SceSdif is a kernel module that is primary responsible for communicating with SD devices. This includes onboard eMMC, game card MMC, wi-fi/bluetooth SDIO devices.
To communicate with particular device SceSdif module uses device index (sd_ctx_index)
Device Index
|
Type
|
Description
|
0
|
MMC
|
onboard eMMC
|
1
|
MMC
|
game card
|
2
|
SDIO
|
wi-fi/bluetooth
|
There is one more index value that closely correlates with device index.
This is speculated to be device type index. It is initialized by internal subroutine that does preinitialization (cmd0, cmd8, cmd5_sdio, cmd55, acmd41).
Value is typically stored in sd_context_data structure in field dev_type_idx.
Device Type Index
|
Description
|
0
|
unknown (invalid ?)
|
1
|
MMC
|
2
|
SD
|
3
|
SDIO
|
Device type index will be validated when sd_context_part* will be aquired through these functions:
Module
Known NIDs
Version |
Name |
World |
Privilege |
NID
|
1.69 |
SceSdif |
Non-secure |
Kernel |
0xCA882EE3
|
3.60 |
SceSdif |
? |
Kernel |
0x2E7C52F7
|
Libraries
Known NIDs
Data segment layout
Address |
Size |
Description
|
0x0000 |
0x40 |
sdif_context_general
|
0x0040 |
0x24C0 |
sd_context_global eMMC
|
0x2500 |
0x24C0 |
sd_context_global game card
|
0x49C0 |
0x24C0 |
sd_context_global wlan/bt
|
0x6E80 |
0x398 |
sd_context_part eMMC
|
0x7218 |
0x398 |
sd_context_part game card
|
0x75B0 |
0xC0 |
custom context used in initialize_sd_device (c1271539)
|
0x7670 |
0xC0 |
custom context used in initialize_sd_device (c1271539)
|
0x7730 |
0xC0 |
custom context used in initialize_sd_device (c1271539)
|
0x77F0 |
0xD38 |
custom context used in aabaa0f0
|
0x8528 |
0xD38 |
custom context used in aabaa0f0
|
0x9260 |
0x398 |
sd_context_part wlan/bt
|
0x95F8 |
0x888 |
unknown
|
0x9E80 |
0x118 |
some wlan/bt data
|
Allocated blocks
During initialization step Sdif driver allocates couple of memory blocks.
This happens when 'module_start' function is called, inside 'init' function.
There are 2 blocks per device context. Each block is named as SceSdif<N> where N is array index.
First block is of size 0x1000 - SceUID and void* are stored in sd_context_data per device context.
Second block is of size 0x10000 - SceUID and void* are stored in sd_context_data per device context.
It is possible that first block is DMA copied to / from corresponding SceSdif<N> physical address.
First memblock looks like to be array of 16 elements 0x100 bytes each. It is speculated that this memblock has some relation to cyclic buffer of 16 commands in sd_context_global.
Layout of single block is partially known:
typedef struct memblock_1000_element
{
uint32_t unk_0;
uint16_t unk_4;
uint16_t unk_6;
uint32_t unk_8;
uint16_t unk_C;
uint16_t unk_E;
uint32_t unk_10;
uint32_t unk_14;
uint32_t unk_18;
uint32_t unk_1C;
uint32_t unk_24; //bit 0x10 is insert state, bit 0x13 is ?
uint8_t unk_28;
uint8_t unk_29;
uint8_t unk_2A;
uint8_t unk_2B;
uint16_t unk_2C; //used to wait
uint8_t unk_2E;
uint8_t unk_2F; //used to wait
uint16_t unk_30; //used to wait
uint16_t unk_32; //used to wait
uint16_t unk_34;
uint16_t unk_36;
uint16_t unk_38;
uint16_t unk_3A;
uint16_t unk_3C;
uint32_t unk_40;
uint32_t unk_48;
uint8_t unk_54;
uint32_t unk_58;
uint16_t unk_80;
uint16_t unk_FC;
}memblock_1000_element;
SceSdifForDriver
Types
typedef struct output_23a4ef01
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
} output_23a4ef01;
typedef struct output_24
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
uint32_t unk_10;
uint8_t unk_14;
uint8_t unk_15;
uint8_t unk_16;
uint8_t unk_17;
uint32_t unk_18;
uint32_t unk_1C;
uint32_t unk_20;
uint32_t unk_24;
} output_24;
typedef struct output_76d2b87b
{
uint32_t unk_0;
uint32_t unk_4;
uint16_t unk_8;
} output_76d2b87b;
typedef struct sdif_context_general //size is 0x40
{
