/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_MD_MDDB_H #define _SYS_MD_MDDB_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include #ifdef __cplusplus extern "C" { #endif #if 0 /* DRP FOR DEBUGGING */ #define MDDB_FAKE #endif /* Private flags */ #define MD_PRV_GOTIT 0x0001 /* Been snarfed */ #define MD_PRV_DELETE 0x0002 /* Record pending to be deleted */ #define MD_PRV_COMMIT 0x0004 /* Record pending to be commited */ #define MD_PRV_CLEANUP 0x0008 /* Record pending to be cleaned up */ #define MD_PRV_CONVD 0x0010 /* Record has been converted (32->64) */ #define MD_PRV_PENDDEL (MD_PRV_GOTIT | MD_PRV_DELETE) #define MD_PRV_PENDCOM (MD_PRV_GOTIT | MD_PRV_COMMIT) #define MD_PRV_PENDCLEAN (MD_PRV_GOTIT | MD_PRV_CLEANUP) #define MDDB_E_INVALID (-1) /* an invalid argument was passed */ #define MDDB_E_EXISTS (-2) /* doing an operation a 2nd time which can */ /* only be done once */ #define MDDB_E_MASTER (-3) /* problem occurred accessing mastor block */ /* returned from NEW_DEV */ #define MDDB_E_TOOSMALL (-4) /* device is not large enough */ #define MDDB_E_NORECORD (-5) /* record does not exits */ /* * returned from: mddb_getnextrec * mddb_getrecsize * mddb_commitrec * mddb_commitrecs * mddb_deleterec */ #define MDDB_E_NOSPACE (-6) /* no space to create record */ #define MDDB_E_NOTNOW (-7) /* do not presently have enough resources */ /* to perform requested operation */ #define MDDB_E_NODB (-8) /* no database exist */ #define MDDB_E_NOTOWNER (-9) /* have not been told to grab this set */ #define MDDB_E_STALE (-10) /* database is stale */ #define MDDB_E_TOOFEW (-11) /* not enough replicas available */ #define MDDB_E_TAGDATA (-12) /* tagged data detected */ #define MDDB_E_ACCOK (-13) /* 50/50 mode */ #define MDDB_E_NTAGDATA (-14) /* tagop try, no tag data */ #define MDDB_E_ACCNOTOK (-15) /* accop try, no accept possible */ #define MDDB_E_NOLOCBLK (-16) /* No valid locators found */ #define MDDB_E_NOLOCNMS (-17) /* No valid locator name information */ #define MDDB_E_NODIRBLK (-18) /* No directory blocks found */ #define MDDB_E_NOTAGREC (-19) /* No tag record blocks found */ #define MDDB_E_NOTAG (-20) /* No matching tag record found */ #define MDDB_E_NODEVID (-21) /* No device id found */ #define MDDB_MINBLKS 16 /* enough for a few metadevices */ #define MDDB_MAXBLKS 8192 /* size of free bit map (must be / 8) */ #define MDDB_MN_MINBLKS 32768 /* Multinode metadb minimum size */ /* 16MB */ #define MDDB_MN_MAXBLKS 524288 /* size of free bit map (must be / 8) */ /* 256MB */ #define MDDB_C_STALE 0x0001 #define MDDB_C_TOOFEW 0x0002 #define MDDB_C_NOTOWNER 0x0004 #define MDDB_C_SET_MN_STALE 0x0008 /* Set MN set to stale */ #define MDDB_C_IMPORT 0x0010 /* * Defines used to set/reset new master flag in set structure. * Used during reconfig cycle to determine quickly if there is * new master for the set. */ #define MDDB_NM_SET 0x0001 #define MDDB_NM_RESET 0x0002 #define MDDB_NM_GET 0x0004 /* Definitions of flag in Locator Block Device ID data area - mddb_did_info */ #define MDDB_DID_EXISTS 0x0001 /* Device ID exists */ #define MDDB_DID_VALID 0x0002 /* Device ID valid on current system */ #define MDDB_DID_UPDATED 0x0004 /* locator/sidelocator info updated */ /* Definitions of flag in Locator Block - mddb_lb */ #define MDDB_DEVID_STYLE 0x0001 /* Locator Block in Device ID format */ #define MDDB_MNSET 0x0002 /* MDDB is for a multi-node set */ #define MDDB_MAX_PATCH 25 /* number of locations that */ /* can be patched in etc/system */ /* * Set struct used by all parts of the driver, to store anchor pointers. * * Lock associated with field in this structure: * * Some of fields are accessible by both the single threaded ioctl thread * and internal threads such as resync, hotsparing...etc. In this case * additional protection is