Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Aviv Heller | 2457 | 72.89% | 10 | 32.26% |
Majd Dibbiny | 232 | 6.88% | 1 | 3.23% |
Maor Gottlieb | 144 | 4.27% | 2 | 6.45% |
Shahar Klein | 129 | 3.83% | 1 | 3.23% |
Roi Dayan | 119 | 3.53% | 5 | 16.13% |
Rabie Loulou | 72 | 2.14% | 2 | 6.45% |
Leon Romanovsky | 65 | 1.93% | 1 | 3.23% |
Moni Shoua | 50 | 1.48% | 1 | 3.23% |
Erez Alfasi | 38 | 1.13% | 1 | 3.23% |
Bodong Wang | 27 | 0.80% | 2 | 6.45% |
Jiri Pirko | 14 | 0.42% | 2 | 6.45% |
Eli Cohen | 10 | 0.30% | 1 | 3.23% |
Talat Batheesh | 8 | 0.24% | 1 | 3.23% |
Mohamad Haj Yahia | 6 | 0.18% | 1 | 3.23% |
Total | 3371 | 31 |
/* * Copyright (c) 2016, 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/netdevice.h> #include <linux/mlx5/driver.h> #include <linux/mlx5/vport.h> #include "mlx5_core.h" #include "eswitch.h" #include "lag.h" #include "lag_mp.h" /* General purpose, use for short periods of time. * Beware of lock dependencies (preferably, no locks should be acquired * under it). */ static DEFINE_SPINLOCK(lag_lock); static int mlx5_cmd_create_lag(struct mlx5_core_dev *dev, u8 remap_port1, u8 remap_port2) { u32 in[MLX5_ST_SZ_DW(create_lag_in)] = {}; void *lag_ctx = MLX5_ADDR_OF(create_lag_in, in, ctx); MLX5_SET(create_lag_in, in, opcode, MLX5_CMD_OP_CREATE_LAG); MLX5_SET(lagc, lag_ctx, tx_remap_affinity_1, remap_port1); MLX5_SET(lagc, lag_ctx, tx_remap_affinity_2, remap_port2); return mlx5_cmd_exec_in(dev, create_lag, in); } static int mlx5_cmd_modify_lag(struct mlx5_core_dev *dev, u8 remap_port1, u8 remap_port2) { u32 in[MLX5_ST_SZ_DW(modify_lag_in)] = {}; void *lag_ctx = MLX5_ADDR_OF(modify_lag_in, in, ctx); MLX5_SET(modify_lag_in, in, opcode, MLX5_CMD_OP_MODIFY_LAG); MLX5_SET(modify_lag_in, in, field_select, 0x1); MLX5_SET(lagc, lag_ctx, tx_remap_affinity_1, remap_port1); MLX5_SET(lagc, lag_ctx, tx_remap_affinity_2, remap_port2); return mlx5_cmd_exec_in(dev, modify_lag, in); } int mlx5_cmd_create_vport_lag(struct mlx5_core_dev *dev) { u32 in[MLX5_ST_SZ_DW(create_vport_lag_in)] = {}; MLX5_SET(create_vport_lag_in, in, opcode, MLX5_CMD_OP_CREATE_VPORT_LAG); return mlx5_cmd_exec_in(dev, create_vport_lag, in); } EXPORT_SYMBOL(mlx5_cmd_create_vport_lag); int mlx5_cmd_destroy_vport_lag(struct mlx5_core_dev *dev) { u32 in[MLX5_ST_SZ_DW(destroy_vport_lag_in)] = {}; MLX5_SET(destroy_vport_lag_in, in, opcode, MLX5_CMD_OP_DESTROY_VPORT_LAG); return mlx5_cmd_exec_in(dev, destroy_vport_lag, in); } EXPORT_SYMBOL(mlx5_cmd_destroy_vport_lag); int mlx5_lag_dev_get_netdev_idx(struct mlx5_lag *ldev, struct net_device *ndev) { int i; for (i = 0; i < MLX5_MAX_PORTS; i++) if (ldev->pf[i].netdev == ndev) return i; return -1; } static bool __mlx5_lag_is_roce(struct mlx5_lag *ldev) { return !!(ldev->flags & MLX5_LAG_FLAG_ROCE); } static bool __mlx5_lag_is_sriov(struct mlx5_lag *ldev) { return !!