/*
cardbus and pcmcia (grmph) support.
*/
#include "u.h"
#include "lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "error.h"
#include "io.h"
extern int pciscan(int, Pcidev **);
extern ulong pcibarsize(Pcidev *, int);
int (*_pcmspecial)(char *, ISAConf *);
void (*_pcmspecialclose)(int);
int
pcmspecial(char *idstr, ISAConf *isa)
{
return (_pcmspecial != nil)? _pcmspecial(idstr, isa): -1;
}
void
pcmspecialclose(int a)
{
if (_pcmspecialclose != nil)
_pcmspecialclose(a);
}
static ulong
ioreserve(ulong, int size, int align, char *)
{
static ulong isaend = 0x400; /*0xfd00*/;
ulong ioaddr;
if (align)
isaend = ((isaend + align - 1) / align) * align;
ioaddr = isaend;
isaend += size;
return ioaddr;
}
#define MAP(x,o) (Rmap + (x)*0x8 + o)
enum {
TI_vid = 0x104c,
TI_1131_did = 0xAC15,
TI_1250_did = 0xAC16,
TI_1450_did = 0xAC1B,
TI_1251A_did = 0xAC1D,
TI_1420_did = 0xAC51,
Ricoh_vid = 0x1180,
Ricoh_475_did = 0x0475,
Ricoh_476_did = 0x0476,
Ricoh_478_did = 0x0478,
O2_vid = 0x1217,
O2_OZ711M3_did = 0x7134,
Nslots = 4, /* Maximum number of CardBus slots to use */
K = 1024,
M = K * K,
LegacyAddr = 0x3e0,
NUMEVENTS = 10,
TI1131xSC = 0x80, // system control
TI122X_SC_INTRTIE = 1 << 29,
TI12xxIM = 0x8c, //
TI1131xCC = 0x91, // card control
TI113X_CC_RIENB = 1 << 7,
TI113X_CC_ZVENABLE = 1 << 6,
TI113X_CC_PCI_IRQ_ENA = 1 << 5,
TI113X_CC_PCI_IREQ = 1 << 4,
TI113X_CC_PCI_CSC = 1 << 3,
TI113X_CC_SPKROUTEN = 1 << 1,
TI113X_CC_IFG = 1 << 0,
TI1131xDC = 0x92, // device control
};
typedef struct Variant Variant;
struct Variant {
ushort vid;
ushort did;
char *name;
};
static Variant variant[] = {
{ Ricoh_vid, Ricoh_475_did, "Ricoh 475 PCI/Cardbus bridge", },
{ Ricoh_vid, Ricoh_476_did, "Ricoh 476 PCI/Cardbus bridge", },
{ Ricoh_vid, Ricoh_478_did, "Ricoh 478 PCI/Cardbus bridge", },
{ TI_vid, TI_1131_did, "TI PCI-1131 Cardbus Controller", },
{ TI_vid, TI_1250_did, "TI PCI-1250 Cardbus Controller", },
{ TI_vid, TI_1450_did, "TI PCI-1450 Cardbus Controller", },
{ TI_vid, TI_1251A_did, "TI PCI-1251A Cardbus Controller", },
{ TI_vid, TI_1420_did, "TI PCI-1420 Cardbus Controller", },
{ O2_vid, O2_OZ711M3_did, "O2Micro OZ711M3 MemoryCardBus", },
};
/* Cardbus registers */
enum {
SocketEvent = 0,
SE_CCD = 3 << 1,
SE_POWER = 1 << 3,
SocketMask = 1,
SocketState = 2,
SS_CCD = 3 << 1,
SS_POWER = 1 << 3,
SS_PC16 = 1 << 4,
SS_CBC = 1 << 5,
SS_NOTCARD = 1 << 7,
SS_BADVCC = 1 << 9,
SS_5V = 1 << 10,
SS_3V = 1 << 11,
SocketForce = 3,
SocketControl = 4,
SC_5V = 0x22,
SC_3V = 0x33,
};
enum {
PciPCR_IO = 1 << 0,
PciPCR_MEM = 1 << 1,
PciPCR_Master = 1 << 2,
PciPMC = 0xa4,
Nbars = 6,
Ncmd = 10,
CBIRQ = 9,
PC16,
PC32,
};
enum {
Ti82365,
Tpd6710,
Tpd6720,
Tvg46x,
};
/*
* Intel 82365SL PCIC controller for the PCMCIA or
* Cirrus Logic PD6710/PD6720 which is mostly register compatible
*/
enum
{
/*
* registers indices
*/
Rid= 0x0, /* identification and revision */
Ris= 0x1, /* interface status */
Rpc= 0x2, /* power control */
Foutena= (1<<7), /* output enable */
Fautopower= (1<<5), /* automatic power switching */
Fcardena= (1<<4), /* PC card enable */
Rigc= 0x3, /* interrupt and general control */
Fiocard= (1<<5), /* I/O card (vs memory) */
Fnotreset= (1<<6), /* reset if not set */
FSMIena= (1<<4), /* enable change interrupt on SMI */
Rcsc= 0x4, /* card status change */
Rcscic= 0x5, /* card status change interrupt config */
Fchangeena= (1<<3), /* card changed */
Fbwarnena= (1<<1), /* card battery warning */
Fbdeadena= (1<<0), /* card battery dead */
Rwe= 0x6, /* address window enable */
Fmem16= (1<<5), /* use A23-A12 to decode address */
Rio= 0x7, /* I/O control */
Fwidth16= (1<<0), /* 16 bit data width */
Fiocs16= (1<<1), /* IOCS16 determines data width */
Fzerows= (1<<2), /* zero wait state */
Ftiming= (1<<3), /* timing register to use */
