?????????? ?????????

?????????? ????????? - ??????????????? - /home/agenciai/public_html/cd38d8/scsi.zip

???????
PK��Q �[�S-��-��sg/debugnu��6�$��max_active_device=1 def_reserved_size=32768 PK��Q �[,�� sg/devicesnu��6�$��0 0 0 0 0 1 128 0 1 PK��Q �[��K{�� sg/versionnu��6�$��30536 3.5.36 [20140603] PK��Q �[�J~��sg/allow_dionu��[��0 PK��Q �[_/��/�� sg/device_hdrnu��6�$��host chan id lun type opens qdepth busy online PK��Q �[E5��sg/device_strsnu��6�$��QEMU QEMU HARDDISK 2.5+ PK��Q �[�3�R��sg/def_reserved_sizenu��[��32768 PK��Q �[ߒ[��scsinu��6�$��Attached devices: Host: scsi0 Channel: 00 Id: 00 Lun: 00 Vendor: QEMU Model: QEMU HARDDISK Rev: 2.5+ Type: Direct-Access ANSI SCSI revision: 05 PK��Q �[�_FO��device_infonu��6�$��'Aashima' 'IMAGERY 2400SP' 0x1 'CHINON' 'CD-ROM CDS-431' 0x1 'CHINON' 'CD-ROM CDS-535' 0x1 'DENON' 'DRD-25X' 0x1 'HITACHI' 'DK312C' 0x1 'HITACHI' 'DK314C' 0x1 'IBM' '2104-DU3' 0x1 'IBM' '2104-TU3' 0x1 'IMS' 'CDD521/10' 0x1 'MAXTOR' 'XT-3280' 0x1 'MAXTOR' 'XT-4380S' 0x1 'MAXTOR' 'MXT-1240S' 0x1 'MAXTOR' 'XT-4170S' 0x1 'MAXTOR' 'XT-8760S' 0x1 'MEDIAVI' 'RENO CD-ROMX2A' 0x1 'MICROTE' 'ScanMakerIII' 0x1 'NEC' 'CD-ROM DRIVE:84' 0x1 'PHILIPS' 'PCA80SC' 0x1 'RODIME' 'RO3000S' 0x1 'SUN' 'SENA' 0x1 'SANYO' 'CRD-250S' 0x1 'SEAGATE' 'ST157N' 0x1 'SEAGATE' 'ST296' 0x1 'SEAGATE' 'ST1581' 0x1 'SONY' 'CD-ROM CDU-541' 0x1 'SONY' 'CD-ROM CDU-55S' 0x1 'SONY' 'CD-ROM CDU-561' 0x1 'SONY' 'CD-ROM CDU-8012' 0x1 'SONY' 'SDT-5000' 0x200000 'TANDBER' 'TDC 3600' 0x1 'TEAC' 'CD-R55S' 0x1 'TEAC' 'CD-ROM' 0x1 'TEAC' 'MT-2ST/45S2-27' 0x1 'HP' 'C1750A' 0x1 'HP' 'C1790A' 0x1 'HP' 'C2500A' 0x1 'MEDIAVI' 'CDR-H93MV' 0x1 'MICROTE' 'ScanMaker II' 0x1 'MITSUMI' 'CD-R CR-2201CS' 0x1 'NEC' 'D3856' 0x1 'QUANTUM' 'LPS525S' 0x1 'QUANTUM' 'PD1225S' 0x1 'QUANTUM' 'FIREBALL ST4.3S' 0x1 'RELISYS' 'Scorpio' 0x1 'SANKYO' 'CP525' 0x1 'TEXEL' 'CD-ROM' 0x5 'transte' 'T5008' 0x40000 'YAMAHA' 'CDR100' 0x1 'YAMAHA' 'CDR102' 0x1 'YAMAHA' 'CRW8424S' 0x1 'YAMAHA' 'CRW6416S' 0x1 '' 'Scanner' 0x1 '3PARdat' 'VV' 0x20000 'ADAPTEC' 'AACRAID' 0x2 'ADAPTEC' 'Adaptec 5400S' 0x2 'AIX' 'VDASD' 0x10002000 'AFT PRO' '-IX CF' 0x2 'BELKIN' 'USB 2 HS-CF' 0x402 'BROWNIE' '1200U3P' 0x40000 'BROWNIE' '1600U3P' 0x40000 'CANON' 'IPUBJD' 0x40 'CBOX3' 'USB Storage-SMC' 0x402 'CMD' 'CRA-7280' 0x40 'CNSI' 'G7324' 0x40 'CNSi' 'G8324' 0x40 'COMPAQ' 'ARRAY CONTROLLE' 0x820240 'COMPAQ' 'LOGICAL VOLUME' 0x800002 'COMPAQ' 'CR3500' 0x2 'COMPAQ' 'MSA1000' 0x1040 'COMPAQ' 'MSA1000 VOLUME' 0x1040 'COMPAQ' 'HSV110' 0x21000 'DDN' 'SAN DataDirecto' 0x40 'DEC' 'HSG80' 0x21000 'DELL' 'PV660F' 0x40 'DELL' 'PV660F PSEUDO' 0x40 'DELL' 'PSEUDO DEVICE .' 0x40 'DELL' 'PV530F' 0x40 'DELL' 'PERCRAID' 0x2 'DGC' 'RAID' 0x40 'DGC' 'DISK' 0x40 'EMC' 'Invista' 0x240 'EMC' 'SYMMETRIX' 0x100020240 'EMULEX' 'MD21/S2 ESD' 0x10 'easyRAI' '16P' 0x40000 'easyRAI' 'X6P' 0x40000 'easyRAI' 'F8' 0x40000 'FSC' 'CentricStor' 0x240 'FUJITSU' 'ETERNUS_DXM' 0x200000000 'Generic' 'USB SD Reader' 0x402 'Generic' 'USB Storage-SMC' 0x402 'Generic' 'Ultra HS-SD/MMC' 0xc00 'HITACHI' 'DF400' 0x20000 'HITACHI' 'DF500' 0x20000 'HITACHI' 'DISK-SUBSYSTEM' 0x20000 'HITACHI' 'HUS1530' 0x2000000 'HITACHI' 'OPEN-' 0x10020000 'HP' 'A6189A' 0x240 'HP' 'OPEN-' 0x10020000 'HP' 'NetRAID-4M' 0x2 'HP' 'HSV100' 0x21000 'HP' 'C1557A' 0x2 'HP' 'C3323-300' 0x20 'HP' 'C5713A' 0x40000 'HP' 'DISK-SUBSYSTEM' 0x20000 'HPE' 'OPEN-' 0x10020000 'IBM' 'AuSaV1S2' 0x2 'IBM' 'ProFibre 4000R' 0x240 'IBM' '2076' 0x2000 'IBM' '2105' 0x400000 'iomega' 'jaz 1GB' 0x21 'IOMEGA' 'ZIP' 0x21 'IOMEGA' 'Io20S ' 0x8 'INSITE' 'Floptical F8' 0x8 'INSITE' 'I325VM' 0x8 'Intel' 'Multi-Flex' 0x20000000 'iRiver' 'iFP Mass Driver' 0x80400 'LASOUND' 'CDX7405' 0x90 'Marvell' 'Console' 0x4000000 'Marvell' '91xx Config' 0x4000000 'MATSHIT' 'PD-1' 0x12 'MATSHIT' 'DMC-LC5' 0x80400 'MATSHIT' 'DMC-LC40' 0x80400 'Medion' 'Flash XL MMC/S' 0x2 'MegaRAI' 'LD' 0x2 'MICROP' '4110' 0x20 'MSFT' 'Virtual HD' 0x60000000 'MYLEX' 'DACARMRB' 0x20000 'nCipher' 'Fastness Crypto' 0x2 'NAKAMIC' 'MJ-4.8S' 0x12 'NAKAMIC' 'MJ-5.16S' 0x12 'NEC' 'PD-1 ODX654P' 0x12 'NEC' 'iStorage' 0x20000 'NRC' 'MBR-7' 0x12 'NRC' 'MBR-7.4' 0x12 'PIONEER' 'CD-ROM DRM-600' 0x12 'PIONEER' 'CD-ROM DRM-602X' 0x12 'PIONEER' 'CD-ROM DRM-604X' 0x12 'PIONEER' 'CD-ROM DRM-624X' 0x12 'Promise' 'VTrak E610f' 0x20000040 'Promise' '' 0x40 'QEMU' 'QEMU CD-ROM' 0x4000000 'QNAP' 'iSCSI Storage' 0x40000000 'SYNOLOG' 'iSCSI Storage' 0x40000000 'QUANTUM' 'XP34301' 0x20 'REGAL' 'CDC-4X' 0x90 'SanDisk' 'ImageMate CF-SD' 0x2 'SEAGATE' 'ST34555N' 0x20 'SEAGATE' 'ST3390N' 0x20 'SEAGATE' 'ST900MM0006' 0x4000000 'SGI' 'RAID3' 0x40 'SGI' 'RAID5' 0x40 'SGI' 'TP9100' 0x20000 'SGI' 'Universal Xport' 0x100000 'SKhynix' 'H28U74301AMR' 0x4000000 'IBM' 'Universal Xport' 0x100000 'SUN' 'Universal Xport' 0x100000 'DELL' 'Universal Xport' 0x100000 'STK' 'Universal Xport' 0x100000 'NETAPP' 'Universal Xport' 0x100000 'LSI' 'Universal Xport' 0x100000 'ENGENIO' 'Universal Xport' 0x100000 'LENOVO' 'Universal Xport' 0x100000 'FUJITSU' 'Universal Xport' 0x100000 'SanDisk' 'Cruzer Blade' 0x10000400 'SMSC' 'USB 2 HS-CF' 0x440 'SONY' 'CD-ROM CDU-8001' 0x4 'SONY' 'TSL' 0x2 'ST65021' 'CF' 0x400000 'SUN' 'T300' 0x40 'SUN' 'T4' 0x40 'Tornado' 'F4' 0x40000 'TOSHIBA' 'CDROM' 0x100 'TOSHIBA' 'CD-ROM' 0x100 'Traxdat' 'CDR4120' 0x1 'USB2.0' 'SMARTMEDIA/XD' 0x402 'WangDAT' 'Model 2600' 0x200000 'WangDAT' 'Model 3200' 0x200000 'WangDAT' 'Model 1300' 0x200000 'WDC WD2' '00JB-00FUA0' 0x40000 'XYRATEX' 'RS' 0x240 'Zzyzx' 'RocketStor 500S' 0x40 'Zzyzx' 'RocketStor 2000' 0x40 PK��6�[KYt��scsi_bsg_ufs.hnu��[��/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note / / * UFS Transport SGIO v4 BSG Message Support * * Copyright (C) 2011-2013 Samsung India Software Operations * Copyright (C) 2018 Western Digital Corporation / #ifndef SCSI_BSG_UFS_H #define SCSI_BSG_UFS_H #include <asm/byteorder.h> #include <linux/types.h> / * This file intended to be included by both kernel and user space / #define UFS_CDB_SIZE 16 / uic commands are 4DW long, per UFSHCI V2.1 paragraph 5.6.1 / #define UIC_CMD_SIZE (sizeof(__u32) 4) enum ufs_bsg_msg_code { UPIU_TRANSACTION_UIC_CMD = 0x1F, UPIU_TRANSACTION_ARPMB_CMD, }; /* UFS RPMB Request Message Types / enum ufs_rpmb_op_type { UFS_RPMB_WRITE_KEY = 0x01, UFS_RPMB_READ_CNT = 0x02, UFS_RPMB_WRITE = 0x03, UFS_RPMB_READ = 0x04, UFS_RPMB_READ_RESP = 0x05, UFS_RPMB_SEC_CONF_WRITE = 0x06, UFS_RPMB_SEC_CONF_READ = 0x07, UFS_RPMB_PURGE_ENABLE = 0x08, UFS_RPMB_PURGE_STATUS_READ = 0x09, }; /* * struct utp_upiu_header - UPIU header structure * @dword_0: UPIU header DW-0 * @dword_1: UPIU header DW-1 * @dword_2: UPIU header DW-2 * * @transaction_code: Type of request or response. See also enum * upiu_request_transaction and enum upiu_response_transaction. * @flags: UPIU flags. The meaning of individual flags depends on the * transaction code. * @lun: Logical unit number. * @task_tag: Task tag. * @iid: Initiator ID. * @command_set_type: 0 for SCSI command set; 1 for UFS specific. * @tm_function: Task management function in case of a task management request * UPIU. * @query_function: Query function in case of a query request UPIU. * @response: 0 for success; 1 for failure. * @status: SCSI status if this is the header of a response to a SCSI command. * @ehs_length: EHS length in units of 32 bytes. * @device_information: * @data_segment_length: data segment length. / struct utp_upiu_header { union { struct { __be32 dword_0; __be32 dword_1; __be32 dword_2; }; struct { __u8 transaction_code; __u8 flags; __u8 lun; __u8 task_tag; #if defined(__BIG_ENDIAN) __u8 iid: 4; __u8 command_set_type: 4; #elif defined(__LITTLE_ENDIAN) __u8 command_set_type: 4; __u8 iid: 4; #else #error #endif union { __u8 tm_function; __u8 query_function; } __attribute__((packed)); __u8 response; __u8 status; __u8 ehs_length; __u8 device_information; __be16 data_segment_length; }; }; }; /* * struct utp_upiu_query - upiu request buffer structure for * query request. * @opcode: command to perform B-0 * @idn: a value that indicates the particular type of data B-1 * @index: Index to further identify data B-2 * @selector: Index to further identify data B-3 * @reserved_osf: spec reserved field B-4,5 * @length: number of descriptor bytes to read/write B-6,7 * @value: Attribute value to be written DW-5 * @reserved: spec reserved DW-6,7 / struct utp_upiu_query { __u8 opcode; __u8 idn; __u8 index; __u8 selector; __be16 reserved_osf; __be16 length; __be32 value; __be32 reserved[2]; }; /* * struct utp_upiu_query_v4_0 - upiu request buffer structure for * query request >= UFS 4.0 spec. * @opcode: command to perform B-0 * @idn: a value that indicates the particular type of data B-1 * @index: Index to further identify data B-2 * @selector: Index to further identify data B-3 * @osf4: spec field B-5 * @osf5: spec field B 6,7 * @osf6: spec field DW 8,9 * @osf7: spec field DW 10,11 / struct utp_upiu_query_v4_0 { __u8 opcode; __u8 idn; __u8 index; __u8 selector; __u8 osf3; __u8 osf4; __be16 osf5; __be32 osf6; __be32 osf7; __be32 reserved; }; /* * struct utp_upiu_cmd - Command UPIU structure * @data_transfer_len: Data Transfer Length DW-3 * @cdb: Command Descriptor Block CDB DW-4 to DW-7 / struct utp_upiu_cmd { __be32 exp_data_transfer_len; __u8 cdb[UFS_CDB_SIZE]; }; /* * struct utp_upiu_req - general upiu request structure * @header:UPIU header structure DW-0 to DW-2 * @sc: fields structure for scsi command DW-3 to DW-7 * @qr: fields structure for query request DW-3 to DW-7 * @uc: use utp_upiu_query to host the 4 dwords of uic command / struct utp_upiu_req { struct utp_upiu_header header; union { struct utp_upiu_cmd sc; struct utp_upiu_query qr; struct utp_upiu_query uc; }; }; struct ufs_arpmb_meta { __be16 req_resp_type; __u8 nonce[16]; __be32 write_counter; __be16 addr_lun; __be16 block_count; __be16 result; } __attribute__((__packed__)); struct ufs_ehs { __u8 length; __u8 ehs_type; __be16 ehssub_type; struct ufs_arpmb_meta meta; __u8 mac_key[32]; } __attribute__((__packed__)); / request (CDB) structure of the sg_io_v4 / struct ufs_bsg_request { __u32 msgcode; struct utp_upiu_req upiu_req; }; / response (request sense data) structure of the sg_io_v4 / struct ufs_bsg_reply { / * The completion result. Result exists in two forms: * if negative, it is an -Exxx system errno value. There will * be no further reply information supplied. * else, it's the 4-byte scsi error result, with driver, host, * msg and status fields. The per-msgcode reply structure * will contain valid data. / int result; / If there was reply_payload, how much was received? / __u32 reply_payload_rcv_len; struct utp_upiu_req upiu_rsp; }; struct ufs_rpmb_request { struct ufs_bsg_request bsg_request; struct ufs_ehs ehs_req; }; struct ufs_rpmb_reply { struct ufs_bsg_reply bsg_reply; struct ufs_ehs ehs_rsp; }; #endif / UFS_BSG_H / PK��6�[8Iט[��[�� scsi_bsg_fc.hnu��[��/ SPDX-License-Identifier: GPL-2.0+ WITH Linux-syscall-note / / * FC Transport BSG Interface * * Copyright (C) 2008 James Smart, Emulex Corporation / #ifndef SCSI_BSG_FC_H #define SCSI_BSG_FC_H #include <linux/types.h> / * This file intended to be included by both kernel and user space / / * FC Transport SGIO v4 BSG Message Support / / Default BSG request timeout (in seconds) / #define FC_DEFAULT_BSG_TIMEOUT (10 HZ) /* * Request Message Codes supported by the FC Transport / / define the class masks for the message codes / #define FC_BSG_CLS_MASK 0xF0000000 / find object class / #define FC_BSG_HST_MASK 0x80000000 / fc host class / #define FC_BSG_RPT_MASK 0x40000000 / fc rport class / / fc_host Message Codes / #define FC_BSG_HST_ADD_RPORT (FC_BSG_HST_MASK \| 0x00000001) #define FC_BSG_HST_DEL_RPORT (FC_BSG_HST_MASK \| 0x00000002) #define FC_BSG_HST_ELS_NOLOGIN (FC_BSG_HST_MASK \| 0x00000003) #define FC_BSG_HST_CT (FC_BSG_HST_MASK \| 0x00000004) #define FC_BSG_HST_VENDOR (FC_BSG_HST_MASK \| 0x000000FF) / fc_rport Message Codes / #define FC_BSG_RPT_ELS (FC_BSG_RPT_MASK \| 0x00000001) #define FC_BSG_RPT_CT (FC_BSG_RPT_MASK \| 0x00000002) / * FC Address Identifiers in Message Structures : * * Whenever a command payload contains a FC Address Identifier * (aka port_id), the value is effectively in big-endian * order, thus the array elements are decoded as follows: * element [0] is bits 23:16 of the FC Address Identifier * element [1] is bits 15:8 of the FC Address Identifier * element [2] is bits 7:0 of the FC Address Identifier / / * FC Host Messages / / FC_BSG_HST_ADDR_PORT : / / Request: * This message requests the FC host to login to the remote port * at the specified N_Port_Id. The remote port is to be enumerated * with the transport upon completion of the login. / struct fc_bsg_host_add_rport { __u8 reserved; / FC Address Identier of the remote port to login to / __u8 port_id[3]; }; / Response: * There is no additional response data - fc_bsg_reply->result is sufficient / / FC_BSG_HST_DEL_RPORT : / / Request: * This message requests the FC host to remove an enumerated * remote port and to terminate the login to it. * * Note: The driver is free to reject this request if it desires to * remain logged in with the remote port. / struct fc_bsg_host_del_rport { __u8 reserved; / FC Address Identier of the remote port to logout of / __u8 port_id[3]; }; / Response: * There is no additional response data - fc_bsg_reply->result is sufficient / / FC_BSG_HST_ELS_NOLOGIN : / / Request: * This message requests the FC_Host to send an ELS to a specific * N_Port_ID. The host does not need to log into the remote port, * nor does it need to enumerate the rport for further traffic * (although, the FC host is free to do so if it desires). / struct fc_bsg_host_els { / * ELS Command Code being sent (must be the same as byte 0 * of the payload) / __u8 command_code; / FC Address Identier of the remote port to send the ELS to / __u8 port_id[3]; }; / Response: / / fc_bsg_ctels_reply->status values / #define FC_CTELS_STATUS_OK 0x00000000 #define FC_CTELS_STATUS_REJECT 0x00000001 #define FC_CTELS_STATUS_P_RJT 0x00000002 #define FC_CTELS_STATUS_F_RJT 0x00000003 #define FC_CTELS_STATUS_P_BSY 0x00000004 #define FC_CTELS_STATUS_F_BSY 0x00000006 struct fc_bsg_ctels_reply { / * Note: An ELS LS_RJT may be reported in 2 ways: * a) A status of FC_CTELS_STATUS_OK is returned. The caller * is to look into the ELS receive payload to determine * LS_ACC or LS_RJT (by contents of word 0). The reject * data will be in word 1. * b) A status of FC_CTELS_STATUS_REJECT is returned, The * rjt_data field will contain valid