From 3061ecca3d0fdfb87dabbf5f63c9e06c2a30f53a Mon Sep 17 00:00:00 2001 From: Trygve Laugstøl Date: Thu, 23 Aug 2018 17:08:59 +0200 Subject: o Initial import. --- .../usbd/class/cdc/acm/app_usbd_cdc_acm.c | 1190 ++++++++++++++++++++ 1 file changed, 1190 insertions(+) create mode 100644 thirdparty/nRF5_SDK_15.0.0_a53641a/components/libraries/usbd/class/cdc/acm/app_usbd_cdc_acm.c (limited to 'thirdparty/nRF5_SDK_15.0.0_a53641a/components/libraries/usbd/class/cdc/acm/app_usbd_cdc_acm.c') diff --git a/thirdparty/nRF5_SDK_15.0.0_a53641a/components/libraries/usbd/class/cdc/acm/app_usbd_cdc_acm.c b/thirdparty/nRF5_SDK_15.0.0_a53641a/components/libraries/usbd/class/cdc/acm/app_usbd_cdc_acm.c new file mode 100644 index 0000000..3df941c --- /dev/null +++ b/thirdparty/nRF5_SDK_15.0.0_a53641a/components/libraries/usbd/class/cdc/acm/app_usbd_cdc_acm.c @@ -0,0 +1,1190 @@ +/** + * Copyright (c) 2016 - 2018, Nordic Semiconductor ASA + * + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, this + * list of conditions and the following disclaimer. + * + * 2. Redistributions in binary form, except as embedded into a Nordic + * Semiconductor ASA integrated circuit in a product or a software update for + * such product, 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. + * + * 3. Neither the name of Nordic Semiconductor ASA nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * 4. This software, with or without modification, must only be used with a + * Nordic Semiconductor ASA integrated circuit. + * + * 5. Any software provided in binary form under this license must not be reverse + * engineered, decompiled, modified and/or disassembled. + * + * THIS SOFTWARE IS PROVIDED BY NORDIC SEMICONDUCTOR ASA "AS IS" AND ANY EXPRESS + * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES + * OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL NORDIC SEMICONDUCTOR ASA OR CONTRIBUTORS 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. + * + */ +#include "sdk_common.h" +#if NRF_MODULE_ENABLED(APP_USBD_CDC_ACM) + +#include "app_usbd_cdc_acm.h" +#include + +/** + * @defgroup app_usbd_cdc_acm_internal CDC ACM internals + * @{ + * @ingroup app_usbd_cdc + * @internal + */ + + +#define NRF_LOG_MODULE_NAME cdc_acm + +#if APP_USBD_CDC_ACM_CONFIG_LOG_ENABLED +#define NRF_LOG_LEVEL APP_USBD_CDC_ACM_CONFIG_LOG_LEVEL +#define NRF_LOG_INFO_COLOR APP_USBD_CDC_ACM_CONFIG_INFO_COLOR +#define NRF_LOG_DEBUG_COLOR APP_USBD_CDC_ACM_CONFIG_DEBUG_COLOR +#else //APP_USBD_CDC_ACM_CONFIG_LOG_ENABLED +#define NRF_LOG_LEVEL 0 +#endif //APP_USBD_CDC_ACM_CONFIG_LOG_ENABLED +#include "nrf_log.h" +NRF_LOG_MODULE_REGISTER(); + +#define APP_USBD_CDC_ACM_COMM_IFACE_IDX 0 /**< CDC ACM class comm interface index. */ +#define APP_USBD_CDC_ACM_DATA_IFACE_IDX 1 /**< CDC ACM class data interface index. */ + +#define APP_USBD_CDC_ACM_COMM_EPIN_IDX 0 /**< CDC ACM comm class endpoint IN index. */ +#define APP_USBD_CDC_ACM_DATA_EPIN_IDX 0 /**< CDC ACM data class endpoint IN index. */ +#define APP_USBD_CDC_ACM_DATA_EPOUT_IDX 1 /**< CDC ACM data class endpoint OUT index. */ + +/** + * @brief Auxiliary function to access cdc_acm class instance data. + * + * @param[in] p_inst Class instance data. + * + * @return CDC ACM class instance. + */ +static inline app_usbd_cdc_acm_t const * cdc_acm_get(app_usbd_class_inst_t const * p_inst) +{ + ASSERT(p_inst != NULL); + return (app_usbd_cdc_acm_t const *)p_inst; +} + +/** + * @brief Auxiliary function to access cdc_acm class context data. + * + * @param[in] p_cdc_acm CDC ACM class instance data. + * + * @return CDC ACM class instance context. + */ +static inline app_usbd_cdc_acm_ctx_t * cdc_acm_ctx_get(app_usbd_cdc_acm_t const * p_cdc_acm) +{ + ASSERT(p_cdc_acm != NULL); + ASSERT(p_cdc_acm->specific.p_data != NULL); + return &p_cdc_acm->specific.p_data->ctx; +} + +/** + * @brief User event handler. + * + * @param[in] p_inst Class instance. + * @param[in] event user Event type. + */ +static inline void user_event_handler(app_usbd_class_inst_t const * p_inst, + app_usbd_cdc_acm_user_event_t event) +{ + app_usbd_cdc_acm_t const * p_cdc_acm = cdc_acm_get(p_inst); + if (p_cdc_acm->specific.inst.user_ev_handler != NULL) + { + p_cdc_acm->specific.inst.user_ev_handler(p_inst, event); + } +} + +/** + * @brief Auxiliary function to access CDC ACM COMM IN endpoint address. + * + * @param[in] p_inst Class instance data. + * + * @return IN endpoint address. + */ +static inline nrf_drv_usbd_ep_t comm_ep_in_addr_get(app_usbd_class_inst_t