/*- * Copyright (c) 1997, 1998 * Nan Yang Computer Services Limited. All rights reserved. * * This software is distributed under the so-called ``Berkeley * License'': * * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Nan Yang Computer * Services Limited. * 4. Neither the name of the Company 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 ``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 company 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. * * $Id: request.h,v 1.17 1999/12/27 02:18:05 grog Exp grog $ * $FreeBSD$ */ /* Information needed to set up a transfer */ enum xferinfo { XFR_NORMAL_READ = 1, XFR_NORMAL_WRITE = 2, /* write request in normal mode */ XFR_RECOVERY_READ = 4, XFR_DEGRADED_WRITE = 8, XFR_PARITYLESS_WRITE = 0x10, XFR_NO_PARITY_STRIPE = 0x20, /* parity stripe is not available */ XFR_DATA_BLOCK = 0x40, /* data block in request */ XFR_PARITY_BLOCK = 0x80, /* parity block in request */ XFR_BAD_SUBDISK = 0x100, /* this subdisk is dead */ XFR_MALLOCED = 0x200, /* this buffer is malloced */ #if VINUMDEBUG XFR_PHASE2 = 0x800, /* documentation only: 2nd phase write */ #endif XFR_REVIVECONFLICT = 0x1000, /* possible conflict with a revive operation */ /* operations that need a parity block */ XFR_PARITYOP = (XFR_NORMAL_WRITE | XFR_RECOVERY_READ | XFR_DEGRADED_WRITE), /* operations that use the group parameters */ XFR_GROUPOP = (XFR_DEGRADED_WRITE | XFR_RECOVERY_READ), /* operations that that use the data parameters */ XFR_DATAOP = (XFR_NORMAL_READ | XFR_NORMAL_WRITE | XFR_PARITYLESS_WRITE), /* operations requiring read before write */ XFR_RBW = (XFR_NORMAL_WRITE | XFR_DEGRADED_WRITE), /* operations that need a malloced buffer */ XFR_NEEDS_MALLOC = (XFR_NORMAL_WRITE | XFR_RECOVERY_READ | XFR_DEGRADED_WRITE) }; /* * Describe one low-level request, part of a * high-level request. This is an extended * struct buf buffer, and the first element * *must* be a struct buf. We pass this * structure to the I/O routines instead of a * struct buf in order to be able to locate the * high-level request when it completes. * * All offsets and lengths are in sectors. */ struct rqelement { struct buf b; /* buf structure */ struct rqgroup *rqg; /* pointer to our group */ /* Information about the transfer */ daddr_t sdoffset; /* offset in subdisk */ int useroffset; /* offset in user buffer of normal data */ /* * dataoffset and datalen refer to "individual" data * transfers which involve only this drive (normal read, * parityless write) and also degraded write. * * groupoffset and grouplen refer to the other "group" * operations (normal write, recovery read) which involve * more than one drive. Both the offsets are relative to * the start of the local buffer. */ int dataoffset; /* offset in buffer of the normal data */ int groupoffset; /* offset in buffer of group data */ short datalen; /* length of normal data (sectors) */ short grouplen; /* length of group data (sectors) */ short buflen; /* total buffer length to allocate */ short flags; /* really enum xferinfo (see above) */ /* Ways to find other components */ short sdno; /* subdisk number */ short driveno; /* drive number */ }; /* * A group of requests built to satisfy an I/O * transfer on a single plex. */ struct rqgroup { struct rqgroup *next; /* pointer to next group */ struct request *rq; /* pointer to the request */ short count; /* number of requests in this group */ short active; /* and number active */ short plexno; /* index of plex */ int badsdno; /* index of bad subdisk or -1 */ enum xferinfo flags; /* description of transfer */ struct rangelock *lock; /* lock for this transfer */ daddr_t lockbase; /* and lock address */ struct rqelement rqe[0]; /* and the elements of this request */ }; /* * Describe one high-level request and the * work we have to do to satisfy it. */ struct request { struct buf *bp; /* pointer to the high-level request */ enum xferinfo flags; union { int volno; /* volume index */ int plexno; /* or plex index */ } volplex; int error; /* current error indication */ int sdno; /* reviving subdisk (XFR_REVIVECONFLICT) */ short isplex; /* set if this is a plex request */ short active; /* number of subrequests still active */ struct rqgroup *rqg; /* pointer to the first group of requests */ struct rqgroup *lrqg; /* and to the last group of requests */ struct request *next; /* link of waiting requests */ }; /* * Extended buffer header for subdisk I/O. Includes * a pointer to the user I/O request. */ struct sdbuf { struct buf b; /* our buffer */ struct buf *bp; /* and pointer to parent */ short driveno; /* drive index */ short sdno; /* and subdisk index */ }; /* * Values returned by rqe and friends. Be careful * with these: they are in order of increasing * seriousness. Some routines check for * > REQUEST_RECOVERED to indicate a failed request. XXX */ enum requeststatus { REQUEST_OK, /* request built OK */ REQUEST_RECOVERED, /* request OK, but involves RAID5 recovery */ REQUEST_DEGRADED, /* parts of request failed */ REQUEST_EOF, /* parts of request failed: outside plex */ REQUEST_DOWN, /* all of request failed: subdisk(s) down */ REQUEST_ENOMEM /* all of request failed: ran out of memory */ }; #ifdef VINUMDEBUG /* Trace entry for request info (DEBUG_LASTREQS) */ enum rqinfo_type { loginfo_unused, /* never been used */ loginfo_user_bp, /* this is the bp when strategy is called */ loginfo_user_bpl, /* and this is the bp at launch time */ loginfo_rqe, /* user RQE */ loginfo_iodone, /* iodone */ loginfo_raid5_data, /* write RAID-5 data block */ loginfo_raid5_parity, /* write RAID-5 parity block */ loginfo_sdio, /* subdisk I/O */ loginfo_sdiol, /* subdisk I/O launch */ loginfo_sdiodone, /* subdisk iodone */ loginfo_lockwait, /* wait for range lock */ loginfo_lock, /* lock range */ loginfo_unlock, /* unlock range */ }; union rqinfou { /* info to pass to logrq */ struct buf *bp; struct rqelement *rqe; /* address of request, for correlation */ struct rangelock *lockinfo; }; struct rqinfo { enum rqinfo_type type; /* kind of event */ struct timeval timestamp; /* time it happened */ struct buf *bp; /* point to user buffer */ int devmajor; /* major and minor device info */ int devminor; union { struct buf b; /* yup, the *whole* buffer header */ struct rqelement rqe; /* and the whole rqe */ struct rangelock lockinfo; } info; }; #define RQINFO_SIZE 128 /* number of info slots in buffer */ void logrq(enum rqinfo_type type, union rqinfou info, struct buf *ubp); #endif /* Structures for the daemon */ /* types of request to the daemon */ enum daemonrq { daemonrq_none, /* dummy to catch bugs */ daemonrq_ioerror, /* error occurred on I/O */ daemonrq_saveconfig, /* save configuration */ daemonrq_return, /* return to userland */ daemonrq_ping, /* show sign of life */ daemonrq_init, /* initialize a plex */ daemonrq_revive, /* revive a subdisk */ daemonrq_closedrive, /* close a drive */ }; /* info field for daemon requests */ union daemoninfo { /* and the request information */ struct request *rq; /* for daemonrq_ioerror */ struct sd *sd; /* for daemonrq_revive */ struct plex *plex; /* for daemonrq_init */ struct drive *drive; /* for daemonrq_closedrive */ int nothing; /* for passing NULL */ }; struct daemonq { struct daemonq *next; /* pointer to next element in queue */ enum daemonrq type; /* type of request */ int privateinuse; /* private element, being used */ union daemoninfo info; /* and the request information */ }; void queue_daemon_request(enum daemonrq type, union daemoninfo info); extern int daemon_options; enum daemon_option { daemon_verbose = 1, /* talk about what we're doing */ daemon_stopped = 2, daemon_noupdate = 4, /* don't update the disk config, for recovery */ }; void freerq(struct request *rq); void unlockrange(int plexno, struct rangelock *); /* Local Variables: */ /* fill-column: 50 */ /* End: */