Difference between revisions of "SceSysmem"

Revision as of 03:38, 6 May 2022

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.

Version	World	Privilege
1.50-3.61	Non-secure	Kernel
1.69-1.80	Secure	Kernel

Libraries

Known NIDs

Version	Name	World	Visibility	NID
0.990-3.61	SceSysmemForKernel	Non-secure	Kernel	0x63A519E5
3.63-3.65	SceSysmemForKernel	Non-secure	Kernel	0x02451F0F
0.990-3.65	SceSysmemForDriver	Non-secure	Kernel	0x6F25E18A
0.990-1.692	SceSysmemForDebugger	Non-secure	Kernel	0xC7309957
0.990-3.60	SceSysmem	Non-secure	User	0x37FE725A
0.990-3.65	SceDipsw	Non-secure	User	0xB36D5922
0.990-3.65	SceDipswForDriver	Non-secure	Kernel	0xC9E26388
0.990-3.61	SceUartForKernel	Non-secure	Kernel	0xC03DBE40
3.63-3.65	SceUartForKernel	Non-secure	Kernel	0x1CCD9BA3
0.990-3.65	SceCpu	Non-secure	User	0x45265161
0.990-3.61	SceCpuForKernel	Non-secure	Kernel	0x54BF2BAB
3.63-3.65	SceCpuForKernel	Non-secure	Kernel	0xA5195D20
0.990-3.65	SceCpuForDriver	Non-secure	Kernel	0x40ECDB0E
0.990-1.69	SceSysclibForKernel	Non-secure	Kernel	0x24878615
1.80	SceSysclibForKernel	Non-secure	Kernel	Removed
0.990-3.65	SceSysclibForDriver	Non-secure	Kernel	0x7EE45391
0.990-3.65	SceSysrootForKernel	Non-secure	Kernel	0x3691DA45
0.990-3.65	SceSysrootForDriver	Non-secure	Kernel	0x2ED7F97A
0.990-3.65	SceKernelUtilsForDriver	Non-secure	Kernel	0x496AD8B4
0.990-1.69	SceZlibForDriver	Non-secure	Kernel	0xE241534E
1.80	SceZlibForDriver	Non-secure	Kernel	Moved to SceSblPostSsMgr
0.990-3.65	SceKernelSuspendForDriver	Non-secure	Kernel	0x7290B21C
0.990-3.65	SceQafMgrForDriver	Non-secure	Kernel	0x4E29D3B6
0.990-3.65	ScePmMgrForDriver	Non-secure	Kernel	0xF13F32F9
0.990-3.65	SceSblAIMgrForDriver	Non-secure	Kernel	0xFD00C69A
0.990-3.65	SceProcEventForDriver	Non-secure	Kernel	0x887F19D0
0.990-3.65	SceDebugLed	Non-secure	User	0xAE004C0A
0.990-3.65	SceDebugLedForDriver	Non-secure	Kernel	0x7BC05EAD
0.990-3.61	SceDebugForKernel	Non-secure	Kernel	0x88C17370
3.63-3.65	SceDebugForKernel	Non-secure	Kernel	0x13D793B7
0.990-3.65	SceDebugForDriver	Non-secure	Kernel	0x88758561
1.69-3.60	SceSysmemForTZS	Secure	Kernel	0x08680060
1.69-3.60	SceDipswForTZS	Secure	Kernel	0x9DBF584C
1.80-3.60	SceUartForTZS	Secure	Kernel	0xA1D740D7
1.80-3.60	SceDebugForTZS	Secure	Kernel	0x028FFADB
1.69-3.60	SceCpuForTZS	Secure	Kernel	0xC516B23E
1.69-3.60	SceSysclibForTZS	Secure	Kernel	0xC839BB78
1.69-3.60	SceSysrootForTZS	Secure	Kernel	0xFEFF641D
1.69-3.60	SceQafMgrForTZS	Secure	Kernel	0x637069DD
1.69-3.60	ScePmMgrForTZS	Secure	Kernel	0x27F1AFD8
1.69-3.60	SceSblAIMgrForTZS	Secure	Kernel	0x60D19047

Types

typedef struct SceKernelVARange SceKernelVARange;
typedef struct SceKernelBootArgs SceKernelBootArgs;
typedef struct SceSysrootProcessHandler SceSysrootProcessHandler;
typedef struct SceSysrootModulemgrHandlers SceSysrootModulemgrHandlers;
typedef struct SceSysrootForKernel_D29BCA77_struct SceSysrootForKernel_D29BCA77_struct;
typedef struct SceSysrootForKernel_733C243E_struct SceSysrootForKernel_733C243E_struct;

typedef SceUInt32 SceCachedSecureModule;
#define SCE_CACHED_SECURE_MODULE_GCAUTHMGR 0            // os0:sm/gcauthmgr_sm.self
#define SCE_CACHED_SECURE_MODULE_RMAUTH 1               // os0:sm/rmauth_sm.self
#define SCE_CACHED_SECURE_MODULE_ENDEC_W_PORTABILITY 2  // os0:sm/encdec_w_portability_sm.self

typedef struct SceCachedSecureModuleInfo { // size is 0xC
	SceSize size;     // Size of this structure
	void *pSelfData;  // Virtual address of the SM
	SceSize selfSize; // Size of the SM
} SceCachedSecureModuleInfo;

#define SCE_SYSROOT_INIT_CALLBACK_MAX_FUNC (9)
#define SCE_SYSROOT_INIT_CALLBACK_MAX_SLOT (8)

typedef struct SceUIDSysrootObject { // size is 0x41C on FW 3.60-3.65
	void *object;
	SceClass *sce_class;
	SceSize size; // Size of this structure
	SceUInt32 magic1;
	int cpu_intr;
	SceSize boot_alloc_memory_size; // 0x400
	void *boot_alloc_memory; // used by boot time malloc
	int unk_0x1C; // 0x4
	void *unk_0x20; // size is 0x80-bytes
	SceUInt32 boot_flags; // 0x10 for coldboot, 0x1 for secure state
	SceUInt32 status;
	SceCorelockContext corelock_context;

	// start ModulePrivate
	int unk_0x34;   // ex:0
	int unk_0x38;   // ex:0
	void *unk_0x3C; // size is 4 byte
	void *unk_0x40; // Related to SceHeap. Size is 0xDC byte.
	SceExcpmgrData *ExcpmgrData; // Same as value returned by sceKernelGetExcpDataForKernel
	void *unk_0x48; // ?SceKernelIntrMgr data VA?
	void *unk_0x4C;
	void *unk_0x50;
	int unk_0x54;   // ex:0
	void *unk_0x58;
	int unk_0x5C;   // ex:0
	int unk_0x60;   // ex:0
	int unk_0x64;   // ex:0
	int unk_0x68;   // Used by Tzs SceSblSmsched
	// end ModulePrivate