data. * * Note: ELS LS_ACC is determined by an FC_CTELS_STATUS_OK, and * the receive payload word 0 indicates LS_ACC * (e.g. value is 0x02xxxxxx). * * Note: Similarly, a CT Reject may be reported in 2 ways: * a) A status of FC_CTELS_STATUS_OK is returned. The caller * is to look into the CT receive payload to determine * Accept or Reject (by contents of word 2). The reject * data will be in word 3. * b) A status of FC_CTELS_STATUS_REJECT is returned, The * rjt_data field will contain valid data. * * Note: x_RJT/BSY status will indicae that the rjt_data field * is valid and contains the reason/explanation values. / __u32 status; / See FC_CTELS_STATUS_xxx / / valid if status is not FC_CTELS_STATUS_OK / struct { __u8 action; / fragment_id for CT REJECT / __u8 reason_code; __u8 reason_explanation; __u8 vendor_unique; } rjt_data; }; / FC_BSG_HST_CT : / / Request: * This message requests that a CT Request be performed with the * indicated N_Port_ID. The driver is responsible for logging in with * the fabric and/or N_Port_ID, etc as per FC rules. This request does * not mandate that the driver must enumerate the destination in the * transport. The driver is allowed to decide whether to enumerate it, * and whether to tear it down after the request. / struct fc_bsg_host_ct { __u8 reserved; / FC Address Identier of the remote port to send the ELS to / __u8 port_id[3]; / * We need words 0-2 of the generic preamble for the LLD's / __u32 preamble_word0; / revision & IN_ID / __u32 preamble_word1; / GS_Type, GS_SubType, Options, Rsvd / __u32 preamble_word2; / Cmd Code, Max Size / }; / Response: * * The reply structure is an fc_bsg_ctels_reply structure / / FC_BSG_HST_VENDOR : / / Request: * Note: When specifying vendor_id, be sure to read the Vendor Type and ID * formatting requirements specified in scsi_netlink.h / struct fc_bsg_host_vendor { / * Identifies the vendor that the message is formatted for. This * should be the recipient of the message. / __u64 vendor_id; / start of vendor command area / __u32 vendor_cmd[0]; }; / Response: / struct fc_bsg_host_vendor_reply { / start of vendor response area / __u32 vendor_rsp[0]; }; / * FC Remote Port Messages / / FC_BSG_RPT_ELS : / / Request: * This message requests that an ELS be performed with the rport. / struct fc_bsg_rport_els { / * ELS Command Code being sent (must be the same as * byte 0 of the payload) / __u8 els_code; }; / Response: * * The reply structure is an fc_bsg_ctels_reply structure / / FC_BSG_RPT_CT : / / Request: * This message requests that a CT Request be performed with the rport. / struct fc_bsg_rport_ct { / * We need words 0-2 of the generic preamble for the LLD's / __u32 preamble_word0; / revision & IN_ID / __u32 preamble_word1; / GS_Type, GS_SubType, Options, Rsvd / __u32 preamble_word2; / Cmd Code, Max Size / }; / Response: * * The reply structure is an fc_bsg_ctels_reply structure / / request (CDB) structure of the sg_io_v4 / struct fc_bsg_request { __u32 msgcode; union { struct fc_bsg_host_add_rport h_addrport; struct fc_bsg_host_del_rport h_delrport; struct fc_bsg_host_els h_els; struct fc_bsg_host_ct h_ct; struct fc_bsg_host_vendor h_vendor; struct fc_bsg_rport_els r_els; struct fc_bsg_rport_ct r_ct; } rqst_data; } __attribute__((packed)); / response (request sense data) structure of the sg_io_v4 / struct fc_bsg_reply { / * The completion result. Result exists in two forms: * if negative, it is an -Exxx system errno value. There will * be no further reply information supplied. * else, it's the 4-byte scsi error result, with driver, host, * msg and status fields. The per-msgcode reply structure * will contain valid data. / __u32 result; / If there was reply_payload, how much was recevied ? / __u32 reply_payload_rcv_len; union { struct fc_bsg_host_vendor_reply vendor_reply; struct fc_bsg_ctels_reply ctels_reply; } reply_data; }; #endif / SCSI_BSG_FC_H / PK��6�[29��-��-��sg.hnu��[��/ Copyright (C) 1997-2021 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see <https://www.gnu.org/licenses/>. / / History: Started: Aug 9 by Lawrence Foard (entropy@world.std.com), to allow user process control of SCSI devices. Development Sponsored by Killy Corp. NY NY / #ifndef _SCSI_SG_H #define _SCSI_SG_H 1 #include <features.h> #define __need_size_t #include <stddef.h> / New interface introduced in the 3.x SG drivers follows / / Same structure as used by readv() Linux system call. It defines one scatter-gather element. / typedef struct sg_iovec { void iov_base; /* Starting address / size_t iov_len; / Length in bytes / } sg_iovec_t; typedef struct sg_io_hdr { int interface_id; / [i] 'S' for SCSI generic (required) / int dxfer_direction; / [i] data transfer direction / unsigned char cmd_len; / [i] SCSI command length ( <= 16 bytes) / unsigned char mx_sb_len; / [i] max length to write to sbp / unsigned short int iovec_count; / [i] 0 implies no scatter gather / unsigned int dxfer_len; / [i] byte count of data transfer / void dxferp; /* [i], [io] points to data transfer memory or scatter gather list / unsigned char * cmdp; /* [i], [i] points to command to perform / unsigned char * sbp; /* [i], [o] points to sense_buffer memory / unsigned int timeout; /* [i] MAX_UINT->no timeout (unit: millisec) / unsigned int flags; / [i] 0 -> default, see SG_FLAG... / int pack_id; / [i->o] unused internally (normally) / void usr_ptr; /* [i->o] unused internally / unsigned char status; / [o] scsi status / unsigned char masked_status;/ [o] shifted, masked scsi status / unsigned char msg_status; / [o] messaging level data (optional) / unsigned char sb_len_wr; / [o] byte count actually written to sbp / unsigned short int host_status; / [o] errors from host adapter / unsigned short int driver_status;/ [o] errors from software driver / int resid; / [o] dxfer_len - actual_transferred / unsigned int duration; / [o] time taken by cmd (unit: millisec) / unsigned int info; / [o] auxiliary information / } sg_io_hdr_t; / Use negative values to flag difference from original sg_header structure. / #define SG_DXFER_NONE -1 / e.g. a SCSI Test Unit Ready command / #define SG_DXFER_TO_DEV -2 / e.g. a SCSI WRITE command / #define SG_DXFER_FROM_DEV -3 / e.g. a SCSI READ command / #define SG_DXFER_TO_FROM_DEV -4 / treated like SG_DXFER_FROM_DEV with the additional property than during indirect IO the user buffer is copied into the kernel buffers before the transfer / / following flag values can be "or"-ed together / #define SG_FLAG_DIRECT_IO 1 / default is indirect IO / #define SG_FLAG_LUN_INHIBIT 2 / default is to put device's lun into / / the 2nd byte of SCSI command / #define SG_FLAG_NO_DXFER 0x10000 / no transfer of kernel buffers to/from / / user space (debug indirect IO) / / The following 'info' values are "or"-ed together. / #define SG_INFO_OK_MASK 0x1 #define SG_INFO_OK 0x0 / no sense, host nor driver "noise" / #define SG_INFO_CHECK 0x1 / something abnormal happened / #define SG_INFO_DIRECT_IO_MASK 0x6 #define SG_INFO_INDIRECT_IO 0x0 / data xfer via kernel buffers (or no xfer) / #define SG_INFO_DIRECT_IO 0x2 / direct IO requested and performed / #define SG_INFO_MIXED_IO 0x4 / part direct, part indirect IO / / Request information about a specific SG device, used by SG_GET_SCSI_ID ioctl (). / struct sg_scsi_id { / Host number as in "scsi<n>" where 'n' is one of 0, 1, 2 etc. / int host_no; int channel; / SCSI id of target device. / int scsi_id; int lun; / TYPE_... defined in <scsi/scsi.h>. / int scsi_type; / Host (adapter) maximum commands per lun. / short int h_cmd_per_lun; / Device (or adapter) maximum queue length. / short int d_queue_depth; / Unused, set to 0 for now. / int unused[2]; }; / Used by SG_GET_REQUEST_TABLE ioctl(). / typedef struct sg_req_info { char req_state; / 0 -> not used, 1 -> written, 2 -> ready to read / char orphan; / 0 -> normal request, 1 -> from interruped SG_IO / char sg_io_owned; / 0 -> complete with read(), 1 -> owned by SG_IO / char problem; / 0 -> no problem detected, 1 -> error to report / int pack_id; / pack_id associated with request / void usr_ptr; /* user provided pointer (in new interface) / unsigned int duration; / millisecs elapsed since written (req_state==1) or request duration (req_state==2) / int unused; } sg_req_info_t; / IOCTLs: Those ioctls that are relevant to the SG 3.x drivers follow. [Those that only apply to the SG 2.x drivers are at the end of the file.] (_GET_s yield result via 'int ' 3rd argument unless otherwise indicated) / #define SG_EMULATED_HOST 0x2203 /* true for emulated host adapter (ATAPI) / / Used to configure SCSI command transformation layer for ATAPI devices / / Only supported by the ide-scsi driver / #define SG_SET_TRANSFORM 0x2204 / N.B. 3rd arg is not pointer but value: / / 3rd arg = 0 to disable transform, 1 to enable it / #define SG_GET_TRANSFORM 0x2205 #define SG_SET_RESERVED_SIZE 0x2275 / request a new reserved buffer size / #define SG_GET_RESERVED_SIZE 0x2272 / actual size of reserved buffer / / The following ioctl has a 'sg_scsi_id_t ' object as its 3rd argument. / #define SG_GET_SCSI_ID 0x2276 /* Yields fd's bus, chan, dev, lun + type / / SCSI id information can also be obtained from SCSI_IOCTL_GET_IDLUN / / Override host setting and always DMA using low memory ( <16MB on i386) / #define SG_SET_FORCE_LOW_DMA 0x2279 / 0-> use adapter setting, 1-> force / #define SG_GET_LOW_DMA 0x227a / 0-> use all ram for dma; 1-> low dma ram / / When SG_SET_FORCE_PACK_ID set to 1, pack_id is input to read() which tries to fetch a packet with a matching pack_id, waits, or returns EAGAIN. If pack_id is -1 then read oldest waiting. When ...FORCE_PACK_ID set to 0 then pack_id ignored by read() and oldest readable fetched. / #define SG_SET_FORCE_PACK_ID 0x227b #define SG_GET_PACK_ID 0x227c / Yields oldest readable pack_id (or -1) / #define SG_GET_NUM_WAITING 0x227d / Number of commands awaiting read() / / Yields max scatter gather tablesize allowed by current host adapter / #define SG_GET_SG_TABLESIZE 0x227F / 0 implies can't do scatter gather / #define SG_GET_VERSION_NUM 0x2282 / Example: version 2.1.34 yields 20134 / / Returns -EBUSY if occupied. 3rd argument pointer to int (see next) / #define SG_SCSI_RESET 0x2284 / Associated values that can be given to SG_SCSI_RESET follow / #define SG_SCSI_RESET_NOTHING 0 #define SG_SCSI_RESET_DEVICE 1 #define SG_SCSI_RESET_BUS 2 #define SG_SCSI_RESET_HOST 3 / synchronous SCSI command ioctl, (only in version 3 interface) / #define SG_IO 0x2285 / similar effect as write() followed by read() / #define SG_GET_REQUEST_TABLE 0x2286 / yields table of active requests / / How to treat EINTR during SG_IO ioctl(), only in SG 3.x series / #define SG_SET_KEEP_ORPHAN 0x2287 / 1 -> hold for read(), 0 -> drop (def) / #define SG_GET_KEEP_ORPHAN 0x2288 #define SG_SCATTER_SZ (8 4096) /* PAGE_SIZE not available to user / / Largest size (in bytes) a single scatter-gather list element can have. The value must be a power of 2 and <= (PAGE_SIZE * 32) [131072 bytes on i386]. The minimum value is PAGE_SIZE. If scatter-gather not supported by adapter then this value is the largest data block that can be read/written by a single scsi command. The user can find the value of PAGE_SIZE by calling getpagesize() defined in unistd.h . / #define SG_DEFAULT_RETRIES 1 / Defaults, commented if they differ from original sg driver / #define SG_DEF_FORCE_LOW_DMA 0 / was 1 -> memory below 16MB on i386 / #define SG_DEF_FORCE_PACK_ID 0 #define SG_DEF_KEEP_ORPHAN 0 #define SG_DEF_RESERVED_SIZE SG_SCATTER_SZ / load time option / / maximum outstanding requests, write() yields EDOM if exceeded / #define SG_MAX_QUEUE 16 #define SG_BIG_BUFF SG_DEF_RESERVED_SIZE / for backward compatibility / / Alternate style type names, "..._t" variants preferred / typedef struct sg_io_hdr Sg_io_hdr; typedef struct sg_io_vec Sg_io_vec; typedef struct sg_scsi_id Sg_scsi_id; typedef struct sg_req_info Sg_req_info; / vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv / / The older SG interface based on the 'sg_header' structure follows. / / ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ / #define SG_MAX_SENSE 16 / this only applies to the sg_header interface / struct sg_header { / Length of incoming packet (including header). / int pack_len; / Maximal length of expected reply. / int reply_len; / Id number of packet. / int pack_id; / 0==ok, otherwise error number. / int result; / Force 12 byte command length for group 6 & 7 commands. / unsigned int twelve_byte:1; / SCSI status from target. / unsigned int target_status:5; / Host status (see "DID" codes). / unsigned int host_status:8; / Driver status+suggestion. / unsigned int driver_status:8; / Unused. / unsigned int other_flags:10; / Output in 3 cases: when target_status is CHECK_CONDITION or when target_status is COMMAND_TERMINATED or when (driver_status & DRIVER_SENSE) is true. / unsigned char sense_buffer[SG_MAX_SENSE]; }; / IOCTLs: The following are not required (or ignored) when the sg_io_hdr_t interface is used. They are kept for backward compatibility with the original and version 2 drivers. / #define SG_SET_TIMEOUT 0x2201 / Set timeout; (int )arg==timeout. / #define SG_GET_TIMEOUT 0x2202 / Get timeout; return timeout. / / Get/set command queuing state per fd (default is SG_DEF_COMMAND_Q). / #define SG_GET_COMMAND_Q 0x2270 / Yields 0 (queuing off) or 1 (on). / #define SG_SET_COMMAND_Q 0x2271 / Change queuing state with 0 or 1. / / Turn on error sense trace (1..8), dump this device to log/console (9) or dump all sg device states ( >9 ) to log/console. / #define SG_SET_DEBUG 0x227e / 0 -> turn off debug / #define SG_NEXT_CMD_LEN 0x2283 / Override SCSI command length with given number on the next write() on this file descriptor. / / Defaults, commented if they differ from original sg driver / #define SG_DEFAULT_TIMEOUT (60HZ) /* HZ == 'jiffies in 1 second' / #define SG_DEF_COMMAND_Q 0 / command queuing is always on when the new interface is used / #define SG_DEF_UNDERRUN_FLAG 0 #endif / scsi/sg.h / PK��6�[u熊$��$��scsi_ioctl.hnu��[��/ Copyright (C) 1999-2021 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see <https://www.gnu.org/licenses/>. / #ifndef _SCSI_IOCTL_H #define _SCSI_IOCTL_H / IOCTLs for SCSI. / #define SCSI_IOCTL_SEND_COMMAND 1 / Send a command to the SCSI host. / #define SCSI_IOCTL_TEST_UNIT_READY 2 / Test if unit is ready. / #define SCSI_IOCTL_BENCHMARK_COMMAND 3 #define SCSI_IOCTL_SYNC 4 / Request synchronous parameters. / #define SCSI_IOCTL_START_UNIT 5 #define