/* * 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 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * Copyright 2018 Nexenta Systems, Inc. * Copyright 2019 Nexenta by DDN, Inc. */ #ifndef _NFS4_H #define _NFS4_H #include #include #include #include #include #ifdef _KERNEL #include #include #else #include #endif #include #include #include #ifdef __cplusplus extern "C" { #endif #define NFS4_MAX_SECOID4 65536 #define NFS4_MAX_UTF8STRING 65536 #define NFS4_MAX_LINKTEXT4 65536 #define NFS4_MAX_PATHNAME4 65536 struct nfs_fsl_info { uint_t netbuf_len; uint_t netnm_len; uint_t knconf_len; char *netname; struct netbuf *addr; struct knetconfig *knconf; }; #ifdef _KERNEL typedef struct nfs4_fhandle { int fh_len; char fh_buf[NFS4_FHSIZE]; } nfs4_fhandle_t; #define NFS4_MINORVERSION 0 #define CB4_MINORVERSION 0 /* * Set the fattr4_change variable using a time struct. Note that change * is 64 bits, but timestruc_t is 128 bits in a 64-bit kernel. */ #define NFS4_SET_FATTR4_CHANGE(change, ts) \ { \ change = (ts).tv_sec; \ change <<= 32; \ change |= (uint32_t)((ts).tv_nsec); \ } /* * Server lease period. Value is in seconds; Also used for grace period */ extern time_t rfs4_lease_time; /* * This set of typedefs and interfaces represent the core or base set * of functionality that backs the NFSv4 server's state related data * structures. Since the NFSv4 server needs inter-RPC state to be * available that is unrelated to the filesystem (in other words, * soft-state), this functionality is needed to maintain that and is * written to be somewhat flexible to adapt to the various types of * data structures contained within the server. * * The basic structure at this level is that the server maintains a * global "database" which consists of a set of tables. Each table * contains a set of like data structures. Each table is indexed by * at least one hash function and in most cases two hashes. Each * table's characteristics is set when it is created at run-time via * rfs4_table_create(). All table creation and related functions are * located in nfs4_state.c. The generic database functionality is * located in nfs4_db.c. */ typedef struct rfs4_dbe rfs4_dbe_t; /* basic opaque db entry */ typedef struct rfs4_table rfs4_table_t; /* basic table type */ typedef struct rfs4_index rfs4_index_t; /* index */ typedef struct rfs4_database rfs4_database_t; /* and database */ typedef struct { /* opaque entry type for later use */ rfs4_dbe_t *dbe; } *rfs4_entry_t; /* * NFSv4 server state databases * * Initialized when the module is loaded and used by NFSv4 state tables. * These kmem_cache free pools are used globally, the NFSv4 state tables * which make use of these kmem_cache free pools are per zone. */ extern kmem_cache_t *rfs4_client_mem_cache; extern kmem_cache_t *rfs4_clntIP_mem_cache; extern kmem_cache_t *rfs4_openown_mem_cache; extern kmem_cache_t *rfs4_openstID_mem_cache; extern kmem_cache_t *rfs4_lockstID_mem_cache; extern kmem_cache_t *rfs4_lockown_mem_cache; extern kmem_cache_t *rfs4_file_mem_cache; extern kmem_cache_t *rfs4_delegstID_mem_cache; /* database, table, index creation entry points */ extern rfs4_database_t *rfs4_database_create(uint32_t); extern void rfs4_database_shutdown(rfs4_database_t *); extern void rfs4_database_destroy(rfs4_database_t *); extern void rfs4_database_destroy(rfs4_database_t *); extern kmem_cache_t *nfs4_init_mem_cache(char *, uint32_t, uint32_t, uint32_t); extern rfs4_table_t *rfs4_table_create(rfs4_database_t *, char *, time_t, uint32_t, bool_t (*create)(rfs4_entry_t, void *), void (*destroy)(rfs4_entry_t), bool_t (*expiry)(rfs4_entry_t), uint32_t, uint32_t, uint32_t, id_t); extern void rfs4_table_destroy(rfs4_database_t *, rfs4_table_t *); extern rfs4_index_t *rfs4_index_create(rfs4_table_t *, char *, uint32_t (*hash)(void *), bool_t (compare)(rfs4_entry_t, void *), void *(*mkkey)(rfs4_entry_t), bool_t); extern void rfs4_index_destroy(rfs4_index_t *); /* Type used to direct rfs4_dbsearch() in what types of records to inspect */ typedef enum {RFS4_DBS_VALID, RFS4_DBS_INVALID} rfs4_dbsearch_type_t; /* search and db entry manipulation entry points */ extern rfs4_entry_t rfs4_dbsearch(rfs4_index_t *, void *, bool_t *, void *, rfs4_dbsearch_type_t); extern void rfs4_dbe_lock(rfs4_dbe_t *); extern void rfs4_dbe_unlock(rfs4_dbe_t *); extern clock_t rfs4_dbe_twait(rfs4_dbe_t *, clock_t); extern void rfs4_dbe_cv_broadcast(rfs4_dbe_t *); extern void rfs4_dbe_hold(rfs4_dbe_t *); extern void rfs4_dbe_hold_nolock(rfs4_dbe_t *); extern void rfs4_dbe_rele_nolock(rfs4_dbe_t *); extern void rfs4_dbe_rele(rfs4_dbe_t *); extern uint32_t rfs4_dbe_refcnt(rfs4_dbe_t *); extern id_t rfs4_dbe_getid(rfs4_dbe_t *); extern void rfs4_dbe_invalidate(rfs4_dbe_t *); extern bool_t rfs4_dbe_is_invalid(rfs4_dbe_t *); extern time_t rfs4_dbe_get_timerele(rfs4_dbe_t *); extern void rfs4_dbe_hide(rfs4_dbe_t *); extern void rfs4_dbe_unhide(rfs4_dbe_t *); #ifdef DEBUG extern bool_t rfs4_dbe_islocked(rfs4_dbe_t *); #endif extern void rfs4_dbe_walk(rfs4_table_t *, void (*callout)(rfs4_entry_t, void *), void *); /* * Minimal server stable storage. * * Currently the NFSv4 server will only save the client * ID (the long version) so that it will be able to * grant possible reclaim requests during the infamous * grace_period. */ #define RFS4_SS_DIRSIZE 64 * 1024 #define NFS4_SS_VERSION 1 /* handy pathname structure */ typedef struct ss_pn { char *leaf; char pn[MAXPATHLEN]; } rfs4_ss_pn_t; /* * The server will build this link list on startup. It represents the * clients that have had valid state on the server in a prior instance. * */ typedef struct rfs4_oldstate { struct rfs4_oldstate *next; struct rfs4_oldstate *prev; rfs4_ss_pn_t *ss_pn; nfs_client_id4 cl_id4; } rfs4_oldstate_t; /* * This union is used to overlay the server's internal treatment of * the protocols stateid4 datatype. Therefore, "bits" must not exceed * the size of stateid4 and more importantly should match the size of * stateid4. The chgseq field must the first entry since it overlays * stateid4.seqid. */ typedef union { stateid4 stateid; struct { uint32_t chgseq; /* State changes / protocol's seqid */ uint32_t boottime; /* boot time */ uint32_t