/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_NXGE_NXGE_H #define _SYS_NXGE_NXGE_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif #if defined(_KERNEL) || defined(COSIM) #include #include #include #endif /* * NXGE diagnostics IOCTLS. */ #define NXGE_IOC ((((('N' << 8) + 'X') << 8) + 'G') << 8) #define NXGE_GET64 (NXGE_IOC|1) #define NXGE_PUT64 (NXGE_IOC|2) #define NXGE_GET_TX_RING_SZ (NXGE_IOC|3) #define NXGE_GET_TX_DESC (NXGE_IOC|4) #define NXGE_GLOBAL_RESET (NXGE_IOC|5) #define NXGE_TX_SIDE_RESET (NXGE_IOC|6) #define NXGE_RX_SIDE_RESET (NXGE_IOC|7) #define NXGE_RESET_MAC (NXGE_IOC|8) #define NXGE_GET_MII (NXGE_IOC|11) #define NXGE_PUT_MII (NXGE_IOC|12) #define NXGE_RTRACE (NXGE_IOC|13) #define NXGE_RTRACE_TEST (NXGE_IOC|20) #define NXGE_TX_REGS_DUMP (NXGE_IOC|21) #define NXGE_RX_REGS_DUMP (NXGE_IOC|22) #define NXGE_INT_REGS_DUMP (NXGE_IOC|23) #define NXGE_VIR_REGS_DUMP (NXGE_IOC|24) #define NXGE_VIR_INT_REGS_DUMP (NXGE_IOC|25) #define NXGE_RDUMP (NXGE_IOC|26) #define NXGE_RDC_GRPS_DUMP (NXGE_IOC|27) #define NXGE_PIO_TEST (NXGE_IOC|28) #define NXGE_GET_TCAM (NXGE_IOC|29) #define NXGE_PUT_TCAM (NXGE_IOC|30) #define NXGE_INJECT_ERR (NXGE_IOC|40) #if (defined(SOLARIS) && defined(_KERNEL)) || defined(COSIM) #define NXGE_OK 0 #define NXGE_ERROR 0x40000000 #define NXGE_DDI_FAILED 0x20000000 #define NXGE_GET_PORT_NUM(n) n /* * Definitions for module_info. */ #define NXGE_IDNUM (0) /* module ID number */ #define NXGE_DRIVER_NAME "nxge" /* module name */ #define NXGE_MINPSZ (0) /* min packet size */ #define NXGE_MAXPSZ (ETHERMTU) /* max packet size */ #define NXGE_HIWAT (2048 * NXGE_MAXPSZ) /* hi-water mark */ #define NXGE_LOWAT (1) /* lo-water mark */ #define NXGE_HIWAT_MAX (192000 * NXGE_MAXPSZ) #define NXGE_HIWAT_MIN (2 * NXGE_MAXPSZ) #define NXGE_LOWAT_MAX (192000 * NXGE_MAXPSZ) #define NXGE_LOWAT_MIN (1) #ifndef D_HOTPLUG #define D_HOTPLUG 0x00 #endif #define INIT_BUCKET_SIZE 16 /* Initial Hash Bucket Size */ #define NXGE_CHECK_TIMER (5000) typedef enum { param_instance, param_main_instance, param_function_number, param_partition_id, param_read_write_mode, param_niu_cfg_type, param_tx_quick_cfg, param_rx_quick_cfg, param_master_cfg_enable, param_master_cfg_value, param_autoneg, param_anar_10gfdx, param_anar_10ghdx, param_anar_1000fdx, param_anar_1000hdx, param_anar_100T4, param_anar_100fdx, param_anar_100hdx, param_anar_10fdx, param_anar_10hdx, param_anar_asmpause, param_anar_pause, param_use_int_xcvr, param_enable_ipg0, param_ipg0, param_ipg1, param_ipg2, param_accept_jumbo, param_txdma_weight, param_txdma_channels_begin, param_txdma_channels, param_txdma_info, param_rxdma_channels_begin, param_rxdma_channels, param_rxdma_drr_weight, param_rxdma_full_header, param_rxdma_info, param_rxdma_rbr_size, param_rxdma_rcr_size, param_default_port_rdc, param_rxdma_intr_time, param_rxdma_intr_pkts, param_rdc_grps_start, param_rx_rdc_grps, param_default_grp0_rdc, param_default_grp1_rdc, param_default_grp2_rdc, param_default_grp3_rdc, param_default_grp4_rdc, param_default_grp5_rdc, param_default_grp6_rdc, param_default_grp7_rdc, param_info