/* * 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 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include extern caller_context_t smb_ct; extern int smb_fem_oplock_install(smb_node_t *); extern void smb_fem_oplock_uninstall(smb_node_t *); extern int smb_vop_other_opens(vnode_t *, int); static int smb_fsop_create_stream(smb_request_t *, cred_t *, smb_node_t *, char *, char *, int, smb_attr_t *, smb_node_t **, smb_attr_t *); static int smb_fsop_create_file(smb_request_t *, cred_t *, smb_node_t *, char *, int, smb_attr_t *, smb_node_t **, smb_attr_t *); static int smb_fsop_create_with_sd(smb_request_t *, cred_t *, smb_node_t *, char *, smb_attr_t *, smb_node_t **, smb_attr_t *, smb_fssd_t *); static int smb_fsop_sdinherit(smb_request_t *, smb_node_t *, smb_fssd_t *); /* * The smb_fsop_* functions have knowledge of CIFS semantics. * * The smb_vop_* functions have minimal knowledge of CIFS semantics and * serve as an interface to the VFS layer. * * Hence, smb_request_t and smb_node_t structures should not be passed * from the smb_fsop_* layer to the smb_vop_* layer. * * In general, CIFS service code should only ever call smb_fsop_* * functions directly, and never smb_vop_* functions directly. * * smb_fsop_* functions should call smb_vop_* functions where possible, instead * of their smb_fsop_* counterparts. However, there are times when * this cannot be avoided. */ /* * Note: Stream names cannot be mangled. */ /* * smb_fsop_amask_to_omode * * Convert the access mask to the open mode (for use * with the VOP_OPEN call). * * Note that opening a file for attribute only access * will also translate into an FREAD or FWRITE open mode * (i.e., it's not just for data). * * This is needed so that opens are tracked appropriately * for oplock processing. */ int smb_fsop_amask_to_omode(uint32_t access) { int mode = 0; if (access & (FILE_READ_DATA | FILE_EXECUTE | FILE_READ_ATTRIBUTES | FILE_READ_EA)) mode |= FREAD; if (access & (FILE_WRITE_DATA | FILE_APPEND_DATA | FILE_WRITE_ATTRIBUTES | FILE_WRITE_EA)) mode |= FWRITE; if (access & FILE_APPEND_DATA) mode |= FAPPEND; return (mode); } int smb_fsop_open(smb_node_t *node, int mode, cred_t *cred) { /* * Assuming that the same vnode is returned as we had before. * (I.e., with certain types of files or file systems, a * different vnode might be returned by VOP_OPEN) */ return (smb_vop_open(&node->vp, mode, cred)); } void smb_fsop_close(smb_node_t *node, int mode, cred_t *cred) { smb_vop_close(node->vp, mode, cred); } int smb_fsop_oplock_install(smb_node_t *node, int mode) { int rc; if (smb_vop_other_opens(node->vp, mode)) return (EMFILE); if ((rc = smb_fem_oplock_install(node))) return (rc); if (smb_vop_other_opens(node->vp, mode)) { (void) smb_fem_oplock_uninstall(node); return (EMFILE); } return (0); } void smb_fsop_oplock_uninstall(smb_node_t *node) { smb_fem_oplock_uninstall(node); } static int smb_fsop_create_with_sd(smb_request_t *sr, cred_t *cr, smb_node_t *dnode, char *name, smb_attr_t *attr, smb_node_t **ret_snode, smb_attr_t *ret_attr, smb_fssd_t *fs_sd) { vsecattr_t *vsap; vsecattr_t vsecattr; acl_t *acl, *dacl, *sacl; smb_attr_t set_attr; vnode_t *vp; int aclbsize = 0; /* size of acl list in bytes */ int flags = 0; int rc; boolean_t is_dir; ASSERT(fs_sd); if (SMB_TREE_IS_CASEINSENSITIVE(sr)) flags = SMB_IGNORE_CASE; if (SMB_TREE_SUPPORTS_CATIA(sr)) flags |= SMB_CATIA; ASSERT(cr); is_dir = ((fs_sd->sd_flags & SMB_FSSD_FLAGS_DIR) != 0); if (smb_tree_has_feature(sr->tid_tree, SMB_TREE_ACLONCREATE)) { if (fs_sd->sd_secinfo & SMB_ACL_SECINFO) { dacl = fs_sd->sd_zdacl; sacl = fs_sd->sd_zsacl; ASSERT(dacl || sacl); if (dacl && sacl) { acl = smb_fsacl_merge(dacl, sacl); } else if (dacl) { acl = dacl; } else { acl = sacl; } rc = smb_fsacl_to_vsa(acl, &vsecattr, &aclbsize); if (dacl && sacl) acl_free(acl); if (rc != 0) return (rc); vsap = &vsecattr; } else { vsap = NULL; } /* The tree ACEs may prevent a create */ rc = EACCES; if (is_dir) { if (SMB_TREE_HAS_ACCESS(sr, ACE_ADD_SUBDIRECTORY) != 0) rc = smb_vop_mkdir(dnode->vp, name, attr, &vp, flags, cr, vsap); } else { if (SMB_TREE_HAS_ACCESS(sr, ACE_ADD_FILE) != 0) rc = smb_vop_create(dnode->vp, name, attr, &vp, flags, cr, vsap); } if (vsap != NULL) kmem_free(vsap->vsa_aclentp, aclbsize); if (rc != 0) return (rc); set_attr.sa_mask = 0; /* * Ideally we should be able to specify the owner and owning * group at create time along with the ACL. Since we cannot * do that right now, kcred is passed to smb_vop_setattr so it * doesn't fail due to lack of permission. */ if (fs_sd->sd_secinfo & SMB_OWNER_SECINFO) { set_attr.sa_vattr.va_uid = fs_sd->sd_uid; set_attr.sa_mask |= SMB_AT_UID; } if (fs_sd->sd_secinfo & SMB_GROUP_SECINFO) { set_attr.sa_vattr.va_gid = fs_sd->sd_gid; set_attr.sa_mask |= SMB_AT_GID; } if (set_attr.sa_mask) rc = smb_vop_setattr(vp, NULL, &set_attr, 0, kcred); if (rc == 0) { *ret_snode = smb_node_lookup(sr, &sr->arg.open, cr, vp, name, dnode, NULL, ret_attr); if (*ret_snode == NULL) rc = ENOMEM; VN_RELE(vp); } } else { /* * For filesystems that don't support ACL-on-create, try * to set the specified SD after create, which could actually * fail because of conflicts between inherited security * attributes upon creation and the specified SD. * * Passing kcred to smb_fsop_sdwrite() to overcome this issue. */ if (is_dir) { rc = smb_vop_mkdir(dnode->vp, name, attr, &vp, flags, cr, NULL); } else { rc = smb_vop_create(dnode->vp, name, attr, &vp, flags, cr, NULL); } if (rc != 0) return (rc); *ret_snode = smb_node_lookup(sr, &sr->arg.open, cr, vp, name, dnode, NULL, ret_attr); if (*ret_snode != NULL) { if (!smb_tree_has_feature(sr->tid_tree, SMB_TREE_NFS_MOUNTED)) rc = smb_fsop_sdwrite(sr, kcred, *ret_snode, fs_sd, 1); } else { rc = ENOMEM; } VN_RELE(vp); } if (rc != 0) { if (is_dir) (void) smb_vop_rmdir(dnode->vp, name, flags, cr); else (void) smb_vop_remove(dnode->vp, name, flags, cr); } return (rc); } /* * smb_fsop_create * * All SMB functions should use this wrapper to ensure that * all the smb_vop_creates are performed with the appropriate credentials. * Please document any direct calls to explain the reason for avoiding * this wrapper. * * *ret_snode is returned with a reference upon success. No reference is * taken if an error is returned. */ int smb_fsop_create(smb_request_t *sr, cred_t *cr, smb_node_t *dnode, char *name, smb_attr_t *attr, smb_node_t **ret_snode, smb_attr_t *ret_attr) { int rc = 0; int flags = 0; char *fname, *sname; char *longname = NULL; ASSERT(cr); ASSERT(dnode); ASSERT(dnode->n_magic == SMB_NODE_MAGIC); ASSERT(dnode->n_state != SMB_NODE_STATE_DESTROYING); ASSERT(ret_snode); *ret_snode = 0; ASSERT(name); if (*name == 0) return (EINVAL); ASSERT(sr); ASSERT(sr->tid_tree); if (SMB_TREE_CONTAINS_NODE(sr, dnode) == 0) return (EACCES); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); if (SMB_TREE_IS_CASEINSENSITIVE(sr)) flags = SMB_IGNORE_CASE; if (SMB_TREE_SUPPORTS_CATIA(sr)) flags |= SMB_CATIA; if (smb_is_stream_name(name)) { fname = kmem_alloc(MAXNAMELEN, KM_SLEEP); sname = kmem_alloc(MAXNAMELEN, KM_SLEEP); smb_stream_parse_name(name, fname, sname); rc = smb_fsop_create_stream(sr, cr, dnode, fname, sname, flags, attr, ret_snode, ret_attr); kmem_free(fname, MAXNAMELEN); kmem_free(sname, MAXNAMELEN); return (rc); } /* Not a named stream */ if (smb_maybe_mangled_name(name)) { longname = kmem_alloc(MAXNAMELEN, KM_SLEEP); rc = smb_unmangle_name(dnode, name, longname, MAXNAMELEN); kmem_free(longname, MAXNAMELEN); if (rc == 0) rc = EEXIST; if (rc != ENOENT) return (rc); } rc = smb_fsop_create_file(sr, cr, dnode, name, flags, attr, ret_snode, ret_attr); return (rc); } /* * smb_fsop_create_stream * * Create NTFS named stream file (sname) on unnamed stream * file (fname), creating the unnamed stream file if it * doesn't exist. * If we created the unnamed stream file and then creation * of the named stream file fails, we delete the unnamed stream. * Since we use the real file name for the smb_vop_remove we * clear the SMB_IGNORE_CASE flag to ensure a case sensitive * match. * * The second parameter of smb_vop_setattr() is set to * NULL, even though an unnamed stream exists. This is * because we want to set the UID and GID on the named * stream in this case for consistency with the (unnamed * stream) file (see comments for smb_vop_setattr()). */ static int smb_fsop_create_stream(smb_request_t *sr, cred_t *cr, smb_node_t *dnode, char *fname, char *sname, int flags, smb_attr_t *attr, smb_node_t **ret_snode, smb_attr_t *ret_attr) { smb_node_t *fnode; smb_attr_t fattr; vnode_t *xattrdvp; vnode_t *vp; int rc = 0; boolean_t fcreate = B_FALSE; /* Look up / create the unnamed stream, fname */ rc = smb_fsop_lookup(sr, cr, flags | SMB_FOLLOW_LINKS, sr->tid_tree->t_snode, dnode, fname, &fnode, &fattr); if (rc == ENOENT) { fcreate = B_TRUE; rc = smb_fsop_create_file(sr, cr, dnode, fname, flags, attr, &fnode, &fattr); } if (rc != 0) return (rc); /* create the named stream, sname */ rc = smb_vop_stream_create(fnode->vp, sname, attr, &vp, &xattrdvp, flags, cr); if (rc != 0) { if (fcreate) { flags &= ~SMB_IGNORE_CASE; (void) smb_vop_remove(dnode->vp, fnode->od_name, flags, cr); } smb_node_release(fnode); return (rc); } attr->sa_vattr.va_uid = fattr.sa_vattr.va_uid; attr->sa_vattr.va_gid = fattr.sa_vattr.va_gid; attr->sa_mask = SMB_AT_UID | SMB_AT_GID; rc = smb_vop_setattr(vp, NULL, attr, 0, kcred); if (rc != 0) { smb_node_release(fnode); return (rc); } *ret_snode = smb_stream_node_lookup(sr, cr, fnode, xattrdvp, vp, sname, ret_attr); smb_node_release(fnode); VN_RELE(xattrdvp); VN_RELE(vp); if (*ret_snode == NULL) rc = ENOMEM; return (rc); } /* * smb_fsop_create_file */ static int smb_fsop_create_file(smb_request_t *sr, cred_t *cr, smb_node_t *dnode, char *name, int flags, smb_attr_t *attr, smb_node_t **ret_snode, smb_attr_t *ret_attr) { open_param_t *op = &sr->arg.open; vnode_t *vp; smb_fssd_t fs_sd; uint32_t secinfo; uint32_t status; int rc = 0; if (op->sd) { /* * SD sent by client in Windows format. Needs to be * converted to FS format. No inheritance. */ secinfo = smb_sd_get_secinfo(op->sd); smb_fssd_init(&fs_sd, secinfo, 0); status = smb_sd_tofs(op->sd, &fs_sd); if (status == NT_STATUS_SUCCESS) { rc = smb_fsop_create_with_sd(sr, cr, dnode, name, attr, ret_snode, ret_attr, &fs_sd); } else { rc = EINVAL; } smb_fssd_term(&fs_sd); } else if (sr->tid_tree->t_acltype == ACE_T) { /* * No incoming SD and filesystem is ZFS * Server applies Windows inheritance rules, * see smb_fsop_sdinherit() comments as to why. */ smb_fssd_init(&fs_sd, SMB_ACL_SECINFO, 0); rc = smb_fsop_sdinherit(sr, dnode, &fs_sd); if (rc == 0) { rc = smb_fsop_create_with_sd(sr, cr, dnode, name, attr, ret_snode, ret_attr, &fs_sd); } smb_fssd_term(&fs_sd); } else { /* * No incoming SD and filesystem is not ZFS * let the filesystem handles the inheritance. */ rc = smb_vop_create(dnode->vp, name, attr, &vp, flags, cr, NULL); if (rc == 0) { *ret_snode = smb_node_lookup(sr, op, cr, vp, name, dnode, NULL, ret_attr); if (*ret_snode == NULL) rc = ENOMEM; VN_RELE(vp); } } return (rc); } /* * smb_fsop_mkdir * * All SMB functions should use this wrapper to ensure that * the the calls are performed with the appropriate credentials. * Please document any direct call to explain the reason * for avoiding this wrapper. * * It is assumed that a reference exists on snode coming into this routine. * * *ret_snode is returned with a reference upon success. No reference is * taken if an error is returned. */ int smb_fsop_mkdir( smb_request_t *sr, cred_t *cr, smb_node_t *dnode, char *name, smb_attr_t *attr, smb_node_t **ret_snode, smb_attr_t *ret_attr) { struct open_param *op = &sr->arg.open; char *longname; vnode_t *vp; int flags = 0; smb_fssd_t fs_sd; uint32_t secinfo; uint32_t status; int rc; ASSERT(cr); ASSERT(dnode); ASSERT(dnode->n_magic == SMB_NODE_MAGIC); ASSERT(dnode->n_state != SMB_NODE_STATE_DESTROYING); ASSERT(ret_snode); *ret_snode = 0; ASSERT(name); if (*name == 0) return (EINVAL); ASSERT(sr); ASSERT(sr->tid_tree); if (SMB_TREE_CONTAINS_NODE(sr, dnode) == 0) return (EACCES); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); if (SMB_TREE_SUPPORTS_CATIA(sr)) flags |= SMB_CATIA; if (smb_maybe_mangled_name(name)) { longname = kmem_alloc(MAXNAMELEN, KM_SLEEP); rc = smb_unmangle_name(dnode, name, longname, MAXNAMELEN); kmem_free(longname, MAXNAMELEN); /* * If the name passed in by the client has an unmangled * equivalent that is found in the specified directory, * then the mkdir cannot succeed. Return EEXIST. * * Only if ENOENT is returned will a mkdir be attempted. */ if (rc == 0) rc = EEXIST; if (rc != ENOENT) return (rc); } if (SMB_TREE_IS_CASEINSENSITIVE(sr)) flags = SMB_IGNORE_CASE; if (op->sd) { /* * SD sent by client in Windows format. Needs to be * converted to FS format. No inheritance. */ secinfo = smb_sd_get_secinfo(op->sd); smb_fssd_init(&fs_sd, secinfo, SMB_FSSD_FLAGS_DIR); status = smb_sd_tofs(op->sd, &fs_sd); if (status == NT_STATUS_SUCCESS) { rc = smb_fsop_create_with_sd(sr, cr, dnode, name, attr, ret_snode, ret_attr, &fs_sd); } else rc = EINVAL; smb_fssd_term(&fs_sd); } else if (sr->tid_tree->t_acltype == ACE_T) { /* * No incoming SD and filesystem is ZFS * Server applies Windows inheritance rules, * see smb_fsop_sdinherit() comments as to why. */ smb_fssd_init(&fs_sd, SMB_ACL_SECINFO, SMB_FSSD_FLAGS_DIR); rc = smb_fsop_sdinherit(sr, dnode, &fs_sd); if (rc == 0) { rc = smb_fsop_create_with_sd(sr, cr, dnode, name, attr, ret_snode, ret_attr, &fs_sd); } smb_fssd_term(&fs_sd); } else { rc = smb_vop_mkdir(dnode->vp, name, attr, &vp, flags, cr, NULL); if (rc == 0) { *ret_snode = smb_node_lookup(sr, op, cr, vp, name, dnode, NULL, ret_attr); if (*ret_snode == NULL) rc = ENOMEM; VN_RELE(vp); } } return (rc); } /* * smb_fsop_remove * * All SMB functions should use this wrapper to ensure that * the the calls are performed with the appropriate credentials. * Please document any direct call to explain the reason * for avoiding this wrapper. * * It is assumed that a reference exists on snode coming into this routine. * * A null smb_request might be passed to this function. */ int smb_fsop_remove( smb_request_t *sr, cred_t *cr, smb_node_t *dnode, char *name, uint32_t flags) { smb_node_t *fnode; smb_attr_t file_attr; char *longname; char *fname; char *sname; int rc; ASSERT(cr); /* * The state of the node could be SMB_NODE_STATE_DESTROYING if this * function is called during the deletion of the node (because of * DELETE_ON_CLOSE). */ ASSERT(dnode); ASSERT(dnode->n_magic == SMB_NODE_MAGIC); if (SMB_TREE_CONTAINS_NODE(sr, dnode) == 0 || SMB_TREE_HAS_ACCESS(sr, ACE_DELETE) == 0) return (EACCES); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); fname = kmem_alloc(MAXNAMELEN, KM_SLEEP); sname = kmem_alloc(MAXNAMELEN, KM_SLEEP); if (dnode->flags & NODE_XATTR_DIR) { rc = smb_vop_stream_remove(dnode->dir_snode->vp, name, flags, cr); } else if (smb_is_stream_name(name)) { smb_stream_parse_name(name, fname, sname); /* * Look up the unnamed stream (i.e. fname). * Unmangle processing will be done on fname * as well as any link target. */ rc = smb_fsop_lookup(sr, cr, flags | SMB_FOLLOW_LINKS, sr->tid_tree->t_snode, dnode, fname, &fnode, &file_attr); if (rc != 0) { kmem_free(fname, MAXNAMELEN); kmem_free(sname, MAXNAMELEN); return (rc); } /* * XXX * Need to find out what permission is required by NTFS * to remove a stream. */ rc = smb_vop_stream_remove(fnode->vp, sname, flags, cr); smb_node_release(fnode); } else { rc = smb_vop_remove(dnode->vp, name, flags, cr); if (rc == ENOENT) { if (smb_maybe_mangled_name(name) == 0) { kmem_free(fname, MAXNAMELEN); kmem_free(sname, MAXNAMELEN); return (rc); } longname = kmem_alloc(MAXNAMELEN, KM_SLEEP); rc = smb_unmangle_name(dnode, name, longname, MAXNAMELEN); if (rc == 0) { /* * longname is the real (case-sensitive) * on-disk name. * We make sure we do a remove on this exact * name, as the name was mangled and denotes * a unique file. */ flags &= ~SMB_IGNORE_CASE; rc = smb_vop_remove(dnode->vp, longname, flags, cr); } kmem_free(longname, MAXNAMELEN); } } kmem_free(fname, MAXNAMELEN); kmem_free(sname, MAXNAMELEN); return (rc); } /* * smb_fsop_remove_streams * * This function removes a file's streams without removing the * file itself. * * It is assumed that fnode is not a link. */ int smb_fsop_remove_streams(smb_request_t *sr, cred_t *cr, smb_node_t *fnode) { int rc, flags = 0; uint16_t odid; smb_odir_t *od; smb_odirent_t *odirent; boolean_t eos; ASSERT(sr); ASSERT(cr); ASSERT(fnode); ASSERT(fnode->n_magic == SMB_NODE_MAGIC); ASSERT(fnode->n_state != SMB_NODE_STATE_DESTROYING); if (SMB_TREE_CONTAINS_NODE(sr, fnode) == 0) { smbsr_errno(sr, EACCES); return (-1); } if (SMB_TREE_IS_READONLY(sr)) { smbsr_errno(sr, EROFS); return (-1); } if (SMB_TREE_IS_CASEINSENSITIVE(sr)) flags = SMB_IGNORE_CASE; if (SMB_TREE_SUPPORTS_CATIA(sr)) flags |= SMB_CATIA; if ((odid = smb_odir_openat(sr, fnode)) == 0) { smbsr_errno(sr, ENOENT); return (-1); } if ((od = smb_tree_lookup_odir(sr->tid_tree, odid)) == NULL) { smbsr_errno(sr, ENOENT); return (-1); } odirent = kmem_alloc(sizeof (smb_odirent_t), KM_SLEEP); for (;;) { rc = smb_odir_read(sr, od, odirent, &eos); if ((rc != 0) || (eos)) break; (void) smb_vop_remove(od->d_dnode->vp, odirent->od_name, flags, cr); } kmem_free(odirent, sizeof (smb_odirent_t)); smb_odir_release(od); smb_odir_close(od); return (rc); } /* * smb_fsop_rmdir * * All SMB functions should use this wrapper to ensure that * the the calls are performed with the appropriate credentials. * Please document any direct call to explain the reason * for avoiding this wrapper. * * It is assumed that a reference exists on snode coming into this routine. */ int smb_fsop_rmdir( smb_request_t *sr, cred_t *cr, smb_node_t *dnode, char *name, uint32_t flags) { int rc; char *longname; ASSERT(cr); /* * The state of the node could be SMB_NODE_STATE_DESTROYING if this * function is called during the deletion of the node (because of * DELETE_ON_CLOSE). */ ASSERT(dnode); ASSERT(dnode->n_magic == SMB_NODE_MAGIC); if (SMB_TREE_CONTAINS_NODE(sr, dnode) == 0 || SMB_TREE_HAS_ACCESS(sr, ACE_DELETE_CHILD) == 0) return (EACCES); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); rc = smb_vop_rmdir(dnode->vp, name, flags, cr); if (rc == ENOENT) { if (smb_maybe_mangled_name(name) == 0) return (rc); longname = kmem_alloc(MAXNAMELEN, KM_SLEEP); rc = smb_unmangle_name(dnode, name, longname, MAXNAMELEN); if (rc == 0) { /* * longname is the real (case-sensitive) * on-disk name. * We make sure we do a rmdir on this exact * name, as the name was mangled and denotes * a unique directory. */ flags &= ~SMB_IGNORE_CASE; rc = smb_vop_rmdir(dnode->vp, longname, flags, cr); } kmem_free(longname, MAXNAMELEN); } return (rc); } /* * smb_fsop_getattr * * All SMB functions should use this wrapper to ensure that * the the calls are performed with the appropriate credentials. * Please document any direct call to explain the reason * for avoiding this wrapper. * * It is assumed that a reference exists on snode coming into this routine. */ int smb_fsop_getattr(smb_request_t *sr, cred_t *cr, smb_node_t *snode, smb_attr_t *attr) { smb_node_t *unnamed_node; vnode_t *unnamed_vp = NULL; uint32_t status; uint32_t access = 0; int flags = 0; int rc; ASSERT(cr); ASSERT(snode); ASSERT(snode->n_magic == SMB_NODE_MAGIC); ASSERT(snode->n_state != SMB_NODE_STATE_DESTROYING); if (SMB_TREE_CONTAINS_NODE(sr, snode) == 0 || SMB_TREE_HAS_ACCESS(sr, ACE_READ_ATTRIBUTES) == 0) return (EACCES); if (sr->fid_ofile) { /* if uid and/or gid is requested */ if (attr->sa_mask & (SMB_AT_UID|SMB_AT_GID)) access |= READ_CONTROL; /* if anything else is also requested */ if (attr->sa_mask & ~(SMB_AT_UID|SMB_AT_GID)) access |= FILE_READ_ATTRIBUTES; status = smb_ofile_access(sr->fid_ofile, cr, access); if (status != NT_STATUS_SUCCESS) return (EACCES); if (smb_tree_has_feature(sr->tid_tree, SMB_TREE_ACEMASKONACCESS)) flags = ATTR_NOACLCHECK; } unnamed_node = SMB_IS_STREAM(snode); if (unnamed_node) { ASSERT(unnamed_node->n_magic == SMB_NODE_MAGIC); ASSERT(unnamed_node->n_state != SMB_NODE_STATE_DESTROYING); unnamed_vp = unnamed_node->vp; } rc = smb_vop_getattr(snode->vp, unnamed_vp, attr, flags, cr); if (rc == 0) snode->attr = *attr; return (rc); } /* * smb_fsop_rename * * All SMB functions should use this smb_vop_rename wrapper to ensure that * the smb_vop_rename is performed with the appropriate credentials. * Please document any direct call to smb_vop_rename to explain the reason * for avoiding this wrapper. * * It is assumed that references exist on from_dnode and to_dnode coming * into