type:2; /* stateid_type_t as define below */ uint32_t clnodeid:8; /* cluster server nodeid */ uint32_t ident:22; /* 2^22-1 openowner x fhs */ pid_t pid; /* pid of corresponding lock owner */ } bits; } stateid_t; /* * Note that the way the type field above is defined, this enum must * not have more than 4 members. */ typedef enum {OPENID, LOCKID, DELEGID} stateid_type_t; /* * Set of RPC credentials used for a particular operation. * Used for operations like SETCLIENTID_CONFIRM where the * credentials needs to match those used at SETCLIENTID. */ typedef void *cred_set_t; /* For now XXX */ /* * "wait" struct for use in the open open and lock owner state * structures to provide serialization between server threads that are * handling requests for the same open owner or lock stateid. This * way only one thread will be updating things like sequence ids, * replay cache and stateid at a time. */ typedef struct rfs4_state_wait { uint32_t sw_active; uint32_t sw_wait_count; kmutex_t sw_cv_lock[1]; kcondvar_t sw_cv[1]; } rfs4_state_wait_t; extern void rfs4_sw_enter(rfs4_state_wait_t *); extern void rfs4_sw_exit(rfs4_state_wait_t *); /* * This enum and the following rfs4_cbinfo_t struct are used to * maintain information about the callback path used from the server * to client for operations like CB_GETATTR and CB_RECALL. The * rfs4_cbinfo_t struct is meant to be encompassed in the client * struct and managed within that structure's locking scheme. * * The various states of the callback path are used by the server to * determine if delegations should initially be provided to a client * and then later on if connectivity has been lost and delegations * should be revoked. */ /* * CB_NOCHANGE - Special value used for interfaces within the delegation * code to signify that "no change" has occurred to the * callback path * CB_UNINIT - No callback info provided by the client * CB_NONE - Callback info provided but CB_NULL call * has yet to be attempted * CB_OK - Callback path tested with CB_NULL with success * CB_INPROG - Callback path currently being tested with CB_NULL * CB_FAILED - Callback path was == CB_OK but has failed * with timeout/rpc error * CB_BAD - Callback info provided but CB_NULL failed */ typedef enum { CB_NOCHANGE = 0, CB_UNINIT = 1, CB_NONE = 2, CB_OK = 3, CB_INPROG = 4, CB_FAILED = 5, CB_BAD = 6 } rfs4_cbstate_t; #define RFS4_CBCH_MAX 10 /* size callback client handle cache */ /* * Callback info for a client. * Client only provides: cb_client4 and cb_ident * The rest of the information is used to track callback path status * and usage. * * cb_state - used as comments for the rfs4_cbstate_t enum indicate * cb_notified_of_cb_path_down - if the callback path was once CB_OK and * has hence CB_FAILED, the client needs to be notified via RENEW. * cb_timefailed - current time when cb_state transitioned from * CB_OK -> CB_FAILED. Meant for observability. When did that happen? * cb_chc_free/cb_chc - cache of client handles for the callback path * cb_ident - SETCLIENTID provided callback_ident value * callback - SETCLIENTID provided cb_client4 value * cb_refcnt - current number of users of this structure's content * protected by cb_lock * cb_badbehavior - how many times did a client do something we didn't like? * cb_lock - lock for contents of cbinfo * cb_cv - used to allow threads to wait on CB_NULL completion * cb_nullcaller - is there a thread currently taking care of * new callback information? * cb_cv_nullcaller - used by the thread doing CB_NULL to wait on * threads that may be using client handles of the current * client handle cache. * newer - new callback info provided by a client and awaiting * CB_NULL testing and move to regular cbinfo. */ typedef struct { rfs4_cbstate_t cb_state; unsigned cb_notified_of_cb_path_down:1; time_t cb_timefailed; int cb_chc_free; CLIENT *cb_chc[RFS4_CBCH_MAX]; uint32_t cb_ident; cb_client4 cb_callback; uint32_t cb_refcnt; uint32_t cb_badbehavior; kmutex_t cb_lock[1]; kcondvar_t cb_cv[1]; bool_t cb_nullcaller; kcondvar_t cb_cv_nullcaller[1]; struct { bool_t cb_new; bool_t cb_confirmed; uint32_t cb_ident; cb_client4 cb_callback; } cb_newer; } rfs4_cbinfo_t; /* * A server instance. We can associate sets of clients - via a pointer in * rfs4_client_t - with a given server instance, allowing us to treat clients * in the set differently to clients in other sets. * * Currently used only for Sun Cluster HA-NFS support, to group clients * on NFS resource failover so each set of clients gets its own dedicated * grace period and distributed stable storage data. */ typedef struct rfs4_servinst { int dss_npaths; krwlock_t rwlock; krwlock_t oldstate_lock; time_t start_time; time_t grace_period; rfs4_oldstate_t *oldstate; struct rfs4_dss_path **dss_paths; struct rfs4_servinst *next; struct rfs4_servinst *prev; } rfs4_servinst_t; /* * DSS: distributed stable storage */ typedef struct rfs4_dss_path { struct rfs4_dss_path *next; /* for insque/remque */ struct rfs4_dss_path *prev; /* for insque/remque */ char *path; struct rfs4_servinst *sip; unsigned index; /* offset in servinst's array */ } rfs4_dss_path_t; /* array of paths passed-in from nfsd command-line; stored in nvlist */ char **rfs4_dss_newpaths; uint_t rfs4_dss_numnewpaths; /* nvlists of all DSS paths: current, and before last warmstart */ nvlist_t *rfs4_dss_paths, *rfs4_dss_oldpaths; /* * The server maintains a set of state on a per client basis that * matches that of the protocol requirements. A client's state is * rooted with the rfs4_client_t struct of which there is one per * client and is created when SETCLIENTID/SETCLIENTID_CONFIRM are * received. From there, the server then creates rfs4_openowner_t * structs for each new open owner from that client and are initiated * at OPEN/OPEN_CONFIRM (when the open owner is new to the server). * At OPEN, at least two other structures are created, and potentially a * third. rfs4_state_t is created to track the association between an * open owner and a particular file. An rfs4_file_t struct may be * created (if the file is not already open) at OPEN as well. The * rfs4_file_t struct is the only one that is per server and not per * client. The rfs4_deleg_state_t struct is created