_rdc_groups, param_start_ldg, param_max_ldg, param_mac_2rdc_grp, param_vlan_2rdc_grp, param_fcram_part_cfg, param_fcram_access_ratio, param_tcam_access_ratio, param_tcam_enable, param_hash_lookup_enable, param_llc_snap_enable, param_h1_init_value, param_h2_init_value, param_class_cfg_ether_usr1, param_class_cfg_ether_usr2, param_class_cfg_ip_usr4, param_class_cfg_ip_usr5, param_class_cfg_ip_usr6, param_class_cfg_ip_usr7, param_class_opt_ip_usr4, param_class_opt_ip_usr5, param_class_opt_ip_usr6, param_class_opt_ip_usr7, param_class_opt_ipv4_tcp, param_class_opt_ipv4_udp, param_class_opt_ipv4_ah, param_class_opt_ipv4_sctp, param_class_opt_ipv6_tcp, param_class_opt_ipv6_udp, param_class_opt_ipv6_ah, param_class_opt_ipv6_sctp, param_nxge_debug_flag, param_npi_debug_flag, param_dump_rdc, param_dump_tdc, param_dump_mac_regs, param_dump_ipp_regs, param_dump_fflp_regs, param_dump_vlan_table, param_dump_rdc_table, param_dump_ptrs, param_end } nxge_param_index_t; /* * Named Dispatch Parameter Management Structure */ typedef int (*nxge_ndgetf_t)(p_nxge_t, queue_t *, MBLKP, caddr_t, cred_t *); typedef int (*nxge_ndsetf_t)(p_nxge_t, queue_t *, MBLKP, char *, caddr_t, cred_t *); #define NXGE_PARAM_READ 0x00000001ULL #define NXGE_PARAM_WRITE 0x00000002ULL #define NXGE_PARAM_SHARED 0x00000004ULL #define NXGE_PARAM_PRIV 0x00000008ULL #define NXGE_PARAM_RW NXGE_PARAM_READ | NXGE_PARAM_WRITE #define NXGE_PARAM_RWS NXGE_PARAM_RW | NXGE_PARAM_SHARED #define NXGE_PARAM_RWP NXGE_PARAM_RW | NXGE_PARAM_PRIV #define NXGE_PARAM_RXDMA 0x00000010ULL #define NXGE_PARAM_TXDMA 0x00000020ULL #define NXGE_PARAM_CLASS_GEN 0x00000040ULL #define NXGE_PARAM_MAC 0x00000080ULL #define NXGE_PARAM_CLASS_BIN NXGE_PARAM_CLASS_GEN | NXGE_PARAM_BASE_BIN #define NXGE_PARAM_CLASS_HEX NXGE_PARAM_CLASS_GEN | NXGE_PARAM_BASE_HEX #define NXGE_PARAM_CLASS NXGE_PARAM_CLASS_HEX #define NXGE_PARAM_CMPLX 0x00010000ULL #define NXGE_PARAM_NDD_WR_OK 0x00020000ULL #define NXGE_PARAM_INIT_ONLY 0x00040000ULL #define NXGE_PARAM_INIT_CONFIG 0x00080000ULL #define NXGE_PARAM_READ_PROP 0x00100000ULL #define NXGE_PARAM_PROP_ARR32 0x00200000ULL #define NXGE_PARAM_PROP_ARR64 0x00400000ULL #define NXGE_PARAM_PROP_STR 0x00800000ULL #define NXGE_PARAM_BASE_DEC 0x00000000ULL #define NXGE_PARAM_BASE_BIN 0x10000000ULL #define NXGE_PARAM_BASE_HEX 0x20000000ULL #define NXGE_PARAM_BASE_STR 0x40000000ULL #define NXGE_PARAM_DONT_SHOW 0x80000000ULL #define NXGE_PARAM_ARRAY_CNT_MASK 0x0000ffff00000000ULL #define NXGE_PARAM_ARRAY_CNT_SHIFT 32ULL #define NXGE_PARAM_ARRAY_ALLOC_MASK 0xffff000000000000ULL #define NXGE_PARAM_ARRAY_ALLOC_SHIFT 48ULL typedef struct _nxge_param_t { int (*getf)(); int (*setf)(); /* null for read only */ uint64_t type; /* R/W/ Common/Port/ .... */ uint64_t minimum; uint64_t maximum; uint64_t value; /* for array params, pointer to value array */ uint64_t old_value; /* for array params, pointer to old_value array */ char *fcode_name; char *name; } nxge_param_t, *p_nxge_param_t; typedef enum { nxge_lb_normal, nxge_lb_ext10g, nxge_lb_ext1000, nxge_lb_ext100, nxge_lb_ext10, nxge_lb_phy10g, nxge_lb_phy1000, nxge_lb_phy, nxge_lb_serdes10g, nxge_lb_serdes1000, nxge_lb_serdes, nxge_lb_mac10g, nxge_lb_mac1000, nxge_lb_mac } nxge_lb_t; enum nxge_mac_state { NXGE_MAC_STOPPED = 0, NXGE_MAC_STARTED }; /* * Private DLPI full dlsap address format. */ typedef struct _nxge_dladdr_t { ether_addr_st dl_phys; uint16_t dl_sap; } nxge_dladdr_t, *p_nxge_dladdr_t; typedef struct _mc_addr_t { ether_addr_st multcast_addr; uint_t mc_addr_cnt; } mc_addr_t, *p_mc_addr_t; typedef struct _mc_bucket_t { p_mc_addr_t addr_list; uint_t list_size; } mc_bucket_t, *p_mc_bucket_t; typedef struct _mc_table_t { p_mc_bucket_t bucket_list; uint_t buckets_used; } mc_table_t, *p_mc_table_t; typedef struct _filter_t { uint32_t all_phys_cnt; uint32_t all_multicast_cnt; uint32_t all_sap_cnt; } filter_t, *p_filter_t; #if defined(_KERNEL) || defined(COSIM) typedef struct _nxge_port_stats_t { /* * Overall structure size */ size_t stats_size; /* * Link Input/Output stats */ uint64_t ipackets; uint64_t ierrors; uint64_t opackets; uint64_t oerrors; uint64_t collisions; /* * MIB II variables */ uint64_t rbytes; /* # bytes received */ uint64_t obytes; /* # bytes transmitted */ uint32_t multircv; /* # multicast packets received */ uint32_t multixmt; /* # multicast packets for xmit */ uint32_t brdcstrcv; /* # broadcast packets received */ uint32_t brdcstxmt; /* # broadcast packets for xmit */ uint32_t norcvbuf; /* # rcv packets discarded */ uint32_t noxmtbuf; /* # xmit packets discarded */ /* * Lets the user know the MTU currently in use by * the physical MAC port. */ nxge_lb_t lb_mode; uint32_t qos_mode; uint32_t trunk_mode; uint32_t poll_mode; /* * Tx Statistics. */ uint32_t tx_inits; uint32_t tx_starts; uint32_t tx_nocanput; uint32_t tx_msgdup_fail; uint32_t tx_allocb_fail; uint32_t tx_no_desc; uint32_t tx_dma_bind_fail; uint32_t tx_uflo; uint32_t tx_hdr_pkts; uint32_t tx_ddi_pkts; uint32_t tx_dvma_pkts; uint32_t tx_max_pend; /* * Rx Statistics. */ uint32_t rx_inits; uint32_t rx_hdr_pkts; uint32_t rx_mtu_pkts; uint32_t rx_split_pkts; uint32_t rx_no_buf; uint32_t rx_no_comp_wb; uint32_t rx_ov_flow; uint32_t rx_len_mm; uint32_t rx_tag_err; uint32_t rx_nocanput; uint32_t rx_msgdup_fail; uint32_t rx_allocb_fail; /* * Receive buffer management statistics. */ uint32_t rx_new_pages; uint32_t rx_new_hdr_pgs; uint32_t rx_new_mtu_pgs; uint32_t rx_new_nxt_pgs; uint32_t rx_reused_pgs; uint32_t rx_hdr_drops; uint32_t rx_mtu_drops; uint32_t rx_nxt_drops; /* * Receive flow statistics */ uint32_t rx_rel_flow; uint32_t rx_rel_bit; uint32_t rx_pkts_dropped; /* * PCI-E Bus Statistics. */ uint32_t pci_bus_speed; uint32_t pci_err; uint32_t pci_rta_err; uint32_t pci_rma_err; uint32_t pci_parity_err; uint32_t pci_bad_ack_err; uint32_t pci_drto_err; uint32_t pci_dmawz_err; uint32_t pci_dmarz_err; uint32_t rx_taskq_waits; uint32_t tx_jumbo_pkts; /* * Some statistics added to support bringup, these * should be removed. */ uint32_t user_defined; } nxge_port_stats_t, *p_nxge_port_stats_t; typedef struct _nxge_stats_t { /* * Overall structure size */ size_t stats_size; kstat_t *ksp; kstat_t *rdc_ksp[NXGE_MAX_RDCS]; kstat_t *tdc_ksp[NXGE_MAX_TDCS]; kstat_t *rdc_sys_ksp; kstat_t *fflp_ksp[1]; kstat_t *ipp_ksp; kstat_t *txc_ksp; kstat_t *mac_ksp; kstat_t *zcp_ksp; kstat_t *port_ksp; kstat_t *mmac_ksp; nxge_mac_stats_t mac_stats; /* Common MAC Statistics */ nxge_xmac_stats_t xmac_stats; /* XMAC Statistics */ nxge_bmac_stats_t bmac_stats; /* BMAC Statistics */ nxge_rx_ring_stats_t rx_stats; /* per port RX stats */ nxge_ipp_stats_t ipp_stats; /* per port IPP stats */ nxge_zcp_stats_t zcp_stats; /* per port IPP stats */ nxge_rx_ring_stats_t rdc_stats[NXGE_MAX_RDCS]; /* per rdc stats */ nxge_rdc_sys_stats_t rdc_sys_stats; /* per port RDC stats */ nxge_tx_ring_stats_t tx_stats; /* per port TX stats */ nxge_txc_stats_t txc_stats; /* per port TX stats */ nxge_tx_ring_stats_t tdc_stats[NXGE_MAX_TDCS]; /* per tdc stats */ nxge_fflp_stats_t fflp_stats; /* fflp stats */ nxge_port_stats_t port_stats; /* fflp stats */ nxge_mmac_stats_t mmac_stats; /* Multi mac. stats */ } nxge_stats_t, *p_nxge_stats_t; typedef struct _nxge_intr_t { boolean_t intr_registered; /* interrupts are registered */ boolean_t intr_enabled; /* interrupts are enabled */ boolean_t niu_msi_enable; /* debug or configurable? */ uint8_t nldevs; /* # of logical devices */ int intr_types; /* interrupt types supported */ int intr_type; /* interrupt type to add */ int max_int_cnt; /* max MSIX/INT HW supports */ int start_inum; /* start inum (in sequence?) */ int msi_intx_cnt; /* # msi/intx ints returned */ int intr_added; /* # ints actually needed */ int intr_cap; /* interrupt capabilities */ size_t intr_size; /* size of array to allocate */ ddi_intr_handle_t *htable; /* For array of interrupts */ /* Add interrupt number for each interrupt vector */ int pri; } nxge_intr_t, *p_nxge_intr_t; typedef struct _nxge_ldgv_t { uint8_t ndma_ldvs; uint8_t nldvs; uint8_t start_ldg; uint8_t start_ldg_tx; uint8_t start_ldg_rx; uint8_t maxldgs; uint8_t maxldvs; uint8_t ldg_intrs; boolean_t own_sys_err; boolean_t own_max_ldv; uint32_t tmres; p_nxge_ldg_t ldgp; p_nxge_ldv_t ldvp; p_nxge_ldv_t ldvp_syserr; } nxge_ldgv_t, *p_nxge_ldgv_t; /* * Neptune Device instance state information. * * Each instance is dynamically allocated on first attach. */ struct _nxge_t { dev_info_t *dip; /* device instance */ dev_info_t *p_dip; /* Parent's device instance */ int instance; /* instance number */ int function_num; /* device function number */ int nports; /* # of ports on this device */ int board_ver; /* Board Version */ int partition_id; /* partition ID */ int use_partition; /* partition is enabled */ uint32_t drv_state; /* driver state bit flags */ uint64_t nxge_debug_level; /* driver state bit flags */ kmutex_t genlock[1]; enum nxge_mac_state nxge_mac_state; ddi_softintr_t resched_id; /* reschedule callback */ boolean_t resched_needed; boolean_t resched_running; p_dev_regs_t dev_regs; npi_handle_t npi_handle; npi_handle_t npi_pci_handle; npi_handle_t npi_reg_handle; npi_handle_t npi_msi_handle; npi_handle_t npi_vreg_handle; npi_handle_t npi_v2reg_handle; nxge_mac_t mac; nxge_ipp_t ipp; nxge_txc_t txc; nxge_classify_t