mirror of
https://github.com/joel16/uofw.git
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395 lines
13 KiB
C
395 lines
13 KiB
C
/* Copyright (C) 2011, 2012, 2013 The uOFW team
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See the file COPYING for copying permission.
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*/
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#ifndef SYSMEM_KERNEL_H
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#define SYSMEM_KERNEL_H
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#include <stdarg.h>
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#include "common_header.h"
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#include "sysmem_user.h"
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#include "loadcore.h"
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typedef struct {
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s32 unk0; //0
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u32 numExportLibs; //4 -- number of sysmem's export libraries - set in SysMemInit (from utopia)
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SceResidentLibraryEntryTable *kernelLibs[8]; //8 --array of sysmem's export tables set in SysMemInit (from utopia)
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u32 loadCoreAddr; // 40 -- allocated in SysMemInit (from utopia)
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u32 numKernelLibs; // 44 -- offset in export_lib at which user libraries begin - set in SysMemInit (from utopia)
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s32 unk48; //48
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SceUID (*AllocPartitionMemory)(s32 mpid, char *name, u32 type, u32 size, u32 addr); // 52
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void * (*GetBlockHeadAddr)(SceUID id); // 56
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s32 (*ResizeMemoryBlock)(SceUID id, s32 leftShift, s32 rightShift); // 60
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SceStubLibraryEntryTable *loadCoreImportTables; //64 -- loadcore stubs - set in kactivate before booting loadcore (from utopia)
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u32 loadCoreImportTablesSize; //68 -- total size of stubs - set in kactivate before booting loadcore (from utopia)
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void *initThreadStack; //72 -- allocated in SysMemInit (from utopia)
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SceLoadCoreExecFileInfo *sysMemExecInfo; //76 -- set in kactivate before booting loadcore (from utopia)
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SceLoadCoreExecFileInfo *loadCoreExecInfo; //80 -- set in kactivate before booting loadcore (from utopia)
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s32 (*CompareSubType)(u32 tag); //84
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u32 (*CompareLatestSubType)(u32 tag); //88
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s32 (*SetMaskFunction)(u32 unk1, vs32 *addr); //92
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void (*Kprintf)(const char *fmt, ...); //96 -- set by sysmem (from utopia)
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s32 (*GetLengthFunction)(u8 *file, u32 size, u32 *newSize); //100 -- set in kactivate before booting loadcore (from utopia)
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s32 (*PrepareGetLengthFunction)(u8 *buf, u32 size); //104
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SceResidentLibraryEntryTable *userLibs[3]; //108
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} SysMemThreadConfig;
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/** PSP Hardware models. */
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enum ScePspHwModels {
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/** PSP Fat (01g). */
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PSP_1000 = 0,
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/** PSP Slim (02g). */
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PSP_2000 = 1,
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/** PSP Brite (03g). */
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PSP_3000 = 2,
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/** PSP Brite (04g). */
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PSP_4000 = 3,
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/** PSP Go (05g). */
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PSP_GO = 4,
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/** PSP Brite (07g). */
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PSP_7000 = 6,
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/** PSP Brite (09g). */
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PSP_9000 = 8,
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/** PSP Street E-1000 (11g). */
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PSP_11000 = 10,
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};
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/*
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* Misc
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*/
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typedef struct {
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u32 size; // 0
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u32 flags; // 4
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char str8[16]; // 8
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char str24[11]; // 24
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// padding?
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int unk36;
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char qtgp2[8]; // 40
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char qtgp3[16]; // 48
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u32 allowReplaceUmd; // 64
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char gameId[14]; // 68
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// padding?
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u32 unk84; // 84
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char str88[8]; // 88
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u32 umdCacheOn; // 96
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u32 sdkVersion; // 100
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u32 compilerVersion; // 104
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u32 dnas; // 108
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u32 unk112; // 112
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char str116[64]; // 116
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char str180[11]; // 180
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// padding?