in the * instance that the server is going to provide a delegation for the * file being OPENed. Finally, the rfs4_lockowner_t is created at the * first use of a lock owner at the server and is a result of the LOCK * operation. The rfs4_lo_state_t struct is then created to represent * the relation between the lock owner and the file. * */ /* * The following ascii art represents each of these data structs and * their references to each other. Note: "<-(x)->" represents the * doubly link lists (list_t). * * ____________________ * | | * | rfs4_client_t | * ->| (1) |<- * / |____________________| \ * / ^ \ * / | \ * ____________________ ____________________ ____________________ * | | | | | | * | rfs4_lockowner_t | | rfs4_openowner_t | | rfs4_deleg_state_t | * | | | (3) <-(1)-> | | <-(2)-> | * |____________________| |____________________| |____________________| * ^ ^ | * | | V * ____________________ ____________________ ____________________ * | | | | | | * | rfs4_lo_state_t |->| rfs4_state_t |->| rfs4_file_t | * | <-(4)-> | | (4) <-(3)-> | | (2) | * |____________________| |____________________| |____________________| */ /* * Each of these data types are kept in a separate rfs4_table_t and is * actually encapsulated within a rfs4_dbe_t struct. The various * tables and their construction is done in nfs4_state.c but * documented here to completeness. * * Table Data struct stored Indexed by * ----- ------------------ ---------- * rfs4_client_tab rfs4_client_t nfs_client_id4 * clientid4 * * rfs4_openowner_tab rfs4_openowner_t open_owner4 * * rfs4_state_tab rfs4_state_t open_owner4 | file * stateid * * rfs4_lo_state_tab rfs4_lo_state_t lockowner | stateid * lock_stateid * * rfs4_lockowner_tab rfs4_lockowner_t lockowner * pid * * rfs4_file_tab rfs4_file_t filehandle * * rfs4_deleg_state_tab rfs4_deleg_state_t clientid4 | file * deleg_stateid */ /* * The client struct, it is the root of all state for a particular * client. The client is identified by the nfs_client_id4 via * SETCLIENTID and the server returns the clientid4 as short hand reference */ /* * Client struct - as mentioned above it is the root of all state for * a single client as identified by the client supplied nfs_client_id4 * * dbe - encapsulation struct * clientid - server assigned short hand reference to client * nfs_client - client supplied identifier for itself * confirm_verf - the value provided to the client for SETCLIENTID_CONFIRM * need_confirm - does this client need to be SETCLIENTID_CONFIRMed? * * unlksys_completed - has an F_UNLKSYS been done for this client which * says that the use of cleanlocks() on individual files * is not required? * can_reclaim - indicates if client is allowed to reclaim after server * start-up (client had previous state at server) * ss_remove - indicates that the rfs4_client_destroy function should * clean up stable storage file. * forced_expire - set if the sysadmin has used clear_locks for this client. * no_referrals - set if the client is Solaris and pre-dates referrals * deleg_revoked - how many delegations have been revoked for this client? * * cp_confirmed - this refers to a confirmed client struct that has * the same nfs_client_id4 as this client struct. When/if this client * struct is confirmed via SETCLINETID_CONFIRM, the previously * confirmed client struct will be "closed" and hence this reference. * * last_access - used to determine if the client has let its lease expire * cbinfo - struct containing all callback related information * cr_set - credentials used for the SETCLIENTID/SETCLIENTID_CONFIRM pair * sysid - the lock manager sysid allocated for this client's file locks * openownerlist - root of openowners list associated with this client * ss_pn - Pathname to the stable storage file. * cl_addr - Clients network address. * server_instance - pointer to the currently associated server instance */ typedef struct rfs4_client { rfs4_dbe_t *rc_dbe; clientid4 rc_clientid; nfs_client_id4 rc_nfs_client; verifier4 rc_confirm_verf; unsigned rc_need_confirm:1; unsigned rc_unlksys_completed:1; unsigned rc_can_reclaim:1; unsigned rc_ss_remove:1; unsigned rc_forced_expire:1; uint_t rc_deleg_revoked; struct rfs4_client *rc_cp_confirmed; time_t rc_last_access; rfs4_cbinfo_t rc_cbinfo; cred_set_t rc_cr_set; sysid_t rc_sysidt; list_t rc_openownerlist; rfs4_ss_pn_t *rc_ss_pn; struct sockaddr_storage rc_addr; rfs4_servinst_t *rc_server_instance; } rfs4_client_t; /* * ClntIP struct - holds the diagnosis about whether the client * cannot support referrals. Set to true for old Solaris clients. */ typedef struct rfs4_clntip { rfs4_dbe_t *ri_dbe; struct sockaddr_storage ri_addr; unsigned ri_no_referrals:1; } rfs4_clntip_t; /* * The openowner contains the client supplied open_owner4 as well as * the matching sequence id and is used to track the client's usage of * the open_owner4. Note that a reply is saved here as well for * processing of retransmissions. * * dbe - encapsulation struct * client - reference to rfs4_client_t for this openowner * owner - actual client supplied open_owner4 * need_confirm - does this openowner need to be OPEN_CONFIRMed * postpone_confirm - set if error received on first use of open_owner * state2confirm - what stateid4 should be used on the OPEN_CONFIRM * open_seqid - what is the next open_seqid expected for this openowner * oo_sw - used to serialize access to the open seqid/reply handling * cr_set - credential used for the OPEN * statelist - root of state struct list associated with this openowner * node - node for client struct list of openowners * reply_fh - open replay processing needs the filehandle so that it is * able to reset the current filehandle for appropriate compound * processing and reply. * reply - last reply sent in relation to this openowner */ typedef struct rfs4_openowner { rfs4_dbe_t *ro_dbe; rfs4_client_t *ro_client; open_owner4 ro_owner; unsigned ro_need_confirm:1; unsigned ro_postpone_confirm:1; seqid4 ro_open_seqid; rfs4_state_wait_t ro_sw; cred_set_t ro_cr_set; list_t ro_statelist; list_node_t ro_node; nfs_fh4 ro_reply_fh; nfs_resop4 ro_reply; } rfs4_openowner_t; /* * This state struct represents the association between an openowner * and a file that