Riobtm0lo= 0x8, /* I/O address 0 start low byte */
Riobtm0hi= 0x9, /* I/O address 0 start high byte */
Riotop0lo= 0xa, /* I/O address 0 stop low byte */
Riotop0hi= 0xb, /* I/O address 0 stop high byte */
Riobtm1lo= 0xc, /* I/O address 1 start low byte */
Riobtm1hi= 0xd, /* I/O address 1 start high byte */
Riotop1lo= 0xe, /* I/O address 1 stop low byte */
Riotop1hi= 0xf, /* I/O address 1 stop high byte */
Rmap= 0x10, /* map 0 */
/*
* CL-PD67xx extension registers
*/
Rmisc1= 0x16, /* misc control 1 */
F5Vdetect= (1<<0),
Fvcc3V= (1<<1),
Fpmint= (1<<2),
Fpsirq= (1<<3),
Fspeaker= (1<<4),
Finpack= (1<<7),
Rfifo= 0x17, /* fifo control */
Fflush= (1<<7), /* flush fifo */
Rmisc2= 0x1E, /* misc control 2 */
Flowpow= (1<<1), /* low power mode */
Rchipinfo= 0x1F, /* chip information */
Ratactl= 0x26, /* ATA control */
/*
* offsets into the system memory address maps
*/
Mbtmlo= 0x0, /* System mem addr mapping start low byte */
Mbtmhi= 0x1, /* System mem addr mapping start high byte */
F16bit= (1<<7), /* 16-bit wide data path */
Mtoplo= 0x2, /* System mem addr mapping stop low byte */
Mtophi= 0x3, /* System mem addr mapping stop high byte */
Ftimer1= (1<<6), /* timer set 1 */
Mofflo= 0x4, /* Card memory offset address low byte */
Moffhi= 0x5, /* Card memory offset address high byte */
Fregactive= (1<<6), /* attribute memory */
/*
* configuration registers - they start at an offset in attribute
* memory found in the CIS.
*/
Rconfig= 0,
Creset= (1<<7), /* reset device */
Clevel= (1<<6), /* level sensitive interrupt line */
};
/*
* read and crack the card information structure enough to set
* important parameters like power
*/
/* cis memory walking */
typedef struct Cisdat Cisdat;
struct Cisdat {
uchar *cisbase;
int cispos;
int cisskip;
int cislen;
};
typedef struct Pcminfo Pcminfo;
struct Pcminfo {
char verstr[512]; /* Version string */
PCMmap mmap[4]; /* maps, last is always for the kernel */
ulong conf_addr; /* Config address */
uchar conf_present; /* Config register present */
int nctab; /* In use configuration tables */
PCMconftab ctab[8]; /* Configuration tables */
PCMconftab *defctab; /* Default conftab */
int port; /* Actual port usage */
int irq; /* Actual IRQ usage */
};
typedef struct Cardbus Cardbus;
struct Cardbus {
Lock;
Variant *variant; /* Which CardBus chipset */
Pcidev *pci; /* The bridge itself */
ulong *regs; /* Cardbus registers */
int ltype; /* Legacy type */
int lindex; /* Legacy port index address */
int ldata; /* Legacy port data address */
int lbase; /* Base register for this socket */
int state; /* Current state of card */
int type; /* Type of card */
Pcminfo linfo; /* PCMCIA slot info */
int special; /* card is allocated to a driver */
int refs; /* Number of refs to slot */
Lock refslock; /* inc/dev ref lock */
};
enum {
Mshift= 12,
Mgran= (1<<Mshift), /* granularity of maps */
Mmask= ~(Mgran-1), /* mask for address bits important to the chip */
};
static Cardbus cbslots[Nslots];
static int nslots;
static ulong exponent[8] = {
1, 10, 100, 1000, 10000, 100000, 1000000, 10000000,
};
static ulong vmant[16] = {
10, 12, 13, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 70, 80, 90,
};
static ulong mantissa[16] = {
0, 10, 12, 13, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 70, 80,
};
static void cbint(Ureg *, void *);
static int powerup(Cardbus *);
static void configure(Cardbus *);
static void managecard(Cardbus *);
static void cardmanager(void *);
static void eject(Cardbus *);
static void interrupt(Ureg *, void *);
static void powerdown(Cardbus *cb);
static void unconfigure(Cardbus *cb);
static void i82365probe(Cardbus *cb, int lindex, int ldata);
static void i82365configure(Cardbus *cb);
static PCMmap *isamap(Cardbus *cb, ulong offset, int len, int attr);
static void isaunmap(PCMmap* m);
