139019Smckusick /* 239019Smckusick * Copyright (c) 1989 The Regents of the University of California. 339019Smckusick * All rights reserved. 439019Smckusick * 539019Smckusick * Redistribution and use in source and binary forms are permitted 639019Smckusick * provided that the above copyright notice and this paragraph are 739019Smckusick * duplicated in all such forms and that any documentation, 839019Smckusick * advertising materials, and other materials related to such 939019Smckusick * distribution and use acknowledge that the software was developed 1039019Smckusick * by the University of California, Berkeley. The name of the 1139019Smckusick * University may not be used to endorse or promote products derived 1239019Smckusick * from this software without specific prior written permission. 1339019Smckusick * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR 1439019Smckusick * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED 1539019Smckusick * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. 1639019Smckusick * 17*39357Smckusick * @(#)mfs_vnops.c 7.3 (Berkeley) 10/20/89 1839019Smckusick */ 1939019Smckusick 2039019Smckusick #include "param.h" 2139019Smckusick #include "time.h" 22*39357Smckusick #include "kernel.h" 2339019Smckusick #include "proc.h" 24*39357Smckusick #include "user.h" 2539019Smckusick #include "buf.h" 2639019Smckusick #include "vmmac.h" 2739019Smckusick #include "errno.h" 2839019Smckusick #include "map.h" 2939019Smckusick #include "vnode.h" 3039019Smckusick #include "../ufs/inode.h" 3139019Smckusick #include "../ufs/mfsiom.h" 3239019Smckusick #include "../machine/vmparam.h" 3339019Smckusick #include "../machine/pte.h" 3439019Smckusick #include "../machine/mtpr.h" 3539019Smckusick 3639019Smckusick static int mfsmap_want; /* 1 => need kernel I/O resources */ 3739019Smckusick struct map mfsmap[MFS_MAPSIZE]; 3839019Smckusick extern char mfsiobuf[]; 3939019Smckusick 4039019Smckusick /* 4139019Smckusick * mfs vnode operations. 4239019Smckusick */ 4339019Smckusick int mfs_open(), 4439019Smckusick mfs_strategy(), 4539019Smckusick mfs_ioctl(), 4639019Smckusick mfs_close(), 4739019Smckusick ufs_inactive(), 4839019Smckusick mfs_badop(), 4939019Smckusick mfs_nullop(); 5039019Smckusick 5139019Smckusick struct vnodeops mfs_vnodeops = { 5239019Smckusick mfs_badop, 5339019Smckusick mfs_badop, 5439019Smckusick mfs_badop, 5539019Smckusick mfs_open, 5639019Smckusick mfs_close, 5739019Smckusick mfs_badop, 5839019Smckusick mfs_badop, 5939019Smckusick mfs_badop, 6039019Smckusick mfs_badop, 6139019Smckusick mfs_badop, 6239019Smckusick mfs_ioctl, 6339019Smckusick mfs_badop, 6439019Smckusick mfs_badop, 6539019Smckusick mfs_badop, 6639019Smckusick mfs_badop, 6739019Smckusick mfs_badop, 6839019Smckusick mfs_badop, 6939019Smckusick mfs_badop, 7039019Smckusick mfs_badop, 7139019Smckusick mfs_badop, 7239019Smckusick mfs_badop, 7339019Smckusick mfs_badop, 7439019Smckusick mfs_badop, 7539019Smckusick mfs_badop, 7639019Smckusick ufs_inactive, 7739019Smckusick mfs_badop, 7839019Smckusick mfs_badop, 7939019Smckusick mfs_badop, 8039019Smckusick mfs_strategy, 8139019Smckusick }; 8239019Smckusick 8339019Smckusick /* 8439019Smckusick * Vnode Operations. 8539019Smckusick * 8639019Smckusick * Open called to allow memory filesystem to initialize and 87*39357Smckusick * validate before actual IO. Record our process identifier 88*39357Smckusick * so we can tell when we are doing I/O to ourself. 