/* * 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 _SYS_SOFTMAC_IMPL_H #define _SYS_SOFTMAC_IMPL_H #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif typedef void (*softmac_rx_t)(void *, mac_resource_handle_t, mblk_t *, mac_header_info_t *); typedef struct softmac_lower_rxinfo_s { softmac_rx_t slr_rx; void *slr_arg; } softmac_lower_rxinfo_t; typedef struct softmac_lower_s { ldi_handle_t sl_lh; struct softmac *sl_softmac; queue_t *sl_wq; struct softmac_upper_s *sl_sup; softmac_lower_rxinfo_t *sl_rxinfo; /* * When a control message is processed, either sl_pending_prim or * sl_pending_ioctl will be set. They will be cleared when the * acknowledgement of the specific control message is received * from the underlying legacy driver. */ kmutex_t sl_mutex; kcondvar_t sl_cv; t_uscalar_t sl_pending_prim; boolean_t sl_pending_ioctl; mblk_t *sl_ack_mp; } softmac_lower_t; typedef enum { SOFTMAC_INITIALIZED, SOFTMAC_READY } softmac_lower_state_t; typedef enum { SOFTMAC_UNINIT, SOFTMAC_ATTACH_INPROG, SOFTMAC_ATTACH_DONE, SOFTMAC_DETACH_INPROG, } softmac_state_t; typedef struct softmac_dev_s { dev_t sd_dev; } softmac_dev_t; /* * smac_flag values. */ #define SOFTMAC_GLDV3 0x01 #define SOFTMAC_NOSUPP 0x02 #define SOFTMAC_NEED_RECREATE 0x04 #define SOFTMAC_NOTIFY_QUIT 0x08 #define SMAC_NONZERO_NODECNT(softmac) \ ((softmac->smac_softmac[0] != NULL) + \ (softmac->smac_softmac[1] != NULL)) /* * The softmac structure allows all minor nodes (at most two, style-1 and * style-2) for the same device to be processed. A softmac_dev_t will be * created for each minor node. * * We try to "register" the mac after all the softmac_dev_t's are processed so * that even if DLPI operations fail (because of driver bugs) for one minor * node, the other minor node can still be used to register the mac. * (Specifically, an incorrect xxx_getinfo() implementation will cause style-2 * minor node mac registration to fail.) * * Locking description: * WO: write once, valid the life time. */ typedef struct softmac { char smac_devname[MAXNAMELEN]; /* WO */ major_t smac_umajor; /* WO */ int smac_uppa; /* WO */ uint32_t smac_cnt; /* WO, # of minor nodes */ kmutex_t smac_mutex; kcondvar_t smac_cv; softmac_state_t smac_state; /* smac_mutex */ /* * The smac_hold_cnt field increases when softmac_hold_device() is * called to force the dls_vlan_t of the device to be created. The * device pre-detach fails if this counter is not 0. */ uint32_t smac_hold_cnt; /* smac_mutex */ uint32_t smac_flags; /* smac_mutex */ int smac_attacherr; /* smac_mutex */ mac_handle_t smac_mh; softmac_dev_t *smac_softmac[2]; /* smac_mutex */ /* * Number of minor nodes whose post-attach routine has succeeded. * This should be the same as the numbers of softmac_dev_t. * Note that it does not imply SOFTMAC_ATTACH_DONE as the taskq might * be still ongoing. */ uint32_t smac_attachok_cnt; /* smac_mutex */ /* * Number of softmac_dev_t left when pre-detach fails. This is used * to indicate whether postattach is called because of a failed * pre-detach. */ uint32_t smac_attached_left; /* smac_mutex */ /* * Thread handles the DL_NOTIFY_IND message from the lower stream. */ kthread_t *smac_notify_thread; /* smac_mutex */ /* * Head and tail of the DL_NOTIFY_IND messsages. */ mblk_t *smac_notify_head; /* smac_mutex */ mblk_t *smac_notify_tail; /* smac_mutex */ /* * The remaining fields are used to register the MAC for a legacy * device. They are set in softmac_mac_register() and do not