static uchar rdreg(Cardbus *cb, int index);
static void wrreg(Cardbus *cb, int index, uchar val);
static int readc(Cisdat *cis, uchar *x);
static void tvers1(Cardbus *cb, Cisdat *cis, int );
static void tcfig(Cardbus *cb, Cisdat *cis, int );
static void tentry(Cardbus *cb, Cisdat *cis, int );
static int vcode(int volt);
static int pccard_pcmspecial(char *idstr, ISAConf *isa);
static void pccard_pcmspecialclose(int slotno);
enum {
CardDetected,
CardPowered,
CardEjected,
CardConfigured,
};
static char *messages[] = {
[CardDetected] "CardDetected",
[CardPowered] "CardPowered",
[CardEjected] "CardEjected",
[CardConfigured] "CardConfigured",
};
enum {
SlotEmpty,
SlotFull,
SlotPowered,
SlotConfigured,
};
static char *states[] = {
[SlotEmpty] "SlotEmpty",
[SlotFull] "SlotFull",
[SlotPowered] "SlotPowered",
[SlotConfigured] "SlotConfigured",
};
static void
engine(Cardbus *cb, int message)
{
// print("engine(%d): %s(%s)\n",
// (int)(cb - cbslots), states[cb->state], messages[message]);
switch (cb->state) {
case SlotEmpty:
switch (message) {
case CardDetected:
cb->state = SlotFull;
powerup(cb);
break;
case CardEjected:
break;
default:
//print("#Y%d: Invalid message %s in SlotEmpty state\n",
// (int)(cb - cbslots), messages[message]);
break;
}
break;
case SlotFull:
switch (message) {
case CardPowered:
cb->state = SlotPowered;
configure(cb);
break;
case CardEjected:
cb->state = SlotEmpty;
powerdown(cb);
break;
default:
//print("#Y%d: Invalid message %s in SlotFull state\n",
// (int)(cb - cbslots), messages[message]);
break;
}
break;
case SlotPowered:
switch (message) {
case CardConfigured:
cb->state = SlotConfigured;
break;
case CardEjected:
cb->state = SlotEmpty;
unconfigure(cb);
powerdown(cb);
break;
default:
print("#Y%d: Invalid message %s in SlotPowered state\n",
(int)(cb - cbslots), messages[message]);
break;
}
break;
case SlotConfigured:
switch (message) {
case CardEjected:
cb->state = SlotEmpty;
unconfigure(cb);
powerdown(cb);
break;
default:
//print("#Y%d: Invalid message %s in SlotConfigured state\n",
// (int)(cb - cbslots), messages[message]);
break;
}
break;
}
}
void
devpccardlink(void)
{
static int initialized;
Pcidev *pci;
int i;
char *p;
if (initialized)
return;
initialized = 1;
if((p=getconf("pccard0")) && strncmp(p, "disabled", 8)==0)
return;
if(_pcmspecial)
return;
/* Allocate legacy space */
if (ioalloc(LegacyAddr, 2, 0, "i82365.0") < 0)
print("#Y: WARNING: Cannot allocate legacy ports\n");
/* Find all CardBus controllers */
pci = nil;
while ((pci = pcimatch(pci, 0, 0)) != nil) {
ulong baddr;
uchar pin;
Cardbus *cb;
int slot;
if(pci->ccrb != 6 || pci->ccru != 7)
continue;
for (i = 0; i != nelem(variant); i++)
if (pci->vid == variant[i].vid && pci->did == variant[i].did)
break;
if (i == nelem(variant))
continue;
/* initialize this slot */
slot = nslots++;
cb = &cbslots[slot];
cb->pci = pci;
cb->variant = &variant[i];
// Set up PCI bus numbers if needed.
if (pcicfgr8(pci, PciSBN) == 0) {
static int busbase = 0x20;
pcicfgw8(pci, PciSBN, busbase);
pcicfgw8(pci, PciUBN, busbase + 2);
busbase += 3;
}
// Patch up intl if needed.
if ((pin = pcicfgr8(pci, PciINTP)) != 0 &&
(pci->intl == 0xff || pci->intl == 0)) {
pci->intl = pciipin(nil, pin);
pcicfgw8(pci, PciINTL, pci->intl);
if (pci->intl == 0xff || pci->intl == 0)
print("#Y%d: No interrupt?\n", (int)(cb - cbslots));
}
// Don't you love standards!
if (pci->vid == TI_vid) {
if (pci->did <= TI_1131_did) {
uchar cc;
cc = pcicfgr8(pci, TI1131xCC);
cc &= ~(TI113X_CC_PCI_IRQ_ENA |
TI113X_CC_PCI_IREQ |
TI113X_CC_PCI_CSC |
TI113X_CC_ZVENABLE);
cc |= TI113X_CC_PCI_IRQ_ENA |
TI113X_CC_PCI_IREQ |
TI113X_CC_SPKROUTEN;
pcicfgw8(pci, TI1131xCC, cc);
// PCI interrupts only
pcicfgw8(pci, TI1131xDC,
pcicfgr8(pci, TI1131xDC) & ~6);
// CSC ints to PCI bus.