needed. For example, s_db is protected by * s_dbmx additionally and s_un, s_ui are protected by md_unit_array_rw.lock * s_nm, s_nmid, s_did_nm and s_did_nmid and s_dtp are protected by nm_lock * Rest of other fileds are protected by md_mx. Two fields s_un_next and * s_un_avail are introduced by the friendly name project and are ONLY * accessible via a single threaded ioctl thread which already is protected * by the ioctl lock and there is no need to add extra protection to them. * However, in the future if they become accessible by other internal threads * then an additional protection such as md_mx lock is highly recommended. * */ typedef struct md_set { uint_t s_status; /* set status */ void **s_ui; /* set unit incore anchor */ void **s_un; /* set unit anchor */ void *s_hsp; /* set Hot Spare Pool anchor */ void *s_hs; /* set Hot Spare anchor */ void *s_db; /* set MDDB anchor */ kmutex_t s_dbmx; /* set MDDB mutex */ void *s_nm; /* set namespace anchor */ mddb_recid_t s_nmid; /* set namespace anchor record */ void *s_did_nm; /* set device id namespace anchor */ mddb_recid_t s_did_nmid; /* set device id namespace anchor rec */ void *s_dtp; /* set data tag rec */ int s_am_i_master; /* incore master flag for this node */ md_mn_nodeid_t s_nodeid; /* nodeid of this node - for MN sets */ uint_t s_rcnt; /* incore resync count for set */ unit_t s_un_next; /* s_un scan starts here */ unit_t s_un_avail; /* number of avail slots */ } md_set_t; #define MDDB_MAGIC_MB 0x6d646d62 /* magic number for master blocks */ #define MDDB_MAGIC_DB 0x6d646462 /* magic number for directory blocks */ #define MDDB_MAGIC_RB 0x6d647262 /* magic number for record blocks */ #define MDDB_MAGIC_LB 0x6d646c62 /* magic number for locator blocks */ #define MDDB_MAGIC_LN 0x6d646c6e /* magic number for locator names */ #define MDDB_MAGIC_DT 0x6d646474 /* magic number for data tag */ #define MDDB_MAGIC_DI 0x6d646469 /* magic number for device ID block */ #define MDDB_MAGIC_DU 0x6d646475 /* magic num for dummy mb */ #define MDDB_MAGIC_DE 0x6d646465 /* magic num for mb devid */ #define MDDB_GLOBAL_XOR 1234567890 #define MDDB_REV_MAJOR (uint_t)0xff00 #define MDDB_REV_MINOR (uint_t)0x00ff /* * MDDB_REV_MNMB: * If a MN diskset, master block revision is set to MDDB_REV_MNMB. * Even though the master block structure is no different * for a MN set, setting the revision field to a different * number keeps any pre-MN_diskset code from accessing * this diskset. It also allows for an early determination * of a MN diskset when reading in from disk so that the * proper size locator block and locator names structure * can be read in thus saving time on diskset startup. * Since no change in master block structure, the MDDB_REV_MINOR * portion of the revision was incremented. * * MDDB_REV_MNLB: * If a MN diskset, the locator block structure is a different size in * order to accomodate up to MD_MNMAXSIDES nodes in a diskset * with any nodeid (sideno) allowed. * The revision is set to MDDB_REV_MNLB which is a change of the * MDDB_REV_MAJOR portion of the revision. * * MDDB_REV_MNLN: * If a MN diskset, the locator names is a different size in * order to accomodate up to MD_MNMAXSIDES nodes in a diskset * with any nodeid (sideno) allowed. * The revision is set to MDDB_REV_MNLN which is a change of the * MDDB_REV_MAJOR portion of the revision. * * The record blocks have two binary properties. A record block can * represent either a 32 or 64 bit unit. A record block can also represent * a traditionally named unit or a friendly named unit. Thus, there are * minor revisions of record block. * * Traditional Friendly * Name Name * ----------- -------- * 32 bit MDDB_REV_RB MDDB_REV_RBFN * 64 bit MDDB_REV_RB64 MDDB_REV_RB64FN */ #define MDDB_REV_MB (uint_t)0x0201 #define MDDB_REV_MNMB (uint_t)0x0202 #define MDDB_REV_DB (uint_t)0x0201 #define MDDB_REV_LB (uint_t)0x0500 #define MDDB_REV_MNLB (uint_t)0x0600 #define MDDB_REV_LN (uint_t)0x0100 #define MDDB_REV_MNLN (uint_t)0x0300 #define MDDB_REV_RB (uint_t)0x0200 #define MDDB_REV_RB64 (uint_t)0x0201 #define MDDB_REV_RBFN (uint_t)0x0202 #define MDDB_REV_RB64FN (uint_t)0x0203 #define MDDB_REV_DT (uint_t)0x0100 #define MDDB_REV_DI (uint_t)0x0100 /* * Transfer record block friendly name status to unit/hs structure. */ #define NOTE_FN(rbv, unv) switch (rbv) { \ case MDDB_REV_RB: \ case MDDB_REV_RB64: \ unv &= ~MD_FN_META_DEV; \ break; \ case MDDB_REV_RBFN: \ case MDDB_REV_RB64FN: \ unv |= MD_FN_META_DEV; \ break; \ } #define MDDB_BSIZE (uint_t)DEV_BSIZE #define MDDB_PREFIXCNT 10 #define MDDB_DRVNMCNT 10 typedef int mddb_block_t; #if _LONG_LONG_ALIGNMENT == 8 && _LONG_LONG_ALIGNMENT_32 == 4 #pragma pack(4) #endif typedef struct md_mnname_suffix { md_name_suffix mn_ln_suffix; uint_t mn_ln_sideno; } md_mnname_suffix_t; typedef struct mddb_ln { int ln_magic; uint_t ln_revision; uint_t ln_checksum; struct timeval32 ln_timestamp; md_name_prefix ln_prefixes[MDDB_PREFIXCNT]; /* Don't change array sizes without changing RNDUP_BLKCNT */ md_name_suffix ln_suffixes[MD_MAXSIDES][MDDB_NLB]; } mddb_ln_t; /* * Locator name structure for MN diskset. Same as for traditional * and local diskset except that more sides are supported and the * side number can be any number since the side number is stored * in the ln_mnsuffixes structure instead of being used as an index * into that array. This means that the whole array may need to be * searched in order to find the correct information given a side number. */ typedef struct mddb_mnln { int ln_magic; uint_t ln_revision; uint_t ln_checksum; struct timeval32 ln_timestamp; md_name_prefix ln_prefixes[MDDB_PREFIXCNT]; /* Don't change array sizes without changing MDDB_MNLNCNT */ md_mnname_suffix_t ln_mnsuffixes[MD_MNMAXSIDES][MDDB_NLB]; } mddb_mnln_t; #define RNDUP_BLKCNT(sz, delta) (((sz) - \ ((delta) * \ ((MD_MAXSIDES - 1) * MDDB_NLB)) + \ MDDB_BSIZE - 1) / MDDB_BSIZE) #define MDDB_LNCNT RNDUP_BLKCNT(sizeof (mddb_ln_t), 0) #define MDDB_LOCAL_LNCNT RNDUP_BLKCNT(sizeof (mddb_ln_t), \ sizeof (md_name_suffix)) #define MDDB_MNLNCNT ((sizeof (mddb_mnln_t) + (MDDB_BSIZE - 1)) \ / MDDB_BSIZE) typedef struct mddb_dt { uint_t dt_mag; uint_t dt_rev; uint_t dt_cks; mddb_dtag_t dt_dtag; } mddb_dt_t; #define MDDB_DT_BYTES (roundup(sizeof (mddb_dt_t), MDDB_BSIZE)) #define MDDB_DT_BLOCKS (btodb(MDDB_DT_BYTES)) typedef union identifier { char serial[MDDB_SN_LEN]; struct timeval32 createtime; } identifier_t; typedef struct mddb_locator { dev32_t l_dev; daddr32_t l_blkno; int l_flags; } mddb_locator_t; typedef struct mddb_sidelocator { uchar_t l_drvnm_index; minor_t l_mnum; } mddb_sidelocator_t; typedef struct mddb_mnsidelocator { uchar_t mnl_drvnm_index; minor_t mnl_mnum; uint_t mnl_sideno; } mddb_mnsidelocator_t; typedef struct mddb_drvnm { uchar_t dn_len; char dn_data[MD_MAXDRVNM]; } mddb_drvnm_t; /* * Locator Block Device ID Information * Several device id's may share one disk block in an effort to * conserve used replica space. */ typedef struct mddb_did_info { uint_t info_flags; /* MDDB Device ID flags */ uint_t info_firstblk; /* Device ID Start Block */ uint_t info_blkcnt; /* Device ID Block Count */ uint_t info_offset; /* Device ID offset w/i Block */ uint_t info_length; /* Device ID Length */ uint_t info_checksum; /* Device ID Checksum */ char info_minor_name[32]; /* Minor name of lb dev */ } mddb_did_info_t; typedef struct mddb_did_blk { int blk_magic; /* used for verification */ uint_t blk_revision; /* used for verification */ int blk_checksum; /* used for verification */ uint_t blk_commitcnt; /* matches LB's commitcnt */ mddb_did_info_t