#ifndef __SYSCALL_H__ #define __SYSCALL_H__ #define OS_BASE 0x80000000 typedef struct { u32_t code; u32_t data[5]; }kevent_t; typedef struct { u32_t handle; u32_t io_code; void *input; int inp_size; void *output; int out_size; }ioctl_t; typedef int (__stdcall *srv_proc_t)(ioctl_t *); #define ERR_OK 0 #define ERR_PARAM -1 u32_t drvEntry(int, char *)__asm__("_drvEntry"); /////////////////////////////////////////////////////////////////////////////// #define STDCALL __attribute__ ((stdcall)) __attribute__ ((dllimport)) #define FASTCALL __attribute__ ((fastcall)) __attribute__ ((dllimport)) #define IMPORT __attribute__ ((dllimport)) /////////////////////////////////////////////////////////////////////////////// #define SysMsgBoardStr __SysMsgBoardStr #define PciApi __PciApi //#define RegService __RegService #define CreateObject __CreateObject #define DestroyObject __DestroyObject /////////////////////////////////////////////////////////////////////////////// #define PG_SW 0x003 #define PG_NOCACHE 0x018 void* STDCALL AllocKernelSpace(size_t size)__asm__("AllocKernelSpace"); void STDCALL FreeKernelSpace(void *mem)__asm__("FreeKernelSpace"); addr_t STDCALL MapIoMem(addr_t base, size_t size, u32_t flags)__asm__("MapIoMem"); void* STDCALL KernelAlloc(size_t size)__asm__("KernelAlloc"); void* STDCALL KernelFree(void *mem)__asm__("KernelFree"); void* STDCALL UserAlloc(size_t size)__asm__("UserAlloc"); int STDCALL UserFree(void *mem)__asm__("UserFree"); void* STDCALL GetDisplay(void)__asm__("GetDisplay"); addr_t STDCALL AllocPage(void)__asm__("AllocPage"); addr_t STDCALL AllocPages(count_t count)__asm__("AllocPages"); void* STDCALL CreateRingBuffer(size_t size, u32_t map)__asm__("CreateRingBuffer"); u32_t STDCALL RegService(char *name, srv_proc_t proc)__asm__("RegService"); int STDCALL AttachIntHandler(int irq, void *handler, u32_t access) __asm__("AttachIntHandler"); void FASTCALL MutexInit(struct mutex*)__asm__("MutexInit"); void FASTCALL MutexLock(struct mutex*)__asm__("MutexLock"); void FASTCALL MutexUnlock(struct mutex*)__asm__("MutexUnlock"); /////////////////////////////////////////////////////////////////////////////// void STDCALL SetMouseData(int btn, int x, int y, int z, int h)__asm__("SetMouseData"); static u32_t PciApi(int cmd); u8_t STDCALL PciRead8 (u32_t bus, u32_t devfn, u32_t reg)__asm__("PciRead8"); u16_t STDCALL PciRead16(u32_t bus, u32_t devfn, u32_t reg)__asm__("PciRead16"); u32_t STDCALL PciRead32(u32_t bus, u32_t devfn, u32_t reg)__asm__("PciRead32"); u32_t STDCALL PciWrite8 (u32_t bus, u32_t devfn, u32_t reg,u8_t val) __asm__("PciWrite8"); u32_t STDCALL PciWrite16(u32_t bus, u32_t devfn, u32_t reg,u16_t val)__asm__("PciWrite16"); u32_t STDCALL PciWrite32(u32_t bus, u32_t devfn, u32_t reg,u32_t val)__asm__("PciWrite32"); #define pciReadByte(tag, reg) \ PciRead8(PCI_BUS_FROM_TAG(tag),PCI_DFN_FROM_TAG(tag),(reg)) #define pciReadWord(tag, reg) \ PciRead16(PCI_BUS_FROM_TAG(tag),PCI_DFN_FROM_TAG(tag),(reg)) #define pciReadLong(tag, reg) \ PciRead32(PCI_BUS_FROM_TAG(tag),PCI_DFN_FROM_TAG(tag),(reg)) #define pciWriteByte(tag, reg, val) \ PciWrite8(PCI_BUS_FROM_TAG(tag),PCI_DFN_FROM_TAG(tag),(reg),(val)) #define pciWriteWord(tag, reg, val) \ PciWrite16(PCI_BUS_FROM_TAG(tag),PCI_DFN_FROM_TAG(tag),(reg),(val)) #define pciWriteLong(tag, reg, val) \ PciWrite32(PCI_BUS_FROM_TAG(tag),PCI_DFN_FROM_TAG(tag),(reg),(val)) /////////////////////////////////////////////////////////////////////////////// int dbg_open(char *path); int dbgprintf(const char* format, ...); /////////////////////////////////////////////////////////////////////////////// static inline u32_t CreateEvent(kevent_t *ev, u32_t flags, u32_t *uid) { u32_t handle; u32_t euid; __asm__ __volatile__ ( "call *__imp__CreateEvent" :"=a"(handle),"=d"(euid) :"S" (ev), "c"(flags)); __asm__ __volatile__ ("":::"ebx","ecx", "esi", "edi"); if(uid) *uid = euid; return handle; }; static inline int GetScreenSize(void) { int retval; asm("int $0x40" :"=a"(retval) :"a"(61), "b"(1)); return retval; } static inline int GetScreenBpp(void) { int retval; asm("int $0x40" :"=a"(retval) :"a"(61), "b"(2)); return retval; } static inline int GetScreenPitch(void) { int retval; asm("int $0x40" :"=a"(retval) :"a"(61), "b"(3)); return retval; } static inline u32_t