/* $OpenBSD: am.h,v 1.12 2009/10/27 23:59:51 deraadt Exp $ */ /* * Copyright (c) 1990 Jan-Simon Pendry * Copyright (c) 1990 Imperial College of Science, Technology & Medicine * Copyright (c) 1990, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Jan-Simon Pendry at Imperial College, London. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * from: @(#)am.h 5.6 (Berkeley) 6/6/93 */ #include "config.h" /* * Global declarations */ #include #include #include #include #include #include #ifdef MNTENT_HDR #include MNTENT_HDR #endif /* MNTENT_HDR */ #ifndef NFS_PROTOCOL_VERSION #if NFS_ARGSVERSION >= 3 #define NFS_PROTOCOL_VERSION 3 #endif /* NFS_ARGSVERSION >= 3 */ #endif /* NFS_PROTOCOL_VERSION */ #include "nfs_prot.h" #include #ifdef DEBUG_MEM #include #endif /* DEBUG_MEM */ #ifndef MAXHOSTNAMELEN #define MAXHOSTNAMELEN 64 #endif /* MAXHOSTNAMELEN */ #ifndef MNTTYPE_AUTO #define MNTTYPE_AUTO "auto" #endif /* MNTTYPE_AUTO */ #ifndef FALSE #define FALSE 0 #define TRUE 1 #endif /* FALSE */ #ifndef ROOT_MAP #define ROOT_MAP "\"root\"" #endif /* ROOT_MAP */ /* * Flags from command line */ extern int print_pid; /* Print pid to stdout */ extern int normalize_hosts; /* Normalize host names before use */ extern int restart_existing_mounts; #ifdef HAS_NIS_MAPS extern char *domain; /* NIS domain to use */ #endif /* HAS_NIS_MAPS */ extern int am_timeo; /* Cache period */ extern int afs_timeo; /* AFS timeout */ extern int afs_retrans; /* AFS retrans */ extern int am_timeo_w; /* Unmount timeout */ extern char *mtab; /* Mount table */ typedef enum { Start, Run, Finishing, Quit, Done } serv_state; extern serv_state amd_state; /* Should we go now */ extern int immediate_abort; /* Should close-down unmounts be retried */ extern time_t do_mapc_reload; /* Flush & reload mount map cache */ /* * Useful constants */ extern char pid_fsname[]; /* kiska.southseas.nz:(pid%d) */ extern char hostd[]; /* "kiska.southseas.nz" */ extern char *hostdomain; /* "southseas.nz" */ extern char *op_sys; /* "sos4" */ extern char *arch; /* "sun4" */ extern char *karch; /* "sun4c" */ extern char *cluster; /* "r+d-kluster" */ extern char *endian; /* "big" */ extern char *auto_dir; /* "/a" */ extern char version[]; /* Version info */ typedef struct am_ops am_ops; typedef struct am_node am_node; typedef struct am_opts am_opts; typedef struct mntfs mntfs; typedef struct fserver fserver; typedef struct fsrvinfo fsrvinfo; /* * Debug defns. */ #ifdef DEBUG #define DEBUG_MTAB "./mtab" extern int debug_flags; /* Debug options */ #define D_DAEMON 0x0001 /* Enter daemon mode */ #define D_TRACE 0x0002 /* Do protocol trace */ #define D_FULL 0x0004 /* Do full trace */ #define D_MTAB 0x0008 /* Use local mtab */ #define D_AMQ 0x0010 /* Register amq program */ #define D_STR 0x0020 /* Debug string munging */ #define D_MEM 0x0040 /* Trace memory allocations */ /* * Normally, don't enter daemon mode, and don't register amq */ #define D_TEST (~(D_DAEMON|D_MEM|D_STR)) #endif /* DEBUG */ /* * Global variables. */ extern unsigned short nfs_port; /* Our NFS service port */ extern struct in_addr myipaddr; /* (An) IP address of this host */ extern int foreground; /* Foreground process */ extern time_t next_softclock; /* Time to call softclock() */ extern int task_notify_todo; /* Task notifier needs running */ #ifdef HAS_TFS