blk_info[MDDB_NLB]; } mddb_did_blk_t; #if _LONG_LONG_ALIGNMENT == 8 && _LONG_LONG_ALIGNMENT_32 == 4 #pragma pack() #endif #define MDDB_DID_BYTES (roundup(sizeof (mddb_did_blk_t), MDDB_BSIZE)) #define MDDB_DID_BLOCKS (btodb(MDDB_DID_BYTES)) /* * Device ID Disk Blocks. * Incore linked list of disk blocks containing device IDs. * The list is built when reading in the mddb_did_blk structure and * when reading in the actual disk blocks containing device ids. * This list is used to easily write out all disk blocks containing * device ids. */ typedef struct mddb_did_db { uint_t db_firstblk; /* Disk Block's logical addr */ uint_t db_blkcnt; /* Contig Disk Block Count */ caddr_t db_ptr; /* Ptr to incore Block(s) */ struct mddb_did_db *db_next; /* Ptr to next in list */ } mddb_did_db_t; /* * Device ID Free List. * Incore linked list of free space in disk blocks containing device IDs. * Used to manage placement of device IDs in disk blocks. * All disk blocks on free list are also in linked list of disk block * containing device IDs (mddb_did_db_t). */ typedef struct mddb_did_free { uint_t free_blk; /* Disk Block's logical addr */ uint_t free_offset; /* offset of free space */ uint_t free_length; /* length of free space */ struct mddb_did_free *free_next; /* Ptr to next in list */ } mddb_did_free_t; /* * Device ID Incore Area * Contains pointer to Device ID Disk Block list and * Device ID Free List. * Also contains incore array of pointers to device IDs. Pointers * point into the device ID Disk Block list and are used as a * shortcut to find incore device IDs. */ typedef struct mddb_did_ic { mddb_did_blk_t *did_ic_blkp; mddb_did_db_t *did_ic_dbp; mddb_did_free_t *did_ic_freep; ddi_devid_t did_ic_devid[MDDB_NLB]; /* Ptr to device IDs */ } mddb_did_ic_t; /* * Locator Block (LB): * - Are fixed size, but the size is different * for local/shared set db replicas. * - All LB's start at logical block 0. * - After a replica quorum is found, there is * is only one incore copy of the LB. * - LB's are only written when replicas are added, deleted, or errored. * - LB's provide information about other replica's and their state. */ #if _LONG_LONG_ALIGNMENT == 8 && _LONG_LONG_ALIGNMENT_32 == 4 #pragma pack(4) #endif typedef struct mddb_lb { int lb_magic; /* used for verification */ uint_t lb_revision; /* used for verification */ int lb_checksum; /* used for verification */ uint_t lb_commitcnt; /* IMPORTANT */ struct timeval32 lb_timestamp; /* informative only */ int lb_loccnt; /* used for verification */ identifier_t lb_ident; /* used for verification */ uint_t lb_flags; /* flags describing LB */ uint_t lb_spare[8]; /* Spare/Pad */ mddb_block_t lb_didfirstblk; /* Devid Array Start Block */ mddb_block_t lb_didblkcnt; /* Devid Array Number Blocks */ mddb_block_t lb_dtfirstblk; /* Data Tag Start Block */ mddb_block_t lb_dtblkcnt; /* Data Tag Number Block(s) */ struct timeval32 lb_inittime; /* creation of database */ set_t lb_setno; /* used for verification */ mddb_block_t lb_blkcnt; /* used for verification */ mddb_block_t lb_lnfirstblk; mddb_block_t lb_lnblkcnt; mddb_block_t lb_dbfirstblk; mddb_drvnm_t lb_drvnm[MDDB_DRVNMCNT]; mddb_locator_t lb_locators[MDDB_NLB]; /* Don't change array sizes without changing RNDUP_BLKCNT */ mddb_sidelocator_t lb_sidelocators[MD_MAXSIDES][MDDB_NLB]; } mddb_lb_t; #if _LONG_LONG_ALIGNMENT == 8 && _LONG_LONG_ALIGNMENT_32 == 4 #pragma pack() #endif /* * Locator block structure for MN diskset. Same as for traditional * and local diskset except that more sides are supported and the * side number can be any number since the side number is stored * in the lb_mnsidelocators structure instead of being used as an index * into that array. This means that the whole array may need to be * searched in order to find the correct information