Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Parav Pandit | 1388 | 78.11% | 6 | 75.00% |
Shay Drory | 389 | 21.89% | 2 | 25.00% |
Total | 1777 | 8 |
// SPDX-License-Identifier: GPL-2.0 OR Linux-OpenIB /* Copyright (c) 2020 Mellanox Technologies Ltd */ #include <linux/mlx5/driver.h> #include <linux/mlx5/device.h> #include "mlx5_core.h" #include "dev.h" #include "sf/vhca_event.h" #include "sf/sf.h" #include "sf/mlx5_ifc_vhca_event.h" #include "ecpf.h" #define CREATE_TRACE_POINTS #include "diag/dev_tracepoint.h" struct mlx5_sf_dev_table { struct xarray devices; unsigned int max_sfs; phys_addr_t base_address; u64 sf_bar_length; struct notifier_block nb; struct mutex table_lock; /* Serializes sf life cycle and vhca state change handler */ struct workqueue_struct *active_wq; struct work_struct work; u8 stop_active_wq:1; struct mlx5_core_dev *dev; }; static bool mlx5_sf_dev_supported(const struct mlx5_core_dev *dev) { return MLX5_CAP_GEN(dev, sf) && mlx5_vhca_event_supported(dev); } bool mlx5_sf_dev_allocated(const struct mlx5_core_dev *dev) { struct mlx5_sf_dev_table *table = dev->priv.sf_dev_table; return table && !xa_empty(&table->devices); } static ssize_t sfnum_show(struct device *dev, struct device_attribute *attr, char *buf) { struct auxiliary_device *adev = container_of(dev, struct auxiliary_device, dev); struct mlx5_sf_dev *sf_dev = container_of(adev, struct mlx5_sf_dev, adev); return sysfs_emit(buf, "%u\n", sf_dev->sfnum); } static DEVICE_ATTR_RO(sfnum); static struct attribute *sf_device_attrs[] = { &dev_attr_sfnum.attr, NULL, }; static const struct attribute_group sf_attr_group = { .attrs = sf_device_attrs, }; static const struct attribute_group *sf_attr_groups[2] = { &sf_attr_group, NULL }; static void mlx5_sf_dev_release(struct device *device) { struct auxiliary_device *adev = container_of(device, struct auxiliary_device, dev); struct mlx5_sf_dev *sf_dev = container_of(adev, struct mlx5_sf_dev, adev); mlx5_adev_idx_free(adev->id); kfree(sf_dev); } static void mlx5_sf_dev_remove(struct mlx5_core_dev *dev, struct mlx5_sf_dev *sf_dev) { int id; id = sf_dev->adev.id; trace_mlx5_sf_dev_del(dev, sf_dev, id); auxiliary_device_delete(&sf_dev->adev); auxiliary_device_uninit(&sf_dev->adev); } static void mlx5_sf_dev_add(struct mlx5_core_dev *dev, u16 sf_index, u16 fn_id, u32 sfnum) { struct mlx5_sf_dev_table *table = dev->priv.sf_dev_table; struct mlx5_sf_dev *sf_dev; struct pci_dev *pdev; int err; int id; id = mlx5_adev_idx_alloc(); if (id < 0) { err = id; goto add_err; } sf_dev = kzalloc(sizeof(*sf_dev), GFP_KERNEL); if (!sf_dev) { mlx5_adev_idx_free(id); err = -ENOMEM; goto add_err; } pdev = dev->pdev; sf_dev->adev.id = id; sf_dev->adev.name = MLX5_SF_DEV_ID_NAME; sf_dev->adev.dev.release = mlx5_sf_dev_release; sf_dev->adev.dev.parent = &pdev->dev; sf_dev->adev.dev.groups = sf_attr_groups; sf_dev->sfnum = sfnum; sf_dev->parent_mdev = dev; sf_dev->fn_id = fn_id; if (!table->max_sfs) { mlx5_adev_idx_free(id); kfree(sf_dev); err = -EOPNOTSUPP; goto add_err; } sf_dev->bar_base_addr = table->base_address + (sf_index * table->sf_bar_length); trace_mlx5_sf_dev_add(dev, sf_dev, id); err = auxiliary_device_init(&sf_dev->adev); if (err) { mlx5_adev_idx_free(id); kfree(sf_dev); goto add_err; } err = auxiliary_device_add(&sf_dev->adev); if (err) { put_device(&sf_dev->adev.dev); goto add_err; } err = xa_insert(&table->devices, sf_index, sf_dev, GFP_KERNEL); if (err) goto xa_err; return; xa_err: mlx5_sf_dev_remove(dev, sf_dev); add_err: mlx5_core_err(dev, "SF DEV: fail device add for index=%d sfnum=%d err=%d\n", sf_index, sfnum, err); } static void mlx5_sf_dev_del(struct mlx5_core_dev *dev, struct mlx5_sf_dev *sf_dev, u16 sf_index) { struct mlx5_sf_dev_table *table = dev->priv.sf_dev_table; xa_erase(&table->devices, sf_index); mlx5_sf_dev_remove(dev, sf_dev); } static int mlx5_sf_dev_state_change_handler(struct notifier_block *nb, unsigned long event_code, void *data) { struct mlx5_sf_dev_table *table = container_of(nb, struct mlx5_sf_dev_table, nb); const struct mlx5_vhca_state_event *event = data; struct mlx5_sf_dev *sf_dev; u16 max_functions; u16 sf_index; u16 base_id; max_functions = mlx5_sf_max_functions(table->dev); if (!max_functions) return 0; base_id = MLX5_CAP_GEN(table->dev, sf_base_id); if (event->function_id < base_id || event->function_id >= (base_id + max_functions)) return 0; sf_index = event->function_id - base_id; mutex_lock(&table->table_lock); sf_dev = xa_load(&table->devices, sf_index); switch (event->new_vhca_state) { case MLX5_VHCA_STATE_INVALID: case MLX5_VHCA_STATE_ALLOCATED: if (sf_dev) mlx5_sf_dev_del(table->dev, sf_dev, sf_index); break; case MLX5_VHCA_STATE_TEARDOWN_REQUEST: if (sf_dev) mlx5_sf_dev_del(table->dev, sf_dev, sf_index); else mlx5_core_err(table->dev, "SF DEV: teardown state for invalid dev index=%d fn_id=0x%x\n", sf_index, event->sw_function_id); break; case MLX5_VHCA_STATE_ACTIVE: if (!sf_dev) mlx5_sf_dev_add(table->dev, sf_index, event->function_id, event->sw_function_id); break; default: break; } mutex_unlock(&table->table_lock); return 0; } static int mlx5_sf_dev_vhca_arm_all(struct mlx5_sf_dev_table *table) { struct mlx5_core_dev *dev = table->dev; u16 max_functions; u16 function_id; int err = 0; int i; max_functions = mlx5_sf_max_functions(dev); function_id = MLX5_CAP_GEN(dev, sf_base_id); /* Arm the vhca context as the vhca event notifier */ for (i = 0; i < max_functions; i++) { err = mlx5_vhca_event_arm(dev, function_id); if (err) return err; function_id++; } return 0; } static void mlx5_sf_dev_add_active_work(struct work_struct *work) { struct mlx5_sf_dev_table *table = container_of(work, struct mlx5_sf_dev_table, work); u32 out[MLX5_ST_SZ_DW(query_vhca_state_out)] = {}; struct mlx5_core_dev *dev = table->dev; u16 max_functions; u16 function_id; u16 sw_func_id; int err = 0; u8 state; int i; max_functions = mlx5_sf_max_functions(dev); function_id = MLX5_CAP_GEN(dev, sf_base_id); for (i = 0; i < max_functions; i++, function_id++) { if (table->stop_active_wq) return; err = mlx5_cmd_query_vhca_state(dev, function_id, out, sizeof(out)); if (err) /* A failure of specific vhca doesn't mean others will * fail as well. */ continue; state = MLX5_GET(query_vhca_state_out, out, vhca_state_context.vhca_state); if (state != MLX5_VHCA_STATE_ACTIVE) continue; sw_func_id = MLX5_GET(query_vhca_state_out, out, vhca_state_context.sw_function_id); mutex_lock(&table->table_lock); /* Don't probe device which is already probe */ if (!xa_load(&table->devices, i)) mlx5_sf_dev_add(dev, i, function_id, sw_func_id); /* There is a race where