	SceKblParam *kbl_param;
	SceKernelBootArgs *boot_args;
	SceUInt32 soc_revision;
	SceUInt32 unk_0x78; // ex:0
	SceUInt32 soc_revision2;
	SceUInt32 model_info;
	SceUInt32 model_capability;

	void *longtime5base;

	int cpu_intr_for_init_callback;
	SceUInt32 init_callback_registable_base_number;
	struct {
		int (* callback)(int a1, void *args);
		void *args;
	} init_callback_slot[SCE_SYSROOT_INIT_CALLBACK_MAX_FUNC][SCE_SYSROOT_INIT_CALLBACK_MAX_SLOT];

	int (* sceKernelSysrootThreadMgrStartAfterProcess)(void);
	int (* sceKernelSysrootIofilemgrStart)(void);
	void *unk_0x2DC;
	void *unk_0x2E0;
	char *sysroot_names[9];
	SceUID this_object_uid;
	void *unk_0x30C; // size is 0x2C-bytes, maybe guid entry heap object
	void *unk_0x310;
	void *unk_0x314;
	void *VBAR;
	void *MVBAR;
	void *unk_0x320;
	void **unk_func_0x324; // SceSblACMgr
#if SCE_SDK_VERSION >= 0x3630000
	int (* sceKernelSysrootAppMgrFunction1)(int a1, int a2, int a3, int a4, int a5, int a6); // SceAppMgr + 0x2795, SceAppMgrForDriver_324DD34E
	SceUID (* sceKernelSysrootGetShellPid)(void);
	// offset: 0x330
#endif
	SceUID (* sceKernelSysrootGetThreadId)(void);
	int (* sceKernelSysrootThreadFunction3)(void);                   // Temp name, SceKernelThreadMgr + 0xC79, SceThreadmgrForDriver_91382762
	SceUID (* sceKernelSysrootGetProcessId)(void);
	int (* sceKernelSysrootThreadFunction4)(void);                   // Temp name, SceKernelThreadMgr + 0x8D1
	int (* sceKernelSysrootThreadFunction5)(void);                   // Temp name, SceKernelThreadMgr + 0x8ED
#if SCE_SDK_VERSION >= 0x3630000
	// offset: 0x344
	SceSysrootModulemgrHandlers *modulemgr_handlers;
#endif
	int (* sceKernelSysrootThreadFunction6)(void);                   // Temp name, SceKernelThreadMgr + 0x90D
	void (* sceKernelSysrootThreadFunction7)(void);                  // Temp name, SceKernelThreadMgr + 0xE69
	int (* sceKernelSysrootThreadFunction8)(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
#if SCE_SDK_VERSION < 0x3630000
	// offset: 0x350
	SceSysrootModulemgrHandlers *modulemgr_handlers;
#endif
	int unk_0x354; // ex:0xFFFFFFFF
	SceSysrootForKernel_D29BCA77_struct *processmgr_callbacks_1;
	SceSysrootForDriver_733C243E_struct *processmgr_callbacks_2;
#if SCE_SDK_VERSION < 0x3630000
	void *unk_func_0x360; // SceDeci4pSDfMgr
	int (* sceKernelSysrootGetBusError)(void *dst, SceSize len);
	int (* sceKernelSysrootAppMgrFunction1)(int a1, int a2, int a3, int a4, int a5, int a6); // SceAppMgr + 0x2795, SceAppMgrForDriver_324DD34E
	SceUID (* sceKernelSysrootGetShellPid)(void);
#endif
#if SCE_SDK_VERSION >= 0x3630000
	// offset: 0x368
	int (* sceKernelSysrootGetLicenseStatusForDriver)(void); // 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_0x360; // SceDeci4pSDfMgr
	int (* sceKernelSysrootGetBusError)(void *dst, SceSize len);
	// offset: 0x37C
#endif
	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; // ex:0
#if SCE_SDK_VERSION < 0x3630000
	// offset: 0x380
	int (* sceKernelSysrootGetLicenseStatusForDriver)(void); // 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
#endif
	void *unk_func_0x38C;         // SceSblPostSsMgr + 0xB4ED, SceSblPostSsMgrForDriver_D8A2D465
	int (* sceKernelSysrootGetTrilithiumBufferForDriver)(void); // SceSblPostSsMgr + 0xB111, sceSblUtMgrGetTrilithiumBufferForDriver
	int (* sceKernelSysrootHasNpTestFlag)(void);
	void *unk_func_0x398; // SceSblUpdateMgr + 0x8B01
	int (* sceKernelSysrootLedSetMode)(int led, int mode, void *led_configuration);
	SceKernelVARange *cached_sm_info_ranges; // See SceCachedSecureModuleInfo
	int (* sceKernelSysrootGetFunctionNameByNIDForKernel)(SceNID funcnid, const char **name); // sceNidsymtblGetFunctionNameByNIDForDriver
	void *SceSysrootForKernel_47724459_func; // SceDeci4pSDfMgr or SceDeci4pDfMgr, set by SceSysrootForDriver_C5EAF5F7
	void *unk_0x3AC; // SceDeci4pSDfMgr
	void *unk_struct_0x3B0; // SceDeci4pDfMgr
	void *unk_0x3B4; // SceDeci4pTsmp
	void *unk_0x3B8; // SceDeci4pTsmp
	void *unk_0x3BC; // SceDeci4pTsmp
	void *unk_0x3C0; // SceDeci4pTsmp
	SceSysrootProcessHandler *process_handler; // maybe for SceDeci4p
	SceSysrootDbgpHandler    *dbgp_handler;    // maybe for SceDeci4p
	void *unk_func_0x3CC; // SceNetPs + 0x3E51, SceNetPsForDriver_83A12CCC
	void *unk_func_0x3D0; // SceNetPs + 0x3F4D, SceNetPsForDriver_C000CA8F
	void *unk_func_0x3D4; // SceDeci4pTmcp
	void *unk_func_0x3D8; // SceDeci4pSDbgp
	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_struct_0x3F4; // SceBt
	void *unk_struct_0x3F8; // SceHid
	void *unk_struct_0x3FC; // SceDeci4pSDbgp
	void *unk_data_0x400; // SceDeci4pSDbgp
	void *unk_func_0x404; // SceDeci4pSDfCtl
	void *unk_func_0x408; // SceDeci4pSDfCtl
	void *unk_func_0x40C; // ScePamgr
	void *unk_func_0x410; // ScePamgr
	void *unk_func_0x414; // ScePamgr
	SceUInt32 magic2;
} SceUIDSysrootObject;

typedef SceUIDSysrootObject SceSysroot;

typedef struct SceSysrootForKernel_D29BCA77_struct_0940 { //Valid for FW 0.940-0.945, size is 0x48
	SceSize size; // Size of this structure
	void *get_dword_from_offset_0x184;
	void *get_dword_from_offset_0x188;
	void *get_dword_from_offset_0x18C;
	void *sceKernelAllocCurrentProcessHeap;
	void *sceKernelFreeCurrentProcessHeap;
	void *sceKernelAllocRemoteProcessHeap;
	void *sceKernelFreeRemoteProcessHeap;
	void *sceKernelGetProcessLibdb;
	void *sceKernelSetProcessLibdb;
	void *ProcessmgrModuleStart2;
	void *sceKernelRegisterKPLS;
	void *sceKernelGetRemoteKPLS;
	void *sceKernelGetCurrentKPLS;
	void *sceKernelInhibitProcEvent;
        void *sceKernelPermitProcEvent;
	void *sceKernelInsertProcessThreadList;
	void *sceKernelDeleteProcessThreadList;
} SceSysrootForKernel_D29BCA77_struct_0940;

typedef struct SceSysrootForKernel_D29BCA77_struct_0990 { //Valid for FW 0.990-0.995, size is 0x44
	SceSize size; // Size of this structure
	void *get_dword_from_offset_0x184;
	void *get_dword_from_offset_0x188;
	void *get_dword_from_offset_0x18C;
	void *sceKernelAllocCurrentProcessHeap;
	void *sceKernelFreeCurrentProcessHeap;
	void *sceKernelAllocRemoteProcessHeap;
	void *sceKernelFreeRemoteProcessHeap;
	void *sceKernelGetProcessLibdb;
	void *sceKernelSetProcessLibdb;
	void *ProcessmgrModuleStart2;
	void *sceKernelRegisterKPLS;
	void *sceKernelGetRemoteKPLS;
	void *sceKernelGetCurrentKPLS;
	void *sceKernelInhibitProcEvent;
	void *sceKernelPermitProcEvent;
	void *sceKernelGetProcessHeapID;
} SceSysrootForKernel_D29BCA77_struct_0990;

