Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Maor Gottlieb | 2868 | 38.03% | 13 | 13.54% |
Lama Kayal | 1264 | 16.76% | 18 | 18.75% |
Amir Vadai | 1024 | 13.58% | 2 | 2.08% |
Aya Levin | 799 | 10.60% | 8 | 8.33% |
Saeed Mahameed | 454 | 6.02% | 9 | 9.38% |
Gal Pressman | 353 | 4.68% | 7 | 7.29% |
Mohamad Haj Yahia | 210 | 2.78% | 3 | 3.12% |
Achiad Shochat | 163 | 2.16% | 3 | 3.12% |
Vu Pham | 107 | 1.42% | 2 | 2.08% |
Erez Shitrit | 61 | 0.81% | 1 | 1.04% |
Moshe Shemesh | 58 | 0.77% | 1 | 1.04% |
Or Gerlitz | 38 | 0.50% | 4 | 4.17% |
Eli Cohen | 22 | 0.29% | 3 | 3.12% |
Gustavo A. R. Silva | 22 | 0.29% | 1 | 1.04% |
Leon Romanovsky | 19 | 0.25% | 2 | 2.08% |
Boris Pismenny | 13 | 0.17% | 1 | 1.04% |
Mark Bloch | 13 | 0.17% | 1 | 1.04% |
Roi Dayan | 12 | 0.16% | 1 | 1.04% |
Rabie Loulou | 6 | 0.08% | 1 | 1.04% |
Hadar Hen Zion | 5 | 0.07% | 2 | 2.08% |
Amir Tzin | 5 | 0.07% | 1 | 1.04% |
Dan Carpenter | 4 | 0.05% | 1 | 1.04% |
Tariq Toukan | 4 | 0.05% | 2 | 2.08% |
Maxim Mikityanskiy | 4 | 0.05% | 2 | 2.08% |
Eran Ben Elisha | 3 | 0.04% | 1 | 1.04% |
Paul Blakey | 3 | 0.04% | 2 | 2.08% |
Jakub Kiciński | 2 | 0.03% | 1 | 1.04% |
Randy Dunlap | 2 | 0.03% | 1 | 1.04% |
Vlad Buslov | 2 | 0.03% | 1 | 1.04% |
Matthew Finlay | 1 | 0.01% | 1 | 1.04% |
Total | 7541 | 96 |
/* * Copyright (c) 2015, Mellanox Technologies. All rights reserved. * * This software is available to you under a choice of one of two * licenses. You may choose to be licensed under the terms of the GNU * General Public License (GPL) Version 2, available from the file * COPYING in the main directory of this source tree, or the * OpenIB.org BSD license below: * * Redistribution and use in source and binary forms, with or * without modification, are permitted provided that the following * conditions are met: * * - Redistributions of source code must retain the above * copyright notice, this list of conditions and the following * disclaimer. * * - 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. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include <linux/debugfs.h> #include <linux/list.h> #include <linux/ip.h> #include <linux/ipv6.h> #include <linux/tcp.h> #include <linux/mlx5/fs.h> #include <linux/mlx5/mpfs.h> #include "en_tc.h" #include "lib/mpfs.h" #include "en/ptp.h" #include "en/fs_ethtool.h" struct mlx5e_flow_steering { struct work_struct set_rx_mode_work; bool state_destroy; bool vlan_strip_disable; struct mlx5_core_dev *mdev; struct net_device *netdev; struct mlx5_flow_namespace *ns; struct mlx5_flow_namespace *egress_ns; #ifdef CONFIG_MLX5_EN_RXNFC struct mlx5e_ethtool_steering *ethtool; #endif struct mlx5e_tc_table *tc; struct mlx5e_promisc_table promisc; struct mlx5e_vlan_table *vlan; struct mlx5e_l2_table l2; struct mlx5_ttc_table *ttc; struct mlx5_ttc_table *inner_ttc; #ifdef CONFIG_MLX5_EN_ARFS struct mlx5e_arfs_tables *arfs; #endif #ifdef CONFIG_MLX5_EN_TLS struct mlx5e_accel_fs_tcp *accel_tcp; #endif struct mlx5e_fs_udp *udp; struct mlx5e_fs_any *any; struct mlx5e_ptp_fs *ptp_fs; struct dentry *dfs_root; }; static int mlx5e_add_l2_flow_rule(struct mlx5e_flow_steering *fs, struct mlx5e_l2_rule *ai, int type); static void mlx5e_del_l2_flow_rule(struct mlx5e_flow_steering *fs, struct mlx5e_l2_rule *ai); enum { MLX5E_FULLMATCH = 0, MLX5E_ALLMULTI = 1, }; enum { MLX5E_UC = 0, MLX5E_MC_IPV4 = 1, MLX5E_MC_IPV6 = 2, MLX5E_MC_OTHER = 3, }; enum { MLX5E_ACTION_NONE = 0, MLX5E_ACTION_ADD = 1, MLX5E_ACTION_DEL = 2, }; struct mlx5e_l2_hash_node { struct hlist_node hlist; u8 action; struct mlx5e_l2_rule ai; bool mpfs; }; static inline int mlx5e_hash_l2(const u8 *addr) { return addr[5]; } struct dentry *mlx5e_fs_get_debugfs_root(struct mlx5e_flow_steering *fs) { return fs->dfs_root; } static void mlx5e_add_l2_to_hash(struct hlist_head *hash, const u8 *addr) { struct mlx5e_l2_hash_node *hn; int ix = mlx5e_hash_l2(addr); int found = 0; hlist_for_each_entry(hn, &hash[ix], hlist) if (ether_addr_equal_64bits(hn->ai.addr, addr)) { found = 1; break; } if (found) { hn->action = MLX5E_ACTION_NONE; return; } hn = kzalloc(sizeof(*hn), GFP_ATOMIC); if (!hn) return; ether_addr_copy(hn->ai.addr, addr); hn->action = MLX5E_ACTION_ADD; hlist_add_head(&hn->hlist, &hash[ix]); } static void mlx5e_del_l2_from_hash(struct mlx5e_l2_hash_node *hn) { hlist_del(&hn->hlist); kfree(hn); } struct mlx5e_vlan_table { struct mlx5e_flow_table ft; DECLARE_BITMAP(active_cvlans, VLAN_N_VID); DECLARE_BITMAP(active_svlans, VLAN_N_VID); struct mlx5_flow_handle *active_cvlans_rule[VLAN_N_VID]; struct mlx5_flow_handle *active_svlans_rule[VLAN_N_VID]; struct mlx5_flow_handle *untagged_rule; struct mlx5_flow_handle *any_cvlan_rule; struct mlx5_flow_handle *any_svlan_rule; struct mlx5_flow_handle *trap_rule; bool cvlan_filter_disabled; }; unsigned long *mlx5e_vlan_get_active_svlans(struct mlx5e_vlan_table *vlan) { return vlan->active_svlans; } struct mlx5_flow_table *mlx5e_vlan_get_flowtable(struct mlx5e_vlan_table *vlan) { return vlan->ft.t; } static int mlx5e_vport_context_update_vlans(struct mlx5e_flow_steering *fs) { int