SceIofilemgr is the primary interface for file IO. Read File Management for more information on file IO.
Module
This module exists in only in non-secure world. The SELF can be found in os0:kd/iofilemgr.skprx
.
Known NIDs
Version |
Name |
World |
Privilege |
NID
|
1.69 |
SceIofilemgr |
Non-secure |
Kernel |
0x3E244C17
|
3.60 |
SceIofilemgr |
? |
Kernel |
0x9642948C
|
Libraries
This module is accessible by usermode.
Known NIDs
Mount Points
This table is stored in data segment of SceIofilemgr as array of vfs_mount_point_info
elements.
When sceVfsMount is executed it finds vfs_add_data element by filesystem string and then selects appropriate mount scenario by devMinor and devMajor.
<rnd>
means random numeric string of length 13
Unix Mount |
Dev Major |
Dev Minor |
Filesystem |
Vita Mount |
Block Device |
VSH Mount Id
|
/tty |
0x4000020 |
0x6003 |
dummy_ttyp_dev_fs |
tty |
dummy_ttyp_dev_fs |
0x0
|
/dev |
0x10 |
0x3 |
sdstor_dev_fs |
sdstor0: |
sd |
0x1
|
/md |
0x10 |
0x2003 |
md_dev_fs |
md0: |
md |
0x2
|
/sd/exfat |
0x2030001 |
0x30002 |
exfat |
sd0: |
sdstor0:ext-pp-act-a, sdstor0:ext-lp-act-entire |
0x100
|
/os/exfat |
0x1000001 |
0x1002 |
exfat |
os0: |
sdstor0:int-lp-act-os |
0x200
|
/vs/exfat |
0x1000001 |
0x1002 |
exfat |
vs0: |
sdstor0:int-lp-ign-vsh |
0x300
|
/vd/exfat |
0x1000001 |
0x10002 |
exfat |
vd0: |
sdstor0:int-lp-ign-vshdata |
0x400
|
/tm/exfat |
0x1000001 |
0x10002 |
exfat |
tm0: |
sdstor0:int-lp-ign-vtrm |
0x500
|
/ur/exfat |
0x1000001 |
0x50002 |
exfat |
ur0: |
sdstor0:int-lp-ign-user |
0x600
|
/ud/exfat |
0x1000001 |
0x10002 |
exfat |
ud0: |
sdstor0:int-lp-ign-updater |
0x700
|
/ux/exfat |
0x2020001 |
0x30002 |
exfat |
ux0: |
sdstor0:xmc-lp-ign-userext / sdstor0:int-lp-ign-userext |
0x800
|
/gro/exfat |
0x2010001 |
0x21002 |
exfat |
gro0: |
sdstor0:gcd-lp-ign-gamero |
0x900
|
/grw/exfat |
0x2010001 |
0x20002 |
exfat |
grw0: |
sdstor0:gcd-lp-ign-gamerw |
0xA00
|
/sa/exfat |
0x1000001 |
0x1002 |
exfat |
sa0: |
sdstor0:int-lp-ign-sysdata |
0xB00
|
/pd/exfat |
0x1000001 |
0x1002 |
exfat |
pd0: |
sdstor0:int-lp-ign-pidata |
0xC00
|
/imc/exfat |
0x2020001 |
0x30002 |
exfat |
imc0: |
sdstor0:int-lp-ign-userext |
0xD00
|
/xmc/exfat |
0x2020001 |
0x30002 |
exfat |
xmc0: |
sdstor0:xmc-lp-ign-userext |
0xE00
|
/uma/exfat |
0x2030001 |
0x2 |
exfat |
uma0: |
sdstor0:uma-pp-act-a, sdstor0:uma-lp-act-entire |
0xF00
|
/lma/exfat |
0x1 |
0x5 |
exfat |
lma0: |
/ |
0x10000
|
/lmb/exfat |
0x1 |
0x5 |
exfat |
lmb0: |
/ |
0x20000
|
/mfa/exfat |
0x1 |
0x5 |
exfat |
mfa0: |
/ |
0x50000
|
/mfb/exfat |
0x1 |
0x5 |
exfat |
mfb0: |
/ |
0x60000
|
/PD<rnd> |
0x3 |
0x1001 |
PFS_GDSD_INF |
PD<rnd>0 |
|
0x0
|
Block Device Naming Rules
First level prefix
- int
- ext
- gcd
- mcd
- uma
- usd
- xmc
Second level prefix
Third level prefix
Forth level prefix
- unused
- idstor
- sloader
- os
- vsh
- vshdata
- vtrm
- user
- userext
- gamero
- gamerw
- updater
- sysdata
- mediaid
- pidata
- entire
Partition Block Devices
Each partition has numeric alias (string) that looks like to be used to reference the partition.
Numeric names most likely follow order of partitions in MBR.
To access device node use /dev
prefix (like /dev/gcd-lp-ign-gamero
).
In total there can be 16 aliases from 0 to 15 per physical device (eMMC, Game Card, Memory Card). Alias 16 is hardcoded and is called entire
.
Aliases 0-15 correspond to eMMC.
Aliases 100-115 correspond to Game Card.
Aliases 200-215 correspond to Memory Card.
block device |
numeric name
|
int-lp-ign-idstor (need to confirm) |
000
|
int-lp-ign-sloader (need to confirm) |
001
|
- |
002
|
int-lp-act-os |
003
|
- |
004
|
int-lp-ign-sysdata |
005
|
int-lp-ign-vtrm |
006
|
int-lp-ign-vsh |
007
|
int-lp-ign-vshdata |
008
|
int-lp-ign-updater |
009
|
int-lp-ign-pidata |
010
|
int-lp-ign-user |
011
|
int-lp-ign-userext |
012
|
int-lp-act-entire |
016
|
gcd-lp-ign-gamero, gcd-lp-act-mediaid (need to confirm) |
100
|
gcd-lp-ign-gamerw (need to confirm) |
101
|
ext-lp-act-entire (need to confirm) |
116
|
mcd-lp-act-mediaid |
200
|
- |
201
|
mcd-lp-act-entire (need to confirm) |
216
|
VFS Nodes
VFS Operations
- implemented operation is marked as
implemented
- not implemented is marked as
- return 0 placeholder is marked as
0
- return error is marked with corresponding error name
Function |
sdstor_dev_fs |
exfat |
dummy_ttyp_dev_fs |
PFS_REDIRECT_INF |
PFS_GDSD_INF |
PFS_AC_INF
|
1 |
implemented |
implemented |
implemented |
implemented |
implemented |
implemented
|
2 |
SCE_ERROR_ERRNO_EBUSY |
implemented |
0 |
implemented |
implemented |
implemented
|
3 |
implemented |
implemented |
implemented |
implemented |
implemented |
implemented
|
4 |
|
implemented |
|
|
|
|
5 |
|
|
|
|
|
|
6 |
|
|
|
|
|
|
7 |
|
implemented |
|
0 |
implemented |
implemented
|
8 |
|
|
|
|
|
|
9 |
0 |
0 |
0 |
0 |
0 |
0
|
10 |
|
0 |
0 |
0 |
0 |
0
|
11 |
|
|
|
|
|
|
12 |
implemented |
implemented |
|
implemented |
implemented |
implemented
|
13 |
implemented |
implemented |
|
implemented |
implemented |
implemented
|
VFS Node Operations
- implemented operation is marked as
implemented
- not implemented is marked as
- return 0 placeholder is marked as
0
- return error is marked with corresponding error name
Function |
sdstor_dev_fs |
exfat |
dummy_ttyp_dev_fs |
PFS_REDIRECT_INF |
PFS_GDSD_INF |
PFS_AC_INF
|
1 |
implemented |
implemented |
0 |
implemented |
implemented |
implemented
|
2 |
|
implemented |
|
implemented |
implemented |
implemented
|
3 |
implemented |
implemented |
0 |
implemented |
implemented |
implemented
|
4 |
implemented |
implemented |
implemented |
implemented |
implemented |
implemented
|
5 |
implemented |
implemented |
0 |
implemented |
implemented |
implemented
|
6 |
implemented |
implemented |
implemented |
implemented |
implemented |
implemented
|
7 |
implemented |
implemented |
0 |
implemented |
implemented |
implemented
|
8 |
|
SCE_ERROR_ERRNO_EUNSUP |
0 |
implemented |
implemented |
implemented
|
9 |
implemented |
implemented |
|
implemented |
implemented |
implemented
|
10 |
|
implemented |
|
implemented |
implemented |
implemented
|
11 |
|
implemented |
|
implemented |
implemented |
implemented
|
12 |
|
implemented |
|
implemented |
implemented |
implemented
|
13 |
|
implemented |
|
implemented |
implemented |
implemented
|
14 |
|
implemented |
|
implemented |
implemented |
implemented
|
15 |
|
implemented |
|
implemented |
implemented |
implemented
|
16 |
|
implemented |
|
implemented |
implemented |
implemented
|
17 |
|
implemented |
|
implemented |
implemented |
implemented
|
18 |
|
|
|
|
|
|
19 |
implemented |
implemented |
|
implemented |
implemented |
implemented
|
20 |
implemented |
implemented |
|
implemented |
implemented |
implemented
|
21 |
0 |
implemented |
0 |
implemented |
implemented |
implemented
|
22 |
|
implemented |
|
|
|
|
23 |
|
implemented |
|
|
|
|
24 |
0 |
implemented |
|
implemented |
implemented |
implemented
|
25 |
|
implemented |
|
implemented |
implemented |
implemented
|
26 |
|
implemented |
|
implemented |
implemented |
implemented
|
27 |
|
implemented |
|
implemented |
implemented |
implemented
|
28 |
|
implemented |
|
implemented |
implemented |
implemented
|
29 |
|
|
|
|
|
|
Typical i/o operation execution
This is a very brief desctiption for overall understanding of io vfs_node
operations.
Implementation of SceIofilemgr is quite solid and most of the functions are implemented in the same manner however there could be exceptions.
