/* * 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. */ /* * Data-Link Driver */ #include #include #include #include #include #include #include #include #include #include #include #include static void drv_init(void); static int drv_fini(void); static int drv_getinfo(dev_info_t *, ddi_info_cmd_t, void *, void **); static int drv_attach(dev_info_t *, ddi_attach_cmd_t); static int drv_detach(dev_info_t *, ddi_detach_cmd_t); /* * Secure objects declarations */ #define SECOBJ_WEP_HASHSZ 67 static krwlock_t drv_secobj_lock; static kmem_cache_t *drv_secobj_cachep; static mod_hash_t *drv_secobj_hash; static void drv_secobj_init(void); static void drv_secobj_fini(void); static int drv_ioc_setap(datalink_id_t, struct dlautopush *); static int drv_ioc_getap(datalink_id_t, struct dlautopush *); static int drv_ioc_clrap(datalink_id_t); /* * The following entry points are private to dld and are used for control * operations only. The entry points exported to mac drivers are defined * in dld_str.c. Refer to the comment on top of dld_str.c for details. */ static int drv_open(dev_t *, int, int, cred_t *); static int drv_ioctl(dev_t, int, intptr_t, int, cred_t *, int *); static dev_info_t *dld_dip; /* dev_info_t for the driver */ uint32_t dld_opt = 0; /* Global options */ #define NAUTOPUSH 32 static mod_hash_t *dld_ap_hashp; static krwlock_t dld_ap_hash_lock; static struct cb_ops drv_cb_ops = { drv_open, /* open */ nulldev, /* close */ nulldev, /* strategy */ nulldev, /* print */ nodev, /* dump */ nodev, /* read */ nodev, /* write */ drv_ioctl, /* ioctl */ nodev, /* devmap */ nodev, /* mmap */ nodev, /* segmap */ nochpoll, /* poll */ ddi_prop_op, /* cb_prop_op */ 0, /* streamtab */ D_MP /* Driver compatibility flag */ }; static struct dev_ops drv_ops = { DEVO_REV, /* devo_rev */ 0, /* refcnt */ drv_getinfo, /* get_dev_info */ nulldev, /* identify */ nulldev, /* probe */ drv_attach, /* attach */ drv_detach, /* detach */ nodev, /* reset */ &drv_cb_ops, /* driver operations */ NULL, /* bus operations */ nodev, /* dev power */ ddi_quiesce_not_supported, /* dev quiesce */ }; /* * Module linkage information for the kernel. */ static struct modldrv drv_modldrv = { &mod_driverops, DLD_INFO, &drv_ops }; static struct modlinkage drv_modlinkage = { MODREV_1, &drv_modldrv, NULL }; int _init(void) { return (mod_install(&drv_modlinkage)); } int _fini(void) { return (mod_remove(&drv_modlinkage)); } int _info(struct modinfo *modinfop) { return (mod_info(&drv_modlinkage, modinfop)); } /* * Initialize component modules. */ static void drv_init(void) { drv_secobj_init(); dld_str_init(); /* * Create a hash table for autopush configuration. */ dld_ap_hashp = mod_hash_create_idhash("dld_autopush_hash", NAUTOPUSH, mod_hash_null_valdtor); ASSERT(dld_ap_hashp != NULL); rw_init(&dld_ap_hash_lock, NULL, RW_DRIVER, NULL); } /* ARGSUSED */ static uint_t drv_ap_exist(mod_hash_key_t key, mod_hash_val_t *val, void *arg) { boolean_t *pexist = arg; *pexist = B_TRUE; return (MH_WALK_TERMINATE); } static int drv_fini(void) { int err; boolean_t exist = B_FALSE; rw_enter(&dld_ap_hash_lock, RW_READER); mod_hash_walk(dld_ap_hashp, drv_ap_exist, &exist); rw_exit(&dld_ap_hash_lock); if (exist) return (EBUSY); if ((err = dld_str_fini()) != 0) return (err); drv_secobj_fini(); mod_hash_destroy_idhash(dld_ap_hashp); rw_destroy(&dld_ap_hash_lock); return (0); } /* * devo_getinfo: getinfo(9e) */ /*ARGSUSED*/ static int drv_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg, void **resp) { if (dld_dip == NULL) return (DDI_FAILURE); switch (cmd) { case DDI_INFO_DEVT2INSTANCE: *resp = 0; break; case DDI_INFO_DEVT2DEVINFO: *resp = dld_dip; break; default: return (DDI_FAILURE); } return (DDI_SUCCESS); } /* * Check properties to set options. (See dld.h for property definitions). */ static void drv_set_opt(dev_info_t *dip) { if (ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, DLD_PROP_NO_FASTPATH, 0) != 0) { dld_opt |= DLD_OPT_NO_FASTPATH; } if (ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, DLD_PROP_NO_POLL, 0) != 0) { dld_opt |= DLD_OPT_NO_POLL; } if (ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, DLD_PROP_NO_ZEROCOPY, 0) != 0) { dld_opt |= DLD_OPT_NO_ZEROCOPY; } if (ddi_prop_get_int(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, DLD_PROP_NO_SOFTRING, 0) != 0) { dld_opt |= DLD_OPT_NO_SOFTRING; } } /* * devo_attach: attach(9e) */ static int drv_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) { if (cmd != DDI_ATTACH) return (DDI_FAILURE); ASSERT(ddi_get_instance(dip) == 0); drv_init(); drv_set_opt(dip); /* * Create control node. DLPI provider nodes will be created on demand. */ if (ddi_create_minor_node(dip, DLD_CONTROL_MINOR_NAME, S_IFCHR, DLD_CONTROL_MINOR, DDI_PSEUDO, 0) != DDI_SUCCESS) return (DDI_FAILURE); dld_dip = dip; /* * Log the fact that the driver is now attached. */ ddi_report_dev(dip); return (DDI_SUCCESS); } /* * devo_detach: detach(9e) */ static int drv_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) { if (cmd != DDI_DETACH) return (DDI_FAILURE); ASSERT(dld_dip == dip); if (drv_fini() != 0) return (DDI_FAILURE); /* * Remove the control node. */ ddi_remove_minor_node(dip, DLD_CONTROL_MINOR_NAME); dld_dip = NULL; return (DDI_SUCCESS); } /* * dld control node open procedure. */ /*ARGSUSED*/ static int drv_open(dev_t *devp, int flag, int sflag, cred_t *credp) { /* * Only the control node can be opened. */ if (getminor(*devp) != DLD_CONTROL_MINOR) return (ENODEV); return (0); } /* * DLDIOC_ATTR */ /* ARGSUSED */ static int drv_ioc_attr(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_attr_t *diap = karg; dls_dl_handle_t dlh; dls_vlan_t *dvp; int err; if ((err = dls_devnet_hold_tmp(diap->dia_linkid, &dlh)) != 0) return (err); if ((err = dls_vlan_hold(dls_devnet_mac(dlh), dls_devnet_vid(dlh), &dvp, B_FALSE, B_FALSE)) != 0) { dls_devnet_rele_tmp(dlh); return (err); } mac_sdu_get(dvp->dv_dlp->dl_mh, NULL, &diap->dia_max_sdu); dls_vlan_rele(dvp); dls_devnet_rele_tmp(dlh); return (0); } /* * DLDIOC_PHYS_ATTR */ /* ARGSUSED */ static int drv_ioc_phys_attr(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_phys_attr_t *dipp = karg; int err; dls_dl_handle_t dlh; dls_dev_handle_t