pcsx2/unfree/fps2bios/kernel/eeload/include/eekernel.h

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#ifndef __EEKERNEL_H__
#define __EEKERNEL_H__
#include <tamtypes.h>
#include <kernel.h>
#define RCNT0_COUNT *(volatile int*)0xB0000000
#define RCNT0_MODE *(volatile int*)0xB0000010
#define RCNT0_TARGET *(volatile int*)0xB0000020
#define RCNT0_HOLD *(volatile int*)0xB0000030
#define RCNT1_COUNT *(volatile int*)0xB0000800
#define RCNT1_MODE *(volatile int*)0xB0000810
#define RCNT1_TARGET *(volatile int*)0xB0000820
#define RCNT1_HOLD *(volatile int*)0xB0000830
#define RCNT2_COUNT *(volatile int*)0xB0001000
#define RCNT2_MODE *(volatile int*)0xB0001010
#define RCNT2_TARGET *(volatile int*)0xB0001020
#define RCNT3_COUNT *(volatile int*)0xB0001800
#define RCNT3_MODE *(volatile int*)0xB0001810
#define RCNT3_TARGET *(volatile int*)0xB0001820
#define GIF_CTRL *(volatile int*)0xB0003000
#define GIF_FIFO *(volatile u128*)0xB0006000
//SIF0
#define D5_CHCR *(volatile int*)0xB000C000
#define D5_MADR *(volatile int*)0xB000C010
#define D5_QWC *(volatile int*)0xB000C020
//SIF1
#define D6_CHCR *(volatile int*)0xB000C400
#define D6_MADR *(volatile int*)0xB000C410
#define D6_QWC *(volatile int*)0xB000C420
#define D6_TAG *(volatile int*)0xB000C430
#define DMAC_CTRL *(volatile int*)0xB000E000
#define DMAC_STAT *(volatile int*)0xB000E010
#define DMAC_PCR *(volatile int*)0xB000E020
#define DMAC_SQWC *(volatile int*)0xB000E030
#define DMAC_RBSR *(volatile int*)0xB000E040
#define DMAC_RBOR *(volatile int*)0xB000E050
#define DMAC_STADR *(volatile int*)0xB000E060
#define INTC_STAT *(volatile int*)0xB000F000
#define INTC_MASK *(volatile int*)0xB000F010
#define SBUS_MSFLG *(volatile int*)0xB000F220
#define SBUS_SMFLG *(volatile int*)0xB000F230
#define SBUS_F240 *(volatile int*)0xB000F240
#define DMAC_ENABLER *(volatile int*)0xB000F520
#define DMAC_ENABLEW *(volatile int*)0xB000F590
#define SBFLG_IOPALIVE 0x10000
#define SBFLG_IOPSYNC 0x40000
#define GS_PMODE *(volatile u64*)0xB2000000
#define GS_SMODE1 *(volatile u64*)0xB2000010
#define GS_SMODE2 *(volatile u64*)0xB2000020
#define GS_SRFSH *(volatile u64*)0xB2000030
#define GS_SYNCH1 *(volatile u64*)0xB2000040
#define GS_SYNCH2 *(volatile u64*)0xB2000050
#define GS_SYNCV *(volatile u64*)0xB2000060
#define GS_DISPFB1 *(volatile u64*)0xB2000070
#define GS_DISPLAY1 *(volatile u64*)0xB2000080
#define GS_DISPFB2 *(volatile u64*)0xB2000090
#define GS_DISPLAY2 *(volatile u64*)0xB20000A0
#define GS_EXTBUF *(volatile u64*)0xB20000B0
#define GS_EXTDATA *(volatile u64*)0xB20000C0