When io operation like sceIoLseek
is called here is what happens:
- all user space arguments are copied to kernel space, usually onto the kernel stack. all user space uids are converted to kernel space uids
- optionally control may be passed to wrapper function that also does conversion
- then control is passed to kernel level function like
sceIoLseekForDriver
- kernel level function checks 0x2198 (IoSchedulerDispatcher initialized) flag
if dispatcher is not initialized:
- kernel level function updates 0x1964 (i/o dirty) and 0x1980 (i/o counter) flags
- kernel level function spawns separate thread and passes all arguments in single structure
- separate thread then unpacks all arguments, finds
vfs_node
and calls exported function like vfs_node_func7
- exported function packs all arguments into single stucture and calls real callback since it has
vfs_node
with node operation table
- callback routine should be located in generic device driver, like SceSdstor, SceExfatfs or ScePfsMgr. It unpacks the arguments and then does something. For example SceSdstor dispatches the call further to SceSdif, SceWlanBt, SceMsif and SceUsbMass.
- kernel level function updates 0x1980 (i/o counter) flag
if dispatcher is initialized:
- kernel level function passes arguments to wrapper
- wrapper initializes
io_contex
and assigns i/o operation index
- wrapper updates 0x1964 (i/o dirty) and 0x1980 (i/o counter) flags
- wrapper runs dispatcher function (offset 0x17C00) in separate thread. this function selects proper
vfs_node
function based on i/o operation index.
- wrapper updates 0x1980 (i/o counter) flag
i/o operation index
Typically operations are dispatched from kernel functions.
However there are exceptions: sceIoLseek32, sceIoDopenAsync, sceIoDreadAsync, sceIoDcloseAsync user functions can be dispatched.
Typically operations have normal and async version - regulated by async flag in io_context
.
However there are exceptions: sceIoLseek32, sceIoIoctlForDriver, sceIoDevctlForDriver, sceIoGetstatForDriver_2, sceIoChstatForDriver_2, sceIoDreadForDriver_2 do not have async version.
Index |
Normal Operation |
Async Operation |
Vfs Node Function |
Vfs Function
|
1 |
sceIoOpenForDriver |
sceIoOpenAsyncForDriver |
|
|
2 |
sceIoCloseForDriver |
sceIoCloseAsyncForDriver |
|
|
3 |
sceIoReadForDriver |
sceIoReadAsyncForDriver |
|
|
4 |
sceIoWriteForDriver |
sceIoWriteAsyncForDriver |
|
|
5 |
sceIoLseekForDriver |
sceIoLseekAsyncForDriver |
7 |
|
6 |
sceIoLseek32 |
N/A |
7 |
|
7 |
sceIoIoctlForDriver |
N/A |
8 |
|
8 |
sceIoRemoveForDriver |
sceIoRemoveAsyncForDriver |
|
|
9 |
sceIoDopenForDriver |
sceIoDopenAsyncForDriver |
|
|
10 |
sceIoDcloseForDriver |
sceIoDcloseAsyncForDriver |
|
|
11 |
sceIoDreadForDriver |
sceIoDreadAsyncForDriver |
14 |
|
12 |
sceIoMkdirForDriver |
sceIoMkdirAsyncForDriver |
10 |
|
13 |
sceIoRmdirForDriver |
sceIoRmdirAsyncForDriver |
|
|
14 |
sceIoRenameForDriver |
sceIoRenameAsyncForDriver |
|
|
15 |
sceIoChstatForDriver |
sceIoChstatAsyncForDriver |
16 |
|
16 |
sceIoChstatByFdForDriver |
sceIoChstatByFdAsyncForDriver |
26 |
|
17 |
sceIoGetstatForDriver |
sceIoGetstatAsyncForDriver |
15 |
|
18 |
sceIoGetstatByFdForDriver |
sceIoGetstatByFdAsyncForDriver |
25 |
|
19 |
sceIoDevctlForDriver |
N/A |
N/A |
12
|
20 |
sceIoSyncForDriver |
sceIoSyncAsyncForDriver |
24 |
|
21 |
sceIoSyncByFdForDriver |
sceIoSyncByFdAsyncForDriver |
24 |
|
22 |
sceIoPreadForDriver |
sceIoPreadAsyncForDriver |
|
|
23 |
sceIoPwriteForDriver |
sceIoPwriteAsyncForDriver |
|
|
24 |
sceIoGetstatForDriver_2 |
N/A |
15 |
|
25 |
sceIoChstatForDriver_2 |
N/A |
16 |
|
26 |
sceIoDreadForDriver_2 |
N/A |
14 |
|
27 |
N/A |
sceIoDopenAsync |
|
|
28 |
N/A |
sceIoDreadAsync |
|
|
29 |
N/A |
sceIoDcloseAsync |
|
|
Types
typedef struct vfs_block_dev_info //size is 0x14
{
char* vitaMount;
char* filesystem; // Some name, I guess it is filesystem
char* blockDevicePrimary;
char* blockDeviceSecondary; // can be 0
uint32_t vshMountId; //must be same as in mount_point_info
}vfs_block_dev_info;
typedef struct vfs_mount_point_info_base
{
char* unixMount;
uint32_t unk_4; //zero
uint32_t devMajor;
uint32_t devMinor;
char* filesystem;
void* unk_14; //zero
vfs_block_dev_info* blockDev1;
uint32_t unk_1C; //zero
} vfs_mount_point_info_base;
typedef struct vfs_mount_point_info //size is 0x38
{
uint32_t vshMountId;
vfs_mount_point_info_base base;
vfs_block_dev_info* blockDev2; //same as blockDev1
uint32_t unk_28; //zero - except for (ux0:, gro0:, grw0:) - maybe related to device specific data?
uint32_t unk_2C; //zero
uint32_t unk_30; //zero
uint32_t unk_34; //zero
}vfs_mount_point_info;
//probably vfsops
struct node_ops1 // size is 0x34 (13 pointers)
{
int (*func1)(void* ctx);
int (*func2)(void* ctx); // ?
int (*func3)(void* ctx);
int (*func4)(void* ctx);
int (*func5)(void* ctx); // not implemented by all
int (*func6)(void* ctx); // not implemented by all
int (*func7)(void* ctx);
int (*func8)(void* ctx); // not implemented by all
int (*func9)(void* ctx); // called by sceVfsAddVfs
int (*func10)(void* ctx); // called by sceVfsDeleteVfs
int (*func11)(void* ctx); // not implemented by all
int (*func12)(void* ctx); // sceIoDevctlForDriver
int (*func13)(void* ctx); // (initialize partition entry in table)(map block device name on numeric name)
};
//probably vnodeops
struct node_ops2 // size is 0x74 (29 pointers)
{
int (*func1)(void* ctx); // sceIoOpenForDriver (this function creates device handle) (It operates with normal block device name and unix mount)
int (*func2)(void* ctx); // sceIoOpenForDriver (another one ?)
int (*func3)(void* ctx); // sceIoOpenForDriver (another one ?) or sceIoCloseForDriver
int (*func4)(void* ctx); // add partition (add vfsNode) (initialize partition entry in table) (for example happens on card insert exclusively) (operates with numeric names)
int (*func5)(void* ctx); // sceIoReadForDriver
int (*func6)(void* ctx); // sceIoWriteForDriver
int (*func7)(void* ctx); // sceIoLseekForDriver or sceIoLseek32?
int (*func8)(void* ctx); // sceIoIoctlForDriver
int (*func9)(void* ctx); // remove partition (remove vfsNode) (deinitialize partition entry in table) (for example happens on card remove exclusively) (operates with numeric names)
int (*func10)(void* ctx); // sceIoMkdirForDriver
int (*func11)(void* ctx); // sceIoRmdirForDriver
int (*func12)(void* ctx); // sceIoDopenForDriver
int (*func13)(void* ctx); // sceIoDcloseForDriver
int (*func14)(void* ctx); // sceIoDreadForDriver
int (*func15)(void* ctx); // sceIoGetstatForDriver or sceIoGetstatByFdForDriver
int (*func16)(void* ctx); // sceIoChstatForDriver or sceIoChstatByFdForDriver
int (*func17)(void* ctx); // sceIoRenameForDriver
int (*func18)(void* ctx); // not implemented by all
int (*func19)(void* ctx); // sceIoPreadForDriver
int (*func20)(void* ctx); // sceIoPwriteForDriver
int (*func21)(void* ctx); // ?
int (*func22)(void* ctx); // not referenced
int (*func23)(void* ctx); // not referenced
int (*func24)(void* ctx); // sceIoSyncForDriver or sceIoSyncByFdForDriver
int (*func25)(void* ctx); // sceIoGetstatByFdForDriver
int (*func26)(void* ctx); // sceIoChstatByFdForDriver
int (*func27)(void* ctx); // ?
int (*func28)(void* ctx); // ?
int (*func29)(void* ctx); // not implemented by all
};
struct vfs_add_data
{
node_ops1* funcs1;
const char *name; //exfat etc. max size is 0x20
int flags; //0x0E
int unk_C; //0x01 / 0x00 (root, leaf ?)
int unk_10; //0x10
node_ops2* funcs2;
int unk_18; //0x00
vfs_add_data* next_element; //ptr to next element, confirmed
};
//this structure contains device specific data
//this definition applies only to SceSdif driver
//it is yet unknown what data is stored by SceExfatfs, ScePfsMgr and SceIofilemgr implementations
struct vfs_device_info //size is 0xC
{
partition_entry* partition;
sd_stor_device* device;
uint32_t unk_8;
} vfs_device_info;
struct child_node_info
{
vfs_node* node;
} child_node_info;
typedef struct vfs_fd_lock
{
SceUID mutex_SceVfsFdLock;
SceUID cond_SceVfsFdCond;
uint32_t unk_8;
uint32_t unk_C;
} vfs_fd_lock;
typedef struct vfs_mount_cc
{
node_ops2* ops; // only functions 3, 13, 21 are available. everything else should give 0x80010013
uint32_t dirty; // (1/0) checked on suspend
uint32_t* flag; // (1/0) shows if wait for eventFlag should be called or not
// pointer to data section, offset 3C, 38 or 2C
SceUID* eventFlag; // pointer to data section, offset 30, 20 or 28
} vfs_mount_cc;
typedef struct vfs_mount //size is not known exactly, at least 0xD0 + 0x10 + 0x10
{
uint32_t fast_mutex_SceVfsMnt;
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
uint8_t data1[0x30];
vfs_node* unk_40; // child ?
