/* * 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 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _IDM_IMPL_H_ #define _IDM_IMPL_H_ #ifdef __cplusplus extern "C" { #endif #include #include /* * IDM lock order: * * idm_taskid_table_lock, idm_task_t.idt_mutex */ #define CF_LOGIN_READY 0x00000001 #define CF_INITIAL_LOGIN 0x00000002 #define CF_ERROR 0x80000000 typedef enum { CONN_TYPE_INI = 1, CONN_TYPE_TGT } idm_conn_type_t; /* * Watchdog interval in seconds */ #define IDM_WD_INTERVAL 5 /* * Timeout period before the client "keepalive" callback is invoked in * seconds if the connection is idle. */ #define IDM_TRANSPORT_KEEPALIVE_IDLE_TIMEOUT 20 /* * Timeout period before a TRANSPORT_FAIL event is generated in seconds * if the connection is idle. */ #define IDM_TRANSPORT_FAIL_IDLE_TIMEOUT 30 /* * IDM reference count structure. Audit code is shamelessly adapted * from CIFS server. */ #define REFCNT_AUDIT_STACK_DEPTH 16 #define REFCNT_AUDIT_BUF_MAX_REC 16 typedef struct { uint32_t anr_refcnt; int anr_depth; pc_t anr_stack[REFCNT_AUDIT_STACK_DEPTH]; } refcnt_audit_record_t; typedef struct { int anb_index; int anb_max_index; refcnt_audit_record_t anb_records[REFCNT_AUDIT_BUF_MAX_REC]; } refcnt_audit_buf_t; #define REFCNT_AUDIT(_rf_) { \ refcnt_audit_record_t *anr; \ \ anr = (_rf_)->ir_audit_buf.anb_records; \ anr += (_rf_)->ir_audit_buf.anb_index; \ (_rf_)->ir_audit_buf.anb_index++; \ (_rf_)->ir_audit_buf.anb_index &= \ (_rf_)->ir_audit_buf.anb_max_index; \ anr->anr_refcnt = (_rf_)->ir_refcnt; \ anr->anr_depth = getpcstack(anr->anr_stack, \ REFCNT_AUDIT_STACK_DEPTH); \ } struct idm_refcnt_s; typedef void (idm_refcnt_cb_t)(void *ref_obj); typedef enum { REF_NOWAIT, REF_WAIT_SYNC, REF_WAIT_ASYNC } idm_refcnt_wait_t; typedef struct idm_refcnt_s { int ir_refcnt; void *ir_referenced_obj; idm_refcnt_wait_t ir_waiting; kmutex_t ir_mutex; kcondvar_t ir_cv; idm_refcnt_cb_t *ir_cb; refcnt_audit_buf_t ir_audit_buf; } idm_refcnt_t; /* * connection parameters - These parameters would be populated at * connection create, or during key-value negotiation at login */ typedef struct idm_conn_params_s { uint32_t max_dataseglen; } idm_conn_param_t; typedef struct idm_svc_s { list_node_t is_list_node; kmutex_t is_mutex; kcondvar_t is_cv; kmutex_t is_count_mutex; kcondvar_t is_count_cv; idm_refcnt_t is_refcnt; int is_online; /* transport-specific service components */ void *is_so_svc; void *is_iser_svc; idm_svc_req_t is_svc_req; } idm_svc_t; typedef struct idm_conn_s { list_node_t ic_list_node; void *ic_handle; idm_refcnt_t ic_refcnt; idm_svc_t *ic_svc_binding; /* Target conn. only */ idm_sockaddr_t ic_ini_dst_addr; struct sockaddr_storage ic_laddr; /* conn local address */ struct sockaddr_storage ic_raddr; /* conn remote address */ idm_conn_state_t ic_state; idm_conn_state_t ic_last_state; sm_audit_buf_t ic_state_audit; kmutex_t ic_state_mutex; kcondvar_t ic_state_cv; uint32_t ic_state_flags; timeout_id_t ic_state_timeout; struct idm_conn_s *ic_reinstate_conn; /* For conn reinst. */ struct idm_conn_s *ic_logout_conn; /* For other conn