/* * Copyright (c) 2011 Vojtech Horky, 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 drvusbuhcihc * @{ */ /** @file * @brief UHCI driver hc interface implementation */ #include #include #include #include #include "iface.h" #include "hc.h" static inline int setup_batch( ddf_fun_t *fun, usb_target_t target, usb_direction_t direction, void *data, size_t size, void * setup_data, size_t setup_size, usbhc_iface_transfer_in_callback_t in, usbhc_iface_transfer_out_callback_t out, void *arg, const char* name, hc_t **hc, usb_transfer_batch_t **batch) { assert(hc); assert(batch); assert(fun); *hc = fun_to_hc(fun); assert(*hc); size_t res_bw; endpoint_t *ep = usb_endpoint_manager_get_ep(&(*hc)->ep_manager, target.address, target.endpoint, direction, &res_bw); if (ep == NULL) { usb_log_error("Endpoint(%d:%d) not registered for %s.\n", target.address, target.endpoint, name); return ENOENT; } usb_log_debug("%s %d:%d %zu(%zu).\n", name, target.address, target.endpoint, size, ep->max_packet_size); const size_t bw = bandwidth_count_usb11( ep->speed, ep->transfer_type, size, ep->max_packet_size); if (res_bw < bw) { usb_log_error("Endpoint(%d:%d) %s needs %zu bw " "but only %zu is reserved.\n", target.address, target.endpoint, name, bw, res_bw); return ENOSPC; } *batch = batch_get( fun, ep, data, size, setup_data, setup_size, in, out, arg); if (!*batch) return ENOMEM; return EOK; } /*----------------------------------------------------------------------------*/ /** Request address interface function * * @param[in] fun DDF function that was called. * @param[in] speed Speed to associate with the new default address. * @param[out] address Place to write a new address. * @return Error code. */ static int request_address( ddf_fun_t *fun, usb_speed_t speed, usb_address_t *address) { assert(fun); hc_t *hc = fun_to_hc(fun); assert(hc); assert(address); usb_log_debug("Address request with speed %d.\n", speed); *address = device_keeper_get_free_address(&hc->manager, speed); usb_log_debug("Address request with result: %d.\n", *address); if (*address <= 0) return *address; return EOK; } /*----------------------------------------------------------------------------*/ /** Bind address interface function * * @param[in] fun DDF function that was called. * @param[in] address Address of the device * @param[in] handle Devman handle of the device driver. * @return Error code. */ static int bind_address( ddf_fun_t *fun, usb_address_t address, devman_handle_t handle) { assert(fun); hc_t *hc = fun_to_hc(fun); assert(hc); usb_log_debug("Address bind %d-%d.\n", address, handle); usb_device_keeper_bind(&hc->manager, address, handle); return EOK; } /*----------------------------------------------------------------------------*/ /** Release address interface function * * @param[in] fun DDF function that was called. * @param[in] address USB address to be released. * @return Error code. */ static int release_address(ddf_fun_t *fun, usb_address_t address) { assert(fun); hc_t *hc = fun_to_hc(fun); assert(hc); usb_log_debug("Address release %d.\n", address); usb_device_keeper_release(&hc->manager, address); return EOK; } /*----------------------------------------------------------------------------*/ static int register_endpoint( ddf_fun_t *fun, usb_address_t address, usb_speed_t ep_speed, usb_endpoint_t endpoint, usb_transfer_type_t transfer_type, usb_direction_t direction, size_t max_packet_size, unsigned int interval) { hc_t *hc = fun_to_hc(fun); assert(hc); const size_t size = max_packet_size; usb_speed_t speed = usb_device_keeper_get_speed(&hc->manager, address); if (speed >= USB_SPEED_MAX) { speed = ep_speed; } usb_log_debug("Register endpoint %d:%d %s %s(%d) %zu(%zu) %u.\n", address, endpoint, usb_str_transfer_type(transfer_type), usb_str_speed(speed), direction, size, max_packet_size, interval); return usb_endpoint_manager_add_ep(&hc->ep_manager, address, endpoint, direction, transfer_type, speed, max_packet_size, size); } /*----------------------------------------------------------------------------*/ static int unregister_endpoint( ddf_fun_t *fun, usb_address_t address, usb_endpoint_t endpoint, usb_direction_t direction) { hc_t *hc = fun_to_hc(fun); assert(hc); usb_log_debug("Unregister endpoint %d:%d %d.\n", address, endpoint, direction); return usb_endpoint_manager_unregister_ep(&hc->ep_manager, address, endpoint, direction); } /*----------------------------------------------------------------------------*/ /** Interrupt out transaction interface function * * @param[in] fun DDF function that was called. * @param[in] target USB device to write to. * @param[in] data Source of data. * @param[in] size Size of data source. * @param[in] callback Function to call on transaction completion * @param[in] arg Additional for callback function. * @return Error code. */ static int interrupt_out( ddf_fun_t *fun, usb_target_t target, void *data, size_t size, usbhc_iface_transfer_out_callback_t callback, void *arg) { usb_transfer_batch_t *batch = NULL; hc_t *hc = NULL; int ret = setup_batch(fun, target, USB_DIRECTION_OUT, data, size, NULL, 0, NULL, callback, arg, "Interrupt OUT", &hc, &batch); if (ret != EOK) return ret; batch_interrupt_out(batch); ret = hc_schedule(hc, batch); if (ret != EOK) { usb_transfer_batch_dispose(batch); } return ret; } /*----------------------------------------------------------------------------*/ /** Interrupt in transaction interface function * * @param[in] fun DDF function that was called. * @param[in] target USB device to write to. * @param[out] data Data destination. * @param[in] size Size of data source. * @param[in] callback Function to call on transaction completion * @param[in] arg Additional for callback function. * @return Error code. */ static int interrupt_in( ddf_fun_t *fun, usb_target_t target, void *data, size_t size, usbhc_iface_transfer_in_callback_t callback, void *arg) { usb_transfer_batch_t *batch = NULL; hc_t *hc = NULL; int ret = setup_batch(fun, target, USB_DIRECTION_IN, data, size, NULL, 0, callback, NULL, arg, "Interrupt IN", &hc, &batch); if (ret != EOK) return ret; batch_interrupt_in(batch); ret = hc_schedule(hc, batch); if (ret != EOK) { usb_transfer_batch_dispose(batch); } return ret; } /*----------------------------------------------------------------------------*/ /** Bulk out transaction interface function * * @param[in] fun DDF function that was called. * @param[in] target USB device to write to. * @param[in] data Source of data. * @param[in] size Size of data source. * @param[in] callback Function to call on transaction completion * @param[in] arg Additional for callback function. * @return Error code. */ static int bulk_out( ddf_fun_t *fun, usb_target_t target, void *data, size_t size, usbhc_iface_transfer_out_callback_t callback, void *arg) { usb_transfer_batch_t *batch = NULL; hc_t *hc = NULL; int ret = setup_batch(fun, target, USB_DIRECTION_OUT, data, size, NULL, 0, NULL, callback, arg, "Bulk OUT", &hc, &batch); if (ret != EOK) return ret; batch_bulk_out(batch); ret = hc_schedule(hc, batch); if (ret != EOK) { usb_transfer_batch_dispose(batch); } return ret; } /*----------------------------------------------------------------------------*/ /** Bulk in transaction interface function * * @param[in] fun DDF function that was called. * @param[in] target USB device to write to. * @param[out] data Data destination. * @param[in] size Size of data source. * @param[in] callback Function to call on transaction completion * @param[in] arg Additional for callback function. * @return Error code. */ static int bulk_in( ddf_fun_t *fun, usb_target_t target, void *data, size_t size, usbhc_iface_transfer_in_callback_t callback, void *arg) { usb_transfer_batch_t *batch = NULL; hc_t *hc = NULL; int ret = setup_batch(fun, target, USB_DIRECTION_IN, data, size, NULL, 0, callback, NULL, arg, "Bulk IN", &hc, &batch); if (ret != EOK) return ret; batch_bulk_in(batch); ret = hc_schedule(hc, batch); if (ret != EOK) { usb_transfer_batch_dispose(batch); } return ret; } /*----------------------------------------------------------------------------*/ /** Control write transaction interface function * * @param[in] fun DDF function that was called. * @param[in] target USB device to write to. * @param[in] setup_data Data to send with SETUP transfer. * @param[in] setup_size Size of data to send with SETUP transfer (always 8B). * @param[in] data Source of data. * @param[in] size Size of data source. * @param[in] callback Function to call on transaction completion. * @param[in] arg Additional for callback function. * @return Error code. */ static int control_write( ddf_fun_t *fun, usb_target_t target, void *setup_data, size_t setup_size, void *data, size_t size, usbhc_iface_transfer_out_callback_t callback, void *arg) { usb_transfer_batch_t *batch = NULL; hc_t *hc = NULL; int ret = setup_batch(fun, target, USB_DIRECTION_BOTH, data, size, setup_data, setup_size, NULL, callback, arg, "Control WRITE", &hc, &batch); if (ret != EOK) return ret; usb_endpoint_manager_reset_if_need(&hc->ep_manager, target, setup_data); batch_control_write(batch); ret = hc_schedule(hc, batch); if (ret != EOK) { usb_transfer_batch_dispose(batch); } return ret; } /*----------------------------------------------------------------------------*/ /** Control read transaction interface function * * @param[in] fun DDF function that was called. * @param[in] target USB device to write to. * @param[in] setup_data Data to send with SETUP packet. * @param[in] setup_size Size of data to send with SETUP packet (should be 8B). * @param[out] data Source of data. * @param[in] size Size of data source. * @param[in] callback Function to call on transaction completion. * @param[in] arg Additional for callback function. * @return Error code. */ static int control_read( ddf_fun_t *fun, usb_target_t target, void *setup_data, size_t setup_size, void *data, size_t size, usbhc_iface_transfer_in_callback_t callback, void *arg) { usb_transfer_batch_t *batch = NULL; hc_t *hc = NULL; int ret = setup_batch(fun, target, USB_DIRECTION_BOTH, data, size, setup_data, setup_size, callback, NULL, arg, "Control READ", &hc, &batch); if (ret != EOK) return ret; batch_control_read(batch); ret = hc_schedule(hc, batch); if (ret != EOK) { usb_transfer_batch_dispose(batch); } return ret; } /*----------------------------------------------------------------------------*/ usbhc_iface_t hc_iface = { .request_address = request_address, .bind_address = bind_address, .release_address = release_address, .register_endpoint = register_endpoint, .unregister_endpoint = unregister_endpoint, .interrupt_out = interrupt_out, .interrupt_in = interrupt_in, .bulk_out = bulk_out, .bulk_in = bulk_in, .control_write = control_write, .control_read = control_read, }; /** * @} */