SceSysmem is a kernel module that acts as the heart of the kernel. It exports multiple libraries for various features. SceSysmem is the first module that is loaded in the kernel load sequence and its libraries are imported by almost all other modules. See Virtual Memory and Physical Memory for more details on the memory subsystem.
Module
This module exists in both non-secure and secure world. The non-secure world SELF can be found in os0:kd/sysmem.skprx
. It also can be found in the Boot Image.
Known NIDs
Version |
Name |
World |
Privilege |
NID
|
1.50 |
SceSysmem |
Non-secure |
Kernel |
0x78D8AA34
|
1.69 |
SceSysmem |
Non-secure |
Kernel |
0xB93950C6
|
3.57 |
SceSysmem |
Non-secure |
Kernel |
0x00CFDC77
|
3.60-3.61 |
SceSysmem |
Non-secure |
Kernel |
0x3380B323
|
1.69 |
SceSysmem |
Secure |
Kernel |
0x502BE0E5
|
1.80 |
SceSysmem |
Secure |
Kernel |
0x72425377
|
Libraries
Known NIDs
Types
typedef int threadmgr_core_ctx;
typedef struct tctx_holder {
int unk0;
int unk4;
int unk8;
int unkC;
int unk10;
int unk14;
int unk18;
int unk1C;
int unk20;
int unk24;
int unk28;
int unk2C;
int unk30;
threadmgr_core_ctx *tctx_34;
} tctx_holder;
typedef struct callback_holder1 {
int unk0;
int (*unk4)(void);
int (*unk8)(void);
int (*unkC)(void);
int unk10;
int unk14;
int unk18;
int unk1C;
int (*unk20)(void);
int unk24;
int unk28;
int unk2C;
int unk30;
int unk34;
int unk38;
int (*unk3C)(void);
} callback_holder1;
typedef struct callback_holder2 {
int size;
int (__cdecl *unk4)(int result, int *a2);
int (__cdecl *unk8)(SceUID *a1);
int (__cdecl *unkC)(int, int *);
int (__cdecl *sceKernelSysrootGetProcessSelfAuthInfoForKernel)(SceUID pid, SceSelfAuthInfo* self_auth_info);
int (__cdecl *sceKernelSysrootGetProcessTitleIdForKernel)(SceUID pid, char *title_id, SceSize len);
int (__cdecl *unk18)(unsigned int a1);
int (__cdecl *unk1c)(int a1);
} callback_holder2;
typedef struct callback_holder3 {
int unk0;
int (*unk4)(void);
int (*unk8)(void);
int (__fastcall *unkC)(int);
int (__fastcall *unk10)(int);
int (*unk14)(void);
} callback_holder3;
typedef struct sysbase_t {
tctx_holder *hldr[6];
char unk[84];
char *sysroot_buffer;
int unk70;
char unk74[616];
char unk2dc[52];
int unk310;
int unk314;
int unk318;
int unk31C;
int unk320;
int unk324;
int unk328;
int unk32C;
int unk330;
int unk334;
int unk338;
int unk33C;
int unk340;
int (__cdecl *GetThreadAccessLevel)();
int unk348;
int (*unk34C_some_callback1)(void);
callback_holder3 *unk350;
int unk354;
callback_holder1 *unk358;
callback_holder2 *unk35C;
int (*unk360)(void);
int (*unk364)(void);
int (__fastcall *unk368)(int, int, int);
char unk36C[20];
int (__cdecl *sceSblLicMgrGetLicenseStatusForDriver)();
int (__cdecl *SceSblPostSsMgrForDriver_22599675)();
int (__cdecl *SceSblPostSsMgrForDriver_9b49c249)();
int (__cdecl *SceSblPostSsMgrForDriver_d8a2d465)(unsigned long long);
int (__cdecl *SceSblPostSsMgrForDriver_abdd68cd)(void *);
int (__cdecl *sceSblUtMgrHasNpTestFlagForDriver)();
int (*SceSblUpdateMgr_smth)(void);
int (*ScePower_smth)(void);
} sysbase_t;
typedef struct sysbase360_t {
int unk_0x00; // 0
void *unk_0x04;
SceSize sysbase_size; // 3.60:0x41C
uint32_t sysbase_magic1;
int unk_0x10; // 0
int unk_0x14; // 0x400
void *unk_0x18;
int unk_0x1C; // 0x4
void *unk_0x20;
int unk_0x24; // 0
int unk_0x28; // 0x10
int unk_0x2C; // 0x1
int unk_0x30; // 0x40004
int unk_0x34; // 0
int unk_0x38; // 0
void *unk_0x3C;
void *unk_0x40;
void *unk_0x44; // SceExcpmgr data vaddr?
void *unk_0x48; // SceKernelIntrMgr data vaddr?
void *unk_0x4C;
void *unk_0x50;
int unk_0x54; // 0
void *unk_0x58;
int unk_0x5C; // 0
int unk_0x60; // 0
int unk_0x64; // 0
int unk_0x68; // 0
SceBootArgs *KblParam; // old name is sysroot buff
int unk_0x70; // 0x51030100, paddr?
int unk_0x74; // 0x80000115
int unk_0x78; // 0
int unk_0x7C; // 0x115
int unk_0x80; // 0x10200
int unk_0x84; // 0x704
int unk_0x88; // 0x2800D000
int unk_0x8C; // 0
int unk_0x90; // 0x5
int unk_0x94; // 0
int unk_0x98; // 0
int unk_0x9C; // 0
int unk_0xA0[0x18]; // 0
int unk_0x100[0x34]; // 0
int unk_0x1D0; // 0
int unk_0x1D4; // func ptr?, paddr:0x51003581
int unk_0x1D8; // 0
int (* sceKernelSysrootMountDummyTtypDevFs)(void); // SceIofilemgr + 0x1
int unk_0x1E0[0x8]; // 0
int unk_0x200[0x14]; // 0
int unk_0x250; // 0
int (* sceKernelSysrootPowerTriggerFlag0x10000)(int a1); // Temp name, ScePower + 0x21F5
int unk_0x258; // 0
int unk_0x25C; // 0
int unk_0x260[0xC]; // 0
int unk_0x290; // 0
int (* sceKernelSysrootDisplayRev1)(); // SceDisplay + 0x1
int unk_0x298; // 0
int (* sceKernelSysrootMsifStart)(void); // SceMsif + 0x3811
int unk_0x2A0; // 0
int (* sceKernelSysrootPowerRev1)(); // Temp name, ScePower + 0x7BCD
int unk_0x2A8; // 0
int (* sceKernelSysrootPowerTriggerFlag0x10000_2)(void); // Temp name, ScePower + 0x218D
int unk_0x2B0; // 0
int (* sceKernelSysrootPowerEnableSubIntr)(void); // Temp name, ScePower + 0x5B51
int unk_0x2B8; // 0
int unk_0x2BC; // 0
int unk_0x2C0[0x4]; // 0
int unk_0x2D0; // 0
int (* sceKernelSysrootThreadFunction1)(void); // Temp name, SceKernelThreadMgr + 0x4D85
int (* sceKernelSysrootIofilemgrStart)(void); // SceIofilemgr + 0x3E5
void *unk_0x2DC;
void *unk_0x2E0;
void *unk_0x2E4;
void *unk_0x2E8;
void *unk_0x2EC;
void *unk_0x2F0;
void *unk_0x2F4;
void *unk_0x2F8;
void *unk_0x2FC;
void *unk_0x300;
void *unk_0x304;
int unk_0x308; // 0x10001
void *unk_0x30C;
void *unk_0x310;
void *unk_0x314;
void *unk_0x318;
int unk_0x31C; // 0
void *unk_0x320;
void *unk_0x324;
SceUID (* sceKernelSysrootGetThreadId)(void); // Temp name, SceKernelThreadMgr + 0x895
int (* sceKernelSysrootGetThreadFunction3)(void); // Temp name, SceKernelThreadMgr + 0xC79, SceThreadmgrForDriver_91382762
SceUID (* sceKernelSysrootGetProcessId)(void); // Temp name, SceKernelThreadMgr + 0x8A9
int (* sceKernelSysrootGetThreadFunction4)(void); // Temp name, SceKernelThreadMgr + 0x8D1
int (* sceKernelSysrootGetThreadFunction5)(void); // Temp name, SceKernelThreadMgr + 0x8ED
int (* sceKernelSysrootGetThreadFunction6)(void); // Temp name, SceKernelThreadMgr + 0x90D
void (* sceKernelSysrootGetThreadFunction7); // Temp name, SceKernelThreadMgr + 0xE69
int (* sceKernelSysrootGetThreadFunction8)(void); // Temp name, SceKernelThreadMgr + 0x8BD, SceThreadmgrForDriver_332E127C
int (* sceKernelSysrootThreadFunction9)(int a1, int a2, int a3); // Temp name, SceKernelThreadMgr + 0x2541
int (* sceKernelSysrootThreadFunction10)(int a1); // Temp name, SceKernelThreadMgr + 0xC99, SceThreadmgrForDriver_AB977C72
void *unk_0x350;
int unk_0x354; // 0xFFFFFFFF
void *unk_0x358;
void *unk_0x35C;
int unk_0x360;
int (* sceKernelSysrootGetBusError)(void *dst, uint32_t len); // SceKernelBusError + 0x23, SceBusErrorForKernel_EBB1F135
int (* sceKernelSysrootAppMgrFunction1)(int a1, int a2, int a3, int a4, int a5, int a6); // SceAppMgr + 0x2795, SceAppMgrForDriver_324DD34E
SceUID (* sceKernelSysrootGetShellPid)(void); // SceAppMgr + 0x101F9, SceAppMgrForDriver_2FEACA9F
void *unk_func_0x370; // SceCoredump + 0x7109, SceCoredumpForDriver_A7D214A7
void *unk_func_0x374; // SceCoredump + 0x74F9, SceCoredumpForDriver_340856F7
void *unk_func_0x378; // SceCoredump + 0x132ED, SceCoredumpForDriver_EF20949F
int unk_0x37C; // 0
void *unk_func_0x380; // SceSblPostSsMgr + 0x9001, sceSblLicMgrGetLicenseStatusForDriver
int (* unk_func_0x384)(void); // SceSblPostSsMgr + 0xB005, SceSblPostSsMgrForDriver_22599675, get flag
int (* unk_func_0x388)(void); // SceSblPostSsMgr + 0xB011, SceSblPostSsMgrForDriver_9B49C249, get flag
void *unk_func_0x38C; // SceSblPostSsMgr + 0xB4ED, SceSblPostSsMgrForDriver_D8A2D465
void *unk_func_0x390; // SceSblPostSsMgr + 0xB111, sceSblUtMgrGetTrilithiumBufferForDriver
int (* sceKernelSysrootHasNpTestFlag)(void); // SceSblPostSsMgr + 0xB01D
void *unk_func_0x398; // SceSblUpdateMgr + 0x8B01
int (* sceKernelSysrootLedSetMode)(int led, int mode, void *led_configuration); // ScePower + 0x7C05
void *unk_0x3A0;
int unk_0x3A4; // 0
int unk_0x3A8; // 0
int unk_0x3AC; // 0
int unk_0x3B0[0x4]; // 0
int unk_0x3C0; // 0
int unk_0x3C4; // 0
int unk_0x3C8; // 0
void *unk_func_0x3CC; // SceNetPs + 0x3E51, SceNetPsForDriver_83A12CCC
void *unk_func_0x3D0; // SceNetPs + 0x3F4D, SceNetPsForDriver_C000CA8F
int unk_0x3D4; // 0
int unk_0x3D8; // 0
void *unk_func_0x3DC; // SceNetPs + 0x3E51, SceNetPsForDriver_83A12CCC
void *unk_func_0x3E0; // SceNetPs + 0x3F4D, SceNetPsForDriver_C000CA8F
int (* sceKernelSysrootAppMgrFunction3)(int a1, int a2); // SceAppMgr + 0x9F49
int (* sceKernelSysrootAppMgrFunction4)(int a1, int a2); // SceAppMgr + 0x9EED
int (* sceKernelSysrootAppMgrFunction5)(int a1); // SceAppMgr + 0x9D31
void *unk_func_0x3F0; // ScePfsMgr + 0x1, ScePfsMgrForKernel_4C148288
void *unk_0x3F4;
void *unk_0x3F8;
int unk_0x3FC; // 0
int unk_0x400[0x6]; // 0
uint32_t sysbase_magic2;
} sysbase360_t;
typedef struct SceKernelFreeMemorySizeInfo {
SceSize size;
SceSize sizeMain;
SceSize sizeCdram;
SceSize sizePhycont;
} SceKernelFreeMemorySizeInfo;
typedef int (*SceClassCallback)(void *item);
typedef struct SceClass_0990 { // size is 0x10 on FW 0.990
SceSize size; // Size of this structure
struct SceClass *next;
struct SceClass *root; // to confirm
struct SceClass *prev; // to confirm
} SceClass_0990;
typedef struct SceClass { // size is 0x2C on FW 3.60
struct SceClass *next; // 0x00
struct SceClass *root; // 0x04
struct SceClass *prev; // 0x08
const char *name; // 0x0C
struct SceClass *uid_class; // 0x10
unsigned int attr; // 0x14
unsigned short item_size; // 0x18
unsigned short unk_1A; // 0x1A
SceClassCallback constructor; // 0x1C
SceClassCallback destructor; // 0x20
const unsigned int magic; // 0x24 - 0xABCE9DA5
SceClassCallback allocMethod; // 0x28
} SceClass;
typedef struct SceKernelObject { // size is at least 0x24
void *pObject; // 0x0
SceClass pClass; // 0x4
uint32_t type; // 0x8
uint16_t lcount; // 0xC
uint16_t ucount; // 0xE
uint16_t ccount; // 0x10
uint32_t unk_12; // 0x12 - 0x54c3
uint16_t unk_16; // 0x16
uint32_t uid; // 0x18
char unk_1C[4]; // 0x1C
const char *name; // 0x20
uint32_t indexRaw; // 0x24
} SceKernelObject;
/** @name Memory types that can be specified with sceKernelAllocMemBlock
*/
/*@{*/
/**
* @brief User readable / writable LPDDR2 memory
*
* This type secures a readable / writable memory block in user space.
*/
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_RW 0x0c20d060U
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_RWDATA SCE_KERNEL_MEMBLOCK_TYPE_USER_RW
/**
* @brief User readable / writable LPDDR2 non-cache memory
*
* A type to secure a memory block on LPDDR2 that is readable
* and writable in user space and does not use cache.
*/
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_NC_RW 0x0c208060U
/**
* @brief An alias for SCE_KERNEL_MEMBLOCK_TYPE_USER_NC_RW.
*/
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_RW_UNCACHE SCE_KERNEL_MEMBLOCK_TYPE_USER_NC_RW
/**
* @brief An alias for SCE_KERNEL_MEMBLOCK_TYPE_USER_NC_RW.
*/
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_RWDATA_UNCACHE SCE_KERNEL_MEMBLOCK_TYPE_USER_RW_UNCACHE
/**
* @brief User readable and writable LPDDR2 physical continuous memory
*
* A type that can read and write in user space and secure
* memory blocks from the physical continuous memory area.
*/
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_RW 0x0c80d060U
/**
* @brief User-readable and non-cacheable physical continuous memory
*
* A type for on-cacheable read / write in user space and to secure
* memory blocks from the physical continuous memory area.
*/
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_NC_RW 0x0d808060U
/**
* @brief User-readable and non-cacheable CDRAM memory
*
* A type that can be read and written in user space and secures
* memory blocks on CDRAM.
*/
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RW 0x09408060U
/**
* @brief An alias for SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RW.
*/
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RWDATA SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RW
/*@}*/
/**
* @brief A type representing a memory type
*
* A type that represents the type of memory block secured by sceKernelAllocMemBlock.
*/
typedef int SceKernelMemoryType;
/**
* @brief Memory block information structure
*
* A structure for obtaining information about memory blocks. Size is 0x14 bytes on FW 0.990.
*/
typedef struct SceKernelMemBlockInfo0990 {
SceSize size; /**< Size of the structure itself */
void *mappedBase; /**< Map base address */
SceSize mappedSize; /**< Mapped size */
SceKernelMemoryType memoryType; /**< Memory type */
SceUInt32 access; /**< Access right */
} SceKernelMemBlockInfo0990;
/**
* @brief Memory block information structure
*
* A structure for obtaining information about memory blocks. Size is 0x18 bytes on FWs 0.996+.
*/
typedef struct SceKernelMemBlockInfo {
SceSize size; /**< Size of the structure itself */
void *mappedBase; /**< Map base address */
SceSize mappedSize; /**< Mapped size */
SceKernelMemoryType memoryType; /**< Memory type */
SceUInt32 access; /**< Access right */
SceKernelMemBlockType type; /**< Memory block type */
} SceKernelMemBlockInfo;
typedef struct SceKernelMemBlockInfoExDetails {
SceKernelMemBlockType type;
SceUID memblk_uid;
const char *name;
void *mappedBase;
SceSize mappedSize;
SceSize memblock_some_size_or_alignment;
int extraLow;
int extraHigh;
int unk20;
SceUID unk24; // ex: 0x10045, maybe some pid
SceKernelObject *SceUIDPhyMemPartClass_obj;
} SceKernelMemBlockInfoExDetails;
typedef struct SceKernelMemBlockInfoEx { // size is 0xAC on FW 0.990, 0xB8 on FW 3.60
SceSize size; // Size of this structure
SceKernelMemBlockInfoExDetails details;
SceSize unk30; // paddr num
SceSize unk34; // paddr size num?
void *paddr_list[0x10];
SceSize size_list[0x10];
} SceKernelMemBlockInfoEx;
typedef struct SceKernelMemBlockInfoSimple { // size is 0x24 on FW 0.990
SceSize size; // Size of this structure
SceKernelMemBlockType type;
SceUID uid;
char *name; // "SceNULL" by default
char unk_0x10[0x14];
} SceKernelMemBlockInfoSimple;
/*----- memory access permission -----*/
/**
* @brief readable memory
*/
#define SCE_KERNEL_MEMORY_ACCESS_R 0x04U
/**
* @brief writable memory
*/
#define SCE_KERNEL_MEMORY_ACCESS_W 0x02U
/**
* @brief executable memory (kernel only)
*/
#define SCE_KERNEL_MEMORY_ACCESS_X 0x01U
/*----- memory type -----*/
/**
* @brief uncache normal memory
*/
#define SCE_KERNEL_MEMORY_TYPE_NORMAL_NC 0x80
/**
* @brief cache normal memory
*/
#define SCE_KERNEL_MEMORY_TYPE_NORMAL 0xD0
/**
* Optional parameter of sceKernelAllocMemBlock for FWs <=0.940.
*/
typedef struct SceKernelAllocMemBlockOpt0940 {
SceSize size; /**< Size of this structure */
SceUInt32 attr; /**< Attributes field */
SceSize alignment; /**< Specify alignment.
SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_ALIGNMENT must be set for the attr member. */
SceUID uidBaseBlock; /**< Base memory block UID */
const char *strBaseBlockName; /**< Base memory block UID name */
} SceKernelAllocMemBlockOpt0940;
/**
* Option parameter of sceKernelAllocMemBlock
*/
typedef struct SceKernelAllocMemBlockOpt {
/**
* Size of this structure
*/
SceSize size;
/**
* Attributes field
*/
SceUInt32 attr;
/**
* Specify alignment.
* SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_ALIGNMENT must be set for the attr member.
*/
SceSize alignment;
/**
* reserved
*/
SceUInt32 uidBaseBlock;
/**
* reserved2
*/
const char *strBaseBlockName;
#if 0
/**
* mapped base address [out]
*/
void *mappedBase;
/**
* mapped size [out]
*/
SceSize mappedSize;
/**
* memory type [out]
*/
SceKernelMemoryType memoryType;
SceUInt32 access;
#endif
} SceKernelAllocMemBlockOpt;
/**
* Option parameter of kernel sceKernelAllocMemBlock on old FWs (as seen on FWs 0.900-0.990)
*/
typedef struct SceKernelAllocMemBlockOptKernel_old { // size is 0x28 on 0.900, 0x2C on 0.910, 0x30 on 0.931-0.990, 0x34 on ?.??
SceSize size; // Size of this structure
SceUInt32 unk_4;
SceUInt32 attr;
void *vbase;
void *pbase; // Physical address to use as base
SceSize alignment;
SceUInt32 extraLow;
SceUInt32 extraHigh;
void *base;
SceUID pid;
SceKernelPAVector *pPAV;
SceSize vsize;
SceUInt32 unk_30;
} SceKernelAllocMemBlockOptKernel_old;
/**
* Option parameter of kernel sceKernelAllocMemBlock on recent FWs (as seen on FW 3.60)
*/
typedef struct SceKernelAllocMemBlockOptKernel { // size is 0x58 on FW 3.60
SceSize size; // Size of this structure
SceUInt32 unk_4;
SceUInt32 attr;
void *vbase;
void *pbase; // Physical address to use as base
SceSize alignment;
SceUInt32 extraLow;
SceUInt32 extraHigh;
void *base;
SceUID pid;
SceKernelPAVector *pPAV;
SceSize vsize;
SceUInt32 unk_30;
SceUInt32 unk_34;
SceUInt32 unk_38;
SceUInt32 unk_3C;
SceUInt32 unk_40;
SceUInt32 unk_44;
SceUInt32 unk_48;
SceUInt32 unk_4C;
SceUInt32 unk_50;
SceUInt32 unk_54;
} SceKernelAllocMemBlockOptKernel;
/**
* Attributes to enable some SceKernelAllocMemBlockOpt members.
*/
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_VBASE 0x00000001
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_PBASE 0x00000002
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_ALIGNMENT 0x00000004
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_EXTRA_LOW 0x00000008
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_EXTRA_HIGH 0x00000010
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_BASE 0x00000040
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_PID 0x00000080
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_BASENAME 0x00000200 // Need to find where basename is located in the structure
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_PPAV 0x00001000
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_SIZE 0x00002000
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_FIELD_30 0x00010000
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_NOPHYPAGE 0x00020000
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_PHYCONT 0x00200000 // Memory area is physically continuous.
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_UNK 0x00400000
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_SHARE_VBASE 0x00800000
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_SHARE_PHYPAGE 0x01000000
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_ALLOW_PARTIAL_OP 0x04000000 // Allow partial operation. ?What does that mean?
/**
* UID is created by sceKernelOpen***()
*/
#define SCE_UID_ATTR_OPEN_FLAG 0x00080000U
typedef struct SceKernelHeapInfo { // size is 0xCC on FW 0.990
SceSize size; // Size of this structure
char unk_4[0xC8];
} SceKernelHeapInfo;
typedef struct SceKernelHeapObject { // size is 0x40 on FW 0.990
SceSize size; // Size of this structure
uint32_t unk_4; // 0x4
uint32_t unk_8; // 0x8
uint32_t unk_C; // 0xC
uint32_t unk_10; // 0x10
uint32_t unk_14; // 0x14
uint32_t unk_18; // 0x18
uint32_t unk_1C; // 0x1C
uint32_t unk_20; // 0x20
uint32_t unk_24; // 0x24
uint32_t unk_28; // 0x28
uint32_t unk_2C; // 0x2C
uint32_t unk_30; // 0x30
uint32_t magic; // 0x34 - 0xD2BBDEC3
uint32_t unk_38; // 0x38
uint32_t unk_3C; // 0x3C
uint32_t unk_40; // 0x40
} SceKernelHeapObject;
typedef struct SceKernelFixedHeap { // size is 0x40 on FW 0.990
SceSize size; // Size of this structure
SceClass pClass; // 0x4
uint32_t unk_8; // 0x8
uint32_t unk_C; // 0xC
uint32_t unk_10; // 0x10
uint32_t unk_14; // 0x14
uint32_t pageSize; // 0x18 - min 0x1000 on FW 0.990
uint16_t itemSize; // 0x1C
uint16_t unk_1E; // 0x1E
uint32_t unk_20; // 0x20
uint32_t unk_24; // 0x24
uint32_t magic; // 0x28 - 0xFD9B28A6
uint16_t sizeInWords; // 0x2C
uint16_t index; // 0x2E
SceKernelHeapObject *heapObject; // 0x30
uint32_t unk_34; // 0x34
uint32_t unk_38; // 0x38
uint16_t unk_3C; // 0x3C
} SceKernelFixedHeap;
typedef struct SceKernelFixedHeapInfo { // size is 0x14 on FW 0.990
SceSize size; // Size of this structure
uint32_t unk_4; // = (uint32_t)*(uint16_t *)(pObject + 0x1C)
uint32_t unk_8; // = *(uint32_t *)(pObject + 0x18) + (uint32_t)*(uint16_t *)(pObject + 0x2E)
uint32_t unk_C; // = (uint32_t)*(uint16_t *)(pObject + 0x1E)
uint32_t unk_10; // = (uint32_t)*(uint16_t *)(pObject + 0x20)
} SceKernelFixedHeapInfo;
typedef struct SceKernelHeapMemoryOpt { // size is 0x14 on FW 0.990
SceSize size; // Size of this structure
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C; // example: 0x20
uint32_t unk_10;
} SceKernelHeapMemoryOpt;
typedef struct SceAddressSpace { // size is at least 0xEC
char unk[0x14];
SceKernelMMUContext *context;
char unk[0xC4];
void *funcAlloc;
char unk2[0x8];
uint32_t magic; // always 0x4d95AEEC
} SceAddressSpace;
typedef struct SceKernelAddressSpace { // size is 0x10 bytes on FW 0.940-3.60
SceSize size; // Size of this structure
int flag;
void *data_0x08; // info dst buff ptr, need AddrSpace.flag = 2;
void *data_0x0C; // info dst buff ptr, need AddrSpace.flag |= 4;
} SceKernelAddressSpace;
typedef struct SceKernelVARange {
uint32_t vaddr;
uint32_t length;
} SceKernelVARange;
typedef struct SceKernelPARange {
uint32_t paddr;
uint32_t length;
} SceKernelPARange;
typedef struct SceKernelPAVector {
SceSize size; // Size of this structure (0x14 on 0.990)
uint32_t pRanges_size; // Ex: 8
uint32_t nDataInVector; // Must be <= 8
uint32_t count;
SceKernelPARange *pRanges;
} SceKernelPAVector;
#define SCE_KERNEL_PROCESS_ID_SELF 0 // Current running process ID is always 0.
typedef struct SceKernelPhyMemPart { // size is at least 0x9C on FW 0.931
uint32_t field_0x0;
uint32_t field_0x4;
uint32_t some_counter; // always positive
uint32_t field_0xc;
char *name;
int type; // 0x10000 for Lpddr2Main, 0x30000 for Cdram
int mutex;
uint32_t field_0x1c;
SceSize psize;
int field_0x24;
int pRoot;
uint32_t field_0x2c;
uint32_t field_0x30;
uint32_t field_0x34;
uint32_t field_0x38;
int status;
int pindex40; //1
int field_0x44;
int pindex48; //2
int field_0x4c;
int pindex50; //3
int field_0x54;
int pindex58; //4
int field_0x5c;
int pindex60; //5
int field_0x64;
int pindex68; //6
int field_0x6c;
int pindex70; //7
int field_0x74;
int pindex78; //8
int field_0x7c;
int pindex80; //9
SceSize psize2;
int min;
int pindex8C; //10
int field_0x90;
int nClient;
SceSize freeSize;
} SceKernelPhyMemPart;
/**
* An enumeration to represent the various logging levels which can be output by sceDbgLoggingHandler().
*/
typedef enum SceDbgLogLevel {
SCE_DBG_LOG_LEVEL_TRACE = 0, /* An extremely verbose logging level, mostly useful for internal developers. */
SCE_DBG_LOG_LEVEL_DEBUG, /* A diagnostic logging level. */
SCE_DBG_LOG_LEVEL_INFO, /* An informational logging level. */
SCE_DBG_LOG_LEVEL_WARNING, /* A logging level that gives warnings of situations detrimental to proper execution. */
SCE_DBG_LOG_LEVEL_ERROR, /* A logging level that will report erroneous conditions in execution. */
SCE_DBG_NUM_LOG_LEVELS /* The number of logging levels available. */
} SceDbgLogLevel;
typedef struct SceSyscallInfo { // size is 0x3C on FW 3.60
SceSize size; // Size of this structure
SceUInt32 moduleFingerprint;
SceUInt32 maybeModuleAttr;
char moduleName[0x20];
char *libName;
SceUInt32 maybeLibAttr;
SceUInt32 libVer;
SceUInt32 libNid;
} SceSyscallInfo;
typedef struct SceSyscallFrame { // size is at least 0x5C on FW 3.60
SceUInt32 r0; // 0x00
SceUInt32 r1; // 0x04
SceUInt32 r2; // 0x08
SceUInt32 r3; // 0x0C
SceUInt32 r4; // 0x10
SceUInt32 r5; // 0x14
SceUInt32 r6; // 0x18
SceUInt32 r7; // 0x1C
SceUInt32 r8; // 0x20
SceUInt32 r9; // 0x24
SceUInt32 r10; // 0x28
SceUInt32 r11; // 0x2C
SceUInt32 r12; // 0x30
SceUInt32 unk_34; // 0x34
void *entry; // 0x38
SceUInt32 unk_3C; // 0x3C
SceUInt32 resultType; // 0x40, 0-3
int unk_44[3]; // 0x44
SceUInt32 SP; // 0x50
SceUInt32 LR; // 0x54
SceUInt32 PC; // 0x58
} SceSyscallFrame;
GetPhyMemPartIndex
uint GetPhyMemPartIndex(uint param_1) {
uint cpuId;
if (param_1 == 0xea0d050) goto LAB_81009494;
if (param_1 < 0xea0d051) {
if (param_1 == 0x620d004) {
return 6;
}
if (param_1 < 0x620d005) {
if (param_1 != 0x3b0d060) {
if (param_1 < 0x3b0d061) {
if (param_1 != 0x3a0d060) {
if (param_1 < 0x3a0d061) {
if (param_1 == 0x3a0d040) goto LAB_81009494;
if (param_1 == 0x3a0d050) {
return 10;
}
}
else {
if (param_1 == 0x3b0d040) goto LAB_81009494;
if (param_1 == 0x3b0d050) {
return 0xb;
}
}
goto LAB_81009402;
}
}
else {
if (param_1 != 0x3f0d060) {
if (param_1 < 0x3f0d061) {
if ((param_1 == 0x3f0d040) || (param_1 == 0x3f0d050)) goto LAB_81009494;
}
else {
if (param_1 == 0x6208004) {
return 6;
}
if (param_1 == 0x6208006) {
return 6;
}
}
goto LAB_81009402;
}
}
}
LAB_81009494:
return (param_1 << 8) >> 0x1c;
}
if (param_1 == 0xc208060) {
return 0xb;
}
if (param_1 < 0xc208061) {
if (param_1 == 0x9408060) {
return 0xc;
}
if (param_1 < 0x9408061) {
if (param_1 == 0x620d006) {
return 6;
}
if (param_1 == 0x9404060) {
return 0xc;
}
}
else {
if (param_1 == 0xb100860) {
return 1;
}
if (param_1 == 0xc200860) {
return 0xb;
}
}
}
else {
if (param_1 == 0xea08040) goto LAB_81009494;
if (param_1 < 0xea08041) {
if (param_1 == 0xc20d050) {
return 0xb;
}
if (param_1 == 0xc20d060) {
return 0xb;
}
}
else {
if (param_1 == 0xea08060) goto LAB_81009494;
if (param_1 == 0xea0d040) {
return 10;
}
}
}
}
else {
if (param_1 == 0x20108004) {
return 1;
}
if (param_1 < 0x20108005) {
if (param_1 == 0x1020d006) {
return 6;
}
if (param_1 < 0x1020d007) {
if (param_1 == 0x10208004) {
return 6;
}
if (param_1 < 0x10208005) {
if (param_1 == 0xea0d060) goto LAB_81009494;
if (param_1 == 0x10200806) {
return 6;
}
}
else {
if (param_1 == 0x10208006) {
return 6;
}
if (param_1 == 0x1020d004) {
return 6;
}
}
}
else {
if (param_1 == 0x20100206) {
return 1;
}
if (param_1 < 0x20100207) {
if (param_1 == 0x1050d006) {
return 5;
}
if (param_1 == 0x20100204) {
return 1;
}
}
else {
if (param_1 == 0x20100804) {
return 1;
}
if (param_1 == 0x20100806) {
return 1;
}
}
}
}
else {
if (param_1 == 0x60208006) {
return 6;
}
if (param_1 < 0x60208007) {
if (param_1 == 0x40404006) {
return 0xc;
}
if (param_1 < 0x40404007) {
if (param_1 == 0x20108006) {
return 1;
}
if (param_1 == 0x2010d006) {
return 1;
}
}
else {
if (param_1 == 0x40408006) {
return 0xc;
}
if (param_1 == 0x60208004) {
return 6;
}
}
}
else {
if (param_1 == 0x6050d006) goto LAB_81009494;
if (param_1 < 0x6050d007) {
if (param_1 == 0x6020d004) {
return 6;
}
if (param_1 == 0x6020d006) {
return 6;
}
}
else {
if (0x70f0d003 < param_1) {
if (param_1 < 0x70f0d007) goto LAB_81009494;
if (param_1 == 0xa0408006) {
return 0xc;
}
}
}
}
}
}
LAB_81009402:
cpuId = ksceKernelCpuGetCpuId();
SceDebugForDriver_1A3F2AA4
(1,
"%d:address_space.c:%s:Warning:Using SCE_KERNEL_PHYMEMPART_LPDDR2MAIN_KERNEL_INDEX for0x%08x\n"
,cpuId,"GetPhyMemPartIndex",param_1);
return 6;
}
Memory Block Type
The type
parameter indicates what kind of memory to allocate. Here is a mapping of type
flags to ARM MMU flags. Higher bits are used for other options including where to allocate from. Not all flag values are valid, there is a table of valid types in the kernel. You cannot, for example, allocate RWX memory.
