/*- * Copyright (c) 2017 Broadcom. All rights reserved. * The term "Broadcom" refers to Broadcom Limited and/or its subsidiaries. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /** * @file * Contains declarations shared between the alex layer and HW/SLI4 */ #if !defined(__OCS_COMMON_H__) #define __OCS_COMMON_H__ #include "ocs_sm.h" #include "ocs_utils.h" #define OCS_CTRLMASK_XPORT_DISABLE_AUTORSP_TSEND (1U << 0) #define OCS_CTRLMASK_XPORT_DISABLE_AUTORSP_TRECEIVE (1U << 1) #define OCS_CTRLMASK_XPORT_ENABLE_TARGET_RSCN (1U << 3) #define OCS_CTRLMASK_TGT_ALWAYS_VERIFY_DIF (1U << 4) #define OCS_CTRLMASK_TGT_SET_DIF_REF_TAG_CRC (1U << 5) #define OCS_CTRLMASK_TEST_CHAINED_SGLS (1U << 6) #define OCS_CTRLMASK_ISCSI_ISNS_ENABLE (1U << 7) #define OCS_CTRLMASK_ENABLE_FABRIC_EMULATION (1U << 8) #define OCS_CTRLMASK_INHIBIT_INITIATOR (1U << 9) #define OCS_CTRLMASK_CRASH_RESET (1U << 10) #define enable_target_rscn(ocs) \ ((ocs->ctrlmask & OCS_CTRLMASK_XPORT_ENABLE_TARGET_RSCN) != 0) /* Used for error injection testing. */ typedef enum { NO_ERR_INJECT = 0, INJECT_DROP_CMD, INJECT_FREE_DROPPED, INJECT_DROP_DATA, INJECT_DROP_RESP, INJECT_DELAY_CMD, } ocs_err_injection_e; #define MAX_OCS_DEVICES 64 typedef enum {OCS_XPORT_FC, OCS_XPORT_ISCSI} ocs_xport_e; #define OCS_SERVICE_PARMS_LENGTH 0x74 #define OCS_DISPLAY_NAME_LENGTH 32 #define OCS_DISPLAY_BUS_INFO_LENGTH 16 #define OCS_WWN_LENGTH 32 typedef struct ocs_hw_s ocs_hw_t; typedef struct ocs_domain_s ocs_domain_t; typedef struct ocs_sli_port_s ocs_sli_port_t; typedef struct ocs_sli_port_s ocs_sport_t; typedef struct ocs_remote_node_s ocs_remote_node_t; typedef struct ocs_remote_node_group_s ocs_remote_node_group_t; typedef struct ocs_node_s ocs_node_t; typedef struct ocs_io_s ocs_io_t; typedef struct ocs_xport_s ocs_xport_t; typedef struct ocs_node_cb_s ocs_node_cb_t; typedef struct ocs_ns_s ocs_ns_t; /* Node group data structure */ typedef struct ocs_node_group_dir_s ocs_node_group_dir_t; #include "ocs_cam.h" /*-------------------------------------------------- * Shared HW/SLI objects * * Several objects used by the HW/SLI layers are communal; part of the * object is for the sole use of the lower layers, but implementations * are free to add their own fields if desired. */ /** * @brief Description of discovered Fabric Domain * * @note Not all fields are valid for all mediums (FC/ethernet). */ typedef struct ocs_domain_record_s { uint32_t index; /**< FCF table index (used in REG_FCFI) */ uint32_t priority; /**< FCF reported priority */ uint8_t address[6]; /**< Switch MAC/FC address */ uint8_t wwn[8]; /**< Switch WWN */ union { uint8_t vlan[512]; /**< bitmap of valid VLAN IDs */ uint8_t loop[128]; /**< FC-AL position map */ } map; uint32_t speed; /**< link speed */ uint32_t fc_id; /**< our ports fc_id */ uint32_t is_fc:1, /**< Connection medium is native FC */ is_ethernet:1, /**< Connection medium is ethernet (FCoE) */ is_loop:1, /**< Topology is FC-AL */ is_nport:1, /**< Topology is N-PORT */ :28; } ocs_domain_record_t; /** * @brief Node group directory entry */ struct ocs_node_group_dir_s { uint32_t instance_index; /*<< instance index */ ocs_sport_t *sport; /*<< pointer to sport */ uint8_t service_params[OCS_SERVICE_PARMS_LENGTH]; /**< Login parameters */ ocs_list_link_t link; /**< linked list link */ ocs_list_t node_group_list; /**< linked list of node groups */ uint32_t node_group_list_count; /**< current number of elements on the node group list */ uint32_t next_idx; /*<< index of the next node group in list */ }; typedef enum { OCS_SPORT_TOPOLOGY_UNKNOWN=0, OCS_SPORT_TOPOLOGY_FABRIC, OCS_SPORT_TOPOLOGY_P2P, OCS_SPORT_TOPOLOGY_LOOP, } ocs_sport_topology_e; /** * @brief SLI Port object * * The SLI Port object represents the connection between the driver and the * FC/FCoE domain. In some topologies / hardware, it is possible to have * multiple connections to the domain via different WWN. Each would require * a separate SLI port object. */ struct ocs_sli_port_s { ocs_t *ocs; /**< pointer to ocs */ uint32_t tgt_id; /**< target id */ uint32_t index; /**< ??? */ uint32_t instance_index; char display_name[OCS_DISPLAY_NAME_LENGTH]; /**< sport display name */ ocs_domain_t *domain; /**< current fabric domain */ uint32_t is_vport:1; /**< this SPORT is a virtual port */ uint64_t wwpn; /**< WWPN from HW (host endian) */ uint64_t wwnn; /**< WWNN from HW (host endian) */ ocs_list_t node_list; /**< list of nodes */ ocs_scsi_ini_sport_t ini_sport; /**< initiator backend private sport data */ ocs_scsi_tgt_sport_t tgt_sport; /**< target backend private sport data */ void *tgt_data; /**< target backend private pointer */ void *ini_data; /**< initiator backend private pointer */ ocs_mgmt_functions_t *mgmt_functions; /* * Members private to HW/SLI */ ocs_sm_ctx_t ctx; /**< state machine context */ ocs_hw_t *hw; /**< pointer to HW */ uint32_t indicator; /**< VPI */ uint32_t fc_id; /**< FC address */ ocs_dma_t dma; /**< memory for Service Parameters */ uint8_t wwnn_str[OCS_WWN_LENGTH]; /**< WWN (ASCII) */ uint64_t sli_wwpn; /**< WWPN (wire endian) */ uint64_t sli_wwnn; /**< WWNN (wire endian) */ uint32_t sm_free_req_pending:1; /**< Free request received while waiting for attach response */ /* * Implementation specific fields allowed here */ ocs_sm_ctx_t sm; /**< sport context state machine */ sparse_vector_t lookup; /**< fc_id to node lookup object */ ocs_list_link_t link; uint32_t enable_ini:1, /**< SCSI initiator enabled for this node */ enable_tgt:1, /**< SCSI target enabled for this node */ enable_rscn:1, /**< This SPORT will be expecting RSCN */ shutting_down:1, /**< sport in process of shutting down */ p2p_winner:1; /**< TRUE if we're the point-to-point winner */ ocs_sport_topology_e topology; /**< topology: fabric/p2p/unknown */ uint8_t service_params[OCS_SERVICE_PARMS_LENGTH]; /**< Login parameters */ uint32_t p2p_remote_port_id; /**< Remote node's port id for p2p */ uint32_t p2p_port_id; /**< our port's id */ /* List of remote node group directory entries (used by high login mode) */ ocs_lock_t node_group_lock; uint32_t node_group_dir_next_instance; /**< HLM next node group directory instance value */ uint32_t node_group_next_instance; /**< HLM next node group instance value */ ocs_list_t node_group_dir_list; }; /** * @brief Fibre Channel domain object * * This object is a container for the various SLI components needed * to connect to the domain of a FC or FCoE switch */ struct ocs_domain_s { ocs_t *ocs; /**< pointer back to ocs */ uint32_t instance_index; /**< unique instance index value */ char display_name[OCS_DISPLAY_NAME_LENGTH]; /**< Node display name */ ocs_list_t sport_list; /**< linked list of SLI ports */ ocs_scsi_ini_domain_t ini_domain; /**< initiator backend private domain data */ ocs_scsi_tgt_domain_t tgt_domain; /**< target backend private domain data */ ocs_mgmt_functions_t *mgmt_functions; /* Declarations private to HW/SLI */ ocs_hw_t *hw; /**< pointer to HW */ ocs_sm_ctx_t sm; /**< state machine context */ uint32_t fcf; /**< FC Forwarder table index */ uint32_t fcf_indicator; /**< FCFI */ uint32_t vlan_id; /**< VLAN tag for this domain */ uint32_t indicator; /**< VFI */ ocs_dma_t dma; /**< memory for