/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern int moddebug; extern struct cb_ops no_cb_ops; extern struct dev_ops nodev_ops; extern struct dev_ops mod_nodev_ops; extern struct modctl *mod_getctl(struct modlinkage *); extern int errsys(), nodev(), nulldev(); extern int findmodbyname(char *); extern int mod_getsysnum(char *); extern struct execsw execsw[]; /* * Define dev_ops for unused devopsp entry. */ struct dev_ops mod_nodev_ops = { DEVO_REV, /* devo_rev */ 0, /* refcnt */ ddi_no_info, /* info */ nulldev, /* identify */ nulldev, /* probe */ ddifail, /* attach */ nodev, /* detach */ nulldev, /* reset */ &no_cb_ops, /* character/block driver operations */ (struct bus_ops *)0 /* bus operations for nexus drivers */ }; /* * Define mod_ops for each supported module type */ /* * Null operations; used for uninitialized and "misc" modules. */ static int mod_null(struct modldrv *, struct modlinkage *); static int mod_infonull(void *, struct modlinkage *, int *); struct mod_ops mod_miscops = { mod_null, mod_null, mod_infonull }; /* CPU Modules */ struct mod_ops mod_cpuops = { mod_null, mod_null, mod_infonull }; /* * Cryptographic Modules */ struct mod_ops mod_cryptoops = { mod_null, mod_null, mod_infonull }; /* * IP Policy Modules */ static int mod_installipp(struct modlipp *, struct modlinkage *); static int mod_removeipp(struct modlipp *, struct modlinkage *); static int mod_infoipp(struct modlipp *, struct modlinkage *, int *); struct mod_ops mod_ippops = { mod_installipp, mod_removeipp, mod_infoipp }; /* * Device drivers */ static int mod_infodrv(struct modldrv *, struct modlinkage *, int *); static int mod_installdrv(struct modldrv *, struct modlinkage *); static int mod_removedrv(struct modldrv *, struct modlinkage *); struct mod_ops mod_driverops = { mod_installdrv, mod_removedrv, mod_infodrv }; /* * System calls (new interface) */ static int mod_infosys(struct modlsys *, struct modlinkage *, int *); static int mod_installsys(struct modlsys *, struct modlinkage *); static int mod_removesys(struct modlsys *, struct modlinkage *); struct mod_ops mod_syscallops = { mod_installsys, mod_removesys, mod_infosys }; #ifdef _SYSCALL32_IMPL /* * 32-bit system calls in 64-bit kernel */ static int mod_infosys32(struct modlsys *, struct modlinkage *, int *); static int mod_installsys32(struct modlsys *, struct modlinkage *); static int mod_removesys32(struct modlsys *, struct modlinkage *); struct mod_ops mod_syscallops32 = { mod_installsys32, mod_removesys32, mod_infosys32 }; #endif /* _SYSCALL32_IMPL */ /* * Filesystems */ static int mod_infofs(struct modlfs *, struct modlinkage *, int *); static int mod_installfs(struct modlfs *, struct modlinkage *); static int mod_removefs(struct modlfs *, struct modlinkage *); struct mod_ops mod_fsops = { mod_installfs, mod_removefs, mod_infofs }; /* * Streams modules. */ static int mod_infostrmod(struct modlstrmod *, struct modlinkage *, int *); static int mod_installstrmod(struct modlstrmod *, struct modlinkage *); static int mod_removestrmod(struct modlstrmod *, struct modlinkage *); struct mod_ops mod_strmodops = { mod_installstrmod, mod_removestrmod, mod_infostrmod }; /* * Socket modules. */ static int mod_infosockmod(struct modlsockmod *, struct modlinkage *, int *); static int mod_installsockmod(struct modlsockmod *, struct modlinkage *); static int mod_removesockmod(struct modlsockmod *, struct modlinkage *); struct mod_ops mod_sockmodops = { mod_installsockmod, mod_removesockmod, mod_infosockmod }; /* * Scheduling classes. */ static int mod_infosched(struct modlsched *, struct modlinkage *, int *); static int mod_installsched(struct modlsched *, struct modlinkage *); static int mod_removesched(struct modlsched *, struct modlinkage *); struct mod_ops mod_schedops = { mod_installsched, mod_removesched, mod_infosched }; /* * Exec file type (like ELF, ...). */ static int mod_infoexec(struct modlexec *, struct modlinkage *, int *); static int mod_installexec(struct modlexec *, struct modlinkage *); static int mod_removeexec(struct modlexec *, struct modlinkage *); struct mod_ops mod_execops = { mod_installexec, mod_removeexec, mod_infoexec }; /* * Dacf (Dynamic Autoconfiguration) modules. */ static int mod_infodacf(struct modldacf *, struct modlinkage *, int *); static int mod_installdacf(struct modldacf *, struct modlinkage *); static int mod_removedacf(struct modldacf *, struct modlinkage *); struct mod_ops mod_dacfops = { mod_installdacf, mod_removedacf, mod_infodacf }; /* * /dev fs modules */ static int mod_infodev(struct modldev *, struct modlinkage *, int *); static int mod_installdev(struct modldev *, struct modlinkage *); static int mod_removedev(struct modldev *, struct modlinkage *); struct mod_ops mod_devfsops = { mod_installdev, mod_removedev, mod_infodev }; /* * PCBE (Performance Counter BackEnd) modules. */ static int mod_installpcbe(struct modlpcbe *, struct modlinkage *); static int mod_removepcbe(struct modlpcbe *, struct modlinkage *); struct mod_ops mod_pcbeops = { mod_installpcbe, mod_removepcbe, mod_infonull }; /* * Brand modules. */ static int mod_installbrand(struct modlbrand *, struct modlinkage *); static int mod_removebrand(struct modlbrand *, struct modlinkage *); struct mod_ops mod_brandops = { mod_installbrand, mod_removebrand, mod_infonull }; /* * kiconv modules. */ static int mod_installkiconv(struct modlkiconv *, struct modlinkage *); static int mod_removekiconv(struct modlkiconv *, struct modlinkage *); struct mod_ops mod_kiconvops = { mod_installkiconv, mod_removekiconv, mod_infonull }; static struct sysent *mod_getsysent(struct modlinkage *, struct sysent *); static char uninstall_err[] = "Cannot uninstall %s; not installed"; /* * Debugging support */ #define DRV_DBG MODDEBUG_LOADMSG2 /*PRINTFLIKE2*/ static void mod_dprintf(int flag, const char *format, ...) __KPRINTFLIKE(2); static void mod_dprintf(int flag, const char *format, ...) { va_list alist; if ((moddebug & flag) != 0) { va_start(alist, format); (void) vprintf(format, alist); va_end(alist); } } /* * Install a module. * (This routine is in the Solaris SPARC DDI/DKI) */ int mod_install(struct modlinkage *modlp) { int retval = -1; /* No linkage structures */ struct modlmisc **linkpp; struct modlmisc **linkpp1; if (modlp->ml_rev != MODREV_1) { printf("mod_install: modlinkage structure is not MODREV_1\n"); return (EINVAL); } linkpp = (struct modlmisc **)&modlp->ml_linkage[0]; while (*linkpp != NULL) { if ((retval = MODL_INSTALL(*linkpp, modlp)) != 0) { linkpp1 = (struct modlmisc **)&modlp->ml_linkage[0]; while (linkpp1 != linkpp) { MODL_REMOVE(*linkpp1, modlp); /* clean up */ linkpp1++; } break; } linkpp++; } return (retval); } static char *reins_err = "Could not reinstall %s\nReboot to correct the problem"; /* * Remove a module. This is called by the module wrapper routine. * (This routine is in the Solaris SPARC DDI/DKI) */ int mod_remove(struct modlinkage *modlp) { int retval = 0; struct modlmisc **linkpp, *last_linkp; linkpp = (struct modlmisc **)&modlp->ml_linkage[0]; while (*linkpp != NULL) { if ((retval = MODL_REMOVE(*linkpp, modlp)) != 0) { last_linkp = *linkpp; linkpp = (struct modlmisc **)&modlp->ml_linkage[0]; while (*linkpp != last_linkp) { if (MODL_INSTALL(*linkpp, modlp) != 0) { cmn_err(CE_WARN, reins_err, (*linkpp)->misc_linkinfo); break; } linkpp++; } break; } linkpp++; } return (retval); } /* * Get module status. * (This routine is in the Solaris SPARC DDI/DKI) */ int mod_info(struct modlinkage *modlp, struct modinfo *modinfop) { int i; int retval = 0; struct modspecific_info *msip; struct modlmisc **linkpp; modinfop->mi_rev = modlp->ml_rev; linkpp = (struct modlmisc **)modlp->ml_linkage; msip = &modinfop->mi_msinfo[0]; for (i = 0; i < MODMAXLINK; i++) { if (*linkpp == NULL) { msip->msi_linkinfo[0] = '\0'; } else { (void) strncpy(msip->msi_linkinfo, (*linkpp)->misc_linkinfo, MODMAXLINKINFOLEN); retval = MODL_INFO(*linkpp, modlp, &msip->msi_p0); if (retval != 0) break; linkpp++; } msip++; } if (modinfop->mi_info == MI_INFO_LINKAGE) { /* * Slight kludge used to extract the address of the * modlinkage structure from the module (just after * loading a module for the very first time) */ modinfop->mi_base = (void *)modlp; } if (retval == 0) return (1); return (0); } /* * Get module name. */ const char * mod_modname(struct modlinkage *modlp) { struct modctl *mcp; if ((mcp = mod_getctl(modlp)) == NULL) return (NULL); return (mcp->mod_modname); } /* * Null operation; return 0. */ /*ARGSUSED*/ static int mod_null(struct modldrv *modl, struct modlinkage *modlp) { return (0); } /* * Status for User modules. */ /*ARGSUSED*/ static int mod_infonull(void *modl, struct modlinkage *modlp, int *p0) { *p0 = -1; /* for modinfo display */ return (0); } /* * Driver status info */ /*ARGSUSED*/ static int mod_infodrv(struct modldrv *modl, struct modlinkage *modlp, int *p0) { struct modctl *mcp; char *mod_name; if ((mcp = mod_getctl(modlp)) == NULL) { *p0 = -1; return (0); /* driver is not yet installed */ } mod_name = mcp->mod_modname; *p0 = ddi_name_to_major(mod_name); return (0); } /* * Manage dacf (device autoconfiguration) modules */ /*ARGSUSED*/ static int mod_infodacf(struct modldacf *modl, struct modlinkage *modlp, int *p0) { if (mod_getctl(modlp) == NULL) { *p0 = -1; return (0); /* module is not yet installed */ } *p0 = 0; return (0); } static int mod_installdacf(struct modldacf *modl, struct modlinkage *modlp) { struct modctl *mcp; if ((mcp = mod_getctl(modlp)) == NULL) return (EINVAL); return (dacf_module_register(mcp->mod_modname, modl->dacf_dacfsw)); } /*ARGSUSED*/ static int mod_removedacf(struct modldacf *modl, struct modlinkage *modlp) { struct modctl *mcp; if ((mcp = mod_getctl(modlp)) == NULL) return (EINVAL); return (dacf_module_unregister(mcp->mod_modname)); } /* * Manage PCBE (Performance Counter BackEnd) modules. */ /*ARGSUSED*/ static int mod_installpcbe(struct modlpcbe *modl, struct modlinkage *modlp) { if (modl->pcbe_ops->pcbe_ver != PCBE_VER_1) { cmn_err(CE_WARN, "pcbe '%s' version mismatch", modl->pcbe_linkinfo); return (EINVAL); } kcpc_register_pcbe(modl->pcbe_ops); return (0); } /* * PCBEs may not be unloaded. It would make CPC locking too complex, and since * PCBEs are loaded once and used for life, there is no harm done in leaving * them in the system. */ /*ARGSUSED*/ static int mod_removepcbe(struct modlpcbe *modl, struct modlinkage *modlp) { return (EBUSY); } /* * Manage BrandZ modules. */ /*ARGSUSED*/ static int mod_installbrand(struct modlbrand *modl, struct modlinkage *modlp) { return (brand_register(modl->brand_branddef)); } /*ARGSUSED*/ static int mod_removebrand(struct modlbrand *modl, struct modlinkage *modlp) { return (brand_unregister(modl->brand_branddef)); } /* * manage /dev fs modules */ /*ARGSUSED*/ static int mod_infodev(struct modldev *modl, struct modlinkage *modlp, int *p0) { if (mod_getctl(modlp) == NULL) { *p0 = -1; return (0); /* module is not yet installed */ } *p0 = 0; return (0); } static int mod_installdev(struct modldev *modl, struct modlinkage *modlp) { struct modctl *mcp; if ((mcp = mod_getctl(modlp)) == NULL) return (EINVAL); return (sdev_module_register(mcp->mod_modname, modl->dev_ops)); } /* * /dev modules are not unloadable. */ /*ARGSUSED*/ static int mod_removedev(struct modldev *modl, struct modlinkage *modlp) { return (EBUSY); } /* * Install a new driver */ static int mod_installdrv(struct modldrv *modl, struct modlinkage *modlp) { struct modctl *mcp; struct dev_ops *ops; char *modname; major_t major; struct dev_ops *dp; struct devnames *dnp; struct streamtab *str; cdevsw_impl_t *cdp; uint_t sqtype; uint_t qflag; uint_t flag; int err = 0; /* sanity check module */ if ((mcp = mod_getctl(modlp)) == NULL) { cmn_err(CE_WARN, "mod_install: bad module linkage data"); err = ENXIO; goto done; } modname = mcp->mod_modname; /* Sanity check modname */ if ((major = ddi_name_to_major(modname)) == DDI_MAJOR_T_NONE) { #ifdef DEBUG cmn_err(CE_WARN, "mod_installdrv: no major number for %s", modname); #endif err = ENXIO; goto done; } /* Verify MP safety flag */ ops = modl->drv_dev_ops; if (ops->devo_bus_ops == NULL && ops->devo_cb_ops != NULL && !