ref: e59ffed426f628794d4669f152eff9a6239b99db
dir: /os/js/io.h/
/* * most device registers are memory mapped, but * a few things are accessed using putphys/getphys */ #define SBUS(n) (0x30000000+(n)*0x10000000) #define FRAMEBUF(n) SBUS(n) #define FRAMEBUFID(n) (SBUS(n)+0x000000) #define DISPLAYRAM(n) (SBUS(n)+0x800000) #define CLOCK 0x71D00000 #define CLOCKFREQ 1000000 /* one microsecond increments */ #define SUPERIO_PHYS_PAGE 0x71300000 #define SUPERIO_INDEX_OFFSET 0x398 #define SUPERIO_DATA_OFFSET 0x399 #define SUPERIO_MOUSE_KBD_DATA_PORT 0x60 #define SUPERIO_MOUSE_KBD_CTL_PORT 0x64 #define AUDIO_PHYS_PAGE 0x66666666 #define AUDIO_INDEX_OFFSET 0x830 enum { Mousevec = 13, Kbdvec = 13 }; #define NVR_CKSUM_PHYS 0x71200000 /* non-volatile RAM cksum page */ #define NVR_PHYS 0x71201000 /* non-volatile RAM */ #define DMA 0x78400000 /* SCSI and Ether DMA registers */ #define SCSI 0x78800000 /* NCR53C90 registers */ #define ETHER 0x78C00000 /* RDP, RAP */ #define FLOPPY 0x71400000 #define SYSINTR 0x71E10000 /* system interrupt control registers */ #define TIMECONFIG 0x71D10010 /* timer configuration register (phys) */ #define AUXIO1 0x71900000 #define AUXIO2 0x71910000 typedef struct Sysint Sysint; struct Sysint { ulong pending; ulong mask; ulong maskclr; ulong maskset; ulong target; }; enum { MaskAllIntr = 1<<31, MEIntr = 1<<30, MSIIntr = 1<<29, EMCIntr = 1<<28, VideoIntr = 1<<20, /* supersparc only */ Timer10 = 1<<19, EtherIntr = 1<<16, SCCIntr = 1<<15, KbdIntr = 1<<13, /* bits 7 to 13 are SBUS levels 1 to 7 */ }; #define SBUSINTR(x) (1<<((x)+6)) typedef struct SCCdev SCCdev; struct SCCdev { uchar ptrb; uchar dummy1; uchar datab; uchar dummy2; uchar ptra; uchar dummy3; uchar dataa; uchar dummy4; }; /* * non-volatile ram */ #define NVREAD (4096-32) /* minus RTC */ #define NVWRITE (0x800) /* */ #define IDOFF (4096-8-32) /* * real-time clock */ typedef struct RTCdev RTCdev; struct RTCdev { uchar control; /* read or write the device */ uchar sec; uchar min; uchar hour; uchar wday; uchar mday; uchar mon; uchar year; }; #define RTCOFF 0xFF8 #define RTCREAD (0x40) #define RTCWRITE (0x80) /* * dma */ typedef struct DMAdev DMAdev; struct DMAdev { /* ESP/SCSI DMA */ ulong csr; /* Control/Status */ ulong addr; /* address in 16Mb segment */ ulong count; /* transfer byte count */ ulong diag; /* Ether DMA */ ulong ecsr; /* Control/Status */ ulong ediag; ulong cache; /* cache valid bits */ uchar base; /* base address (16Mb segment) */ }; enum { Int_pend = 0x00000001, /* interrupt pending */ Err_pend = 0x00000002, /* error pending */ Pack_cnt = 0x0000000C, /* pack count (mask) */ Int_en = 0x00000010, /* interrupt enable */ Dma_Flush = 0x00000020, /* flush pack end error */ Drain = 0x00000040, /* drain pack to memory */ Dma_Reset = 0x00000080, /* hardware reset (sticky) */ Write = 0x00000100, /* set for device to memory (!) */ En_dma = 0x00000200, /* enable DMA */ Req_pend = 0x00000400, /* request pending */ Byte_addr = 0x00001800, /* next byte addr (mask) */ En_cnt = 0x00002000, /* enable count */ Tc = 0x00004000, /* terminal count */ Ilacc = 0x00008000, /* which ether chip */ Dev_id = 0xF0000000, /* device ID */ }; /* * NCR53C90 SCSI controller (every 4th location) */ typedef struct SCSIdev SCSIdev; struct SCSIdev { uchar countlo; /* byte count, low bits */ uchar pad1[3]; uchar countmi; /* byte count, middle bits */ uchar pad2[3]; uchar fifo; /* data fifo */ uchar pad3[3]; uchar cmd; /* command byte */ uchar pad4[3]; union { struct { /* read only... */ uchar status; /* status */ uchar pad05[3]; uchar intr; /* interrupt status */ uchar pad06[3]; uchar step; /* sequence step */ uchar pad07[3]; uchar fflags; /* fifo flags */ uchar pad08[3]; uchar config; /* RW: configuration */ uchar pad09[3]; uchar Reserved1; uchar pad0A[3]; uchar Reserved2; uchar pad0B[3]; uchar conf2; /* RW: configuration */ uchar pad0C[3]; uchar conf3; /* RW: configuration */ uchar pad0D[3]; uchar partid; /* unique part id */ uchar pad0E[3]; uchar fbottom; /* RW: fifo bottom */ uchar pad0F[3]; }; struct { /* write only... */ uchar destid; /* destination id */ uchar pad15[3]; uchar timeout; /* during selection */ uchar pad16[3]; uchar syncperiod; /* synchronous xfr period */ uchar pad17[3]; uchar syncoffset; /* synchronous xfr offset */ uchar pad18[3]; uchar RW0; uchar pad19[3]; uchar clkconf; uchar pad1A[3]; uchar test; uchar pad1B[3]; uchar RW1; uchar pad1C[3]; uchar RW2; uchar pad1D[3]; uchar counthi; /* byte count, hi bits */ uchar pad1E[3]; uchar RW3; uchar pad1F[3]; }; }; }; /* * DMA2 ENET */ enum { E_Int_pend = 0x00000001, /* interrupt pending */ E_Err_pend = 0x00000002, /* error pending */ E_draining = 0x0000000C, /* E-cache draining */ E_Int_en = 0x00000010, /* interrupt enable */ E_Invalidate = 0x00000020, /* mark E-cache invalid */ E_Slave_err = 0x00000040, /* slave access size error (sticky) */ E_Reset = 0x00000080, /* invalidate cache & reset interface (sticky) */ E_Drain = 0x00000400, /* force draining of E-cache to memory */ E_Dsbl_wr_drn = 0x00000800, /* disable E-cache drain on descriptor writes from ENET */ E_Dsbl_rd_drn = 0x00001000, /* disable E-cache drain on slave reads to ENET */ E_Ilacc = 0x00008000, /* `modifies ENET DMA cycle' */ E_Dsbl_buf_wr = 0x00010000, /* disable buffering of slave writes to ENET */ E_Dsbl_wr_inval = 0x00020000, /* do not invalidate E-cache on slave writes */ E_Burst_size = 0x000C0000, /* DMA burst size */ E_Loop_test = 0x00200000, /* loop back mode */ E_TP_select = 0x00400000, /* zero for AUI mode */ E_Dev_id = 0xF0000000, /* device ID */ };