 0x400 / 0x800 / 0xC00
int sceSblDmac5AesCmacWithKeyslotForDriver(const void *src, void *dst, SceSize size, int slot_id, SceSize key_size, void *iv, int mask_enable, int command_bit);

sceSblSsMgrExecuteDmac5HashCommandForDriver

Version NID
3.60 0x9641374E

Executes Dmac5 commands related to hash functions.

Used in SceNpDrm. 

int sceSblSsMgrExecuteDmac5HashCommandForDriver(const void *src, void *dst, SceSize size, void *iv, int mask_enable, int command, int command_bit);

sceSblSsEncryptWithPortabilityForDriver

Version NID
0.931-3.60 0x21EC51F6

derived from _vshSblSsEncryptWithPortability

Strangely it does not communicate with encdec_w_portability_sm command 0x1000A. That's because anyway this SM command is not implemented in release FWs. 

int sceSblSsEncryptWithPortabilityForDriver(int key_id, void *iv, ScePortabilityData *plain, ScePortabilityData *enc);

sceSblSsDecryptWithPortabilityForDriver

Version NID
0.931-3.60 0x934DB6B5

derived from _vshSblSsDecryptWithPortability

For example, decrypts or derives AES key that is used in msif to decrypt static sha224 table.

Executes F00D encdec_w_portability_sm command 0x2000A. 

int sceSblSsDecryptWithPortabilityForDriver(SceUInt32 key_type, void *iv, ScePortabilityData *enc, ScePortabilityData *plain);

sceSblSsGetNvsDataForDriver

Version NID
0.990-3.60 0xFDD6D5DE

derived from _vshSblSsGetNvsData

Calls sceSysconNvsReadDataForDriver. 

// index - 0-5
// pData - destination buffer
// size - 2, 4, 8, 0x10, 0x20
int sceSblSsGetNvsDataForDriver(SceSblSsNvsData index, void *pData, SceSize size);

sceSblSsSetNvsDataForDriver

Version NID
0.990-3.60 0x249ADB07

derived from _vshSblSsSetNvsData

Calls sceSysconNvsWriteDataForDriver. 

// index - 0-5
// pData - source buffer
// size - 2, 4, 8, 0x10, 0x20
int sceSblSsSetNvsDataForDriver(SceSblSsNvsData index, void *pData, SceSize size);

sceSblAimgrGetVisibleIdForDriver

Version NID
0.990-3.60 0x04843835

Temp name was sceSblSsMgrGetVisibleIdForDriver, sceSblSsMgrGetFuseIdForDriver.

Derived from _vshSblAimgrGetVisibleId.

Executes F00D aimgr_sm command 0x3. 

int sceSblAimgrGetVisibleIdForDriver(SceVisibleId *pVisibleId);

sceSblAimgrGetConsoleIdForDriver

Version NID
0.990-3.60 0xFC6CDD68

Temp name was sceSblSsMgrGetConsoleIdForDriver.

This function obtains Console Id by executing F00D aimgr_sm command 0x1. 

int sceSblAimgrGetConsoleIdForDriver(SceConsoleId *pConsoleId);

sceSblAimgrGetOpenPsIdForDriver

Version NID
0.990-3.60 0xA5B5D269

Temp name was sceSblSsMgrGetOpenPsIdForDriver.

This function returns information from a static buffer that is initialized on module_start.

OpenPsId comes from kbl_param->openpsid using SceSysmem#sceKernelSysrootGetKblParamForKernel. 

int sceSblAimgrGetOpenPsIdForDriver(SceOpenPsId *pOpenPsId);

sceSblAimgrGetPscodeForDriver

Version NID
0.990-3.60 0xE0DC2587

Temp name was sceSblSsMgrGetPscodeForDriver.

Derived from _vshSblAimgrGetPscode.

This function returns information from a static buffer that is initialized on module_start.