SCSI_IOCTL_STOP_UNIT 6 #define SCSI_IOCTL_DOORLOCK 0x5380 / Lock the eject mechanism. / #define SCSI_IOCTL_DOORUNLOCK 0x5381 / Unlock the mechanism. / #endif PK��6�[��:��:��scsi.hnu��[��/ Copyright (C) 1998-2021 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see <https://www.gnu.org/licenses/>. / / * This header file contains public constants and structures used by * the scsi code for linux. / #ifndef _SCSI_SCSI_H #define _SCSI_SCSI_H 1 #include <features.h> / * SCSI opcodes / #define TEST_UNIT_READY 0x00 #define REZERO_UNIT 0x01 #define REQUEST_SENSE 0x03 #define FORMAT_UNIT 0x04 #define READ_BLOCK_LIMITS 0x05 #define REASSIGN_BLOCKS 0x07 #define READ_6 0x08 #define WRITE_6 0x0a #define SEEK_6 0x0b #define READ_REVERSE 0x0f #define WRITE_FILEMARKS 0x10 #define SPACE 0x11 #define INQUIRY 0x12 #define RECOVER_BUFFERED_DATA 0x14 #define MODE_SELECT 0x15 #define RESERVE 0x16 #define RELEASE 0x17 #define COPY 0x18 #define ERASE 0x19 #define MODE_SENSE 0x1a #define START_STOP 0x1b #define RECEIVE_DIAGNOSTIC 0x1c #define SEND_DIAGNOSTIC 0x1d #define ALLOW_MEDIUM_REMOVAL 0x1e #define SET_WINDOW 0x24 #define READ_CAPACITY 0x25 #define READ_10 0x28 #define WRITE_10 0x2a #define SEEK_10 0x2b #define WRITE_VERIFY 0x2e #define VERIFY 0x2f #define SEARCH_HIGH 0x30 #define SEARCH_EQUAL 0x31 #define SEARCH_LOW 0x32 #define SET_LIMITS 0x33 #define PRE_FETCH 0x34 #define READ_POSITION 0x34 #define SYNCHRONIZE_CACHE 0x35 #define LOCK_UNLOCK_CACHE 0x36 #define READ_DEFECT_DATA 0x37 #define MEDIUM_SCAN 0x38 #define COMPARE 0x39 #define COPY_VERIFY 0x3a #define WRITE_BUFFER 0x3b #define READ_BUFFER 0x3c #define UPDATE_BLOCK 0x3d #define READ_LONG 0x3e #define WRITE_LONG 0x3f #define CHANGE_DEFINITION 0x40 #define WRITE_SAME 0x41 #define READ_TOC 0x43 #define LOG_SELECT 0x4c #define LOG_SENSE 0x4d #define MODE_SELECT_10 0x55 #define RESERVE_10 0x56 #define RELEASE_10 0x57 #define MODE_SENSE_10 0x5a #define PERSISTENT_RESERVE_IN 0x5e #define PERSISTENT_RESERVE_OUT 0x5f #define MOVE_MEDIUM 0xa5 #define READ_12 0xa8 #define WRITE_12 0xaa #define WRITE_VERIFY_12 0xae #define SEARCH_HIGH_12 0xb0 #define SEARCH_EQUAL_12 0xb1 #define SEARCH_LOW_12 0xb2 #define READ_ELEMENT_STATUS 0xb8 #define SEND_VOLUME_TAG 0xb6 #define WRITE_LONG_2 0xea / * Status codes / #define GOOD 0x00 #define CHECK_CONDITION 0x01 #define CONDITION_GOOD 0x02 #define BUSY 0x04 #define INTERMEDIATE_GOOD 0x08 #define INTERMEDIATE_C_GOOD 0x0a #define RESERVATION_CONFLICT 0x0c #define COMMAND_TERMINATED 0x11 #define QUEUE_FULL 0x14 #define STATUS_MASK 0x3e / * SENSE KEYS / #define NO_SENSE 0x00 #define RECOVERED_ERROR 0x01 #define NOT_READY 0x02 #define MEDIUM_ERROR 0x03 #define HARDWARE_ERROR 0x04 #define ILLEGAL_REQUEST 0x05 #define UNIT_ATTENTION 0x06 #define DATA_PROTECT 0x07 #define BLANK_CHECK 0x08 #define COPY_ABORTED 0x0a #define ABORTED_COMMAND 0x0b #define VOLUME_OVERFLOW 0x0d #define MISCOMPARE 0x0e / * DEVICE TYPES / #define TYPE_DISK 0x00 #define TYPE_TAPE 0x01 #define TYPE_PROCESSOR 0x03 / HP scanners use this / #define TYPE_WORM 0x04 / Treated as ROM by our system / #define TYPE_ROM 0x05 #define TYPE_SCANNER 0x06 #define TYPE_MOD 0x07 / Magneto-optical disk - * - treated as TYPE_DISK / #define TYPE_MEDIUM_CHANGER 0x08 #define TYPE_ENCLOSURE 0x0d / Enclosure Services Device / #define TYPE_NO_LUN 0x7f / * standard mode-select header prepended to all mode-select commands * * moved here from cdrom.h -- kraxel / struct ccs_modesel_head { unsigned char _r1; / reserved. / unsigned char medium; / device-specific medium type. / unsigned char _r2; / reserved. / unsigned char block_desc_length; / block descriptor length. / unsigned char density; / device-specific density code. / unsigned char number_blocks_hi; / number of blocks in this block desc. / unsigned char number_blocks_med; unsigned char number_blocks_lo; unsigned char _r3; unsigned char block_length_hi; / block length for blocks in this desc. / unsigned char block_length_med; unsigned char block_length_lo; }; / * MESSAGE CODES / #define COMMAND_COMPLETE 0x00 #define EXTENDED_MESSAGE 0x01 #define EXTENDED_MODIFY_DATA_POINTER 0x00 #define EXTENDED_SDTR 0x01 #define EXTENDED_EXTENDED_IDENTIFY 0x02 / SCSI-I only / #define EXTENDED_WDTR 0x03 #define SAVE_POINTERS 0x02 #define RESTORE_POINTERS 0x03 #define DISCONNECT 0x04 #define INITIATOR_ERROR 0x05 #define ABORT 0x06 #define MESSAGE_REJECT 0x07 #define NOP 0x08 #define MSG_PARITY_ERROR 0x09 #define LINKED_CMD_COMPLETE 0x0a #define LINKED_FLG_CMD_COMPLETE 0x0b #define BUS_DEVICE_RESET 0x0c #define INITIATE_RECOVERY 0x0f / SCSI-II only / #define RELEASE_RECOVERY 0x10 / SCSI-II only / #define SIMPLE_QUEUE_TAG 0x20 #define HEAD_OF_QUEUE_TAG 0x21 #define ORDERED_QUEUE_TAG 0x22 / * Here are some scsi specific ioctl commands which are sometimes useful. / / These are a few other constants only used by scsi devices. / #define SCSI_IOCTL_GET_IDLUN 0x5382 / Used to turn on and off tagged queuing for scsi devices. / #define SCSI_IOCTL_TAGGED_ENABLE 0x5383 #define SCSI_IOCTL_TAGGED_DISABLE 0x5384 / Used to obtain the host number of a device. / #define SCSI_IOCTL_PROBE_HOST 0x5385 / Used to get the bus number for a device. / #define SCSI_IOCTL_GET_BUS_NUMBER 0x5386 #endif / scsi/scsi.h / PK��6�[G3ۍ0��0��scsi_netlink_fc.hnu��[��/ SPDX-License-Identifier: GPL-2.0+ WITH Linux-syscall-note / / * FC Transport Netlink Interface * * Copyright (C) 2006 James Smart, Emulex Corporation / #ifndef SCSI_NETLINK_FC_H #define SCSI_NETLINK_FC_H #include <linux/types.h> #include <scsi/scsi_netlink.h> / * This file intended to be included by both kernel and user space / / * FC Transport Message Types / / kernel -> user / #define FC_NL_ASYNC_EVENT 0x0100 / user -> kernel / / none / / * Message Structures : / / macro to round up message lengths to 8byte boundary / #define FC_NL_MSGALIGN(len) (((len) + 7) & ~7) / * FC Transport Broadcast Event Message : * FC_NL_ASYNC_EVENT * * Note: if Vendor Unique message, event_data_flex will be start of * vendor unique payload, and the length of the payload is * per event_datalen * * Note: When specifying vendor_id, be sure to read the Vendor Type and ID * formatting requirements specified in scsi_netlink.h / struct fc_nl_event { struct scsi_nl_hdr snlh; / must be 1st element ! / __u64 seconds; __u64 vendor_id; __u16 host_no; __u16 event_datalen; __u32 event_num; __u32 event_code; union { __u32 event_data; __DECLARE_FLEX_ARRAY(__u8, event_data_flex); }; } __attribute__((aligned(sizeof(__u64)))); #endif / SCSI_NETLINK_FC_H / PK��6�[�d�� fc/fc_gs.hnu��[��/ SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note / / * Copyright(c) 2007 Intel Corporation. All rights reserved. * * Maintained at www.Open-FCoE.org / #ifndef _FC_GS_H_ #define _FC_GS_H_ #include <linux/types.h> / * Fibre Channel Services - Common Transport. * From T11.org FC-GS-2 Rev 5.3 November 1998. / struct fc_ct_hdr { __u8 ct_rev; / revision / __u8 ct_in_id[3]; / N_Port ID of original requestor / __u8 ct_fs_type; / type of fibre channel service / __u8 ct_fs_subtype; / subtype / __u8 ct_options; __u8 _ct_resvd1; __be16 ct_cmd; / command / response code / __be16 ct_mr_size; / maximum / residual size / __u8 _ct_resvd2; __u8 ct_reason; / reject reason / __u8 ct_explan; / reason code explanation / __u8 ct_vendor; / vendor unique data / }; #define FC_CT_HDR_LEN 16 / expected sizeof (struct fc_ct_hdr) / enum fc_ct_rev { FC_CT_REV = 1 / common transport revision / }; / * ct_fs_type values. / enum fc_ct_fs_type { FC_FST_ALIAS = 0xf8, / alias service / FC_FST_MGMT = 0xfa, / management service / FC_FST_TIME = 0xfb, / time service / FC_FST_DIR = 0xfc, / directory service / }; / * ct_cmd: Command / response codes / enum fc_ct_cmd { FC_FS_RJT = 0x8001, / reject / FC_FS_ACC = 0x8002, / accept / }; / * FS_RJT reason codes. / enum fc_ct_reason { FC_FS_RJT_CMD = 0x01, / invalid command code / FC_FS_RJT_VER = 0x02, / invalid version level / FC_FS_RJT_LOG = 0x03, / logical error / FC_FS_RJT_IUSIZ = 0x04, / invalid IU size / FC_FS_RJT_BSY = 0x05, / logical busy / FC_FS_RJT_PROTO = 0x07, / protocol error / FC_FS_RJT_UNABL = 0x09, / unable to perform command request / FC_FS_RJT_UNSUP = 0x0b, / command not supported / }; / * FS_RJT reason code explanations. / enum fc_ct_explan { FC_FS_EXP_NONE = 0x00, / no additional explanation / FC_FS_EXP_PID = 0x01, / port ID not registered / FC_FS_EXP_PNAM = 0x02, / port name not registered / FC_FS_EXP_NNAM = 0x03, / node name not registered / FC_FS_EXP_COS = 0x04, / class of service not registered / FC_FS_EXP_FTNR = 0x07, / FC-4 types not registered / / definitions not complete / }; #endif / _FC_GS_H_ / PK��6�[�!c��-��-�� fc/fc_fs.hnu��[��/ SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note / / * Copyright(c) 2007 Intel Corporation. All rights reserved. * * Maintained at www.Open-FCoE.org / #ifndef _FC_FS_H_ #define _FC_FS_H_ #include <linux/types.h> / * Fibre Channel Framing and Signalling definitions. * From T11 FC-FS-2 Rev 0.90 - 9 August 2005. / / * Frame header / struct fc_frame_header { __u8 fh_r_ctl; / routing control / __u8 fh_d_id[3]; / Destination ID / __u8 fh_cs_ctl; / class of service control / pri / __u8 fh_s_id[3]; / Source ID / __u8 fh_type; / see enum fc_fh_type below / __u8 fh_f_ctl[3]; / frame control / __u8 fh_seq_id; / sequence ID / __u8 fh_df_ctl; / data field control / __be16 fh_seq_cnt; / sequence count / __be16 fh_ox_id; / originator exchange ID / __be16 fh_rx_id; / responder exchange ID / __be32 fh_parm_offset; / parameter or relative offset / }; #define FC_FRAME_HEADER_LEN 24 / expected length of structure / #define FC_MAX_PAYLOAD 2112U / max payload length in bytes / #define FC_MIN_MAX_PAYLOAD 256U / lower limit on max payload / #define FC_MAX_FRAME (FC_MAX_PAYLOAD + FC_FRAME_HEADER_LEN) #define FC_MIN_MAX_FRAME (FC_MIN_MAX_PAYLOAD + FC_FRAME_HEADER_LEN) / * fh_r_ctl - Routing control definitions. / / * FC-4 device_data. / enum fc_rctl { FC_RCTL_DD_UNCAT = 0x00, / uncategorized information / FC_RCTL_DD_SOL_DATA = 0x01, / solicited data / FC_RCTL_DD_UNSOL_CTL = 0x02, / unsolicited control / FC_RCTL_DD_SOL_CTL = 0x03, / solicited control or reply / FC_RCTL_DD_UNSOL_DATA = 0x04, / unsolicited data / FC_RCTL_DD_DATA_DESC = 0x05, / data descriptor / FC_RCTL_DD_UNSOL_CMD = 0x06, / unsolicited command / FC_RCTL_DD_CMD_STATUS = 0x07, / command status / #define FC_RCTL_ILS_REQ FC_RCTL_DD_UNSOL_CTL / ILS request / #define FC_RCTL_ILS_REP FC_RCTL_DD_SOL_CTL / ILS reply / / * Extended Link_Data / FC_RCTL_ELS_REQ = 0x22, / extended link services request / FC_RCTL_ELS_REP = 0x23, / extended link services reply / FC_RCTL_ELS4_REQ = 0x32, / FC-4 ELS request / FC_RCTL_ELS4_REP = 0x33, / FC-4 ELS reply / / * Optional Extended Headers / FC_RCTL_VFTH = 0x50, / virtual fabric tagging header / FC_RCTL_IFRH = 0x51, / inter-fabric routing header / FC_RCTL_ENCH = 0x52, / encapsulation header / / * Basic Link Services fh_r_ctl values. / FC_RCTL_BA_NOP = 0x80, / basic link service NOP / FC_RCTL_BA_ABTS = 0x81, / basic link service abort / FC_RCTL_BA_RMC = 0x82, / remove connection / FC_RCTL_BA_ACC = 0x84, / basic accept / FC_RCTL_BA_RJT = 0x85, / basic reject / FC_RCTL_BA_PRMT = 0x86, / dedicated connection preempted / / * Link Control Information. / FC_RCTL_ACK_1 = 0xc0, / acknowledge_1 / FC_RCTL_ACK_0 = 0xc1, / acknowledge_0 / FC_RCTL_P_RJT = 0xc2, / port reject / FC_RCTL_F_RJT = 0xc3, / fabric reject / FC_RCTL_P_BSY = 0xc4, / port busy / FC_RCTL_F_BSY = 0xc5, / fabric busy to data frame / FC_RCTL_F_BSYL = 0xc6, / fabric busy to link control frame / FC_RCTL_LCR = 0xc7, / link credit reset / FC_RCTL_END = 0xc9, / end / }; / incomplete list of definitions / / * R_CTL names initializer. * Please keep this matching the above definitions. / #define FC_RCTL_NAMES_INIT { \ [FC_RCTL_DD_UNCAT] = "uncat", \ [FC_RCTL_DD_SOL_DATA] = "sol data", \ [FC_RCTL_DD_UNSOL_CTL] = "unsol ctl", \ [FC_RCTL_DD_SOL_CTL] = "sol ctl/reply", \ [FC_RCTL_DD_UNSOL_DATA] = "unsol data", \ [FC_RCTL_DD_DATA_DESC] = "data desc", \ [FC_RCTL_DD_UNSOL_CMD] = "unsol cmd", \ [FC_RCTL_DD_CMD_STATUS] = "cmd status", \ [FC_RCTL_ELS_REQ] = "ELS req", \ [FC_RCTL_ELS_REP] = "ELS rep", \ [FC_RCTL_ELS4_REQ] = "FC-4 ELS req", \ [FC_RCTL_ELS4_REP] = "FC-4 ELS rep", \ [FC_RCTL_BA_NOP] = "BLS NOP", \ [FC_RCTL_BA_ABTS] = "BLS abort", \ [FC_RCTL_BA_RMC] = "BLS remove connection", \ [FC_RCTL_BA_ACC] = "BLS accept", \ [FC_RCTL_BA_RJT] = "BLS reject", \ [FC_RCTL_BA_PRMT] = "BLS dedicated connection preempted", \ [FC_RCTL_ACK_1] = "LC ACK_1", \ [FC_RCTL_ACK_0] = "LC ACK_0", \ [FC_RCTL_P_RJT] = "LC port reject", \ [FC_RCTL_F_RJT] = "LC fabric reject", \ [FC_RCTL_P_BSY] = "LC port busy", \ [FC_RCTL_F_BSY] = "LC fabric busy to data frame", \ [FC_RCTL_F_BSYL] = "LC fabric busy to link control frame",\ [FC_RCTL_LCR] = "LC link credit reset", \ [FC_RCTL_END] = "LC end", \ } / * Well-known fabric addresses. / enum fc_well_known_fid { FC_FID_NONE = 0x000000, / No destination / FC_FID_BCAST = 0xffffff, / broadcast / FC_FID_FLOGI = 0xfffffe, / fabric login / FC_FID_FCTRL = 0xfffffd, / fabric controller / FC_FID_DIR_SERV = 0xfffffc, / directory server / FC_FID_TIME_SERV = 0xfffffb, / time server / FC_FID_MGMT_SERV = 0xfffffa, / management server / FC_FID_QOS = 0xfffff9, / QoS Facilitator / FC_FID_ALIASES = 0xfffff8, / alias server (FC-PH2) / FC_FID_SEC_KEY = 0xfffff7, / Security key dist. server / FC_FID_CLOCK = 0xfffff6, / clock synch server / FC_FID_MCAST_SERV = 0xfffff5, / multicast server / }; #define FC_FID_WELL_KNOWN_MAX 0xffffff / highest well-known fabric ID / #define FC_FID_WELL_KNOWN_BASE 0xfffff5 / start of well-known fabric ID / / * Other well-known addresses, outside the above contiguous range. / #define FC_FID_DOM_MGR 0xfffc00 / domain manager base / / * Fabric ID bytes. / #define FC_FID_DOMAIN 0 #define FC_FID_PORT 1 #define FC_FID_LINK 2 / * fh_type codes / enum fc_fh_type { FC_TYPE_BLS = 0x00, / basic link service / FC_TYPE_ELS = 0x01, / extended link service / FC_TYPE_IP = 0x05, / IP over FC, RFC 4338 / FC_TYPE_FCP = 0x08, / SCSI FCP / FC_TYPE_CT = 0x20, / Fibre Channel Services (FC-CT) / FC_TYPE_ILS = 0x22, / internal link service / FC_TYPE_NVME = 0x28, / FC-NVME / }; / * FC_TYPE names initializer. * Please keep this matching the above definitions. / #define FC_TYPE_NAMES_INIT { \ [FC_TYPE_BLS] = "BLS", \ [FC_TYPE_ELS] = "ELS", \ [FC_TYPE_IP] = "IP", \ [FC_TYPE_FCP] = "FCP", \ [FC_TYPE_CT] = "CT", \ [FC_TYPE_ILS] = "ILS", \ [FC_TYPE_NVME] = "NVME", \ } / * Exchange IDs. / #define FC_XID_UNKNOWN 