Mask |
Value |
Description
|
0x10000 |
0x10000 |
Global. nG bit NOT set
|
0xFF00 |
0x800 |
B bit set. Sharable device memory.
|
0xFF00 |
0x2000 |
TEX[2] and TEX[0] bit set. Outer cache Write-back, Write-Allocate. Inner cache non-cachable.
|
0xFF00 |
0x4000 |
TEX[2] and B bit set. Outer cache non-cachable. Inner cache Write-back, Write-Allocate
|
0xFF00 |
0x8000 |
TEX[0] bit set. S bit unset. Outer and inner non-cachable. Not sharable.
|
0xFF00 |
0xD000 |
TEX[0] bit set. C,B bits set. Outer and inner Write-back, Write-Allocate.
|
0xFF |
0x4 |
AP[2:0] = 5 , XN=1 . Privileged RO, User NA.
|
0xFF |
0x5 |
AP[2:0] = 5 . Privileged RX, User NA.
|
0xFF |
0x6 |
AP[2:0] = 1 , XN=1 . Privileged RW, User NA.
|
0xFF |
0x7 |
AP[2:0] = 1 . Privileged RWX, User NA. (Never used, 3.60 0x80024B01)
|
0xFF |
0x50 |
AP[2:0] = 7 . Privileged RX, User RX.
|
0xFF |
0x60 |
AP[2:0] = 3 , XN=1 . Privileged RW, User RW.
|
0xFF |
0x40 |
AP[2:0] = 7 , XN=1 . Privileged RO, User RO.
|
Mask |
Value |
Name
|
0x0F000000 |
0x09000000 |
SceKernelUserCdram
|
0x0F000000 |
0x0A000000 |
SceKernelUserShared
|
0x0F000000 |
0x0B000000 |
SceKernelUserIO
|
0x0F000000 |
0x0C000000 |
SceKernelUserMain
|
0x0F000000 |
0x0D000000 |
SceKernelUserUncache
|
0x0F000000 |
0x0E000000 |
SceKernelUserCDialog
|
0x0F000000 |
0x0F000000 |
SceKernelUserCDialogNC
|
type bits
mask
0x0000000F : only kernel
0x000000F0 : only user
RWXO bit
0 1 1 0
? R W X
RO type when both w bit and x bit are 0
memory device type(?)
mask : 0x00000F00
0x00000200 : SO
0x00000800 : DEVICE
memory cache type
mask : 0x0000F000
0x00002000 : No internal cache only
0x00004000 : No external cache only
0x00008000 : NORMAL_NC (uncache)
0x0000D000 : NORMAL (cache)
memory access type?
mask : 0x00F00000
0x00100000 : IO
0x00200000 : normal?
0x00400000 : CDRAM
0x00500000 : GAME
0x00800000 : PHYCONT
0x00A00000 : UNKNOWN
0x00F00000 : UNKNOWN
memory access type?
mask : 0x0F000000
0x05000000 : CDRAM2
0x06000000 : KTMP
0x09000000 : CDRAM
0x0C000000 : normal?
0x0D000000 : MAIN PHYCONT
0x0E000000 : CDIALOG
memory access type2? (only kernel)
mask : 0xF0000000
0x00000000 : USER
0x10000000 : normal?
0x20000000 : IO
0x40000000 : CDRAM
0x50000000 : CDRAM2
0x60000000 : TMP
0xA0000000 : GPU
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM2_RW 0x05408060
SCE_KERNEL_MEMBLOCK_TYPE_USER_KTMP***** 0x0620D006
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RW_UNCACHE_EXTERNAL 0x09404060
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RO_UNCACHE 0x09408040
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RW_UNCACHE 0x09408060
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RW 0x09408060
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RWDATA 0x09408060
SCE_KERNEL_MEMBLOCK_TYPE_USER_DEVICE_RW 0x0C200860
SCE_KERNEL_MEMBLOCK_TYPE_USER_NC_RW 0x0C208060
SCE_KERNEL_MEMBLOCK_TYPE_USER_RW_UNCACHE 0x0C208060
SCE_KERNEL_MEMBLOCK_TYPE_USER_RWDATA_UNCACHE 0x0C208060
SCE_KERNEL_MEMBLOCK_TYPE_USER_RO 0x0C20D040
SCE_KERNEL_MEMBLOCK_TYPE_USER_TEXT 0x0C20D050
SCE_KERNEL_MEMBLOCK_TYPE_USER_RW 0x0C20D060
SCE_KERNEL_MEMBLOCK_TYPE_USER_RWDATA 0x0C20D060
SCE_KERNEL_MEMBLOCK_TYPE_USER_GAME_RW 0x0C50D060
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_RW 0x0C80D060
SCE_KERNEL_MEMBLOCK_TYPE_USER_UNKNOWN_RW_UNCACHE 0x0CA08060
SCE_KERNEL_MEMBLOCK_TYPE_USER_UNKNOWN_RW 0x0CA0D060
SCE_KERNEL_MEMBLOCK_TYPE_USER_UNKNOWN2_RW 0x0CF0D060
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_NC_RW 0x0D808060
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RO_UNCACHE 0x0E208040
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RX_UNCACHE 0x0E208050
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RW_UNCACHE 0x0E208060
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RO 0x0E20D040
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RW 0x0E20D060
kernel memory types:
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_SO_RW 0x10200206
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_R 0x1020D004
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_R_UNCACHE 0x10208004
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RW 0x1020D006
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RW_UNCACHE 0x10208006
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_DEVICE_RW 0x10200806
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RX 0x1020D005
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RW_GAME 0x1050D006
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_RO 0x20100804
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_RW 0x20100806
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_SO_RO 0x20100204
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_SO_RW 0x20100206
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_NC_RO 0x20108004
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_NC_RW 0x20108006
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_BOOT_IMAGE 0x1020D007
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_CDRAM_RW 0x40408006
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_CDRAM2_RW 0x50408006
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_GAME_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_NC_R 0x60208004
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_NC_RW 0x60208006
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_R 0x6020D004
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_RW 0x6020D006
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_GPU_CDRAM_RW 0xA0408006
code memory types:
SCE_KERNEL_MEMBLOCK_CODE_MEMORY_TYPE_L2WBWA: 0x2000
SCE_KERNEL_MEMBLOCK_CODE_MEMORY_TYPE_L1WBWA: 0x4000
SCE_KERNEL_MEMBLOCK_CODE_MEMORY_TYPE_NORMAL_NC: 0x8000
memory allocate test.
mem type |
mem size |
mem base
|
0x0C200860 |
0x200000 |
0x80100000
|
0x0C208060 |
0x200000 |
0x70000000
|
0x0C20D040 |
0x200000 |
0x85200000
|
0x0C20D060 |
0x200000 |
0x85200000
|
0x0C50D060 |
0x200000 |
0x85200000
|
0x0C80D060 |
0x200000 |
0x85200000
|
0x0CA08060 |
0x200000 |
0x70000000
|
0x0CA0D060 |
0x200000 |
0x85200000
|
0x0CF0D060 |
0x200000 |
error, Looks like a memory type to reserve a fairly large size memory
|
0x0D808060 |
0x200000 |
0x70000000
|
0x0E208040 |
0x200000 |
0x68000000
|
0x0E208050 |
0x200000 |
error, It seems that RX memory cannot be allocated from the user
|
0x0E208060 |
0x200000 |
0x68000000
|
0x0E20D040 |
0x200000 |
0xD0300000
|
0x0E20D060 |
0x200000 |
0xD0300000
|
Types to reverse
from 0.990:
CDIALOG:
SCE_KERNEL_MEMBLOCK_TYPE_CDIALOG_NC_R
FREE:
SCE_KERNEL_MEMBLOCK_TYPE_FREE
KERNEL:
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_CDRAM_L1WBWA_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_DEVICE_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_DEVICE_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_NC_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_SO_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_KMP_TOOL_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_CDIALOG_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_CDIALOG_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_DEVICE_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_GAME_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_NC_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_PHYCONT_NC_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_PHYCONT_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_PHYCONT_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_PHYCONT_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_RX
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_SO_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_UMAIN_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_GAME_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_NC_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_NC_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_R
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_RW
SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_RX
USER:
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RX
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_NC_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_IO_DEVICE_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_IO_SO_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_KTMP_NC_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_KTMP_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_KTMP_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_KTMP_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_DEVICE_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_GAME_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_NC_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_RX
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_TOOL_NC_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_TOOL_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_TOOL_RX
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_CDIALOG_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_CDIALOG_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_CDIALOG_RX
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_MAIN_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_MAIN_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_MAIN_RX
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_SHARED_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_SHARED_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_SHARED_RX
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_TOOL_R
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_TOOL_RW
SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_TOOL_RX
SceSysmemForKernel
sceKernelGrowPhyMemPartForKernel
Version |
NID
|
0.990-3.60 |
0x6B3F4102
|
Calls sceKernelGrowPhyMemPartWithFlagsForKernel with flags = 0.
int sceKernelGrowPhyMemPartForKernel(SceKernelPhyMemPart *pPhyMemPart, SceSize psize);
sceKernelGrowPhyMemPartWithFlagsForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0x775AA5E3
|
Grows physical memory partition with flags.
int sceKernelGrowPhyMemPartWithFlagsForKernel(SceKernelPhyMemPart *pPhyMemPart, int flags, SceSize psize);
sceKernelGetGrownPhyMemPartSizeForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0x4D809B47
|
This is a temp name.
Returns a global variable. This global variable is either a size or offset or address and is incremented by sceKernelGrowPhyMemPartWithFlagsForKernel.
int sceKernelGetGrownPhyMemPartSizeForKernel(void);
sceKernelAddressSpaceChangeMMUContextForKernel
Version |
NID
|
0.931-3.60 |
0x653B0849
|
int sceKernelAddressSpaceChangeMMUContextForKernel(SceUID uid);
sceKernelAddressSpaceGetMMUL1InfoForKernel
Version |
NID
|
0.931 |
0x671A3444
|
3.60 |
not present
|
int sceKernelAddressSpaceGetMMUL1InfoForKernel(SceUID uid, const void *addr, void *pInfo);
sceKernelAddressSpaceGetMMUL2InfoForKernel
Version |
NID
|
0.931 |
0xCB6E1C80
|
3.60 |
not present
|
int sceKernelAddressSpaceGetMMUL2InfoForKernel(SceUID uid, const void *addr, void *pInfo);
sceKernelAddressSpaceGetMMUL1AllInfoForKernel
Version |
NID
|
0.931 |
0x1A898F2E
|
3.60 |
not present
|
typedef struct SceKernelAddressSpaceMMUL1AllInfo { // size is 0x400C on FW 0.931
SceSize size; // Size of this structure
char unk[0x4008];
} SceKernelAddressSpaceMMUL1AllInfo;
int sceKernelAddressSpaceGetMMUL1AllInfoForKernel(SceUID uid, SceKernelAddressSpaceMMUL1AllInfo *pInfo);
sceKernelAddressSpaceGetMMUL2AllInfoForKernel
Version |
NID
|
0.931 |
0x1E1AA29B
|
3.60 |
not present
|
typedef struct SceKernelAddressSpaceMMUL2AllInfo { // size is 0x404 on FW 0.931
SceSize size; // Size of this structure
char unk[0x400];
} SceKernelAddressSpaceMMUL2AllInfo;
int sceKernelAddressSpaceGetMMUL2AllInfoForKernel(SceUID uid, const void *addr, SceKernelAddressSpaceMMUL2AllInfo *pInfo);
sceKernelGetPhyPartKernelForKernel
Version |
NID
|
0.931-3.60 |
0x4D38F861
|
return gpPhyPartKernel;
int sceKernelGetPhyPartKernelForKernel(void);
sceKernelPhyMemLowAllocForKernel
Version |
NID
|
0.931-3.60 |
0x5E169FEF
|
// type must be 0x10001, 0x10002 or 0x20001
int sceKernelPhyMemLowAllocForKernel(int type, uint size, uint alignment, void *out);
sceKernelPhyMemLowPA2VAForKernel
Version |
NID
|
0.931-3.60 |
0x0FD6B756
|
// type must be 0x10002
int sceKernelPhyMemLowPA2VAForKernel(int type, void *PA, void **pVA);
sceKernelGetPhyMemLowInfoForKernel
Version |
NID
|
0.931-0.990 |
0x06A4DA6C
|
typedef struct SceKernelPhyMemLowInfo { // size is 0x1C on FW 0.931-0.990
SceSize size; // Size of this structure
uint32_t unk_4;
uint32_t unk_8;
uint32_t unk_C;
uint32_t unk_10;
uint32_t unk_14;
uint32_t unk_18;
} SceKernelPhyMemLowInfo;
// type must be 0x10001, 0x10002 or 0x20001
int sceKernelGetPhyMemLowInfoForKernel(int type, SceKernelPhyMemLowInfo *info);
sceKernelPhyMemLowFreeForKernel
Version |
NID
|
0.931-3.60 |
0x18B99FDD
|
// type must be 0x10001, 0x10002 or 0x20001
int sceKernelPhyMemLowFreeForKernel(int type);
SceSysmemForKernel_66636970
Version |
NID
|
0.990 |
0x66636970
|
Return *class.
int SceSysmemForKernel_66636970(SceUID uid);
SceSysmemForKernel_95ABFDC3
Version |
NID
|
0.990-3.60 |
0x95ABFDC3
|
int SceSysmemForKernel_95ABFDC3(uint32_t flags);
sceKernelRegisterClassForKernel
Version |
NID
|
0.990 |
0x11761B77
|
sceKernelAllocKernelHeapForKernel
Version |
NID
|
0.931-0.990 |
0x432EADA6
|
int sceKernelAllocKernelHeapForKernel(SceSize size);
sceUIDCreateEntryHeapForKernel
Version |
NID
|
0.990-3.60 |
0x19CAEF35
|
int sceUIDCreateEntryHeapForKernel(void);
sceUIDObjectSetClassForKernel
Version |
NID
|
0.931-0.990 |
0x226DE851
|
3.60 |
not present
|
int sceUIDObjectSetClassForKernel(SceKernelObject *pObject, SceClass *pClass);
sceGUIDGetEntryInfoAllForKernel
Version |
NID
|
0.990-3.60 |
0x2A79C51C
|
int sceGUIDGetEntryInfoAllForKernel(SceUID uid, void *vectors, uint32_t nVector, void *out);
sceGUIDNameForKernel
Version |
NID
|
0.990 |
0x250EE289
|
char *sceGUIDNameForKernel(SceUID uid);
sceGUIDRegisterForKernel
Version |
NID
|
0.990-3.60 |
0xAF42AAD5
|
int sceGUIDRegisterForKernel(SceClass *pClass, const char *name, SceKernelObject *pObject);
sceUIDRegisterForKernel
Version |
NID
|
0.931-0.990 |
0x59162CD7
|
3.60 |
not present
|
Calls sceGUIDRegisterForKernel.
int sceUIDRegisterForKernel(SceClass *pClass, const char *name, SceKernelObject *pObject);
SceSysmemForKernel_48D87E17
Version |
NID
|
0.990-3.60 |
0x48D87E17
|
sceKernelGetAddressSpaceMMUContextForKernel
Version |
NID
|
0.990-3.60 |
0xFBEF93AA
|
int sceKernelGetAddressSpaceMMUContextForKernel(SceUID uid, void *context);
sceKernelAllocSimpleMemBlockForKernel
Version |
NID
|
0.990-3.60 |
0xF81F4672
|
typedef struct SceKernelSimpleMemBlock {
char unk_0[0x14];
void *base;
char unk_18[0x14];
void *PhyPage;
SceSize size;
} SceKernelSimpleMemBlock;
int sceKernelAllocSimpleMemBlockForKernel(const char *name, SceKernelMemBlockType type, SceSize vsize, SceKernelSimpleMemBlock *smb);
sceKernelGetSimpleMemBlockBaseForKernel
Version |
NID
|
0.990-3.60 |
0x0A8D14EC
|
int sceKernelGetSimpleMemBlockBaseForKernel(SceKernelSimpleMemBlock *smb, void **base);
sceKernelGetMemBlockInfoSimpleForKernel
Version |
NID
|
0.990-3.60 |
0x2364A170
|
int sceKernelGetMemBlockInfoSimpleForKernel(SceUID uid, SceKernelMemBlockInfoSimple *pInfo);
sceKernelAddressSpaceVARangeToPAVectorForKernel
Version |
NID
|
0.990-3.60 |
0xF7250E6C
|
int sceKernelAddressSpaceVARangeToPAVectorForKernel(SceUID uid, const SceKernelVARange *vRange, SceKernelPAVector *pVector);
sceKernelCreatePhyMemPartForKernel
Version |
NID
|
0.931-3.60 |
0x2E36E0C4
|
Calls sceKernelCreatePhyMemPartByPbaseForKernel with pbase = 0.
int sceKernelCreatePhyMemPartForKernel(const char *name, int type, SceSize psize, SceKernelPhyMemPart *pPhyMemPart);
sceKernelCreatePhyMemPartByPbaseForKernel
Version |
NID
|
0.931-3.60 |
0x63D83911
|
// type: 0x10000 for Lpddr2Main, 0x30000 for Cdram
int sceKernelCreatePhyMemPartByPbaseForKernel(const char *name, int type, void *pbase, SceSize psize, SceKernelPhyMemPart *pPhyMemPart);
sceKernelDeletePhyMemPartForKernel
Version |
NID
|
0.931-3.60 |
0x2AEA9E09
|
int sceKernelDeletePhyMemPartForKernel(SceKernelPhyMemPart *pPhyMemPart);
sceKernelGetPhyMemPartAllForKernel
Version |
NID
|
0.931-3.60 |
0x2F6F9C2C
|
int sceKernelGetPhyMemPartAllForKernel(int param_1, int param_2, void *pCountInBuffer);
sceKernelGetPhyMemPartInfoForKernel
Version |
NID
|
0.931-0.990 |
0x67849418
|
3.60 |
not present
|
int sceKernelGetPhyMemPartInfoForKernel(SceKernelPhyMemPart *pPhyMemPart, SceKernelPhyMemPartInfo *pInfo);
sceKernelGetPhyMemPartInfoByIDForKernel
Version |
NID
|
0.931-3.60 |
0xF4FA0575
|
typedef struct SceKernelPhyMemPartInfo { // size is 0x44 on FW 0.931-0.990
SceSize size; // Size of this structure
uint32_t unk_4; // some size or address
uint32_t unk_8; // some size or address
char unk1[0xC];
char *name; // name, maybe pointer or array
char unk2[0x24];
} SceKernelPhyMemPartInfo;
int sceKernelGetPhyMemPartInfoByIDForKernel(SceUID id, SceKernelPhyMemPartInfo *pInfo);
sceUIDDeleteEntryHeapForKernel
Version |
NID
|
0.990-3.60 |
0xF0C3FCFC
|
int sceUIDDeleteEntryHeapForKernel(SceUID uid);
sceGUIDUnregisterForKernel
Version |
NID
|
0.931-0.990 |
0xE79BBCF2
|
int sceGUIDUnregisterForKernel(SceUID uid);
sceGUIDGetEntryInfoClassForKernel
Version |
NID
|
0.990-3.60 |
0xE90CFD62
|
int sceGUIDGetEntryInfoClassForKernel(SceUID uid, int a2, void *vectors, int nVector, void *out);
Version |
NID
|
0.990-3.60 |
0xEB350679
|
void *sceKernelGetPhyPageResetForKernel(void);
sceKernelFreePhyPageForKernel
Version |
NID
|
0.990-3.60 |
0x00BC5B4A
|
int sceKernelFreePhyPageForKernel(uint32_t a1, int pPage, uint32_t a3, uint32_t a4);
sceKernelNameHeapInsertForKernel
Version |
NID
|
0.990-3.60 |
0x08AB3DAE
|
int sceKernelNameHeapInsertForKernel(char *name, uint32_t flags, uint32_t *out);
sceGUIDKernelCreateForKernel
Version |
NID
|
0.990 |
0xE6FAD50A
|
3.60 |
not present
|
Create a GUID with default attribute (0x30000).
int sceGUIDKernelCreateForKernel(SceClass *pClass, const char *name, SceKernelObject **ppEntry);
sceGUIDKernelCreateWithAttrForKernel
Version |
NID
|
0.990-3.60 |
0x53E1FFDE
|
Create a GUID with the specified attribute.
int sceGUIDKernelCreateWithAttrForKernel(SceClass *pClass, const char *name, SceUInt32 attr, SceKernelObject **ppEntry);
scePUIDKernelCreateWithAttrForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0xDF0288D7
|
Temp name was sceKernelCreateUidObjForKernel.
typedef struct ScePUIDKernelCreateParam { // size is at least 0x20 on FW 3.60
SceUInt32 attr;
SceUInt32 field_4;
SceUID uid;
SceUID pid;
SceUInt32 field_10;
SceUInt32 field_14;
SceUInt32 field_18;
SceUInt32 field_1C;
} ScePUIDKernelCreateParam;
SceUID scePUIDKernelCreateWithAttrForKernel(SceClass *pClass, const char *name, ScePUIDKernelCreateParam *pParam, SceKernelObject **ppEntry);
scePUIDReleaseObjectForKernel
Version |
NID
|
0.990-3.60 |
0x3FCA782B
|
int scePUIDReleaseObjectForKernel(SceUID pid, SceUID uid);
scePUIDGetInfoForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0x12ED88AE
|
// pInfo size is 0x14 bytes
int scePUIDGetInfoForKernel(SceUID pid, SceUID uid, void *pInfo);
sceGUIDGetEntryForKernel
Version |
NID
|
3.60 |
0x45F2A59C
|
sceGUIDGetVisibilityLevelForKernel
Version |
NID
|
3.60 |
0xC69666C3
|
sceGUIDSetVisibilityLevelForKernel
Version |
NID
|
3.60 |
0xCB8D03C0
|
sceGUIDFindByNameForKernel
Version |
NID
|
3.60 |
0xCEBA8031
|
sceGUIDFindByNameAllForKernel
Version |
NID
|
3.60 |
0x4B5C85AC
|
sceGUIDGetPIDForKernel
Version |
NID
|
3.60 |
0xCF5A2311
|
sceGUIDSetCNOAForKernel
Version |
NID
|
3.60 |
0x8D6AF468
|
sceGUIDSetForKernel
Version |
NID
|
0.931-3.60 |
0xD7B323EB
|
int sceGUIDSetForKernel(SceUID uid, SceClass *pClass, const char *name, SceKernelObject *pObject);
sceUIDGetProcUIDVectorByClassForKernel
Version |
NID
|
0.990 |
0x51C08396
|
3.60 |
not present
|
sceUIDReferObjectWithLevelForKernel
Version |
NID
|
0.990 |
0xF79B52B2
|
3.60 |
not present
|
int sceUIDReferObjectWithLevelForKernel(SceUID uid, SceUInt32 level, SceKernelObject **ppEntry);
sceKernelPhysicalMemWriteForKernel
Version |
NID
|
0.931 |
0x4B86A751
|
3.60 |
not present
|
int sceKernelPhysicalMemWriteForKernel(void *dest, const void *src, SceSize size);
sceKernelPhysicalMemReadForKernel
Version |
NID
|
0.931-0.990 |
0xF96E3AE2
|
3.60 |
not present
|
Temp name was memcpy_from_paddr.
dest must be a vaddr and src must be a paddr. Return copied size on success.
int sceKernelPhysicalMemReadForKernel(void *dest, const void *src, SceSize dest_size, SceSize src_size);
sceKernelAllocPartitionMemBlockForKernel
Version |
NID
|
0.931-3.60 |
0x5FFE4B79
|
Temp name was sceKernelAllocSystemCallTableForKernel.
SceUID sceKernelAllocPartitionMemBlockForKernel(SceUID part, const char *name, SceKernelMemBlockType type, SceSize size, const struct SceKernelAllocMemBlockOptKernel *pOpt);
sceUIDEntryHeapGetInfoForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0x686AA15C
|
sceUIDEntryHeapCloseAllPUIDForKernel
Version |
NID
|
0.931-3.60 |
0xFAF96C1F
|
int sceUIDEntryHeapCloseAllPUIDForKernel(SceUID uid);
sceKernelNameHeapGetInfoForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0xE443253B
|
sceKernelGetFixedHeapInfoByPointerForKernel
Version |
NID
|
0.990-3.60 |
0x219E90FD
|
// pObject is of size 0x30
// pObject first 4 bytes are structure size
int sceKernelGetFixedHeapInfoByPointerForKernel(void *pObject, SceKernelFixedHeapInfo *pInfo);
sceKernelGetHeapInfoByPointerForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0x68451777
|
int sceKernelGetHeapInfoByPointerForKernel(void *pObject, SceKernelHeapInfo *pInfo);
sceKernelGetHeapInfoForKernel
Version |
NID
|
0.990-3.60 |
0x91733EF4
|
int sceKernelGetHeapInfoForKernel(SceUID uid, SceKernelHeapInfo *pInfo);
sceKernelFreeSimpleMemBlockForKernel
Version |
NID
|
0.990-3.60 |
0xA1FFA2C9
|
sceKernelAllocForKernel
Version |
NID
|
0.990-3.60 |
0xC0A4D2F3
|
3.65 |
0x85571907
|
void *sceKernelAllocForKernel(SceSize len);
sceKernelAllocAlignForKernel
Version |
NID
|
3.60 |
0xA2CD1697
|
typedef struct SceAllocOpt {
SceSize size; // 0x14
SceSize data04; // maybe len align?
SceSize align;
int data0C;
int data10;
} SceAllocOpt;
void *sceKernelAllocAlignForKernel(SceSize len, SceAllocOpt *pOpt);
sceKernelFreeForKernel
Version |
NID
|
0.990-3.60 |
0xABAB0FAB
|
3.65 |
0x4233C16D
|
void sceKernelFreeForKernel(void *ptr);
sceGUIDGetObjectWithClassForKernel
Version |
NID
|
0.990-3.60 |
0x7ABFA9A7
|
Possible name are sceUIDGetObjectWithClassForKernel or sceUIDtoProcessForKernel.
int sceGUIDGetObjectWithClassForKernel(SceUID uid, SceClass *pClass, SceKernelObject **obj);
SceSysmemForKernel_C38D61FC
Version |
NID
|
0.990 |
0xC38D61FC
|
Calls SceSysmemForDriver_89A44858.
sceUIDGetObjectForKernel
Version |
NID
|
0.931-0.990 |
0xC4893914
|
Calls sceGUIDGetObjectForDriver.
int sceUIDGetObjectForKernel(SceUID uid, SceKernelObject **ppEntry);
SceSysmemForKernel_620E00E7
Version |
NID
|
0.990 |
0x620E00E7
|
SceSysmemForKernel_620E00E7(int a1, int global_id, _DWORD *out);
SceSysmemForKernel_7C797940
Version |
NID
|
0.990 |
0x7C797940
|
Calls SceSysmemForKernel_620E00E7 or SceSysmemForDriver_0F5C84B7.
sceKernelRxMemcpyKernelToUserForPidForKernel
Version |
NID
|
0.990-3.60 |
0x30931572
|
Unrestricted memcpy to the virtual address space for process pid
. Both dst
and src
must be in the address space of pid
but src
must also be accessible in the address space of the caller. This is normally used for resolving stubs in module loads. Same as write to RO but does a cache flush.
int sceKernelRxMemcpyKernelToUserForPidForKernel(SceUID pid, void * dst, const void *src, SceSize size);
sceUIDtoObjectForKernel
Version |
NID
|
0.990-3.60 |
0xED221825
|
Calls SceSysmem#sceGUIDGetObjectForDriver.
