/* $OpenBSD: softraidvar.h,v 1.76 2009/06/17 22:44:42 marco Exp $ */ /* * Copyright (c) 2006 Marco Peereboom * Copyright (c) 2008 Chris Kuethe * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef SOFTRAIDVAR_H #define SOFTRAIDVAR_H #include #define SR_UUID_MAX 16 struct sr_uuid { u_int8_t sui_id[SR_UUID_MAX]; } __packed; #define SR_META_SIZE 64 /* save space at chunk beginning */ #define SR_META_OFFSET 16 /* skip 8192 bytes at chunk beginning */ #define SR_META_VERSION 3 /* bump when sr_metadata changes */ struct sr_metadata { struct sr_meta_invariant { /* do not change order of ssd_magic, ssd_version */ u_int64_t ssd_magic; /* magic id */ #define SR_MAGIC 0x4d4152436372616dLLU u_int32_t ssd_version; /* meta data version */ u_int32_t ssd_flags; struct sr_uuid ssd_uuid; /* unique identifier */ /* chunks */ u_int32_t ssd_chunk_no; /* number of chunks */ u_int32_t ssd_chunk_id; /* chunk identifier */ /* optional */ u_int32_t ssd_opt_no; /* nr of optional md elements */ u_int32_t ssd_pad; /* volume metadata */ u_int32_t ssd_volid; /* volume id */ u_int32_t ssd_level; /* raid level */ int64_t ssd_size; /* virt disk size in blocks */ char ssd_vendor[8]; /* scsi vendor */ char ssd_product[16];/* scsi product */ char ssd_revision[4];/* scsi revision */ /* optional volume members */ u_int32_t ssd_strip_size; /* strip size */ } _sdd_invariant; #define ssdi _sdd_invariant /* MD5 of invariant metadata */ u_int8_t ssd_checksum[MD5_DIGEST_LENGTH]; char ssd_devname[32];/* /dev/XXXXX */ u_int32_t ssd_meta_flags; #define SR_META_DIRTY 0x1 u_int32_t ssd_pad; u_int64_t ssd_ondisk; /* on disk version counter */ int64_t ssd_rebuild; /* last block of rebuild */ } __packed; struct sr_meta_chunk { struct sr_meta_chunk_invariant { u_int32_t scm_volid; /* vd we belong to */ u_int32_t scm_chunk_id; /* chunk id */ char scm_devname[32];/* /dev/XXXXX */ int64_t scm_size; /* size of partition in blocks*/ int64_t scm_coerced_size; /* coerced sz of part in blk*/ struct sr_uuid scm_uuid; /* unique identifier */ } _scm_invariant; #define scmi _scm_invariant /* MD5 of invariant chunk metadata */ u_int8_t scm_checksum[MD5_DIGEST_LENGTH]; u_int32_t scm_status; /* use bio bioc_disk status */ } __packed; #define SR_CRYPTO_MAXKEYBYTES 32 /* max bytes in a key (AES-XTS-256) */ #define SR_CRYPTO_MAXKEYS 32 /* max keys per volume */ #define SR_CRYPTO_KEYBITS 512 /* AES-XTS with 2 * 256 bit keys */ #define SR_CRYPTO_KEYBYTES (SR_CRYPTO_KEYBITS >> 3) #define SR_CRYPTO_KDFHINTBYTES 256 /* size of opaque KDF hint */ #define SR_CRYPTO_CHECKBYTES 64 /* size of generic key chksum struct */ #define SR_CRYPTO_KEY_BLKSHIFT 30 /* 0.5TB per key */ /* * Check that HMAC-SHA1_k(decrypted scm_key) == sch_mac, where * k = SHA1(masking key) */ struct sr_crypto_chk_hmac_sha1 { u_int8_t sch_mac[20]; } __packed; struct sr_meta_crypto { u_int32_t scm_alg; /* vol crypto algorithm */ #define SR_CRYPTOA_AES_XTS_128 1 #define SR_CRYPTOA_AES_XTS_256 2 u_int32_t scm_flags; /* key & kdfhint valid */ #define SR_CRYPTOF_INVALID (0) #define SR_CRYPTOF_KEY (1<<0) #define SR_CRYPTOF_KDFHINT (1<<1) u_int32_t scm_mask_alg; /* disk key masking crypt alg */ #define SR_CRYPTOM_AES_ECB_256 1 u_int32_t scm_pad1; u_int8_t scm_reserved[64]; /* symmetric keys used for disk encryption */ u_int8_t scm_key[SR_CRYPTO_MAXKEYS][SR_CRYPTO_KEYBYTES]; /* hint to kdf algorithm (opaque to kernel) */ u_int8_t scm_kdfhint[SR_CRYPTO_KDFHINTBYTES]; u_int32_t