PsCode comes from kbl_param->pscode using SceSysmem#sceKernelSysrootGetKblParamForKernel. 

int sceSblAimgrGetPscodeForDriver(ScePsCode *pPsCode);

sceSblAimgrGetPscode2ForDriver

Version NID
3.60 0x9A9676D0

Temp name was sceSblSsMgrGetPscode2ForDriver.

Derived from _vshSblAimgrGetPscode2

Executes F00D aimgr_sm command 0x4. 

int sceSblAimgrGetPscode2ForDriver(ScePsCode *pPsCode);

sceSblSsCreatePassPhraseForDriver

Version NID
3.60 0xB8B298FD

Executes F00D aimgr_sm command 0x5.

derived from _vshSblSsCreatePassPhrase 

// input is of size 0x18
int sceSblSsCreatePassPhraseForDriver(char *input, char *output);

sceSblSsInfraAllocatePARangeVectorForDriver

Version NID
3.60 0xE0B13BA7

Does some initialization.

Used by SceSblUpdateMgr. 

int sceSblSsInfraAllocatePARangeVectorForDriver(void *buf, SceSize size, SceUID blockid, SceKernelPAVector *pPAV);

SceSblSsMgrForDriver_C38D0CEA

Version NID
3.60 0xC38D0CEA

Does some cleanup.

Used by SceSblUpdateMgr.

sceSblSsMemsetForDriver

Version NID
3.60 0xCD98CC92

Used by SceSblPostSsMgr. 

void sceSblSsMemsetForDriver(char* dest, char value, int size);

sceSblRtcMgrSetCpRtc_1ForDriver

Version NID
0.931 0x2B259A82
3.60 not present

sceSblRtcMgrSetCpRtc_2ForDriver

Version NID
0.940 0xD8F6F110
3.60 moved to PostSsMgr

sceSblRtcMgrGetCpRtcPhysicalForDriver

Version NID
0.940 0xC96622EC
3.60 moved to PostSsMgr

sceSblRtcMgrGetCpRtcLogicalForDriver

Version NID
0.940 0xAF56206D
3.60 moved to PostSsMgr

sceSblLicGetActivationKeyForDriver

Version NID
0.940 0xED4878A4
3.60 moved to PostSsMgr

sceSblLicMgrGetExpireDateForDriver

Version NID
0.940 0xE840CD4E
3.60 moved to PostSsMgr

sceSblPmMgrGetProductModeFromNVSForDriver

Version NID
0.931-0.940 0x196C7FB2
3.60 moved to PostSsMgr

sceSblPmMgrSetProductModeForDriver

Version NID
0.931-0.940 0x33B706E1
3.60 moved to PostSsMgr

sceSblPmMgrAuthEtoIForDriver

Version NID
0.931-0.940 0xB241EA2B
3.60 moved to PostSsMgr

SceSblSsMgr

This library exists on 1.69 but doesn't exist on 3.60.

sceSblSsInfraAllocatePARangeVector

Version NID
0.990 0x8C2822A9

SceSblSsMgr_FAD42134

Version NID
0.990 0xFAD42134

SceSblQafMgr

typedef struct SceQafToken {
  char data[0x80];
  char sig[0x100]; // Not present on FW 0.990. Present on FW 3.60
} SceQafToken;

sceSblQafMgrGetQafToken

Version NID
1.69-3.60 0xB6BAE81D

On 3.60 returns 0x80010058 (SCE_ERROR_ERRNO_ENOSYS). 

int sceSblQafMgrGetQafToken(SceQafToken *qaf_token);

sceSblQafMgrGetQafToken2

Version NID
3.60 0xDFBA8569 
int sceSblQafMgrGetQafToken2(SceQafToken *qaf_token);

sceSblQafManagerSetQafTokenForUser

Version NID
1.69-3.60 0x56A16392

On 3.60 returns 0x80010058 (SCE_ERROR_ERRNO_ENOSYS). 

int sceSblQafManagerSetQafTokenForUser(SceQafToken qaf_token);

sceSblQafMgrSetQafToken2

Version NID
3.60 0xF4B5C8A5 
int sceSblQafMgrSetQafToken2(SceQafToken qaf_token);

sceSblQafManagerDeleteQafTokenForUser

Version NID
0.940-3.60 0xD542583F

On 3.60 returns 0x80010058 (SCE_ERROR_ERRNO_ENOSYS). 