max_list_size; int list_size; u16 *vlans; int vlan; int err; int i; list_size = 0; for_each_set_bit(vlan, fs->vlan->active_cvlans, VLAN_N_VID) list_size++; max_list_size = 1 << MLX5_CAP_GEN(fs->mdev, log_max_vlan_list); if (list_size > max_list_size) { fs_warn(fs, "netdev vlans list size (%d) > (%d) max vport list size, some vlans will be dropped\n", list_size, max_list_size); list_size = max_list_size; } vlans = kvcalloc(list_size, sizeof(*vlans), GFP_KERNEL); if (!vlans) return -ENOMEM; i = 0; for_each_set_bit(vlan, fs->vlan->active_cvlans, VLAN_N_VID) { if (i >= list_size) break; vlans[i++] = vlan; } err = mlx5_modify_nic_vport_vlans(fs->mdev, vlans, list_size); if (err) fs_err(fs, "Failed to modify vport vlans list err(%d)\n", err); kvfree(vlans); return err; } enum mlx5e_vlan_rule_type { MLX5E_VLAN_RULE_TYPE_UNTAGGED, MLX5E_VLAN_RULE_TYPE_ANY_CTAG_VID, MLX5E_VLAN_RULE_TYPE_ANY_STAG_VID, MLX5E_VLAN_RULE_TYPE_MATCH_CTAG_VID, MLX5E_VLAN_RULE_TYPE_MATCH_STAG_VID, }; static int __mlx5e_add_vlan_rule(struct mlx5e_flow_steering *fs, enum mlx5e_vlan_rule_type rule_type, u16 vid, struct mlx5_flow_spec *spec) { struct mlx5_flow_table *ft = fs->vlan->ft.t; struct mlx5_flow_destination dest = {}; struct mlx5_flow_handle **rule_p; MLX5_DECLARE_FLOW_ACT(flow_act); int err = 0; dest.type = MLX5_FLOW_DESTINATION_TYPE_FLOW_TABLE; dest.ft = fs->l2.ft.t; spec->match_criteria_enable = MLX5_MATCH_OUTER_HEADERS; switch (rule_type) { case MLX5E_VLAN_RULE_TYPE_UNTAGGED: /* cvlan_tag enabled in match criteria and * disabled in match value means both S & C tags * don't exist (untagged of both) */ rule_p = &fs->vlan->untagged_rule; MLX5_SET_TO_ONES(fte_match_param, spec->match_criteria, outer_headers.cvlan_tag); break; case MLX5E_VLAN_RULE_TYPE_ANY_CTAG_VID: rule_p = &fs->vlan->any_cvlan_rule; MLX5_SET_TO_ONES(fte_match_param, spec->match_criteria, outer_headers.cvlan_tag); MLX5_SET(fte_match_param, spec->match_value, outer_headers.cvlan_tag, 1); break; case MLX5E_VLAN_RULE_TYPE_ANY_STAG_VID: rule_p = &fs->vlan->any_svlan_rule; MLX5_SET_TO_ONES(fte_match_param, spec->match_criteria, outer_headers.svlan_tag); MLX5_SET(fte_match_param, spec->match_value, outer_headers.svlan_tag, 1); break; case MLX5E_VLAN_RULE_TYPE_MATCH_STAG_VID: rule_p = &fs->vlan->active_svlans_rule[vid]; MLX5_SET_TO_ONES(fte_match_param, spec->match_criteria, outer_headers.svlan_tag); MLX5_SET(fte_match_param, spec->match_value, outer_headers.svlan_tag, 1); MLX5_SET_TO_ONES(fte_match_param, spec->match_criteria, outer_headers.first_vid); MLX5_SET(fte_match_param, spec->match_value, outer_headers.first_vid, vid); break; default: /* MLX5E_VLAN_RULE_TYPE_MATCH_CTAG_VID */ rule_p = &fs->vlan->active_cvlans_rule[vid]; MLX5_SET_TO_ONES(fte_match_param, spec->match_criteria, outer_headers.cvlan_tag); MLX5_SET(fte_match_param, spec->match_value, outer_headers.cvlan_tag, 1); MLX5_SET_TO_ONES(fte_match_param, spec->match_criteria, outer_headers.first_vid); MLX5_SET(fte_match_param, spec->match_value, outer_headers.first_vid, vid); break; } if (WARN_ONCE(*rule_p, "VLAN rule already exists type %d", rule_type)) return 0; *rule_p = mlx5_add_flow_rules(ft, spec, &flow_act, &dest, 1); if (IS_ERR(*rule_p)) { err = PTR_ERR(*rule_p); *rule_p = NULL; fs_err(fs, "%s: add rule failed\n", __func__); } return err; } static int mlx5e_add_vlan_rule(struct mlx5e_flow_steering *fs, enum mlx5e_vlan_rule_type rule_type, u16 vid) { struct mlx5_flow_spec *spec; int err = 0; spec = kvzalloc(sizeof(*spec), GFP_KERNEL); if (!spec) return -ENOMEM; if (rule_type == MLX5E_VLAN_RULE_TYPE_MATCH_CTAG_VID) mlx5e_vport_context_update_vlans(fs); err = __mlx5e_add_vlan_rule(fs, rule_type, vid, spec); kvfree(spec); return err; } static void mlx5e_fs_del_vlan_rule(struct mlx5e_flow_steering *fs, enum mlx5e_vlan_rule_type rule_type, u16 vid) { switch (rule_type) { case MLX5E_VLAN_RULE_TYPE_UNTAGGED: if (fs->vlan->untagged_rule) { mlx5_del_flow_rules(fs->vlan->untagged_rule); fs->vlan->untagged_rule = NULL; } break; case MLX5E_VLAN_RULE_TYPE_ANY_CTAG_VID: if (fs->vlan->any_cvlan_rule) { mlx5_del_flow_rules(fs->vlan->any_cvlan_rule); fs->vlan->any_cvlan_rule = NULL; } break; case MLX5E_VLAN_RULE_TYPE_ANY_STAG_VID: if (fs->vlan->any_svlan_rule) { mlx5_del_flow_rules(fs->vlan->any_svlan_rule); fs->vlan->any_svlan_rule = NULL; } break; case MLX5E_VLAN_RULE_TYPE_MATCH_STAG_VID: if (fs->vlan->active_svlans_rule[vid]) { mlx5_del_flow_rules(fs->vlan->active_svlans_rule[vid]); fs->vlan->active_svlans_rule[vid] = NULL; } break; case MLX5E_VLAN_RULE_TYPE_MATCH_CTAG_VID: if (fs->vlan->active_cvlans_rule[vid]) { mlx5_del_flow_rules(fs->vlan->active_cvlans_rule[vid]); fs->vlan->active_cvlans_rule[vid] = NULL; } mlx5e_vport_context_update_vlans(fs); break; } } static void mlx5e_fs_del_any_vid_rules(struct mlx5e_flow_steering *fs) { mlx5e_fs_del_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_ANY_CTAG_VID, 0); mlx5e_fs_del_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_ANY_STAG_VID, 0); } static int mlx5e_fs_add_any_vid_rules(struct mlx5e_flow_steering *fs) { int err; err = mlx5e_add_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_ANY_CTAG_VID, 0); if (err) return err; return mlx5e_add_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_ANY_STAG_VID, 0); } static struct mlx5_flow_handle * mlx5e_add_trap_rule(struct mlx5_flow_table *ft, int trap_id, int tir_num) { struct mlx5_flow_destination dest = {}; MLX5_DECLARE_FLOW_ACT(flow_act); struct mlx5_flow_handle *rule; struct mlx5_flow_spec *spec; spec = kvzalloc(sizeof(*spec), GFP_KERNEL); if (!spec) return ERR_PTR(-ENOMEM); spec->flow_context.flags |= FLOW_CONTEXT_HAS_TAG; spec->flow_context.flow_tag = trap_id; dest.type = MLX5_FLOW_DESTINATION_TYPE_TIR; dest.tir_num = tir_num; rule = mlx5_add_flow_rules(ft, spec, &flow_act, &dest, 1); kvfree(spec); return rule; } int mlx5e_add_vlan_trap(struct mlx5e_flow_steering *fs, int trap_id, int tir_num) { struct mlx5_flow_table *ft = fs->vlan->ft.t; struct mlx5_flow_handle *rule; int err; rule = mlx5e_add_trap_rule(ft, trap_id, tir_num); if (IS_ERR(rule)) { err = PTR_ERR(rule); fs->vlan->trap_rule = NULL; fs_err(fs, "%s: add VLAN trap rule failed, err %d\n", __func__, err); return err; } fs->vlan->trap_rule = rule; return 0; } void mlx5e_remove_vlan_trap(struct mlx5e_flow_steering *fs) { if (fs->vlan->trap_rule) { mlx5_del_flow_rules(fs->vlan->trap_rule); fs->vlan->trap_rule = NULL; } } int mlx5e_add_mac_trap(struct mlx5e_flow_steering *fs, int trap_id, int tir_num) { struct mlx5_flow_table *ft = fs->l2.ft.t; struct mlx5_flow_handle *rule; int err; rule = mlx5e_add_trap_rule(ft, trap_id, tir_num); if (IS_ERR(rule)) { err = PTR_ERR(rule); fs->l2.trap_rule = NULL; fs_err(fs, "%s: add MAC trap rule failed, err %d\n", __func__, err); return err; } fs->l2.trap_rule = rule; return 0; } void mlx5e_remove_mac_trap(struct mlx5e_flow_steering *fs) { if (fs->l2.trap_rule) { mlx5_del_flow_rules(fs->l2.trap_rule); fs->l2.trap_rule = NULL; } } void mlx5e_enable_cvlan_filter(struct mlx5e_flow_steering *fs, bool promisc) { if (!fs->vlan->cvlan_filter_disabled) return; fs->vlan->cvlan_filter_disabled = false; if (promisc) return; mlx5e_fs_del_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_ANY_CTAG_VID, 0); } void mlx5e_disable_cvlan_filter(struct mlx5e_flow_steering *fs, bool promisc) { if (!fs->vlan || fs->vlan->cvlan_filter_disabled) return; fs->vlan->cvlan_filter_disabled = true; if (promisc) return; mlx5e_add_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_ANY_CTAG_VID, 0); } static int mlx5e_vlan_rx_add_cvid(struct mlx5e_flow_steering *fs, u16 vid) { int err; set_bit(vid, fs->vlan->active_cvlans); err = mlx5e_add_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_MATCH_CTAG_VID, vid); if (err) clear_bit(vid, fs->vlan->active_cvlans); return err; } static int mlx5e_vlan_rx_add_svid(struct mlx5e_flow_steering *fs, struct net_device *netdev, u16 vid) { int err; set_bit(vid, fs->vlan->active_svlans); err = mlx5e_add_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_MATCH_STAG_VID, vid); if (err) { clear_bit(vid, fs->vlan->active_svlans); return err; } /* Need to fix some features.. */ netdev_update_features(netdev); return err; } int mlx5e_fs_vlan_rx_add_vid(struct mlx5e_flow_steering *fs, struct net_device *netdev, __be16 proto, u16 vid) { if (!fs->vlan) { fs_err(fs, "Vlan doesn't exist\n"); return -EINVAL; } if (be16_to_cpu(proto) == ETH_P_8021Q) return mlx5e_vlan_rx_add_cvid(fs, vid); else if (be16_to_cpu(proto) == ETH_P_8021AD) return mlx5e_vlan_rx_add_svid(fs, netdev, vid); return -EOPNOTSUPP; } int mlx5e_fs_vlan_rx_kill_vid(struct mlx5e_flow_steering *fs, struct net_device *netdev, __be16 proto, u16 vid) { if (!fs->vlan) { fs_err(fs, "Vlan doesn't exist\n"); return -EINVAL; } if (be16_to_cpu(proto) == ETH_P_8021Q) { clear_bit(vid, fs->vlan->active_cvlans); mlx5e_fs_del_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_MATCH_CTAG_VID, vid); } else if (be16_to_cpu(proto) == ETH_P_8021AD) { clear_bit(vid, fs->vlan->active_svlans); mlx5e_fs_del_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_MATCH_STAG_VID, vid); netdev_update_features(netdev); } return 0; } static void mlx5e_fs_add_vlan_rules(struct mlx5e_flow_steering *fs) { int i; mlx5e_add_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_UNTAGGED, 0); for_each_set_bit(i, fs->vlan->active_cvlans, VLAN_N_VID) { mlx5e_add_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_MATCH_CTAG_VID, i); } for_each_set_bit(i, fs->vlan->active_svlans, VLAN_N_VID) mlx5e_add_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_MATCH_STAG_VID, i); if (fs->vlan->cvlan_filter_disabled) mlx5e_fs_add_any_vid_rules(fs); } static void mlx5e_del_vlan_rules(struct mlx5e_flow_steering *fs) { int i; mlx5e_fs_del_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_UNTAGGED, 0); for_each_set_bit(i, fs->vlan->active_cvlans, VLAN_N_VID) { mlx5e_fs_del_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_MATCH_CTAG_VID, i); } for_each_set_bit(i, fs->vlan->active_svlans, VLAN_N_VID) mlx5e_fs_del_vlan_rule(fs, MLX5E_VLAN_RULE_TYPE_MATCH_STAG_VID, i); WARN_ON_ONCE(fs->state_destroy); mlx5e_remove_vlan_trap(fs); /* must