108135eecSEdward Cree // SPDX-License-Identifier: GPL-2.0-only 208135eecSEdward Cree /**************************************************************************** 308135eecSEdward Cree * Driver for Solarflare network controllers and boards 408135eecSEdward Cree * Copyright 2019 Solarflare Communications Inc. 508135eecSEdward Cree * Copyright 2020-2022 Xilinx Inc. 608135eecSEdward Cree * 708135eecSEdward Cree * This program is free software; you can redistribute it and/or modify it 808135eecSEdward Cree * under the terms of the GNU General Public License version 2 as published 908135eecSEdward Cree * by the Free Software Foundation, incorporated herein by reference. 1008135eecSEdward Cree */ 1108135eecSEdward Cree 1208135eecSEdward Cree #include "ef100_rep.h" 13f72c38faSEdward Cree #include "ef100_netdev.h" 1408135eecSEdward Cree #include "ef100_nic.h" 15da56552dSEdward Cree #include "mae.h" 169fe00c80SEdward Cree #include "rx_common.h" 1708135eecSEdward Cree 185687eb34SEdward Cree #define EFX_EF100_REP_DRIVER "efx_ef100_rep" 195687eb34SEdward Cree 209fe00c80SEdward Cree #define EFX_REP_DEFAULT_PSEUDO_RING_SIZE 64 219fe00c80SEdward Cree 2269bb5fa7SEdward Cree static int efx_ef100_rep_poll(struct napi_struct *napi, int weight); 2369bb5fa7SEdward Cree 24e1479556SEdward Cree static int efx_ef100_rep_init_struct(struct efx_nic *efx, struct efx_rep *efv, 25e1479556SEdward Cree unsigned int i) 2608135eecSEdward Cree { 2708135eecSEdward Cree efv->parent = efx; 28e1479556SEdward Cree efv->idx = i; 2908135eecSEdward Cree INIT_LIST_HEAD(&efv->list); 30*67ab160eSEdward Cree efv->dflt.fw_id = MC_CMD_MAE_ACTION_RULE_INSERT_OUT_ACTION_RULE_ID_NULL; 31*67ab160eSEdward Cree INIT_LIST_HEAD(&efv->dflt.acts.list); 3269bb5fa7SEdward Cree INIT_LIST_HEAD(&efv->rx_list); 3369bb5fa7SEdward Cree spin_lock_init(&efv->rx_lock); 3408135eecSEdward Cree efv->msg_enable = NETIF_MSG_DRV | NETIF_MSG_PROBE | 3508135eecSEdward Cree NETIF_MSG_LINK | NETIF_MSG_IFDOWN | 3608135eecSEdward Cree NETIF_MSG_IFUP | NETIF_MSG_RX_ERR | 3708135eecSEdward Cree NETIF_MSG_TX_ERR | NETIF_MSG_HW; 3808135eecSEdward Cree return 0; 3908135eecSEdward Cree } 4008135eecSEdward Cree 4169bb5fa7SEdward Cree static int efx_ef100_rep_open(struct net_device *net_dev) 4269bb5fa7SEdward Cree { 4369bb5fa7SEdward Cree struct efx_rep *efv = netdev_priv(net_dev); 4469bb5fa7SEdward Cree 4569bb5fa7SEdward Cree netif_napi_add(net_dev, &efv->napi, efx_ef100_rep_poll, 4669bb5fa7SEdward Cree NAPI_POLL_WEIGHT); 4769bb5fa7SEdward Cree napi_enable(&efv->napi); 4869bb5fa7SEdward Cree return 0; 4969bb5fa7SEdward Cree } 5069bb5fa7SEdward Cree 5169bb5fa7SEdward Cree static int efx_ef100_rep_close(struct net_device *net_dev) 5269bb5fa7SEdward Cree { 5369bb5fa7SEdward Cree struct efx_rep *efv = netdev_priv(net_dev); 5469bb5fa7SEdward Cree 5569bb5fa7SEdward Cree napi_disable(&efv->napi); 5669bb5fa7SEdward Cree netif_napi_del(&efv->napi); 