#ifndef CEPH_RADOS_H #define CEPH_RADOS_H /* * Data types for the Ceph distributed object storage layer RADOS * (Reliable Autonomic Distributed Object Store). */ #include /* * fs id */ struct ceph_fsid { unsigned char fsid[16]; }; static inline int ceph_fsid_compare(const struct ceph_fsid *a, const struct ceph_fsid *b) { return memcmp(a, b, sizeof(*a)); } /* * ino, object, etc. */ typedef __le64 ceph_snapid_t; #define CEPH_SNAPDIR ((__u64)(-1)) /* reserved for hidden .snap dir */ #define CEPH_NOSNAP ((__u64)(-2)) /* "head", "live" revision */ #define CEPH_MAXSNAP ((__u64)(-3)) /* largest valid snapid */ struct ceph_timespec { __le32 tv_sec; __le32 tv_nsec; } __attribute__ ((packed)); /* * object layout - how objects are mapped into PGs */ #define CEPH_OBJECT_LAYOUT_HASH 1 #define CEPH_OBJECT_LAYOUT_LINEAR 2 #define CEPH_OBJECT_LAYOUT_HASHINO 3 /* * pg layout -- how PGs are mapped onto (sets of) OSDs */ #define CEPH_PG_LAYOUT_CRUSH 0 #define CEPH_PG_LAYOUT_HASH 1 #define CEPH_PG_LAYOUT_LINEAR 2 #define CEPH_PG_LAYOUT_HYBRID 3 #define CEPH_PG_MAX_SIZE 16 /* max # osds in a single pg */ /* * placement group. * we encode this into one __le64. */ struct ceph_pg_v1 { __le16 preferred; /* preferred primary osd */ __le16 ps; /* placement seed */ __le32 pool; /* object pool */ } __attribute__ ((packed)); /* * pg_pool is a set of pgs storing a pool of objects * * pg_num -- base number of pseudorandomly placed pgs * * pgp_num -- effective number when calculating pg placement. this * is used for pg_num increases. new pgs result in data being "split" * into new pgs. for this to proceed smoothly, new pgs are intiially * colocated with their parents; that is, pgp_num doesn't increase * until the new pgs have successfully split. only _then_ are the new * pgs placed independently. * * lpg_num -- localized pg count (per device). replicas are randomly * selected. * * lpgp_num -- as above. */ #define CEPH_NOPOOL ((__u64) (-1)) /* pool id not defined */ #define CEPH_POOL_TYPE_REP 1 #define CEPH_POOL_TYPE_RAID4 2 /* never implemented */ #define CEPH_POOL_TYPE_EC 3 /* * stable_mod func is used to control number of placement groups. * similar to straight-up modulo, but produces a stable mapping as b * increases over time. b is the number of bins, and bmask is the * containing power of 2 minus 1. * * b <= bmask and bmask=(2**n)-1 * e.g., b=12 -> bmask=15, b=123 -> bmask=127 */ static inline int ceph_stable_mod(int x, int b, int bmask) { if ((x & bmask) < b) return x & bmask; else return x & (bmask >> 1); } /* * object layout - how a given object should be stored. */ struct ceph_object_layout { struct ceph_pg_v1 ol_pgid; /* raw pg, with _full_ ps precision. */ __le32 ol_stripe_unit; /* for per-object parity, if any */ } __attribute__ ((packed)); /* * compound epoch+version, used by storage layer to serialize