logout */ taskq_t *ic_state_taskq; int ic_pdu_events; boolean_t ic_login_info_valid; boolean_t ic_rdma_extensions; uint16_t ic_login_cid; kmutex_t ic_mutex; kcondvar_t ic_cv; idm_status_t ic_conn_sm_status; boolean_t ic_ffp; boolean_t ic_keepalive; uint32_t ic_internal_cid; uint32_t ic_conn_flags; idm_conn_type_t ic_conn_type; idm_conn_ops_t ic_conn_ops; idm_transport_ops_t *ic_transport_ops; idm_transport_type_t ic_transport_type; int ic_transport_hdrlen; void *ic_transport_private; idm_conn_param_t ic_conn_params; /* * Save client callback to interpose idm callback */ idm_pdu_cb_t *ic_client_callback; clock_t ic_timestamp; } idm_conn_t; #define IDM_CONN_HEADER_DIGEST 0x00000001 #define IDM_CONN_DATA_DIGEST 0x00000002 #define IDM_CONN_USE_SCOREBOARD 0x00000004 #define IDM_CONN_ISINI(ICI_IC) ((ICI_IC)->ic_conn_type == CONN_TYPE_INI) #define IDM_CONN_ISTGT(ICI_IC) ((ICI_IC)->ic_conn_type == CONN_TYPE_TGT) /* * An IDM target task can transfer data using multiple buffers. The task * will maintain a list of buffers, and each buffer will contain the relative * offset of the transfer and a pointer to the next buffer in the list. * * Note on client private data: * idt_private is intended to be a pointer to some sort of client- * specific state. * * idt_client_handle is a more generic client-private piece of data that can * be used by the client for the express purpose of task lookup. The driving * use case for this is for the client to store the initiator task tag for * a given task so that it may be more easily retrieved for task management. * * The key take away here is that clients should never call * idm_task_find_by_handle in the performance path. * * An initiator will require only one buffer per task, the offset will be 0. */ typedef struct idm_task_s { idm_conn_t *idt_ic; /* Associated connection */ /* connection type is in idt_ic->ic_conn_type */ kmutex_t idt_mutex; void *idt_private; /* Client private data */ uintptr_t idt_client_handle; /* Client private */ uint32_t idt_tt; /* Task tag */ uint32_t idt_r2t_ttt; /* R2T Target Task tag */ idm_task_state_t idt_state; idm_refcnt_t idt_refcnt; /* * Statistics */ int idt_tx_to_ini_start; int idt_tx_to_ini_done; int idt_rx_from_ini_start; int idt_rx_from_ini_done; int idt_tx_bytes; /* IDM_CONN_USE_SCOREBOARD */ int idt_rx_bytes; /* IDM_CONN_USE_SCOREBOARD */ uint32_t idt_exp_datasn; /* expected datasn */ uint32_t idt_exp_rttsn; /* expected rttsn */ list_t idt_inbufv; /* chunks of IN buffers */ list_t idt_outbufv; /* chunks of OUT buffers */ /* * Transport header, which describes this tasks remote tagged buffer */ int idt_transport_hdrlen; void *idt_transport_hdr; } idm_task_t; int idm_task_constructor(void *task_void, void *arg, int flags); void idm_task_destructor(void *task_void, void *arg); #define IDM_TASKIDS_MAX 16384 #define IDM_BUF_MAGIC 0x49425546 /* "IBUF" */ /* Protect with task mutex */ typedef struct idm_buf_s { uint32_t idb_magic; /* "IBUF" */ /* * Note: idm_tx_link *must* be the second element in the list for * proper TX PDU ordering. */ list_node_t idm_tx_link; /* link