/* * Copyright (c) 2010-2011 Vojtech Horky * 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 libdrv * @{ */ /** @file */ #include #include #include #include #include #include "usbhid_iface.h" #include "ddf/driver.h" /** IPC methods for USB HID device interface. */ typedef enum { /** Get number of events reported in single burst. * Parameters: none * Answer: * - Size of one report in bytes. */ IPC_M_USBHID_GET_EVENT_LENGTH, /** Get single event from the HID device. * The word single refers to set of individual events that were * available at particular point in time. * Parameters: * - flags * The call is followed by data read expecting two concatenated * arrays. * Answer: * - EOK - events returned * - EAGAIN - no event ready (only in non-blocking mode) * * It is okay if the client requests less data. Extra data must * be truncated by the driver. * * @todo Change this comment. */ IPC_M_USBHID_GET_EVENT, /** Get the size of the report descriptor from the HID device. * * Parameters: * - none * Answer: * - EOK - method is implemented (expected always) * Parameters of the answer: * - Size of the report in bytes. */ IPC_M_USBHID_GET_REPORT_DESCRIPTOR_LENGTH, /** Get the report descriptor from the HID device. * * Parameters: * - none * The call is followed by data read expecting the descriptor itself. * Answer: * - EOK - report descriptor returned. */ IPC_M_USBHID_GET_REPORT_DESCRIPTOR } usbhid_iface_funcs_t; /** Ask for event array length. * * @param dev_sess Session to DDF device providing USB HID interface. * * @return Number of usages returned or an error code. * */ errno_t usbhid_dev_get_event_length(async_sess_t *dev_sess, size_t *size) { if (!dev_sess) return EINVAL; async_exch_t *exch = async_exchange_begin(dev_sess); sysarg_t len; errno_t rc = async_req_1_1(exch, DEV_IFACE_ID(USBHID_DEV_IFACE), IPC_M_USBHID_GET_EVENT_LENGTH, &len); async_exchange_end(exch); if (rc == EOK) { if (size != NULL) *size = (size_t) len; } return rc; } /** Request for next event from HID device. * * @param[in] dev_sess Session to DDF device providing USB HID interface. * @param[out] usage_pages Where to store usage pages. * @param[out] usages Where to store usages (actual data). * @param[in] usage_count Length of @p usage_pages and @p usages buffer * (in items, not bytes). * @param[out] actual_usage_count Number of usages actually returned by the * device driver. * @param[in] flags Flags (see USBHID_IFACE_FLAG_*). * * @return Error code. * */ errno_t usbhid_dev_get_event(async_sess_t *dev_sess, uint8_t *buf, size_t size, size_t *actual_size, int *event_nr, unsigned int flags) { if (!dev_sess) return EINVAL; if (buf == NULL) return ENOMEM; if (size == 0) return EINVAL; size_t buffer_size = size; uint8_t *buffer = malloc(buffer_size); if (buffer == NULL) return ENOMEM; async_exch_t *exch = async_exchange_begin(dev_sess); ipc_call_t opening_request_call; aid_t opening_request = async_send_2(exch, DEV_IFACE_ID(USBHID_DEV_IFACE), IPC_M_USBHID_GET_EVENT, flags, &opening_request_call); if (opening_request == 0) { async_exchange_end(exch); free(buffer); return ENOMEM; } ipc_call_t data_request_call; aid_t data_request = async_data_read(exch, buffer, buffer_size, &data_request_call); async_exchange_end(exch); if (data_request == 0) { async_forget(opening_request); free(buffer); return ENOMEM; } errno_t data_request_rc; errno_t opening_request_rc; async_wait_for(data_request, &data_request_rc); async_wait_for(opening_request, &opening_request_rc); if (data_request_rc != EOK) { /* Prefer return code of the opening request. */ if (opening_request_rc != EOK) return (errno_t) opening_request_rc; else return (errno_t) data_request_rc; } if (opening_request_rc != EOK) return (errno_t) opening_request_rc; size_t act_size = ipc_get_arg2(&data_request_call); /* Copy the individual items. */ memcpy(buf, buffer, act_size); if (actual_size != NULL) *actual_size = act_size; if (event_nr != NULL) *event_nr = ipc_get_arg1(&opening_request_call); return EOK; } errno_t usbhid_dev_get_report_descriptor_length(async_sess_t *dev_sess, size_t *size) { if (!dev_sess) return EINVAL; async_exch_t *exch = async_exchange_begin(dev_sess); sysarg_t arg_size; errno_t rc = async_req_1_1(exch, DEV_IFACE_ID(USBHID_DEV_IFACE), IPC_M_USBHID_GET_REPORT_DESCRIPTOR_LENGTH, &arg_size); async_exchange_end(exch); if (rc == EOK) { if (size != NULL) *size = (size_t) arg_size; } return rc; } errno_t usbhid_dev_get_report_descriptor(async_sess_t *dev_sess, uint8_t *buf, size_t size, size_t *actual_size) { if (!dev_sess) return EINVAL; if (buf == NULL) return ENOMEM; if (size == 0) return EINVAL; async_exch_t *exch = async_exchange_begin(dev_sess); aid_t opening_request = async_send_1(exch, DEV_IFACE_ID(USBHID_DEV_IFACE), IPC_M_USBHID_GET_REPORT_DESCRIPTOR, NULL); if (opening_request == 0) { async_exchange_end(exch); return ENOMEM; } ipc_call_t data_request_call; aid_t data_request = async_data_read(exch, buf, size, &data_request_call); async_exchange_end(exch); if (data_request == 0) { async_forget(opening_request); return ENOMEM; } errno_t data_request_rc; errno_t opening_request_rc; async_wait_for(data_request, &data_request_rc); async_wait_for(opening_request, &opening_request_rc); if (data_request_rc != EOK) { /* Prefer return code of the opening request. */ if (opening_request_rc != EOK) return (errno_t) opening_request_rc; else return (errno_t) data_request_rc; } if (opening_request_rc != EOK) return (errno_t) opening_request_rc; size_t act_size = ipc_get_arg2(&data_request_call); if (actual_size != NULL) *actual_size = act_size; return EOK; } static void remote_usbhid_get_event_length(ddf_fun_t *, void *, ipc_call_t *); static void remote_usbhid_get_event(ddf_fun_t *, void *, ipc_call_t *); static void remote_usbhid_get_report_descriptor_length(ddf_fun_t *, void *, ipc_call_t *); static void remote_usbhid_get_report_descriptor(ddf_fun_t *, void *, ipc_call_t *); /** Remote USB HID interface operations. */ static const remote_iface_func_ptr_t remote_usbhid_iface_ops [] = { [IPC_M_USBHID_GET_EVENT_LENGTH] = remote_usbhid_get_event_length, [IPC_M_USBHID_GET_EVENT] = remote_usbhid_get_event, [IPC_M_USBHID_GET_REPORT_DESCRIPTOR_LENGTH] = remote_usbhid_get_report_descriptor_length, [IPC_M_USBHID_GET_REPORT_DESCRIPTOR] = remote_usbhid_get_report_descriptor }; /** Remote USB HID interface structure. */ const remote_iface_t remote_usbhid_iface = { .method_count = ARRAY_SIZE(remote_usbhid_iface_ops), .methods = remote_usbhid_iface_ops }; void remote_usbhid_get_event_length(ddf_fun_t *fun, void *iface, ipc_call_t *call) { printf("remote_usbhid_get_event_length()\n"); usbhid_iface_t *hid_iface = (usbhid_iface_t *) iface; if (!hid_iface->get_event_length) { printf("Get event length not set!\n"); async_answer_0(call, ENOTSUP); return; } size_t len = hid_iface->get_event_length(fun); async_answer_1(call, EOK, len); } void remote_usbhid_get_event(ddf_fun_t *fun, void *iface, ipc_call_t *call) { usbhid_iface_t *hid_iface = (usbhid_iface_t *) iface; if (!hid_iface->get_event) { async_answer_0(call, ENOTSUP); return; } unsigned int flags = DEV_IPC_GET_ARG1(*call); ipc_call_t data; size_t len; if (!async_data_read_receive(&data, &len)) { async_answer_0(call, EPARTY); return; } if (len == 0) { async_answer_0(&data, EINVAL); async_answer_0(call, EINVAL); return; } errno_t rc; uint8_t *event = malloc(len); if (event == NULL) { async_answer_0(&data, ENOMEM); async_answer_0(call, ENOMEM); return; } size_t act_length; int event_nr; rc = hid_iface->get_event(fun, event, len, &act_length, &event_nr, flags); if (rc != EOK) { free(event); async_answer_0(&data, rc); async_answer_0(call, rc); return; } if (act_length >= len) { /* This shall not happen. */ // FIXME: how about an assert here? act_length = len; } async_data_read_finalize(&data, event, act_length); free(event); async_answer_1(call, EOK, event_nr); } void remote_usbhid_get_report_descriptor_length(ddf_fun_t *fun, void *iface, ipc_call_t *call) { usbhid_iface_t *hid_iface = (usbhid_iface_t *) iface; if (!hid_iface->get_report_descriptor_length) { async_answer_0(call, ENOTSUP); return; } size_t len = hid_iface->get_report_descriptor_length(fun); async_answer_1(call, EOK, (sysarg_t) len); } void remote_usbhid_get_report_descriptor(ddf_fun_t *fun, void *iface, ipc_call_t *call) { usbhid_iface_t *hid_iface = (usbhid_iface_t *) iface; if (!hid_iface->get_report_descriptor) { async_answer_0(call, ENOTSUP); return; } ipc_call_t data; size_t len; if (!async_data_read_receive(&data, &len)) { async_answer_0(call, EINVAL); return; } if (len == 0) { async_answer_0(&data, EINVAL); async_answer_0(call, EINVAL); return; } uint8_t *descriptor = malloc(len); if (descriptor == NULL) { async_answer_0(&data, ENOMEM); async_answer_0(call, ENOMEM); return; } size_t act_len = 0; errno_t rc = hid_iface->get_report_descriptor(fun, descriptor, len, &act_len); if (act_len > len) { rc = ELIMIT; } if (rc != EOK) { free(descriptor); async_answer_0(&data, rc); async_answer_0(call, rc); return; } async_data_read_finalize(&data, descriptor, act_len); async_answer_0(call, EOK); free(descriptor); } /** * @} */