//Size for 0.996.070 - 0.996.090 is 0x58
//Size for 1.000.071 - 1.500.151 (maybe higher) is 0x5C

typedef struct SceSysrootForKernel_D29BCA77_struct_3600 { //Valid for FW 3.60 - 3.65, size is 0x44
	SceSize size; // Size of this structure
        //a1 might be process object (needs to be checked)
	SceInt32 (*get_dword_from_offset_0x1E4)(void* a1);
	SceInt32 (*get_dword_from_offset_0x1E8)(void* a1);
	SceInt32 (*get_dword_from_offset_0x1EC)(void* a1);
        //Allocations are made from current process' "Unique" heap
        //Fails if TPIDRPRW is NULL
	void *(*sceKernelAllocCurrentProcessHeap)(SceSize size, SceKernelHeapMemoryOpt* opt);
	SceInt32 (*sceKernelFreeCurrentProcessHeap)(void* ptr);

	//Allocations are made from specified process' "Unique" heap
        //KERNEL_PID (0x10005), DummyProcessGame (0x10013) and DummyProcessSystem (0x10015) are accepted as PIDs
        void *(*sceKernelAllocRemoteProcessHeap)(ScePID process, SceSize size, SceKernelHeapMemoryOpt* opt);
	SceInt32 (*sceKernelFreeRemoteProcessHeap)(ScePID process, void* ptr);

	SceInt32 (*ProcessmgrModuleStart2)();

        //Equivalent to sceKernelWaitSema(processObject->EventLock_sema, 1, NULL);
	SceInt32 (*sceKernelInhibitProcEvent)(ScePID process);
	//Equivalent to sceKernelSignalSema(processObject->EventLock_sema, 1);
        SceInt32 *(sceKernelPermitProcEvent)(ScePID process);

        //info_type = 0 -> returns processObject->unk0x424
        //info_type = 1 -> returns processObject->MaxFHCount
        //other values -> return 0
        SceInt32 (*query_some_process_info)(ScePID process, SceUInt32 info_type);

	SceInt32 (*sceKernelRegisterKPLS)(char* name, SceSize size);
        //Fails if TPIDRPRW is NULL
        void *(*sceKernelGetCurrentKPLS)(SceUInt32 key);
	SceInt32 (*sceKernelGetRemoteKPLS)(ScePID process, SceUInt32 key, ScePVoid* pKPLS, SceBool create);

	SceInt32 (*sceKernelProcessDebugSuspend)(ScePID process, int status);
        //Retreived from process object's SceLoadProcessParam
        SceInt32 (*sceKernelGetCompiledSdkVersionByPid)(ScePID process, SceUInt32* pSdkVersion);
} SceSysrootForKernel_D29BCA77_struct;

typedef struct SceSysrootForKernel_733C243E_struct_old { // size is 0x28 on FW 0.990
	SceSize size; // Size of this structure
	SceUID (* sceKernelGetCurrentProcessId)(void);
	int (* sceKernelGetEntryHeap)(SceUID pid, int *pHeap);
	int (* SceProcessmgrForKernel_C77C2085)(SceUID pid);
	int (* sceKernelPIDtoAddressSpaceCB)(SceUID pid, void **pASCb);
	int (* FUN_81000000)(int* dst, int *src);
	int (* sceKernelGetProcessType)(SceUID pid);
	int (* sceKernelGetProcessSelfAuthInfo)(SceUID pid, SceSelfAuthInfo *self_auth_info);
	int (* sceKernelSetProcessSelfAuthInfo)(SceUID pid, SceSelfAuthInfo *self_auth_info);
	int (* sceKernelGetProcessAccessLevel)(SceUID pid);
} SceSysrootForKernel_733C243E_struct_old;

typedef struct SceSysrootForKernel_733C243E_struct { // size is 0x20 on FW 3.60-3.65
	SceSize size; // Size of this structure
	SceInt32 (* funcGetProcessEntryHeapObject)(SceUID pid, void **entry_heap_obj);
	SceUID (* get_process_address_space_UID)(SceUID pid);
	SceInt32 (* funcGetProcessAddressSpaceCB)(SceUID pid, void **address_space_obj);
	SceInt32 (* sceKernelGetProcessSelfAuthInfo)(SceUID pid, SceSelfAuthInfo *self_auth_info);
	SceInt32 (* sceKernelGetProcessTitleId)(SceUID pid, char *title_id, SceSize len); //Copies processObject->list_entry->process_name to title_id - maybe this should be GetProcessName?
	SceInt32 (* sceKernelIncProcessResource)(SceUInt32 type); //Type must be < 0x3
	SceInt32 (* sceKernelDecProcessResource)(SceUInt32 type); //^
} SceSysrootForKernel_733C243E_struct;

typedef struct SceSysrootProcessHandler { // size is 0x28 on FW 3.60
	SceSize size;                                                       // Size of this structure
	void (* unk_4)(SceUID pid, SceUID modid, int flags, uint64_t time); //!< process start shared modules
	void (* exit)(SceUID pid, int flags, uint64_t time);
	void (* kill)(SceUID pid);                                          //!< by SceShell
	void (* unk_10)(SceUID pid, SceUID modid, uint64_t time);
	void (* unk_14)(SceUID pid, SceUID modid, uint64_t time);
	void (* unk_18)(SceUID pid, SceUID modid, uint64_t time);
	int (* on_process_created)(int a1, int a2, int a3);                 //!< called when process is created
	void (* unk_20)(SceUID pid, SceUID modid, uint64_t time);
	void (* unk_24)(SceUID pid, SceUID modid, int flags, uint64_t time);
} SceSysrootProcessHandler;

typedef struct SceSysrootModulemgrHandlers { // size is 0x18 on FW 3.60
	SceSize size; // Size of this structure
	int (* sceKernelGetProcessSyscallInfo)(SceUID pid, const void *module_addr, void *pInfo); // SceKernelModulemgr + 0x20D0 on FW 3.60
	int (* handler_2)(SceUID pid, const void *module_addr); // SceKernelModulemgr + 0x1F44 on FW 3.60
	void *sceKernelGetModuleInfoMinByAddr;
	void *sceKernelBacktraceInternal;
	void *sceKernelPrintBacktrace;
} SceSysrootModulemgrHandlers;

// ScePamgrCallbacks
typedef struct SceSysrootForDriver_C94C76FA_struct { // size is 0x10 on FW 3.60
	SceSize size; // Size of this structure
	int (__cdecl *unk_func_4)();
	int (__cdecl *unk_func_8)();
	int (__cdecl *unk_func_C)();
} SceSysrootForDriver_C94C76FA_struct;

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_wrong { // 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_wrong;

// Aka SceObjectBase in vitasdk
typedef struct SceKernelObject {
	void *pObject;
	SceClass *pClass;
	uintptr_t data[];
} SceKernelObject;

// Added with the wrong struct, but this could be another SceUIDXxxClass struct
typedef struct SceKernelObject_wrong { // 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_wrong;

