ref: c07ad86666257eb54db8723b330d289b13036d44
dir: /os/mpc/800io.h/
typedef struct BD BD; typedef struct CPMdev CPMdev; typedef struct GTimer GTimer; typedef struct I2Cdev I2Cdev; typedef struct PCMconftab PCMconftab; typedef struct PCMmap PCMmap; typedef struct PCMslot PCMslot; typedef struct Ring Ring; /* * MPC800 series IO structures */ enum { /* interrupt vectors (SIU and CPM) */ VectorPIC= 0, /* level 0 to level 7, assigned by software */ /* vector assignments are determined by the assignments here */ PITlevel= 2, CPIClevel= 4, PCMCIAio= 5, PCMCIAstatus= 6, RTClevel= 7, VectorIRQ= VectorPIC+8, /* IRQ0 to IRQ7 */ VectorCPIC= VectorIRQ+8, /* 32 CPM interrupts: 0 (error) to 0x1F (PC15) */ MaxVector= VectorCPIC+32, }; /* * these are defined to keep the interface compatible with other * architectures, but only BUSUNKNOWN is currently used */ #define MKBUS(t,b,d,f) (((t)<<24)|(((b)&0xFF)<<16)|(((d)&0x1F)<<11)|(((f)&0x07)<<8)) #define BUSFNO(tbdf) (((tbdf)>>8)&0x07) #define BUSDNO(tbdf) (((tbdf)>>11)&0x1F) #define BUSBNO(tbdf) (((tbdf)>>16)&0xFF) #define BUSTYPE(tbdf) ((tbdf)>>24) #define BUSBDF(tbdf) ((tbdf)&0x00FFFF00) #define BUSUNKNOWN (-1) /* * Buffer Descriptors and IO Rings */ struct BD { ushort status; ushort length; ulong addr; }; BD* bdalloc(int); void bdfree(BD*, int); void dumpbd(char*, BD*, int); enum { /* Rx BDs, bits common to all protocols */ BDEmpty= 1<<15, BDWrap= 1<<13, BDInt= 1<<12, BDLast= 1<<11, BDFirst= 1<<10, /* Tx BDs */ BDReady= 1<<15, /* BDWrap, BDInt, BDLast */ }; struct Ring { BD* rdr; /* receive descriptor ring */ void* rrb; /* receive ring buffers */ int rdrx; /* index into rdr */ int nrdre; /* length of rdr */ BD* tdr; /* transmit descriptor ring */ Block** txb; /* corresponding transmit ring buffers */ int tdrh; /* host index into tdr */ int tdri; /* interface index into tdr */ int ntdre; /* length of tdr */ int ntq; /* pending transmit requests */ }; #define NEXT(x, l) (((x)+1)%(l)) #define PREV(x, l) (((x) == 0) ? (l)-1: (x)-1) #define HOWMANY(x, y) (((x)+((y)-1))/(y)) #define ROUNDUP(x, y) (HOWMANY((x), (y))*(y)) int ioringinit(Ring*, int, int, int); /* * CPM */ enum { /* commands */ InitRxTx = 0, InitRx = 1, InitTx = 2, EnterHunt= 3, StopTx= 4, GracefulStopTx = 5, InitIDMA = 5, RestartTx = 6, CloseRxBD = 7, SetGroupAddr = 8, SetTimer = 8, GCITimeout = 9, GCIAbort = 10, StopIDMA = 11, StartDSP = 12, ArmIDMA = 13, InitDSP = 13, USBCmd = 15, /* bgcr */ BaudEnable = 1<<16, /* sicr */ CLK1 = 4, /* SCC1,2 */ CLK2 = 5, CLK3 = 6, CLK4 = 7, CLK5 = CLK1, /* SCC3,4 */ CLK6 = CLK2, CLK7 = CLK3, CLK8 = CLK4, /* logical channel IDs mapped to channel ID by cpm.c */ CPnone = 0, CPscc1, CPscc2, CPscc3, CPscc4, CPsmc1, CPsmc2, CPdsp1, CPdsp2, CPidma1, CPidma2, CPtimer, CPspi, CPi2c, CPmax, }; struct CPMdev { int id; /* CPM channel number */ int irq; /* CPIC interrupt