1*2769Swnj /* init_main.c 4.10 02/27/81 */ 226Sbill 326Sbill #include "../h/param.h" 426Sbill #include "../h/systm.h" 526Sbill #include "../h/dir.h" 626Sbill #include "../h/user.h" 726Sbill #include "../h/filsys.h" 826Sbill #include "../h/mount.h" 926Sbill #include "../h/map.h" 1026Sbill #include "../h/proc.h" 1126Sbill #include "../h/inode.h" 1226Sbill #include "../h/seg.h" 1326Sbill #include "../h/conf.h" 1426Sbill #include "../h/buf.h" 1526Sbill #include "../h/mtpr.h" 1626Sbill #include "../h/pte.h" 1726Sbill #include "../h/clock.h" 1826Sbill #include "../h/vm.h" 1926Sbill #include "../h/cmap.h" 20348Sbill #include "../h/text.h" 21878Sbill #include "../h/vlimit.h" 22*2769Swnj #include "../h/clist.h" 2326Sbill 2426Sbill /* 2526Sbill * Initialization code. 2626Sbill * Called from cold start routine as 2726Sbill * soon as a stack and segmentation 2826Sbill * have been established. 2926Sbill * Functions: 3026Sbill * clear and free user core 3126Sbill * turn on clock 3226Sbill * hand craft 0th process 3326Sbill * call all initialization routines 3426Sbill * fork - process 0 to schedule 3526Sbill * - process 2 to page out 3626Sbill * - process 1 execute bootstrap 3726Sbill * 3826Sbill * loop at loc 13 (0xd) in user mode -- /etc/init 3926Sbill * cannot be executed. 4026Sbill */ 4126Sbill main(firstaddr) 4226Sbill { 43361Sbill register int i; 442451Swnj register struct proc *p; 4526Sbill 4626Sbill rqinit(); 4726Sbill startup(firstaddr); 4826Sbill if (lotsfree == 0) 4926Sbill lotsfree = LOTSFREE; 5026Sbill 5126Sbill /* 5226Sbill * set up system process 0 (swapper) 5326Sbill */ 542451Swnj p = &proc[0]; 552451Swnj p->p_p0br = (struct pte *)mfpr(P0BR); 562451Swnj p->p_szpt = 1; 572451Swnj p->p_addr = uaddr(p); 582451Swnj p->p_stat = SRUN; 592451Swnj p->p_flag |= SLOAD|SSYS; 602451Swnj p->p_nice = NZERO; 612451Swnj setredzone(p->p_addr, (caddr_t)&u); 622451Swnj u.u_procp = p; 6326Sbill u.u_cmask = CMASK; 64361Sbill for (i = 1; i < sizeof(u.u_limit)/sizeof(u.u_limit[0]); i++) 65870Sbill switch (i) { 66870Sbill 67870Sbill case LIM_STACK: 68870Sbill u.u_limit[i] = 512*1024; 69870Sbill continue; 70870Sbill case LIM_DATA: 71870Sbill u.u_limit[i] = ctob(MAXDSIZ); 72870Sbill continue; 73870Sbill default: 74870Sbill u.u_limit[i] = INFINITY; 75870Sbill continue; 76870Sbill } 7726Sbill clkstart(); 7826Sbill 7926Sbill /* 8026Sbill * Initialize devices and 8126Sbill * set up 'known' i-nodes 8226Sbill */ 8326Sbill 8426Sbill ihinit(); 8592Sbill bhinit(); 8626Sbill cinit(); 8726Sbill binit(); 8826Sbill bswinit(); 8926Sbill iinit(); 9026Sbill rootdir = iget(rootdev, (ino_t)ROOTINO); 9126Sbill rootdir->i_flag &= ~ILOCK; 9226Sbill u.u_cdir = iget(rootdev, (ino_t)ROOTINO); 9326Sbill u.u_cdir->i_flag &= ~ILOCK; 9426Sbill u.u_rdir = NULL; 9526Sbill u.u_dmap = zdmap; 9626Sbill u.u_smap = zdmap; 9726Sbill 9826Sbill /* 9926Sbill * make page-out daemon (process 2) 1002753Swnj * the daemon has ctopt(nswbuf*CLSIZE*KLMAX) pages of page 10126Sbill * table so that it can map dirty pages into 10226Sbill * its address space during asychronous pushes. 10326Sbill */ 10426Sbill 10526Sbill mpid = 1; 1062753Swnj proc[0].p_szpt = clrnd(ctopt(nswbuf*CLSIZE*KLMAX + UPAGES)); 10726Sbill proc[1].p_stat = SZOMB; /* force it to be in proc slot 2 */ 10826Sbill if (newproc(0)) { 10926Sbill proc[2].p_flag |= SLOAD|SSYS; 1102753Swnj proc[2].p_dsize = u.u_dsize = nswbuf*CLSIZE*KLMAX; 11126Sbill pageout(); 11226Sbill } 11326Sbill 11426Sbill /* 11526Sbill * make init process and 11626Sbill * enter scheduling loop 11726Sbill */ 11826Sbill 11926Sbill mpid = 0; 12026Sbill proc[1].p_stat = 0; 12126Sbill proc[0].p_szpt = CLSIZE; 12226Sbill if (newproc(0)) { 12326Sbill expand(clrnd((int)btoc(szicode)), P0BR); 1241787Sbill (void) swpexpand(u.u_dsize, 0, &u.u_dmap, &u.u_smap); 125135Sbill (void) copyout((caddr_t)icode, (caddr_t)0, (unsigned)szicode); 12626Sbill /* 12726Sbill * Return goes to loc. 0 of user init 12826Sbill * code just copied out. 12926Sbill */ 13026Sbill return; 13126Sbill } 13226Sbill proc[0].p_szpt = 1; 13326Sbill sched(); 13426Sbill } 13526Sbill 13626Sbill /* 13726Sbill * iinit is called once (from main) 13826Sbill * very early in initialization. 