#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "../port/error.h" typedef struct IOMap IOMap; struct IOMap { IOMap *next; char tag[13]; ulong start; ulong end; }; static struct { Lock; IOMap *m; IOMap *free; IOMap maps[32]; // some initial free maps QLock ql; // lock for reading map } iomap; enum { Qdir = CHDIR, Qioalloc = 0, Qiob, Qiow, Qiol, Qbase, Qmax = 16, }; typedef long Rdwrfn(Chan*, void*, long, vlong); static Rdwrfn *readfn[Qmax]; static Rdwrfn *writefn[Qmax]; static Dirtab archdir[Qmax] = { "ioalloc", { Qioalloc, 0 }, 0, 0444, "iob", { Qiob, 0 }, 0, 0660, "iow", { Qiow, 0 }, 0, 0660, "iol", { Qiol, 0 }, 0, 0660, }; Lock archwlock; /* the lock is only for changing archdir */ int narchdir = Qbase; /* * Add a file to the #P listing. Once added, you can't delete it. * You can't add a file with the same name as one already there, * and you get a pointer to the Dirtab entry so you can do things * like change the Qid version. Changing the Qid path is disallowed. */ Dirtab* addarchfile(char *name, int perm, Rdwrfn *rdfn, Rdwrfn *wrfn) { int i; Dirtab d; Dirtab *dp; memset(&d, 0, sizeof d); strcpy(d.name, name); d.perm = perm; lock(&archwlock); if(narchdir >= Qmax){ unlock(&archwlock); return nil; } for(i=0; inext){ m = *l; i = m->start - port; if(i > size) break; if(align > 0) port = ((port+align-1)/align)*align; else port = m->end; } if(*l == nil){ unlock(&iomap); return -1; } } else { // see if the space clashes with previously allocated ports for(l = &iomap.m; *l; l = &(*l)->next){ m = *l; if(m->end <= port) continue; if(m->start >= port+size) break; unlock(&iomap); return -1; } } m = iomap.free; if(m == nil){ print("ioalloc: out of maps"); unlock(&iomap); return port; } iomap.free = m->next; m->next = *l; m->start = port; m->end = port + size; strncpy(m->tag, tag, sizeof(m->tag)); m->tag[sizeof(m->tag)-1] = 0; *l = m; archdir[0].qid.vers++; unlock(&iomap); return m->start; } void iofree(int port) { IOMap *m, **l; lock(&iomap); for(l = &iomap.m; *l; l = &(*l)->next){ if((*l)->start == port){ m = *l; *l = m->next; m->next = iomap.free; iomap.free = m; break; } if((*l)->start > port) break; } archdir[0].qid.vers++; unlock(&iomap); } int iounused(int start, int end) { IOMap *m; for(m = iomap.m; m; m = m->next){ if(start >= m->start && start < m->end || start <= m->start && end > m->start) return 0; } return 1; } static void checkport(int start, int end) { /* standard vga regs are OK */ if(start >= 0x2b0 && end <= 0x2df+1) return; if(start >= 0x3c0 && end <= 0x3da+1) return; if(iounused(start, end)) return; error(Eperm); } static Chan* archattach(char* spec) { return devattach('P', spec); } int archwalk(Chan* c, char* name) { return devwalk(c, name, archdir, narchdir, devgen); } static void archstat(Chan* c, char* dp) { devstat(c, dp, archdir, narchdir, devgen); } static Chan* archopen(Chan* c, int omode) { return devopen(c, omode, archdir, narchdir, devgen); } static void archclose(Chan*) { } enum { Linelen= 31, }; static long archread(Chan *c, void *a, long n, vlong offset) { char buf[Linelen+1], *p; int port; ushort *sp; ulong *lp; IOMap *m; Rdwrfn *fn; switch(c->qid.path){ case Qdir: return devdirread(c, a, n, archdir, narchdir, devgen); case Qiob: port = offset; checkport(offset, offset+n); for(p = a; port < offset+n; port++) *p++ = inb(port); return n; case Qiow: if((n & 0x01) || (offset & 0x01)) error(Ebadarg); checkport(offset, offset+n); n /= 2; sp = a; for(port = offset; port < offset+n; port += 2) *sp++ = ins(port); return n*2; case Qiol: if((n & 0x03) || (offset & 0x03)) error(Ebadarg); checkport(offset, offset+n); n /= 4; lp = a; for(port = offset; port < offset+n; port += 4) *lp++ = inl(port); return n*4; case Qioalloc: break; default: if(c->qid.path < narchdir && (fn = readfn[c->qid.path])) return fn(c, a, n, offset); error(Eperm); break; } offset = offset/Linelen; n = n/Linelen; p = a; lock(&iomap); for(m = iomap.m; n > 0 && m != nil; m = m->next){ if(offset-- > 0) continue; if(strcmp(m->tag, "dummy") == 0) break; sprint(buf, "%8lux %8lux %-12.12s\n", m->start, m->end-1, m->tag); memmove(p, buf, Linelen); p += Linelen; n--; } unlock(&iomap); return p - (char*)a; } static long archwrite(Chan *c, void *a, long n, vlong offset) { char *p; int port; ushort *sp; ulong *lp; Rdwrfn *fn; switch(c->qid.path & ~CHDIR){ case Qiob: p = a; checkport(offset, offset+n); for(port = offset; port < offset+n; port++) outb(port, *p++); return n; case Qiow: if((n & 01) || (offset & 01)) error(Ebadarg); checkport(offset, offset+n); n /= 2; sp = a; for(port = offset; port < offset+n; port += 2) outs(port, *sp++); return n*2; case Qiol: if((n & 0x03) || (offset & 0x03)) error(Ebadarg); checkport(offset, offset+n); n /= 4; lp = a; for(port = offset; port < offset+n; port += 4) outl(port, *lp++); return n*4; default: if(c->qid.path < narchdir && (fn = writefn[c->qid.path])) return fn(c, a, n, offset); error(Eperm); break; } return 0; } Dev archdevtab = { 'P', "arch", devreset, devinit, archattach, devclone, archwalk, archstat, archopen, devcreate, archclose, archread, devbread, archwrite, devbwrite, devremove, devwstat, }; /* * the following is a generic version of the * architecture specific stuff */ static int unimplemented(int) { return 0; } static void nop(void) { } void (*coherence)(void) = nop; void cycletimerinit(void); uvlong cycletimer(uvlong*); PCArch* arch; extern PCArch* knownarch[]; PCArch archgeneric = { "generic", /* id */ 0, /* ident */ i8042reset, /* reset */ unimplemented, /* serialpower */ unimplemented, /* modempower */ i8259init, /* intrinit */ i8259enable, /* intrenable */ i8253enable, /* clockenable */ i8253read, /* read the standard timer */ }; typedef struct { int family; int model; int aalcycles; char* name; } X86type; static X86type x86intel[] = { { 4, 0, 22, "486DX", }, /* known chips */ { 4, 1, 22, "486DX50", }, { 4, 2, 22, "486SX", }, { 4, 3, 22, "486DX2", }, { 4, 4, 22, "486SL", }, { 4, 5, 22, "486SX2", }, { 4, 7, 22, "DX2WB", }, /* P24D */ { 4, 8, 22, "DX4", }, /* P24C */ { 4, 9, 22, "DX4WB", }, /* P24CT */ { 5, 0, 23, "P5", }, { 5, 1, 23, "P5", }, { 5, 2, 23, "P54C", }, { 5, 3, 23, "P24T", }, { 5, 4, 23, "P55C MMX", }, { 5, 7, 23, "P54C VRT", }, { 6, 1, 16, "PentiumPro", },/* trial and error */ { 6, 3, 16, "PentiumII", }, { 6, 5, 16, "PentiumII/Xeon", }, { 6, 6, 16, "Celeron", }, { 6, 7, 16, "PentiumIII/Xeon", }, { 6, 8, 16, "PentiumIII/Xeon", }, { 3, -1, 32, "386", }, /* family defaults */ { 4, -1, 22, "486", }, { 5, -1, 23, "P5", }, { 6, -1, 16, "P6", }, { -1, -1, 23, "unknown", }, /* total default */ }; /* * The AMD processors all implement the CPUID instruction. * The later ones also return the processor name via functions * 0x80000002, 0x80000003 and 0x80000004 in registers AX, BX, CX * and DX: * K5 "AMD-K5(tm) Processor" * K6 "AMD-K6tm w/ multimedia extensions" * K6 3D "AMD-K6(tm) 3D processor" * K6 3D+ ? */ static X86type x86amd[] = { { 5, 0, 23, "AMD-K5", }, /* guesswork */ { 5, 1, 23, "AMD-K5", }, /* guesswork */ { 5, 2, 23, "AMD-K5", }, /* guesswork */ { 5, 3, 