const * p_inst) +{ + app_usbd_class_iface_conf_t const * class_iface; + class_iface = app_usbd_class_iface_get(p_inst, APP_USBD_CDC_ACM_COMM_IFACE_IDX); + + app_usbd_class_ep_conf_t const * ep_cfg; + ep_cfg = app_usbd_class_iface_ep_get(class_iface, APP_USBD_CDC_ACM_COMM_EPIN_IDX); + + return app_usbd_class_ep_address_get(ep_cfg); +} + +/** + * @brief Auxiliary function to access CDC ACM DATA IN endpoint address. + * + * @param[in] p_inst Class instance data. + * + * @return IN endpoint address. + */ +static inline nrf_drv_usbd_ep_t data_ep_in_addr_get(app_usbd_class_inst_t const * p_inst) +{ + app_usbd_class_iface_conf_t const * class_iface; + class_iface = app_usbd_class_iface_get(p_inst, APP_USBD_CDC_ACM_DATA_IFACE_IDX); + + app_usbd_class_ep_conf_t const * ep_cfg; + ep_cfg = app_usbd_class_iface_ep_get(class_iface, APP_USBD_CDC_ACM_DATA_EPIN_IDX); + + return app_usbd_class_ep_address_get(ep_cfg); +} + +/** + * @brief Auxiliary function to access CDC ACM DATA OUT endpoint address. + * + * @param[in] p_inst Class instance data. + * + * @return OUT endpoint address. + */ +static inline nrf_drv_usbd_ep_t data_ep_out_addr_get(app_usbd_class_inst_t const * p_inst) +{ + app_usbd_class_iface_conf_t const * class_iface; + class_iface = app_usbd_class_iface_get(p_inst, APP_USBD_CDC_ACM_DATA_IFACE_IDX); + + app_usbd_class_ep_conf_t const * ep_cfg; + ep_cfg = app_usbd_class_iface_ep_get(class_iface, APP_USBD_CDC_ACM_DATA_EPOUT_IDX); + + return app_usbd_class_ep_address_get(ep_cfg); +} + +/** + * @brief Internal SETUP standard IN request handler. + * + * @param[in] p_inst Generic class instance. + * @param[in] p_setup_ev Setup event. + * + * @return Standard error code. + */ +static ret_code_t setup_req_std_in(app_usbd_class_inst_t const * p_inst, + app_usbd_setup_evt_t const * p_setup_ev) +{ + /* Only Get Descriptor standard IN request is supported by CDC class */ + if ((app_usbd_setup_req_rec(p_setup_ev->setup.bmRequestType) == APP_USBD_SETUP_REQREC_INTERFACE) + && + (p_setup_ev->setup.bmRequest == APP_USBD_SETUP_STDREQ_GET_DESCRIPTOR)) + { + size_t dsc_len = 0; + size_t max_size; + + uint8_t * p_trans_buff = app_usbd_core_setup_transfer_buff_get(&max_size); + + /* Try to find descriptor in class internals*/ + ret_code_t ret = app_usbd_class_descriptor_find( + p_inst, + p_setup_ev->setup.wValue.hb, + p_setup_ev->setup.wValue.lb, + p_trans_buff, + &dsc_len); + + if (ret != NRF_ERROR_NOT_FOUND) + { + ASSERT(dsc_len < NRF_DRV_USBD_EPSIZE); + return app_usbd_core_setup_rsp(&(p_setup_ev->setup), p_trans_buff, dsc_len); + } + } + + return NRF_ERROR_NOT_SUPPORTED; +} + +/** + * @brief Internal SETUP standard OUT request handler + * + * @param[in] p_inst Generic class instance + * @param[in] p_setup_ev Setup event + * + * @return Standard error code. + */ +static ret_code_t setup_req_std_out(app_usbd_class_inst_t const * p_inst, + app_usbd_setup_evt_t const * p_setup_ev) +{ + + switch (p_setup_ev->setup.bmRequest) + { + default: + break; + } + + return NRF_ERROR_NOT_SUPPORTED; +} + +/** + * @brief Internal SETUP class IN request handler. + * + * @param[in] p_inst Generic class instance. + * @param[in] p_setup_ev Setup event. + * + * @return Standard error code. + */ +static ret_code_t setup_req_class_in(app_usbd_class_inst_t const * p_inst, + app_usbd_setup_evt_t const * p_setup_ev) +{ + app_usbd_cdc_acm_t const * p_cdc_acm = cdc_acm_get(p_inst); + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + switch (p_setup_ev->setup.bmRequest) + { + case APP_USBD_CDC_REQ_GET_LINE_CODING: + { + if (p_setup_ev->setup.wLength.w != sizeof(app_usbd_cdc_line_coding_t)) + { + return NRF_ERROR_NOT_SUPPORTED; + } + + return app_usbd_core_setup_rsp(&p_setup_ev->setup, + &p_cdc_acm_ctx->line_coding, + sizeof(app_usbd_cdc_line_coding_t)); + } + default: + break; + } + + return NRF_ERROR_NOT_SUPPORTED; +} + +/** + * @brief Class specific OUT request data callback. + * + * @param status Endpoint status. + * @param p_context Context of transfer (set by @ref app_usbd_core_setup_data_handler_set). + * + * @return Standard error code. + */ +static ret_code_t cdc_acm_req_out_data_cb(nrf_drv_usbd_ep_status_t status, void * p_context) +{ + if (status != NRF_USBD_EP_OK) + { + return NRF_ERROR_INTERNAL; + } + + app_usbd_cdc_acm_t const * p_cdc_acm = p_context; + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + switch (p_cdc_acm_ctx->request.type) + { + case APP_USBD_CDC_REQ_SET_LINE_CODING: + { + memcpy(&p_cdc_acm_ctx->line_coding, + &p_cdc_acm_ctx->request.payload.line_coding, + sizeof(app_usbd_cdc_line_coding_t)); + + NRF_LOG_INFO("REQ_SET_LINE_CODING: baudrate: %"PRIu32", databits: %u, " + "format: %u, parity: %u", + uint32_decode(p_cdc_acm_ctx->line_coding.dwDTERate), + p_cdc_acm_ctx->line_coding.bDataBits, + p_cdc_acm_ctx->line_coding.bCharFormat, + p_cdc_acm_ctx->line_coding.bParityType); + break; + } + default: + return NRF_ERROR_NOT_SUPPORTED; + } + + return NRF_SUCCESS; +} + + +/** + * @brief Class specific request data stage setup. + * + * @param[in] p_inst Generic class instance. + * @param[in] p_setup_ev Setup event. + * + * @return Standard error code. + */ +static ret_code_t cdc_acm_req_out_datastage(app_usbd_class_inst_t const * p_inst, + app_usbd_setup_evt_t const * p_setup_ev) +{ + app_usbd_cdc_acm_t const * p_cdc_acm = cdc_acm_get(p_inst); + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + p_cdc_acm_ctx->request.type = p_setup_ev->setup.bmRequest; + p_cdc_acm_ctx->request.len = p_setup_ev->setup.wLength.w; + + /*Request setup data*/ + NRF_DRV_USBD_TRANSFER_OUT(transfer, + &p_cdc_acm_ctx->request.payload, + p_cdc_acm_ctx->request.len); + ret_code_t ret; + CRITICAL_REGION_ENTER(); + ret = app_usbd_ep_transfer(NRF_DRV_USBD_EPOUT0, &transfer); + if (ret == NRF_SUCCESS) + { + const app_usbd_core_setup_data_handler_desc_t desc = { + .handler = cdc_acm_req_out_data_cb, + .p_context = (void*)p_cdc_acm + }; + + ret = app_usbd_core_setup_data_handler_set(NRF_DRV_USBD_EPOUT0, &desc); + } + CRITICAL_REGION_EXIT(); + + return ret; +} + +/** + * @brief Reset port to default state. + * + * @param p_inst Generic class instance. + */ +static void cdc_acm_reset_port(app_usbd_class_inst_t const * p_inst) +{ + app_usbd_cdc_acm_t const * p_cdc_acm = cdc_acm_get(p_inst); + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + p_cdc_acm_ctx->line_state = 0; + + // Set rx transfers configuration to default state. + p_cdc_acm_ctx->rx_transfer[0].p_buf = NULL; + p_cdc_acm_ctx->rx_transfer[1].p_buf = NULL; + p_cdc_acm_ctx->bytes_left = 0; + p_cdc_acm_ctx->bytes_read = 0; + p_cdc_acm_ctx->last_read = 0; + p_cdc_acm_ctx->cur_read = 0; + p_cdc_acm_ctx->p_copy_pos = p_cdc_acm_ctx->internal_rx_buf; +} + +/** + * @brief Internal SETUP class OUT request handler. + * + * @param[in] p_inst Generic class instance. + * @param[in] p_setup_ev Setup event. + * + * @return Standard error code. + */ +static ret_code_t setup_req_class_out(app_usbd_class_inst_t const * p_inst, + app_usbd_setup_evt_t const * p_setup_ev) +{ + app_usbd_cdc_acm_t const * p_cdc_acm = cdc_acm_get(p_inst); + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + switch (p_setup_ev->setup.bmRequest) + { + case APP_USBD_CDC_REQ_SET_LINE_CODING: + { + if (p_setup_ev->setup.wLength.w != sizeof(app_usbd_cdc_line_coding_t)) + { + return NRF_ERROR_NOT_SUPPORTED; + } + + return cdc_acm_req_out_datastage(p_inst, p_setup_ev); + } + case APP_USBD_CDC_REQ_SET_CONTROL_LINE_STATE: + { + if (p_setup_ev->setup.wLength.w != 0) + { + return NRF_ERROR_NOT_SUPPORTED; + } + + NRF_LOG_INFO("REQ_SET_CONTROL_LINE_STATE: 0x%x", p_setup_ev->setup.wValue.w); + + bool old_dtr = (p_cdc_acm_ctx->line_state & APP_USBD_CDC_ACM_LINE_STATE_DTR) ? + true : false; + p_cdc_acm_ctx->line_state = p_setup_ev->setup.wValue.w; + + bool new_dtr = (p_cdc_acm_ctx->line_state & APP_USBD_CDC_ACM_LINE_STATE_DTR) ? + true : false; + + if (old_dtr == new_dtr) + { + return NRF_SUCCESS; + } + + const app_usbd_cdc_acm_user_event_t ev = new_dtr ? + APP_USBD_CDC_ACM_USER_EVT_PORT_OPEN : APP_USBD_CDC_ACM_USER_EVT_PORT_CLOSE; + + user_event_handler(p_inst, ev); + + if (!new_dtr) + { + /*Abort DATA endpoints on port close */ + nrf_drv_usbd_ep_t ep; + ep = data_ep_in_addr_get(p_inst); + nrf_drv_usbd_ep_abort(ep); + ep = data_ep_out_addr_get(p_inst); + nrf_drv_usbd_ep_abort(ep); + + // Set rx transfers configuration to default state. + p_cdc_acm_ctx->rx_transfer[0].p_buf = NULL; + p_cdc_acm_ctx->rx_transfer[1].p_buf = NULL; + p_cdc_acm_ctx->bytes_left = 0; + p_cdc_acm_ctx->bytes_read = 0; + p_cdc_acm_ctx->last_read = 0; + p_cdc_acm_ctx->cur_read = 0; + p_cdc_acm_ctx->p_copy_pos = p_cdc_acm_ctx->internal_rx_buf; + } + + return NRF_SUCCESS; + } + default: + break; + } + + return NRF_ERROR_NOT_SUPPORTED; +} + +/** + * @brief Control endpoint handler. + * + * @param[in] p_inst Generic class instance. + * @param[in] p_setup_ev Setup event. + * + * @return Standard error code. + */ +static ret_code_t setup_event_handler(app_usbd_class_inst_t const * p_inst, + app_usbd_setup_evt_t const * p_setup_ev) +{ + ASSERT(p_inst != NULL); + ASSERT(p_setup_ev != NULL); + + if (app_usbd_setup_req_dir(p_setup_ev->setup.bmRequestType) == APP_USBD_SETUP_REQDIR_IN) + { + switch (app_usbd_setup_req_typ(p_setup_ev->setup.bmRequestType)) + { + case APP_USBD_SETUP_REQTYPE_STD: + return setup_req_std_in(p_inst, p_setup_ev); + case APP_USBD_SETUP_REQTYPE_CLASS: + return setup_req_class_in(p_inst, p_setup_ev); + default: + break; + } + } + else /*APP_USBD_SETUP_REQDIR_OUT*/ + { + switch (app_usbd_setup_req_typ(p_setup_ev->setup.bmRequestType)) + { + case APP_USBD_SETUP_REQTYPE_STD: + return setup_req_std_out(p_inst, p_setup_ev); + case APP_USBD_SETUP_REQTYPE_CLASS: + return setup_req_class_out(p_inst, p_setup_ev); + default: + break; + } + } + + return NRF_ERROR_NOT_SUPPORTED; +} + + +/** + * @brief CDC ACM consumer + * + * @note See @ref nrf_drv_usbd_consumer_t + */ +static bool cdc_acm_consumer(nrf_drv_usbd_ep_transfer_t * p_next, + void * p_context, + size_t ep_size, + size_t data_size) +{ + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = (app_usbd_cdc_acm_ctx_t *) p_context; + p_next->size = data_size; + + if (data_size <= p_cdc_acm_ctx->rx_transfer[0].read_left) + { + p_next->p_data.rx = p_cdc_acm_ctx->rx_transfer[0].p_buf; + + p_cdc_acm_ctx->rx_transfer[0].p_buf += data_size; + p_cdc_acm_ctx->bytes_read += data_size; + p_cdc_acm_ctx->rx_transfer[0].read_left -= data_size; + NRF_LOG_DEBUG("Received %d bytes. Space left in user buffer: %d bytes.", + data_size, + p_cdc_acm_ctx->rx_transfer[0].read_left); + return (p_cdc_acm_ctx->rx_transfer[0].read_left) != 0; + } + else + { + p_next->p_data.rx = p_cdc_acm_ctx->internal_rx_buf; + + p_cdc_acm_ctx->cur_read = data_size; + NRF_LOG_DEBUG("Received %d bytes. Stored in internal buffer.", data_size); + return false; + } +} + +/** + * @brief CDC ACM single transfer consumer + * + * This function finalizes transfer after any received block + * + * @note See @ref nrf_drv_usbd_consumer_t + */ +static bool cdc_acm_single_shoot_consumer(nrf_drv_usbd_ep_transfer_t * p_next, + void * p_context, + size_t ep_size, + size_t data_size) +{ + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = (app_usbd_cdc_acm_ctx_t *) p_context; + p_next->size = data_size; + + if (data_size <= p_cdc_acm_ctx->rx_transfer[0].read_left) + { + p_next->p_data.rx = p_cdc_acm_ctx->rx_transfer[0].p_buf; + + p_cdc_acm_ctx->bytes_read = data_size; + p_cdc_acm_ctx->rx_transfer[0].read_left = data_size; + NRF_LOG_DEBUG("Received %d bytes. Space left in user buffer: %d bytes.", + data_size, + p_cdc_acm_ctx->rx_transfer[0].read_left); + } + else + { + p_next->p_data.rx = p_cdc_acm_ctx->internal_rx_buf; + p_cdc_acm_ctx->cur_read = data_size; + NRF_LOG_DEBUG("Received %d bytes. Stored in internal buffer.", data_size); + } + + return false; +} + +/** + * @brief Manage switching between user buffers and copying data from internal buffer. + * + * @param p_inst Generic USB class instance. + * + * @return Standard error code + */ +static ret_code_t cdc_acm_rx_block_finished(app_usbd_class_inst_t const * p_inst) +{ + app_usbd_cdc_acm_t const * p_cdc_acm = cdc_acm_get(p_inst); + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + nrf_drv_usbd_ep_t ep = data_ep_out_addr_get(p_inst); + + nrf_drv_usbd_handler_desc_t handler_desc = { + .handler.consumer = cdc_acm_consumer, + .p_context = p_cdc_acm_ctx + }; + + if (p_cdc_acm_ctx->rx_transfer[0].read_left == 0) // Buffer completely filled by consumer + { + p_cdc_acm_ctx->last_read = p_cdc_acm_ctx->bytes_read; + p_cdc_acm_ctx->bytes_read = 0; + p_cdc_acm_ctx->bytes_left = 0; + + if (p_cdc_acm_ctx->rx_transfer[1].p_buf != NULL) + { + p_cdc_acm_ctx->rx_transfer[0] = p_cdc_acm_ctx->rx_transfer[1]; + p_cdc_acm_ctx->rx_transfer[1].p_buf = NULL; + return app_usbd_ep_handled_transfer(ep, &handler_desc); + } + else + { + p_cdc_acm_ctx->rx_transfer[0].p_buf = NULL; + return NRF_SUCCESS; + } + } + + size_t bytes_read = p_cdc_acm_ctx->cur_read; + size_t bytes_to_cpy = bytes_read; + + if (bytes_read > p_cdc_acm_ctx->rx_transfer[0].read_left) + { + bytes_to_cpy = p_cdc_acm_ctx->rx_transfer[0].read_left; + } + memcpy(p_cdc_acm_ctx->rx_transfer[0].p_buf, + p_cdc_acm_ctx->internal_rx_buf, + bytes_to_cpy); + + // First buffer is full + p_cdc_acm_ctx->last_read = p_cdc_acm_ctx->bytes_read + bytes_to_cpy; + p_cdc_acm_ctx->bytes_read = 0; + p_cdc_acm_ctx->bytes_left = bytes_read - bytes_to_cpy; + p_cdc_acm_ctx->p_copy_pos = p_cdc_acm_ctx->internal_rx_buf + bytes_to_cpy; + + if (p_cdc_acm_ctx->rx_transfer[1].p_buf != NULL) + { + // If there is second transfer, copy it to first + p_cdc_acm_ctx->rx_transfer[0] = p_cdc_acm_ctx->rx_transfer[1]; + p_cdc_acm_ctx->rx_transfer[1].p_buf = NULL; + + while (p_cdc_acm_ctx->bytes_left > 0) + { + + if (p_cdc_acm_ctx->bytes_left >= p_cdc_acm_ctx->rx_transfer[0].read_left) + { + // If there are enough bytes left in internal buffer to completely fill next transfer, + // we call user event handler to obtain next buffer and continue double buffering. + memcpy(p_cdc_acm_ctx->rx_transfer[0].p_buf, + p_cdc_acm_ctx->p_copy_pos, + p_cdc_acm_ctx->rx_transfer[0].read_left); + + p_cdc_acm_ctx->bytes_left -= p_cdc_acm_ctx->rx_transfer[0].read_left; + p_cdc_acm_ctx->p_copy_pos += p_cdc_acm_ctx->rx_transfer[0].read_left; + p_cdc_acm_ctx->last_read = p_cdc_acm_ctx->rx_transfer[0].read_left; + user_event_handler(p_inst, APP_USBD_CDC_ACM_USER_EVT_RX_DONE); + + if (p_cdc_acm_ctx->rx_transfer[1].p_buf != NULL) + { + p_cdc_acm_ctx->rx_transfer[0] = p_cdc_acm_ctx->rx_transfer[1]; + p_cdc_acm_ctx->rx_transfer[1].p_buf = NULL; + } + else + { + // If user does not specify a second buffer, all data transfers are done + // and data left in internal buffer is lost. + p_cdc_acm_ctx->rx_transfer[0].p_buf = NULL; + break; + } + } + else + { + memcpy(p_cdc_acm_ctx->rx_transfer[0].p_buf, + p_cdc_acm_ctx->p_copy_pos, + p_cdc_acm_ctx->bytes_left); + p_cdc_acm_ctx->bytes_read = p_cdc_acm_ctx->bytes_left; + + p_cdc_acm_ctx->rx_transfer[0].read_left -= p_cdc_acm_ctx->bytes_left; + p_cdc_acm_ctx->rx_transfer[0].p_buf += p_cdc_acm_ctx->bytes_left; + break; + } + } + + + } + else + { + p_cdc_acm_ctx->rx_transfer[0].p_buf = NULL; + } + + if (p_cdc_acm_ctx->rx_transfer[0].p_buf != NULL) + { + return app_usbd_ep_handled_transfer(ep, &handler_desc); + } + return NRF_SUCCESS; +} + +/** + * @brief Class specific endpoint transfer handler. + * + * @param[in] p_inst Generic class instance. + * @param[in] p_setup_ev Setup event. + * + * @return Standard error code. + */ +static ret_code_t cdc_acm_endpoint_ev(app_usbd_class_inst_t const * p_inst, + app_usbd_complex_evt_t const * p_event) +{ + if (comm_ep_in_addr_get(p_inst) == p_event->drv_evt.data.eptransfer.ep) + { + NRF_LOG_INFO("EPIN_COMM: notify"); + return NRF_SUCCESS; + } + ret_code_t ret; + if (NRF_USBD_EPIN_CHECK(p_event->drv_evt.data.eptransfer.ep)) + { + switch (p_event->drv_evt.data.eptransfer.status) + { + case NRF_USBD_EP_OK: + NRF_LOG_INFO("EPIN_DATA: %02x done", p_event->drv_evt.data.eptransfer.ep); + user_event_handler(p_inst, APP_USBD_CDC_ACM_USER_EVT_TX_DONE); + return NRF_SUCCESS; + case NRF_USBD_EP_ABORTED: + return NRF_SUCCESS; + default: + return NRF_ERROR_INTERNAL; + } + } + + if (NRF_USBD_EPOUT_CHECK(p_event->drv_evt.data.eptransfer.ep)) + { + switch (p_event->drv_evt.data.eptransfer.status) + { + case NRF_USBD_EP_OK: + ret = cdc_acm_rx_block_finished(p_inst); + NRF_LOG_INFO("EPOUT_DATA: %02x done", p_event->drv_evt.data.eptransfer.ep); + user_event_handler(p_inst, APP_USBD_CDC_ACM_USER_EVT_RX_DONE); + return ret; + case NRF_USBD_EP_WAITING: + case NRF_USBD_EP_ABORTED: + return NRF_SUCCESS; + default: + return NRF_ERROR_INTERNAL; + } + } + + return NRF_ERROR_NOT_SUPPORTED; +} + + +/** + * @brief @ref app_usbd_class_methods_t::event_handler + */ +static ret_code_t cdc_acm_event_handler(app_usbd_class_inst_t const * p_inst, + app_usbd_complex_evt_t const * p_event) +{ + ASSERT(p_inst != NULL); + ASSERT(p_event != NULL); + + ret_code_t ret = NRF_SUCCESS; + switch (p_event->app_evt.type) + { + case APP_USBD_EVT_DRV_SOF: + break; + case APP_USBD_EVT_DRV_RESET: + cdc_acm_reset_port(p_inst); + break; + case APP_USBD_EVT_DRV_SETUP: + ret = setup_event_handler(p_inst, (app_usbd_setup_evt_t const *)p_event); + break; + case APP_USBD_EVT_DRV_EPTRANSFER: + ret = cdc_acm_endpoint_ev(p_inst, p_event); + break; + case APP_USBD_EVT_DRV_SUSPEND: + break; + case APP_USBD_EVT_DRV_RESUME: + break; + case APP_USBD_EVT_INST_APPEND: + break; + case APP_USBD_EVT_INST_REMOVE: + break; + case APP_USBD_EVT_STARTED: + break; + case APP_USBD_EVT_STOPPED: + break; + case APP_USBD_EVT_POWER_REMOVED: + cdc_acm_reset_port(p_inst); + break; + default: + ret = NRF_ERROR_NOT_SUPPORTED; + break; + } + + return ret; +} + + +static bool cdc_acm_feed_descriptors(app_usbd_class_descriptor_ctx_t * p_ctx, + app_usbd_class_inst_t const * p_inst, + uint8_t * p_buff, + size_t max_size) +{ + static uint8_t ifaces = 0; + ifaces = app_usbd_class_iface_count_get(p_inst); + app_usbd_cdc_acm_t const * p_cdc_acm = cdc_acm_get(p_inst); + + APP_USBD_CLASS_DESCRIPTOR_BEGIN(p_ctx, p_buff, max_size); + + /* INTERFACE ASSOCIATION DESCRIPTOR */ + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x08); // bLength + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_DESCRIPTOR_INTERFACE_ASSOCIATION); // bDescriptorType = Interface Association + APP_USBD_CLASS_DESCRIPTOR_WRITE(p_cdc_acm->specific.inst.comm_interface); // bFirstInterface + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x02); // bInterfaceCount + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_COMM_CLASS); // bFunctionClass + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_SUBCLASS_ACM); // bFunctionSubClass + APP_USBD_CLASS_DESCRIPTOR_WRITE(p_cdc_acm->specific.inst.protocol); // bFunctionProtocol + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x00); // iFunction + + static uint8_t i = 0; + + for (i = 0; i < ifaces; i++) + { + /* INTERFACE DESCRIPTOR */ + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x09); // bLength + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_DESCRIPTOR_INTERFACE); // bDescriptorType = Interface + + static app_usbd_class_iface_conf_t const * p_cur_iface = NULL; + p_cur_iface = app_usbd_class_iface_get(p_inst, i); + + APP_USBD_CLASS_DESCRIPTOR_WRITE(app_usbd_class_iface_number_get(p_cur_iface)); // bInterfaceNumber + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x00); // bAlternateSetting + APP_USBD_CLASS_DESCRIPTOR_WRITE(app_usbd_class_iface_ep_count_get(p_cur_iface)); // bNumEndpoints + + if (p_cdc_acm->specific.inst.comm_interface == app_usbd_class_iface_number_get(p_cur_iface)) + { + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_COMM_CLASS); // bInterfaceClass = CDC COMM + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_SUBCLASS_ACM); // bInterfaceSubclass + APP_USBD_CLASS_DESCRIPTOR_WRITE(p_cdc_acm->specific.inst.protocol); // bInterfaceProtocol + } + else if (p_cdc_acm->specific.inst.data_interface == + app_usbd_class_iface_number_get(p_cur_iface)) + { + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_DATA_CLASS); // bInterfaceClass = CDC DATA + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x00); // bInterfaceSubclass + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x00); // bInterfaceProtocol + } + else + { + ASSERT(0); + } + + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x00); // iInterface + + if (p_cdc_acm->specific.inst.comm_interface == app_usbd_class_iface_number_get(p_cur_iface)) + { + /* HEADER DESCRIPTOR */ + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x05); // bLength + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_CS_INTERFACE); // bDescriptorType = Class Specific Interface + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_SCS_HEADER); // bDescriptorSubtype = Header Functional Descriptor + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x10); // bcdCDC LSB + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x01); // bcdCDC MSB + + /* CALL MANAGEMENT DESCRIPTOR */ + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x05); // bLength + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_CS_INTERFACE); // bDescriptorType = Class Specific Interface + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_SCS_CALL_MGMT); // bDescriptorSubtype = Call Management Functional Descriptor + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x03); // bmCapabilities + APP_USBD_CLASS_DESCRIPTOR_WRITE(p_cdc_acm->specific.inst.data_interface); // bDataInterface + + /* ABSTRACT CONTROL MANAGEMENT DESCRIPTOR */ + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x04); // bLength + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_CS_INTERFACE); // bDescriptorType = Class Specific Interface + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_SCS_ACM); // bDescriptorSubtype = Abstract Control Management Functional Descriptor + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x02); // bmCapabilities + + /* UNION DESCRIPTOR */ + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x05); + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_CS_INTERFACE); // bDescriptorType = Class Specific Interface + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_CDC_SCS_UNION); // bDescriptorSubtype = Union Functional Descriptor + APP_USBD_CLASS_DESCRIPTOR_WRITE(p_cdc_acm->specific.inst.comm_interface); // bControlInterface + APP_USBD_CLASS_DESCRIPTOR_WRITE(p_cdc_acm->specific.inst.data_interface); // bSubordinateInterface + } + else if (p_cdc_acm->specific.inst.data_interface == + app_usbd_class_iface_number_get(p_cur_iface)) + { + ; + } + else + { + ASSERT(0); + } + + /* ENDPOINT DESCRIPTORS */ + static uint8_t endpoints = 0; + endpoints = app_usbd_class_iface_ep_count_get(p_cur_iface); + + static uint8_t j = 0; + + for (j = 0; j < endpoints; j++) + { + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x07); // bLength + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_DESCRIPTOR_ENDPOINT); // bDescriptorType = Endpoint + + static app_usbd_class_ep_conf_t const * p_cur_ep = NULL; + p_cur_ep = app_usbd_class_iface_ep_get(p_cur_iface, j); + APP_USBD_CLASS_DESCRIPTOR_WRITE(app_usbd_class_ep_address_get(p_cur_ep)); // bEndpointAddress + + if (p_cdc_acm->specific.inst.comm_interface == + app_usbd_class_iface_number_get(p_cur_iface)) + { + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_DESCRIPTOR_EP_ATTR_TYPE_INTERRUPT); // bmAttributes + } + else if (p_cdc_acm->specific.inst.data_interface == + app_usbd_class_iface_number_get(p_cur_iface)) + { + APP_USBD_CLASS_DESCRIPTOR_WRITE(APP_USBD_DESCRIPTOR_EP_ATTR_TYPE_BULK); // bmAttributes + } + else + { + ASSERT(0); + } + + APP_USBD_CLASS_DESCRIPTOR_WRITE(LSB_16(NRF_DRV_USBD_EPSIZE)); // wMaxPacketSize LSB + APP_USBD_CLASS_DESCRIPTOR_WRITE(MSB_16(NRF_DRV_USBD_EPSIZE)); // wMaxPacketSize MSB + + if (p_cdc_acm->specific.inst.comm_interface == + app_usbd_class_iface_number_get(p_cur_iface)) + { + APP_USBD_CLASS_DESCRIPTOR_WRITE(16); // bInterval + } + else if (p_cdc_acm->specific.inst.data_interface == + app_usbd_class_iface_number_get(p_cur_iface)) + { + APP_USBD_CLASS_DESCRIPTOR_WRITE(0x00); // bInterval + } + else + { + ASSERT(0); + } + + } + + } + + APP_USBD_CLASS_DESCRIPTOR_END(); +} + +/** + * @brief Public cdc_acm class interface + * + */ +const app_usbd_class_methods_t app_usbd_cdc_acm_class_methods = { + .event_handler = cdc_acm_event_handler, + .feed_descriptors = cdc_acm_feed_descriptors, +}; + +/** @} */ + +ret_code_t app_usbd_cdc_acm_write(app_usbd_cdc_acm_t const * p_cdc_acm, + const void * p_buf, + size_t length) +{ + app_usbd_class_inst_t const * p_inst = app_usbd_cdc_acm_class_inst_get(p_cdc_acm); + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + bool dtr_state = (p_cdc_acm_ctx->line_state & APP_USBD_CDC_ACM_LINE_STATE_DTR) ? + true : false; + if (!dtr_state) + { + /*Port is not opened*/ + return NRF_ERROR_INVALID_STATE; + } + + nrf_drv_usbd_ep_t ep = data_ep_in_addr_get(p_inst); + NRF_DRV_USBD_TRANSFER_IN(transfer, p_buf, length); + return app_usbd_ep_transfer(ep, &transfer); +} + +size_t app_usbd_cdc_acm_rx_size(app_usbd_cdc_acm_t const * p_cdc_acm) +{ + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + return p_cdc_acm_ctx->last_read; +} + +size_t app_usbd_cdc_acm_bytes_stored(app_usbd_cdc_acm_t const * p_cdc_acm) +{ + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + return p_cdc_acm_ctx->bytes_left; +} + +ret_code_t app_usbd_cdc_acm_read(app_usbd_cdc_acm_t const * p_cdc_acm, + void * p_buf, + size_t length) +{ + ASSERT(p_buf != NULL); + ret_code_t ret; + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + if (0U == (p_cdc_acm_ctx->line_state & APP_USBD_CDC_ACM_LINE_STATE_DTR)) + { + /*Port is not opened*/ + return NRF_ERROR_INVALID_STATE; + } + +#if (APP_USBD_CONFIG_EVENT_QUEUE_ENABLE == 0) + CRITICAL_REGION_ENTER(); +#endif // (APP_USBD_CONFIG_EVENT_QUEUE_ENABLE == 0) + + if (p_cdc_acm_ctx->rx_transfer[0].p_buf == NULL) + { + if (p_cdc_acm_ctx->bytes_left >= length) + { + memcpy(p_buf, p_cdc_acm_ctx->p_copy_pos, length); + p_cdc_acm_ctx->bytes_left -= length; + p_cdc_acm_ctx->p_copy_pos += length; + p_cdc_acm_ctx->last_read = length; + ret = NRF_SUCCESS; + } + else + { + p_cdc_acm_ctx->rx_transfer[0].p_buf = p_buf; + p_cdc_acm_ctx->rx_transfer[0].read_left = length; + nrf_drv_usbd_ep_t ep = data_ep_out_addr_get(app_usbd_cdc_acm_class_inst_get(p_cdc_acm)); + nrf_drv_usbd_handler_desc_t const handler_desc = { + .handler.consumer = cdc_acm_consumer, + .p_context = p_cdc_acm_ctx + }; + + if (p_cdc_acm_ctx->bytes_left > 0) + { + memcpy(p_cdc_acm_ctx->rx_transfer[0].p_buf, + p_cdc_acm_ctx->p_copy_pos, + p_cdc_acm_ctx->bytes_left); + p_cdc_acm_ctx->rx_transfer[0].read_left -= p_cdc_acm_ctx->bytes_left; + p_cdc_acm_ctx->rx_transfer[0].p_buf += p_cdc_acm_ctx->bytes_left; + p_cdc_acm_ctx->bytes_read = p_cdc_acm_ctx->bytes_left; + p_cdc_acm_ctx->bytes_left = 0; + + } + ret = app_usbd_ep_handled_transfer(ep, &handler_desc); + if (ret == NRF_SUCCESS) + { + ret = NRF_ERROR_IO_PENDING; + } + } + } + else if (p_cdc_acm_ctx->rx_transfer[1].p_buf == NULL) + { + p_cdc_acm_ctx->rx_transfer[1].p_buf = p_buf; + p_cdc_acm_ctx->rx_transfer[1].read_left = length; + ret = NRF_ERROR_IO_PENDING; + } + else + { + ret = NRF_ERROR_BUSY; + } +#if (APP_USBD_CONFIG_EVENT_QUEUE_ENABLE == 0) + CRITICAL_REGION_EXIT(); +#endif // (APP_USBD_CONFIG_EVENT_QUEUE_ENABLE == 0) + + return ret; +} + +ret_code_t app_usbd_cdc_acm_read_any(app_usbd_cdc_acm_t const * p_cdc_acm, + void * p_buf, + size_t length) +{ + ASSERT(p_buf != NULL); + ret_code_t ret; + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + if (0U == (p_cdc_acm_ctx->line_state & APP_USBD_CDC_ACM_LINE_STATE_DTR)) + { + /*Port is not opened*/ + return NRF_ERROR_INVALID_STATE; + } + +#if (APP_USBD_CONFIG_EVENT_QUEUE_ENABLE == 0) + CRITICAL_REGION_ENTER(); +#endif // (APP_USBD_CONFIG_EVENT_QUEUE_ENABLE == 0) + if (p_cdc_acm_ctx->bytes_left > 0) + { + size_t to_copy = MIN(length, p_cdc_acm_ctx->bytes_left); + memcpy(p_buf, p_cdc_acm_ctx->p_copy_pos, to_copy); + p_cdc_acm_ctx->bytes_left -= to_copy; + p_cdc_acm_ctx->p_copy_pos += to_copy; + p_cdc_acm_ctx->last_read = to_copy; + ret = NRF_SUCCESS; + } + else + { + if (p_cdc_acm_ctx->rx_transfer[0].p_buf == NULL) + { + p_cdc_acm_ctx->rx_transfer[0].p_buf = p_buf; + p_cdc_acm_ctx->rx_transfer[0].read_left = length; + nrf_drv_usbd_ep_t ep = data_ep_out_addr_get(app_usbd_cdc_acm_class_inst_get(p_cdc_acm)); + nrf_drv_usbd_handler_desc_t const handler_desc = { + .handler.consumer = cdc_acm_single_shoot_consumer, + .p_context = p_cdc_acm_ctx + }; + + ret = app_usbd_ep_handled_transfer(ep, &handler_desc); + if (ret == NRF_SUCCESS) + { + ret = NRF_ERROR_IO_PENDING; + } + } + else + { + ret = NRF_ERROR_BUSY; + } + } + +#if (APP_USBD_CONFIG_EVENT_QUEUE_ENABLE == 0) + CRITICAL_REGION_EXIT(); +#endif // (APP_USBD_CONFIG_EVENT_QUEUE_ENABLE == 0) + + return ret; +} + +static ret_code_t cdc_acm_serial_state_notify(app_usbd_cdc_acm_t const * p_cdc_acm) +{ + app_usbd_class_inst_t const * p_inst = app_usbd_cdc_acm_class_inst_get(p_cdc_acm); + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + nrf_drv_usbd_ep_t ep = comm_ep_in_addr_get(p_inst); + + NRF_DRV_USBD_TRANSFER_OUT(transfer, + &p_cdc_acm_ctx->request.payload, + sizeof(app_usbd_cdc_acm_notify_t)); + return app_usbd_ep_transfer(ep, &transfer); +} + +ret_code_t app_usbd_cdc_acm_serial_state_notify(app_usbd_cdc_acm_t const * p_cdc_acm, + app_usbd_cdc_acm_serial_state_t serial_state, + bool value) +{ + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + ret_code_t ret; + CRITICAL_REGION_ENTER(); + ret = NRF_SUCCESS; + switch (serial_state) + { + case APP_USBD_CDC_ACM_SERIAL_STATE_DCD: + case APP_USBD_CDC_ACM_SERIAL_STATE_DSR: + case APP_USBD_CDC_ACM_SERIAL_STATE_BREAK: + case APP_USBD_CDC_ACM_SERIAL_STATE_RING: + case APP_USBD_CDC_ACM_SERIAL_STATE_FRAMING: + case APP_USBD_CDC_ACM_SERIAL_STATE_PARITY: + case APP_USBD_CDC_ACM_SERIAL_STATE_OVERRUN: + + if (value) + { + p_cdc_acm_ctx->serial_state |= serial_state; + } + else + { + p_cdc_acm_ctx->serial_state &= ~serial_state; + } + + break; + default: + ret = NRF_ERROR_NOT_SUPPORTED; + break; + } + + if (ret == NRF_SUCCESS) + { + app_usbd_cdc_acm_notify_t * notify = &p_cdc_acm_ctx->request.payload.notify; + notify->cdc_notify.bmRequestType = app_usbd_setup_req_val(APP_USBD_SETUP_REQREC_INTERFACE, + APP_USBD_SETUP_REQTYPE_CLASS, + APP_USBD_SETUP_REQDIR_IN); + notify->cdc_notify.bmRequest = APP_USBD_CDC_NOTIF_SERIAL_STATE; + notify->cdc_notify.wValue = 0; + notify->cdc_notify.wIndex = 0; + notify->cdc_notify.wLength = sizeof(notify->serial_state); + + notify->serial_state = p_cdc_acm_ctx->serial_state; + + ret = cdc_acm_serial_state_notify(p_cdc_acm); + } + CRITICAL_REGION_EXIT(); + + return ret; +} + +ret_code_t app_usbd_cdc_acm_line_state_get(app_usbd_cdc_acm_t const * p_cdc_acm, + app_usbd_cdc_acm_line_state_t line_state, + uint32_t * value) +{ + app_usbd_cdc_acm_ctx_t * p_cdc_acm_ctx = cdc_acm_ctx_get(p_cdc_acm); + + ret_code_t ret; + CRITICAL_REGION_ENTER(); + ret = NRF_SUCCESS; + switch (line_state) + { + case APP_USBD_CDC_ACM_LINE_STATE_DTR: + case APP_USBD_CDC_ACM_LINE_STATE_RTS: + *value = (p_cdc_acm_ctx->line_state & line_state) != 0; + break; + default: + ret = NRF_ERROR_NOT_SUPPORTED; + break; + } + CRITICAL_REGION_EXIT(); + + return ret; +} + +#endif //NRF_MODULE_ENABLED(APP_USBD_CDC_ACM) -- cgit v1.2.3