be called after DESTROY bit is set and * set_rx_mode is called and flushed */ if (fs->vlan->cvlan_filter_disabled) mlx5e_fs_del_any_vid_rules(fs); } #define mlx5e_for_each_hash_node(hn, tmp, hash, i) \ for (i = 0; i < MLX5E_L2_ADDR_HASH_SIZE; i++) \ hlist_for_each_entry_safe(hn, tmp, &hash[i], hlist) static void mlx5e_execute_l2_action(struct mlx5e_flow_steering *fs, struct mlx5e_l2_hash_node *hn) { u8 action = hn->action; u8 mac_addr[ETH_ALEN]; int l2_err = 0; ether_addr_copy(mac_addr, hn->ai.addr); switch (action) { case MLX5E_ACTION_ADD: mlx5e_add_l2_flow_rule(fs, &hn->ai, MLX5E_FULLMATCH); if (!is_multicast_ether_addr(mac_addr)) { l2_err = mlx5_mpfs_add_mac(fs->mdev, mac_addr); hn->mpfs = !l2_err; } hn->action = MLX5E_ACTION_NONE; break; case MLX5E_ACTION_DEL: if (!is_multicast_ether_addr(mac_addr) && hn->mpfs) l2_err = mlx5_mpfs_del_mac(fs->mdev, mac_addr); mlx5e_del_l2_flow_rule(fs, &hn->ai); mlx5e_del_l2_from_hash(hn); break; } if (l2_err) fs_warn(fs, "MPFS, failed to %s mac %pM, err(%d)\n", action == MLX5E_ACTION_ADD ? "add" : "del", mac_addr, l2_err); } static void mlx5e_sync_netdev_addr(struct mlx5e_flow_steering *fs, struct net_device *netdev) { struct netdev_hw_addr *ha; netif_addr_lock_bh(netdev); mlx5e_add_l2_to_hash(fs->l2.netdev_uc, netdev->dev_addr); netdev_for_each_uc_addr(ha, netdev) mlx5e_add_l2_to_hash(fs->l2.netdev_uc, ha->addr); netdev_for_each_mc_addr(ha, netdev) mlx5e_add_l2_to_hash(fs->l2.netdev_mc, ha->addr); netif_addr_unlock_bh(netdev); } static void mlx5e_fill_addr_array(struct mlx5e_flow_steering *fs, int list_type, struct net_device *ndev, u8 addr_array[][ETH_ALEN], int size) { bool is_uc = (list_type == MLX5_NVPRT_LIST_TYPE_UC); struct mlx5e_l2_hash_node *hn; struct hlist_head *addr_list; struct hlist_node *tmp; int i = 0; int hi; addr_list = is_uc ? fs->l2.netdev_uc : fs->l2.netdev_mc; if (is_uc) /* Make sure our own address is pushed first */ ether_addr_copy(addr_array[i++], ndev->dev_addr); else if (fs->l2.broadcast_enabled) ether_addr_copy(addr_array[i++], ndev->broadcast); mlx5e_for_each_hash_node(hn, tmp, addr_list, hi) { if (ether_addr_equal(ndev->dev_addr, hn->ai.addr)) continue; if (i >= size) break; ether_addr_copy(addr_array[i++], hn->ai.addr); } } static void mlx5e_vport_context_update_addr_list(struct mlx5e_flow_steering *fs, struct net_device *netdev, int list_type) { bool is_uc = (list_type == MLX5_NVPRT_LIST_TYPE_UC); struct mlx5e_l2_hash_node *hn; u8 (*addr_array)[ETH_ALEN] = NULL; struct hlist_head *addr_list; struct hlist_node *tmp; int max_size; int size; int err; int hi; size = is_uc ? 0 : (fs->l2.broadcast_enabled ? 1 : 0); max_size = is_uc ? 1 << MLX5_CAP_GEN(fs->mdev, log_max_current_uc_list) : 1 << MLX5_CAP_GEN(fs->mdev, log_max_current_mc_list); addr_list = is_uc ? fs->l2.netdev_uc : fs->l2.netdev_mc; mlx5e_for_each_hash_node(hn, tmp, addr_list, hi) size++; if (size > max_size) { fs_warn(fs, "mdev %s list size (%d) > (%d) max vport list size, some addresses will be dropped\n", is_uc ? "UC" : "MC", size, max_size); size = max_size; } if (size) { addr_array = kcalloc(size, ETH_ALEN, GFP_KERNEL); if (!addr_array) { err = -ENOMEM; goto out; } mlx5e_fill_addr_array(fs, list_type, netdev, addr_array, size); } err = mlx5_modify_nic_vport_mac_list(fs->mdev, list_type, addr_array, size); out: if (err) fs_err(fs, "Failed to modify vport %s list err(%d)\n", is_uc ? "UC" : "MC", err); kfree(addr_array); } static void mlx5e_vport_context_update(struct mlx5e_flow_steering *fs, struct net_device *netdev) { struct mlx5e_l2_table *ea = &fs->l2; mlx5e_vport_context_update_addr_list(fs, netdev, MLX5_NVPRT_LIST_TYPE_UC); mlx5e_vport_context_update_addr_list(fs, netdev, MLX5_NVPRT_LIST_TYPE_MC); mlx5_modify_nic_vport_promisc(fs->mdev, 0, ea->allmulti_enabled, ea->promisc_enabled); } static void mlx5e_apply_netdev_addr(struct mlx5e_flow_steering *fs) { struct mlx5e_l2_hash_node *hn; struct hlist_node *tmp; int i; mlx5e_for_each_hash_node(hn, tmp, fs->l2.netdev_uc, i) mlx5e_execute_l2_action(fs, hn); mlx5e_for_each_hash_node(hn, tmp, fs->l2.netdev_mc, i) mlx5e_execute_l2_action(fs, hn); } static void mlx5e_handle_netdev_addr(struct mlx5e_flow_steering *fs, struct net_device *netdev) { struct mlx5e_l2_hash_node *hn; struct hlist_node *tmp; int i; mlx5e_for_each_hash_node(hn, tmp, fs->l2.netdev_uc, i) hn->action = MLX5E_ACTION_DEL; mlx5e_for_each_hash_node(hn, tmp, fs->l2.netdev_mc, i) hn->action = MLX5E_ACTION_DEL; if (fs->state_destroy) mlx5e_sync_netdev_addr(fs, netdev); mlx5e_apply_netdev_addr(fs); } #define MLX5E_PROMISC_GROUP0_SIZE BIT(0) #define MLX5E_PROMISC_TABLE_SIZE MLX5E_PROMISC_GROUP0_SIZE static int mlx5e_add_promisc_rule(struct mlx5e_flow_steering *fs) { struct mlx5_flow_table *ft = fs->promisc.ft.t; struct mlx5_flow_destination dest = {}; struct mlx5_flow_handle **rule_p; MLX5_DECLARE_FLOW_ACT(flow_act); struct mlx5_flow_spec *spec; int err = 0; spec = kvzalloc(sizeof(*spec), GFP_KERNEL); if (!spec) return -ENOMEM; dest.type = MLX5_FLOW_DESTINATION_TYPE_FLOW_TABLE; dest.ft = mlx5_get_ttc_flow_table(fs->ttc); rule_p = &fs->promisc.rule; *rule_p = mlx5_add_flow_rules(ft, spec, &flow_act, &dest, 1); if (IS_ERR(*rule_p)) { err = PTR_ERR(*rule_p); *rule_p = NULL; fs_err(fs, "%s: add promiscuous rule failed\n", __func__); } kvfree(spec); return err; } static int mlx5e_create_promisc_table(struct mlx5e_flow_steering *fs) { struct mlx5e_flow_table *ft = &fs->promisc.ft; struct mlx5_flow_table_attr ft_attr = {}; int err; ft_attr.max_fte = MLX5E_PROMISC_TABLE_SIZE; ft_attr.autogroup.max_num_groups = 1; ft_attr.level = MLX5E_PROMISC_FT_LEVEL; ft_attr.prio = MLX5E_NIC_PRIO; ft->t = mlx5_create_auto_grouped_flow_table(fs->ns, &ft_attr); if (IS_ERR(ft->t)) { err = PTR_ERR(ft->t); fs_err(fs, "fail to create promisc table err=%d\n", err); return err; } err = mlx5e_add_promisc_rule(fs); if (err) goto err_destroy_promisc_table; return 0; err_destroy_promisc_table: mlx5_destroy_flow_table(ft->t); ft->t = NULL; return err; } static void mlx5e_del_promisc_rule(struct mlx5e_flow_steering *fs) { if (WARN(!fs->promisc.rule, "Trying to remove non-existing promiscuous rule")) return; mlx5_del_flow_rules(fs->promisc.rule); fs->promisc.rule = NULL; } static void mlx5e_destroy_promisc_table(struct mlx5e_flow_steering *fs) { if (WARN(!fs->promisc.ft.t, "Trying to remove non-existing promiscuous table")) return; mlx5e_del_promisc_rule(fs); mlx5_destroy_flow_table(fs->promisc.ft.t); fs->promisc.ft.t = NULL; } void mlx5e_fs_set_rx_mode_work(struct mlx5e_flow_steering *fs, struct net_device *netdev) { struct mlx5e_l2_table *ea = &fs->l2; bool rx_mode_enable = fs->state_destroy; bool promisc_enabled = rx_mode_enable && (netdev->flags & IFF_PROMISC); bool allmulti_enabled = rx_mode_enable && (netdev->flags & IFF_ALLMULTI); bool broadcast_enabled = rx_mode_enable; bool enable_promisc = !ea->promisc_enabled && promisc_enabled; bool disable_promisc = ea->promisc_enabled && !promisc_enabled; bool enable_allmulti = !ea->allmulti_enabled && allmulti_enabled; bool disable_allmulti = ea->allmulti_enabled && !allmulti_enabled; bool enable_broadcast = !ea->broadcast_enabled && broadcast_enabled; bool disable_broadcast = ea->broadcast_enabled && !broadcast_enabled; int err; if (enable_promisc) { err = mlx5e_create_promisc_table(fs); if (err) enable_promisc = false; if (!fs->vlan_strip_disable && !err) fs_warn_once(fs, "S-tagged traffic will be dropped while C-tag vlan stripping is enabled\n"); } if (enable_allmulti) mlx5e_add_l2_flow_rule(fs, &ea->allmulti, MLX5E_ALLMULTI); if (enable_broadcast) mlx5e_add_l2_flow_rule(fs, &ea->broadcast, MLX5E_FULLMATCH); mlx5e_handle_netdev_addr(fs, netdev); if (disable_broadcast) mlx5e_del_l2_flow_rule(fs, &ea->broadcast); if (disable_allmulti) mlx5e_del_l2_flow_rule(fs, &ea->allmulti); if (disable_promisc) mlx5e_destroy_promisc_table(fs); ea->promisc_enabled = promisc_enabled; ea->allmulti_enabled = allmulti_enabled; ea->broadcast_enabled = broadcast_enabled; mlx5e_vport_context_update(fs, netdev); } static void mlx5e_destroy_groups(struct mlx5e_flow_table *ft) { int i; for (i = ft->num_groups - 1; i >= 0; i--) { if (!IS_ERR_OR_NULL(ft->g[i])) mlx5_destroy_flow_group(ft->g[i]); ft->g[i] = NULL; } ft->num_groups = 0; } void mlx5e_fs_init_l2_addr(struct mlx5e_flow_steering *fs, struct net_device *netdev) { ether_addr_copy(fs->l2.broadcast.addr, netdev->broadcast); } void mlx5e_destroy_flow_table(struct mlx5e_flow_table *ft) { mlx5e_destroy_groups(ft); kfree(ft->g); mlx5_destroy_flow_table(ft->t); ft->t = NULL; } static void mlx5e_set_inner_ttc_params(struct mlx5e_flow_steering *fs, struct mlx5e_rx_res *rx_res, struct ttc_params *ttc_params) { struct mlx5_flow_table_attr *ft_attr = &ttc_params->ft_attr; int tt; memset(ttc_params, 0, sizeof(*ttc_params)); ttc_params->ns = mlx5_get_flow_namespace(fs->mdev, MLX5_FLOW_NAMESPACE_KERNEL); ft_attr->level = MLX5E_INNER_TTC_FT_LEVEL; ft_attr->prio = MLX5E_NIC_PRIO; for (tt = 0; tt < MLX5_NUM_TT; tt++) { ttc_params->dests[tt].type = MLX5_FLOW_DESTINATION_TYPE_TIR; ttc_params->dests[tt].tir_num = tt == MLX5_TT_ANY ? mlx5e_rx_res_get_tirn_direct(rx_res, 0) : mlx5e_rx_res_get_tirn_rss_inner(rx_res, tt); } } void mlx5e_set_ttc_params(struct mlx5e_flow_steering *fs, struct mlx5e_rx_res *rx_res, struct ttc_params *ttc_params, bool tunnel) { struct mlx5_flow_table_attr *ft_attr = &ttc_params->ft_attr; int tt; memset(ttc_params, 0, sizeof(*ttc_params)); ttc_params->ns = mlx5_get_flow_namespace(fs->mdev, MLX5_FLOW_NAMESPACE_KERNEL); ft_attr->level = MLX5E_TTC_FT_LEVEL; ft_attr->prio = MLX5E_NIC_PRIO; for (tt = 0; tt < MLX5_NUM_TT; tt++) { ttc_params->dests[tt].type = MLX5_FLOW_DESTINATION_TYPE_TIR; ttc_params->dests[tt].tir_num = tt == MLX5_TT_ANY ? mlx5e_rx_res_get_tirn_direct(rx_res, 0) : mlx5e_rx_res_get_tirn_rss(rx_res, tt); } ttc_params->inner_ttc = tunnel; if (!tunnel || !mlx5_tunnel_inner_ft_supported(fs->mdev)) return; for (tt = 0; tt < MLX5_NUM_TUNNEL_TT; tt++) { ttc_params->tunnel_dests[tt].type = MLX5_FLOW_DESTINATION_TYPE_FLOW_TABLE; ttc_params->tunnel_dests[tt].ft = mlx5_get_ttc_flow_table(fs->inner_ttc); } } static void