SceKernelObject *sceUIDtoObjectForKernel(SceUID uid);
sceGUIDOpenByGUIDForKernel
Version |
NID
|
0.990-3.60 |
0xCF53EEE4
|
sceGUIDGetUIDVectorByClassForKernel
Version |
NID
|
0.931-3.60 |
0xEC7D36EF
|
sceUIDGetUIDVectorByClassForKernel
Version |
NID
|
0.931-0.990 |
0xA2F03233
|
3.60 |
not present
|
It is simply a wrapper for sceGUIDGetUIDVectorByClassForKernel.
sceKernelCreateAddressSpaceForKernel
Version |
NID
|
0.990-3.60 |
0x4A3737F0
|
3.65 |
0x8EE89D2C
|
// flag: 0x10000001
// name: maybe titleid
SceUID sceKernelCreateAddressSpaceForKernel(SceUID pid, const char *name, SceUInt32 flag, SceKernelAddressSpace *pAS);
sceKernelDeleteAddressSpaceForKernel
Version |
NID
|
0.931-3.60 |
0xF2D7FE3A
|
int sceKernelDeleteAddressSpaceForKernel(SceUID guid);
sceKernelAddressSpaceFreeAllMemBlockForKernel
Version |
NID
|
0.931-3.60 |
0x89CE1F31
|
int sceKernelAddressSpaceFreeAllMemBlockForKernel(SceUID guid);
sceKernelAddressSpaceSetPhyMemPartForKernel
Version |
NID
|
0.931-3.60 |
0x67955EE9
|
int sceKernelAddressSpaceSetPhyMemPartForKernel(SceUID uid, int a2, SceKernelPhyMemPart *pPhyMemPart);
sceKernelAddressSpaceUnmapForKernel
Version |
NID
|
0.931-3.60 |
0xCE72839E
|
int sceKernelAddressSpaceUnmapForKernel(SceUID uid, int unk, void *vbase, SceSize size);
3.60:
int sceKernelAddressSpaceUnmapForKernel(SceUID uid, int flags, int unk, uint32_t paddr, SceSize size);
Example: in SceSysStateMgr:
sceKernelAddressSpaceUnmapForKernel(0x10007, 0xF7, 0x51000000, 0x1000000);
sceKernelAddressSpaceUnmapForKernel(0x10007, 0xF0, 0xE0000000, 0x8000000);
sceKernelAddressSpaceUnmapForKernel(0x10007, 0xF0, 0x1A000000, 0x100000);
3.60
sceKernelAddressSpaceUnmapForKernel(0x10007, 0xF7, 0xC, 0x51000000, 0x1000000);
sceKernelAddressSpaceUnmapForKernel(0x10007, 0xF0, 0xC, 0xE0000000, 0x8000000);
sceKernelAddressSpaceUnmapForKernel(0x10007, 0xF0, 0xC, 0x1A000000, 0x100000);
sceKernelAddressSpaceVAtoPAForKernel
Version |
NID
|
0.990-3.60 |
0xF2179820
|
int sceKernelAddressSpaceVAtoPAForKernel(SceAddressSpace *pAS, uint32_t mode, void *pVA, void **pPA);
sceKernelAddressSpaceGetMemoryTypeForKernel
Version |
NID
|
0.990-3.60 |
0xCC7BB240
|
int sceKernelAddressSpaceGetMemoryTypeForKernel(uint32_t *memory_type);
sceKernelFindClassByNameForKernel
Version |
NID
|
3.60 |
0x62989905
|
int sceKernelFindClassByNameForKernel(const char *name, SceClass **class);
sceKernelGetMemBlockTypeForKernel
Version |
NID
|
3.60 |
0x289BE3EC
|
/***
* Gets the memory block type of a memory block
*
* @param[in] uid - SceUID of the memory block
* @param[out] type - Type of the memory block identified by uid
*
* @return 0 on success, < 0 on error.
*/
int sceKernelGetMemBlockTypeForKernel(SceUID uid, unsigned int *type);
sceKernelGetUidHeapClassForKernel
Version |
NID
|
3.60 |
0x4CCA935D
|
SceClass *sceKernelGetUidHeapClassForKernel(void);
sceKernelGetUidMemBlockClassForKernel
Version |
NID
|
3.60 |
0xAF729575
|
SceClass *sceKernelGetUidMemBlockClassForKernel(void);
sceKernelGetUidDLinkClassForKernel
Version |
NID
|
0.990-3.60 |
0xC105604E
|
SceClass *sceKernelGetUidDLinkClassForKernel(void);
SceSysmemForKernel_F8E95A5A
Version |
NID
|
0.990-3.60 |
0xF8E95A5A
|
Certainly returns address to a structure.
int SceSysmemForKernel_F8E95A5A(void);
SceSysmemForKernel_54E85275
Version |
NID
|
0.990-1.50 |
not present
|
3.60 |
0x54E85275
|
Uses result from SceSysmem#SceSysmemForKernel_F8E95A5A.
// some_struct comes from SceSysmemForKernel_F8E95A5A
// out_struct size is 0xB0 bytes
int SceSysmemForKernel_54E85275(void *some_struct, void *out_struct);
SceSysmemForKernel_7BD56D6D
Version |
NID
|
0.990-1.50 |
not present
|
3.60 |
0x7BD56D6D
|
Used by SceProcessmgr.
int SceSysmemForKernel_7BD56D6D(SceUID guid, const char *name);
SceSysmemForDriver
SceSysmemForDriver_65B9B393
Version |
NID
|
0.990 |
0x65B9B393
|
3.60 |
not present
|
Return *class.
uint32_t SceSysmemForDriver_65B9B393(SceUID uid);
sceUIDGetClassForDriver
Version |
NID
|
0.931-0.990 |
0xFE28F5EB
|
3.60 |
not present
|
SceClass *sceUIDGetClassForDriver(void);
sceUIDClassInitForDriver
Version |
NID
|
0.931-0.990 |
0xE6D75E99
|
3.60 |
not present
|
int sceUIDClassInitForDriver(SceClass *pClass, const char *name, uint32_t uid_class, SceSize item_size, void *constructor, void *destructor);
add_heap
Version |
NID
|
0.990 |
0xB800123C
|
3.60 |
not present
|
int add_heap(SceUID uid, const char *name, SceClass *class);
sceKernelIsSubclassForDriver
Version |
NID
|
0.990 |
0x6484D03E
|
3.60 |
not present
|
SceBool sceKernelIsSubclassForDriver(SceClass *parentClass, SceClass *class);
sceGUIDNameForDriver
Version |
NID
|
0.990 |
0xB2BB6216
|
3.60 |
not present
|
char *sceGUIDNameForDriver(SceUID id);
sceKernelGetMemBlockAllocSizeForDriver
Version |
NID
|
0.990 |
0x63E5754B
|
3.60 |
not present
|
int sceKernelGetMemBlockAllocSizeForDriver(SceUID id, SceSize *size);
sceUIDGetClassInfoAllForDriver
Version |
NID
|
0.990 |
0x3EF32C6C
|
3.60 |
not present
|
int sceUIDGetClassInfoAllForDriver(SceClassInfo_0990 *vector, uint32_t maxNumClass, uint32_t *pNumClassInBuf);
sceUIDCloseForDriver
Version |
NID
|
0.990 |
0x32C5F628
|
3.60 |
not present
|
if (a2 & 0x40000000) == 0 calls sceGUIDCloseForDriver else scePUIDCloseForDriver.
int sceUIDCloseForDriver(SceUID uid, SceUInt32 flag_or_addr_or_pid);
SceSysmemForDriver_F09A7D09
Version |
NID
|
0.990 |
0xF09A7D09
|
3.60 |
not present
|
Calls sceGUIDCloseForDriver.
int SceSysmemForDriver_F09A7D09(SceUID uid);
Switch TTB For PID
Version |
NID
|
1.69 |
0x6F2ACDAE
|
3.60 |
not present
|
Changes the TTBR to point to the tables for a given PID.
int switch_ttb_for_pid(SceUID pid);
sceKernelAllocHeapMemoryForDriver
Version |
NID
|
0.931-3.60 |
0x7B4CB60A
|
Temp name was sceKernelMemPoolAlloc.
Calls sceKernelAllocHeapMemoryWithOptionForDriver with a3 = 0.
void* sceKernelAllocHeapMemoryForDriver(SceUID uid, SceSize size);
sceKernelAllocHeapMemoryFromGlobalHeapForDriver
Version |
NID
|
3.60 |
0x7750CEA7
|
Calls sceKernelAllocHeapMemoryForDriver with uid = -1 (global heap uid
).
void* sceKernelAllocHeapMemoryFromGlobalHeapForDriver(SceSize size);
sceKernelAllocHeapMemoryFromGlobalHeapWithOptForDriver
Version |
NID
|
0.990-3.60 |
0x0B4ED16A
|
Calls sceKernelAllocHeapMemoryWithOptionForDriver with uid = -1 (global heap uid
).
void* sceKernelAllocHeapMemoryFromGlobalHeapWithOptForDriver(SceSize size, SceKernelHeapMemoryOpt *pOpt);
sceKernelAllocHeapMemoryWithOptForDriver
Version |
NID
|
3.60 |
0xB415B5A8
|
Same as sceKernelAllocHeapMemoryForDriver
but uses pOpt
.
void* sceKernelAllocHeapMemoryWithOptForDriver(SceUID uid, SceSize size, SceKernelHeapMemoryOpt *pOpt);
sceKernelAllocHeapMemoryWithOptionForDriver
Version |
NID
|
0.990-3.60 |
0x49D4DD9B
|
Temp name was sceKernelAllocHeapMemoryWithOpt2ForDriver.
Same as sceKernelAllocHeapMemoryForDriver
but uses pOpt
.
void* sceKernelAllocHeapMemoryWithOptionForDriver(SceUID uid, SceSize size, SceKernelHeapMemoryOpt *pOpt);
sceKernelAllocMemBlockWithInfoForDriver
Version |
NID
|
0.990-3.60 |
0xD44F464D
|
Temp name was sceKernelAllocMemBlockExtForDriver.
SceUID sceKernelAllocMemBlockWithInfoForDriver(const char *name, SceKernelMemBlockType type, SceSize vsize, const struct SceKernelAllocMemBlockOptKernel *pOpt, SceKernelMemBlockInfo *pInfo);
sceKernelAllocMemBlockForDriver
Version |
NID
|
0.931-3.60 |
0xC94850C9
|
The interface is the same as the userland version of this function, however more types can be specified and more options are in the pOpt argument.
To allocate a kernel RW block of memory, specify type = SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_RW
.
To allocate a block of memory with a specific physical address, specify type = SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_SO_RW
or type = SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_RW
, pOpt->attr = 2
, and pOpt->paddr = physical address
.
To allocate a block of memory that is kernel executable, specify type = SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RX
.
To allocate a block of memory that is physically contiguous, specify type = 0x30808006
, pOpt->attr = 0x200004
and an alignment to pOpt->alignment
.
To allocate a block of memory inside the CDRAM, specify type = 0x40404006
.
SceUID sceKernelAllocMemBlockForDriver(const char *name, SceKernelMemBlockType type, SceSize vsize, const struct SceKernelAllocMemBlockOptKernel *pOpt);
sceKernelAllocMemBlockForDebuggerForDriver
Version |
NID
|
0.940-1.50 |
0x59F3159C
|
Same as sceKernelAllocMemBlockForDriver but with null pOpt.
SceUID sceKernelAllocMemBlockForDebuggerForDriver(const char *name, SceKernelMemBlockType type, SceSize vsize, int zero);
sceKernelCreateClassForDriver
Version |
NID
|
3.60 |
0x61317102
|
int sceKernelCreateClassForDriver(SceClass *cls, const char *name, struct SceClass *uid_class, size_t item_size, SceClassCallback create, SceClassCallback destroy);
sceKernelCreateHeapForDriver
Version |
NID
|
0.931-3.60 |
0x9328E0E8
|
The heap pool is thread safe.
typedef struct SceKernelHeapCreateOpt { // size is 0x14 on FW 0.931-0.990, 0x28 on FW 3.60
SceSize size;
SceUInt32 uselock; // ex: 1, 0x100
SceUInt32 field_8; // ex: 0x8000
SceUInt32 field_C;
SceUInt32 block_type;
SceUInt32 field_14;
SceUInt32 field_18;
SceUInt32 field_1C;
SceUInt32 field_20;
SceUInt32 field_24;
} SceKernelHeapCreateOpt;
// pOpt can be NULL
SceUID sceKernelCreateHeapForDriver(const char *name, SceSize size, SceKernelHeapCreateOpt *pOpt);
sceUIDKernelCreateForDriver
Version |
NID
|
0.990 |
0x7FC849B1
|
3.60 |
not present
|
Calls sceGUIDKernelCreateForKernel.
Create a UID with default attribute (0x30000).
int sceUIDKernelCreateForDriver(SceClass *pClass, const char *name, SceKernelObject **ppEntry);
sceUIDKernelCreate2ForDriver
Version |
NID
|
0.990 |
not present
|
3.60 |
0x56A13E90
|
Temp name was sceKernelCreateUidObj2ForDriver.
Create a UID with default attribute (0x30000).
SceUID sceUIDKernelCreate2ForDriver(SceClass *pClass, const char *name, SceKernelObject **ppEntry);
sceGUIDCreateForDriver
Version |
NID
|
0.990-3.60 |
0x89A44858
|
Temp name was sceKernelCreateUidObjForUidForDriver.
Create a GUID with default attribute (0x30000) for the specified UID.
SceUID sceGUIDCreateForDriver(SceClass *pClass, const char *name, SceUID uid, SceKernelObject **ppEntry);
scePUIDOpenByGUIDForDriver
Version |
NID
|
0.931-3.60 |
0xBF209859
|
Temp name was sceKernelCreateUserUidForDriver.
SceUID scePUIDOpenByGUIDForDriver(SceUID pid, SceUID uid);
scePUIDOpenByGUIDWithFlagsForDriver
Version |
NID
|
0.990-3.60 |
0xCED1547B
|
Temp name was sceKernelCreateUserUidForClassForDriver.
SceUID scePUIDOpenByGUIDWithFlagsForDriver(SceUID pid, SceUID guid, SceUInt32 flags);
scePUIDOpenByNameForDriver
Version |
NID
|
0.931-3.60 |
0x513B9DDD
|
Temp name was sceKernelCreateUserUidForNameForDriver.
SceUID scePUIDOpenByNameForDriver(SceUID pid, const char *name);
scePUIDOpenByNameWithClassForDriver
Version |
NID
|
0.931-3.60 |
0x8DA0BCA5
|
SceUID scePUIDOpenByNameWithClassForDriver(SceUID pid, const char *name, SceClass *cls);
sceKernelDeleteHeapForDriver
Version |
NID
|
0.940-3.60 |
0xD6437637
|
int sceKernelDeleteHeapForDriver(SceUID uid);
sceGUIDCloseForDriver
Version |
NID
|
0.990-3.60 |
0x047D32F2
|
Temp name was sceKernelDeleteUidForDriver.
int sceGUIDCloseForDriver(SceUID uid);
scePUIDCloseForDriver
Version |
NID
|
0.990-3.60 |
0x84A4AF5E
|
Temp name was sceKernelDeleteUserUidForDriver.
int scePUIDCloseForDriver(SceUInt32 flag_or_addr_or_pid, SceUID uid);
sceKernelGetMemBlockMemtypeByAddrForDriver
Version |
NID
|
0.990-3.60 |
0xF3BBE2E1
|
Temp name was sceKernelFindMemBlockByAddrForDefaultSizeForDriver.
SceKernelMemoryType sceKernelGetMemBlockMemtypeByAddrForDriver(const void *addr);
sceKernelFindMemBlockByAddrForDriver
Version |
NID
|
0.990-3.60 |
0x8A1742F6
|
SceUID sceKernelFindMemBlockByAddrForDriver(const void *addr, SceSize size);
sceKernelFindProcMemBlockByAddrForDriver
Version |
NID
|
0.990-3.60 |
0x857F1D5A
|
Temp name was sceKernelFindMemBlockByAddrForPidForDriver.
SceUID sceKernelFindProcMemBlockByAddrForDriver(SceUID pid, const void *addr, SceSize size);
sceKernelFindMemBlockForDriver
Version |
NID
|
3.57 |
not present, added on 3.60
|
3.60 |
0x9C78064C
|
SceUID sceKernelFindMemBlockForDriver(int flags, void *addr, SceSize size);
sceKernelFindMemBlockProcForDriver
Version |
NID
|
3.60 |
0x9F6E45E3
|
Temp name was sceKernelFindMemBlockForPidForDriver.
SceUID sceKernelFindMemBlockProcForDriver(SceUID pid, int flags, void *addr, SceSize size);
sceKernelFirstDifferentBlock32UserForDriver
Version |
NID
|
3.60 |
0xBDA6E42B
|
int sceKernelFirstDifferentBlock32UserForDriver(unsigned int *ptr, int value, int byte_size);
sceKernelFirstDifferentBlock32UserForPidForDriver
Version |
NID
|
1.69-3.60 |
0x8334454F
|
Looks for an integer in userspace.
int sceKernelFirstDifferentBlock32UserForPidForDriver(SceUID pid, unsigned int *ptr, int value, int byte_size);
sceKernelFirstDifferentBlock64UserForDriver
Version |
NID
|
3.60 |
0xBB3B02C2
|
int sceKernelFirstDifferentBlock64UserForDriver(unsigned long long *ptr, int unused, unsigned long long value, int byte_size);
sceKernelFirstDifferentBlock64UserForPidForDriver
Version |
NID
|
3.60 |
0xE83855FD
|
int sceKernelFirstDifferentBlock64UserForPidForDriver(SceUID pid, unsigned long long *ptr, unsigned long long value, int byte_size);
sceKernelFreeHeapMemoryForDriver
Version |
NID
|
0.990-3.60 |
0x3EBCE343
|
Temp name was sceKernelMemPoolFreeForDriver.
int sceKernelFreeHeapMemoryForDriver(SceUID uid, void *ptr);
sceKernelFreeHeapMemoryFromGlobalHeapForDriver
Version |
NID
|
3.60 |
0xFB817A59
|
int sceKernelFreeHeapMemoryFromGlobalHeapForDriver(void *ptr);
sceKernelFreeMemBlockForDriver
Version |
NID
|
3.60 |
0x009E1C61
|
int sceKernelFreeMemBlockForDriver(SceUID uid);
scePUIDGetClassForDriver
Version |
NID
|
0.990-3.60 |
0xE9728A12
|
Temp name was sceKernelGetClassForPidForUidForDriver.
int scePUIDGetClassForDriver(SceUID pid, SceUID uid, SceClass **cls);
sceGUIDGetClassForDriver
Version |
NID
|
0.990-3.60 |
0xC74B0152
|
Temp name was sceKernelGetClassForUidForDriver.
int sceGUIDGetClassForDriver(SceUID uid, SceClass **cls);
sceKernelGetMemBlockPARangeForDriver
Version |
NID
|
0.990-3.60 |
0x98C15666
|
Previous name was sceKernelGetMemBlockAddrPairForUidForDriver
Returns the paddr and size (pRange) of the memory block if it is physically continuous.
int sceKernelGetMemBlockPARangeForDriver(SceUID uid, SceKernelPARange *pRange);
sceKernelGetMemBlockBaseForDriver
Version |
NID
|
0.990-3.60 |
0xA841EDDA
|
/**
* @brief Get mapped base address of memory block.
*
* Get base address of memory block.
* @param[in] uid block id
* @param[out] ppBase base address of memory block
* @retval SCE_OK success
* @retval <SCE_OK Error
*/
int sceKernelGetMemBlockBaseForDriver(SceUID uid, void **ppBase);
sceKernelGetMemBlockVBaseForDriver
Version |
NID
|
3.60 |
0xB81CF0A3
|
Wrongly named sceKernelGetMemBlockKernelPageForDriver.
int sceKernelGetMemBlockVBaseForDriver(SceUID uid, void **kernel_page);
sceKernelGetMemBlockMappedBaseForDriver
Version |
NID
|
3.60 |
0x0B1FD5C3
|
int sceKernelGetMemBlockMappedBaseForDriver(SceUID uid, void **basep);
sceKernelGetMemBlockPAVectorForDriver
Version |
NID
|
0.990-3.60 |
0x19A51AC7
|
Temp name was sceKernelGetMemBlockPaddrListForUidForDriver.
int sceKernelGetMemBlockPAVectorForDriver(SceUID uid, SceKernelPAVector *pVector);
scePUIDGetEntryHeapNameForDriver
Version |
NID
|
0.990-3.60 |
0x09896EB7
|
Temp name was sceKernelGetNameForPidByUidForDriver. Real name might be scePUIDGetEntryHeapNameForDriver.
int scePUIDGetEntryHeapNameForDriver(SceUID pid, SceUID uid, char **pName);
sceKernelGetNameForUid2ForDriver
Version |
NID
|
3.60 |
0xE655852F
|
const char* sceKernelGetNameForUid2ForDriver(SceUID uid);
sceKernelGetNameForUidForDriver
Version |
NID
|
3.60 |
0xA78755EB
|
int sceKernelGetNameForUidForDriver(SceUID uid, char **pName);
sceUIDtoObjectForDriver
Version |
NID
|
0.990 |
0xAB7AC3D1
|
Calls sceUIDtoObjectForKernel.
SceKernelObject *sceUIDtoObjectForDriver(SceUID uid);
sceGUIDGetObjectForDriver
Version |
NID
|
0.990-3.60 |
0x0FC24464
|
Temp name was sceKernelGUIDGetObjectForDriver.
int sceGUIDGetObjectForDriver(SceUID uid, SceKernelObject **ppEntry);
scePUIDGetObjectForDriver
Version |
NID
|
0.990-3.60 |
0xFE6D7FAE
|
Temp name was sceKernelGetObjectForPidForUidForDriver.
int scePUIDGetObjectForDriver(SceUID pid, SceUID uid, SceKernelObject **ppEntry);
sceGUIDReferObjectForDriver
Version |
NID
|
3.60 |
0x0F5C84B7
|
Temp name was sceKernelGetObjectForUidForDriver.
int sceGUIDReferObjectForDriver(SceUID uid, SceKernelObject **ppEntry);
sceGUIDReferObjectWithLevelForDriver
Version |
NID
|
0.990 |
not present
|
3.60 |
0xF6DB54BA
|
Temp name was sceKernelGetObjectForUidForAttrForDriver.
int sceGUIDReferObjectWithLevelForDriver(SceUID uid, SceUInt32 level, SceKernelObject **pEntry);
sceGUIDReferObjectWithClassAttrForDriver
Version |
NID
|
0.990-3.60 |
0x77066FD1
|
Temp name was sceKernelGetObjectForUidForClassForAttrForDriver.
int sceGUIDReferObjectWithClassAttrForDriver(SceUID uid, SceClass *pClass, SceUInt32 attr, SceKernelObject **pEntry);
sceGUIDReferObjectWithClassForDriver
Version |
NID
|
0.990-3.60 |
0x00ED6C14
|
Temp name was sceKernelGetObjForUidForDriver.
int sceGUIDReferObjectWithClassForDriver(SceUID uid, SceClass *pClass, SceKernelObject **ppEntry);
sceGUIDReferObjectWithSubclassForDriver
Version |
NID
|
0.990-3.60 |
0x72A98D17
|
Temp name was sceKernelGetObjectForUidForClassTreeForDriver.
int sceGUIDReferObjectWithSubclassForDriver(SceUID uid, SceClass *pClass, SceKernelObject **ppEntry);
sceKernelVAtoPAForDriver
Version |
NID
|
0.990-3.60 |
0x8D160E65
|
Temp name was sceKernelGetPaddrForDriver.
This will write the physical address for a virtual address pVA
to memory pointed to by pPA
.
Returns <0 on error, values >=0 indicate success.
int sceKernelVAtoPAForDriver(void *pVA, void **pPA);
sceKernelProcVAtoPAForDriver
Version |
NID
|
0.990 |
0xC51934BD
|
int sceKernelProcVAtoPAForDriver(SceUID pid, void *pVA, void **pPA);
sceKernelProcModeVAtoPAForDriver
Version |
NID
|
0.990-3.60 |
0x61A67D32
|
Temp name was sceKernelGetPaddrForPidForDriver.
int sceKernelProcModeVAtoPAForDriver(SceUID pid, uint32_t mode, void *pVA, void **pPA);
sceKernelVARangeToPAVectorForDriver
Version |
NID
|
0.931-3.60 |
0xE68BEEBD
|
Temp name was sceKernelGetPaddrListForDriver.
This function writes into pVector->output_buffer
an array of vRange
that encompasses the block of memory specified in the input. pVector->ret_count
will contain the number of entries written. If pVector->output_buffer
is null, it will just write the count.
int sceKernelVARangeToPAVectorForDriver(const SceKernelVARange *vRange, SceKernelPAVector *pVector);
sceKernelGetPaddrListForLargePageForDriver
Version |
NID
|
3.60 |
0x08A8A7E8
|
int sceKernelGetPaddrListForLargePageForDriver(const SceKernelVARange *vRange, SceKernelPAVector *pVector);
sceKernelGetPaddrListForSmallPageForDriver
Version |
NID
|
3.60 |
0x16844CE6
|
int sceKernelGetPaddrListForSmallPageForDriver(const SceKernelVARange *vRange, SceKernelPAVector *pVector);
sceKernelVARangeToPARangeForDriver
Version |
NID
|
0.940-3.60 |
0xAE36C775
|
Temp name was sceKernelGetPaddrPairForDriver.
int sceKernelVARangeToPARangeForDriver(const SceKernelVARange *vRange, SceKernelPARange *pRange);
sceKernelGetPaddrPairForLargePageForDriver
Version |
NID
|
3.60 |
0x32257A24
|
int sceKernelGetPaddrPairForLargePageForDriver(SceKernelVARange *pair, SceKernelPARange *result_pair);
sceKernelGetPaddrPairForSmallPageForDriver
Version |
NID
|
3.60 |
0xB3575090
|
int sceKernelGetPaddrPairForSmallPageForDriver(SceKernelVARange *pair, SceKernelPARange *result_pair);
sceKernelVAtoPABySWForDriver
Version |
NID
|
0.990-3.60 |
0x65419BD3
|
Temp name was sceKernelGetPaddrWithSectionTypeCheckForDriver. Wrong name was sceKernelAddressSpaceVAtoPABySWForDriver.
int sceKernelVAtoPABySWForDriver(void *pVA, void **pPA);
sceKernelGetPidContextForDriver
Version |
NID
|
3.60 |
0x2ECF7944
|
struct SceKernelProcessContext
{
SceUInt32 TTBR1;
SceUInt32 DACR;
SceUInt32 CONTEXTIDR;
};
int sceKernelGetPidContextForDriver(SceUID pid, SceKernelProcessContext **ctx);
sceKernelGetUidClassForDriver
Version |
NID
|
3.60 |
0x85336A1C
|
SceClass *sceKernelGetUidClassForDriver();
sceKernelGetUnknownValidPhysAddressSpaceForDriver
Version |
NID
|
3.60 |
0xC9928F5E
|
int sceKernelGetUnknownValidPhysAddressSpaceForDriver(void **start, void **end);
sceKernelIsPaddrWithinSameSectionForUidForDriver
Version |
NID
|
3.60 |
0xF4AD89D8
|
int sceKernelIsPaddrWithinSameSectionForUidForDriver(SceUID pid, int permission_type, void *vaddr, unsigned int len);
sceKernelIsPaddrWithinUnknownValidPhysAddressSpaceForDriver
Version |
NID
|
3.60 |
0xA7C0D1FC
|
int sceKernelIsPaddrWithinUnknownValidPhysAddressSpaceForDriver(void *vaddr);
sceKernelKernelUidForUserUidForClassForDriver
Version |
NID
|
3.60 |
0x184172B1
|
SceUID sceKernelKernelUidForUserUidForClassForDriver(SceUID pid, SceUID user_uid, SceClass *cls);
scePUIDtoGUIDForDriver
Version |
NID
|
0.990-3.60 |
0x45D22597
|
Temp name was sceKernelKernelUidForUserUidForDriver.
Process UID to Global UID.
SceUID scePUIDtoGUIDForDriver(SceUID pid, SceUID uid);
sceKernelPartitionMapMemBlockForDriver
Version |
NID
|
0.990-3.60 |
0x58D21746
|
Temp name was sceKernelMapBlockUserVisibleForDriver.
int sceKernelPartitionMapMemBlockForDriver(SceUID uid);
sceKernelMapBlockUserVisibleWithFlagForDriver
Version |
NID
|
3.60 |
0x04059C4B
|
int sceKernelMapBlockUserVisibleWithFlagForDriver(SceUID uid, int some_flag);
sceKernelUserMapForDriver
Version |
NID
|
0.990-3.60 |
0x278BC201
|
Wrongly named sceKernelMapUserBlockDefaultTypeForDriver.
Assigns type 0.
int sceKernelUserMapForDriver(char *name, int permission, void *user_buf, int size, void **kernel_page, int *kernel_size, int *kernel_offset);
sceKernelProcUserMapForDriver
Version |
NID
|
3.60 |
0x0091D74D
|
Wrongly named sceKernelMapUserBlockForDefaultTypeForPidForDriver. sceKernelProcUserMapForDriver is certainly real name.
Assigns type 0.
int sceKernelProcUserMapForDriver(SceUID pid, const char *name, int permission, void *user_buf, int size, void **kernel_page, int *kernel_size, int *kernel_offset);
sceKernelMapUserBlockForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0x7D4F8B5F
|
Permission is either "1" for read only, no execute or "2"/"3" for read write, no execute. Type is either 0, 1, or 17 and affects the block type. 0 is default. This will allocate kernel memory starting at kernel_page. To get the same memory as the user pointer, add the kernel_offset. kernel_size is how much is allocated.