int sceSblQafManagerDeleteQafTokenForUser(void);

sceSblQafMgrDeleteQafToken2

Version NID
3.60 0x62E30BF4 
int ret;
  int ret2;
  int ret3;
  signed int result;
  char flag;
  char data[0x80];
  char sig[0x100];

  memset(data, (char)0xFF, 0x180);
  SceKernelSuspendForDriver_4DF40893_0(0);
  ret = sceSblNvsWriteDataForKernel(0x400, data, 0x80);
  if ( ret ) {
    SceKernelSuspendForDriver_4DF40893(0);
    result = ret;
  } else {
    ret2 = sceSblNvsWriteDataForKernel(0x5A0, sig, 0x100);
    if ( ret2 ) {
      SceKernelSuspendForDriver_4DF40893(0);
      result = ret2;
    } else {
      flag = 1;
      ret3 = sceSblNvsWriteDataForKernel(0x480, &flag, 1);
      SceKernelSuspendForDriver_4DF40893(0);
      result = ret3;
    }
  }
  return result;
int sceSblQafMgrDeleteQafToken2(void);

sceSblQafManagerGetQafNameForUser

Version NID
0.940-3.60 0x0F7EA8C2

Wrapper to sceSblQafManagerGetQafNameForKernel. 

int sceSblQafManagerGetQafNameForUser(char *buffer, unsigned int max_len);

sceSblQafManagerGetQafName2ForUser

Version NID
3.60 0xF0CA8766 
memset(buf, 0, 0x180);
sceSblNvsReadDataForKernel(0x480, buf, 1);
sceSblNvsReadDataForKernel(0x400, buf, 0x80);
memcpy(buffer, buf, 0x18);
sceSblNvsReadDataForKernel(0x5A0, buf, 0x100);
// if all functions returned success
sceSblQafManagerGetQafNameForKernel(buf2, len);
sceKernelMemcpyKernelToUserForDriver(buffer, buf2, len)) != 0 )
int sceSblQafManagerGetQafName2ForUser(char *buffer, unsigned int max_len);

sceSblQafMgrIsAllowMinimumDebugMenuDisplay

Version NID
3.60 0xA156BBD2

return sysroot_buffer->qa_flags[0xF] & 1; 

int sceSblQafMgrIsAllowMinimumDebugMenuDisplay(void);

sceSblQafMgrIsAllowLimitedDebugMenuDisplay

Version NID
1.69-3.60 0xC456212D

return (sysroot_buffer->qa_flags[6] >> 1) & 1; 

int sceSblQafMgrIsAllowLimitedDebugMenuDisplay(void);

sceSblQafMgrIsAllowAllDebugMenuDisplay

Version NID
1.69-3.60 0x66843305

return (sysroot_buffer->qa_flags[0xC] >> 1) & 1; 

int sceSblQafMgrIsAllowAllDebugMenuDisplay(void);

sceSblQafManagerIsAllowKernelDebugForUser

Version NID
0.940-3.60 0x11D30766

return sysroot_buffer->qa_flags[0xD] & 1; 

int sceSblQafManagerIsAllowKernelDebugForUser(void);

sceSblQafMgrIsAllowForceUpdate

Version NID
1.69-3.60 0x63F29BA0

return (sysroot_buffer->qa_flags[0xF] >> 1) & 1; 

int sceSblQafMgrIsAllowForceUpdate(void);

sceSblQafMgrIsAllowNpTest

Version NID
1.69-3.60 0xA9EBCBAC 
if (sysroot_buffer->qa_flags[0xF] << 31)
   return 1;
else
   return sceSysrootUtMgrHasNpTestFlagForKernel(a1, a2, a3);
int sceSblQafMgrIsAllowNpTest(int a1, int a2, int a3);