has been OPENed by that openowner. * * dbe - encapsulation struct * stateid - server provided stateid * owner - reference back to the openowner for this state * finfo - reference to the open file for this state * open_access - how did the openowner OPEN the file (access) * open_deny - how did the openowner OPEN the file (deny) * share_access - what share reservation is on the file (access) * share_deny - what share reservation is on the file (deny) * closed - has this file been closed? * lostatelist - root of list of lo_state associated with this state/file * node - node for state struct list of states */ typedef struct rfs4_state { rfs4_dbe_t *rs_dbe; stateid_t rs_stateid; rfs4_openowner_t *rs_owner; struct rfs4_file *rs_finfo; uint32_t rs_open_access; uint32_t rs_open_deny; uint32_t rs_share_access; uint32_t rs_share_deny; unsigned rs_closed:1; list_t rs_lostatelist; list_node_t rs_node; } rfs4_state_t; /* * Lockowner - track the lockowner and its related info * * dbe - encapsulation struct * client - reference to the client * owner - lockowner supplied by the client * pid - local identifier used for file locking */ typedef struct rfs4_lockowner { rfs4_dbe_t *rl_dbe; rfs4_client_t *rl_client; lock_owner4 rl_owner; pid_t rl_pid; } rfs4_lockowner_t; /* * Lockowner_state associated with a state struct and lockowner * * dbe - encapsulation struct * state - reference back to state struct for open file * lockid - stateid for this lockowner/state * locker - reference to lockowner * seqid - sequence id for this lockowner/state * skip_seqid_check - used on initialization of struct * locks_cleaned - have all locks been released for this lockowner/file? * lock_completed - successful LOCK with lockowner/file? * ls_sw - used to serialize update seqid/reply/stateid handling * node - node for state struct list of lo_states * reply - last reply sent in relation to this lockowner/state */ typedef struct rfs4_lo_state { rfs4_dbe_t *rls_dbe; rfs4_state_t *rls_state; stateid_t rls_lockid; rfs4_lockowner_t *rls_locker; seqid4 rls_seqid; unsigned rls_skip_seqid_check:1; unsigned rls_locks_cleaned:1; unsigned rls_lock_completed:1; rfs4_state_wait_t rls_sw; list_node_t rls_node; nfs_resop4 rls_reply; } rfs4_lo_state_t; /* * Delegation state - per client * * dbe - encapsulation struct * dtype - type of delegation (NONE, READ, WRITE) * delegid - stateid for this delegation * time_granted - time this delegation was assigned to client * time_recalled - time when the server started recall process * time_revoked - if revoked, time that the revoke occurred * finfo - reference to the file associated with this delegation * client - reference to client for which this delegation is associated * node - list of delegations for the file (WRITE == 1, READ == ) */ typedef struct rfs4_deleg_state { rfs4_dbe_t *rds_dbe; open_delegation_type4 rds_dtype; stateid_t rds_delegid; time_t rds_time_granted; time_t rds_time_recalled; time_t rds_time_revoked; struct rfs4_file *rds_finfo; rfs4_client_t *rds_client; list_node_t rds_node; } rfs4_deleg_state_t; /* * Delegation info associated with the file * * dtype - type of delegation for file (NONE, READ, WRITE) * time_returned - time that last delegation was returned for file * time_recalled - time that recall sequence started * time_lastgrant - time that last delegation was provided to a client * time_lastwrite - time of last write to use the delegation stateid * time_rm_delayed - time of last remove/rename which was DELAYed * rdgrants - how many read delegations have been provided for this file * wrgrants - how many write delegations provided (can only be one) * recall_count - how many recall threads are outstanding * recall_lock - lock to protect contents of this struct * recall_cv - condition var for the "parent" thread to wait upon * deleg_change_grant - value for change attribute at time of write grant * deleg_change - most recent value of change obtained from client * deleg_change_ts - time of last deleg_change update * ever_recalled - has this particular delegation ever been recalled? * dont_grant - file deletion is impending, don't grant a delegation * conflicted_client - clientid of the client that caused a CB_RECALL * to occur. This is used for delegation policy (should a delegation * be granted shortly after it has been returned?) */ typedef struct rfs4_dinfo { open_delegation_type4 rd_dtype; time_t rd_time_returned; time_t rd_time_recalled; time_t rd_time_lastgrant; time_t rd_time_lastwrite; time_t rd_time_rm_delayed; uint32_t rd_rdgrants; uint32_t rd_wrgrants; int32_t rd_recall_count; kmutex_t rd_recall_lock[1]; kcondvar_t rd_recall_cv[1]; bool_t rd_ever_recalled; uint32_t rd_hold_grant; clientid4 rd_conflicted_client; } rfs4_dinfo_t; /* * File * * dbe - encapsulation struct * vp - vnode for the file that is open or has a delegation * filehandle - the filehandle generated by the server for this file * delegstatelist - root of delegation list for this file * dinfo - see struct definition above * share_deny - union of all deny modes on file * share_access - union of all access modes on file * access_read - count of read access * access_write - count of write access * deny_read - count of deny reads * deny_write - count of deny writes * file_rwlock - lock for serializing the removal of a file while * the state structures are active within the server * * The only requirement for locking file_rwlock is that the * caller have a reference to the containing rfs4_file. The dbe * lock may or may not be held for lock/unlock of file_rwlock. * As mentioned above, the file_rwlock is used for serialization * of file removal and more specifically reference to the held * vnode (e.g. vp). */ typedef struct rfs4_file { rfs4_dbe_t *rf_dbe; vnode_t *rf_vp; nfs_fh4 rf_filehandle; list_t rf_delegstatelist; rfs4_dinfo_t rf_dinfo; uint32_t rf_share_deny; uint32_t rf_share_access; uint32_t rf_access_read; uint32_t rf_access_write; uint32_t rf_deny_read; uint32_t rf_deny_write; krwlock_t rf_file_rwlock; } rfs4_file_t; /* * nfs4_deleg_policy is used to signify the server's global delegation * policy. The default is to NEVER delegate files and the * administrator must configure the server to enable