change. * One can access them when mac_register() is done without locks. */ /* * media type is needed for create mapping, so * it is set for GLDv3 device as well */ uint_t smac_media; /* DLPI style of the underlying device */ int smac_style; dev_t smac_dev; size_t smac_saplen; size_t smac_addrlen; uchar_t smac_unicst_addr[MAXMACADDRLEN]; uint_t smac_min_sdu; uint_t smac_max_sdu; uint32_t smac_margin; /* Notifications the underlying driver can support. */ uint32_t smac_notifications; /* * Capabilities of the underlying driver. */ uint32_t smac_capab_flags; uint32_t smac_hcksum_txflags; boolean_t smac_no_capability_req; dl_capab_mdt_t smac_mdt_capab; boolean_t smac_mdt; /* * Lower stream structure, accessed by the MAC provider API. The GLDv3 * framework assures it's validity. */ softmac_lower_t *smac_lower; kmutex_t smac_active_mutex; /* * Set by xxx_active_set() when aggregation is created. */ boolean_t smac_active; /* smac_active_mutex */ /* * Numbers of the bounded streams in the fast-path mode. */ uint32_t smac_nactive; /* smac_active_mutex */ kmutex_t smac_fp_mutex; kcondvar_t smac_fp_cv; /* * numbers of clients that request to disable fastpath. */ uint32_t smac_fp_disable_clients; /* smac_fp_mutex */ boolean_t smac_fastpath_admin_disabled; /* smac_fp_mutex */ /* * stream list over this softmac. */ list_t smac_sup_list; /* smac_fp_mutex */ } softmac_t; typedef struct smac_ioc_start_s { softmac_lower_t *si_slp; } smac_ioc_start_t; #define SMAC_IOC ('S' << 24 | 'M' << 16 | 'C' << 8) #define SMAC_IOC_START (SMAC_IOC | 0x01) /* * The su_mode of a non-IP/ARP stream is UNKNOWN, and the su_mode of an IP/ARP * stream is either SLOWPATH or FASTPATH. */ #define SOFTMAC_UNKNOWN 0x00 #define SOFTMAC_SLOWPATH 0x01 #define SOFTMAC_FASTPATH 0x02 typedef struct softmac_switch_req_s { list_node_t ssq_req_list_node; uint32_t ssq_expected_mode; } softmac_switch_req_t; #define DATAPATH_MODE(softmac) \ ((((softmac)->smac_fp_disable_clients != 0) || \ (softmac)->smac_fastpath_admin_disabled) ? SOFTMAC_SLOWPATH : \ SOFTMAC_FASTPATH) /* * Locking description: * * WO: Set once and valid for life; * SL: Serialized by the control path (softmac_wput_nondata_task()) */ typedef struct softmac_upper_s { softmac_t *su_softmac; /* WO */ queue_t *su_rq; /* WO */ queue_t *su_wq; /* WO */ /* * List of upper streams that has pending DLPI messages to be processed. */ list_node_t su_taskq_list_node; /* softmac_taskq_lock */ /* * non-NULL for IP/ARP streams in the fast-path mode */ softmac_lower_t *su_slp; /* SL & su_mutex */ /* * List of all IP/ARP upperstreams on the same softmac (including * the ones in both data-path modes). */ list_node_t su_list_node; /* smac_fp_mutex */ /* * List of datapath switch requests. */ list_t su_req_list; /* smac_fp_mutex */ /* * Place holder of RX callbacks used to handles data messages comes * from the dedicated-lower-stream associated with the IP/ARP stream. * Another RX callback is softmac_drop_rxinfo, which is a global * variable. */ softmac_lower_rxinfo_t su_rxinfo; /* WO */ softmac_lower_rxinfo_t su_direct_rxinfo; /* WO */ /* * Used to serialize the DLPI operation and fastpath<->slowpath * switching over operation. */ kmutex_t su_disp_mutex; kcondvar_t su_disp_cv; mblk_t *su_pending_head; /* su_disp_mutex */ mblk_t *su_pending_tail; /* su_disp_mutex */ boolean_t su_dlpi_pending; /* su_disp_mutex */ boolean_t su_closing; /* su_disp_mutex */ uint32_t su_bound : 1, /* SL */ su_active : 1, /* SL */ su_direct : 