5769bb5fa7SEdward Cree return 0; 5869bb5fa7SEdward Cree } 5969bb5fa7SEdward Cree 60f72c38faSEdward Cree static netdev_tx_t efx_ef100_rep_xmit(struct sk_buff *skb, 61f72c38faSEdward Cree struct net_device *dev) 62f72c38faSEdward Cree { 63f72c38faSEdward Cree struct efx_rep *efv = netdev_priv(dev); 64f72c38faSEdward Cree struct efx_nic *efx = efv->parent; 65f72c38faSEdward Cree netdev_tx_t rc; 66f72c38faSEdward Cree 67f72c38faSEdward Cree /* __ef100_hard_start_xmit() will always return success even in the 68f72c38faSEdward Cree * case of TX drops, where it will increment efx's tx_dropped. The 69f72c38faSEdward Cree * efv stats really only count attempted TX, not success/failure. 70f72c38faSEdward Cree */ 71f72c38faSEdward Cree atomic64_inc(&efv->stats.tx_packets); 72f72c38faSEdward Cree atomic64_add(skb->len, &efv->stats.tx_bytes); 73f72c38faSEdward Cree netif_tx_lock(efx->net_dev); 74f72c38faSEdward Cree rc = __ef100_hard_start_xmit(skb, efx, dev, efv); 75f72c38faSEdward Cree netif_tx_unlock(efx->net_dev); 76f72c38faSEdward Cree return rc; 77f72c38faSEdward Cree } 78f72c38faSEdward Cree 79e1479556SEdward Cree static int efx_ef100_rep_get_port_parent_id(struct net_device *dev, 80e1479556SEdward Cree struct netdev_phys_item_id *ppid) 81e1479556SEdward Cree { 82e1479556SEdward Cree struct efx_rep *efv = netdev_priv(dev); 83e1479556SEdward Cree struct efx_nic *efx = efv->parent; 84e1479556SEdward Cree struct ef100_nic_data *nic_data; 85e1479556SEdward Cree 86e1479556SEdward Cree nic_data = efx->nic_data; 87e1479556SEdward Cree /* nic_data->port_id is a u8[] */ 88e1479556SEdward Cree ppid->id_len = sizeof(nic_data->port_id); 89e1479556SEdward Cree memcpy(ppid->id, nic_data->port_id, sizeof(nic_data->port_id)); 90e1479556SEdward Cree return 0; 91e1479556SEdward Cree } 92e1479556SEdward Cree 93e1479556SEdward Cree static int efx_ef100_rep_get_phys_port_name(struct net_device *dev, 94e1479556SEdward Cree char *buf, size_t len) 95e1479556SEdward Cree { 96e1479556SEdward Cree struct efx_rep *efv = netdev_priv(dev); 97e1479556SEdward Cree struct efx_nic *efx = efv->parent; 98e1479556SEdward Cree struct ef100_nic_data *nic_data; 99e1479556SEdward Cree int ret; 100e1479556SEdward Cree 101e1479556SEdward Cree nic_data = efx->nic_data; 102e1479556SEdward Cree ret = snprintf(buf, len, "p%upf%uvf%u", efx->port_num, 103e1479556SEdward Cree nic_data->pf_index, efv->idx); 104e1479556SEdward Cree if (ret >= len) 105e1479556SEdward Cree return -EOPNOTSUPP; 106e1479556SEdward Cree 107e1479556SEdward Cree return 0; 108e1479556SEdward Cree } 109e1479556SEdward Cree 110a95115c4SEdward Cree static void efx_ef100_rep_get_stats64(struct net_device *dev, 111a95115c4SEdward Cree struct rtnl_link_stats64 *stats) 112a95115c4SEdward Cree { 113a95115c4SEdward Cree struct efx_rep *efv = netdev_priv(dev); 114a95115c4SEdward Cree 115a95115c4SEdward Cree stats->rx_packets = atomic64_read(&efv->stats.rx_packets); 