Service Parameters */ uint32_t req_rediscover_fcf:1; /**< TRUE if fcf rediscover is needed (in response * to Vlink Clear async event */ /* Declarations private to FC transport */ uint64_t fcf_wwn; /**< WWN for FCF/switch */ ocs_list_link_t link; ocs_sm_ctx_t drvsm; /**< driver domain sm context */ uint32_t attached:1, /**< set true after attach completes */ is_fc:1, /**< is FC */ is_loop:1, /**< is loop topology */ is_nlport:1, /**< is public loop */ domain_found_pending:1, /**< A domain found is pending, drec is updated */ req_domain_free:1, /**< True if domain object should be free'd */ req_accept_frames:1, /**< set in domain state machine to enable frames */ domain_notify_pend:1; /** Set in domain SM to avoid duplicate node event post */ ocs_domain_record_t pending_drec; /**< Pending drec if a domain found is pending */ uint8_t service_params[OCS_SERVICE_PARMS_LENGTH]; /**< any sports service parameters */ uint8_t flogi_service_params[OCS_SERVICE_PARMS_LENGTH]; /**< Fabric/P2p service parameters from FLOGI */ uint8_t femul_enable; /**< TRUE if Fabric Emulation mode is enabled */ /* Declarations shared with back-ends */ sparse_vector_t lookup; /**< d_id to node lookup object */ ocs_lock_t lookup_lock; ocs_sli_port_t *sport; /**< Pointer to first (physical) SLI port (also at the head of sport_list) */ uint32_t sport_instance_count; /**< count of sport instances */ /* Fabric Emulation */ ocs_bitmap_t *portid_pool; ocs_ns_t *ocs_ns; /*>> Directory(Name) services data */ }; /** * @brief Remote Node object * * This object represents a connection between the SLI port and another * Nx_Port on the fabric. Note this can be either a well known port such * as a F_Port (i.e. ff:ff:fe) or another N_Port. */ struct ocs_remote_node_s { /* * Members private to HW/SLI */ uint32_t indicator; /**< RPI */ uint32_t index; uint32_t fc_id; /**< FC address */ uint32_t attached:1, /**< true if attached */ node_group:1, /**< true if in node group */ free_group:1; /**< true if the node group should be free'd */ ocs_sli_port_t *sport; /**< associated SLI port */ /* * Implementation specific fields allowed here */ void *node; /**< associated node */ }; struct ocs_remote_node_group_s { /* * Members private to HW/SLI */ uint32_t indicator; /**< RPI */ uint32_t index; /* * Implementation specific fields allowed here */ uint32_t instance_index; /*<< instance index */ ocs_node_group_dir_t *node_group_dir; /*<< pointer to the node group directory */ ocs_list_link_t link; /*<< linked list link */ }; typedef enum { OCS_NODE_SHUTDOWN_DEFAULT = 0, OCS_NODE_SHUTDOWN_EXPLICIT_LOGO, OCS_NODE_SHUTDOWN_IMPLICIT_LOGO, } ocs_node_shutd_rsn_e; typedef enum { OCS_NODE_SEND_LS_ACC_NONE = 0, OCS_NODE_SEND_LS_ACC_PLOGI, OCS_NODE_SEND_LS_ACC_PRLI, } ocs_node_send_ls_acc_e; /** * @brief FC Node object * */ struct ocs_node_s { ocs_t *ocs; /**< pointer back to ocs structure */ uint32_t instance_index; /**< unique instance index value */ char display_name[OCS_DISPLAY_NAME_LENGTH]; /**< Node display name */ ocs_sport_t *sport; uint32_t hold_frames:1; /**< hold incoming frames if true */ ocs_rlock_t lock; /**< node wide lock */ ocs_lock_t active_ios_lock; /**< active SCSI and XPORT I/O's for this node */ ocs_list_t active_ios; /**< active I/O's for this node */ uint32_t max_wr_xfer_size; /**< Max write IO size per phase for the transport */ ocs_scsi_ini_node_t ini_node; /**< backend initiator private node data */ ocs_scsi_tgt_node_t tgt_node; /**< backend target private node data */ ocs_mgmt_functions_t *mgmt_functions; /* Declarations private to HW/SLI */ ocs_remote_node_t rnode; /**< Remote