SceUID suspend_callback_id;
uint32_t max_array_index; //typically 3
uint32_t unk_8;
uint32_t unk_C;
uint32_t unk_10;
uint32_t unk_14;
uint32_t unk_18;
uint32_t unk_1C;
uint32_t unk_20;
uint32_t unk_24;
uint32_t unk_28;
uint32_t unk_2C;
uint32_t unk_30;
uint32_t unk_34;
uint32_t unk_38;
uint32_t unk_3C;
}sdif_context_general;
typedef struct cmd_input // size is 0x240
{
uint32_t size; // 0x240
uint32_t unk_4;
uint32_t command;
uint32_t argument;
uint32_t unk_10;
uint32_t unk_14;
uint32_t unk_18;
uint32_t unk_1C;
void* buffer; // cmd data buffer ptr
uint16_t size; // cmd buffer size
uint16_t flags; // unknown
uint32_t unk_28;
uint32_t unk_2C;
uint8_t data0[0x30];
struct cmd_input* next_cmd;
uint32_t unk_64;
uint32_t array_index;
uint32_t unk_6C;
uint32_t unk_70;
uint32_t unk_74;
struct sd_context_global* gctx_ptr;
uint32_t unk_7C;
void* vaddr_80; //3
uint32_t unk_84;
uint32_t unk_88;
uint32_t unk_8C;
uint8_t data1[0xF0];
uint32_t unk_180;
void* paddr_184; //3
uint32_t unk_188;
uint32_t unk_18C;
uint32_t unk_190;
uint32_t unk_194;
uint32_t unk_198;
uint32_t unk_19C;
uint32_t unk_1A0;
uint32_t unk_1A4;
void* paddr_1A8; //1
void* paddr_1AC; //2
uint32_t unk_1B0;
uint32_t unk_1B4;
uint32_t unk_1B8;
uint32_t unk_1BC;
void* vaddr_1C0; //1
uint32_t unk_1C4;
uint32_t unk_1C8;
uint32_t unk_1CC;
uint8_t data2[0x30];
void* vaddr_200; //2
uint32_t unk_204;
uint32_t unk_208;
uint32_t unk_20C;
uint8_t data3[0x30];
} cmd_input;
typedef struct sd_context_data // size is 0xC0
{
struct cmd_input* cmd_ptr;
struct cmd_input* cmd_ptr_next;
uint32_t unk_8;
uint32_t unk_C;
uint32_t dev_type_idx; // (1,2,3)
struct sd_context_part* ctx;
uint32_t unk_18;
uint32_t unk_1C;
uint32_t array_idx; // (0,1,2)
uint32_t unk_24;
uint32_t unk_28;
uint32_t unk_2C;
void* membase_1000; // membase of SceSdif (0,1,2) memblock of size 0x1000
uint32_t unk_34;
uint32_t unk_38;
SceUID uid_1000; // UID of SceSdif (0,1,2) memblock of size 0x1000
uint32_t unk_40; // SceKernelThreadMgr related, probably UID for SceSdif (0,1,2)
uint32_t unk_44;
uint32_t unk_48;
uint32_t unk_4C;
uint32_t unk_50;
uint32_t unk_54;
uint32_t unk_58;
uint32_t unk_5C;
uint32_t unk_60;
uint32_t unk_64;
uint32_t unk_68;
uint32_t unk_6C;
uint32_t unk_70;
uint32_t unk_74;
uint32_t unk_78;
uint32_t unk_7C;
//it looks like this chunk is separate structure since offset 0x2480 is used too often
uint32_t unk_80;
SceUID uid_10000; // UID of SceSdif (0,1,2) memblock of size 0x10000
void* membase_10000; // membase of SceSdif (0,1,2) memblock of size 0x10000
uint32_t unk_8C;
uint32_t unk_90;
int lockable_int;
uint32_t unk_98;
uint32_t unk_9C;
uint32_t unk_A0;
uint32_t unk_A4;
uint32_t unk_A8;
uint32_t unk_AC;
uint32_t unk_B0;
uint32_t unk_B4;
uint32_t unk_B8;
uint32_t unk_BC;
} sd_context_data;
typedef struct sd_context_part_base
{
struct sd_context_global* gctx_ptr;
uint32_t unk_4;
uint32_t size; //cmd buffer size
uint32_t unk_C; //0 for mmc however 0x200 for sd, can be size
uint8_t unk_10; //can be padding
uint8_t CID[15]; //this is CID data but in reverse
uint8_t unk_20; //can be padding
uint8_t CSD[15]; //this is CSD data but in reverse
}sd_context_part_base;
typedef struct sd_context_part_mmc // size is 0x398
{
sd_context_part_base ctxb;
uint8_t data[0x360];
void* unk_390;
uint32_t unk_394;
} sd_context_part_mmc;
typedef struct sd_context_global // size is 0x24C0
{
struct cmd_input commands[16];
struct sd_context_data ctx_data;
} sd_context_global;
module_start
Version |
NID
|
3.60 |
0x935cd196
|
int module_start();
init
Version |
NID
|
3.60 |
0x0eb0ef86
|
int init();
deinit
Version |
NID
|
3.60 |
0xe5e5f42e
|
int deinit();
return_error
Version |
NID
|
3.60 |
0x235ad556
|
int return_error();
enable_slow_mode
Version |
NID
|
3.60 |
0xf37cf8e5
|
int enable_slow_mode();
get_card_insert_state1
Version |