116a95115c4SEdward Cree stats->tx_packets = atomic64_read(&efv->stats.tx_packets); 117a95115c4SEdward Cree stats->rx_bytes = atomic64_read(&efv->stats.rx_bytes); 118a95115c4SEdward Cree stats->tx_bytes = atomic64_read(&efv->stats.tx_bytes); 119a95115c4SEdward Cree stats->rx_dropped = atomic64_read(&efv->stats.rx_dropped); 120a95115c4SEdward Cree stats->tx_errors = atomic64_read(&efv->stats.tx_errors); 121a95115c4SEdward Cree } 122a95115c4SEdward Cree 12308135eecSEdward Cree static const struct net_device_ops efx_ef100_rep_netdev_ops = { 12469bb5fa7SEdward Cree .ndo_open = efx_ef100_rep_open, 12569bb5fa7SEdward Cree .ndo_stop = efx_ef100_rep_close, 126f72c38faSEdward Cree .ndo_start_xmit = efx_ef100_rep_xmit, 127e1479556SEdward Cree .ndo_get_port_parent_id = efx_ef100_rep_get_port_parent_id, 128e1479556SEdward Cree .ndo_get_phys_port_name = efx_ef100_rep_get_phys_port_name, 129a95115c4SEdward Cree .ndo_get_stats64 = efx_ef100_rep_get_stats64, 13008135eecSEdward Cree }; 13108135eecSEdward Cree 1325687eb34SEdward Cree static void efx_ef100_rep_get_drvinfo(struct net_device *dev, 1335687eb34SEdward Cree struct ethtool_drvinfo *drvinfo) 1345687eb34SEdward Cree { 1355687eb34SEdward Cree strscpy(drvinfo->driver, EFX_EF100_REP_DRIVER, sizeof(drvinfo->driver)); 1365687eb34SEdward Cree } 1375687eb34SEdward Cree 1385687eb34SEdward Cree static u32 efx_ef100_rep_ethtool_get_msglevel(struct net_device *net_dev) 1395687eb34SEdward Cree { 1405687eb34SEdward Cree struct efx_rep *efv = netdev_priv(net_dev); 1415687eb34SEdward Cree 1425687eb34SEdward Cree return efv->msg_enable; 1435687eb34SEdward Cree } 1445687eb34SEdward Cree 1455687eb34SEdward Cree static void efx_ef100_rep_ethtool_set_msglevel(struct net_device *net_dev, 1465687eb34SEdward Cree u32 msg_enable) 1475687eb34SEdward Cree { 1485687eb34SEdward Cree struct efx_rep *efv = netdev_priv(net_dev); 1495687eb34SEdward Cree 1505687eb34SEdward Cree efv->msg_enable = msg_enable; 1515687eb34SEdward Cree } 1525687eb34SEdward Cree 15308135eecSEdward Cree static const struct ethtool_ops efx_ef100_rep_ethtool_ops = { 1545687eb34SEdward Cree .get_drvinfo = efx_ef100_rep_get_drvinfo, 1555687eb34SEdward Cree .get_msglevel = efx_ef100_rep_ethtool_get_msglevel, 1565687eb34SEdward Cree .set_msglevel = efx_ef100_rep_ethtool_set_msglevel, 15708135eecSEdward Cree }; 15808135eecSEdward Cree 15908135eecSEdward Cree static struct efx_rep *efx_ef100_rep_create_netdev(struct efx_nic *efx, 16008135eecSEdward Cree unsigned int i) 16108135eecSEdward Cree { 16208135eecSEdward Cree struct net_device *net_dev; 16308135eecSEdward Cree struct efx_rep *efv; 16408135eecSEdward Cree int rc; 16508135eecSEdward Cree 16608135eecSEdward Cree net_dev = alloc_etherdev_mq(sizeof(*efv), 1); 16708135eecSEdward Cree if (!net_dev) 16808135eecSEdward Cree return ERR_PTR(-ENOMEM); 16908135eecSEdward Cree 17008135eecSEdward Cree efv = netdev_priv(net_dev); 171e1479556SEdward Cree rc = efx_ef100_rep_init_struct(efx, efv, i); 17208135eecSEdward Cree if (rc) 17308135eecSEdward Cree goto fail1; 17408135eecSEdward Cree efv->net_dev = net_dev; 17508135eecSEdward Cree rtnl_lock(); 17608135eecSEdward Cree spin_lock_bh(&efx->vf_reps_lock); 17708135eecSEdward Cree list_add_tail(&efv->list, &efx->vf_reps); 17808135eecSEdward Cree spin_unlock_bh(&efx->vf_reps_lock); 17984e7fc25SEdward Cree if (netif_running(efx->net_dev) && efx->state == STATE_NET_UP) { 18084e7fc25SEdward Cree netif_device_attach(net_dev); 18184e7fc25SEdward Cree netif_carrier_on(net_dev); 18284e7fc25SEdward Cree } else { 18308135eecSEdward Cree netif_carrier_off(net_dev); 18408135eecSEdward Cree netif_tx_stop_all_queues(net_dev); 18584e7fc25SEdward Cree } 18608135eecSEdward Cree rtnl_unlock(); 18708135eecSEdward Cree 18808135eecSEdward Cree net_dev->netdev_ops = &efx_ef100_rep_netdev_ops; 18908135eecSEdward Cree net_dev->ethtool_ops = &efx_ef100_rep_ethtool_ops; 19008135eecSEdward Cree net_dev->min_mtu = EFX_MIN_MTU; 19108135eecSEdward Cree net_dev->max_mtu = EFX_MAX_MTU; 192f72c38faSEdward Cree net_dev->features |= NETIF_F_LLTX; 193f72c38faSEdward Cree net_dev->hw_features |= NETIF_F_LLTX; 19408135eecSEdward Cree return efv; 19508135eecSEdward Cree fail1: 19608135eecSEdward Cree free_netdev(net_dev); 19708135eecSEdward Cree return ERR_PTR(rc); 19808135eecSEdward Cree } 19908135eecSEdward Cree 200da56552dSEdward Cree static int efx_ef100_configure_rep(struct efx_rep *efv) 201da56552dSEdward Cree { 202da56552dSEdward Cree struct efx_nic *efx = efv->parent; 203da56552dSEdward Cree u32 selector; 204da56552dSEdward Cree int rc; 205da56552dSEdward Cree 2069fe00c80SEdward Cree efv->rx_pring_size = EFX_REP_DEFAULT_PSEUDO_RING_SIZE; 207da56552dSEdward Cree /* Construct mport selector for corresponding VF */ 208da56552dSEdward Cree efx_mae_mport_vf(efx, efv->idx, &selector); 209da56552dSEdward Cree /* Look up actual mport ID */ 210da56552dSEdward Cree rc = efx_mae_lookup_mport(efx, selector, &efv->mport); 211da56552dSEdward Cree if (rc) 212da56552dSEdward Cree return rc; 213da56552dSEdward Cree pci_dbg(efx->pci_dev, "VF %u has mport ID %#x\n", efv->idx, efv->mport); 214da56552dSEdward Cree /* mport label should fit in 16 bits */ 215da56552dSEdward Cree WARN_ON(efv->mport >> 16); 216da56552dSEdward Cree 217*67ab160eSEdward Cree return efx_tc_configure_default_rule_rep(efv); 218*67ab160eSEdward Cree } 219*67ab160eSEdward Cree 220*67ab160eSEdward Cree static void efx_ef100_deconfigure_rep(struct efx_rep *efv) 221*67ab160eSEdward Cree { 222*67ab160eSEdward Cree struct efx_nic *efx = efv->parent; 223*67ab160eSEdward Cree 224*67ab160eSEdward Cree efx_tc_deconfigure_default_rule(efx, &efv->dflt); 225da56552dSEdward Cree } 226da56552dSEdward Cree 22708135eecSEdward Cree static void efx_ef100_rep_destroy_netdev(struct efx_rep *efv) 22808135eecSEdward