wrreg(cb, Rigc, rdreg(cb, Rigc) | 0x10);
}
else if (pci->did == TI_1250_did) {
print("No support yet for the TI_1250_did, prod pb\n");
}
else if (pci->did == TI_1420_did) {
// Disable Vcc protection
pcicfgw32(cb->pci, 0x80,
pcicfgr32(cb->pci, 0x80) | (1 << 21));
}
pcicfgw16(cb->pci, PciPMC, pcicfgr16(cb->pci, PciPMC) & ~3);
}
if ((baddr = pcicfgr32(cb->pci, PciBAR0)) == 0) {
int size = (pci->did == Ricoh_478_did)? 0x10000: 0x1000;
baddr = upamalloc(baddr, size, size);
pcicfgw32(cb->pci, PciBAR0, baddr);
cb->regs = (ulong *)KADDR(baddr);
}
else
cb->regs = (ulong *)KADDR(upamalloc(baddr, 4096, 0));
cb->state = SlotEmpty;
/* Don't really know what to do with this... */
i82365probe(cb, LegacyAddr, LegacyAddr + 1);
print("#Y%ld: %s, %.8ulX intl %d\n", cb - cbslots,
variant[i].name, baddr, pci->intl);
}
if (nslots == 0)
return;
_pcmspecial = pccard_pcmspecial;
_pcmspecialclose = pccard_pcmspecialclose;
for (i = 0; i != nslots; i++) {
Cardbus *cb = &cbslots[i];
if ((cb->regs[SocketState] & SE_CCD) == 0)
engine(cb, CardDetected);
}
delay(500); /* Allow time for power up */
for (i = 0; i != nslots; i++) {
Cardbus *cb = &cbslots[i];
if (cb->regs[SocketState] & SE_POWER)
engine(cb, CardPowered);
/* Ack and enable interrupts on all events */
//cb->regs[SocketEvent] = cb->regs[SocketEvent];
//cb->regs[SocketMask] |= 0xF;
//wrreg(cb, Rcscic, 0xC);
}
}
static int
powerup(Cardbus *cb)
{
ulong state;
ushort bcr;
state = cb->regs[SocketState];
if (state & SS_PC16) {
// print("#Y%ld: Probed a PC16 card, powering up card\n", cb - cbslots);
cb->type = PC16;
memset(&cb->linfo, 0, sizeof(Pcminfo));
/* power up and unreset, wait's are empirical (???) */
wrreg(cb, Rpc, Fautopower|Foutena|Fcardena);
delay(300);
wrreg(cb, Rigc, 0);
delay(100);
wrreg(cb, Rigc, Fnotreset);
delay(500);
return 1;
}
if (state & SS_CCD)
return 0;
if (state & SS_NOTCARD) {
print("#Y%ld: No card inserted\n", cb - cbslots);
return 0;
}
if (state & SS_BADVCC) {
print("#Y%ld: Bad VCC request to card, powering down card!\n",
cb - cbslots);
cb->regs[SocketControl] = 0;
return 0;
}
if ((state & SS_3V) == 0 && (state & SS_5V) == 0) {
print("#Y%ld: Unsupported voltage, powering down card!\n",
cb - cbslots);
cb->regs[SocketControl] = 0;
return 0;
}
//print("#Y%ld: card %spowered at %d volt\n", cb - cbslots,
// (state & SS_POWER)? "": "not ",
// (state & SS_3V)? 3: (state & SS_5V)? 5: -1);
/* Power up the card
* and make sure the secondary bus is not in reset.
*/
cb->regs[SocketControl] = (state & SS_5V)? SC_5V: SC_3V;
delay(50);
bcr = pcicfgr16(cb->pci, PciBCR);
bcr &= ~0x40;
pcicfgw16(cb->pci, PciBCR, bcr);
delay(100);
cb->type = PC32;
return 1;
}
static void
powerdown(Cardbus *cb)
{
ushort bcr;
if (cb->type == PC16) {
wrreg(cb, Rpc, 0); /* turn off card power */
wrreg(cb, Rwe, 0); /* no windows */
cb->type = -1;
return;
}
bcr = pcicfgr16(cb->pci, PciBCR);
bcr |= 0x40;
pcicfgw16(cb->pci, PciBCR, bcr);
cb->regs[SocketControl] = 0;
cb->type = -1;
}
static void
configure(Cardbus *cb)
{
Pcidev *pci;
ulong size, bar;
int i, ioindex, memindex, r;
//print("configuring slot %d (%s)\n", (int)(cb - cbslots), states[cb->state]);
if (cb->state == SlotConfigured)
return;
engine(cb, CardConfigured);
delay(50); /* Emperically established */
if (cb->type == PC16) {
i82365configure(cb);
return;
}
/* Scan the CardBus for new PCI devices */
pciscan(pcicfgr8(cb->pci, PciSBN), &cb->pci->bridge);
pci = cb->pci->bridge;
while (pci) {
r = pcicfgr16(pci, PciPCR);
r &= ~(PciPCR_IO|PciPCR_MEM);
pcicfgw16(pci, PciPCR, r);
/*
* Treat the found device as an ordinary PCI card.
* It seems that the CIS is not always present in
* CardBus cards.
* XXX, need to support multifunction cards
*/
memindex = ioindex = 0;
for (i = 0; i != Nbars; i++) {
if (pci->mem[i].size == 0)
continue;
if (pci->mem[i].bar & 1) {
// Allocate I/O space
if (ioindex > 1) {
print("#Y%ld: WARNING: Can only configure 2 I/O slots\n", cb - cbslots);
continue;
}
bar = ioreserve(-1, pci->mem[i].size, 0, "cardbus");
pci->mem[i].bar = bar | 1;
pcicfgw32(pci, PciBAR0 + i * sizeof(ulong),
pci->mem[i].bar);
pcicfgw16(cb->pci, PciCBIBR0 + ioindex * 8, bar);