delegations. * * The disable/enable delegation functions are used to eliminate a * race with exclusive creates. */ typedef enum { SRV_NEVER_DELEGATE = 0, SRV_NORMAL_DELEGATE = 1 } srv_deleg_policy_t; extern void rfs4_disable_delegation(void), rfs4_enable_delegation(void); /* * Request types for delegation. These correspond with * open_delegation_type4 with the addition of a new value, DELEG_ANY, * to reqequest any delegation. */ typedef enum { DELEG_NONE = 0, /* Corresponds to OPEN_DELEG_NONE */ DELEG_READ = 1, /* Corresponds to OPEN_DELEG_READ */ DELEG_WRITE = 2, /* Corresponds to OPEN_DELEG_WRITE */ DELEG_ANY = -1 /* New value to request any delegation type */ } delegreq_t; #define NFS4_DELEG4TYPE2REQTYPE(x) (delegreq_t)(x) /* * Zone global variables of NFSv4 server */ typedef struct nfs4_srv { /* Unique write verifier */ verifier4 write4verf; /* Delegation lock */ kmutex_t deleg_lock; /* Used to serialize create/destroy of nfs4_server_state database */ kmutex_t state_lock; rfs4_database_t *nfs4_server_state; /* Used to manage access to server instance linked list */ kmutex_t servinst_lock; rfs4_servinst_t *nfs4_cur_servinst; /* Used to manage access to nfs4_deleg_policy */ krwlock_t deleg_policy_lock; srv_deleg_policy_t nfs4_deleg_policy; /* Set first time we see one */ int seen_first_compound; /* * Circular double-linked list of paths for currently-served RGs. * No locking required -- only changed on server start. * Managed with insque/remque. */ rfs4_dss_path_t *dss_pathlist; /* Duplicate request cache */ struct rfs4_drc *nfs4_drc; /* nfsv4 server start time */ time_t rfs4_start_time; /* Used to serialize lookups of clientids */ krwlock_t rfs4_findclient_lock; /* NFSv4 server state client tables */ /* table expiry times */ time_t rfs4_client_cache_time; time_t rfs4_openowner_cache_time; time_t rfs4_state_cache_time; time_t rfs4_lo_state_cache_time; time_t rfs4_lockowner_cache_time; time_t rfs4_file_cache_time; time_t rfs4_deleg_state_cache_time; time_t rfs4_clntip_cache_time; /* tables and indexes */ /* client table */ rfs4_table_t *rfs4_client_tab; rfs4_index_t *rfs4_clientid_idx; rfs4_index_t *rfs4_nfsclnt_idx; /* client IP table */ rfs4_table_t *rfs4_clntip_tab; rfs4_index_t *rfs4_clntip_idx; /* Open Owner table */ rfs4_table_t *rfs4_openowner_tab; rfs4_index_t *rfs4_openowner_idx; /* Open State ID table */ rfs4_table_t *rfs4_state_tab; rfs4_index_t *rfs4_state_idx; rfs4_index_t *rfs4_state_owner_file_idx; rfs4_index_t *rfs4_state_file_idx; /* Lock State ID table */ rfs4_table_t *rfs4_lo_state_tab; rfs4_index_t *rfs4_lo_state_idx; rfs4_index_t *rfs4_lo_state_owner_idx; /* Lock owner table */ rfs4_table_t *rfs4_lockowner_tab; rfs4_index_t *rfs4_lockowner_idx; rfs4_index_t *rfs4_lockowner_pid_idx; /* File table */ rfs4_table_t *rfs4_file_tab; rfs4_index_t *rfs4_file_idx; /* Deleg State table */ rfs4_table_t *rfs4_deleg_state_tab; rfs4_index_t *rfs4_deleg_idx; rfs4_index_t *rfs4_deleg_state_idx; /* client stable storage */ int rfs4_ss_enabled; } nfs4_srv_t; /* * max length of the NFSv4 server database name */ #define RFS4_MAX_MEM_CACHE_NAME 48 /* * global NFSv4 server kmem caches * r_db_name - The name of the state database and the table that will use it * These tables are defined in nfs4_srv_t * r_db_mem_cache - The kmem cache associated with the state database name */ typedef struct rfs4_db_mem_cache { char r_db_name[RFS4_MAX_MEM_CACHE_NAME]; kmem_cache_t *r_db_mem_cache; } rfs4_db_mem_cache_t; #define RFS4_DB_MEM_CACHE_NUM 8 rfs4_db_mem_cache_t rfs4_db_mem_cache_table[RFS4_DB_MEM_CACHE_NUM]; extern srv_deleg_policy_t nfs4_get_deleg_policy(); extern void rfs4_servinst_create(nfs4_srv_t *, int, int, char **); extern void rfs4_servinst_destroy_all(nfs4_srv_t *); extern void rfs4_servinst_assign(nfs4_srv_t *, rfs4_client_t *, rfs4_servinst_t *); extern rfs4_servinst_t *rfs4_servinst(rfs4_client_t *); extern int rfs4_clnt_in_grace(rfs4_client_t *); extern int rfs4_servinst_in_grace(rfs4_servinst_t *); extern int rfs4_servinst_grace_new(rfs4_servinst_t *); extern void rfs4_grace_start(rfs4_servinst_t *); extern void rfs4_grace_start_new(nfs4_srv_t *); extern void rfs4_grace_reset_all(nfs4_srv_t *); extern void rfs4_ss_oldstate(rfs4_oldstate_t *, char *, char *); extern void rfs4_dss_readstate(nfs4_srv_t *, int, char **); /* * Various interfaces to manipulate the state structures introduced * above */ extern void rfs4_free_reply(nfs_resop4 *); extern void rfs4_copy_reply(nfs_resop4 *, nfs_resop4 *); /* rfs4_client_t handling */ extern rfs4_client_t *rfs4_findclient(nfs_client_id4 *, bool_t *, rfs4_client_t *); extern rfs4_client_t *rfs4_findclient_by_id(clientid4, bool_t); extern rfs4_client_t *rfs4_findclient_by_addr(struct sockaddr *); extern void rfs4_client_rele(rfs4_client_t *); extern void rfs4_client_close(rfs4_client_t *); extern void rfs4_client_state_remove(rfs4_client_t *); extern void rfs4_client_scv_next(rfs4_client_t *); extern void rfs4_update_lease(rfs4_client_t *); extern bool_t rfs4_lease_expired(rfs4_client_t *); extern nfsstat4 rfs4_check_clientid(clientid4 *, int); /* rfs4_clntip_t handling */ extern rfs4_clntip_t *rfs4_find_clntip(struct sockaddr *, bool_t *); extern void rfs4_invalidate_clntip(struct sockaddr *); /* rfs4_openowner_t handling */ extern rfs4_openowner_t *rfs4_findopenowner(open_owner4 *, bool_t *, seqid4); extern void rfs4_update_open_sequence(rfs4_openowner_t *); extern void rfs4_update_open_resp(rfs4_openowner_t *, nfs_resop4 *, nfs_fh4 *); extern void rfs4_openowner_rele(rfs4_openowner_t *); extern void rfs4_free_opens(rfs4_openowner_t *, bool_t, bool_t); /* rfs4_lockowner_t handling */ extern rfs4_lockowner_t *rfs4_findlockowner(lock_owner4 *, bool_t *); extern rfs4_lockowner_t *rfs4_findlockowner_by_pid(pid_t); extern void rfs4_lockowner_rele(rfs4_lockowner_t *); /* rfs4_state_t handling */ extern rfs4_state_t *rfs4_findstate_by_owner_file(rfs4_openowner_t *, rfs4_file_t *, bool_t *); extern void rfs4_state_rele(rfs4_state_t *); extern void rfs4_state_close(rfs4_state_t *, bool_t, bool_t, cred_t *); extern void rfs4_release_share_lock_state(rfs4_state_t *, cred_t *, bool_t); extern void rfs4_close_all_state(rfs4_file_t *); /* rfs4_lo_state_t