/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2000 by Cisco Systems, Inc. All rights reserved. * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _ISCSI_H #define _ISCSI_H /* * Block comment which describes the contents of this file. */ #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef MIN #define MIN(a, b) ((a) < (b) ? (a) : (b)) #endif #ifndef TRUE #define TRUE 1 #endif #ifndef FALSE #define FALSE 0 #endif #define LOGIN_PDU_BUFFER_SIZE (16 * 1024) /* move somewhere else */ /* * Name Format of the different Task Queues */ #define ISCSI_SESS_IOTH_NAME_FORMAT "io_thrd_%d.%d" #define ISCSI_SESS_WD_NAME_FORMAT "wd_thrd_%d.%d" #define ISCSI_SESS_LOGIN_TASKQ_NAME_FORMAT "login_taskq_%d.%d" #define ISCSI_CONN_RXTH_NAME_FORMAT "rx_thrd_%d.%d.%d" #define ISCSI_CONN_TXTH_NAME_FORMAT "tx_thrd_%d.%d.%d" /* * The iSCSI driver will not build scatter/gather lists (iovec) longer * than the value defined here. Asserts have been include in the code * to check. */ #define ISCSI_MAX_IOVEC 5 #define ISCSI_DEFAULT_MAX_STORM_DELAY 32 /* * The SNDBUF and RCVBUF size parameters for the sockets are just a * guess for the time being (I think it is the values used by CISCO * or UNH). Testing will have to be done to figure * out the impact * of these values on performance. */ #define ISCSI_SOCKET_SNDBUF_SIZE (256 * 1024) #define ISCSI_SOCKET_RCVBUF_SIZE (256 * 1024) #define ISCSI_TCP_NODELAY_DEFAULT 0 #define ISCSI_TCP_CNOTIFY_THRESHOLD_DEFAULT 2000 #define ISCSI_TCP_CABORT_THRESHOLD_DEFAULT 10000 #define ISCSI_TCP_ABORT_THRESHOLD_DEFAULT (30 * 1000) /* milliseconds */ #define ISNS_TCP_ABORT_THRESHOLD_DEFAULT (3 * 1000) /* milliseconds */ /* * timeout value in seconds that we will poll and wait for data to be return * from the device */ #define ISCSI_RX_TIMEOUT_VALUE 60 /* * Convenient short hand defines */ #define TARGET_PROP "target" #define LUN_PROP "lun" #define MDI_GUID "wwn" #define NDI_GUID "client-guid" #define ISCSI_SIG_CMD 0x11111111 #define ISCSI_SIG_LUN 0x22222222 #define ISCSI_SIG_CONN 0x33333333 #define ISCSI_SIG_SESS 0x44444444 #define ISCSI_SIG_HBA 0x55555555 #define SENDTARGETS_DISCOVERY "SENDTARGETS_DISCOVERY" #define ISCSI_LUN_MASK_MSB 0x00003f00 #define ISCSI_LUN_MASK_LSB 0x000000ff #define ISCSI_LUN_BYTE_COPY(lun, report_lun_data) \ lun[0] = (report_lun_data & ISCSI_LUN_MASK_MSB) >> 8; \ lun[1] = (report_lun_data & ISCSI_LUN_MASK_LSB); /* * Not defined by iSCSI, but used in the login code to * determine when to send the initial Login PDU */ #define ISCSI_INITIAL_LOGIN_STAGE -1 typedef enum iscsi_status { /* Success */ ISCSI_STATUS_SUCCESS = 0, /* Driver / Kernel / Code error */ ISCSI_STATUS_INTERNAL_ERROR, /* ITT table is already full, unable to reserve slot */ ISCSI_STATUS_ITT_TABLE_FULL, /* Login on connection failed */ ISCSI_STATUS_LOGIN_FAILED, /* No connections are in the LOGGED_IN state */ ISCSI_STATUS_NO_CONN_LOGGED_IN, /* TCP Transfer Error */ ISCSI_STATUS_TCP_TX_ERROR, /* TCP Receive Error */ ISCSI_STATUS_TCP_RX_ERROR, /* iSCSI packet RCV timeout */ ISCSI_STATUS_RX_TIMEOUT, /* iSCSI Header Digest CRC error */ ISCSI_STATUS_HEADER_DIGEST_ERROR, /* iSCSI Data Digest CRC error */ ISCSI_STATUS_DATA_DIGEST_ERROR, /* kmem_alloc failure */ ISCSI_STATUS_ALLOC_FAILURE, /* cmd (tran_abort/reset) failed */ ISCSI_STATUS_CMD_FAILED, /* iSCSI protocol error */ ISCSI_STATUS_PROTOCOL_ERROR, /* iSCSI protocol version mismatch */ ISCSI_STATUS_VERSION_MISMATCH, /* iSCSI login negotiation failed */ ISCSI_STATUS_NEGO_FAIL, /* iSCSI login authentication failed */ ISCSI_STATUS_AUTHENTICATION_FAILED, /* iSCSI login redirection failed */ ISCSI_STATUS_REDIRECTION_FAILED, /* iSCSI uscsi status failure */ ISCSI_STATUS_USCSI_FAILED, /* data received would have overflowed given buffer */ ISCSI_STATUS_DATA_OVERFLOW, /* session/connection