Cree { 22908135eecSEdward Cree struct efx_nic *efx = efv->parent; 23008135eecSEdward Cree 23184e7fc25SEdward Cree rtnl_lock(); 23208135eecSEdward Cree spin_lock_bh(&efx->vf_reps_lock); 23308135eecSEdward Cree list_del(&efv->list); 23408135eecSEdward Cree spin_unlock_bh(&efx->vf_reps_lock); 23584e7fc25SEdward Cree rtnl_unlock(); 236f50e8fcdSEdward Cree synchronize_rcu(); 23708135eecSEdward Cree free_netdev(efv->net_dev); 23808135eecSEdward Cree } 23908135eecSEdward Cree 24008135eecSEdward Cree int efx_ef100_vfrep_create(struct efx_nic *efx, unsigned int i) 24108135eecSEdward Cree { 24208135eecSEdward Cree struct efx_rep *efv; 24308135eecSEdward Cree int rc; 24408135eecSEdward Cree 24508135eecSEdward Cree efv = efx_ef100_rep_create_netdev(efx, i); 24608135eecSEdward Cree if (IS_ERR(efv)) { 24708135eecSEdward Cree rc = PTR_ERR(efv); 24808135eecSEdward Cree pci_err(efx->pci_dev, 24908135eecSEdward Cree "Failed to create representor for VF %d, rc %d\n", i, 25008135eecSEdward Cree rc); 25108135eecSEdward Cree return rc; 25208135eecSEdward Cree } 253da56552dSEdward Cree rc = efx_ef100_configure_rep(efv); 254da56552dSEdward Cree if (rc) { 255da56552dSEdward Cree pci_err(efx->pci_dev, 256da56552dSEdward Cree "Failed to configure representor for VF %d, rc %d\n", 257da56552dSEdward Cree i, rc); 258*67ab160eSEdward Cree goto fail1; 259da56552dSEdward Cree } 26008135eecSEdward Cree rc = register_netdev(efv->net_dev); 26108135eecSEdward Cree if (rc) { 26208135eecSEdward Cree pci_err(efx->pci_dev, 26308135eecSEdward Cree "Failed to register representor for VF %d, rc %d\n", 26408135eecSEdward Cree i, rc); 265*67ab160eSEdward Cree goto fail2; 26608135eecSEdward Cree } 26708135eecSEdward Cree pci_dbg(efx->pci_dev, "Representor for VF %d is %s\n", i, 26808135eecSEdward Cree efv->net_dev->name); 26908135eecSEdward Cree return 0; 270*67ab160eSEdward Cree fail2: 271*67ab160eSEdward Cree efx_ef100_deconfigure_rep(efv); 272*67ab160eSEdward Cree fail1: 27308135eecSEdward Cree efx_ef100_rep_destroy_netdev(efv); 27408135eecSEdward Cree return rc; 27508135eecSEdward Cree } 27608135eecSEdward Cree 27708135eecSEdward Cree void efx_ef100_vfrep_destroy(struct efx_nic *efx, struct efx_rep *efv) 27808135eecSEdward Cree { 27908135eecSEdward Cree struct net_device *rep_dev; 28008135eecSEdward Cree 28108135eecSEdward Cree rep_dev = efv->net_dev; 28208135eecSEdward Cree if (!rep_dev) 28308135eecSEdward Cree return; 28408135eecSEdward Cree netif_dbg(efx, drv, rep_dev, "Removing VF representor\n"); 28508135eecSEdward Cree unregister_netdev(rep_dev); 286*67ab160eSEdward Cree efx_ef100_deconfigure_rep(efv); 28708135eecSEdward Cree efx_ef100_rep_destroy_netdev(efv); 28808135eecSEdward Cree } 28908135eecSEdward Cree 29008135eecSEdward Cree void efx_ef100_fini_vfreps(struct efx_nic *efx) 29108135eecSEdward Cree { 29208135eecSEdward Cree struct ef100_nic_data *nic_data = efx->nic_data; 29308135eecSEdward