scm_check_alg; /* key chksum algorithm */ #define SR_CRYPTOC_HMAC_SHA1 1 u_int32_t scm_pad2; union { struct sr_crypto_chk_hmac_sha1 chk_hmac_sha1; u_int8_t chk_reserved2[64]; } _scm_chk; #define chk_hmac_sha1 _scm_chk.chk_hmac_sha1 } __packed; struct sr_meta_opt { struct sr_meta_opt_invariant { u_int32_t som_type; /* optional type */ #define SR_OPT_INVALID 0x00 #define SR_OPT_CRYPTO 0x01 u_int32_t som_pad; union { struct sr_meta_crypto smm_crypto; } som_meta; } _som_invariant; #define somi _som_invariant #define somi_crypto _som_invariant.smm_crypto /* MD5 of invariant optional metadata */ u_int8_t som_checksum[MD5_DIGEST_LENGTH]; } __packed; /* this is a generic hint for KDF done in userland, not interpreted by the kernel. */ struct sr_crypto_genkdf { u_int32_t len; u_int32_t type; #define SR_CRYPTOKDFT_INVALID (0) #define SR_CRYPTOKDFT_PBKDF2 (1<<0) }; /* this is a hint for KDF using PKCS#5. Not interpreted by the kernel */ struct sr_crypto_kdf_pbkdf2 { u_int32_t len; u_int32_t type; u_int32_t rounds; u_int8_t salt[128]; }; /* * this structure is used to copy masking keys and KDF hints from/to userland. * the embedded hint structures are not interpreted by the kernel. */ struct sr_crypto_kdfinfo { u_int32_t len; u_int32_t flags; #define SR_CRYPTOKDF_INVALID (0) #define SR_CRYPTOKDF_KEY (1<<0) #define SR_CRYPTOKDF_HINT (1<<1) u_int8_t maskkey[SR_CRYPTO_MAXKEYBYTES]; union { struct sr_crypto_genkdf generic; struct sr_crypto_kdf_pbkdf2 pbkdf2; } _kdfhint; #define genkdf _kdfhint.generic #define pbkdf2 _kdfhint.pbkdf2 }; #ifdef _KERNEL #include #include #include #include #include #include #include #include #define DEVNAME(_s) ((_s)->sc_dev.dv_xname) /* #define SR_DEBUG */ #ifdef SR_DEBUG extern u_int32_t sr_debug; #define DPRINTF(x...) do { if (sr_debug) printf(x); } while(0) #define DNPRINTF(n,x...) do { if (sr_debug & n) printf(x); } while(0) #define SR_D_CMD 0x0001 #define SR_D_INTR 0x0002 #define SR_D_MISC 0x0004 #define SR_D_IOCTL 0x0008 #define SR_D_CCB 0x0010 #define SR_D_WU 0x0020 #define SR_D_META 0x0040 #define SR_D_DIS 0x0080 #define SR_D_STATE 0x0100 #else #define DPRINTF(x...) #define DNPRINTF(n,x...) #endif #define SR_MAXFER MAXPHYS #define SR_MAX_LD 1 #define SR_MAX_CMDS 16 #define SR_MAX_STATES 7 #define SR_VM_IGNORE_DIRTY 1 #define SR_REBUILD_IO_SIZE 128 /* blocks */ /* forward define to prevent dependency goo */ struct sr_softc; struct sr_ccb { struct buf ccb_buf; /* MUST BE FIRST!! */ struct sr_workunit *ccb_wu; struct sr_discipline *ccb_dis; int ccb_target; int ccb_state; #define SR_CCB_FREE 0 #define SR_CCB_INPROGRESS 1 #define SR_CCB_OK 2 #define SR_CCB_FAILED 3 int ccb_flag; #define SR_CCBF_FREEBUF (1<<0) /* free ccb_buf.b_data */ void *ccb_opaque; /* discipline usable pointer */ TAILQ_ENTRY(sr_ccb) ccb_link; }; TAILQ_HEAD(sr_ccb_list, sr_ccb); struct sr_workunit { struct scsi_xfer *swu_xs; struct sr_discipline *swu_dis; int swu_state; #define SR_WU_FREE 0 #define SR_WU_INPROGRESS 1 #define SR_WU_OK 2 #define SR_WU_FAILED 3 #define SR_WU_PARTIALLYFAILED 4 #define SR_WU_DEFERRED 5 #define SR_WU_PENDING 6 #define SR_WU_RESTART 7 #define SR_WU_REQUEUE 8 int swu_flags; /* additional hints */ #define SR_WUF_REBUILD (1<<0) /* rebuild io */ #define SR_WUF_REBUILDIOCOMP (1<<1) /* rbuild io complete */ int swu_fake; /* faked wu */ /* workunit io range */ daddr64_t swu_blk_start; daddr64_t swu_blk_end; /* in flight totals */ u_int32_t swu_ios_complete; u_int32_t