/* init_main.c 4.52 83/05/30 */ #include "../machine/pte.h" #include "../h/param.h" #include "../h/systm.h" #include "../h/dir.h" #include "../h/user.h" #include "../h/kernel.h" #include "../h/fs.h" #include "../h/mount.h" #include "../h/map.h" #include "../h/proc.h" #include "../h/inode.h" #include "../h/seg.h" #include "../h/conf.h" #include "../h/buf.h" #include "../h/vm.h" #include "../h/cmap.h" #include "../h/text.h" #include "../h/clist.h" #ifdef INET #include "../h/protosw.h" #endif #include "../h/quota.h" #include "../machine/reg.h" #include "../machine/cpu.h" extern struct user u; /* have to declare it somewhere! */ /* * Initialization code. * Called from cold start routine as * soon as a stack and segmentation * have been established. * Functions: * clear and free user core * turn on clock * hand craft 0th process * call all initialization routines * fork - process 0 to schedule * - process 2 to page out * - process 1 execute bootstrap * * loop at loc 13 (0xd) in user mode -- /etc/init * cannot be executed. */ #ifdef vax main(firstaddr) int firstaddr; #endif #ifdef sun main(regs) struct regs regs; #endif { register int i; register struct proc *p; struct fs *fs; int s; rqinit(); #include "loop.h" #ifdef vax startup(firstaddr); #endif #ifdef sun startup(); #endif /* * set up system process 0 (swapper) */ p = &proc[0]; p->p_p0br = u.u_pcb.pcb_p0br; p->p_szpt = 1; p->p_addr = uaddr(p); p->p_stat = SRUN; p->p_flag |= SLOAD|SSYS; p->p_nice = NZERO; setredzone(p->p_addr, (caddr_t)&u); u.u_procp = p; #ifdef sun u.u_ar0 = ®s.r_r0; #endif u.u_cmask = CMASK; for (i = 1; i < NGROUPS; i++) u.u_groups[i] = NOGROUP; for (i = 0; i < sizeof(u.u_rlimit)/sizeof(u.u_rlimit[0]); i++) u.u_rlimit[i].rlim_cur = u.u_rlimit[i].rlim_max = RLIM_INFINITY; u.u_rlimit[RLIMIT_STACK].rlim_cur = 512*1024; u.u_rlimit[RLIMIT_STACK].rlim_max = ctob(MAXDSIZ); u.u_rlimit[RLIMIT_DATA].rlim_max = u.u_rlimit[RLIMIT_DATA].rlim_cur = ctob(MAXDSIZ); p->p_maxrss = RLIM_INFINITY/NBPG; #ifdef QUOTA qtinit(); p->p_quota = u.u_quota = getquota(0, 0, Q_NDQ); #endif startrtclock(); #include "kg.h" #if NKG > 0 startkgclock(); #endif /* * Initialize tables, protocols, and set up well-known inodes. */ mbinit(); cinit(); /* needed by dmc-11 driver */ #ifdef INET #if NLOOP > 0 loattach(); /* XXX */ #endif /* * Block reception of incoming packets * until protocols have been initialized. */ s = splimp(); ifinit(); #endif domaininit(); #ifdef INET splx(s); #endif ihinit(); bhinit(); binit(); bswinit(); #ifdef GPROF kmstartup(); #endif fs = mountfs(rootdev, 0, (struct inode *)0); if (fs == 0) panic("iinit"); bcopy("/", fs->fs_fsmnt, 2); inittodr(fs->fs_time); boottime = time; /* kick off timeout driven events by calling first time */ roundrobin(); schedcpu(); schedpaging(); /* set up the root file system */ rootdir = iget(rootdev, fs, (ino_t)ROOTINO); iunlock(rootdir); u.u_cdir = iget(rootdev, fs, (ino_t)ROOTINO); iunlock(u.u_cdir); u.u_rdir = NULL; u.u_dmap = zdmap; u.u_smap = zdmap; /* * Set the scan rate and other parameters of the paging