13926Sbill * It reads the root's super block 14026Sbill * and initializes the current date 14126Sbill * from the last modified date. 14226Sbill * 14326Sbill * panic: iinit -- cannot read the super 14426Sbill * block. Usually because of an IO error. 14526Sbill */ 14626Sbill iinit() 14726Sbill { 1482435Skre register struct buf *bp; 14926Sbill register struct filsys *fp; 15026Sbill 15126Sbill (*bdevsw[major(rootdev)].d_open)(rootdev, 1); 15226Sbill bp = bread(rootdev, SUPERB); 15326Sbill if(u.u_error) 15426Sbill panic("iinit"); 1552322Swnj bp->b_flags |= B_LOCKED; /* block can never be re-used */ 15626Sbill brelse(bp); 15726Sbill mount[0].m_dev = rootdev; 1582322Swnj mount[0].m_bufp = bp; 1592322Swnj fp = bp->b_un.b_filsys; 16026Sbill fp->s_flock = 0; 16126Sbill fp->s_ilock = 0; 16226Sbill fp->s_ronly = 0; 16326Sbill fp->s_lasti = 1; 16426Sbill fp->s_nbehind = 0; 165870Sbill clkinit(fp->s_time); 16626Sbill bootime = time; 16726Sbill } 16826Sbill 16926Sbill /* 17026Sbill * Initialize the buffer I/O system by freeing 17126Sbill * all buffers and setting all device buffer lists to empty. 17226Sbill */ 17326Sbill binit() 17426Sbill { 17526Sbill register struct buf *bp; 17626Sbill register struct buf *dp; 17726Sbill register int i; 17826Sbill struct bdevsw *bdp; 179306Sbill struct swdevt *swp; 18026Sbill 1812322Swnj for (dp = bfreelist; dp < &bfreelist[BQUEUES]; dp++) { 1822322Swnj dp->b_forw = dp->b_back = dp->av_forw = dp->av_back = dp; 1832322Swnj dp->b_flags = B_HEAD; 1842322Swnj } 1852322Swnj dp--; /* dp = &bfreelist[BQUEUES-1]; */ 186*2769Swnj for (i=0; i<nbuf; i++) { 18726Sbill bp = &buf[i]; 18826Sbill bp->b_dev = NODEV; 189*2769Swnj bp->b_un.b_addr = buffers + i * BSIZE; 1902322Swnj bp->b_back = dp; 1912322Swnj bp->b_forw = dp->b_forw; 1922322Swnj dp->b_forw->b_back = bp; 1932322Swnj dp->b_forw = bp; 1942322Swnj bp->b_flags = B_BUSY|B_INVAL; 19526Sbill brelse(bp); 19626Sbill } 1972435Skre for (bdp = bdevsw; bdp->d_open; bdp++) 19826Sbill nblkdev++; 199306Sbill /* 200306Sbill * Count swap devices, and adjust total swap space available. 201306Sbill * Some of this space will not be available until a vswapon() 202306Sbill * system is issued, usually when the system goes multi-user. 203306Sbill */ 204306Sbill nswdev = 0; 205306Sbill for (swp = swdevt; swp->sw_dev; swp++) 206306Sbill nswdev++; 207306Sbill if (nswdev == 0) 208306Sbill panic("binit"); 209306Sbill nswap *= nswdev; 210306Sbill maxpgio *= nswdev; 211306Sbill swfree(0); 21226Sbill } 21326Sbill 21426Sbill /* 21526Sbill * Initialize linked list of free swap 21626Sbill * headers. These do not actually point 21726Sbill * to buffers, but rather to pages that 21826Sbill * are being swapped in and out. 21926Sbill */ 22026Sbill bswinit() 22126Sbill { 22226Sbill register int i; 223*2769Swnj register struct buf *sp = swbuf; 22426Sbill 2252753Swnj bswlist.av_forw = sp; 226*2769Swnj for (i=0; i<nswbuf-1; i++, sp++) 2272753Swnj sp->av_forw = sp+1; 2282753Swnj sp->av_forw = NULL; 22926Sbill } 2302746Swnj 2312746Swnj /* 2322746Swnj * Initialize clist by freeing all character blocks, then count 2332746Swnj * number of character devices. (Once-only routine) 2342746Swnj */ 2352746Swnj cinit() 2362746Swnj { 2372746Swnj register int ccp; 2382746Swnj register struct cblock *cp; 2392746Swnj register struct cdevsw *cdp; 2402746Swnj 2412746Swnj ccp = (int)cfree; 2422746Swnj ccp = (ccp+CROUND) & ~CROUND; 2432746Swnj for(cp=(struct cblock *)ccp; cp < &cfree[nclist-1]; cp++) { 2442746Swnj cp->c_next = cfreelist; 2452746Swnj cfreelist = cp; 2462746Swnj cfreecount += CBSIZE; 2472746Swnj } 2482746Swnj ccp = 0; 2492746Swnj for(cdp = cdevsw; cdp->d_open; cdp++) 2502746Swnj ccp++; 2512746Swnj nchrdev = ccp; 2522746Swnj } 253