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char str196[8]; // 196
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char unk204[8]; // 204
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int unk212; // 212
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int unk216; // 216
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} SceKernelGameInfo;
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s32 SysMemForKernel_807179E7(char *gameId, int arg1, char *arg2, char *arg3, int arg4, int arg5, char *arg6);
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s32 sceKernelCopyGameInfo(SceKernelGameInfo *info);
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s32 SysMemForKernel_F3BDB718(char *arg0);
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s32 sceKernelGetQTGP2(char *qtgp2);
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s32 sceKernelSetQTGP2(char *qtgp2);
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s32 sceKernelGetQTGP3(char *qtgp3);
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s32 sceKernelSetQTGP3(char *qtgp3);
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s32 sceKernelGetAllowReplaceUmd(u32 *allow);
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s32 sceKernelSetAllowReplaceUmd(u32 allow);
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s32 sceKernelSetUmdCacheOn(u32 umdCacheOn);
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s32 SysMemForKernel_40B744A4(u32 unk112);
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s32 SysMemForKernel_BFE08689(char *str116);
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s32 SysMemForKernel_2A8B8B2D(char *unk204);
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SceKernelGameInfo *sceKernelGetGameInfo(void);
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u32 sceKernelGetCompiledSdkVersion(void);
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s32 sceKernelSetCompiledSdkVersion100(u32 ver);
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s32 sceKernelSetCompiledSdkVersion370(u32 ver);
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s32 sceKernelSetCompiledSdkVersion380_390(u32 ver);
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s32 sceKernelSetCompiledSdkVersion395(u32 ver);
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s32 sceKernelSetCompiledSdkVersion410_420(u32 ver);
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s32 sceKernelSetCompiledSdkVersion500_550(u32 ver);
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s32 sceKernelSetCompiledSdkVersion570(u32 ver);
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s32 sceKernelSetCompiledSdkVersion600_620(u32 ver);
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s32 sceKernelSetCompiledSdkVersion630_650(u32 ver);
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s32 sceKernelSetCompiledSdkVersion660(u32 ver);
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s32 sceKernelGetCompilerVersion(void);
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s32 sceKernelSetCompilerVersion(s32 version);
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s32 sceKernelGetDNAS(void);
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s32 sceKernelSetDNAS(s32 dnas);
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s32 sceKernelGetInitialRandomValue(void);
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s32 SysMemForKernel_A0A9185A(void);
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u32 SysMemForKernel_13EE28DA(u32 flag);
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u32 sceKernelGetModel(void);
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s32 sceKernelSetRebootKernel(s32 (*rebootKernel)());
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s32 sceKernelRebootKernel(void *arg);
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s32 sceKernelRegisterGetIdFunc(void *func);
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s32 sceKernelGetId();
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/*
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* Debugging (disabled in release)
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*/
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s32 sceKernelApiEvaluationInit();
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s32 sceKernelRegisterApiEvaluation();
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s32 sceKernelApiEvaliationAddData();
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s32 sceKernelApiEvaluationReport();
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s32 sceKernelSetGcovFunction();
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s32 sceKernelCallGcovFunction();
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s32 sceKernelSetGprofFunction();
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s32 sceKernelCallGprofFunction();
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int sceKernelCheckDebugHandler();
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s32 SysMemForKernel_7FF2F35A(char *arg);
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s32 SysMemForKernel_A03CB480(char *arg);
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/*
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* Heap
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*/
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typedef struct SceSysmemLowheapBlock {
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struct SceSysmemLowheapBlock *next;
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u32 count;
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} SceSysmemLowheapBlock;
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typedef struct SceSysmemHeapBlock {
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struct SceSysmemHeapBlock *next, *prev; // 0, 4
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// followed by lowheap
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} SceSysmemHeapBlock;
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SceUID sceKernelCreateHeap(SceUID mpid, SceSize size, int flag, const char *name);
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typedef struct {
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u32 size; // 0
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char name[32]; // 4
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int perm; // 36
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int attr; // 40
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int heapSize; // 44
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int totalsize; // 48
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int totalfreesize; // 52
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int maxfreesize; // 56
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int numheaps; // 60
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SceSysmemHeapBlock *heaps[];
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} SceSysmemHeapInfo;
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int sceKernelQueryHeapInfo(SceUID id, SceSysmemHeapInfo *info);
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typedef struct SceSysmemLowheapInfoBlock {
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SceSysmemLowheapBlock *block;
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u32 offset;
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} SceSysmemLowheapInfoBlock;
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typedef struct {
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u32 size; // 0
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u32 heapSize; // 4
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u32 usedSize; // 8
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u32 freeSize; // 12
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u32 maxFreeSize; // 16
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u32 blockCount; // 20
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SceSysmemLowheapInfoBlock infoBlocks[];