// this signature is for FW 1.50-1.69
int sceKernelMapUserBlockForDriver(int permission, int type, void *user_buf, int size, void **kernel_page, int *kernel_size, int *kernel_offset);
// this signature is for FW 3.60 - it now allows to give a name
int sceKernelMapUserBlockForDriver(char *name, int permission, int type, void *user_buf, int size, void **kernel_page, int *kernel_size, int *kernel_offset);
sceKernelDecRefCountMemBlockForDriver
Version |
NID
|
0.990-3.60 |
0xF50BDC0C
|
Temp name was sceKernelMemBlockDecRefCounterAndReleaseUidForDriver.
int sceKernelDecRefCountMemBlockDriver(SceUID uid);
sceKernelMemBlockGetInfoExForDriver
Version |
NID
|
3.60 |
0x24A99FFF
|
int sceKernelMemBlockGetInfoExForDriver(SceUID uid, SceKernelMemBlockInfoEx *info);
sceKernelGetMemBlockInfoForDriver
Version |
NID
|
0.990-3.60 |
0xA73CFFEF
|
Temp name was sceKernelMemBlockGetInfoExForVisibilityLevelForDriver.
int sceKernelGetMemBlockInfoForDriver(SceUID uid, uint32_t level, SceKernelMemBlockInfoEx *pInfo);
sceKernelMemBlockGetSomeSizeForDriver
Version |
NID
|
3.60 |
0x78337B62
|
int sceKernelMemBlockGetSomeSizeForDriver(SceUID uid, int *some_size);
sceKernelIncRefCountMemBlockForDriver
Version |
NID
|
0.990-3.60 |
0xEAF3849B
|
Temp name was sceKernelMemBlockIncRefCounterAndReleaseUidForDriver.
int sceKernelIncRefCountMemBlockForDriver(SceUID uid);
sceKernelUserUnmapForDriver
Version |
NID
|
0.990-3.60 |
0x00575B00
|
Temp name was sceKernelMemBlockReleaseForDriver.
int sceKernelUserUnmapForDriver(SceUID uid);
sceKernelMemBlockType2MemtypeForDriver
Version |
NID
|
0.931-3.60 |
0x20C811FA
|
int sceKernelMemBlockType2MemtypeForDriver(SceKernelMemBlockType type);
sceKernelMemBlockTypeGetPrivilegesForDriver
Version |
NID
|
3.60 |
0x6A0792A3
|
int sceKernelMemBlockTypeGetPrivilegesForDriver(SceKernelMemBlockType type);
sceKernelMemBlockTypeGetUnknownForDriver
Version |
NID
|
0.990-3.60 |
0xCB0F3A33
|
int sceKernelMemBlockTypeGetUnknownForDriver(SceKernelMemBlockType type);
sceKernelMemRangeReleaseForDriver
Version |
NID
|
3.60 |
0x75C70DE0
|
int sceKernelMemRangeReleaseForDriver(void *addr, SceSize size);
sceKernelMemRangeReleaseForPidForDriver
Version |
NID
|
3.60 |
0xA8525B06
|
int sceKernelMemRangeReleaseForPidForDriver(SceUID pid, void *addr, SceSize size);
sceKernelMemRangeReleaseWithPermForDriver
Version |
NID
|
3.60 |
0x22CBE925
|
Decrease references to pages.
int sceKernelMemRangeReleaseWithPermForDriver(SceKernelMemoryRefPerm perm, void *addr, SceSize size);
sceKernelMemRangeRetainForDriver
Version |
NID
|
3.60 |
0x59A4402F
|
int sceKernelMemRangeRetainForDriver(void *addr, SceSize size);
sceKernelMemRangeRetainForPidForDriver
Version |
NID
|
3.60 |
0x659586BF
|
int sceKernelMemRangeRetainForPidForDriver(SceUID pid, void *addr, SceSize size);
sceKernelMemRangeRetainWithPermForDriver
Version |
NID
|
3.60 |
0xBC0A1D60
|
Increase references to pages.
int sceKernelMemRangeRetainWithPermForDriver(SceKernelMemoryRefPerm perm, void *addr, SceSize size);
sceKernelRoMemcpyKernelToUserForPidForDriver
Version |
NID
|
0.990-1.69 |
0x571D2739
|
3.60 |
not present
|
int sceKernelRoMemcpyKernelToUserForPidForDriver(SceUID pid, void *dst, const void *src, SceSize size);
sceKernelCopyToUserForDriver
Version |
NID
|
0.990-3.60 |
0x6D88EF8A
|
Temp name was sceKernelMemcpyKernelToUserForDriver.
int sceKernelCopyToUserForDriver(void *dst, const void *src, SceSize size);
sceKernelProcCopyToUserForDriver
Version |
NID
|
0.990-3.60 |
0x6B825479
|
Temp name was sceKernelMemcpyKernelToUserForPidForDriver. Possible name is sceKernelCopyoutProcForDriver.
This will not crash on invalid user pointers, but instead return error.
int sceKernelProcCopyToUserForDriver(SceUID pid, void *dst, const void *src, SceSize size);
sceKernelReadUserForDriver
Version |
NID
|
0.990 |
0xE08F3967
|
3.60 |
not present
|
int sceKernelReadUserForDriver(void *dst, const void *src, SceSize size);
sceKernelCopyFromUserForDriver
Version |
NID
|
0.931-3.60 |
0xBC996A7A
|
Temp name was sceKernelMemcpyUserToKernelForDriver.
int sceKernelCopyFromUserForDriver(void *dst, const void *src, SceSize size);
sceKernelProcCopyFromUserForDriver
Version |
NID
|
0.990-3.60 |
0x605275F8
|
Temp name was sceKernelMemcpyUserToKernelForPidForDriver.
int sceKernelProcCopyFromUserForDriver(SceUID pid, void *dst, void *src, SceSize size);
sceKernelUserCopyForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0x1BD44DD5
|
Temp name was sceKernelMemcpyUserToUserForDriver.
int sceKernelUserCopyForDriver(void *dst, const void *src, SceSize size);
sceKernelProcUserCopyForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0x8E086C33
|
Temp name was sceKernelMemcpyUserToUserForPidForDriver.
int sceKernelProcUserCopyForDriver(SceUID pid, void *dst, const void *src, SceSize size);
sceKernelUserStrnlenForDriver
Version |
NID
|
0.940-0.990 |
0xFF06898A
|
1.50-3.60 |
not present
|
SceSize sceKernelUserStrnlenForDriver(const char *s, SceSize maxlen);
sceKernelStrnlenUserForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0xB429D419
|
SceSize sceKernelStrnlenUserForDriver(const char *s, SceSize maxlen);
sceKernelProcStrnlenUserForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0x9929EB07
|
SceSize sceKernelProcStrnlenUserForDriver(SceUID pid, const char *s, SceSize maxlen);
sceKernelProcUserStrcpyForDriver
Version |
NID
|
0.990-1.50 |
0xEBCB3970
|
3.60 |
not present
|
int sceKernelProcUserStrcpyForDriver(SceUID pid, char *dst, const char *src);
sceKernelStrncpyFromUserSpecialForDriver
Version |
NID
|
0.990-1.50 |
0x7440BCDA
|
3.60 |
not present
|
int sceKernelStrncpyFromUserSpecialForDriver(char *dst, const char *src, SceSize maxlen, SceSize *dst_size);
sceKernelStrncpyToUserSpecialForDriver
Version |
NID
|
0.990-1.50 |
0x369355F1
|
3.60 |
not present
|
int sceKernelStrncpyToUserSpecialForDriver(char *dst, const char *src, SceSize maxlen, SceSize *dst_size);
sceKernelUserStrncpyForDriver
Version |
NID
|
0.940-0.990 |
0xE6D5EFE4
|
1.50-3.60 |
not present
|
Return 0 on success.
int sceKernelUserStrncpyForDriver(char *dst, const char *src, SceSize maxlen);
sceKernelStrncpyFromUserForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0xDB3EC244
|
int sceKernelStrncpyFromUserForDriver(char *dst, const char *src, SceSize maxlen);
sceKernelProcStrncpyFromUserForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0x75AAF178
|
int sceKernelProcStrncpyFromUserForDriver(SceUID pid, char *dst, const char *src, SceSize maxlen);
sceKernelStrncpyToUserForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0x80BD6FEB
|
int sceKernelStrncpyToUserForDriver(char* dst, const char *src, SceSize maxlen);
sceKernelProcStrncpyToUserForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0xFED82F2D
|
Temp name was sceKernelMemcpyKernelToUserForPidUncheckedForDriver.
int sceKernelProcStrncpyToUserForDriver(SceUID pid, char *dst, const char *src, SceSize maxlen);
sceUIDOpenByNameForDriver
Version |
NID
|
0.931-0.990 |
0x796881D6
|
3.60 |
not present
|
Calls sceGUIDOpenByNameForDriver.
SceUID sceUIDOpenByNameForDriver(const char *name);
sceGUIDOpenByNameForDriver
Version |
NID
|
0.931-3.60 |
0xD76E7452
|
Temp name was sceKernelOpenUidForNameForDriver.
SceUID sceGUIDOpenByNameForDriver(const char *name);
sceKernelRemapMemBlockForDriver
Version |
NID
|
0.931-1.05 |
0x8D332AE1
|
1.50-3.60 |
not present
|
This can be used to remap RW memory as RX. To do this, first allocate a memory block of type SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RW
. After you are done writing, call sceKernelRemapMemBlockForDriver with type SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RX
.
int sceKernelRemapMemBlockForDriver(SceUID uid, SceKernelMemBlockType type);
sceKernelPartialRemapMemBlockForDriver
Version |
NID
|
0.990 |
not present
|
1.50-3.60 |
0xDFE2C8CB
|
Temp name was sceKernelRemapBlockForDriver, sceKernelRemapMemBlockForDriver.
This can be used to remap RW memory as RX. To do this, first allocate a memory block of type SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RW
. After you are done writing, call sceKernelPartialRemapMemBlockForDriver with type SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_RX
.
int sceKernelPartialRemapMemBlockForDriver(SceUID uid, SceKernelMemBlockType type);
scePUIDSetNameForDriver
Version |
NID
|
0.990-3.60 |
0x12624884
|
Temp name was sceKernelSetNameForPidForUidForDriver.
int scePUIDSetNameForDriver(SceUID pid, SceUID uid, const char *name);
scePUIDSetNameForDriver
Version |
NID
|
0.931-3.60 |
0x4CFA4100
|
Temp name was sceKernelSetObjectForUidForDriver.
int scePUIDSetNameForDriver(SceUID pid, const char *name);
sceKernelSwitchPidContextForDriver
Version |
NID
|
3.60 |
0x2D711589
|
int sceKernelSwitchPidContextForDriver(SceKernelProcessContext *new_context, SceKernelProcessContext *prev_context);
sceGUIDReleaseObjectForDriver
Version |
NID
|
0.990-3.60 |
0x149885C4
|
Temp name was sceKernelUidReleaseForDriver.
int sceGUIDReleaseObjectForDriver(SceUID uid);
sceKernelUnmapMemBlockForDriver
Version |
NID
|
3.60 |
0xFFCD9B60
|
int sceKernelUnmapMemBlockForDriver(SceUID uid);
sceKernelGetPhysicalMemoryTypeForDriver
Version |
NID
|
0.990-3.60 |
0x0AAA4FDD
|
Temp name was sceKernelVaddrMaybeGetSectionTypeForDriver
int sceKernelGetPhysicalMemoryTypeForDriver(void *vaddr);
some_memblock_operation
Version |
NID
|
3.60 |
0x13805CA8
|
int some_memblock_operation(SceUID uid, int a2, int a3, int a4);
some_memblock_operation
Version |
NID
|
3.60 |
0x16713BE8
|
Same as above but with different flags.
int some_memblock_operation(SceUID uid, int a2, int a3, int a4);
some_memblock_operation
Version |
NID
|
3.60 |
0x16713BE8
|
Same as above but with different flags.
int some_memblock_operation(SceUID uid, int a2, int a3, int a4);
some_memblock_operation
Version |
NID
|
3.60 |
0x4C584B29
|
Same as above but with different flags.
int some_memblock_operation(SceUID uid, int a2, int a3, int a4);
some_memblock_operation
Version |
NID
|
3.60 |
0x6C76AD89
|
Same as above but with different flags.
int some_memblock_operation(SceUID uid, int a2, int a3, int a4);
some_memblock_operation
Version |
NID
|
3.60 |
0x8C43B052
|
Same as above but with different flags.
int some_memblock_operation(SceUID uid, int a2, int a3, int a4);
sceKernelGetMemBlockProcessForDriver
Version |
NID
|
0.990-3.60 |
0x1EFC96EA
|
int sceKernelGetMemBlockProcessForDriver(SceUID uid);
memblock_related_operation
Version |
NID
|
3.60 |
0x64DBE472
|
int memblock_related_operation(SceUID uid, int a2);
memblock_related_operation
Version |
NID
|
3.60 |
0x987EE587
|
struct result_987ee587
{
int unk0;
int unk4;
int unk8;
int unkC;
int unk10;
};
int memblock_related_operation(SceUID uid, result_987ee587 *result);
SceSysmemForDriver_856FA2E3
Version |
NID
|
3.60 |
0x856FA2E3
|
Seems related to heap.
int SceSysmemForDriver_856FA2E3(SceUID uid);
sceKernelGetPhyMemInfoForDriver
Version |
NID
|
0.931-3.60 |
0x89475192
|
typedef struct SceKernelPhyMemInfo { // Size is 0xC on 0.931-3.60
SceSize size; // Size of this structure
uint32_t unk4;
uint32_t unk8;
} SceKernelPhyMemInfo;
// as of FW 0.931-0.990, pindex must be one of these values: 1 PhyPartKernel, 8 PageVenezia, 9 PageVIP
#define SCE_KERNEL_PHYMEMPART_KERNEL_INDEX 1
#define SCE_KERNEL_PHYMEMPART_LPDDR2MAIN_KERNEL_INDEX 6
#define SCE_KERNEL_PAGE_VENEZIA_INDEX 8
#define SCE_KERNEL_PAGE_VIP_INDEX 9
int sceKernelGetPhyMemInfoForDriver(uint32_t pindex, SceKernelPhyMemInfo *pInfo);
sceKernelVerifyHeapForDriver
Version |
NID
|
0.990-3.60 |
0xC50A9C0D
|
int sceKernelVerifyHeapForDriver(SceUID uid, void *ptr);
SceSysmemForDebugger
This library was removed somewhere between 1.692 and 3.60.
sceKernelPhysicalAddressSpaceStartForDebugger
Version |
NID
|
0.931 |
0x6AE2188F
|
3.60 |
not present
|
int sceKernelPhysicalAddressSpaceStartForDebugger(void);
sceKernelGetPhysicalAddressSpaceForDebugger
Version |
NID
|
0.931 |
0xE8905626
|
3.60 |
not present
|
In FW 0.931 calls sceKernelPhysicalAddressSpaceStartForDebugger.
void *sceKernelGetPhysicalAddressSpaceForDebugger(void);
sceKernelIsAccessibleRangeProcForDebugger
Version |
NID
|
0.990-1.50 |
0x01DFC193
|
3.60 |
not present
|
int sceKernelIsAccessibleRangeProcForDebugger(SceUID pid, SceUInt32 mode, const void *pVA, SceSize size);
sceKernelIsAccessibleRangeForDebugger
Version |
NID
|
0.931-1.50 |
0xD027761F
|
3.60 |
not present
|
int sceKernelIsAccessibleRangeForDebugger(SceUInt32 mode, const void *pVA, SceSize size);
SceSysmem
The SceSysmem library is responsible for both low-level and high-level memory management. There are functions for allocating raw blocks of memory (similar to Linux sbrk
) as well as functions for maintaining a heap-like structure (similar to malloc
) for kernel, however SceLibKernel implements a proper heap and that is used for user code.
sceKernelMapMemBlock
Version |
NID
|
0.990-1.69 |
0x7B763A21
|
3.60 |
not present
|
sceKernelRemapMemBlock
Version |
NID
|
0.990-1.69 |
0x3B29E0F5
|
3.60 |
not present
|
sceKernelPartialMapMemBlock
Version |
NID
|
0.990 |
not present
|
1.69 |
0xC0A59868
|
3.60 |
not present
|
sceKernelUnmapMemBlock
Version |
NID
|
0.990-1.69 |
0xEE30D976
|
3.60 |
not present
|
int sceKernelUnmapMemBlock(SceUID uid);
sceKernelPartialUnmapMemBlock
Version |
NID
|
0.990 |
not present
|
1.69 |
0xCA99929B
|
3.60 |
not present
|
sceKernelGetMemBlockInfoByRange
Version |
NID
|
0.990 |
not present
|
0.996-3.60 |
0x006F3DB4
|
/**
* @brief Get memory block informaton by virtual address range
* @param[in] vbase base address
* @param[in] vsize size
* @param[inout] pInfo information structure
*/
int sceKernelGetMemBlockInfoByRange(void *vbase, SceSize vsize, SceKernelMemBlockInfo *pInfo);
sceKernelGetMemBlockInfoByAddr
Version |
NID
|
0.990-3.60 |
0x4010AD65
|
/**
* @brief Get memory block information.
*
* Get information about a memory block.
* @param[in] vbase Base address
* @param[inout] pInfo Information structure
*/
int sceKernelGetMemBlockInfoByAddr(void *vbase, SceKernelMemBlockInfo *pInfo);
sceKernelGetSubbudgetInfo
Version |
NID
|
0.990 |
not present
|
1.69-3.60 |
0x832B4A65
|
typedef struct SceKernelSubbudgetInfo { // size is 0xC on FW 3.60
int size; // Size of this structure
int unk_4;
int unk_8;
} SceKernelSubbudgetInfo;
int sceKernelGetSubbudgetInfo(SceBool unk_boolean, SceKernelSubbudgetInfo *pInfo);
sceKernelGetFreeMemorySize
Version |
NID
|
1.69-3.60 |
0x87CC580B
|
/**
* Get free memory size
*/
int sceKernelGetFreeMemorySize(SceKernelFreeMemorySizeInfo *info);
sceKernelOpenMemBlock
Version |
NID
|
0.990-3.60 |
0x8EB8DFBB
|
// on FW <= 1.691, flags is not used
SceUID sceKernelOpenMemBlock(const char *name, int flags);
sceKernelFindMemBlockByAddr
Version |
NID
|
0.990-3.60 |
0xA33B99D1
|
/**
* Find memory block by virtual range (base address and size)
* If size == 0, API returns a memory block which contains 'start'
* If size > 0, API returns a memory block just fit range [start, start + size].
* @param[in] vaddr base address
* @param[in] size address size
* @retval >=SCE_OK block id
* @retval <SCE_OK error
*/
SceUID sceKernelFindMemBlockByAddr(void *vaddr, SceSize size);
sceKernelFreeMemBlock
Version |
NID
|
0.990-3.60 |
0xA91E15EE
|
/**
* Free memory block.
*
* @param[in] uid block uid
* @retval SCE_OK Success
* @retval <SCE_OK Error code
*/
int sceKernelFreeMemBlock(SceUID uid);
sceKernelFreeMemBlockForVM
Version |
NID
|
3.60 |
0x4EA13FEA
|
int sceKernelFreeMemBlockForVM(SceUID uid);
sceKernelCloseMemBlock
Version |
NID
|
0.990-3.60 |
0xB680E3A0
|
int sceKernelCloseMemBlock(SceUID uid);
sceKernelGetMemBlockBase
Version |
NID
|
0.996-3.60 |
0xB8EF5818
|
/**
* @brief Get mapped base address of memory block.
*
* Get base address of memory block.
* @param[in] uid block id
* @param[out] ppBase base address of memory block
* @retval SCE_OK success
* @retval <SCE_OK Error
*/
int sceKernelGetMemBlockBase(SceUID uid, void **ppBase);
sceKernelAllocMemBlock
Version |
NID
|
0.990-3.60 |
0xB9D5EBDE
|
/**
* Reserve a new memory block.
*
* The memory types that can be specified for type are as follows.
* - SCE_KERNEL_MEMBLOCK_TYPE_USER_RW
* - SCE_KERNEL_MEMBLOCK_TYPE_USER_RW_UNCACHE
* - SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_RW
* - SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_NC_RW
* - SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RW
*
* Allocate a memory block.
*
* @param[in] name Memory block name
* @param[in] vsize Memory block virtual size
* @param[in] flags Options
* @retval id UID of memory block
* @retval <SCE_OK Error code
*/
SceUID sceKernelAllocMemBlock(const char *name, SceKernelMemBlockType type, SceSize vsize, const struct SceKernelAllocMemBlockOpt *pOpt);
sceKernelAllocUnmapMemBlock
Version |
NID
|
3.60 |
0xEC636BCB
|
int sceKernelAllocUnmapMemBlock(char *name, SceSize size);
sceKernelOpenVMDomain
Version |
NID
|
1.69-3.60 |
0x9CA3EB2B
|
int sceKernelOpenVMDomain();
sceKernelSyncVMDomain
Version |
NID
|
1.69-3.60 |
0x19D2A81A
|
int sceKernelSyncVMDomain(SceUID uid, void *data, SceSize size);
sceKernelCloseVMDomain
Version |
NID
|
1.69-3.60 |
0xD6CA56CA
|
int sceKernelCloseVMDomain();
sceKernelAllocMemBlockForVM
Version |
NID
|
1.69-3.60 |
0xE2D7E137
|
SceUID sceKernelAllocMemBlockForVM(const char *name, SceSize vsize);
sceKernelCheckModelCapability
Version |
NID
|
3.60 |
0x0144FBD9
|
int sceKernelCheckModelCapability(int bit);
sceKernelGetModelForCDialog
Version |
NID
|
3.60 |
0xA2CB322F
|
int sceKernelGetModelForCDialog();
sceKernelGetModel
Version |
NID
|
3.60 |
0xD0D4F729
|
int sceKernelGetModel();
sceKernelIsPSVitaTV
Version |
NID
|
3.60 |
0x1453A5E5
|
int sceKernelIsPSVitaTV();
SceDipsw
sceKernelCheckDipsw
Version |
NID
|
1.69-3.60 |
0x1C783FB2
|
sceKernelClearDipsw
Version |
NID
|
1.69-3.60 |
0x800EDCC1
|
sceKernelSetDipsw
Version |
NID
|
1.69-3.60 |
0x817053D4
|
SceDipswForDriver
sceKernelCheckDipswForDriver
Version |
NID
|
3.60 |
0xA98FC2FD
|
int sceKernelCheckDipswForDriver(int no);
sceKernelGetDipswInfoForDriver
Version |
NID
|
3.60 |
0xB2AD48BE
|
return *(int *)(dipsw_addr + 4 * info_id);
0 0x40 0x4 DevKit CP timestamp 1
1 0x44 0x2 DevKit CP Version
2 0x46 0x2 DevKit CP Build ID
3 0x48 0x4 DevKit CP timestamp 2 (strangely also set on Retail and TesKit)
int sceKernelGetDipswInfoForDriver(int info_id);
sceKernelClearDipswForDriver
Version |
NID
|
3.60 |
0xF1F3E9FE
|
void sceKernelClearDipswForDriver(int no);
sceKernelSetDipswForDriver
Version |
NID
|
3.60 |
0x82E45FBF
|
void sceKernelSetDipswForDriver(int no);
SceUartForKernel
sceKernelUartInitForKernel
Version |
NID
|
0.9313.60 |
0xA9C74212
|
Temp name was sceUartInitForKernel.
It initializes the clock generator registers for the port
.
The default baud rate is 115200 for ports 0-5 and 250000 for port 6.
int sceKernelUartInitForKernel(int port);
sceKernelUartReadAvailableForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0x38DB7629
|
Temp name was sceUartReadAvailableForKernel.
Returns the number of words available to read from the read FIFO.
int sceKernelUartReadAvailableForKernel(int port);
sceKernelUartReadForKernel
Version |
NID
|
0.931-3.60 |
0x9BBF1255
|
Temp name was sceUartReadForKernel.
int sceKernelUartReadForKernel(int port);
sceKernelUartWriteForKernel
Version |
NID
|
0.931-3.60 |
0x41973874
|
Temp name was sceUartWriteForKernel.
int sceKernelUartWriteForKernel(int port, char c);
sceKernelUartPutcharForKernel
Version |
NID
|
0.931-0.990 |
0xAF243C6A
|
3.60 |
not present
|
int sceKernelUartPutcharForKernel(char c);
SceCpu
This library provides wrapper for much ARM CP15 co-processor access as well as low level support of spinlocks and other synchronization primitives.
sceKernelCpuGetCpuId
Version |
NID
|
1.69-3.60 |
0x2704CFEE
|
Return the CPU ID of the current core.
int sceKernelCpuGetCpuId(void);
SceCpuForKernel
sceKernelSendEventForKernel
Version |
NID
|
0.990 |
0x45885327
|
3.60 |
not present
|
void sceKernelSendEventForKernel(void);
sceKernelWaitForEventForKernel
Version |
NID
|
0.931 |
0xD2629465
|
3.60 |
not present
|
void sceKernelWaitForEventForKernel(void);
sceKernelPrintCpuModeForKernel
Version |
NID
|
0.931 |
0xDC99515C
|
3.60 |
not present
|
sceKernelTlsKernelSetForKernel
Version |
NID
|
0.940 |
0x7A180AA4
|
3.60 |
not present
|
// thread_index must be < 8
void *sceKernelTlsKernelSetForKernel(SceUInt32 thread_index, void *tls);
sceKernelTlsKernelGetForKernel
Version |
NID
|
0.940 |
0x28E080BC
|
3.60 |
not present
|
// thread_index must be < 8
void *sceKernelTlsKernelGetForKernel(SceUInt32 thread_index);
sceKernelRoundupDCacheLineForKernel
Version |
NID
|
0.990 |
0xED512F50
|
3.60 |
not present
|
Calls the function previously registered by sceKernelGetRoundupDCacheLineFuncForKernel.
int sceKernelRoundupDCacheLineForKernel(int a1);
sceKernelGetRoundupDCacheLineFuncForKernel
Version |
NID
|
0.990 |
0x66C3AA93
|
3.60 |
not present
|
Uses CTR and CTR-DMINLINE to determine which function to return.
(int sceKernelRoundupDCacheLineForKernel(int) *) sceKernelGetRoundupDCacheLineFuncForKernel(void);
sceKernelReadUser8ForKernel
Version |
NID
|
0.990 |
0x942B92C3
|
3.60 |
not present
|
int sceKernelReadUser8ForKernel(uint8_t *dest, uint8_t *psrc);
sceKernelReadUser16ForKernel
Version |
NID
|
0.990 |
maybe present
|
3.60 |
not present
|
int sceKernelReadUser16ForKernel(uint16_t *dest, uint16_t *psrc);
sceKernelReadUser32ForKernel
Version |
NID
|
0.990 |
0x6091086F
|
3.60 |
not present
|
int sceKernelReadUser32ForKernel(uint32_t *dest, uint32_t *psrc);
sceKernelWriteUser8ForKernel
Version |
NID
|
0.990 |
0x13B7B151
|
3.60 |
not present
|
int sceKernelWriteUser8ForKernel(uint8_t *dest, uint8_t val);
sceKernelWriteUser16ForKernel
Version |
NID
|
0.990 |
maybe present
|
3.60 |
not present
|
int sceKernelWriteUser16ForKernel(uint16_t *dest, uint16_t val);
sceKernelWriteUser32ForKernel
Version |
NID
|
0.990 |
0x101894E0
|
3.60 |
not present
|
int sceKernelWriteUser32ForKernel(uint32_t *dest, uint32_t val);
sceKernelVMRead8ForKernel
Version |
NID
|
0.990 |
0xA2F0FE9D
|
3.60 |
not present
|
int sceKernelVMRead8ForKernel(uint8_t *dest, uint8_t *psrc);
sceKernelVMRead16ForKernel
Version |
NID
|
0.990 |
0xF31D4D10
|
3.60 |
not present
|
int sceKernelVMRead16ForKernel(uint16_t *dest, uint16_t *psrc);
sceKernelVMRead32ForKernel
Version |
NID
|
0.990 |
0x316574B1
|
3.60 |
not present
|
int sceKernelVMRead32ForKernel(uint32_t *dest, uint32_t *psrc);
sceKernelVMWrite8ForKernel
Version |
NID
|
0.931 |
0xA3C65664
|
3.60 |
not present
|
int sceKernelVMWrite8ForKernel(uint8_t *dest, uint8_t val);
sceKernelVMWrite16ForKernel
Version |
NID
|
0.931 |
0xBF38A460
|
3.60 |
not present
|
int sceKernelVMWrite16ForKernel(uint16_t *dest, uint16_t val);
sceKernelVMWrite32ForKernel
Version |
NID
|
0.931 |
0x04D129B2
|
3.60 |
not present
|
int sceKernelVMWrite32ForKernel(uint32_t *dest, uint32_t val);
sceKernelMMUIsValidMapForKernel
Version |
NID
|
0.931 |
0x4891F923
|
3.60 |
not present
|
int sceKernelMMUIsValidMapForKernel(SceKernelMMUContext *context, const void *vbase, SceSize size, const void *pbase);
sceKernelMMUIsValidUnmapForKernel
Version |
NID
|
0.931 |
0x60EA8433
|
3.60 |
not present
|
int sceKernelMMUIsValidUnmapForKernel(SceKernelMMUContext *context, const void *vbase, SceSize size);
sceKernelMMUL1GetInfoForKernel
Version |
NID
|
0.931-0.990 |
0x9D346F87
|
3.60 |
not present
|
int sceKernelMMUL1GetInfoForKernel(int a1, void *addr, void *pInfo);
sceKernelMMUL2GetInfoForKernel
Version |
NID
|
0.931-0.990 |
0x247629A7
|
3.60 |
not present
|
int sceKernelMMUL2GetInfoForKernel(int a1, void *addr, void *pInfo);
sceKernelMMUMapSectionsForKernel
Version |
NID
|
0.931-0.990 |
0x868B471A
|
3.60 |
not present
|
int sceKernelMMUMapSectionsForKernel(const void *ttbr, SceKernelMemoryType code, void *vaddr, SceSize vsize, void *paddr);
sceKernelMMUMapSupersectionsForKernel
Version |
NID
|
0.931-0.990 |
0x0D9DA15F
|
3.60 |
not present
|
int sceKernelMMUMapSupersectionsForKernel(const void *ttbr, SceKernelMemoryType code, void *vaddr, SceSize vsize, void *paddr);
sceKernelMMUMapSmallPagesForKernel
Version |
NID
|
0.931-0.990 |
0xB953E022
|
3.60 |
not present
|
int sceKernelMMUMapSmallPagesForKernel(const void *table, SceKernelMemoryType code, void *vbase, SceUInt32 voffset, SceSize vsize, void *paddr);
sceKernelMMUMapSmallPageForKernel
Version |
NID
|
0.931-0.990 |
0xCC7C16F8
|
3.60 |
not present
|
int sceKernelMMUMapSmallPageForKernel(const void *table, SceKernelMemoryType code, void *vbase, SceUInt32 voffset, void *paddr);
sceKernelMMUMapLargePagesForKernel
Version |
NID
|
0.931-0.990 |
0x78D32D38
|
3.60 |
not present
|
int sceKernelMMUMapLargePagesForKernel(const void *table, SceKernelMemoryType code, void *vbase, SceUInt32 voffset, SceSize vsize, void *paddr);
sceKernelMMUUnmapSectionsWithFlagsForKernel
Version |
NID
|
0.931-0.990 |
0xFC657FD1
|
3.60 |
not present
|
int sceKernelMMUUnmapSectionsWithFlagsForKernel(const void *table, uint32_t maybe_ttbr0, void *vbase, SceSize vsize, SceUInt32 flags);
sceKernelMMUUnmapSupersectionsWithFlagsForKernel
Version |
NID
|
0.931-0.990 |
0x0E4D29C6
|
3.60 |
not present
|
int sceKernelMMUUnmapSupersectionsWithFlagsForKernel(const void *table, uint32_t maybe_ttbr0, void *vbase, SceSize vsize, SceUInt32 flags);
sceKernelMMUUnmapSmallPagesWithFlagsForKernel
Version |
NID
|
0.931-0.990 |
0x11EBA8CE
|
3.60 |
not present
|
int sceKernelMMUUnmapSmallPagesWithFlagsForKernel(const void *table, uint32_t maybe_ttbr0, void *vbase, SceUInt32 voffset, SceSize vsize, SceUInt32 flags);
sceKernelMMUUnmapLargePagesWithFlagsForKernel
Version |
NID
|
0.931-0.990 |
0x44319918
|
3.60 |
not present
|
int sceKernelMMUUnmapLargePagesWithFlagsForKernel(const void *table, uint32_t maybe_ttbr0, void *vbase, SceUInt32 voffset, SceSize vsize, SceUInt32 flags);
sceKernelMMUL1VAtoPABySWForKernel
Version |
NID
|
0.990 |
0x8E4ECF17
|
3.60 |
not present
|
int sceKernelMMUL1VAtoPABySWForKernel(const void *table, void *pVA, void **pPA);
sceKernelMMUSetL2PageTableForKernel
Version |
NID
|
0.990 |
0xAECA0820
|
3.60 |
not present
|
int sceKernelMMUSetL2PageTableForKernel(const void *ttbr, const void *map, const void *pbase);
sceKernelMMUUnsetL2PageTableForKernel
Version |
NID
|
0.990 |
0xCB519DF3
|
3.60 |
not present
|
int sceKernelMMUUnsetL2PageTableForKernel(const void *ttbr, const void *PTE);
SceCpuForKernel_CA4124DE
Version |
NID
|
0.990 |
0xCA4124DE
|
3.60 |
not present
|
Returns 1, 2 or 6 based on some page/section properties.
int SceCpuForKernel_CA4124DE(const void *table, void *pVA, void **pPA);
sceKernelMMUGetContextForKernel
Version |
NID
|
0.931 |
0x211B89DA
|
3.60 |
not present
|
Temp name was sceKernelCpuSaveContextForKernel.
typedef struct SceKernelMMUContext { // size is 0xC on FW 0.931
uint32_t unk_0;
uint32_t unk_4;
uint32_t unk_8;
} SceKernelMMUContext;
int sceKernelMMUGetContextForKernel(SceKernelMMUContext *context);
sceKernelMMUChangeContextForKernel
Version |
NID
|
0.931 |
0x0A4F0FB9
|
3.60 |
not present
|
Temp name was sceKernelCpuRestoreContextForKernel.
int sceKernelMMUChangeContextForKernel(SceKernelMMUContext *context);
sceKernelMMUVAtoPAWithModeForKernel
Version |
NID
|
0.931-3.60 |
0x67343A07
|
Temp name was sceKernelCpuGetPaddrWithMaskForKernel.
mode (maskPAR) is usually 0x33, sometimes 2.
int sceKernelMMUVAtoPAWithModeForKernel(int mode, void *pVA, void **ppPA);
sceKernelMMUCheckRangeWithModeForKernel
Version |
NID
|
0.931 |
0xCCDA3B8C
|
3.60 |
not present
|
Return 0 if all pages are valid, < 0 else.
int sceKernelMMUCheckRangeWithModeForKernel(int mode, void *start, SceSize size);
sceKernelMMUVAtoPAForKernel
Version |
NID
|
0.931-3.60 |
0x2A46E800
|
Temp name was sceKernelCpuGetPaddrForKernel.