in a list of TX objects */ list_node_t idb_buflink; /* link in a multi-buffer data xfer */ idm_conn_t *idb_ic; /* Associated connection */ void *idb_buf; /* data */ uint64_t idb_buflen; /* length of buffer */ size_t idb_bufoffset; /* offset in a multi-buffer xfer */ boolean_t idb_bufalloc; /* true if alloc'd in idm_buf_alloc */ /* * DataPDUInOrder=Yes, so to track that the PDUs in a sequence are sent * in continuously increasing address order, check that offsets for a * single buffer xfer are in order. */ uint32_t idb_exp_offset; size_t idb_xfer_len; /* Current requested xfer len */ void *idb_buf_private; /* transport-specific buf handle */ void *idb_reg_private; /* transport-specific reg handle */ void *idb_bufptr; /* transport-specific bcopy pointer */ boolean_t idb_bufbcopy; /* true if bcopy required */ idm_buf_cb_t *idb_buf_cb; /* Data Completion Notify, tgt only */ void *idb_cb_arg; /* Client private data */ idm_task_t *idb_task_binding; timespec_t idb_xfer_start; timespec_t idb_xfer_done; boolean_t idb_in_transport; boolean_t idb_tx_thread; /* Sockets only */ iscsi_hdr_t idb_data_hdr_tmpl; /* Sockets only */ idm_status_t idb_status; } idm_buf_t; typedef enum { BP_CHECK_QUICK, BP_CHECK_THOROUGH, BP_CHECK_ASSERT } idm_bufpat_check_type_t; #define BUFPAT_MATCH(bc_bufpat, bc_idb) \ ((bufpat->bufpat_idb == bc_idb) && \ (bufpat->bufpat_bufmagic == IDM_BUF_MAGIC)) typedef struct idm_bufpat_s { void *bufpat_idb; uint32_t bufpat_bufmagic; uint32_t bufpat_offset; } idm_bufpat_t; #define PDU_MAX_IOVLEN 12 #define IDM_PDU_MAGIC 0x49504455 /* "IPDU" */ typedef struct idm_pdu_s { uint32_t isp_magic; /* "IPDU" */ /* * Internal - Order is vital. idm_tx_link *must* be the second * element in this structure for proper TX PDU ordering. */ list_node_t idm_tx_link; list_node_t isp_client_lnd; idm_conn_t *isp_ic; /* Must be set */ iscsi_hdr_t *isp_hdr; uint_t isp_hdrlen; uint8_t *isp_data; uint_t isp_datalen; /* Transport header */ void *isp_transport_hdr; uint32_t isp_transport_hdrlen; void *isp_transport_private; /* * isp_data is used for sending SCSI status, NOP, text, scsi and * non-scsi data. Data is received using isp_iov and isp_iovlen * to support data over multiple buffers. */ void *isp_private; idm_pdu_cb_t *isp_callback; idm_status_t isp_status; /* * The following four elements are only used in * idm_sorecv_scsidata() currently. */ struct iovec isp_iov[PDU_MAX_IOVLEN]; int isp_iovlen; idm_buf_t *isp_sorx_buf; /* Implementation data for idm_pdu_alloc and sorx PDU cache */ uint32_t isp_flags; uint_t isp_hdrbuflen; uint_t isp_databuflen; } idm_pdu_t; /* * This "generic" object is used when removing an item from the ic_tx_list * in order to determine whether it's an idm_pdu_t or an idm_buf_t */ typedef struct { uint32_t idm_tx_obj_magic; /* * idm_tx_link *must* be the second element in this structure. */ list_node_t idm_tx_link; } idm_tx_obj_t; #define IDM_PDU_OPCODE(PDU) \ ((PDU)->isp_hdr->opcode & ISCSI_OPCODE_MASK) #define IDM_PDU_ALLOC 0x00000001 #define IDM_PDU_ADDL_HDR 0x00000002 #define IDM_PDU_ADDL_DATA 0x00000004 #define