/** @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 { // size is 0x14 on FW 0.940-0.990
	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 is 0x14/0x38/0x3C/0x40 on FW 3.60
	/**
	 * 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 roundupUnitSize;
	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;                // Never used?
	SceUInt32 attr;
	void *vbase;                    // Virtual address memblock should be mapped at
	void *pbase;			// Physical address to use as base
	SceSize alignment;
	SceSize extraLow;               // Size of extra area starting from memblock vbase
	SceSize extraHigh;              // Size of extra area starting "after" memblock - extra area is ?not mapped?
	SceUID baseMemBlock;            // UID of memblock this one is based on
	SceUID pid;
	SceKernelPAVector *pPAV;
	SceSize roundupUnitSize;        // Used to roundup memblock vsize
	SceUInt8 domain;
	SceUInt32 unk_34; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
	SceUInt32 unk_38; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
	SceUInt32 unk_3C; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
	SceUInt32 unk_40; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
	SceUInt32 unk_44; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
	SceUInt32 unk_48; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
	SceUInt32 unk_4C; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
	SceUInt32 unk_50; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
	SceUInt32 unk_54; // Related to SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_0x20
} 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_0x20         0x00000020
#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 // Only available for sceKernelAllocMemBlockForUser - kernel callers must use HAS_BASE instead
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_PPAV         0x00001000 // Official name may be HAS_PVECTOR
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_ROUNDUP      0x00002000
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_HAS_DOMAIN       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 // Memblock shares vbase with base block - requires HAS_BASE
#define SCE_KERNEL_ALLOC_MEMBLOCK_ATTR_SHARE_PHYPAGE    0x01000000 // Memblock shares physical pages with base block - requires HAS_BASE
#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;
	SceSize alignment;		// ex: 0x10
	uint32_t unk_C;			// ex: 0x20
	uint32_t unk_10;
} SceKernelHeapMemoryOpt;

typedef struct SceKernelHeapCreateOpt { // size is 0x14 on FW 0.931-0.990, 0x1C on FW 3.60
  SceSize size;
	union { //<! Union for compatibility
		SceUInt32 attr;
		SceUInt32 uselock; //<! Do not use uselock as it will be deprecated. ex: 1, 0x100
	};
  SceUInt32 field_8; // ex: 0x8000
  SceUInt32 field_C;
  SceUInt32 block_type; // wrongly called memtype in vitasdk
  SceUInt32 field_14;
  SceUInt32 field_18;
} SceKernelHeapCreateOpt;

typedef struct SceKernelMMUL1Info { // size is 0xC in 0.990 - holds information about a single L1PT entry
    SceUIntVAddr vbase; // Start of the virtual address range mapped by L1PT entry
    SceUIntPAddr pbase; // Start of the physical address held in L1PT - paddr mapped for Section, paddr of L2PT for Page Table entry
    SceUInt32 entryType; // 0 = Invalid (fault on access), 1 = Section/Supersection, 2 = Page Table
} SceKernelMMUL1Info;

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 SceKernelAddressSpaceCallback {
	SceUInt32 index;
	void *(* funcMalloc)(SceUInt32 index, SceSize length);
	void (* funcFree)(SceUInt32 index, void *ptr);
	// maybe more
} SceKernelAddressSpaceCallback;

typedef struct SceKernelAddressSpace { // size is 0x10 bytes on FW 0.940-3.60
	SceSize size; // Size of this structure
	int flag;
	SceKernelAddressSpaceCallback *data_0x08; // info dst buff ptr, need AddrSpace.flag  = 2;
	void *TTBR1; // info dst buff ptr, need AddrSpace.flag |= 4;
} SceKernelAddressSpace;

typedef struct SceKernelVARange {
	uint32_t addr;
	SceSize size;
} SceKernelVARange;

typedef struct SceKernelPARange {
	uint32_t addr;
	SceSize size;
} SceKernelPARange;

typedef struct SceKernelPAVector { // size is 0x14 on FW 0.990
	SceSize size;			// Size of this structure
	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 FWs 0.931-3.60
	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;
	SceUIntPAddr pbase;
	SceSize totalSize;
	int field_0x24;
	void *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;
	SceUInt32 nClient;
	SceSize freeSize;
} SceKernelPhyMemPart;

typedef struct ScePhyMemPartInfoCore { // size is 0x10 on FWs 0.990-3.60
	SceUIntPAddr pbase; // same as SceKernelPhyMemPart field 0x1C
	SceSize totalSize;
	SceSize freeSize;
	SceUInt32 unk_C; // maybe some counter
} ScePhyMemPartInfoCore;

typedef struct SceKernelPhyMemLow { // size is 0x1C on 0.990
        SceUInt32 mutex;        // For use with sceKernelCpuLockSuspendIntrStoreLR
        SceUIntPAddr pbase;     // Base address of range managed by this instance
        SceSize psize;          // Size of range managed by this instance
        SceSize granularity;    // Minimum size that can be allocated from this instance (i.e. every allocation must be aligned to this)
        SceUInt32 unk10;        // Maybe backing memory type? Seen values: 0x20 (CDRAM)
        SceSize bitmapSize;     // Size of the bitmap array (in elements)
        SceUInt32* bitmap;      // Bitmap used to store which elements managed by this instance are in use - each bit represents a granularity-sized element. Status of element n can be found by looking at (bitmap[n / 32] >> (n % 32)): 0 means free, 1 means occupied  
} SceKernelPhyMemLow;

typedef struct ScePhyMemLowInfo { // size is 0x1C on 0.990
        SceSize size; // Size of this structure
        SceUIntPAddr pbase;
        SceSize psize;
        SceSize granularity;
        SceUInt32 unk10;       // unk14 from PhyMemLow
        SceSize bmArraySize;   // Size of the array pointed to by bitmap, IN ELEMENTS. Nothing is written here. Pass 0 if bitmap is NULL.
        SceUInt32* bitmap;     // Optional - array that receives a copy of the PhyMemLow bitmap
} ScePhyMemLowInfo;

//for 0.990
#define SCE_KERNEL_PHYMEMLOW_TYPE_LPDDR2MAIN 0x10001
#define SCE_KERNEL_PHYMEMLOW_TYPE_UNK 0x10002
#define SCE_KERNEL_PHYMEMLOW_TYPE_CDRAM 0x20001

/**
 * 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;

/*
Target Manager (Communication Processor) Logging levels.
These levels can be set using psp2ctrl set-logging-level <level>.
LOG_LEVEL_NONE (0)
LOG_LEVEL_ERROR (1)
LOG_LEVEL_WARNING (2)
LOG_LEVEL_SERVICE (3)
LOG_LEVEL_INFO (4)
LOG_LEVEL_INTERNAL (5)
LOG_LEVEL_MAX (6)
*/

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;

// process
typedef struct SceKernelDebugEventLog1 { // size is 0x1C
	int data_0x40;
	SceUID pid;
	int budget_type;
	int data_0x4C;    // 0xA
	char titleid[0xC];
} __attribute__((packed)) SceKernelDebugEventLog1;

// Related to network
typedef struct SceKernelDebugEventLog2 { // size is 0x4
	int data_0x40;    // 0 or 0x80412118?
} __attribute__((packed)) SceKernelDebugEventLog2;

// Related to network
typedef struct SceKernelDebugEventLog3 { // size is 0x54
	int data_0x40;    // 0?
	char ip1[0x10];
	char ip2[0x10];
	char ip3[0x10];
	char ip4[0x10];
	char ip5[0x10];
} __attribute__((packed)) SceKernelDebugEventLog3;

typedef struct SceKernelDebugEventLog {
	SceSize size;
	int data_0x04;    // 0xA, titleid size?
	char titleid[0xC];
	int flags;
	SceUID ppid;
	SceUID data_0x1C; // thid?
	int rsvd[4];
	SceUInt64 time;
	int data_0x38;
	SceSize item_size;
	union {
		SceKernelDebugEventLog1 type1;
		SceKernelDebugEventLog2 type2;
		SceKernelDebugEventLog3 type3;
	};
} __attribute__((packed)) SceKernelDebugEventLog;

typedef SceVoid(*SceKernelSysrootVeneziaRpcDebugFunc)(SceUInt32 debugCode, SceUInt32 argNum, ...);

typedef SceVoid(*SceKernelSysrootVipRpcDebugFunc)(SceUInt32 debugCode, SceUInt32 argNum, ...);

// This is a guessed name
typedef SceUInt32 SceKernelMemoryRefPerm;
#define SCE_KERNEL_MEMORY_REF_PERM_0x10 0x10
#define SCE_KERNEL_MEMORY_REF_PERM_0x20 0x20

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 = sceKernelCpuIdForDriver();
  sceKernelPrintfLevelForDriver
            (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.