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} SceSysmemLowheapInfo; // size: 24
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s32 sceKernelQueryLowheapInfo(SceSysmemHeapBlock *block, SceSysmemLowheapInfo *info);
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int sceKernelDeleteHeap(SceUID id);
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typedef struct {
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u32 size; // structure size (probably)
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u32 align;
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} SceSysmemHeapAllocOption;
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void *sceKernelAllocHeapMemoryWithOption(SceUID id, int size, SceSysmemHeapAllocOption *opt);
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void *sceKernelAllocHeapMemory(SceUID id, int size);
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s32 sceKernelFreeHeapMemory(SceUID id, void *addr);
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s32 sceKernelHeapTotalFreeSize(SceUID id);
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/*
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* Main
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*/
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typedef struct {
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unsigned used : 1; // 0
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unsigned next : 6; /* next index */ // 1
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unsigned offset : 25; /* offset (from the partition start, divided by 0x100) */ // 7
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unsigned isProtected : 1; // 0
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unsigned sizeLocked : 1; // 1
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unsigned prev : 6; // 2
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unsigned checkOverflow : 1; // 8
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unsigned size : 23; /* size (divided by 0x100) */ // 9
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} SceSysmemSeg; // size: 8
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typedef struct {
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union {
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u32 segCount;
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u32 segAddr;
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} info;
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u32 size; // 4
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u32 unused8; // 8
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SceSysmemSeg *curSeg; // 12
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} SceSysMemoryInfo;
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void sceKernelGetSysMemoryInfo(s32 mpid, u32 needsInit, SceSysMemoryInfo *info);
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s32 sceKernelGetSysmemIdList(s32 id, s32 *uids, s32 maxCount, s32 *totalCount);
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s32 sceKernelSysMemRealMemorySize(void);
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s32 sceKernelSysMemMemSize(void);
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s32 sceKernelSysMemMaxFreeMemSize(void);
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s32 sceKernelGetMEeDramSaveAddr(void);
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s32 sceKernelGetAWeDramSaveAddr(void);
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s32 sceKernelGetMEeDramSaveSize(void);
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s32 sceKernelGetAWeDramSaveSize(void);
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s32 sceKernelDevkitVersion(void);
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s32 sceKernelGetSystemStatus(void);
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s32 sceKernelSetSystemStatus(s32 newStatus);
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typedef struct {
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s32 dlId;
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void *stall;
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u32 count;
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u32 max;
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} SceGeLazy;
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typedef struct {
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u32 size;
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s32 *cmdList;
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s32 (*sceGeListUpdateStallAddr_lazy)(s32 dlId, void *stall);
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SceGeLazy *lazySyncData;
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} SceKernelUsersystemLibWork;
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s32 sceKernelSetUsersystemLibWork(s32 *cmdList, s32 (*sceGeListUpdateStallAddr_lazy)(s32, void*), SceGeLazy *lazy);
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SceKernelUsersystemLibWork *sceKernelGetUsersystemLibWork(void);
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/*
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* Memory Block
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*/
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typedef struct {
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s32 size; // Structure size
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} SceSysmemMemoryBlockAllocOption;
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SceUID sceKernelAllocMemoryBlock(char *name, u32 type, u32 size, SceSysmemMemoryBlockAllocOption *opt);
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s32 sceKernelFreeMemoryBlock(SceUID id);
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s32 sceKernelGetMemoryBlockAddr(SceUID id, void **addrPtr);
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/*
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* Memory Main
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*/
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typedef struct {
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u32 size; // 0
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char name[32]; // 4
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u32 attr; // 36
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u32 addr; // 40
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u32 memSize; // 44
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u32 sizeLocked; // 48
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u32 used; // 52
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} SceSysmemMemoryBlockInfo;
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s32 sceKernelResizeMemoryBlock(SceUID id, s32 leftShift, s32 rightShift);
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s32 sceKernelJointMemoryBlock(SceUID id1, SceUID id2);
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s32 sceKernelSeparateMemoryBlock(SceUID id, u32 cutBefore, u32 size);
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s32 sceKernelQueryMemoryBlockInfo(SceUID id, SceSysmemMemoryBlockInfo *infoPtr);
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s32 sceKernelSizeLockMemoryBlock(SceUID id);
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s32 sceKernelFreePartitionMemory(SceUID id);
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s32 sceKernelQueryMemoryInfo(u32 address, SceUID *partitionId, SceUID *memoryBlockId);
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void *sceKernelGetBlockHeadAddr(SceUID id);
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u32 SysMemForKernel_CC31DEAD(SceUID id);
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void *sceKernelMemset(void *src, s8 c, u32 size);
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void *sceKernelMemset32(void *src, s32 c, u32 size);
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void *sceKernelMemmove(void *dst, void *src, u32 size);
