ref: 13963cd5e032bf85f0d2f9a562b263374a7cc850
dir: /sys/src/9/xen/main.c/
#include "u.h" #include "tos.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "pool.h" #include "rebootcode.i" Mach *m; #define BOOTARGS (xenstart->cmd_line) #define BOOTARGSLEN (sizeof xenstart->cmd_line) #define MAXCONF 64 Conf conf; char *confname[MAXCONF]; char *confval[MAXCONF]; int nconf; int idle_spin; static void options(void) { long i, n; char *cp, *line[MAXCONF], *p, *q; /* * parse configuration args from dos file plan9.ini */ cp = BOOTARGS; /* where b.com leaves its config */ cp[BOOTARGSLEN-1] = 0; /* * Strip out '\r', change '\t' -> ' '. */ p = cp; for(q = cp; *q; q++){ if(*q == '\r') continue; if(*q == '\t') *q = ' '; *p++ = *q; } *p = 0; n = getfields(cp, line, MAXCONF, 1, "\n"); for(i = 0; i < n; i++){ if(*line[i] == '#') continue; cp = strchr(line[i], '='); if(cp == nil) continue; *cp++ = '\0'; confname[nconf] = line[i]; confval[nconf] = cp; nconf++; } } void main(void) { mach0init(); options(); ioinit(); xenconsinit(); quotefmtinstall(); //consdebug = rdb; print("\nPlan 9 (%s)\n", xenstart->magic); cpuidentify(); // meminit() is not for us confinit(); archinit(); xinit(); trapinit(); printinit(); cpuidprint(); mmuinit(); if(arch->intrinit) /* launches other processors on an mp */ arch->intrinit(); timersinit(); mathinit(); kbdenable(); xengrantinit(); if(arch->clockenable) arch->clockenable(); procinit0(); initseg(); links(); // conf.monitor = 1; chandevreset(); pageinit(); userinit(); schedinit(); } void mach0init(void) { m = (Mach*)MACHADDR; m->machno = 0; conf.nmach = 1; MACHP(0) = (Mach*)CPU0MACH; m->pdb = (ulong*)xenstart->pt_base; machinit(); active.machs[0] = 1; active.exiting = 0; } void machinit(void) { int machno; ulong *pdb; machno = m->machno; pdb = m->pdb; memset(m, 0, sizeof(Mach)); m->machno = machno; m->pdb = pdb; m->perf.period = 1; /* * For polled uart output at boot, need * a default delay constant. 100000 should * be enough for a while. Cpuidentify will * calculate the real value later. */ m->loopconst = 100000; m->cpumhz = 1000; // XXX! HYPERVISOR_shared_info = (shared_info_t*)mmumapframe(XENSHARED, (xenstart->shared_info)>>PGSHIFT); // XXX m->shared = &HYPERVISOR_shared_info->vcpu_data[m->machno]; } void init0(void) { char buf[2*KNAMELEN], **sp; int i; chandevinit(); if(!waserror()){ snprint(buf, sizeof(buf), "%s %s", arch->id, conffile); ksetenv("terminal", buf, 0); ksetenv("cputype", "386", 0); if(cpuserver) ksetenv("service", "cpu", 0); else ksetenv("service", "terminal", 0); ksetenv("readparts", "1", 0); for(i = 0; i < nconf; i++){ if(confname[i][0] != '*') ksetenv(confname[i], confval[i], 0); ksetenv(confname[i], confval[i], 1); } poperror(); } kproc("alarm", alarmkproc, 0); sp = (char**)(USTKTOP - sizeof(Tos) - 8 - sizeof(sp[0])*4); sp[3] = sp[2] = nil; strcpy(sp[1] = (char*)&sp[4], "boot"); sp[0] = nil; touser(sp); } char* getconf(char *name) { int i; for(i = 0; i < nconf; i++) if(cistrcmp(confname[i], name) == 0) return confval[i]; return 0; } static void writeconf(void) { char *p, *q; int n; p = getconfenv(); if(waserror()) { free(p); nexterror(); } /* convert to name=value\n format */ for(q=p; *q; q++) { q += strlen(q); *q = '='; q += strlen(q); *q = '\n'; } n = q - p + 1; if(n >= BOOTARGSLEN) error("kernel configuration too large"); memmove(BOOTARGS, p, n); poperror(); free(p); } void confinit(void) { char *p; int i, userpcnt; ulong kpages; for(i = 0; i < nconf; i++) print("%s=%s\n", confname[i], confval[i]); /* * all