node */ /* Declarations private to FC transport */ ocs_sm_ctx_t sm; /**< state machine context */ uint32_t evtdepth; /**< current event posting nesting depth */ uint32_t req_free:1, /**< this node is to be free'd */ attached:1, /**< node is attached (REGLOGIN complete) */ fcp_enabled:1, /**< node is enabled to handle FCP */ rscn_pending:1, /**< for name server node RSCN is pending */ send_plogi:1, /**< if initiator, send PLOGI at node initialization */ send_plogi_acc:1,/**< send PLOGI accept, upon completion of node attach */ io_alloc_enabled:1, /**< TRUE if ocs_scsi_io_alloc() and ocs_els_io_alloc() are enabled */ sent_prli:1; /**< if initiator, sent prli. */ ocs_node_send_ls_acc_e send_ls_acc; /**< type of LS acc to send */ ocs_io_t *ls_acc_io; /**< SCSI IO for LS acc */ uint32_t ls_acc_oxid; /**< OX_ID for pending accept */ uint32_t ls_acc_did; /**< D_ID for pending accept */ ocs_node_shutd_rsn_e shutdown_reason;/**< reason for node shutdown */ ocs_dma_t sparm_dma_buf; /**< service parameters buffer */ uint8_t service_params[OCS_SERVICE_PARMS_LENGTH]; /**< plogi/acc frame from remote device */ ocs_lock_t pend_frames_lock; /**< lock for inbound pending frames list */ ocs_list_t pend_frames; /**< inbound pending frames list */ uint32_t pend_frames_processed; /**< count of frames processed in hold frames interval */ uint32_t ox_id_in_use; /**< used to verify one at a time us of ox_id */ uint32_t els_retries_remaining; /**< for ELS, number of retries remaining */ uint32_t els_req_cnt; /**< number of outstanding ELS requests */ uint32_t els_cmpl_cnt; /**< number of outstanding ELS completions */ uint32_t abort_cnt; /**< Abort counter for debugging purpose */ char current_state_name[OCS_DISPLAY_NAME_LENGTH]; /**< current node state */ char prev_state_name[OCS_DISPLAY_NAME_LENGTH]; /**< previous node state */ ocs_sm_event_t current_evt; /**< current event */ ocs_sm_event_t prev_evt; /**< current event */ uint32_t targ:1, /**< node is target capable */ init:1, /**< node is initiator capable */ refound:1, /**< Handle node refound case when node is being deleted */ fcp2device:1, /* FCP2 device */ reserved:4, fc_type:8; ocs_list_t els_io_pend_list; /**< list of pending (not yet processed) ELS IOs */ ocs_list_t els_io_active_list; /**< list of active (processed) ELS IOs */ ocs_sm_function_t nodedb_state; /**< Node debugging, saved state */ ocs_timer_t gidpt_delay_timer; /**< GIDPT delay timer */ time_t time_last_gidpt_msec; /**< Start time of last target RSCN GIDPT */ /* WWN */ char wwnn[OCS_WWN_LENGTH]; /**< remote port WWN (uses iSCSI naming) */ char wwpn[OCS_WWN_LENGTH]; /**< remote port WWN (uses iSCSI naming) */ /* Statistics */ uint32_t chained_io_count; /**< count of IOs with chained SGL's */ ocs_list_link_t link; /**< node list link */ ocs_remote_node_group_t *node_group; /**< pointer to node group (if HLM enabled) */ }; /** * @brief Virtual port specification * * Collection of the information required to restore a virtual port across * link events */ typedef struct ocs_vport_spec_s ocs_vport_spec_t; struct ocs_vport_spec_s { uint32_t domain_instance; /*>> instance index of this domain for the sport */ uint64_t wwnn; /*>> node name */ uint64_t wwpn; /*>> port name */ uint32_t fc_id; /*>> port id */ uint32_t enable_tgt:1, /*>> port is a target */ enable_ini:1; /*>> port is an initiator */ ocs_list_link_t link; /*>> link */ void *tgt_data; /**< target backend pointer */ void *ini_data; /**< initiator backend pointer */ ocs_sport_t *sport; /**< Used to match record after attaching for update */ }; #endif /* __OCS_COMMON_H__*/