/* * Copyright 2000, International Business Machines Corporation and others. * All Rights Reserved. * * This software has been released under the terms of the IBM Public * License. For details, see the LICENSE file in the top-level source * directory or online at http://www.openafs.org/dl/license10.html */ /* * osi_vfsops.c for SOLARIS */ #include #include "afs/param.h" #include "afs/sysincludes.h" /* Standard vendor system headers */ #include "afsincludes.h" /* Afs-based standard headers */ #include "afs/afs_stats.h" /* statistics stuff */ #include "h/modctl.h" #include "h/syscall.h" #if defined(AFS_SUN511_ENV) #include #endif #include #include struct vfs *afs_globalVFS = 0; struct vcache *afs_globalVp = 0; #if defined(AFS_SUN5_64BIT_ENV) extern struct sysent sysent32[]; #endif int afsfstype = 0; int afs_mount(struct vfs *afsp, struct vnode *amvp, struct mounta *uap, afs_ucred_t *credp) { AFS_GLOCK(); AFS_STATCNT(afs_mount); #if defined(AFS_SUN510_ENV) if (secpolicy_fs_mount(credp, amvp, afsp) != 0) { #else if (!afs_osi_suser(credp)) { #endif AFS_GUNLOCK(); return (EPERM); } afsp->vfs_fstype = afsfstype; if (afs_globalVFS) { /* Don't allow remounts. */ AFS_GUNLOCK(); return (EBUSY); } afs_globalVFS = afsp; afsp->vfs_bsize = 8192; afsp->vfs_fsid.val[0] = AFS_VFSMAGIC; /* magic */ afsp->vfs_fsid.val[1] = AFS_VFSFSID; afsp->vfs_dev = AFS_VFSMAGIC; AFS_GUNLOCK(); return 0; } static void afs_freevfs(void) { afs_globalVFS = 0; afs_shutdown(); } int afs_unmount(struct vfs *afsp, int flag, afs_ucred_t *credp) { struct vcache *rootvp = NULL; AFS_GLOCK(); AFS_STATCNT(afs_unmount); #if defined(AFS_SUN510_ENV) if (secpolicy_fs_unmount(credp, afsp) != 0) { #else if (!afs_osi_suser(credp)) { #endif AFS_GUNLOCK(); return (EPERM); } if (flag & MS_FORCE) { AFS_GUNLOCK(); return ENOTSUP; } /* We should have one reference from the caller, and one reference for the * root vnode; any more and someone is still referencing something */ if (afsp->vfs_count > 2) { AFS_GUNLOCK(); return EBUSY; } /* The root vnode should have one ref for the mount; any more, and someone * else is using the root vnode */ if (afs_globalVp && VREFCOUNT_GT(afs_globalVp, 1)) { AFS_GUNLOCK(); return EBUSY; } afsp->vfs_flag |= VFS_UNMOUNTED; if (afs_globalVp) { /* release the root vnode, which should be the last reference to us * besides the caller of afs_unmount */ rootvp = afs_globalVp; afs_globalVp = NULL; AFS_RELE(AFSTOV(rootvp)); } AFS_GUNLOCK(); return 0; } void gafs_freevfs(struct vfs *afsp) { AFS_GLOCK(); afs_freevfs(); AFS_GUNLOCK(); } int afs_root(struct vfs *afsp, struct vnode **avpp) { afs_int32 code = 0; struct vrequest treq; struct vcache *tvp = 0; struct vcache *gvp; struct proc *proc = ttoproc(curthread); struct vnode *vp = afsp->vfs_vnodecovered; int locked = 0; /* Potential deadlock: * afs_root is called with the Vnode's v_lock locked. Set VVFSLOCK * and drop the v_lock if we need to make an RPC to complete this * request. There used to be a deadlock on the global lock until * we stopped calling iget while holding the global lock. */ AFS_GLOCK(); AFS_STATCNT(afs_root); again: if (afs_globalVp && (afs_globalVp->f.states & CStatd)) { tvp = afs_globalVp; } else { if (MUTEX_HELD(&vp->v_lock)) { vp->v_flag |= VVFSLOCK; locked = 1; mutex_exit(&vp->v_lock); } if (afs_globalVp) { gvp = afs_globalVp; afs_globalVp = NULL; afs_PutVCache(gvp); } if (!