ref: 606901dc5da9cb09acb5593c5cf74ce1b52ca6e2
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);