ram above xentop is free, but must be mappable * to virt addrs less than VIRT_START. */ kpages = PADDR(hypervisor_virt_start)>>PGSHIFT; if(xenstart->nr_pages <= kpages) kpages = xenstart->nr_pages; else print("Warning: Plan 9 / Xen limitation - " "using only %lud of %lud available RAM pages\n", kpages, xenstart->nr_pages); xentop = PGROUND(PADDR(xentop)); conf.mem[0].npage = kpages - (xentop>>PGSHIFT); conf.mem[0].base = xentop; if(p = getconf("*kernelpercent")) userpcnt = 100 - strtol(p, 0, 0); else userpcnt = 0; conf.npage = 0; for(i=0; i<nelem(conf.mem); i++) conf.npage += conf.mem[i].npage; conf.nproc = 100 + ((conf.npage*BY2PG)/MB)*5; if(cpuserver) conf.nproc *= 3; if(conf.nproc > 2000) conf.nproc = 2000; conf.nimage = 200; conf.nswap = conf.nproc*80; conf.nswppo = 4096; if(cpuserver) { if(userpcnt < 10) userpcnt = 70; kpages = conf.npage - (conf.npage*userpcnt)/100; /* * Hack for the big boys. Only good while physmem < 4GB. * Give the kernel fixed max + enough to allocate the * page pool. * This is an overestimate as conf.upages < conf.npages. * The patch of nimage is a band-aid, scanning the whole * page list in imagereclaim just takes too long. */ if(kpages > (64*MB + conf.npage*sizeof(Page))/BY2PG){ kpages = (64*MB + conf.npage*sizeof(Page))/BY2PG; conf.nimage = 2000; kpages += (conf.nproc*KSTACK)/BY2PG; } } else { if(userpcnt < 10) { if(conf.npage*BY2PG < 16*MB) userpcnt = 40; else userpcnt = 60; } kpages = conf.npage - (conf.npage*userpcnt)/100; /* * Make sure terminals with low memory get at least * 4MB on the first Image chunk allocation. */ if(conf.npage*BY2PG < 16*MB) imagmem->minarena = 4*1024*1024; } /* * can't go past the end of virtual memory * (ulong)-KZERO is 2^32 - KZERO */ if(kpages > ((ulong)-KZERO)/BY2PG) kpages = ((ulong)-KZERO)/BY2PG; conf.upages = conf.npage - kpages; conf.ialloc = (kpages/2)*BY2PG; /* * Guess how much is taken by the large permanent * datastructures. Mntcache and Mntrpc are not accounted for. */ kpages *= BY2PG; kpages -= conf.upages*sizeof(Page) + conf.nproc*sizeof(Proc) + conf.nimage*sizeof(Image) + conf.nswap + conf.nswppo*sizeof(Page*); mainmem->maxsize = kpages; if(!cpuserver){ /* * give terminals lots of image memory, too; the dynamic * allocation will balance the load properly, hopefully. * be careful with 32-bit overflow. */ imagmem->maxsize = kpages; } } static char* mathmsg[] = { nil, /* handled below */ "denormalized operand", "division by zero", "numeric overflow", "numeric underflow", "precision loss", }; static void mathnote(void) { int i; ulong status; char *msg, note[ERRMAX]; status = up->fpsave->status; /* * Some attention should probably be paid here to the * exception masks and error summary. */ msg = "unknown exception"; for(i = 1; i <= 5; i++){ if(!((1<<i) & status)) continue; msg = mathmsg[i]; break; } if(status & 0x01){ if(status & 0x40){ if(status & 0x200) msg = "stack overflow"; else msg = "stack underflow"; }else msg = "invalid operation"; } snprint(note, sizeof note, "sys: fp: %s fppc=0x%lux status=0x%lux", msg, up->fpsave->pc, status); postnote(up, 1, note, NDebug); } /* * math coprocessor error */ static void matherror(Ureg *ur, void*) { /* * a write cycle to port 0xF0 clears the interrupt latch attached * to the error# line from the 387 */ if(!