#define GS_EXTWRITE *(volatile u64*)0xB20000D0
#define GS_BGCOLOR *(volatile u64*)0xB20000E0
#define GS_CSR *(volatile u64*)0xB2001000
#define GS_IMR *(volatile u64*)0xB2001010
#define GS_BUSDIR *(volatile u64*)0xB2001040
#define GS_SIGLBLID *(volatile u64*)0xB2001080
#define INTC_GS 0
#define INTC_SBUS 1
#define INTC_VBLANK_S 2
#define INTC_VBLANK_E 3
#define INTC_VIF0 4
#define INTC_VIF1 5
#define INTC_VU0 6
#define INTC_VU1 7
#define INTC_IPU 8
#define INTC_TIM0 9
#define INTC_TIM1 10
#define INTC_TIM2 11
#define INTC_TIM3 12 //threads
//#define INTC_13 13 //not used
//#define INTC_14 14 //not used
#define DMAC_VIF0 0
#define DMAC_VIF1 1
#define DMAC_GIF 2
#define DMAC_FROM_IPU 3
#define DMAC_TO_IPU 4
#define DMAC_SIF0 5
#define DMAC_SIF1 6
#define DMAC_SIF2 7
#define DMAC_FROM_SPR 8
#define DMAC_TO_SPR 9
//#define DMAC_10 10 //not used
//#define DMAC_11 11 //not used
//#define DMAC_12 12 //not used
//#define DMAC_13 13 //not used
//#define DMAC_14 14 //not used
#define DMAC_ERROR 15
///////////////////////
// DMA TAG REGISTERS //
///////////////////////
#define DMA_TAG_REFE 0x00
#define DMA_TAG_CNT 0x01
#define DMA_TAG_NEXT 0x02
#define DMA_TAG_REF 0x03
#define DMA_TAG_REFS 0x04
#define DMA_TAG_CALL 0x05
#define DMA_TAG_RET 0x06
#define DMA_TAG_END 0x07
// Modes for DMA transfers
#define SIF_DMA_FROM_IOP 0x0
#define SIF_DMA_TO_IOP 0x1
#define SIF_DMA_FROM_EE 0x0
#define SIF_DMA_TO_EE 0x1
#define SIF_DMA_INT_I 0x2
#define SIF_DMA_INT_O 0x4
#define SIF_DMA_SPR 0x8
#define SIF_DMA_BSN 0x10 /* ? what is this? */
#define SIF_DMA_TAG 0x20
#define SIF_DMA_ERT 0x40
#define DMA_TAG_IRQ 0x80000000
#define DMA_TAG_PCE 0x0C000000
#define KSEG1_ADDR(x) (((u32)(x))|0xA0000000)
#define KUSEG_ADDR(x) (((u32)(x))&0x1FFFFFFF)
#define MAX_SEMAS 256
#define STACK_RES 0x2A0
//?
#define SRInitVal 0x70030C13
#define ConfigInitVal 0x73003
enum {
THS_RUN = 0x01,
THS_READY = 0x02,
THS_WAIT = 0x04,
THS_SUSPEND = 0x08,
THS_DORMANT = 0x10,
};
typedef struct {
u128 gpr[24]; // v0-t9 (skip r0,at,k0-ra)
u128 gp;
u128 fp;
u128 hi;
u128 lo;
u32 sa;
} eeRegs;
struct ThreadParam {
int status;
void (*entry)(void*);
void *stack;
int stackSize;
void *gpReg;
int initPriority;
int currentPriority;
u32 attr;
u32 option;
int waitSema; // waitType?
int waitId;
int wakeupCount;
};
struct TCB { //internal struct
struct TCB *next; //+00
struct TCB *prev; //+04
int status;//+08
void (*entry)(void*); //+0C
void *stack_res; //+10 initial $sp
void *gpReg; //+14
short currentPriority; //+18
short initPriority; //+1A
int waitSema, //+1C waitType?