swu_ios_failed; u_int32_t swu_ios_succeeded; /* number of ios that makes up the whole work unit */ u_int32_t swu_io_count; /* colliding wu */ struct sr_workunit *swu_collider; /* all ios that make up this workunit */ struct sr_ccb_list swu_ccb; TAILQ_ENTRY(sr_workunit) swu_link; }; TAILQ_HEAD(sr_wu_list, sr_workunit); /* RAID 0 */ #define SR_RAID0_NOWU 16 struct sr_raid0 { int32_t sr0_strip_bits; }; /* RAID 1 */ #define SR_RAID1_NOWU 16 struct sr_raid1 { u_int32_t sr1_counter; }; /* RAID 4 */ #define SR_RAIDP_NOWU 16 struct sr_raidp { int32_t srp_strip_bits; }; /* CRYPTO */ #define SR_CRYPTO_NOWU 16 struct sr_crypto { struct sr_meta_crypto scr_meta; struct pool sr_uiopl; struct pool sr_iovpl; /* XXX only keep scr_sid over time */ u_int8_t scr_key[SR_CRYPTO_MAXKEYS][SR_CRYPTO_KEYBYTES]; u_int8_t scr_maskkey[SR_CRYPTO_MAXKEYBYTES]; u_int64_t scr_sid[SR_CRYPTO_MAXKEYS]; }; /* ata over ethernet */ #define SR_RAIDAOE_NOWU 2 struct sr_aoe { struct aoe_handler *sra_ah; int sra_tag; struct ifnet *sra_ifp; char sra_eaddr[6]; }; struct sr_metadata_list { u_int8_t sml_metadata[SR_META_SIZE * 512]; dev_t sml_mm; int sml_used; SLIST_ENTRY(sr_metadata_list) sml_link; }; SLIST_HEAD(sr_metadata_list_head, sr_metadata_list); struct sr_chunk { struct sr_meta_chunk src_meta; /* chunk meta data */ struct sr_meta_opt src_opt; /* optional metadata */ /* runtime data */ dev_t src_dev_mm; /* major/minor */ /* helper members before metadata makes it onto the chunk */ int src_meta_ondisk;/* set when meta is on disk */ char src_devname[32]; int64_t src_size; /* in blocks */ SLIST_ENTRY(sr_chunk) src_link; }; SLIST_HEAD(sr_chunk_head, sr_chunk); struct sr_volume { /* runtime data */ struct sr_chunk_head sv_chunk_list; /* linked list of all chunks */ struct sr_chunk **sv_chunks; /* array to same chunks */ /* sensors */ struct ksensor sv_sensor; struct ksensordev sv_sensordev; int sv_sensor_valid; }; struct sr_discipline { struct sr_softc *sd_sc; /* link back to sr softc */ u_int8_t sd_type; /* type of discipline */ #define SR_MD_RAID0 0 #define SR_MD_RAID1 1 #define SR_MD_RAID5 2 #define SR_MD_CACHE 3 #define SR_MD_CRYPTO 4 #define SR_MD_AOE_INIT 5 #define SR_MD_AOE_TARG 6 #define SR_MD_RAID4 7 char sd_name[10]; /* human readable dis name */ u_int8_t sd_scsibus; /* scsibus discipline uses */ struct scsi_link sd_link; /* link to midlayer */ union { struct sr_raid0 mdd_raid0; struct sr_raid1 mdd_raid1; struct sr_raidp mdd_raidp; struct sr_crypto mdd_crypto; #ifdef AOE struct sr_aoe mdd_aoe; #endif /* AOE */ } sd_dis_specific;/* dis specific members */ #define mds sd_dis_specific /* discipline metadata */ struct sr_metadata *sd_meta; /* in memory copy of metadata */ void *sd_meta_foreign; /* non native metadata */ u_int32_t sd_meta_flags; int sd_meta_type; /* metadata functions */ int sd_sync; int sd_must_flush; int sd_deleted; struct device *sd_scsibus_dev; void (*sd_shutdownhook)(void *); /* discipline volume */ struct sr_volume sd_vol; /* volume associated */ int sd_vol_status; /* runtime vol status */ /* discipline resources */ struct sr_ccb *sd_ccb; struct sr_ccb_list sd_ccb_freeq; u_int32_t sd_max_ccb_per_wu; struct sr_workunit *sd_wu; /* all workunits */ u_int32_t sd_max_wu; int sd_rebuild; /* can we rebuild? */ int sd_reb_active; /* rebuild in progress */ int sd_going_down; /* dive dive dive */ int sd_ready; /* fully operational */ struct sr_wu_list sd_wu_freeq; /* free wu queue */ struct