classifier; mac_handle_t mach; /* mac module handle */ p_nxge_stats_t statsp; uint32_t param_count; p_nxge_param_t param_arr; nxge_hw_list_t *nxge_hw_p; /* pointer to per Neptune */ niu_type_t niu_type; boolean_t os_addr_mode32; /* set to 1 for 32 bit mode */ uint8_t nrdc; uint8_t def_rdc; uint8_t rdc[NXGE_MAX_RDCS]; uint8_t ntdc; uint8_t tdc[NXGE_MAX_TDCS]; nxge_intr_t nxge_intr_type; nxge_dma_pt_cfg_t pt_config; nxge_class_pt_cfg_t class_config; /* Logical device and group data structures. */ p_nxge_ldgv_t ldgvp; caddr_t param_list; /* Parameter list */ ether_addr_st factaddr; /* factory mac address */ ether_addr_st ouraddr; /* individual address */ kmutex_t ouraddr_lock; /* lock to protect to uradd */ ddi_iblock_cookie_t interrupt_cookie; /* * Blocks of memory may be pre-allocated by the * partition manager or the driver. They may include * blocks for configuration and buffers. The idea is * to preallocate big blocks of contiguous areas in * system memory (i.e. with IOMMU). These blocks then * will be broken up to a fixed number of blocks with * each block having the same block size (4K, 8K, 16K or * 32K) in the case of buffer blocks. For systems that * do not support DVMA, more than one big block will be * allocated. */ uint32_t rx_default_block_size; nxge_rx_block_size_t rx_bksize_code; p_nxge_dma_pool_t rx_buf_pool_p; p_nxge_dma_pool_t rx_cntl_pool_p; p_nxge_dma_pool_t tx_buf_pool_p; p_nxge_dma_pool_t tx_cntl_pool_p; /* Receive buffer block ring and completion ring. */ p_rx_rbr_rings_t rx_rbr_rings; p_rx_rcr_rings_t rx_rcr_rings; p_rx_mbox_areas_t rx_mbox_areas_p; p_rx_tx_params_t rx_params; uint32_t start_rdc; uint32_t max_rdcs; uint32_t rdc_mask; /* Transmit descriptors rings */ p_tx_rings_t tx_rings; p_tx_mbox_areas_t tx_mbox_areas_p; uint32_t start_tdc; uint32_t max_tdcs; uint32_t tdc_mask; p_rx_tx_params_t tx_params; ddi_dma_handle_t dmasparehandle; ulong_t sys_page_sz; ulong_t sys_page_mask; int suspended; mii_bmsr_t bmsr; /* xcvr status at last poll. */ mii_bmsr_t soft_bmsr; /* xcvr status kept by SW. */ kmutex_t mif_lock; /* Lock to protect the list. */ void (*mii_read)(); void (*mii_write)(); void (*mii_poll)(); filter_t filter; /* Current instance filter */ p_hash_filter_t hash_filter; /* Multicast hash filter. */ krwlock_t filter_lock; /* Lock to protect filters. */ ulong_t sys_burst_sz; uint8_t cache_line; timeout_id_t nxge_link_poll_timerid; timeout_id_t nxge_timerid; uint_t need_periodic_reclaim; timeout_id_t reclaim_timer; uint8_t msg_min; uint8_t crc_size; boolean_t hard_props_read; boolean_t nxge_htraffic; uint32_t nxge_ncpus; uint32_t nxge_cpumask; uint16_t intr_timeout; uint16_t intr_threshold; uchar_t nxge_rxmode; uint32_t active_threads; rtrace_t rtrace; int fm_capabilities; /* FMA capabilities */ uint32_t nxge_port_rbr_size; uint32_t nxge_port_rcr_size; uint32_t nxge_port_tx_ring_size; nxge_mmac_t nxge_mmac_info; #if defined(sun4v) boolean_t niu_hsvc_available; hsvc_info_t niu_hsvc; uint64_t niu_min_ver; #endif boolean_t link_notify; }; /* * Driver state flags. */ #define STATE_REGS_MAPPED 0x000000001 /* device registers