mutations */ struct ceph_eversion { __le64 version; __le32 epoch; } __attribute__ ((packed)); /* * osd map bits */ /* status bits */ #define CEPH_OSD_EXISTS (1<<0) #define CEPH_OSD_UP (1<<1) #define CEPH_OSD_AUTOOUT (1<<2) /* osd was automatically marked out */ #define CEPH_OSD_NEW (1<<3) /* osd is new, never marked in */ extern const char *ceph_osd_state_name(int s); /* osd weights. fixed point value: 0x10000 == 1.0 ("in"), 0 == "out" */ #define CEPH_OSD_IN 0x10000 #define CEPH_OSD_OUT 0 /* osd primary-affinity. fixed point value: 0x10000 == baseline */ #define CEPH_OSD_MAX_PRIMARY_AFFINITY 0x10000 #define CEPH_OSD_DEFAULT_PRIMARY_AFFINITY 0x10000 /* * osd map flag bits */ #define CEPH_OSDMAP_NEARFULL (1<<0) /* sync writes (near ENOSPC) */ #define CEPH_OSDMAP_FULL (1<<1) /* no data writes (ENOSPC) */ #define CEPH_OSDMAP_PAUSERD (1<<2) /* pause all reads */ #define CEPH_OSDMAP_PAUSEWR (1<<3) /* pause all writes */ #define CEPH_OSDMAP_PAUSEREC (1<<4) /* pause recovery */ #define CEPH_OSDMAP_NOUP (1<<5) /* block osd boot */ #define CEPH_OSDMAP_NODOWN (1<<6) /* block osd mark-down/failure */ #define CEPH_OSDMAP_NOOUT (1<<7) /* block osd auto mark-out */ #define CEPH_OSDMAP_NOIN (1<<8) /* block osd auto mark-in */ #define CEPH_OSDMAP_NOBACKFILL (1<<9) /* block osd backfill */ #define CEPH_OSDMAP_NORECOVER (1<<10) /* block osd recovery and backfill */ /* * The error code to return when an OSD can't handle a write * because it is too large. */ #define OSD_WRITETOOBIG EMSGSIZE /* * osd ops * * WARNING: do not use these op codes directly. Use the helpers * defined below instead. In certain cases, op code behavior was * redefined, resulting in special-cases in the helpers. */ #define CEPH_OSD_OP_MODE 0xf000 #define CEPH_OSD_OP_MODE_RD 0x1000 #define CEPH_OSD_OP_MODE_WR 0x2000 #define CEPH_OSD_OP_MODE_RMW 0x3000 #define CEPH_OSD_OP_MODE_SUB 0x4000 #define CEPH_OSD_OP_MODE_CACHE 0x8000 #define CEPH_OSD_OP_TYPE 0x0f00 #define CEPH_OSD_OP_TYPE_LOCK 0x0100 #define CEPH_OSD_OP_TYPE_DATA 0x0200 #define CEPH_OSD_OP_TYPE_ATTR 0x0300 #define CEPH_OSD_OP_TYPE_EXEC 0x0400 #define CEPH_OSD_OP_TYPE_PG 0x0500 #define CEPH_OSD_OP_TYPE_MULTI 0x0600 /* multiobject */ #define __CEPH_OSD_OP1(mode, nr) \ (CEPH_OSD_OP_MODE_##mode | (nr)) #define __CEPH_OSD_OP(mode, type, nr) \ (CEPH_OSD_OP_MODE_##mode | CEPH_OSD_OP_TYPE_##type | (nr)) #define __CEPH_FORALL_OSD_OPS(f) \ /** data **/ \ /* read */ \ f(READ, __CEPH_OSD_OP(RD, DATA, 1), "read") \ f(STAT, __CEPH_OSD_OP(RD, DATA, 2), "stat") \ f(MAPEXT, __CEPH_OSD_OP(RD, DATA, 3), "mapext") \ \ /* fancy read */ \ f(MASKTRUNC, __CEPH_OSD_OP(RD, DATA, 4), "masktrunc") \ f(SPARSE_READ, __CEPH_OSD_OP(RD, DATA, 5), "sparse-read") \ \ f(NOTIFY, __CEPH_OSD_OP(RD, DATA, 6), "notify") \ f(NOTIFY_ACK, __CEPH_OSD_OP(RD, DATA, 7), "notify-ack") \ \ /* versioning */ \ f(ASSERT_VER, __CEPH_OSD_OP(RD, DATA, 8), "assert-version") \ \ f(LIST_WATCHERS, __CEPH_OSD_OP(RD, DATA, 9), "list-watchers") \ \ f(LIST_SNAPS, __CEPH_OSD_OP(RD, DATA, 10), "list-snaps") \ \ /* sync */ \ f(SYNC_READ, __CEPH_OSD_OP(RD, DATA, 11), "sync_read") \ \ /* write */ \ f(WRITE, __CEPH_OSD_OP(WR, DATA, 1), "write") \ f(WRITEFULL, __CEPH_OSD_OP(WR, DATA, 2), "writefull") \ f(TRUNCATE, __CEPH_OSD_OP(WR, DATA, 3), "truncate") \ f(ZERO, __CEPH_OSD_OP(WR, DATA, 4), "zero") \ f(DELETE, __CEPH_OSD_OP(WR, DATA, 5), "delete") \ \ /* fancy write */ \ f(APPEND, __CEPH_OSD_OP(WR, DATA, 6), "append") \ f(STARTSYNC, __CEPH_OSD_OP(WR, DATA, 7), "startsync") \ f(SETTRUNC, __CEPH_OSD_OP(WR, DATA, 8), "settrunc") \ f(TRIMTRUNC, __CEPH_OSD_OP(WR, DATA, 9), "trimtrunc") \ \ f(TMAPUP, __CEPH_OSD_OP(RMW, DATA, 10), "tmapup") \ f(TMAPPUT, __CEPH_OSD_OP(WR, DATA, 11), "tmapput") \ f(TMAPGET, __CEPH_OSD_OP(RD, DATA, 12), "tmapget") \ \ f(CREATE, __CEPH_OSD_OP(WR, DATA, 13), "create") \ f(ROLLBACK, __CEPH_OSD_OP(WR, DATA, 14), "rollback") \ \ f(WATCH, __CEPH_OSD_OP(WR, DATA, 15), "watch") \ \ /* omap */ \ f(OMAPGETKEYS, __CEPH_OSD_OP(RD, DATA, 17), "omap-get-keys") \ f(OMAPGETVALS, __CEPH_OSD_OP(RD, DATA, 18), "omap-get-vals") \ f(OMAPGETHEADER, __CEPH_OSD_OP(RD, DATA, 19), "omap-get-header") \ f(OMAPGETVALSBYKEYS, __CEPH_OSD_OP(RD, DATA, 20), "omap-get-vals-by-keys") \ f(OMAPSETVALS, __CEPH_OSD_OP(WR, DATA, 21), "omap-set-vals") \ f(OMAPSETHEADER, __CEPH_OSD_OP(WR, DATA, 22), "omap-set-header") \ f(OMAPCLEAR, __CEPH_OSD_OP(WR, DATA, 23), "omap-clear") \ f(OMAPRMKEYS, __CEPH_OSD_OP(WR, DATA, 24), "omap-rm-keys") \ f(OMAP_CMP, __CEPH_OSD_OP(RD, DATA, 25), "omap-cmp") \ \ /* tiering */ \ f(COPY_FROM, __CEPH_OSD_OP(WR, DATA, 26), "copy-from") \ f(COPY_GET_CLASSIC, __CEPH_OSD_OP(RD, DATA, 27), "copy-get-classic") \ f(UNDIRTY, __CEPH_OSD_OP(WR, DATA, 28), "undirty") \ f(ISDIRTY, __CEPH_OSD_OP(RD, DATA, 29), "isdirty") \ f(COPY_GET, __CEPH_OSD_OP(RD, DATA, 30), "copy-get") \ f(CACHE_FLUSH, __CEPH_OSD_OP(CACHE, DATA, 31), "cache-flush") \ f(CACHE_EVICT, __CEPH_OSD_OP(CACHE, DATA, 32), "cache-evict") \ f(CACHE_TRY_FLUSH, __CEPH_OSD_OP(CACHE, DATA, 33), "cache-try-flush") \ \ /* convert tmap to omap */ \ f(TMAP2OMAP, __CEPH_OSD_OP(RMW, DATA, 34), "tmap2omap") \ \ /* hints */ \ f(SETALLOCHINT, __CEPH_OSD_OP(WR, DATA, 35), "set-alloc-hint") \ \ /** multi **/ \ f(CLONERANGE, __CEPH_OSD_OP(WR, MULTI, 1), "clonerange") \ f(ASSERT_SRC_VERSION, __CEPH_OSD_OP(RD, MULTI, 2), "assert-src-version") \ f(SRC_CMPXATTR, __CEPH_OSD_OP(RD, MULTI, 3), "src-cmpxattr") \ \ /** attrs **/ \ /* read */ \ f(GETXATTR, __CEPH_OSD_OP(RD, ATTR, 1), "getxattr") \ f(GETXATTRS, __CEPH_OSD_OP(RD, ATTR, 2), "getxattrs") \ f(CMPXATTR, __CEPH_OSD_OP(RD, ATTR, 3), "cmpxattr") \ \ /* write */ \ f(SETXATTR, __CEPH_OSD_OP(WR, ATTR, 1), "setxattr") \ f(SETXATTRS, __CEPH_OSD_OP(WR, ATTR, 