#include "../h/param.h" #include "../h/systm.h" #include "../h/dir.h" #include "../h/user.h" #include "../h/filsys.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" /* * 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 1 execute bootstrap * * loop at low address in user mode -- /etc/init * cannot be executed. */ main() { startup(); /* * set up system process */ proc[0].p_addr = ka6->r[0]; proc[0].p_size = USIZE; proc[0].p_stat = SRUN; proc[0].p_flag |= SLOAD|SSYS; #ifdef NEWSCHED proc[0].p_baslev = proc[0].p_level = RTLEVEL; #else proc[0].p_nice = NZERO; #endif u.u_procp = &proc[0]; u.u_cmask = CMASK; /* * Initialize devices and * set up 'known' i-nodes */ clkstart(); cinit(); binit(); iinit(); rootdir = iget(rootdev, (ino_t)ROOTINO); rootdir->i_flag &= ~ILOCK; u.u_cdir = iget(rootdev, (ino_t)ROOTINO); u.u_cdir->i_flag &= ~ILOCK; u.u_rdir = NULL; /* * make init process * enter scheduling loop * with system process */ if(newproc()) { #ifdef NEWPROC /* set priority down to normal range for proc 1 */ u.u_procp->p_baslev = u.u_procp->p_level = (RTLEVEL-1); #endif expand(USIZE + (int)btoc(szicode)); estabur((unsigned)0, btoc(szicode), (unsigned)0, 0, RO); copyout((caddr_t)icode, (caddr_t)0, szicode); /* * Return goes to loc. 0 of user init * code just copied out. */ return; } sched(); } /* * iinit is called once (from main) * very early in initialization. * It reads the root's super block * and initializes the current date * from the last modified date. * * panic: iinit -- cannot read the super * block. Usually because of an IO error. */ iinit() { register struct buf *cp, *bp; register struct filsys *fp; (*bdevsw[major(rootdev)].d_open)(rootdev, 1); bp = bread(rootdev, SUPERB); cp = geteblk(); if(u.u_error) panic("iinit"); bcopy(bp->b_un.b_addr, cp->b_un.b_addr, sizeof(struct filsys)); brelse(bp); mount[0].m_bufp = cp; mount[0].m_dev = rootdev; fp = cp->b_un.b_filsys; fp->s_flock = 0; fp->s_ilock = 0; fp->s_ronly = 0; time = fp->s_time; } /* * This is the set of buffers proper, whose heads * were declared in buf.h. There can exist buffer * headers not pointing here that are used purely * as arguments to the I/O routines to describe * I/O to be done-- e.g. swbuf for * swapping. */ char buffers[NBUF][BSIZE+BSLOP]; /* * Initialize the buffer I/O system by freeing * all buffers and setting all device buffer lists to empty. */ binit() { register struct buf *bp; register struct buf *dp; register int i; struct bdevsw *bdp; bfreelist.b_forw = bfreelist.b_back = bfreelist.av_forw = bfreelist.av_back = &bfreelist; for (i=0; ib_dev = NODEV; bp->b_un.b_addr = buffers[i]; bp->b_back = &bfreelist; bp->b_forw = bfreelist.b_forw; bfreelist.b_forw->b_back = bp; bfreelist.b_forw = bp; bp->b_flags = B_BUSY; brelse(bp); } for (bdp = bdevsw; bdp->d_open; bdp++) { dp = bdp->d_tab; if(dp) { dp->b_forw = dp; dp->b_back = dp; } nblkdev++; } }