number */ int rbase; /* register offset in IO mem */ int pbase; /* parameter offset in IO mem */ void* regs; /* kernel address of registers */ void* param; /* kernel address of parameters */ }; CPMdev* cpmdev(int); void cpmop(CPMdev*, int, int); void* cpmalloc(int, int); void cpmfree(void*, int); IMM* ioplock(void); void iopunlock(void); int cpmidopen(int, void*); void cpmidclose(int); void sccnmsi(int, int, int); void sccxstop(CPMdev*); void smcnmsi(int, int); void smcxstop(CPMdev*); /* * CPM timers */ enum { /* timer modes */ CaptureRise= 1<<6, CaptureFall= 2<<6, CaptureEdge= 3<<6, TimerToggle= 1<<5, /* toggle TOUTx* pin */ TimerORI= 1<<4, /* Output Reference Interrupt */ TimerRestart= 1<<3, TimerSclk= 1<<1, TimerSclk16= 2<<1, TimerTIN= 3<<1, /* clock by falling edge of TINx */ TimerGate= 1<<0, /* TGATE1* controls timer */ /* timer events */ TimerREF= 1<<1, TimerCAP= 1<<0 }; struct GTimer{ int x; int inuse; int event; ushort* tmr; ushort* trr; ushort* tcr; ushort* tcn; ushort* ter; void* arg; void (*interrupt)(Ureg*, void*, GTimer*); }; GTimer* gtimer(ushort, ushort, void (*)(Ureg*,void*,GTimer*), void*); void gtimerset(GTimer*, ushort, int); void gtimerstart(GTimer*); void gtimerstop(GTimer*); void gtimerfree(GTimer*); /* * the structures below follow hardware/firmware layouts in the 8xx manuals: * mind the data types, offsets and alignment */ /* * basic IO controller parameters (SMC and SCC) */ typedef struct IOCparam IOCparam; struct IOCparam { ushort rbase; ushort tbase; uchar rfcr; uchar tfcr; ushort mrblr; ulong rstate; ulong rptr; ushort rbptr; ushort rcnt; ulong rtmp; ulong tstate; ulong tptr; ushort tbptr; ushort tcnt; ulong ttmp; }; typedef struct SCCparam SCCparam; struct SCCparam { IOCparam; ulong rcrc; ulong tcrc; }; typedef struct SCC SCC; struct SCC { ulong gsmrl; ulong gsmrh; ushort psmr; uchar rsvscc0[2]; ushort todr; ushort dsr; ushort scce; uchar rsvscc1[2]; ushort sccm; uchar rsvscc3; uchar sccs; ushort irmode; ushort irsip; }; typedef struct SMC SMC; struct SMC { uchar pad1[2]; ushort smcmr; uchar pad2[2]; uchar smce; uchar pad3[3]; uchar smcm; uchar pad4[5]; }; typedef struct SPI SPI; struct SPI { ushort spmode; uchar res1[4]; uchar spie; uchar res2[3]; uchar spim; uchar res3[2]; uchar spcom; uchar res4[10]; }; typedef struct USB USB; struct USB { /* 823 only */ uchar usmod; uchar usadr; uchar uscom; uchar rsvu1; ushort usep[4]; uchar rsvu2[4]; ushort usber; uchar rsvu3[2]; ushort usbmr; uchar rsvu4; uchar usbs; uchar rsvu5[8]; }; typedef struct IMM IMM; struct IMM { struct { /* general SIU */ ulong siumcr; ulong sypcr; uchar rsv0[0xE-0x8]; ushort swsr; ulong sipend; ulong simask; ulong siel; uchar sivec; uchar padv[3]; ulong tesr; uchar rsv1[0x30-0x24]; ulong sdcr; uchar rsv2[0x80-0x34]; }; struct { /* PCMCIA */ struct { ulong base; ulong option; } pcmr[8]; uchar