2), "setxattrs") \ f(RESETXATTRS, __CEPH_OSD_OP(WR, ATTR, 3), "resetxattrs") \ f(RMXATTR, __CEPH_OSD_OP(WR, ATTR, 4), "rmxattr") \ \ /** subop **/ \ f(PULL, __CEPH_OSD_OP1(SUB, 1), "pull") \ f(PUSH, __CEPH_OSD_OP1(SUB, 2), "push") \ f(BALANCEREADS, __CEPH_OSD_OP1(SUB, 3), "balance-reads") \ f(UNBALANCEREADS, __CEPH_OSD_OP1(SUB, 4), "unbalance-reads") \ f(SCRUB, __CEPH_OSD_OP1(SUB, 5), "scrub") \ f(SCRUB_RESERVE, __CEPH_OSD_OP1(SUB, 6), "scrub-reserve") \ f(SCRUB_UNRESERVE, __CEPH_OSD_OP1(SUB, 7), "scrub-unreserve") \ f(SCRUB_STOP, __CEPH_OSD_OP1(SUB, 8), "scrub-stop") \ f(SCRUB_MAP, __CEPH_OSD_OP1(SUB, 9), "scrub-map") \ \ /** lock **/ \ f(WRLOCK, __CEPH_OSD_OP(WR, LOCK, 1), "wrlock") \ f(WRUNLOCK, __CEPH_OSD_OP(WR, LOCK, 2), "wrunlock") \ f(RDLOCK, __CEPH_OSD_OP(WR, LOCK, 3), "rdlock") \ f(RDUNLOCK, __CEPH_OSD_OP(WR, LOCK, 4), "rdunlock") \ f(UPLOCK, __CEPH_OSD_OP(WR, LOCK, 5), "uplock") \ f(DNLOCK, __CEPH_OSD_OP(WR, LOCK, 6), "dnlock") \ \ /** exec **/ \ /* note: the RD bit here is wrong; see special-case below in helper */ \ f(CALL, __CEPH_OSD_OP(RD, EXEC, 1), "call") \ \ /** pg **/ \ f(PGLS, __CEPH_OSD_OP(RD, PG, 1), "pgls") \ f(PGLS_FILTER, __CEPH_OSD_OP(RD, PG, 2), "pgls-filter") \ f(PG_HITSET_LS, __CEPH_OSD_OP(RD, PG, 3), "pg-hitset-ls") \ f(PG_HITSET_GET, __CEPH_OSD_OP(RD, PG, 4), "pg-hitset-get") enum { #define GENERATE_ENUM_ENTRY(op, opcode, str) CEPH_OSD_OP_##op = (opcode), __CEPH_FORALL_OSD_OPS(GENERATE_ENUM_ENTRY) #undef GENERATE_ENUM_ENTRY }; static inline int ceph_osd_op_type_lock(int op) { return (op & CEPH_OSD_OP_TYPE) == CEPH_OSD_OP_TYPE_LOCK; } static inline int ceph_osd_op_type_data(int op) { return (op & CEPH_OSD_OP_TYPE) == CEPH_OSD_OP_TYPE_DATA; } static inline int ceph_osd_op_type_attr(int op) { return (op & CEPH_OSD_OP_TYPE) == CEPH_OSD_OP_TYPE_ATTR; } static inline int ceph_osd_op_type_exec(int op) { return (op & CEPH_OSD_OP_TYPE) == CEPH_OSD_OP_TYPE_EXEC; } static inline int ceph_osd_op_type_pg(int op) { return (op & CEPH_OSD_OP_TYPE) == CEPH_OSD_OP_TYPE_PG; } static inline int ceph_osd_op_type_multi(int op) { return (op & CEPH_OSD_OP_TYPE) == CEPH_OSD_OP_TYPE_MULTI; } static inline int ceph_osd_op_mode_subop(int op) { return (op & CEPH_OSD_OP_MODE) == CEPH_OSD_OP_MODE_SUB; } static inline int ceph_osd_op_mode_read(int op) { return (op & CEPH_OSD_OP_MODE_RD) && op != CEPH_OSD_OP_CALL; } static inline int ceph_osd_op_mode_modify(int op) { return op & CEPH_OSD_OP_MODE_WR; } /* * note that the following tmap stuff is also defined in the ceph librados.h * any modification here needs to be updated there */ #define CEPH_OSD_TMAP_HDR 'h' #define CEPH_OSD_TMAP_SET 's' #define CEPH_OSD_TMAP_CREATE 'c' /* create key */ #define CEPH_OSD_TMAP_RM 'r' #define CEPH_OSD_TMAP_RMSLOPPY 'R' extern const char *ceph_osd_op_name(int op); /* * osd op flags * * An op