given a side number. */ typedef struct mddb_mnlb { int lb_magic; /* used for verification */ uint_t lb_revision; /* used for verification */ int lb_checksum; /* used for verification */ uint_t lb_commitcnt; /* IMPORTANT */ struct timeval32 lb_timestamp; /* informative only */ int lb_loccnt; /* used for verification */ identifier_t lb_ident; /* used for verification */ uint_t lb_flags; /* flags describing LB */ uint_t lb_spare[8]; /* Spare/Pad */ mddb_block_t lb_didfirstblk; /* Devid Array Start Block */ mddb_block_t lb_didblkcnt; /* Devid Array Number Blocks */ mddb_block_t lb_dtfirstblk; /* Data Tag Start Block */ mddb_block_t lb_dtblkcnt; /* Data Tag Number Block(s) */ struct timeval32 lb_inittime; /* creation of database */ set_t lb_setno; /* used for verification */ mddb_block_t lb_blkcnt; /* used for verification */ mddb_block_t lb_lnfirstblk; mddb_block_t lb_lnblkcnt; mddb_block_t lb_dbfirstblk; mddb_drvnm_t lb_drvnm[MDDB_DRVNMCNT]; mddb_locator_t lb_locators[MDDB_NLB]; /* Don't change array sizes without changing MDDB_MNLBCNT */ mddb_mnsidelocator_t lb_mnsidelocators[MD_MNMAXSIDES][MDDB_NLB]; } mddb_mnlb_t; #define MDDB_LBCNT RNDUP_BLKCNT(sizeof (mddb_lb_t), 0) #define MDDB_LOCAL_LBCNT RNDUP_BLKCNT(sizeof (mddb_lb_t), \ sizeof (mddb_sidelocator_t)) #define MDDB_MNLBCNT ((sizeof (mddb_mnlb_t) + (MDDB_BSIZE - 1)) \ / MDDB_BSIZE) typedef struct mddb_map { daddr32_t m_consecutive; daddr32_t m_firstblk; } mddb_map_t; /* * Master block(s) (MB) * - Are written by userland; Never by the driver! * - Each replica has there own master blocks, * the master block(s) are not shared. * - MB's are not in the logical block address space of the database. * - MB's are a fixed size record (MDDB_BSIZE) * - MB's provide the logical to physical block translation, * for their replica. */ typedef struct mddb_mb { int mb_magic; /* used for verification */ uint_t mb_revision; /* used for verification */ uint_t mb_checksum; /* used for verification */ #ifdef _LP64 uint32_t mb_next; /* incore to next mb */ #else struct mddb_mb *mb_next; /* incore to next mb */ #endif /* _LP64 */ daddr32_t mb_nextblk; /* block # for next mb */ md_timeval32_t mb_timestamp; /* timestamp */ daddr32_t mb_blkcnt; /* size of blkmap */ daddr32_t mb_blkno; /* physical loc. for this MB */ set_t mb_setno; /* used for verification */ struct timeval32 mb_setcreatetime; /* set creation timestamp */ int spares[7]; mddb_map_t mb_blkmap; /* logical->physical blk map */ int mb_devid_magic; /* verify devid in mb */ short mb_devid_len; /* len of following devid */ char mb_devid[1]; /* devid byte array */ } mddb_mb_t; /* * In-core version of mddb_mb. It is known that the mddb_mb is 512 bytes on * disk, really, and so this structure is 512 + sizeof(struct mddb_mb_ic *) */ #define MDDB_IC_BSIZE (MDDB_BSIZE + sizeof (struct mddb_mb_ic *)) typedef struct mddb_mb_ic { struct mddb_mb_ic *mbi_next; struct mddb_mb mbi_mddb_mb; } mddb_mb_ic_t; /* * there can be no address in record block. The checksum must * stay the same where ever the record is in memory. Many * things depend on this. Also the timestamp is the time the the * record was committed not the time it was written to a particular * device. * * Old definition of mddb_rb, for 32-bit apps and libraries */ typedef struct mddb_rb { uint_t rb_magic; uint_t rb_revision; uint_t rb_checksum; uint_t rb_checksum_fiddle; uint_t rb_private; void *rb_userdata; uint_t rb_commitcnt; uint_t rb_spare[1]; struct timeval32 rb_timestamp; int rb_data[1]; } mddb_rb_t; /* This is, and always will be, the on-disk version of mddb_rb */ typedef struct mddb_rb32 { uint_t rb_magic; uint_t rb_revision; uint_t rb_checksum; uint_t rb_checksum_fiddle; uint_t rb_private; uint32_t rb_userdata; uint_t rb_commitcnt; uint_t rb_spare[1]; struct timeval32 