(ops->devo_cb_ops->cb_flag & D_MP)) { cmn_err(CE_WARN, "mod_installdrv: MT-unsafe driver '%s' rejected", modname); err = ENXIO; goto done; } /* Is bus_map_fault signature correct (version 8 and higher)? */ if (ops->devo_bus_ops != NULL && ops->devo_bus_ops->bus_map_fault != NULL && ops->devo_bus_ops->bus_map_fault != i_ddi_map_fault && ops->devo_bus_ops->busops_rev < BUSO_REV_8) { cmn_err(CE_WARN, "mod_installdrv: busops' revision of '%s' is too low" " (must be at least 8)", modname); err = ENXIO; goto done; } /* Make sure the driver is uninstalled */ dnp = &devnamesp[major]; LOCK_DEV_OPS(&dnp->dn_lock); dp = devopsp[major]; if (dnp->dn_flags & DN_DRIVER_REMOVED) { #ifdef DEBUG cmn_err(CE_NOTE, "mod_installdrv: driver has been removed %s", modname); #endif err = ENXIO; goto unlock; } if (dp != &nodev_ops && dp != &mod_nodev_ops) { cmn_err(CE_WARN, "mod_installdrv: driver already installed %s", modname); err = EALREADY; goto unlock; } devopsp[major] = ops; /* setup devopsp */ if ((str = STREAMSTAB(major)) != NULL) { /* streams driver */ flag = CBFLAG(major); if ((err = devflg_to_qflag(str, flag, &qflag, &sqtype)) != 0) goto unlock; cdp = &devimpl[major]; ASSERT(cdp->d_str == NULL); cdp->d_str = str; cdp->d_qflag = qflag | QISDRV; cdp->d_sqtype = sqtype; } if (ops->devo_bus_ops == NULL) dnp->dn_flags |= DN_LEAF_DRIVER; unlock: UNLOCK_DEV_OPS(&dnp->dn_lock); done: return (err); } static int mod_removedrv(struct modldrv *modl, struct modlinkage *modlp) { struct modctl *mcp; struct dev_ops *ops; struct devnames *dnp; struct dev_ops *dp; major_t major; char *modname; extern kthread_id_t mod_aul_thread; struct streamtab *str; cdevsw_impl_t *cdp; int err = 0; /* Don't auto unload modules on if moddebug flag is set */ if ((moddebug & MODDEBUG_NOAUL_DRV) && (mod_aul_thread == curthread)) { err = EBUSY; goto done; } /* Verify modname has a driver major */ mcp = mod_getctl(modlp); ASSERT(mcp != NULL); modname = mcp->mod_modname; if ((major = ddi_name_to_major(modname)) == -1) { cmn_err(CE_WARN, uninstall_err, modname); err = EINVAL; goto done; } ops = modl->drv_dev_ops; dnp = &(devnamesp[major]); LOCK_DEV_OPS(&(dnp->dn_lock)); dp = devopsp[major]; if (dp != ops) { cmn_err(CE_NOTE, "mod_removedrv: mismatched driver for %s", modname); err = EBUSY; goto unlock; } /* * A driver is not unloadable if its dev_ops are held */ if (!DRV_UNLOADABLE(dp)) { mod_dprintf(DRV_DBG, "Cannot unload device driver <%s>," " refcnt %d\n", modname, dp->devo_refcnt); err = EBUSY; goto unlock; } /* * OK to unload. */ if ((str = STREAMSTAB(major)) != NULL) { /* streams driver */ cdp = &devimpl[major]; ASSERT(cdp->d_str == str); cdp->d_str = NULL; /* check for reference to per-dev syncq */ if (cdp->d_dmp != NULL) { rele_dm(cdp->d_dmp); cdp->d_dmp = NULL; } } devopsp[major] = &mod_nodev_ops; dnp->dn_flags &= ~(DN_DRIVER_HELD|DN_NO_AUTODETACH); unlock: UNLOCK_DEV_OPS(&(dnp->dn_lock)); done: return (err); } /* * System call subroutines */ /* * Compute system call number for given sysent and sysent table */ static int mod_infosysnum(struct modlinkage *modlp, struct sysent table[]) { struct sysent *sysp; if ((sysp = mod_getsysent(modlp, table)) == NULL) return (-1); return ((int)(sysp - table)); } /* * Put a loadable system call entry into a sysent table. */ static int mod_installsys_sysent( struct modlsys *modl, struct modlinkage *modlp, struct sysent table[]) { struct sysent *sysp; struct sysent *mp; #ifdef DEBUG /* * Before we even play with the sysent table, sanity check the * incoming flags to make sure the entry is valid */ switch (modl->sys_sysent->sy_flags & SE_RVAL_MASK) { case SE_32RVAL1: /* only r_val1 returned */ case SE_32RVAL1 | SE_32RVAL2: /* r_val1 and r_val2 returned */ case SE_64RVAL: /* 64-bit rval returned */ break; default: cmn_err(CE_WARN, "loadable syscall: %p: bad rval flags %x", (void *)modl, modl->sys_sysent->sy_flags); return (ENOSYS); } #endif if ((sysp = mod_getsysent(modlp, table)) == NULL) return (ENOSPC); /* * We should only block here until the reader in syscall gives * up the lock. Multiple writers are prevented in the mod layer. */ rw_enter(sysp->sy_lock, RW_WRITER); mp = modl->sys_sysent; sysp->sy_narg = mp->sy_narg; sysp->sy_call = mp->sy_call; /* * clear the old call method flag, and get the new one from the module. */ sysp->sy_flags &= ~SE_ARGC; sysp->sy_flags |= SE_LOADED | (mp->sy_flags & (SE_ARGC | SE_NOUNLOAD | SE_RVAL_MASK)); /* * If the syscall doesn't need or want unloading, it can avoid * the locking overhead on each entry. Convert the sysent to a * normal non-loadable entry in that case. */ if (mp->sy_flags & SE_NOUNLOAD) { if (mp->sy_flags & SE_ARGC) { sysp->sy_callc = (int64_t (*)())mp->sy_call; } else { sysp->sy_callc = syscall_ap; } sysp->sy_flags &= ~SE_LOADABLE; } rw_exit(sysp->sy_lock); return (0); } /* * Remove a loadable system call entry from a sysent table. */ static int mod_removesys_sysent( struct modlsys *modl, struct modlinkage *modlp, struct sysent table[]) { struct sysent *sysp; if ((sysp = mod_getsysent(modlp, table)) == NULL || (sysp->sy_flags & (SE_LOADABLE | SE_NOUNLOAD)) == 0 || sysp->sy_call != modl->sys_sysent->sy_call) { struct modctl *mcp = mod_getctl(modlp); char *modname = mcp->mod_modname; cmn_err(CE_WARN, uninstall_err, modname); return (EINVAL); } /* If we can't get the write lock, we can't unlink from the system */ if (!(moddebug & MODDEBUG_NOAUL_SYS) && rw_tryenter(sysp->sy_lock, RW_WRITER)) { /* * Check the flags to be sure the syscall is still * (un)loadable. * If SE_NOUNLOAD is set, SE_LOADABLE will not be. */ if ((sysp->sy_flags & (SE_LOADED | SE_LOADABLE)) == (SE_LOADED | SE_LOADABLE)) { sysp->sy_flags &= ~SE_LOADED; sysp->sy_callc = loadable_syscall; sysp->sy_call = (int (*)())nosys; rw_exit(sysp->sy_lock); return (0); } rw_exit(sysp->sy_lock); } return (EBUSY); } /* * System call status info */ /*ARGSUSED*/ static int mod_infosys(struct modlsys *modl, struct modlinkage *modlp, int *p0) { *p0 = mod_infosysnum(modlp, sysent); return (0); } /* * Link a system call into the system by setting the proper sysent entry. * Called from the module's _init routine. */ static int mod_installsys(struct modlsys *modl, struct modlinkage *modlp) { return (mod_installsys_sysent(modl, modlp, sysent)); } /* * Unlink a system call from the system. * Called from a modules _fini routine. */ static int mod_removesys(struct modlsys *modl, struct modlinkage *modlp) { return (mod_removesys_sysent(modl, modlp, sysent)); } #ifdef _SYSCALL32_IMPL /* * 32-bit system call status info */ /*ARGSUSED*/ static int mod_infosys32(struct modlsys *modl, struct modlinkage *modlp, int *p0) { *p0 = mod_infosysnum(modlp, sysent32); return (0); } /* * Link the 32-bit syscall into the system by setting the proper sysent entry. * Also called from the module's _init routine. */ static int mod_installsys32(struct modlsys *modl, struct modlinkage *modlp) { return (mod_installsys_sysent(modl, modlp, sysent32)); } /* * Unlink the 32-bit flavor of a system call from the system. * Also called from a module's _fini routine. */ static int mod_removesys32(struct modlsys *modl, struct modlinkage *modlp) { return (mod_removesys_sysent(modl, modlp, sysent32)); } #endif /* _SYSCALL32_IMPL */ /* * Filesystem status info */ /*ARGSUSED*/ static int mod_infofs(struct modlfs *modl, struct modlinkage *modlp, int *p0) { struct vfssw *vswp; RLOCK_VFSSW(); if ((vswp = vfs_getvfsswbyname(modl->fs_vfsdef->name)) == NULL) *p0 = -1; else { *p0 = vswp - vfssw; vfs_unrefvfssw(vswp); } RUNLOCK_VFSSW(); return (0); } /* * Install a filesystem. */ /*ARGSUSED1*/ static int mod_installfs(struct modlfs *modl, struct modlinkage *modlp) { struct vfssw *vswp; struct modctl *mcp; char *fsname; char ksname[KSTAT_STRLEN + 1]; int fstype; /* index into vfssw[] and vsanchor_fstype[] */ int allocated; int err; int vsw_stats_enabled; /* Not for public consumption so these aren't in a header file */ extern int vopstats_enabled; extern vopstats_t **vopstats_fstype; extern kstat_t *new_vskstat(char *, vopstats_t *); extern void initialize_vopstats(vopstats_t *); if (modl->fs_vfsdef->def_version == VFSDEF_VERSION) { /* Version matched */ fsname = modl->fs_vfsdef->name; } else { if ((modl->fs_vfsdef->def_version > 0) && (modl->fs_vfsdef->def_version < VFSDEF_VERSION)) { /* Older VFSDEF_VERSION */ fsname = modl->fs_vfsdef->name; } else if ((mcp = mod_getctl(modlp)) != NULL) { /* Pre-VFSDEF_VERSION */ fsname = mcp->mod_modname; } else { /* If all else fails... */ fsname = ""; } cmn_err(CE_WARN, "file system '%s' version mismatch", fsname); return (ENXIO); } allocated = 0; WLOCK_VFSSW(); if ((vswp = vfs_getvfsswbyname(fsname)) == NULL) { if ((vswp = allocate_vfssw(fsname)) == NULL) { WUNLOCK_VFSSW(); /* * See 1095689. If this message appears, then * we either need to make the vfssw table bigger * statically, or make it grow dynamically. */ cmn_err(CE_WARN, "no room for '%s' in vfssw!", fsname); return (ENXIO); } allocated = 1; } ASSERT(vswp != NULL); fstype = vswp - vfssw; /* Pointer arithmetic to get the fstype */ /* Turn on everything by default *except* VSW_STATS */ vswp->vsw_flag = modl->fs_vfsdef->flags & ~(VSW_STATS); if (modl->fs_vfsdef->flags & VSW_HASPROTO) { vfs_mergeopttbl(&vfs_mntopts, modl->fs_vfsdef->optproto, &vswp->vsw_optproto); } else { vfs_copyopttbl(&vfs_mntopts, &vswp->vsw_optproto); } if (modl->fs_vfsdef->flags & VSW_CANRWRO) { /* * This obviously implies VSW_CANREMOUNT. */ vswp->vsw_flag |= VSW_CANREMOUNT; } /* * If stats are enabled system wide and for this fstype, then * set the VSW_STATS flag in the proper vfssw[] table entry. */ if (vopstats_enabled && modl->fs_vfsdef->flags & VSW_STATS) { vswp->vsw_flag |= VSW_STATS; } if (modl->fs_vfsdef->init == NULL) err = EFAULT; else err = (*(modl->fs_vfsdef->init))(fstype, fsname); if (err != 0) { if (allocated) { kmem_free(vswp->vsw_name, strlen(vswp->vsw_name)+1); vswp->vsw_name = ""; } vswp->vsw_flag = 0; vswp->vsw_init = NULL; } /* We don't want to hold the vfssw[] write lock over a kmem_alloc() */ vsw_stats_enabled = vswp->vsw_flag & VSW_STATS; vfs_unrefvfssw(vswp); WUNLOCK_VFSSW(); /* If everything is on, set up the per-fstype vopstats */ if (vsw_stats_enabled && vopstats_enabled && vopstats_fstype && vopstats_fstype[fstype] == NULL) { (void) strlcpy(ksname, VOPSTATS_STR, sizeof (ksname)); (void) strlcat(ksname, vfssw[fstype].vsw_name, sizeof (ksname)); vopstats_fstype[fstype] = kmem_alloc(sizeof (vopstats_t), KM_SLEEP); initialize_vopstats(vopstats_fstype[fstype]); (void) new_vskstat(ksname, vopstats_fstype[fstype]); } return (err); } /* * Remove a filesystem */ static int mod_removefs(struct modlfs *modl, struct modlinkage *modlp) { struct vfssw *vswp; struct modctl *mcp; char *modname; if (moddebug & MODDEBUG_NOAUL_FS) return (EBUSY); WLOCK_VFSSW(); if ((vswp = vfs_getvfsswbyname(modl->fs_vfsdef->name)) == NULL) { mcp = mod_getctl(modlp); ASSERT(mcp != NULL); modname = mcp->mod_modname; WUNLOCK_VFSSW(); cmn_err(CE_WARN, uninstall_err, modname); return (EINVAL); } if (vswp->vsw_count != 1) { vfs_unrefvfssw(vswp); WUNLOCK_VFSSW(); return (EBUSY); } /* * A mounted filesystem could still have vsw_count = 0 * so we must check whether anyone is actually using our ops */ if (vfs_opsinuse(&vswp->vsw_vfsops)) { vfs_unrefvfssw(vswp); WUNLOCK_VFSSW(); return (EBUSY); } vfs_freeopttbl(&vswp->vsw_optproto); vswp->vsw_optproto.mo_count = 0; vswp->vsw_flag = 0; vswp->vsw_init = NULL; vfs_unrefvfssw(vswp); WUNLOCK_VFSSW(); return (0); } /* * Get status of a streams module. */ /*ARGSUSED*/ static int mod_infostrmod(struct modlstrmod *modl, struct modlinkage *modlp, int *p0) { *p0 = -1; /* no useful info */ return (0); } /* * Install a streams module. */ /*ARGSUSED*/ static int mod_installstrmod(struct modlstrmod *modl, struct modlinkage *modlp) { struct fmodsw *fp = modl->strmod_fmodsw; if (!