SceUID pool; // 0x44 - SceIoVfsHeap
uint32_t unk_48; // = 0x101
union _devMajor
{
struct _dmDword
{
uint32_t unk_4C;
} dw;
struct _dmWord
{
uint16_t unk_4C;
uint16_t unk_4E;
} w;
struct _dmByte
{
uint8_t unk_4C;
uint8_t unk_4D;
uint8_t unk_4E;
uint8_t unk_4F;
} b;
} devMajor;
uint32_t devMinor; // 0x50
vfs_node* unk_54;
uint32_t unk_58; // counter
vfs_add_data* add_data; // 0x5C
uint32_t unk_60; // counter
uint32_t unk_64;
uint32_t unk_68;
uint32_t unk_6C;
vfs_mount* unk_70; // next ?
vfs_mount* unk_74; // prev ?
vfs_mount* unk_78; //singly linked list related to pointer 19D0 in data section
vfs_block_dev_info* blockDev; // 0x7C
char unixMount[0x40]; // 0x80 /gro/exfat, /ux/exfat etc
uint32_t unk_C0;
void* unk_C4; // = mountInfo->unk_14
vfs_fd_lock* fd_lock_ptr; // C8 - points to area in this structure
vfs_mount_cc* unk_CC; // CC - points to area in this structure
vfs_fd_lock fd_lock; // D0
vfs_mount_cc unk_E0; //E0;
} vfs_mount;
typedef struct vfs_node_70
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
vfs_node_70* unk_C; //zero or pointer to next element
void* unk_10; //pointer to struct of at least size 0x94
uint32_t unk_14; //number
uint32_t len; // 18
char* data; // 1C
} vfs_node_70;
struct vfs_node //size is 0x100
{
uint32_t unk_0;
uint32_t unk_4; // most likely SceUID of current thread
uint32_t unk_8; // counter
SceUID event_flag_SceVfsVnode; // 0xC - event flag SceVfsVnode
uint32_t evid_bits; // 0x10
uint32_t unk_14;
uint32_t unk_18;
uint32_t unk_1C;
uint8_t data1[0x20];
node_ops2 *ops; // 0x40
uint32_t unk_44;
void* dev_info; //allocated on heap with uid from uid field
//this is device specific / node specific data
//for partition node this will be vfs_device_info*
//for pfs node it looks like to be child_node_info*
//which probably points to partition node
vfs_mount* node; // 0x4C
vfs_node* prev_node; // 0x50
vfs_node* unk_54; // copied from node base - singly linked list
uint32_t unk_58; // counter - probably counter of nodes
uint32_t unk_5C;
uint32_t unk_60;
uint32_t unk_64;
uint32_t unk_68;
SceUID pool_uid; // 0x6C - SceIoVfsHeap or other pool
vfs_node_70* unk_70;
uint32_t unk_74; // = 0x8000
uint32_t unk_78; // some flag
uint32_t unk_7C;
uint32_t unk_80;
uint32_t unk_84;
uint32_t unk_88;
uint32_t unk_8C;
uint32_t unk_90; //void* objectBase ?
uint32_t unk_94;
vfs_node* unk_98; //some child node
uint32_t unk_9C;
uint8_t data2[0x30];
uint32_t unk_D0; // devMajor.w.unk_4E
uint8_t data3[0x2C];
}vfs_node;
struct vfs_node_info //size is 0x38
{
char name[0x20];
vfs_node* node; //can be zero
uint32_t unk_24; // probably size of vfs_node
uint32_t unk_28; // probably flags
vfs_node_info* unk_2C; //can be zero
vfs_node_info* unk_30; //can be zero
vfs_node_info* unk_34; //can be zero
}vfs_node_info;
//looks like this structure is used to get some response into "error" field
//when executing sceKernelSignalCondTo calls
//this structure is used by SceIofileDaemon when it monitors mount/unmount async requests
//in SceIofilemgrMount thread using SceIofilemgrMount conditional variable
//upon completion it issues the signal and result of operation is stored in error field
//it looks like operations 1/2 are used for normal filesystems
//operations 3/4 are used for PFS_GDSD_INF filesystem
typedef struct cond_ctx
{
uint32_t op_index; //operation index. 1,3 - mount. 2,4 - unmount
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
uint32_t unk_10;
uint32_t unk_14;
uint32_t unk_18;
uint32_t unk_1C;
int error; //either error code or 0
cond_ctx* next; //0 means end of list
} cond_ctx;
typedef struct ctx_19D4
{
void* unk_0;
uint32_t unk_4;
vfs_node* offset; // pool of vfs_nodes with 0x1000 elements.
// it is used in sceVfsGetNewNode, mount/unmount and node find routines
uint32_t size;
uint32_t count;
uint32_t unk_14;
uint32_t unk_18;
uint32_t unk_1C;
}ctx_19D4;
typedef struct ctx_11C //size is 0x220
{
void* unk_0;
uint32_t unk_4;
void* offset; // pointer to array of byte size 0x10000 with 0x40 elements of size 0x400
uint32_t size;
uint32_t count;
uint8_t data[0x20C];
}ctx_11C;
typedef struct io_scheduler_dispatcher //size is 0xB8
{
char unk_0[0x50];
io_scheduler* unk_50; // Internal
io_scheduler* unk_54; // Game Card
io_scheduler* unk_58; // Removable
io_scheduler* unk_5C; // Host File System
io_scheduler* unk_60; // Default
uint32_t unk_64; // pointer to unknown module data section
uint32_t unk_68; //SceIoSchedulerDispatcher fast mutex
uint32_t unk_6C;
char unk_70[0x30];
uint32_t unk_A0;
uint32_t unk_A4;
SceUID unk_A8; //SceIoSchedulerDispatcher event flag uid
uint32_t unk_AC; // counter
uint32_t unk_B0; // flag
uint32_t unk_B4; // 0
} io_scheduler_dispatcher;
typedef struct io_scheduler_item //size is 0x14 - allocated from SceIoScheduler heap
{
io_scheduler* unk_0; // parent
uint32_t unk_4; // 0
uint32_t unk_8; // 0
uint32_t unk_C; // 0
uint32_t unk_10; // pointer to unknown module data section
}io_scheduler_item;
enum io_device_code
{
Internal = 0x100,
Game_Card = 0x201,
Removable = 0x202,
Host_File_System = 0x300,
Default = 0x0
};
typedef struct io_scheduler //size is 0xA8 - allocated from SceIoScheduler heap
{
io_device_code unk_0;
io_scheduler_item* unk_4; //item 0
io_scheduler_item* unk_8; //item 1
io_scheduler_item* unk_C; //item 2
io_scheduler_item* unk_10; //item 3
io_scheduler_item* unk_14; //item 4
io_scheduler_item* unk_18; //item 5
io_scheduler_item* unk_1C; //item 6
io_scheduler_item* unk_20; //item 7
io_scheduler_item* unk_24; //item 8
io_scheduler_item* unk_28; //item 9
io_scheduler_item* unk_2C; //item 10
io_scheduler_item* unk_30; //item 11
io_scheduler_item* unk_34; //item 12
io_scheduler_item* unk_38; //item 13
io_scheduler_item* unk_3C; //item 14
io_scheduler_item* unk_40; //item 15
uint32_t unk_44; // flag1 0x40000 or 0x00
uint32_t unk_48; // flag2 0x40000 or 0x00
io_scheduler_dispatcher* unk_4C; // parent
SceUID unk_50; //SceIoScheduler mutex
SceUID unk_54; //SceIoScheduler cond
char unk_58; // 0
char unk_59; // 0
char unk_5A; // 0
char unk_5B; // 0
uint32_t unk_5C; // 0
//this is probably separate structure
SceUID unk_60; //SceIoSchedWorker thread id
SceUID unk_64; //SceIoScheduler mutex from self
SceUID unk_68; //SceIoScheduler cond from self
io_scheduler* unk_6C; //pointer to self
uint32_t unk_70; // 0
uint16_t unk_74; // 0
uint16_t unk_76; // 0
uint32_t unk_78; // 0
uint32_t unk_7C; // 0
uint32_t unk_80; //
uint32_t unk_84; // some flag
uint32_t unk_88; //0x80
uint32_t unk_8C; //0x80
uint32_t unk_90; //0x80
uint32_t unk_94; //0x80
uint32_t unk_98; //0x80
uint32_t unk_9C; //0x80
uint32_t unk_A0; // 0
uint32_t unk_A4; // 0
}io_scheduler;
//context that is used for dispatching i/o operations
typedef struct io_context //size is 0xB8
{
uint32_t unk_0;
uint32_t unk_4;
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 io_op_index; // 0x24 - check "i/o operation index" section
uint32_t unk_28;
io_device_code device_code; // 0x2C
char async; //0x30
char unk_31;
char unk_32;
char unk_33
uint32_t pid; //0x34 = ksceKernelGetProcessId
uint32_t tid; //0x38 = ksceKernelGetThreadId
uint32_t unk_3C; // = SceThreadmgrForDriver_fa54d49a
uint32_t unk_40; // = SceThreadmgrForDriver_332e127c
uint32_t cpu_mask; // 0x44 = ksceKernelGetThreadCpuAffinityMask
uint32_t thread_priority; //0x48 = ksceKernelGetThreadCurrentPriority
uint32_t unk_4C;
uint32_t unk_50;
uint32_t unk_54;
uint32_t unk_58;
uint16_t state; // 0x5C = bit 16 of state where state = (MRC p15, 0, state, c13, c0, 3)
uint16_t unk_5E;
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; // = -1
uint32_t unk_7C; // = -1
uint32_t op_result; // 0x80 - result of i/o operation
uint32_t unk_84;
void* unk_88;
uint32_t unk_8C;
uint32_t unk_90;
uint32_t unk_94;
uint32_t unk_98;
uint32_t unk_9C;
uint32_t unk_A0;
uint32_t unk_A4;
uint32_t unk_A8;
uint32_t unk_AC;
uint64_t unk_B0; // = ksceKernelGetSystemTimeWide
}io_context;
//this one is acquired by sceKernelGetObjForUid using SceUID file descriptor
//then add offset 8 to that object base since first 8 bytes are reserved
typedef struct vfs_object_base
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
uint32_t unk_10;
uint32_t unk_14;
vfs_node* unk_18;
uint32_t unk_1C;
uint32_t unk_20;
uint32_t unk_24;
uint32_t unk_28;
uint32_t unk_2C;
}vfs_object_base;
Data segment layout
Address |
Size |
Description
|
0x0000 |
0x4 |
unknown
|
0x0004 |
0x8 |
pointer to SceIofile heap SceUID at offset 0x54
|
0x0008 |
0x4 |
unknown
|
0x000C |
0x4 |
flag that enables usage of sceFiosKernel functions (like OverlayResolveSync) in i/o operations in transition from user to kernel
|
0x00010 |
0x4 |
flag that enables usage of sceFiosKernel functions (like OverlayResolveSync) in i/o operations in transition from user to kernel
|
0x00014 |
0x4 |
flag that enables usage of sceFiosKernel functions (like OverlayResolveSync) in i/o operations in transition from user to kernel
|
0x00018 |
0x4 |
flag that enables usage of sceFiosKernel functions (like OverlayResolveSync) in i/o operations in transition from user to kernel
|
0x0001C |
0x4 |
unknown
|
0x0020 |
0x4 |
SceIofileDevWaitForVC event flag SceUID
|
0x0024 |
0x4 |
unknown
|
0x0028 |
0x4 |
SceIofileDevWaitForSD event flag SceUID
|
0x002C |
0x4 |
pointed by vfs_mount_cc for SceIofileDevWaitForSD
|
0x0030 |
0x4 |
SceIofileDevWaitForMC event flag SceUID
|
0x0034 |
0x4 |
unknown
|
0x0038 |
0x4 |
pointed by vfs_mount_cc for SceIofileDevWaitForVC
|
0x003C |
0x4 |
pointed by vfs_mount_cc for SceIofileDevWaitForMC
|
0x0040 |
0x10 |
unknown
|
0x0050 |
0x4 |
address of some callback function called in all vfs operations
|
0x0054 |
0x4 |
SceIofile heap SceUID
|
0x0058 |
0x80 |
unknown
|
0x00D8 |
0x4 |
SceIoVfsHeap heap SceUID
|
0x00DC |
0x4 |
SceIoFileDebug memblock SceUID
|
0x00E0 |
0x3C |
unknown
|
0x011C |
0x4 |
ctx_11C* pointer to structure
|
0x0120 |
0x4C |
unknown
|
0x016C |
0xC |
structure used together with 19F8
|
0x0178 |
0x30 |
unknown
|
0x01A8 |
0x1500 |
array of 96 elements of vfs_node_info
|
0x16A8 |
0x4 |
SceVfsRfsLock fast mutex
|
0x16AC |
0x74 |
unknown
|
0x1720 |
0x04 |
cond_ctx* pointer to the linked list
|
0x1724 |
0x4 |
SceIoScheduler heap SceUID
|
0x1728 |
0xB8 |
io_scheduler_dispatcher structure
|
0x17E0 |
0x70 |
unknown
|
0x1850 |
0x4 |
SceIofileDaemonLock fast mutex
|
0x1854 |
0x40 |
unknown
|
0x1894 |
0x4 |
SceIofile fast mutex
|
0x1898 |
0x80 |
unknown
|
0x1918 |
0x4 |
SceIofileFlock fast mutex
|
0x191C |
0x44 |
unknown
|
0x1960 |
0x4 |
some i/o flag
|
0x1964 |
0x4 |
flag that indicates that any i/o operation happened 1/0. changed by each i/o operation. cleared on suspend.