rsv3[0xe0-0xc0]; ulong pgcr[2]; ulong pscr; uchar rsv4[0xf0-0xec]; ulong pipr; uchar rsv5[4]; ulong per; uchar rsv6[4]; }; struct { /* MEMC */ struct { ulong base; ulong option; } memc[8]; uchar rsv7a[0x24]; ulong mar; ulong mcr; uchar rsv7b[4]; ulong mamr; ulong mbmr; ushort mstat; ushort mptpr; ulong mdr; uchar rsv7c[0x80]; }; struct { /* system integration timers */ ushort tbscr; uchar rsv8a[2]; ulong tbrefu; ulong tbrefl; uchar rsv8b[0x14]; ushort rtcsc; uchar rsv8c[2]; ulong rtc; ulong rtsec; ulong rtcal; uchar rsv8d[0x10]; ushort piscr; ushort rsv8e; ulong pitc; ulong pitr; uchar rsv8f[0x34]; }; struct { /* 280: clocks and resets */ ulong sccr; ulong plprcr; ulong rsr; uchar rsv9[0x300-0x28c]; }; struct { /* 300: system integration timers keys */ ulong tbscrk; ulong tbrefuk; ulong tbreflk; ulong tbk; uchar rsv10a[0x10]; ulong rtcsck; ulong rtck; ulong rtseck; ulong rtcalk; uchar rsv10b[0x10]; ulong piscrk; ulong pitck; uchar rsv10c[0x38]; }; struct { /* 380: clocks and resets keys */ ulong sccrk; ulong plprcrk; ulong rsrk; uchar rsv11[0x800-0x38C]; }; struct { /* 800: video controller */ ushort vccr; ushort pad11a; uchar vsr; uchar pad11b; uchar vcmr; uchar pad11c; ulong vbcb; ulong pad11d; ulong vfcr0; ulong vfaa0; ulong vfba0; ulong vfcr1; ulong vfaa1; ulong vfba1; uchar rsv11a[0x840-0x828]; }; struct { /* 840: LCD */ ulong lccr; ulong lchcr; ulong lcvcr; ulong rsv11b; ulong lcfaa; ulong lcfba; uchar lcsr; uchar rsv11c[0x860-0x859]; }; struct { /* 860: I2C */ uchar i2mod; uchar rsv12a[3]; uchar i2add; uchar rsv12b[3]; uchar i2brg; uchar rsv12c[3]; uchar i2com; uchar rsv12d[3]; uchar i2cer; uchar rsv12e[3]; uchar i2cmr; uchar rsv12[0x900-0x875]; }; struct { /* 900: DMA */ uchar rsv13[4]; ulong sdar; uchar sdsr; uchar pad1[3]; uchar sdmr; uchar pad2[3]; uchar idsr1; uchar pad3[3]; uchar idmr1; uchar pad4[3]; uchar idsr2; uchar pad5[3]; uchar idmr2; uchar pad6[0x930-0x91D]; }; struct { /* CPM interrupt control */ ushort civr; uchar pad7[0x940-0x932]; ulong cicr; ulong cipr; ulong cimr; ulong cisr; }; struct { /* input/output port */ ushort padir; ushort papar; ushort paodr; ushort padat; uchar pad8[8]; ushort pcdir; ushort pcpar; ushort pcso; ushort pcdat; ushort pcint; uchar pad9[6]; ushort pddir; ushort pdpar; ushort rsv14a; ushort pddat; uchar rsv14[0x980-0x978]; }; struct { /* CPM timers */ ushort tgcr; uchar rsv15a[0x990-0x982]; ushort tmr1; ushort tmr2; ushort trr1; ushort trr2; ushort tcr1; ushort tcr2; ushort tcn1; ushort tcn2; ushort tmr3; ushort tmr4; ushort trr3; ushort trr4; ushort tcr3; ushort tcr4; ushort tcn3; ushort tcn4; ushort ter1; ushort ter2; ushort ter3; ushort ter4; uchar rsv15[0x9C0-0x9B8]; }; struct { /* CPM */ ushort cpcr; uchar res0[2]; ushort rccr; uchar res1; uchar rmds; uchar res2a[4]; ushort rctr1; ushort rctr2; ushort rctr3; ushort rctr4; uchar res2[2]; ushort rter; uchar res3[2]; ushort rtmr; uchar rsv16[0x9F0-0x9DC]; }; union { /* BRG */ struct { ulong brgc1; ulong brgc2; ulong brgc3; ulong brgc4; }; ulong brgc[4]; }; uchar skip0[0xAB2-0xA00]; /* USB, SCC, SMC, SPI: address using cpmdev(CP...)