Uses mode (maskPAR) 0x33.
This will write the physical address for a virtual address pVA
to memory pointed to by pPA
.
Returns <0 on error, values >=0 indicate success.
int sceKernelMMUVAtoPAForKernel(void *pVA, void **pPA);
sceKernelCpuGetCONTEXTIDRForKernel
Version |
NID
|
3.60 |
0x5B6B3274
|
The CONTEXTIDR, bits [31:0] contain the process ID number.
return (unsigned __int8)__mrc(15, 0, 13, 0, 1); // Read CONTEXTIDR (Context ID Register)
void sceKernelCpuGetCONTEXTIDRForKernel(void);
sceKernelCpuUpdateSCTLRForKernel
Version |
NID
|
3.60 |
0x04008CF7
|
int result;
result = __mrc(15, 0, 1, 0, 0) | 0x1806; // Read SCTLR (System Control Register)
__mcr(15, 0, result, 1, 0, 0); // Write SCTLR (System Control Register)
return result;
void sceKernelCpuUpdateSCTLRForKernel(void); // SCTLR (System Control Register)
sceKernelCpuBranchPredictorInvalidateAllISForKernel
Version |
NID
|
3.60 |
0x1BB2BB8D
|
void sceKernelCpuBranchPredictorInvalidateAllISForKernel(void); // BPIALLIS, Branch predictor invalidate all (IS)
sceKernelCpuBranchPredictorInvalidateAllForKernel
Version |
NID
|
3.60 |
0x4C4C7D6B
|
void sceKernelCpuBranchPredictorInvalidateAllForKernel(void); // BPIALL, Branch predictor invalidate all
sceKernelCpuDcacheInvalidateMVACForKernel
Version |
NID
|
3.60 |
0x470EAE1E
|
void sceKernelCpuDcacheInvalidateMVACForKernel(int mva); // DCIMVAC, Data cache invalidate by MVA (PoC)
sceKernelCpuDcacheInvalidateMVACRangeForKernel
Version |
NID
|
3.60 |
0x583F30D1
|
void sceKernelCpuDcacheInvalidateMVACRangeForKernel(void *addr, unsigned int size); // DCIMVAC, Data cache invalidate by MVA (PoC)
sceKernelDcacheWritebackInvalidateRangeForKernel
Version |
NID
|
0.931-3.60 |
0x6BA2E51C
|
Temp name was sceKernelCpuDcacheCleanInvalidateMVACRangeForKernel, sceKernelCpuDcacheWritebackInvalidateRangeForKernel.
// DCCIMVAC, Data cache clean and invalidate by MVA (PoC)
void sceKernelDcacheWritebackInvalidateRangeForKernel(const void *addr, unsigned int size);
sceKernelCpuDcacheInvalidateSWForKernel
Version |
NID
|
3.60 |
0x2F3BF020
|
void sceKernelCpuDcacheInvalidateSWForKernel(void); // DCISW, Data cache invalidate by set/way (all the cache)
sceKernelCpuDcacheCleanSWForKernel
Version |
NID
|
3.60 |
0x73A30DB2
|
void sceKernelCpuDcacheCleanSWForKernel(void); // DCCSW, Data cache clean by set/way (all the cache)
sceKernelCpuDcacheCleanInvalidateSWForKernel
Version |
NID
|
3.60 |
0x76DAB4D0
|
void sceKernelCpuDcacheCleanInvalidateSWForKernel(void); // DCCISW, Data cache clean and invalidate by set/way (all the cache)
sceKernelCpuDcacheCleanMVACForKernel
Version |
NID
|
3.60 |
0xF7159B55
|
void sceKernelCpuDcacheCleanMVACForKernel(int mva); // DCCMVAC, Data cache clean by MVA (PoC)
sceKernelCpuDcacheCleanMVACRangeForKernel
Version |
NID
|
3.60 |
0xC5C1EE4E
|
void sceKernelCpuDcacheCleanMVACRangeForKernel(void *addr, unsigned int size); // DCCMVAC, Data cache clean by MVA (PoC)
sceKernelCpuDcacheCleanInvalidateMVACForKernel
Version |
NID
|
3.60 |
0xC8E8C9E9
|
void sceKernelCpuDcacheCleanInvalidateMVACForKernel(int mva); // DCCIMVAC, Data cache clean and invalidate by MVA (PoC)
sceKernelCpuIcacheInvalidateAllUISForKernel
Version |
NID
|
3.60 |
0x264DA250
|
void sceKernelCpuIcacheInvalidateAllUISForKernel(void); // ICIALLUIS, Instruction cache invalidate all (PoU, IS)
sceKernelCpuIcacheInvalidateAllUForKernel
Version |
NID
|
3.60 |
0xAEE0B489
|
void sceKernelCpuIcacheInvalidateAllUForKernel(void); // ICIALLU, Instruction cache invalidate all (PoU)
sceKernelCpuIcacheInvalidateMVAURangeForKernel
Version |
NID
|
0.931-3.60 |
0xF4C7F578
|
Temp name was sceKernelCpuIcacheInvalidateRangeForKernel.
// ICIMVAU, Instruction cache invalidate by MVA (PoU)
void sceKernelCpuIcacheInvalidateMVAURangeForKernel(void *start, SceSize size);
sceKernelIcacheInvalidateRangeForKernel
Version |
NID
|
0.931-3.60 |
0x19F17BD0
|
3.65-3.68 |
0x73E895EA
|
Temp name was sceKernelCpuIcacheAndL2InvalidateMVAURangeForKernel, sceKernelCpuIcacheAndL2WritebackInvalidateRangeForKernel.
int sceKernelIcacheInvalidateRangeForKernel(void *start, SceSize size);
sceKernelCpuPreloadEngineKill
Version |
NID
|
3.60 |
0xD0D85FF8
|
- NSACR (Non-Secure Access Control Register)
- Test bit NS access to the Preload Engine resources
- [>] PLEFF (Preload Engine FIFO flush operation)
- [>] PLEKC (Preload Engine kill channel operation)
- [<] PLEASR (Preload Engine Activity Status Register)
int sceKernelCpuPreloadEngineKill(void);
sceKernelCpuUnrestrictedMemcpyForKernel
Version |
NID
|
1.69-3.60 |
0x8C683DEC
|
Unrestricted memcpy by first setting the DACR
register to 0xFFFF0000
and then doing a memcpy.
int sceKernelCpuUnrestrictedMemcpyForKernel(void *dest, const void *src, size_t len);
sceKernelCpuForKernel_9B8173F4
Version |
NID
|
3.60 |
0x9B8173F4
|
Might be get_vaddr_memory_type.
Return value can be:
- 2
- 8
- 0x40
- 0x80
- 0xD0
- 0x80022007 (SCE_KERNEL_ERROR_VA2PA_FAULT)
int sceKernelCpuForKernel_9B8173F4(void *vaddr);
SceCpuForKernel_A5C9DBBA
Version |
NID
|
3.60 |
0xA5C9DBBA
|
Changes addr.cpuId and addr.unk_4.
int SceCpuForKernel_A5C9DBBA(CpuUnkStruct *addr);
SceCpuForKernel_9D72DD1B
Version |
NID
|
0.931-3.60 |
0x9D72DD1B
|
Overrides cpuId in addr structure. Maybe changes core.
int SceCpuForKernel_9D72DD1B(CpuUnkStruct *addr, int cpuid);
SceCpuForKernel_4CD4D921
Version |
NID
|
0.931-3.60 |
0x4CD4D921
|
*(uint32_t *)addr = 1;
*((uint16_t *)addr + 2) = 4;
*((uint16_t *)addr + 3) = 4;
aka write 01 00 00 00 04 00 04 00 at addr.
typedef struct CpuUnkStruct {
uint32_t unk_0; // ex: 1
uint16_t unk_4; // ex: 4, is decremented
uint16_t cpuId; // 0, 1, 2 or 3 for actual CPU ids, 4 for disabled
} CpuUnkStruct;
int SceCpuForKernel_4CD4D921(CpuUnkStruct *addr);
SceCpuForKernel_43CC6E20
Version |
NID
|
3.60 |
0x43CC6E20
|
DACR off
Does some memory copies between the args.
int SceCpuForKernel_43CC6E20(void *addr, int a2, int a3, int a4);
sceCpuUnrestrictedBzeroIntForKernel
Version |
NID
|
3.60 |
0x76EB0DD4
|
DACR off
int sceCpuUnrestrictedBzeroIntForKernel(int *addr);
SceCpuForKernel_337473B5
Version |
NID
|
0.931-3.60 |
0x337473B5
|
DACR off
If addr.unk_0 equals 0, changes addr.unk_0 to new_val, else increase addr.unk_4.
int SceCpuForKernel_337473B5(CpuUnkStruct *addr, unsigned int new_val);
sceKernelCpuAtomicSubIfGreater64ForKernel
Version |
NID
|
3.60 |
0x37FBFD12
|
DACR is not disabled
int sceKernelCpuAtomicSubIfGreater64ForKernel(unsigned long long *a1, unsigned int a2);
sceKernelCpuAtomicLimit64ForKernel
Version |
NID
|
3.60 |
0x6190A018
|
DACR is not disabled
int sceKernelCpuAtomicLimit64ForKernel(unsigned long long *result, int limit);
sceKernelCpuAtomicAdd32AndGet64InRangeForKernel
Version |
NID
|
3.60 |
0xD8A7216C
|
DACR is not disabled
int sceKernelCpuAtomicAdd32AndGet64InRangeForKernel(unsigned long long *val, int add_val, int limit);
sceKernelCpuAtomicAdd32AndGet64InHiLoRangeForKernel
Version |
NID
|
3.60 |
0xD37AABE5
|
DACR is not disabled
int sceKernelCpuAtomicAdd32AndGet64InHiLoRangeForKernel(unsigned long long *val, int add_val, int limit);
sceKernelCpuAtomicGet32AndSet64ForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0x4553FBDE
|
DACR is not disabled
int sceKernelCpuAtomicGet32AndSet64ForKernel(unsigned long long *result, int src);
sceKernelCpuAtomicGet32AndSet64_2ForKernel
Version |
NID
|
0.990 |
not present
|
3.60 |
0x7FB4E7AC
|
Exact same code as SceCpuForKernel_4553FBDE.
DACR is not disabled
int sceKernelCpuAtomicGet32AndSet64_2ForKernel(unsigned long long *result, int src);
sceKernelCpuAtomicDecIfLowPositive32ForKernel
Version |
NID
|
3.60 |
0x8510FA52
|
DACR is not disabled
int sceKernelCpuAtomicDecIfLowPositive32ForKernel(unsigned int *addr);
sceKernelCpuAtomicHiLoAlgorithmForKernel
Version |
NID
|
3.60 |
0x5F64E5ED
|
DACR is not disabled
Returns current value (high + low), and sets it to max_low.
int sceKernelCpuAtomicHiLoAlgorithmForKernel(SceUInt32 *max_low);
sceKernelCpuAtomicAddAndGetPositive32InRangeForKernel
Version |
NID
|
3.60 |
0x98E91C1C
|
DACR is not disabled
If val is negative, returns 2 and does not override val.
int sceKernelCpuAtomicAddAndGetPositive32InRangeForKernel(int *val, int add_val, int limit);
SceCpuForKernel_6C7E7B57
Version |
NID
|
0.931-3.60 |
0x6C7E7B57
|
return pbase | 0x4A;
int SceCpuForKernel_6C7E7B57(const void *pbase);
SceCpuForKernel_AED8F8D7
Version |
NID
|
0.931 |
0xAED8F8D7
|
3.60 |
not present
|
Initialize TTBR.
int SceCpuForKernel_AED8F8D7(const void *ttbr);
SceCpuForKernel_9A3281C0
Version |
NID
|
3.60 |
0x9A3281C0
|
Gets addresses to 2 functions.
// On 3.60, functions addresses are as following:
*func0 = 0x810227EC;
*func1 = 0x81022B40;
return result;
int SceCpuForKernel_9A3281C0(void **func0, void **func1);
SceCpuForKernel_9CB82EB0
Version |
NID
|
3.60 |
0x9CB82EB0
|
return;
int SceCpuForKernel_9CB82EB0(void);
SceCpuForDriver
sceKernelRoundupDCacheLine3ForDriver
Version |
NID
|
0.990 |
0xF0849812
|
3.60 |
not present
|
int sceKernelRoundupDCacheLine3ForDriver(int a1);
sceKernelAbortForDriver
Version |
NID
|
0.931-0.990 |
0x6DCA6903
|
3.60 |
not present
|
void sceKernelAbortForDriver(void);
sceKernelCpuGetCpuIdForDriver
Version |
NID
|
0.990-3.60 |
0x5E4D5DE1
|
Return the CPU ID of the current core.
int sceKernelCpuGetCpuIdForDriver(void);
sceKernelCpuAtomicAddAndGet8ForDriver
Version |
NID
|
3.60 |
0x1E850481
|
unsigned char sceKernelCpuAtomicAddAndGet8ForDriver (unsigned char *addr, unsigned char val);
sceKernelCpuAtomicAddAndGet16ForDriver
Version |
NID
|
3.60 |
0x59F74E94
|
unsigned short sceKernelCpuAtomicAddAndGet16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicAddAndGet32ForDriver
Version |
NID
|
3.60 |
0x5F6A8743
|
unsigned int sceKernelCpuAtomicAddAndGet32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicAddAndGet64ForDriver
Version |
NID
|
3.60 |
0x4E459A03
|
unsigned long long sceKernelCpuAtomicAddAndGet64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicAddUnless8ForDriver
Version |
NID
|
3.60 |
0x5CC62CEC
|
int sceKernelCpuAtomicAddUnless8ForDriver(unsigned char *addr, unsigned char val, unsigned char cmp);
sceKernelCpuAtomicAddUnless16ForDriver
Version |
NID
|
3.60 |
0x0F84AFE9
|
int sceKernelCpuAtomicAddUnless16ForDriver(unsigned short *addr, unsigned short val, unsigned short cmp);
sceKernelCpuAtomicAddUnless32ForDriver
Version |
NID
|
3.60 |
0x1F157DC3
|
int sceKernelCpuAtomicAddUnless32ForDriver(unsigned int *addr, unsigned int val, unsigned int cmp);
sceKernelCpuAtomicAddUnless64ForDriver
Version |
NID
|
3.60 |
0x06CCFA4B
|
int sceKernelCpuAtomicAddUnless64ForDriver(unsigned long long *addr, int unused, unsigned long long val, unsigned long long cmp);
sceKernelCpuAtomicAndAndGet8ForDriver
Version |
NID
|
3.60 |
0x32B62B1A
|
unsigned char sceKernelCpuAtomicAndAndGet8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicAndAndGet16ForDriver
Version |
NID
|
3.60 |
0xB281D52A
|
unsigned short sceKernelCpuAtomicAndAndGet16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicAndAndGet32ForDriver
Version |
NID
|
3.60 |
0xDF899E4B
|
unsigned int sceKernelCpuAtomicAndAndGet32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicAndAndGet64ForDriver
Version |
NID
|
3.60 |
0xD18E7B54
|
unsigned long long sceKernelCpuAtomicAndAndGet64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicClearAndGet8ForDriver
Version |
NID
|
3.60 |
0x8E538AB5
|
unsigned char sceKernelCpuAtomicClearAndGet8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicClearAndGet16ForDriver
Version |
NID
|
3.60 |
0x6B050D7C
|
unsigned short sceKernelCpuAtomicClearAndGet16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicClearAndGet32ForDriver
Version |
NID
|
3.60 |
0x78C1F148
|
unsigned int sceKernelCpuAtomicClearAndGet32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicClearAndGet64ForDriver
Version |
NID
|
3.60 |
0x2149CD4C
|
unsigned long long sceKernelCpuAtomicClearAndGet64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicClearMask8ForDriver
Version |
NID
|
3.60 |
0x1B3336B0
|
void sceKernelCpuAtomicClearMask8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicClearMask16ForDriver
Version |
NID
|
3.60 |
0x1BE58599
|
void sceKernelCpuAtomicClearMask16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicClearMask32ForDriver
Version |
NID
|
3.60 |
0x4AE1BCC0
|
void sceKernelCpuAtomicClearMask32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicClearMask64ForDriver
Version |
NID
|
3.60 |
0x55760309
|
void sceKernelCpuAtomicClearMask64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicCompareAndSet8ForDriver
Version |
NID
|
3.60 |
0x3627F4E0
|
unsigned char sceKernelCpuAtomicCompareAndSet8ForDriver(unsigned char *addr, unsigned char cmp, unsigned char val);
sceKernelCpuAtomicCompareAndSet16ForDriver
Version |
NID
|
3.60 |
0x6F63F56D
|
unsigned short sceKernelCpuAtomicCompareAndSet16ForDriver(unsigned short *addr, unsigned short cmp, unsigned short val);
sceKernelCpuAtomicCompareAndSet32ForDriver
Version |
NID
|
3.60 |
0xCDA96E81
|
unsigned int sceKernelCpuAtomicCompareAndSet32ForDriver(unsigned int *addr, unsigned int cmp, unsigned int val);
sceKernelCpuAtomicCompareAndSet64ForDriver
Version |
NID
|
3.60 |
0x4B527009
|
unsigned long long sceKernelCpuAtomicCompareAndSet64ForDriver(unsigned long long *addr, int unused, unsigned long long cmp, unsigned long long val);
sceKernelCpuAtomicDecIfPositive8ForDriver
Version |
NID
|
3.60 |
0x45153D4E
|
unsigned char sceKernelCpuAtomicDecIfPositive8ForDriver(unsigned char *addr);
sceKernelCpuAtomicDecIfPositive16ForDriver
Version |
NID
|
3.60 |
0x9A693F5B
|
unsigned short sceKernelCpuAtomicDecIfPositive16ForDriver(unsigned short *addr);
sceKernelCpuAtomicDecIfPositive32ForDriver
Version |
NID
|
3.60 |
0x2A71B03C
|
unsigned int sceKernelCpuAtomicDecIfPositive32ForDriver(unsigned int *addr);
sceKernelCpuAtomicDecIfPositive64ForDriver
Version |
NID
|
3.60 |
0x267D0B33
|
unsigned long long sceKernelCpuAtomicDecIfPositive64ForDriver(unsigned long long *addr);
sceKernelCpuAtomicGetAndAdd8ForDriver
Version |
NID
|
3.60 |
0xFCDCD4DE
|
unsigned char sceKernelCpuAtomicGetAndAdd8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicGetAndAdd16ForDriver
Version |
NID
|
3.60 |
0x225DF91A
|
unsigned short sceKernelCpuAtomicGetAndAdd16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicGetAndAdd32ForDriver
Version |
NID
|
3.60 |
0x341B6E81
|
unsigned int sceKernelCpuAtomicGetAndAdd32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicGetAndAdd64ForDriver
Version |
NID
|
3.60 |
0x043FD446
|
unsigned long long sceKernelCpuAtomicGetAndAdd64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicGetAndAnd8ForDriver
Version |
NID
|
3.60 |
0xD8E675C0
|
unsigned char sceKernelCpuAtomicGetAndAnd8ForDriver(unsigned char *a1, unsigned char a2);
sceKernelCpuAtomicGetAndAnd16ForDriver
Version |
NID
|
3.60 |
0x4A820BC5
|
unsigned short sceKernelCpuAtomicGetAndAnd16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicGetAndAnd32ForDriver
Version |
NID
|
3.60 |
0x10EB35EB
|
unsigned int sceKernelCpuAtomicGetAndAnd32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicGetAndAnd64ForDriver
Version |
NID
|
3.60 |
0x18A17E07
|
unsigned long long sceKernelCpuAtomicGetAndAnd64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicGetAndClear8ForDriver
Version |
NID
|
3.60 |
0x382D1466
|
unsigned char sceKernelCpuAtomicGetAndClear8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicGetAndClear16ForDriver
Version |
NID
|
3.60 |
0x8E9C086D
|
unsigned short sceKernelCpuAtomicGetAndClear16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicGetAndClear32ForDriver
Version |
NID
|
3.60 |
0xE36F3A46
|
unsigned int sceKernelCpuAtomicGetAndClear32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicGetAndClear64ForDriver
Version |
NID
|
3.60 |
0x88BA6002
|
unsigned long long sceKernelCpuAtomicGetAndClear64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicGetAndOr8ForDriver
Version |
NID
|
3.60 |
0xBDF6F8E4
|
unsigned char sceKernelCpuAtomicGetAndOr8ForDriver(unsigned char *var, unsigned char value);
sceKernelCpuAtomicGetAndOr16ForDriver
Version |
NID
|
3.60 |
0x004F09D1
|
unsigned short sceKernelCpuAtomicGetAndOr16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicGetAndOr32ForDriver
Version |
NID
|
3.60 |
0x2A40BB93
|
unsigned int sceKernelCpuAtomicGetAndOr32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicGetAndOr64ForDriver
Version |
NID
|
3.60 |
0xCB73D6D5
|
unsigned long long sceKernelCpuAtomicGetAndOr64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicGetAndSet8ForDriver
Version |
NID
|
3.60 |
0x29599FC8
|
unsigned char sceKernelCpuAtomicGetAndSet8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicGetAndSet16ForDriver
Version |
NID
|
3.60 |
0x085532C8
|
unsigned short sceKernelCpuAtomicGetAndSet16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicGetAndSet32ForDriver
Version |
NID
|
3.60 |
0x0EE04C03
|
unsigned int sceKernelCpuAtomicGetAndSet32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicGetAndSet64ForDriver
Version |
NID
|
3.60 |
0xD2DEE625
|
unsigned long long sceKernelCpuAtomicGetAndSet64ForDriver(unsigned long long *addr, int unused, unsigned int lo_val, unsigned int hi_val);
sceKernelCpuAtomicGetAndSub8ForDriver
Version |
NID
|
3.60 |
0x7B43D0D7
|
unsigned char sceKernelCpuAtomicGetAndSub8ForDriver (unsigned char *addr, unsigned char val);
sceKernelCpuAtomicGetAndSub16ForDriver
Version |
NID
|
3.60 |
0x3EE9B5B8
|
unsigned short sceKernelCpuAtomicGetAndSub16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicGetAndSub32ForDriver
Version |
NID
|
3.60 |
0xF891CF2A
|
unsigned int sceKernelCpuAtomicGetAndSub32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicGetAndSub64ForDriver
Version |
NID
|
3.60 |
0xA7585370
|
unsigned long long sceKernelCpuAtomicGetAndSub64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicGetAndXor8ForDriver
Version |
NID
|
3.60 |
0xBAF47F7B
|
unsigned char sceKernelCpuAtomicGetAndXor8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicGetAndXor16ForDriver
Version |
NID
|
3.60 |
0x711801E6
|
unsigned short sceKernelCpuAtomicGetAndXor16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicGetAndXor32ForDriver
Version |
NID
|
3.60 |
0x77E34309
|
unsigned int sceKernelCpuAtomicGetAndXor32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicGetAndXor64ForDriver
Version |
NID
|
3.60 |
0xE212ECAD
|
unsigned long long sceKernelCpuAtomicGetAndXor64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicOrAndGet8ForDriver
Version |
NID
|
3.60 |
0x5D515F1B
|
unsigned char sceKernelCpuAtomicOrAndGet8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicOrAndGet16ForDriver
Version |
NID
|
3.60 |
0xADD39B84
|
unsigned short sceKernelCpuAtomicOrAndGet16ForDriver (unsigned short *addr, unsigned short val);
sceKernelCpuAtomicOrAndGet32ForDriver
Version |
NID
|
3.60 |
0xBC248C30
|
unsigned int sceKernelCpuAtomicOrAndGet32ForDriver (unsigned int *addr, unsigned int val);
sceKernelCpuAtomicOrAndGet64ForDriver
Version |
NID
|
3.60 |
0x3E218AF7
|
unsigned long long sceKernelCpuAtomicOrAndGet64ForDriver(unsigned long long *addr, int unused, long long val);
sceKernelCpuAtomicSet8ForDriver
Version |
NID
|
3.60 |
0x0836537E
|
void sceKernelCpuAtomicSet8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicSet16ForDriver
Version |
NID
|
3.60 |
0x532CA3E8
|
void sceKernelCpuAtomicSet16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicSet32ForDriver
Version |
NID
|
3.60 |
0x3168BC57
|
void sceKernelCpuAtomicSet32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicSet64ForDriver
Version |
NID
|
3.60 |
0xC381CE8C
|
void sceKernelCpuAtomicSet64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicSetIfGreaterGet8ForDriver
Version |
NID
|
3.60 |
0xC3868071
|
unsigned char sceKernelCpuAtomicSetIfGreaterGet8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicSetIfGreaterGet16ForDriver
Version |
NID
|
3.60 |
0x875B094D
|
unsigned short sceKernelCpuAtomicSetIfGreaterGet16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicSetIfGreaterGet32ForDriver
Version |
NID
|
3.60 |
0x26F71995
|
unsigned int sceKernelCpuAtomicSetIfGreaterGet32ForDriver(unsigned int *a1, unsigned int val);
sceKernelCpuAtomicSubAndGet8ForDriver
Version |
NID
|
3.60 |
0xEB085370
|
unsigned char sceKernelCpuAtomicSubAndGet8ForDriver(unsigned char *addr, unsigned char val);
sceKernelCpuAtomicSubAndGet16ForDriver
Version |
NID
|
3.60 |
0x515682C9
|
unsigned short sceKernelCpuAtomicSubAndGet16ForDriver(unsigned short *addr, unsigned short val);
sceKernelCpuAtomicSubAndGet32ForDriver
Version |
NID
|
3.60 |
0xA4884C4E
|
unsigned int sceKernelCpuAtomicSubAndGet32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicSubAndGet64ForDriver
Version |
NID
|
3.60 |
0xB5F8919C
|
unsigned long long sceKernelCpuAtomicSubAndGet64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelCpuAtomicXorAndGet8ForDriver
Version |
NID
|
3.60 |
0x03887992
|
unsigned char sceKernelCpuAtomicXorAndGet8ForDriver (unsigned char *a1, unsigned char a2);
sceKernelCpuAtomicXorAndGet16ForDriver
Version |
NID
|
3.60 |
0x646003D6
|
unsigned short sceKernelCpuAtomicXorAndGet16ForDriver (unsigned short *addr, unsigned short val);
sceKernelCpuAtomicXorAndGet32ForDriver
Version |
NID
|
3.60 |
0x4244BE65
|
unsigned int sceKernelCpuAtomicXorAndGet32ForDriver(unsigned int *addr, unsigned int val);
sceKernelCpuAtomicXorAndGet64ForDriver
Version |
NID
|
3.60 |
0x692C51B3
|
unsigned long long sceKernelCpuAtomicXorAndGet64ForDriver(unsigned long long *addr, int unused, unsigned long long val);
sceKernelDcacheInvalidateRangeForDriver
Version |
NID
|
0.931-3.60 |
0x02796361
|
1
Temp name was sceKernelCpuDcacheAndL2InvalidateMVACRange_1ForDriver, sceKernelCpuDcacheAndL2InvalidateRangeForDriver.
int sceKernelDcacheInvalidateRangeForDriver(void *start, SceSize size);
sceKernelCpuDcacheAndL2InvalidateMVACRange_10ForDriver
Version |
NID
|
0.990 |
0x614C6698
|
3.60 |
not present
|
0x10
int sceKernelCpuDcacheAndL2InvalidateMVACRange_10ForDriver(void *start, size_t size);
sceKernelCpuDcacheAndL2InvalidateMVACRange_20ForDriver
Version |
NID
|
0.990-3.60 |
0x8B4C26DF
|
0x20
Temp name was sceKernelCpuDcacheInvalidateRangeForDriver.
int sceKernelCpuDcacheAndL2InvalidateMVACRange_20ForDriver(void *start, size_t size);
sceKernelDcacheCleanInvalidateRangeForDriver
Version |
NID
|
0.931-3.60 |
0x364E68A4
|
1
Temp name was sceKernelCpuDcacheAndL2CleanInvalidateMVACRange_1ForDriver, sceKernelCpuDcacheAndL2WritebackInvalidateRangeForDriver.
int sceKernelDcacheCleanInvalidateRangeForDriver(const void *start, SceSize size);
sceKernelCpuDcacheAndL2CleanInvalidateMVACRange_20ForDriver
Version |
NID
|
3.60 |
0xE551F99B
|
0x20
int sceKernelCpuDcacheAndL2CleanInvalidateMVACRange_20ForDriver(void *ptr, size_t len);
sceKernelDcacheCleanRangeForDriver
Version |
NID
|
0.931-3.60 |
0x103872A5
|
1
Temp name was sceKernelCpuDcacheAndL2CleanMVACRange_1ForDriver, sceKernelCpuDcacheAndL2WritebackRangeForDriver.
int sceKernelDcacheCleanRangeForDriver(const void *start, SceSize size);
sceKernelCpuDcacheAndL2CleanMVACRange_20ForDriver
Version |
NID
|
0.990-3.68 |
0x9CB9F0CE
|
Also named sceKernelCpuDcacheWritebackRangeForDriver, flush_dcache.