rb_timestamp; int rb_data[1]; } mddb_rb32_t; /* * directory entries */ typedef struct mddb_optinfo { int o_li; int o_flags; } mddb_optinfo_t; /* Old definition of mddb_de, for 32-bit apps and libraries */ typedef struct mddb_de { struct mddb_de *de_next; mddb_rb_t *de_rb; mddb_recid_t de_recid; mddb_type_t de_type1; uint_t de_type2; uint_t de_reqsize; uint_t de_recsize; mddb_block_t de_blkcount; uint_t de_flags; mddb_optinfo_t de_optinfo[2]; mddb_block_t de_blks[1]; } mddb_de_t; /* * In core version of mddb_de, includes pointer for mddb_rb32_t user data * mddb_rb32_t is used incore */ typedef struct mddb_de_ic { void *de_rb_userdata; void *de_rb_userdata_ic; uint_t de_owner_nodeid; struct mddb_de_ic *de_next; mddb_rb32_t *de_rb; mddb_recid_t de_recid; mddb_type_t de_type1; uint_t de_type2; size_t de_reqsize; size_t de_icreqsize; size_t de_recsize; uint_t de_blkcount; uint_t de_flags; mddb_optinfo_t de_optinfo[2]; mddb_block_t de_blks[1]; } mddb_de_ic_t; typedef struct mddb_db { uint_t db_magic; uint_t db_revision; uint_t db_checksum; mddb_block_t db_blknum; struct mddb_db *db_next; mddb_block_t db_nextblk; struct timeval32 db_timestamp; uint_t db_recsum; #ifdef _KERNEL mddb_de_ic_t *db_firstentry; #else mddb_de_t *db_firstentry; #endif } mddb_db_t; /* * This is, and always will be, the on-disk version of mddb_de * When mddb_de32 is read in it is converted into mddb_de_ic */ typedef struct mddb_de32 { uint32_t de32_next; uint32_t de32_rb; mddb_recid_t de32_recid; mddb_type_t de32_type1; uint_t de32_type2; uint_t de32_reqsize; uint_t de32_recsize; mddb_block_t de32_blkcount; uint_t de32_flags; mddb_optinfo_t de32_optinfo[2]; mddb_block_t de32_blks[1]; } mddb_de32_t; /* * This is, and always will be, the on-disk version of mddb_db * When mddb_db32 is read in it is converted into mddb_db * To minimize impact on mddb format mddb_db fileds remain intact */ typedef struct mddb_db32 { uint_t db32_magic; uint_t db32_revision; uint_t db32_checksum; mddb_block_t db32_blknum; uint32_t db32_next; mddb_block_t db32_nextblk; struct timeval32 db32_timestamp; uint_t db32_recsum; uint32_t db32_firstentry; } mddb_db32_t; #define de32tode(from, to) \ { \ int i; \ to->de_rb_userdata = NULL; \ to->de_owner_nodeid = MD_MN_INVALID_NID; \ to->de_next = (struct mddb_de_ic *)(uintptr_t)from->de32_next; \ to->de_rb = (mddb_rb32_t *)(uintptr_t)from->de32_rb; \ to->de_recid = from->de32_recid; \ to->de_type1 = from->de32_type1; \ to->de_type2 = from->de32_type2; \ to->de_reqsize = from->de32_reqsize; \ to->de_recsize = from->de32_recsize; \ to->de_blkcount = from->de32_blkcount; \ to->de_flags = from->de32_flags; \ to->de_optinfo[0] = from->de32_optinfo[0]; \ to->de_optinfo[1] = from->de32_optinfo[1]; \ for (i = 0; i < from->de32_blkcount; i++) \ to->de_blks[i] = from->de32_blks[i]; \ } #define detode32(from, to) \ { \ int i; \ to->de32_next = (uint32_t)(uintptr_t)from->de_next; \ to->de32_rb = (uint32_t)(uintptr_t)from->de_rb; \ to->de32_recid = from->de_recid; \ to->de32_type1 = from->de_type1; \ to->de32_type2 = from->de_type2; \ to->de32_reqsize = from->de_reqsize; \ to->de32_recsize = from->de_recsize; \ to->de32_blkcount = from->de_blkcount; \ to->de32_flags = from->de_flags; \ to->de32_optinfo[0] = from->de_optinfo[0]; \ to->de32_optinfo[1] = from->de_optinfo[1]; \ for (i = 0; i < from->de_blkcount; i++) \ to->de32_blks[i] = from->de_blks[i]; \ } #define db32todb(from, to) \ to->db_magic = from->db32_magic; \ to->db_revision = from->db32_revision; \ to->db_checksum = from->db32_checksum; \ to->db_blknum = from->db32_blknum; \ to->db_next = (struct mddb_db *)(uintptr_t)from->db32_next; \ to->db_nextblk = from->db32_nextblk; \ to->db_timestamp = from->db32_timestamp; \ to->db_recsum = from->db32_recsum; \ to->db_firstentry = (mddb_de_ic_t *)(uintptr_t)from->db32_firstentry; #define dbtodb32(from, to) \ to->db32_magic = from->db_magic; \ to->db32_revision = from->db_revision; \ to->db32_checksum = from->db_checksum; \ to->db32_blknum = from->db_blknum; \ to->db32_next = (uint32_t)(uintptr_t)from->db_next; \ to->db32_nextblk = from->db_nextblk; \ to->db32_timestamp = from->db_timestamp; \ to->db32_recsum = from->db_recsum; \ to->db32_firstentry = (uint32_t)(uintptr_t)from->db_firstentry; /* * information about a replica of the data base */ typedef struct mddb_ri { struct mddb_ri *ri_next; uint_t ri_flags; uint_t ri_commitcnt; int ri_transplant; md_dev64_t ri_dev; daddr32_t ri_blkno; char ri_driver[16]; mddb_mb_ic_t *ri_mbip; mddb_lb_t *ri_lbp; mddb_dt_t *ri_dtp; mddb_did_ic_t *ri_did_icp; ddi_devid_t ri_devid; ddi_devid_t ri_old_devid; char ri_minor_name[MDDB_MINOR_NAME_MAX]; char ri_devname[MAXPATHLEN]; } mddb_ri_t; typedef struct mddb_bf { struct mddb_bf *bf_next; mddb_locator_t *bf_locator; buf_t bf_buf; } mddb_bf_t; /* * Information for sets of databases (which include replicas) */ #define MDDB_BITSRECID 31 #define MDDB_SETSHIFT (MDDB_BITSRECID - MD_BITSSET) #define MDDB_SETMASK (MD_SETMASK << MDDB_SETSHIFT) #define MDDB_RECIDMASK ((1 << MDDB_SETSHIFT) - 1) #define DBSET(id) (((id) & MDDB_SETMASK) >> MDDB_SETSHIFT) #define DBID(id) ((id) & MDDB_RECIDMASK) #define MAKERECID(s, i) ((((s) << MDDB_SETSHIFT) & MDDB_SETMASK) | \ ((i) & MDDB_RECIDMASK)) #define MDDB_PARSE_LOCBLK 0x00000001 #define MDDB_PARSE_LOCNM 0x00000002 #define MDDB_PARSE_OPTRECS 0x00000004 #define MDDB_PARSE_MASK 0x0000000F #define MDDB_BLOCK_PARSE 0x00000001 /* Block sending parse msgs */ #define MDDB_UNBLOCK_PARSE 0x00000002 /* Unblock sending parse msgs */ /* * We need to keep s_ident and s_inittime 32 bit. They are used in mddb_lb */ typedef struct mddb_set { uint_t s_setno; /* set number */ uint_t s_sideno; /* side number */ identifier_t s_ident; /* set identifier */ char *s_setname; /* set name */ mddb_mb_ic_t **s_mbiarray; /* master blocks array */ mddb_db_t *s_dbp; /* directory block */ mddb_lb_t *s_lbp; /* locator block */ /* May be cast to mddb_mnlb_t */ /* if accessing sidenames in */ /* MN diskset */ mddb_ln_t *s_lnp; /* locator names block */ /* May be cast to mddb_mnln_t */ /* if accessing sidenames in */ /* MN diskset */ mddb_dtag_lst_t *s_dtlp; /* List of data tags found */ mddb_did_ic_t *s_did_icp; /* Device ID incore area */ mddb_ri_t *s_rip; /* replicas incore list */ int s_freeblkcnt; /* visable for test code */ int s_totalblkcnt; /* visable for test code */ int s_mn_parseflags; /* mddb parse flags for MNset */ int s_mn_parseflags_sending; /* parse flgs sent to slaves */ uchar_t *s_freebitmap; /* free blocks bitmap */ uint_t s_freebitmapsize; /* size of bitmap */ struct timeval32 s_inittime; /* timestamp set created */ mddb_recid_t s_zombie; /* zombie record - createrec */ int s_staledeletes; /* number of stale deleterec */ int s_optcmtcnt; /* Following are opt. record */ int s_opthavelck; /* bookkeeping records ... */ int s_optwantlck; kcondvar_t s_optwantlck_cv; int s_optwaiterr; int s_opthungerr; kcondvar_t s_opthungerr_cv; int s_opthavequeuinglck; int s_optwantqueuinglck; kcondvar_t s_optqueuing_cv; ulong_t s_bufmisses; mddb_bf_t *s_freebufhead; int s_bufwakeup; kcondvar_t s_buf_cv; size_t s_databuffer_size; void *s_databuffer; int s_singlelockgotten; int s_singlelockwanted; kcondvar_t s_single_thread_cv; md_hi_arr_t s_med; } mddb_set_t; #ifndef MDDB_FAKE #ifdef _KERNEL /* md_mddb.c */ extern uint_t mddb_lb_did_convert(mddb_set_t *, uint_t, uint_t *); extern void mddb_locatorblock2splitname(mddb_ln_t *, int, side_t, md_splitname *); extern int mddb_configure(mddb_cfgcmd_t, struct mddb_config *); extern mddb_recid_t mddb_getnextrec(mddb_recid_t, mddb_type_t, uint_t); extern