|
0x1968 |
0x18 |
unknown
|
0x1980 |
0x4 |
counter of not finished i/o operations. changed by each i/o operation.
|
0x1984 |
0xC |
unknown
|
0x1990 |
0x4 |
SceVfsMntlistLock fast mutex
|
0x1994 |
0x3C |
unknown
|
0x19D0 |
0x4 |
vfs_mount* singly linked list
|
0x19D4 |
0x1C |
structure ctx_19D4
|
0x19F0 |
0x8 |
unknown
|
0x19F8 |
0x4 |
address used for ksceKernelCpuSuspendIntr
|
0x19FC |
0x4 |
vfs_mount* pointer
|
0x1A00 |
0x4 |
SceVfsNcacheLock fast mutex
|
0x1A04 |
0x40 |
unknown
|
0x1A44 |
0x4 |
address used for ksceKernelCpuSuspendIntr
|
0x1A48 |
0x4 |
unknown
|
0x1A4C |
0x4 |
SceVfsLock fast mutex
|
0x1A50 |
0x3C |
unknown
|
0x1A8C |
0x04 |
SceIofilemgrMount thread SceUID
|
0x1A90 |
0x700 |
array of 32 elements of vfs_mount_point_info
|
0x2190 |
0x4 |
SceIofilemgrMount cond SceUID
|
0x2194 |
0x4 |
SceUID mutexid
|
0x2198 |
0x4 |
flag that indicates that IoSchedulerDispatcher functionality is initialized 1/0
|
0x219C |
0x4 |
unknown
|
0x21A0 |
0x40 |
unknown
|
0x21E0 |
0x20 |
unknown
|
0x2200 |
0x04 |
SceIofilemgrDaemon thread SceUID
|
0x2204 |
0x8 |
unknown
|
0x220C |
0x4 |
SceIofilemgrDaemon event flag SceUID
|
0x2210 |
0x4 |
void* to heap alloc of size 0x100
|
0x2214 |
0x4 |
void* to heap alloc of size 0x100
|
0x2218 |
0x4 |
= 3
|
0x221C |
0x20 |
vfs_add_data dummy_ttyp_dev_fs node
|
SceIofilemgrForDriver
sceIoMountForDriver
Version
|
NID
|
3.60
|
0xD070BC48
|
operation index 1 in cond_ctx
//intermediate function between sceAppMgrGameDataMountForDriver and sceVfsMount
int sceIoMountForDriver(int vshMountId);
sceIoUmountForDriver
Version
|
NID
|
3.60
|
0x20574100
|
operation index 2 in cond_ctx
//intermediate function between sceAppMgrUmountForDriver and sceVfsUnmount
int sceIoUmountForDriver(int vshMountId, int unk1, int unk2, int unk3);
scePfsMgrVfsMountForDriver
Version
|
NID
|
3.60
|
0xFEEE44A9
|
operation index 3 in cond_ctx
//this function can be used with PFS_GDSD_INF filesystem
int scePfsMgrVfsMountForDriver(int unk0, int unk1, int unk2);
scePfsMgrVfsUmountForDriver
Version
|
NID
|
3.60
|
0xD220539D
|
operation index 4 in cond_ctx
int scePfsMgrVfsUmountForDriver(int unk0, int unk1, int unk2);
sceVfsNodeWaitEventFlag
Version
|
NID
|
3.60
|
0xAA45010B
|
calls ksceKernelWaitEventFlag
using event_flag_SceVfsVnode
from vfs_node
int sceVfsNodeWaitEventFlag(vfs_node* node)
sceVfsNodeSetEventFlag
Version
|
NID
|
3.60
|
0x6048F245
|
calls ksceKernelSetEventFlag
using event_flag_SceVfsVnode
from vfs_node
int sceVfsNodeSetEventFlag(vfs_node* node)
sceVfsUnmount
Version
|
NID
|
1.69
|
0x9C7E7B76
|
3.60
|
0x9C7E7B76
|
struct vfs_unmount_data
{
const char *mountpoint;
int flags;
};
int sceVfsUnmount(struct vfs_unmount_data *data);
sceVfsDeleteVfs
Version
|
NID
|
1.69
|
0x9CBFA725
|
3.60
|
0x9CBFA725
|
int sceVfsDeleteVfs(const char *name, void **deleted_node);
sceVfsAddVfs
Version
|
NID
|
1.69
|
0x673D2FCD
|
3.60
|
0x673D2FCD
|
int sceVfsAddVfs(struct vfs_add_data *data);
sceVfsMount
Version
|
NID
|
1.69
|
0xB62DE9A6
|
3.60
|
0xB62DE9A6
|
int sceVfsMount(struct vfs_mount_point_info_base* data);
sceVfsGetNewNode
Version
|
NID
|
1.69
|
0xD60B5C63
|
3.60
|
0xD60B5C63
|
int sceVfsGetNewNode(vfs_mount* mount, node_ops2 *ops, int unused, vfs_node **node);
sceIoDreadForDriver
Version
|
NID
|
1.69
|
0x20CF5FC7
|
3.60
|
0x20CF5FC7
|
Call interface is same as sceIoDread
int sceIoDreadForDriver(SceUID fd, SceIoDirent *dir);
sceIoDreadForDriver_2
Version
|
NID
|
3.60
|
0x03051B02
|
Derived from _vshIoDread
Implementation is completely the same as sceIoDreadForDriver. The only difference is that st_attr in SceIoStat is not set.
int sceIoDreadForDriver_2(SceUID fd, SceIoDirent *dir);
sceIoWriteForDriver
Version
|
NID
|
1.69
|
0x21EE91F0
|
3.60
|
0x21EE91F0
|
Call interface is same as sceIoWrite
int sceIoWriteForDriver(SceUID fd, const void *data, SceSize size);
sceIoDopenForDriver
Version
|
NID
|
1.69
|
0x463B25CC
|
3.60
|
0x463B25CC
|
Call interface is same as sceIoDopen
SceUID sceIoDopenForDriver(const char *dirname);
sceIoLseekForDriver
Version
|
NID
|
1.69
|
0x62090481
|
3.60
|
0x62090481
|
Call interface is same as sceIoLseek
SceOff sceIoLseekForDriver(SceUID fd, SceOff offset, int whence);
sceIoOpenForDriver
Version
|
NID
|
1.69
|
0x75192972
|
3.60
|
0x75192972
|
Call interface is same as sceIoOpen
SceUID sceIoOpenForDriver(const char *file, int flags, SceMode mode);
sceIoOpenForDriver_2
Version
|
NID
|
3.60
|
0xC3D34965
|
This is a wrapper for sceIoOpenForDriver
Pid is used for sceFiosKernelOverlayResolveSyncForDriver
SceUID sceIoOpenForDriver_2(SceUID pid, const char *file, int flags, SceMode mode);
sceIoChstatForDriver
Version
|
NID
|
1.69
|
0x7D42B8DC
|
3.60
|
0x7D42B8DC
|
Call interface is same as sceIoChstat
int sceIoChstatForDriver(const char *file, SceIoStat *stat, int bits);
sceIoChstatForDriver_2
Version
|
NID
|
3.60
|
0x1F98BD50
|
Derived from _vshIoChstat
Implementation is completely the same as sceIoChstatForDriver. The only difference is that (bits = bits & (~0x10000)) operation is not applied.