(fp->f_flag & D_MP)) { cmn_err(CE_WARN, "mod_install: MT-unsafe strmod '%s' rejected", fp->f_name); return (ENXIO); } return (fmodsw_register(fp->f_name, fp->f_str, fp->f_flag)); } /* * Remove a streams module. */ /*ARGSUSED*/ static int mod_removestrmod(struct modlstrmod *modl, struct modlinkage *modlp) { if (moddebug & MODDEBUG_NOAUL_STR) return (EBUSY); return (fmodsw_unregister(modl->strmod_fmodsw->f_name)); } /* * Get status of a socket module. */ /*ARGSUSED*/ static int mod_infosockmod(struct modlsockmod *modl, struct modlinkage *modlp, int *p0) { *p0 = -1; /* no useful info */ return (0); } /* * Install a socket module. */ /*ARGSUSED*/ static int mod_installsockmod(struct modlsockmod *modl, struct modlinkage *modlp) { struct modctl *mcp; char *mod_name; mcp = mod_getctl(modlp); ASSERT(mcp != NULL); mod_name = mcp->mod_modname; if (strcmp(mod_name, modl->sockmod_reg_info->smod_name) != 0) { #ifdef DEBUG cmn_err(CE_CONT, "mod_installsockmod: different names" " %s != %s \n", mod_name, modl->sockmod_reg_info->smod_name); #endif return (EINVAL); } /* * Register module. */ return (smod_register(modl->sockmod_reg_info)); } /* * Remove a socket module. */ /*ARGSUSED*/ static int mod_removesockmod(struct modlsockmod *modl, struct modlinkage *modlp) { /* * unregister from the global socket creation table * check the refcnt in the lookup table */ return (smod_unregister(modl->sockmod_reg_info->smod_name)); } /* * Get status of a scheduling class module. */ /*ARGSUSED1*/ static int mod_infosched(struct modlsched *modl, struct modlinkage *modlp, int *p0) { int status; auto id_t cid; status = getcidbyname(modl->sched_class->cl_name, &cid); if (status != 0) *p0 = -1; else *p0 = cid; return (0); } /* * Install a scheduling class module. */ /*ARGSUSED1*/ static int mod_installsched(struct modlsched *modl, struct modlinkage *modlp) { sclass_t *clp; int status; id_t cid; /* * See if module is already installed. */ mutex_enter(&class_lock); status = alloc_cid(modl->sched_class->cl_name, &cid); mutex_exit(&class_lock); ASSERT(status == 0); clp = &sclass[cid]; rw_enter(clp->cl_lock, RW_WRITER); if (SCHED_INSTALLED(clp)) { printf("scheduling class %s is already installed\n", modl->sched_class->cl_name); rw_exit(clp->cl_lock); return (EBUSY); /* it's already there */ } clp->cl_init = modl->sched_class->cl_init; clp->cl_funcs = modl->sched_class->cl_funcs; modl->sched_class = clp; disp_add(clp); loaded_classes++; /* for priocntl system call */ rw_exit(clp->cl_lock); return (0); } /* * Remove a scheduling class module. * * we only null out the init func and the class functions because * once a class has been loaded it has that slot in the class * array until the next reboot. We don't decrement loaded_classes * because this keeps count of the number of classes that have * been loaded for this session. It will have to be this way until * we implement the class array as a linked list and do true * dynamic allocation. */ static int mod_removesched(struct modlsched *modl, struct modlinkage *modlp) { int status; sclass_t *clp; struct modctl *mcp; char *modname; id_t cid; status = getcidbyname(modl->sched_class->cl_name, &cid); if (status != 0) { mcp = mod_getctl(modlp); ASSERT(mcp != NULL); modname = mcp->mod_modname; cmn_err(CE_WARN, uninstall_err, modname); return (EINVAL); } clp = &sclass[cid]; if (moddebug & MODDEBUG_NOAUL_SCHED || !rw_tryenter(clp->cl_lock, RW_WRITER)) return (EBUSY); clp->cl_init = NULL; clp->cl_funcs = NULL; rw_exit(clp->cl_lock); return (0); } /* * Get status of an exec module. */ /*ARGSUSED1*/ static int mod_infoexec(struct modlexec *modl, struct modlinkage *modlp, int *p0) { struct execsw *eswp; if ((eswp = findexecsw(modl->exec_execsw->exec_magic)) == NULL) *p0 = -1; else *p0 = eswp - execsw; return (0); } /* * Install an exec module. */ static int mod_installexec(struct modlexec *modl, struct modlinkage *modlp) { struct execsw *eswp; struct modctl *mcp; char *modname; char *magic; size_t magic_size; /* * See if execsw entry is already allocated. Can't use findexectype() * because we may get a recursive call to here. */ if ((eswp = findexecsw(modl->exec_execsw->exec_magic)) == NULL) { mcp = mod_getctl(modlp); ASSERT(mcp != NULL); modname = mcp->mod_modname; magic = modl->exec_execsw->exec_magic; magic_size = modl->exec_execsw->exec_maglen; if ((eswp = allocate_execsw(modname, magic, magic_size)) == NULL) { printf("no unused entries in 'execsw'\n"); return (ENOSPC); } } if (eswp->exec_func != NULL) { printf("exec type %x is already installed\n", *eswp->exec_magic); return (EBUSY); /* it's already there! */ } rw_enter(eswp->exec_lock, RW_WRITER); eswp->exec_func = modl->exec_execsw->exec_func; eswp->exec_core = modl->exec_execsw->exec_core; rw_exit(eswp->exec_lock); return (0); } /* * Remove an exec module. */ static int mod_removeexec(struct modlexec *modl, struct modlinkage *modlp) { struct execsw *eswp; struct modctl *mcp; char *modname; eswp = findexecsw(modl->exec_execsw->exec_magic); if (eswp == NULL) { mcp = mod_getctl(modlp); ASSERT(mcp != NULL); modname = mcp->mod_modname; cmn_err(CE_WARN, uninstall_err, modname); return (EINVAL); } if (moddebug & MODDEBUG_NOAUL_EXEC || !rw_tryenter(eswp->exec_lock, RW_WRITER)) return (EBUSY); eswp->exec_func = NULL; eswp->exec_core = NULL; rw_exit(eswp->exec_lock); return (0); } /* * Find a free sysent entry or check if the specified one is free. */ static struct sysent * mod_getsysent(struct modlinkage *modlp, struct sysent *se) { int sysnum; struct modctl *mcp; char *mod_name; if ((mcp = mod_getctl(modlp)) == NULL) { /* * This happens when we're looking up the module * pointer as part of a stub installation. So * there's no need to whine at this point. */ return (NULL); } mod_name = mcp->mod_modname; if ((sysnum = mod_getsysnum(mod_name)) == -1) { cmn_err(CE_WARN, "system call missing from bind file"); return (NULL); } if (sysnum > 0 && sysnum < NSYSCALL && (se[sysnum].sy_flags & (SE_LOADABLE | SE_NOUNLOAD))) return (se + sysnum); cmn_err(CE_WARN, "system call entry %d is already in use", sysnum); return (NULL); } /* * IP Policy Modules. */ /*ARGSUSED*/ static int mod_infoipp(struct modlipp *modl, struct modlinkage *modlp, int *p0) { struct modctl *mcp = mod_getctl(modlp); ipp_mod_id_t mid; if (mcp == NULL) { *p0 = -1; return (0); /* module is not yet installed */ } mid = ipp_mod_lookup(mcp->mod_modname); *p0 = mid; return (0); } static int mod_installipp(struct modlipp *modl, struct modlinkage *modlp) { struct modctl *mcp = mod_getctl(modlp); ASSERT(mcp != NULL); return (ipp_mod_register(mcp->mod_modname, modl->ipp_ops)); } /*ARGSUSED*/ static int mod_removeipp(struct modlipp *modl, struct modlinkage *modlp) { struct modctl *mcp = mod_getctl(modlp); extern kthread_id_t mod_aul_thread; ipp_mod_id_t mid; ASSERT(mcp != NULL); if ((moddebug & MODDEBUG_NOAUL_IPP) && (mod_aul_thread == curthread)) return (EBUSY); mid = ipp_mod_lookup(mcp->mod_modname); ASSERT(mid != IPP_MOD_INVAL); return (ipp_mod_unregister(mid)); } /* * Manage kiconv modules. */ /*ARGSUSED*/ static int mod_installkiconv(struct modlkiconv *modl, struct modlinkage *modlp) { return (kiconv_register_module(modl->kiconv_moddef)); } /*ARGSUSED*/ static int mod_removekiconv(struct modlkiconv *modl, struct modlinkage *modlp) { return (kiconv_unregister_module(modl->kiconv_moddef)); }