pcicfgw16(cb->pci, PciCBILR0 + ioindex * 8,
bar + pci->mem[i].size - 1);
//print("ioindex[%d] %.8uX (%d)\n",
// ioindex, bar, pci->mem[i].size);
ioindex++;
continue;
}
// Allocating memory space
if (memindex > 1) {
print("#Y%ld: WARNING: Can only configure 2 memory slots\n", cb - cbslots);
continue;
}
bar = upamalloc(0, pci->mem[i].size, BY2PG);
pci->mem[i].bar = bar | (pci->mem[i].bar & 0x80);
pcicfgw32(pci, PciBAR0 + i * sizeof(ulong), pci->mem[i].bar);
pcicfgw32(cb->pci, PciCBMBR0 + memindex * 8, bar);
pcicfgw32(cb->pci, PciCBMLR0 + memindex * 8,
bar + pci->mem[i].size - 1);
if (pci->mem[i].bar & 0x80) {
/* Enable prefetch */
r = pcicfgr16(cb->pci, PciBCR);
r |= 1 << (8 + memindex);
pcicfgw16(cb->pci, PciBCR, r);
}
//print("memindex[%d] %.8uX (%d)\n",
// memindex, bar, pci->mem[i].size);
memindex++;
}
if ((size = pcibarsize(pci, PciEBAR0)) > 0) {
if (memindex > 1)
print("#Y%ld: WARNING: Too many memory spaces, not mapping ROM space\n",
cb - cbslots);
else {
pci->rom.bar = upamalloc(0, size, BY2PG);
pci->rom.size = size;
pcicfgw32(pci, PciEBAR0, pci->rom.bar);
pcicfgw32(cb->pci, PciCBMBR0 + memindex * 8,
pci->rom.bar);
pcicfgw32(cb->pci, PciCBMLR0 + memindex * 8,
pci->rom.bar + pci->rom.size - 1);
}
}
/* Set the basic PCI registers for the device */
pci->pcr = pcicfgr16(pci, PciPCR);
pci->pcr |= PciPCR_IO|PciPCR_MEM|PciPCR_Master;
pci->cls = 8;
pci->ltr = 64;
pcicfgw16(pci, PciPCR, pci->pcr);
pcicfgw8(pci, PciCLS, pci->cls);
pcicfgw8(pci, PciLTR, pci->ltr);
if (pcicfgr8(pci, PciINTP)) {
pci->intl = pcicfgr8(cb->pci, PciINTL);
pcicfgw8(pci, PciINTL, pci->intl);
/* Route interrupts to INTA#/B# */
pcicfgw16(cb->pci, PciBCR,
pcicfgr16(cb->pci, PciBCR) & ~(1 << 7));
}
pci = pci->list;
}
}
static void
unconfigure(Cardbus *cb)
{
Pcidev *pci;
int i, ioindex, memindex, r;
if (cb->type == PC16) {
print("#Y%d: Don't know how to unconfigure a PC16 card\n",
(int)(cb - cbslots));
memset(&cb->linfo, 0, sizeof(Pcminfo));
return;
}
pci = cb->pci->bridge;
if (pci == nil)
return; /* Not configured */
cb->pci->bridge = nil;
memindex = ioindex = 0;
while (pci) {
Pcidev *_pci;
for (i = 0; i != Nbars; i++) {
if (pci->mem[i].size == 0)
continue;
if (pci->mem[i].bar & 1) {
iofree(pci->mem[i].bar & ~1);
pcicfgw16(cb->pci, PciCBIBR0 + ioindex * 8,
(ushort)-1);
pcicfgw16(cb->pci, PciCBILR0 + ioindex * 8, 0);
ioindex++;
continue;
}
upafree(pci->mem[i].bar & ~0xF, pci->mem[i].size);
pcicfgw32(cb->pci, PciCBMBR0 + memindex * 8, (ulong)-1);
pcicfgw32(cb->pci, PciCBMLR0 + memindex * 8, 0);
r = pcicfgr16(cb->pci, PciBCR);
r &= ~(1 << (8 + memindex));
pcicfgw16(cb->pci, PciBCR, r);
memindex++;
}
if (pci->rom.bar && memindex < 2) {
upafree(pci->rom.bar & ~0xF, pci->rom.size);
pcicfgw32(cb->pci, PciCBMBR0 + memindex * 8, (ulong)-1);
pcicfgw32(cb->pci, PciCBMLR0 + memindex * 8, 0);
memindex++;
}
_pci = pci->list;
free(_pci);
pci = _pci;
}
}
static void
i82365configure(Cardbus *cb)
{
int this;
Cisdat cis;
PCMmap *m;
uchar type, link;
/*
* Read all tuples in attribute space.
*/
m = isamap(cb, 0, 0, 1);
if(m == 0)
return;
cis.cisbase = KADDR(m->isa);
cis.cispos = 0;
cis.cisskip = 2;
cis.cislen = m->len;
/* loop through all the tuples */
for(;;){
this = cis.cispos;
if(readc(&cis, &type) != 1)
break;
if(type == 0xFF)
break;
if(readc(&cis, &link) != 1)
break;
switch(type){
default:
break;
case 0x15:
tvers1(cb, &cis, type);
break;
case 0x1A:
tcfig(cb, &cis, type);
break;
case 0x1B:
tentry(cb, &cis, type);
break;
}
if(link == 0xFF)
break;
cis.cispos = this + (2+link);
}
isaunmap(m);
}
/*
* look for a card whose version contains 'idstr'
*/
static int
pccard_pcmspecial(char *idstr, ISAConf *isa)
{
int i, irq;
PCMconftab *ct, *et;
Pcminfo *pi;
Cardbus *cb;
uchar x, we, *p;
cb = nil;
for (i = 0; i != nslots; i++) {
cb = &cbslots[i];
lock(cb);
if (cb->state == SlotConfigured &&
cb->type == PC16 &&
!cb->special &&
strstr(cb->linfo.verstr, idstr))
break;
unlock(cb);
}
if (i == nslots) {
// print("#Y: %s not found\n", idstr);
return -1;
}
pi = &cb->linfo;
/*
* configure the PCMslot for IO. We assume very heavily that we can read
* configuration info from the CIS. If not, we won't set up correctly.