int sceIoChstatForDriver_2(const char *file, SceIoStat *stat, int bits);
sceIoGetstatForDriver
Version
|
NID
|
1.69
|
0x75C96D25
|
3.60
|
0x75C96D25
|
Call interface is same as sceIoGetstat
int sceIoGetstatForDriver(const char *file, SceIoStat *stat);
sceIoGetstatForDriver_2
Version
|
NID
|
3.60
|
0xD6503624
|
Derived from _vshIoGetstat
Implementation is completely the same as sceIoGetstatForDriver. The only difference is that st_attr in SceIoStat is not set.
int sceIoGetstatForDriver_2(const char *file, SceIoStat *stat);
sceIoMkdirForDriver
Version
|
NID
|
1.69
|
0x7F710B25
|
3.60
|
0x7F710B25
|
Call interface is same as sceIoMkdir
int sceIoMkdirForDriver(const char *dir, SceMode mode);
sceIoReadForDriver
Version
|
NID
|
1.69
|
0xE17EFC03
|
3.60
|
0xE17EFC03
|
Call interface is same as sceIoRead
int sceIoReadForDriver(SceUID fd, void *data, SceSize size);
sceIoCloseForDriver
Version
|
NID
|
1.69
|
0xF99DD8A3
|
3.60
|
0xF99DD8A3
|
Call interface is same as sceIoClose
int sceIoCloseForDriver(SceUID fd);
sceIoRenameForDriver
Version
|
NID
|
1.69
|
0xDC0C4997
|
3.60
|
0xDC0C4997
|
Call interface is same as sceIoRename
int sceIoRenameForDriver(const char *oldname, const char *newname);
sceIoRemoveForDriver
Version
|
NID
|
1.69
|
0x0D7BB3E1
|
3.60
|
0x0D7BB3E1
|
Call interface is same as sceIoRemove
int sceIoRemoveForDriver(const char *file);
sceIoCancelForDriver
Version
|
NID
|
3.60
|
0x6D59658D
|
Derived from sceIoCancel
sceIoChstatAsyncForDriver
Version
|
NID
|
3.60
|
0x7EC442BF
|
Derived from _sceIoChstatAsync
sceIoChstatByFdAsyncForDriver
Version
|
NID
|
3.60
|
0xEC974400
|
Derived from sceIoChstatByFdAsync
sceIoChstatByFdForDriver
Version
|
NID
|
3.60
|
0xDF57A75F
|
Derived from _sceIoChstatByFd
int sceIoChstatByFdForDriver(SceUID fd, SceIoStat *stat, int bits);
sceIoCloseAsyncForDriver
Version
|
NID
|
3.60
|
0x11C57CC6
|
Derived from sceIoCloseAsync
sceIoDevctlAsyncForDriver
Version
|
NID
|
3.60
|
0xA9302946
|
Derived from _sceIoDevctlAsync
sceIoDevctlForDriver
Version
|
NID
|
3.60
|
0x16882FC4
|
Derived from _sceIoDevctl
int sceIoDevctlForDriver(const char *dev, unsigned int cmd, void *indata, int inlen, void *outdata, int outlen);
sceIoDcloseForDriver
Version
|
NID
|
3.60
|
0x19C81DD6
|
Derived from sceIoDclose
int sceIoDcloseForDriver(SceUID fd);
sceIoFlockForDriver
Version
|
NID
|
3.60
|
0x16336A0D
|
Derived from sceIoFlockForSystem
sceIoGetstatByFdAsyncForDriver
Version
|
NID
|
3.60
|
0x0FEE1238
|
Derived from sceIoGetstatByFdAsync
sceIoGetstatByFdForDriver
Version
|
NID
|
3.60
|
0x462F059B
|
Derived from _sceIoGetstatByFd
int sceIoGetstatByFdForDriver(SceUID fd, SceIoStat *stat);
sceIoGetstatAsyncForDriver
Version
|
NID
|
3.60
|
0x94A5304A
|
Derived from _sceIoGetstatAsync
sceIoIoctlAsyncForDriver
Version
|
NID
|
3.60
|
0xB761E91B
|
Derived from _sceIoIoctlAsync
sceIoIoctlForDriver
Version
|
NID
|
3.60
|
0x161CD33F
|
Derived from _sceIoIoctl
int sceIoIoctlForDriver(SceUID fd, unsigned int cmd, void *indata, int inlen, void *outdata, int outlen);
sceIoLseekAsyncForDriver
Version
|
NID
|
3.60
|
0x541BAABD
|
Derived from _sceIoLseekAsync
sceIoMkdirAsyncForDriver
Version
|
NID
|
3.60
|
0x27003443
|
Derived from _sceIoMkdirAsync
sceIoOpenAsyncForDriver
Version
|
NID
|
3.60
|
0x451001DE
|
Derived from _sceIoOpenAsync
sceIoPreadAsyncForDriver
Version
|
NID
|
3.60
|
0x64A46A2C
|
Derived from _sceIoPreadAsync
sceIoPreadForDriver
Version
|
NID
|
3.60
|
0x2A17515D
|
Derived from _sceIoPread
//returns number of read bytes
int sceIoPreadForDriver(SceUID uid, void *data, int size, SceOff offset)
sceIoPwriteAsyncForDriver
Version
|
NID
|
3.60
|
0x202CDDE3
|
Derived from _sceIoPwriteAsync
sceIoPwriteForDriver
Version
|
NID
|
3.60
|
0x5F1512C8
|
Derived from _sceIoPwrite
int sceIoPwriteForDriver(SceUID uid, const void *data, int size, SceOff offset);
sceIoReadAsyncForDriver
Version
|
NID
|
3.60
|
0x69047C81
|
Derived from sceIoReadAsync
sceIoRemoveAsyncForDriver
Version
|
NID
|
3.60
|
0xF9D6507D
|
Derived from _sceIoRemoveAsync
sceIoRenameAsyncForDriver
Version
|
NID
|
3.60
|
0xAACBC47A
|
Derived from _sceIoRenameAsync
sceIoRmdirAsyncForDriver
Version
|
NID
|
3.60
|
0xF5B0B36C
|
Derived from _sceIoRmdirAsync
sceIoRmdirForDriver
Version
|
NID
|
3.60
|
0x1CC9C634
|
Derived from _sceIoRmdir
int sceIoRmdirForDriver(const char *path);
sceIoSyncByFdAsyncForDriver
Version
|
NID
|
3.60
|
0x041209CF
|
Derived from sceIoSyncByFdAsync
sceIoSyncByFdForDriver
Version
|
NID
|
3.60
|
0x43170575
|
Derived from sceIoSyncByFd
int sceIoSyncByFdForDriver(SceUID fd, unsigned int unk);
sceIoSyncAsyncForDriver
Version
|
NID
|
3.60
|
0x4F9EA8B0
|
Derived from _sceIoSyncAsync
sceIoSyncForDriver
Version
|
NID
|
3.60
|
0xDDF78594
|
Derived from _sceIoSync
int sceIoSyncForDriver(const char *device, unsigned int unk);
sceIoWriteAsyncForDriver
Version
|
NID
|
3.60
|
0xA1BD13D0
|
Derived from sceIoWriteAsync
sceIoGetProcessDefaultPriorityForSystem
Version
|
NID
|
3.60
|
0xCE397158
|
sceIoSetProcessDefaultPriorityForSystem
Version
|
NID
|
3.60
|
0xABE65071
|
sceIoDopenAsyncForDriver
Version
|
NID
|
3.60
|
0x72F06BDE
|
sceIoDcloseAsyncForDriver
Version
|
NID
|
3.60
|
0xC08F199F
|
sceIoDreadAsyncForDriver
Version
|
NID
|
3.60
|
0x5982B0E3
|
t_sceIoOpenForDriver
Version
|
NID
|
3.60
|
0x0E518FA9
|
thread callback for sceIoOpenForDriver
typedef struct sceIoOpenForDriver_args
{
const char *file;
int flags;
SceMode mode;
}sceIoOpenForDriver_args;
SceUID t_sceIoOpenForDriver(sceIoOpenForDriver_args* args);
t_sceIoCloseForDriver
Version
|
NID
|
3.60
|
0x1AE14011
|
thread callback for sceIoCloseForDriver
typedef struct sceIoCloseForDriver_args
{
SceUID fd;
}sceIoCloseForDriver_args;
int t_sceIoCloseForDriver(sceIoCloseForDriver_args* args);
t_sceIoReadForDriver
Version
|
NID
|
3.60
|
0x809892C1
|
thread callback for sceIoReadForDriver
typedef struct sceIoReadForDriver_args
{
SceUID fd;
void *data;
SceSize size;
}sceIoReadForDriver_args;
int t_sceIoReadForDriver(sceIoReadForDriver_args* args);
t_sceIoWriteForDriver
Version
|
NID
|
3.60
|
0x8598ADC3
|
thread callback for sceIoWriteForDriver
typedef struct sceIoWriteForDriver_args
{
SceUID fd;
const void *data;
SceSize size;
}sceIoWriteForDriver_args;
int t_sceIoWriteForDriver(sceIoWriteForDriver_args* args);
t_sceIoIoctlForDriver
Version
|
NID
|
3.60
|
0xC1DD4317
|
thread callback for sceIoIoctlForDriver
typedef struct sceIoIoctlForDriver_args
{
SceUID fd;
unsigned int cmd;
void *indata;
int inlen;
void *outdata;
int outlen;
}sceIoIoctlForDriver_args;
SceOff t_sceIoLseekForDriver(sceIoIoctlForDriver* args);
t_sceIoChstatForDriver
Version
|
NID
|
3.60
|
0xBCE4865B
|
thread callback for sceIoChstatForDriver
typedef struct sceIoChstatForDriver_args
{
const char *file;
SceIoStat *stat;
int bits;
uint32_t store_attr;
}sceIoChstatForDriver_args;
SceOff t_sceIoChstatForDriver(sceIoChstatForDriver_args* args);
t_sceIoChstatByFdForDriver
Version
|
NID
|
3.60
|
0x7517FE29
|
thread callback for sceIoChstatByFdForDriver
struct sceIoChstatByFdForDriver_args
{
SceUID uid;
void *unk1;
int unk2;
};
int t_sceIoChstatByFdForDriver(sceIoChstatByFdForDriver_args* args);
t_sceIoPreadForDriver
Version
|
NID
|
3.60
|
0x0B54F9E0
|
thread callback for sceIoPreadForDriver
typedef struct sceIoPreadForDriver_args
{
SceUID uid;
void *data;
int size;
int dummy; //alignment
SceOff offset;
}sceIoPreadForDriver_args;
int t_sceIoPreadForDriver(sceIoPreadForDriver_args* args);
t_sceIoPwriteForDriver
Version
|
NID
|
3.60
|
0xE5DEA6B7
|
thread callback for sceIoPwriteForDriver
typedef struct sceIoPwriteForDriver_args
{
SceUID uid;
const void *data;
int size;
int dummy; //alignment
SceOff offset;
}sceIoPwriteForDriver_args;
int t_sceIoPwriteForDriver(sceIoPwriteForDriver_args* args);
SceIofilemgrForDriver vfs callbacks
Vfs callbacks are harder to reverse since it looks like not all of them are exported. Looks like some of them are not even exposed as subroutines.