0xffff / unknown exchange ID / #define FC_XID_MIN 0x0 / supported min exchange ID / #define FC_XID_MAX 0xfffe / supported max exchange ID / / * fh_f_ctl - Frame control flags. / #define FC_FC_EX_CTX (1 << 23) / sent by responder to exchange / #define FC_FC_SEQ_CTX (1 << 22) / sent by responder to sequence / #define FC_FC_FIRST_SEQ (1 << 21) / first sequence of this exchange / #define FC_FC_LAST_SEQ (1 << 20) / last sequence of this exchange / #define FC_FC_END_SEQ (1 << 19) / last frame of sequence / #define FC_FC_END_CONN (1 << 18) / end of class 1 connection pending / #define FC_FC_RES_B17 (1 << 17) / reserved / #define FC_FC_SEQ_INIT (1 << 16) / transfer of sequence initiative / #define FC_FC_X_ID_REASS (1 << 15) / exchange ID has been changed / #define FC_FC_X_ID_INVAL (1 << 14) / exchange ID invalidated / #define FC_FC_ACK_1 (1 << 12) / 13:12 = 1: ACK_1 expected / #define FC_FC_ACK_N (2 << 12) / 13:12 = 2: ACK_N expected / #define FC_FC_ACK_0 (3 << 12) / 13:12 = 3: ACK_0 expected / #define FC_FC_RES_B11 (1 << 11) / reserved / #define FC_FC_RES_B10 (1 << 10) / reserved / #define FC_FC_RETX_SEQ (1 << 9) / retransmitted sequence / #define FC_FC_UNI_TX (1 << 8) / unidirectional transmit (class 1) / #define FC_FC_CONT_SEQ(i) ((i) << 6) #define FC_FC_ABT_SEQ(i) ((i) << 4) #define FC_FC_REL_OFF (1 << 3) / parameter is relative offset / #define FC_FC_RES2 (1 << 2) / reserved / #define FC_FC_FILL(i) ((i) & 3) / 1:0: bytes of trailing fill / / * BA_ACC payload. / struct fc_ba_acc { __u8 ba_seq_id_val; / SEQ_ID validity / #define FC_BA_SEQ_ID_VAL 0x80 __u8 ba_seq_id; / SEQ_ID of seq last deliverable / __u8 ba_resvd[2]; / reserved / __be16 ba_ox_id; / OX_ID for aborted seq or exch / __be16 ba_rx_id; / RX_ID for aborted seq or exch / __be16 ba_low_seq_cnt; / low SEQ_CNT of aborted seq / __be16 ba_high_seq_cnt; / high SEQ_CNT of aborted seq / }; / * BA_RJT: Basic Reject payload. / struct fc_ba_rjt { __u8 br_resvd; / reserved / __u8 br_reason; / reason code / __u8 br_explan; / reason explanation / __u8 br_vendor; / vendor unique code / }; / * BA_RJT reason codes. * From FS-2. / enum fc_ba_rjt_reason { FC_BA_RJT_NONE = 0, / in software this means no reject / FC_BA_RJT_INVL_CMD = 0x01, / invalid command code / FC_BA_RJT_LOG_ERR = 0x03, / logical error / FC_BA_RJT_LOG_BUSY = 0x05, / logical busy / FC_BA_RJT_PROTO_ERR = 0x07, / protocol error / FC_BA_RJT_UNABLE = 0x09, / unable to perform request / FC_BA_RJT_VENDOR = 0xff, / vendor-specific (see br_vendor) / }; / * BA_RJT reason code explanations. / enum fc_ba_rjt_explan { FC_BA_RJT_EXP_NONE = 0x00, / no additional expanation / FC_BA_RJT_INV_XID = 0x03, / invalid OX_ID-RX_ID combination / FC_BA_RJT_ABT = 0x05, / sequence aborted, no seq info / }; / * P_RJT or F_RJT: Port Reject or Fabric Reject parameter field. / struct fc_pf_rjt { __u8 rj_action; / reserved / __u8 rj_reason; / reason code / __u8 rj_resvd; / reserved / __u8 rj_vendor; / vendor unique code / }; / * P_RJT and F_RJT reject reason codes. / enum fc_pf_rjt_reason { FC_RJT_NONE = 0, / non-reject (reserved by standard) / FC_RJT_INVL_DID = 0x01, / invalid destination ID / FC_RJT_INVL_SID = 0x02, / invalid source ID / FC_RJT_P_UNAV_T = 0x03, / port unavailable, temporary / FC_RJT_P_UNAV = 0x04, / port unavailable, permanent / FC_RJT_CLS_UNSUP = 0x05, / class not supported / FC_RJT_DEL_USAGE = 0x06, / delimiter usage error / FC_RJT_TYPE_UNSUP = 0x07, / type not supported / FC_RJT_LINK_CTL = 0x08, / invalid link control / FC_RJT_R_CTL = 0x09, / invalid R_CTL field / FC_RJT_F_CTL = 0x0a, / invalid F_CTL field / FC_RJT_OX_ID = 0x0b, / invalid originator exchange ID / FC_RJT_RX_ID = 0x0c, / invalid responder exchange ID / FC_RJT_SEQ_ID = 0x0d, / invalid sequence ID / FC_RJT_DF_CTL = 0x0e, / invalid DF_CTL field / FC_RJT_SEQ_CNT = 0x0f, / invalid SEQ_CNT field / FC_RJT_PARAM = 0x10, / invalid parameter field / FC_RJT_EXCH_ERR = 0x11, / exchange error / FC_RJT_PROTO = 0x12, / protocol error / FC_RJT_LEN = 0x13, / incorrect length / FC_RJT_UNEXP_ACK = 0x14, / unexpected ACK / FC_RJT_FAB_CLASS = 0x15, / class unsupported by fabric entity / FC_RJT_LOGI_REQ = 0x16, / login required / FC_RJT_SEQ_XS = 0x17, / excessive sequences attempted / FC_RJT_EXCH_EST = 0x18, / unable to establish exchange / FC_RJT_FAB_UNAV = 0x1a, / fabric unavailable / FC_RJT_VC_ID = 0x1b, / invalid VC_ID (class 4) / FC_RJT_CS_CTL = 0x1c, / invalid CS_CTL field / FC_RJT_INSUF_RES = 0x1d, / insuff. resources for VC (Class 4) / FC_RJT_INVL_CLS = 0x1f, / invalid class of service / FC_RJT_PREEMT_RJT = 0x20, / preemption request rejected / FC_RJT_PREEMT_DIS = 0x21, / preemption not enabled / FC_RJT_MCAST_ERR = 0x22, / multicast error / FC_RJT_MCAST_ET = 0x23, / multicast error terminate / FC_RJT_PRLI_REQ = 0x24, / process login required / FC_RJT_INVL_ATT = 0x25, / invalid attachment / FC_RJT_VENDOR = 0xff, / vendor specific reject / }; / default timeout values / #define FC_DEF_E_D_TOV 2000UL #define FC_DEF_R_A_TOV 10000UL #endif / _FC_FS_H_ / PK��6�[@3�� fc/fc_ns.hnu��[��/ SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note / / * Copyright(c) 2007 Intel Corporation. All rights reserved. * * Maintained at www.Open-FCoE.org / #ifndef _FC_NS_H_ #define _FC_NS_H_ #include <linux/types.h> / * Fibre Channel Services - Name Service (dNS) * From T11.org FC-GS-2 Rev 5.3 November 1998. / / * Common-transport sub-type for Name Server. / #define FC_NS_SUBTYPE 2 / fs_ct_hdr.ct_fs_subtype / / * Name server Requests. * Note: this is an incomplete list, some unused requests are omitted. / enum fc_ns_req { FC_NS_GA_NXT = 0x0100, / get all next / FC_NS_GI_A = 0x0101, / get identifiers - scope / FC_NS_GPN_ID = 0x0112, / get port name by ID / FC_NS_GNN_ID = 0x0113, / get node name by ID / FC_NS_GSPN_ID = 0x0118, / get symbolic port name / FC_NS_GID_PN = 0x0121, / get ID for port name / FC_NS_GID_NN = 0x0131, / get IDs for node name / FC_NS_GID_FT = 0x0171, / get IDs by FC4 type / FC_NS_GPN_FT = 0x0172, / get port names by FC4 type / FC_NS_GID_PT = 0x01a1, / get IDs by port type / FC_NS_RPN_ID = 0x0212, / reg port name for ID / FC_NS_RNN_ID = 0x0213, / reg node name for ID / FC_NS_RFT_ID = 0x0217, / reg FC4 type for ID / FC_NS_RSPN_ID = 0x0218, / reg symbolic port name / FC_NS_RFF_ID = 0x021f, / reg FC4 Features for ID / FC_NS_RSNN_NN = 0x0239, / reg symbolic node name / }; / * Port type values. / enum fc_ns_pt { FC_NS_UNID_PORT = 0x00, / unidentified / FC_NS_N_PORT = 0x01, / N port / FC_NS_NL_PORT = 0x02, / NL port / FC_NS_FNL_PORT = 0x03, / F/NL port / FC_NS_NX_PORT = 0x7f, / Nx port / FC_NS_F_PORT = 0x81, / F port / FC_NS_FL_PORT = 0x82, / FL port / FC_NS_E_PORT = 0x84, / E port / FC_NS_B_PORT = 0x85, / B port / }; / * Port type object. / struct fc_ns_pt_obj { __u8 pt_type; }; / * Port ID object / struct fc_ns_fid { __u8 fp_flags; / flags for responses only / __u8 fp_fid[3]; }; / * fp_flags in port ID object, for responses only. / #define FC_NS_FID_LAST 0x80 / last object / / * FC4-types object. / #define FC_NS_TYPES 256 / number of possible FC-4 types / #define FC_NS_BPW 32 / bits per word in bitmap / struct fc_ns_fts { __be32 ff_type_map[FC_NS_TYPES / FC_NS_BPW]; / bitmap of FC-4 types / }; / * FC4-features object. / struct fc_ns_ff { __be32 fd_feat[FC_NS_TYPES 4 / FC_NS_BPW]; /* 4-bits per FC-type / }; / * GID_PT request. / struct fc_ns_gid_pt { __u8 fn_pt_type; __u8 fn_domain_id_scope; __u8 fn_area_id_scope; __u8 fn_resvd; }; / * GID_FT or GPN_FT request. / struct fc_ns_gid_ft { __u8 fn_resvd; __u8 fn_domain_id_scope; __u8 fn_area_id_scope; __u8 fn_fc4_type; }; / * GPN_FT response. / struct fc_gpn_ft_resp { __u8 fp_flags; / see fp_flags definitions above / __u8 fp_fid[3]; / port ID / __be32 fp_resvd; __be64 fp_wwpn; / port name / }; / * GID_PN request / struct fc_ns_gid_pn { __be64 fn_wwpn; / port name / }; / * GID_PN response or GSPN_ID request / struct fc_gid_pn_resp { __u8 fp_resvd; __u8 fp_fid[3]; / port ID / }; / * GSPN_ID response / struct fc_gspn_resp { __u8 fp_name_len; char fp_name[]; }; / * RFT_ID request - register FC-4 types for ID. / struct fc_ns_rft_id { struct fc_ns_fid fr_fid; / port ID object / struct fc_ns_fts fr_fts; / FC-4 types object / }; / * RPN_ID request - register port name for ID. * RNN_ID request - register node name for ID. / struct fc_ns_rn_id { struct fc_ns_fid fr_fid; / port ID object / __be64 fr_wwn; / node name or port name / } __attribute__((__packed__)); / * RSNN_NN request - register symbolic node name / struct fc_ns_rsnn { __be64 fr_wwn; / node name / __u8 fr_name_len; char fr_name[]; } __attribute__((__packed__)); / * RSPN_ID request - register symbolic port name / struct fc_ns_rspn { struct fc_ns_fid fr_fid; / port ID object / __u8 fr_name_len; char fr_name[]; } __attribute__((__packed__)); / * RFF_ID request - register FC-4 Features for ID. / struct fc_ns_rff_id { struct fc_ns_fid fr_fid; / port ID object / __u8 fr_resvd[2]; __u8 fr_feat; / FC-4 Feature bits / __u8 fr_type; / FC-4 type / } __attribute__((__packed__)); #endif / _FC_NS_H_ / PK��6�[\��fc/fc_els.hnu��[��/ SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note / / * Copyright(c) 2007 Intel Corporation. All rights reserved. * * Maintained at www.Open-FCoE.org / #ifndef _FC_ELS_H_ #define _FC_ELS_H_ #include <linux/types.h> #include <asm/byteorder.h> / * Fibre Channel Switch - Enhanced Link Services definitions. * From T11 FC-LS Rev 1.2 June 7, 2005. / / * ELS Command codes - byte 0 of the frame payload / enum fc_els_cmd { ELS_LS_RJT = 0x01, / ESL reject / ELS_LS_ACC = 0x02, / ESL Accept / ELS_PLOGI = 0x03, / N_Port login / ELS_FLOGI = 0x04, / F_Port login / ELS_LOGO = 0x05, / Logout / ELS_ABTX = 0x06, / Abort exchange - obsolete / ELS_RCS = 0x07, / read connection status / ELS_RES = 0x08, / read exchange status block / ELS_RSS = 0x09, / read sequence status block / ELS_RSI = 0x0a, / read sequence initiative / ELS_ESTS = 0x0b, / establish streaming / ELS_ESTC = 0x0c, / estimate credit / ELS_ADVC = 0x0d, / advise credit / ELS_RTV = 0x0e, / read timeout value / ELS_RLS = 0x0f, / read link error status block / ELS_ECHO = 0x10, / echo / ELS_TEST = 0x11, / test / ELS_RRQ = 0x12, / reinstate recovery qualifier / ELS_REC = 0x13, / read exchange concise / ELS_SRR = 0x14, / sequence retransmission request / ELS_FPIN = 0x16, / Fabric Performance Impact Notification / ELS_EDC = 0x17, / Exchange Diagnostic Capabilities / ELS_RDP = 0x18, / Read Diagnostic Parameters / ELS_RDF = 0x19, / Register Diagnostic Functions / ELS_PRLI = 0x20, / process login / ELS_PRLO = 0x21, / process logout / ELS_SCN = 0x22, / state change notification / ELS_TPLS = 0x23, / test process login state / ELS_TPRLO = 0x24, / third party process logout / ELS_LCLM = 0x25, / login control list mgmt (obs) / ELS_GAID = 0x30, / get alias_ID / ELS_FACT = 0x31, / fabric activate alias_id / ELS_FDACDT = 0x32, / fabric deactivate alias_id / ELS_NACT = 0x33, / N-port activate alias_id / ELS_NDACT = 0x34, / N-port deactivate alias_id / ELS_QOSR = 0x40, / quality of service request / ELS_RVCS = 0x41, / read virtual circuit status / ELS_PDISC = 0x50, / discover N_port service params / ELS_FDISC = 0x51, / discover F_port service params / ELS_ADISC = 0x52, / discover address / ELS_RNC = 0x53, / report node cap (obs) / ELS_FARP_REQ = 0x54, / FC ARP request / ELS_FARP_REPL = 0x55, / FC ARP reply / ELS_RPS = 0x56, / read port status block / ELS_RPL = 0x57, / read port list / ELS_RPBC = 0x58, / read port buffer condition / ELS_FAN = 0x60, / fabric address notification / ELS_RSCN = 0x61, / registered state change notification / ELS_SCR = 0x62, / state change registration / ELS_RNFT = 0x63, / report node FC-4 types / ELS_CSR = 0x68, / clock synch. request / ELS_CSU = 0x69, / clock synch. update / ELS_LINIT = 0x70, / loop initialize / ELS_LSTS = 0x72, / loop status / ELS_RNID = 0x78, / request node ID data / ELS_RLIR = 0x79, / registered link incident report / ELS_LIRR = 0x7a, / link incident record registration / ELS_SRL = 0x7b, / scan remote loop / ELS_SBRP = 0x7c, / set bit-error reporting params / ELS_RPSC = 0x7d, / report speed capabilities / ELS_QSA = 0x7e, / query security attributes / ELS_EVFP = 0x7f, / exchange virt. fabrics params / ELS_LKA = 0x80, / link keep-alive / ELS_AUTH_ELS = 0x90, / authentication ELS / }; / * Initializer useful for decoding table. * Please keep this in sync with the above definitions. / #define FC_ELS_CMDS_INIT { \ [ELS_LS_RJT] = "LS_RJT", \ [ELS_LS_ACC] = "LS_ACC", \ [ELS_PLOGI] = "PLOGI", \ [ELS_FLOGI] = "FLOGI", \ [ELS_LOGO] = "LOGO", \ [ELS_ABTX] = "ABTX", \ [ELS_RCS] = "RCS", \ [ELS_RES] = "RES", \ [ELS_RSS] = "RSS", \ [ELS_RSI] = "RSI", \ [ELS_ESTS] = "ESTS", \ [ELS_ESTC] = "ESTC", \ [ELS_ADVC] = "ADVC", \ [ELS_RTV] = "RTV", \ [ELS_RLS] = "RLS", \ [ELS_ECHO] = "ECHO", \ [ELS_TEST] = "TEST", \ [ELS_RRQ] = "RRQ", \ [ELS_REC] = "REC", \ [ELS_SRR] = "SRR", \ [ELS_FPIN] = "FPIN", \ [ELS_EDC] = "EDC", \ [ELS_RDP] = "RDP", \ [ELS_RDF] = "RDF", \ [ELS_PRLI] = "PRLI", \ [ELS_PRLO] = "PRLO", \ [ELS_SCN] = "SCN", \ [ELS_TPLS] = "TPLS", \ [ELS_TPRLO] = "TPRLO", \ [ELS_LCLM] = "LCLM", \ [ELS_GAID] = "GAID", \ [ELS_FACT] = "FACT", \ [ELS_FDACDT] = "FDACDT", \ [ELS_NACT] = "NACT", \ [ELS_NDACT] = "NDACT", \ [ELS_QOSR] = "QOSR", \ [ELS_RVCS] = "RVCS", \ [ELS_PDISC] = "PDISC", \ [ELS_FDISC] = "FDISC", \ [ELS_ADISC] = "ADISC", \ [ELS_RNC] = "RNC", \ [ELS_FARP_REQ] = "FARP_REQ", \ [ELS_FARP_REPL] = "FARP_REPL", \ [ELS_RPS] = "RPS", \ [ELS_RPL] = "RPL", \ [ELS_RPBC] = "RPBC", \ [ELS_FAN] = "FAN", \ [ELS_RSCN] = "RSCN", \ [ELS_SCR] = "SCR", \ [ELS_RNFT] = "RNFT", \ [ELS_CSR] = "CSR", \ [ELS_CSU] = "CSU", \ [ELS_LINIT] = "LINIT", \ [ELS_LSTS] = "LSTS", \ [ELS_RNID] = "RNID", \ [ELS_RLIR] = "RLIR", \ [ELS_LIRR] = "LIRR", \ [ELS_SRL] = "SRL", \ [ELS_SBRP] = "SBRP", \ [ELS_RPSC] = "RPSC", \ [ELS_QSA] = "QSA", \ [ELS_EVFP] = "EVFP", \ [ELS_LKA] = "LKA", \ [ELS_AUTH_ELS] = "AUTH_ELS", \ } / * LS_ACC payload. / struct fc_els_ls_acc { __u8 la_cmd; / command code ELS_LS_ACC / __u8 la_resv[3]; / reserved / }; / * ELS reject payload. / struct fc_els_ls_rjt { __u8 er_cmd; / command code ELS_LS_RJT / __u8 er_resv[4]; / reserved must be zero / __u8 er_reason; / reason (enum fc_els_rjt_reason below) / __u8 er_explan; / explanation (enum fc_els_rjt_explan below) / __u8 er_vendor; / vendor specific code / }; / * ELS reject reason codes (er_reason). / enum fc_els_rjt_reason { ELS_RJT_NONE = 0, / no reject - not to be sent / ELS_RJT_INVAL = 0x01, / invalid ELS command code / ELS_RJT_LOGIC = 0x03, / logical