All memtype list for 3.60

// For usermode
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_L1WBWA_RW    (0x09404060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_R            (0x09408040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDRAM_RW           (0x09408060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_UNK_0C200860_RW    (0x0C200860)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_R             (0x0C20D040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_RW            (0x0C20D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_NC_RW         (0x0C208060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_GAME_RW       (0x0C50D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_RW    (0x0C80D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_NC_RW (0x0D808060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_CDIALIG_RW    (0x0CA0D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_CDIALIG_NC_RW (0x0CA08060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_TOOL_RW       (0x0CF0D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_TOOL_NC_RW    (0x0CF08060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_R          (0x0E20D040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RW         (0x0E20D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_NC_R       (0x0E208040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_NC_RW      (0x0E208060)

// For kernel
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_MAIN_R      (0x0320D040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_MAIN_RX     (0x0320D050)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_MAIN_RW     (0x0320D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_SHARED_R    (0x0390D040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_SHARED_RX   (0x0390D050)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_SHARED_RW   (0x0390D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_CDIALOG_R   (0x03A0D040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_CDIALOG_RX  (0x03A0D050)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_CDIALOG_RW  (0x03A0D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_TOOL_R      (0x03F0D040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_TOOL_RX     (0x03F0D050)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_SHARED_TOOL_RW     (0x03F0D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_TOOL_R             (0x08F0D040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_TOOL_RX            (0x08F0D050)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_TOOL_RW            (0x08F0D060)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_TOOL_UNK_RW        (0x08F0D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_RX            (0x0C20D050)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_R     (0x0C80D040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_PHYCONT_NC_R  (0x0D808040)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_MAIN_TOOL_RX       (0x0CF0D050)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_CDIALOG_RX         (0x0E20D050)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_UNK_0720D006_RW    (0x0720D006) /* SCE_KERNEL_ERROR_ILLEGAL_PARTITION_INDEX */
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_UNK_0B100240_R     (0x0B100240)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_UNK_0B100260_RW    (0x0B100260)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_UNK_0B100840_R     (0x0B100840)
#define SCE_KERNEL_MEMBLOCK_TYPE_USER_UNK_0B100860_RW    (0x0B100860)

#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_SO_RW         (0x10200206)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_DEVICE_RW     (0x10200806)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_L1WBWA_RW     (0x10204006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_NC_R          (0x10208004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_NC_RW         (0x10208006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_R             (0x1020D004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_RX            (0x1020D005)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_RW            (0x1020D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_PHYCONT_R     (0x1080D004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_PHYCONT_RW    (0x1080D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_PHYCONT_NC_R  (0x30808004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_PHYCONT_NC_RW (0x30808006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_GAME_RW       (0x1050D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_CDIALOG_R     (0x10A0D004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_CDIALOG_RW    (0x10A0D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_UMAIN_NC_RW   (0x10C08006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_ROOT_UMAIN_RW      (0x10C0D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_R             (0x10F0D004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_RX            (0x10F0D005)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_RW            (0x10F0D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_NC_R          (0x10F08004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TOOL_NC_RW         (0x10F08006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_FS_GAME_R      (0x1220D004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_FS_GAME_RW     (0x1220D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_FS_GAME_NC_R   (0x13208004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_FS_GAME_NC_RW  (0x13208006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_SO_R            (0x20100204)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_SO_RW           (0x20100206)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_R               (0x20100804)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_RW              (0x20100806)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_NC_R            (0x20108004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_IO_NC_RW           (0x20108006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_CDRAM_L1WBWA_RW    (0x40404006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_CDRAM_RW           (0x40408006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_NC_R           (0x60208004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_NC_RW          (0x60208006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_R              (0x6020D004)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_RW             (0x6020D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_TMP_GAME_RW        (0x6050D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_KMP_GAME_RW        (0xC050D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_KMP_TOOL_RW        (0xC0F0D006)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_UNK_11208006_NC_RW (0x11208006) // from ScePhyMemPartKD to SceKernelRootUncacheGpuGame
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_UNK_60208014_NC_R  (0x60208014)
#define SCE_KERNEL_MEMBLOCK_TYPE_KERNEL_UNK_60208016_NC_RW (0x60208016)

Note

The only commonly available memtypes are those that are publicly available.

sceKernelAllocMemblockInternal uses a list to translate it into an internal memtype.

So we can't create memtype with any bits and use that's.

memtype bit value

Mask	Value	Description
0xF000000	N/A	Partition index.
0xF00000	N/A	Src ScePhyMemPart.
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.

This is based internal memtypes.

Mask	Value	Name
0x0F000000	0x00000000	root
0x0F000000	0x01000000	SceKernelRootUncacheGpuGame
0x0F000000	0x02000000	SceKernelTmpFsGame
0x0F000000	0x03000000	SceKernelTmpFsGame
0x0F000000	0x04000000	SceKernelTool
0x0F000000	0x05000000	SceKernelRootUncache?
0x0F000000	0x06000000	Unknown
0x0F000000	0x07000000	SCE_KERNEL_ERROR_ILLEGAL_PARTITION_INDEX
0x0F000000	0x08000000	SceKernelUserTool
0x0F000000	0x09000000	SceKernelUserCdram
0x0F000000	0x0A000000	SceKernelUserShared
0x0F000000	0x0B000000	SceKernelUserIO
0x0F000000	0x0C000000	SceKernelUserMain
0x0F000000	0x0D000000	SceKernelUserUncache
0x0F000000	0x0E000000	SceKernelUserCDialog
0x0F000000	0x0F000000	SceKernelUserCDialogNC

Available memory types

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

sceKernelStrnlenFromUserForKernel

Version	NID
0.931	0x9BC3DEAC
3.60	not present

SceSize sceKernelStrnlenFromUserForKernel(const char *s, SceSize maxlen);

SceSysmemForKernel_BD33EDDF

Version	NID
0.931	0xBD33EDDF
3.60	not present

Gets thread's name. Returns 0 on success.

int SceSysmemForKernel_BD33EDDF(int maybe_thid, char **pThreadName);

scePUIDGetEntryInfoAllForKernel

Version	NID
3.60	0x2770A7D7

int scePUIDGetEntryInfoAllForKernel(int a1, int a2, int a3, int a4, int a5, void *pInfoAll);

sceGUIDGetUIDVectorWeakByClassForKernel

Version	NID
3.60	0x59F577E8

int sceGUIDGetUIDVectorWeakByClassForKernel(int a1, int a2, int a3, int a4, void *pUIDVectorWeak);

scePUIDGetAttrForKernel

Version	NID
3.60	0x86E83C0D

int scePUIDGetAttrForKernel(SceUID pid, SceUID uid, void *pAttr);

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);

sceKernelAddressSpaceSetProcessForKernel

Version	NID
0.990-3.60	0x2476B90F

int sceKernelAddressSpaceSetProcessForKernel(SceUID uid, SceUID pid);

sceKernelAddressSpaceChangeMMUContextForKernel

Version	NID
0.931-3.60	0x653B0849

Changes to the MMU context (CONTEXTIDR.ASID + DACR + TTBR1) of target address space.