sr_wu_list sd_wu_pendq; /* pending wu queue */ struct sr_wu_list sd_wu_defq; /* deferred wu queue */ int sd_wu_sleep; /* wu sleepers counter */ /* discipline stats */ int sd_wu_pending; u_int64_t sd_wu_collisions; /* discipline functions */ int (*sd_alloc_resources)(struct sr_discipline *); int (*sd_free_resources)(struct sr_discipline *); int (*sd_start_discipline)(struct sr_discipline *); void (*sd_set_chunk_state)(struct sr_discipline *, int, int); void (*sd_set_vol_state)(struct sr_discipline *); int (*sd_openings)(struct sr_discipline *); /* SCSI emulation */ struct scsi_sense_data sd_scsi_sense; int (*sd_scsi_rw)(struct sr_workunit *); int (*sd_scsi_sync)(struct sr_workunit *); int (*sd_scsi_tur)(struct sr_workunit *); int (*sd_scsi_start_stop)(struct sr_workunit *); int (*sd_scsi_inquiry)(struct sr_workunit *); int (*sd_scsi_read_cap)(struct sr_workunit *); int (*sd_scsi_req_sense)(struct sr_workunit *); /* background operation */ struct proc *sd_background_proc; }; struct sr_softc { struct device sc_dev; int (*sc_ioctl)(struct device *, u_long, caddr_t); struct rwlock sc_lock; int sc_sensors_running; /* * during scsibus attach this is the discipline that is in use * this variable is protected by sc_lock and splhigh */ struct sr_discipline *sc_attach_dis; /* * XXX expensive, alternative would be nice but has to be cheap * since the scsibus lookup happens on each IO */ #define SR_MAXSCSIBUS 256 struct sr_discipline *sc_dis[SR_MAXSCSIBUS]; /* scsibus is u_int8_t */ }; /* hotplug */ void sr_hotplug_register(struct sr_discipline *, void *); void sr_hotplug_unregister(struct sr_discipline *, void *); /* work units & ccbs */ int sr_ccb_alloc(struct sr_discipline *); void sr_ccb_free(struct sr_discipline *); struct sr_ccb *sr_ccb_get(struct sr_discipline *); void sr_ccb_put(struct sr_ccb *); int sr_wu_alloc(struct sr_discipline *); void sr_wu_free(struct sr_discipline *); struct sr_workunit *sr_wu_get(struct sr_discipline *, int); void sr_wu_put(struct sr_workunit *); /* misc functions */ int32_t sr_validate_stripsize(u_int32_t); void sr_meta_save_callback(void *, void *); int sr_validate_io(struct sr_workunit *, daddr64_t *, char *); int sr_check_io_collision(struct sr_workunit *); void sr_scsi_done(struct sr_discipline *, struct scsi_xfer *); /* discipline functions */ int sr_raid_inquiry(struct sr_workunit *); int sr_raid_read_cap(struct sr_workunit *); int sr_raid_tur(struct sr_workunit *); int sr_raid_request_sense( struct sr_workunit *); int sr_raid_start_stop(struct sr_workunit *); int sr_raid_sync(struct sr_workunit *); void sr_raid_startwu(struct sr_workunit *); /* Discipline specific initialisation. */ void sr_raid0_discipline_init(struct sr_discipline *); void sr_raid1_discipline_init(struct sr_discipline *); void sr_raidp_discipline_init(struct sr_discipline *); void sr_crypto_discipline_init(struct sr_discipline *); void sr_aoe_discipline_init(struct sr_discipline *); void sr_aoe_server_discipline_init(struct sr_discipline *); /* raid 1 */ /* XXX - currently (ab)used by AOE and CRYPTO. */ void sr_raid1_set_chunk_state(struct sr_discipline *, int, int); void sr_raid1_set_vol_state(struct sr_discipline *); /* Crypto discipline hooks. */ int sr_crypto_get_kdf(struct bioc_createraid *, struct sr_discipline *); int sr_crypto_create_keys(struct sr_discipline *); #ifdef SR_DEBUG void sr_dump_mem(u_int8_t *, int); #endif #endif /* _KERNEL */ #endif /* SOFTRAIDVAR_H */