error / ELS_RJT_BUSY = 0x05, / logical busy / ELS_RJT_PROT = 0x07, / protocol error / ELS_RJT_UNAB = 0x09, / unable to perform command request / ELS_RJT_UNSUP = 0x0b, / command not supported / ELS_RJT_INPROG = 0x0e, / command already in progress / ELS_RJT_FIP = 0x20, / FIP error / ELS_RJT_VENDOR = 0xff, / vendor specific error / }; / * reason code explanation (er_explan). / enum fc_els_rjt_explan { ELS_EXPL_NONE = 0x00, / No additional explanation / ELS_EXPL_SPP_OPT_ERR = 0x01, / service parameter error - options / ELS_EXPL_SPP_ICTL_ERR = 0x03, / service parm error - initiator ctl / ELS_EXPL_AH = 0x11, / invalid association header / ELS_EXPL_AH_REQ = 0x13, / association_header required / ELS_EXPL_SID = 0x15, / invalid originator S_ID / ELS_EXPL_OXID_RXID = 0x17, / invalid OX_ID-RX_ID combination / ELS_EXPL_INPROG = 0x19, / Request already in progress / ELS_EXPL_PLOGI_REQD = 0x1e, / N_Port login required / ELS_EXPL_INSUF_RES = 0x29, / insufficient resources / ELS_EXPL_UNAB_DATA = 0x2a, / unable to supply requested data / ELS_EXPL_UNSUPR = 0x2c, / Request not supported / ELS_EXPL_INV_LEN = 0x2d, / Invalid payload length / ELS_EXPL_NOT_NEIGHBOR = 0x62, / VN2VN_Port not in neighbor set / / TBD - above definitions incomplete / }; / * Link Service TLV Descriptor Tag Values / enum fc_ls_tlv_dtag { ELS_DTAG_LS_REQ_INFO = 0x00000001, / Link Service Request Information Descriptor / ELS_DTAG_LNK_FAULT_CAP = 0x0001000D, / Link Fault Capability Descriptor / ELS_DTAG_CG_SIGNAL_CAP = 0x0001000F, / Congestion Signaling Capability Descriptor / ELS_DTAG_LNK_INTEGRITY = 0x00020001, / Link Integrity Notification Descriptor / ELS_DTAG_DELIVERY = 0x00020002, / Delivery Notification Descriptor / ELS_DTAG_PEER_CONGEST = 0x00020003, / Peer Congestion Notification Descriptor / ELS_DTAG_CONGESTION = 0x00020004, / Congestion Notification Descriptor / ELS_DTAG_FPIN_REGISTER = 0x00030001, / FPIN Registration Descriptor / }; / * Initializer useful for decoding table. * Please keep this in sync with the above definitions. / #define FC_LS_TLV_DTAG_INIT { \ { ELS_DTAG_LS_REQ_INFO, "Link Service Request Information" }, \ { ELS_DTAG_LNK_FAULT_CAP, "Link Fault Capability" }, \ { ELS_DTAG_CG_SIGNAL_CAP, "Congestion Signaling Capability" }, \ { ELS_DTAG_LNK_INTEGRITY, "Link Integrity Notification" }, \ { ELS_DTAG_DELIVERY, "Delivery Notification Present" }, \ { ELS_DTAG_PEER_CONGEST, "Peer Congestion Notification" }, \ { ELS_DTAG_CONGESTION, "Congestion Notification" }, \ { ELS_DTAG_FPIN_REGISTER, "FPIN Registration" }, \ } / * Generic Link Service TLV Descriptor format * * This structure, as it defines no payload, will also be referred to * as the "tlv header" - which contains the tag and len fields. / struct fc_tlv_desc { __be32 desc_tag; / Notification Descriptor Tag / __be32 desc_len; / Length of Descriptor (in bytes). * Size of descriptor excluding * desc_tag and desc_len fields. / __u8 desc_value[0]; / Descriptor Value / }; / Descriptor tag and len fields are considered the mandatory header * for a descriptor / #define FC_TLV_DESC_HDR_SZ sizeof(struct fc_tlv_desc) / * Macro, used when initializing payloads, to return the descriptor length. * Length is size of descriptor minus the tag and len fields. / #define FC_TLV_DESC_LENGTH_FROM_SZ(desc) \ (sizeof(desc) - FC_TLV_DESC_HDR_SZ) / Macro, used on received payloads, to return the descriptor length / #define FC_TLV_DESC_SZ_FROM_LENGTH(tlv) \ (__be32_to_cpu((tlv)->desc_len) + FC_TLV_DESC_HDR_SZ) / * This helper is used to walk descriptors in a descriptor list. * Given the address of the current descriptor, which minimally contains a * tag and len field, calculate the address of the next descriptor based * on the len field. / static __inline__ void fc_tlv_next_desc(void desc) { struct fc_tlv_desc tlv = desc; return (desc + FC_TLV_DESC_SZ_FROM_LENGTH(tlv)); } /* * Link Service Request Information Descriptor / struct fc_els_lsri_desc { __be32 desc_tag; / descriptor tag (0x0000 0001) / __be32 desc_len; / Length of Descriptor (in bytes) (4). * Size of descriptor excluding * desc_tag and desc_len fields. / struct { __u8 cmd; / ELS cmd byte / __u8 bytes[3]; / bytes 1..3 / } rqst_w0; / Request word 0 / }; / * Common service parameters (N ports). / struct fc_els_csp { __u8 sp_hi_ver; / highest version supported (obs.) / __u8 sp_lo_ver; / highest version supported (obs.) / __be16 sp_bb_cred; / buffer-to-buffer credits / __be16 sp_features; / common feature flags / __be16 sp_bb_data; / b-b state number and data field sz / union { struct { __be16 _sp_tot_seq; / total concurrent sequences / __be16 _sp_rel_off; / rel. offset by info cat / } sp_plogi; struct { __be32 _sp_r_a_tov; / resource alloc. timeout msec / } sp_flogi_acc; } sp_u; __be32 sp_e_d_tov; / error detect timeout value / }; #define sp_tot_seq sp_u.sp_plogi._sp_tot_seq #define sp_rel_off sp_u.sp_plogi._sp_rel_off #define sp_r_a_tov sp_u.sp_flogi_acc._sp_r_a_tov #define FC_SP_BB_DATA_MASK 0xfff / mask for data field size in sp_bb_data / / * Minimum and maximum values for max data field size in service parameters. / #define FC_SP_MIN_MAX_PAYLOAD FC_MIN_MAX_PAYLOAD #define FC_SP_MAX_MAX_PAYLOAD FC_MAX_PAYLOAD / * sp_features / #define FC_SP_FT_NPIV 0x8000 / multiple N_Port_ID support (FLOGI) / #define FC_SP_FT_CIRO 0x8000 / continuously increasing rel off (PLOGI) / #define FC_SP_FT_CLAD 0x8000 / clean address (in FLOGI LS_ACC) / #define FC_SP_FT_RAND 0x4000 / random relative offset / #define FC_SP_FT_VAL 0x2000 / valid vendor version level / #define FC_SP_FT_NPIV_ACC 0x2000 / NPIV assignment (FLOGI LS_ACC) / #define FC_SP_FT_FPORT 0x1000 / F port (1) vs. N port (0) / #define FC_SP_FT_ABB 0x0800 / alternate BB_credit management / #define FC_SP_FT_EDTR 0x0400 / E_D_TOV Resolution is nanoseconds / #define FC_SP_FT_MCAST 0x0200 / multicast / #define FC_SP_FT_BCAST 0x0100 / broadcast / #define FC_SP_FT_HUNT 0x0080 / hunt group / #define FC_SP_FT_SIMP 0x0040 / dedicated simplex / #define FC_SP_FT_SEC 0x0020 / reserved for security / #define FC_SP_FT_CSYN 0x0010 / clock synch. supported / #define FC_SP_FT_RTTOV 0x0008 / R_T_TOV value 100 uS, else 100 mS / #define FC_SP_FT_HALF 0x0004 / dynamic half duplex / #define FC_SP_FT_SEQC 0x0002 / SEQ_CNT / #define FC_SP_FT_PAYL 0x0001 / FLOGI payload length 256, else 116 / / * Class-specific service parameters. / struct fc_els_cssp { __be16 cp_class; / class flags / __be16 cp_init; / initiator flags / __be16 cp_recip; / recipient flags / __be16 cp_rdfs; / receive data field size / __be16 cp_con_seq; / concurrent sequences / __be16 cp_ee_cred; / N-port end-to-end credit / __u8 cp_resv1; / reserved / __u8 cp_open_seq; / open sequences per exchange / __u8 _cp_resv2[2]; / reserved / }; / * cp_class flags. / #define FC_CPC_VALID 0x8000 / class valid / #define FC_CPC_IMIX 0x4000 / intermix mode / #define FC_CPC_SEQ 0x0800 / sequential delivery / #define FC_CPC_CAMP 0x0200 / camp-on / #define FC_CPC_PRI 0x0080 / priority / / * cp_init flags. * (TBD: not all flags defined here). / #define FC_CPI_CSYN 0x0010 / clock synch. capable / / * cp_recip flags. / #define FC_CPR_CSYN 0x0008 / clock synch. capable / / * NFC_ELS_FLOGI: Fabric login request. * NFC_ELS_PLOGI: Port login request (same format). / struct fc_els_flogi { __u8 fl_cmd; / command / __u8 _fl_resvd[3]; / must be zero / struct fc_els_csp fl_csp; / common service parameters / __be64 fl_wwpn; / port name / __be64 fl_wwnn; / node name / struct fc_els_cssp fl_cssp[4]; / class 1-4 service parameters / __u8 fl_vend[16]; / vendor version level / } __attribute__((__packed__)); / * Process login service parameter page. / struct fc_els_spp { __u8 spp_type; / type code or common service params / __u8 spp_type_ext; / type code extension / __u8 spp_flags; __u8 _spp_resvd; __be32 spp_orig_pa; / originator process associator / __be32 spp_resp_pa; / responder process associator / __be32 spp_params; / service parameters / }; / * spp_flags. / #define FC_SPP_OPA_VAL 0x80 / originator proc. assoc. valid / #define FC_SPP_RPA_VAL 0x40 / responder proc. assoc. valid / #define FC_SPP_EST_IMG_PAIR 0x20 / establish image pair / #define FC_SPP_RESP_MASK 0x0f / mask for response code (below) / / * SPP response code in spp_flags - lower 4 bits. / enum fc_els_spp_resp { FC_SPP_RESP_ACK = 1, / request executed / FC_SPP_RESP_RES = 2, / unable due to lack of resources / FC_SPP_RESP_INIT = 3, / initialization not complete / FC_SPP_RESP_NO_PA = 4, / unknown process associator / FC_SPP_RESP_CONF = 5, / configuration precludes image pair / FC_SPP_RESP_COND = 6, / request completed conditionally / FC_SPP_RESP_MULT = 7, / unable to handle multiple SPPs / FC_SPP_RESP_INVL = 8, / SPP is invalid / }; / * ELS_RRQ - Reinstate Recovery Qualifier / struct fc_els_rrq { __u8 rrq_cmd; / command (0x12) / __u8 rrq_zero[3]; / specified as zero - part of cmd / __u8 rrq_resvd; / reserved / __u8 rrq_s_id[3]; / originator FID / __be16 rrq_ox_id; / originator exchange ID / __be16 rrq_rx_id; / responders exchange ID / }; / * ELS_REC - Read exchange concise. / struct fc_els_rec { __u8 rec_cmd; / command (0x13) / __u8 rec_zero[3]; / specified as zero - part of cmd / __u8 rec_resvd; / reserved / __u8 rec_s_id[3]; / originator FID / __be16 rec_ox_id; / originator exchange ID / __be16 rec_rx_id; / responders exchange ID / }; / * ELS_REC LS_ACC payload. / struct fc_els_rec_acc { __u8 reca_cmd; / accept (0x02) / __u8 reca_zero[3]; / specified as zero - part of cmd / __be16 reca_ox_id; / originator exchange ID / __be16 reca_rx_id; / responders exchange ID / __u8 reca_resvd1; / reserved / __u8 reca_ofid[3]; / originator FID / __u8 reca_resvd2; / reserved / __u8 reca_rfid[3]; / responder FID / __be32 reca_fc4value; / FC4 value / __be32 reca_e_stat; / ESB (exchange status block) status / }; / * ELS_PRLI - Process login request and response. / struct fc_els_prli { __u8 prli_cmd; / command / __u8 prli_spp_len; / length of each serv. parm. page / __be16 prli_len; / length of entire payload / / service parameter pages follow / }; / * ELS_PRLO - Process logout request and response. / struct fc_els_prlo { __u8 prlo_cmd; / command / __u8 prlo_obs; / obsolete, but shall be set to 10h / __be16 prlo_len; / payload length / }; / * ELS_ADISC payload / struct fc_els_adisc { __u8 adisc_cmd; __u8 adisc_resv[3]; __u8 adisc_resv1; __u8 adisc_hard_addr[3]; __be64 adisc_wwpn; __be64 adisc_wwnn; __u8 adisc_resv2; __u8 adisc_port_id[3]; } __attribute__((__packed__)); / * ELS_LOGO - process or fabric logout. / struct fc_els_logo { __u8 fl_cmd; / command code / __u8 fl_zero[3]; / specified as zero - part of cmd / __u8 fl_resvd; / reserved / __u8 fl_n_port_id[3];/ N port ID / __be64 fl_n_port_wwn; / port name / }; / * ELS_RTV - read timeout value. / struct fc_els_rtv { __u8 rtv_cmd; / command code 0x0e / __u8 rtv_zero[3]; / specified as zero - part of cmd / }; / * LS_ACC for ELS_RTV - read timeout value. / struct fc_els_rtv_acc { __u8 rtv_cmd; / command code 0x02 / __u8 rtv_zero[3]; / specified as zero - part of cmd / __be32 rtv_r_a_tov; / resource allocation timeout value / __be32 rtv_e_d_tov; / error detection timeout value / __be32 rtv_toq; / timeout qualifier (see below) / }; / * rtv_toq bits. / #define FC_ELS_RTV_EDRES (1 << 26) / E_D_TOV resolution is nS else mS / #define FC_ELS_RTV_RTTOV (1 << 19) / R_T_TOV is 100 uS else 100 mS / / * ELS_SCR - state change registration payload. / struct fc_els_scr { __u8 scr_cmd; / command code / __u8 scr_resv[6]; / reserved / __u8 scr_reg_func; / registration function (see below) / }; enum fc_els_scr_func { ELS_SCRF_FAB = 1, / fabric-detected registration / ELS_SCRF_NPORT = 2, / Nx_Port-detected registration / ELS_SCRF_FULL = 3, / full registration / ELS_SCRF_CLEAR = 255, / remove any current registrations / }; / * ELS_RSCN - registered state change notification payload. / struct fc_els_rscn { __u8 rscn_cmd; / RSCN opcode (0x61) / __u8 rscn_page_len; / page length (4) / __be16 rscn_plen; / payload length including this word / / followed by 4-byte generic affected Port_ID pages / }; struct fc_els_rscn_page { __u8 rscn_page_flags; / event and address format / __u8 rscn_fid[3]; / fabric ID / }; #define ELS_RSCN_EV_QUAL_BIT 2 / shift count for event qualifier / #define ELS_RSCN_EV_QUAL_MASK 0xf / mask for event qualifier / #define ELS_RSCN_ADDR_FMT_BIT 0 / shift count for address format / #define ELS_RSCN_ADDR_FMT_MASK 0x3 / mask for address format / enum fc_els_rscn_ev_qual { ELS_EV_QUAL_NONE = 0, / unspecified / ELS_EV_QUAL_NS_OBJ = 1, / changed name server object / ELS_EV_QUAL_PORT_ATTR = 2, / changed port attribute / ELS_EV_QUAL_SERV_OBJ = 3, / changed service object / ELS_EV_QUAL_SW_CONFIG = 4, / changed switch configuration / ELS_EV_QUAL_REM_OBJ = 5, / removed object / }; enum fc_els_rscn_addr_fmt { ELS_ADDR_FMT_PORT = 0, / rscn_fid is a port address / ELS_ADDR_FMT_AREA = 1, / rscn_fid is a area address / ELS_ADDR_FMT_DOM = 2, / rscn_fid is a domain address / ELS_ADDR_FMT_FAB = 3, / anything on fabric may have changed / }; / * ELS_RNID - request Node ID. / struct fc_els_rnid { __u8 rnid_cmd; / RNID opcode (0x78) / __u8 rnid_resv[3]; / reserved / __u8 rnid_fmt; / data format / __u8 rnid_resv2[3]; / reserved / }; / * Node Identification Data formats (rnid_fmt) / enum fc_els_rnid_fmt { ELS_RNIDF_NONE = 0, / no specific identification data / ELS_RNIDF_GEN = 0xdf, / general topology discovery format / }; / * ELS_RNID response. / struct fc_els_rnid_resp { __u8 rnid_cmd; / response code (LS_ACC) / __u8 rnid_resv[3]; / reserved / __u8 rnid_fmt; / data format / __u8 rnid_cid_len; / common ID data length / __u8 rnid_resv2; / reserved / __u8 rnid_sid_len; / specific ID data length / }; struct fc_els_rnid_cid { __be64 rnid_wwpn; / N port name / __be64 rnid_wwnn; / node name / }; struct fc_els_rnid_gen { __u8 rnid_vend_id[16]; / vendor-unique ID / __be32 rnid_atype; / associated type (see below) / __be32 rnid_phys_port; / physical port number / __be32 rnid_att_nodes; / number of attached nodes / __u8 rnid_node_mgmt; / node management (see below) / __u8 rnid_ip_ver; / IP version (see below) / __be16 rnid_prot_port; / UDP / TCP port number / __be32 rnid_ip_addr[4]; / IP address / __u8 rnid_resvd[2]; / reserved / __be16 rnid_vend_spec; / vendor-specific field / }; enum fc_els_rnid_atype { ELS_RNIDA_UNK = 0x01, / unknown / ELS_RNIDA_OTHER = 0x02, / none of the following / ELS_RNIDA_HUB = 0x03, ELS_RNIDA_SWITCH = 0x04, ELS_RNIDA_GATEWAY = 0x05, ELS_RNIDA_CONV = 0x06, / Obsolete, do not use this value / ELS_RNIDA_HBA = 0x07, / Obsolete, do not use this value / ELS_RNIDA_PROXY = 0x08, / Obsolete, do not use this value / ELS_RNIDA_STORAGE = 0x09, ELS_RNIDA_HOST = 0x0a, ELS_RNIDA_SUBSYS = 0x0b, / storage subsystem (e.g., RAID) / ELS_RNIDA_ACCESS = 0x0e, / access device (e.g. media changer) / ELS_RNIDA_NAS = 0x11, / NAS server / ELS_RNIDA_BRIDGE = 0x12, / bridge / ELS_RNIDA_VIRT = 0x13, / virtualization device / ELS_RNIDA_MF = 0xff, / multifunction device (bits below) / ELS_RNIDA_MF_HUB = 1UL << 31, / hub / ELS_RNIDA_MF_SW = 1UL << 30, / switch / ELS_RNIDA_MF_GW = 1UL << 29, / gateway / ELS_RNIDA_MF_ST = 1UL << 28, / storage / ELS_RNIDA_MF_HOST = 1UL << 27, / host / ELS_RNIDA_MF_SUB = 1UL << 26, / storage subsystem / ELS_RNIDA_MF_ACC = 1UL << 25, / storage access dev / ELS_RNIDA_MF_WDM = 1UL << 24, / wavelength division mux / ELS_RNIDA_MF_NAS = 1UL << 23, / NAS server / ELS_RNIDA_MF_BR = 1UL << 22, / bridge / ELS_RNIDA_MF_VIRT = 1UL << 21, / virtualization device / }; enum fc_els_rnid_mgmt { ELS_RNIDM_SNMP = 0, ELS_RNIDM_TELNET = 1, ELS_RNIDM_HTTP = 2, ELS_RNIDM_HTTPS = 3, ELS_RNIDM_XML = 4, / HTTP + XML / }; enum fc_els_rnid_ipver { ELS_RNIDIP_NONE = 0, / no IP support or node mgmt. / ELS_RNIDIP_V4 = 1, / IPv4 / ELS_RNIDIP_V6 = 2, / IPv6 / }; / * ELS RPL - Read Port List. / struct fc_els_rpl { __u8 rpl_cmd; / command / __u8 rpl_resv[5]; / reserved - must be zero / __be16 rpl_max_size; / maximum response size or zero / __u8 rpl_resv1; / reserved - must be zero / __u8 rpl_index[3]; / starting index / }; / * Port number block in RPL response. / struct fc_els_pnb { __be32 pnb_phys_pn; / physical port number / __u8 pnb_resv; / reserved / __u8 pnb_port_id[3]; / port ID / __be64 pnb_wwpn; / port name / }; / * RPL LS_ACC response. / struct fc_els_rpl_resp { __u8 rpl_cmd; / ELS_LS_ACC / __u8 rpl_resv1; / reserved - must be zero / __be16 rpl_plen; / payload length / __u8 rpl_resv2; / reserved - must be zero / __u8 rpl_llen[3]; / list length / __u8 rpl_resv3; / reserved - must be zero / __u8 rpl_index[3]; / starting index / struct fc_els_pnb rpl_pnb[1]; / variable number of PNBs / }; / * Link Error Status Block. / struct fc_els_lesb { __be32 lesb_link_fail; / link failure count / __be32 lesb_sync_loss; / loss of synchronization count / __be32 lesb_sig_loss; / loss of signal count / __be32 lesb_prim_err; / primitive sequence error count / __be32 lesb_inv_word; / invalid transmission word count / __be32 lesb_inv_crc; / invalid CRC count / }; / * ELS RPS - Read Port Status Block request. / struct fc_els_rps { __u8 rps_cmd; / command / __u8 rps_resv[2]; / reserved - must be zero / __u8 rps_flag; / flag - see below / __be64 rps_port_spec; / port selection / }; enum fc_els_rps_flag { FC_ELS_RPS_DID = 0x00, / port identified by D_ID of req. / FC_ELS_RPS_PPN = 0x01, / port_spec is physical port number / FC_ELS_RPS_WWPN = 0x02, / port_spec is port WWN / }; / * ELS RPS LS_ACC response. / struct fc_els_rps_resp { __u8 rps_cmd; / command - LS_ACC / __u8 rps_resv[2]; / reserved - must be zero / __u8 rps_flag; / flag - see below / __u8 rps_resv2[2]; / reserved / __be16 rps_status; / port status - see below / struct fc_els_lesb rps_lesb; / link error status block / }; enum fc_els_rps_resp_flag { FC_ELS_RPS_LPEV = 0x01, / L_port extension valid / }; enum fc_els_rps_resp_status { FC_ELS_RPS_PTP = 1 << 5, / point-to-point connection / FC_ELS_RPS_LOOP = 1 << 4, / loop mode / FC_ELS_RPS_FAB = 1 << 3, / fabric present / FC_ELS_RPS_NO_SIG = 1 << 2, / loss of signal / FC_ELS_RPS_NO_SYNC = 1 << 1, / loss of synchronization / FC_ELS_RPS_RESET = 1 << 0, / in link reset protocol / }; / * ELS LIRR - Link Incident Record Registration request. / struct fc_els_lirr { __u8 lirr_cmd; / command / __u8 lirr_resv[3]; / reserved - must be zero / __u8 lirr_func; / registration function / __u8 lirr_fmt; / FC-4 type of RLIR requested / __u8 lirr_resv2[2]; / reserved - must be zero / }; enum fc_els_lirr_func { ELS_LIRR_SET_COND = 0x01, / set - conditionally receive / ELS_LIRR_SET_UNCOND = 0x02, / set - unconditionally receive / ELS_LIRR_CLEAR = 0xff / clear registration / }; / * ELS SRL - Scan Remote Loop request. / struct fc_els_srl { __u8 srl_cmd; / command / __u8 srl_resv[3]; / reserved - must be zero / __u8 srl_flag; / flag - see below / __u8 srl_flag_param[3]; / flag parameter / }; enum fc_els_srl_flag { FC_ELS_SRL_ALL = 0x00, / scan all FL ports / FC_ELS_SRL_ONE = 0x01, / scan specified loop / FC_ELS_SRL_EN_PER = 0x02, / enable periodic scanning (param) / FC_ELS_SRL_DIS_PER = 0x03, / disable periodic scanning / }; / * ELS RLS - Read Link Error Status Block request. / struct fc_els_rls { __u8 rls_cmd; / command / __u8 rls_resv[4]; / reserved - must be zero / __u8 rls_port_id[3]; / port ID / }; / * ELS RLS LS_ACC Response. / struct fc_els_rls_resp { __u8 rls_cmd; / ELS_LS_ACC / __u8 rls_resv[3]; / reserved - must be zero / struct fc_els_lesb rls_lesb; / link error status block / }; / * ELS RLIR - Registered Link Incident Report. * This is followed by the CLIR and the CLID, described below. / struct fc_els_rlir { __u8 rlir_cmd; / command / __u8 rlir_resv[3]; / reserved - must be zero / __u8 rlir_fmt; / format (FC4-type if type specific) / __u8 rlir_clr_len; / common link incident record length / __u8 rlir_cld_len; / common link incident desc. length / __u8 rlir_slr_len; / spec. link incident record length / }; / * CLIR - Common Link Incident Record Data. - Sent via RLIR. / struct fc_els_clir { __be64 clir_wwpn; / incident port name / __be64 clir_wwnn; / incident port node name / __u8 clir_port_type; / incident port type / __u8 clir_port_id[3]; / incident port ID / __be64 clir_conn_wwpn; / connected port name / __be64 clir_conn_wwnn; / connected node name / __be64 clir_fab_name; / fabric name / __be32 clir_phys_port; / physical port number / __be32 clir_trans_id; / transaction ID / __u8 clir_resv[3]; / reserved / __u8 clir_ts_fmt; / time stamp format / __be64 clir_timestamp; / time stamp / }; / * CLIR clir_ts_fmt - time stamp format values. / enum fc_els_clir_ts_fmt { ELS_CLIR_TS_UNKNOWN = 0, / time stamp field unknown / ELS_CLIR_TS_SEC_FRAC = 1, / time in seconds and fractions / ELS_CLIR_TS_CSU = 2, / time in clock synch update format / }; / * Common Link Incident Descriptor - sent via RLIR. / struct fc_els_clid { __u8 clid_iq; / incident qualifier flags / __u8 clid_ic; / incident code / __be16 clid_epai; / domain/area of ISL / }; / * CLID incident qualifier flags. / enum fc_els_clid_iq { ELS_CLID_SWITCH = 0x20, / incident port is a switch node / ELS_CLID_E_PORT = 0x10, / incident is an ISL (E) port / ELS_CLID_SEV_MASK = 0x0c, / severity 2-bit field mask / ELS_CLID_SEV_INFO = 0x00, / report is informational / ELS_CLID_SEV_INOP = 0x08, / link not operational / ELS_CLID_SEV_DEG = 0x04, / link degraded but operational / ELS_CLID_LASER = 0x02, / subassembly is a laser / ELS_CLID_FRU = 0x01, / format can identify a FRU / }; / * CLID incident code. / enum fc_els_clid_ic { ELS_CLID_IC_IMPL = 1, / implicit incident / ELS_CLID_IC_BER = 2, / bit-error-rate threshold exceeded / ELS_CLID_IC_LOS = 3, / loss of synch or signal / ELS_CLID_IC_NOS = 4, / non-operational primitive sequence / ELS_CLID_IC_PST = 5, / primitive sequence timeout / ELS_CLID_IC_INVAL = 6, / invalid primitive sequence / ELS_CLID_IC_LOOP_TO = 7, / loop initialization time out / ELS_CLID_IC_LIP = 8, / receiving LIP / }; / * Link Integrity event types / enum fc_fpin_li_event_types { FPIN_LI_UNKNOWN = 0x0, FPIN_LI_LINK_FAILURE = 0x1, FPIN_LI_LOSS_OF_SYNC = 0x2, FPIN_LI_LOSS_OF_SIG = 0x3, FPIN_LI_PRIM_SEQ_ERR = 0x4, FPIN_LI_INVALID_TX_WD = 0x5, FPIN_LI_INVALID_CRC = 0x6, FPIN_LI_DEVICE_SPEC = 0xF, }; / * Initializer useful for decoding table. * Please keep this in sync with the above definitions. / #define FC_FPIN_LI_EVT_TYPES_INIT { \ { FPIN_LI_UNKNOWN, "Unknown" }, \ { FPIN_LI_LINK_FAILURE, "Link Failure" }, \ { FPIN_LI_LOSS_OF_SYNC, "Loss of Synchronization" }, \ { FPIN_LI_LOSS_OF_SIG, "Loss of Signal" }, \ { FPIN_LI_PRIM_SEQ_ERR, "Primitive Sequence Protocol Error" }, \ { FPIN_LI_INVALID_TX_WD, "Invalid Transmission Word" }, \ { FPIN_LI_INVALID_CRC, "Invalid CRC" }, \ { FPIN_LI_DEVICE_SPEC, "Device Specific" }, \ } / * Delivery event types / enum fc_fpin_deli_event_types { FPIN_DELI_UNKNOWN = 0x0, FPIN_DELI_TIMEOUT = 0x1, FPIN_DELI_UNABLE_TO_ROUTE = 0x2, FPIN_DELI_DEVICE_SPEC = 0xF, }; / * Initializer useful for decoding table. * Please keep this in sync with the above definitions. / #define FC_FPIN_DELI_EVT_TYPES_INIT { \ { FPIN_DELI_UNKNOWN, "Unknown" }, \ { FPIN_DELI_TIMEOUT, "Timeout" }, \ { FPIN_DELI_UNABLE_TO_ROUTE, "Unable to Route" }, \ { FPIN_DELI_DEVICE_SPEC, "Device Specific" }, \ } / * Congestion event types / enum fc_fpin_congn_event_types { FPIN_CONGN_CLEAR = 0x0, FPIN_CONGN_LOST_CREDIT = 0x1, FPIN_CONGN_CREDIT_STALL = 0x2, FPIN_CONGN_OVERSUBSCRIPTION = 0x3, FPIN_CONGN_DEVICE_SPEC = 0xF, }; / * Initializer useful for decoding table. * Please keep this in sync with the above definitions. / #define FC_FPIN_CONGN_EVT_TYPES_INIT { \ { FPIN_CONGN_CLEAR, "Clear" }, \ { FPIN_CONGN_LOST_CREDIT, "Lost Credit" }, \ { FPIN_CONGN_CREDIT_STALL, "Credit Stall" }, \ { FPIN_CONGN_OVERSUBSCRIPTION, "Oversubscription" }, \ { FPIN_CONGN_DEVICE_SPEC, "Device Specific" }, \ } enum fc_fpin_congn_severity_types { FPIN_CONGN_SEVERITY_WARNING = 0xF1, FPIN_CONGN_SEVERITY_ERROR = 0xF7, }; / * Link Integrity Notification Descriptor / struct fc_fn_li_desc { __be32 desc_tag; / Descriptor Tag (0x00020001) / __be32 desc_len; / Length of Descriptor (in bytes). * Size of descriptor excluding * desc_tag and desc_len fields. / __be64 detecting_wwpn; / Port Name that detected event / __be64 attached_wwpn; / Port Name of device attached to * detecting Port Name / __be16 event_type; / see enum fc_fpin_li_event_types / __be16 event_modifier; / Implementation specific value * describing the event type / __be32 event_threshold;/ duration in ms of the link * integrity detection cycle / __be32 event_count; / minimum number of event * occurrences during the event * threshold to caause the LI event / __be32 pname_count; / number of portname_list elements / __be64 pname_list[0]; / list of N_Port_Names accessible * through the attached port / }; / * Delivery Notification Descriptor / struct fc_fn_deli_desc { __be32 desc_tag; / Descriptor Tag (0x00020002) / __be32 desc_len; / Length of Descriptor (in bytes). * Size of descriptor excluding * desc_tag and desc_len fields. / __be64 detecting_wwpn; / Port Name that detected event / __be64 attached_wwpn; / Port Name of device attached to * detecting Port Name / __be32 deli_reason_code;/ see enum fc_fpin_deli_event_types / }; / * Peer Congestion Notification Descriptor / struct fc_fn_peer_congn_desc { __be32 desc_tag; / Descriptor Tag (0x00020003) / __be32 desc_len; / Length of Descriptor (in bytes). * Size of descriptor excluding * desc_tag and desc_len fields. / __be64 detecting_wwpn; / Port Name that detected event / __be64 attached_wwpn; / Port Name of device attached to * detecting Port Name / __be16 event_type; / see enum fc_fpin_congn_event_types / __be16 event_modifier; / Implementation specific value * describing the event type / __be32 event_period; / duration (ms) of the detected * congestion event / __be32 pname_count; / number of portname_list elements / __be64 pname_list[0]; / list of N_Port_Names accessible * through the attached port / }; / * Congestion Notification Descriptor / struct fc_fn_congn_desc { __be32 desc_tag; / Descriptor Tag (0x00020004) / __be32 desc_len; / Length of Descriptor (in bytes). * Size of descriptor excluding * desc_tag and desc_len fields. / __be16 event_type; / see enum fc_fpin_congn_event_types / __be16 event_modifier; / Implementation specific value * describing the event type / __be32 event_period; / duration (ms) of the detected * congestion event / __u8 severity; / command / __u8 resv[3]; / reserved - must be zero / }; / * ELS_FPIN - Fabric Performance Impact Notification / struct fc_els_fpin { __u8 fpin_cmd; / command (0x16) / __u8 fpin_zero[3]; / specified as zero - part of cmd / __be32 desc_len; / Length of Descriptor List (in bytes). * Size of ELS excluding fpin_cmd, * fpin_zero and desc_len fields. / struct fc_tlv_desc fpin_desc[0]; / Descriptor list / }; / Diagnostic Function Descriptor - FPIN Registration / struct fc_df_desc_fpin_reg { __be32 desc_tag; / FPIN Registration (0x00030001) / __be32 desc_len; / Length of Descriptor (in bytes). * Size of descriptor excluding * desc_tag and desc_len fields. / __be32 count; / Number of desc_tags elements / __be32 desc_tags[0]; / Array of Descriptor Tags. * Each tag indicates a function * supported by the N_Port (request) * or by the N_Port and Fabric * Controller (reply; may be a subset * of the request). * See ELS_FN_DTAG_xxx for tag values. / }; / * ELS_RDF - Register Diagnostic Functions / struct fc_els_rdf { __u8 fpin_cmd; / command (0x19) / __u8 fpin_zero[3]; / specified as zero - part of cmd / __be32 desc_len; / Length of Descriptor List (in bytes). * Size of ELS excluding fpin_cmd, * fpin_zero and desc_len fields. / struct fc_tlv_desc desc[0]; / Descriptor list / }; / * ELS RDF LS_ACC Response. / struct fc_els_rdf_resp { struct fc_els_ls_acc acc_hdr; __be32 desc_list_len; / Length of response (in * bytes). Excludes acc_hdr * and desc_list_len fields. / struct fc_els_lsri_desc lsri; struct fc_tlv_desc desc[0]; / Supported Descriptor list / }; / * Diagnostic Capability Descriptors for EDC ELS / / * Diagnostic: Link Fault Capability Descriptor / struct fc_diag_lnkflt_desc { __be32 desc_tag; / Descriptor Tag (0x0001000D) / __be32 desc_len; / Length of Descriptor (in bytes). * Size of descriptor excluding * desc_tag and desc_len fields. * 12 bytes / __be32 degrade_activate_threshold; __be32 degrade_deactivate_threshold; __be32 fec_degrade_interval; }; enum fc_edc_cg_signal_cap_types { / Note: Capability: bits 31:4 Rsvd; bits 3:0 are capabilities / EDC_CG_SIG_NOTSUPPORTED = 0x00, / neither supported / EDC_CG_SIG_WARN_ONLY = 0x01, EDC_CG_SIG_WARN_ALARM = 0x02, / both supported / }; / * Initializer useful for decoding table. * Please keep this in sync with the above definitions. / #define FC_EDC_CG_SIGNAL_CAP_TYPES_INIT { \ { EDC_CG_SIG_NOTSUPPORTED, "Signaling Not Supported" }, \ { EDC_CG_SIG_WARN_ONLY, "Warning Signal" }, \ { EDC_CG_SIG_WARN_ALARM, "Warning and Alarm Signals" }, \ } enum fc_diag_cg_sig_freq_types { EDC_CG_SIGFREQ_CNT_MIN = 1, / Min Frequency Count / EDC_CG_SIGFREQ_CNT_MAX = 999, / Max Frequency Count / EDC_CG_SIGFREQ_SEC = 0x1, / Units: seconds / EDC_CG_SIGFREQ_MSEC = 0x2, / Units: milliseconds / }; struct fc_diag_cg_sig_freq { __be16 count; / Time between signals * note: upper 6 bits rsvd / __be16 units; / Time unit for count * note: upper 12 bits rsvd / }; / * Diagnostic: Congestion Signaling Capability Descriptor / struct fc_diag_cg_sig_desc { __be32 desc_tag; / Descriptor Tag (0x0001000F) / __be32 desc_len; / Length of Descriptor (in bytes). * Size of descriptor excluding * desc_tag and desc_len fields. * 16 bytes / __be32 xmt_signal_capability; struct fc_diag_cg_sig_freq xmt_signal_frequency; __be32 rcv_signal_capability; struct fc_diag_cg_sig_freq rcv_signal_frequency; }; / * ELS_EDC - Exchange Diagnostic Capabilities / struct fc_els_edc { __u8 edc_cmd; / command (0x17) / __u8 edc_zero[3]; / specified as zero - part of cmd / __be32 desc_len; / Length of Descriptor List (in bytes). * Size of ELS excluding edc_cmd, * edc_zero and desc_len fields. / struct fc_tlv_desc desc[0]; / Diagnostic Descriptor list / }; / * ELS EDC LS_ACC Response. / struct fc_els_edc_resp { struct fc_els_ls_acc acc_hdr; __be32 desc_list_len; / Length of response (in * bytes). Excludes acc_hdr * and desc_list_len fields. / struct fc_els_lsri_desc lsri; struct fc_tlv_desc desc[0]; / Supported Diagnostic Descriptor list / }; #endif / _FC_ELS_H_ / PK��6�[?