(code = afs_InitReq(&treq, proc->p_cred)) && !(code = afs_CheckInit())) { tvp = afs_GetVCache(&afs_rootFid, &treq); /* we really want this to stay around */ if (tvp) { if (afs_globalVp) { /* someone else got there before us! */ afs_PutVCache(tvp); tvp = 0; goto again; } afs_globalVp = tvp; } else code = EIO; } } if (tvp) { AFS_FAST_HOLD(tvp); mutex_enter(&AFSTOV(tvp)->v_lock); AFSTOV(tvp)->v_flag |= VROOT; mutex_exit(&AFSTOV(tvp)->v_lock); afs_globalVFS = afsp; *avpp = AFSTOV(tvp); } afs_Trace2(afs_iclSetp, CM_TRACE_VFSROOT, ICL_TYPE_POINTER, *avpp, ICL_TYPE_INT32, code); AFS_GUNLOCK(); if (locked) { mutex_enter(&vp->v_lock); vp->v_flag &= ~VVFSLOCK; if (vp->v_flag & VVFSWAIT) { vp->v_flag &= ~VVFSWAIT; cv_broadcast(&vp->v_cv); } } return code; } int afs_statvfs(struct vfs *afsp, struct statvfs64 *abp) { AFS_GLOCK(); AFS_STATCNT(afs_statfs); abp->f_frsize = 1024; abp->f_bsize = afsp->vfs_bsize; abp->f_blocks = abp->f_bfree = abp->f_bavail = abp->f_files = abp->f_favail = abp->f_ffree = AFS_VFS_FAKEFREE; abp->f_fsid = (AFS_VFSMAGIC << 16) || AFS_VFSFSID; AFS_GUNLOCK(); return 0; } int afs_sync(struct vfs *afsp, short flags, afs_ucred_t *credp) { return 0; } int afs_vget(struct vfs *afsp, struct vnode **avcp, struct fid *fidp) { cred_t *credp = CRED(); struct vrequest treq; int code; AFS_GLOCK(); AFS_STATCNT(afs_vget); *avcp = NULL; if (!(code = afs_InitReq(&treq, credp))) { struct vcache *tvc = NULL; code = afs_osi_vget(&tvc, fidp, &treq); if (tvc) { *avcp = AFSTOV(tvc); } } afs_Trace3(afs_iclSetp, CM_TRACE_VGET, ICL_TYPE_POINTER, *avcp, ICL_TYPE_INT32, treq.uid, ICL_TYPE_FID, fidp); code = afs_CheckCode(code, &treq, 42); AFS_GUNLOCK(); return code; } /* This is only called by vfs_mount when afs is going to be mounted as root. * Since we don't support diskless clients we shouldn't come here. */ int afsmountroot = 0; afs_mountroot(struct vfs *afsp, whymountroot_t why) { AFS_GLOCK(); AFS_STATCNT(afs_mountroot); afsmountroot++; AFS_GUNLOCK(); return EINVAL; } /* afs_swapvp is called to setup swapping over the net for diskless clients. * Again not for us. */ int afsswapvp = 0; afs_swapvp(struct vfs *afsp, struct vnode **avpp, char *nm) { AFS_GLOCK(); AFS_STATCNT(afs_swapvp); afsswapvp++; AFS_GUNLOCK(); return EINVAL; } #if defined(AFS_SUN511_ENV) /* The following list must always be NULL-terminated */ static const fs_operation_def_t afs_vfsops_template[] = { VFSNAME_MOUNT, { .vfs_mount = afs_mount }, VFSNAME_UNMOUNT, { .vfs_unmount = afs_unmount }, VFSNAME_ROOT, { .vfs_root = afs_root }, VFSNAME_STATVFS, { .vfs_statvfs = afs_statvfs }, VFSNAME_SYNC, { .vfs_sync = afs_sync }, VFSNAME_VGET, { .vfs_vget = afs_vget }, VFSNAME_MOUNTROOT, { .vfs_mountroot = afs_mountroot }, VFSNAME_FREEVFS, { .vfs_freevfs = gafs_freevfs }, NULL, NULL }; struct vfsops *afs_vfsopsp; #elif defined(AFS_SUN510_ENV) /* The following list must always be NULL-terminated */ const fs_operation_def_t afs_vfsops_template[] = { VFSNAME_MOUNT, afs_mount, VFSNAME_UNMOUNT, afs_unmount, VFSNAME_ROOT, afs_root, VFSNAME_STATVFS, afs_statvfs, VFSNAME_SYNC, afs_sync, VFSNAME_VGET, afs_vget, VFSNAME_MOUNTROOT, afs_mountroot, VFSNAME_FREEVFS, gafs_freevfs, NULL, NULL }; struct vfsops *afs_vfsopsp; #else