/* * Copyright (c) 2010 Matus Dekanek * Copyright (c) 2011 Jan Vesely * All rights reserved. * * 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 name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup drvusbhub * @{ */ /** @file * @brief usb hub main functionality */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "usbhub.h" #include "status.h" #define HUB_FNC_NAME "hub" /** Hub status-change endpoint description. * * For more information see section 11.15.1 of USB 1.1 specification. */ const usb_endpoint_description_t hub_status_change_endpoint_description = { .transfer_type = USB_TRANSFER_INTERRUPT, .direction = USB_DIRECTION_IN, .interface_class = USB_CLASS_HUB, .interface_subclass = 0, .interface_protocol = 0, .flags = 0 }; /** Standard get hub global status request */ static const usb_device_request_setup_packet_t get_hub_status_request = { .request_type = USB_HUB_REQ_TYPE_GET_HUB_STATUS, .request = USB_HUB_REQUEST_GET_STATUS, .index = 0, .value = 0, .length = sizeof(usb_hub_status_t), }; static int usb_set_first_configuration(usb_device_t *usb_device); static int usb_hub_process_hub_specific_info(usb_hub_dev_t *hub_dev); static void usb_hub_over_current(const usb_hub_dev_t *hub_dev, usb_hub_status_t status); static void usb_hub_global_interrupt(const usb_hub_dev_t *hub_dev); static bool usb_hub_polling_error_callback(usb_device_t *dev, int err_code, void *arg) { assert(dev); assert(arg); usb_log_error("Device %s polling error: %s", usb_device_get_name(dev), str_error(err_code)); return true; } /** * Initialize hub device driver structure. * * Creates hub representation and fibril that periodically checks hub's status. * Hub representation is passed to the fibril. * @param usb_dev generic usb device information * @return error code */ int usb_hub_device_add(usb_device_t *usb_dev) { assert(usb_dev); /* Create driver soft-state structure */ usb_hub_dev_t *hub_dev = usb_device_data_alloc(usb_dev, sizeof(usb_hub_dev_t)); if (hub_dev == NULL) { usb_log_error("Failed to create hub driver structure."); return ENOMEM; } hub_dev->usb_device = usb_dev; fibril_mutex_initialize(&hub_dev->default_address_guard); fibril_condvar_initialize(&hub_dev->default_address_cv); /* Set hub's first configuration. (There should be only one) */ int opResult = usb_set_first_configuration(usb_dev); if (opResult != EOK) { usb_log_error("Could not set hub configuration: %s", str_error(opResult)); return opResult; } /* Get port count and create attached_devices. */ opResult = usb_hub_process_hub_specific_info(hub_dev); if (opResult != EOK) { usb_log_error("Could process hub specific info, %s", str_error(opResult)); return opResult; } /* Create hub control function. */ usb_log_debug("Creating DDF function '" HUB_FNC_NAME "'."); hub_dev->hub_fun = usb_device_ddf_fun_create(hub_dev->usb_device, fun_exposed, HUB_FNC_NAME); if (hub_dev->hub_fun == NULL) { usb_log_error("Failed to create hub function."); return ENOMEM; } /* Bind hub control function. */ opResult = ddf_fun_bind(hub_dev->hub_fun); if (opResult != EOK) { usb_log_error("Failed to bind hub function: %s.", str_error(opResult)); ddf_fun_destroy(hub_dev->hub_fun); return opResult; } /* Start hub operation. */ usb_polling_t *polling = &hub_dev->polling; opResult = usb_polling_init(polling); if (opResult != EOK) { /* Function is already bound */ ddf_fun_unbind(hub_dev->hub_fun); ddf_fun_destroy(hub_dev->hub_fun); usb_log_error("Failed to initialize polling fibril: %s.", str_error(opResult)); return opResult; } polling->device = hub_dev->usb_device; polling->ep_mapping = usb_device_get_mapped_ep_desc(hub_dev->usb_device, &hub_status_change_endpoint_description); polling->request_size = ((hub_dev->port_count + 1 + 7) / 8); polling->buffer = malloc(polling->request_size); polling->on_data = hub_port_changes_callback; polling->on_error = usb_hub_polling_error_callback; polling->arg = hub_dev; opResult = usb_polling_start(polling); if (opResult != EOK) { /* Polling is already initialized. */ free(polling->buffer); usb_polling_fini(polling); ddf_fun_unbind(hub_dev->hub_fun); ddf_fun_destroy(hub_dev->hub_fun); usb_log_error("Failed to create polling fibril: %s.", str_error(opResult)); return opResult; } usb_log_info("Controlling hub '%s' (%p: %zu ports).", usb_device_get_name(hub_dev->usb_device), hub_dev, hub_dev->port_count); return EOK; } static int usb_hub_cleanup(usb_hub_dev_t *hub) { free(hub->polling.buffer); usb_polling_fini(&hub->polling); for (size_t port = 0; port < hub->port_count; ++port) { usb_hub_port_fini(&hub->ports[port]); } free(hub->ports); const int ret = ddf_fun_unbind(hub->hub_fun); if (ret != EOK) { usb_log_error("(%p) Failed to unbind '%s' function: %s.", hub, HUB_FNC_NAME, str_error(ret)); return ret; } ddf_fun_destroy(hub->hub_fun); usb_log_info("(%p) USB hub driver stopped and cleaned.", hub); /* Device data (usb_hub_dev_t) will be freed by usbdev. */ return EOK; } /** * Turn off power to all ports. * * @param usb_dev generic usb device information * @return error code */ int usb_hub_device_remove(usb_device_t *usb_dev) { assert(usb_dev); usb_hub_dev_t *hub = usb_device_data_get(usb_dev); assert(hub); usb_log_info("(%p) USB hub removed, joining polling fibril.", hub); /* Join polling fibril (ignoring error code). */ usb_polling_join(&hub->polling); usb_log_info("(%p) USB hub polling stopped, freeing memory.", hub); /* Destroy hub. */ return usb_hub_cleanup(hub); } /** * Remove all attached devices * @param usb_dev generic usb device information * @return error code */ int usb_hub_device_gone(usb_device_t *usb_dev) { assert(usb_dev); usb_hub_dev_t *hub = usb_device_data_get(usb_dev); assert(hub); usb_log_info("(%p) USB hub gone, joining polling fibril.", hub); /* Join polling fibril (ignoring error code). */ usb_polling_join(&hub->polling); usb_log_info("(%p) USB hub polling stopped, freeing memory.", hub); /* Destroy hub. */ return usb_hub_cleanup(hub); } /** Callback for polling hub for changes. * * @param dev Device where the change occured. * @param change_bitmap Bitmap of changed ports. * @param change_bitmap_size Size of the bitmap in bytes. * @param arg Custom argument, points to @c usb_hub_dev_t. * @return Whether to continue polling. */ bool hub_port_changes_callback(usb_device_t *dev, uint8_t *change_bitmap, size_t change_bitmap_size, void *arg) { usb_hub_dev_t *hub = arg; assert(hub); /* It is an error condition if we didn't receive enough data */ if (change_bitmap_size == 0) { return false; } /* Lowest bit indicates global change */ const bool change = change_bitmap[0] & 1; if (change) { usb_hub_global_interrupt(hub); } /* N + 1 bit indicates change on port N */ for (size_t port = 0; port < hub->port_count; ++port) { const size_t bit = port + 1; const bool change = (change_bitmap[bit / 8] >> (bit % 8)) & 1; if (change) { usb_hub_port_process_interrupt(&hub->ports[port], hub); } } return true; } /** * Load hub-specific information into hub_dev structure and process if needed * * Read port count and initialize structures holding per port information. * If there are any non-removable devices, start initializing