needs to shutdown */ ISCSI_STATUS_SHUTDOWN, /* logical unit in use */ ISCSI_STATUS_BUSY } iscsi_status_t; #define ISCSI_SUCCESS(status) (status == ISCSI_STATUS_SUCCESS) /* SNA32 check value used on increment of CmdSn values */ #define ISCSI_SNA32_CHECK 2147483648UL /* 2**31 */ /* * This is the maximum number of commands that can be outstanding * on a iSCSI session at anyone point in time. */ #define ISCSI_CMD_TABLE_SIZE 1024 /* Used on connections thread create of receiver thread */ extern pri_t minclsyspri; /* * Callers of iscsid_config_one/all must hold this * semaphore across the calls. Otherwise a ndi_devi_enter() * deadlock in the DDI layer may occur. */ extern ksema_t iscsid_config_semaphore; extern kmutex_t iscsi_oid_mutex; extern uint32_t iscsi_oid; extern void *iscsi_state; /* * NOP delay is used to send a iSCSI NOP (ie. ping) across the * wire to see if the target is still alive. NOPs are only * sent when the RX thread hasn't received anything for the * below amount of time. */ #define ISCSI_DEFAULT_NOP_DELAY 5 /* seconds */ extern int iscsi_nop_delay; /* * If we haven't received anything in a specified period of time * we will stop accepting IO via tran start. This will enable * upper level drivers to see we might be having a problem and * in the case of scsi_vhci will start to route IO down a better * path. */ #define ISCSI_DEFAULT_RX_WINDOW 20 /* seconds */ extern int iscsi_rx_window; /* * If we haven't received anything in a specified period of time * we will stop accepting IO via tran start. This the max limit * when encountered we will start returning a fatal error. */ #define ISCSI_DEFAULT_RX_MAX_WINDOW 180 /* seconds */ extern int iscsi_rx_max_window; /* * +--------------------------------------------------------------------+ * | iSCSI Driver Structures | * +--------------------------------------------------------------------+ */ /* * iSCSI Auth Information */ typedef struct iscsi_auth { IscsiAuthStringBlock auth_recv_string_block; IscsiAuthStringBlock auth_send_string_block; IscsiAuthLargeBinary auth_recv_binary_block; IscsiAuthLargeBinary auth_send_binary_block; IscsiAuthClient auth_client_block; int num_auth_buffers; IscsiAuthBufferDesc auth_buffers[5]; /* * To indicate if bi-directional authentication is enabled. * 0 means uni-directional authentication. * 1 means bi-directional authentication. */ int bidirectional_auth; /* Initiator's authentication information. */ char username[iscsiAuthStringMaxLength]; uint8_t password[iscsiAuthStringMaxLength]; int password_length; /* Target's authentication information. */ char username_in[iscsiAuthStringMaxLength]; uint8_t password_in[iscsiAuthStringMaxLength]; int password_length_in; } iscsi_auth_t; /* * iSCSI Task */ typedef struct iscsi_task { void *t_arg; boolean_t t_blocking; } iscsi_task_t; /* * These are all the iscsi_cmd types that we use to track our * commands between queues and actions. */ typedef enum iscsi_cmd_type { ISCSI_CMD_TYPE_SCSI = 1, /* scsi cmd */ ISCSI_CMD_TYPE_R2T, /* r2t */ ISCSI_CMD_TYPE_NOP, /* nop / ping */ ISCSI_CMD_TYPE_ABORT, /* abort */ ISCSI_CMD_TYPE_RESET, /* reset */ ISCSI_CMD_TYPE_LOGOUT, /* logout */ ISCSI_CMD_TYPE_LOGIN, /* login */ ISCSI_CMD_TYPE_TEXT /* text */ } iscsi_cmd_type_t; /* * iscsi_cmd_state - (reference iscsi_cmd.c for state diagram) */ typedef enum iscsi_cmd_state { ISCSI_CMD_STATE_FREE, ISCSI_CMD_STATE_PENDING, ISCSI_CMD_STATE_ACTIVE, ISCSI_CMD_STATE_ABORTING, ISCSI_CMD_STATE_COMPLETED } iscsi_cmd_state_t; /* * iscsi command events */ typedef enum iscsi_cmd_event { ISCSI_CMD_EVENT_E1, ISCSI_CMD_EVENT_E2, ISCSI_CMD_EVENT_E3, ISCSI_CMD_EVENT_E4, ISCSI_CMD_EVENT_E6, ISCSI_CMD_EVENT_E7, ISCSI_CMD_EVENT_E8 } iscsi_cmd_event_t; /* * iscsi text command stages - these stages are used by iSCSI text * processing