NID
|
3.60 |
0x36a2b01b
|
int get_card_insert_state1(int sd_ctx_index);
get_card_insert_state2
Version |
NID
|
3.60 |
0xfd9e5cfa
|
int get_card_insert_state2(int sd_ctx_index);
gc_cmd56_response
Version |
NID
|
3.60 |
0x134e06c4
|
int gc_cmd56_response(sd_context_part* ctx, char* buffer, int length);
gc_cmd56_request
Version |
NID
|
3.60 |
0xb0996641
|
int gc_cmd56_request(sd_context_part* ctx, char* buffer, int length);
get_sd_context_global
Version |
NID
|
3.60 |
0xdc8f52f8
|
sd_context_global* get_sd_context_global(int sd_ctx_index);
get_sd_context_part_validate_mmc
Version |
NID
|
3.60 |
0x6a71987f
|
sd_context_part* get_sd_context_part_validate_mmc(int sd_ctx_index);
get_sd_context_part_validate_sd
Version |
NID
|
3.60 |
0xb9ea5b1e
|
sd_context_part* get_sd_context_part_validate_sd(int sd_ctx_index);
get_sd_context_part_validate_sdio
Version |
NID
|
3.60 |
0x6a8235fc
|
sd_context_part* get_sd_context_part_validate_sdio(int sd_ctx_index);
initialize_mmc_device
Version |
NID
|
3.60 |
0x22c82e79
|
this function only initializes devices with sd_ctx_index 0 and 1 and returns 0x80320013 on any other sd_ctx_index
it is confirmed that this function sends sequence of commands that correspond to MMC initialization protocol
int initialize_mmc_device(int sd_ctx_index, sd_context_part** result);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x3428884d
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0xe80293ef
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0xd0f78d9b
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx, int num0, int num1, void* unk2, int num3);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x3c4cdc8b
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx, int num0, int num1, void* unk2, int num3);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x733bc373
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx, int num);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0xdece963b
|
int wlan_bt_cmd52_sdio(sd_context_part* ctx, int num0, int num1, void* unk2);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x5d65e66b
|
int wlan_bt_cmd52_sdio(sd_context_part* ctx, int num0, int num1, void* unk2);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0xbc45c83d
|
int wlan_bt_cmd52_sdio(sd_context_part* ctx, int num);
wlan_bt_initialize_custom_context2
Version |
NID
|
3.60 |
0xaabaa0f0
|
this function can send these commands: cmd3, cmd52_sdio, cmd0, cmd5_sdio, cmd55, acmd41, cmd7, cmd8
this function uses array of 2 custom contexts.
this function can either set device type index to 3 and use custom context for initialization.
or it can use preinitialization (cmd0, cmd8, cmd5_sdio, cmd55, acmd41) and then check that device type index is 3.
if device type index is not 3 then 0x80320017 error is returned.
int wlan_bt_initialize_custom_context2(int sd_ctx_index, sd_context_part** ctx);
wlan_bt
Version |
NID
|
3.60 |
0x855c95e1
|
int wlan_bt(wlan_context* wlan_ctx, void* unk0, void* unk1);
wlan_bt
Version |
NID
|
3.60 |
0x0c66e36f
|
int wlan_bt(sd_context_part* ctx, void* unk0);
wlan_bt_cmd7
Version |
NID
|
3.60 |
0xab0222f2
|
int wlan_bt_cmd7(sd_context_part* ctx);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x55baeb2d
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0xfe6f3e7b
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0xf1a24edd
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x1847b18c
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0xd3c1e2b6
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx, int unk0, int unk1, int unk2);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x5bac6e70
|
int wlan_bt_cmd52_sdio(wlan_context* wlan_ctx, int unk0, int unk1, int unk2);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x01e8eb6c
|