ddh; dev_t phydev; /* * Every physical link should have its physical dev_t kept in the * daemon. If not, it is not a valid physical link. */ if (dls_mgmt_get_phydev(dipp->dip_linkid, &phydev) != 0) return (EINVAL); /* * Although this is a valid physical link, it might already be removed * by DR or during system shutdown. softmac_hold_device() would return * ENOENT in this case. */ if ((err = softmac_hold_device(phydev, &ddh)) != 0) return (err); if (dls_devnet_hold_tmp(dipp->dip_linkid, &dlh) != 0) { /* * Although this is an active physical link, its link type is * not supported by GLDv3, and therefore it does not have * vanity naming support. */ dipp->dip_novanity = B_TRUE; } else { dipp->dip_novanity = B_FALSE; dls_devnet_rele_tmp(dlh); } /* * Get the physical device name from the major number and the instance * number derived from phydev. */ (void) snprintf(dipp->dip_dev, MAXLINKNAMELEN, "%s%d", ddi_major_to_name(getmajor(phydev)), getminor(phydev) - 1); softmac_rele_device(ddh); return (0); } /* * DLDIOC_SETPROP */ static int drv_ioc_prop_common(dld_ioc_macprop_t *dipp, intptr_t arg, boolean_t set, int mode) { int err = EINVAL; size_t dsize; dld_ioc_macprop_t *kdipp; dls_dl_handle_t dlh; dls_vlan_t *dvp; datalink_id_t linkid; mac_prop_t macprop; uchar_t *cp; struct dlautopush *dlap; dld_ioc_zid_t *dzp; /* * We only use pr_valsize from dipp, as the caller only did a * copyin() for sizeof (dld_ioc_prop_t), which doesn't cover * the property data. We copyin the full dld_ioc_prop_t * including the data into kdipp down below. */ dsize = sizeof (dld_ioc_macprop_t) + dipp->pr_valsize - 1; if (dsize < dipp->pr_valsize) return (EINVAL); /* * The property data is variable size, so we need to allocate * a buffer for kernel use as this data was not part of the * dipp allocation and copyin() done by the framework. */ if ((kdipp = kmem_alloc(dsize, KM_NOSLEEP)) == NULL) return (ENOMEM); if (ddi_copyin((void *)arg, kdipp, dsize, mode) != 0) { err = EFAULT; goto done; } linkid = kdipp->pr_linkid; switch (dipp->pr_num) { case MAC_PROP_ZONE: if (set) { dzp = (dld_ioc_zid_t *)kdipp->pr_val; err = dls_devnet_setzid(dzp->diz_link, dzp->diz_zid); goto done; } else { kdipp->pr_perm_flags = MAC_PROP_PERM_RW; cp = (uchar_t *)kdipp->pr_val; err = dls_devnet_getzid(linkid, (zoneid_t *)cp); goto done; } case MAC_PROP_AUTOPUSH: if (set) { if (dipp->pr_valsize != 0) { dlap = (struct dlautopush *)kdipp->pr_val; err = drv_ioc_setap(linkid, dlap); goto done; } else { err = drv_ioc_clrap(linkid); goto done; } } else { kdipp->pr_perm_flags = MAC_PROP_PERM_RW; dlap = (struct dlautopush *)kdipp->pr_val; err = drv_ioc_getap(linkid, dlap); goto done; } default: break; } if ((err = dls_devnet_hold_tmp(linkid, &dlh)) != 0) goto done; if ((err = dls_vlan_hold(dls_devnet_mac(dlh), dls_devnet_vid(dlh), &dvp, B_FALSE, B_FALSE)) != 0) { dls_devnet_rele_tmp(dlh); goto done; } macprop.mp_name = kdipp->pr_name; macprop.mp_id = kdipp->pr_num; macprop.mp_flags = kdipp->pr_flags; if (set) { err = mac_set_prop(dvp->dv_dlp->dl_mh, &macprop, kdipp->pr_val, kdipp->pr_valsize); } else { kdipp->pr_perm_flags = MAC_PROP_PERM_RW; err = mac_get_prop(dvp->dv_dlp->dl_mh, &macprop, kdipp->pr_val, kdipp->pr_valsize, &kdipp->pr_perm_flags); } dls_vlan_rele(dvp); dls_devnet_rele_tmp(dlh); done: if (!set && err == 0 && ddi_copyout(kdipp, (void *)arg, dsize, mode) != 0) err = EFAULT; kmem_free(kdipp, dsize); return (err); } /* ARGSUSED */ static int drv_ioc_setprop(void *karg, intptr_t arg, int mode, cred_t *cred) { return (drv_ioc_prop_common(karg, arg, B_TRUE, mode)); } /* ARGSUSED */ static int drv_ioc_getprop(void *karg, intptr_t arg, int mode, cred_t *cred) { return (drv_ioc_prop_common(karg, arg, B_FALSE, mode)); } /* * DLDIOC_CREATE_VLAN */ /* ARGSUSED */ static int drv_ioc_create_vlan(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_create_vlan_t *dicp = karg; return (dls_devnet_create_vlan(dicp->dic_vlanid, dicp->dic_linkid, dicp->dic_vid, dicp->dic_force)); } /* * DLDIOC_DELETE_VLAN */ /* ARGSUSED */ static int drv_ioc_delete_vlan(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_delete_vlan_t *didp = karg; return (dls_devnet_destroy_vlan(didp->did_linkid)); } /* * DLDIOC_VLAN_ATTR */ /* ARGSUSED */ static int drv_ioc_vlan_attr(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_vlan_attr_t *divp = karg; dls_dl_handle_t dlh; uint16_t vid; dls_vlan_t *dvp; int err; /* * Hold this link to prevent it from being deleted. */ if ((err = dls_devnet_hold_tmp(divp->div_vlanid, &dlh)) != 0) return (err); if ((vid = dls_devnet_vid(dlh)) == VLAN_ID_NONE) { dls_devnet_rele_tmp(dlh); return (EINVAL); } err = dls_vlan_hold(dls_devnet_mac(dlh), vid, &dvp, B_FALSE, B_FALSE); if (err != 0) { dls_devnet_rele_tmp(dlh); return (err); } divp->div_linkid = dls_devnet_linkid(dlh); divp->div_implicit = !dls_devnet_is_explicit(dlh); divp->div_vid = vid; divp->div_force = dvp->dv_force; dls_vlan_rele(dvp); dls_devnet_rele_tmp(dlh); return (0); } /* * DLDIOC_RENAME. * * This function handles two cases of link renaming. See more in comments above * dls_datalink_rename(). */ /* ARGSUSED */ static int drv_ioc_rename(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_rename_t *dir = karg; mod_hash_key_t key; mod_hash_val_t val; int err; if ((err = dls_devnet_rename(dir->dir_linkid1, dir->dir_linkid2, dir->dir_link)) != 0) return (err); if (dir->dir_linkid2 == DATALINK_INVALID_LINKID) return (0); /* * if dir_linkid2 is not DATALINK_INVALID_LINKID, it means this * renaming request is to rename a valid physical link (dir_linkid1) * to a "removed" physical link (dir_linkid2, which is removed by DR * or during system shutdown). In this case, the link (specified by * dir_linkid1) would inherit all the configuration of dir_linkid2, * and dir_linkid1 and its configuration would be lost. * * Remove per-link autopush configuration of dir_linkid1 in this case. */ key = (mod_hash_key_t)(uintptr_t)dir->dir_linkid1; rw_enter(&dld_ap_hash_lock, RW_WRITER); if (mod_hash_find(dld_ap_hashp, key, &val) != 0) { rw_exit(&dld_ap_hash_lock); return (0); } VERIFY(mod_hash_remove(dld_ap_hashp, key, &val) == 0); kmem_free(val, sizeof (dld_ap_t)); rw_exit(&dld_ap_hash_lock); return (0); } static int drv_ioc_setap(datalink_id_t linkid, struct dlautopush *dlap) { dld_ap_t *dap; int i; mod_hash_key_t key; if (dlap->dap_npush == 0 || dlap->dap_npush > MAXAPUSH) return (EINVAL); /* * Validate that the specified list of modules exist. */ for (i = 0; i < dlap->dap_npush; i++) { if (fmodsw_find(dlap->dap_aplist[i], FMODSW_LOAD) == NULL) return (EINVAL); } key = (mod_hash_key_t)(uintptr_t)linkid; rw_enter(&dld_ap_hash_lock, RW_WRITER); if (mod_hash_find(dld_ap_hashp, key, (mod_hash_val_t *)&dap) != 0) { dap = kmem_zalloc(sizeof (dld_ap_t), KM_NOSLEEP); if (dap == NULL) { rw_exit(&dld_ap_hash_lock); return (ENOMEM); } dap->da_linkid = linkid; VERIFY(mod_hash_insert(dld_ap_hashp, key, (mod_hash_val_t)dap) == 0); } /* * Update the configuration. */ dap->da_anchor = dlap->dap_anchor; dap->da_npush = dlap->dap_npush; for (i = 0; i < dlap->dap_npush; i++) { (void) strlcpy(dap->da_aplist[i], dlap->dap_aplist[i], FMNAMESZ + 1); } rw_exit(&dld_ap_hash_lock); return (0); } static int drv_ioc_getap(datalink_id_t linkid, struct dlautopush *dlap) { dld_ap_t *dap; int i; rw_enter(&dld_ap_hash_lock, RW_READER); if (mod_hash_find(dld_ap_hashp, (mod_hash_key_t)(uintptr_t)linkid, (mod_hash_val_t *)&dap) != 0) { rw_exit(&dld_ap_hash_lock); return (ENOENT); } /* * Retrieve the configuration. */ dlap->dap_anchor = dap->da_anchor; dlap->dap_npush = dap->da_npush; for (i = 0; i < dap->da_npush; i++) { (void) strlcpy(dlap->dap_aplist[i], dap->da_aplist[i], FMNAMESZ + 1); } rw_exit(&dld_ap_hash_lock); return (0); } static int drv_ioc_clrap(datalink_id_t linkid) { mod_hash_val_t val; mod_hash_key_t key; key = (mod_hash_key_t)(uintptr_t)linkid; rw_enter(&dld_ap_hash_lock, RW_WRITER); if (mod_hash_find(dld_ap_hashp, key, &val) != 0) { rw_exit(&dld_ap_hash_lock); return (0); } VERIFY(mod_hash_remove(dld_ap_hashp, key, &val) == 0); kmem_free(val, sizeof (dld_ap_t)); rw_exit(&dld_ap_hash_lock); return (0); } /* * DLDIOC_DOORSERVER */ /* ARGSUSED */ static int drv_ioc_doorserver(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_door_t *did = karg; return (dls_mgmt_door_set(did->did_start_door)); } /* * Check for GLDv3 autopush information. There are three cases: * * 1. If devp points to a GLDv3 datalink and it has autopush configuration, * fill dlap in with that information and return 0. * * 2. If devp points to a GLDv3 datalink but it doesn't have autopush * configuration, then replace devp with the physical device (if one * exists) and return 1. This allows stropen() to find the old-school * per-driver autopush configuration. (For softmac, the result is that * the softmac dev_t is replaced with the legacy device's dev_t). * * 3. If neither of the above apply, don't touch the args and return -1. */ int dld_autopush(dev_t *devp, struct dlautopush *dlap) { dld_ap_t *dap; datalink_id_t linkid; dev_t phydev; if (!GLDV3_DRV(getmajor(*devp))) return (-1); /* * Find the linkid by the link's dev_t. */ if (dls_devnet_dev2linkid(*devp, &linkid) != 0) return (-1); /* * Find the autopush configuration associated with the linkid. */ rw_enter(&dld_ap_hash_lock, RW_READER); if (mod_hash_find(dld_ap_hashp, (mod_hash_key_t)(uintptr_t)linkid, (mod_hash_val_t *)&dap) == 0) { *dlap = dap->da_ap; rw_exit(&dld_ap_hash_lock); return (0); } rw_exit(&dld_ap_hash_lock); if (dls_devnet_phydev(linkid, &phydev) != 0) return (-1); *devp = phydev; return (1); } /* * Secure objects implementation */ /* ARGSUSED */ static int drv_secobj_ctor(void *buf, void *arg, int kmflag) { bzero(buf, sizeof (dld_secobj_t)); return (0); } static void drv_secobj_init(void) { rw_init(&drv_secobj_lock, NULL, RW_DEFAULT, NULL); drv_secobj_cachep = kmem_cache_create("drv_secobj_cache", sizeof (dld_secobj_t), 0, drv_secobj_ctor, NULL, NULL, NULL, NULL, 0); drv_secobj_hash = mod_hash_create_extended("drv_secobj_hash", SECOBJ_WEP_HASHSZ, mod_hash_null_keydtor, mod_hash_null_valdtor, mod_hash_bystr, NULL, mod_hash_strkey_cmp, KM_SLEEP); } static void drv_secobj_fini(void) { mod_hash_destroy_hash(drv_secobj_hash); kmem_cache_destroy(drv_secobj_cachep); rw_destroy(&drv_secobj_lock); } /* ARGSUSED */ static int drv_ioc_secobj_set(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_secobj_set_t *ssp = karg; dld_secobj_t *sobjp, *objp; int err; sobjp = &ssp->ss_obj; if (sobjp->so_class != DLD_SECOBJ_CLASS_WEP && sobjp->so_class != DLD_SECOBJ_CLASS_WPA) return (EINVAL); if (sobjp->so_name[DLD_SECOBJ_NAME_MAX - 1] != '\0' || sobjp->so_len > DLD_SECOBJ_VAL_MAX) return (EINVAL); rw_enter(&drv_secobj_lock, RW_WRITER); err = mod_hash_find(drv_secobj_hash, (mod_hash_key_t)sobjp->so_name, (mod_hash_val_t *)&objp); if (err == 0) { if ((ssp->ss_flags & DLD_SECOBJ_OPT_CREATE) != 0) { rw_exit(&drv_secobj_lock); return (EEXIST); } } else { ASSERT(err == MH_ERR_NOTFOUND); if ((ssp->ss_flags & DLD_SECOBJ_OPT_CREATE) == 0) { rw_exit(&drv_secobj_lock); return (ENOENT); } objp = kmem_cache_alloc(drv_secobj_cachep, KM_SLEEP); (void) strlcpy(objp->so_name, sobjp->so_name, DLD_SECOBJ_NAME_MAX); VERIFY(mod_hash_insert(drv_secobj_hash, (mod_hash_key_t)objp->so_name, (mod_hash_val_t)objp) == 0); } bcopy(sobjp->so_val, objp->so_val, sobjp->so_len); objp->so_len = sobjp->so_len; objp->so_class = sobjp->so_class; rw_exit(&drv_secobj_lock); return (0); } typedef struct dld_secobj_state { uint_t ss_free; uint_t ss_count; int ss_rc; int ss_mode; dld_secobj_t *ss_objp; } dld_secobj_state_t; /* ARGSUSED */ static uint_t drv_secobj_walker(mod_hash_key_t key, mod_hash_val_t *val, void *arg) { dld_secobj_state_t *statep = arg; dld_secobj_t *sobjp = (dld_secobj_t *)val; if (statep->ss_free < sizeof (dld_secobj_t)) { statep->ss_rc = ENOSPC; return (MH_WALK_TERMINATE); } if (ddi_copyout(sobjp, statep->ss_objp, sizeof (*sobjp), statep->ss_mode) != 0) { statep->ss_rc = EFAULT; return (MH_WALK_TERMINATE); } statep->ss_objp++; statep->ss_free -= sizeof (dld_secobj_t); statep->ss_count++; return (MH_WALK_CONTINUE); } /* ARGSUSED */ static int drv_ioc_secobj_get(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_secobj_get_t *sgp = karg; dld_secobj_t *sobjp, *objp; int err; sobjp = &sgp->sg_obj; if (sobjp->so_name[DLD_SECOBJ_NAME_MAX - 1] != '\0') return (EINVAL); rw_enter(&drv_secobj_lock, RW_READER); if (sobjp->so_name[0] != '\0') { err = mod_hash_find(drv_secobj_hash, (mod_hash_key_t)sobjp->so_name, (mod_hash_val_t *)&objp); if (err != 0) { ASSERT(err == MH_ERR_NOTFOUND); rw_exit(&drv_secobj_lock); return (ENOENT); } bcopy(objp->so_val, sobjp->so_val, objp->so_len); sobjp->so_len = objp->so_len; sobjp->so_class = objp->so_class; sgp->sg_count = 1; } else { dld_secobj_state_t state; state.ss_free = sgp->sg_size - sizeof (dld_ioc_secobj_get_t); state.ss_count = 0; state.ss_rc = 0; state.ss_mode = mode; state.ss_objp = (dld_secobj_t *)((uchar_t *)arg + sizeof (dld_ioc_secobj_get_t)); mod_hash_walk(drv_secobj_hash, drv_secobj_walker, &state); if (state.ss_rc != 0) { rw_exit(&drv_secobj_lock); return (state.ss_rc); } sgp->sg_count = state.ss_count; } rw_exit(&drv_secobj_lock); return (0); } /* ARGSUSED */ static int drv_ioc_secobj_unset(void *karg, intptr_t arg, int mode, cred_t *cred) { dld_ioc_secobj_unset_t *sup = karg; dld_secobj_t *objp; mod_hash_val_t val; int err; if (sup->su_name[DLD_SECOBJ_NAME_MAX - 1] != '\0') return (EINVAL); rw_enter(&drv_secobj_lock, RW_WRITER); err = mod_hash_find(drv_secobj_hash, (mod_hash_key_t)sup->su_name, (mod_hash_val_t *)&objp); if (err != 0) { ASSERT(err == MH_ERR_NOTFOUND); rw_exit(&drv_secobj_lock); return (ENOENT); } VERIFY(mod_hash_remove(drv_secobj_hash, (mod_hash_key_t)sup->su_name, (mod_hash_val_t *)&val) == 0); ASSERT(objp == (dld_secobj_t *)val); kmem_cache_free(drv_secobj_cachep, objp); rw_exit(&drv_secobj_lock); return (0); } static dld_ioc_info_t drv_ioc_list[] = { {DLDIOC_ATTR, DLDCOPYINOUT, sizeof (dld_ioc_attr_t), drv_ioc_attr}, {DLDIOC_PHYS_ATTR, DLDCOPYINOUT, sizeof (dld_ioc_phys_attr_t), drv_ioc_phys_attr}, {DLDIOC_SECOBJ_SET, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_secobj_set_t), drv_ioc_secobj_set}, {DLDIOC_SECOBJ_GET, DLDCOPYINOUT | DLDDLCONFIG, sizeof (dld_ioc_secobj_get_t), drv_ioc_secobj_get}, {DLDIOC_SECOBJ_UNSET, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_secobj_unset_t), drv_ioc_secobj_unset}, {DLDIOC_CREATE_VLAN, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_create_vlan_t), drv_ioc_create_vlan}, {DLDIOC_DELETE_VLAN, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_delete_vlan_t), drv_ioc_delete_vlan}, {DLDIOC_VLAN_ATTR, DLDCOPYINOUT, sizeof (dld_ioc_vlan_attr_t), drv_ioc_vlan_attr}, {DLDIOC_DOORSERVER, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_door_t), drv_ioc_doorserver}, {DLDIOC_RENAME, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_rename_t), drv_ioc_rename}, {DLDIOC_GETMACPROP, DLDCOPYIN, sizeof (dld_ioc_macprop_t), drv_ioc_getprop}, {DLDIOC_SETMACPROP, DLDCOPYIN | DLDDLCONFIG, sizeof (dld_ioc_macprop_t), drv_ioc_setprop} }; typedef struct dld_ioc_modentry { uint16_t dim_modid; /* Top 16 bits of ioctl command */ char *dim_modname; /* Module to be loaded */ dld_ioc_info_t *dim_list; /* array of ioctl structures */ uint_t dim_count; /* number of elements in dim_list */ } dld_ioc_modentry_t; /* * For all modules except for dld, dim_list and dim_count are assigned * when the modules register their ioctls in dld_ioc_register(). We * can statically initialize dld's ioctls in-line here; there's no * need for it to call dld_ioc_register() itself. */ static dld_ioc_modentry_t dld_ioc_modtable[] = { {DLD_IOC, "dld", drv_ioc_list, DLDIOCCNT(drv_ioc_list)}, {AGGR_IOC, "aggr", NULL, 0}, {VNIC_IOC, "vnic", NULL, 0} }; #define DLDIOC_CNT \ (sizeof (dld_ioc_modtable) / sizeof (dld_ioc_modentry_t)) static dld_ioc_modentry_t * dld_ioc_findmod(uint16_t modid) { int i; for (i = 0; i < DLDIOC_CNT; i++) { if (modid == dld_ioc_modtable[i].dim_modid) return (&dld_ioc_modtable[i]); } return (NULL); } int dld_ioc_register(uint16_t modid, dld_ioc_info_t *list, uint_t count) { dld_ioc_modentry_t *dim = dld_ioc_findmod(modid); if (dim == NULL) return (ENOENT); dim->dim_list = list; dim->dim_count = count; return (0); } void dld_ioc_unregister(uint16_t modid) { VERIFY(dld_ioc_register(modid, NULL, 0) == 0); } /* * The general design with GLDv3 ioctls is that all ioctls issued * through /dev/dld go through this drv_ioctl() function. This * function handles all ioctls on behalf of modules listed in * dld_ioc_modtable. * * When an ioctl is received, this function looks for the associated * module-id-specific ioctl information using dld_ioc_findmod(). The * call to ddi_hold_devi_by_instance() on the associated device will * cause the kernel module responsible for the ioctl to be loaded if * it's not already loaded, which should result in that module calling * dld_ioc_register(), thereby filling in the dim_list containing the * details for the ioctl being processed. * * This function can then perform operations such as copyin() data and * do credential checks based on the registered ioctl information, * then issue the callback function di_func() registered by the * responsible module. Upon return, the appropriate copyout() * operation can be performed and the operation completes. */ /* ARGSUSED */ static int drv_ioctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *cred, int *rvalp) { dld_ioc_modentry_t *dim; dld_ioc_info_t *info; dev_info_t *dip = NULL; void *buf = NULL; size_t sz; int i, err; if ((dim = dld_ioc_findmod(DLD_IOC_MODID(cmd))) == NULL) return (ENOTSUP); dip = ddi_hold_devi_by_instance(ddi_name_to_major(dim->dim_modname), 0, 0); if (dip == NULL || dim->dim_list == NULL) { err = ENODEV; goto done; } for (i = 0; i < dim->dim_count; i++) { if (cmd == dim->dim_list[i].di_cmd) break; } if (i == dim->dim_count) { err = ENOTSUP; goto done; } info = &dim->dim_list[i]; if ((info->di_flags & DLDDLCONFIG) && secpolicy_dl_config(cred) != 0) { err = EPERM; goto done; } sz = info->di_argsize; if ((buf = kmem_zalloc(sz, KM_NOSLEEP)) == NULL) { err = ENOMEM; goto done; } if ((info->di_flags & DLDCOPYIN) && ddi_copyin((void *)arg, buf, sz, mode) != 0) { err = EFAULT; goto done; } err = info->di_func(buf, arg, mode, cred); if ((info->di_flags & DLDCOPYOUT) && ddi_copyout(buf, (void *)arg, sz, mode) != 0 && err == 0) err = EFAULT; done: if (buf != NULL) kmem_free(buf, sz); if (dip != NULL) ddi_release_devi(dip); return (err); }