handling */ extern rfs4_lo_state_t *rfs4_findlo_state_by_owner(rfs4_lockowner_t *, rfs4_state_t *, bool_t *); extern void rfs4_lo_state_rele(rfs4_lo_state_t *, bool_t); extern void rfs4_update_lock_sequence(rfs4_lo_state_t *); extern void rfs4_update_lock_resp(rfs4_lo_state_t *, nfs_resop4 *); /* rfs4_file_t handling */ extern rfs4_file_t *rfs4_findfile(vnode_t *, nfs_fh4 *, bool_t *); extern rfs4_file_t *rfs4_findfile_withlock(vnode_t *, nfs_fh4 *, bool_t *); extern void rfs4_file_rele(rfs4_file_t *); /* General collection of "get state" functions */ extern nfsstat4 rfs4_get_state(stateid4 *, rfs4_state_t **, rfs4_dbsearch_type_t); extern nfsstat4 rfs4_get_deleg_state(stateid4 *, rfs4_deleg_state_t **); extern nfsstat4 rfs4_get_lo_state(stateid4 *, rfs4_lo_state_t **, bool_t); extern nfsstat4 rfs4_check_stateid(int, vnode_t *, stateid4 *, bool_t, bool_t *, bool_t, caller_context_t *); extern int rfs4_check_stateid_seqid(rfs4_state_t *, stateid4 *); extern int rfs4_check_lo_stateid_seqid(rfs4_lo_state_t *, stateid4 *); /* return values for rfs4_check_stateid_seqid() */ #define NFS4_CHECK_STATEID_OKAY 1 #define NFS4_CHECK_STATEID_OLD 2 #define NFS4_CHECK_STATEID_BAD 3 #define NFS4_CHECK_STATEID_EXPIRED 4 #define NFS4_CHECK_STATEID_REPLAY 5 #define NFS4_CHECK_STATEID_CLOSED 6 #define NFS4_CHECK_STATEID_UNCONFIRMED 7 /* delay() time that server is willing to briefly wait for a delegreturn */ #define NFS4_DELEGATION_CONFLICT_DELAY (hz/10) /* * Interfaces for handling of callback's client handle cache and * callback interfaces themselves. */ extern void rfs4_cbinfo_free(rfs4_cbinfo_t *); extern void rfs4_client_setcb(rfs4_client_t *, cb_client4 *, uint32_t); extern void rfs4_deleg_cb_check(rfs4_client_t *); extern nfsstat4 rfs4_vop_getattr(vnode_t *, vattr_t *, int, cred_t *); /* rfs4_deleg_state_t handling and other delegation interfaces */ extern rfs4_deleg_state_t *rfs4_finddeleg(rfs4_state_t *, bool_t *); extern rfs4_deleg_state_t *rfs4_finddelegstate(stateid_t *); extern bool_t rfs4_check_recall(rfs4_state_t *, uint32_t); extern void rfs4_recall_deleg(rfs4_file_t *, bool_t, rfs4_client_t *); extern int rfs4_get_deleg(rfs4_state_t *, open_delegation_type4, open_delegation_type4 (*policy)(rfs4_state_t *, open_delegation_type4 dtype)); extern rfs4_deleg_state_t *rfs4_grant_delegation(delegreq_t, rfs4_state_t *, int *); extern void rfs4_set_deleg_response(rfs4_deleg_state_t *, open_delegation4 *, nfsace4 *, int); extern void rfs4_return_deleg(rfs4_deleg_state_t *, bool_t); extern bool_t rfs4_is_deleg(rfs4_state_t *); extern void rfs4_deleg_state_rele(rfs4_deleg_state_t *); extern bool_t rfs4_check_delegated_byfp(int, rfs4_file_t *, bool_t, bool_t, bool_t, clientid4 *); extern void rfs4_clear_dont_grant(rfs4_file_t *); /* * nfs4 monitored operations. */ extern int deleg_rd_open(femarg_t *, int, cred_t *, caller_context_t *); extern int deleg_wr_open(femarg_t *, int, cred_t *, caller_context_t *); extern int deleg_wr_read(femarg_t *, uio_t *, int, cred_t *, caller_context_t *); extern int deleg_rd_write(femarg_t *, uio_t *, int, cred_t *, caller_context_t *); extern int deleg_wr_write(femarg_t *, uio_t *, int, cred_t *, caller_context_t *); extern int deleg_rd_setattr(femarg_t *, vattr_t *, int, cred_t *, caller_context_t *); extern int deleg_wr_setattr(femarg_t *, vattr_t *, int, cred_t *, caller_context_t *); extern int deleg_rd_rwlock(femarg_t *, int, caller_context_t *); extern int deleg_wr_rwlock(femarg_t *, int, caller_context_t *); extern int deleg_rd_space(femarg_t *, int, flock64_t *, int, offset_t, cred_t *, caller_context_t *); extern int deleg_wr_space(femarg_t *, int, flock64_t *, int, offset_t, cred_t *, caller_context_t *); extern int deleg_rd_setsecattr(femarg_t *, vsecattr_t *, int, cred_t *, caller_context_t *); extern int deleg_wr_setsecattr(femarg_t *, vsecattr_t *, int, cred_t *, caller_context_t *); extern int deleg_rd_vnevent(femarg_t *, vnevent_t, vnode_t *, char *, caller_context_t *); extern int deleg_wr_vnevent(femarg_t *, vnevent_t, vnode_t *, char *, caller_context_t *); extern void rfs4_mon_hold(void *); extern void rfs4_mon_rele(void *); extern fem_t *deleg_rdops; extern fem_t *deleg_wrops; extern int rfs4_share(rfs4_state_t *, uint32_t, uint32_t); extern int rfs4_unshare(rfs4_state_t *); extern void rfs4_set_deleg_policy(nfs4_srv_t *, srv_deleg_policy_t); extern void rfs4_hold_deleg_policy(nfs4_srv_t *); extern void rfs4_rele_deleg_policy(nfs4_srv_t *); #ifdef DEBUG #define NFS4_DEBUG(var, args) if (var) cmn_err args extern int rfs4_debug; extern int nfs4_client_attr_debug; extern int nfs4_client_state_debug; extern int nfs4_client_shadow_debug; extern int nfs4_client_lock_debug; extern int nfs4_client_lease_debug; extern int nfs4_seqid_sync; extern int nfs4_client_map_debug; extern int nfs4_client_inactive_debug; extern int nfs4_client_recov_debug; extern int nfs4_client_failover_debug; extern int nfs4_client_call_debug; extern int nfs4_client_foo_debug; extern int nfs4_client_zone_debug; extern int nfs4_lost_rqst_debug; extern int nfs4_open_stream_debug; extern int nfs4_client_open_dg; extern int nfs4_srvmnt_debug; extern int nfs4_utf8_debug; void rfs4_dbe_debug(rfs4_dbe_t *e); #ifdef NFS4_DEBUG_MUTEX void nfs4_debug_mutex_enter(kmutex_t *, char *, int); void nfs4_debug_mutex_exit(kmutex_t *, char *, int); #define mutex_enter(m) nfs4_debug_mutex_enter((m), __FILE__, __LINE__) #define mutex_exit(m) nfs4_debug_mutex_exit((m), __FILE__, __LINE__) #endif /* NFS4_DEBUG_MUTEX */ #else /* ! DEBUG */ #define NFS4_DEBUG(var, args) #endif /* DEBUG */ /* * XXX - temporary for testing of volatile fh */ #ifdef VOLATILE_FH_TEST struct nfs_fh4_fmt { fhandle4_t fh4_i; uint32_t fh4_flag; uint32_t fh4_volatile_id; }; #else /* VOLATILE_FH_TEST */ struct nfs_fh4_fmt { fhandle4_t fh4_i; uint32_t fh4_flag; }; #endif /* VOLATILE_FH_TEST */ #define FH4_NAMEDATTR 1 #define FH4_ATTRDIR 2 #define fh4_fsid fh4_i.fhx_fsid #define fh4_len fh4_i.fhx_len /* fid length */ #define fh4_data fh4_i.fhx_data /* fid bytes */ #define fh4_xlen fh4_i.fhx_xlen #define fh4_xdata fh4_i.fhx_xdata typedef struct nfs_fh4_fmt nfs_fh4_fmt_t; #define fh4_to_fmt4(fh4p) ((nfs_fh4_fmt_t *)(fh4p)->nfs_fh4_val) #define