IDM_PDU_LOGIN_TX 0x00000008 #define OSD_EXT_CDB_AHSLEN (200 - 15) #define BIDI_AHS_LENGTH 5 #define IDM_SORX_CACHE_AHSLEN \ (((OSD_EXT_CDB_AHSLEN + 3) + \ (BIDI_AHS_LENGTH + 3)) / sizeof (uint32_t)) #define IDM_SORX_CACHE_HDRLEN (sizeof (iscsi_hdr_t) + IDM_SORX_CACHE_AHSLEN) /* * ID pool */ #define IDM_IDPOOL_MAGIC 0x4944504C /* IDPL */ #define IDM_IDPOOL_MIN_SIZE 64 /* Number of IDs to begin with */ #define IDM_IDPOOL_MAX_SIZE 64 * 1024 typedef struct idm_idpool { uint32_t id_magic; kmutex_t id_mutex; uint8_t *id_pool; uint32_t id_size; uint8_t id_bit; uint8_t id_bit_idx; uint32_t id_idx; uint32_t id_idx_msk; uint32_t id_free_counter; uint32_t id_max_free_counter; } idm_idpool_t; /* * Global IDM state structure */ typedef struct { kmutex_t idm_global_mutex; taskq_t *idm_global_taskq; kthread_t *idm_wd_thread; kt_did_t idm_wd_thread_did; boolean_t idm_wd_thread_running; kcondvar_t idm_wd_cv; list_t idm_tgt_svc_list; kcondvar_t idm_tgt_svc_cv; list_t idm_tgt_conn_list; int idm_tgt_conn_count; list_t idm_ini_conn_list; kmem_cache_t *idm_buf_cache; kmem_cache_t *idm_task_cache; krwlock_t idm_taskid_table_lock; idm_task_t **idm_taskid_table; uint32_t idm_taskid_next; uint32_t idm_taskid_max; idm_idpool_t idm_conn_id_pool; kmem_cache_t *idm_sotx_pdu_cache; kmem_cache_t *idm_sorx_pdu_cache; kmem_cache_t *idm_so_128k_buf_cache; } idm_global_t; idm_global_t idm; /* Global state */ int idm_idpool_create(idm_idpool_t *pool); void idm_idpool_destroy(idm_idpool_t *pool); int idm_idpool_alloc(idm_idpool_t *pool, uint16_t *id); void idm_idpool_free(idm_idpool_t *pool, uint16_t id); void idm_pdu_rx(idm_conn_t *ic, idm_pdu_t *pdu); void idm_pdu_tx_forward(idm_conn_t *ic, idm_pdu_t *pdu); boolean_t idm_pdu_rx_forward_ffp(idm_conn_t *ic, idm_pdu_t *pdu); void idm_pdu_rx_forward(idm_conn_t *ic, idm_pdu_t *pdu); void idm_pdu_tx_protocol_error(idm_conn_t *ic, idm_pdu_t *pdu); void idm_pdu_rx_protocol_error(idm_conn_t *ic, idm_pdu_t *pdu); void idm_parse_login_rsp(idm_conn_t *ic, idm_pdu_t *logout_req_pdu, boolean_t rx); void idm_parse_logout_req(idm_conn_t *ic, idm_pdu_t *logout_req_pdu, boolean_t rx); void idm_parse_logout_rsp(idm_conn_t *ic, idm_pdu_t *login_rsp_pdu, boolean_t rx); idm_status_t idm_svc_conn_create(idm_svc_t *is, idm_transport_type_t type, idm_conn_t **ic_result); void idm_svc_conn_destroy(idm_conn_t *ic); idm_status_t idm_ini_conn_finish(idm_conn_t *ic); idm_status_t idm_tgt_conn_finish(idm_conn_t *ic); idm_conn_t *idm_conn_create_common(idm_conn_type_t conn_type, idm_transport_type_t tt, idm_conn_ops_t *conn_ops); void idm_conn_destroy_common(idm_conn_t *ic); void idm_conn_close(idm_conn_t *ic); uint32_t idm_cid_alloc(void); void idm_cid_free(uint32_t cid); uint32_t idm_crc32c(void *address, unsigned long length); uint32_t idm_crc32c_continued(void *address, unsigned long length, uint32_t crc); void idm_listbuf_insert(list_t *lst, idm_buf_t *buf); int idm_task_compare(const void *v1, const void *v2); idm_conn_t *idm_lookup_conn(uint8_t *isid, uint16_t tsih, uint16_t cid); #ifdef __cplusplus } #endif #endif /* _IDM_IMPL_H_ */