8939019Smckusick */ 9039019Smckusick /* ARGSUSED */ 9139019Smckusick mfs_open(vp, mode, cred) 9239019Smckusick register struct vnode *vp; 9339019Smckusick int mode; 9439019Smckusick struct ucred *cred; 9539019Smckusick { 96*39357Smckusick register struct inode *ip = VTOI(vp); 9739019Smckusick 9839019Smckusick if (vp->v_type != VBLK) { 9939019Smckusick panic("mfs_ioctl not VBLK"); 10039019Smckusick /* NOTREACHED */ 10139019Smckusick } 102*39357Smckusick ip->i_uid = u.u_procp->p_pid; 103*39357Smckusick ip->i_spare[0] = 0; 10439019Smckusick return (0); 10539019Smckusick } 10639019Smckusick 10739019Smckusick /* 10839019Smckusick * Ioctl operation. 10939019Smckusick */ 11039019Smckusick /* ARGSUSED */ 11139019Smckusick mfs_ioctl(vp, com, data, fflag, cred) 11239019Smckusick struct vnode *vp; 11339019Smckusick int com; 11439019Smckusick caddr_t data; 11539019Smckusick int fflag; 11639019Smckusick struct ucred *cred; 11739019Smckusick { 11839019Smckusick 11939019Smckusick return (-1); 12039019Smckusick } 12139019Smckusick 12239019Smckusick /* 12339019Smckusick * Pass I/O requests to the memory filesystem process. 12439019Smckusick */ 12539019Smckusick mfs_strategy(bp) 12639019Smckusick register struct buf *bp; 12739019Smckusick { 12839019Smckusick register struct inode *ip = VTOI(bp->b_vp); 12939019Smckusick int error; 13039019Smckusick 131*39357Smckusick if (ip->i_uid == u.u_procp->p_pid) { 13239019Smckusick mfs_doio(bp, (caddr_t)ip->i_diroff); 13339019Smckusick } else { 134*39357Smckusick bp->av_forw = (struct buf *)ip->i_spare[0]; 13539019Smckusick ip->i_spare[0] = (long)bp; 13639019Smckusick wakeup((caddr_t)bp->b_vp); 13739019Smckusick } 138*39357Smckusick return (0); 13939019Smckusick } 14039019Smckusick 14139019Smckusick /* 14239019Smckusick * Memory file system I/O. 14339019Smckusick * 14439019Smckusick * Essentially play ubasetup() and disk interrupt service routine by 14539019Smckusick * doing the copies to or from the memfs process. If doing physio 14639019Smckusick * (i.e. pagein), we must map the I/O through the kernel virtual 14739019Smckusick * address space. 14839019Smckusick */ 14939019Smckusick mfs_doio(bp, base) 15039019Smckusick register struct buf *bp; 15139019Smckusick caddr_t base; 15239019Smckusick { 15339019Smckusick register struct pte *pte, *ppte; 15439019Smckusick register caddr_t vaddr; 15539019Smckusick int off, npf, npf2, reg; 15639019Smckusick caddr_t kernaddr, offset; 15739019Smckusick 15839019Smckusick /* 15939019Smckusick * For phys I/O, map the b_addr into kernel virtual space using 16039019Smckusick * the Mfsiomap pte's. 16139019Smckusick */ 16239019Smckusick if ((bp->b_flags & B_PHYS) == 0) { 16339019Smckusick kernaddr = bp->b_un.b_addr; 16439019Smckusick } else { 16539019Smckusick if (bp->b_flags & (B_PAGET | B_UAREA | B_DIRTY)) 16639019Smckusick panic("swap on memfs?"); 16739019Smckusick off = (int)bp->b_un.b_addr & PGOFSET; 16839019Smckusick npf = btoc(bp->b_bcount + off); 16939019Smckusick /* 17039019Smckusick * Get some mapping page table entries 17139019Smckusick */ 17239019Smckusick while ((reg = rmalloc(mfsmap, (long)npf)) == 0) { 17339019Smckusick mfsmap_want++; 17439019Smckusick sleep((caddr_t)&mfsmap_want, PZERO-1); 17539019Smckusick } 17639019Smckusick reg--; 17739019Smckusick pte = vtopte(bp->b_proc, btop(bp->b_un.b_addr)); 17839019Smckusick /* 17939019Smckusick * Do vmaccess() but with the Mfsiomap page table. 