get_fh4_flag(fh4p, flag) ((fh4_to_fmt4(fh4p)->fh4_flag) & (flag)) #define set_fh4_flag(fh4p, flag) ((fh4_to_fmt4(fh4p)->fh4_flag) |= (flag)) #define clr_fh4_flag(fh4p, flag) ((fh4_to_fmt4(fh4p)->fh4_flag) &= ~(flag)) #define NFS_FH4_LEN sizeof (nfs_fh4_fmt_t) /* * Copy fields from external (fhandle_t) to in-memory (nfs_fh4_fmt_t) * format to support export info checking. It does not copy over * the complete filehandle, just the fsid, xlen and xdata. It may * need to be changed to be used in other places. * * NOTE: The macro expects the space to be pre-allocated for * the contents of nfs_fh4_fmt_t. */ #define FH_TO_FMT4(exifh, nfs_fmt) { \ bzero((nfs_fmt), NFS_FH4_LEN); \ (nfs_fmt)->fh4_fsid = (exifh)->fh_fsid; \ (nfs_fmt)->fh4_xlen = (exifh)->fh_xlen; \ bcopy((exifh)->fh_xdata, (nfs_fmt)->fh4_xdata, \ (exifh)->fh_xlen); \ } /* * A few definitions of repeatedly used constructs for nfsv4 */ #define UTF8STRING_FREE(str) { \ kmem_free((str).utf8string_val, (str).utf8string_len); \ (str).utf8string_val = NULL; \ (str).utf8string_len = 0; \ } /* * NFS4_VOLATILE_FH yields non-zero if the filesystem uses non-persistent * filehandles. */ #define NFS4_VOLATILE_FH(mi) \ ((mi)->mi_fh_expire_type & \ (FH4_VOLATILE_ANY | FH4_VOL_MIGRATION | FH4_VOL_RENAME)) /* * NFS_IS_DOTNAME checks if the name given represents a dot or dotdot entry */ #define NFS_IS_DOTNAME(name) \ (((name)[0] == '.') && \ (((name)[1] == '\0') || (((name)[1] == '.') && ((name)[2] == '\0')))) /* * Define the number of bits in a bitmap word (uint32) */ #define NFS4_BITMAP4_BITSPERWORD (sizeof (uint32_t) * 8) /* * Define the value for the access field of the compound_state structure * based on the result of nfsauth access checking. */ #define CS_ACCESS_OK 0x1 #define CS_ACCESS_DENIED 0x2 #define CS_ACCESS_LIMITED 0x4 /* * compound state in nfsv4 server */ struct compound_state { struct exportinfo *exi; struct exportinfo *saved_exi; /* export struct for saved_vp */ cred_t *basecr; /* UNIX cred: only RPC request */ caddr_t principal; int nfsflavor; cred_t *cr; /* UNIX cred: RPC request and */ /* target export */ bool_t cont; uint_t access; /* access perm on vp per request */ bool_t deleg; /* TRUE if current fh has */ /* write delegated */ vnode_t *vp; /* modified by PUTFH, and by ops that */ /* input to GETFH */ bool_t mandlock; /* Is mandatory locking in effect */ /* for vp */ vnode_t *saved_vp; /* modified by SAVEFH, copied to */ /* vp by RESTOREFH */ nfsstat4 *statusp; nfs_fh4 fh; /* ditto. valid only if vp != NULL */ nfs_fh4 saved_fh; /* ditto. valid only if */ /* saved_vp != NULL */ struct svc_req *req; char fhbuf[NFS4_FHSIZE]; }; /* * Conversion commands for nfsv4 server attr checking */ enum nfs4_attr_cmd { NFS4ATTR_SUPPORTED = 0, /* check which attrs supported */ NFS4ATTR_GETIT = 1, /* getattr - sys to fattr4 (r) */ NFS4ATTR_SETIT = 2, /* setattr - fattr4 to sys (w) */ NFS4ATTR_VERIT = 3, /* verify - fattr4 to sys (r) */ NFS4ATTR_FREEIT = 4 /* free any alloc'd space for attr */ }; typedef enum nfs4_attr_cmd nfs4_attr_cmd_t; struct nfs4_svgetit_arg { nfs4_attr_cmd_t op; /* getit or setit */ struct compound_state *cs; struct statvfs64 *sbp; uint_t flag; /* VOP_GETATTR/VOP_SETATTR flag */ uint_t xattr; /* object is xattr */ bool_t rdattr_error_req; /* if readdir & client wants */ /* rdattr_error */ nfsstat4 rdattr_error; /* used for per-entry status */ /* (if rdattr_err) */ bool_t is_referral; /* because sometimes we tell lies */ bool_t mntdfid_set; fattr4_mounted_on_fileid mounted_on_fileid; /* readdir op can always return */ /* d_ino from server fs dirent */ /* for mounted_on_fileid attr. */ /* This field holds d_ino so */ /* srv attr conv code can avoid */ /* doing an untraverse. */ vattr_t vap[1]; }; struct nfs4_ntov_map { bitmap4 fbit; /* FATTR4_XXX_MASKY */ uint_t vbit; /* AT_XXX */ bool_t vfsstat; bool_t mandatory; /* attribute mandatory to implement? */ uint_t nval; int xdr_size; /* Size of XDR'd attr */ xdrproc_t xfunc; int (*sv_getit)(nfs4_attr_cmd_t, struct nfs4_svgetit_arg *, union nfs4_attr_u *); /* subroutine for getting attr. */ char *prtstr; /* string attr for printing */ }; struct nfs4attr_to_vattr { vnode_t *vp; vattr_t *vap; nfs_fh4 *fhp; nfsstat4 rdattr_error; uint32_t flag; fattr4_change change; fattr4_fsid srv_fsid; fattr4_mounted_on_fileid mntd_fid; }; typedef struct nfs4attr_to_vattr ntov4_t; /* * nfs4attr_to_vattr flags */ #define NTOV_FHP_VALID 0x01 #define NTOV_RDATTR_ERROR_VALID 0x02 #define NTOV_CHANGE_VALID 0x04 #define NTOV_SUPP_VALID 0x08 #define NTOV_SRV_FSID_VALID 0x10 #define NTOV_MOUNTED_ON_FILEID_VALID 0x20 #define FATTR4_MANDATTR_MASK ( \ FATTR4_SUPPORTED_ATTRS_MASK | \ FATTR4_TYPE_MASK | \ FATTR4_FH_EXPIRE_TYPE_MASK | \ FATTR4_CHANGE_MASK | \ FATTR4_SIZE_MASK | \ FATTR4_LINK_SUPPORT_MASK | \ FATTR4_SYMLINK_SUPPORT_MASK | \ FATTR4_NAMED_ATTR_MASK | \ FATTR4_FSID_MASK | \ FATTR4_UNIQUE_HANDLES_MASK | \ FATTR4_LEASE_TIME_MASK | \ FATTR4_RDATTR_ERROR_MASK | \ FATTR4_FILEHANDLE_MASK) struct nfs4attr_to_osattr { void *attrconv_arg; uint_t mask; }; struct mntinfo4; /* * lkp4_attr_setup lists the different options for attributes when calling * nfs4lookup_setup - either no attributes (just lookups - e.g., secinfo), * one component only (normal component lookup), get attributes for the * last component (e.g., mount), attributes for each component (e.g., * failovers later), just the filehandle for the last component (e.g., * volatile filehandle recovery), or stuff that needs OPENATTR (e.g. * looking up a named attribute or it's hidden directory). */ enum lkp4_attr_setup { LKP4_NO_ATTRIBUTES = 0, /* no attrs or filehandles */ LKP4_ALL_ATTRIBUTES = 3, /* multi-comp: attrs for all comps */ LKP4_LAST_NAMED_ATTR = 5, /* multi-comp: named attr & attrdir */ LKP4_LAST_ATTRDIR = 6, /* multi-comp: just attrdir */ LKP4_ALL_ATTR_SECINFO = 7 /* multi-comp: attrs for all comp and */ /* secinfo for last comp */ }; /* * lookup4_param a set of parameters to nfs4lookup_setup - * used to setup a path lookup compound request. */ typedef struct lookup4_param { enum lkp4_attr_setup l4_getattrs; /* (in) get attrs in the lookup? */ int header_len; /* (in) num ops before first lookup */ int trailer_len; /* (in) num