Cree struct efx_rep *efv, *next; 29408135eecSEdward Cree 29508135eecSEdward Cree if (!nic_data->grp_mae) 29608135eecSEdward Cree return; 29708135eecSEdward Cree 29808135eecSEdward Cree list_for_each_entry_safe(efv, next, &efx->vf_reps, list) 29908135eecSEdward Cree efx_ef100_vfrep_destroy(efx, efv); 30008135eecSEdward Cree } 30169bb5fa7SEdward Cree 30269bb5fa7SEdward Cree static int efx_ef100_rep_poll(struct napi_struct *napi, int weight) 30369bb5fa7SEdward Cree { 30469bb5fa7SEdward Cree struct efx_rep *efv = container_of(napi, struct efx_rep, napi); 30569bb5fa7SEdward Cree unsigned int read_index; 30669bb5fa7SEdward Cree struct list_head head; 30769bb5fa7SEdward Cree struct sk_buff *skb; 30869bb5fa7SEdward Cree bool need_resched; 30969bb5fa7SEdward Cree int spent = 0; 31069bb5fa7SEdward Cree 31169bb5fa7SEdward Cree INIT_LIST_HEAD(&head); 31269bb5fa7SEdward Cree /* Grab up to 'weight' pending SKBs */ 31369bb5fa7SEdward Cree spin_lock_bh(&efv->rx_lock); 31469bb5fa7SEdward Cree read_index = efv->write_index; 31569bb5fa7SEdward Cree while (spent < weight && !list_empty(&efv->rx_list)) { 31669bb5fa7SEdward Cree skb = list_first_entry(&efv->rx_list, struct sk_buff, list); 31769bb5fa7SEdward Cree list_del(&skb->list); 31869bb5fa7SEdward Cree list_add_tail(&skb->list, &head); 31969bb5fa7SEdward Cree spent++; 32069bb5fa7SEdward Cree } 32169bb5fa7SEdward Cree spin_unlock_bh(&efv->rx_lock); 32269bb5fa7SEdward Cree /* Receive them */ 32369bb5fa7SEdward Cree netif_receive_skb_list(&head); 32469bb5fa7SEdward Cree if (spent < weight) 32569bb5fa7SEdward Cree if (napi_complete_done(napi, spent)) { 32669bb5fa7SEdward Cree spin_lock_bh(&efv->rx_lock); 32769bb5fa7SEdward Cree efv->read_index = read_index; 32869bb5fa7SEdward Cree /* If write_index advanced while we were doing the 32969bb5fa7SEdward Cree * RX, then storing our read_index won't re-prime the 33069bb5fa7SEdward Cree * fake-interrupt. In that case, we need to schedule 33169bb5fa7SEdward Cree * NAPI again to consume the additional packet(s). 33269bb5fa7SEdward Cree */ 33369bb5fa7SEdward Cree need_resched = efv->write_index != read_index; 33469bb5fa7SEdward Cree spin_unlock_bh(&efv->rx_lock); 33569bb5fa7SEdward Cree if (need_resched) 33669bb5fa7SEdward Cree napi_schedule(&efv->napi); 33769bb5fa7SEdward Cree } 33869bb5fa7SEdward Cree return spent; 33969bb5fa7SEdward Cree } 3409fe00c80SEdward Cree 3419fe00c80SEdward Cree void efx_ef100_rep_rx_packet(struct efx_rep *efv, struct efx_rx_buffer *rx_buf) 3429fe00c80SEdward Cree { 3439fe00c80SEdward Cree u8 *eh = efx_rx_buf_va(rx_buf); 3449fe00c80SEdward Cree struct sk_buff *skb; 3459fe00c80SEdward Cree bool primed; 3469fe00c80SEdward Cree 3479fe00c80SEdward Cree /* Don't allow too many queued SKBs to build up, as they consume 3489fe00c80SEdward Cree * GFP_ATOMIC memory. If we overrun, just start dropping. 