Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jakub Kiciński | 2565 | 94.37% | 39 | 75.00% |
Dirk van der Merwe | 66 | 2.43% | 3 | 5.77% |
Simon Horman | 56 | 2.06% | 3 | 5.77% |
John Hurley | 9 | 0.33% | 2 | 3.85% |
Pieter Jansen van Vuuren | 7 | 0.26% | 2 | 3.85% |
Wei Yongjun | 7 | 0.26% | 1 | 1.92% |
Alexander Duyck | 4 | 0.15% | 1 | 1.92% |
David S. Miller | 4 | 0.15% | 1 | 1.92% |
Total | 2718 | 52 |
// SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) /* Copyright (C) 2018 Netronome Systems, Inc. */ #include <linux/bitfield.h> #include <linux/bitmap.h> #include <linux/etherdevice.h> #include <linux/lockdep.h> #include <linux/netdevice.h> #include <linux/rcupdate.h> #include <linux/rtnetlink.h> #include <linux/slab.h> #include "../nfpcore/nfp.h" #include "../nfpcore/nfp_cpp.h" #include "../nfpcore/nfp_nsp.h" #include "../nfp_app.h" #include "../nfp_main.h" #include "../nfp_net.h" #include "../nfp_net_repr.h" #include "../nfp_port.h" #include "main.h" static u32 nfp_abm_portid(enum nfp_repr_type rtype, unsigned int id) { return FIELD_PREP(NFP_ABM_PORTID_TYPE, rtype) | FIELD_PREP(NFP_ABM_PORTID_ID, id); } static int nfp_abm_setup_tc(struct nfp_app *app, struct net_device *netdev, enum tc_setup_type type, void *type_data) { struct nfp_repr *repr = netdev_priv(netdev); struct nfp_port *port; port = nfp_port_from_netdev(netdev); if (!port || port->type != NFP_PORT_PF_PORT) return -EOPNOTSUPP; switch (type) { case TC_SETUP_ROOT_QDISC: return nfp_abm_setup_root(netdev, repr->app_priv, type_data); case TC_SETUP_QDISC_MQ: return nfp_abm_setup_tc_mq(netdev, repr->app_priv, type_data); case TC_SETUP_QDISC_RED: return nfp_abm_setup_tc_red(netdev, repr->app_priv, type_data); case TC_SETUP_QDISC_GRED: return nfp_abm_setup_tc_gred(netdev, repr->app_priv, type_data); case TC_SETUP_BLOCK: return nfp_abm_setup_cls_block(netdev, repr, type_data); default: return -EOPNOTSUPP; } } static struct net_device * nfp_abm_repr_get(struct nfp_app *app, u32 port_id, bool *redir_egress) { enum nfp_repr_type rtype; struct nfp_reprs *reprs; u8 port; rtype = FIELD_GET(NFP_ABM_PORTID_TYPE, port_id); port = FIELD_GET(NFP_ABM_PORTID_ID, port_id); reprs = rcu_dereference(app->reprs[rtype]); if (!reprs) return NULL; if (port >= reprs->num_reprs) return NULL; return rcu_dereference(reprs->reprs[port]); } static int nfp_abm_spawn_repr(struct nfp_app *app, struct nfp_abm_link *alink, enum nfp_port_type ptype) { struct net_device *netdev; enum nfp_repr_type rtype; struct nfp_reprs *reprs; struct nfp_repr *repr; struct nfp_port *port; unsigned int txqs; int err; if (ptype == NFP_PORT_PHYS_PORT) { rtype = NFP_REPR_TYPE_PHYS_PORT; txqs = 1; } else { rtype = NFP_REPR_TYPE_PF; txqs = alink->vnic->max_rx_rings; } netdev = nfp_repr_alloc_mqs(app, txqs, 1); if (!netdev) return -ENOMEM; repr = netdev_priv(netdev); repr->app_priv = alink; port = nfp_port_alloc(app, ptype, netdev); if (IS_ERR(port)) { err = PTR_ERR(port); goto err_free_repr; } if (ptype == NFP_PORT_PHYS_PORT) { port->eth_forced = true; err = nfp_port_init_phy_port(app->pf, app, port, alink->id); if (err) goto err_free_port; } else { port->pf_id = alink->abm->pf_id; port->pf_split = app->pf->max_data_vnics > 1; port->pf_split_id = alink->id; port->vnic = alink->vnic->dp.ctrl_bar; } SET_NETDEV_DEV(netdev, &alink->vnic->pdev->dev); eth_hw_addr_random(netdev); err = nfp_repr_init(app, netdev, nfp_abm_portid(rtype, alink->id), port, alink->vnic->dp.netdev); if (err) goto err_free_port; reprs = nfp_reprs_get_locked(app, rtype); WARN(nfp_repr_get_locked(app, reprs, alink->id), "duplicate repr"); rtnl_lock(); rcu_assign_pointer(reprs->reprs[alink->id], netdev); rtnl_unlock(); nfp_info(app->cpp, "%s Port %d Representor(%s) created\n", ptype == NFP_PORT_PF_PORT ? "PCIe" : "Phys", alink->id, netdev->name); return 0; err_free_port: nfp_port_free(port); err_free_repr: nfp_repr_free(netdev); return err; } static void nfp_abm_kill_repr(struct nfp_app *app, struct nfp_abm_link *alink, enum nfp_repr_type rtype) { struct net_device *netdev; struct nfp_reprs *reprs; reprs = nfp_reprs_get_locked(app, rtype); netdev = nfp_repr_get_locked(app, reprs, alink->id); if (!netdev) return; rtnl_lock(); rcu_assign_pointer(reprs->reprs[alink->id], NULL); rtnl_unlock(); synchronize_rcu(); /* Cast to make sure nfp_repr_clean_and_free() takes a nfp_repr */ nfp_repr_clean_and_free((struct nfp_repr *)netdev_priv(netdev)); } static void nfp_abm_kill_reprs(struct nfp_abm *abm, struct nfp_abm_link *alink) { nfp_abm_kill_repr(abm->app, alink, NFP_REPR_TYPE_PF); nfp_abm_kill_repr(abm->app, alink, NFP_REPR_TYPE_PHYS_PORT); } static void nfp_abm_kill_reprs_all(struct nfp_abm *abm) { struct nfp_pf *pf = abm->app->pf; struct nfp_net *nn; list_for_each_entry(nn, &pf->vnics, vnic_list) nfp_abm_kill_reprs(abm, (struct nfp_abm_link *)nn->app_priv); } static enum devlink_eswitch_mode nfp_abm_eswitch_mode_get(struct nfp_app *app) { struct nfp_abm *abm = app->priv; return abm->eswitch_mode; } static int nfp_abm_eswitch_set_legacy(struct nfp_abm *abm) { nfp_abm_kill_reprs_all(abm); nfp_abm_ctrl_qm_disable(abm); abm->eswitch_mode = DEVLINK_ESWITCH_MODE_LEGACY; return 0; } static void nfp_abm_eswitch_clean_up(struct nfp_abm *abm) { if (abm->eswitch_mode != DEVLINK_ESWITCH_MODE_LEGACY) WARN_ON(nfp_abm_eswitch_set_legacy(abm)); } static int nfp_abm_eswitch_set_switchdev(struct nfp_abm *abm) { struct nfp_app *app = abm->app; struct nfp_pf *pf = app->pf; struct nfp_net *nn; int err; if (!abm->red_support) return -EOPNOTSUPP; err = nfp_abm_ctrl_qm_enable(abm); if (err) return err; list_for_each_entry(nn, &pf->vnics, vnic_list) { struct nfp_abm_link *alink = nn->app_priv; err = nfp_abm_spawn_repr(app, alink, NFP_PORT_PHYS_PORT); if (err) goto err_kill_all_reprs; err = nfp_abm_spawn_repr(app, alink, NFP_PORT_PF_PORT); if (err) goto err_kill_all_reprs; } abm->eswitch_mode = DEVLINK_ESWITCH_MODE_SWITCHDEV; return 0; err_kill_all_reprs: nfp_abm_kill_reprs_all(abm); nfp_abm_ctrl_qm_disable(abm); return err; } static int nfp_abm_eswitch_mode_set(struct nfp_app *app, u16 mode) { struct nfp_abm *abm = app->priv; if (abm->eswitch_mode == mode) return 0; switch (mode) { case DEVLINK_ESWITCH_MODE_LEGACY: return nfp_abm_eswitch_set_legacy(abm); case DEVLINK_ESWITCH_MODE_SWITCHDEV: return nfp_abm_eswitch_set_switchdev(abm); default: return -EINVAL; } } static void nfp_abm_vnic_set_mac(struct nfp_pf *pf, struct nfp_abm *abm, struct nfp_net *nn, unsigned int id) { struct nfp_eth_table_port *eth_port = &pf->eth_tbl->ports[id]; u8 mac_addr[ETH_ALEN]; struct nfp_nsp *nsp; char hwinfo[32]; int err; if (id > pf->eth_tbl->count) { nfp_warn(pf->cpp, "No entry for persistent MAC address\n"); eth_hw_addr_random(nn->dp.netdev); return; } snprintf(hwinfo, sizeof(hwinfo), "eth%u.mac.pf%u", eth_port->eth_index, abm->pf_id); nsp = nfp_nsp_open(pf->cpp); if (IS_ERR(nsp)) { nfp_warn(pf->cpp, "Failed to access the NSP for persistent MAC address: %ld\n", PTR_ERR(nsp)); eth_hw_addr_random(nn->dp.netdev); return; } if (!nfp_nsp_has_hwinfo_lookup(nsp)) { nfp_warn(pf->cpp, "NSP doesn't support PF MAC generation\n"); eth_hw_addr_random(nn->dp.netdev); nfp_nsp_close(nsp); return; } err = nfp_nsp_hwinfo_lookup(nsp, hwinfo, sizeof(hwinfo)); nfp_nsp_close(nsp); if (err) { nfp_warn(pf->cpp, "Reading persistent MAC address failed: %d\n", err); eth_hw_addr_random(nn->dp.netdev); return; } if (sscanf(hwinfo, "%02hhx:%02hhx:%02hhx:%02hhx:%02hhx:%02hhx", &mac_addr[0], &mac_addr[1], &mac_addr[2], &mac_addr[3], &mac_addr[4], &mac_addr[5]) != 6) { nfp_warn(pf->cpp, "Can't parse persistent MAC address (%s)\n", hwinfo); eth_hw_addr_random(nn->dp.netdev); return; } eth_hw_addr_set(nn->dp.netdev, mac_addr); ether_addr_copy(nn->dp.netdev->perm_addr, mac_addr); } static int nfp_abm_vnic_alloc(struct nfp_app *app, struct nfp_net *nn, unsigned int id) { struct nfp_eth_table_port *eth_port = &app->pf->eth_tbl->ports[id]; struct nfp_abm *abm = app->priv; struct nfp_abm_link *alink; int err; alink = kzalloc(sizeof(*alink), GFP_KERNEL); if (!alink) return -ENOMEM; nn->app_priv = alink; alink->abm = abm; alink->vnic = nn; alink->id = id; alink->total_queues = alink->vnic->max_rx_rings; INIT_LIST_HEAD(&alink->dscp_map); err = nfp_abm_ctrl_read_params(alink); if (err) goto err_free_alink; alink->prio_map = kzalloc(abm->prio_map_len, GFP_KERNEL); if (!alink->prio_map) { err = -ENOMEM; goto err_free_alink; } /* This is a multi-host app, make sure MAC/PHY is up, but don't * make the MAC/PHY state follow the state of any of the ports. */ err = nfp_eth_set_configured(app->cpp, eth_port->index, true); if (err < 0) goto err_free_priomap; netif_keep_dst(nn->dp.netdev); nfp_abm_vnic_set_mac(app->pf, abm, nn, id); INIT_RADIX_TREE(&alink->qdiscs, GFP_KERNEL); return 0; err_free_priomap: kfree(alink->prio_map); err_free_alink: kfree(alink); return err; } static void nfp_abm_vnic_free(struct nfp_app *app, struct nfp_net *nn) { struct nfp_abm_link *alink = nn->app_priv; nfp_abm_kill_reprs(alink->abm, alink); WARN(!radix_tree_empty(&alink->qdiscs), "left over qdiscs\n"); kfree(alink->prio_map); kfree(alink); } static int nfp_abm_vnic_init(struct nfp_app *app, struct nfp_net *nn) { struct nfp_abm_link *alink = nn->app_priv; if (nfp_abm_has_prio(alink->abm)) return nfp_abm_ctrl_prio_map_update(alink, alink->prio_map); return 0; } static u64 * nfp_abm_port_get_stats(struct nfp_app *app, struct nfp_port *port, u64 *data) { struct nfp_repr *repr = netdev_priv(port->netdev); struct nfp_abm_link *alink; unsigned int i; if (port->type != NFP_PORT_PF_PORT) return data; alink = repr->app_priv; for (i = 0; i < alink->vnic->dp.num_r_vecs; i++) { *data++ = nfp_abm_ctrl_stat_non_sto(alink, i); *data++ = nfp_abm_ctrl_stat_sto(alink, i); } return data; } static int nfp_abm_port_get_stats_count(struct nfp_app *app, struct nfp_port *port) { struct nfp_repr *repr = netdev_priv(port->netdev); struct nfp_abm_link *alink; if (port->type != NFP_PORT_PF_PORT) return 0; alink = repr->app_priv; return alink->vnic->dp.num_r_vecs * 2; } static u8 * nfp_abm_port_get_stats_strings(struct nfp_app *app, struct nfp_port *port, u8 *data) { struct nfp_repr *repr = netdev_priv(port->netdev); struct nfp_abm_link *alink; unsigned int i; if (port->type != NFP_PORT_PF_PORT) return data; alink = repr->app_priv; for (i = 0; i < alink->vnic->dp.num_r_vecs; i++) { ethtool_sprintf(&data, "q%u_no_wait", i); ethtool_sprintf(&data, "q%u_delayed", i); } return data; } static int nfp_abm_fw_init_reset(struct nfp_abm *abm) { unsigned int i; if (!abm->red_support) return 0; for (i = 0; i < abm->num_bands * NFP_NET_MAX_RX_RINGS; i++) { __nfp_abm_ctrl_set_q_lvl(abm, i, NFP_ABM_LVL_INFINITY); __nfp_abm_ctrl_set_q_act(abm, i, NFP_ABM_ACT_DROP); } return nfp_abm_ctrl_qm_disable(abm); } static int nfp_abm_init(struct nfp_app *app) { struct nfp_pf *pf = app->pf; struct nfp_reprs *reprs; struct nfp_abm *abm; int err; if (!pf->eth_tbl) { nfp_err(pf->cpp, "ABM NIC requires ETH table\n"); return -EINVAL; } if (pf->max_data_vnics != pf->eth_tbl->count) { nfp_err(pf->cpp, "ETH entries don't match vNICs (%d vs %d)\n", pf->max_data_vnics, pf->eth_tbl->count); return -EINVAL; } if (!pf->mac_stats_bar) { nfp_warn(app->cpp, "ABM NIC requires mac_stats symbol\n"); return -EINVAL; } abm = kzalloc(sizeof(*abm), GFP_KERNEL); if (!abm) return -ENOMEM; app->priv = abm; abm->app = app; err = nfp_abm_ctrl_find_addrs(abm); if (err) goto err_free_abm; err = -ENOMEM; abm->num_thresholds = array_size(abm->num_bands, NFP_NET_MAX_RX_RINGS); abm->threshold_undef = bitmap_zalloc(abm->num_thresholds, GFP_KERNEL); if (!abm->threshold_undef) goto err_free_abm; abm->thresholds = kvcalloc(abm->num_thresholds, sizeof(*abm->thresholds), GFP_KERNEL); if (!abm->thresholds) goto err_free_thresh_umap; abm->actions = kvcalloc(abm->num_thresholds, sizeof(*abm->actions), GFP_KERNEL); if (!abm->actions) goto err_free_thresh; /* We start in legacy mode, make sure advanced queuing is disabled */ err = nfp_abm_fw_init_reset(abm); if (err) goto err_free_act; err = -ENOMEM; reprs = nfp_reprs_alloc(pf->max_data_vnics); if (!reprs) goto err_free_act; RCU_INIT_POINTER(app->reprs[NFP_REPR_TYPE_PHYS_PORT], reprs); reprs = nfp_reprs_alloc(pf->max_data_vnics); if (!reprs) goto err_free_phys; RCU_INIT_POINTER(app->reprs[NFP_REPR_TYPE_PF], reprs); return 0; err_free_phys: nfp_reprs_clean_and_free_by_type(app, NFP_REPR_TYPE_PHYS_PORT); err_free_act: kvfree(abm->actions); err_free_thresh: kvfree(abm->thresholds); err_free_thresh_umap: bitmap_free(abm->threshold_undef); err_free_abm: kfree(abm); app->priv = NULL; return err; } static void nfp_abm_clean(struct nfp_app *app) { struct nfp_abm *abm = app->priv; nfp_abm_eswitch_clean_up(abm); nfp_reprs_clean_and_free_by_type(app, NFP_REPR_TYPE_PF); nfp_reprs_clean_and_free_by_type(app, NFP_REPR_TYPE_PHYS_PORT); bitmap_free(abm->threshold_undef); kvfree(abm->actions); kvfree(abm->thresholds); kfree(abm); app->priv = NULL; } const struct nfp_app_type app_abm = { .id = NFP_APP_ACTIVE_BUFFER_MGMT_NIC, .name = "abm", .init = nfp_abm_init, .clean = nfp_abm_clean, .vnic_alloc = nfp_abm_vnic_alloc, .vnic_free = nfp_abm_vnic_free, .vnic_init = nfp_abm_vnic_init, .port_get_stats = nfp_abm_port_get_stats, .port_get_stats_count = nfp_abm_port_get_stats_count, .port_get_stats_strings = nfp_abm_port_get_stats_strings, .setup_tc = nfp_abm_setup_tc, .eswitch_mode_get = nfp_abm_eswitch_mode_get, .eswitch_mode_set = nfp_abm_eswitch_mode_set, .dev_get = nfp_abm_repr_get, };
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