them. * This function is hub-specific and should be run only after the hub is * configured using usb_set_first_configuration function. * @param hub_dev hub representation * @return error code */ static int usb_hub_process_hub_specific_info(usb_hub_dev_t *hub_dev) { assert(hub_dev); /* Get hub descriptor. */ usb_log_debug("(%p): Retrieving descriptor.", hub_dev); usb_pipe_t *control_pipe = usb_device_get_default_pipe(hub_dev->usb_device); usb_hub_descriptor_header_t descriptor; size_t received_size; int opResult = usb_request_get_descriptor(control_pipe, USB_REQUEST_TYPE_CLASS, USB_REQUEST_RECIPIENT_DEVICE, USB_DESCTYPE_HUB, 0, 0, &descriptor, sizeof(usb_hub_descriptor_header_t), &received_size); if (opResult != EOK) { usb_log_error("(%p): Failed to receive hub descriptor: %s.", hub_dev, str_error(opResult)); return opResult; } usb_log_debug("(%p): Setting port count to %d.", hub_dev, descriptor.port_count); hub_dev->port_count = descriptor.port_count; hub_dev->control_pipe = control_pipe; hub_dev->ports = calloc(hub_dev->port_count, sizeof(usb_hub_port_t)); if (!hub_dev->ports) { return ENOMEM; } for (size_t port = 0; port < hub_dev->port_count; ++port) { usb_hub_port_init(&hub_dev->ports[port], hub_dev, port + 1); } hub_dev->power_switched = !(descriptor.characteristics & HUB_CHAR_NO_POWER_SWITCH_FLAG); hub_dev->per_port_power = descriptor.characteristics & HUB_CHAR_POWER_PER_PORT_FLAG; if (!hub_dev->power_switched) { usb_log_info("(%p): Power switching not supported, " "ports always powered.", hub_dev); return EOK; } usb_log_info("(%p): Hub port power switching enabled (%s).", hub_dev, hub_dev->per_port_power ? "per port" : "ganged"); for (unsigned int port = 0; port < hub_dev->port_count; ++port) { usb_log_debug("(%p): Powering port %u.", hub_dev, port); const int ret = usb_hub_set_port_feature(hub_dev, port, USB_HUB_FEATURE_PORT_POWER); if (ret != EOK) { usb_log_error("(%p-%u): Cannot power on port: %s.", hub_dev, hub_dev->ports[port].port_number, str_error(ret)); } else { if (!hub_dev->per_port_power) { usb_log_debug("(%p) Ganged power switching, " "one port is enough.", hub_dev); break; } } } return EOK; } /** * Set configuration of and USB device * * Check whether there is at least one configuration and sets the first one. * This function should be run prior to running any hub-specific action. * @param usb_device usb device representation * @return error code */ static int usb_set_first_configuration(usb_device_t *usb_device) { assert(usb_device); /* Get number of possible configurations from device descriptor */ const size_t configuration_count = usb_device_descriptors(usb_device)->device.configuration_count; usb_log_debug("Hub has %zu configurations.", configuration_count); if (configuration_count < 1) { usb_log_error("There are no configurations available"); return EINVAL; } const size_t config_size = usb_device_descriptors(usb_device)->full_config_size; const usb_standard_configuration_descriptor_t *config_descriptor = usb_device_descriptors(usb_device)->full_config; if (config_size < sizeof(usb_standard_configuration_descriptor_t)) { usb_log_error("Configuration descriptor is not big enough" " to fit standard configuration descriptor.