to manage long resonses. */ typedef enum iscsi_cmd_text_stage { ISCSI_CMD_TEXT_INITIAL_REQ, ISCSI_CMD_TEXT_CONTINUATION, ISCSI_CMD_TEXT_FINAL_RSP } iscsi_cmd_text_stage_t; /* * iSCSI cmd/pkt Structure */ typedef struct iscsi_cmd { uint32_t cmd_sig; struct iscsi_cmd *cmd_prev; struct iscsi_cmd *cmd_next; struct iscsi_conn *cmd_conn; iscsi_cmd_type_t cmd_type; iscsi_cmd_state_t cmd_state; iscsi_cmd_state_t cmd_prev_state; clock_t cmd_lbolt_pending; clock_t cmd_lbolt_active; clock_t cmd_lbolt_aborting; clock_t cmd_lbolt_timeout; boolean_t cmd_internal; boolean_t cmd_free; union { /* ISCSI_CMD_TYPE_SCSI */ struct { struct scsi_pkt *pkt; struct buf *bp; int cmdlen; int statuslen; size_t data_transferred; uint32_t lun; /* * If SCSI_CMD_TYPE is in ABORTING_STATE * then the abort_icmdp field will be a pointer * to the abort command chasing this one. */ struct iscsi_cmd *abort_icmdp; /* * pointer to the r2t associated with this * command (if any) */ struct iscsi_cmd *r2t_icmdp; } scsi; /* ISCSI_CMD_TYPE_ABORT */ struct { /* pointer to original iscsi_cmd, for abort */ struct iscsi_cmd *icmdp; } abort; /* ISCSI_CMD_TYPE_RESET */ struct { int level; } reset; /* ISCSI_CMD_TYPE_NOP */ struct { int rsvd; } nop; /* ISCSI_CMD_TYPE_R2T */ struct { struct iscsi_cmd *icmdp; uint32_t offset; uint32_t length; } r2t; /* ISCSI_CMD_TYPE_LOGIN */ struct { int rvsd; } login; /* ISCSI_CMD_TYPE_LOGOUT */ struct { int rsvd; } logout; /* ISCSI_CMD_TYPE_TEXT */ struct { char *buf; int buf_len; uint32_t offset; uint32_t data_len; uint32_t total_rx_len; uint32_t ttt; uint8_t lun[8]; iscsi_cmd_text_stage_t stage; } text; } cmd_un; struct iscsi_lun *cmd_lun; /* associated lun */ uint32_t cmd_itt; uint32_t cmd_ttt; /* * If a data digest error is seem on a data pdu. This flag * will get set. We don't abort the cmd immediately because * we want to read in all the data to get it out of the * stream. Once the completion for the cmd is received we * we will abort the cmd and state no sense data was available. */ boolean_t cmd_crc_error_seen; /* * Used to block and wake up caller until action is completed. * This is for ABORT, RESET, and PASSTHRU cmds. */ int cmd_result; int cmd_completed; kmutex_t cmd_mutex; kcondvar_t cmd_completion; } iscsi_cmd_t; /* * iSCSI LUN Structure */ typedef struct iscsi_lun { uint32_t lun_sig; int lun_state; struct iscsi_lun *lun_next; /* next lun on this sess. */ struct iscsi_sess *lun_sess; /* parent sess. for lun */ dev_info_t *lun_dip; mdi_pathinfo_t *lun_pip; uint16_t lun_num; /* LUN */ uint8_t lun_addr_type; /* LUN addressing type */ uint32_t lun_oid; /* OID */ char *lun_guid; /* GUID */ int lun_guid_size; /* GUID allocation size */ char *lun_addr; /* sess,lun */ time_t lun_time_online; uchar_t lun_cap; /* bitmap of scsi caps */ uchar_t lun_vid[ISCSI_INQ_VID_BUF_LEN]; /* Vendor ID */ uchar_t lun_pid[ISCSI_INQ_PID_BUF_LEN]; /* Product ID */ } iscsi_lun_t; #define ISCSI_LUN_STATE_OFFLINE 0 #define ISCSI_LUN_STATE_ONLINE 1 #define ISCSI_LUN_CAP_RESET 0x01 /* * iscsi_conn_state - (reference iscsi_conn.c for state diagram) */ typedef enum iscsi_conn_state { ISCSI_CONN_STATE_FREE, ISCSI_CONN_STATE_IN_LOGIN, ISCSI_CONN_STATE_LOGGED_IN, ISCSI_CONN_STATE_IN_LOGOUT, ISCSI_CONN_STATE_FAILED, ISCSI_CONN_STATE_POLLING } iscsi_conn_state_t; #define ISCSI_CONN_STATE_FULL_FEATURE(state) \ ((state == ISCSI_CONN_STATE_LOGGED_IN) || \ (state == ISCSI_CONN_STATE_IN_LOGOUT)) /* * iscsi connection events - (reference iscsi_conn.c for state diagram) */ typedef enum iscsi_conn_event { ISCSI_CONN_EVENT_T1, ISCSI_CONN_EVENT_T5, ISCSI_CONN_EVENT_T7, ISCSI_CONN_EVENT_T8, ISCSI_CONN_EVENT_T9, ISCSI_CONN_EVENT_T11, ISCSI_CONN_EVENT_T12, ISCSI_CONN_EVENT_T13, ISCSI_CONN_EVENT_T14, ISCSI_CONN_EVENT_T15, ISCSI_CONN_EVENT_T17, ISCSI_CONN_EVENT_T30 } iscsi_conn_event_t; /* * * */ typedef struct iscsi_queue { iscsi_cmd_t *head; iscsi_cmd_t *tail; int count; kmutex_t mutex; } iscsi_queue_t; #define ISCSI_CONN_DEFAULT_LOGIN_MIN 0 #define ISCSI_CONN_DEFAULT_LOGIN_MAX 180 #define ISCSI_CONN_DEFAULT_LOGIN_REDIRECT 10 typedef union iscsi_sockaddr { struct sockaddr sin; struct sockaddr_in sin4; struct sockaddr_in6 sin6; } iscsi_sockaddr_t; #define SIZEOF_SOCKADDR(so) ((so)->sa_family == AF_INET ? \ sizeof (struct sockaddr_in) : sizeof (struct sockaddr_in6)) /* * iSCSI Connection Structure */ typedef struct iscsi_conn { uint32_t conn_sig; struct iscsi_conn *conn_next; /* next conn on this sess. */ struct iscsi_sess *conn_sess; /* parent sess. for conn. */ iscsi_conn_state_t conn_state; /* cur. conn. driver state */ iscsi_conn_state_t conn_prev_state; /* prev. conn. driver state */ clock_t conn_state_lbolt; /* protects the session state and synchronizes the state machine */ kmutex_t conn_state_mutex; kcondvar_t conn_state_change; boolean_t conn_state_destroy; struct sonode *conn_socket; /* aka. kernel net. socket */ /* base connection information */ iscsi_sockaddr_t conn_base_addr; /* current connection information, may have been redirected */ iscsi_sockaddr_t conn_curr_addr; /* current connection information, may have been redirected */ boolean_t conn_bound; iscsi_sockaddr_t conn_bound_addr; uint32_t conn_cid; /* CID */ uint32_t conn_oid; /* OID */ int conn_current_stage; /* iSCSI login stage */ int conn_next_stage; /* iSCSI login stage */ int conn_partial_response; /* * The active queue contains iscsi_cmds that have already * been sent on this connection. Any future responses to * these cmds require alligence to this connection. If there * are issues with these cmds the command may need aborted * depending on the command type, and must be put back into * the session's pending queue or aborted. */ iscsi_queue_t conn_queue_active; /* lbolt from the last receive, used for nop processing */ clock_t conn_rx_lbolt; clock_t conn_nop_lbolt; iscsi_thread_t *conn_rx_thread; iscsi_thread_t *conn_tx_thread; /* * The expstatsn is the command status sn that is expected * next from the target. Command status is carried on a number * of iSCSI PDUs (ex. SCSI Cmd Response, SCSI Data IN with * S-Bit set, ...), not all PDUs. If our expstatsn is different * than the received statsn. Something got out of sync we need to * recover. */ uint32_t conn_expstatsn; uint32_t conn_laststatsn; /* active login parameters */ iscsi_login_params_t conn_params; /* Statistics */ struct { kstat_t *ks; iscsi_conn_stats_t ks_data; } stats; /* * login min and max identify the amount of time * in lbolt that iscsi_start_login() should attempt * to log into a target portal. The login will * delay until the min lbolt has been reached and * will end once max time has been reached. These * values are normally set to the default but can * are also altered by async commands received from * the targetlogin. */ clock_t conn_login_min; clock_t conn_login_max; } iscsi_conn_t; /* * iscsi_conn_state - (reference iscsi_sess.c for state diagram) */ typedef enum iscsi_sess_state { ISCSI_SESS_STATE_FREE, ISCSI_SESS_STATE_LOGGED_IN, ISCSI_SESS_STATE_FAILED, ISCSI_SESS_STATE_IN_FLUSH, ISCSI_SESS_STATE_FLUSHED } iscsi_sess_state_t; #define ISCSI_SESS_STATE_FULL_FEATURE(state) \ ((state == ISCSI_SESS_STATE_LOGGED_IN) || \ (state == ISCSI_SESS_STATE_IN_FLUSH)) typedef enum iscsi_sess_event { ISCSI_SESS_EVENT_N1, ISCSI_SESS_EVENT_N3, ISCSI_SESS_EVENT_N5, ISCSI_SESS_EVENT_N6, ISCSI_SESS_EVENT_N7 } iscsi_sess_event_t; typedef enum iscsi_sess_type { ISCSI_SESS_TYPE_NORMAL, ISCSI_SESS_TYPE_DISCOVERY } iscsi_sess_type_t; #define SESS_ABORT_TASK_MAX_THREADS 1 /* Sun's initiator session ID */ #define ISCSI_SUN_ISID_0 0x40 /* ISID - EN format */ #define