SceInt32 sceKernelAddressSpaceChangeMMUContextForKernel(SceUID address_space);

sceKernelAddressSpaceGetMMUL1InfoForKernel

Version	NID
0.931-0.990	0x671A3444
3.60	not present

Get information about a L1PT entry in the translation table of an address space. Pass the vaddress the target entry maps as addr.

SceInt32 sceKernelAddressSpaceGetMMUL1InfoForKernel(SceUID address_space, const void *addr, SceKernelMMUL1Info *pInfo);

sceKernelAddressSpaceGetMMUL2InfoForKernel

Version	NID
0.931	0xCB6E1C80
3.60	not present

int sceKernelAddressSpaceGetMMUL2InfoForKernel(SceUID uid, const void *addr, void *pInfo);

sceKernelAddressSpaceGetMMUL1AllInfoForKernel

Version	NID
0.931-0.990	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
0.931-3.61	0x4D38F861
3.63-3.65	0x0164D817

return gpPhyPartKernel;

void *sceKernelGetPhyPartKernelForKernel(void);

sceKernelGetPhyPartToolForKernel

Version	NID
3.60-3.61	0xF8E95A5A
3.63	0x0B1B4ACA

void *sceKernelGetPhyPartToolForKernel(void);

sceKernelGetPhyPartGameForKernel

Version	NID
3.60-3.61	0xB60568F9
3.63	0x62800A6B

void *sceKernelGetPhyPartGameForKernel(void);

sceKernelSetPhyPartGameForKernel

Version	NID
3.60-3.61	0x77876A8D
3.63	0x3753C584

void sceKernelSetPhyPartGameForKernel(void *pPhyPart);

sceKernelGetPhyMemPartInfoCoreForKernel

Version	NID
0.931	not present
0.990-3.61	0x3650963F
3.63-3.65	0xB9B69700

int sceKernelGetPhyMemPartInfoCoreForKernel(SceKernelPhyMemPart *pPhyMemPart, ScePhyMemPartInfoCore *pInfo);

sceKernelPhyMemLowAllocForKernel

Version	NID
0.931-3.60	0x5E169FEF

Allocate a range of physically contiguous "pages" from a PhyMemLow object.

// type must be one of SCE_KERNEL_PHYMEMLOW_TYPE (0x10001, 0x10002 or 0x20001)
// size and alignment must be aligned to the target PHYMEMLOW granularity
// On success, *pOut contains the base physical address of a range with the provided size
SceInt32 sceKernelPhyMemLowAllocForKernel(SceUInt32 type, SceSize size, SceSize alignment, SceUIntPAddr* pOut);

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

// type must be one of SCE_KERNEL_PHYMEMLOW_TYPE (0x10001, 0x10002 or 0x20001)
SceInt32 sceKernelGetPhyMemLowInfoForKernel(SceUInt32 type, SceKernelPhyMemLowInfo *info);

sceKernelPhyMemLowFreeForKernel

Version	NID
0.931-3.60	0x18B99FDD

Free a range of physical "pages" from a PhyMemLow object.

// type must be one of SCE_KERNEL_PHYMEMLOW_TYPE (0x10001, 0x10002 or 0x20001)
SceInt32 sceKernelPhyMemLowFreeForKernel(SceUInt32 type, SceUIntPAddr pbase, SceSize size);

sceGUIDtoClassForKernel

Version	NID
0.990-3.60	0x66636970

SceClass *sceGUIDtoClassForKernel(SceUID uid);

sceGUIDFindByObjectForKernel

Version	NID
0.990-3.60	0x95ABFDC3

int sceGUIDFindByObjectForKernel(uint32_t uid_or_flags_or_object);

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
3.65	0x89BEF058

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 *pPAV);

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

ORed values:
0x00002 : Shell
0x00004 : Game
0x00005 : PhyCont
0x00060 : CDialog
0x10000 : Lpddr2Main
0x30000 : Cdram

seen values:
0x10002 : ShellLpddr2Main (shared)
0x10004 : GameLpddr2Main
0x10005 : PhyContLpddr2Main
0x10064 : GameCDialogLpddr2Main

0x30002 : ShellCdram
0x30004 : GameCdram
*/

int sceKernelCreatePhyMemPartByPbaseForKernel(const char *name, int type, void *pbase, SceSize psize, SceKernelPhyMemPart **ppPhyMemPart);

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
3.65	0xF6D09BD9

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 *pInfoClass);

sceKernelGetPhyPageResetForKernel

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);

sceGUIDKernelCreateWithOptForKernel

Version	NID
0.990-0.995	not present
0.996-3.60	0xDF0288D7
3.65	0xFB6390CE

This is a guessed name. Temp name was sceKernelCreateUidObjForKernel, scePUIDKernelCreateWithAttrForKernel.

typedef struct SceGUIDKernelCreateOpt { // size is at least 0x20 on FW 3.60
	SceUInt32 attr;
	SceUInt32 field_4;
	SceUID uid;
	SceUID pid;
	SceUInt32 field_10;
	SceUInt32 classAttr;
	SceUInt32 uidAttr;
	SceUID pid2;
} SceGUIDKernelCreateOpt;

SceUID sceGUIDKernelCreateWithOptForKernel(SceClass *pClass, const char *name, SceGUIDKernelCreateOpt *pOpt, 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

int sceGUIDGetEntryForKernel(SceUID guid, SceGUIDEntry **ppEntry);

sceGUIDGetVisibilityLevelForKernel

Version	NID
3.60	0xC69666C3

sceGUIDSetVisibilityLevelForKernel

Version	NID
3.60	0xCB8D03C0

Sets visibilityLevel into guid's GUIDEntry.

int sceGUIDSetVisibilityLevelForKernel(SceUID guid, int visibilityLevel);

sceGUIDFindByNameForKernel

Version	NID
3.60	0xCEBA8031

sceGUIDFindByNameAllForKernel

Version	NID
3.60	0x4B5C85AC

sceGUIDGetPIDForKernel

Version	NID
3.60	0xCF5A2311

Returns Process ID for guid.

SceUID sceGUIDGetPIDForKernel(SceUID guid);

sceGUIDSetPIDForKernel

Version	NID
3.60	0x812E7A53

Sets Process ID for guid.

int sceGUIDSetPIDForKernel(SceUID guid, SceUID pid);

sceGUIDSetCNOAForKernel

Version	NID
3.60	0x8D6AF468

sceGUIDSetForKernel

Version	NID
0.931-3.60	0xD7B323EB

Re setting the GUID on an object that already has a uid assigned may cause the system to malfunction.

int sceGUIDSetForKernel(SceUID guid, 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);

sceGUIDReferForKernel

Version	NID
3.60	0xB3E2AA7A

int sceGUIDReferForKernel(SceUID pid, int guid);

sceKernelPhysicalMemWriteForKernel

Version	NID
0.931-0.990	0x4B86A751
3.60	not present

Writes to physical address paddr using a pre-allocated memblock. Destination must belong into a hardcoded table describing physical ranges.