(ldev->flags & MLX5_LAG_FLAG_SRIOV); } static void mlx5_infer_tx_affinity_mapping(struct lag_tracker *tracker, u8 *port1, u8 *port2) { *port1 = 1; *port2 = 2; if (!tracker->netdev_state[MLX5_LAG_P1].tx_enabled || !tracker->netdev_state[MLX5_LAG_P1].link_up) { *port1 = 2; return; } if (!tracker->netdev_state[MLX5_LAG_P2].tx_enabled || !tracker->netdev_state[MLX5_LAG_P2].link_up) *port2 = 1; } void mlx5_modify_lag(struct mlx5_lag *ldev, struct lag_tracker *tracker) { struct mlx5_core_dev *dev0 = ldev->pf[MLX5_LAG_P1].dev; u8 v2p_port1, v2p_port2; int err; mlx5_infer_tx_affinity_mapping(tracker, &v2p_port1, &v2p_port2); if (v2p_port1 != ldev->v2p_map[MLX5_LAG_P1] || v2p_port2 != ldev->v2p_map[MLX5_LAG_P2]) { ldev->v2p_map[MLX5_LAG_P1] = v2p_port1; ldev->v2p_map[MLX5_LAG_P2] = v2p_port2; mlx5_core_info(dev0, "modify lag map port 1:%d port 2:%d", ldev->v2p_map[MLX5_LAG_P1], ldev->v2p_map[MLX5_LAG_P2]); err = mlx5_cmd_modify_lag(dev0, v2p_port1, v2p_port2); if (err) mlx5_core_err(dev0, "Failed to modify LAG (%d)\n", err); } } static int mlx5_create_lag(struct mlx5_lag *ldev, struct lag_tracker *tracker) { struct mlx5_core_dev *dev0 = ldev->pf[MLX5_LAG_P1].dev; int err; mlx5_infer_tx_affinity_mapping(tracker, &ldev->v2p_map[MLX5_LAG_P1], &ldev->v2p_map[MLX5_LAG_P2]); mlx5_core_info(dev0, "lag map port 1:%d port 2:%d", ldev->v2p_map[MLX5_LAG_P1], ldev->v2p_map[MLX5_LAG_P2]); err = mlx5_cmd_create_lag(dev0, ldev->v2p_map[MLX5_LAG_P1], ldev->v2p_map[MLX5_LAG_P2]); if (err) mlx5_core_err(dev0, "Failed to create LAG (%d)\n", err); return err; } int mlx5_activate_lag(struct mlx5_lag *ldev, struct lag_tracker *tracker, u8 flags) { bool roce_lag = !!(flags & MLX5_LAG_FLAG_ROCE); struct mlx5_core_dev *dev0 = ldev->pf[MLX5_LAG_P1].dev; int err; err = mlx5_create_lag(ldev, tracker); if (err) { if (roce_lag) { mlx5_core_err(dev0, "Failed to activate RoCE LAG\n"); } else { mlx5_core_err(dev0, "Failed to activate VF LAG\n" "Make sure all VFs are unbound prior to VF LAG activation or deactivation\n"); } return err; } ldev->flags |= flags; return 0; } static int mlx5_deactivate_lag(struct mlx5_lag *ldev) { struct mlx5_core_dev *dev0 = ldev->pf[MLX5_LAG_P1].dev; u32 in[MLX5_ST_SZ_DW(destroy_lag_in)] = {}; bool roce_lag = __mlx5_lag_is_roce(ldev); int err; ldev->flags &= ~MLX5_LAG_MODE_FLAGS; MLX5_SET(destroy_lag_in, in, opcode, MLX5_CMD_OP_DESTROY_LAG); err = mlx5_cmd_exec_in(dev0, destroy_lag, in); if (err) { if (roce_lag) { mlx5_core_err(dev0, "Failed to deactivate RoCE LAG; driver restart required\n"); } else { mlx5_core_err(dev0, "Failed to deactivate VF LAG; driver restart required\n" "Make sure all VFs are unbound prior to VF LAG activation or deactivation\n"); } } return err; } static bool mlx5_lag_check_prereq(struct mlx5_lag *ldev) { if (!ldev->pf[MLX5_LAG_P1].dev || !ldev->pf[MLX5_LAG_P2].dev) return false; #ifdef CONFIG_MLX5_ESWITCH return