extern int nfs_server_code_available; #endif /* HAS_TFS */ extern int last_used_map; /* Last map being used for mounts */ extern AUTH *nfs_auth; /* Dummy uthorisation for remote servers */ extern am_node **exported_ap; /* List of nodes */ extern int first_free_map; /* First free node */ extern am_node *root_node; /* Node for "root" */ extern char *wire; /* Name of primary connected network */ #define NEXP_AP (254) #define NEXP_AP_MARGIN (128) typedef int (*task_fun)(void *); typedef void (*cb_fun)(int, int, void *); typedef void (*fwd_fun)(void *, int, struct sockaddr_in *, struct sockaddr_in *, void *, int); /* * String comparison macros */ #define STREQ(s1, s2) (strcmp((s1), (s2)) == 0) #define FSTREQ(s1, s2) ((*(s1) == *(s2)) && STREQ((s1),(s2))) /* * Linked list */ typedef struct qelem qelem; struct qelem { qelem *q_forw; qelem *q_back; }; #define FIRST(ty, q) ((ty *) ((q)->q_forw)) #define LAST(ty, q) ((ty *) ((q)->q_back)) #define NEXT(ty, q) ((ty *) (((qelem *) q)->q_forw)) #define PREV(ty, q) ((ty *) (((qelem *) q)->q_back)) #define HEAD(ty, q) ((ty *) q) #define ITER(v, ty, q) \ for ((v) = FIRST(ty,(q)); (v) != HEAD(ty,(q)); (v) = NEXT(ty,(v))) /* * List of mount table entries */ typedef struct mntlist mntlist; struct mntlist { struct mntlist *mnext; struct mntent *mnt; }; /* * Mount map */ typedef struct mnt_map mnt_map; struct fhstatus; /* * Global routines */ extern void am_mounted(am_node *); extern void am_unmounted(am_node *); extern pid_t background(void); extern int bind_resv_port(int, unsigned short *); extern int compute_mount_flags(struct mntent *); extern int softclock(void); #ifdef DEBUG extern int debug_option(char *); #endif /* DEBUG */ extern void deslashify(char *); extern void discard_mntlist(mntlist *mp); /*extern void domain_strip(char *, char *);*/ extern mntfs *dup_mntfs(mntfs *); extern fserver *dup_srvr(fserver*); extern int eval_fs_opts(am_opts *, char *, char *, char *, char *, char *); extern char *expand_key(char *); extern am_node *exported_ap_alloc(void); extern am_node *find_ap(char *); extern am_node *find_mf(mntfs *); extern mntfs *find_mntfs(am_ops *, am_opts *, char *, char *, char *, char *, char *); extern void flush_mntfs(void); extern void flush_nfs_fhandle_cache(fserver *); extern void flush_srvr_nfs_cache(void); extern void forcibly_timeout_mp(am_node *); extern void free_mntfs(mntfs *); extern void free_opts(am_opts *); extern void free_map(am_node *); extern void free_mntlist(mntlist *); extern void free_srvr(fserver *); extern int fwd_init(void); extern int fwd_packet(int, void *, int, struct sockaddr_in *, struct sockaddr_in *, void *, fwd_fun); extern void fwd_reply(void); extern void get_args(int, char *[]); extern char *getwire(void); #ifdef NEED_MNTOPT_PARSER extern char *hasmntopt(struct mntent *, char *); #endif /* NEED_MNTOPT_PARSER */ extern int hasmntval(struct mntent *, char *); extern void host_normalize(char **); extern char *inet_dquad(char *, size_t, u_int32_t); extern void init_map(am_node *, char *); extern void insert_am(am_node *, am_node *); extern void ins_que(qelem *, qelem *); extern int islocalnet(in_addr_t); extern int make_nfs_auth(void); extern void make_root_node(void); extern int make_rpc_packet(char *, int, u_long, struct rpc_msg *, void *, xdrproc_t, AUTH *); extern void