this routine. */ int smb_fsop_rename( smb_request_t *sr, cred_t *cr, smb_node_t *from_dnode, char *from_name, smb_node_t *to_dnode, char *to_name) { smb_node_t *from_snode; smb_attr_t tmp_attr; vnode_t *from_vp; int flags = 0, ret_flags; int rc; boolean_t isdir; ASSERT(cr); ASSERT(from_dnode); ASSERT(from_dnode->n_magic == SMB_NODE_MAGIC); ASSERT(from_dnode->n_state != SMB_NODE_STATE_DESTROYING); ASSERT(to_dnode); ASSERT(to_dnode->n_magic == SMB_NODE_MAGIC); ASSERT(to_dnode->n_state != SMB_NODE_STATE_DESTROYING); if (SMB_TREE_CONTAINS_NODE(sr, from_dnode) == 0) return (EACCES); if (SMB_TREE_CONTAINS_NODE(sr, to_dnode) == 0) return (EACCES); ASSERT(sr); ASSERT(sr->tid_tree); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); /* * Note: There is no need to check SMB_TREE_IS_CASEINSENSITIVE * here. * * A case-sensitive rename is always done in this routine * because we are using the on-disk name from an earlier lookup. * If a mangled name was passed in by the caller (denoting a * deterministic lookup), then the exact file must be renamed * (i.e. SMB_IGNORE_CASE must not be passed to VOP_RENAME, or * else the underlying file system might return a "first-match" * on this on-disk name, possibly resulting in the wrong file). */ if (SMB_TREE_SUPPORTS_CATIA(sr)) flags |= SMB_CATIA; /* * XXX: Lock required through smb_node_release() below? */ rc = smb_vop_lookup(from_dnode->vp, from_name, &from_vp, NULL, flags, &ret_flags, NULL, cr); if (rc != 0) return (rc); isdir = from_vp->v_type == VDIR; if ((isdir && SMB_TREE_HAS_ACCESS(sr, ACE_DELETE_CHILD | ACE_ADD_SUBDIRECTORY) != (ACE_DELETE_CHILD | ACE_ADD_SUBDIRECTORY)) || (!isdir && SMB_TREE_HAS_ACCESS(sr, ACE_DELETE | ACE_ADD_FILE) != (ACE_DELETE | ACE_ADD_FILE))) return (EACCES); rc = smb_vop_rename(from_dnode->vp, from_name, to_dnode->vp, to_name, flags, cr); if (rc == 0) { from_snode = smb_node_lookup(sr, NULL, cr, from_vp, from_name, from_dnode, NULL, &tmp_attr); if (from_snode == NULL) { rc = ENOMEM; } else { smb_node_rename(from_dnode, from_snode, to_dnode, to_name); smb_node_release(from_snode); } } VN_RELE(from_vp); /* XXX: unlock */ return (rc); } /* * smb_fsop_setattr * * All SMB functions should use this wrapper to ensure that * the the calls are performed with the appropriate credentials. * Please document any direct call to explain the reason * for avoiding this wrapper. * * It is assumed that a reference exists on snode coming into this routine. * A null smb_request might be passed to this function. */ int smb_fsop_setattr( smb_request_t *sr, cred_t *cr, smb_node_t *snode, smb_attr_t *set_attr, smb_attr_t *ret_attr) { smb_node_t *unnamed_node; vnode_t *unnamed_vp = NULL; uint32_t status; uint32_t access; int rc = 0; int flags = 0; uint_t sa_mask; ASSERT(cr); ASSERT(snode); ASSERT(snode->n_magic == SMB_NODE_MAGIC); ASSERT(snode->n_state != SMB_NODE_STATE_DESTROYING); if (SMB_TREE_CONTAINS_NODE(sr, snode) == 0) return (EACCES); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); if (SMB_TREE_HAS_ACCESS(sr, ACE_WRITE_ATTRIBUTES | ACE_WRITE_NAMED_ATTRS) == 0) return (EACCES); if (sr && (set_attr->sa_mask & SMB_AT_SIZE)) { if (sr->fid_ofile) { if (SMB_OFILE_IS_READONLY(sr->fid_ofile)) return (EACCES); } else { if (SMB_PATHFILE_IS_READONLY(sr, snode)) return (EACCES); } } /* sr could be NULL in some cases */ if (sr && sr->fid_ofile) { sa_mask = set_attr->sa_mask; access = 0; if (sa_mask & SMB_AT_SIZE) { access |= FILE_WRITE_DATA; sa_mask &= ~SMB_AT_SIZE; } if (sa_mask & (SMB_AT_UID|SMB_AT_GID)) { access |= WRITE_OWNER; sa_mask &= ~(SMB_AT_UID|SMB_AT_GID); } if (sa_mask) access |= FILE_WRITE_ATTRIBUTES; status = smb_ofile_access(sr->fid_ofile, cr, access); if (status != NT_STATUS_SUCCESS) return (EACCES); if (smb_tree_has_feature(sr->tid_tree, SMB_TREE_ACEMASKONACCESS)) flags = ATTR_NOACLCHECK; } unnamed_node = SMB_IS_STREAM(snode); if (unnamed_node) { ASSERT(unnamed_node->n_magic == SMB_NODE_MAGIC); ASSERT(unnamed_node->n_state != SMB_NODE_STATE_DESTROYING); unnamed_vp = unnamed_node->vp; } rc = smb_vop_setattr(snode->vp, unnamed_vp, set_attr, flags, cr); if ((rc == 0) && ret_attr) { /* * Use kcred to update the node attr because this * call is not being made on behalf of the user. */ ret_attr->sa_mask = SMB_AT_ALL; rc = smb_vop_getattr(snode->vp, unnamed_vp, ret_attr, flags, kcred); if (rc == 0) snode->attr = *ret_attr; } return (rc); } /* * smb_fsop_read * * All SMB functions should use this wrapper to ensure that * the the calls are performed with the appropriate credentials. * Please document any direct call to explain the reason * for avoiding this wrapper. * * It is assumed that a reference exists on snode coming into this routine. */ int smb_fsop_read( struct smb_request *sr, cred_t *cr, smb_node_t *snode, uio_t *uio, smb_attr_t *ret_attr) { smb_node_t *unnamed_node; vnode_t *unnamed_vp = NULL; caller_context_t ct; int svmand; int rc; ASSERT(cr); ASSERT(snode); ASSERT(snode->n_magic == SMB_NODE_MAGIC); ASSERT(snode->n_state != SMB_NODE_STATE_DESTROYING); ASSERT(sr); ASSERT(sr->fid_ofile); if (SMB_TREE_HAS_ACCESS(sr, ACE_READ_DATA) == 0) return (EACCES); rc = smb_ofile_access(sr->fid_ofile, cr, FILE_READ_DATA); if (rc != NT_STATUS_SUCCESS) { rc = smb_ofile_access(sr->fid_ofile, cr, FILE_EXECUTE); if (rc != NT_STATUS_SUCCESS) return (EACCES); } unnamed_node = SMB_IS_STREAM(snode); if (unnamed_node) { ASSERT(unnamed_node->n_magic == SMB_NODE_MAGIC); ASSERT(unnamed_node->n_state != SMB_NODE_STATE_DESTROYING); unnamed_vp = unnamed_node->vp; /* * Streams permission are checked against the unnamed stream, * but in FS level they have their own permissions. To avoid * rejection by FS due to lack of permission on the actual * extended attr kcred is passed for streams. */ cr = kcred; } smb_node_start_crit(snode, RW_READER); rc = nbl_svmand(snode->vp, kcred, &svmand); if (rc) { smb_node_end_crit(snode); return (rc); } ct = smb_ct; ct.cc_pid = sr->fid_ofile->f_uniqid; rc = nbl_lock_conflict(snode->vp, NBL_READ, uio->uio_loffset, uio->uio_iov->iov_len, svmand, &ct); if (rc) { smb_node_end_crit(snode); return (ERANGE); } rc = smb_vop_read(snode->vp, uio, cr); if (rc == 0 && ret_attr) { /* * Use kcred to update the node attr because this * call is not being made on behalf of the user. */ ret_attr->sa_mask = SMB_AT_ALL; if (smb_vop_getattr(snode->vp, unnamed_vp, ret_attr, 0, kcred) == 0) { snode->attr = *ret_attr; } } smb_node_end_crit(snode); return (rc); } /* * smb_fsop_write * * This is a wrapper function used for smb_write and smb_write_raw operations. * * It is assumed that a reference exists on snode coming into this routine. */ int smb_fsop_write( smb_request_t *sr, cred_t *cr, smb_node_t *snode, uio_t *uio, uint32_t *lcount, smb_attr_t *ret_attr, int ioflag) { smb_node_t *unnamed_node; vnode_t *unnamed_vp = NULL; caller_context_t ct; int svmand; int rc; ASSERT(cr); ASSERT(snode); ASSERT(snode->n_magic == SMB_NODE_MAGIC); ASSERT(snode->n_state != SMB_NODE_STATE_DESTROYING); ASSERT(sr); ASSERT(sr->tid_tree); ASSERT(sr->fid_ofile); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); if (SMB_OFILE_IS_READONLY(sr->fid_ofile) || SMB_TREE_HAS_ACCESS(sr, ACE_WRITE_DATA | ACE_APPEND_DATA) == 0) return (EACCES); rc = smb_ofile_access(sr->fid_ofile, cr, FILE_WRITE_DATA); if (rc != NT_STATUS_SUCCESS) { rc = smb_ofile_access(sr->fid_ofile, cr, FILE_APPEND_DATA); if (rc != NT_STATUS_SUCCESS) return (EACCES); } unnamed_node = SMB_IS_STREAM(snode); if (unnamed_node) { ASSERT(unnamed_node->n_magic == SMB_NODE_MAGIC); ASSERT(unnamed_node->n_state != SMB_NODE_STATE_DESTROYING); unnamed_vp = unnamed_node->vp; /* * Streams permission are checked against the unnamed stream, * but in FS level they have their own permissions. To avoid * rejection by FS due to lack of permission on the actual * extended attr kcred is passed for streams. */ cr = kcred; } smb_node_start_crit(snode, RW_READER); rc = nbl_svmand(snode->vp, kcred, &svmand); if (rc) { smb_node_end_crit(snode); return (rc); } ct = smb_ct; ct.cc_pid = sr->fid_ofile->f_uniqid; rc = nbl_lock_conflict(snode->vp, NBL_WRITE, uio->uio_loffset, uio->uio_iov->iov_len, svmand, &ct); if (rc) { smb_node_end_crit(snode); return (ERANGE); } rc = smb_vop_write(snode->vp, uio, ioflag, lcount, cr); if (rc == 0 && ret_attr) { /* * Use kcred to update the node attr because this * call is not being made on behalf of the user. */ ret_attr->sa_mask = SMB_AT_ALL; if (smb_vop_getattr(snode->vp, unnamed_vp, ret_attr, 0, kcred) == 0) { snode->attr = *ret_attr; } } smb_node_end_crit(snode); return (rc); } /* * smb_fsop_statfs * * This is a wrapper function used for stat operations. */ int smb_fsop_statfs( cred_t *cr, smb_node_t *snode, struct statvfs64 *statp) { ASSERT(cr); ASSERT(snode); ASSERT(snode->n_magic == SMB_NODE_MAGIC); ASSERT(snode->n_state != SMB_NODE_STATE_DESTROYING); return (smb_vop_statfs(snode->vp, statp, cr)); } /* * smb_fsop_access * * Named streams do not have separate permissions from the associated * unnamed stream. Thus, if node is a named stream, the permissions * check will be performed on the associated unnamed stream. * * However, our named streams do have their own quarantine attribute, * separate from that on the unnamed stream. If READ or EXECUTE * access has been requested on a named stream, an additional access * check is performed on the named stream in case it has been * quarantined. kcred is used to avoid issues with the permissions * set on the extended attribute file representing the named stream. */ int smb_fsop_access(smb_request_t *sr, cred_t *cr, smb_node_t *snode, uint32_t faccess) { int access = 0; int error; vnode_t *dir_vp; boolean_t acl_check = B_TRUE; smb_node_t *unnamed_node; ASSERT(sr); ASSERT(cr); ASSERT(snode); ASSERT(snode->n_magic == SMB_NODE_MAGIC); ASSERT(snode->n_state != SMB_NODE_STATE_DESTROYING); if (faccess == 0) return (NT_STATUS_SUCCESS); if (SMB_TREE_IS_READONLY(sr)) { if (faccess & (FILE_WRITE_DATA|FILE_APPEND_DATA| FILE_WRITE_EA|FILE_DELETE_CHILD|FILE_WRITE_ATTRIBUTES| DELETE|WRITE_DAC|WRITE_OWNER)) { return (NT_STATUS_ACCESS_DENIED); } } unnamed_node = SMB_IS_STREAM(snode); if (unnamed_node) { ASSERT(unnamed_node->n_magic == SMB_NODE_MAGIC); ASSERT(unnamed_node->n_state != SMB_NODE_STATE_DESTROYING); /* * Perform VREAD access check on the named stream in case it * is quarantined. kcred is passed to smb_vop_access so it * doesn't fail due to lack of permission. */ if (faccess & (FILE_READ_DATA | FILE_EXECUTE)) { error = smb_vop_access(snode->vp, VREAD, 0, NULL, kcred); if (error) return (NT_STATUS_ACCESS_DENIED); } /* * Streams authorization should be performed against the * unnamed stream. */ snode = unnamed_node; } if (faccess & ACCESS_SYSTEM_SECURITY) { /* * This permission is required for reading/writing SACL and * it's not part of DACL. It's only granted via proper * privileges. */ if ((sr->uid_user->u_privileges & (SMB_USER_PRIV_BACKUP | SMB_USER_PRIV_RESTORE | SMB_USER_PRIV_SECURITY)) == 0) return (NT_STATUS_PRIVILEGE_NOT_HELD); faccess &= ~ACCESS_SYSTEM_SECURITY; } /* Links don't have ACL */ if ((!smb_tree_has_feature(sr->tid_tree, SMB_TREE_ACEMASKONACCESS)) || (snode->attr.sa_vattr.va_type == VLNK)) acl_check = B_FALSE; /* * Use the most restrictive parts of both faccess and the * share access. An AND of the two value masks gives us that * since we've already converted to a mask of what we "can" * do. */ faccess &= sr->tid_tree->t_access; if (acl_check) { dir_vp = (snode->dir_snode) ? snode->dir_snode->vp : NULL; error = smb_vop_access(snode->vp, faccess, V_ACE_MASK, dir_vp, cr); } else { /* * FS doesn't understand 32-bit mask, need to map */ if (faccess & (FILE_WRITE_DATA | FILE_APPEND_DATA)) access |= VWRITE; if (faccess & FILE_READ_DATA) access |= VREAD; if (faccess & FILE_EXECUTE) access |= VEXEC; error = smb_vop_access(snode->vp, access, 0, NULL, cr); } return ((error) ? NT_STATUS_ACCESS_DENIED : NT_STATUS_SUCCESS); } /* * smb_fsop_lookup_name() * * If name indicates that the file is a stream file, perform * stream specific lookup, otherwise call smb_fsop_lookup. * * Return an error if the looked-up file is in outside the tree. * (Required when invoked from open path.) */ int smb_fsop_lookup_name( smb_request_t *sr, cred_t *cr, int flags, smb_node_t *root_node, smb_node_t *dnode, char *name, smb_node_t **ret_snode, smb_attr_t *ret_attr) { smb_node_t *fnode; smb_attr_t file_attr; vnode_t *xattrdirvp; vnode_t *vp; char *od_name; char *fname; char *sname; int rc; ASSERT(cr); ASSERT(dnode); ASSERT(dnode->n_magic == SMB_NODE_MAGIC); ASSERT(dnode->n_state != SMB_NODE_STATE_DESTROYING); /* * The following check is required for streams processing, below */ if (SMB_TREE_IS_CASEINSENSITIVE(sr)) flags |= SMB_IGNORE_CASE; fname = kmem_alloc(MAXNAMELEN, KM_SLEEP); sname = kmem_alloc(MAXNAMELEN, KM_SLEEP); if (smb_is_stream_name(name)) { smb_stream_parse_name(name, fname, sname); /* * Look up the unnamed stream (i.e. fname). * Unmangle processing will be done on fname * as well as any link target. */ rc = smb_fsop_lookup(sr, cr, flags, root_node, dnode, fname, &fnode, &file_attr); if (rc != 0) { kmem_free(fname, MAXNAMELEN); kmem_free(sname, MAXNAMELEN); return (rc); } od_name = kmem_alloc(MAXNAMELEN, KM_SLEEP); /* * od_name is the on-disk name of the stream, except * without the prepended stream prefix (SMB_STREAM_PREFIX) */ /* * XXX * What permissions NTFS requires for stream lookup if any? */ rc = smb_vop_stream_lookup(fnode->vp, sname, &vp, od_name, &xattrdirvp, flags, root_node->vp, cr); if (rc != 0) { smb_node_release(fnode); kmem_free(fname, MAXNAMELEN); kmem_free(sname, MAXNAMELEN); kmem_free(od_name, MAXNAMELEN); return (rc); } *ret_snode = smb_stream_node_lookup(sr, cr, fnode, xattrdirvp, vp, od_name, ret_attr); kmem_free(od_name, MAXNAMELEN); smb_node_release(fnode); VN_RELE(xattrdirvp); VN_RELE(vp); if (*ret_snode == NULL) { kmem_free(fname, MAXNAMELEN); kmem_free(sname, MAXNAMELEN); return (ENOMEM); } } else { rc = smb_fsop_lookup(sr, cr, flags, root_node, dnode, name, ret_snode, ret_attr); } if (rc == 0) { ASSERT(ret_snode); if (SMB_TREE_CONTAINS_NODE(sr, *ret_snode) == 0) { smb_node_release(*ret_snode); *ret_snode = NULL; rc = EACCES; } } kmem_free(fname, MAXNAMELEN); kmem_free(sname, MAXNAMELEN); return (rc); } /* * smb_fsop_lookup * * All SMB functions should use this smb_vop_lookup wrapper to ensure that * the smb_vop_lookup is performed with the appropriate credentials and using * case insensitive compares. Please document any direct call to smb_vop_lookup * to explain the reason for avoiding this wrapper. * * It is assumed that a reference exists on dnode coming into this routine * (and that it is safe from deallocation). * * Same with the root_node. * * *ret_snode is returned with a reference upon success. No reference is * taken if an error is returned. * * Note: The returned ret_snode may be in a child mount. This is ok for * readdir. * * Other smb_fsop_* routines will call SMB_TREE_CONTAINS_NODE() to prevent * operations on files not in the parent mount. */ int smb_fsop_lookup( smb_request_t *sr, cred_t *cr, int flags, smb_node_t *root_node, smb_node_t *dnode, char *name, smb_node_t **ret_snode, smb_attr_t *ret_attr) { smb_node_t *lnk_target_node; smb_node_t *lnk_dnode; char *longname; char *od_name; vnode_t *vp; int rc; int ret_flags; ASSERT(cr); ASSERT(dnode); ASSERT(dnode->n_magic == SMB_NODE_MAGIC); ASSERT(dnode->n_state != SMB_NODE_STATE_DESTROYING); if (name == NULL) return (EINVAL); if (SMB_TREE_CONTAINS_NODE(sr, dnode) == 0) return (EACCES); if (SMB_TREE_IS_CASEINSENSITIVE(sr)) flags |= SMB_IGNORE_CASE; if (SMB_TREE_SUPPORTS_CATIA(sr)) flags |= SMB_CATIA; od_name = kmem_alloc(MAXNAMELEN, KM_SLEEP); rc = smb_vop_lookup(dnode->vp, name, &vp, od_name, flags, &ret_flags, root_node ? root_node->vp : NULL, cr); if (rc != 0) { if (smb_maybe_mangled_name(name) == 0) { kmem_free(od_name, MAXNAMELEN); return (rc); } longname = kmem_alloc(MAXNAMELEN, KM_SLEEP); rc = smb_unmangle_name(dnode, name, longname, MAXNAMELEN); if (rc != 0) { kmem_free(od_name, MAXNAMELEN); kmem_free(longname, MAXNAMELEN); return (rc); } /* * longname is the real (case-sensitive) * on-disk name. * We make sure we do a lookup on this exact * name, as the name was mangled and denotes * a unique file. */ if (flags & SMB_IGNORE_CASE) flags &= ~SMB_IGNORE_CASE; rc = smb_vop_lookup(dnode->vp, longname, &vp, od_name, flags, &ret_flags, root_node ? root_node->vp : NULL, cr); kmem_free(longname, MAXNAMELEN); if (rc != 0) { kmem_free(od_name, MAXNAMELEN); return (rc); } } if ((flags & SMB_FOLLOW_LINKS) && (vp->v_type == VLNK)) { rc = smb_pathname(sr, od_name, FOLLOW, root_node, dnode, &lnk_dnode, &lnk_target_node, cr); if (rc != 0) { /* * The link is assumed to be for the last component * of a path. Hence any ENOTDIR error will be returned * as ENOENT. */ if (rc == ENOTDIR) rc = ENOENT; VN_RELE(vp); kmem_free(od_name, MAXNAMELEN); return (rc); } /* * Release the original VLNK vnode */ VN_RELE(vp); vp = lnk_target_node->vp; rc = smb_vop_traverse_check(&vp); if (rc != 0) { smb_node_release(lnk_dnode); smb_node_release(lnk_target_node); kmem_free(od_name, MAXNAMELEN); return (rc); } /* * smb_vop_traverse_check() may have returned a different vnode */ if (lnk_target_node->vp == vp) { *ret_snode = lnk_target_node; *ret_attr = (*ret_snode)->attr; } else { *ret_snode = smb_node_lookup(sr, NULL, cr, vp, lnk_target_node->od_name, lnk_dnode, NULL, ret_attr); VN_RELE(vp); if (*ret_snode == NULL) rc = ENOMEM; smb_node_release(lnk_target_node); } smb_node_release(lnk_dnode); } else { rc = smb_vop_traverse_check(&vp); if (rc) { VN_RELE(vp); kmem_free(od_name, MAXNAMELEN); return (rc); } *ret_snode = smb_node_lookup(sr, NULL, cr, vp, od_name, dnode, NULL, ret_attr); VN_RELE(vp); if (*ret_snode == NULL) rc = ENOMEM; } kmem_free(od_name, MAXNAMELEN); return (rc); } int /*ARGSUSED*/ smb_fsop_commit(smb_request_t *sr, cred_t *cr, smb_node_t *snode) { ASSERT(cr); ASSERT(snode); ASSERT(snode->n_magic == SMB_NODE_MAGIC); ASSERT(snode->n_state != SMB_NODE_STATE_DESTROYING); ASSERT(sr); ASSERT(sr->tid_tree); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); return (smb_vop_commit(snode->vp, cr)); } /* * smb_fsop_aclread * * Retrieve filesystem ACL. Depends on requested ACLs in * fs_sd->sd_secinfo, it'll set DACL and SACL pointers in * fs_sd. Note that requesting a DACL/SACL doesn't mean that * the corresponding field in fs_sd should be non-NULL upon * return, since the target ACL might not contain that type of * entries. * * Returned ACL is always in ACE_T (aka ZFS) format. * If successful the allocated memory for the ACL should be freed * using smb_fsacl_free() or smb_fssd_term() */ int smb_fsop_aclread(smb_request_t *sr, cred_t *cr, smb_node_t *snode, smb_fssd_t *fs_sd) { int error = 0; int flags = 0; int access = 0; acl_t *acl; smb_node_t *unnamed_node; ASSERT(cr); if (SMB_TREE_HAS_ACCESS(sr, ACE_READ_ACL) == 0) return (EACCES); if (sr->fid_ofile) { if (fs_sd->sd_secinfo & SMB_DACL_SECINFO) access = READ_CONTROL; if (fs_sd->sd_secinfo & SMB_SACL_SECINFO) access |= ACCESS_SYSTEM_SECURITY; error = smb_ofile_access(sr->fid_ofile, cr, access); if (error != NT_STATUS_SUCCESS) { return (EACCES); } } unnamed_node = SMB_IS_STREAM(snode); if (unnamed_node) { ASSERT(unnamed_node->n_magic == SMB_NODE_MAGIC); ASSERT(unnamed_node->n_state != SMB_NODE_STATE_DESTROYING); /* * Streams don't have ACL, any read ACL attempt on a stream * should be performed on the unnamed stream. */ snode = unnamed_node; } if (smb_tree_has_feature(sr->tid_tree, SMB_TREE_ACEMASKONACCESS)) flags = ATTR_NOACLCHECK; error = smb_vop_acl_read(snode->vp, &acl, flags, sr->tid_tree->t_acltype, cr); if (error != 0) { return (error); } error = acl_translate(acl, _ACL_ACE_ENABLED, (snode->vp->v_type == VDIR), fs_sd->sd_uid, fs_sd->sd_gid); if (error == 0) { smb_fsacl_split(acl, &fs_sd->sd_zdacl, &fs_sd->sd_zsacl, fs_sd->sd_secinfo); } acl_free(acl); return (error); } /* * smb_fsop_aclwrite * * Stores the filesystem ACL provided in fs_sd->sd_acl. */ int smb_fsop_aclwrite(smb_request_t *sr, cred_t *cr, smb_node_t *snode, smb_fssd_t *fs_sd) { int target_flavor; int error = 0; int flags = 0; int access = 0; acl_t *acl, *dacl, *sacl; smb_node_t *unnamed_node; ASSERT(cr); ASSERT(sr); ASSERT(sr->tid_tree); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); if (SMB_TREE_HAS_ACCESS(sr, ACE_WRITE_ACL) == 0) return (EACCES); if (sr->fid_ofile) { if (fs_sd->sd_secinfo & SMB_DACL_SECINFO) access = WRITE_DAC; if (fs_sd->sd_secinfo & SMB_SACL_SECINFO) access |= ACCESS_SYSTEM_SECURITY; error = smb_ofile_access(sr->fid_ofile, cr, access); if (error != NT_STATUS_SUCCESS) return (EACCES); } switch (sr->tid_tree->t_acltype) { case ACLENT_T: target_flavor = _ACL_ACLENT_ENABLED; break; case ACE_T: target_flavor = _ACL_ACE_ENABLED; break; default: return (EINVAL); } unnamed_node = SMB_IS_STREAM(snode); if (unnamed_node) { ASSERT(unnamed_node->n_magic == SMB_NODE_MAGIC); ASSERT(unnamed_node->n_state != SMB_NODE_STATE_DESTROYING); /* * Streams don't have ACL, any write ACL attempt on a stream * should be performed on the unnamed stream. */ snode = unnamed_node; } dacl = fs_sd->sd_zdacl; sacl = fs_sd->sd_zsacl; ASSERT(dacl || sacl); if ((dacl == NULL) && (sacl == NULL)) return (EINVAL); if (dacl && sacl) acl = smb_fsacl_merge(dacl, sacl); else if (dacl) acl = dacl; else acl = sacl; error = acl_translate(acl, target_flavor, (snode->vp->v_type == VDIR), fs_sd->sd_uid, fs_sd->sd_gid); if (error == 0) { if (smb_tree_has_feature(sr->tid_tree, SMB_TREE_ACEMASKONACCESS)) flags = ATTR_NOACLCHECK; error = smb_vop_acl_write(snode->vp, acl, flags, cr); } if (dacl && sacl) acl_free(acl); return (error); } acl_type_t smb_fsop_acltype(smb_node_t *snode) { return (smb_vop_acl_type(snode->vp)); } /* * smb_fsop_sdread * * Read the requested security descriptor items from filesystem. * The items are specified in fs_sd->sd_secinfo. */ int smb_fsop_sdread(smb_request_t *sr, cred_t *cr, smb_node_t *snode, smb_fssd_t *fs_sd) { int error = 0; int getowner = 0; cred_t *ga_cred; smb_attr_t attr; ASSERT(cr); ASSERT(fs_sd); /* * File's uid/gid is fetched in two cases: * * 1. it's explicitly requested * * 2. target ACL is ACE_T (ZFS ACL). They're needed for * owner@/group@ entries. In this case kcred should be used * because uid/gid are fetched on behalf of smb server. */ if (fs_sd->sd_secinfo & (SMB_OWNER_SECINFO | SMB_GROUP_SECINFO)) { getowner = 1; ga_cred = cr; } else if (sr->tid_tree->t_acltype == ACE_T) { getowner = 1; ga_cred = kcred; } if (getowner) { /* * Windows require READ_CONTROL to read owner/group SID since * they're part of Security Descriptor. * ZFS only requires read_attribute. Need to have a explicit * access check here. */ if (sr->fid_ofile == NULL) { error = smb_fsop_access(sr, ga_cred, snode, READ_CONTROL); if (error) return (error); } attr.sa_mask = SMB_AT_UID | SMB_AT_GID; error = smb_fsop_getattr(sr, ga_cred, snode, &attr); if (error == 0) { fs_sd->sd_uid = attr.sa_vattr.va_uid; fs_sd->sd_gid = attr.sa_vattr.va_gid; } else { return (error); } } if (fs_sd->sd_secinfo & SMB_ACL_SECINFO) { error = smb_fsop_aclread(sr, cr, snode, fs_sd); } return (error); } /* * smb_fsop_sdmerge * * From SMB point of view DACL and SACL are two separate list * which can be manipulated independently without one affecting * the other, but entries for both DACL and SACL will end up * in the same ACL if target filesystem supports ACE_T ACLs. * * So, if either DACL or SACL is present in the client set request * the entries corresponding to the non-present ACL shouldn't * be touched in the FS ACL. * * fs_sd parameter contains DACL and SACL specified by SMB * client to be set on a file/directory. The client could * specify both or one of these ACLs (if none is specified * we don't get this far). When both DACL and SACL are given * by client the existing ACL should be overwritten. If only * one of them is specified the entries corresponding to the other * ACL should not be touched. For example, if only DACL * is specified in input fs_sd, the function reads audit entries * of the existing ACL of the file and point fs_sd->sd_zsdacl * pointer to the fetched SACL, this way when smb_fsop_sdwrite() * function is called the passed fs_sd would point to the specified * DACL by client and fetched SACL from filesystem, so the file * will end up with correct ACL. */ static int smb_fsop_sdmerge(smb_request_t *sr, smb_node_t *snode, smb_fssd_t *fs_sd) { smb_fssd_t cur_sd; int error = 0; if (sr->tid_tree->t_acltype != ACE_T) /* Don't bother if target FS doesn't support ACE_T */ return (0); if ((fs_sd->sd_secinfo & SMB_ACL_SECINFO) != SMB_ACL_SECINFO) { if (fs_sd->sd_secinfo & SMB_DACL_SECINFO) { /* * Don't overwrite existing audit entries */ smb_fssd_init(&cur_sd, SMB_SACL_SECINFO, fs_sd->sd_flags); error = smb_fsop_sdread(sr, kcred, snode, &cur_sd); if (error == 0) { ASSERT(fs_sd->sd_zsacl == NULL); fs_sd->sd_zsacl = cur_sd.sd_zsacl; if (fs_sd->sd_zsacl && fs_sd->sd_zdacl) fs_sd->sd_zsacl->acl_flags = fs_sd->sd_zdacl->acl_flags; } } else { /* * Don't overwrite existing access entries */ smb_fssd_init(&cur_sd, SMB_DACL_SECINFO, fs_sd->sd_flags); error = smb_fsop_sdread(sr, kcred, snode, &cur_sd); if (error == 0) { ASSERT(fs_sd->sd_zdacl == NULL); fs_sd->sd_zdacl = cur_sd.sd_zdacl; if (fs_sd->sd_zdacl && fs_sd->sd_zsacl) fs_sd->sd_zdacl->acl_flags = fs_sd->sd_zsacl->acl_flags; } } if (error) smb_fssd_term(&cur_sd); } return (error); } /* * smb_fsop_sdwrite * * Stores the given uid, gid and acl in filesystem. * Provided items in fs_sd are specified by fs_sd->sd_secinfo. * * A SMB security descriptor could contain owner, primary group, * DACL and SACL. Setting an SD should be atomic but here it has to * be done via two separate FS operations: VOP_SETATTR and * VOP_SETSECATTR. Therefore, this function has to simulate the * atomicity as well as it can. * * Get the current uid, gid before setting the new uid/gid * so if smb_fsop_aclwrite fails they can be restored. root cred is * used to get currend uid/gid since this operation is performed on * behalf of the server not the user. * * If setting uid/gid fails with EPERM it means that and invalid * owner has been specified. Callers should translate this to * STATUS_INVALID_OWNER which is not the normal mapping for EPERM * in upper layers, so EPERM is mapped to EBADE. */ int smb_fsop_sdwrite(smb_request_t *sr, cred_t *cr, smb_node_t *snode, smb_fssd_t *fs_sd, int overwrite) { int error = 0; int access = 0; smb_attr_t set_attr; smb_attr_t orig_attr; ASSERT(cr); ASSERT(fs_sd); ASSERT(sr); ASSERT(sr->tid_tree); if (SMB_TREE_IS_READONLY(sr)) return (EROFS); bzero(&set_attr, sizeof (smb_attr_t)); if (fs_sd->sd_secinfo & SMB_OWNER_SECINFO) { set_attr.sa_vattr.va_uid = fs_sd->sd_uid; set_attr.sa_mask |= SMB_AT_UID; access |= WRITE_OWNER; } if (fs_sd->sd_secinfo & SMB_GROUP_SECINFO) { set_attr.sa_vattr.va_gid = fs_sd->sd_gid; set_attr.sa_mask |= SMB_AT_GID; access |= WRITE_OWNER; } if (fs_sd->sd_secinfo & SMB_DACL_SECINFO) access |= WRITE_DAC; if (fs_sd->sd_secinfo & SMB_SACL_SECINFO) access |= ACCESS_SYSTEM_SECURITY; if (sr->fid_ofile) error = smb_ofile_access(sr->fid_ofile, cr, access); else error = smb_fsop_access(sr, cr, snode, access); if (error) return (EACCES); if (set_attr.sa_mask) { orig_attr.sa_mask = SMB_AT_UID | SMB_AT_GID; error = smb_fsop_getattr(sr, kcred, snode, &orig_attr); if (error == 0) { error = smb_fsop_setattr(sr, cr, snode, &set_attr, NULL); if (error == EPERM) error = EBADE; } if (error) return (error); } if (fs_sd->sd_secinfo & SMB_ACL_SECINFO) { if (overwrite == 0) { error = smb_fsop_sdmerge(sr, snode, fs_sd); if (error) return (error); } error = smb_fsop_aclwrite(sr, cr, snode, fs_sd); if (error) { /* * Revert uid/gid changes if required. */ if (set_attr.sa_mask) { orig_attr.sa_mask = set_attr.sa_mask; (void) smb_fsop_setattr(sr, kcred, snode, &orig_attr, NULL); } } } return (error); } /* * smb_fsop_sdinherit * * Inherit the security descriptor from the parent container. * This function is called after FS has created the file/folder * so if this doesn't do anything it means FS inheritance is * in place. * * Do inheritance for ZFS internally. * * If we want to let ZFS does the inheritance the * following setting should be true: * * - aclinherit = passthrough * - aclmode = passthrough * - smbd umask = 0777 * * This will result in right effective permissions but * ZFS will always add 6 ACEs for owner, owning group * and others to be POSIX compliant. This is not what * Windows clients/users expect, so we decided that CIFS * implements Windows rules and overwrite whatever ZFS * comes up with. This way we also don't have to care * about ZFS aclinherit and aclmode settings. */ static int smb_fsop_sdinherit(smb_request_t *sr, smb_node_t *dnode, smb_fssd_t *fs_sd) { int is_dir; acl_t *dacl = NULL; acl_t *sacl = NULL; ksid_t *owner_sid; int error; ASSERT(fs_sd); if (sr->tid_tree->t_acltype != ACE_T) { /* * No forced inheritance for non-ZFS filesystems. */ fs_sd->sd_secinfo = 0; return (0); } /* Fetch parent directory's ACL */ error = smb_fsop_sdread(sr, kcred, dnode, fs_sd); if (error) { return (error); } is_dir = (fs_sd->sd_flags & SMB_FSSD_FLAGS_DIR); owner_sid = crgetsid(sr->user_cr, KSID_OWNER); ASSERT(owner_sid); dacl = smb_fsacl_inherit(fs_sd->sd_zdacl, is_dir, SMB_DACL_SECINFO, owner_sid->ks_id); sacl = smb_fsacl_inherit(fs_sd->sd_zsacl, is_dir, SMB_SACL_SECINFO, (uid_t)-1); if (sacl == NULL) fs_sd->sd_secinfo &= ~SMB_SACL_SECINFO; smb_fsacl_free(fs_sd->sd_zdacl); smb_fsacl_free(fs_sd->sd_zsacl); fs_sd->sd_zdacl = dacl; fs_sd->sd_zsacl = sacl; return (0); } /* * smb_fsop_eaccess * * Returns the effective permission of the given credential for the * specified object. * * This is just a workaround. We need VFS/FS support for this. */ void smb_fsop_eaccess(smb_request_t *sr, cred_t *cr, smb_node_t *snode, uint32_t *eaccess) { int access = 0; vnode_t *dir_vp; smb_node_t *unnamed_node; ASSERT(cr); ASSERT(snode); ASSERT(snode->n_magic == SMB_NODE_MAGIC); ASSERT(snode->n_state != SMB_NODE_STATE_DESTROYING); unnamed_node = SMB_IS_STREAM(snode); if (unnamed_node) { ASSERT(unnamed_node->n_magic == SMB_NODE_MAGIC); ASSERT(unnamed_node->n_state != SMB_NODE_STATE_DESTROYING); /* * Streams authorization should be performed against the * unnamed stream. */ snode = unnamed_node; } if (smb_tree_has_feature(sr->tid_tree, SMB_TREE_ACEMASKONACCESS)) { dir_vp = (snode->dir_snode) ? snode->dir_snode->vp : NULL; smb_vop_eaccess(snode->vp, (int *)eaccess, V_ACE_MASK, dir_vp, cr); return; } /* * FS doesn't understand 32-bit mask */ smb_vop_eaccess(snode->vp, &access, 0, NULL, cr); access &= sr->tid_tree->t_access; *eaccess = READ_CONTROL | FILE_READ_EA | FILE_READ_ATTRIBUTES; if (access & VREAD) *eaccess |= FILE_READ_DATA; if (access & VEXEC) *eaccess |= FILE_EXECUTE; if (access & VWRITE) *eaccess |= FILE_WRITE_DATA | FILE_WRITE_ATTRIBUTES | FILE_WRITE_EA | FILE_APPEND_DATA | FILE_DELETE_CHILD; } /* * smb_fsop_shrlock * * For the current open request, check file sharing rules * against existing opens. * * Returns NT_STATUS_SHARING_VIOLATION if there is any * sharing conflict. Returns NT_STATUS_SUCCESS otherwise. * * Full system-wide share reservation synchronization is available * when the nbmand (non-blocking mandatory) mount option is set * (i.e. nbl_need_crit() is true) and nbmand critical regions are used. * This provides synchronization with NFS and local processes. The * critical regions are entered in VOP_SHRLOCK()/fs_shrlock() (called * from smb_open_subr()/smb_fsop_shrlock()/smb_vop_shrlock()) as well * as the CIFS rename and delete paths. * * The CIFS server will also enter the nbl critical region in the open, * rename, and delete paths when nbmand is not set. There is limited * coordination with local and VFS share reservations in this case. * Note that when the nbmand mount option is not set, the VFS layer * only processes advisory reservations and the delete mode is not checked. * * Whether or not the nbmand mount option is set, intra-CIFS share * checking is done in the open, delete, and rename paths using a CIFS * critical region (node->n_share_lock). */ uint32_t smb_fsop_shrlock(cred_t *cr, smb_node_t *node, uint32_t uniq_fid, uint32_t desired_access, uint32_t share_access) { int rc; if (node->attr.sa_vattr.va_type == VDIR) return (NT_STATUS_SUCCESS); /* Allow access if the request is just for meta data */ if ((desired_access & FILE_DATA_ALL) == 0) return (NT_STATUS_SUCCESS); rc = smb_node_open_check(node, cr, desired_access, share_access); if (rc) return (NT_STATUS_SHARING_VIOLATION); rc = smb_vop_shrlock(node->vp, uniq_fid, desired_access, share_access, cr); if (rc) return (NT_STATUS_SHARING_VIOLATION); return (NT_STATUS_SUCCESS); } void smb_fsop_unshrlock(cred_t *cr, smb_node_t *node, uint32_t uniq_fid) { if (node->attr.sa_vattr.va_type == VDIR) return; (void) smb_vop_unshrlock(node->vp, uniq_fid, cr); } int smb_fsop_frlock(smb_node_t *node, smb_lock_t *lock, boolean_t unlock, cred_t *cr) { flock64_t bf; int flag = F_REMOTELOCK; /* * VOP_FRLOCK() will not be called if: * * 1) The lock has a range of zero bytes. The semantics of Windows and * POSIX are different. In the case of POSIX it asks for the locking * of all the bytes from the offset provided until the end of the * file. In the case of Windows a range of zero locks nothing and * doesn't conflict with any other lock. * * 2) The lock rolls over (start + lenght < start). Solaris will assert * if such a request is submitted. This will not create * incompatibilities between POSIX and Windows. In the Windows world, * if a client submits such a lock, the server will not lock any * bytes. Interestingly if the same lock (same offset and length) is * resubmitted Windows will consider that there is an overlap and * the granting rules will then apply. */ if ((lock->l_length == 0) || ((lock->l_start + lock->l_length - 1) < lock->l_start)) return (0); bzero(&bf, sizeof (bf)); if (unlock) { bf.l_type = F_UNLCK; } else if (lock->l_type == SMB_LOCK_TYPE_READONLY) { bf.l_type = F_RDLCK; flag |= FREAD; } else if (lock->l_type == SMB_LOCK_TYPE_READWRITE) { bf.l_type = F_WRLCK; flag |= FWRITE; } bf.l_start = lock->l_start; bf.l_len = lock->l_length; bf.l_pid = lock->l_file->f_uniqid; bf.l_sysid = smb_ct.cc_sysid; return (smb_vop_frlock(node->vp, cr, flag, &bf)); }