mlx5_esw_lag_prereq(ldev->pf[MLX5_LAG_P1].dev, ldev->pf[MLX5_LAG_P2].dev); #else return (!mlx5_sriov_is_enabled(ldev->pf[MLX5_LAG_P1].dev) && !mlx5_sriov_is_enabled(ldev->pf[MLX5_LAG_P2].dev)); #endif } static void mlx5_lag_add_ib_devices(struct mlx5_lag *ldev) { int i; for (i = 0; i < MLX5_MAX_PORTS; i++) if (ldev->pf[i].dev) mlx5_add_dev_by_protocol(ldev->pf[i].dev, MLX5_INTERFACE_PROTOCOL_IB); } static void mlx5_lag_remove_ib_devices(struct mlx5_lag *ldev) { int i; for (i = 0; i < MLX5_MAX_PORTS; i++) if (ldev->pf[i].dev) mlx5_remove_dev_by_protocol(ldev->pf[i].dev, MLX5_INTERFACE_PROTOCOL_IB); } static void mlx5_do_bond(struct mlx5_lag *ldev) { struct mlx5_core_dev *dev0 = ldev->pf[MLX5_LAG_P1].dev; struct mlx5_core_dev *dev1 = ldev->pf[MLX5_LAG_P2].dev; struct lag_tracker tracker; bool do_bond, roce_lag; int err; if (!dev0 || !dev1) return; spin_lock(&lag_lock); tracker = ldev->tracker; spin_unlock(&lag_lock); do_bond = tracker.is_bonded && mlx5_lag_check_prereq(ldev); if (do_bond && !__mlx5_lag_is_active(ldev)) { roce_lag = !mlx5_sriov_is_enabled(dev0) && !mlx5_sriov_is_enabled(dev1); #ifdef CONFIG_MLX5_ESWITCH roce_lag &= dev0->priv.eswitch->mode == MLX5_ESWITCH_NONE && dev1->priv.eswitch->mode == MLX5_ESWITCH_NONE; #endif if (roce_lag) mlx5_lag_remove_ib_devices(ldev); err = mlx5_activate_lag(ldev, &tracker, roce_lag ? MLX5_LAG_FLAG_ROCE : MLX5_LAG_FLAG_SRIOV); if (err) { if (roce_lag) mlx5_lag_add_ib_devices(ldev); return; } if (roce_lag) { mlx5_add_dev_by_protocol(dev0, MLX5_INTERFACE_PROTOCOL_IB); mlx5_nic_vport_enable_roce(dev1); } } else if (do_bond && __mlx5_lag_is_active(ldev)) { mlx5_modify_lag(ldev, &tracker); } else if (!do_bond && __mlx5_lag_is_active(ldev)) { roce_lag = __mlx5_lag_is_roce(ldev); if (roce_lag) { mlx5_remove_dev_by_protocol(dev0, MLX5_INTERFACE_PROTOCOL_IB); mlx5_nic_vport_disable_roce(dev1); } err = mlx5_deactivate_lag(ldev); if (err) return; if (roce_lag) mlx5_lag_add_ib_devices(ldev); } } static void mlx5_queue_bond_work(struct mlx5_lag *ldev, unsigned long delay) { queue_delayed_work(ldev->wq, &ldev->bond_work, delay); } static void mlx5_do_bond_work(struct work_struct *work) { struct delayed_work *delayed_work = to_delayed_work(work); struct mlx5_lag *ldev = container_of(delayed_work, struct mlx5_lag, bond_work); int status; status = mlx5_dev_list_trylock(); if (!status) { /* 1 sec delay. */ mlx5_queue_bond_work(ldev, HZ); return; } mlx5_do_bond(ldev); mlx5_dev_list_unlock(); } static int mlx5_handle_changeupper_event(struct mlx5_lag *ldev, struct lag_tracker *tracker, struct net_device *ndev, struct netdev_notifier_changeupper_info *info) { struct net_device *upper = info->upper_dev, *ndev_tmp; struct netdev_lag_upper_info *lag_upper_info = NULL; bool is_bonded; int bond_status = 0; int num_slaves = 0; int idx; if (!netif_is_lag_master(upper)) return 0; if (info->linking) lag_upper_info = info->upper_info; /* The event may still be of interest if the slave does not belong to * us, but is enslaved to a master which has one or more of our netdevs * as slaves (e.g., if a new slave is added to a master that bonds two * of our netdevs, we should unbond). */ rcu_read_lock(); for_each_netdev_in_bond_rcu(upper, ndev_tmp) { idx = mlx5_lag_dev_get_netdev_idx(ldev, ndev_tmp); if (idx > -1) bond_status |= (1 << idx); num_slaves++; } rcu_read_unlock(); /* None of this lagdev's netdevs are slaves of this master. */ if (!(bond_status & 0x3)) return 0; if (lag_upper_info) tracker->tx_type = lag_upper_info->tx_type; /* Determine bonding status: * A device is considered bonded if both its physical ports are slaves * of the same lag master, and only them. * Lag mode must be activebackup or hash. */ is_bonded = (num_slaves == MLX5_MAX_PORTS) && (bond_status == 0x3) && ((tracker->tx_type == NETDEV_LAG_TX_TYPE_ACTIVEBACKUP) || (tracker->tx_type == NETDEV_LAG_TX_TYPE_HASH)); if (tracker->is_bonded != is_bonded) { tracker->is_bonded = is_bonded; return 1; } return 0; } static int mlx5_handle_changelowerstate_event(struct mlx5_lag *ldev, struct lag_tracker *tracker, struct net_device *ndev, struct netdev_notifier_changelowerstate_info *info) { struct netdev_lag_lower_state_info *lag_lower_info; int idx; if (!netif_is_lag_port(ndev)) return 0; idx = mlx5_lag_dev_get_netdev_idx(ldev, ndev); if (idx == -1) return 0; /* This information is used to determine virtual to physical * port mapping. */ lag_lower_info = info->lower_state_info; if (!lag_lower_info) return 0; tracker->netdev_state[idx] = *lag_lower_info; return 1; } static int mlx5_lag_netdev_event(struct notifier_block *this, unsigned long event, void *ptr) { struct net_device *ndev = netdev_notifier_info_to_dev(ptr); struct lag_tracker tracker; struct mlx5_lag *ldev; int changed = 0; if ((event != NETDEV_CHANGEUPPER) && (event != NETDEV_CHANGELOWERSTATE)) return NOTIFY_DONE; ldev = container_of(this, struct mlx5_lag, nb); tracker = ldev->tracker; switch (event) { case NETDEV_CHANGEUPPER: changed = mlx5_handle_changeupper_event(ldev, &tracker, ndev, ptr); break; case NETDEV_CHANGELOWERSTATE: changed = mlx5_handle_changelowerstate_event(ldev, &tracker, ndev, ptr); break; } spin_lock(&lag_lock); ldev->tracker = tracker; spin_unlock(&lag_lock); if (changed) mlx5_queue_bond_work(ldev, 0); return NOTIFY_DONE; } static struct mlx5_lag *mlx5_lag_dev_alloc(void) { struct mlx5_lag *ldev; ldev = kzalloc(sizeof(*ldev), GFP_KERNEL); if (!ldev) return NULL; ldev->wq = create_singlethread_workqueue("mlx5_lag"); if (!ldev->wq) { kfree(ldev); return NULL; } INIT_DELAYED_WORK(&ldev->bond_work, mlx5_do_bond_work); return ldev; } static void mlx5_lag_dev_free(struct mlx5_lag *ldev) { destroy_workqueue(ldev->wq); kfree(ldev); } static void mlx5_lag_dev_add_pf(struct