struct vfsops Afs_vfsops = { afs_mount, afs_unmount, afs_root, afs_statvfs, afs_sync, afs_vget, afs_mountroot, afs_swapvp, gafs_freevfs, }; #endif /* * afsinit - intialize VFS */ int (*ufs_iallocp) (); void (*ufs_iupdatp) (); int (*ufs_igetp) (); void (*ufs_itimes_nolockp) (); int (*afs_orig_ioctl) (), (*afs_orig_ioctl32) (); int (*afs_orig_setgroups) (), (*afs_orig_setgroups32) (); #ifndef AFS_SUN510_ENV struct ill_s *ill_g_headp = 0; #endif int afs_sinited = 0; extern struct fs_operation_def afs_vnodeops_template[]; #if !defined(AFS_NONFSTRANS) int (*nfs_rfsdisptab_v2) (); int (*nfs_rfsdisptab_v3) (); int (*nfs_acldisptab_v2) (); int (*nfs_acldisptab_v3) (); int (*nfs_checkauth) (); #endif extern Afs_syscall(); static void * do_mod_lookup(const char * mod, const char * sym) { void * ptr; ptr = modlookup(mod, sym); if (ptr == NULL) { afs_warn("modlookup failed for symbol '%s' in module '%s'\n", sym, mod); } return ptr; } #ifdef AFS_SUN510_ENV afsinit(int fstype, char *dummy) #else afsinit(struct vfssw *vfsswp, int fstype) #endif { extern int afs_xioctl(); extern int afs_xsetgroups(); AFS_STATCNT(afsinit); afs_orig_setgroups = sysent[SYS_setgroups].sy_callc; afs_orig_ioctl = sysent[SYS_ioctl].sy_call; sysent[SYS_setgroups].sy_callc = afs_xsetgroups; sysent[SYS_ioctl].sy_call = afs_xioctl; #if defined(AFS_SUN5_64BIT_ENV) afs_orig_setgroups32 = sysent32[SYS_setgroups].sy_callc; afs_orig_ioctl32 = sysent32[SYS_ioctl].sy_call; sysent32[SYS_setgroups].sy_callc = afs_xsetgroups; sysent32[SYS_ioctl].sy_call = afs_xioctl; #endif /* AFS_SUN5_64BIT_ENV */ #ifdef AFS_SUN510_ENV vfs_setfsops(fstype, afs_vfsops_template, &afs_vfsopsp); afsfstype = fstype; vn_make_ops("afs", afs_vnodeops_template, &afs_ops); #else /* !AFS_SUN510_ENV */ vfsswp->vsw_vfsops = &Afs_vfsops; afsfstype = fstype; #endif /* !AFS_SUN510_ENV */ #if !defined(AFS_NONFSTRANS) nfs_rfsdisptab_v2 = (int (*)()) do_mod_lookup("nfssrv", "rfsdisptab_v2"); if (nfs_rfsdisptab_v2 != NULL) { nfs_acldisptab_v2 = (int (*)()) do_mod_lookup("nfssrv", "acldisptab_v2"); if (nfs_acldisptab_v2 != NULL) { afs_xlatorinit_v2(nfs_rfsdisptab_v2, nfs_acldisptab_v2); } } nfs_rfsdisptab_v3 = (int (*)()) do_mod_lookup("nfssrv", "rfsdisptab_v3"); if (nfs_rfsdisptab_v3 != NULL) { nfs_acldisptab_v3 = (int (*)()) do_mod_lookup("nfssrv", "acldisptab_v3"); if (nfs_acldisptab_v3 != NULL) { afs_xlatorinit_v3(nfs_rfsdisptab_v3, nfs_acldisptab_v3); } } nfs_checkauth = (int (*)()) do_mod_lookup("nfssrv", "checkauth"); #endif /* !AFS_NONFSTRANS */ ufs_iallocp = (int (*)()) do_mod_lookup("ufs", "ufs_ialloc"); ufs_iupdatp = (void (*)()) do_mod_lookup("ufs", "ufs_iupdat"); ufs_igetp = (int (*)()) do_mod_lookup("ufs", "ufs_iget"); ufs_itimes_nolockp = (void (*)()) do_mod_lookup("ufs", "ufs_itimes_nolock"); if (!ufs_iallocp || !ufs_iupdatp || !ufs_itimes_nolockp || !ufs_igetp) { afs_warn("AFS to UFS mapping cannot be fully initialised\n"); } #if !defined(AFS_SUN510_ENV) ill_g_headp = (struct ill_s *) do_mod_lookup("ip", "ill_g_head"); #endif /* !AFS_SUN510_ENV */ afs_sinited = 1; return 0; } #ifdef AFS_SUN510_ENV #ifdef AFS_SUN511_ENV static vfsdef_t afs_vfsdef = { VFSDEF_VERSION, "afs", afsinit, VSW_STATS, NULL }; #else static struct vfsdef_v3 afs_vfsdef = { VFSDEF_VERSION, "afs", afsinit, VSW_STATS }; #endif #else