18039019Smckusick */ 18139019Smckusick ppte = &Mfsiomap[reg]; 18239019Smckusick vaddr = &mfsiobuf[reg * NBPG]; 18339019Smckusick kernaddr = vaddr + off; 18439019Smckusick for (npf2 = npf; npf2; npf2--) { 18539019Smckusick mapin(ppte, (u_int)vaddr, pte->pg_pfnum, 18639019Smckusick (int)(PG_V|PG_KW)); 18739019Smckusick #if defined(tahoe) 18839019Smckusick if ((bp->b_flags & B_READ) == 0) 18939019Smckusick mtpr(P1DC, vaddr); 19039019Smckusick #endif 19139019Smckusick ppte++; 19239019Smckusick pte++; 19339019Smckusick vaddr += NBPG; 19439019Smckusick } 19539019Smckusick } 19639019Smckusick offset = base + (bp->b_blkno << DEV_BSHIFT); 19739019Smckusick if (bp->b_flags & B_READ) 19839019Smckusick bp->b_error = copyin(offset, kernaddr, bp->b_bcount); 19939019Smckusick else 20039019Smckusick bp->b_error = copyout(kernaddr, offset, bp->b_bcount); 20139019Smckusick if (bp->b_error) 20239019Smckusick bp->b_flags |= B_ERROR; 20339019Smckusick /* 20439019Smckusick * Release pte's used by physical I/O. 20539019Smckusick */ 20639019Smckusick if (bp->b_flags & B_PHYS) { 20739019Smckusick rmfree(mfsmap, (long)npf, (long)++reg); 20839019Smckusick if (mfsmap_want) { 20939019Smckusick mfsmap_want = 0; 21039019Smckusick wakeup((caddr_t)&mfsmap_want); 21139019Smckusick } 21239019Smckusick } 21339019Smckusick biodone(bp); 21439019Smckusick } 21539019Smckusick 21639019Smckusick /* 21739019Smckusick * Memory filesystem close routine 21839019Smckusick */ 21939019Smckusick /* ARGSUSED */ 22039019Smckusick mfs_close(vp, flag, cred) 22139019Smckusick register struct vnode *vp; 22239019Smckusick int flag; 22339019Smckusick struct ucred *cred; 22439019Smckusick { 22539019Smckusick register struct inode *ip = VTOI(vp); 22639019Smckusick 22739019Smckusick /* 22839019Smckusick * On last close of a memory filesystem 22939019Smckusick * we must invalidate any in core blocks, so that 23039019Smckusick * we can, free up its vnode. 23139019Smckusick */ 23239019Smckusick bflush(vp->v_mount); 23339019Smckusick if (binval(vp->v_mount)) 23439019Smckusick return (0); 23539019Smckusick /* 23639019Smckusick * We don't want to really close the device if it is still 23739019Smckusick * in use. Since every use (buffer, inode, swap, cmap) 23839019Smckusick * holds a reference to the vnode, and because we ensure 23939019Smckusick * that there cannot be more than one vnode per device, 24039019Smckusick * we need only check that we are down to the last 24139019Smckusick * reference before closing. 24239019Smckusick */ 24339019Smckusick if (vp->v_count > 1) { 24439019Smckusick printf("mfs_close: ref count %d > 1\n", vp->v_count); 24539019Smckusick return (0); 24639019Smckusick } 24739019Smckusick /* 24839019Smckusick * Send a request to the filesystem server to exit. 24939019Smckusick */ 250*39357Smckusick while (ip->i_spare[0]) 251*39357Smckusick sleep(&lbolt); 252*39357Smckusick ip->i_spare[0] = -1; 25339019Smckusick wakeup((caddr_t)vp); 25439019Smckusick return (0); 25539019Smckusick } 25639019Smckusick 25739019Smckusick /* 25839019Smckusick * Block device bad operation 25939019Smckusick */ 26039019Smckusick mfs_badop() 26139019Smckusick { 26239019Smckusick 26339019Smckusick printf("mfs_badop called\n"); 26439019Smckusick return (ENXIO); 26539019Smckusick } 26639019Smckusick 26739019Smckusick /* 26839019Smckusick * Block device null operation 26939019Smckusick */ 27039019Smckusick mfs_nullop() 27139019Smckusick { 27239019Smckusick 27339019Smckusick return (0); 27439019Smckusick } 27539019Smckusick 27639019Smckusick /* 27739019Smckusick * Memory based filesystem initialization. 27839019Smckusick */ 27939019Smckusick mfs_init() 28039019Smckusick { 28139019Smckusick 28239019Smckusick rminit(mfsmap, (long)MFS_MAPREG, (long)1, "mfs mapreg", MFS_MAPSIZE); 28339019Smckusick } 284