SceSSize sceKernelPhysicalMemWriteForKernel(SceUIntPAddr pdest, 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 virtual address and src must be a physical address. Returns 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
3.65	0x6DB45017

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
3.65	0x133024A5

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);

sceKernelGetHeapInfoAllChunkForKernel

Version	NID
0.931-0.990	0xAC4C0EB1
3.60	not present

int sceKernelGetHeapInfoAllChunkForKernel(SceUID uid, SceKernelHeapInfo *pInfo);

sceKernelGetHeapInfoByPointerForKernel

Version	NID
0.931-0.990	not present
3.60	0x68451777

int sceKernelGetHeapInfoByPointerForKernel(void *pObject, SceKernelHeapInfo *pInfo);

sceKernelGetHeapInfoForKernel

Version	NID
0.931-3.60	0x91733EF4

// 0.931-0.990:
int sceKernelGetHeapInfoForKernel(SceUID uid, SceKernelHeapInfo *pInfo);

// 3.60:
int sceKernelGetHeapInfoForKernel(SceUID uid, SceUInt32 level, 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);

sceKernelAllocWithOptForKernel

Version	NID
3.60	0xA2CD1697

typedef struct SceAllocOpt {
    SceSize size;   // 0x14
    SceSize data04; // maybe len align?
    SceSize align;
    int data0C;
    int data10; 
} SceAllocOpt;

void *sceKernelAllocWithOptForKernel(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);

scePUIDReferObjectForKernel

Version	NID
0.990-3.60	0x620E00E7

int scePUIDReferObjectForKernel(SceUID pid, SceUID puid, SceObject **ppObject);

SceSysmemForKernel_7C797940

Version	NID
0.931-0.990	0x7C797940

Calls #SceSysmemForKernel_620E00E7 or #sceGUIDReferObjectForDriver.

sceKernelCopyFromUser32DomainForKernel

Version	NID
0.931	0xD530399A
3.60	not present

int sceKernelCopyFromUser32DomainForKernel(SceUID pid, void *dst, const void *src, SceSize size);

sceKernelProcCopyToUserRxForKernel

Version	NID
0.990-3.60	0x30931572
3.65	0x2995558D

This is a guessed name. Temp name was sceKernelRxMemcpyKernelToUserForPidForKernel.

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 sceKernelProcCopyToUserRxForKernel(SceUID pid, void *dst, const void *src, SceSize size);

sceKernelCopyToUserRxForKernel

Version	NID
3.60	0x67BAD5B4
3.65	0x5EF1DAAF

This is a guessed name. Temp name was sceKernelMemcpyToUserRxForKernel.

int sceKernelCopyToUserRxForKernel(void *dst, const void *src, SceSize len);

sceKernelCopyToUserRoForKernel

Version	NID
3.60	0xA6F95838

This is a guessed name. Temp name was sceKernelMemcpyToUserRoForKernel.

int sceKernelCopyToUserRoForKernel(void *dst, const void *src, SceSize len);

sceUIDtoObjectForKernel

Version	NID
0.990-3.60	0xED221825
3.65	0xFA6C098C

Calls SceSysmem#sceGUIDGetObjectForDriver.

SceKernelObject *sceUIDtoObjectForKernel(SceUID uid);

sceGUIDOpenByGUIDForKernel

Version	NID
0.990-3.60	0xCF53EEE4

sceGUIDGetUIDVectorByClassForKernel

Version	NID
0.931-3.60	0xEC7D36EF
3.65	0x52137FA3

Copy uid to vector by referring to all objects created by cls.

/*
 * num - max copy number
 */
int sceGUIDGetUIDVectorByClassForKernel(SceClass *cls, int vis_level, SceUID *vector, SceSize num, SceSize *ret_num);

scePUIDGetUIDVectorByClassForKernel

Version	NID
3.60	0xB16D5136

int scePUIDGetUIDVectorByClassForKernel(SceUID pid, int a2, int a3, int a4, int a5, SceSize *ret_num);

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

// type: 0x10000001 (user AS)
// name: maybe titleid
SceUID sceKernelCreateAddressSpaceForKernel(SceUID pid, const char *name, SceUInt32 type, SceKernelAddressSpace *pAS);

sceKernelDeleteAddressSpaceForKernel

Version	NID
0.931-3.60	0xF2D7FE3A
3.65	0x4A2E421D

int sceKernelDeleteAddressSpaceForKernel(SceUID guid);

sceKernelAddressSpaceFreeAllMemBlockForKernel

Version	NID
0.931-3.60	0x89CE1F31
3.65	0x36159CF5

int sceKernelAddressSpaceFreeAllMemBlockForKernel(SceUID guid);

sceKernelAddressSpaceSetPhyMemPartForKernel

Version	NID
0.931-3.60	0x67955EE9
3.65	0x7DF07D60

int sceKernelAddressSpaceSetPhyMemPartForKernel(SceUID guid, 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
3.65	0x7D87F706

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
3.65	0x0B1B4ACA

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
3.65	0xCEBC4963

Official name might be sceKernelSetAddressSpaceName.

Used by SceProcessmgr.

int SceSysmemForKernel_7BD56D6D(SceUID guid, const char *name);

SceSysmemForKernel_9C7B62AB

Version	NID
0.990-3.60	0x9C7B62AB

// name max length is 31 characters
int SceSysmemForKernel_9C7B62AB(const char *name, SceUInt32 flag);

SceSysmemForKernel_153A08A0

Version	NID
0.990-3.60	0x153A08A0

Add 1 to pPhyMemPart->nClient using SceSysmem#sceKernelCpuAtomicAddAndGet32ForDriver, and returns its new value.

SceUInt32 SceSysmemForKernel_153A08A0(SceKernelPhyMemPart* pPhyMemPart);

SceSysmemForKernel_942D15FC

Version	NID
3.60	0x942D15FC

Used to get GUID by name.

int SceSysmemForKernel_942D15FC(const char *name, SceSize namelen, int unk_guid_global_value);

SceSysmemForKernel_C8672A3D

Version	NID
3.60	0xC8672A3D

int SceSysmemForKernel_C8672A3D(int unk);

sceKernelInitProcessMemoryForKernel

Version	NID
3.60	0xE7938BFB

This is guessed name.

Used by SceProcessmgr

int sceKernelInitProcessMemoryForKernel(void);

SceSysmemForDriver

sceUIDGetDefaultClassForDriver

Version	NID
0.931-0.990	0xFE28F5EB
3.60	not present

SceClass *sceUIDGetDefaultClassForDriver(void);

sceUIDtoClassForDriver

Version	NID
0.990	0x65B9B393
3.60	not present

Calls sceGUIDtoClassForKernel.

SceClass *sceUIDtoClassForDriver(SceUID uid);

scePUIDGetClassForDriver

Version	NID
0.990-3.60	0xE9728A12

Temp name was sceKernelGetClassForPidForUidForDriver.

int scePUIDGetClassForDriver(SceUID pid, SceUID uid, SceClass **ppClass);

sceGUIDGetClassForDriver

Version	NID
0.990-3.60	0xC74B0152

Temp name was sceKernelGetClassForUidForDriver.

int sceGUIDGetClassForDriver(SceUID uid, SceClass **ppClass);

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);

scePUIDOpenByNameWithExactClassForDriver

Version	NID
0.990	0xB800123C
3.60	not present

This is a guessed name. Previous name was add_heap.

Equivalent to scePUIDOpenByNameWithClass, but the object's class must match exactly the provided pClass.

SceUID scePUIDOpenByNameWithExactClassForDriver(ScePID process, const char *name, const SceClass *pClass);

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
1.80	Removed

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. Official name might also be sceUIDKernelCreateForDriver.

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

Temp name was sceKernelAllocHeapMemoryWithOpt1ForDriver.

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
0.931-3.65	0xC94850C9

The interface is the same as the usermode 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 authorize null pOpt.

SceUID sceKernelAllocMemBlockForDebuggerForDriver(const char *name, SceKernelMemBlockType type, SceSize vsize, SceKernelAllocMemBlockOptKernel *pOpt);

sceKernelCreateClassForDriver

Version	NID
3.60	0x61317102

int sceKernelCreateClassForDriver(SceClass *cls, const char *name, const SceClass *group, SceSize item_size, SceClassCallback create, SceClassCallback destroy);

sceKernelCreateHeapForDriver

Version	NID
0.931-3.60	0x9328E0E8

The heap pool is thread safe.

// 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 guid, 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

Equivalent to scePUIDOpenByNameForDriver, but object's class is checked to be a subclass of provided pClass before opening.