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void *sceKernelMemmoveWithFill(void *dst, void *src, u32 size, s32 fill);
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void *sceKernelMemcpy(void *dst, const void *src, u32 n);
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/*
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* Memory Operations
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*/
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void sceKernelMemoryExtendSize(void);
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void sceKernelMemoryShrinkSize(void);
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u32 sceKernelMemoryOpenSize(void);
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void sceKernelMemoryCloseSize(u32 state);
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s32 sceKernelSetDdrMemoryProtection(u32 addr, u32 size, u32 set);
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/*
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* Partitions
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*/
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typedef struct {
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SceSize size; // 0
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u32 startAddr; // 4
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u32 memSize; // 8
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u32 attr; // 12
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} SceSysmemPartitionInfo;
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s32 sceKernelQueryMemoryPartitionInfo(s32 mpid, SceSysmemPartitionInfo *info);
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u32 sceKernelPartitionMaxFreeMemSize(s32 mpid);
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u32 sceKernelPartitionTotalMemSize(s32 mpid);
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u32 sceKernelTotalMemSize(void);
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u32 sceKernelPartitionTotalFreeMemSize(s32 mpid);
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s32 sceKernelFillFreeBlock(s32 mpid, u32 c);
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SceUID sceKernelAllocPartitionMemory(s32 mpid, char *name, u32 type, u32 size, u32 addr);
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/*
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* UIDs
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*/
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#define UID_CB_TO_DATA(uid, typeStruct, type) ((type*)((void*)uid + typeStruct->size * 4))
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#define UID_DATA_TO_CB(data, typeStruct) ((SceSysmemUidCB*)((void*)data - typeStruct->size * 4))
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struct SceSysmemUidLookupFunc;
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typedef struct SceSysmemUidCB {
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struct SceSysmemUidCB *PARENT0; // 0
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struct SceSysmemUidCB *nextChild; // 4
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struct SceSysmemUidCB *meta; // 8: the type UID
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SceUID uid; // 12
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char *name; // 16
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u8 childSize; // 20
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u8 size; // 21
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u16 attr; // 22
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union {
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struct SceSysmemUidCB *next; // 24
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s32 numChild; // 24
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} next;
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struct SceSysmemUidCB *PARENT1; // 28
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struct SceSysmemUidLookupFunc *funcTable; // 32
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} __attribute__((packed)) SceSysmemUidCB; // size: 36
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typedef s32 (*SceSysmemUidFunc)(SceSysmemUidCB *uid, SceSysmemUidCB *uidWithFunc, s32 funcId, va_list ap);
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typedef struct SceSysmemUidLookupFunc {
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s32 id;
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SceSysmemUidFunc func;
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} SceSysmemUidLookupFunc;
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s32 sceKernelCallUIDFunction(SceUID id, int funcId, ...);
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s32 sceKernelCallUIDObjFunction(SceSysmemUidCB *uid, s32 funcId, ...);
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int sceKernelLookupUIDFunction(SceSysmemUidCB *uid, int id, SceSysmemUidFunc *func, SceSysmemUidCB **parentUidWithFunc);
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s32 sceKernelCallUIDObjCommonFunction(SceSysmemUidCB *uid, SceSysmemUidCB *uidWithFunc, s32 funcId, va_list ap);
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int sceKernelCreateUIDtypeInherit(const char *parentName, const char *name, int size,
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SceSysmemUidLookupFunc *funcTable, SceSysmemUidLookupFunc *metaFuncTable,
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SceSysmemUidCB **uidTypeOut);
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int sceKernelCreateUID(SceSysmemUidCB *type, const char *name, char k1, SceSysmemUidCB **outUid);
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SceUID sceKernelSearchUIDbyName(const char *name, SceUID typeId);
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int sceKernelCreateUIDtype(const char *name, int size, SceSysmemUidLookupFunc *funcTable,
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SceSysmemUidLookupFunc *metaFuncTable, SceSysmemUidCB **uidTypeOut);
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s32 sceKernelDeleteUIDtype(SceSysmemUidCB *uid);
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s32 sceKernelGetUIDname(SceUID id, s32 len, char *out);
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s32 sceKernelRenameUID(SceUID id, const char *name);
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s32 sceKernelGetUIDtype(SceUID id);
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s32 sceKernelDeleteUID(SceUID id);
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s32 sceKernelGetUIDcontrolBlock(SceUID id, SceSysmemUidCB **uidOut);
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s32 sceKernelGetUIDcontrolBlockWithType(SceUID id, SceSysmemUidCB *type, SceSysmemUidCB **outUid);
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s32 sceKernelIsKindOf(SceSysmemUidCB *uid, SceSysmemUidCB *type);
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s32 sceKernelPrintUidListAll(void);
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typedef struct {
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SceSysmemUidCB *root; // 0
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SceSysmemUidCB *metaRoot; // 4
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SceSysmemUidCB *basic; // 8
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s32 count; // 12
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} SceSysmemUidList;
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SceSysmemUidList *sceKernelGetUidmanCB(void);
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s32 sceKernelIsHold(SceSysmemUidCB *uid0, SceSysmemUidCB *uid1);
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s32 sceKernelHoldUID(SceUID id0, SceUID id1);
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s32 sceKernelReleaseUID(SceUID id0, SceUID id1);
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#endif
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