int wlan_bt_cmd52_sdio(sd_context_part* ctx, char* output, int destLength_100);
wlan_bt_cmd52_sdio
Version |
NID
|
3.60 |
0x763f1075
|
int wlan_bt_cmd52_sdio(sd_context_part* ctx);
wlan_bt_initialize_custom_context1
Version |
NID
|
3.60 |
0x53962379
|
this function is just a wrapper for wlan_bt_initialize_custom_context2 (aabaa0f0)
int wlan_bt_initialize_custom_context1(int sd_ctx_index);
wlan_bt_cmd0
Version |
NID
|
3.60 |
0x3b6ab29e
|
int wlan_bt_cmd0(wlan_context* wlan_ctx, void* unk0, int* result);
wlan_bt_cmd0_cmd52_sdio
Version |
NID
|
3.60 |
0x180e7395
|
int wlan_bt_cmd0_cmd52_sdio(wlan_context* wlan_ctx, char* output, int destLength_100);
wlan_bt
Version |
NID
|
3.60 |
0x0f157f49
|
int wlan_bt(wlan_context* wlan_ctx);
wlan_bt
Version |
NID
|
3.60 |
0x849e3216
|
int wlan_bt(wlan_context* wlan_ctx);
wlan_bt
Version |
NID
|
3.60 |
0xb05eff68
|
int wlan_bt(wlan_context *wlan_ctx, int unk0);
sdstor_read_sector_async
Version |
NID
|
3.60 |
0x6f8d529b
|
int sdstor_read_sector_async(sd_context_part* ctx, int sector, char* buffer, int nSectors);
sdstor_read_sector
Version |
NID
|
3.60 |
0xb9593652
|
int sdstor_read_sector(sd_context_part* ctx, int sector, char* buffer, int nSectors);
sdstor_write_sector_async
Version |
NID
|
3.60 |
0x175543d2
|
int sdstor_write_sector_async(sd_context_part* ctx, int sector, char* buffer, int nSectors);
sdstor_write_sector
Version |
NID
|
3.60 |
0xe0781171
|
int sdstor_write_sector(sd_context_part* ctx, int sector, char* buffer, int nSectors);
sdstor_copy_ctx
Version |
NID
|
3.60 |
0x23a4ef01
|
int sdstor_copy_ctx(sd_context_part* ctx, output_23a4ef01* unk0);
sdstor_cmd0_cmd13
Version |
NID
|
3.60 |
0x6cc8e28d
|
int sdstor_cmd0_cmd13(int sd_ctx_index);
sdstor_cmd32_cmd33_cmd38_sdio
Version |
NID
|
3.60 |
0x35ba9df8
|
int sdstor_cmd32_cmd33_cmd38_sdio(int sd_ctx_index, int unk0);
initialize_sd_device
Version |
NID
|
3.60 |
0xc1271539
|
it is confirmed that this function sends sequence of commands that correspond to SD initialization protocol
these commands include: cmd0, cmd8, cmd5_sdio, cmd2, cmd3, cmd6, cmd9, cmd7, cmd16
some paired commands: (cmd55, acmd41), (cmd55, acmd42), (cmd55, acmd13), (cmd55, acmd51)
there are couple of special points:
- it does not check sd_ctx_index argument.
- it uses array of 3 custom contexts instead of sd_context_part structures.
- it checks device type index after preinitialization (cmd0, cmd8, cmd5_sdio, cmd55, acmd41)
- it only initializes device with device type index 2. otherwise 0x80320017 error is returned.
int initialize_sd_device(int sd_ctx_index, int* result);
sdstor_cmd6_cmd30
Version |
NID
|
3.60 |
0x995748ea
|
int sdstor_cmd6_cmd30(sd_context_part *input, int unk0, int unk1, void *unk2);
sdstor
Version |
NID
|
3.60 |
0xe091ba2e
|
int sdstor(sd_context_part* unk, int unk0, int unk1, int* unk2);
sdif_write
Version |
NID
|
3.60 |
0x60642f49
|
int sdif_write(sd_context_part *ctx, int unk0, int unk1);
sdif_write
Version |
NID
|
3.60 |
0x0203ecdc
|
int sdif_write(sd_context_part *ctx, int unk0, int unk1);
sdif
Version |
NID
|
3.60 |
0x29a71e7f
|
int sdif();
sdif_cmd0_cmd13
Version |
NID
|
3.60 |
0x53518827
|
int sdif_cmd0_cmd13(sd_context_global *ctx, int *result);
sdif_cmd0
Version |
NID
|
3.60 |
0x475d8e45
|
int sdif_cmd0(int sd_ctx_index);
sdif
Version |
NID
|
3.60 |
0x3df7e207
|
int sdif(int sd_ctx_index, output_24* result);
sdif
Version |
NID
|
3.60 |
0x76d2b87b
|
int sdif(int sd_ctx_index, output_76d2b87b* result);
sdif_cmd_unk
Version |
NID
|
3.60 |
0xb83f7518
|
int sdif_cmd_unk(int sd_ctx_index, output_24* result);
sdif_cmd0_cmd16
Version |
NID
|
3.60 |
0xb32776c7
|
int sdif_cmd0_cmd16(sd_context_part* ctx, int num_200);
sdif_cmd0_cmd16
Version |
NID
|
3.60 |
0xaf702fe7
|
int sdif_cmd0_cmd16(sd_context_part* ctx, int num_200);