\n"); return EOVERFLOW; } /* Set configuration. Use the configuration that was in * usb_device->descriptors.configuration i.e. The first one. */ const int opResult = usb_request_set_configuration( usb_device_get_default_pipe(usb_device), config_descriptor->configuration_number); if (opResult != EOK) { usb_log_error("Failed to set hub configuration: %s.", str_error(opResult)); } else { usb_log_debug("\tUsed configuration %d", config_descriptor->configuration_number); } return opResult; } /** * Process hub over current change * * This means either to power off the hub or power it on. * @param hub_dev hub instance * @param status hub status bitmask * @return error code */ static void usb_hub_over_current(const usb_hub_dev_t *hub_dev, usb_hub_status_t status) { if (status & USB_HUB_STATUS_OVER_CURRENT) { /* Hub should remove power from all ports if it detects OC */ usb_log_warning("(%p) Detected hub over-current condition, " "all ports should be powered off.", hub_dev); return; } /* Ports are always powered. */ if (!hub_dev->power_switched) return; /* Over-current condition is gone, it is safe to turn the ports on. */ for (size_t port = 0; port < hub_dev->port_count; ++port) { const int ret = usb_hub_set_port_feature(hub_dev, port, USB_HUB_FEATURE_PORT_POWER); if (ret != EOK) { usb_log_warning("(%p-%u): HUB OVER-CURRENT GONE: Cannot" " power on port: %s\n", hub_dev, hub_dev->ports[port].port_number, str_error(ret)); } else { if (!hub_dev->per_port_power) return; } } } /** * Set feature on the real hub port. * * @param port Port structure. * @param feature Feature selector. */ int usb_hub_set_port_feature(const usb_hub_dev_t *hub, size_t port_number, usb_hub_class_feature_t feature) { assert(hub); const usb_device_request_setup_packet_t clear_request = { .request_type = USB_HUB_REQ_TYPE_SET_PORT_FEATURE, .request = USB_DEVREQ_SET_FEATURE, .index = uint16_host2usb(port_number), .value = feature, .length = 0, }; return usb_pipe_control_write(hub->control_pipe, &clear_request, sizeof(clear_request), NULL, 0); } /** * Clear feature on the real hub port. * * @param port Port structure. * @param feature Feature selector. */ int usb_hub_clear_port_feature(const usb_hub_dev_t *hub, size_t port_number, usb_hub_class_feature_t feature) { assert(hub); const usb_device_request_setup_packet_t clear_request = { .request_type = USB_HUB_REQ_TYPE_CLEAR_PORT_FEATURE, .request = USB_DEVREQ_CLEAR_FEATURE, .value = feature, .index = uint16_host2usb(port_number), .length = 0, }; return usb_pipe_control_write(hub->control_pipe, &clear_request, sizeof(clear_request), NULL, 0); } /** * Retrieve port status. * * @param[in] port Port structure * @param[out] status Where to store the port status. * @return Error code. */ int usb_hub_get_port_status(const usb_hub_dev_t *hub, size_t port_number, usb_port_status_t *status) { assert(hub); assert(status); /* USB hub specific GET_PORT_STATUS request. See USB Spec 11.16.2.6 * Generic GET_STATUS request cannot be used because of the difference * in status data size (2B vs. 4B)*/ const usb_device_request_setup_packet_t request = { .request_type = USB_HUB_REQ_TYPE_GET_PORT_STATUS, .request = USB_HUB_REQUEST_GET_STATUS, .value = 0, .index = uint16_host2usb(port_number), .length = sizeof(usb_port_status_t), }; size_t recv_size; const int rc = usb_pipe_control_read(hub->control_pipe, &request, sizeof(usb_device_request_setup_packet_t), status, sizeof(*status), &recv_size); if (rc != EOK) return rc; if (recv_size != sizeof(*status)) return ELIMIT; return EOK; } /** * Process hub interrupts. * * The change can be either in the over-current condition or local-power change. * @param hub_dev hub instance */ static void usb_hub_global_interrupt(const usb_hub_dev_t *hub_dev) { assert(hub_dev); assert(hub_dev->usb_device); usb_log_debug("(%p): Global interrupt on th hub.", hub_dev); usb_pipe_t *control_pipe = usb_device_get_default_pipe(hub_dev->usb_device); usb_hub_status_t