GetPgAddr(void *mem) { u32_t retval; __asm__ __volatile__ ( "call *__imp__GetPgAddr \n\t" :"=eax" (retval) :"a" (mem) ); return retval; }; static inline void CommitPages(void *mem, u32_t page, u32_t size) { size = (size+4095) & ~4095; __asm__ __volatile__ ( "call *__imp__CommitPages" ::"a" (page), "b"(mem),"c"(size>>12) :"edx" ); __asm__ __volatile__ ("":::"eax","ebx","ecx"); }; static inline void UnmapPages(void *mem, size_t size) { size = (size+4095) & ~4095; __asm__ __volatile__ ( "call *__imp__UnmapPages" ::"a" (mem), "c"(size>>12) :"edx"); __asm__ __volatile__ ("":::"eax","ecx"); }; static inline void usleep(u32_t delay) { if( !delay ) delay++; delay*= 500; while(delay--) __asm__ __volatile__( "xorl %%eax, %%eax \n\t" "cpuid \n\t" :::"eax","ebx","ecx","edx"); }; static inline void udelay(u32_t delay) { if(!delay) delay++; delay*= 500; while(delay--) { __asm__ __volatile__( "xorl %%eax, %%eax \n\t" "cpuid" :::"eax","ebx","ecx","edx" ); } } static inline void mdelay(u32_t time) { time /= 10; if(!time) time = 1; __asm__ __volatile__ ( "call *__imp__Delay" ::"b" (time)); __asm__ __volatile__ ( "":::"ebx"); }; static inline u32_t __PciApi(int cmd) { u32_t retval; __asm__ __volatile__ ( "call *__imp__PciApi" :"=a" (retval) :"a" (cmd) :"memory"); return retval; }; static inline void* __CreateObject(u32_t pid, size_t size) { void *retval; __asm__ __volatile__ ( "call *__imp__CreateObject \n\t" :"=a" (retval) :"a" (size),"b"(pid) :"esi","edi", "memory"); return retval; } static inline void __DestroyObject(void *obj) { __asm__ __volatile__ ( "call *__imp__DestroyObject \n\t" : :"a" (obj)); __asm__ __volatile__ ( "" :::"eax","ebx","ecx","edx","esi","edi","cc","memory"); } static inline u32_t GetService(const char *name) { u32_t handle; __asm__ __volatile__ ( "pushl %%eax \n\t" "call *__imp__GetService" :"=eax" (handle) :"a" (name) :"ebx","ecx","edx","esi", "edi" ); return handle; }; static inline u32_t safe_cli(void) { u32_t ifl; __asm__ __volatile__ ( "pushf\n\t" "popl %0\n\t" "cli\n" : "=r" (ifl)); return ifl; } static inline void safe_sti(u32_t ifl) { __asm__ __volatile__ ( "pushl %0\n\t" "popf\n" : : "r" (ifl) ); } static inline u32_t get_eflags(void) { u32_t val; asm volatile ( "pushfl\n\t" "popl %0\n" : "=r" (val)); return val; } static inline void __clear (void * dst, unsigned len) { u32_t tmp; __asm__ __volatile__ ( // "xorl %%eax, %%eax \n\t" "cld \n\t" "rep stosb \n" :"=c"(tmp),"=D"(tmp) :"a"(0),"c"(len),"D"(dst)); __asm__ __volatile__ ("":::"ecx","edi"); }; static inline void out8(const u16_t port, const u8_t val) { __asm__ __volatile__ ("outb %1, %0\n" : : "dN"(port), "a"(val)); } static inline void out16(const u16_t port, const u16_t val) { __asm__ __volatile__ ("outw %1, %0\n" : : "dN"(port), "a"(val)); } static inline void out32(const u16_t port, const u32_t val) { __asm__ __volatile__ ("outl %1, %0\n" : : "dN"(port), "a"(val)); } static inline u8_t in8(const u16_t port) { u8_t tmp; __asm__ __volatile__ ("inb %1, %0\n" : "=a"(tmp) : "dN"(port)); return tmp; }; static inline u16_t in16(const u16_t port) { u16_t tmp; __asm__ __volatile__ ("inw %1, %0\n" : "=a"(tmp) : "dN"(port)); return tmp; }; static inline u32_t in32(const u16_t port) { u32_t tmp; __asm__ __volatile__ ("inl %1, %0\n" : "=a"(tmp) : "dN"(port)); return tmp; }; static inline void delay(int time) { __asm__ __volatile__ ( "call *__imp__Delay" ::"b" (time)); __asm__ __volatile__ ( "":::"ebx"); } static inline void change_task(void) { __asm__ __volatile__ ( "call *__imp__ChangeTask"); } static inline void sysSetScreen(int width, int height, int pitch) { __asm__ __volatile__ ( "call *__imp__SetScreen" : :"a" (width-1),"d"(height-1), "c"(pitch) ); __asm__ __volatile__ ("" :::"eax","ecx","edx"); } int drm_order(unsigned long size); static inline void __iomem *ioremap(uint32_t offset, size_t size) { return (void __iomem*) MapIoMem(offset, size, 3); } static inline void iounmap(void *addr) { FreeKernelSpace(addr); } static inline void * pci_alloc_consistent(struct pci_dev *hwdev, size_t size, addr_t *dma_handle) { *dma_handle = AllocPages(size >> 12); return (void*)MapIoMem(*dma_handle, size, PG_SW+PG_NOCACHE); } static inline void __SysMsgBoardStr(char *text) { __asm__ __volatile__( "call *__imp__SysMsgBoardStr" ::"S" (text)); }; #endif