Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Johan Hovold | 2581 | 73.53% | 63 | 57.27% |
Alex Elder | 327 | 9.32% | 17 | 15.45% |
Viresh Kumar | 255 | 7.26% | 16 | 14.55% |
Bryan O'Donoghue | 136 | 3.87% | 1 | 0.91% |
Fabien Parent | 111 | 3.16% | 1 | 0.91% |
Greg Kroah-Hartman | 57 | 1.62% | 8 | 7.27% |
Jason Hrycay | 24 | 0.68% | 1 | 0.91% |
Marti Bolivar | 9 | 0.26% | 1 | 0.91% |
Vaibhav Hiremath | 5 | 0.14% | 1 | 0.91% |
Matt Porter | 5 | 0.14% | 1 | 0.91% |
Total | 3510 | 110 |
// SPDX-License-Identifier: GPL-2.0 /* * Greybus connections * * Copyright 2014 Google Inc. * Copyright 2014 Linaro Ltd. */ #include <linux/workqueue.h> #include <linux/greybus.h> #include "greybus_trace.h" #define GB_CONNECTION_CPORT_QUIESCE_TIMEOUT 1000 static void gb_connection_kref_release(struct kref *kref); static DEFINE_SPINLOCK(gb_connections_lock); static DEFINE_MUTEX(gb_connection_mutex); /* Caller holds gb_connection_mutex. */ static bool gb_connection_cport_in_use(struct gb_interface *intf, u16 cport_id) { struct gb_host_device *hd = intf->hd; struct gb_connection *connection; list_for_each_entry(connection, &hd->connections, hd_links) { if (connection->intf == intf && connection->intf_cport_id == cport_id) return true; } return false; } static void gb_connection_get(struct gb_connection *connection) { kref_get(&connection->kref); trace_gb_connection_get(connection); } static void gb_connection_put(struct gb_connection *connection) { trace_gb_connection_put(connection); kref_put(&connection->kref, gb_connection_kref_release); } /* * Returns a reference-counted pointer to the connection if found. */ static struct gb_connection * gb_connection_hd_find(struct gb_host_device *hd, u16 cport_id) { struct gb_connection *connection; unsigned long flags; spin_lock_irqsave(&gb_connections_lock, flags); list_for_each_entry(connection, &hd->connections, hd_links) if (connection->hd_cport_id == cport_id) { gb_connection_get(connection); goto found; } connection = NULL; found: spin_unlock_irqrestore(&gb_connections_lock, flags); return connection; } /* * Callback from the host driver to let us know that data has been * received on the bundle. */ void greybus_data_rcvd(struct gb_host_device *hd, u16 cport_id, u8 *data, size_t length) { struct gb_connection *connection; trace_gb_hd_in(hd); connection = gb_connection_hd_find(hd, cport_id); if (!connection) { dev_err(&hd->dev, "nonexistent connection (%zu bytes dropped)\n", length); return; } gb_connection_recv(connection, data, length); gb_connection_put(connection); } EXPORT_SYMBOL_GPL(greybus_data_rcvd); static void gb_connection_kref_release(struct kref *kref) { struct gb_connection *connection; connection = container_of(kref, struct gb_connection, kref); trace_gb_connection_release(connection); kfree(connection); } static void gb_connection_init_name(struct gb_connection *connection) { u16 hd_cport_id = connection->hd_cport_id; u16 cport_id = 0; u8 intf_id = 0; if (connection->intf) { intf_id = connection->intf->interface_id; cport_id = connection->intf_cport_id; } snprintf(connection->name, sizeof(connection->name), "%u/%u:%u", hd_cport_id, intf_id, cport_id); } /* * _gb_connection_create() - create a Greybus connection * @hd: host device of the connection * @hd_cport_id: host-device cport id, or -1 for dynamic allocation * @intf: remote interface, or NULL for static connections * @bundle: remote-interface bundle (may be NULL) * @cport_id: remote-interface cport id, or 0 for static connections * @handler: request handler (may be NULL) * @flags: connection flags * * Create a Greybus connection, representing the bidirectional link * between a CPort on a (local) Greybus host device and a CPort on * another Greybus interface. * * A connection also maintains the state of operations sent over the * connection. * * Serialised against concurrent create and destroy using the * gb_connection_mutex. * * Return: A pointer to the new connection if successful, or an ERR_PTR * otherwise. */ static struct gb_connection * _gb_connection_create(struct gb_host_device *hd, int hd_cport_id, struct gb_interface *intf, struct gb_bundle *bundle, int cport_id, gb_request_handler_t handler, unsigned long flags) { struct gb_connection *connection; int ret; mutex_lock(&gb_connection_mutex); if (intf && gb_connection_cport_in_use(intf, cport_id)) { dev_err(&intf->dev, "cport %u already in use\n", cport_id); ret = -EBUSY; goto err_unlock; } ret = gb_hd_cport_allocate(hd, hd_cport_id, flags); if (ret < 0) { dev_err(&hd->dev, "failed to allocate cport: %d\n", ret); goto err_unlock; } hd_cport_id = ret; connection = kzalloc(sizeof(*connection), GFP_KERNEL); if (!connection) { ret = -ENOMEM; goto err_hd_cport_release; } connection->hd_cport_id = hd_cport_id; connection->intf_cport_id = cport_id; connection->hd = hd; connection->intf = intf; connection->bundle = bundle; connection->handler = handler; connection->flags = flags; if (intf && (intf->quirks & GB_INTERFACE_QUIRK_NO_CPORT_FEATURES)) connection->flags |= GB_CONNECTION_FLAG_NO_FLOWCTRL; connection->state = GB_CONNECTION_STATE_DISABLED; atomic_set(&connection->op_cycle, 0); mutex_init(&connection->mutex); spin_lock_init(&connection->lock); INIT_LIST_HEAD(&connection->operations); connection->wq = alloc_workqueue("%s:%d", WQ_UNBOUND, 1, dev_name(&hd->dev), hd_cport_id); if (!connection->wq) { ret = -ENOMEM; goto err_free_connection; } kref_init(&connection->kref); gb_connection_init_name(connection); spin_lock_irq(&gb_connections_lock); list_add(&connection->hd_links, &hd->connections); if (bundle) list_add(&connection->bundle_links, &bundle->connections); else INIT_LIST_HEAD(&connection->bundle_links); spin_unlock_irq(&gb_connections_lock); mutex_unlock(&gb_connection_mutex); trace_gb_connection_create(connection); return connection; err_free_connection: kfree(connection); err_hd_cport_release: gb_hd_cport_release(hd, hd_cport_id); err_unlock: mutex_unlock(&gb_connection_mutex); return ERR_PTR(ret); } struct gb_connection * gb_connection_create_static(struct gb_host_device *hd, u16 hd_cport_id, gb_request_handler_t handler) { return _gb_connection_create(hd, hd_cport_id, NULL, NULL, 0, handler, GB_CONNECTION_FLAG_HIGH_PRIO); } struct gb_connection * gb_connection_create_control(struct gb_interface *intf) { return _gb_connection_create(intf->hd, -1, intf, NULL, 0, NULL, GB_CONNECTION_FLAG_CONTROL | GB_CONNECTION_FLAG_HIGH_PRIO); } struct gb_connection * gb_connection_create(struct gb_bundle *bundle, u16 cport_id, gb_request_handler_t handler) { struct gb_interface *intf = bundle->intf; return _gb_connection_create(intf->hd, -1, intf, bundle, cport_id, handler, 0); } EXPORT_SYMBOL_GPL(gb_connection_create); struct gb_connection * gb_connection_create_flags(struct gb_bundle *bundle, u16 cport_id, gb_request_handler_t handler, unsigned long flags) { struct gb_interface *intf = bundle->intf; if (WARN_ON_ONCE(flags & GB_CONNECTION_FLAG_CORE_MASK)) flags &= ~GB_CONNECTION_FLAG_CORE_MASK; return _gb_connection_create(intf->hd, -1, intf, bundle, cport_id, handler, flags); } EXPORT_SYMBOL_GPL(gb_connection_create_flags); struct gb_connection * gb_connection_create_offloaded(struct gb_bundle *bundle, u16 cport_id, unsigned long flags) { flags |= GB_CONNECTION_FLAG_OFFLOADED; return gb_connection_create_flags(bundle, cport_id, NULL, flags); } EXPORT_SYMBOL_GPL(gb_connection_create_offloaded); static int