subsystem. */ setupclock(); /* * make page-out daemon (process 2) * the daemon has ctopt(nswbuf*CLSIZE*KLMAX) pages of page * table so that it can map dirty pages into * its address space during asychronous pushes. */ mpid = 1; proc[0].p_szpt = clrnd(ctopt(nswbuf*CLSIZE*KLMAX + UPAGES)); proc[1].p_stat = SZOMB; /* force it to be in proc slot 2 */ if (newproc(0)) { proc[2].p_flag |= SLOAD|SSYS; proc[2].p_dsize = u.u_dsize = nswbuf*CLSIZE*KLMAX; pageout(); /*NOTREACHED*/ } /* * make init process and * enter scheduling loop */ mpid = 0; proc[1].p_stat = 0; proc[0].p_szpt = CLSIZE; if (newproc(0)) { #ifdef vax expand(clrnd((int)btoc(szicode)), 0); (void) swpexpand(u.u_dsize, 0, &u.u_dmap, &u.u_smap); (void) copyout((caddr_t)icode, (caddr_t)0, (unsigned)szicode); #endif #ifdef sun icode(); usetup(); regs.r_context = u.u_procp->p_ctx->ctx_context; #endif /* * Return goes to loc. 0 of user init * code just copied out. */ return; } proc[0].p_szpt = 1; sched(); } /* * Initialize hash links for buffers. */ bhinit() { register int i; register struct bufhd *bp; for (bp = bufhash, i = 0; i < BUFHSZ; i++, bp++) bp->b_forw = bp->b_back = (struct buf *)bp; } /* * Initialize the buffer I/O system by freeing * all buffers and setting all device buffer lists to empty. */ binit() { register struct buf *bp, *dp; register int i; struct swdevt *swp; int base, residual; for (dp = bfreelist; dp < &bfreelist[BQUEUES]; dp++) { dp->b_forw = dp->b_back = dp->av_forw = dp->av_back = dp; dp->b_flags = B_HEAD; } base = bufpages / nbuf; residual = bufpages % nbuf; for (i = 0; i < nbuf; i++) { bp = &buf[i]; bp->b_dev = NODEV; bp->b_bcount = 0; #ifndef sun bp->b_un.b_addr = buffers + i * MAXBSIZE; if (i < residual) bp->b_bufsize = (base + 1) * CLBYTES; else bp->b_bufsize = base * CLBYTES; binshash(bp, &bfreelist[BQ_AGE]); #else bp->b_un.b_addr = (char *)0; bp->b_bufsize = 0; binshash(bp, &bfreelist[BQ_EMPTY]); #endif bp->b_flags = B_BUSY|B_INVAL; brelse(bp); } /* * Count swap devices, and adjust total swap space available. * Some of this space will not be available until a vswapon() * system is issued, usually when the system goes multi-user. */ nswdev = 0; nswap = 0; for (swp = swdevt; swp->sw_dev; swp++) { nswdev++; if (swp->sw_nblks > nswap) nswap = swp->sw_nblks; } if (nswdev == 0) panic("binit"); if (nswdev > 1) nswap = ((nswap + dmmax - 1) / dmmax) * dmmax; nswap *= nswdev; maxpgio *= nswdev; swfree(0); } /* * Initialize linked list of free swap * headers. These do not actually point * to buffers, but rather to pages that * are being swapped in and out. */ bswinit() { register int i; register struct buf *sp = swbuf; bswlist.av_forw = sp; for (i=0; iav_forw = sp+1; sp->av_forw = NULL; } /* * Initialize clist by freeing all character blocks, then count * number of character devices. (Once-only routine) */ cinit() { register int ccp; register struct cblock *cp; ccp = (int)cfree; ccp = (ccp+CROUND) & ~CROUND; for(cp=(struct cblock *)ccp; cp < &cfree[nclist-1]; cp++) { cp->c_next = cfreelist; cfreelist = cp; cfreecount += CBSIZE; } }