mapped */ #define STATE_KSTATS_SETUP 0x000000002 /* kstats allocated */ #define STATE_NODE_CREATED 0x000000004 /* device node created */ #define STATE_HW_CONFIG_CREATED 0x000000008 /* hardware properties */ #define STATE_HW_INITIALIZED 0x000000010 /* hardware initialized */ #define STATE_MDIO_LOCK_INIT 0x000000020 /* mdio lock initialized */ #define STATE_MII_LOCK_INIT 0x000000040 /* mii lock initialized */ #define STOP_POLL_THRESH 9 #define START_POLL_THRESH 2 typedef struct _nxge_port_kstat_t { /* * Transciever state informations. */ kstat_named_t xcvr_inits; kstat_named_t xcvr_inuse; kstat_named_t xcvr_addr; kstat_named_t xcvr_id; kstat_named_t cap_autoneg; kstat_named_t cap_10gfdx; kstat_named_t cap_10ghdx; kstat_named_t cap_1000fdx; kstat_named_t cap_1000hdx; kstat_named_t cap_100T4; kstat_named_t cap_100fdx; kstat_named_t cap_100hdx; kstat_named_t cap_10fdx; kstat_named_t cap_10hdx; kstat_named_t cap_asmpause; kstat_named_t cap_pause; /* * Link partner capabilities. */ kstat_named_t lp_cap_autoneg; kstat_named_t lp_cap_10gfdx; kstat_named_t lp_cap_10ghdx; kstat_named_t lp_cap_1000fdx; kstat_named_t lp_cap_1000hdx; kstat_named_t lp_cap_100T4; kstat_named_t lp_cap_100fdx; kstat_named_t lp_cap_100hdx; kstat_named_t lp_cap_10fdx; kstat_named_t lp_cap_10hdx; kstat_named_t lp_cap_asmpause; kstat_named_t lp_cap_pause; /* * Shared link setup. */ kstat_named_t link_T4; kstat_named_t link_speed; kstat_named_t link_duplex; kstat_named_t link_asmpause; kstat_named_t link_pause; kstat_named_t link_up; /* * Lets the user know the MTU currently in use by * the physical MAC port. */ kstat_named_t mac_mtu; kstat_named_t lb_mode; kstat_named_t qos_mode; kstat_named_t trunk_mode; /* * Misc MAC statistics. */ kstat_named_t ifspeed; kstat_named_t promisc; kstat_named_t rev_id; /* * Some statistics added to support bringup, these * should be removed. */ kstat_named_t user_defined; } nxge_port_kstat_t, *p_nxge_port_kstat_t; typedef struct _nxge_rdc_kstat { /* * Receive DMA channel statistics. */ kstat_named_t ipackets; kstat_named_t rbytes; kstat_named_t errors; kstat_named_t dcf_err; kstat_named_t rcr_ack_err; kstat_named_t dc_fifoflow_err; kstat_named_t rcr_sha_par_err; kstat_named_t rbr_pre_par_err; kstat_named_t wred_drop; kstat_named_t rbr_pre_emty; kstat_named_t rcr_shadow_full; kstat_named_t rbr_tmout; kstat_named_t rsp_cnt_err; kstat_named_t byte_en_bus; kstat_named_t rsp_dat_err; kstat_named_t compl_l2_err; kstat_named_t compl_l4_cksum_err; kstat_named_t compl_zcp_soft_err; kstat_named_t compl_fflp_soft_err; kstat_named_t config_err; kstat_named_t rcrincon; kstat_named_t rcrfull; kstat_named_t rbr_empty; kstat_named_t rbrfull; kstat_named_t rbrlogpage; kstat_named_t cfiglogpage; kstat_named_t port_drop_pkt; kstat_named_t rcr_to; kstat_named_t rcr_thresh; kstat_named_t rcr_mex; kstat_named_t id_mismatch; kstat_named_t zcp_eop_err; kstat_named_t ipp_eop_err; } nxge_rdc_kstat_t, *p_nxge_rdc_kstat_t; typedef struct _nxge_rdc_sys_kstat { /* * Receive DMA system statistics. */ kstat_named_t pre_par; kstat_named_t sha_par; kstat_named_t