->regs */ struct { /* PIP */ ushort pipc; /* not 823 */ ushort ptpr; /* not 823 */ ulong pbdir; ulong pbpar; uchar pad10[2]; ushort pbodr; ulong pbdat; uchar pad11[0xAE0-0xAC8]; }; struct { /* SI */ ulong simode; uchar sigmr; uchar pad12; uchar sistr; uchar sicmr; uchar pad13[4]; ulong sicr; ulong sirp; uchar pad14[0xB00-0xAF4]; }; ulong vcram[64]; ushort siram[256]; ushort lcdmap[256]; }; /* * PCMCIA structures known by both ../port/cis.c and the pcmcia driver */ /* * Map between physical memory space and PCMCIA card memory space. */ struct PCMmap { ulong ca; /* card address */ ulong cea; /* card end address */ ulong isa; /* local virtual address */ int len; /* length of the ISA area */ int attr; /* attribute memory */ int slotno; /* owning slot */ int ref; }; /* * a PCMCIA configuration entry */ struct PCMconftab { int index; ushort irqs; /* legal irqs */ uchar irqtype; uchar bit16; /* true for 16 bit access */ uchar nlines; struct { ulong start; ulong len; PCMmap* map; } io[16]; int nio; int vcc; int vpp1; int vpp2; uchar memwait; ulong maxwait; ulong readywait; ulong otherwait; }; /* * PCMCIA card slot */ struct PCMslot { // RWlock; // Ref ref; Ref; void* ctlr; /* controller for this slot */ long memlen; /* memory length */ uchar slotno; /* slot number */ uchar slotshift; /* >> register to meet mask; << mask to meet register */ void *regs; /* i/o registers */ void *mem; /* memory */ void *attr; /* attribute memory */ /* status */ uchar occupied; /* card in the slot */ uchar configed; /* card configured */ uchar busy; uchar powered; uchar battery; uchar wrprot; uchar enabled; uchar special; uchar dsize; uchar v3_3; uchar voltage; /* cis info */ int cisread; /* set when the cis has been read */ char verstr[512]; /* version string */ uchar cpresent; /* config registers present */ ulong caddr; /* relative address of config registers */ int nctab; /* number of config table entries */ PCMconftab ctab[8]; PCMconftab *def; /* default conftab */ /* maps are fixed */ PCMmap memmap; PCMmap attrmap; struct { void (*f)(Ureg*, void*); void *arg; } intr; struct { void (*f)(void*, int); void *arg; } notify; }; /* ../port/cis.c */ void pcmcisread(PCMslot*); int pcmcistuple(int, int, int, void*, int); /* devpcmcia.c */ PCMmap* pcmmap(int, ulong, int, int); void pcmunmap(int, PCMmap*); /* * used by ../port/devi2c.c and i2c.c */ struct I2Cdev { int addr; int salen; /* length in bytes of subaddress, if used; 0 otherwise */ int tenbit; /* 10-bit addresses */ }; long i2crecv(I2Cdev*, void*, long, ulong); long i2csend(I2Cdev*, void*, long, ulong); void i2csetup(int);