map_flush_srvr(fserver *); extern void mapc_add_kv(mnt_map *, char *, char *); extern mnt_map *mapc_find(char *, char *); extern void mapc_free(mnt_map *); extern int mapc_keyiter(mnt_map*, void (*)(char *,void *), void *); extern int mapc_search(mnt_map *, char *, char **); extern void mapc_reload(void); extern void mapc_showtypes(FILE *); extern void mf_mounted(mntfs *mf); extern int mkdirs(char *, int); extern void mk_fattr(am_node *, int); extern void mnt_free(struct mntent *); extern int mount_auto_node(char *, void *); extern int mount_automounter(pid_t); extern int mount_exported(void); extern int mount_fs(struct mntent *, int, caddr_t, int, MTYPE_TYPE); extern int mount_nfs_fh(struct fhstatus *, char *, char *, char *, mntfs *); extern int mount_node(am_node *); extern mntfs *new_mntfs(void); extern void new_ttl(am_node *); extern am_node *next_map(int *); extern int nfs_srvr_port(fserver *, u_short *, void *); extern void normalize_slash(char *); extern void ops_showfstypes(FILE *); extern int pickup_rpc_reply(void *, int, void *, xdrproc_t); extern mntlist *read_mtab(char *); extern mntfs *realloc_mntfs(mntfs *, am_ops *, am_opts *, char *, char *, char *, char *, char *); extern void rem_que(qelem *); extern void reschedule_timeout_mp(void); extern void restart(void); #ifdef UPDATE_MTAB extern void rewrite_mtab(mntlist *); #endif /* UPDATE_MTAB */ extern void rmdirs(char *); extern am_node *root_ap(char *, int); extern int root_keyiter(void (*)(char *,void *), void *); extern void root_newmap(char *, char *, char *); extern void rpc_msg_init(struct rpc_msg *, u_long, u_long, u_long); extern void run_task(task_fun, void *, cb_fun, void *); extern void sched_task(cb_fun, void *, void *); extern void show_rcs_info(const char *, char *); extern void sigchld(int); extern void srvrlog(fserver *, char *); extern char *str3cat(char *, char *, char *, char *); extern char *strnsave(const char *, int); extern char *strealloc(char *, char *); extern char **strsplit(char *, int, int); extern int switch_option(char *); extern int switch_to_logfile(char *); extern void do_task_notify(void); extern int timeout(unsigned int, void (*fn)(), void *); extern void timeout_mp(void); extern void umount_exported(void); extern int umount_fs(char *); /*extern int unmount_node(am_node*); extern int unmount_node_wrap(void *);*/ extern void unregister_amq(void); extern void untimeout(int); extern int valid_key(char *); extern void wakeup(void *); extern void wakeup_task(int, int, void *); extern void wakeup_srvr(fserver *); extern void write_mntent(struct mntent *); #ifdef UPDATE_MTAB extern void unlock_mntlist(void); #else #define unlock_mntlist() #endif /* UPDATE_MTAB */ #define ALLOC(ty) ((struct ty *) xmalloc(sizeof(struct ty))) /* * Options */ struct am_opts { char *fs_glob; /* Smashed copy of global options */ char *fs_local; /* Expanded copy of local options */ char *fs_mtab; /* Mount table entry */ /* Other options ... */ char *opt_dev; char *opt_delay; char *opt_dir; char *opt_fs; char *opt_group; char *opt_mount; char *opt_opts; char *opt_remopts; char *opt_pref; char *opt_cache; char *opt_rfs; char *opt_rhost; char *opt_sublink; char *opt_type; char *opt_unmount; char *opt_user; }; /* * File Handle * * This is interpreted by indexing the exported array * by