int mddb_getoptloc(mddb_optloc_t *); extern void *mddb_getrecaddr(mddb_recid_t); extern void *mddb_getrecaddr_resize(mddb_recid_t, size_t, off_t); extern int mddb_getrecprivate(mddb_recid_t); extern void mddb_setrecprivate(mddb_recid_t, uint_t); extern mddb_de_ic_t *mddb_getrecdep(mddb_recid_t); extern mddb_type_t mddb_getrectype1(mddb_recid_t); extern int mddb_getrectype2(mddb_recid_t); extern int mddb_getrecsize(mddb_recid_t); extern int mddb_commitrec(mddb_recid_t); extern int mddb_commitrecs(mddb_recid_t *); extern int mddb_deleterec(mddb_recid_t); extern mddb_recstatus_t mddb_getrecstatus(mddb_recid_t); extern mddb_recid_t mddb_createrec(size_t usersize, mddb_type_t type, uint_t type2, md_create_rec_option_t option, set_t setno); extern void mddb_init(void); extern void mddb_unload(void); extern void mddb_unload_set(set_t setno); extern mddb_recid_t mddb_makerecid(set_t setno, mddb_recid_t id); extern set_t mddb_getsetnum(mddb_recid_t id); extern char *mddb_getsetname(set_t setno); extern side_t mddb_getsidenum(set_t setno); extern int mddb_ownset(set_t setno); extern int getmed_ioctl(mddb_med_parm_t *medpp, int mode); extern int setmed_ioctl(mddb_med_parm_t *medpp, int mode); extern int updmed_ioctl(mddb_med_upd_parm_t *medpp, int mode); extern int take_set(mddb_config_t *cp, int mode); extern int release_set(mddb_config_t *cp, int mode); extern int gettag_ioctl(mddb_dtag_get_parm_t *dtgpp, int mode); extern int usetag_ioctl(mddb_dtag_use_parm_t *dtupp, int mode); extern int accept_ioctl(mddb_accept_parm_t *medpp, int mode); extern int md_update_locator_namespace(set_t setno, side_t side, char *dname, char *pname, md_dev64_t devt); extern int mddb_validate_lb(set_t setno, int *rmaxsz); extern int mddb_getinvlb_devid(set_t setno, int count, int size, char **ctdptr); extern int md_update_minor(set_t, side_t, mdkey_t); extern int md_update_top_device_minor(set_t, side_t, md_dev64_t); #ifdef DEBUG extern void mddb_check(void); #endif /* DEBUG */ #endif /* _KERNEL */ #else caddr_t mddb_fakeit; #define md_lb_did_convert(a, b, c) (0) #define mddb_configure(a, b) (0) #define mddb_getnextrec(a, b, c) ((mddb_recid_t)0) #define mddb_getrecaddr(a) (mddb_fakeit) #define mddb_getrecprivate(a) (0) #define mddb_setrecprivate(a, b) (0) #define mddb_getrectype1(a) (0) #define mddb_getrectype2(a) (0) #define mddb_getrecsize(a) (0) #define mddb_commitrec(a) (0) #define mddb_commitrecs(a) (0) #define mddb_deleterec(a) (0) #define mddb_getrecstatus(a) (MDDB_OK) #define mddb_createrec(s, a, b) (0xffff & (int)(mddb_fakeit = \ (caddr_t)kmem_zalloc(s, KM_SLEEP))) #define mddb_unload() (0) #endif #define MDDB_NOSLEEP 1 #define MDDB_SLEEPOK 0 #define MDDB_NOOLDOK 0x1 #define MDDB_MUSTEXIST 0x2 #define MDDB_NOINIT 0x4 #define MDDB_MULTINODE 0x8 #define MDDB_MN_STALE 0x10 /* MN set is stale */ /* Flags passed to selectreplicas - not a bit mask */ #define MDDB_SCANALL 1 #define MDDB_RETRYSCAN 0 #define MDDB_SCANALLSYNC 2 /* During reconfig, sync up incore */ /* and ondisk mddb by writing incore */ /* values to disk. Don't write */ /* change log records. */ /* Flags passed to writestart and writecopy */ #define MDDB_WRITECOPY_ALL 1 /* Write all incore mddb to disk */ #define MDDB_WRITECOPY_SYNC 2 /* Write incore mddb to disk except */ /* - change log records */ /* - optimized resync records */ #define MDDB_PROBE 1 #define MDDB_NOPROBE 0 /* * MN diskset definitions used to determine if a slave can write * directly to the mddb. ONLY_MASTER only allows the master node * to write to the mddb. ANY_NODE allows any node to write * to the mddb. */ #define MDDB_WR_ONLY_MASTER 0 #define MDDB_WR_ANY_NODE 1 #define MDDB_L_LOCKED 0x0001 /* this record is locked */ #define MDDB_L_WANTED 0x0002 #ifdef __cplusplus } #endif #endif /* _SYS_MD_MDDB_H */