mlx5e_del_l2_flow_rule(struct mlx5e_flow_steering *fs, struct mlx5e_l2_rule *ai) { if (!IS_ERR_OR_NULL(ai->rule)) { mlx5_del_flow_rules(ai->rule); ai->rule = NULL; } } static int mlx5e_add_l2_flow_rule(struct mlx5e_flow_steering *fs, struct mlx5e_l2_rule *ai, int type) { struct mlx5_flow_table *ft = fs->l2.ft.t; struct mlx5_flow_destination dest = {}; MLX5_DECLARE_FLOW_ACT(flow_act); struct mlx5_flow_spec *spec; int err = 0; u8 *mc_dmac; u8 *mv_dmac; spec = kvzalloc(sizeof(*spec), GFP_KERNEL); if (!spec) return -ENOMEM; mc_dmac = MLX5_ADDR_OF(fte_match_param, spec->match_criteria, outer_headers.dmac_47_16); mv_dmac = MLX5_ADDR_OF(fte_match_param, spec->match_value, outer_headers.dmac_47_16); dest.type = MLX5_FLOW_DESTINATION_TYPE_FLOW_TABLE; dest.ft = mlx5_get_ttc_flow_table(fs->ttc); switch (type) { case MLX5E_FULLMATCH: spec->match_criteria_enable = MLX5_MATCH_OUTER_HEADERS; eth_broadcast_addr(mc_dmac); ether_addr_copy(mv_dmac, ai->addr); break; case MLX5E_ALLMULTI: spec->match_criteria_enable = MLX5_MATCH_OUTER_HEADERS; mc_dmac[0] = 0x01; mv_dmac[0] = 0x01; break; } ai->rule = mlx5_add_flow_rules(ft, spec, &flow_act, &dest, 1); if (IS_ERR(ai->rule)) { fs_err(fs, "%s: add l2 rule(mac:%pM) failed\n", __func__, mv_dmac); err = PTR_ERR(ai->rule); ai->rule = NULL; } kvfree(spec); return err; } #define MLX5E_NUM_L2_GROUPS 3 #define MLX5E_L2_GROUP1_SIZE BIT(15) #define MLX5E_L2_GROUP2_SIZE BIT(0) #define MLX5E_L2_GROUP_TRAP_SIZE BIT(0) /* must be last */ #define MLX5E_L2_TABLE_SIZE (MLX5E_L2_GROUP1_SIZE +\ MLX5E_L2_GROUP2_SIZE +\ MLX5E_L2_GROUP_TRAP_SIZE) static int mlx5e_create_l2_table_groups(struct mlx5e_l2_table *l2_table) { int inlen = MLX5_ST_SZ_BYTES(create_flow_group_in); struct mlx5e_flow_table *ft = &l2_table->ft; int ix = 0; u8 *mc_dmac; u32 *in; int err; u8 *mc; ft->g = kcalloc(MLX5E_NUM_L2_GROUPS, sizeof(*ft->g), GFP_KERNEL); if (!ft->g) return -ENOMEM; in = kvzalloc(inlen, GFP_KERNEL); if (!in) { kfree(ft->g); return -ENOMEM; } mc = MLX5_ADDR_OF(create_flow_group_in, in, match_criteria); mc_dmac = MLX5_ADDR_OF(fte_match_param, mc, outer_headers.dmac_47_16); /* Flow Group for full match */ eth_broadcast_addr(mc_dmac); MLX5_SET_CFG(in, match_criteria_enable, MLX5_MATCH_OUTER_HEADERS); MLX5_SET_CFG(in, start_flow_index, ix); ix += MLX5E_L2_GROUP1_SIZE; MLX5_SET_CFG(in, end_flow_index, ix - 1); ft->g[ft->num_groups] = mlx5_create_flow_group(ft->t, in); if (IS_ERR(ft->g[ft->num_groups])) goto err_destroy_groups; ft->num_groups++; /* Flow Group for allmulti */ eth_zero_addr(mc_dmac); mc_dmac[0] = 0x01; MLX5_SET_CFG(in, start_flow_index, ix); ix += MLX5E_L2_GROUP2_SIZE; MLX5_SET_CFG(in, end_flow_index, ix - 1); ft->g[ft->num_groups] = mlx5_create_flow_group(ft->t, in); if (IS_ERR(ft->g[ft->num_groups])) goto err_destroy_groups; ft->num_groups++; /* Flow Group for l2 traps */ memset(in, 0, inlen); MLX5_SET_CFG(in, start_flow_index, ix); ix += MLX5E_L2_GROUP_TRAP_SIZE; MLX5_SET_CFG(in, end_flow_index, ix - 1); ft->g[ft->num_groups] = mlx5_create_flow_group(ft->t, in); if (IS_ERR(ft->g[ft->num_groups])) goto err_destroy_groups; ft->num_groups++; kvfree(in); return 0; err_destroy_groups: err = PTR_ERR(ft->g[ft->num_groups]); ft->g[ft->num_groups] = NULL; mlx5e_destroy_groups(ft); kvfree(in); kfree(ft->g); return err; } static void mlx5e_destroy_l2_table(struct mlx5e_flow_steering *fs) { mlx5e_destroy_flow_table(&fs->l2.ft); } static int mlx5e_create_l2_table(struct mlx5e_flow_steering *fs) { struct mlx5e_l2_table *l2_table = &fs->l2; struct mlx5e_flow_table *ft = &l2_table->ft; struct mlx5_flow_table_attr ft_attr = {}; int err; ft->num_groups = 0; ft_attr.max_fte = MLX5E_L2_TABLE_SIZE; ft_attr.level = MLX5E_L2_FT_LEVEL; ft_attr.prio = MLX5E_NIC_PRIO; ft->t = mlx5_create_flow_table(fs->ns, &ft_attr); if (IS_ERR(ft->t)) { err = PTR_ERR(ft->t); ft->t = NULL; return err; } err = mlx5e_create_l2_table_groups(l2_table); if (err) goto err_destroy_flow_table; return 0; err_destroy_flow_table: mlx5_destroy_flow_table(ft->t); ft->t = NULL; return err; } #define MLX5E_NUM_VLAN_GROUPS 5 #define MLX5E_VLAN_GROUP0_SIZE BIT(12) #define MLX5E_VLAN_GROUP1_SIZE BIT(12) #define MLX5E_VLAN_GROUP2_SIZE BIT(1) #define MLX5E_VLAN_GROUP3_SIZE BIT(0) #define MLX5E_VLAN_GROUP_TRAP_SIZE BIT(0) /* must be last */ #define MLX5E_VLAN_TABLE_SIZE (MLX5E_VLAN_GROUP0_SIZE +\ MLX5E_VLAN_GROUP1_SIZE +\ MLX5E_VLAN_GROUP2_SIZE +\ MLX5E_VLAN_GROUP3_SIZE +\ MLX5E_VLAN_GROUP_TRAP_SIZE) static int __mlx5e_create_vlan_table_groups(struct mlx5e_flow_table *ft, u32 *in, int inlen) { int err; int ix = 0; u8 *mc = MLX5_ADDR_OF(create_flow_group_in, in, match_criteria); memset(in, 0, inlen); MLX5_SET_CFG(in, match_criteria_enable, MLX5_MATCH_OUTER_HEADERS); MLX5_SET_TO_ONES(fte_match_param, mc, outer_headers.cvlan_tag); MLX5_SET_TO_ONES(fte_match_param, mc, outer_headers.first_vid); MLX5_SET_CFG(in, start_flow_index, ix); ix += MLX5E_VLAN_GROUP0_SIZE; MLX5_SET_CFG(in, end_flow_index, ix - 1); ft->g[ft->num_groups] = mlx5_create_flow_group(ft->t, in); if (IS_ERR(ft->g[ft->num_groups])) goto err_destroy_groups; ft->num_groups++; memset(in, 