ref: d1cebf608b05e45b148108ac6c16ae94f6862097
dir: /sys/src/cmd/vmx/pci.c/
#include <u.h> #include <libc.h> #include <thread.h> #include "dat.h" #include "fns.h" PCIDev *pcidevs; PCIBar membars, iobars; PCIDev * mkpcidev(u32int bdf, u32int viddid, u32int clrev, int needirq) { PCIDev *d; int n; d = emalloc(sizeof(PCIDev)); d->bdf = bdf; d->viddid = viddid; d->clrev = clrev; d->next = pcidevs; d->irqno = needirq ? 0 : 0xff; for(n = 0; n < nelem(d->bar); n++){ d->bar[n].d = d; d->bar[n].busnext = &d->bar[n]; d->bar[n].busprev = &d->bar[n]; } d->capalloc = 64; pcidevs = d; return d; } u32int allocbdf(void) { static int dev = 1; return BDF(0, dev++, 0); } u32int roundpow2(u32int l) { l = -l; l &= (int)l >> 16; l &= (int)l >> 8; l &= (int)l >> 4; l &= (int)l >> 2; l &= (int)l >> 1; return -l; } PCIBar * mkpcibar(PCIDev *d, u8int t, u32int a, u32int l, void *fn, void *aux) { PCIBar *b; assert((t & 1) == 0 || (t & 2) == 0); assert((t & 1) != 0 || (t & 6) == 0); if((t & 1) != 0 && l < 4) l = 4; if((t & 1) == 0 && l < 4096) l = 4096; if((l & l-1) != 0) l = roundpow2(l); for(b = d->bar; b < d->bar + nelem(d->bar); b++) if(b->length == 0) break; if(b == d->bar + nelem(d->bar)) sysfatal("pci bdf %6ux: too many bars", d->bdf); b->addr = a; b->type = t; b->length = l; b->busnext = b; b->busprev = b; b->d = d; if((b->type & 1) != 0) b->io = fn; b->aux = aux; return b; } static void updatebar(PCIBar *b) { b->busnext->busprev = b->busprev; b->busprev->busnext = b->busnext; b->busnext = b; b->busprev = b; if(b->length == 0) return; if((b->type & 1) == 0){ if((b->d->ctrl & 2) == 0) return; b->busnext = &membars; b->busprev = membars.busprev; b->busnext->busprev = b; b->busprev->busnext = b; }else{ if((b->d->ctrl & 1) == 0 || b->addr == 0 || b->io == nil) return; b->busnext = &iobars; b->busprev = iobars.busprev; b->busnext->busprev = b; b->busprev->busnext = b; } } static void pciirqupdate(void) { PCIDev *d; int irqs, act, i; irqs = 0; act = 0; for(d = pcidevs; d != nil; d = d->next){ if(d->irqno < 16){ irqs |= 1<<d->irqno; act |= d->irqactive<<d->irqno; } } for(i = 0; i < 16; i++) if((irqs & 1<<i) != 0) irqline(i, ~act>>i & 1); } PCICap * mkpcicap(PCIDev *d, u8int length, u32int (*readf)(PCICap *, u8int), void (*writef)(PCICap *, u8int, u32int, u32int)) { PCICap *c, **p; assert(readf != nil); if(d->capalloc + length > 256) sysfatal("mkpcicap (dev %#ux): out of configuration space", d->bdf); c = emalloc(sizeof(PCICap)); c->dev = d; c->read = readf; c->write = writef; c->length = length; c->addr = d->capalloc; d->capalloc += length; for(p = &d->cap; *p != nil; p = &(*p)->next) ; *p = c; return c; } static PCIDev * findpcidev(u32int bdf) { PCIDev *d; for(d = pcidevs; d != nil; d = d->next) if(d->bdf == bdf) return d; return nil; } static PCICap * findpcicap(PCIDev *d, u8int addr) { PCICap *c; for(c = d->cap; c != nil; c = c->next) if((uint)(addr - c->addr) < c->length) return c; return nil; } static u32int pciread(PCIDev *d, int addr) { u32int val; PCICap *c; int n; switch(addr){ case 0x00: return d->viddid; case 0x04: return 0xa00000 | (d->cap != nil ? 