Here will go an attempt to desctibe interface of actual callbacks with single ctx argument (as opposed to exported functions that pack arguments into ctx)
vfs_func1
typedef struct vfs_func1_args
{
vfs_mount* arg0;
void* arg1;
}vfs_func1_args;
int vfs_func1(vfs_func1_args* ctx)
vfs_func2
typedef struct vfs_func2_args
{
//fields are yet unknown
}vfs_func2_args;
int vfs_func2(vfs_func2_args* ctx)
vfs_func3
typedef struct vfs_func3_args
{
vfs_mount* arg0;
uint32_t arg1;
vfs_node* arg2;
}vfs_func3_args;
int vfs_func3(vfs_func3_args* ctx)
vfs_func4
typedef struct vfs_func4_args
{
vfs_node *node;
uint32_t unk_4;
uint32_t unk_8;
//more fields?
}vfs_func4_args;
int vfs_func4(vfs_func4_args* ctx)
vfs_func7
typedef struct vfs_func7_args
{
//fields are yet unknown
}vfs_func7_args;
int vfs_func7(vfs_func7_args* ctx)
vfs_func9
typedef struct vfs_func9_args
{
//fields are yet unknown
}vfs_func9_args;
int vfs_func9(vfs_func9_args* ctx)
vfs_func10
typedef struct vfs_func10_args
{
//fields are yet unknown
}vfs_func10_args;
int vfs_func10(vfs_func10_args* ctx)
vfs_func12
Version
|
NID
|
3.60
|
0xB07B307D
|
int vfs_func12(vfs_mount* mount, const char *dev, unsigned int cmd, void *indata, int inlen, void *outdata, int outlen);
typedef struct vfs_func12_args
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8; // some switch number
char* name;
uint32_t nameLength;
uint32_t unk_14;
uint32_t unk_18;
//more fields ?
}vfs_func12_args;
vfs_func13
Version
|
NID
|
3.60
|
0xF7DAC0F5
|
typedef struct vfs_func13_args
{
uint32_t unk_0;
char* blockDeviceName;
uint32_t unk_8;
uint32_t unk_C;
char* numericName;
uint32_t blockDeviceNameLength;
uint32_t* numericNameLength;
}vfs_func13_args;
int vfs_func13(vfs_func13_args* ctx)
SceIofilemgrForDriver vfs node callbacks
It looks like vfs callbacks are exported. Callbacks can be identified using these steps:
- Find all functions that contain indirect calls
- Locate only calls that use address, taken from table, that is pointed by vfs_node (offset 0x40, then valid offset inside pointer table)
- Trace back to first exported function (usually this is single export, not far away in call stack)
- Turns out ScePfsMgr and SceExfatfs use these exports from their vfs node function callbacks, so this information can be mapped/matched.
vfs_node_func1
Version |
NID
|
3.60 |
0x76B79BEC
|
int vfs_node_func1(vfs_node *node, vnf1_arg1* dev, int unk2, int unk3)
struct vnf1_arg1
{
char* blockDevice;
uint32_t nameLength;
char* unixMount;
}vnf1_arg1;
//this type applies only to SceSdif
struct vnf1_arg3
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
uint32_t unk_10;
uint32_t unk_14;
uint32_t unk_18;
uint32_t unk_1C;
sd_stor_device_handle* handle;
//not sure about size, can be more fields ?
}vnf1_arg3;
struct vfs_node_func1_args
{
vfs_node* node;
vnf1_arg1* arg1; //ignored (applies to SceSdif)
uint32_t arg2;
vnf1_arg3* arg3; //result (applies to SceSdif)
}vfs_node_func1_args;
arguments are packed into vfs_node_func1_args
and passed to vfs_node_func1
callback
vfs_node_func2
Version |
NID
|
3.60 |
0x9E347C7D
|
int vfs_node_func2(vfs_node *node, int unk1, int unk2, int unk3, int arg_0)
struct vfs_node_func2_args
{
vfs_node* node;
uint32_t arg1;
uint32_t arg2;
uint32_t arg3;
uint32_t arg_0;
}vfs_node_func2_args;
arguments are packed into vfs_node_func2_args
and passed to vfs_node_func2
callback
vfs_node_func3
Version |
NID
|
3.60 |
0x40944C2E
|
int vfs_node_func3(vfs_node *node, int unk1)
struct vfs_node_func3_args
{
vfs_node* node;
uint32_t arg1;
}vfs_node_func3_args;
arguments are packed into vfs_node_func3_args
and passed to vfs_node_func3
callback
vfs_node_func4
Version |
NID
|
3.60 |
0xA5A6A55C
|
int vfs_node_func4(vfs_node *node, vfs_node** new_node, vnf4_arg2* dev, int unk3)
struct vnf4_arg2
{
char* blockDeviceName;
int nameLength;
} vnf4_arg2;
struct vfs_node_func4_args
{
vfs_node* node;
vfs_node** new_node; //result
vnf4_arg2* dev;
uint32_t arg3; //ignored (applies to SceSdif)
}vfs_node_func4_args;
arguments are packed into vfs_node_func4_args
and passed to vfs_node_func4
callback
vfs_node_func5_or_19
Version |
NID
|
3.60 |
0x570388A5
|
int vfs_node_func5_or_19(vfs_node *n0, int unk1, int unk2, int unk3, int arg_0)
vfs_node_func5_or_19
Version |
NID
|
3.60 |
0xABBC80E3
|
int vfs_node_func5_or_19(vfs_node *n0, int unk1, int unk2, int unk3, int arg_0, int arg_4, int arg_8)
vfs_node_func6_or_20
Version |
NID
|
3.60 |
0x9A68378D
|
int vfs_node_func6_or_20(vfs_node *n0, int unk1, int unk2, int unk3, int arg_0)
vfs_node_func6_or_20
Version |
NID
|
3.60 |
0xA53C040D
|
int vfs_node_func6_or_20(vfs_node *n0, int unk1, int unk2, int unk3, int arg_0, int arg_4, int arg_8)
vfs_node_func7
Version |
NID
|
3.60 |
0xB2B13818
|
int vfs_node_func7(vfs_node *node, vnf7_arg1* objectBase, SceOff offset, int whence)
struct vnf7_arg1
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
uint32_t unk_10;
uint32_t unk_14;
uint32_t unk_18;
uint32_t unk_1C;
void* unk_20; // pointer to structure. most likely device specific that has fast_mutex as first field
} vnf7_arg1;
struct vfs_node_func7_args
{
vfs_node* node;
vnf7_arg1* objectBase; //some structure
SceOff offset
int whence
}vfs_node_func7_args;
arguments are packed into vfs_node_func7_args
and passed to vfs_node_func7
callback
vfs_node_func8
Version |
NID
|
3.60 |
0x333C904D
|
int vfs_node_func8(vfs_node* node, void* objectBase, unsigned int cmd, void *indata, int inlen, void *outdata, int outlen)
struct vfs_node_func8_args
{
vfs_node* node;
void* objectBase;
unsigned int cmd;
void *indata;
int inlen;
void *outdata;
int outlen;
}vfs_node_func8_args;
arguments are packed into vfs_node_func8_args
and passed to vfs_node_func8
callback
vfs_node_func9
Version |
NID
|
3.60 |
0xDC1E7EE4
|
int vfs_node_func9(vfs_node *node0, vfs_node *node1, void *ctx, int unk)
need to confirm this type with dump
typedef struct vnf9_arg2 //most likely this type is also vfs_node (same partial layout of fields)
{
char* blockDeviceName;
int nameLength;
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;
uint32_t unk_40;
uint32_t unk_44;
partition_entry** unk_48;
}vnf9_arg2;
struct vfs_node_func9_args
{
vfs_node* node0;
vfs_node* node1;
vnf9_arg2* arg2;
uint32_t arg3; //ignored (applies to SceSdif)
}vfs_node_func9_args;
arguments are packed into vfs_node_func9_args
and passed to vfs_node_func9
callback
vfs_node_func10
Version |
NID
|
3.60 |
0x2F3F8C70
|
int vfs_node_func10(vfs_node* node, void* unk1, void* unk2, SceMode mode)
struct vfs_node_func10_args
{
vfs_node* node;
void* arg1;
void* arg2;
SceMode mode;
}vfs_node_func10_args;
arguments are packed into vfs_node_func10_args
and passed to vfs_node_func10
callback
vfs_node_func11
Version |
NID
|
3.60 |
0x1D551105
|
int vfs_node_func11(vfs_node *node, int unk1, int unk2, int unused)
struct vfs_node_func11_args
{
vfs_node* node;
uint32_t arg1;
uint32_t arg2;
}vfs_node_func11_args;
arguments are packed into vfs_node_func11_args
and passed to vfs_node_func11
callback
vfs_node_func12
Version |
NID
|
3.60 |
0x00C9C2DD
|
int vfs_node_func12(vfs_node *node, int unk1, int unk2)
struct vfs_node_func12_args
{