semaId, //+20
wakeupCount, //+24
attr, //+28
option; //+2C
void (*entry_)(void*); //+30
int argc; //+34
char *argstring;//+38
void *stack;//+3C
int stackSize; //+40
int (*root)(); //+44
void* heap_base; //+48
};
struct threadCtx {
u128 gpr[25]; // at-t9, (skip r0,k0-ra)
u128 gp; //+190
u128 sp; //+1A0
u128 fp; //+1B0
u128 ra; //+1C0
u128 hi; //+1D0
u128 lo; //+1E0
u32 sa; //+1F0
u32 cf31;//+1F4
u32 acc; //+1F8
u32 res; //+1FC
u32 fpr[32];//+200
};
typedef struct tag_ARGS{
int argc;
char *argv[16];
char args[256];
} ARGS;
struct SemaParam {
int count;
int max_count;
int init_count;
int wait_threads;
int attr;
u32 option;
};
struct kSema { // internal struct
struct kSema *free;//+00
int count;//+04
int max_count;//+08
int attr;//+0C
int option;//+10
int wait_threads;//+14
struct TCB *wait_next,//+18
*wait_prev;//+1C
};
struct ll { struct ll *next, *prev; }; //linked list
//internal struct
struct IDhandl { //intc dmac handler
struct ll *next, //+00
*prev; //+04
int (*handler)(int); //+08
u32 gp; //+0C
void *arg; //+10
int flag; //+14
};
//internal struct
struct HCinfo{ //handler cause info
int count;
struct ll l;
};
extern u128 SavedSP;
extern u128 SavedRA;
extern u128 SavedAT;
extern u64 SavedT9;
extern eeRegs SavedRegs;
extern u32 excepRA;
extern u32 excepSP;
extern u32 (*table_CpuConfig[6])(u32);
extern void (*table_SYSCALL[0x80])();
extern void (*VCRTable[14])();
extern void (*VIntTable[8])();
extern void (*INTCTable[16])(int);
extern void (*DMACTable[16])(int);
extern int threadId;
extern int threadPrio;
extern int threadStatus;
extern u64 hvParam;
extern u32 machineType;
extern u64 gsIMR;
extern u32 memorySize;
extern u32 g_kernelstackend;
extern u32 dmac_CHCR[10];
extern int VSyncFlag0;
extern int VSyncFlag1;
extern int _HandlersCount;
extern struct ll handler_ll_free, *ihandlers_last, *ihandlers_first;
extern struct HCinfo intcs_array[14];
extern struct ll *dhandlers_last, *dhandlers_first;
extern struct HCinfo dmacs_array[15];
extern struct IDhandl pgifhandlers_array[161];
extern void (*sbus_handlers[32])(int ca);
extern int rcnt3Code;
extern int rcnt3TargetTable[0x142];
extern u8 rcnt3TargetNum[0x40];
extern int threads_count;
extern struct ll thread_ll_free;
extern struct ll thread_ll_priorities[128];
extern int semas_count;
extern struct kSema* semas_last;
extern struct TCB threads_array[256];
extern struct kSema semas_array[256];
extern char tagindex;
extern short transferscount;
extern struct TAG{
int id_qwc;
int addr;
int unk[2];
} tadrptr[31];
extern int extrastorage[(16/4) * 8][31];
extern int osdConfigParam;
// syscalls
// Every syscall is officially prefixed with _ (to avoid clashing with ps2sdk)
void _SetSYSCALL(int num, int address);
int __EnableIntc(int ch);
int __DisableIntc(int ch);
int __EnableDmac(int ch);
int __DisableDmac(int ch);
void *_SetVTLBRefillHandler(int cause, void (*handler)());
void *_SetVCommonHandler(int cause, void (*handler)());
void *_SetVInterruptHandler(int cause, void (*handler)());
void _PSMode();
u32 _MachineType();
u32 _SetMemorySize(u32 size);
u32 _GetMemorySize();
u64 _GsGetIMR();
u64 _GsPutIMR(u64 val);
int _Exit(); // 3
void _RFU___(); // 0
void _SetVSyncFlag(int flag0, int flag1);
int _AddIntcHandler(int cause, int (*handler)(int), int next, void *arg);