gb_connection_hd_cport_enable(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; int ret; if (!hd->driver->cport_enable) return 0; ret = hd->driver->cport_enable(hd, connection->hd_cport_id, connection->flags); if (ret) { dev_err(&hd->dev, "%s: failed to enable host cport: %d\n", connection->name, ret); return ret; } return 0; } static void gb_connection_hd_cport_disable(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; int ret; if (!hd->driver->cport_disable) return; ret = hd->driver->cport_disable(hd, connection->hd_cport_id); if (ret) { dev_err(&hd->dev, "%s: failed to disable host cport: %d\n", connection->name, ret); } } static int gb_connection_hd_cport_connected(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; int ret; if (!hd->driver->cport_connected) return 0; ret = hd->driver->cport_connected(hd, connection->hd_cport_id); if (ret) { dev_err(&hd->dev, "%s: failed to set connected state: %d\n", connection->name, ret); return ret; } return 0; } static int gb_connection_hd_cport_flush(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; int ret; if (!hd->driver->cport_flush) return 0; ret = hd->driver->cport_flush(hd, connection->hd_cport_id); if (ret) { dev_err(&hd->dev, "%s: failed to flush host cport: %d\n", connection->name, ret); return ret; } return 0; } static int gb_connection_hd_cport_quiesce(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; size_t peer_space; int ret; if (!hd->driver->cport_quiesce) return 0; peer_space = sizeof(struct gb_operation_msg_hdr) + sizeof(struct gb_cport_shutdown_request); if (connection->mode_switch) peer_space += sizeof(struct gb_operation_msg_hdr); ret = hd->driver->cport_quiesce(hd, connection->hd_cport_id, peer_space, GB_CONNECTION_CPORT_QUIESCE_TIMEOUT); if (ret) { dev_err(&hd->dev, "%s: failed to quiesce host cport: %d\n", connection->name, ret); return ret; } return 0; } static int gb_connection_hd_cport_clear(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; int ret; if (!hd->driver->cport_clear) return 0; ret = hd->driver->cport_clear(hd, connection->hd_cport_id); if (ret) { dev_err(&hd->dev, "%s: failed to clear host cport: %d\n", connection->name, ret); return ret; } return 0; } /* * Request the SVC to create a connection from AP's cport to interface's * cport. */ static int gb_connection_svc_connection_create(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; struct gb_interface *intf; u8 cport_flags; int ret; if (gb_connection_is_static(connection)) return 0; intf = connection->intf; /* * Enable either E2EFC or CSD, unless no flow control is requested. */ cport_flags = GB_SVC_CPORT_FLAG_CSV_N; if (gb_connection_flow_control_disabled(connection)) { cport_flags |= GB_SVC_CPORT_FLAG_CSD_N; } else if (gb_connection_e2efc_enabled(connection)) { cport_flags |= GB_SVC_CPORT_FLAG_CSD_N | GB_SVC_CPORT_FLAG_E2EFC; } ret = gb_svc_connection_create(hd->svc, hd->svc->ap_intf_id, connection->hd_cport_id, intf->interface_id, connection->intf_cport_id, cport_flags); if (ret) { dev_err(&connection->hd->dev, "%s: failed to create svc connection: %d\n", connection->name, ret); return ret; } return 0; } static void gb_connection_svc_connection_destroy(struct gb_connection *connection) { if (gb_connection_is_static(connection)) return; gb_svc_connection_destroy(connection->hd->svc, connection->hd->svc->ap_intf_id, connection->hd_cport_id, connection->intf->interface_id, connection->intf_cport_id); } /* Inform Interface about active CPorts */ static int gb_connection_control_connected(struct gb_connection *connection) { struct gb_control *control; u16 cport_id = connection->intf_cport_id; int ret; if (gb_connection_is_static(connection)) return 0; if (gb_connection_is_control(connection)) return 