mlx5_lag *ldev, struct mlx5_core_dev *dev, struct net_device *netdev) { unsigned int fn = PCI_FUNC(dev->pdev->devfn); if (fn >= MLX5_MAX_PORTS) return; spin_lock(&lag_lock); ldev->pf[fn].dev = dev; ldev->pf[fn].netdev = netdev; ldev->tracker.netdev_state[fn].link_up = 0; ldev->tracker.netdev_state[fn].tx_enabled = 0; dev->priv.lag = ldev; spin_unlock(&lag_lock); } static void mlx5_lag_dev_remove_pf(struct mlx5_lag *ldev, struct mlx5_core_dev *dev) { int i; for (i = 0; i < MLX5_MAX_PORTS; i++) if (ldev->pf[i].dev == dev) break; if (i == MLX5_MAX_PORTS) return; spin_lock(&lag_lock); memset(&ldev->pf[i], 0, sizeof(*ldev->pf)); dev->priv.lag = NULL; spin_unlock(&lag_lock); } /* Must be called with intf_mutex held */ void mlx5_lag_add(struct mlx5_core_dev *dev, struct net_device *netdev) { struct mlx5_lag *ldev = NULL; struct mlx5_core_dev *tmp_dev; int err; if (!MLX5_CAP_GEN(dev, vport_group_manager) || !MLX5_CAP_GEN(dev, lag_master) || (MLX5_CAP_GEN(dev, num_lag_ports) != MLX5_MAX_PORTS)) return; tmp_dev = mlx5_get_next_phys_dev(dev); if (tmp_dev) ldev = tmp_dev->priv.lag; if (!ldev) { ldev = mlx5_lag_dev_alloc(); if (!ldev) { mlx5_core_err(dev, "Failed to alloc lag dev\n"); return; } } mlx5_lag_dev_add_pf(ldev, dev, netdev); if (!ldev->nb.notifier_call) { ldev->nb.notifier_call = mlx5_lag_netdev_event; if (register_netdevice_notifier_net(&init_net, &ldev->nb)) { ldev->nb.notifier_call = NULL; mlx5_core_err(dev, "Failed to register LAG netdev notifier\n"); } } err = mlx5_lag_mp_init(ldev); if (err) mlx5_core_err(dev, "Failed to init multipath lag err=%d\n", err); } /* Must be called with intf_mutex held */ void mlx5_lag_remove(struct mlx5_core_dev *dev) { struct mlx5_lag *ldev; int i; ldev = mlx5_lag_dev_get(dev); if (!ldev) return; if (__mlx5_lag_is_active(ldev)) mlx5_deactivate_lag(ldev); mlx5_lag_dev_remove_pf(ldev, dev); for (i = 0; i < MLX5_MAX_PORTS; i++) if (ldev->pf[i].dev) break; if (i == MLX5_MAX_PORTS) { if (ldev->nb.notifier_call) { unregister_netdevice_notifier_net(&init_net, &ldev->nb); ldev->nb.notifier_call = NULL; } mlx5_lag_mp_cleanup(ldev); cancel_delayed_work_sync(&ldev->bond_work); mlx5_lag_dev_free(ldev); } } bool mlx5_lag_is_roce(struct mlx5_core_dev *dev) { struct mlx5_lag *ldev; bool res; spin_lock(&lag_lock); ldev = mlx5_lag_dev_get(dev); res = ldev && __mlx5_lag_is_roce(ldev); spin_unlock(&lag_lock); return res; } EXPORT_SYMBOL(mlx5_lag_is_roce); bool mlx5_lag_is_active(struct mlx5_core_dev *dev) { struct mlx5_lag *ldev; bool res; spin_lock(&lag_lock); ldev = mlx5_lag_dev_get(dev); res = ldev && __mlx5_lag_is_active(ldev); spin_unlock(&lag_lock); return res; } EXPORT_SYMBOL(mlx5_lag_is_active); bool mlx5_lag_is_sriov(struct mlx5_core_dev *dev) { struct mlx5_lag *ldev; bool res; spin_lock(&lag_lock); ldev = mlx5_lag_dev_get(dev); res = ldev && __mlx5_lag_is_sriov(ldev); spin_unlock(&lag_lock); return