sceSblQafMgrIsAllowNpFullTest

Version NID
3.60 0x72168C6E

return (sysroot_buffer->qa_flags[6] >> 1) & 1; 

int sceSblQafMgrIsAllowNpFullTest(void);

sceSblQafMgrIsAllowNonQAPup

Version NID
1.69-3.60 0xB5621615

return sysroot_buffer->qa_flags[0xF] & 1; 

int sceSblQafMgrIsAllowNonQAPup(void);

sceSblQafMgrIsAllowScreenShotAlways

Version NID
1.69-3.60 0xD22A8731

return (sysroot_buffer->qa_flags[6] >> 1) & 1; 

int sceSblQafMgrIsAllowScreenShotAlways(void);

sceSblQafMgrIsAllowRemoteSysmoduleLoad

Version NID
0.940-3.60 0xF45AA706

return (sysroot_buffer->qa_flags[0xD] >> 1) & 1; 

int sceSblQafMgrIsAllowRemoteSysmoduleLoad(void);

SceSblRng

sceSblRngGenuineRandomNumber

Version NID
0.940-0.990 0xD1189305

Temp name was sceSblSsMgrGetRandomData.

Calls sceSblRngGenuineRandomNumberForDriver.

sceSblRngPseudoRandomNumber

Version NID
0.940-0.990 0xD8BC42B8

_sceKernelGetRandomNumber

Version NID
1.69-3.60 0xC37E818C 
int _sceKernelGetRandomNumber(int *out, int a2, char a3[8]);

SceSblDmac5Mgr

sceSblDmac5HashTransform

Version NID
1.69-3.60 0x09EBC6EF

This function can execute the following dmac5 commands:

  • 0x3B: CMAC-AES (length 0x10)
  • 0x03: SHA1 (length 0x14)
  • 0x23: HMAC-SHA1 (length 0x14)
  • 0x13: SHA256 (length 0x20)
  • 0x33: HMAC-SHA256 (length 0x20)
typedef struct hash_trans_opt_t //size 0x18
{
   char* src;
   char* dst;
   uint32_t size;
   uint32_t unk_C; // = 0

   uint32_t unk_10; // = 0
   char* iv;
} hash_trans_opt_t;

// flags: 
// 0x000
// 0x400
// 0x800
// 0xC00

int sceSblDmac5HashTransform(hash_trans_opt_t* ctx, int command, int flags);

sceSblDmac5EncDecKeyGen

Version NID
1.69-3.60 0x5BF4F924

This function is also named sceSblDmac5AesCbcDecKeyGen or sceSblDmac5AesCbcEncKeyGen in SceGameDataPlugin 

typedef struct keygen_ctx //size is 0x18
{
   char *src; 
   char *dst; 
   int size; 
   char* key; 
   
   uint32_t key_size;     // (int bits)
   char* out; //hash ?
} keygen_ctx;

// command - 0xA (dmac5 command AES-192-CBC decrypt)
// command - 0x9 (dmac5 command AES-192-CBC encrypt)
int sceSblDmac5EncDecKeyGen(keygen_ctx* ctx, int key_id, int command);

sceSblDmac5EncDec

Version NID
0.990-3.60 0xD0B1F759 
int sceSblDmac5EncDec(void *args, int command);

sceSblDmac5EncDecNP

Version NID
0.940 0x30702CC7

sceSblDmac5HmacKeyGen

Version NID
3.60 0xCCE57D33

This function is named sceSblDmac5HmacKeyGen in SceSysLibTrace but is also called sceSblDmac5Sha256HmacKeyGen in SceGameDataPlugin. 

// data is of size 0x18 (24 - 192 bits ?)
// unk1 - 0x20001
// command - 0x33 (dmac5 HMAC-SHA256 command)
// flags - 0x400, 0x800, 0xC00
int sceSblDmac5HmacKeyGen(char* data, int unk1, int command, int flags);

SceSblAimgr

_sceKernelGetOpenPsId

Version NID
1.69-3.60 0x6E283E2E 
int _sceKernelGetOpenPsId(SceOpenPsId *pOpenPsId);
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