0x20
int sceKernelCpuDcacheAndL2CleanMVACRange_20ForDriver(void *start, size_t size);
SceCpuForDriver_E813EBB2
Version |
NID
|
1.69-3.60 |
0xE813EBB2
|
Cleans L2 memory.
#define SceL2CacheReg 0x1A002000
__dsb();
*(int *)(SceL2CacheReg + 0x730) = 0;
while ( *(int *)(SceL2CacheReg + 0x730) & 1 )
;
__dmb();
int SceCpuForDriver_E813EBB2(void);
sceKernelCpuIsVaddrMappedForDriver
Version |
NID
|
3.60 |
0x337CBDF3
|
uint32_t vaddr_memory_type = SceCpuForKernel_9B8173F4(vaddr);
if (vaddr_memory_type != 8) {
if (vaddr_memory_type <= 8) {
if (vaddr_memory_type != 2)
return 0;
} else if (vaddr_memory_type != 0x40 && vaddr_memory_type != 0x80)
return 0;
}
return 1;
int sceKernelCpuIsVaddrMappedForDriver(void *vaddr);
These functions implement a simple mutual exclusive access on a resource address using LDREX/STREX.
sceKernelCpuLockStoreLRForDriver
Version |
NID
|
1.60-3.60 |
0xBF82DEB2
|
void sceKernelCpuLockStoreLRForDriver(unsigned int *addr);
sceKernelCpuTryLockStoreLRForDriver
Version |
NID
|
3.60 |
0x5AC9D394
|
unsigned int sceKernelCpuTryLockStoreLRForDriver(unsigned int *addr);
sceKernelCpuUnlockStoreLRForDriver
Version |
NID
|
1.60-3.60 |
0xD6ED0C46
|
void sceKernelCpuUnlockStoreLRForDriver(unsigned int *addr);
sceKernelCpuLockStoreFlagForDriver
Version |
NID
|
3.60 |
0x3F42B434
|
void sceKernelCpuLockStoreFlagForDriver(unsigned int *result);
sceKernelCpuTryLockStoreFlagForDriver
Version |
NID
|
3.60 |
0x4F7790B4
|
unsigned int sceKernelCpuTryLockStoreFlagForDriver(unsigned int *addr);
sceKernelCpuUnlockStoreFlagForDriver
Version |
NID
|
3.60 |
0xCB8ABDF0
|
void sceKernelCpuUnlockStoreFlagForDriver(unsigned int *addr);
These functions implement a simple mutual exclusive access on a resource addr using LDREX/STREX.
LR is stored as addr value.
While mutex is held, interrupts are disabled.
Used like this:
int prev_state = sceKernelCpuLockSuspendIntrStoreLRForDriver(mutex);
// do work
sceKernelCpuUnlockResumeIntrStoreLRForDriver(mutex, prev_state);
sceKernelCpuLockSuspendIntrStoreLRForDriver
Version |
NID
|
0.990-3.60 |
0xD32ACE9E
|
Temp name was sceKernelCpuSuspendIntrForDriver.
SceUInt32 sceKernelCpuLockSuspendIntrStoreLRForDriver(SceUInt32 *addr);
sceKernelCpuTryLockSuspendIntrStoreLRForDriver
Version |
NID
|
3.60 |
0x27C0B340
|
unsigned int sceKernelCpuTryLockSuspendIntrStoreLRForDriver(int *addr);
sceKernelCpuUnlockResumeIntrStoreLRForDriver
Version |
NID
|
0.990-3.60 |
0x7BB9D5DF
|
Temp name was sceKernelCpuResumeIntrForDriver.
void sceKernelCpuUnlockResumeIntrStoreLRForDriver(SceUInt32 *addr, int prev_state);
These functions implement a simple mutual exclusive access on a resource addr using LDREX/STREX.
0x80000000 is stored as addr value.
While mutex is held, interrupts are disabled.
Used like this:
int prev_state = sceKernelCpuLockSuspendIntrStoreFlagForDriver(mutex);
// do work
sceKernelCpuUnlockResumeIntrStoreFlagForDriver(mutex, prev_state);
sceKernelCpuLockSuspendIntrStoreFlagForDriver
Version |
NID
|
0.990-3.60 |
0x4C38CE4D
|
int sceKernelCpuLockSuspendIntrStoreFlagForDriver(void *addr);
sceKernelCpuTryLockSuspendIntrStoreFlagForDriver
Version |
NID
|
3.60 |
0xDE6482C6
|
unsigned int sceKernelCpuTryLockSuspendIntrStoreFlagForDriver(unsigned int *addr);
sceKernelCpuUnlockResumeIntrStoreFlagForDriver
Version |
NID
|
0.990-3.60 |
0x9EC91017
|
void sceKernelCpuUnlockResumeIntrStoreFlagForDriver(void *addr, unsigned int prev_state);
sceKernelCpuSpinLockStoreLRForDriver
Version |
NID
|
3.60 |
0xCAC9AE80
|
void sceKernelCpuSpinLockStoreLRForDriver(unsigned int *result);
sceKernelCpuTrySpinLockStoreLRForDriver
Version |
NID
|
3.60 |
0x093925BD
|
unsigned int sceKernelCpuTrySpinLockStoreLRForDriver(unsigned int *addr);
sceKernelCpuSpinUnlockStoreLRForDriver
Version |
NID
|
3.60 |
0xF5FD5676
|
void sceKernelCpuSpinUnlockStoreLRForDriver(unsigned int *result);
sceKernelCpuSpinLockSuspendIntrStoreLRForDriver
Version |
NID
|
3.60 |
0xEC53D007
|
unsigned int sceKernelCpuSpinLockSuspendIntrStoreLRForDriver(unsigned int *addr);
sceKernelCpuTrySpinLockSuspendIntrStoreLRForDriver
Version |
NID
|
3.60 |
0xF02467D1
|
unsigned int sceKernelCpuTrySpinLockSuspendIntrStoreLRForDriver(unsigned int *addr);
sceKernelCpuSpinUnlockResumeIntrStoreLRForDriver
Version |
NID
|
3.60 |
0x740A0750
|
void sceKernelCpuSpinUnlockResumeIntrStoreLRForDriver(unsigned int *addr, unsigned int prev_state);
sceKernelCpuDisableInterruptsForDriver
Version |
NID
|
1.60 |
0x821FC0EE
|
3.60 |
0x821FC0EE
|
Disable irq (but not fiq) and returns previous interrupt bit status (so either 0 or 0x80).
unsigned int sceKernelCpuDisableInterruptsForDriver(void);
sceKernelCpuEnableInterruptsForDriver
Version |
NID
|
1.60 |
0xF5BAD43B
|
3.60 |
0xF5BAD43B
|
Restore previous irq state, pass either 0 or 0x80.
unsigned int sceKernelCpuEnableInterruptsForDriver(unsigned int prev_state);
SceSysclibForKernel
Was present on 1.69. Doesn't exist on 3.60.
SceSysclibForKernel_E38E7605
Version |
NID
|
0.990-1.50 |
0xE38E7605
|
Looks like vprintf.
SceSysclibForKernel_F7E34376
Version |
NID
|
1.50 |
0xF7E34376
|
SceSysclibForKernel_FA746181
Version |
NID
|
1.50 |
0xFA746181
|
SceSysclibForDriver
The C standard library for use in kernel only. (Userland have SceLibKernel, which confusingly is userland only).
Include standard string functions (no insecure variants like strcpy
).
__aeabi_idiv
Version |
NID
|
3.60 |
0x2518CD9E
|
__aeabi_lcmp
Version |
NID
|
3.60 |
0x709077A1
|
__aeabi_lmul
Version |
NID
|
3.60 |
0xFEE5E751
|
__aeabi_uidiv
Version |
NID
|
0.990-3.60 |
0xA9FF1205
|
__aeabi_uidivmod
Version |
NID
|
0.990-3.60 |
0xA46CB7DE
|
__aeabi_ldivmod
Version |
NID
|
3.60 |
0x7554AB04
|
__aeabi_ulcmp
Version |
NID
|
0.931-3.60 |
0xFE900DE8
|
__memcpy_chk
Version |
NID
|
3.60 |
0x8A0B0815
|
__memmove_chk
Version |
NID
|
3.60 |
0x35DBB110
|
__memset_chk
Version |
NID
|
3.60 |
0x1A30BB28
|
__snprintf_chk
Version |
NID
|
3.60 |
0x7DBE7007
|
__stack_chk_fail
Version |
NID
|
1.50-3.60 |
0xB997493D
|
__strlcat_chk
Version |
NID
|
3.60 |
0x224BE33F
|
__strlcpy_chk
Version |
NID
|
3.60 |
0xCF86EA38
|
__strncat_chk
Version |
NID
|
3.60 |
0x33EE298B
|
__strncpy_chk
Version |
NID
|
3.60 |
0x96268C53
|
__vsnprintf_chk
Version |
NID
|
3.60 |
0xCBF64DF6
|
__vsnprintf_internal
Version |
NID
|
3.60 |
0xE38E7605
|
look_ctype_table
Version |
NID
|
3.60 |
0xCDF7F155
|
memchr
Version |
NID
|
3.60 |
0x60DAEA30
|
timingsafe_memcmp
Version |
NID
|
3.60 |
0xB5A4D745
|
timing constant memcmp
memcmp
Version |
NID
|
0.931-3.60 |
0xF939E83D
|
memcpy
Version |
NID
|
0.931-3.60 |
0x40C88316
|
memmove
Version |
NID
|
1.50-3.60 |
0x6CC9C1A1
|
On 1.69, this seems to be implemented incorrectly.
memset
Version |
NID
|
0.931-3.60 |
0x0AB9BF5C
|
memset2
Version |
NID
|
1.50-1.69 |
0x502B000D
|
3.60 |
not present
|
rshift
Version |
NID
|
1.69-3.60 |
0x1D89F6C0
|
snprintf
Version |
NID
|
1.69-3.60 |
0xAE7A8981
|
strchr
Version |
NID
|
1.50-3.60 |
0x38463759
|
strcmp
Version |
NID
|
1.69-3.60 |
0x0B33BC43
|
strlcat
Version |
NID
|
3.60 |
0x12504E09
|
strlcpy
Version |
NID
|
3.60 |
0x7FB4EBEC
|
strlen
Version |
NID
|
0.931-3.60 |
0xCFC6A9AC
|
strncat
Version |
NID
|
1.69-3.60 |
0xA1D1C32C
|
strncmp
Version |
NID
|
1.60-3.60 |
0x12CEE649
|
strncpy
Version |
NID
|
3.60 |
0x6D286146
|
strnlen
Version |
NID
|
1.69-3.60 |
0xCD4BD884
|
strrchr
Version |
NID
|
1.69-3.60 |
0x7F0E0835
|
strstr
Version |
NID
|
1.69-3.60 |
0x1304A69D
|
strtol
Version |
NID
|
1.69-3.60 |
0xAB77C5AA
|
strtoll
Version |
NID
|
3.60 |
0x87AAAFA2
|
strtoul
Version |
NID
|
3.60 |
0x4E5042DA
|
tolower
Version |
NID
|
3.60 |
0x0021DAF9
|
toupper
Version |
NID
|
3.60 |
0xA685DCB1
|
vsnprintf
Version |
NID
|
3.60 |
0x3DDBE2E1
|
int vsnprintf(char *s, size_t n, const char *fmt, va_list arg);
SceSysclibForDriver_9D148CDE
Version |
NID
|
0.931-3.60 |
0x9D148CDE
|
int SceSysclibForDriver_9D148CDE(int a1, int a2, int a3, int a4);
SceSysrootForKernel
SceSysrootForKernel_DD7821AA
Version |
NID
|
0.990-3.60 |
0xDD7821AA
|
Register SceSysrootForKernel_340575CB callback.
int SceSysrootForKernel_DD7821AA(void *func);
SceSysrootForKernel_340575CB
Version |
NID
|
0.990-3.60 |
0x340575CB
|
Return some PID.
SceUID SceSysrootForKernel_340575CB(void);
SceSysrootForKernel_AE55B7CC
Version |
NID
|
0.990-3.60 |
0xAE55B7CC
|
Calls SceCpuForKernel_A5C9DBBA. Related to cpuId.
int SceSysrootForKernel_AE55B7CC(void);
SceSysrootForKernel_21F5790B
Version |
NID
|
0.931 |
not present
|
3.60 |
0x21F5790B
|
Registers a callback related to kernel panic.
int SceSysrootForKernel_21F5790B(void *func);
SceSysrootForKernel_4D98B15B
Version |
NID
|
0.931 |
not present
|
3.60 |
0x4D98B15B
|
Gets the callback related to kernel panic set by SceSysrootForKernel_21F5790B.
void *SceSysrootForKernel_4D98B15B(void);
SceSysrootForKernel_0DF574A9
Version |
NID
|
0.931 |
not present
|
3.60 |
0x0DF574A9
|
Calls the callback related to kernel panic set by SceSysrootForKernel_21F5790B.
int SceSysrootForKernel_0DF574A9(void);
SceSysrootForKernel_1D84C4D4
Version |
NID
|
0.931 |
not present
|
3.60 |
0x1D84C4D4
|
Get some info for the provided syscallFrameEntry.
int SceSysrootForKernel_1D84C4D4(SceUID pid, void *pSyscallFrameEntry, SceUInt32 *pSomeIdx, SceUInt32 *pSomeOffsetOrSize, char *someString);
SceSysrootForKernel_E20F6FC8
Version |
NID
|
0.931 |
not present
|
3.60 |
0xE20F6FC8
|
Related to SceDebug Kernel Exceptions handlers.
int SceSysrootForKernel_E20F6FC8(void);
SceSysrootForKernel_8E4B61F1
Version |
NID
|
0.931-3.60 |
0x8E4B61F1
|
Calls SceCpuForKernel_9D72DD1B.
int SceSysrootForKernel_8E4B61F1(int cpuid);
SceSysrootForKernel_06182D59
Version |
NID
|
3.60 |
0x06182D59
|
int SceSysrootForKernel_06182D59(int a1) {
return *(uint32_t *)(sysbase + 0x20) + (a1 << 0x5);
}
int SceSysrootForKernel_06182D59(int a1);
SceSysrootForKernel_7385CADE
Version |
NID
|
0.990 |
not present
|
3.60 |
0x7385CADE
|
Get current syscall PID.
// Returns KERNEL_PID if the function has not been set
SceUID SceSysrootForKernel_7385CADE(void);
get_SceKernelSysrootClass_itemsize
Version |
NID
|
0.990-3.60 |
0xEEB867C0
|
On FW 0.990 return hardcoded value 0x470.
On FW 3.60 return hardcoded value 0x41C.
SceSize get_SceKernelSysrootClass_itemsize(void);
get_SceKernelSysrootClass_object
Version |
NID
|
0.990-3.60 |
0x085C2BCB
|
SceKernelObject *get_SceKernelSysrootClass_object(void);
sceKernelSysrootBacktraceForKernel
Version |
NID
|
0.940-3.60 |
0xCC893F37
|
sceKernelSysrootGetLibraryDBForKernel
Version |
NID
|
0.990 |
0xCD70C9D7
|
sceKernelSysrootSetLibraryDBForKernel
Version |
NID
|
0.990 |
0xCB58A0F4
|
sceKernelSysrootAllocForKernel
Version |
NID
|
0.940-0.990 |
0xB0149E69
|
void *sceKernelSysrootAllocForKernel(SceSize len);
sceKernelSysrootSetStatusForKernel
Version |
NID
|
0.990-3.60 |
0xA84676E3
|
// status: ex: 0x100
int sceKernelSysrootSetStatusForKernel(SceUInt32 status);
sceKernelSysrootGetProcessCBExitDeleteThreadForKernel
Version |
NID
|
0.990-3.60 |
0xBBFD2E3C
|
sceKernelSysrootGetCurrentProcessCBForKernel
Version |
NID
|
0.990-3.60 |
0x9991B1AF
|
sceKernelSysrootGetCurrentThreadAttrForKernel
Version |
NID
|
0.990-3.60 |
0x73601453
|
sceKernelGetCurrentTimeForKernel
Version |
NID
|
0.990 |
0x4FCFA359
|
SceRtcTick *sceKernelGetCurrentTimeForKernel(void);
sceKernelGetCurrentTimeInBufferForKernel
Version |
NID
|
0.990 |
0xE0D41319
|
int sceKernelGetCurrentTimeInBufferForKernel(SceRtcTick *tick)
sceKernelGetSystemTimeLowForKernel
Version |
NID
|
0.990 |
0x2464329D
|
sceKernelSysrootAssertSysrootForKernel
Version |
NID
|
0.990 |
0x1B7F150F
|
Check sysroot->magic (offset 0xC must be 0xBA97F5A1) and sysroot->magic2 (offset 0x20C must be 0xA008B0C3).
int sceKernelSysrootAssertSysrootForKernel(void *sysroot);
sceKernelSysrootSetVbaseResetVectorForKernel
Version |
NID
|
0.990-3.60 |
0x0F2F2B4E
|
sceKernelSysrootThreadMgrStartAfterProcessForKernel
Version |
NID
|
0.990-3.60 |
0x0EB5D7CD
|
sceKernelSysrootGetCurrentProcessForKernel
Version |
NID
|
0.990 |
0x5B7570C5
|
Return the current process id.
SceUID sceKernelSysrootGetCurrentProcessForKernel(void);
sceKernelSysrootTrapThreadAfterSyscallForKernel
Version |
NID
|
0.990-3.60 |
0x9139E22B
|
sceKernelSysrootReturnFromExcpToThreadForKernel
Version |
NID
|
0.990-3.60 |
0xDADFF828
|
sceKernelSysrootPrintBacktraceForKernel
Version |
NID
|
0.990-3.60 |
0x491CE8DF
|
sceKernelSysrootGetSharedMemoryForKernel
Version |
NID
|
0.990-3.60 |
0xC8C8C321
|
sceKernelSysrootSetSharedMemoryForKernel
Version |
NID
|
0.990-3.60 |
0xFBB91741
|
sceKernelSysrootGetPUIDEntryHeapForKernel
Version |
NID
|
0.990-3.60 |
0x88DE85EF
|
int sceKernelSysrootGetPUIDEntryHeapForKernel(SceUID pid, void *entryHeap);
sceKernelSysrootGetStatusForKernel
Version |
NID
|
0.990-3.60 |
0x5C426B19
|
sceKernelSysrootIofilemgrStartForKernel
Version |
NID
|
0.990-3.60 |
0xF6A6D205
|
sceKernelSysrootGetCurrentUIDEntryHeapCBForKernel
Version |
NID
|
0.990-3.60 |
0xB4C24588
|
F9FB9A2A
sceKernelSysrootSetCurrentAddressSpaceCBForKernel
Version |
NID
|
0.940 |
0x63EBB05B
|
3.60 |
not present
|
int sceKernelSysrootSetCurrentAddressSpaceCBForKernel(void *asCB);
sceKernelSysrootGetCurrentAddressSpaceCBForKernel
Version |
NID
|
0.940-3.60 |
0x63EBB05B
|
callback *sceKernelSysrootGetCurrentAddressSpaceCBForKernel();
sceKernelSysrootAppMgrSpawnProcessForKernel
Version |
NID
|
0.990-3.60 |
0x3ACACD22
|
sceKernelSysrootGetSmSelfInfoForKernel
Version |
NID
|
3.60 |
0xF10AB792
|
typedef struct sm_self_info { // size is 0x0C
uint32_t size; // Size of this structure
void* sm_self_data;
uint32_t sm_self_size;
} sm_self_info;
int sceSysrootGetSmSelfInfoForKernel(int index, sm_self_info* info);
Index |
SM SELF location
|
0 |
os0:sm/gcauthmgr_sm.self
|
1 |
os0:sm/rmauth_sm.self
|
2 |
os0:sm/encdec_w_portability_sm.self
|
sceKernelSysrootGetProcessSelfAuthInfoForKernel
Version |
NID
|
0.940-3.60 |
0x4F0A4066
|
Temp name was sceSysrootGetSelfAuthInfoForKernel.
typedef struct SceSelfAuthInfo { // size is 0x90
SceUInt64 program_authority_id;
uint8_t padding1[8];
uint8_t capability[0x20];
uint8_t attribute[0x20];
uint8_t padding2[0x10];
uint8_t klicensee[0x10];
uint32_t unk_70;
uint32_t unk_74;
uint32_t unk_78;
uint32_t unk_7C;
uint32_t unk_80; // ex: 0x10
uint32_t unk_84;
uint32_t unk_88;
uint32_t unk_8C;
} SceSelfAuthInfo;
int sceKernelSysrootGetProcessSelfAuthInfoForKernel(SceUID pid, SceSelfAuthInfo *self_auth_info);
sceKernelSysrootGetProcessTitleIdForKernel
Version |
NID
|
3.60 |
0xEC3124A3
|
Temp name was sceSysrootGetProcessTitleIdForPidForKernel.
int sceKernelSysrootGetProcessTitleIdForKernel(SceUID pid, char *title_id, SceSize len);
sceKernelSetSysrootGetLibraryNameByNIDFuncForKernel
Version |
NID
|
3.60 |
0xB39CD708
|
int sceKernelSetSysrootGetLibraryNameByNIDFuncForKernel(void *func);
sceKernelSysrootGetLibraryNameByNIDForKernel
Version |
NID
|
3.60 |
0x0B79E220
|
int sceKernelSysrootGetLibraryNameByNIDForKernel(SceUInt32 nid, char *name);
SceSysrootForKernel_26458702
Version |
NID
|
0.990 |
not present
|
3.60 |
0x26458702
|
Register some callbacks.
SceSysrootForKernel_B171CC2D
Version |
NID
|
0.990 |
not present
|
3.60 |
0xB171CC2D
|
Seems to be used to register some callbacks.
typedef struct SceSysrootForKernel_B171CC2D_struct { // size is 0x18 on FW 3.60
SceSize size; // Size of this structure
char unk[0x14];
} SceSysrootForKernel_B171CC2D_struct;
int SceSysrootForKernel_B171CC2D(SceSysrootForKernel_B171CC2D_struct *pParam);
sceKernelSysrootGetProcessSyscallInfoForKernel
Version |
NID
|
3.60 |
0xFF9F80FF
|
int sceKernelSysrootGetProcessSyscallInfoForKernel(SceUID pid, const void *PC, SceSyscallInfo *pInfo);
sceKernelSysrootGetVbaseResetVectorForKernel
Version |
NID
|
0.990-3.60 |
0xCC85905B
|
Returns the exception vectors base address. The address of the exception vectors for the CPU i
is: sceKernelSysrootGetVbaseResetVectorForKernel() + 0x40 * i
.
void *sceKernelSysrootGetVbaseResetVectorForKernel(void);
sceSysrootCallLicMgrGetLicenseStatusForKernel
Version |
NID
|
3.60 |
0x377895EB
|
Calls sceSblLicMgrGetLicenseStatusForDriver of SceSblPostSsMgr.
Returns 0 on success, -1 if sceSblLicMgrGetLicenseStatusForDriver is not registered.
int sceSysrootCallLicMgrGetLicenseStatusForKernel(void);
Called by sceSblAuthMgrAuthHeaderForKernel before F00D request.
sceSysrootGetSysbaseForKernel
Version |
NID
|
3.60 |
0x3E455842
|
Temp name was sceKernelGetSysbaseForKernel.
sysbase_t* sceSysrootGetSysbaseForKernel();
sceKernelSysrootGetKblParamForKernel
Version |
NID
|
3.60 |
0x9DB56D1F
|
Temp name was sceSysrootGetSysrootBufferForKernel.
Returns pointer to Sysroot buffer.
SceBootArgs *sceKernelSysrootGetKblParamForKernel(void);
sceSysrootGetFactorySystemSwVersionForKernel
Version |
NID
|
3.60 |
0xD3872270
|
return (int)(sysroot_buffer->factory_fw_version);
int sceSysrootGetFactorySystemSwVersionForKernel(void);
sceSysrootGetUnkCForKernel
Version |
NID
|
3.60 |
0xFFD6E24D
|
return (int)(sysroot_buffer->unk_C);
int sceSysrootGetUnkCForKernel(void);
sceSysrootGetUnk10ForKernel
Version |
NID
|
3.60 |
0x403B509E
|
return (int)(sysroot_buffer->unk_C + 4);
int sceSysrootGetUnk10ForKernel(void);
sceSysrootGetUnkC0ForKernel
Version |
NID
|
3.60 |
0xAB3CC7D0
|
return sysroot_buffer->unk_C0;
int sceSysrootGetUnkC0ForKernel(void);
sceSysrootGetWakeupFactorForKernel
Version |
NID
|
3.60 |
0x2F97041A
|
return sysroot_buffer->wakeup_factor;
int sceSysrootGetWakeupFactorForKernel(void);
sceSysrootGetHardwareInfoForKernel
Version |
NID
|
3.60 |
0x930B1342
|
return sysroot_buffer->hardware_info;
int sceSysrootGetHardwareInfoForKernel(void);
sceSysrootGetSessionIdForKernel
Version |
NID
|
3.60 |
0x84783B71
|
Writes sysroot_buffer->session_id to buffer.
Buffer size is 0x10.
int sceSysrootGetSessionIdForKernel(char *buffer);
sceSysrootGetHardwareFlagsForKernel
Version |
NID
|
3.60 |
0x46E72428
|
Writes sysroot_buffer->hardware_flags to buffer.
Buffer size is 0x10.
int sceSysrootGetHardwareFlagsForKernel(char *buffer);
sceSysrootIsExternalBootModeForKernel
Version |
NID
|
3.60 |
0x89D19090
|
return *(int *)(sysroot_buffer->boot_type_indicator_1) & 1;
int sceSysrootIsExternalBootModeForKernel(void);
sceKernelIsSomeBootModeForKernel
Version |
NID
|
3.60 |
0x7B7F8171
|
return (*(int *)(sysroot_buffer->boot_type_indicator_1) >> 19) & 1;
int sceSysrootIsSomeBootModeForKernel(void);
sceSysrootIsSomeBootMode2ForKernel
Version |
NID
|
3.60 |
0x7918D44E
|
return sysroot_buffer->boot_type_indicator_1[2] & 1;
int sceSysrootIsSomeBootMode2ForKernel(void);
sceSysrootIsSomeModeForKernel
Version |
NID
|
0.931-3.60 |
0xAE7A8F1D
|
Returns true if (sysroot->boot_flags[0x1] != 0xFF).
Is used to check if UART must be initialized or not.
int sceSysrootIsSomeModeForKernel(void);
sceKernelSysrootIsSafeModeForKernel
Version |
NID
|
0.990-3.60 |
0x834439A7
|
int sceKernelSysrootIsSafeModeForKernel(void);
sceSysrootIsUpdateModeForKernel
Version |
NID
|
3.60 |
0xB0E1FC67
|
int sceSysrootIsUpdateModeForKernel(void);
sceSysrootIsBsodRebootForKernel
Version |
NID
|
3.60 |
0x4373AC96
|
return (*(int *)(sysroot_buffer->wakeup_factor) & 0x7Fu) <= 0x17;
int sceSysrootIsBsodRebootForKernel(void);
sceSysrootIsUsbEnumWakeupForKernel
Version |
NID
|
3.60 |
0x79C9AE10
|
if ( *(int *)(sysroot_buffer->unk_C0) & 0x90000 )
result = 1;
else
result = (*(int *)(sysroot_buffer->wakeup_factor) & 0x7Fu) <= 0xF;
return result;
int sceSysrootIsUsbEnumWakeupForKernel(void);
sceSysrootIsUnknownRebootForKernel
Version |
NID
|
3.60 |
0xE4EA1960
|
return (*(int *)(sysroot_buffer->wakeup_factor) & 0x7Fu) <= 1;
int sceSysrootIsUnknownRebootForKernel(void);
sceSysrootUseExternalStorageForKernel
Version |
NID
|
0.940-3.60 |
0x55392965
|
When returns true it allows loading sd0:psp2config.skprx.
Returns true when Manufacturing Mode flag is set:
return (*(int *)(sysroot_buffer->boot_type_indicator_1) >> 2) & 1;
int sceSysrootUseExternalStorageForKernel(void);
sceSysrootUseInternalStorageForKernel
Version |
NID
|
3.60 |
0x50FE3B4D
|
Returns true when use internal storage flag is not set:
return *(char *)(sysroot_buffer->boot_flags[5]) & 1 ^ 1;
int sceSysrootUseInternalStorageForKernel(void);
sceSysrootRegisterLicMgrGetLicenseStatusForKernel
Version |
NID
|
3.60 |
0x71DB83A2
|
Write value at sysroot_ctx + 0x380 (on FW 3.60).
Normally, sceSblLicMgrGetLicenseStatusForDriver of SceSblPostSsMgr module is registered.
int sceSysrootRegisterLicMgrGetLicenseStatusForKernel(int (__cdecl *sceSblLicMgrGetLicenseStatusForDriver)());
sceKernelSysrootRegisterBacktraceForKernel
Version |
NID
|
0.940 |
0x1C307A31
|
3.60 |
not present
|
int sceKernelSysrootRegisterBacktraceForKernel(int (__cdecl *func)());
sceKernelSysrootGetThreadAccessLevelForKernel
Version |
NID
|
3.60 |
0x20009397
|
Calls int (__cdecl *GetThreadAccessLevel)(); // 0x344 on 3.60
int sceKernelSysrootGetThreadAccessLevelForKernel(void);
sceKernelSysrootAllocRemoteProcessHeapForKernel
Version |
NID
|
0.990-3.60 |
0xD351EBC8
|
Temp name was sceKernelAllocHeapMemoryForKernel.