23, "AMD-K5", }, /* guesswork */ { 5, 6, 11, "AMD-K6", }, /* trial and error */ { 5, 7, 11, "AMD-K6", }, /* trial and error */ { 5, 8, 11, "AMD-K6-2", }, /* trial and error */ { 5, 9, 11, "AMD-K6-III", },/* trial and error */ { 6, 1, 11, "AMD-Athlon", },/* trial and error */ { 6, 2, 11, "AMD-Athlon", },/* trial and error */ { 4, -1, 22, "Am486", }, /* guesswork */ { 5, -1, 23, "AMD-K5/K6", }, /* guesswork */ { 6, -1, 11, "AMD-Athlon", },/* guesswork */ { -1, -1, 23, "unknown", }, /* total default */ }; /* * WinChip 240MHz */ static X86type x86winchip[] = { {5, 4, 23, "Winchip",}, /* guesswork */ { -1, -1, 23, "unknown", }, /* total default */ }; static uvlong fasthz; static X86type *cputype; void cpuidprint(void) { int i; char buf[128]; i = sprint(buf, "cpu%d: %dMHz ", m->machno, m->cpumhz); if(m->cpuidid[0]) i += sprint(buf+i, "%s ", m->cpuidid); sprint(buf+i, "%s (cpuid: AX 0x%4.4uX DX 0x%4.4uX)\n", m->cpuidtype, m->cpuidax, m->cpuiddx); print(buf); } int cpuidentify(void) { char *p; int family, model, nomce; X86type *t; ulong cr4; vlong mca, mct; cpuid(m->cpuidid, &m->cpuidax, &m->cpuiddx); if(strncmp(m->cpuidid, "AuthenticAMD", 12) == 0) t = x86amd; else if(strncmp(m->cpuidid, "CentaurHauls", 12) == 0) t = x86winchip; else t = x86intel; family = X86FAMILY(m->cpuidax); model = X86MODEL(m->cpuidax); while(t->name){ if((t->family == family && t->model == model) || (t->family == family && t->model == -1) || (t->family == -1)) break; t++; } m->cpuidtype = t->name; i8253init(t->aalcycles, t->family >= 5); /* * If machine check exception or page size extensions are supported * enable them in CR4 and clear any other set extensions. * If machine check was enabled clear out any lingering status. */ if(m->cpuiddx & 0x88){ cr4 = 0; if(m->cpuiddx & 0x08) cr4 |= 0x10; /* page size extensions */ if(p = getconf("*nomce")) nomce = strtoul(p, 0, 0); else nomce = 0; if((m->cpuiddx & 0x80) && !nomce){ cr4 |= 0x40; /* machine check enable */ if(family == 5){ rdmsr(0x00, &mca); rdmsr(0x01, &mct); } } putcr4(cr4); if(m->cpuiddx & 0x80) rdmsr(0x01, &mct); } cputype = t; return t->family; } static long cputyperead(Chan*, void *a, long n, vlong offset) { char str[32]; ulong mhz; mhz = (m->cpuhz+999999)/1000000; snprint(str, sizeof(str), "%s %lud\n", cputype->name, mhz); return readstr(offset, a, n, str); } void archinit(void) { PCArch **p; arch = 0; for(p = knownarch; *p; p++){ if((*p)->ident && (*p)->ident() == 0){ arch = *p; break; } } if(arch == 0) arch = &archgeneric; else{ if(arch->id == 0) arch->id = archgeneric.id; if(arch->reset == 0) arch->reset = archgeneric.reset; if(arch->serialpower == 0) arch->serialpower = archgeneric.serialpower; if(arch->modempower == 0) arch->modempower = archgeneric.modempower; if(arch->intrinit == 0) arch->intrinit = archgeneric.intrinit; if(arch->intrenable == 0) arch->intrenable = archgeneric.intrenable; } /* pick the better timer */ if(X86FAMILY(m->cpuidax) >= 5){ cycletimerinit(); arch->fastclock = cycletimer; } /* * Decide whether to use copy-on-reference (386 and mp). */ if(X86FAMILY(m->cpuidax) == 3 || conf.nmach > 1) conf.copymode = 1; if(X86FAMILY(m->cpuidax) >= 5) coherence = wbflush; addarchfile("cputype", 0444, cputyperead, nil); } void cycletimerinit(void) { wrmsr(0x10, 0); fasthz = m->cpuhz; } /* * return the most precise clock we have */ uvlong cycletimer(uvlong *hz) { uvlong tsc; if(hz != nil) *hz = fasthz; rdmsr(0x10, (vlong*)&tsc); m->fastclock = tsc; return tsc; } vlong fastticks(uvlong *hz) { return (*arch->fastclock)(hz); }