1; /* SL */ /* * Used for fastpath data path. */ kmutex_t su_mutex; kcondvar_t su_cv; mblk_t *su_tx_flow_mp; /* su_mutex */ boolean_t su_tx_busy; /* su_mutex */ /* * Number of softmac_srv() operation in fastpath processing. */ uint32_t su_tx_inprocess; /* su_mutex */ /* * SOFTMAC_SLOWPATH or SOFTMAC_FASTPATH */ uint32_t su_mode; /* SL & su_mutex */ /* * Whether this stream is already scheduled in softmac_taskq_list. */ boolean_t su_taskq_scheduled; /* softmac_taskq_lock */ } softmac_upper_t; #define SOFTMAC_EQ_PENDING(sup, mp) { \ if ((sup)->su_pending_head == NULL) { \ (sup)->su_pending_head = (sup)->su_pending_tail = (mp); \ } else { \ (sup)->su_pending_tail->b_next = (mp); \ (sup)->su_pending_tail = (mp); \ } \ } #define SOFTMAC_DQ_PENDING(sup, mpp) { \ if ((sup)->su_pending_head == NULL) { \ *(mpp) = NULL; \ } else { \ *(mpp) = (sup)->su_pending_head; \ if (((sup)->su_pending_head = (*(mpp))->b_next) == NULL)\ (sup)->su_pending_tail = NULL; \ (*(mpp))->b_next = NULL; \ } \ } /* * A macro to check whether the write-queue of the lower stream is full * and packets need to be enqueued. * * Because softmac is pushed right above the underlying device and * _I_INSERT/_I_REMOVE is not processed in the lower stream, it is * safe to directly access the q_next pointer. */ #define SOFTMAC_CANPUTNEXT(q) \ (!((q)->q_next->q_nfsrv->q_flag & QFULL) || canput((q)->q_next)) extern dev_info_t *softmac_dip; #define SOFTMAC_DEV_NAME "softmac" extern int softmac_send_bind_req(softmac_lower_t *, uint_t); extern int softmac_send_unbind_req(softmac_lower_t *); extern int softmac_send_notify_req(softmac_lower_t *, uint32_t); extern int softmac_send_promisc_req(softmac_lower_t *, t_uscalar_t, boolean_t); extern void softmac_init(); extern void softmac_fini(); extern void softmac_fp_init(); extern void softmac_fp_fini(); extern boolean_t softmac_busy(); extern int softmac_fill_capab(ldi_handle_t, softmac_t *); extern int softmac_capab_enable(softmac_lower_t *); extern void softmac_rput_process_notdata(queue_t *, softmac_upper_t *, mblk_t *); extern void softmac_rput_process_data(softmac_lower_t *, mblk_t *); extern int softmac_output(softmac_lower_t *, mblk_t *, t_uscalar_t, t_uscalar_t, mblk_t **); extern int softmac_mexchange_error_ack(mblk_t **, t_uscalar_t, t_uscalar_t, t_uscalar_t); extern int softmac_m_promisc(void *, boolean_t); extern int softmac_m_multicst(void *, boolean_t, const uint8_t *); extern int softmac_m_unicst(void *, const uint8_t *); extern void softmac_m_ioctl(void *, queue_t *, mblk_t *); extern int softmac_m_stat(void *, uint_t, uint64_t *); extern mblk_t *softmac_m_tx(void *, mblk_t *); extern int softmac_proto_tx(softmac_lower_t *, mblk_t *, mblk_t **); extern void softmac_ioctl_tx(softmac_lower_t *, mblk_t *, mblk_t **); extern void softmac_notify_thread(void *); extern int softmac_hold(dev_t, softmac_t **); extern void softmac_rele(softmac_t *); extern int softmac_lower_setup(softmac_t *, softmac_upper_t *, softmac_lower_t **); extern boolean_t softmac_active_set(void *); extern void softmac_active_clear(void *); extern int softmac_fastpath_disable(void *); extern void softmac_fastpath_enable(void *); extern int softmac_datapath_switch(softmac_t *, boolean_t, boolean_t); extern void softmac_wput_data(softmac_upper_t *, mblk_t *); extern void softmac_wput_nondata(softmac_upper_t *, mblk_t *); extern void softmac_upperstream_close(softmac_upper_t *); #ifdef __cplusplus } #endif #endif /* _SYS_SOFTMAC_IMPL_H */