(m->cpuiddx & 0x01)) outb(0xF0, 0xFF); /* * save floating point state to check out error */ fpenv(up->fpsave); mathnote(); if(ur->pc & KZERO) panic("fp: status %ux fppc=0x%lux pc=0x%lux", up->fpsave->status, up->fpsave->pc, ur->pc); } /* * math coprocessor emulation fault */ static void mathemu(Ureg *ureg, void*) { if(up->fpstate & FPillegal){ /* someone did floating point in a note handler */ postnote(up, 1, "sys: floating point in note handler", NDebug); return; } switch(up->fpstate){ case FPinit: fpinit(); while(up->fpsave == nil) up->fpsave = mallocalign(sizeof(FPsave), FPalign, 0, 0); up->fpstate = FPactive; break; case FPinactive: /* * Before restoring the state, check for any pending * exceptions, there's no way to restore the state without * generating an unmasked exception. * More attention should probably be paid here to the * exception masks and error summary. */ if((up->fpsave->status & ~up->fpsave->control) & 0x07F){ mathnote(); break; } fprestore(up->fpsave); up->fpstate = FPactive; break; case FPactive: panic("math emu pid %ld %s pc 0x%lux", up->pid, up->text, ureg->pc); break; } } /* * math coprocessor segment overrun */ static void mathover(Ureg*, void*) { pexit("math overrun", 0); } void mathinit(void) { trapenable(VectorCERR, matherror, 0, "matherror"); //if(X86FAMILY(m->cpuidax) == 3) // intrenable(IrqIRQ13, matherror, 0, BUSUNKNOWN, "matherror"); trapenable(VectorCNA, mathemu, 0, "mathemu"); trapenable(VectorCSO, mathover, 0, "mathover"); } /* * set up floating point for a new process */ void procsetup(Proc*p) { p->fpstate = FPinit; fpoff(); } void procfork(Proc *p) { int s; p->kentry = up->kentry; p->pcycles = -p->kentry; /* save floating point state */ s = splhi(); switch(up->fpstate & ~FPillegal){ case FPactive: fpsave(up->fpsave); up->fpstate = FPinactive; case FPinactive: while(p->fpsave == nil) p->fpsave = mallocalign(sizeof(FPsave), FPalign, 0, 0); memmove(p->fpsave, up->fpsave, sizeof(FPsave)); p->fpstate = FPinactive; } splx(s); } void procrestore(Proc *p) { uvlong t; if(p->kp) return; cycles(&t); p->pcycles -= t; } /* * Save the mach dependent part of the process state. */ void procsave(Proc *p) { uvlong t; cycles(&t); p->pcycles += t; if(p->fpstate == FPactive){ if(p->state == Moribund) fpclear(); else{ /* * Fpsave() stores without handling pending * unmasked exeptions. Postnote() can't be called * here as sleep() already has up->rlock, so * the handling of pending exceptions is delayed * until the process runs again and generates an * emulation fault to activate the FPU. */ fpsave(p->fpsave); } p->fpstate = FPinactive; } /* * While this processor is in the scheduler, the process could run * on another processor and exit, returning the page tables to * the free list where they could be reallocated and overwritten. * When this processor eventually has to get an entry from the * trashed page tables it will crash. * * If there's only one processor, this can't happen. * You might think it would be a win not to do this in that case, * especially on VMware, but it turns out not to matter. */ mmuflushtlb(0); } void reboot(void *entry, void *code, ulong size) { void (*f)(ulong, ulong, ulong); writeconf(); cpushutdown(); splhi(); /* turn off buffered serial console */ serialoq = nil; /* shutdown devices */ chandevshutdown(); /* reboot(0, ...) on Xen causes domU shutdown */ if(entry == 0) HYPERVISOR_shutdown(0); mmuflushtlb(0); /* setup reboot trampoline function */ f = (void*)REBOOTADDR; memmove(f, rebootcode, sizeof(rebootcode)); /* off we go - never to return */ (*f)(PADDR(entry), PADDR(code), size); } void exit(int) { cpushutdown(); arch->reset(); }