SF got inactive after the query * above. e.g.: the query returns that the state of the * SF is active, and after that the eswitch manager set it to * inactive. * This case cannot be managed in SW, since the probing of the * SF is on one system, and the inactivation is on a different * system. * If the inactive is done after the SF perform init_hca(), * the SF will fully probe and then removed. If it was * done before init_hca(), the SF probe will fail. */ mutex_unlock(&table->table_lock); } } /* In case SFs are generated externally, probe active SFs */ static int mlx5_sf_dev_queue_active_work(struct mlx5_sf_dev_table *table) { if (MLX5_CAP_GEN(table->dev, eswitch_manager)) return 0; /* the table is local */ /* Use a workqueue to probe active SFs, which are in large * quantity and may take up to minutes to probe. */ table->active_wq = create_singlethread_workqueue("mlx5_active_sf"); if (!table->active_wq) return -ENOMEM; INIT_WORK(&table->work, &mlx5_sf_dev_add_active_work); queue_work(table->active_wq, &table->work); return 0; } static void mlx5_sf_dev_destroy_active_work(struct mlx5_sf_dev_table *table) { if (table->active_wq) { table->stop_active_wq = true; destroy_workqueue(table->active_wq); } } void mlx5_sf_dev_table_create(struct mlx5_core_dev *dev) { struct mlx5_sf_dev_table *table; unsigned int max_sfs; int err; if (!mlx5_sf_dev_supported(dev) || !mlx5_vhca_event_supported(dev)) return; table = kzalloc(sizeof(*table), GFP_KERNEL); if (!table) { err = -ENOMEM; goto table_err; } table->nb.notifier_call = mlx5_sf_dev_state_change_handler; table->dev = dev; if (MLX5_CAP_GEN(dev, max_num_sf)) max_sfs = MLX5_CAP_GEN(dev, max_num_sf); else max_sfs = 1 << MLX5_CAP_GEN(dev, log_max_sf); table->sf_bar_length = 1 << (MLX5_CAP_GEN(dev, log_min_sf_size) + 12); table->base_address = pci_resource_start(dev->pdev, 2); table->max_sfs = max_sfs; xa_init(&table->devices); mutex_init(&table->table_lock); dev->priv.sf_dev_table = table; err = mlx5_vhca_event_notifier_register(dev, &table->nb); if (err) goto vhca_err; err = mlx5_sf_dev_queue_active_work(table); if (err) goto add_active_err; err = mlx5_sf_dev_vhca_arm_all(table); if (err) goto arm_err; mlx5_core_dbg(dev, "SF DEV: max sf devices=%d\n", max_sfs); return; arm_err: mlx5_sf_dev_destroy_active_work(table); add_active_err: mlx5_vhca_event_notifier_unregister(dev, &table->nb); vhca_err: table->max_sfs = 0; kfree(table); dev->priv.sf_dev_table = NULL; table_err: mlx5_core_err(dev, "SF DEV table create err = %d\n", err); } static void mlx5_sf_dev_destroy_all(struct mlx5_sf_dev_table *table) { struct mlx5_sf_dev *sf_dev; unsigned long index; xa_for_each(&table->devices, index, sf_dev) { xa_erase(&table->devices, index); mlx5_sf_dev_remove(table->dev, sf_dev); } } void mlx5_sf_dev_table_destroy(struct mlx5_core_dev *dev) { struct mlx5_sf_dev_table *table = dev->priv.sf_dev_table; if (!table) return; mlx5_sf_dev_destroy_active_work(table); mlx5_vhca_event_notifier_unregister(dev, &table->nb); mutex_destroy(&table->table_lock); /* Now that event handler is not running, it is safe to destroy * the sf device without race. */ mlx5_sf_dev_destroy_all(table); WARN_ON(!xa_empty(&table->devices)); kfree(table); dev->priv.sf_dev_table = NULL; }
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