int _AddIntcHandler2(int cause, int (*handler)(int), int next, void *arg);
int _RemoveIntcHandler(int cause, int hid);
int _AddDmacHandler(int cause, int (*handler)(int), int next, void *arg);
int _AddDmacHandler2(int cause, int (*handler)(int), int next, void *arg);
int _RemoveDmacHandler(int code, int hid);
int _AddSbusIntcHandler(int cause, void (*handler)(int ca));
int _RemoveSbusIntcHandler(int cause);
int _Interrupt2Iop(int cause);
void _RFU005();
int _GetCop0(int reg);
int _ExecPS2(void *, void *, int, char **);
int _DeleteThread(int tid);
int _StartThread(int tid, void *arg);
int _ExitThread();
int _ExitDeleteThread();
int _SleepThread();
int _WakeupThread(int tid);
int _WaitSema(int sid);
void _ChangeThreadPriority(int tid, int prio);
int _CreateThread(struct ThreadParam *param);
int _iChangeThreadPriority(int tid, int prio);
int _GetThreadId();
int _ReferThreadStatus(int tid, struct ThreadParam *info);
int _iWakeupThread(int tid);
int _SuspendThread(int thid);
int _iResumeThread(int tid);
int _CancelWakeupThread(int tid);
int _CreateEventFlag();
int _CreateSema(struct SemaParam *sema);
int _RFU073(int sid);
int _iSignalSema(int sid);
int _PollSema(int sid);
int _ReferSemaStatus(int sid, struct SemaParam *sema);
int _DeleteEventFlag();
void*_InitializeMainThread(u32 gp, void *stack, int stack_size,
char *args, int root);
void *_InitializeHeapArea(void *heap_base, int heap_size);
void *_EndOfHeap();
int _LoadPS2Exe(char *filename, int argc, char **argv);
int _ExecOSD(int argc, char **argv);
void _SifSetDChain();
void _SifStopDma();
u32 _SifSetDma(SifDmaTransfer_t *sdd, int len);
void _SetGsCrt(short arg0, short arg1, short arg2); // 2
void _GetGsHParam(int *p0, int *p1, int *p2, int *p3);
int _GetGsVParam();
void _SetGsVParam(int VParam);
void _GetOsdConfigParam(int *result);
void _SetOsdConfigParam(int *param);
int _ResetEE(int init); // 1
int _TlbWriteRandom(u32 PageMask, u32 EntryHi, u32 EntryLo0, u32 EntryLo1);
int _SetAlarm(short a0, int a1, int a2);
void _ReleaseAlarm();
int _TerminateThread(int tid);
void _RotateThreadReadyQueue(int prio);
int _iTerminateThread(int tid);
int _DisableDispatchThread();
int _EnableDispatchThread();
int _iRotateThreadReadyQueue(int prio);
void _ReleaseWaitThread(int tid);
int _iReleaseWaitThread(int tid);
int _ResumeThread(int tid);
int _iResumeThread(int tid);
void _JoinThread();
int _DeleteSema(int sid);
int _iDeleteSema(int sid);
void _SignalSema(int sid);
void _SetGsHParam(int a0, int a1, int a2, int a3);
int _SetEventFlag(int ef, u32 bits); // bits is EF_X
int _iSetEventFlag(int ef, u32 bits);
void _EnableIntcHandler(u32 id);
void _DisableIntcHandler(u32 id);
void _EnableDmacHandler(u32 id);
void _DisableDmacHandler(u32 id);
void _KSeg0(u32 arg);
int _EnableCache(int cache);
int _DisableCache(int cache);
void _FlushCache(int op);
void _105(int op1, int op2);
u32 _CpuConfig(u32 op);
void _SetCPUTimerHandler(void (*handler)());
void _SetCPUTimer(int compval);
void _SetPgifHandler(void (*handler)(int));
void _print();
int _SifDmaStat(int id);
int _SifGetReg(int reg);
int _SifSetReg(int reg, u32 val);
////////////////////////////////////////////////////////////////////
// KERNEL BSS //
////////////////////////////////////////////////////////////////////
#endif