vfs_node* node;
uint32_t arg1;
uint32_t arg2;
}vfs_node_func12_args;
arguments are packed into vfs_node_func12_args
and passed to vfs_node_func12
callback
vfs_node_func13
Version |
NID
|
3.60 |
0x1350F5C7
|
int vfs_node_func13(vfs_node *node, int unk1)
struct vfs_node_func13_args
{
vfs_node* node;
uint32_t arg1;
}vfs_node_func13_args;
arguments are packed into vfs_node_func13_args
and passed to vfs_node_func13
callback
vfs_node_func14
Version |
NID
|
3.60 |
0x77584C8F
|
int vfs_node_func14(vfs_node* node, void* objectBase, SceIoDirent* dir)
struct vfs_node_func14_args
{
vfs_node* node;
void* objectBase;
SceIoDirent* dir;
}vfs_node_func14_args;
arguments are packed into vfs_node_func14_args
and passed to vfs_node_func14
callback
vfs_node_func15
Version |
NID
|
3.60 |
0x50A63ACF
|
int vfs_node_func15(vfs_node *node, vfs_node_func15_arg1* arg1, SceIoStat* stat)
typedef struct vfs_node_func15_arg1 //size is 0x10
{
char* data; //from vfs_node_70 at 0x18
int len;
int unk_8;
int unk_C;
}vfs_node_func15_arg1;
struct vfs_node_func15_args
{
vfs_node* node;
vfs_node_func15_arg1* arg1;
SceIoStat* stat;
}vfs_node_func15_args;
arguments are packed into vfs_node_func15_args
and passed to vfs_node_func15
callback
vfs_node_func16
Version |
NID
|
3.60 |
0x1974FA92
|
int vfs_node_func16(vfs_node *node, void *unk1, SceIoStat *stat, int bits)
struct vfs_node_func16_args
{
vfs_node* node;
uint32_t arg1;
SceIoStat *stat;
int bits;
}vfs_node_func16_args;
arguments are packed into vfs_node_func16_args
and passed to vfs_node_func16
callback
vfs_node_func17
Version |
NID
|
3.60 |
0x36A794C7
|
int vfs_node_func17(vfs_node *node, int unk1, int unk2, int unk3, int arg_0, int arg_4)
struct vfs_node_func17_args
{
vfs_node* node;
uint32_t arg1;
uint32_t arg2;
uint32_t arg3;
uint32_t arg_0;
uint32_t arg_4;
}vfs_node_func17_args;
arguments are packed into vfs_node_func17_args
and passed to vfs_node_func17
callback
vfs_node_func21
Version |
NID
|
3.60 |
0x8FB94521
|
int vfs_node_func21(vfs_node *node)
struct vfs_node_func21_args
{
vfs_node* node;
}vfs_node_func21_args;
arguments are packed into vfs_node_func21_args
and passed to vfs_node_func21
callback
vfs_node_func22
Version |
NID
|
3.60 |
0x942AA61F
|
int vfs_node_func22(vfs_node *node, int unk1)
struct vfs_node_func22_args
{
vfs_node* node;
uint32_t arg1;
}vfs_node_func22_args;
arguments are packed into vfs_node_func22_args
and passed to vfs_node_func22
callback
vfs_node_func23
Version |
NID
|
3.60 |
0x0D8A806E
|
int vfs_node_func23(vfs_node *node, int unk1)
struct vfs_node_func23_args
{
vfs_node* node;
uint32_t arg1;
}vfs_node_func23_args;
arguments are packed into vfs_node_func23_args
and passed to vfs_node_func23
callback
vfs_node_func24
Version |
NID
|
3.60 |
0x9CD96406
|
int vfs_node_func24(vfs_node *node, void *objectBase, int flag)
struct vfs_node_func24_args
{
vfs_node* node;
void *objectBase;
int flag;
}vfs_node_func24_args;
arguments are packed into vfs_node_func24_args
and passed to vfs_node_func24
callback
vfs_node_func25
Version |
NID
|
3.60 |
0x1DBCBB01
|
int vfs_node_func25(vfs_node *node, void* objectBase, SceIoStat *stat)
struct vfs_node_func25_args
{
vfs_node* node;
void* objectBase;
SceIoStat *stat;
}vfs_node_func25_args;
arguments are packed into vfs_node_func25_args
and passed to vfs_node_func25
callback
vfs_node_func26
Version |
NID
|
3.60 |
0x082AFD7F
|
int vfs_node_func26(vfs_node *node, void *objectBase, SceIoStat *stat, int bits)
struct vfs_node_func26_args
{
vfs_node* node;
void *objectBase;
SceIoStat *stat;
int bits;
}vfs_node_func26_args;
arguments are packed into vfs_node_func26_args
and passed to vfs_node_func26
callback
vfs_node_func27
Version |
NID
|
3.60 |
0xF53399BC
|
int vfs_node_func27(int unk0, vfs_node *node, int unk2, int unk3)
struct vfs_node_func27_args
{
uint32_t arg0;
vfs_node* node;
uint32_t arg2;
uint32_t arg3;
uint32_t unk_10; // zero
uint32_t unk_14; // zero
}vfs_node_func27_args;
arguments are packed into vfs_node_func27_args
and passed to vfs_node_func27
callback
vfs_node_func28
Version |
NID
|
3.60 |
0x0F7E1718
|
int vfs_node_func28(vfs_node *node, int unk1, int unused1, int unused2)
struct vfs_node_func28_args
{
vfs_node* node;
uint32_t arg1;
uint32_t unk_8; // zero
uint32_t unk_C; // zero
}vfs_node_func28_args;
arguments are packed into vfs_node_func28_args
and passed to vfs_node_func28
callback
vfs_node_func29
Version |
NID
|
3.60 |
0xEEAE8B51
|
int vfs_node_func29(vfs_node *node, int unused, int unk2, int unk3, int arg_0, int arg_4, int arg_8, int arg_C)
struct vfs_node_func29_args
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t arg2;
uint32_t arg3;
uint32_t arg_0;
uint32_t arg_4;
uint32_t arg_8;
uint32_t arg_C;
}vfs_node_func29_args;
arguments are packed into vfs_node_func29_args
and passed to vfs_node_func29
callback
SceIofilemgr
_sceIoDcloseAsync
Version |
NID
|
1.69 |
0xB13031
|
3.60 |
different NID or not present
|
_sceIoOpenAsync
Version |
NID
|
1.69 |
0x09CD0FC8
|
3.60 |
0x09CD0FC8
|
sceIoGetProcessDefaultPriority
Version |
NID
|
1.69 |
0x0DC4F1BB
|
3.60 |
0x0DC4F1BB
|
_sceIoRmdirAsync
Version |
NID
|
1.69 |
0x13DC3244
|
3.60 |
0x13DC3244
|
sceIoSetPriority
Version |
NID
|
1.69 |
0x14B2D56C
|
3.60 |
0x14B2D56C
|
sceIoSyncByFd
Version |
NID
|
1.69 |
0x16512F59
|
3.60 |
0x16512F59
|
int sceIoSyncByFd(SceUID fd, unsigned int unk);
_sceIoIoctl
Version |
NID
|
1.69 |
0x1D2988F1
|
3.60 |
0x1D2988F1
|
_sceIoLseekAsync
Version |
NID
|
1.69 |
0x2300858E
|
3.60 |
0x2300858E
|
sceIoSetPriorityForSystem
Version |
NID
|
1.69 |
0x27373135
|
3.60 |
0x27373135
|
_sceIoComplete
Version |
NID
|
1.69 |
0x34E6A06E
|
3.60 |
different NID or not present
|
sceIoWrite
Version |
NID
|
1.69 |
0x34EFD876
|
3.60 |
0x34EFD876
|
int sceIoWrite(SceUID fd, const void *data, SceSize size);
_sceIoGetThreadDefaultPriorityForSystem
Version |
NID
|
1.69 |
0x36CAF911
|
3.60 |
different NID or not present
|
_sceIoSetThreadDefaultPriorityForSystem
Version |
NID
|
1.69 |
0x38FE853B
|
3.60 |
different NID or not present
|
sceIoFlockForSystem
Version |
NID
|
1.69 |
0x3E98E422
|
3.60 |
0x3E98E422
|
_sceIoDevctlAsync
Version |
NID
|
1.69 |
0x3EE3F66E
|
3.60 |
0x3EE3F66E
|
sceIoDclose
Version |
NID
|
1.69 |
0x422A221A
|
3.60 |
0x422A221A
|
int sceIoDclose(SceUID fd);
_sceIoRename
Version |
NID
|
1.69 |
0x4912F748
|
3.60 |
0x4912F748
|
typedef struct sceIoRenameOpt
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
}sceIoRenameOpt;
int _sceIoRename(const char *oldname, const char *newname, sceIoRenameOpt *opt);
sceIoLseek32
Version |
NID
|
1.69 |
0x49252B9B
|
3.60 |
0x49252B9B
|
int sceIoLseek32(SceUID fd, int offset, int whence);
sceIoSetThreadDefaultPriority
Version |
NID
|
1.69 |
0x49312108
|
3.60 |
0x49312108
|
_sceIoDevctl
Version |
NID
|
1.69 |
0x515AC017
|
3.60 |
0x515AC017
|
typedef struct sceIoDevctlOpt
{
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
uint32_t unk_10;
uint32_t unk_14;
}sceIoDevctlOpt;
int _sceIoDevctl(const char *dev, unsigned int cmd, void *indata, sceIoDevctlOpt *args, int inlen, void *outdata, int outlen);
sceIoGetstatByFdAsync
Version |
NID
|
1.69 |
0x5167AC1E
|
3.60 |
0x5167AC1E