ISCSI_SUN_ISID_1 0x00 /* Sec B */ #define ISCSI_SUN_ISID_2 0x00 /* Sec B */ #define ISCSI_SUN_ISID_3 0x2A /* Sec C - 42 = Sun's EN */ /* * defines 4-5 are the reserved values. These reserved values * are used as the ISID for an initiator-port in MP-API and used * for the send targets discovery sessions. Byte 5 is overridden * for full feature sessions. The default values of byte 5 for a * full feature session is 0. When MS/T is enabled with more than * one session this byte 5 will increment > 0 up to * ISCSI_MAX_CONFIG_SESSIONS. */ #define ISCSI_SUN_ISID_4 0x00 #define ISCSI_SUN_ISID_5 0xFF #define ISCSI_DEFAULT_SESS_BOUND B_FALSE #define ISCSI_DEFAULT_SESS_NUM 1 /* * iSCSI Session(Target) Structure */ typedef struct iscsi_sess { uint32_t sess_sig; iscsi_sess_state_t sess_state; iscsi_sess_state_t sess_prev_state; clock_t sess_state_lbolt; /* protects the session state and synchronizes the state machine */ kmutex_t sess_state_mutex; /* * Associated target OID. */ uint32_t sess_target_oid; /* * Session OID. Used by IMA, interfaces and exported as * TARGET_PROP which is checked by the NDI. In addition * this is used in our tran_lun_init function. */ uint32_t sess_oid; struct iscsi_sess *sess_next; struct iscsi_hba *sess_hba; /* list of all luns relating to session */ struct iscsi_lun *sess_lun_list; krwlock_t sess_lun_list_rwlock; /* list of all connections relating to session */ struct iscsi_conn *sess_conn_list; struct iscsi_conn *sess_conn_list_last_ptr; /* pointer to active connection in session */ struct iscsi_conn *sess_conn_act; krwlock_t sess_conn_list_rwlock; /* Connection ID for next connection to be added to session */ uint32_t sess_conn_next_cid; /* * last time any connection on this session received * data from the target. */ clock_t sess_rx_lbolt; clock_t sess_failure_lbolt; int sess_storm_delay; /* * sess_cmdsn_mutex protects the cmdsn and itt table/values * Cmdsn isn't that big of a problem yet since we only have * one connection but in the future we will need to ensure * this locking is working so keep the sequence numbers in * sync on the wire. * * We also use this lock to protect the ITT table and it's * values. We need to make sure someone doesn't assign * a duplicate ITT value or cell to a command. Also we * need to make sure when someone is looking up an ITT * that the command is still in that correct queue location. */ kmutex_t sess_cmdsn_mutex; /* * iSCSI command sequencing / windowing. The next * command to be sent via the pending queue will * get the sess_cmdsn. If the maxcmdsn is less * than the next cmdsn then the iSCSI window is * closed and this command cannot be sent yet. * Most iscsi cmd responses from the target carry * a new maxcmdsn. If this new maxcmdsn is greater * than the sess_maxcmdsn we will update it's value * and set a timer to fire in one tick and reprocess * the pending queue. * * The expcmdsn. Is the value the target expects * to be sent for my next cmdsn. If the expcmdsn * and the cmdsn get out of sync this could denote * a communication problem. */ uint32_t sess_cmdsn; uint32_t sess_expcmdsn; uint32_t sess_maxcmdsn; /* Next Initiator Task Tag (ITT) to use */ uint32_t sess_itt; /* * The session iscsi_cmd table is used to a fast performance * lookup of an ITT to a iscsi_cmd when we receive an iSCSI * PDU from the wire. To reserve a location in the sess_cmd_table * we try the sess_itt % ISCSI_CMD_TABLE_SIZE if this cmd table * cell is already full. Then increament the sess_itt and * try to get the cell position again, repeat until an empty * cell is found. Once an empty cell is found place your * scsi_cmd point into the cell to reserve the location. This * selection process should be done while holding the session's * mutex. */ struct iscsi_cmd *sess_cmd_table[ISCSI_CMD_TABLE_SIZE]; int