*/
irq = isa->irq;
if(irq == 2)
irq = 9;
et = &pi->ctab[pi->nctab];
ct = nil;
for(i = 0; i < isa->nopt; i++){
int index;
char *cp;
if(strncmp(isa->opt[i], "index=", 6))
continue;
index = strtol(&isa->opt[i][6], &cp, 0);
if(cp == &isa->opt[i][6] || index >= pi->nctab) {
unlock(cb);
print("#Y%d: Cannot find index %d in conf table\n",
(int)(cb - cbslots), index);
return -1;
}
ct = &pi->ctab[index];
}
if(ct == nil){
PCMconftab *t;
/* assume default is right */
if(pi->defctab)
ct = pi->defctab;
else
ct = pi->ctab;
/* try for best match */
if(ct->nio == 0
|| ct->io[0].start != isa->port || ((1<<irq) & ct->irqs) == 0){
for(t = pi->ctab; t < et; t++)
if(t->nio
&& t->io[0].start == isa->port
&& ((1<<irq) & t->irqs)){
ct = t;
break;
}
}
if(ct->nio == 0 || ((1<<irq) & ct->irqs) == 0){
for(t = pi->ctab; t < et; t++)
if(t->nio && ((1<<irq) & t->irqs)){
ct = t;
break;
}
}
if(ct->nio == 0){
for(t = pi->ctab; t < et; t++)
if(t->nio){
ct = t;
break;
}
}
}
if(ct == et || ct->nio == 0) {
unlock(cb);
print("#Y%d: No configuration?\n", (int)(cb - cbslots));
return -1;
}
if(isa->port == 0 && ct->io[0].start == 0) {
unlock(cb);
print("#Y%d: No part or start address\n", (int)(cb - cbslots));
return -1;
}
cb->special = 1; /* taken */
/* route interrupts */
isa->irq = irq;
wrreg(cb, Rigc, irq | Fnotreset | Fiocard);
/* set power and enable device */
x = vcode(ct->vpp1);
wrreg(cb, Rpc, x|Fautopower|Foutena|Fcardena);
/* 16-bit data path */
if(ct->bit16)
x = Ftiming|Fiocs16|Fwidth16;
else
x = Ftiming;
if(ct->nio == 2 && ct->io[1].start)
x |= x<<4;
wrreg(cb, Rio, x);
/*
* enable io port map 0
* the 'top' register value includes the last valid address
*/
if(isa->port == 0)
isa->port = ct->io[0].start;
we = rdreg(cb, Rwe);
wrreg(cb, Riobtm0lo, isa->port);
wrreg(cb, Riobtm0hi, isa->port>>8);
i = isa->port+ct->io[0].len-1;
wrreg(cb, Riotop0lo, i);
wrreg(cb, Riotop0hi, i>>8);
we |= 1<<6;
if(ct->nio == 2 && ct->io[1].start){
wrreg(cb, Riobtm1lo, ct->io[1].start);
wrreg(cb, Riobtm1hi, ct->io[1].start>>8);
i = ct->io[1].start+ct->io[1].len-1;
wrreg(cb, Riotop1lo, i);
wrreg(cb, Riotop1hi, i>>8);
we |= 1<<7;
}
wrreg(cb, Rwe, we);
/* only touch Rconfig if it is present */
if(pi->conf_present & (1<<Rconfig)){
PCMmap *m;
/* Reset adapter */
m = isamap(cb, pi->conf_addr + Rconfig, 1, 1);
p = KADDR(m->isa + pi->conf_addr + Rconfig - m->ca);
/* set configuration and interrupt type */
x = ct->index;
if((ct->irqtype & 0x20)/* && ((ct->irqtype & 0x40)==0 || isa->irq>7)*/)
x |= Clevel;
*p = x;
delay(5);
isaunmap(m);
}
pi->port = isa->port;
pi->irq = isa->irq;
unlock(cb);
print("#Y%d: %s irq %ld, port %lX\n", (int)(cb - cbslots), pi->verstr, isa->irq, isa->port);
return (int)(cb - cbslots);
}
static void
pccard_pcmspecialclose(int slotno)
{
Cardbus *cb = &cbslots[slotno];
wrreg(cb, Rwe, 0); /* no windows */
cb->special = 0;
}
static int
xcistuple(int slotno, int tuple, int subtuple, void *v, int nv, int attr)
{
PCMmap *m;
Cisdat cis;
int i, l;
uchar *p;
uchar type, link, n, c;
int this, subtype;
Cardbus *cb = &cbslots[slotno];
m = isamap(cb, 0, 0, attr);
if(m == 0)
return -1;
cis.cisbase = KADDR(m->isa);
cis.cispos = 0;
cis.cisskip = attr ? 2 : 1;
cis.cislen = m->len;
/* loop through all the tuples */
for(i = 0; i < 1000; i++){
this = cis.cispos;
if(readc(&cis, &type) != 1)
break;
if(type == 0xFF)
break;
if(readc(&cis, &link) != 1)
break;
if(link == 0xFF)
break;
n = link;
if (link > 1 && subtuple != -1) {
if (readc(&cis, &c) != 1)
break;
subtype = c;
n--;
} else
subtype = -1;
if(type == tuple && subtype == subtuple) {
p = v;
for(l=0; l<nv && l<n; l++)
if(readc(&cis, p++) != 1)
break;
isaunmap(m);
return nv;
}
cis.cispos = this + (2+link);
}