|
_sceIoPread
Version |
NID
|
1.69 |
0x539FD5C4
|
3.60 |
0x539FD5C4
|
typedef struct sceIoPreadOpt
{
SceOff offset;
uint32_t unk_8;
uint32_t unk_C;
}sceIoPreadOpt;
int _sceIoPread(SceUID uid, void *buffer, SceSize size, sceIoPreadOpt *opt);
_sceIoGetstatByFdAsync
Version |
NID
|
1.69 |
0x554292F0
|
3.60 |
different NID or not present
|
_sceIoChstatByFdAsync
Version |
NID
|
1.69 |
0x58010F40
|
3.60 |
different NID or not present
|
_sceIoGetThreadDefaultPriority
Version |
NID
|
1.69 |
0x5DC29460
|
3.60 |
different NID or not present
|
_sceIoSync
Version |
NID
|
1.69 |
0x5DD867F7
|
3.60 |
0x5DD867F7
|
typedef struct sceIoSyncOpt
{
uint32_t unk_0;
uint32_t unk_4;
}sceIoSyncOpt;
int _sceIoSync(const char* device, unsigned int unk, sceIoSyncOpt* opt);
_sceIoRemoveAsync
Version |
NID
|
1.69 |
0x5FFA47E2
|
3.60 |
0x5FFA47E2
|
_sceIoDreadAsync
Version |
NID
|
1.69 |
0x64B233B8
|
3.60 |
different NID or not present
|
_sceIoSetThreadDefaultPriority
Version |
NID
|
1.69 |
0x654E27B1
|
3.60 |
different NID or not present
|
_sceIoSyncByFdAsync
Version |
NID
|
1.69 |
0x6F78FAFE
|
3.60 |
different NID or not present
|
_sceIoGetPriorityForSystem
Version |
NID
|
1.69 |
0x70B7BB52
|
3.60 |
different NID or not present
|
sceIoReadAsync
Version |
NID
|
1.69 |
0x773EBD45
|
3.60 |
0x773EBD45
|
_sceIoRemove
Version |
NID
|
1.69 |
0x78955C65
|
3.60 |
0x78955C65
|
typedef struct sceIoRemoveOpt
{
uint32_t unk_0;
uint32_t unk_4;
}sceIoRemove;
int _sceIoRemove(const char *file, sceIoRemoveOpt* opt);
sceIoSyncByFdAsync
Version |
NID
|
1.69 |
0x7E1367CB
|
3.60 |
0x7E1367CB
|
sceIoSetProcessDefaultPriority
Version |
NID
|
1.69 |
0x7F2ABBAF
|
3.60 |
0x7F2ABBAF
|
_sceIoRenameAsync
Version |
NID
|
1.69 |
0x81794921
|
3.60 |
0x81794921
|
_sceIoSyncAsync
Version |
NID
|
1.69 |
0x86DB0C0E
|
3.60 |
0x86DB0C0E
|
_sceIoDread
Version |
NID
|
1.69 |
0x8713D662
|
3.60 |
0x8713D662
|
int _sceIoDread(SceUID fd, SceIoDirent *dir);
_sceIoWrite
Version |
NID
|
1.69 |
0x8C319CF0
|
3.60 |
different NID or not present
|
_sceIoGetstat
Version |
NID
|
1.69 |
0x8E7E11F2
|
3.60 |
0x8E7E11F2
|
struct sceIoGetstatOpt
{
uint32_t unk_0;
uint32_t unk_4;
};
int _sceIoGetstat(const char *file, SceIoStat *stat, sceIoGetstatOpt *opt);
sceIoCloseAsync
Version |
NID
|
1.69 |
0x8EA3616A
|
3.60 |
0x8EA3616A
|
_sceIoMkdir
Version |
NID
|
1.69 |
0x8F1ACC32
|
3.60 |
0x8F1ACC32
|
typedef struct sceIoMkdirOpt
{
uint32_t unk_0;
uint32_t unk_4;
}sceIoMkdirOpt;
int _sceIoMkdir(const char *dir, SceMode mode, sceIoMkdirOpt opt);
_sceIoCompleteMultiple
Version |
NID
|
1.69 |
0x9111D004
|
3.60 |
0x9111D004
|
_sceIoLseek32
Version |
NID
|
1.69 |
0x92BDA6DA
|
3.60 |
different NID or not present
|
_sceIoPwrite
Version |
NID
|
1.69 |
0x9654094B
|
3.60 |
0x9654094B
|
typedef struct sceIoPwriteOpt
{
SceOff offset;
uint32_t unk_8;
uint32_t unk_C;
}sceIoPwriteOpt;
int _sceIoPwrite(SceUID uid, const void *data, int size, sceIoPwriteOpt *opt);
_sceIoGetPriority
Version |
NID
|
1.69 |
0x9E3F880D
|
3.60 |
different NID or not present
|
sceIoGetThreadDefaultPriority
Version |
NID
|
1.69 |
0xA176CD03
|
3.60 |
0xA176CD03
|
_sceIoLseek
Version |
NID
|
1.69 |
0xA604764A
|
3.60 |
0xA604764A
|
typedef struct _sceIoLseekOpt //size is 0x10
{
SceOff offset;
int whence;
uint32_t unk;
}_sceIoLseekOpt;
SceOff _sceIoLseek(SceUID fd, _sceIoLseekOpt* opt);
sceIoChstatByFdAsync
Version |
NID
|
1.69 |
0xA9F89275
|
3.60 |
0xA9F89275
|
_sceIoGetProcessDefaultPriority
Version |
NID
|
1.69 |
0xB0486482
|
3.60 |
different NID or not present
|
_sceIoSetPriority
Version |
NID
|
1.69 |
0xB14192F0
|
3.60 |
different NID or not present
|
_sceIoReadAsync
Version |
NID
|
1.69 |
0xB2B891E6
|
3.60 |
different NID or not present
|
_sceIoPwriteAsync
Version |
NID
|
1.69 |
0xB2D0B2F4
|
3.60 |
0xB2D0B2F4
|
_sceIoChstatAsync
Version |
NID
|
1.69 |
0xB4B021D9
|
3.60 |
0xB4B021D9
|
sceIoSetThreadDefaultPriorityForSystem
Version |
NID
|
1.69 |
0xB9C9C9CF
|
3.60 |
0xB9C9C9CF
|
_sceIoPreadAsync
Version |
NID
|
1.69 |
0xBCF5684D
|
3.60 |
0xBCF5684D
|
sceIoDopenAsync
Version |
NID
|
1.69 |
0xC49C312F
|
3.60 |
0xC49C312F
|
sceIoClose
Version |
NID
|
1.69 |
0xC70B8886
|
3.60 |
0xC70B8886
|
int sceIoClose(SceUID fd);
_sceIoWriteAsync
Version |
NID
|
1.69 |
0xC92AF88F
|
3.60 |
different NID or not present
|
_sceIoOpen
Version |
NID
|
1.69 |
0xCC67B6FD
|
3.60 |
0xCC67B6FD
|
struct sceIoOpenOpt
{
uint32_t unk_0;
uint32_t unk_4;
};
SceUID _sceIoOpen(const char *file, int flags, SceMode mode, sceIoOpenOpt *opt);
sceIoCancel
Version |
NID
|
1.69 |
0xCEF48835
|
3.60 |
0xCEF48835
|
sceIoComplete
Version |
NID
|
1.69 |
0xD1C49D2F
|
3.60 |
0xD1C49D2F
|
_sceIoChstat
Version |
NID
|
1.69 |
0xD2EE455F
|
3.60 |
0xD2EE455F
|
struct sceIoChstatOpt
{
uint32_t unk_0;
uint32_t unk_4;
};
int _sceIoChstat(const char *file, SceIoStat *stat, int bits, sceIoChstatOpt *opt);
_sceIoSetProcessDefaultPriority
Version |
NID
|
1.69 |
0xD302DCB9
|
3.60 |
different NID or not present
|
_sceIoGetstatAsync
Version |
NID
|
1.69 |
0xD414C89F
|
3.60 |
0xD414C89F
|
sceIoDcloseAsync
Version |
NID
|
1.69 |
0xDC2D7D38
|
3.60 |
0xDC2D7D38
|
_sceIoIoctlAsync
Version |
NID
|
1.69 |
0xE00DC256
|
3.60 |
0xE00DC256
|
_sceIoChstatByFd
Version |
NID
|
1.69 |
0xE0BE2A30
|
3.60 |
0xE0BE2A30
|
int _sceIoChstatByFd(SceUID fd, SceIoStat *stat, int bits);
sceIoWriteAsync
Version |
NID
|
1.69 |
0xE0D63D2A
|
3.60 |
0xE0D63D2A
|
_sceIoGetstatByFd
Version |
NID
|
1.69 |
0xE6C53567
|
3.60 |
0xE6C53567
|
int _sceIoGetstatByFd(SceUID fd, SceIoStat *stat);
_sceIoSetPriorityForSystem
Version |
NID
|
1.69 |
0xE6C923B3
|
3.60 |
different NID or not present
|
_sceIoDopen
Version |
NID
|
1.69 |
0xE6E614B5
|
3.60 |
0xE6E614B5
|
struct sceIoDopenOpt
{
uint32_t unk_0;
uint32_t unk_4;
};
SceUID _sceIoDopen(const char *dirname, sceIoDopenOpt *opt);
sceIoGetPriorityForSystem
Version |
NID
|
1.69 |
0xEF5432ED
|
3.60 |
0xEF5432ED
|
sceIoGetPriority
Version |
NID
|
1.69 |
0xF2A472A1
|
3.60 |
0xF2A472A1
|
_sceIoRead
Version |
NID
|
1.69 |
0xF3C9E783
|
3.60 |
different NID or not present
|
_sceIoSyncByFd
Version |
NID
|
1.69 |
0xF437545D
|
3.60 |
different NID or not present
|
_sceIoCloseAsync
Version |
NID
|
1.69 |
0xF4E13260
|
3.60 |
different NID or not present
|
_sceIoDopenAsync
Version |
NID
|
1.69 |
0xF58286C3
|
3.60 |
different NID or not present
|
sceIoDreadAsync
Version |
NID
|
1.69 |
0xF59F37B0
|
3.60 |
0xF59F37B0
|
_sceIoMkdirAsync
Version |
NID
|
1.69 |
0xF5C58B21
|
3.60 |
0xF5C58B21
|
_sceIoCancel
Version |
NID
|
1.69 |
0xF5DEEA19
|
3.60 |
different NID or not present
|
_sceIoClose
Version |
NID
|
1.69 |
0xF69FB394
|
3.60 |
different NID or not present
|
_sceIoDclose
Version |
NID
|
1.69 |
0xFAFF0002
|
3.60 |
different NID or not present
|
sceIoGetThreadDefaultPriorityForSystem
Version |
NID
|
1.69 |
0xFCBCEAED
|
3.60 |
0xFCBCEAED
|
sceIoRead
Version |
NID
|
1.69 |
0xFDB32293
|
3.60 |
0xFDB32293
|
sceIoRead(SceUID fd, void *data, SceSize size);
_sceIoRmdir
Version |
NID
|
1.69 |
0xFFFB4D76
|
3.60 |
0xFFFB4D76
|
typedef struct sceIoRmdirOpt
{
uint32_t unk_0;
uint32_t unk_4;
}sceIoRmdirOpt;
int _sceIoRmdir(const char *path, sceIoRmdirOpt* opt);
Device Drivers