ref: ec35f468e0eba87c9f09cbbe5fa8af2591e6f914
dir: /os/pc/piix4smbus.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" // // SMBus support for the PIIX4 // enum { IntelVendID= 0x8086, Piix4PMID= 0x7113, /* PIIX4 power management function */ // SMBus configuration registers (function 3) SMBbase= 0x90, // 4 byte base address (bit 0 == 1, bit 3:1 == 0) SMBconfig= 0xd2, SMBintrselect= (7<<1), SMIenable= (0<<1), // interrupts sent to SMI# IRQ9enable= (4<<1), // intettupts sent to IRQ9 SMBenable= (1<<0), // 1 enables // SMBus IO space registers Hoststatus= 0x0, // (writing 1 bits reset the interrupt bits) Failed= (1<<4), // transaction terminated by KILL Bus_error= (1<<3), // transactio collision Dev_error= (1<<2), // device error interrupt Host_complete= (1<<1), // host command completion interrupt Host_busy= (1<<0), // Slavestatus= 0x1, // (writing 1 bits reset) Alert_sts= (1<<5), // someone asserted SMBALERT# Shdw2_sts= (1<<4), // slave accessed shadow 2 port Shdw1_sts= (1<<3), // slave accessed shadow 1 port Slv_sts= (1<<2), // slave accessed shadow 1 port Slv_bsy= (1<<0), Hostcontrol= 0x2, Start= (1<<6), // start execution Cmd_prot= (7<<2), // command protocol mask Quick= (0<<2), // address only Byte= (1<<2), // address + cmd ByteData= (2<<2), // address + cmd + data WordData= (3<<2), // address + cmd + data + data Kill= (1<<1), // abort in progress command Ienable= (1<<0), // enable completion interrupts Hostcommand= 0x3, Hostaddress= 0x4, AddressMask= (0x7f<<1), // target address Read= (1<<0), // 1 == read, 0 == write Hostdata0= 0x5, Hostdata1= 0x6, Blockdata= 0x7, Slavecontrol= 0x8, Alert_en= (1<<3), // enable inter on SMBALERT# Shdw2_en= (1<<2), // enable inter on external shadow 2 access Shdw1_en= (1<<1), // enable inter on external shadow 1 access Slv_en= (1<<0), // enable inter on access of host ctlr slave port Shadowcommand= 0x9, Slaveevent= 0xa, Slavedata= 0xc, }; static struct { int rw; int cmd; int len; int proto; } proto[] = { [SMBquick] { 0, 0, 0, Quick }, [SMBsend] { 0, 1, 0, Byte }, [SMBbytewrite] { 0, 1, 1, ByteData }, [SMBwordwrite] { 0, 1, 2, WordData }, [SMBrecv] { Read, 0, 1, Byte }, [SMBbyteread] { Read, 1, 1, ByteData }, [SMBwordread] { Read, 1, 2, WordData }, }; static void transact(SMBus *s, int type, int addr, int cmd, uchar *data) { int tries, status; char err[256]; if(type < 0 || type > nelem(proto)) panic("piix4smbus: illegal transaction type %d", type); if(waserror()){ qunlock(s); nexterror(); } qlock(s); // wait a while for the host interface to be available for(tries = 0; tries < 1000000; tries++){ if((inb(s->base+Hoststatus) & Host_busy) == 0) break; sched(); } if(tries >= 1000000){ // try aborting current transaction outb(s->base+Hostcontrol, Kill); for(tries = 0; tries < 1000000; tries++){ if((inb(s->base+Hoststatus) & Host_busy) == 0) break; sched(); } if(tries >= 1000000){ snprint(err, sizeof(err), "SMBus jammed: %2.2ux", inb(s->base+Hoststatus)); error(err); } } // set up for transaction outb(s->base+Hostaddress, (addr<<1)|proto[type].rw); if(proto[type].cmd) outb(s->base+Hostcommand, cmd); if(proto[type].rw != Read){ switch(proto[type].len){ case 2: outb(s->base+Hostdata1, data[1]); // fall through case 1: outb(s->base+Hostdata0, data[0]); break; } } // reset the completion/error bits and start transaction outb(s->base+Hoststatus, Failed|Bus_error|Dev_error|Host_complete); outb(s->base+Hostcontrol, Start|proto[type].proto); // wait for completion status = 0; for(tries = 0; tries < 1000000; tries++){ status = inb(s->base+Hoststatus); if(status & (Failed|Bus_error|Dev_error|Host_complete)) break; sched(); } if((status & Host_complete) == 0){ snprint(err, sizeof(err), "SMBus request failed: %2.2ux", status); error(err); } // get results if(proto[type].rw == Read){ switch(proto[type].len){ case 2: data[1] = inb(s->base+Hostdata1); // fall through case 1: data[0] = inb(s->base+Hostdata0); break; } } qunlock(s); poperror(); } static SMBus smbusproto = { .transact = transact, }; // // return 0 if this is a piix4 with an smbus interface // SMBus* piix4smbus(void) { Pcidev *p; static SMBus *s; if(s != nil) return s; p = pcimatch(nil, IntelVendID, Piix4PMID); if(p == nil) return nil; s = smalloc(sizeof(*s)); memmove(s, &smbusproto, sizeof(*s)); s->arg = p; // disable the smbus pcicfgw8(p, SMBconfig, IRQ9enable|0); // see if bios gave us a viable port space s->base = pcicfgr32(p, SMBbase) & ~1; print("SMB base from bios is 0x%lux\n", s->base); if(ioalloc(s->base, 0xd, 0, "piix4smbus") < 0){ s->base = ioalloc(-1, 0xd, 2, "piix4smbus"); if(s->base < 0){ free(s); print("piix4smbus: can't allocate io port\n"); return nil; } print("SMB base ialloc is 0x%lux\n", s->base); pcicfgw32(p, SMBbase, s->base|1); } // disable SMBus interrupts, abort any transaction in progress outb(s->base+Hostcontrol, Kill); outb(s->base+Slavecontrol, 0); // enable the smbus pcicfgw8(p, SMBconfig, IRQ9enable|SMBenable); return s; }