ops after last */ /* Lookup/Getattr */ bitmap4 ga_bits; /* (in) Which attributes for Getattr */ COMPOUND4args_clnt *argsp; /* (in/out) args for compound struct */ COMPOUND4res_clnt *resp; /* (in/out) res for compound struct */ int arglen; /* (out) argop buffer alloc'd length */ struct mntinfo4 *mi; } lookup4_param_t; #define NFS4_FATTR4_FINISH -1 /* fattr4 index indicating finish */ typedef int (*nfs4attr_to_os_t)(int, union nfs4_attr_u *, struct nfs4attr_to_osattr *); /* * The nfs4_error_t is the basic structure to return error values * from rfs4call. It encapsulates the unix errno * value, the nfsstat4 value and the rpc status value into a single * structure. * * If error is set, then stat is ignored and rpc_status may be * set if the error occurred as the result of a CLNT_CALL. If * stat is set, then rpc request succeeded, error and * rpc_status are set to 0 and stat contains the result of * operation, NFS4_OK or one of the NFS4ERR_* values. * * Functions which want to generate errors independently from * rfs4call should set error to the desired errno value and * set stat and rpc_status to 0. nfs4_error_init() is a * convenient function to do this. */ typedef struct { int error; nfsstat4 stat; enum clnt_stat rpc_status; } nfs4_error_t; /* * Shared functions */ extern void rfs4_op_readdir(nfs_argop4 *, nfs_resop4 *, struct svc_req *, struct compound_state *); extern void nfs_fh4_copy(nfs_fh4 *, nfs_fh4 *); extern void nfs4_fattr4_free(fattr4 *); extern int nfs4lookup_setup(char *, lookup4_param_t *, int); extern void nfs4_getattr_otw_norecovery(vnode_t *, nfs4_ga_res_t *, nfs4_error_t *, cred_t *, int); extern int nfs4_getattr_otw(vnode_t *, nfs4_ga_res_t *, cred_t *, int); extern int nfs4cmpfh(const nfs_fh4 *, const nfs_fh4 *); extern int nfs4cmpfhandle(nfs4_fhandle_t *, nfs4_fhandle_t *); extern int nfs4getattr(vnode_t *, struct vattr *, cred_t *); extern int nfs4_waitfor_purge_complete(vnode_t *); extern int nfs4_validate_caches(vnode_t *, cred_t *); extern int nfs4init(int, char *); extern void nfs4fini(void); extern int nfs4_vfsinit(void); extern void nfs4_vfsfini(void); extern void nfs4_vnops_init(void); extern void nfs4_vnops_fini(void); extern void nfs_idmap_init(void); extern void nfs_idmap_flush(int); extern void nfs_idmap_fini(void); extern int nfs4_rnode_init(void); extern int nfs4_rnode_fini(void); extern int nfs4_shadow_init(void); extern int nfs4_shadow_fini(void); extern int nfs4_acache_init(void); extern int nfs4_acache_fini(void); extern int nfs4_subr_init(void); extern int nfs4_subr_fini(void); extern void nfs4_acl_init(void); extern void nfs4_acl_free_cache(vsecattr_t *); extern int geterrno4(nfsstat4); extern nfsstat4 puterrno4(int); extern int nfs4_need_to_bump_seqid(COMPOUND4res_clnt *); extern int nfs4tsize(void); extern int checkauth4(struct compound_state *, struct svc_req *); extern nfsstat4 call_checkauth4(struct compound_state *, struct svc_req *); extern int is_exported_sec(int, struct exportinfo *); extern void nfs4_vmask_to_nmask(uint_t, bitmap4 *); extern void nfs4_vmask_to_nmask_set(uint_t, bitmap4 *); extern int nfs_idmap_str_uid(utf8string *u8s, uid_t *, bool_t); extern int nfs_idmap_str_gid(utf8string *u8s, gid_t *, bool_t); extern int nfs_idmap_uid_str(uid_t, utf8string *u8s, bool_t); extern int nfs_idmap_gid_str(gid_t gid, utf8string *u8s, bool_t); extern int nfs4_time_ntov(nfstime4 *, timestruc_t *); extern int nfs4_time_vton(timestruc_t *, nfstime4 *); extern char *utf8_to_str(utf8string *, uint_t *, char *); extern char *utf8_to_fn(utf8string *, uint_t *, char *); extern utf8string *str_to_utf8(char *, utf8string *); extern utf8string *utf8_copy(utf8string *, utf8string *); extern int utf8_compare(const utf8string *, const utf8string *); extern nfsstat4 utf8_dir_verify(utf8string *); extern char *utf8_strchr(utf8string *, const char); extern int ln_ace4_cmp(nfsace4 *, nfsace4 *, int); extern int vs_aent_to_ace4(vsecattr_t *, vsecattr_t *, int, int); extern int vs_ace4_to_aent(vsecattr_t *, vsecattr_t *, uid_t, gid_t, int, int); extern int vs_ace4_to_acet(vsecattr_t *, vsecattr_t *, uid_t, gid_t, int); extern int vs_acet_to_ace4(vsecattr_t *, vsecattr_t *, int); extern void vs_acet_destroy(vsecattr_t *); extern void vs_ace4_destroy(vsecattr_t *); extern void vs_aent_destroy(vsecattr_t *); extern int vn_find_nfs_record(vnode_t *, nvlist_t **, char **, char **); extern int vn_is_nfs_reparse(vnode_t *, cred_t *); extern fs_locations4 *fetch_referral(vnode_t *, cred_t *); extern char *build_symlink(vnode_t *, cred_t *, size_t *); extern int stateid4_cmp(stateid4 *, stateid4 *); extern vtype_t nf4_to_vt[]; extern struct nfs4_ntov_map nfs4_ntov_map[]; extern uint_t nfs4_ntov_map_size; extern struct vfsops *nfs4_vfsops; extern struct vnodeops *nfs4_vnodeops; extern const struct fs_operation_def nfs4_vnodeops_template[]; extern vnodeops_t *nfs4_trigger_vnodeops; extern const struct fs_operation_def nfs4_trigger_vnodeops_template[]; extern uint_t nfs4_tsize(struct knetconfig *); extern uint_t rfs4_tsize(struct svc_req *); extern bool_t xdr_inline_decode_nfs_fh4(uint32_t *, nfs_fh4_fmt_t *, uint32_t); extern bool_t xdr_inline_encode_nfs_fh4(uint32_t **, uint32_t *, nfs_fh4_fmt_t *); #ifdef DEBUG extern int rfs4_do_pre_op_attr; extern int rfs4_do_post_op_attr; #endif extern stateid4 clnt_special0; extern stateid4 clnt_special1; #define CLNT_ISSPECIAL(id) (stateid4_cmp(id, &clnt_special0) || \ stateid4_cmp(id, &clnt_special1)) /* * The NFS Version 4 service procedures. */ extern void rfs4_do_server_start(int, int, int); extern void rfs4_compound(COMPOUND4args *, COMPOUND4res *, struct exportinfo *, struct svc_req *, cred_t *, int *); extern void rfs4_compound_free(COMPOUND4res *); extern void rfs4_compound_flagproc(COMPOUND4args *, int *); extern void rfs4_srvrinit(void); extern void rfs4_srvrfini(void); extern void rfs4_srv_zone_init(nfs_globals_t *); extern void rfs4_srv_zone_fini(nfs_globals_t *); extern void rfs4_state_g_init(void); extern void rfs4_state_zone_init(nfs4_srv_t *); extern void rfs4_state_g_fini(void); extern void rfs4_state_zone_fini(void); extern nfs4_srv_t *nfs4_get_srv(void); #endif #ifdef __cplusplus } #endif #endif /* _NFS4_H */