id_mismatch; kstat_named_t ipp_eop_err; kstat_named_t zcp_eop_err; } nxge_rdc_sys_kstat_t, *p_nxge_rdc_sys_kstat_t; typedef struct _nxge_tdc_kstat { /* * Transmit DMA channel statistics. */ kstat_named_t opackets; kstat_named_t obytes; kstat_named_t oerrors; kstat_named_t tx_inits; kstat_named_t tx_no_buf; kstat_named_t mbox_err; kstat_named_t pkt_size_err; kstat_named_t tx_ring_oflow; kstat_named_t pref_buf_ecc_err; kstat_named_t nack_pref; kstat_named_t nack_pkt_rd; kstat_named_t conf_part_err; kstat_named_t pkt_prt_err; kstat_named_t reset_fail; /* used to in the common (per port) counter */ kstat_named_t tx_starts; kstat_named_t tx_nocanput; kstat_named_t tx_msgdup_fail; kstat_named_t tx_allocb_fail; kstat_named_t tx_no_desc; kstat_named_t tx_dma_bind_fail; kstat_named_t tx_uflo; kstat_named_t tx_hdr_pkts; kstat_named_t tx_ddi_pkts; kstat_named_t tx_dvma_pkts; kstat_named_t tx_max_pend; } nxge_tdc_kstat_t, *p_nxge_tdc_kstat_t; typedef struct _nxge_txc_kstat { /* * Transmit port TXC block statistics. */ kstat_named_t pkt_stuffed; kstat_named_t pkt_xmit; kstat_named_t ro_correct_err; kstat_named_t ro_uncorrect_err; kstat_named_t sf_correct_err; kstat_named_t sf_uncorrect_err; kstat_named_t address_failed; kstat_named_t dma_failed; kstat_named_t length_failed; kstat_named_t pkt_assy_dead; kstat_named_t reorder_err; } nxge_txc_kstat_t, *p_nxge_txc_kstat_t; typedef struct _nxge_ipp_kstat { /* * Receive port IPP block statistics. */ kstat_named_t eop_miss; kstat_named_t sop_miss; kstat_named_t dfifo_ue; kstat_named_t ecc_err_cnt; kstat_named_t dfifo_perr; kstat_named_t pfifo_over; kstat_named_t pfifo_und; kstat_named_t bad_cs_cnt; kstat_named_t pkt_dis_cnt; kstat_named_t cs_fail; } nxge_ipp_kstat_t, *p_nxge_ipp_kstat_t; typedef struct _nxge_zcp_kstat { /* * ZCP statistics. */ kstat_named_t errors; kstat_named_t inits; kstat_named_t rrfifo_underrun; kstat_named_t rrfifo_overrun; kstat_named_t rspfifo_uncorr_err; kstat_named_t buffer_overflow; kstat_named_t stat_tbl_perr; kstat_named_t dyn_tbl_perr; kstat_named_t buf_tbl_perr; kstat_named_t tt_program_err; kstat_named_t rsp_tt_index_err; kstat_named_t slv_tt_index_err; kstat_named_t zcp_tt_index_err; kstat_named_t access_fail; kstat_named_t cfifo_ecc; } nxge_zcp_kstat_t, *p_nxge_zcp_kstat_t; typedef struct _nxge_mac_kstat { /* * Transmit MAC statistics. */ kstat_named_t tx_frame_cnt; kstat_named_t tx_underflow_err; kstat_named_t tx_overflow_err; kstat_named_t tx_maxpktsize_err; kstat_named_t tx_fifo_xfr_err; kstat_named_t tx_byte_cnt; /* * Receive MAC statistics. */ kstat_named_t rx_frame_cnt; kstat_named_t rx_underflow_err; kstat_named_t rx_overflow_err; kstat_named_t rx_len_err_cnt; kstat_named_t rx_crc_err_cnt; kstat_named_t rx_viol_err_cnt; kstat_named_t rx_byte_cnt; kstat_named_t rx_hist1_cnt; kstat_named_t rx_hist2_cnt; kstat_named_t rx_hist3_cnt; kstat_named_t rx_hist4_cnt; kstat_named_t rx_hist5_cnt; kstat_named_t rx_hist6_cnt; kstat_named_t rx_broadcast_cnt; kstat_named_t rx_mult_cnt; kstat_named_t rx_frag_cnt; kstat_named_t rx_frame_align_err_cnt; kstat_named_t rx_linkfault_err_cnt; kstat_named_t