may be READ, WRITE, or READ|WRITE. */ enum { CEPH_OSD_FLAG_ACK = 0x0001, /* want (or is) "ack" ack */ CEPH_OSD_FLAG_ONNVRAM = 0x0002, /* want (or is) "onnvram" ack */ CEPH_OSD_FLAG_ONDISK = 0x0004, /* want (or is) "ondisk" ack */ CEPH_OSD_FLAG_RETRY = 0x0008, /* resend attempt */ CEPH_OSD_FLAG_READ = 0x0010, /* op may read */ CEPH_OSD_FLAG_WRITE = 0x0020, /* op may write */ CEPH_OSD_FLAG_ORDERSNAP = 0x0040, /* EOLDSNAP if snapc is out of order */ CEPH_OSD_FLAG_PEERSTAT_OLD = 0x0080, /* DEPRECATED msg includes osd_peer_stat */ CEPH_OSD_FLAG_BALANCE_READS = 0x0100, CEPH_OSD_FLAG_PARALLELEXEC = 0x0200, /* execute op in parallel */ CEPH_OSD_FLAG_PGOP = 0x0400, /* pg op, no object */ CEPH_OSD_FLAG_EXEC = 0x0800, /* op may exec */ CEPH_OSD_FLAG_EXEC_PUBLIC = 0x1000, /* DEPRECATED op may exec (public) */ CEPH_OSD_FLAG_LOCALIZE_READS = 0x2000, /* read from nearby replica, if any */ CEPH_OSD_FLAG_RWORDERED = 0x4000, /* order wrt concurrent reads */ CEPH_OSD_FLAG_IGNORE_CACHE = 0x8000, /* ignore cache logic */ CEPH_OSD_FLAG_SKIPRWLOCKS = 0x10000, /* skip rw locks */ CEPH_OSD_FLAG_IGNORE_OVERLAY = 0x20000, /* ignore pool overlay */ CEPH_OSD_FLAG_FLUSH = 0x40000, /* this is part of flush */ }; enum { CEPH_OSD_OP_FLAG_EXCL = 1, /* EXCL object create */ CEPH_OSD_OP_FLAG_FAILOK = 2, /* continue despite failure */ }; #define EOLDSNAPC ERESTART /* ORDERSNAP flag set; writer has old snapc*/ #define EBLACKLISTED ESHUTDOWN /* blacklisted */ /* xattr comparison */ enum { CEPH_OSD_CMPXATTR_OP_NOP = 0, CEPH_OSD_CMPXATTR_OP_EQ = 1, CEPH_OSD_CMPXATTR_OP_NE = 2, CEPH_OSD_CMPXATTR_OP_GT = 3, CEPH_OSD_CMPXATTR_OP_GTE = 4, CEPH_OSD_CMPXATTR_OP_LT = 5, CEPH_OSD_CMPXATTR_OP_LTE = 6 }; enum { CEPH_OSD_CMPXATTR_MODE_STRING = 1, CEPH_OSD_CMPXATTR_MODE_U64 = 2 }; #define RADOS_NOTIFY_VER 1 /* * an individual object operation. each may be accompanied by some data * payload */ struct ceph_osd_op { __le16 op; /* CEPH_OSD_OP_* */ __le32 flags; /* CEPH_OSD_OP_FLAG_* */ union { struct { __le64 offset, length; __le64 truncate_size; __le32 truncate_seq; } __attribute__ ((packed)) extent; struct { __le32 name_len; __le32 value_len; __u8 cmp_op; /* CEPH_OSD_CMPXATTR_OP_* */ __u8 cmp_mode; /* CEPH_OSD_CMPXATTR_MODE_* */ } __attribute__ ((packed)) xattr; struct { __u8 class_len; __u8 method_len; __u8 argc; __le32 indata_len; } __attribute__ ((packed)) cls; struct { __le64 cookie, count; } __attribute__ ((packed)) pgls; struct { __le64 snapid; } __attribute__ ((packed)) snap; struct { __le64 cookie; __le64 ver; __u8 flag; /* 0 = unwatch, 1 = watch */ } __attribute__ ((packed)) watch; struct { __le64 offset, length; __le64 src_offset; } __attribute__ ((packed)) clonerange; struct { __le64 expected_object_size; __le64 expected_write_size; } __attribute__ ((packed)) alloc_hint; }; __le32 payload_len; } __attribute__ ((packed)); #endif