�Z��Z��scsi_netlink.hnu��[��/ SPDX-License-Identifier: GPL-2.0+ WITH Linux-syscall-note / / * SCSI Transport Netlink Interface * Used for the posting of outbound SCSI transport events * * Copyright (C) 2006 James Smart, Emulex Corporation / #ifndef SCSI_NETLINK_H #define SCSI_NETLINK_H #include <linux/netlink.h> #include <linux/types.h> / * This file intended to be included by both kernel and user space / / Single Netlink Message type to send all SCSI Transport messages / #define SCSI_TRANSPORT_MSG NLMSG_MIN_TYPE + 1 / SCSI Transport Broadcast Groups / / leaving groups 0 and 1 unassigned / #define SCSI_NL_GRP_FC_EVENTS (1<<2) / Group 2 / #define SCSI_NL_GRP_CNT 3 / SCSI_TRANSPORT_MSG event message header / struct scsi_nl_hdr { __u8 version; __u8 transport; __u16 magic; __u16 msgtype; __u16 msglen; } __attribute__((aligned(sizeof(__u64)))); / scsi_nl_hdr->version value / #define SCSI_NL_VERSION 1 / scsi_nl_hdr->magic value / #define SCSI_NL_MAGIC 0xA1B2 / scsi_nl_hdr->transport value / #define SCSI_NL_TRANSPORT 0 #define SCSI_NL_TRANSPORT_FC 1 #define SCSI_NL_MAX_TRANSPORTS 2 / Transport-based scsi_nl_hdr->msgtype values are defined in each transport / / * GENERIC SCSI scsi_nl_hdr->msgtype Values / / kernel -> user / #define SCSI_NL_SHOST_VENDOR 0x0001 / user -> kernel / / SCSI_NL_SHOST_VENDOR msgtype is kernel->user and user->kernel / / * Message Structures : / / macro to round up message lengths to 8byte boundary / #define SCSI_NL_MSGALIGN(len) (((len) + 7) & ~7) / * SCSI HOST Vendor Unique messages : * SCSI_NL_SHOST_VENDOR * * Note: The Vendor Unique message payload will begin directly after * this structure, with the length of the payload per vmsg_datalen. * * Note: When specifying vendor_id, be sure to read the Vendor Type and ID * formatting requirements specified below / struct scsi_nl_host_vendor_msg { struct scsi_nl_hdr snlh; / must be 1st element ! / __u64 vendor_id; __u16 host_no; __u16 vmsg_datalen; } __attribute__((aligned(sizeof(__u64)))); / * Vendor ID: * If transports post vendor-unique events, they must pass a well-known * 32-bit vendor identifier. This identifier consists of 8 bits indicating * the "type" of identifier contained, and 24 bits of id data. * * Identifiers for each type: * PCI : ID data is the 16 bit PCI Registered Vendor ID / #define SCSI_NL_VID_TYPE_SHIFT 56 #define SCSI_NL_VID_TYPE_MASK ((__u64)0xFF << SCSI_NL_VID_TYPE_SHIFT) #define SCSI_NL_VID_TYPE_PCI ((__u64)0x01 << SCSI_NL_VID_TYPE_SHIFT) #define SCSI_NL_VID_ID_MASK (~ SCSI_NL_VID_TYPE_MASK) #define INIT_SCSI_NL_HDR(hdr, t, mtype, mlen) \ { \ (hdr)->version = SCSI_NL_VERSION; \ (hdr)->transport = t; \ (hdr)->magic = SCSI_NL_MAGIC; \ (hdr)->msgtype = mtype; \ (hdr)->msglen = mlen; \ } #endif / SCSI_NETLINK_H / PK��6�[�`J�'��'��cxlflash_ioctl.hnu��[��/ SPDX-License-Identifier: GPL-2.0+ WITH Linux-syscall-note / / * CXL Flash Device Driver * * Written by: Manoj N. Kumar <manoj@linux.vnet.ibm.com>, IBM Corporation * Matthew R. Ochs <mrochs@linux.vnet.ibm.com>, IBM Corporation * * Copyright (C) 2015 IBM Corporation * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. / #ifndef _CXLFLASH_IOCTL_H #define _CXLFLASH_IOCTL_H #include <linux/types.h> / * Structure and definitions for all CXL Flash ioctls / #define CXLFLASH_WWID_LEN 16 / * Structure and flag definitions CXL Flash superpipe ioctls / #define DK_CXLFLASH_VERSION_0 0 struct dk_cxlflash_hdr { __u16 version; / Version data / __u16 rsvd[3]; / Reserved for future use / __u64 flags; / Input flags / __u64 return_flags; / Returned flags / }; / * Return flag definitions available to all superpipe ioctls * * Similar to the input flags, these are grown from the bottom-up with the * intention that ioctl-specific return flag definitions would grow from the * top-down, allowing the two sets to co-exist. While not required/enforced * at this time, this provides future flexibility. / #define DK_CXLFLASH_ALL_PORTS_ACTIVE 0x0000000000000001ULL #define DK_CXLFLASH_APP_CLOSE_ADAP_FD 0x0000000000000002ULL #define DK_CXLFLASH_CONTEXT_SQ_CMD_MODE 0x0000000000000004ULL / * General Notes: * ------------- * The 'context_id' field of all ioctl structures contains the context * identifier for a context in the lower 32-bits (upper 32-bits are not * to be used when identifying a context to the AFU). That said, the value * in its entirety (all 64-bits) is to be treated as an opaque cookie and * should be presented as such when issuing ioctls. / / * DK_CXLFLASH_ATTACH Notes: * ------------------------ * Read/write access permissions are specified via the O_RDONLY, O_WRONLY, * and O_RDWR flags defined in the fcntl.h header file. * * A valid adapter file descriptor (fd >= 0) is only returned on the initial * attach (successful) of a context. When a context is shared(reused), the user * is expected to already 'know' the adapter file descriptor associated with the * context. / #define DK_CXLFLASH_ATTACH_REUSE_CONTEXT 0x8000000000000000ULL struct dk_cxlflash_attach { struct dk_cxlflash_hdr hdr; / Common fields / __u64 num_interrupts; / Requested number of interrupts / __u64 context_id; / Returned context / __u64 mmio_size; / Returned size of MMIO area / __u64 block_size; / Returned block size, in bytes / __u64 adap_fd; / Returned adapter file descriptor / __u64 last_lba; / Returned last LBA on the device / __u64 max_xfer; / Returned max transfer size, blocks / __u64 reserved[8]; / Reserved for future use / }; struct dk_cxlflash_detach { struct dk_cxlflash_hdr hdr; / Common fields / __u64 context_id; / Context to detach / __u64 reserved[8]; / Reserved for future use / }; struct dk_cxlflash_udirect { struct dk_cxlflash_hdr hdr; / Common fields / __u64 context_id; / Context to own physical resources / __u64 rsrc_handle; / Returned resource handle / __u64 last_lba; / Returned last LBA on the device / __u64 reserved[8]; / Reserved for future use / }; #define DK_CXLFLASH_UVIRTUAL_NEED_WRITE_SAME 0x8000000000000000ULL struct dk_cxlflash_uvirtual { struct dk_cxlflash_hdr hdr; / Common fields / __u64 context_id; / Context to own virtual resources / __u64 lun_size; / Requested size, in 4K blocks / __u64 rsrc_handle; / Returned resource handle / __u64 last_lba; / Returned last LBA of LUN / __u64 reserved[8]; / Reserved for future use / }; struct dk_cxlflash_release { struct dk_cxlflash_hdr hdr; / Common fields / __u64 context_id; / Context owning resources / __u64 rsrc_handle; / Resource handle to release / __u64 reserved[8]; / Reserved for future use / }; struct dk_cxlflash_resize { struct dk_cxlflash_hdr hdr; / Common fields / __u64 context_id; / Context owning resources / __u64 rsrc_handle; / Resource handle of LUN to resize / __u64 req_size; / New requested size, in 4K blocks / __u64 last_lba; / Returned last LBA of LUN / __u64 reserved[8]; / Reserved for future use / }; struct dk_cxlflash_clone { struct dk_cxlflash_hdr hdr; / Common fields / __u64 context_id_src; / Context to clone from / __u64 context_id_dst; / Context to clone to / __u64 adap_fd_src; / Source context adapter fd / __u64 reserved[8]; / Reserved for future use / }; #define DK_CXLFLASH_VERIFY_SENSE_LEN 18 #define DK_CXLFLASH_VERIFY_HINT_SENSE 0x8000000000000000ULL struct dk_cxlflash_verify { struct dk_cxlflash_hdr hdr; / Common fields / __u64 context_id; / Context owning resources to verify / __u64 rsrc_handle; / Resource handle of LUN / __u64 hint; / Reasons for verify / __u64 last_lba; / Returned last LBA of device / __u8 sense_data[DK_CXLFLASH_VERIFY_SENSE_LEN]; / SCSI sense data / __u8 pad[6]; / Pad to next 8-byte boundary / __u64 reserved[8]; / Reserved for future use / }; #define DK_CXLFLASH_RECOVER_AFU_CONTEXT_RESET 0x8000000000000000ULL struct dk_cxlflash_recover_afu { struct dk_cxlflash_hdr hdr; / Common fields / __u64 reason; / Reason for recovery request / __u64 context_id; / Context to recover / updated ID / __u64 mmio_size; / Returned size of MMIO area / __u64 adap_fd; / Returned adapter file descriptor / __u64 reserved[8]; / Reserved for future use / }; #define DK_CXLFLASH_MANAGE_LUN_WWID_LEN CXLFLASH_WWID_LEN #define DK_CXLFLASH_MANAGE_LUN_ENABLE_SUPERPIPE 0x8000000000000000ULL #define DK_CXLFLASH_MANAGE_LUN_DISABLE_SUPERPIPE 0x4000000000000000ULL #define DK_CXLFLASH_MANAGE_LUN_ALL_PORTS_ACCESSIBLE 0x2000000000000000ULL struct dk_cxlflash_manage_lun { struct dk_cxlflash_hdr hdr; / Common fields / __u8 wwid[DK_CXLFLASH_MANAGE_LUN_WWID_LEN]; / Page83 WWID, NAA-6 / __u64 reserved[8]; / Rsvd, future use / }; union cxlflash_ioctls { struct dk_cxlflash_attach attach; struct dk_cxlflash_detach detach; struct dk_cxlflash_udirect udirect; struct dk_cxlflash_uvirtual uvirtual; struct dk_cxlflash_release release; struct dk_cxlflash_resize resize; struct dk_cxlflash_clone clone; struct dk_cxlflash_verify verify; struct dk_cxlflash_recover_afu recover_afu; struct dk_cxlflash_manage_lun manage_lun; }; #define MAX_CXLFLASH_IOCTL_SZ (sizeof(union cxlflash_ioctls)) #define CXL_MAGIC 0xCA #define CXL_IOWR(_n, _s) _IOWR(CXL_MAGIC, _n, struct _s) / * CXL Flash superpipe ioctls start at base of the reserved CXL_MAGIC * region (0x80) and grow upwards. / #define DK_CXLFLASH_ATTACH CXL_IOWR(0x80, dk_cxlflash_attach) #define DK_CXLFLASH_USER_DIRECT CXL_IOWR(0x81, dk_cxlflash_udirect) #define DK_CXLFLASH_RELEASE CXL_IOWR(0x82, dk_cxlflash_release) #define DK_CXLFLASH_DETACH CXL_IOWR(0x83, dk_cxlflash_detach) #define DK_CXLFLASH_VERIFY CXL_IOWR(0x84, dk_cxlflash_verify) #define DK_CXLFLASH_RECOVER_AFU CXL_IOWR(0x85, dk_cxlflash_recover_afu) #define DK_CXLFLASH_MANAGE_LUN CXL_IOWR(0x86, dk_cxlflash_manage_lun) #define DK_CXLFLASH_USER_VIRTUAL CXL_IOWR(0x87, dk_cxlflash_uvirtual) #define DK_CXLFLASH_VLUN_RESIZE CXL_IOWR(0x88, dk_cxlflash_resize) #define DK_CXLFLASH_VLUN_CLONE CXL_IOWR(0x89, dk_cxlflash_clone) / * Structure and flag definitions CXL Flash host ioctls / #define HT_CXLFLASH_VERSION_0 0 struct ht_cxlflash_hdr { __u16 version; / Version data / __u16 subcmd; / Sub-command / __u16 rsvd[2]; / Reserved for future use / __u64 flags; / Input flags / __u64 return_flags; / Returned flags / }; / * Input flag definitions available to all host ioctls * * These are grown from the bottom-up with the intention that ioctl-specific * input flag definitions would grow from the top-down, allowing the two sets * to co-exist. While not required/enforced at this time, this provides future * flexibility. / #define HT_CXLFLASH_HOST_READ 0x0000000000000000ULL #define HT_CXLFLASH_HOST_WRITE 0x0000000000000001ULL #define HT_CXLFLASH_LUN_PROVISION_SUBCMD_CREATE_LUN 0x0001 #define HT_CXLFLASH_LUN_PROVISION_SUBCMD_DELETE_LUN 0x0002 #define HT_CXLFLASH_LUN_PROVISION_SUBCMD_QUERY_PORT 0x0003 struct ht_cxlflash_lun_provision { struct ht_cxlflash_hdr hdr; / Common fields / __u16 port; / Target port for provision request / __u16 reserved16[3]; / Reserved for future use / __u64 size; / Size of LUN (4K blocks) / __u64 lun_id; / SCSI LUN ID / __u8 wwid[CXLFLASH_WWID_LEN];/ Page83 WWID, NAA-6 / __u64 max_num_luns; / Maximum number of LUNs provisioned / __u64 cur_num_luns; / Current number of LUNs provisioned / __u64 max_cap_port; / Total capacity for port (4K blocks) / __u64 cur_cap_port; / Current capacity for port (4K blocks) / __u64 reserved[8]; / Reserved for future use / }; #define HT_CXLFLASH_AFU_DEBUG_MAX_DATA_LEN 262144 / 256K / #define HT_CXLFLASH_AFU_DEBUG_SUBCMD_LEN 12 struct ht_cxlflash_afu_debug { struct ht_cxlflash_hdr hdr; / Common fields / __u8 reserved8[4]; / Reserved for future use / __u8 afu_subcmd[HT_CXLFLASH_AFU_DEBUG_SUBCMD_LEN]; / AFU subcommand, * (pass through) / __u64 data_ea; / Data buffer effective address / __u32 data_len; / Data buffer length / __u32 reserved32; / Reserved for future use / __u64 reserved[8]; / Reserved for future use / }; union cxlflash_ht_ioctls { struct ht_cxlflash_lun_provision lun_provision; struct ht_cxlflash_afu_debug afu_debug; }; #define MAX_HT_CXLFLASH_IOCTL_SZ (sizeof(union cxlflash_ht_ioctls)) / * CXL Flash host ioctls start at the top of the reserved CXL_MAGIC * region (0xBF) and grow downwards. / #define HT_CXLFLASH_LUN_PROVISION CXL_IOWR(0xBF, ht_cxlflash_lun_provision) #define HT_CXLFLASH_AFU_DEBUG CXL_IOWR(0xBE, ht_cxlflash_afu_debug) #endif / ifndef _CXLFLASH_IOCTL_H / PK��6�[< ��<��<��scsi_bsg_mpi3mr.hnu��[��/ SPDX-License-Identifier: GPL-2.0-or-later WITH Linux-syscall-note / / * Driver for Broadcom MPI3 Storage Controllers * * Copyright (C) 2017-2022 Broadcom Inc. * (mailto: mpi3mr-linuxdrv.pdl@broadcom.com) * / #ifndef SCSI_BSG_MPI3MR_H_INCLUDED #define SCSI_BSG_MPI3MR_H_INCLUDED #include <linux/types.h> / Definitions for BSG commands / #define MPI3MR_IOCTL_VERSION 0x06 #define MPI3MR_APP_DEFAULT_TIMEOUT (60) /seconds/ #define MPI3MR_BSG_ADPTYPE_UNKNOWN 0 #define MPI3MR_BSG_ADPTYPE_AVGFAMILY 1 #define MPI3MR_BSG_ADPSTATE_UNKNOWN 0 #define MPI3MR_BSG_ADPSTATE_OPERATIONAL 1 #define MPI3MR_BSG_ADPSTATE_FAULT 2 #define MPI3MR_BSG_ADPSTATE_IN_RESET 3 #define MPI3MR_BSG_ADPSTATE_UNRECOVERABLE 4 #define MPI3MR_BSG_ADPRESET_UNKNOWN 0 #define MPI3MR_BSG_ADPRESET_SOFT 1 #define MPI3MR_BSG_ADPRESET_DIAG_FAULT 2 #define MPI3MR_BSG_LOGDATA_MAX_ENTRIES 