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idstorage: fix threadman_kernel.h

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Arthur Blot 2022-05-21 18:47:50 +02:00
parent 522f4ecbd5
commit 5362b813ac
1 changed files with 319 additions and 254 deletions
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include/threadman_kernel.h
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@ -1,254 +1,319 @@
/* Copyright (C) 2011, 2012, 2013 The uOFW team
See the file COPYING for copying permission.
*/
#ifndef THREADMAN_KERNEL_H
#define THREADMAN_KERNEL_H
#include "common_header.h"
#include "threadman_user.h"
/* Threads */
typedef s32 (*SceKernelThreadEntry)(SceSize args, void *argp);
typedef struct {
SceSize size;
SceUID stackMpid;
} SceKernelThreadOptParam;
/* thread priority */
#define SCE_KERNEL_USER_HIGHEST_PRIORITY 16
#define SCE_KERNEL_MODULE_INIT_PRIORITY 32
#define SCE_KERNEL_USER_LOWEST_PRIORITY 111
SceUID sceKernelCreateThread(const char *name, SceKernelThreadEntry entry, int initPriority,
int stackSize, SceUInt attr, SceKernelThreadOptParam *option);
int sceKernelDeleteThread(SceUID thid);
int sceKernelStartThread(SceUID thid, SceSize arglen, void *argp);
int sceKernelExitThread(int status);
int sceKernelTerminateDeleteThread(SceUID thid);
int sceKernelDelayThread(SceUInt delay);
int sceKernelChangeThreadPriority(SceUID thid, int priority);
int sceKernelGetThreadCurrentPriority(void);
int sceKernelGetThreadId(void);
int sceKernelIsUserModeThread(void);
int sceKernelWaitThreadEnd(SceUID thid, SceUInt *timeout);
int sceKernelWaitThreadEndCB(SceUID thid, SceUInt *timeout);
int sceKernelReleaseWaitThread(SceUID thid);
int sceKernelSuspendAllUserThreads(void);
int sceKernelExtendKernelStack(u32, s32(void*), void*);
unsigned int sceKernelGetSystemTimeLow(void);
int sceKernelGetUserLevel(void);
typedef enum {
SCE_KERNEL_TMID_Thread = 1,
SCE_KERNEL_TMID_Semaphore = 2,
SCE_KERNEL_TMID_EventFlag = 3,
SCE_KERNEL_TMID_Mbox = 4,
SCE_KERNEL_TMID_Vpl = 5,
SCE_KERNEL_TMID_Fpl = 6,
SCE_KERNEL_TMID_Mpipe = 7,
SCE_KERNEL_TMID_Callback = 8,
SCE_KERNEL_TMID_ThreadEventHandler = 9,
SCE_KERNEL_TMID_Alarm = 10,
SCE_KERNEL_TMID_VTimer = 11,
SCE_KERNEL_TMID_SleepThread = 64,
SCE_KERNEL_TMID_DelayThread = 65,
SCE_KERNEL_TMID_SuspendThread = 66,
SCE_KERNEL_TMID_DormantThread = 67,
} SceKernelIdListType;
SceKernelIdListType sceKernelGetThreadmanIdType(SceUID uid);
/* Mutexes */
int sceKernelCreateMutex(char *, int, int, int);
int sceKernelTryLockMutex(int, int);
int sceKernelLockMutex(int, int, int);
int sceKernelUnlockMutex(int, int);
int sceKernelDeleteMutex(int);
/* Event flags */
enum SceEventFlagWaitTypes {
/** Wait for all bits in the pattern to be set */
SCE_EVENT_WAITAND = 0,
/** Wait for one or more bits in the pattern to be set */
SCE_EVENT_WAITOR = 1,
/** Clear the wait pattern when it matches */
SCE_EVENT_WAITCLEAR = 0x20
};
typedef struct {
SceSize size;
char name[32];
SceUInt attr;
SceUInt initPattern;
SceUInt currentPattern;
int numWaitThreads;
} SceKernelEventFlagInfo;
typedef struct {
SceSize size;
} SceKernelEventFlagOptParam;
SceUID sceKernelCreateEventFlag(const char *name, int attr, int bits, SceKernelEventFlagOptParam *opt);
int sceKernelSetEventFlag(SceUID evid, u32 bits);