3499fe00c80SEdward Cree */ 3509fe00c80SEdward Cree if (efv->write_index - READ_ONCE(efv->read_index) > efv->rx_pring_size) { 3519fe00c80SEdward Cree atomic64_inc(&efv->stats.rx_dropped); 3529fe00c80SEdward Cree if (net_ratelimit()) 3539fe00c80SEdward Cree netif_dbg(efv->parent, rx_err, efv->net_dev, 3549fe00c80SEdward Cree "nodesc-dropped packet of length %u\n", 3559fe00c80SEdward Cree rx_buf->len); 3569fe00c80SEdward Cree return; 3579fe00c80SEdward Cree } 3589fe00c80SEdward Cree 3599fe00c80SEdward Cree skb = netdev_alloc_skb(efv->net_dev, rx_buf->len); 3609fe00c80SEdward Cree if (!skb) { 3619fe00c80SEdward Cree atomic64_inc(&efv->stats.rx_dropped); 3629fe00c80SEdward Cree if (net_ratelimit()) 3639fe00c80SEdward Cree netif_dbg(efv->parent, rx_err, efv->net_dev, 3649fe00c80SEdward Cree "noskb-dropped packet of length %u\n", 3659fe00c80SEdward Cree rx_buf->len); 3669fe00c80SEdward Cree return; 3679fe00c80SEdward Cree } 3689fe00c80SEdward Cree memcpy(skb->data, eh, rx_buf->len); 3699fe00c80SEdward Cree __skb_put(skb, rx_buf->len); 3709fe00c80SEdward Cree 3719fe00c80SEdward Cree skb_record_rx_queue(skb, 0); /* rep is single-queue */ 3729fe00c80SEdward Cree 3739fe00c80SEdward Cree /* Move past the ethernet header */ 3749fe00c80SEdward Cree skb->protocol = eth_type_trans(skb, efv->net_dev); 3759fe00c80SEdward Cree 3769fe00c80SEdward Cree skb_checksum_none_assert(skb); 3779fe00c80SEdward Cree 3789fe00c80SEdward Cree atomic64_inc(&efv->stats.rx_packets); 3799fe00c80SEdward Cree atomic64_add(rx_buf->len, &efv->stats.rx_bytes); 3809fe00c80SEdward Cree 3819fe00c80SEdward Cree /* Add it to the rx list */ 3829fe00c80SEdward Cree spin_lock_bh(&efv->rx_lock); 3839fe00c80SEdward Cree primed = efv->read_index == efv->write_index; 3849fe00c80SEdward Cree list_add_tail(&skb->list, &efv->rx_list); 3859fe00c80SEdward Cree efv->write_index++; 3869fe00c80SEdward Cree spin_unlock_bh(&efv->rx_lock); 3879fe00c80SEdward Cree /* Trigger rx work */ 3889fe00c80SEdward Cree if (primed) 3899fe00c80SEdward Cree napi_schedule(&efv->napi); 3909fe00c80SEdward Cree } 391f50e8fcdSEdward Cree 392f50e8fcdSEdward Cree struct efx_rep *efx_ef100_find_rep_by_mport(struct efx_nic *efx, u16 mport) 393f50e8fcdSEdward Cree { 394f50e8fcdSEdward Cree struct efx_rep *efv, *out = NULL; 395f50e8fcdSEdward Cree 396f50e8fcdSEdward Cree /* spinlock guards against list mutation while we're walking it; 397f50e8fcdSEdward Cree * but caller must also hold rcu_read_lock() to ensure the netdev 398f50e8fcdSEdward Cree * isn't freed after we drop the spinlock. 399f50e8fcdSEdward Cree */ 400f50e8fcdSEdward Cree spin_lock_bh(&efx->vf_reps_lock); 401f50e8fcdSEdward Cree list_for_each_entry(efv, &efx->vf_reps, list) 402f50e8fcdSEdward Cree if (efv->mport == mport) { 403f50e8fcdSEdward Cree out = efv; 404f50e8fcdSEdward Cree break; 405f50e8fcdSEdward Cree } 406f50e8fcdSEdward Cree spin_unlock_bh(&efx->vf_reps_lock); 407f50e8fcdSEdward Cree return out; 408f50e8fcdSEdward Cree } 409