isaunmap(m);
return -1;
}
static PCMmap *
isamap(Cardbus *cb, ulong offset, int len, int attr)
{
uchar we, bit;
PCMmap *m, *nm;
Pcminfo *pi;
int i;
ulong e;
pi = &cb->linfo;
/* convert offset to granularity */
if(len <= 0)
len = 1;
e = ROUND(offset+len, Mgran);
offset &= Mmask;
len = e - offset;
/* look for a map that covers the right area */
we = rdreg(cb, Rwe);
bit = 1;
nm = 0;
for(m = pi->mmap; m < &pi->mmap[nelem(pi->mmap)]; m++){
if((we & bit))
if(m->attr == attr)
if(offset >= m->ca && e <= m->cea){
m->ref++;
return m;
}
bit <<= 1;
if(nm == 0 && m->ref == 0)
nm = m;
}
m = nm;
if(m == 0)
return 0;
/* if isa space isn't big enough, free it and get more */
if(m->len < len){
if(m->isa){
umbfree(m->isa, m->len);
m->len = 0;
}
m->isa = PADDR(umbmalloc(0, len, Mgran));
if(m->isa == 0){
print("isamap: out of isa space\n");
return 0;
}
m->len = len;
}
/* set up new map */
m->ca = offset;
m->cea = m->ca + m->len;
m->attr = attr;
i = m - pi->mmap;
bit = 1<<i;
wrreg(cb, Rwe, we & ~bit); /* disable map before changing it */
wrreg(cb, MAP(i, Mbtmlo), m->isa>>Mshift);
wrreg(cb, MAP(i, Mbtmhi), (m->isa>>(Mshift+8)) | F16bit);
wrreg(cb, MAP(i, Mtoplo), (m->isa+m->len-1)>>Mshift);
wrreg(cb, MAP(i, Mtophi), ((m->isa+m->len-1)>>(Mshift+8)));
offset -= m->isa;
offset &= (1<<25)-1;
offset >>= Mshift;
wrreg(cb, MAP(i, Mofflo), offset);
wrreg(cb, MAP(i, Moffhi), (offset>>8) | (attr ? Fregactive : 0));
wrreg(cb, Rwe, we | bit); /* enable map */
m->ref = 1;
return m;
}
static void
isaunmap(PCMmap* m)
{
m->ref--;
}
/*
* reading and writing card registers
*/
static uchar
rdreg(Cardbus *cb, int index)
{
outb(cb->lindex, cb->lbase + index);
return inb(cb->ldata);
}
static void
wrreg(Cardbus *cb, int index, uchar val)
{
outb(cb->lindex, cb->lbase + index);
outb(cb->ldata, val);
}
static int
readc(Cisdat *cis, uchar *x)
{
if(cis->cispos >= cis->cislen)
return 0;
*x = cis->cisbase[cis->cisskip*cis->cispos];
cis->cispos++;
return 1;
}
static ulong
getlong(Cisdat *cis, int size)
{
uchar c;
int i;
ulong x;
x = 0;
for(i = 0; i < size; i++){
if(readc(cis, &c) != 1)
break;
x |= c<<(i*8);
}
return x;
}
static void
tcfig(Cardbus *cb, Cisdat *cis, int )
{
uchar size, rasize, rmsize;
uchar last;
Pcminfo *pi;
if(readc(cis, &size) != 1)
return;
rasize = (size&0x3) + 1;
rmsize = ((size>>2)&0xf) + 1;
if(readc(cis, &last) != 1)
return;
pi = &cb->linfo;
pi->conf_addr = getlong(cis, rasize);
pi->conf_present = getlong(cis, rmsize);
}
static void
tvers1(Cardbus *cb, Cisdat *cis, int )
{
uchar c, major, minor, last;
int i;
Pcminfo *pi;
pi = &cb->linfo;
if(readc(cis, &major) != 1)
return;
if(readc(cis, &minor) != 1)
return;
last = 0;
for(i = 0; i < sizeof(pi->verstr) - 1; i++){
if(readc(cis, &c) != 1)
return;
if(c == 0)
c = ';';
if(c == '\n')
c = ';';
if(c == 0xff)
break;
if(c == ';' && last == ';')
continue;
pi->verstr[i] = c;
last = c;
}
pi->verstr[i] = 0;
}
static ulong
microvolt(Cisdat *cis)
{
uchar c;
ulong microvolts;
ulong exp;
if(readc(cis, &c) != 1)
return 0;
exp = exponent[c&0x7];
microvolts = vmant[(c>>3)&0xf]*exp;
while(c & 0x80){
if(readc(cis, &c) != 1)
return 0;
switch(c){
case 0x7d:
break; /* high impedence when sleeping */
case 0x7e:
case 0x7f:
microvolts = 0; /* no connection */
break;
default:
exp /= 10;
microvolts += exp*(c&0x7f);
}
}
return microvolts;
}
static ulong
nanoamps(Cisdat *cis)
{
uchar c;
ulong nanoamps;
if(readc(cis, &c) != 1)
return 0;
nanoamps = exponent[c&0x7]*vmant[(c>>3)&0xf];
while(c & 0x80){
if(readc(cis, &c) != 1)
return 0;
if(c == 0x7d || c == 0x7e || c == 0x7f)
nanoamps = 0;
}
return nanoamps;
}
/*
* only nominal voltage (feature 1) is important for config,
* other features must read card to stay in sync.