Same as sceKernelAllocHeapMemoryWithOpt1ForDriver
but does set pid
to 0x1000B.
Checks that pid is 0x10013 or 0x10005.
void* sceKernelSysrootAllocRemoteProcessHeapForKernel(SceUID pid, SceSize size, SceKernelHeapMemoryOpt *pOpt);
sceKernelSysrootGetModulePrivateForKernel
Version |
NID
|
0.990-3.60 |
0x37EC12BB
|
void *sceKernelSysrootGetModulePrivateForKernel(int idx);
sceKernelSysrootSetModulePrivateForKernel
Version |
NID
|
0.990-3.60 |
0x7A7E7C0C
|
sceKernelSysrootSetSysrootForKernel
Version |
NID
|
0.940-3.60 |
0x36916C30
|
int sceKernelSysrootSetSysrootForKernel(int sysroot);
sceKernelSysrootProcessmgrStart2ForKernel
Version |
NID
|
0.990-3.60 |
0x62E8F511
|
sceKernelSysrootDbgpSuspendProcessAndWaitResumeForKernel
Version |
NID
|
0.990-3.60 |
0x256B2394
|
sceKernelSysrootRegisterIsUserModeThreadForKernel
Version |
NID
|
0.940 |
0x5BD911A8
|
3.60 |
not present
|
int sceKernelSysrootRegisterIsUserModeThreadForKernel(void *func);
sceKernelSysrootIsUserModeThreadForKernel
Version |
NID
|
0.940-3.60 |
0x7FC7A163
|
sceKernelSysrootGetSecureStatusForKernel
Version |
NID
|
0.940 |
0x0A63CA5E
|
3.60 |
not present
|
return *(uint *)some_buf->field_0x28 & 1;
int sceKernelSysrootGetSecureStatusForKernel(void);
sceKernelIsSecureStateForKernel
Version |
NID
|
0.940 |
0x3193DAB2
|
3.60 |
not present
|
return (*(uint *)some_buf->field_0x28 ^ 1) & 1;
SceBool sceKernelIsSecureStateForKernel(void);
sceKernelIsColdBootForKernel
Version |
NID
|
0.940-3.60 |
0xD7198963
|
return (*(uint *)some_buf->field_0x28 & 10; // IDA PRO FW 3.60
return ((*(uint *)some_buf->field_0x28 ^ 0x10) << 0x1b) >> 0x1f; // Ghidra FW 0.940
int sceKernelIsColdBootForKernel(void);
SceSysrootForDriver
SceSysrootForDriver_26AA237C
Version |
NID
|
0.990 |
not present
|
3.60 |
0x26AA237C
|
Calls the callback registered by SceSysrootForDriver_E25D2FD5.
int SceSysrootForDriver_26AA237C(void);
SceSysrootForDriver_E25D2FD5
Version |
NID
|
0.990 |
not present
|
3.60 |
0xE25D2FD5
|
Registers the callback called by SceSysrootForDriver_26AA237C.
int SceSysrootForDriver_E25D2FD5(void *func);
SceSysrootForDriver_EE934615
Version |
NID
|
3.60 |
0xEE934615
|
return sceKernelCpuAtomicGetAndAdd32ForDriver(&someflag_from_kbl_param, 0x10);
int SceSysrootForDriver_EE934615(void);
SceSysrootForDriver_EEF091A7
Version |
NID
|
3.60 |
0xEEF091A7
|
return sceKernelCpuAtomicGetAndAdd32ForDriver(&someflag_from_kbl_param, 0xfffffff0);
int SceSysrootForDriver_EEF091A7(void);
sceSysrootRegisterSblPostSsMgrForDriver_D8A2D465ForDriver
Version |
NID
|
3.60 |
0x35875119
|
int sceSysrootRegisterSblPostSsMgrForDriver_D8A2D465ForDriver(sceSysrootRegisterSblPostSsMgrForDriver_D8A2D465ForDriver *cb);
sceSysrootCallSblPostSsMgrForDriver_D8A2D465ForDriver
Version |
NID
|
3.60 |
0xD75D4F37
|
sceKernelSysrootRegisterCoredumpTriggerForDriver
Version |
NID
|
0.990-3.60 |
0xDD473B05
|
int sceKernelSysrootRegisterCoredumpTriggerForDriver(void *func);
sceKernelSysrootCoredumpTriggerForDriver
Version |
NID
|
0.990-3.60 |
0xCD8CD242
|
int sceKernelSysrootCoredumpTriggerForDriver(int a1, int a2, int a3, SceCoredumpForDriver_A7D214A7_Opt *pOpt);
sceKernelSysrootRegisterCoredumpCancelForDriver
Version |
NID
|
0.990-3.60 |
0x400B9793
|
int sceKernelSysrootRegisterCoredumpCancelForDriver(void *func);
sceKernelSysrootCoredumpCancelForDriver
Version |
NID
|
0.990-3.60 |
0x80FBC69D
|
int sceKernelSysrootCoredumpCancelForDriver(int a1);
sceKernelRegisterInitCallbackForDriver
Version |
NID
|
0.990-3.60 |
0x778D0966
|
sceKernelSysrootSetProcessHandlerForDriver
Version |
NID
|
3.60 |
0x0F07C3FC
|
sceKernelSysrootDbgpSuspendProcessAndWaitResumeForDriver
Version |
NID
|
0.990-3.60 |
0x256B2394
|
sceKernelInvokeInitCallbackForDriver
Version |
NID
|
0.990-3.60 |
0x93CD44CD
|
idx
5 : disable nskbl, more...?
int sceKernelInvokeInitCallbackForDriver(int idx);
sceKernelSysrootGetShellPidForDriver
Version |
NID
|
0.990-3.60 |
0x05093E7B
|
SceUID sceKernelSysrootGetShellPidForDriver(void);
sceKernelSysrootCheckRemapCodeForUserForDriver
Version |
NID
|
0.990-3.60 |
0xF8769E86
|
sceKernelSysrootAppMgrSpawnProcessForDriver
Version |
NID
|
0.990-3.60 |
0x3ACACD22
|
SceSysrootForDriver_421EFC96
Version |
NID
|
3.60 |
0x421EFC96
|
Patched by HENkaku payload.c and update365 by TheFloW.
sceKernelSysrootInformUpdateStartedForDriver
Version |
NID
|
0.990-3.60 |
0x9A486846
|
int sceKernelSysrootInformUpdateStartedForDriver(int number1, int number2, const char *str, SceSize len);
sceKernelSysrootInformUpdateOngoingForDriver
Version |
NID
|
0.990-3.60 |
0x9EC02A41
|
int sceKernelSysrootInformUpdateOngoingForDriver(int number1, int number2);
sceKernelSysrootInformUpdateFinishedForDriver
Version |
NID
|
0.990-3.60 |
0x217B2871
|
int sceKernelSysrootInformUpdateFinishedForDriver(int number, const char *str, SceSize len);
sceKernelSysrootSetSwInfoIntForDriver
Version |
NID
|
0.990-3.60 |
0x631141E2
|
int sceKernelSysrootSetSwInfoIntForDriver(char *str, SceSize len, SceUInt32 number);
sceKernelSysrootSetSwInfoStrForDriver
Version |
NID
|
0.990-3.60 |
0x17DD213C
|
int sceKernelSysrootSetSwInfoStrForDriver(char *str1, SceSize len1, char *str2, SceSize len2);
sceKernelSysrootSetSwInfoBinForDriver
Version |
NID
|
0.990-3.60 |
0x9E96D990
|
int sceKernelSysrootSetSwInfoBinForDriver(char *str1, SceSize size1, char *str2, SceSize size2);
sceKernelSysrootRegisterGetSystemSwVersionForDriver
Version |
NID
|
3.60 |
0x3276086B
|
Temp name was sceKernelSysrootSetSystemSwVersionForDriver.
int sceKernelSysrootRegisterGetSystemSwVersionForDriver(void *cb);
sceKernelSysrootGetSystemSwVersionForDriver
Version |
NID
|
3.60 |
0x67AAB627
|
Returns System Software version as int from SceSysmem memory. For exemple: 0x0365000 on 3.65.
int sceKernelSysrootGetSystemSwVersionForDriver(void);
?sceKernelSysrootInitI2cForDriver?
Version |
NID
|
3.60 |
0x930B1342
|
int ?sceKernelSysrootInitI2cForDriver?(void);
sceKernelSysrootIsSafeModeForDriver
Version |
NID
|
0.990-3.60 |
0x834439A7
|
int sceKernelSysrootIsSafeModeForDriver(void);
sceKernelSysrootUtMgrHasNpTestFlagForDriver
Version |
NID
|
3.60 |
0xA43599E9
|
Calls int (__cdecl *sceSblUtMgrHasNpTestFlagForDriver)();
int sceKernelSysrootUtMgrHasNpTestFlagForDriver(void);
sceKernelSysrootCheckModelCapabilityForDriver
Version |
NID
|
3.60 |
0x8AA268D6
|
SceSysrootForDriver_56D85EB0
Version |
NID
|
3.60 |
0x56D85EB0
|
Used by SceSblACMgr.
sceKernelSysrootGetSyscallFrameForDriver
Version |
NID
|
3.60 |
0x44EA3197
|
SceSyscallFrame *sceKernelSysrootGetSyscallFrameForDriver(void);
SceKernelUtilsForDriver
sceAesDecrypt1ForDriver
Version |
NID
|
0.990-3.60 |
0xD8678061
|
Perform normal AES decrypt.
int sceAesDecrypt1ForDriver(void *ctx, const void *src, void *dst);
sceAesDecrypt2ForDriver
Version |
NID
|
3.60 |
0xE39CD272
|
Perform AES decrypt using encryption round key.
int sceAesDecrypt2ForDriver(void *ctx, const void *src, void *dst);
sceAesEncrypt1ForDriver
Version |
NID
|
0.990-3.60 |
0xC2A61770
|
Perform AES encrypt. There are two functions that are the same on 1.69.
int sceAesEncrypt1ForDriver(void *ctx, const void *src, void *dst);
sceAesEncrypt2ForDriver
Version |
NID
|
1.69-3.60 |
0x302947B6
|
Perform AES encrypt. Similar to sceAesEncrypt1ForDriver.
int sceAesEncrypt2ForDriver(void *ctx, const void *src, void *dst);
sceAesInit1ForDriver
Version |
NID
|
1.69-3.60 |
0xF12B6451
|
This sets up the AES engine. ctx
is a 960 byte buffer (int 1.69). blocksize
and keysize
is the security in bits. 128/196/256 are supported values.
last arg to subroutine is 0
int sceAesInit1ForDriver(void *ctx, int blocksize, int keysize, const void *key);
sceAesInit2ForDriver
Version |
NID
|
3.60 |
0xEDA97D6D
|
last arg to subroutine is 1
int sceAesInit2ForDriver(void *ctx, int blocksize, int keysize, const void *key);
sceAesInit3ForDriver
Version |
NID
|
3.60 |
0x72408E29
|
last arg to subroutine is 2
int sceAesInit3ForDriver(void *ctx, int blocksize, int keysize, const void *key);
SceKernelUtilsForDriver_C76A7685
Version |
NID
|
3.60 |
0xC76A7685
|
Looks like it relates to AES InvMixColumns.
SceKernelUtilsForDriver_60ED6EA9
Version |
NID
|
3.60 |
0x60ED6EA9
|
Equivalent to AES getSBox32Value
sceDeflateDecompressForDriver
Version |
NID
|
3.60 |
0x8AF1FAD4
|
sceDeflateDecompressPartialForDriver
Version |
NID
|
3.60 |
0x3D74CCDF
|
sceGzipDecompressForDriver
Version |
NID
|
3.60 |
0x367EE3DF
|
Version |
NID
|
3.60 |
0xCD3AE08F
|
sceGzipGetCompressedDataForDriver
Version |
NID
|
3.60 |
0x63619124
|
sceGzipGetInfoForDriver
Version |
NID
|
3.60 |
0xFFC6A10F
|
sceGzipGetNameForDriver
Version |
NID
|
3.60 |
0xF901FD3E
|
sceGzipIsValidForDriver
Version |
NID
|
3.60 |
0xD8FAEFD4
|
sceHmacSha1DigestForDriver
Version |
NID
|
3.60 |
0x29A28957
|
int sceHmacSha1DigestForDriver(const void *key, int key_len, const void *data, int data_len, void *digest);
sceHmacSha224DigestForDriver
Version |
NID
|
3.60 |
0x7F2A7B99
|
int sceHmacSha224DigestForDriver(const void *key, int key_len, const void *data, int data_len, void *digest);
sceHmacSha256DigestForDriver
Version |
NID
|
3.60 |
0x83EFA1CC
|
int sceHmacSha256DigestForDriver(const void *key, int key_len, const void *data, int data_len, void *digest);
sceMt19937GlobalInitForDriver
Version |
NID
|
3.60 |
0xD428CC2A
|
sceMt19937GlobalUninitForDriver
Version |
NID
|
3.60 |
0x875B2A1C
|
sceMt19937InitForDriver
Version |
NID
|
3.60 |
0x4C9A5730
|
sceMt19937UIntForDriver
Version |
NID
|
3.60 |
0x92AEDFBC
|
sceSfmt19937FillArray32ForDriver
Version |
NID
|
3.60 |
0x2B30548B
|
sceSfmt19937FillArray64ForDriver
Version |
NID
|
3.60 |
0x49B41540
|
sceSfmt19937GenRand32ForDriver
Version |
NID
|
3.60 |
0xBBE4701A
|
sceSfmt19937GenRand64ForDriver
Version |
NID
|
3.60 |
0x45DEAAD6
|
sceSfmt19937InitByArrayForDriver
Version |
NID
|
3.60 |
0x33AE1203
|
sceSfmt19937InitGenRandForDriver
Version |
NID
|
3.60 |
0xAB48C3CA
|
sceSha1BlockInitForDriver
Version |
NID
|
3.60 |
0xE4390FFA
|
int sceSha1BlockInitForDriver(void* ctx);
sceSha1BlockResultForDriver
Version |
NID
|
3.60 |
0x48F24106
|
int sceSha1BlockResultForDriver(void* ctx, void *digest);
sceSha1BlockUpdateForDriver
Version |
NID
|
3.60 |
0x478A6F3C
|
int sceSha1BlockUpdateForDriver(void* ctx, const void *data, int size);
sceSha1DigestForDriver
Version |
NID
|
3.60 |
0x87DC7F2F
|
int sceSha1DigestForDriver(const void *data, int size, void *digest);
sceSha224BlockInitForDriver
Version |
NID
|
3.60 |
0xC762EA6D
|
int sceSha224BlockInitForDriver(void* ctx);
sceSha224BlockResultForDriver
Version |
NID
|
3.60 |
0xFBF2A442
|
int sceSha224BlockResultForDriver(void* ctx, void *digest);
sceSha224BlockUpdateForDriver
Version |
NID
|
3.60 |
0x7556E611
|
int sceSha224BlockUpdateForDriver(void* ctx, const void *data, int size);
sceSha224DigestForDriver
Version |
NID
|
3.60 |
0x9EA9D4DC
|
int sceSha224DigestForDriver(const void *data, int size, void *digest);
sceSha256BlockInitForDriver
Version |
NID
|
3.60 |
0xD909FA2C
|
int sceSha256BlockInitForDriver(void* ctx);
sceSha256BlockResultForDriver
Version |
NID
|
3.60 |
0x4899CD4B
|
int sceSha256BlockResultForDriver(void* ctx, void *digest);
sceSha256BlockUpdateForDriver
Version |
NID
|
3.60 |
0x236A9097
|
int sceSha256BlockUpdateForDriver(void* ctx, const void *data, int size);
sceSha256DigestForDriver
Version |
NID
|
0.931-3.60 |
0xA773A6A8
|
int sceSha256DigestForDriver(const void *data, SceSize size, void *digest);
sceZlibDecompressForDriver
Version |
NID
|
3.60 |
0x900148DB
|
sceZlibGetCompressedDataForDriver
Version |
NID
|
3.60 |
0x01EB6C45
|
sceZlibGetInfoForDriver
Version |
NID
|
3.60 |
0x5B9BCD75
|
SceZlibForDriver
zlib compression library.
Firmware |
zlib version
|
1.60 |
1.2.5
|
3.60 |
1.2.5
|
inflate
Version |
NID
|
1.60-3.60 |
0xE4F34A68
|
deflate
Version |
NID
|
1.60-3.60 |
0xE859D60F
|
deflateReset
Version |
NID
|
1.60-3.60 |
0x68CFEA45
|
crc32
Version |
NID
|
1.60-3.60 |
0xE0CE06C0
|
adler32
Version |
NID
|
1.60-3.60 |
0x98619620
|
inflateSetDictionary
Version |
NID
|
1.60-3.60 |
0x7B16DBD6
|
SceZlibForDriver_20A122F8
Version |
NID
|
3.60 |
0x20A122F8
|
used by SceCoredump
maybe init function
int SceZlibForDriver_20A122F8(void *ctx, int a2, int a3, int a4, int a5, int a6, const char *verstr, int a8);
SceZlibForDriver_5492B3F2
Version |
NID
|
3.60 |
0x5492B3F2
|
used by SceCoredump
int SceZlibForDriver_5492B3F2(int arg1);
SceZlibForDriver_5B718E55
Version |
NID
|
3.60 |
0x5B718E55
|
used by SceCoredump
int SceZlibForDriver_5B718E55(int arg1, int arg2);
SceKernelSuspendForDriver
Used to register callbacks for handling suspend/resume related events.
sceKernelRegisterSysEventHandlerForDriver
Version |
NID
|
0.990-3.60 |
0x04C05D10
|
Previous name was sceKernelSuspendRegisterCallbackForDriver
typedef struct {
uint32_t size; // 24
uint32_t unk1;
uint32_t unk2;
uint32_t unk3;
uint32_t unk4;
uint32_t unk5;
} suspend_args_t;
typedef int (suspend_callback_t)(int resume, int event_id, suspend_args_t *args, void *opt);
int sceKernelRegisterSysEventHandlerForDriver(const char *name, suspend_callback_t *callback_func, void *opt);
Registers a function for handling suspend/resume. resume
is 0 if we are currently suspending and 1 if we are currently resuming. opt
is passed from the registration. Registration adds an entry to a linked list and returns the block id for the new entry.
Returns the suspend_callback_id.
sceKernelUnregisterSysEventHandlerForDriver
Version |
NID
|
0.990-3.60 |
0xDD61D621
|
int sceKernelUnregisterSysEventHandlerForDriver(int id);
Call with the id returned from suspend_register_callback
to remove the entry from the linked list and free the memory.
sceKernelSysEventDispatchForDriver
Version |
NID
|
0.990-3.60 |
0xD4622EA8
|
int sceKernelSysEventDispatchForDriver(int resume, int eventid, suspend_args_t *args, int stop_on_error);
This will go through the linked list and call each callback. If stop_on_error
is set, then the first callback that returns a negative value will stop the call chain and return the block id of the callback that broke the chain. Otherwise, this function will invoke each callback and return zero.
sceKernelPowerTickForDriver
Version |
NID
|
0.990-3.60 |
0xE0489831
|
typedef enum SceKernelPowerTickType {
/** Cancel all timers */
SCE_KERNEL_POWER_TICK_DEFAULT = 0,
/** Cancel automatic suspension timer */
SCE_KERNEL_POWER_TICK_DISABLE_AUTO_SUSPEND = 1,
/** Cancel OLED-off timer */
SCE_KERNEL_POWER_TICK_DISABLE_OLED_OFF = 4,
/** Cancel OLED dimming timer */
SCE_KERNEL_POWER_TICK_DISABLE_OLED_DIMMING = 6
} SceKernelPowerTickType;
int sceKernelPowerTickForDriver(int type);
Cancel specified idle timers to prevent entering in power save processing.
Returns 0 on success.
suspend_before_nvs_write
Version |
NID
|
0.990-3.60 |
0x4DF40893
|
int suspend_before_nvs_write(int maybe_pid);
resume_after_nvs_write
Version |
NID
|
0.990-3.60 |
0x2BB92967
|
int resume_after_nvs_write(int maybe_pid);
SceQafMgrForDriver
Provides many device permission checks including running app privilege checks, debugging enabled checks, and so on.
SceQafMgrForDriver_41E04800
Version |
NID
|
3.60 |
0x41E04800
|
Only used by SceAppMgr.
SceQafMgrForDriver_7B14DC45
Version |
NID
|
3.60 |
0x7B14DC45
|
Only used by SceAppMgr.
return ((unsigned int)*(char *)(sceKernelSysrootGetKblParamForKernel() + 0x2D) >> 1) & 1; // = 0x2D + BIT number 30
int SceQafMgrForDriver_7B14DC45(void);
SceQafMgrForDriver_082A4FC2
Version |
NID
|
0.990-3.60 |
0x082A4FC2
|
Used by sceSblFwLoaderLockForDriver, SceKernelModulemgr, SceSysStateMgr and SceSblPostSsMgr.
Used by sceSblSpsfoMgrOpenForDriver.
When this flag is set, it allows for example to load spsfo from host0:, and host0:psp2config.skprx.
SceQafMgrForDriver_694D1096
Version |
NID
|
3.60 |
0x694D1096
|
Only used by SceSblACMgr.
SceQafMgrForDriver_0E588747
Version |
NID
|
0.990-3.60 |
0x0E588747
|
Only used by SceRegistryMgr.
Returns true if the PSVita is an "Internal system".
sceSblQafMgrIsAllowSystemAppDebugForDriver
Version |
NID
|
0.990-3.60 |
0xCAD47130
|
Used by SceDeci4pDtracep and SceSblACMgr.
If it returns false, syscalls debug trace printf is disabled.
sceSblQafMgrIsAllowMarlinTestForDriver
Version |
NID
|
1.03-3.60 |
0x10283EB8
|
sceSblQafMgrIsAllowLoadMagicGateForDriver
Version |
NID
|
3.60 |
0x36E5312E
|
sceQafMgrIsAllowKernelDebugForDriver
Version |
NID
|
3.60 |
0x382C71E8
|
Used by SceKernelModulemgr, SceExcpmgr, SceCrashDump, SceHdmi
return *(uint8_t *)((int)kbl_param + 0x2D) & 1;
int sceQafMgrIsAllowKernelDebugForDriver(void);
sceQafMgrIsAllowQAUpdateForDriver
Version |
NID
|
3.60 |
0x3CB55F98
|
Only used by SceSblUpdateMgr.
sceSblQafMgrIsAllowGameDebugForDriver
Version |
NID
|
3.60 |
0x4BC1883F
|
SceQafMgrForDriver_52B4E164
Version |
NID
|
3.60 |
0x52B4E164
|
Only used by SceWlanBt.
SceQafMgrForDriver_70A67A4B
Version |
NID
|
3.60 |
0x70A67A4B
|
SceQafMgrForDriver_883E9465
Version |
NID
|
0.940-3.60 |
0x883E9465
|
Used by SceSysStateMgr.
Allows loading unencrypted psp2config.txt.
sceSblQafMgrIsAllowForceUpdateForDriver
Version |
NID
|
0.990-3.60 |
0x8C423C18
|
Only used by SceSblUpdateMgr.
sceSblQafMgrIsAllowNearTestForDriver
Version |
NID
|
1.03-3.60 |
0x9644171D
|
SceQafMgrForDriver_AE033133
Version |
NID
|
3.60 |
0xAE033133
|
Only used by SceNpDrm.
SceQafMgrForDriver_DEC6DF4E
Version |
NID
|
3.60 |
0xDEC6DF4E
|
Only used by SceNpDrm.
sceSblQafMgrIsAllowPSPEmuShowQAInfoForDriver
Version |
NID
|
3.60 |
0xB7B195B2
|
SceQafMgrForDriver_B9770A13
Version |
NID
|
3.60 |
0xB9770A13
|
Used by SceKernelModulemgr and SceSysmodule.
sceSblQafMgrIsAllowRemotePlayDebugForDriver
Version |
NID
|
3.60 |
0xBFD5E463
|
sceSblQafMgrIsAllowKeepCoreFileForDriver
Version |
NID
|
3.60 |
0xC1EA75C8
|
SceQafMgrForDriver_E573F124
Version |
NID
|
3.60 |
0xE573F124
|
sceSblQafMgrIsAllowDtcpIpResetForDriver
Version |
NID
|
3.60 |
0xE8B8F31F
|
sceSblQafMgrIsAllowControlIduAutoUpdateForDriver
Version |
NID
|
3.60 |
0xF8BFEE48
|
ScePmMgrForDriver
scePmMgrGetProductModeForDriver
Version |
NID
|
0.931-3.60 |
0x2AC815A2
|
Returns 0 on success, 0x800f0a29 on failure.
Gets kbl_param using sceKernelSysrootGetKblParamForKernel.
result = ((int *)(kbl_param->boot_type_indicator_1) >> 2) & 1; // manufacturing mode flag
int scePmMgrGetProductModeForDriver(char* result);
scePmMgrIsExternalBootModeForDriver
Version |
NID
|
3.60 |
0xBD1F193B
|
Gets kbl_param using sceKernelSysrootGetKblParamForKernel.
return (int *)(kbl_param->boot_type_indicator_1) & 1; // external boot mode flag
int scePmMgrIsExternalBootModeForDriver(void);
SceSblAIMgrForDriver
sceSblAIMgrGetSMIForDriver
Version |
NID
|
3.60 |
0x47D9CF13
|
SMI means Service / Manufacturing Information.
shipped_fw_version is gotten from SceKblParam.
int sceSblAIMgrGetSMIForDriver(int *shipped_fw_version);
sceSblAIMgrGetProductCodeForDriver
Version |
NID
|
3.60 |
0x14345161
|
Temp name was sceSblAIMgrGetTargetIdForDriver.
Product Code = Target Id
int sceSblAIMgrGetProductCodeForDriver(void);
sceSblAIMgrGetProductSubCodeForDriver
Version |
NID
|
3.60 |
0xB33CEC8F
|
Product Sub Code = model revision
int sceSblAIMgrGetProductSubCodeForDriver(void);
sceSblAIMgrIsTestForDriver
Version |
NID
|
3.60 |
0x3B638885
|
TEST = Internal Test Unit
Returns true if PsCode Product Code <= 0x100.
int sceSblAIMgrIsTestForDriver(void);
sceSblAIMgrIsToolOrTestForDriver
Version |
NID
|
3.60 |
0x274663A0
|
TOOL = DevKit
Returns true if PsCode Product Code <= 0x101.
int sceSblAIMgrIsToolOrTestForDriver(void);
sceSblAIMgrIsNonCEXForDriver
Version |
NID
|
3.60 |
0xF4B98F66
|
Returns true if PsCode Product Code <= 0x102.
int sceSblAIMgrIsNonCEXForDriver(void);
sceSblAIMgrIsCEXForDriver
Version |
NID
|
3.60 |
0xD78B04A2
|
Returns true if PsCode Product Code <= 0x111 AND sceSblAIMgrIsJapaneseFatForDriver returns false.
int sceSblAIMgrIsCEXForDriver(void);
sceSblAIMgrIsVITAForDriver
Version |
NID
|
3.60 |
0x4273B97B
|
Returns sceSblAIMgrIsGenuineVITAForDriver.
int sceSblAIMgrIsVITAForDriver(void);
sceSblAIMgrIsDolceForDriver
Version |
NID
|
3.60 |
0x71608CA3
|
Returns sceSblAIMgrIsGenuineDolceForDriver if returns true else returns sceKernelCheckDipswForDriver(0x98).
int sceSblAIMgrIsDolceForDriver(void);
sceSblAIMgrIsGenuineVITAForDriver
Version |
NID
|
3.60 |
0x963CA644
|
Returns true if:
- PsCode Product Code <= 0x111 AND sceSblAIMgrIsGenuineDolceForDriver returns false
- sceSblAIMgrIsJapaneseFatForDriver returns true AND HardwareInfo != 0x700000 != 0x720000 != 0x510000
int sceSblAIMgrIsGenuineVITAForDriver(void);
sceSblAIMgrIsGenuineDolceForDriver
Version |
NID
|
3.60 |
0xC6E83F34
|
int sceSblAIMgrIsGenuineDolceForDriver(void);
sceSblAIMgrIsJapaneseFatForDriver
Version |
NID
|
3.60 |
0x6D5A3FC9
|
Returns true if PsCode Product Code == 0x103 (Japanese), PsCode Product Sub Code == 0x10 (FAT) and PsCode Factory Code == 0x24 (refurbished).
int sceSblAIMgrIsJapaneseFatForDriver(void);
sceSblAIMgrIsToolDVT1ForDriver
Version |
NID
|
3.60 |
0xBB9D146B
|
Returns true if PsCode Product Code == 0x101 and PsCode Product Sub Code <= 3.
int sceSblAIMgrIsToolDVT1ForDriver(void);
sceSblAIMgrIsToolRev4ForDriver
Version |
NID
|
3.60 |
0x37A79140
|
Returns true if PsCode Product Code == 0x101 and PsCode Product Sub Code <= 4.
int sceSblAIMgrIsToolRev4ForDriver(void);
sceSblAIMgrIsToolRev5ForDriver
Version |
NID
|
3.60 |
0xE5E47FF7
|
Returns true if PsCode Product Code == 0x101 and PsCode Product Sub Code <= 5.
int sceSblAIMgrIsToolRev5ForDriver(void);
sceSblAIMgrIsPrototypeRev2ForDriver
Version |
NID
|
3.60 |
0xFF5784B9
|
Returns true if PsCode Product Code == 0x103 and PsCode Product Sub Code <= 2.
int sceSblAIMgrIsPrototypeRev2ForDriver(void);
sceSblAIMgrIsPrototypeRev7ForDriver
Version |
NID
|
3.60 |
0x05F79D4A
|
Returns true if PsCode Product Code == 0x103 and PsCode Product Sub Code <= 7.
int sceSblAIMgrIsPrototypeRev7ForDriver(void);
SceProcEventForDriver
sceKernelUnregisterProcEventHandlerForDriver
Version |
NID
|
3.60 |
0x3DED57CC
|
Previous name was sceProcEventDeleteUidForDriver.
Wrapper to sceGUIDCloseForDriver.
int sceKernelUnregisterProcEventHandlerForDriver(int uid);
sceKernelRegisterProcEventHandlerForDriver
Version |
NID
|
0.990-3.60 |
0x2A43912D
|
Previous name was sceProcEventCreateEventForDriver
Uses sceKernelCreateEventForDriver.
