#ifndef __ULTRA64_MULTILIBULTRA_H__ #define __ULTRA64_MULTILIBULTRA_H__ #include #include "platform_specific.h" #ifdef __cplusplus #include #endif #ifdef __GNUC__ #define UNUSED __attribute__((unused)) #define ALIGNED(x) __attribute__((aligned(x))) #else #define UNUSED #define ALIGNED(x) #endif typedef int64_t s64; typedef uint64_t u64; typedef int32_t s32; typedef uint32_t u32; typedef int16_t s16; typedef uint16_t u16; typedef int8_t s8; typedef uint8_t u8; #define PTR(x) int32_t #define RDRAM_ARG uint8_t *rdram, #define RDRAM_ARG1 uint8_t *rdram #define PASS_RDRAM rdram, #define PASS_RDRAM1 rdram #define TO_PTR(type, var) ((type*)(&rdram[(uint64_t)var - 0xFFFFFFFF80000000])) #ifdef __cplusplus #define NULLPTR (PTR(void))0 #endif #ifndef NULL #define NULL (PTR(void) 0) #endif #define OS_MESG_NOBLOCK 0 #define OS_MESG_BLOCK 1 typedef s32 OSPri; typedef s32 OSId; typedef u64 OSTime; #define OS_EVENT_SW1 0 /* CPU SW1 interrupt */ #define OS_EVENT_SW2 1 /* CPU SW2 interrupt */ #define OS_EVENT_CART 2 /* Cartridge interrupt: used by rmon */ #define OS_EVENT_COUNTER 3 /* Counter int: used by VI/Timer Mgr */ #define OS_EVENT_SP 4 /* SP task done interrupt */ #define OS_EVENT_SI 5 /* SI (controller) interrupt */ #define OS_EVENT_AI 6 /* AI interrupt */ #define OS_EVENT_VI 7 /* VI interrupt: used by VI/Timer Mgr */ #define OS_EVENT_PI 8 /* PI interrupt: used by PI Manager */ #define OS_EVENT_DP 9 /* DP full sync interrupt */ #define OS_EVENT_CPU_BREAK 10 /* CPU breakpoint: used by rmon */ #define OS_EVENT_SP_BREAK 11 /* SP breakpoint: used by rmon */ #define OS_EVENT_FAULT 12 /* CPU fault event: used by rmon */ #define OS_EVENT_THREADSTATUS 13 /* CPU thread status: used by rmon */ #define OS_EVENT_PRENMI 14 /* Pre NMI interrupt */ #define M_GFXTASK 1 #define M_AUDTASK 2 #define M_VIDTASK 3 ///////////// // Structs // ///////////// typedef struct UltraThreadContext UltraThreadContext; typedef enum { RUNNING, PAUSED, PREEMPTED } OSThreadState; typedef struct OSThread_t { PTR(struct OSThread_t) next; // Next thread in the given queue OSPri priority; uint32_t pad1; uint32_t pad2; uint16_t flags; // These two are swapped to reflect rdram byteswapping uint16_t state; OSId id; int32_t pad3; UltraThreadContext* context; // An actual pointer regardless of platform int32_t sp; } OSThread; typedef u32 OSEvent; typedef PTR(void) OSMesg; typedef struct OSMesgQueue { PTR(OSThread) blocked_on_recv; /* Linked list of threads blocked on receiving from this queue */ PTR(OSThread) blocked_on_send; /* Linked list of threads blocked on sending to this queue */ s32 validCount; /* Number of messages in the queue */ s32 first; /* Index of the first message in the ring buffer */ s32 msgCount; /* Size of message buffer */ PTR(OSMesg) msg; /* Pointer to circular buffer to store messages */ } OSMesgQueue; typedef struct { u32 type; u32 flags; PTR(u64) ucode_boot; u32 ucode_boot_size; PTR(u64) ucode; u32 ucode_size; PTR(u64) ucode_data; u32 ucode_data_size; PTR(u64) dram_stack; u32 dram_stack_size; PTR(u64) output_buff; PTR(u64) output_buff_size; PTR(u64) data_ptr; u32 data_size; PTR(u64) yield_data_ptr; u32 yield_data_size; } OSTask_t; typedef union { OSTask_t t; int64_t force_structure_alignment; } OSTask; /////////////// // Functions // /////////////// #ifdef __cplusplus extern "C" { #endif // __cplusplus void osInitialize(void); typedef void (thread_func_t)(PTR(void)); void osCreateThread(RDRAM_ARG PTR(OSThread) t, OSId id, PTR(thread_func_t) entry, PTR(void) arg, PTR(void) sp, OSPri p); void osStartThread(RDRAM_ARG PTR(OSThread) t); void osStopThread(RDRAM_ARG PTR(OSThread) t); void osDestroyThread(RDRAM_ARG PTR(OSThread) t); void osSetThreadPri(RDRAM_ARG PTR(OSThread) t, OSPri pri); OSPri osGetThreadPri(RDRAM_ARG PTR(OSThread) thread); OSId osGetThreadId(RDRAM_ARG PTR(OSThread) t); s32 MQ_GET_COUNT(RDRAM_ARG PTR(OSMesgQueue)); s32 MQ_IS_EMPTY(RDRAM_ARG PTR(OSMesgQueue)); s32 MQ_IS_FULL(RDRAM_ARG PTR(OSMesgQueue)); void osCreateMesgQueue(RDRAM_ARG PTR(OSMesgQueue), PTR(OSMesg), s32); s32 osSendMesg(RDRAM_ARG PTR(OSMesgQueue), OSMesg, s32); s32 osJamMesg(RDRAM_ARG PTR(OSMesgQueue), OSMesg, s32); s32 osRecvMesg(RDRAM_ARG PTR(OSMesgQueue), PTR(OSMesg), s32); void osSetEventMesg(RDRAM_ARG OSEvent, PTR(OSMesgQueue), OSMesg); void osViSetEvent(RDRAM_ARG PTR(OSMesgQueue), OSMesg, u32); void osViSwapBuffer(RDRAM_ARG PTR(void) frameBufPtr); PTR(void) osViGetNextFramebuffer(); PTR(void) osViGetCurrentFramebuffer(); u32 osGetCount(); OSTime osGetTime(); int osSetTimer(RDRAM_ARG PTR(OSTimer) timer, OSTime countdown, OSTime interval, PTR(OSMesgQueue) mq, OSMesg msg); int osStopTimer(RDRAM_ARG PTR(OSTimer) timer); u32 osVirtualToPhysical(PTR(void) addr); #ifdef __cplusplus } // extern "C" #endif #endif