Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Yevgeny Petrilin | 766 | 41.09% | 1 | 6.25% |
Yishai Hadas | 312 | 16.74% | 1 | 6.25% |
Mohamad Haj Yahia | 252 | 13.52% | 1 | 6.25% |
Parav Pandit | 190 | 10.19% | 5 | 31.25% |
Eli Cohen | 144 | 7.73% | 1 | 6.25% |
Bodong Wang | 140 | 7.51% | 1 | 6.25% |
Majd Dibbiny | 26 | 1.39% | 1 | 6.25% |
Leon Romanovsky | 14 | 0.75% | 1 | 6.25% |
Saeed Mahameed | 9 | 0.48% | 2 | 12.50% |
Eran Ben Elisha | 9 | 0.48% | 1 | 6.25% |
Joe Perches | 2 | 0.11% | 1 | 6.25% |
Total | 1864 | 16 |
/* * Copyright (c) 2013-2016, 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/kernel.h> #include <linux/mlx5/driver.h> #include "mlx5_core.h" /* Scheduling element fw management */ int mlx5_create_scheduling_element_cmd(struct mlx5_core_dev *dev, u8 hierarchy, void *ctx, u32 *element_id) { u32 out[MLX5_ST_SZ_DW(create_scheduling_element_in)] = {}; u32 in[MLX5_ST_SZ_DW(create_scheduling_element_in)] = {}; void *schedc; int err; schedc = MLX5_ADDR_OF(create_scheduling_element_in, in, scheduling_context); MLX5_SET(create_scheduling_element_in, in, opcode, MLX5_CMD_OP_CREATE_SCHEDULING_ELEMENT); MLX5_SET(create_scheduling_element_in, in, scheduling_hierarchy, hierarchy); memcpy(schedc, ctx, MLX5_ST_SZ_BYTES(scheduling_context)); err = mlx5_cmd_exec_inout(dev, create_scheduling_element, in, out); if (err) return err; *element_id = MLX5_GET(create_scheduling_element_out, out, scheduling_element_id); return 0; } int mlx5_modify_scheduling_element_cmd(struct mlx5_core_dev *dev, u8 hierarchy, void *ctx, u32 element_id, u32 modify_bitmask) { u32 in[MLX5_ST_SZ_DW(modify_scheduling_element_in)] = {}; void *schedc; schedc = MLX5_ADDR_OF(modify_scheduling_element_in, in, scheduling_context); MLX5_SET(modify_scheduling_element_in, in, opcode, MLX5_CMD_OP_MODIFY_SCHEDULING_ELEMENT); MLX5_SET(modify_scheduling_element_in, in, scheduling_element_id, element_id); MLX5_SET(modify_scheduling_element_in, in, modify_bitmask, modify_bitmask); MLX5_SET(modify_scheduling_element_in, in, scheduling_hierarchy, hierarchy); memcpy(schedc, ctx, MLX5_ST_SZ_BYTES(scheduling_context)); return mlx5_cmd_exec_in(dev, modify_scheduling_element, in); } int mlx5_destroy_scheduling_element_cmd(struct mlx5_core_dev *dev, u8 hierarchy, u32 element_id) { u32 in[MLX5_ST_SZ_DW(destroy_scheduling_element_in)] = {}; MLX5_SET(destroy_scheduling_element_in, in, opcode, MLX5_CMD_OP_DESTROY_SCHEDULING_ELEMENT); MLX5_SET(destroy_scheduling_element_in, in, scheduling_element_id, element_id); MLX5_SET(destroy_scheduling_element_in, in, scheduling_hierarchy, hierarchy); return mlx5_cmd_exec_in(dev, destroy_scheduling_element, in); } static bool mlx5_rl_are_equal_raw(struct mlx5_rl_entry *entry, void *rl_in, u16 uid) { return (!memcmp(entry->rl_raw, rl_in, sizeof(entry->rl_raw)) && entry->uid == uid); } /* Finds an entry where we can register the given rate * If the rate already exists, return the entry where it is registered, * otherwise return the first available entry. * If the table is full, return NULL */ static struct mlx5_rl_entry *find_rl_entry(struct mlx5_rl_table *table, void *rl_in, u16 uid, bool dedicated) { struct mlx5_rl_entry *ret_entry = NULL; bool empty_found = false; int i; lockdep_assert_held(&table->rl_lock); WARN_ON(!table->rl_entry); for (i = 0; i < table->max_size; i++) { if (dedicated) { if (!table->rl_entry[i].refcount) return &table->rl_entry[i]; continue; } if (table->rl_entry[i].refcount) { if (table->rl_entry[i].dedicated) continue; if (mlx5_rl_are_equal_raw(&table->rl_entry[i], rl_in, uid)) return &table->rl_entry[i]; } else if (!empty_found) { empty_found = true; ret_entry = &table->rl_entry[i]; } } return ret_entry; } static int mlx5_set_pp_rate_limit_cmd(struct mlx5_core_dev *dev, struct mlx5_rl_entry *entry, bool set) { u32 in[MLX5_ST_SZ_DW(set_pp_rate_limit_in)] = {}; void *pp_context; pp_context = MLX5_ADDR_OF(set_pp_rate_limit_in, in, ctx); MLX5_SET(set_pp_rate_limit_in, in, opcode, MLX5_CMD_OP_SET_PP_RATE_LIMIT); MLX5_SET(set_pp_rate_limit_in, in, uid, entry->uid); MLX5_SET(set_pp_rate_limit_in, in, rate_limit_index, entry->index); if (set) memcpy(pp_context, entry->rl_raw, sizeof(entry->rl_raw)); return mlx5_cmd_exec_in(dev, set_pp_rate_limit, in); } bool mlx5_rl_is_in_range(struct mlx5_core_dev *dev, u32 rate) { struct mlx5_rl_table *table = &dev->priv.rl_table; return (rate <= table->max_rate && rate >= table->min_rate); } EXPORT_SYMBOL(mlx5_rl_is_in_range); bool mlx5_rl_are_equal(struct mlx5_rate_limit *rl_0, struct mlx5_rate_limit *rl_1) { return ((rl_0->rate == rl_1->rate) && (rl_0->max_burst_sz == rl_1->max_burst_sz) && (rl_0->typical_pkt_sz == rl_1->typical_pkt_sz)); } EXPORT_SYMBOL(mlx5_rl_are_equal); static int mlx5_rl_table_get(struct mlx5_rl_table *table) { int i; lockdep_assert_held(&table->rl_lock); if (table->rl_entry) { table->refcount++; return 0; } table->rl_entry = kcalloc(table->max_size, sizeof(struct mlx5_rl_entry), GFP_KERNEL); if (!table->rl_entry) return -ENOMEM; /* The index represents the index in HW rate limit table * Index 0 is reserved for unlimited rate */ for (i = 0; i < table->max_size; i++) table->rl_entry[i].index = i + 1; table->refcount++; return 0; } static void mlx5_rl_table_put(struct mlx5_rl_table *table) { lockdep_assert_held(&table->rl_lock); if (--table->refcount) return; kfree(table->rl_entry); table->rl_entry = NULL; } static void mlx5_rl_table_free(struct mlx5_core_dev *dev, struct mlx5_rl_table *table) { int i; if (!table->rl_entry) return; /* Clear all configured rates */ for (i = 0; i < table->max_size; i++) if (table->rl_entry[i].refcount) mlx5_set_pp_rate_limit_cmd(dev, &table->rl_entry[i], false); kfree(table->rl_entry); } static void mlx5_rl_entry_get(struct mlx5_rl_entry *entry) { entry->refcount++; } static void mlx5_rl_entry_put(struct mlx5_core_dev *dev, struct mlx5_rl_entry *entry) { entry->refcount--; if (!entry->refcount) mlx5_set_pp_rate_limit_cmd(dev, entry, false); } int mlx5_rl_add_rate_raw(struct mlx5_core_dev *dev, void *rl_in, u16 uid, bool dedicated_entry, u16 *index) { struct mlx5_rl_table *table = &dev->priv.rl_table; struct mlx5_rl_entry *entry; u32 rate; int err; if (!table->max_size) return -EOPNOTSUPP; rate = MLX5_GET(set_pp_rate_limit_context, rl_in, rate_limit); if (!rate || !mlx5_rl_is_in_range(dev, rate)) { mlx5_core_err(dev, "Invalid rate: %u, should be %u to %u\n", rate, table->min_rate, table->max_rate); return -EINVAL; } mutex_lock(&table->rl_lock); err = mlx5_rl_table_get(table); if (err) goto out; entry = find_rl_entry(table, rl_in, uid, dedicated_entry); if (!entry) { mlx5_core_err(dev, "Max number of %u rates reached\n", table->max_size); err = -ENOSPC; goto rl_err; } if (!entry->refcount) { /* new rate limit */ memcpy(entry->rl_raw, rl_in, sizeof(entry->rl_raw)); entry->uid = uid; err = mlx5_set_pp_rate_limit_cmd(dev, entry, true); if (err) { mlx5_core_err( dev, "Failed configuring rate limit(err %d): rate %u, max_burst_sz %u, typical_pkt_sz %u\n", err, rate, MLX5_GET(set_pp_rate_limit_context, rl_in, burst_upper_bound), MLX5_GET(set_pp_rate_limit_context, rl_in, typical_packet_size)); goto rl_err; } entry->dedicated = dedicated_entry; } mlx5_rl_entry_get(entry); *index = entry->index; mutex_unlock(&table->rl_lock); return 0; rl_err: mlx5_rl_table_put(table); out: mutex_unlock(&table->rl_lock); return err; } EXPORT_SYMBOL(mlx5_rl_add_rate_raw); void mlx5_rl_remove_rate_raw(struct mlx5_core_dev *dev, u16 index) { struct mlx5_rl_table *table = &dev->priv.rl_table; struct mlx5_rl_entry *entry; mutex_lock(&table->rl_lock); entry = &table->rl_entry[index - 1]; mlx5_rl_entry_put(dev, entry); mlx5_rl_table_put(table); mutex_unlock(&table->rl_lock); } EXPORT_SYMBOL(mlx5_rl_remove_rate_raw); int mlx5_rl_add_rate(struct mlx5_core_dev *dev, u16 *index, struct mlx5_rate_limit *rl) { u8 rl_raw[MLX5_ST_SZ_BYTES(set_pp_rate_limit_context)] = {}; MLX5_SET(set_pp_rate_limit_context, rl_raw, rate_limit, rl->rate); MLX5_SET(set_pp_rate_limit_context, rl_raw, burst_upper_bound, rl->max_burst_sz); MLX5_SET(set_pp_rate_limit_context, rl_raw, typical_packet_size, rl->typical_pkt_sz); return mlx5_rl_add_rate_raw(dev, rl_raw, MLX5_CAP_QOS(dev, packet_pacing_uid) ? MLX5_SHARED_RESOURCE_UID : 0, false, index); } EXPORT_SYMBOL(mlx5_rl_add_rate); void mlx5_rl_remove_rate(struct mlx5_core_dev *dev, struct mlx5_rate_limit *rl) { u8 rl_raw[MLX5_ST_SZ_BYTES(set_pp_rate_limit_context)] = {}; struct mlx5_rl_table *table = &dev->priv.rl_table; struct mlx5_rl_entry *entry = NULL; /* 0 is a reserved value for unlimited rate */ if (rl->rate == 0) return; MLX5_SET(set_pp_rate_limit_context, rl_raw, rate_limit, rl->rate); MLX5_SET(set_pp_rate_limit_context, rl_raw, burst_upper_bound, rl->max_burst_sz); MLX5_SET(set_pp_rate_limit_context, rl_raw, typical_packet_size, rl->typical_pkt_sz); mutex_lock(&table->rl_lock); entry = find_rl_entry(table, rl_raw, MLX5_CAP_QOS(dev, packet_pacing_uid) ? MLX5_SHARED_RESOURCE_UID : 0, false); if (!entry || !entry->refcount) { mlx5_core_warn(dev, "Rate %u, max_burst_sz %u typical_pkt_sz %u are not configured\n", rl->rate, rl->max_burst_sz, rl->typical_pkt_sz); goto out; } mlx5_rl_entry_put(dev, entry); mlx5_rl_table_put(table); out: mutex_unlock(&table->rl_lock); } EXPORT_SYMBOL(mlx5_rl_remove_rate); int mlx5_init_rl_table(struct mlx5_core_dev *dev) { struct mlx5_rl_table *table = &dev->priv.rl_table; if (!MLX5_CAP_GEN(dev, qos) || !MLX5_CAP_QOS(dev, packet_pacing)) { table->max_size = 0; return 0; } mutex_init(&table->rl_lock); /* First entry is reserved for unlimited rate */ table->max_size = MLX5_CAP_QOS(dev, packet_pacing_rate_table_size) - 1; table->max_rate = MLX5_CAP_QOS(dev, packet_pacing_max_rate); table->min_rate = MLX5_CAP_QOS(dev, packet_pacing_min_rate); mlx5_core_info(dev, "Rate limit: %u rates are supported, range: %uMbps to %uMbps\n", table->max_size, table->min_rate >> 10, table->max_rate >> 10); return 0; } void mlx5_cleanup_rl_table(struct mlx5_core_dev *dev) { struct mlx5_rl_table *table = &dev->priv.rl_table; if (!MLX5_CAP_GEN(dev, qos) || !MLX5_CAP_QOS(dev, packet_pacing)) return; mlx5_rl_table_free(dev, table); mutex_destroy(&table->rl_lock); }
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