int sceKernelClearEventFlag(SceUID evid, u32 bits);
int sceKernelPollEventFlag(int evid, u32 bits, u32 wait, u32 *outBits);
int sceKernelWaitEventFlag(int evid, u32 bits, u32 wait, u32 *outBits, SceUInt *timeout);
int sceKernelWaitEventFlagCB(int evid, u32 bits, u32 wait, u32 *outBits, SceUInt *timeout);
int sceKernelCancelEventFlag(SceUID evid, SceUInt setpattern, s32 *numWaitThreads);
int sceKernelDeleteEventFlag(int evid);
int sceKernelReferEventFlagStatus(SceUID event, SceKernelEventFlagInfo *status);
/* MsgPipe */
SceUID sceKernelCreateMsgPipe(const char *name, int part, int attr, void *unk1, void *opt);
int sceKernelDeleteMsgPipe(SceUID uid);
int sceKernelSendMsgPipe(SceUID uid, void *message, unsigned int size, int unk1, void *unk2, unsigned int *timeout);
int sceKernelSendMsgPipeCB(SceUID uid, void *message, unsigned int size, int unk1, void *unk2, unsigned int *timeout);
int sceKernelTrySendMsgPipe(SceUID uid, void *message, unsigned int size, int unk1, void *unk2);
int sceKernelReceiveMsgPipe(SceUID uid, void *message, unsigned int size, int unk1, void *unk2, unsigned int *timeout);
int sceKernelReceiveMsgPipeCB(SceUID uid, void *message, unsigned int size, int unk1, void *unk2, unsigned int *timeout);
int sceKernelTryReceiveMsgPipe(SceUID uid, void *message, unsigned int size, int unk1, void *unk2);
int sceKernelCancelMsgPipe(SceUID uid, int *psend, int *precv);
typedef struct {
SceSize size;
char name[32];
SceUInt attr;
int bufSize;
int freeSize;
int numSendWaitThreads;
int numReceiveWaitThreads;
} SceKernelMppInfo;
int sceKernelReferMsgPipeStatus(SceUID uid, SceKernelMppInfo *info);
/* Semaphores */
typedef struct {
SceSize size;
} SceKernelSemaOptParam;
typedef struct {
SceSize size;
char name[32];
SceUInt attr;
int initCount;
int currentCount;
int maxCount;
int numWaitThreads;
} SceKernelSemaInfo;
SceUID sceKernelCreateSema(const char *name, SceUInt attr, int initVal, int maxVal, SceKernelSemaOptParam *option);
int sceKernelDeleteSema(SceUID semaid);
int sceKernelSignalSema(SceUID semaid, int signal);
int sceKernelWaitSema(SceUID semaid, int signal, SceUInt *timeout);
int sceKernelWaitSemaCB(SceUID semaid, int signal, SceUInt *timeout);
int sceKernelPollSema(SceUID semaid, int signal);
int sceKernelReferSemaStatus(SceUID semaid, SceKernelSemaInfo *info);
/* KTLS */
int sceKernelAllocateKTLS(int id, int (*cb)(unsigned int *size, void *arg), void *arg);
int sceKernelFreeKTLS(int id);
void *sceKernelGetKTLS(int id);
void *sceKernelGetThreadKTLS(int id, SceUID thid, int mode);
/* Alarms. */
typedef SceUInt (*SceKernelAlarmHandler)(void *common);
typedef struct {
SceUInt32 low;
SceUInt32 hi;
} SceKernelSysClock;
typedef struct {
SceSize size;
SceKernelSysClock schedule;
SceKernelAlarmHandler handler;
void *common;
} SceKernelAlarmInfo;
SceUID sceKernelSetAlarm(SceUInt clock, SceKernelAlarmHandler handler, void *common);
SceUID sceKernelSetSysClockAlarm(SceKernelSysClock *clock, SceKernelAlarmHandler handler, void *common);
int sceKernelCancelAlarm(SceUID alarmid);
int sceKernelReferAlarmStatus(SceUID alarmid, SceKernelAlarmInfo *info);
/* Callbacks */
typedef s32 (*SceKernelCallbackFunction)(s32 arg1, s32 arg2, void *arg);
typedef struct {
SceSize size;
char name[32];
SceUID threadId;
SceKernelCallbackFunction callback;