res; } EXPORT_SYMBOL(mlx5_lag_is_sriov); void mlx5_lag_update(struct mlx5_core_dev *dev) { struct mlx5_lag *ldev; mlx5_dev_list_lock(); ldev = mlx5_lag_dev_get(dev); if (!ldev) goto unlock; mlx5_do_bond(ldev); unlock: mlx5_dev_list_unlock(); } struct net_device *mlx5_lag_get_roce_netdev(struct mlx5_core_dev *dev) { struct net_device *ndev = NULL; struct mlx5_lag *ldev; spin_lock(&lag_lock); ldev = mlx5_lag_dev_get(dev); if (!(ldev && __mlx5_lag_is_roce(ldev))) goto unlock; if (ldev->tracker.tx_type == NETDEV_LAG_TX_TYPE_ACTIVEBACKUP) { ndev = ldev->tracker.netdev_state[MLX5_LAG_P1].tx_enabled ? ldev->pf[MLX5_LAG_P1].netdev : ldev->pf[MLX5_LAG_P2].netdev; } else { ndev = ldev->pf[MLX5_LAG_P1].netdev; } if (ndev) dev_hold(ndev); unlock: spin_unlock(&lag_lock); return ndev; } EXPORT_SYMBOL(mlx5_lag_get_roce_netdev); u8 mlx5_lag_get_slave_port(struct mlx5_core_dev *dev, struct net_device *slave) { struct mlx5_lag *ldev; u8 port = 0; spin_lock(&lag_lock); ldev = mlx5_lag_dev_get(dev); if (!(ldev && __mlx5_lag_is_roce(ldev))) goto unlock; if (ldev->pf[MLX5_LAG_P1].netdev == slave) port = MLX5_LAG_P1; else port = MLX5_LAG_P2; port = ldev->v2p_map[port]; unlock: spin_unlock(&lag_lock); return port; } EXPORT_SYMBOL(mlx5_lag_get_slave_port); bool mlx5_lag_intf_add(struct mlx5_interface *intf, struct mlx5_priv *priv) { struct mlx5_core_dev *dev = container_of(priv, struct mlx5_core_dev, priv); struct mlx5_lag *ldev; if (intf->protocol != MLX5_INTERFACE_PROTOCOL_IB) return true; ldev = mlx5_lag_dev_get(dev); if (!ldev || !__mlx5_lag_is_roce(ldev) || ldev->pf[MLX5_LAG_P1].dev == dev) return true; /* If bonded, we do not add an IB device for PF1. */ return false; } int mlx5_lag_query_cong_counters(struct mlx5_core_dev *dev, u64 *values, int num_counters, size_t *offsets) { int outlen = MLX5_ST_SZ_BYTES(query_cong_statistics_out); struct mlx5_core_dev *mdev[MLX5_MAX_PORTS]; struct mlx5_lag *ldev; int num_ports; int ret, i, j; void *out; out = kvzalloc(outlen, GFP_KERNEL); if (!out) return -ENOMEM; memset(values, 0, sizeof(*values) * num_counters); spin_lock(&lag_lock); ldev = mlx5_lag_dev_get(dev); if (ldev && __mlx5_lag_is_roce(ldev)) { num_ports = MLX5_MAX_PORTS; mdev[MLX5_LAG_P1] = ldev->pf[MLX5_LAG_P1].dev; mdev[MLX5_LAG_P2] = ldev->pf[MLX5_LAG_P2].dev; } else { num_ports = 1; mdev[MLX5_LAG_P1] = dev; } spin_unlock(&lag_lock); for (i = 0; i < num_ports; ++i) { u32 in[MLX5_ST_SZ_DW(query_cong_statistics_in)] = {}; MLX5_SET(query_cong_statistics_in, in, opcode, MLX5_CMD_OP_QUERY_CONG_STATISTICS); ret = mlx5_cmd_exec_inout(mdev[i], query_cong_statistics, in, out); if (ret) goto free; for (j = 0; j < num_counters; ++j) values[j] += be64_to_cpup((__be64 *)(out + offsets[j])); } free: kvfree(out); return ret; } EXPORT_SYMBOL(mlx5_lag_query_cong_counters);
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