static struct vfssw afs_vfw = { "afs", afsinit, &Afs_vfsops, 0 }; #endif #ifndef AFS_SUN511_ENV static struct sysent afssysent = { 6, 0, Afs_syscall }; #endif /* AFS_SUN511_ENV */ /* * Info/Structs to link the afs module into the kernel */ extern struct mod_ops mod_fsops; static struct modlfs afsmodlfs = { &mod_fsops, "afs filesystem", #ifdef AFS_SUN510_ENV &afs_vfsdef #else &afs_vfw #endif }; #ifdef AFS_SUN511_ENV extern struct modldrv afs_modldrv; #else /* AFS_SUN511_ENV */ extern struct mod_ops mod_syscallops; static struct modlsys afsmodlsys = { &mod_syscallops, "afs syscall interface", &afssysent }; /** The two structures afssysent32 and afsmodlsys32 are being added * for supporting 32 bit syscalls. In Solaris 7 there are two system * tables viz. sysent ans sysent32. 32 bit applications use sysent32. * Since most of our user space binaries are going to be 32 bit * we need to attach to sysent32 also. Note that the entry into AFS * land still happens through Afs_syscall irrespective of whether we * land here from sysent or sysent32 */ # if defined(AFS_SUN5_64BIT_ENV) extern struct mod_ops mod_syscallops32; static struct modlsys afsmodlsys32 = { &mod_syscallops32, "afs syscall interface(32 bit)", &afssysent }; # endif #endif /* !AFS_SUN511_ENV */ static struct modlinkage afs_modlinkage = { MODREV_1, (void *)&afsmodlfs, #ifdef AFS_SUN511_ENV (void *)&afs_modldrv, #else (void *)&afsmodlsys, # ifdef AFS_SUN5_64BIT_ENV (void *)&afsmodlsys32, # endif #endif /* !AFS_SUN511_ENV */ NULL }; static void reset_sysent(void) { if (afs_sinited) { sysent[SYS_setgroups].sy_callc = afs_orig_setgroups; sysent[SYS_ioctl].sy_call = afs_orig_ioctl; #if defined(AFS_SUN5_64BIT_ENV) sysent32[SYS_setgroups].sy_callc = afs_orig_setgroups32; sysent32[SYS_ioctl].sy_call = afs_orig_ioctl32; #endif } } /** This is the function that modload calls when loading the afs kernel * extensions. The solaris modload program searches for the _init * function in a module and calls it when modloading */ _init() { char *sysn, *mod_getsysname(); int code; extern char *sysbind; extern struct bind *sb_hashtab[]; struct modctl *mp = 0; if (afs_sinited) return EBUSY; if ((!(mp = mod_find_by_filename("fs", "ufs")) && !(mp = mod_find_by_filename(NULL, "/kernel/fs/ufs")) && !(mp = mod_find_by_filename(NULL, "sys/ufs"))) || (mp && !mp-> mod_installed)) { printf ("ufs module must be loaded before loading afs; use modload /kernel/fs/ufs\n"); return (ENOSYS); } #ifndef AFS_NONFSTRANS if ((!(mp = mod_find_by_filename("misc", "nfssrv")) && !(mp = mod_find_by_filename(NULL, NFSSRV)) && !(mp = mod_find_by_filename(NULL, NFSSRV_V9)) && !(mp = mod_find_by_filename(NULL, NFSSRV_AMD64))) || (mp && !mp-> mod_installed)) { printf ("misc/nfssrv module must be loaded before loading afs with nfs-xlator\n"); return (ENOSYS); } #endif /* !AFS_NONFSTRANS */ osi_Init(); /* initialize global lock, etc */ code = mod_install(&afs_modlinkage); if (code) { /* we failed to load, so make sure we don't leave behind any * references to our syscall handlers */ reset_sysent(); } return code; } _info(modp) struct modinfo *modp; { int code; code = mod_info(&afs_modlinkage, modp); return code; } _fini() { int code; if (afs_globalVFS) return EBUSY; reset_sysent(); code = mod_remove(&afs_modlinkage); return code; }