void *common;
s32 notifyCount;
s32 notifyArg;
} SceKernelCallbackInfo;
int sceKernelNotifyCallback(SceUID cb, int arg2);
int sceKernelReferCallbackStatus(SceUID cb, SceKernelCallbackInfo *status);
/* VPL Functions */
typedef struct {
SceSize size;
} SceKernelVplOptParam;
SceUID sceKernelCreateVpl(const char *name, int part, int attr, unsigned int size, SceKernelVplOptParam *opt);
int sceKernelDeleteVpl(SceUID uid);
int sceKernelAllocateVpl(SceUID uid, unsigned int size, void **data, unsigned int *timeout);
int sceKernelAllocateVplCB(SceUID uid, unsigned int size, void **data, unsigned int *timeout);
int sceKernelTryAllocateVpl(SceUID uid, unsigned int size, void **data);
int sceKernelFreeVpl(SceUID uid, void *data);
int sceKernelCancelVpl(SceUID uid, int *pnum);
typedef struct {
SceSize size;
char name[32];
SceUInt attr;
int poolSize;
int freeSize;
int numWaitThreads;
} SceKernelVplInfo;
int sceKernelReferVplStatus(SceUID uid, SceKernelVplInfo *info);
/* FPL Functions */
typedef struct {
SceSize size;
} SceKernelFplOptParam;
int sceKernelCreateFpl(const char *name, int part, int attr, unsigned int size, unsigned int blocks, SceKernelFplOptParam *opt);
int sceKernelDeleteFpl(SceUID uid);
int sceKernelAllocateFpl(SceUID uid, void **data, unsigned int *timeout);
int sceKernelAllocateFplCB(SceUID uid, void **data, unsigned int *timeout);
int sceKernelTryAllocateFpl(SceUID uid, void **data);
int sceKernelFreeFpl(SceUID uid, void *data);
int sceKernelCancelFpl(SceUID uid, int *pnum);
typedef struct {
SceSize size;
char name[32];
SceUInt attr;
int blockSize;
int numBlocks;
int freeBlocks;
int numWaitThreads;
} SceKernelFplInfo;
int sceKernelReferFplStatus(SceUID uid, SceKernelFplInfo *info);
s64 sceKernelGetSystemTimeWide(void);
#endif /* THREADMAN_KERNEL_H */
/* Copyright (C) 2011 - 2015 The uOFW team
See the file COPYING for copying permission.
*/
#ifndef THREADMAN_KERNEL_H
#define THREADMAN_KERNEL_H
#include "common_header.h"
#include "threadman_user.h"
/* Threads */
typedef s32 (*SceKernelThreadEntry)(SceSize args, void *argp);
typedef s32 (*SceKernelRebootKernelThreadEntry)(s32 arg1, u32 arg2, s32 arg3, s32 arg4);
typedef struct {
SceSize size;
SceUID stackMpid;
} SceKernelThreadOptParam;
#define SCE_KERNEL_THREAD_ID_SELF (0) /* UID representing calling thread. */
/**
* thread priority - lower numbers mean higher priority
*/
#define SCE_KERNEL_INVALID_PRIORITY (0)
#define SCE_KERNEL_HIGHEST_PRIORITY_KERNEL (1)
#define SCE_KERNEL_HIGHEST_PRIORITY_USER (16)
#define SCE_KERNEL_MODULE_INIT_PRIORITY (32)
#define SCE_KERNEL_LOWEST_PRIORITY_USER (111)
#define SCE_KERNEL_LOWEST_PRIORITY_KERNEL (126)
/* thread size */
#define SCE_KERNEL_TH_KERNEL_DEFAULT_STACKSIZE (4 * 1024) /* 4 KB */
#define SCE_KERNEL_TH_USER_DEFAULT_STACKSIZE (256 * 1024) /* 256 KB */
/* thread attributes */
#define SCE_KERNEL_TH_VSH_MODE (0xC0000000) /* Thread runs in VSH mode. */
#define SCE_KERNEL_TH_APP_MODE (0xB0000000) /* Thread runs in Application mode. */
#define SCE_KERNEL_TH_USB_WLAN_MODE (0xA0000000) /* Thread runs in USB_WLAN mode. */
#define SCE_KERNEL_TH_MS_MODE (0x90000000) /* Thread runs in MS mode. */
#define SCE_KERNEL_TH_USER_MODE (0x80000000) /* Thread runs in User mode. */
#define SCE_KERNEL_TH_NO_FILLSTACK (0x00100000)