0, inlen); MLX5_SET_CFG(in, match_criteria_enable, MLX5_MATCH_OUTER_HEADERS); MLX5_SET_TO_ONES(fte_match_param, mc, outer_headers.svlan_tag); MLX5_SET_TO_ONES(fte_match_param, mc, outer_headers.first_vid); MLX5_SET_CFG(in, start_flow_index, ix); ix += MLX5E_VLAN_GROUP1_SIZE; MLX5_SET_CFG(in, end_flow_index, ix - 1); ft->g[ft->num_groups] = mlx5_create_flow_group(ft->t, in); if (IS_ERR(ft->g[ft->num_groups])) goto err_destroy_groups; ft->num_groups++; memset(in, 0, inlen); MLX5_SET_CFG(in, match_criteria_enable, MLX5_MATCH_OUTER_HEADERS); MLX5_SET_TO_ONES(fte_match_param, mc, outer_headers.cvlan_tag); MLX5_SET_CFG(in, start_flow_index, ix); ix += MLX5E_VLAN_GROUP2_SIZE; MLX5_SET_CFG(in, end_flow_index, ix - 1); ft->g[ft->num_groups] = mlx5_create_flow_group(ft->t, in); if (IS_ERR(ft->g[ft->num_groups])) goto err_destroy_groups; ft->num_groups++; memset(in, 0, inlen); MLX5_SET_CFG(in, match_criteria_enable, MLX5_MATCH_OUTER_HEADERS); MLX5_SET_TO_ONES(fte_match_param, mc, outer_headers.svlan_tag); MLX5_SET_CFG(in, start_flow_index, ix); ix += MLX5E_VLAN_GROUP3_SIZE; MLX5_SET_CFG(in, end_flow_index, ix - 1); ft->g[ft->num_groups] = mlx5_create_flow_group(ft->t, in); if (IS_ERR(ft->g[ft->num_groups])) goto err_destroy_groups; ft->num_groups++; memset(in, 0, inlen); MLX5_SET_CFG(in, start_flow_index, ix); ix += MLX5E_VLAN_GROUP_TRAP_SIZE; MLX5_SET_CFG(in, end_flow_index, ix - 1); ft->g[ft->num_groups] = mlx5_create_flow_group(ft->t, in); if (IS_ERR(ft->g[ft->num_groups])) goto err_destroy_groups; ft->num_groups++; return 0; err_destroy_groups: err = PTR_ERR(ft->g[ft->num_groups]); ft->g[ft->num_groups] = NULL; mlx5e_destroy_groups(ft); return err; } static int mlx5e_create_vlan_table_groups(struct mlx5e_flow_table *ft) { u32 *in; int inlen = MLX5_ST_SZ_BYTES(create_flow_group_in); int err; in = kvzalloc(inlen, GFP_KERNEL); if (!in) return -ENOMEM; err = __mlx5e_create_vlan_table_groups(ft, in, inlen); kvfree(in); return err; } static int mlx5e_fs_create_vlan_table(struct mlx5e_flow_steering *fs) { struct mlx5_flow_table_attr ft_attr = {}; struct mlx5e_flow_table *ft; int err; ft = &fs->vlan->ft; ft->num_groups = 0; ft_attr.max_fte = MLX5E_VLAN_TABLE_SIZE; ft_attr.level = MLX5E_VLAN_FT_LEVEL; ft_attr.prio = MLX5E_NIC_PRIO; ft->t = mlx5_create_flow_table(fs->ns, &ft_attr); if (IS_ERR(ft->t)) return PTR_ERR(ft->t); ft->g = kcalloc(MLX5E_NUM_VLAN_GROUPS, sizeof(*ft->g), GFP_KERNEL); if (!ft->g) { err = -ENOMEM; goto err_destroy_vlan_table; } err = mlx5e_create_vlan_table_groups(ft); if (err) goto err_free_g; mlx5e_fs_add_vlan_rules(fs); return 0; err_free_g: kfree(ft->g); err_destroy_vlan_table: mlx5_destroy_flow_table(ft->t); return err; } static void mlx5e_destroy_vlan_table(struct mlx5e_flow_steering *fs) { mlx5e_del_vlan_rules(fs); mlx5e_destroy_flow_table(&fs->vlan->ft); } static void mlx5e_destroy_inner_ttc_table(struct mlx5e_flow_steering *fs) { if (!mlx5_tunnel_inner_ft_supported(fs->mdev)) return; mlx5_destroy_ttc_table(fs->inner_ttc); } void mlx5e_destroy_ttc_table(struct mlx5e_flow_steering *fs) { mlx5_destroy_ttc_table(fs->ttc); } static int mlx5e_create_inner_ttc_table(struct mlx5e_flow_steering *fs, struct mlx5e_rx_res *rx_res) { struct ttc_params ttc_params = {}; if (!mlx5_tunnel_inner_ft_supported(fs->mdev)) return 0; mlx5e_set_inner_ttc_params(fs, rx_res, &ttc_params); fs->inner_ttc = mlx5_create_inner_ttc_table(fs->mdev, &ttc_params); if (IS_ERR(fs->inner_ttc)) return PTR_ERR(fs->inner_ttc); return 0; } int mlx5e_create_ttc_table(struct mlx5e_flow_steering *fs, struct mlx5e_rx_res *rx_res) { struct ttc_params ttc_params = {}; mlx5e_set_ttc_params(fs, rx_res, &ttc_params, true); fs->ttc = mlx5_create_ttc_table(fs->mdev, &ttc_params); if (IS_ERR(fs->ttc)) return PTR_ERR(fs->ttc); return 0; } int mlx5e_create_flow_steering(struct mlx5e_flow_steering *fs, struct mlx5e_rx_res *rx_res, const struct mlx5e_profile *profile, struct net_device *netdev) { struct mlx5_flow_namespace *ns = mlx5_get_flow_namespace(fs->mdev, MLX5_FLOW_NAMESPACE_KERNEL); int err; if (!ns) return -EOPNOTSUPP; mlx5e_fs_set_ns(fs, ns, false); err = mlx5e_arfs_create_tables(fs, rx_res, !!(netdev->hw_features & NETIF_F_NTUPLE)); if (err) { fs_err(fs, "Failed to create arfs tables, err=%d\n", err); netdev->hw_features &= ~NETIF_F_NTUPLE; } err = mlx5e_create_inner_ttc_table(fs, rx_res); if (err) { fs_err(fs, "Failed to create inner ttc table, err=%d\n", err); goto err_destroy_arfs_tables; } err = mlx5e_create_ttc_table(fs, rx_res); if (err) { fs_err(fs, "Failed to create ttc table, err=%d\n", err); goto err_destroy_inner_ttc_table; } err = mlx5e_create_l2_table(fs); if (err) { fs_err(fs, "Failed to create l2 table, err=%d\n", err); goto err_destroy_ttc_table; } err = mlx5e_fs_create_vlan_table(fs); if (err) { fs_err(fs, "Failed to create vlan table, err=%d\n", err); goto err_destroy_l2_table; } err = mlx5e_ptp_alloc_rx_fs(fs, profile); if (err) goto err_destory_vlan_table; mlx5e_ethtool_init_steering(fs); return 0; err_destory_vlan_table: mlx5e_destroy_vlan_table(fs); err_destroy_l2_table: mlx5e_destroy_l2_table(fs); err_destroy_ttc_table: mlx5e_destroy_ttc_table(fs); err_destroy_inner_ttc_table: mlx5e_destroy_inner_ttc_table(fs); err_destroy_arfs_tables: mlx5e_arfs_destroy_tables(fs, !!