rx_local_fault_err_cnt; kstat_named_t rx_remote_fault_err_cnt; } nxge_mac_kstat_t, *p_nxge_mac_kstat_t; typedef struct _nxge_xmac_kstat { /* * XMAC statistics. */ kstat_named_t tx_frame_cnt; kstat_named_t tx_underflow_err; kstat_named_t tx_maxpktsize_err; kstat_named_t tx_overflow_err; kstat_named_t tx_fifo_xfr_err; kstat_named_t tx_byte_cnt; kstat_named_t rx_frame_cnt; kstat_named_t rx_underflow_err; kstat_named_t rx_overflow_err; kstat_named_t rx_crc_err_cnt; kstat_named_t rx_len_err_cnt; kstat_named_t rx_viol_err_cnt; kstat_named_t rx_byte_cnt; kstat_named_t rx_hist1_cnt; kstat_named_t rx_hist2_cnt; kstat_named_t rx_hist3_cnt; kstat_named_t rx_hist4_cnt; kstat_named_t rx_hist5_cnt; kstat_named_t rx_hist6_cnt; kstat_named_t rx_hist7_cnt; kstat_named_t rx_broadcast_cnt; kstat_named_t rx_mult_cnt; kstat_named_t rx_frag_cnt; kstat_named_t rx_frame_align_err_cnt; kstat_named_t rx_linkfault_err_cnt; kstat_named_t rx_remote_fault_err_cnt; kstat_named_t rx_local_fault_err_cnt; kstat_named_t rx_pause_cnt; kstat_named_t xpcs_deskew_err_cnt; kstat_named_t xpcs_ln0_symbol_err_cnt; kstat_named_t xpcs_ln1_symbol_err_cnt; kstat_named_t xpcs_ln2_symbol_err_cnt; kstat_named_t xpcs_ln3_symbol_err_cnt; } nxge_xmac_kstat_t, *p_nxge_xmac_kstat_t; typedef struct _nxge_bmac_kstat { /* * BMAC statistics. */ kstat_named_t tx_frame_cnt; kstat_named_t tx_underrun_err; kstat_named_t tx_max_pkt_err; kstat_named_t tx_byte_cnt; kstat_named_t rx_frame_cnt; kstat_named_t rx_byte_cnt; kstat_named_t rx_overflow_err; kstat_named_t rx_align_err_cnt; kstat_named_t rx_crc_err_cnt; kstat_named_t rx_len_err_cnt; kstat_named_t rx_viol_err_cnt; kstat_named_t rx_pause_cnt; kstat_named_t tx_pause_state; kstat_named_t tx_nopause_state; } nxge_bmac_kstat_t, *p_nxge_bmac_kstat_t; typedef struct _nxge_fflp_kstat { /* * FFLP statistics. */ kstat_named_t fflp_tcam_ecc_err; kstat_named_t fflp_tcam_perr; kstat_named_t fflp_vlan_perr; kstat_named_t fflp_hasht_lookup_err; kstat_named_t fflp_access_fail; kstat_named_t fflp_hasht_data_err[MAX_PARTITION]; } nxge_fflp_kstat_t, *p_nxge_fflp_kstat_t; typedef struct _nxge_mmac_kstat { kstat_named_t mmac_max_addr_cnt; kstat_named_t mmac_avail_addr_cnt; kstat_named_t mmac_addr1; kstat_named_t mmac_addr2; kstat_named_t mmac_addr3; kstat_named_t mmac_addr4; kstat_named_t mmac_addr5; kstat_named_t mmac_addr6; kstat_named_t mmac_addr7; kstat_named_t mmac_addr8; kstat_named_t mmac_addr9; kstat_named_t mmac_addr10; kstat_named_t mmac_addr11; kstat_named_t mmac_addr12; kstat_named_t mmac_addr13; kstat_named_t mmac_addr14; kstat_named_t mmac_addr15; kstat_named_t mmac_addr16; } nxge_mmac_kstat_t, *p_nxge_mmac_kstat_t; #endif /* _KERNEL */ /* * Prototype definitions. */ nxge_status_t nxge_init(p_nxge_t); void nxge_uninit(p_nxge_t); void nxge_get64(p_nxge_t, p_mblk_t); void nxge_put64(p_nxge_t, p_mblk_t); void nxge_pio_loop(p_nxge_t, p_mblk_t); #ifndef COSIM typedef void (*fptrv_t)(); timeout_id_t nxge_start_timer(p_nxge_t, fptrv_t, int); void nxge_stop_timer(p_nxge_t, timeout_id_t); #endif #endif #ifdef __cplusplus } #endif #endif /* _SYS_NXGE_NXGE_H */