#define SCE_KERNEL_TH_CLEAR_STACK (0x00200000) /* Specifies that thread memory area should be cleared to 0 when deleted. */
#define SCE_KERNEL_TH_LOW_STACK (0x00400000) /* Specifies that the stack area is allocated from the lower addresses in memory, not the higher ones. */
#define SCE_KERNEL_TH_UNK_800000 (0x00800000)
#define SCE_KERNEL_TH_USE_VFPU (0x00004000) /* Specifies that the VFPU is available. */
#define SCE_KERNEL_TH_NEVERUSE_FPU (0x00002000)
#define SCE_KERNEL_TH_DEFAULT_ATTR (0)
#define SCE_KERNEL_AT_THFIFO (0x00000000) /* Waiting threads are queued on a FIFO basis. */
#define SCE_KERNEL_AT_THPRI (0x00000100) /* Waiting threads are queued based on priority. */
SceUID sceKernelCreateThread(const char *name, SceKernelThreadEntry entry, s32 initPriority,
SceSize stackSize, SceUInt attr, SceKernelThreadOptParam *option);
int sceKernelDeleteThread(SceUID thid);
int sceKernelStartThread(SceUID thid, SceSize arglen, void *argp);
int sceKernelSuspendThread(SceUID thid);
int sceKernelExitThread(s32 status);
s32 sceKernelExitDeleteThread(s32 exitStatus);
int sceKernelTerminateDeleteThread(SceUID thid);
int sceKernelDelayThread(SceUInt delay);
int sceKernelChangeThreadPriority(SceUID thid, int priority);
int sceKernelGetThreadCurrentPriority(void);
s32 sceKernelGetThreadId(void);
int sceKernelIsUserModeThread(void);
int sceKernelWaitThreadEnd(SceUID thid, SceUInt *timeout);
int sceKernelWaitThreadEndCB(SceUID thid, SceUInt *timeout);
int sceKernelReleaseWaitThread(SceUID thid);
int sceKernelSuspendAllUserThreads(void);
unsigned int sceKernelGetSystemTimeLow(void);
enum SceUserLevel {
SCE_USER_LEVEL_MS = 1,
SCE_USER_LEVEL_USBWLAN = 2,
SCE_USER_LEVEL_APP = 3,
SCE_USER_LEVEL_VSH = 4,
};
int sceKernelGetUserLevel(void);
typedef enum {
SCE_KERNEL_TMID_Thread = 1,
SCE_KERNEL_TMID_Semaphore = 2,
SCE_KERNEL_TMID_EventFlag = 3,
SCE_KERNEL_TMID_Mbox = 4,
SCE_KERNEL_TMID_Vpl = 5,
SCE_KERNEL_TMID_Fpl = 6,
SCE_KERNEL_TMID_Mpipe = 7,
SCE_KERNEL_TMID_Callback = 8,
SCE_KERNEL_TMID_ThreadEventHandler = 9,
SCE_KERNEL_TMID_Alarm = 10,
SCE_KERNEL_TMID_VTimer = 11,
SCE_KERNEL_TMID_SleepThread = 64,
SCE_KERNEL_TMID_DelayThread = 65,
SCE_KERNEL_TMID_SuspendThread = 66,
SCE_KERNEL_TMID_DormantThread = 67,
} SceKernelIdListType;
SceKernelIdListType sceKernelGetThreadmanIdType(SceUID uid);
/* Mutexes */
typedef struct {
SceSize size;
} SceKernelMutexOptParam;
typedef struct {
SceSize size;
char name[SCE_UID_NAME_LEN + 1];
SceUInt attr;
s32 initCount;
s32 currentCount;
SceUID currentOwner;
s32 numWaitThreads;
} SceKernelMutexInfo;
/* Mutex attributes */
#define SCE_KERNEL_MUTEX_ATTR_TH_FIFO (SCE_KERNEL_AT_THFIFO)
#define SCE_KERNEL_MUTEX_ATTR_TH_PRI (SCE_KERNEL_AT_THPRI)
#define SCE_KERNEL_MUTEX_ATTR_RECURSIVE (0x0200) /*Allow recursive locks by threads that own the mutex. */
s32 sceKernelCreateMutex(char *name, s32 attr, s32 initCount, const SceKernelMutexOptParam *pOption);
s32 sceKernelDeleteMutex(SceUID mutexId);
s32 sceKernelLockMutex(SceUID mutexId, s32 lockCount, u32 *pTimeout);
s32 sceKernelLockMutexCB(SceUID mutexId, s32 lockCount, u32 *pTimeout);
s32 sceKernelTryLockMutex(SceUID mutexId, s32 lockCount);
s32 sceKernelUnlockMutex(SceUID mutexId, s32 unlockCount);
s32 sceKernelCancelMutex(SceUID mutexId, s32 newLockCount, s32 *pNumWaitThreads);