0; control = connection->intf->control; ret = gb_control_connected_operation(control, cport_id); if (ret) { dev_err(&connection->bundle->dev, "failed to connect cport: %d\n", ret); return ret; } return 0; } static void gb_connection_control_disconnecting(struct gb_connection *connection) { struct gb_control *control; u16 cport_id = connection->intf_cport_id; int ret; if (gb_connection_is_static(connection)) return; control = connection->intf->control; ret = gb_control_disconnecting_operation(control, cport_id); if (ret) { dev_err(&connection->hd->dev, "%s: failed to send disconnecting: %d\n", connection->name, ret); } } static void gb_connection_control_disconnected(struct gb_connection *connection) { struct gb_control *control; u16 cport_id = connection->intf_cport_id; int ret; if (gb_connection_is_static(connection)) return; control = connection->intf->control; if (gb_connection_is_control(connection)) { if (connection->mode_switch) { ret = gb_control_mode_switch_operation(control); if (ret) { /* * Allow mode switch to time out waiting for * mailbox event. */ return; } } return; } ret = gb_control_disconnected_operation(control, cport_id); if (ret) { dev_warn(&connection->bundle->dev, "failed to disconnect cport: %d\n", ret); } } static int gb_connection_shutdown_operation(struct gb_connection *connection, u8 phase) { struct gb_cport_shutdown_request *req; struct gb_operation *operation; int ret; operation = gb_operation_create_core(connection, GB_REQUEST_TYPE_CPORT_SHUTDOWN, sizeof(*req), 0, 0, GFP_KERNEL); if (!operation) return -ENOMEM; req = operation->request->payload; req->phase = phase; ret = gb_operation_request_send_sync(operation); gb_operation_put(operation); return ret; } static int gb_connection_cport_shutdown(struct gb_connection *connection, u8 phase) { struct gb_host_device *hd = connection->hd; const struct gb_hd_driver *drv = hd->driver; int ret; if (gb_connection_is_static(connection)) return 0; if (gb_connection_is_offloaded(connection)) { if (!drv->cport_shutdown) return 0; ret = drv->cport_shutdown(hd, connection->hd_cport_id, phase, GB_OPERATION_TIMEOUT_DEFAULT); } else { ret = gb_connection_shutdown_operation(connection, phase); } if (ret) { dev_err(&hd->dev, "%s: failed to send cport shutdown (phase %d): %d\n", connection->name, phase, ret); return ret; } return 0; } static int gb_connection_cport_shutdown_phase_1(struct gb_connection *connection) { return gb_connection_cport_shutdown(connection, 1); } static int gb_connection_cport_shutdown_phase_2(struct gb_connection *connection) { return gb_connection_cport_shutdown(connection, 2); } /* * Cancel all active operations on a connection. * * Locking: Called with connection lock held and state set to DISABLED or * DISCONNECTING. */ static void gb_connection_cancel_operations(struct gb_connection *connection, int errno) __must_hold(&connection->lock) { struct gb_operation *operation; while (!list_empty(&connection->operations)) { operation = list_last_entry(&connection->operations, struct gb_operation, links); gb_operation_get(operation); spin_unlock_irq(&connection->lock); if (gb_operation_is_incoming(operation)) gb_operation_cancel_incoming(operation, errno); else gb_operation_cancel(operation, errno); gb_operation_put(operation); spin_lock_irq(&connection->lock); } } /* * Cancel all active incoming operations on a connection. * * Locking: Called with connection lock held and state set to ENABLED_TX. */ static void gb_connection_flush_incoming_operations(struct gb_connection *connection, int errno) __must_hold(&connection->lock) { struct gb_operation *operation; bool incoming; while (!list_empty(&connection->operations)) { incoming = false; list_for_each_entry(operation, &connection->operations, links) { if (gb_operation_is_incoming(operation)) { gb_operation_get(operation); incoming = true; break; } } if (!incoming) break; spin_unlock_irq(&connection->lock); /* FIXME: flush, not cancel? */ gb_operation_cancel_incoming(operation, errno); gb_operation_put(operation); spin_lock_irq(&connection->lock); } } /* * _gb_connection_enable() - enable a connection * @connection: connection to enable * @rx: whether to enable incoming requests * * Connection-enable helper for DISABLED->ENABLED, DISABLED->ENABLED_TX, and * ENABLED_TX->ENABLED state transitions. * * Locking: Caller holds connection->mutex. */ static int _gb_connection_enable(struct gb_connection *connection, bool rx) { int ret; /* Handle ENABLED_TX -> ENABLED transitions. */ if (connection->state == GB_CONNECTION_STATE_ENABLED_TX) { if (!(connection->handler && rx)) return 0; spin_lock_irq(&connection->lock); connection->state = GB_CONNECTION_STATE_ENABLED; spin_unlock_irq(&connection->lock); return 0; } ret = gb_connection_hd_cport_enable(connection); if (ret) return ret; ret = gb_connection_svc_connection_create(connection); if (ret) goto err_hd_cport_clear; ret = gb_connection_hd_cport_connected(connection); if (ret) goto err_svc_connection_destroy; spin_lock_irq(&connection->lock); if (connection->handler && rx) connection->state = GB_CONNECTION_STATE_ENABLED; else connection->state = GB_CONNECTION_STATE_ENABLED_TX; spin_unlock_irq(&connection->lock); ret = gb_connection_control_connected(connection); if (ret) goto err_control_disconnecting; return 0; err_control_disconnecting: spin_lock_irq(&connection->lock); connection->state = GB_CONNECTION_STATE_DISCONNECTING; gb_connection_cancel_operations(connection, -ESHUTDOWN); spin_unlock_irq(&connection->lock); /* Transmit queue should already be empty. */ gb_connection_hd_cport_flush(connection); gb_connection_control_disconnecting(connection); gb_connection_cport_shutdown_phase_1(connection); gb_connection_hd_cport_quiesce(connection); gb_connection_cport_shutdown_phase_2(connection); gb_connection_control_disconnected(connection); connection->state = GB_CONNECTION_STATE_DISABLED; err_svc_connection_destroy: gb_connection_svc_connection_destroy(connection); err_hd_cport_clear: gb_connection_hd_cport_clear(connection); gb_connection_hd_cport_disable(connection); return ret; } int gb_connection_enable(struct gb_connection *connection) { int ret = 0; mutex_lock(&connection->mutex); if (connection->state == GB_CONNECTION_STATE_ENABLED) goto out_unlock; ret = _gb_connection_enable(connection, true); if (!ret) trace_gb_connection_enable(connection); out_unlock: mutex_unlock(&connection->mutex); return ret; } EXPORT_SYMBOL_GPL(gb_connection_enable); int gb_connection_enable_tx(struct gb_connection *connection) { int ret = 0; mutex_lock(&connection->mutex); if (connection->state == GB_CONNECTION_STATE_ENABLED) { ret = -EINVAL; goto out_unlock; } if (connection->state == GB_CONNECTION_STATE_ENABLED_TX) goto out_unlock; ret = _gb_connection_enable(connection, false); if (!ret) trace_gb_connection_enable(connection); out_unlock: mutex_unlock(&connection->mutex); return ret; } EXPORT_SYMBOL_GPL(gb_connection_enable_tx); void gb_connection_disable_rx(struct gb_connection *connection) { mutex_lock(&connection->mutex); spin_lock_irq(&connection->lock); if (connection->state != GB_CONNECTION_STATE_ENABLED) { spin_unlock_irq(&connection->lock); goto out_unlock; } connection->state = GB_CONNECTION_STATE_ENABLED_TX; gb_connection_flush_incoming_operations(connection, -ESHUTDOWN); spin_unlock_irq(&connection->lock); trace_gb_connection_disable(connection); out_unlock: mutex_unlock(&connection->mutex); } EXPORT_SYMBOL_GPL(gb_connection_disable_rx); void gb_connection_mode_switch_prepare(struct gb_connection *connection) { connection->mode_switch = true; } void gb_connection_mode_switch_complete(struct gb_connection *connection) { gb_connection_svc_connection_destroy(connection); gb_connection_hd_cport_clear(connection); gb_connection_hd_cport_disable(connection); connection->mode_switch = false; } void gb_connection_disable(struct gb_connection *connection) { mutex_lock(&connection->mutex); if (connection->state == GB_CONNECTION_STATE_DISABLED) goto out_unlock; trace_gb_connection_disable(connection); spin_lock_irq(&connection->lock); connection->state = GB_CONNECTION_STATE_DISCONNECTING; gb_connection_cancel_operations(connection, -ESHUTDOWN); spin_unlock_irq(&connection->lock); gb_connection_hd_cport_flush(connection); gb_connection_control_disconnecting(connection); gb_connection_cport_shutdown_phase_1(connection); gb_connection_hd_cport_quiesce(connection); gb_connection_cport_shutdown_phase_2(connection); gb_connection_control_disconnected(connection); connection->state = GB_CONNECTION_STATE_DISABLED; /* control-connection tear down is deferred when mode switching */ if (!connection->mode_switch) { gb_connection_svc_connection_destroy(connection); gb_connection_hd_cport_clear(connection); gb_connection_hd_cport_disable(connection); } out_unlock: mutex_unlock(&connection->mutex); } EXPORT_SYMBOL_GPL(gb_connection_disable); /* Disable a connection without communicating with the remote end. */ void gb_connection_disable_forced(struct gb_connection *connection) { mutex_lock(&connection->mutex); if (connection->state == GB_CONNECTION_STATE_DISABLED) goto out_unlock; trace_gb_connection_disable(connection); spin_lock_irq(&connection->lock); connection->state = GB_CONNECTION_STATE_DISABLED; gb_connection_cancel_operations(connection, -ESHUTDOWN); spin_unlock_irq(&connection->lock); gb_connection_hd_cport_flush(connection); gb_connection_svc_connection_destroy(connection); gb_connection_hd_cport_clear(connection); gb_connection_hd_cport_disable(connection); out_unlock: mutex_unlock(&connection->mutex); } EXPORT_SYMBOL_GPL(gb_connection_disable_forced); /* Caller must have disabled the connection before destroying it. */ void gb_connection_destroy(struct gb_connection *connection) { if (!connection) return; if (WARN_ON(connection->state != GB_CONNECTION_STATE_DISABLED)) gb_connection_disable(connection); mutex_lock(&gb_connection_mutex); spin_lock_irq(&gb_connections_lock); list_del(&connection->bundle_links); list_del(&connection->hd_links); spin_unlock_irq(&gb_connections_lock); destroy_workqueue(connection->wq); gb_hd_cport_release(connection->hd, connection->hd_cport_id); connection->hd_cport_id = CPORT_ID_BAD; mutex_unlock(&gb_connection_mutex); gb_connection_put(connection); } EXPORT_SYMBOL_GPL(gb_connection_destroy); void gb_connection_latency_tag_enable(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; int ret; if (!hd->driver->latency_tag_enable) return; ret = hd->driver->latency_tag_enable(hd, connection->hd_cport_id); if (ret) { dev_err(&connection->hd->dev, "%s: failed to enable latency tag: %d\n", connection->name, ret); } } EXPORT_SYMBOL_GPL(gb_connection_latency_tag_enable); void gb_connection_latency_tag_disable(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; int ret; if (!hd->driver->latency_tag_disable) return; ret = hd->driver->latency_tag_disable(hd, connection->hd_cport_id); if (ret) { dev_err(&connection->hd->dev, "%s: failed to disable latency tag: %d\n", connection->name, ret); } } EXPORT_SYMBOL_GPL(gb_connection_latency_tag_disable);
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