status; size_t rcvd_size; /* NOTE: We can't use standard USB GET_STATUS request, because * hubs reply is 4byte instead of 2 */ const int opResult = usb_pipe_control_read(control_pipe, &get_hub_status_request, sizeof(get_hub_status_request), &status, sizeof(usb_hub_status_t), &rcvd_size); if (opResult != EOK) { usb_log_error("(%p): Could not get hub status: %s.", hub_dev, str_error(opResult)); return; } if (rcvd_size != sizeof(usb_hub_status_t)) { usb_log_error("(%p): Received status has incorrect size: " "%zu != %zu", hub_dev, rcvd_size, sizeof(usb_hub_status_t)); return; } /* Handle status changes */ if (status & USB_HUB_STATUS_C_OVER_CURRENT) { usb_hub_over_current(hub_dev, status); /* Ack change in hub OC flag */ const int ret = usb_request_clear_feature( control_pipe, USB_REQUEST_TYPE_CLASS, USB_REQUEST_RECIPIENT_DEVICE, USB_HUB_FEATURE_C_HUB_OVER_CURRENT, 0); if (ret != EOK) { usb_log_error("(%p): Failed to clear hub over-current " "change flag: %s.\n", hub_dev, str_error(opResult)); } } if (status & USB_HUB_STATUS_C_LOCAL_POWER) { /* NOTE: Handling this is more complicated. * If the transition is from bus power to local power, all * is good and we may signal the parent hub that we don't * need the power. * If the transition is from local power to bus power * the hub should turn off all the ports and devices need * to be reinitialized taking into account the limited power * that is now available. * There is no support for power distribution in HelenOS, * (or other OSes/hub devices that I've seen) so this is not * implemented. * Just ACK the change. */ const int ret = usb_request_clear_feature( control_pipe, USB_REQUEST_TYPE_CLASS, USB_REQUEST_RECIPIENT_DEVICE, USB_HUB_FEATURE_C_HUB_LOCAL_POWER, 0); if (opResult != EOK) { usb_log_error("(%p): Failed to clear hub power change " "flag: %s.\n", hub_dev, str_error(ret)); } } } /** * Reserve a default address for a port across all other devices connected to * the bus. We aggregate requests for ports to minimize delays between * connecting multiple devices from one hub - which happens e.g. when the hub * is connected with already attached devices. */ int usb_hub_reserve_default_address(usb_hub_dev_t *hub, async_exch_t *exch, fibril_mutex_t *guard) { assert(hub); assert(exch); assert(guard); assert(fibril_mutex_is_locked(guard)); fibril_mutex_lock(&hub->default_address_guard); if (hub->default_address_requests++ == 0) { /* We're the first to request the address, we can just do it */ fibril_mutex_unlock(&hub->default_address_guard); int err; while ((err = usbhc_reserve_default_address(exch)) == EAGAIN) { fibril_mutex_unlock(guard); async_usleep(500000); fibril_mutex_lock(guard); } return err; } else { /* Drop the port guard, we're going to wait */ fibril_mutex_unlock(guard); /* Wait for a signal */ fibril_condvar_wait(&hub->default_address_cv, &hub->default_address_guard); /* Remember ABBA, first drop the hub guard */ fibril_mutex_unlock(&hub->default_address_guard); fibril_mutex_lock(guard); return EOK; } } /** * Release the default address from a port. */ int usb_hub_release_default_address(usb_hub_dev_t *hub, async_exch_t *exch) { int ret = EOK; fibril_mutex_lock(&hub->default_address_guard); if (--hub->default_address_requests == 0) { // We must do it in critical section to prevent other fibril // from requesting the address before we release ret = usbhc_release_default_address(exch); } else { fibril_condvar_signal(&hub->default_address_cv); } fibril_mutex_unlock(&hub->default_address_guard); return ret; } /** * @} */