fhh_id. * * The whole structure is mapped onto a standard fhandle_t * when transmitted. */ struct am_fh { int fhh_pid; /* process id */ int fhh_id; /* map id */ int fhh_gen; /* generation number */ }; extern am_node *fh_to_mp(nfs_fh *); extern am_node *fh_to_mp3(nfs_fh *, int *, int); extern void mp_to_fh(am_node *, nfs_fh *); #define fh_to_mp2(fhp, rp) fh_to_mp3(fhp, rp, VLOOK_CREATE) extern int auto_fmount(am_node *mp); extern int auto_fumount(am_node *mp); #define MAX_READDIR_ENTRIES 16 typedef char *(*vfs_match)(am_opts *); typedef int (*vfs_init)(mntfs *); typedef int (*vmount_fs)(am_node *); typedef int (*vfmount_fs)(mntfs *); typedef int (*vumount_fs)(am_node *); typedef int (*vfumount_fs)(mntfs *); typedef am_node *(*vlookuppn)(am_node *, char *, int *, int); typedef int (*vreaddir)(am_node *, nfscookie, dirlist *, entry *, int); typedef am_node *(*vreadlink)(am_node *, int *); typedef void (*vmounted)(mntfs *); typedef void (*vumounted)(am_node *); typedef fserver *(*vffserver)(mntfs *); struct am_ops { char *fs_type; vfs_match fs_match; vfs_init fs_init; vmount_fs mount_fs; vfmount_fs fmount_fs; vumount_fs umount_fs; vfumount_fs fumount_fs; vlookuppn lookuppn; vreaddir readdir; vreadlink readlink; vmounted mounted; vumounted umounted; vffserver ffserver; int fs_flags; }; extern am_node *efs_lookuppn(am_node *, char *, int *, int); extern int efs_readdir(am_node *, nfscookie, dirlist *, entry *, int); #define VLOOK_CREATE 0x1 #define VLOOK_DELETE 0x2 #define FS_DIRECTORY 0x0001 /* This looks like a dir, not a link */ #define FS_MBACKGROUND 0x0002 /* Should background this mount */ #define FS_NOTIMEOUT 0x0004 /* Don't bother with timeouts */ #define FS_MKMNT 0x0008 /* Need to make the mount point */ #define FS_UBACKGROUND 0x0010 /* Unmount in background */ #define FS_BACKGROUND (FS_MBACKGROUND|FS_UBACKGROUND) #define FS_DISCARD 0x0020 /* Discard immediately on last reference */ #define FS_AMQINFO 0x0040 /* Amq is interested in this fs type */ #ifdef SUNOS4_COMPAT extern am_ops *sunos4_match(am_opts *, char *, char *, char *, char *, char *); #endif /* SUNOS4_COMPAT */ extern am_ops *ops_match(am_opts *, char *, char *, char *, char *, char *); #include "fstype.h" /* * Per-mountpoint statistics */ struct am_stats { time_t s_mtime; /* Mount time */ u_short s_uid; /* Uid of mounter */ int s_getattr; /* Count of getattrs */ int s_lookup; /* Count of lookups */ int s_readdir; /* Count of readdirs */ int s_readlink; /* Count of readlinks */ int s_statfs; /* Count of statfs */ }; typedef struct am_stats am_stats; /* * System statistics */ struct amd_stats { int d_drops; /* Dropped requests */ int d_stale; /* Stale NFS handles */ int d_mok; /* Successful mounts */ int d_merr; /* Failed mounts */ int d_uerr; /* Failed unmounts */ }; extern struct amd_stats amd_stats; /* * List of fileservers */ struct fserver { qelem fs_q; /* List of fileservers */ int fs_refc; /* Number of references to this node */ char *fs_host; /* Normalized hostname of server */ struct sockaddr_in *fs_ip; /* Network address of server */ int fs_cid; /* Callout id */ int fs_pinger; /* Ping (keepalive) interval */ int fs_flags; /* Flags */ char *fs_type; /* File server type */ void *fs_private; /* Private data */ void (*fs_prfree)(); /* Free private data */ }; #define FSF_VALID 0x0001 /* Valid information available */ #define FSF_DOWN 0x0002 /* This fileserver is thought to be down */ #define FSF_ERROR 0x0004 /* Permanent error has occured */ #define FSF_WANT 0x0008 /* Want a wakeup call */ #define FSF_PINGING 0x0010 /* Already doing pings */ #define FSRV_ISDOWN(fs) (((fs)->fs_flags & (FSF_DOWN|FSF_VALID)) == (FSF_DOWN|FSF_VALID)) #define FSRV_ISUP(fs) (((fs)->fs_flags & (FSF_DOWN|FSF_VALID)) == (FSF_VALID)) /* * List of mounted filesystems */ struct mntfs { qelem mf_q; /* List of mounted filesystems */ am_ops *mf_ops; /* Operations on this mountpoint */ am_opts *mf_fo; /* File opts */ char *mf_mount; /* "/a/kiska/home/kiska" */ char *mf_info; /* Mount info */ char *mf_auto; /* Automount opts */ char *mf_mopts; /* FS mount opts */ char *mf_remopts; /* Remote FS mount opts */ fserver *mf_server; /* File server */ int mf_flags; /* Flags */ int mf_error; /* Error code from background mount */ int mf_refc; /* Number of references to this node */ int mf_cid; /* Callout id */ void (*mf_prfree)(); /* Free private space */ void *mf_private; /* Private - per-fs data */ }; #define MFF_MOUNTED 0x0001 /* Node is mounted */ #define MFF_MOUNTING 0x0002 /* Mount is in progress */ #define MFF_UNMOUNTING 0x0004 /* Unmount is in progress */ #define MFF_RESTART 0x0008 /* Restarted node */ #define MFF_MKMNT 0x0010 /* Delete this node's am_mount */ #define MFF_ERROR 0x0020 /* This node failed to mount */ #define MFF_LOGDOWN 0x0040 /* Logged that this mount is down */ #define MFF_RSTKEEP 0x0080 /* Don't timeout this filesystem - restarted */ #define MFF_WANTTIMO 0x0100 /* Need a timeout call when not busy */ /* * Map of auto-mount points. */ struct am_node { int am_mapno; /* Map number */ mntfs *am_mnt; /* Mounted filesystem */ char *am_name; /* "kiska" Name of this node */ char *am_path; /* "/home/kiska" Path of this node's mount point */ char *am_link; /* "/a/kiska/home/kiska/this/that" Link to sub-directory */ am_node *am_parent, /* Parent of this node */ *am_ysib, /* Younger sibling of this node */ *am_osib, /* Older sibling of this node */ *am_child; /* First child of this node */ struct attrstat am_attr; /* File attributes */ #define am_fattr am_attr.attrstat_u.attributes int am_flags; /* Boolean flags */ int am_error; /* Specific mount error */ time_t am_ttl; /* Time to live */ int am_timeo_w; /* Wait interval */ int am_timeo; /* Timeout interval */ unsigned int am_gen; /* Generation number */ char *am_pref; /* Mount info prefix */ am_stats am_stats; /* Statistics gathering */ }; #define AMF_NOTIMEOUT 0x0001 /* This node never times out */ #define AMF_ROOT 0x0002 /* This is a root node */ #define ONE_HOUR (60 * 60) /* One hour in seconds */ /* * The following values can be tuned... */ #define ALLOWED_MOUNT_TIME 40 /* 40s for a mount */ #define AM_TTL (5 * 60) /* Default cache period */ #define AM_TTL_W (2 * 60) /* Default unmount interval */ #define AM_PINGER 30 /* NFS ping interval for live systems */ #define AFS_TIMEO 8 /* Default afs timeout - .8s */ #define AFS_RETRANS ((ALLOWED_MOUNT_TIME*10+5*afs_timeo)/afs_timeo * 2) /* Default afs retrans - 1/10th seconds */ #define RPC_XID_PORTMAP 0 #define RPC_XID_MOUNTD 1 #define RPC_XID_NFSPING 2 #define RPC_XID_MASK (0x0f) /* 16 id's for now */ #define MK_RPC_XID(type_id, uniq) ((type_id) | ((uniq) << 4))