s32 sceKernelReferMutexStatus(SceUID mutexId, SceKernelMutexInfo *pInfo);
/* Event flags */
typedef struct {
SceSize size;
char name[SCE_UID_NAME_LEN + 1];
SceUInt attr;
SceUInt initPattern;
SceUInt currentPattern;
int numWaitThreads;
} SceKernelEventFlagInfo;
typedef struct {
SceSize size;
} SceKernelEventFlagOptParam;
/* Event flag attributes. */
#define SCE_KERNEL_EA_SINGLE (0x0000) /** Multiple thread waits are prohibited. */
#define SCE_KERNEL_EA_MULTI (0x0200) /** Multiple thread waits are permitted. */
/* Event flag wait modes. */
#define SCE_KERNEL_EW_AND (0x00) /** Wait for all bits in the bit pattern to be set. */
#define SCE_KERNEL_EW_OR (0x01) /** Wait for one or more bits in the bit pattern to be set. */
#define SCE_KERNEL_EW_CLEAR_ALL (0x10) /** Clear all bits after wait condition is satisfied. */
#define SCE_KERNEL_EW_CLEAR_PAT (0x20) /** Clear bits specified by bit pattern after wait condition is satisfied. */
#define SCE_KERNEL_EW_CLEAR SCE_KERNEL_EW_CLEAR_ALL
SceUID sceKernelCreateEventFlag(const char *name, int attr, int bits, SceKernelEventFlagOptParam *opt);
int sceKernelSetEventFlag(SceUID evid, u32 bits);
int sceKernelClearEventFlag(SceUID evid, u32 bits);
int sceKernelPollEventFlag(int evid, u32 bits, u32 wait, u32 *outBits);
int sceKernelWaitEventFlag(int evid, u32 bits, u32 wait, u32 *outBits, SceUInt *timeout);
int sceKernelWaitEventFlagCB(int evid, u32 bits, u32 wait, u32 *outBits, SceUInt *timeout);
int sceKernelCancelEventFlag(SceUID evid, SceUInt setpattern, s32 *numWaitThreads);
int sceKernelDeleteEventFlag(int evid);
int sceKernelReferEventFlagStatus(SceUID event, SceKernelEventFlagInfo *status);
/* MsgPipe */
SceUID sceKernelCreateMsgPipe(const char *name, int part, int attr, void *unk1, void *opt);
int sceKernelDeleteMsgPipe(SceUID uid);
int sceKernelSendMsgPipe(SceUID uid, void *message, unsigned int size, int unk1, void *unk2, unsigned int *timeout);
int sceKernelSendMsgPipeCB(SceUID uid, void *message, unsigned int size, int unk1, void *unk2, unsigned int *timeout);
int sceKernelTrySendMsgPipe(SceUID uid, void *message, unsigned int size, int unk1, void *unk2);
int sceKernelReceiveMsgPipe(SceUID uid, void *message, unsigned int size, int unk1, void *unk2, unsigned int *timeout);
int sceKernelReceiveMsgPipeCB(SceUID uid, void *message, unsigned int size, int unk1, void *unk2, unsigned int *timeout);
int sceKernelTryReceiveMsgPipe(SceUID uid, void *message, unsigned int size, int unk1, void *unk2);
int sceKernelCancelMsgPipe(SceUID uid, int *psend, int *precv);
typedef struct {
SceSize size;
char name[SCE_UID_NAME_LEN + 1];
SceUInt attr;
int bufSize;
int freeSize;
int numSendWaitThreads;
int numReceiveWaitThreads;
} SceKernelMppInfo;
int sceKernelReferMsgPipeStatus(SceUID uid, SceKernelMppInfo *info);
/* Semaphores */
typedef struct {
SceSize size;
} SceKernelSemaOptParam;
typedef struct {
SceSize size;
char name[SCE_UID_NAME_LEN + 1];
SceUInt attr;
int initCount;
int currentCount;
int maxCount;
int numWaitThreads;
} SceKernelSemaInfo;
#define SCE_KERNEL_SA_THFIFO (0x0000) /* A FIFO queue is used for the waiting thread */
#define SCE_KERNEL_SA_THPRI (0x0100) /* The waiting thread is queued by its thread priority */