sess_cmd_table_count; /* * The pending queue contains all iscsi_cmds that require an * open MaxCmdSn window to be put on the wire and haven't * been placed on the wire. Once placed on the wire they * will be moved to a connections specific active queue. */ iscsi_queue_t sess_queue_pending; iscsi_error_t sess_last_err; iscsi_queue_t sess_queue_completion; /* configured login parameters */ iscsi_login_params_t sess_params; /* general iSCSI protocol/session info */ uchar_t sess_name[ISCSI_MAX_NAME_LEN]; int sess_name_length; char sess_alias[ISCSI_MAX_NAME_LEN]; int sess_alias_length; iSCSIDiscoveryMethod_t sess_discovered_by; iscsi_sockaddr_t sess_discovered_addr; uchar_t sess_isid[ISCSI_ISID_LEN]; /* Session ID */ uint16_t sess_tsid; /* Target ID */ /* * If the target portal group tag(TPGT) is equal to ISCSI_DEFAULT_TPGT * then the initiator will accept a successful login with any TPGT * specified by the target. If a none default TPGT is configured * then we will only successfully accept a login with that matching * TPGT value. */ int sess_tpgt_conf; /* This field records the negotiated TPGT value, preserved for dtrace */ int sess_tpgt_nego; /* * Authentication information. * * DCW: Again IMA seems to take a session view at this * information. */ iscsi_auth_t sess_auth; /* Statistics */ struct { kstat_t *ks; iscsi_sess_stats_t ks_data; kstat_t *ks_io; kstat_io_t ks_io_data; kmutex_t ks_io_lock; } stats; iscsi_thread_t *sess_ic_thread; boolean_t sess_window_open; iscsi_sess_type_t sess_type; boolean_t sess_enum_in_progress; ddi_taskq_t *sess_taskq; iscsi_thread_t *sess_wd_thread; } iscsi_sess_t; /* * iscsi_network */ typedef struct iscsi_network { void* (*socket)(int domain, int, int); int (*bind)(void *, struct sockaddr *, int, int, int); int (*connect)(void *, struct sockaddr *, int, int, int); int (*listen)(void *, int); void* (*accept)(void *, struct sockaddr *, int *); int (*getsockname)(void *); int (*getsockopt)(void *, int, int, void *, int *, int); int (*setsockopt)(void *, int, int, void *, int); int (*shutdown)(void *, int); void (*close)(void *); size_t (*poll)(void *, clock_t); size_t (*sendmsg)(void *, struct msghdr *); size_t (*recvmsg)(void *, struct msghdr *, int); iscsi_status_t (*sendpdu)(void *, iscsi_hdr_t *, char *, int); iscsi_status_t (*recvdata)(void *, iscsi_hdr_t *, char *, int, int, int); iscsi_status_t (*recvhdr)(void *, iscsi_hdr_t *, int, int, int); struct { int sndbuf; int rcvbuf; int nodelay; int conn_notify_threshold; int conn_abort_threshold; int abort_threshold; } tweaks; } iscsi_network_t; #define ISCSI_NET_HEADER_DIGEST 0x00000001 #define ISCSI_NET_DATA_DIGEST 0x00000002 extern iscsi_network_t *iscsi_net; /* * If we get bus_config requests in less than 5 seconds * apart skip the name services re-discovery and just * complete the requested logins. This protects against * bus_config storms from stale /dev links. */ #define ISCSI_CONFIG_STORM_DELAY_DEFAULT 5 /* * iSCSI HBA Structure */ typedef struct iscsi_hba { uint32_t hba_sig; dev_info_t *hba_dip; /* dev info ptr */ scsi_hba_tran_t *hba_tran; /* scsi tran ptr */ struct iscsi_sess *hba_sess_list; /* sess. list for hba */ krwlock_t hba_sess_list_rwlock; /* protect sess. list */ /* lbolt of the last time we received a config request */ clock_t hba_config_lbolt; /* current number of seconds to protect against bus config storms */ int hba_config_storm_delay; /* general iSCSI protocol hba/initiator info */ uchar_t hba_name[ISCSI_MAX_NAME_LEN]; int hba_name_length; uchar_t hba_alias[ISCSI_MAX_NAME_LEN]; int hba_alias_length; /* Default SessionID for HBA */ uchar_t hba_isid[ISCSI_ISID_LEN]; /* Default HBA wide settings */ iscsi_login_params_t hba_params; /* * There's only one HBA and it's set to ISCSI_INITIATOR_OID * (value of 1) at the beginning