400 #define MPI3MR_BSG_LOGDATA_ENTRY_HEADER_SZ 4 #define MPI3MR_DRVBSG_OPCODE_UNKNOWN 0 #define MPI3MR_DRVBSG_OPCODE_ADPINFO 1 #define MPI3MR_DRVBSG_OPCODE_ADPRESET 2 #define MPI3MR_DRVBSG_OPCODE_ALLTGTDEVINFO 4 #define MPI3MR_DRVBSG_OPCODE_GETCHGCNT 5 #define MPI3MR_DRVBSG_OPCODE_LOGDATAENABLE 6 #define MPI3MR_DRVBSG_OPCODE_PELENABLE 7 #define MPI3MR_DRVBSG_OPCODE_GETLOGDATA 8 #define MPI3MR_DRVBSG_OPCODE_QUERY_HDB 9 #define MPI3MR_DRVBSG_OPCODE_REPOST_HDB 10 #define MPI3MR_DRVBSG_OPCODE_UPLOAD_HDB 11 #define MPI3MR_DRVBSG_OPCODE_REFRESH_HDB_TRIGGERS 12 #define MPI3MR_BSG_BUFTYPE_UNKNOWN 0 #define MPI3MR_BSG_BUFTYPE_RAIDMGMT_CMD 1 #define MPI3MR_BSG_BUFTYPE_RAIDMGMT_RESP 2 #define MPI3MR_BSG_BUFTYPE_DATA_IN 3 #define MPI3MR_BSG_BUFTYPE_DATA_OUT 4 #define MPI3MR_BSG_BUFTYPE_MPI_REPLY 5 #define MPI3MR_BSG_BUFTYPE_ERR_RESPONSE 6 #define MPI3MR_BSG_BUFTYPE_MPI_REQUEST 0xFE #define MPI3MR_BSG_MPI_REPLY_BUFTYPE_UNKNOWN 0 #define MPI3MR_BSG_MPI_REPLY_BUFTYPE_STATUS 1 #define MPI3MR_BSG_MPI_REPLY_BUFTYPE_ADDRESS 2 #define MPI3MR_HDB_BUFTYPE_UNKNOWN 0 #define MPI3MR_HDB_BUFTYPE_TRACE 1 #define MPI3MR_HDB_BUFTYPE_FIRMWARE 2 #define MPI3MR_HDB_BUFTYPE_RESERVED 3 #define MPI3MR_HDB_BUFSTATUS_UNKNOWN 0 #define MPI3MR_HDB_BUFSTATUS_NOT_ALLOCATED 1 #define MPI3MR_HDB_BUFSTATUS_POSTED_UNPAUSED 2 #define MPI3MR_HDB_BUFSTATUS_POSTED_PAUSED 3 #define MPI3MR_HDB_BUFSTATUS_RELEASED 4 #define MPI3MR_HDB_TRIGGER_TYPE_UNKNOWN 0 #define MPI3MR_HDB_TRIGGER_TYPE_DIAGFAULT 1 #define MPI3MR_HDB_TRIGGER_TYPE_ELEMENT 2 #define MPI3MR_HDB_TRIGGER_TYPE_MASTER 3 / Supported BSG commands / enum command { MPI3MR_DRV_CMD = 1, MPI3MR_MPT_CMD = 2, }; /* * struct mpi3_driver_info_layout - Information about driver * * @information_length: Length of this structure in bytes * @driver_signature: Driver Vendor name * @os_name: Operating System Name * @driver_name: Driver name * @driver_version: Driver version * @driver_release_date: Driver release date * @driver_capabilities: Driver capabilities / struct mpi3_driver_info_layout { __le32 information_length; __u8 driver_signature[12]; __u8 os_name[16]; __u8 os_version[12]; __u8 driver_name[20]; __u8 driver_version[32]; __u8 driver_release_date[20]; __le32 driver_capabilities; }; /* * struct mpi3mr_bsg_in_adpinfo - Adapter information request * data returned by the driver. * * @adp_type: Adapter type * @rsvd1: Reserved * @pci_dev_id: PCI device ID of the adapter * @pci_dev_hw_rev: PCI revision of the adapter * @pci_subsys_dev_id: PCI subsystem device ID of the adapter * @pci_subsys_ven_id: PCI subsystem vendor ID of the adapter * @pci_dev: PCI device * @pci_func: PCI function * @pci_bus: PCI bus * @rsvd2: Reserved * @pci_seg_id: PCI segment ID * @app_intfc_ver: version of the application interface definition * @rsvd3: Reserved * @rsvd4: Reserved * @rsvd5: Reserved * @driver_info: Driver Information (Version/Name) / struct mpi3mr_bsg_in_adpinfo { __u32 adp_type; __u32 rsvd1; __u32 pci_dev_id; __u32 pci_dev_hw_rev; __u32 pci_subsys_dev_id; __u32 pci_subsys_ven_id; __u32 pci_dev:5; __u32 pci_func:3; __u32 pci_bus:8; __u16 rsvd2; __u32 pci_seg_id; __u32 app_intfc_ver; __u8 adp_state; __u8 rsvd3; __u16 rsvd4; __u32 rsvd5[2]; struct mpi3_driver_info_layout driver_info; }; /* * struct mpi3mr_bsg_adp_reset - Adapter reset request * payload data to the driver. * * @reset_type: Reset type * @rsvd1: Reserved * @rsvd2: Reserved / struct mpi3mr_bsg_adp_reset { __u8 reset_type; __u8 rsvd1; __u16 rsvd2; }; /* * struct mpi3mr_change_count - Topology change count * returned by the driver. * * @change_count: Topology change count * @rsvd: Reserved / struct mpi3mr_change_count { __u16 change_count; __u16 rsvd; }; /* * struct mpi3mr_device_map_info - Target device mapping * information * * @handle: Firmware device handle * @perst_id: Persistent ID assigned by the firmware * @target_id: Target ID assigned by the driver * @bus_id: Bus ID assigned by the driver * @rsvd1: Reserved * @rsvd2: Reserved / struct mpi3mr_device_map_info { __u16 handle; __u16 perst_id; __u32 target_id; __u8 bus_id; __u8 rsvd1; __u16 rsvd2; }; /* * struct mpi3mr_all_tgt_info - Target device mapping * information returned by the driver * * @num_devices: The number of devices in driver's inventory * @rsvd1: Reserved * @rsvd2: Reserved * @dmi: Variable length array of mapping information of targets / struct mpi3mr_all_tgt_info { __u16 num_devices; __u16 rsvd1; __u32 rsvd2; struct mpi3mr_device_map_info dmi[1]; }; /* * struct mpi3mr_logdata_enable - Number of log data * entries saved by the driver returned as payload data for * enable logdata BSG request by the driver. * * @max_entries: Number of log data entries cached by the driver * @rsvd: Reserved / struct mpi3mr_logdata_enable { __u16 max_entries; __u16 rsvd; }; /* * struct mpi3mr_bsg_out_pel_enable - PEL enable request payload * data to the driver. * * @pel_locale: PEL locale to the firmware * @pel_class: PEL class to the firmware * @rsvd: Reserved / struct mpi3mr_bsg_out_pel_enable { __u16 pel_locale; __u8 pel_class; __u8 rsvd; }; /* * struct mpi3mr_logdata_entry - Log data entry cached by the * driver. * * @valid_entry: Is the entry valid * @rsvd1: Reserved * @rsvd2: Reserved * @data: Variable length Log entry data / struct mpi3mr_logdata_entry { __u8 valid_entry; __u8 rsvd1; __u16 rsvd2; __u8 data[1]; / Variable length Array / }; /* * struct mpi3mr_bsg_in_log_data - Log data entries saved by * the driver returned as payload data for Get logdata request * by the driver. * * @entry: Variable length Log data entry array / struct mpi3mr_bsg_in_log_data { struct mpi3mr_logdata_entry entry[1]; }; /* * struct mpi3mr_hdb_entry - host diag buffer entry. * * @buf_type: Buffer type * @status: Buffer status * @trigger_type: Trigger type * @rsvd1: Reserved * @size: Buffer size * @rsvd2: Reserved * @trigger_data: Trigger specific data * @rsvd3: Reserved * @rsvd4: Reserved / struct mpi3mr_hdb_entry { __u8 buf_type; __u8 status; __u8 trigger_type; __u8 rsvd1; __u16 size; __u16 rsvd2; __u64 trigger_data; __u32 rsvd3; __u32 rsvd4; }; /* * struct mpi3mr_bsg_in_hdb_status - This structure contains * return data for the BSG request to retrieve the number of host * diagnostic buffers supported by the driver and their current * status and additional status specific data if any in forms of * multiple hdb entries. * * @num_hdb_types: Number of host diag buffer types supported * @element_trigger_format: Element trigger format * @rsvd1: Reserved * @rsvd2: Reserved * @rsvd3: Reserved * @entry: Variable length Diag buffer status entry array / struct mpi3mr_bsg_in_hdb_status { __u8 num_hdb_types; __u8 element_trigger_format; __u16 rsvd2; __u32 rsvd3; struct mpi3mr_hdb_entry entry[1]; }; /* * struct mpi3mr_bsg_out_repost_hdb - Repost host diagnostic * buffer request payload data to the driver. * * @buf_type: Buffer type * @rsvd1: Reserved * @rsvd2: Reserved / struct mpi3mr_bsg_out_repost_hdb { __u8 buf_type; __u8 rsvd1; __u16 rsvd2; }; /* * struct mpi3mr_bsg_out_upload_hdb - Upload host diagnostic * buffer request payload data to the driver. * * @buf_type: Buffer type * @rsvd1: Reserved * @rsvd2: Reserved * @start_offset: Start offset of the buffer from where to copy * @length: Length of the buffer to copy / struct mpi3mr_bsg_out_upload_hdb { __u8 buf_type; __u8 rsvd1; __u16 rsvd2; __u32 start_offset; __u32 length; }; /* * struct mpi3mr_bsg_out_refresh_hdb_triggers - Refresh host * diagnostic buffer triggers request payload data to the driver. * * @page_type: Page type * @rsvd1: Reserved * @rsvd2: Reserved / struct mpi3mr_bsg_out_refresh_hdb_triggers { __u8 page_type; __u8 rsvd1; __u16 rsvd2; }; /* * struct mpi3mr_bsg_drv_cmd - Generic bsg data * structure for all driver specific requests. * * @mrioc_id: Controller ID * @opcode: Driver specific opcode * @rsvd1: Reserved * @rsvd2: Reserved / struct mpi3mr_bsg_drv_cmd { __u8 mrioc_id; __u8 opcode; __u16 rsvd1; __u32 rsvd2[4]; }; /* * struct mpi3mr_bsg_in_reply_buf - MPI reply buffer returned * for MPI Passthrough request . * * @mpi_reply_type: Type of MPI reply * @rsvd1: Reserved * @rsvd2: Reserved * @reply_buf: Variable Length buffer based on mpirep type / struct mpi3mr_bsg_in_reply_buf { __u8 mpi_reply_type; __u8 rsvd1; __u16 rsvd2; __u8 reply_buf[]; }; /* * struct mpi3mr_buf_entry - User buffer descriptor for MPI * Passthrough requests. * * @buf_type: Buffer type * @rsvd1: Reserved * @rsvd2: Reserved * @buf_len: Buffer length / struct mpi3mr_buf_entry { __u8 buf_type; __u8 rsvd1; __u16 rsvd2; __u32 buf_len; }; /* * struct mpi3mr_buf_entry_list - list of user buffer * descriptor for MPI Passthrough requests. * * @num_of_entries: Number of buffer descriptors * @rsvd1: Reserved * @rsvd2: Reserved * @rsvd3: Reserved * @buf_entry: Variable length array of buffer descriptors / struct mpi3mr_buf_entry_list { __u8 num_of_entries; __u8 rsvd1; __u16 rsvd2; __u32 rsvd3; struct mpi3mr_buf_entry buf_entry[1]; }; /* * struct mpi3mr_bsg_mptcmd - Generic bsg data * structure for all MPI Passthrough requests . * * @mrioc_id: Controller ID * @rsvd1: Reserved * @timeout: MPI request timeout * @rsvd2: Reserved * @buf_entry_list: Buffer descriptor list / struct mpi3mr_bsg_mptcmd { __u8 mrioc_id; __u8 rsvd1; __u16 timeout; __u32 rsvd2; struct mpi3mr_buf_entry_list buf_entry_list; }; /* * struct mpi3mr_bsg_packet - Generic bsg data * structure for all supported requests . * * @cmd_type: represents drvrcmd or mptcmd * @rsvd1: Reserved * @rsvd2: Reserved * @rsvd3: Reserved * @cmd.drvrcmd: driver request structure * @cmd.mptcmd: mpt request structure / struct mpi3mr_bsg_packet { __u8 cmd_type; __u8 rsvd1; __u16 rsvd2; __u32 rsvd3; union { struct mpi3mr_bsg_drv_cmd drvrcmd; struct mpi3mr_bsg_mptcmd mptcmd; } cmd; }; struct mpi3_nvme_encapsulated_request { __le16 host_tag; __u8 ioc_use_only02; __u8 function; __le16 ioc_use_only04; __u8 ioc_use_only06; __u8 msg_flags; __le16 change_count; __le16 dev_handle; __le16 encapsulated_command_length; __le16 flags; __le32 data_length; __le32 reserved14[3]; __le32 command[]; }; struct mpi3_nvme_encapsulated_error_reply { __le16 host_tag; __u8 ioc_use_only02; __u8 function; __le16 ioc_use_only04; __u8 ioc_use_only06; __u8 msg_flags; __le16 ioc_use_only08; __le16 ioc_status; __le32 ioc_log_info; __le32 nvme_completion_entry[4]; }; #define MPI3MR_NVME_PRP_SIZE 8 / PRP size / #define MPI3MR_NVME_CMD_PRP1_OFFSET 24 / PRP1 offset in NVMe cmd / #define MPI3MR_NVME_CMD_PRP2_OFFSET 32 / PRP2 offset in NVMe cmd / #define MPI3MR_NVME_CMD_SGL_OFFSET 24 / SGL offset in NVMe cmd / #define MPI3MR_NVME_DATA_FORMAT_PRP 0 #define MPI3MR_NVME_DATA_FORMAT_SGL1 1 #define MPI3MR_NVME_DATA_FORMAT_SGL2 2 #define MPI3MR_NVMESGL_DATA_SEGMENT 0x00 #define MPI3MR_NVMESGL_LAST_SEGMENT 0x03 / MPI3: task management related definitions / struct mpi3_scsi_task_mgmt_request { __le16 host_tag; __u8 ioc_use_only02; __u8 function; __le16 ioc_use_only04; __u8 ioc_use_only06; __u8 msg_flags; __le16 change_count; __le16 dev_handle; __le16 task_host_tag; __u8 task_type; __u8 reserved0f; __le16 task_request_queue_id; __le16 reserved12; __le32 reserved14; __u8 lun[8]; }; #define MPI3_SCSITASKMGMT_MSGFLAGS_DO_NOT_SEND_TASK_IU (0x08) #define MPI3_SCSITASKMGMT_TASKTYPE_ABORT_TASK (0x01) #define MPI3_SCSITASKMGMT_TASKTYPE_ABORT_TASK_SET (0x02) #define MPI3_SCSITASKMGMT_TASKTYPE_TARGET_RESET (0x03) #define MPI3_SCSITASKMGMT_TASKTYPE_LOGICAL_UNIT_RESET (0x05) #define MPI3_SCSITASKMGMT_TASKTYPE_CLEAR_TASK_SET (0x06) #define MPI3_SCSITASKMGMT_TASKTYPE_QUERY_TASK (0x07) #define MPI3_SCSITASKMGMT_TASKTYPE_CLEAR_ACA (0x08) #define MPI3_SCSITASKMGMT_TASKTYPE_QUERY_TASK_SET (0x09) #define MPI3_SCSITASKMGMT_TASKTYPE_QUERY_ASYNC_EVENT (0x0a) #define MPI3_SCSITASKMGMT_TASKTYPE_I_T_NEXUS_RESET (0x0b) struct mpi3_scsi_task_mgmt_reply { __le16 host_tag; __u8 ioc_use_only02; __u8 function; __le16 ioc_use_only04; __u8 ioc_use_only06; __u8 msg_flags; __le16 ioc_use_only08; __le16 ioc_status; __le32 ioc_log_info; __le32 termination_count; __le32 response_data; __le32 reserved18; }; #define MPI3_SCSITASKMGMT_RSPCODE_TM_COMPLETE (0x00) #define MPI3_SCSITASKMGMT_RSPCODE_INVALID_FRAME (0x02) #define MPI3_SCSITASKMGMT_RSPCODE_TM_FUNCTION_NOT_SUPPORTED (0x04) #define MPI3_SCSITASKMGMT_RSPCODE_TM_FAILED (0x05) #define MPI3_SCSITASKMGMT_RSPCODE_TM_SUCCEEDED (0x08) #define MPI3_SCSITASKMGMT_RSPCODE_TM_INVALID_LUN (0x09) #define MPI3_SCSITASKMGMT_RSPCODE_TM_OVERLAPPED_TAG (0x0a) #define MPI3_SCSITASKMGMT_RSPCODE_IO_QUEUED_ON_IOC (0x80) #define MPI3_SCSITASKMGMT_RSPCODE_TM_NVME_DENIED (0x81) / MPI3: PEL related definitions / #define MPI3_PEL_LOCALE_FLAGS_NON_BLOCKING_BOOT_EVENT (0x0200) #define MPI3_PEL_LOCALE_FLAGS_BLOCKING_BOOT_EVENT (0x0100) #define MPI3_PEL_LOCALE_FLAGS_PCIE (0x0080) #define MPI3_PEL_LOCALE_FLAGS_CONFIGURATION (0x0040) #define MPI3_PEL_LOCALE_FLAGS_CONTROLER (0x0020) #define MPI3_PEL_LOCALE_FLAGS_SAS (0x0010) #define MPI3_PEL_LOCALE_FLAGS_EPACK (0x0008) #define MPI3_PEL_LOCALE_FLAGS_ENCLOSURE (0x0004) #define MPI3_PEL_LOCALE_FLAGS_PD (0x0002) #define MPI3_PEL_LOCALE_FLAGS_VD (0x0001) #define MPI3_PEL_CLASS_DEBUG (0x00) #define MPI3_PEL_CLASS_PROGRESS (0x01) #define MPI3_PEL_CLASS_INFORMATIONAL (0x02) #define MPI3_PEL_CLASS_WARNING (0x03) #define MPI3_PEL_CLASS_CRITICAL (0x04) #define MPI3_PEL_CLASS_FATAL (0x05) #define MPI3_PEL_CLASS_FAULT (0x06) / MPI3: Function definitions */ #define MPI3_BSG_FUNCTION_MGMT_PASSTHROUGH (0x0a) #define MPI3_BSG_FUNCTION_SCSI_IO (0x20) #define MPI3_BSG_FUNCTION_SCSI_TASK_MGMT (0x21) #define MPI3_BSG_FUNCTION_SMP_PASSTHROUGH (0x22) #define MPI3_BSG_FUNCTION_NVME_ENCAPSULATED (0x24) #endif PK��Q �[�S-��-��sg/debugnu��6�$��PK��Q �[,�� e��sg/devicesnu��6�$��PK��Q �[��K{�� sg/versionnu��6�$��PK��Q �[�J~��sg/allow_dionu��[��PK��Q �[_/��/�� C��sg/device_hdrnu��6�$��PK��Q �[E5��sg/device_strsnu��6�$��PK��Q �[�3�R��sg/def_reserved_sizenu��[��PK��Q �[ߒ[��V��scsinu��6�$��PK��Q �[�_FO��;��device_infonu��6�$��PK��6�[KYt��2��scsi_bsg_ufs.hnu��[��PK��6�[8Iט[��[�� +��scsi_bsg_fc.hnu��[��PK��6�[29��-��-��K��sg.hnu��[��PK��6�[u熊$��$��Yy��scsi_ioctl.hnu��[��PK��6�[��:��:��~��scsi.hnu��[��PK��6�[G3ۍ0��0��)��scsi_netlink_fc.hnu��[��PK��6�[�d�� fc/fc_gs.hnu��[��PK��6�[�!c��-��-�� fc/fc_fs.hnu��[��PK��6�[@3�� \|��fc/fc_ns.hnu��[��PK��6�[\��fc/fc_els.hnu��[��PK��6�[?�Z��Z��scsi_netlink.hnu��[��PK��6�[�`J�'��'��\|��cxlflash_ioctl.hnu��[��PK��6�[< ��<��<��t��scsi_bsg_mpi3mr.hnu��[��PK��}��

| ver. 1.6 | Github | . | PHP 8.2.30 | ??????????? ?????????: 0 | proxy | phpinfo | ???????????