1<<20 : 0) | d->ctrl; case 0x08: return d->clrev; case 0x0c: return 0; /* BIST, Header Type, Latency Timer, Cache Size */ case 0x10: case 0x14: case 0x18: case 0x1c: case 0x20: case 0x24: n = addr - 0x10 >> 2; return d->bar[n].addr | d->bar[n].type; case 0x28: return 0; /* Cardbus */ case 0x2c: return d->subid; /* Subsystem ID */ case 0x30: return 0; /* Expansion ROM */ case 0x34: return d->cap != nil ? d->cap->addr : 0; /* Capabilities */ case 0x38: return 0; /* Reserved */ case 0x3c: return 1 << 8 | d->irqno; /* Max_Lat, Min_Gnt, IRQ Pin, IRQ Line */ } c = findpcicap(d, addr); if(c != nil){ val = c->read(c, addr - c->addr); if(addr == c->addr){ val &= ~0xff00; if(c->next != nil) val |= c->next->addr << 8; } return val; } vmdebug("pcidev %.6ux: ignoring read from addr %#ux", d->bdf, addr); return 0; } static void pciwrite(PCIDev *d, int addr, u32int val, u32int mask) { int n; PCICap *c; switch(addr){ case 0x04: d->ctrl = (d->ctrl & ~mask | val & mask) & 0x21f; for(n = 0; n < nelem(d->bar); n++) updatebar(&d->bar[n]); return; case 0x10: case 0x14: case 0x18: case 0x1c: case 0x20: case 0x24: n = addr - 0x10 >> 2; val &= (d->bar[n].type & 1) != 0 ? ~15 : ~3; d->bar[n].addr = (d->bar[n].addr & ~mask | val & mask) & ~(d->bar[n].length - 1); updatebar(&d->bar[n]); return; case 0x30: return; case 0x3c: d->irqno = (d->irqno & ~mask | val & mask) & 0xff; pciirqupdate(); return; } c = findpcicap(d, addr); if(c != nil && c->write != nil){ c->write(c, addr - c->addr, val, mask); return; } vmdebug("pcidev %.6ux: ignoring write to addr %#ux, val %#ux", d->bdf, addr, val); } u32int pciio(int isin, u16int port, u32int val, int sz, void *) { static u32int cfgaddr; u32int mask; PCIDev *d; switch(isin << 16 | port){ case 0x0cf8: cfgaddr = val; return 0; case 0x10cf8: return cfgaddr & ~0x7f000003; case 0xcfc: case 0xcfd: case 0xcfe: case 0xcff: val <<= 8 * (port & 3); mask = -1UL >> 32 - 8 * sz << 8 * (port & 3); if((cfgaddr & 1<<31) != 0 && (d = findpcidev(cfgaddr & 0xffff00), d != nil)) pciwrite(d, cfgaddr & 0xfc, val, mask); return 0; case 0x10cfc: case 0x10cfd: case 0x10cfe: case 0x10cff: if((cfgaddr & 1<<31) == 0 || (d = findpcidev(cfgaddr & 0xffff00), d == nil)) return -1; return pciread(d, cfgaddr & 0xfc) >> 8 * (port & 3); } return iowhine(isin, port, val, sz, "pci"); } void pciirq(PCIDev *d, int status) { d->irqactive = status != 0; pciirqupdate(); } void pciinit(void) { iobars.busnext = &iobars; iobars.busprev = &iobars; membars.busprev = &membars; membars.busnext = &membars; mkpcidev(BDF(0,0,0), 0x01008086, 0x06000000, 0); } void pcibusmap(void) { u16int iop; u16int irqs, uirqs; PCIDev *d; PCIBar *b; int irq; int i; iop = 0x1000; irqs = 1<<5|1<<7|1<<9|1<<10|1<<11; uirqs = 0; irq = 0; for(d = pcidevs; d != nil; d = d->next){ d->ctrl |= 3; for(b = d->bar; b < d->bar + nelem(d->bar); b++){ if(b->length == 0 || b->addr != 0) continue; if((b->type & 1) == 0){ vmerror("pci device %.6ux: memory bars unsupported", d->bdf); continue; } if(iop + b->length >= 0x10000){ vmerror("pci device %.6ux: not enough I/O address space for BAR%d (len=%d)", d->bdf, (int)(b - d->bar), b->length); continue; } b->addr = iop; iop += b->length; updatebar(b); } if(d->irqno == 0){ do irq = irq + 1 & 15; while((irqs & 1<<irq) == 0); d->irqno = irq; uirqs |= 1<<irq; } } elcr(uirqs); for(i = 0; i < 16; i++) if((uirqs & 1<<i) != 0) irqline(i, 1); }