SceUID sceKernelCreateSema(const char *name, SceUInt attr, int initVal, int maxVal, SceKernelSemaOptParam *option);
int sceKernelDeleteSema(SceUID semaid);
int sceKernelSignalSema(SceUID semaid, int signal);
int sceKernelWaitSema(SceUID semaid, int signal, SceUInt *timeout);
int sceKernelWaitSemaCB(SceUID semaid, int signal, SceUInt *timeout);
int sceKernelPollSema(SceUID semaid, int signal);
int sceKernelReferSemaStatus(SceUID semaid, SceKernelSemaInfo *info);
/* KTLS */
int sceKernelAllocateKTLS(int id, int (*cb)(unsigned int *size, void *arg), void *arg);
int sceKernelFreeKTLS(int id);
void *sceKernelGetKTLS(int id);
void *sceKernelGetThreadKTLS(int id, SceUID thid, int mode);
/* Alarms. */
typedef SceUInt (*SceKernelAlarmHandler)(void *common);
typedef struct {
SceUInt32 low;
SceUInt32 hi;
} SceKernelSysClock;
typedef struct {
SceSize size;
SceKernelSysClock schedule;
SceKernelAlarmHandler handler;
void *common;
} SceKernelAlarmInfo;
SceUID sceKernelSetAlarm(SceUInt clock, SceKernelAlarmHandler handler, void *common);
SceUID sceKernelSetSysClockAlarm(SceKernelSysClock *clock, SceKernelAlarmHandler handler, void *common);
int sceKernelCancelAlarm(SceUID alarmid);
int sceKernelReferAlarmStatus(SceUID alarmid, SceKernelAlarmInfo *info);
/* Callbacks */
typedef s32 (*SceKernelCallbackFunction)(s32 arg1, s32 arg2, void *arg);
typedef struct {
SceSize size;
char name[SCE_UID_NAME_LEN + 1];
SceUID threadId;
SceKernelCallbackFunction callback;
void *common;
s32 notifyCount;
s32 notifyArg;
} SceKernelCallbackInfo;
int sceKernelNotifyCallback(SceUID cb, int arg2);
int sceKernelReferCallbackStatus(SceUID cb, SceKernelCallbackInfo *status);
/* VPL Functions */
typedef struct {
SceSize size;
} SceKernelVplOptParam;
SceUID sceKernelCreateVpl(const char *name, int part, int attr, unsigned int size, SceKernelVplOptParam *opt);
int sceKernelDeleteVpl(SceUID uid);
int sceKernelAllocateVpl(SceUID uid, unsigned int size, void **data, unsigned int *timeout);
int sceKernelAllocateVplCB(SceUID uid, unsigned int size, void **data, unsigned int *timeout);
int sceKernelTryAllocateVpl(SceUID uid, unsigned int size, void **data);
int sceKernelFreeVpl(SceUID uid, void *data);
int sceKernelCancelVpl(SceUID uid, int *pnum);
typedef struct {
SceSize size;
char name[SCE_UID_NAME_LEN + 1];
SceUInt attr;
int poolSize;
int freeSize;
int numWaitThreads;
} SceKernelVplInfo;
int sceKernelReferVplStatus(SceUID uid, SceKernelVplInfo *info);
/* FPL Functions */
typedef struct {
SceSize size;
} SceKernelFplOptParam;
int sceKernelCreateFpl(const char *name, int part, int attr, unsigned int size, unsigned int blocks, SceKernelFplOptParam *opt);
int sceKernelDeleteFpl(SceUID uid);
int sceKernelAllocateFpl(SceUID uid, void **data, unsigned int *timeout);
int sceKernelAllocateFplCB(SceUID uid, void **data, unsigned int *timeout);
int sceKernelTryAllocateFpl(SceUID uid, void **data);
int sceKernelFreeFpl(SceUID uid, void *data);
int sceKernelCancelFpl(SceUID uid, int *pnum);
typedef struct {
SceSize size;
char name[SCE_UID_NAME_LEN + 1];
SceUInt attr;
int blockSize;
int numBlocks;
int freeBlocks;
int numWaitThreads;
} SceKernelFplInfo;
int sceKernelReferFplStatus(SceUID uid, SceKernelFplInfo *info);
s64 sceKernelGetSystemTimeWide(void);
#endif /* THREADMAN_KERNEL_H */