Returns uid.
typedef struct SceProcEventHandler {
SceSize size; // SceProcEventHandler struct size : 0x1C
int (* create)(SceUID pid);
int (* exit)(SceUID pid); // current process exit
int (* kill_by_sce_shell)(SceUID pid);
int (* stop)(SceUID pid); // It is called many times by one process switch
int (* start)(SceUID pid); // It is called many times by one process switch
int (* switch_process)(int event_id, SceUID pid); // It is called only once in one process switch (start/stop...?)
} SceProcEventHandler;
a3 - set zero
SceUID sceKernelRegisterProcEventHandlerForDriver(const char *name, SceProcEventHandler *pHandler, int a3);
sceKernelInvokeProcEventHandlerForDriver
Version |
NID
|
3.60 |
0x414CC813
|
Uses suspend/resume LR.
int sceKernelInvokeProcEventHandlerForDriver(int a1, int a2, int a3, int a4, int *a5, int a6);
SceDebugLed
sceKernelGetGPI
Version |
NID
|
3.60 |
0x14F582CF
|
int sceKernelGetGPI(void);
sceKernelSetGPO
Version |
NID
|
3.60 |
0x78E702D3
|
/**
* @brief Output to LED
*
* This sets the content displayed on the DevKit LED.
* @param[in] uiBitd Bit pattern. only low-order 8 bits are valid.
*/
int sceKernelSetGPO(SceUInt32 uiBits);
call_cb74
Version |
NID
|
3.60 |
0x2B6EABAD
|
int call_cb74(void);
call_cb78
Version |
NID
|
3.60 |
0x0E6B9890
|
int call_cb78(void);
SceDebugLedForDriver
sceKernelGetGPIForDriver
Version |
NID
|
3.60 |
0x14F582CF
|
Only SceDebugLedForDriver function used by SceCoredump.
int sceKernelGetGPIForDriver(void);
sceKernelSetGPIForDriver
Version |
NID
|
3.60 |
0x51C5325A
|
int sceKernelSetGPIForDriver(int value);
sceKernelGetGPOForDriver
Version |
NID
|
3.60 |
0x3BB289F7
|
int sceKernelGetGPOForDriver(void);
sceKernelSetGPOForDriver
Version |
NID
|
3.60 |
0x78E702D3
|
int sceKernelSetGPOForDriver(SceUInt32 uiBits);
sceKernelSetGPOMaskForDriver
Version |
NID
|
3.60 |
0x098473B0
|
sceKernelSetGPOMaskForDriver(int a1, int a2);
call_cb74
Version |
NID
|
3.60 |
0x2B6EABAD
|
int call_cb74(void);
set_cb74
Version |
NID
|
3.60 |
0x24173819
|
int set_cb74(void *cb);
call_cb78
Version |
NID
|
3.60 |
0x0E6B9890
|
int call_cb78(void);
set_cb78
Version |
NID
|
3.60 |
0xF62154E7
|
int set_cb78(void *cb);
SceDebugForKernel
sceKernelDebugModuleStart2ForKernel
Version |
NID
|
0.931-3.60 |
0xF624CE22
|
int sceKernelDebugModuleStart2ForKernel(void);
sceKernelRegisterKprintfHandlerForKernel
Version |
NID
|
0.931-3.60 |
0x10067B7B
|
Temp name was sceDebugSetHandlersForKernel.
int sceKernelRegisterKprintfHandlerForKernel(int (*kprintf)(const char *fmt, ...), const void *args);
sceKernelGetDebugPutcharForKernel
Version |
NID
|
3.60 |
0xE783518C
|
Temp name was sceDebugGetPutcharHandlerForKernel.
Returns pointer to current debug putchar handler.
void *sceKernelGetDebugPutcharForKernel(void);
sceKernelRegisterDebugPutcharForKernel
Version |
NID
|
3.60 |
0xE6115A72
|
Temp name was sceDebugRegisterPutcharHandlerForKernel.
Set debug print char handler.
int sceKernelRegisterDebugPutcharForKernel(int (*debug_putchar)(const void *args, char c), const void *args);
sceKernelDebugPutcharForKernel
Version |
NID
|
0.931-3.60 |
0x82D2EDCE
|
Temp name was sceDebugPutcharForKernel.
Print character.
int sceKernelDebugPutcharForKernel(char c);
sceKernelStoppedForKernel
Version |
NID
|
0.931 |
0xF1F0C365
|
3.60 |
not present
|
int sceKernelStoppedForKernel(const char *maybe_pFile, const char *maybe_pFunc, int maybe_line);
print_kernel_excp_info
Version |
NID
|
0.931 |
not present
|
3.60 |
0x082B8D6A
|
Prints Kernel Exception information, and certainly calls SceCoredump.
// excp_name can be:
// UNDEF - Undefined?
// PABT - Prefetch Abort
// DABT - Data Abort
// NEST - Nested?
// buf_400 size is 0x400 bytes
int print_kernel_excp_info(kernel_message_ctx *msg_ctx, void *buf_400, int index, const char *excp_name);
register_unk_handler
Version |
NID
|
0.931 |
not present
|
3.60 |
0x66D82EC8
|
handler definition:
handler(int some_level, void *unk, const void *buf);
int register_unk_handler(void *handler);
set_info_dump_flag
Version |
NID
|
0.931 |
not present
|
3.60 |
0xF857CDD6
|
Temp name was sceDebugDisableInfoDumpForKernel.
// ex: set_info_dump_flag(0); as used in henkaku/payload.c
// flag: 0: disable, 1: enable
int set_info_dump_flag(int flag);
register_log_buffer
Version |
NID
|
0.931 |
0x4703ECC4
|
3.60 |
not present
|
int register_log_buffer(const void *log_buffer_addr, SceSize log_buffer_size);
start_logging
Version |
NID
|
0.931 |
0x4C377B11
|
3.60 |
not present
|
Returns 1 if logging has been started successfully, -1 else.
int start_logging(int state);
stop_logging
Version |
NID
|
0.931 |
0x604F56AE
|
3.60 |
not present
|
If state is not zero, stops logging and return 1, else does nothing and return 0.
Returns 1 if logging has been stopped, 0 else.
int stop_logging(void);
refresh_logs
Version |
NID
|
0.931 |
0x04A3046D
|
3.60 |
not present
|
int refresh_logs(void);
_sceKernelPrintDebugLogForKernel
Version |
NID
|
0.931 |
0xEFDE973B
|
3.60 |
not present
|
If a2 is not zero, the current log buffer address is updated, else it is unchanged.
maxNum is guessed to be either the number of entries or the index of the chosen entry. Entry size is 0x40 bytes.
Uses sceKernelPrintfLevelForDriver to print.
int _sceKernelPrintDebugLogForKernel(int a1, int a2, int maxNum);
sceKernelPrintDebugLogForKernel
Version |
NID
|
0.931 |
0xBD5D0BB0
|
3.60 |
not present
|
Calls _sceKernelPrintDebugLogForKernel with maxNum = (log_buf_end - log_buf_start) / 0x40.
int sceKernelPrintDebugLogForKernel(int a1, int a2);
print_with_log_buffer
Version |
NID
|
0.931 |
0x904FF72D
|
3.60 |
not present
|
int print_with_log_buffer(const char *string, SceSize maxlen);
sceKernelPrintfCore0ForKernel
Version |
NID
|
0.931 |
0x2D7380FE
|
3.60 |
not present
|
Same as sceKernelPrintfForDriver but only prints if CPU ID is 0.
int sceKernelPrintfCore0ForKernel(const char *fmt, ...);
sceKernelPrintfLevelCore0ForKernel
Version |
NID
|
0.931 |
0x14241F51
|
3.60 |
not present
|
Same as sceKernelPrintfLevelForDriver but only prints if CPU ID is 0.
int sceKernelPrintfLevelCore0ForKernel(int level, const char *fmt, ...);
sceKernelSetMinimumLogLevelForKernel
Version |
NID
|
0.931-3.60 |
0xBE2C05A2
|
/**
* @brief Specifies the minimum severity level for the output of logging information.
*
* Specifies the minimum severity level for the output of logging information. The default level is SCE_DBG_LOG_LEVEL_TRACE.
*
* @param minimumLogLevel The minimum severity at which debugging messages should be output.
* @retval SCE_OK The operation was completed successfully.
* @retval Negative value Error code
*/
int sceKernelSetMinimumLogLevelForKernel(SceInt32 minimumLogLevel);
sceKernelGetMinimumLogLevelForKernel
Version |
NID
|
0.931 |
0xDA6B6770
|
3.60 |
not present
|
Returns the minimumLogLevel set by sceKernelSetMinimumLogLevelForKernel.
SceInt32 sceKernelGetMinimumLogLevelForKernel(void);
sceKernelSetMinimumAssertionLevelForKernel
Version |
NID
|
0.931-3.60 |
0xCE9060F1
|
Overrides in memory the minimumAssertionLevel set by DIP switches 201 and 202.
SceInt32 sceKernelSetMinimumAssertionLevelForKernel(SceUInt32 minimumAssertionLevel);
sceKernelGetMinimumAssertionLevelForKernel
Version |
NID
|
0.931 |
0x374B7868
|
3.60 |
moved to ForDriver
|
Returns the minimumAssertionLevel from memory.
SceInt32 sceKernelGetMinimumAssertionLevelForKernel(void);
SceDebugForKernel_BEF921A2
Version |
NID
|
0.931 |
not present
|
3.60 |
0xBEF921A2
|
/*
buf : 0x87C000
cpuId : 0x2
a3 : 0x6123CD7
a4 : 0x0
msg_ctx : 0x1A3E858
buf_400 : 0x8D6CA0
a7 : 0x1
ret : 0x710
*/
// buf size is 0x1000 bytes
// buf_400 size is 0x400 bytes
int SceDebugForKernel_BEF921A2(void *buf, int cpuId, int a3, int a4, kernel_message_ctx *msg_ctx, void *buf_400, int a7);
add_entry
Version |
NID
|
0.931-0.990 |
0x1208240D
|
3.60 |
not present
|
// ex: add_entry(0xAB, in_lr, 1, uid); in SceSysmem
// ex: add_entry(0xBB, in_lr, 0, param_4); in SceProcessmgr
int add_entry(SceSize maxlen, int a2, int a3, void *log_buffer_start);
add_entry2
Version |
NID
|
0.931 |
0x061A4657
|
3.60 |
not present
|
int add_entry2(int a1, const char *msg, void *log_buffer_start, int a4);
register_unk_cb
Version |
NID
|
0.931-3.60 |
0xEFF9962B
|
The callback has this definition:
// unk: 2 or 3
int unk_cb(SceUID pid, void *buf, SceSize size, int *pOut, int unk);
If unk_cb runs successfully (return >= 0), pOut is used as third argument of unk_cb2, else unk_cb2 is not called at all.
int register_unk_cb(void *some_cb);
register_unk_cb2
Version |
NID
|
0.931-3.60 |
0xB5943011
|
The callback has this definition:
int unk_cb2(SceUID pid, void *buf, int unk);
int register_unk_cb2(void *some_cb);
sceKernelPrintSyscallFrameForKernel
Version |
NID
|
3.60 |
0x25E31E18
|
// if pSyscallFrame is NULL, it will use the current syscall frame
// pResult is a pointer to a 0x10 bytes buffer
int sceKernelPrintSyscallFrameForKernel(SceUID pid, SceSyscallFrame *pSyscallFrame, SceUInt32 *pResult);
SceDebugForDriver
Types
typedef struct kernel_message_ctx { // size is 0x18 on FW 3.60
int hex_value0_hi;
int hex_value0_lo;
int hex_value1;
const char* pFunc;
int line;
const char* pFile;
} kernel_message_ctx;
sceKernelPrintfForDriver
Version |
NID
|
0.931-3.60 |
0x391B74B7
|
int sceKernelPrintfForDriver(const char *fmt, ...);
sceKernelVprintfForDriver
Version |
NID
|
0.931-3.60 |
0x411C0733
|
int sceKernelVprintfForDriver(const char *fmt, va_list arg);
sceKernelPrintfLevelForDriver
Version |
NID
|
0.931-3.60 |
0x1A3F2AA4
|
int sceKernelPrintfLevelForDriver(int level, const char *fmt, ...);
sceKernelVprintfLevelForDriver
Version |
NID
|
0.931 |
not present
|
3.60 |
0x611A158B
|
int sceKernelVprintfLevelForDriver(int level, const char *fmt, va_list arg);
sceKernelPrintfLevelWithCtxForDriver
Version |
NID
|
0.931 |
not present
|
3.60 |
0xD9703808
|
int sceKernelPrintfLevelWithCtxForDriver(int level, kernel_message_ctx *msg_ctx, const char *fmt, ...);
sceKernelVprintfLevelWithCtxForDriver
Version |
NID
|
0.931 |
not present
|
3.60 |
0x02B04343
|
Temp name was sceDebugPrintf2ForDriver.
int sceKernelVprintfLevelWithCtxForDriver(int level, kernel_message_ctx *msg_ctx, const char *fmt, va_list arg);
print_kernel_panic
Version |
NID
|
0.931 |
not present
|
3.60 |
0x391B5B74
|
Temp name was sceDebugPrintKernelPanicForDriver.
int print_kernel_panic(kernel_message_ctx *msg_ctx, const void *addr);
vprintf_kernel_panic
Version |
NID
|
0.931 |
not present
|
3.60 |
0x00CCE39C
|
int vprintf_kernel_panic(kernel_message_ctx *msg_ctx, const void *addr, const char* fmt, va_list arg);
sceKernelAssertForDriver
Version |
NID
|
0.931-3.60 |
0x35A35322
|
Temp name was sceDebugPrintKernelAssertionForDriver.
// 0.931:
// addr is maybe not an argument but the stack pointer got within the function
int sceKernelAssertForDriver(SceBool condition, const char* pFile, const char* pFunc, int line, const void *addr);
// 3.60:
int sceKernelAssertForDriver(SceBool condition, kernel_message_ctx *msg_ctx, const void *addr);
sceKernelAssertLevelForDriver
Version |
NID
|
0.931-3.60 |
0xFD753E7A
|
// 0.931:
int sceKernelAssertLevelForDriver(int level, SceBool condition, const char* pFile, const char* pFunc, int line, const void *addr);
// 3.60:
int sceKernelAssertLevelForDriver(int level, SceBool condition, kernel_message_ctx *msg_ctx, const void *addr);
sceKernelVprintfAssertLevelForDriver
Version |
NID
|
0.931 |
not present
|
0.990-3.60 |
0x821A2D59
|
// 0.990:
int sceKernelVprintfAssertLevelForDriver(int level, SceBool condition, const char *pFile, const char *pFunc, int line, const void *addr, const char *fmt, va_list arg);
// 3.60:
int sceKernelVprintfAssertLevelForDriver(int level, SceBool condition, kernel_message_ctx *msg_ctx, const void *addr, const char *fmt, va_list arg);
sceKernelGetMinimumAssertionLevelForDriver
Version |
NID
|
0.931 |
in ForKernel
|
3.60 |
0x374B7868
|
Returns the minimumAssertionLevel from memory.
SceInt32 sceKernelGetMinimumAssertionLevelForDriver(void);
SceDebugForDriver_62466B0A
Version |
NID
|
0.931 |
not present
|
3.60 |
0x62466B0A
|
Copy some exception information from memory to the provided buffer.
// max size is 0x1000
int SceDebugForDriver_62466B0A(void *out_buf, SceSize size);
SceSysmemForTZS
sceKernelProcModeVAtoPAForTZS
Version |
NID
|
0.931 |
0x119B9547
|
int sceKernelProcModeVAtoPAForTZS(SceUID pid, uint32_t mode, void *pVA, void **pPA);
sceKernelAllocPartitionStackMemBlockForTZS
Version |
NID
|
0.931 |
0x69022B7F
|
Version |
NID
|
0.940-1.80 |
0x3FEF6B39
|
sceKernelDeleteHeapForTZS
Version |
NID
|
0.931-1.80 |
0x624454BC
|
sceKernelCreateHeapForTZS
Version |
NID
|
0.931-1.80 |
0x56A16D84
|
sceKernelAllocHeapMemoryWithOptionForTZS
Version |
NID
|
0.931-1.80 |
0xEA712806
|
sceKernelAllocHeapMemoryForTZS
Version |
NID
|
0.931-1.80 |
0x473871D8
|
sceKernelAllocHeapMemoryFromGlobalHeapForTZS
Version |
NID
|
0.940-1.80 |
0x29DE887D
|
sceKernelFreeHeapMemoryForTZS
Version |
NID
|
0.931-1.80 |
0x42FB5B12
|
sceKernelAllocUncacheHeapMemoryWithOptionForTZS
Version |
NID
|
0.931-1.80 |
0x6A3FBAF0
|
sceKernelFreeUncacheHeapMemoryForTZS
Version |
NID
|
0.931-1.80 |
0x2F18E288
|
sceKernelNameHeapDeleteForTZS
Version |
NID
|
0.990-1.80 |
0xF459D09D
|
sceKernelNameHeapInsertForTZS
Version |
NID
|
0.990-1.80 |
0x42AD34AB
|
sceKernelSetSuspendIntrFuncForTZS
Version |
NID
|
0.940-1.80 |
0xB4306D21
|
sceKernelSetResumeIntrFuncForTZS
Version |
NID
|
0.940-1.80 |
0x418111B0
|
sceKernelAddressSpaceUnmapForTZS
Version |
NID
|
0.940-1.80 |
0x31273DC7
|
sceKernelGetMemBlockBaseForTZS
Version |
NID
|
0.931-1.80 |
0xE1DEDFF4
|
/**
* @brief Get mapped base address of memory block.
*
* Get base address of memory block.
* @param[in] uid block id
* @param[out] ppBase base address of memory block
* @retval SCE_OK success
* @retval <SCE_OK Error
*/
int sceKernelGetMemBlockBaseForTZS(SceUID uid, void **ppBase);
sceKernelFreeMemBlockForTZS
Version |
NID
|
0.940-1.80 |
0x658EACE3
|
sceKernelAllocMemBlockForTZS
Version |
NID
|
0.940-1.80 |
0x402EB970
|
SceUID sceKernelAllocMemBlockForTZS(const char *name, SceKernelMemBlockType type, SceSize vsize, const struct SceKernelAllocMemBlockOptKernel *pOpt);
sceKernelAllocPartitionMemBlockForTZS
Version |
NID
|
0.940-1.80 |
0x0028E26C
|
Temp name was sceKernelAllocMemBlockForPidForTZS.
SceUID sceKernelAllocPartitionMemBlockForTZS(SceUID pid, const char *name, SceKernelMemBlockType type, SceSize vsize, const struct SceKernelAllocMemBlockOptKernel *pOpt);
sceKernelVAtoPAForTZS
Version |
NID
|
0.931-1.80 |
0x1DEADF6C
|
This will write the physical address for a virtual address pVA
to memory pointed to by ppPA
.
Returns <0 on error, values >=0 indicate success.
int sceKernelVAtoPAForTZS(void *pVA, void **ppPA);
sceKernelVARangeToPAVectorForTZS
Version |
NID
|
0.931-1.80 |
0x9D43E416
|
sceKernelCreateAddressSpaceForTZS
Version |
NID
|
0.931 |
0x21906368
|
SceDipswForTZS
sceKernelCheckDipswForTZS
Version |
NID
|
0.940-1.80 |
0xA98FC2FD
|
SceUartForTZS
sceUartWriteForTZS
Version |
NID
|
0.990-1.80 |
0x3AFD5E71
|
SceDebugForTZS
sceKernelDebugModuleStart2ForTZS
Version |
NID
|
0.931 |
0x32E3D4B9
|
int sceKernelDebugModuleStart2ForTZS(void);
sceKernelRegisterKprintfHandlerForTZS
Version |
NID
|
0.931 |
0x0AD558D5
|
int sceKernelRegisterKprintfHandlerForTZS(int (*kprintf)(const char *fmt, ...), const void *args);
sceKernelDebugPutcharForTZS
Version |
NID
|
0.931 |
0xD36F27BA
|
Print character.
int sceKernelDebugPutcharForTZS(char c);
sceKernelStoppedForTZS
Version |
NID
|
0.931-0.990 |
0xCB502FD1
|
1.80 |
not present
|
int sceKernelStoppedForTZS(const char *maybe_pFile, const char *maybe_pFunc, int maybe_line);
sceKernelAssertForTZS
Version |
NID
|
0.931-3.60 |
0x2F9B8AA8
|
// 0.931:
int sceKernelAssertForTZS(SceBool condition, const char* pFile, const char* pFunc, int line, const void *addr);
// 3.60:
int sceKernelAssertForTZS(SceBool condition, kernel_message_ctx *msg_ctx, const void *addr);
sceKernelAssertLevelForTZS
Version |
NID
|
3.60 |
0x618F89E6
|
// 3.60:
int sceKernelAssertLevelForTZS(int level, SceBool condition, kernel_message_ctx *msg_ctx, const void *addr);
sceKernelGetMinimumAssertionLevelForTZS
Version |
NID
|
3.60 |
0xF851BA4F
|
Returns the minimumAssertionLevel from memory.
SceInt32 sceKernelGetMinimumAssertionLevelForTZS(void);
_sceKernelPrintDebugLogForTZS
Version |
NID
|
0.931 |
0x4FF6536C
|
int _sceKernelPrintDebugLogForTZS(int a1, int a2, int maxNum);
sceKernelPrintDebugLogForTZS
Version |
NID
|
0.931 |
0x85BF33E1
|
int sceKernelPrintDebugLogForTZS(int a1, int a2);
print_with_log_buffer
Version |
NID
|
0.931 |
0x1FD92289
|
int print_with_log_buffer(const char *string, SceSize maxlen);
sceKernelPrintfForTZS
Version |
NID
|
0.931-1.80 |
0x1655E0E3
|
int sceKernelPrintfForTZS(const char *fmt, ...);
sceKernelPrintfLevelForTZS
Version |
NID
|
0.931-1.80 |
0xC70CBB58
|
int sceKernelPrintfLevelForTZS(int level, const char *fmt, ...);
sceKernelPrintfCore0ForTZS
Version |
NID
|
0.931 |
0x08F8AD70
|
Same as sceKernelPrintfForTZS but only prints if CPU ID is 0.
int sceKernelPrintfCore0ForTZS(const char *fmt, ...);
sceKernelPrintfLevelCore0ForTZS
Version |
NID
|
0.931-1.80 |
0xD4E6A0C0
|
Same as sceKernelPrintfLevelForTZS but only prints if CPU ID is 0.
int sceKernelPrintfLevelCore0ForTZS(int level, const char *fmt, ...);
sceKernelSetMinimumLogLevelForTZS
Version |
NID
|
0.931 |
0x898E417E
|
/**
* @brief Specifies the minimum severity level for the output of logging information.
*
* Specifies the minimum severity level for the output of logging information. The default level is SCE_DBG_LOG_LEVEL_TRACE.
*
* @param minimumLogLevel The minimum severity at which debugging messages should be output.
* @retval SCE_OK The operation was completed successfully.
* @retval Negative value Error code
*/
int sceKernelSetMinimumLogLevelForTZS(SceInt32 minimumLogLevel);
register_log_buffer
Version |
NID
|
0.931 |
0xF2A87E96
|
int register_log_buffer(const void *log_buffer_addr, SceSize log_buffer_size);
start_logging
Version |
NID
|
0.931 |
0x1FF65E15
|
int start_logging(int state);
stop_logging
Version |
NID
|
0.931 |
0x5A35E3E0
|
If state is not zero, stops logging and return 1, else does nothing and return 0.
Returns 1 if logging has been stopped, 0 else.
int stop_logging(void);
refresh_logs
Version |
NID
|
0.931 |
0x91B41C34
|
int refresh_logs(void);
add_entry
Version |
NID
|
0.931 |
0x95E1A80B
|
int add_entry(int a1, int a2, int a3, void *log_buffer_start);
add_entry2
Version |
NID
|
0.931 |
0x538319EB
|
int add_entry2(int a1, const char *msg, void *log_buffer_start, int a4);
register_unk_cb
Version |
NID
|
0.931 |
0x3598118B
|
The callback has this definition:
// unk: 2 or 3
int unk_cb(SceUID pid, void *buf, SceSize size, int *pOut, int unk);
If unk_cb runs successfully (return >= 0), pOut is used as third argument of unk_cb2, else unk_cb2 is not called at all.
int register_unk_cb(void *some_cb);
register_unk_cb2
Version |
NID
|
0.931 |
0xE844FC5A
|
The callback has this definition:
int unk_cb2(SceUID pid, void *buf, int unk);
int register_unk_cb2(void *some_cb);
SceDebugForTZS_563B623D
Version |
NID
|
0.931 |
not present
|
1.80 |
0x563B623D
|
SceCpuForTZS
- 0.931: 0xE0B34336: unknown, same as SceCpuForKernel_9D72DD1B
- 0.931-0.990: 0x40DEC1B6: sceKernelWaitForEvent
- 0.931-0.990: 0xF42F079B: sceKernelSendEvent
- 0.940: 0x1266F962: sceKernelAbort
- 0.931-0.940: 0x98BF47D3: sceKernelGetVmaccessRange
- 0.931: 0x49AD8B60: sceKernelSetFIQModeStack
- 0.931: 0xC2A428F3: sceKernelSetMonModeStack
- 0.931: 0xD9013440: sceKernelSetIRQModeStack
- 0.931: 0xDF17E4A3: sceKernelSetUndModeStack
- 0.931: 0xF832C341: sceKernelSetAbtModeStack
- 0.931: 0xFB1D3114: sceKernelSetSvcModeStack
- 0.931: 0xF6CE21EA: sceKernelPrintCpuMode
1.80:
NID 0: 0x0A15B41C: sceKernelL1DcacheCleanInvalidateAll
NID 1: 0x17A88E69: sceKernelL1DcacheCleanRange
NID 2: 0x190D96D5: sceKernelDcacheCleanRange
NID 3: 0x2A0A3DC6
NID 4: 0x2B6403F8
NID 5: 0x2FE24445: sceKernelCpuAtomicSet32
NID 6: 0x308D7ABE: sceKernelCpuDcacheInvalidateMVACRange
NID 7: 0x324727D1: sceKernelGetCpsr
NID 8: 0x39FCFCC2: sceKernelDomainTextMemcpy
NID 9: 0x44C423D3: sceKernelCpuId
NID 10: 0x49B11FF8
NID 11: 0x71FD9AB5: sceKernelSpinlockLowLock
NID 12: 0x72CA4F7A: sceKernelGetSpsr
NID 13: 0x75D87321: sceKernelCpuAtomicOrAndGet32
NID 14: 0x7A5373EB: sceKernelDcacheCleanInvalidateRange
NID 15: 0x7CCE9480: sceKernelDcacheCleanInvalidateAll
NID 16: 0x864E3DED
NID 17: 0x9E4C0D0D
NID 18: 0xA5965CBF: sceKernelL1IcacheInvalidateEntireAllCore
NID 19: 0xACF209F3: sceKernelSpinlockLowTrylockCpuSuspendIntr
NID 20: 0xB421FAFD: sceKernelL1IcacheInvalidateRange
NID 21: 0xB8F00FBE: sceKernelSpinlockLowUnlockCpuResumeIntr
NID 22: 0xC4137AED: sceKernelPleFlushRequest
NID 23: 0xCD98416C: sceKernelSpinlockLowUnlock
NID 24: 0xCDD46655: sceKernelDcacheInvalidateRange
NID 25: 0xD67A4356: sceKernelSpinlockLowLockCpuSuspendIntr
NID 26: 0xEFD6F289: sceKernelCpuAtomicCompareAndSet8
SceSysclibForTZS
__stack_chk_fail
Version |
NID
|
1.80 |
0xE5457B97
|
SceSysclibForTZS_361850BB
Version |
NID
|
0.940-1.80 |
0x361850BB
|
maybe_strncpy
memcpy
Version |
NID
|
0.931-1.80 |
0xBE3AF2EE
|
memset
Version |
NID
|
0.931-1.80 |
0x956DB750
|
SceSysrootForTZS
sceKernelSysrootBacktraceForTZS
Version |
NID
|
0.931 |
0xF26A5E68
|
sceKernelSysrootPrintBacktraceForTZS
Version |
NID
|
0.931 |
0x463EA380
|
sceKernelSysrootShowCallerInfoForTZS
Version |
NID
|
0.931 |
0x2F3D9414
|
sceKernelSysrootGetModulePrivateForTZS
Version |
NID
|
0.931-1.80 |
0xC9DD8EB3
|
sceKernelSysrootSetModulePrivateForTZS
Version |
NID
|
0.931-1.80 |
0xEA572BD9
|
sceKernelSysrootSetSharedMemoryForTZS
Version |
NID
|
0.940-1.80 |
0x45EEB2E0
|
sceKernelSysrootGetKermitRevisionForTZS
Version |
NID
|
0.940-1.80 |
0xDB3DAB76
|
sceKernelSysrootGetSharedMemoryForTZS
Version |
NID
|
0.931-1.80 |
0x1C96096F
|
sceKernelSysrootCorelockLockForTZS
Version |
NID
|
0.931-1.80 |
0xD653194A
|
sceKernelSysrootGetVbaseMonitorVectorForTZS
Version |
NID
|
0.931-1.80 |
0xD4E6D8E8
|
sceKernelSysrootGetKernelMMUContextForTZS
Version |
NID
|
0.931-1.80 |
0xA8B7DAF9
|
sceKernelSysrootCorelockUnlockForTZS
Version |
NID
|
0.931-1.80 |
0x2F5FD9A8
|
sceKernelSysrootGetVbaseResetVectorForTZS
Version |
NID
|
0.931-1.80 |
0x2460ADFA
|
sceKernelIsColdBootForTZS
Version |
NID
|
0.940-1.80 |
0x0567B4B9
|
sceKernelIsSecureStateForTZS
Version |
NID
|
0.940 |
0xEFA54B46
|
sceKernelSysrootGetErnieWakeupFactorForTZS
Version |
NID
|
0.940-1.80 |
0x8E871C6D
|
sceKernelSysrootGetKblParamForTZS
Version |
NID
|
0.931-1.80 |
0x29C1049E
|
Returns pointer to Sysroot buffer.
void *sceKernelSysrootGetKblParamForTZS(void);
sceKernelSysrootAllocForTZS
Version |
NID
|
0.940-1.80 |
0x1A9E1D28
|
void *sceKernelSysrootAllocForTZS(uint32_t size);
SceQafMgrForTZS
sceSblQafManagerIsAllowKernelDebugForTZS
Version |
NID
|
0.990-1.80 |
0x54D22D74
|
return *(char *)(sceKernelSysrootGetKblParamForTZS() + 0x2D) & 1;
ScePmMgrForTZS
sceSblPmMgrGetProductModeForTZS
Version |
NID
|
0.990-1.80 |
0xCF554E69
|
SceSblAIMgrForTZS
sceSblAIMgrIsCEXForTZS
Version |
NID
|
0.990-1.80 |
0x536B38F4
|