(netdev->hw_features & NETIF_F_NTUPLE)); return err; } void mlx5e_destroy_flow_steering(struct mlx5e_flow_steering *fs, bool ntuple, const struct mlx5e_profile *profile) { mlx5e_ptp_free_rx_fs(fs, profile); mlx5e_destroy_vlan_table(fs); mlx5e_destroy_l2_table(fs); mlx5e_destroy_ttc_table(fs); mlx5e_destroy_inner_ttc_table(fs); mlx5e_arfs_destroy_tables(fs, ntuple); mlx5e_ethtool_cleanup_steering(fs); } static int mlx5e_fs_vlan_alloc(struct mlx5e_flow_steering *fs) { fs->vlan = kvzalloc(sizeof(*fs->vlan), GFP_KERNEL); if (!fs->vlan) return -ENOMEM; return 0; } static void mlx5e_fs_vlan_free(struct mlx5e_flow_steering *fs) { kvfree(fs->vlan); } struct mlx5e_vlan_table *mlx5e_fs_get_vlan(struct mlx5e_flow_steering *fs) { return fs->vlan; } static int mlx5e_fs_tc_alloc(struct mlx5e_flow_steering *fs) { fs->tc = mlx5e_tc_table_alloc(); if (IS_ERR(fs->tc)) return -ENOMEM; return 0; } static void mlx5e_fs_tc_free(struct mlx5e_flow_steering *fs) { mlx5e_tc_table_free(fs->tc); } struct mlx5e_tc_table *mlx5e_fs_get_tc(struct mlx5e_flow_steering *fs) { return fs->tc; } #ifdef CONFIG_MLX5_EN_RXNFC static int mlx5e_fs_ethtool_alloc(struct mlx5e_flow_steering *fs) { return mlx5e_ethtool_alloc(&fs->ethtool); } static void mlx5e_fs_ethtool_free(struct mlx5e_flow_steering *fs) { mlx5e_ethtool_free(fs->ethtool); } struct mlx5e_ethtool_steering *mlx5e_fs_get_ethtool(struct mlx5e_flow_steering *fs) { return fs->ethtool; } #else static int mlx5e_fs_ethtool_alloc(struct mlx5e_flow_steering *fs) { return 0; } static void mlx5e_fs_ethtool_free(struct mlx5e_flow_steering *fs) { } #endif static void mlx5e_fs_debugfs_init(struct mlx5e_flow_steering *fs, struct dentry *dfs_root) { if (IS_ERR_OR_NULL(dfs_root)) return; fs->dfs_root = debugfs_create_dir("fs", dfs_root); } struct mlx5e_flow_steering *mlx5e_fs_init(const struct mlx5e_profile *profile, struct mlx5_core_dev *mdev, bool state_destroy, struct dentry *dfs_root) { struct mlx5e_flow_steering *fs; int err; fs = kvzalloc(sizeof(*fs), GFP_KERNEL); if (!fs) goto err; fs->mdev = mdev; fs->state_destroy = state_destroy; if (mlx5e_profile_feature_cap(profile, FS_VLAN)) { err = mlx5e_fs_vlan_alloc(fs); if (err) goto err_free_fs; } if (mlx5e_profile_feature_cap(profile, FS_TC)) { err = mlx5e_fs_tc_alloc(fs); if (err) goto err_free_vlan; } err = mlx5e_fs_ethtool_alloc(fs); if (err) goto err_free_tc; mlx5e_fs_debugfs_init(fs, dfs_root); return fs; err_free_tc: mlx5e_fs_tc_free(fs); err_free_vlan: mlx5e_fs_vlan_free(fs); err_free_fs: kvfree(fs); err: return NULL; } void mlx5e_fs_cleanup(struct mlx5e_flow_steering *fs) { debugfs_remove_recursive(fs->dfs_root); mlx5e_fs_ethtool_free(fs); mlx5e_fs_tc_free(fs); mlx5e_fs_vlan_free(fs); kvfree(fs); } struct mlx5e_l2_table *mlx5e_fs_get_l2(struct mlx5e_flow_steering *fs) { return &fs->l2; } struct mlx5_flow_namespace *mlx5e_fs_get_ns(struct mlx5e_flow_steering *fs, bool egress) { return egress ? fs->egress_ns : fs->ns; } void mlx5e_fs_set_ns(struct mlx5e_flow_steering *fs, struct mlx5_flow_namespace *ns, bool egress) { if (!egress) fs->ns = ns; else fs->egress_ns = ns; } struct mlx5_ttc_table *mlx5e_fs_get_ttc(struct mlx5e_flow_steering *fs, bool inner) { return inner ? fs->inner_ttc : fs->ttc; } void mlx5e_fs_set_ttc(struct mlx5e_flow_steering *fs, struct mlx5_ttc_table *ttc, bool inner) { if (!inner) fs->ttc = ttc; else fs->inner_ttc = ttc; } #ifdef CONFIG_MLX5_EN_ARFS struct mlx5e_arfs_tables *mlx5e_fs_get_arfs(struct mlx5e_flow_steering *fs) { return fs->arfs; } void mlx5e_fs_set_arfs(struct mlx5e_flow_steering *fs, struct mlx5e_arfs_tables *arfs) { fs->arfs = arfs; } #endif struct mlx5e_ptp_fs *mlx5e_fs_get_ptp(struct mlx5e_flow_steering *fs) { return fs->ptp_fs; } void mlx5e_fs_set_ptp(struct mlx5e_flow_steering *fs, struct mlx5e_ptp_fs *ptp_fs) { fs->ptp_fs = ptp_fs; } struct mlx5e_fs_any *mlx5e_fs_get_any(struct mlx5e_flow_steering *fs) { return fs->any; } void mlx5e_fs_set_any(struct mlx5e_flow_steering *fs, struct mlx5e_fs_any *any) { fs->any = any; } #ifdef CONFIG_MLX5_EN_TLS struct mlx5e_accel_fs_tcp *mlx5e_fs_get_accel_tcp(struct mlx5e_flow_steering *fs) { return fs->accel_tcp; } void mlx5e_fs_set_accel_tcp(struct mlx5e_flow_steering *fs, struct mlx5e_accel_fs_tcp *accel_tcp) { fs->accel_tcp = accel_tcp; } #endif void mlx5e_fs_set_state_destroy(struct mlx5e_flow_steering *fs, bool state_destroy) { fs->state_destroy = state_destroy; } void mlx5e_fs_set_vlan_strip_disable(struct mlx5e_flow_steering *fs, bool vlan_strip_disable) { fs->vlan_strip_disable = vlan_strip_disable; } struct mlx5e_fs_udp *mlx5e_fs_get_udp(struct mlx5e_flow_steering *fs) { return fs->udp; } void mlx5e_fs_set_udp(struct mlx5e_flow_steering *fs, struct mlx5e_fs_udp *udp) { fs->udp = udp; } struct mlx5_core_dev *mlx5e_fs_get_mdev(struct mlx5e_flow_steering *fs) { return fs->mdev; }
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