*/
static ulong
power(Cisdat *cis)
{
uchar feature;
ulong mv;
mv = 0;
if(readc(cis, &feature) != 1)
return 0;
if(feature & 1)
mv = microvolt(cis);
if(feature & 2)
microvolt(cis);
if(feature & 4)
microvolt(cis);
if(feature & 8)
nanoamps(cis);
if(feature & 0x10)
nanoamps(cis);
if(feature & 0x20)
nanoamps(cis);
if(feature & 0x40)
nanoamps(cis);
return mv/1000000;
}
static ulong
ttiming(Cisdat *cis, int scale)
{
uchar unscaled;
ulong nanosecs;
if(readc(cis, &unscaled) != 1)
return 0;
nanosecs = (mantissa[(unscaled>>3)&0xf]*exponent[unscaled&7])/10;
nanosecs = nanosecs * exponent[scale];
return nanosecs;
}
static void
timing(Cisdat *cis, PCMconftab *ct)
{
uchar c, i;
if(readc(cis, &c) != 1)
return;
i = c&0x3;
if(i != 3)
ct->maxwait = ttiming(cis, i); /* max wait */
i = (c>>2)&0x7;
if(i != 7)
ct->readywait = ttiming(cis, i); /* max ready/busy wait */
i = (c>>5)&0x7;
if(i != 7)
ct->otherwait = ttiming(cis, i); /* reserved wait */
}
static void
iospaces(Cisdat *cis, PCMconftab *ct)
{
uchar c;
int i, nio;
ct->nio = 0;
if(readc(cis, &c) != 1)
return;
ct->bit16 = ((c>>5)&3) >= 2;
if(!(c & 0x80)){
ct->io[0].start = 0;
ct->io[0].len = 1<<(c&0x1f);
ct->nio = 1;
return;
}
if(readc(cis, &c) != 1)
return;
/*
* For each of the range descriptions read the
* start address and the length (value is length-1).
*/
nio = (c&0xf)+1;
for(i = 0; i < nio; i++){
ct->io[i].start = getlong(cis, (c>>4)&0x3);
ct->io[i].len = getlong(cis, (c>>6)&0x3)+1;
}
ct->nio = nio;
}
static void
irq(Cisdat *cis, PCMconftab *ct)
{
uchar c;
if(readc(cis, &c) != 1)
return;
ct->irqtype = c & 0xe0;
if(c & 0x10)
ct->irqs = getlong(cis, 2);
else
ct->irqs = 1<<(c&0xf);
ct->irqs &= 0xDEB8; /* levels available to card */
}
static void
memspace(Cisdat *cis, int asize, int lsize, int host)
{
ulong haddress, address, len;
len = getlong(cis, lsize)*256;
address = getlong(cis, asize)*256;
USED(len, address);
if(host){
haddress = getlong(cis, asize)*256;
USED(haddress);
}
}
static void
tentry(Cardbus *cb, Cisdat *cis, int )
{
uchar c, i, feature;
PCMconftab *ct;
Pcminfo *pi;
pi = &cb->linfo;
if(pi->nctab >= nelem(pi->ctab))
return;
if(readc(cis, &c) != 1)
return;
ct = &pi->ctab[pi->nctab++];
/* copy from last default config */
if(pi->defctab)
*ct = *pi->defctab;
ct->index = c & 0x3f;
/* is this the new default? */
if(c & 0x40)
pi->defctab = ct;
/* memory wait specified? */
if(c & 0x80){
if(readc(cis, &i) != 1)
return;
if(i&0x80)
ct->memwait = 1;
}
if(readc(cis, &feature) != 1)
return;
switch(feature&0x3){
case 1:
ct->vpp1 = ct->vpp2 = power(cis);
break;
case 2:
power(cis);
ct->vpp1 = ct->vpp2 = power(cis);
break;
case 3:
power(cis);
ct->vpp1 = power(cis);
ct->vpp2 = power(cis);
break;
default:
break;
}
if(feature&0x4)
timing(cis, ct);
if(feature&0x8)
iospaces(cis, ct);
if(feature&0x10)
irq(cis, ct);
switch((feature>>5)&0x3){
case 1:
memspace(cis, 0, 2, 0);
break;
case 2:
memspace(cis, 2, 2, 0);
break;
case 3:
if(readc(cis, &c) != 1)
return;
for(i = 0; i <= (c&0x7); i++)
memspace(cis, (c>>5)&0x3, (c>>3)&0x3, c&0x80);
break;
}
}
static void
i82365probe(Cardbus *cb, int lindex, int ldata)
{
uchar c, id;
int dev = 0; /* According to the Ricoh spec 00->3F _and_ 80->BF seem
to be the same socket A (ditto for B). */
outb(lindex, Rid + (dev<<7));
id = inb(ldata);
if((id & 0xf0) != 0x80)
return; /* not a memory & I/O card */
if((id & 0x0f) == 0x00)
return; /* no revision number, not possible */
cb->lindex = lindex;
cb->ldata = ldata;
cb->ltype = Ti82365;
cb->lbase = (int)(cb - cbslots) * 0x40;
switch(id){
case 0x82:
case 0x83:
case 0x84:
/* could be a cirrus */
outb(cb->lindex, Rchipinfo + (dev<<7));
outb(cb->ldata, 0);
c = inb(cb->ldata);
if((c & 0xc0) != 0xc0)
break;
c = inb(cb->ldata);
if((c & 0xc0) != 0x00)
break;
if(c & 0x20){
cb->ltype = Tpd6720;
} else {
cb->ltype = Tpd6710;
}
break;
}
/* if it's not a Cirrus, it could be a Vadem... */
if(cb->ltype == Ti82365){
/* unlock the Vadem extended regs */
outb(cb->lindex, 0x0E + (dev<<7));
outb(cb->lindex, 0x37 + (dev<<7));
/* make the id register show the Vadem id */
outb(cb->lindex, 0x3A + (dev<<7));
c = inb(cb->ldata);
outb(cb->ldata, c|0xC0);
outb(cb->lindex, Rid + (dev<<7));
c = inb(cb->ldata);
if(c & 0x08)
cb->ltype = Tvg46x;
/* go back to Intel compatible id */
outb(cb->lindex, 0x3A + (dev<<7));
c = inb(cb->ldata);
outb(cb->ldata, c & ~0xC0);
}
}
static int
vcode(int volt)
{
switch(volt){
case 5:
return 1;
case 12:
return 2;
default:
return 0;
}
}
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