of time. */ uint32_t hba_oid; /* * Keep track of which events have been sent. User daemons request * this information so they don't wait for events which they won't * see. */ kmutex_t hba_discovery_events_mutex; iSCSIDiscoveryMethod_t hba_discovery_events; boolean_t hba_discovery_in_progress; boolean_t hba_mpxio_enabled; /* mpxio-enabled */ /* * Ensures only one SendTargets operation occurs at a time */ ksema_t hba_sendtgts_semaphore; /* * Statistics */ struct { kstat_t *ks; iscsi_hba_stats_t ks_data; } stats; } iscsi_hba_t; /* * +--------------------------------------------------------------------+ * | iSCSI prototypes | * +--------------------------------------------------------------------+ */ /* iscsi_io.c */ int iscsi_sna_lte(uint32_t n1, uint32_t n2); char *iscsi_get_next_text(char *data, int data_length, char *curr_text); void iscsi_ic_thread(iscsi_thread_t *thread, void *arg); void iscsi_tx_thread(iscsi_thread_t *thread, void *arg); void iscsi_rx_thread(iscsi_thread_t *thread, void *arg); void iscsi_wd_thread(iscsi_thread_t *thread, void *arg); iscsi_status_t iscsi_tx_cmd(iscsi_sess_t *isp, iscsi_cmd_t *icmdp); void iscsi_handle_abort(void *arg); iscsi_status_t iscsi_handle_reset(iscsi_sess_t *isp, int level, iscsi_lun_t *ilp); iscsi_status_t iscsi_handle_logout(iscsi_conn_t *icp); iscsi_status_t iscsi_handle_passthru(iscsi_sess_t *isp, uint16_t lun, struct uscsi_cmd *ucmdp); iscsi_status_t iscsi_handle_text(iscsi_conn_t *icp, char *buf, uint32_t buf_len, uint32_t data_len, uint32_t *rx_data_len); void iscsi_iodone(iscsi_sess_t *isp, iscsi_cmd_t *icmdp); /* iscsi_crc.c */ uint32_t iscsi_crc32c(void *address, unsigned long length); uint32_t iscsi_crc32c_continued(void *address, unsigned long length, uint32_t crc); /* iscsi_queue.c */ void iscsi_init_queue(iscsi_queue_t *queue); void iscsi_destroy_queue(iscsi_queue_t *queue); void iscsi_enqueue_pending_cmd(iscsi_sess_t *isp, iscsi_cmd_t *icmdp); void iscsi_dequeue_pending_cmd(iscsi_sess_t *isp, iscsi_cmd_t *icmdp); void iscsi_enqueue_active_cmd(iscsi_conn_t *icp, iscsi_cmd_t *icmdp); void iscsi_dequeue_active_cmd(iscsi_conn_t *icp, iscsi_cmd_t *icmdp); void iscsi_enqueue_completed_cmd(iscsi_sess_t *isp, iscsi_cmd_t *icmdp); iscsi_status_t iscsi_dequeue_cmd(iscsi_cmd_t **, iscsi_cmd_t **, iscsi_cmd_t *); void iscsi_move_queue(iscsi_queue_t *src_queue, iscsi_queue_t *dst_queue); void iscsi_enqueue_cmd_head(iscsi_cmd_t **, iscsi_cmd_t **, iscsi_cmd_t *); /* iscsi_login.c */ iscsi_status_t iscsi_login_start(void *arg); /* iscsi_stats.c */ boolean_t iscsi_hba_kstat_init(struct iscsi_hba *ihp); boolean_t iscsi_hba_kstat_term(struct iscsi_hba *ihp); boolean_t iscsi_sess_kstat_init(struct iscsi_sess *isp); boolean_t iscsi_sess_kstat_term(struct iscsi_sess *isp); boolean_t iscsi_conn_kstat_init(struct iscsi_conn *icp); void iscsi_conn_kstat_term(struct iscsi_conn *icp); /* iscsi_net.c */ void iscsi_net_init(); void iscsi_net_fini(); /* iscsi_sess.c */ iscsi_sess_t *iscsi_sess_create(iscsi_hba_t *ihp, iSCSIDiscoveryMethod_t method, struct sockaddr *addr_dsc, char *target_name, int tpgt, uchar_t isid_lsb, iscsi_sess_type_t type, uint32_t *oid); void iscsi_sess_online(iscsi_sess_t *isp); int iscsi_sess_get(uint32_t oid, iscsi_hba_t *ihp, iscsi_sess_t **ispp); iscsi_status_t iscsi_sess_destroy(iscsi_sess_t *isp); void iscsi_sess_state_machine(iscsi_sess_t *isp, iscsi_sess_event_t event); char *iscsi_sess_state_str(iscsi_sess_state_t state); boolean_t iscsi_sess_set_auth(iscsi_sess_t *isp); iscsi_status_t iscsi_sess_reserve_itt(iscsi_sess_t *isp, iscsi_cmd_t *icmdp); void iscsi_sess_release_itt(iscsi_sess_t *isp, iscsi_cmd_t *icmdp); void iscsi_sess_redrive_io(iscsi_sess_t *isp); int iscsi_sess_get_by_target(uint32_t target_oid, iscsi_hba_t *ihp, iscsi_sess_t **ispp); /* iscsi_conn.c */ iscsi_status_t iscsi_conn_create(struct sockaddr *addr, iscsi_sess_t *isp, iscsi_conn_t **icpp); iscsi_status_t iscsi_conn_offline(iscsi_conn_t *icp); iscsi_status_t iscsi_conn_destroy(iscsi_conn_t *icp); iscsi_status_t iscsi_conn_state_machine(iscsi_conn_t *icp, iscsi_conn_event_t event); char *iscsi_conn_state_str(iscsi_conn_state_t state); void iscsi_conn_set_login_min_max(iscsi_conn_t *icp, int min, int max); iscsi_status_t iscsi_conn_sync_params(iscsi_conn_t *icp); /* iscsi_lun.c */ iscsi_status_t iscsi_lun_create(iscsi_sess_t *isp, uint16_t lun_num, uint8_t lun_addr_type, struct scsi_inquiry *inq, char *guid); iscsi_status_t iscsi_lun_destroy(iscsi_hba_t *ihp, iscsi_lun_t *ilp); void iscsi_lun_online(iscsi_hba_t *ihp, iscsi_lun_t *ilp); iscsi_status_t iscsi_lun_offline(iscsi_hba_t *ihp, iscsi_lun_t *ilp, boolean_t lun_free); /* iscsi_cmd.c */ void iscsi_cmd_state_machine(iscsi_cmd_t *icmdp, iscsi_cmd_event_t event, void *arg); iscsi_cmd_t *iscsi_cmd_alloc(iscsi_conn_t *icp, int km_flags); void iscsi_cmd_free(iscsi_cmd_t *icmdp); /* iscsi_ioctl.c */ int iscsi_ioctl(dev_t, int, intptr_t, int, cred_t *, int *); void * iscsi_ioctl_copyin(caddr_t arg, int mode, size_t size); int iscsi_ioctl_copyout(void *data, size_t size, caddr_t arg, int mode); iscsi_conn_list_t *iscsi_ioctl_conn_oid_list_get_copyin(caddr_t, int); int iscsi_ioctl_conn_oid_list_get_copyout(iscsi_conn_list_t *, caddr_t, int); boolean_t iscsi_ioctl_conn_oid_list_get(iscsi_hba_t *ihp, iscsi_conn_list_t *cl); boolean_t iscsi_ioctl_conn_props_get(iscsi_hba_t *ihp, iscsi_conn_props_t *cp); int iscsi_ioctl_sendtgts_get(iscsi_hba_t *ihp, iscsi_sendtgts_list_t *stl); int iscsi_target_prop_mod(iscsi_hba_t *, iscsi_property_t *, int cmd); int iscsi_set_params(iscsi_param_set_t *, iscsi_hba_t *, boolean_t); int iscsi_get_persisted_param(uchar_t *, iscsi_param_get_t *, iscsi_login_params_t *); void iscsi_set_default_login_params(iscsi_login_params_t *params); int iscsi_ioctl_get_config_sess(iscsi_hba_t *ihp, iscsi_config_sess_t *ics); int iscsi_ioctl_set_config_sess(iscsi_hba_t *ihp, iscsi_config_sess_t *ics); /* ioctls prototypes */ int iscsi_get_param(iscsi_login_params_t *params, boolean_t valid_flag, iscsi_param_get_t *ipgp); /* iscsid.c */ boolean_t iscsid_init(iscsi_hba_t *ihp, boolean_t restart); void iscsid_fini(); void iscsid_props(iSCSIDiscoveryProperties_t *props); boolean_t iscsid_enable_discovery(iscsi_hba_t *ihp, iSCSIDiscoveryMethod_t idm, boolean_t poke); boolean_t iscsid_disable_discovery(iscsi_hba_t *ihp, iSCSIDiscoveryMethod_t idm); void iscsid_poke_discovery(iscsi_hba_t *ihp, iSCSIDiscoveryMethod_t method); void iscsid_do_sendtgts(entry_t *discovery_addr); void iscsid_do_isns_query_one_server( iscsi_hba_t *ihp, entry_t *isns_addr); void iscsid_do_isns_query(iscsi_hba_t *ihp); void iscsid_config_one(iscsi_hba_t *ihp, char *name, boolean_t protect); void iscsid_config_all(iscsi_hba_t *ihp, boolean_t protect); void iscsid_unconfig_one(iscsi_hba_t *ihp, char *name); void iscsid_unconfig_all(iscsi_hba_t *ihp); void isns_scn_callback(void *arg); boolean_t iscsid_del(iscsi_hba_t *ihp, char *target_name, iSCSIDiscoveryMethod_t method, struct sockaddr *addr_dsc); boolean_t iscsid_login_tgt(iscsi_hba_t *ihp, char *target_name, iSCSIDiscoveryMethod_t method, struct sockaddr *addr_dsc); void iscsid_addr_to_sockaddr(int src_insize, void *src_addr, int src_port, struct sockaddr *dst_addr); extern void bcopy(const void *s1, void *s2, size_t n); extern void bzero(void *s, size_t n); /* * Here we need a contract for inet_ntop() and inet_pton() * in uts/common/inet/ip/inet_ntop.c */ extern char *inet_ntop(int af, const void *addr, char *buf, int addrlen); extern int inet_pton(int af, char *inp, void *outp); #ifdef __cplusplus } #endif #endif /* _ISCSI_H */