SceUID scePUIDOpenByNameWithClassForDriver(ScePID process, const char *name, SceClass *pClass);

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);

sceKernelIsAccessibleRangeForDriver

Version	NID
0.931-3.60	0x9C78064C

Temp name was sceKernelFindMemBlockForDriver.

Also exported as #sceKernelIsAccessibleRangeForDebugger.

?Returns 0 on success (if is accessible range)?

int sceKernelIsAccessibleRangeForDriver(SceUInt32 mode, const void *pVA, SceSize size);

sceKernelIsAccessibleRangeProcForDriver

Version	NID
0.931-3.60	0x9F6E45E3

Temp name was sceKernelFindMemBlockForPidForDriver.

Also exported as #sceKernelIsAccessibleRangeProcForDebugger.

?Returns 0 on success (if is accessible range)?

int sceKernelIsAccessibleRangeProcForDriver(SceUID pid, SceUInt32 mode, const void *pVA, 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
0.931-3.65	0x009E1C61

int sceKernelFreeMemBlockForDriver(SceUID uid);

sceKernelGetMemBlockPARangeForDriver

Version	NID
0.990-3.60	0x98C15666

Previous name was sceKernelGetMemBlockAddrPairForUidForDriver

Returns the physical address 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

Temp name was 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 *pPAV);

scePUIDGetEntryHeapNameForDriver

Version	NID
0.990-3.60	0x09896EB7

Real name might be scePUIDGetEntryHeapNameForDriver. Temp name was sceKernelGetNameForPidByUidForDriver.

int scePUIDGetEntryHeapNameForDriver(SceUID pid, SceUID uid, char **pName);

sceGUIDGetNameForDriver

Version	NID
3.60	0xA78755EB

This is a guessed name, but near. Temp name was sceKernelGetNameForUidForDriver.

int sceGUIDGetNameForDriver(SceUID guid, char **pName);

sceGUIDGetName2ForDriver

Version	NID
3.60	0xE655852F

This is a guessed name, but near. Temp name was sceKernelGetNameForUid2ForDriver.

const char* sceGUIDGetName2ForDriver(SceUID guid);

sceUIDtoObjectWrapperForDriver

Version	NID
0.990	0xAB7AC3D1

This is a guessed name.

Calls #sceUIDtoObjectForKernel.

SceKernelObject *sceUIDtoObjectWrapperForDriver(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);

sceGUIDReferObjectWithClassLevelForDriver

Version	NID
0.990-3.60	0x77066FD1

int sceGUIDReferObjectWithClassLevelForDriver(SceUID guid, SceClass *pClass, SceUInt32 level, SceKernelObject **ppEntry);

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, SceUInt32 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 *pPAV);

sceKernelGetPaddrListForLargePageForDriver

Version	NID
3.60	0x08A8A7E8

This is a guessed and bad name.

int sceKernelGetPaddrListForLargePageForDriver(const SceKernelVARange *vRange, SceKernelPAVector *pPAV);

sceKernelGetPaddrListForSmallPageForDriver

Version	NID
3.60	0x16844CE6

This is a guessed and bad name.

int sceKernelGetPaddrListForSmallPageForDriver(const SceKernelVARange *vRange, SceKernelPAVector *pPAV);

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

This is a guessed and bad name.

int sceKernelGetPaddrPairForLargePageForDriver(SceKernelVARange *pair, SceKernelPARange *result_pair);

sceKernelGetPaddrPairForSmallPageForDriver

Version	NID
3.60	0xB3575090

This is a guessed and bad name.

int sceKernelGetPaddrPairForSmallPageForDriver(SceKernelVARange *pair, SceKernelPARange *result_pair);

sceKernelVAtoPABySWForDriver

Version	NID
0.990-3.60	0x65419BD3

Temp name was sceKernelGetPaddrWithSectionTypeCheckForDriver, sceKernelAddressSpaceVAtoPABySWForDriver.

int sceKernelVAtoPABySWForDriver(void *pVA, void **pPA);

sceKernelGetPidContextForDriver

Version	NID
3.60	0x2ECF7944

typedef struct SceKernelProcessContext {
  SceUInt32 TTBR1;
  SceUInt32 DACR;
  SceUInt32 CONTEXTIDR;
} SceKernelProcessContext;

int sceKernelGetPidContextForDriver(SceUID pid, SceKernelProcessContext **ppCtx);

sceKernelGetUIDClassForDriver

Version	NID
3.60	0x85336A1C

This is a guessed and bad name.

SceClass *sceKernelGetUIDClassForDriver(void);

sceKernelGetUnknownValidPASForDriver

Version	NID
3.60	0xC9928F5E

This is a guessed and bad name. Temp name was sceKernelGetUnknownValidPhysAddressSpaceForDriver.

int sceKernelGetUnknownValidPASForDriver(void **start, void **end);

sceKernelProcIsPAWithinSameSectionForDriver

Version	NID
3.60	0xF4AD89D8

This is a guessed and bad name. Temp name was sceKernelIsPaddrWithinSameSectionForUidForDriver.

int sceKernelProcIsPAWithinSameSectionForDriver(SceUID pid, int permission_type, void *pVA, SceSize len);

sceKernelIsPAWithinUnknownValidPASForDriver

Version	NID
3.60	0xA7C0D1FC

This is a guessed and bad name. Temp name was sceKernelIsPaddrWithinUnknownValidPhysAddressSpaceForDriver.

int sceKernelIsPAWithinUnknownValidPASForDriver(void *pVA);

scePUIDtoGUIDWithClassForDriver

Version	NID
0.990	not present
3.60	0x184172B1

Temp name was sceKernelKernelUidForUserUidForClassForDriver.

SceUID scePUIDtoGUIDWithClassForDriver(SceUID pid, SceUID uid, SceClass *pClass);

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

Temp name was sceKernelMapUserBlockDefaultTypeForDriver.

Assigns type 0.

SceUID sceKernelUserMapForDriver(const char *name, int permission, const void *user_buf, SceSize size, void **kernel_page, SceSize *kernel_size, SceUInt32 *kernel_offset);

sceKernelProcUserMapForDriver

Version	NID
3.60	0x0091D74D

Temp name was sceKernelMapUserBlockForDefaultTypeForPidForDriver. sceKernelProcUserMapForDriver is certainly the real name.

Assigns type 0.

SceUID sceKernelProcUserMapForDriver(SceUID pid, const char *name, int permission, const void *user_buf, SceSize size, void **kernel_page, SceSize *kernel_size, SceUInt32 *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);

sceKernelProcCopyToUserRoForDriver

Version	NID
0.990-1.69	0x571D2739
3.60	not present

This is a guessed name Temp name was sceKernelRoMemcpyKernelToUserForPidForDriver.

int sceKernelProcCopyToUserRoForDriver(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);

sceKernelStrnlenFromUserForDriver

Version	NID
0.931	not present (in ForKernel)
0.940-0.990	0xFF06898A
1.50-3.60	not present

SceSize sceKernelStrnlenFromUserForDriver(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);

sceKernelStrncpyFromUserForDriver

Version	NID
0.931	not present (present but not exported)
0.940-0.990	0xE6D5EFE4
1.50-3.60	not present

Returns 0 on success.

int sceKernelStrncpyFromUserForDriver(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 (in ForKernel?)
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);

sceGUIDSetNameForDriver

Version	NID
1.50-3.60	0x4CFA4100

Temp name was sceKernelSetObjectForUidForDriver. Wrongfully named scePUIDSetNameForDriver.

Calls the same routine as sceGUIDSetForKernel, but passes NULL for pClass and pObject.

SceInt32 sceGUIDSetNameForDriver(SceUID guid, 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);