/** ****************************************************************************** * @addtogroup PIOS PIOS Core hardware abstraction layer * @{ * @addtogroup PIOS_USB_COM USB COM Functions * @brief PIOS USB COM implementation for CDC interfaces * @notes This implements a CDC Serial Port * @{ * * @file pios_usb_com_cdc.c * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * @brief USB COM functions (STM32 dependent code) * @see The GNU Public License (GPL) Version 3 * *****************************************************************************/ /* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "pios.h" #ifdef PIOS_INCLUDE_USB_CDC #include "pios_usb_cdc_priv.h" #include "pios_usb_board_data.h" /* PIOS_BOARD_*_DATA_LENGTH */ #include "pios_usbhook.h" /* PIOS_USBHOOK_* */ /* Implement COM layer driver API */ static void PIOS_USB_CDC_RegisterTxCallback(uint32_t usbcdc_id, pios_com_callback tx_out_cb, uint32_t context); static void PIOS_USB_CDC_RegisterRxCallback(uint32_t usbcdc_id, pios_com_callback rx_in_cb, uint32_t context); static void PIOS_USB_CDC_TxStart(uint32_t usbcdc_id, uint16_t tx_bytes_avail); static void PIOS_USB_CDC_RxStart(uint32_t usbcdc_id, uint16_t rx_bytes_avail); static bool PIOS_USB_CDC_Available(uint32_t usbcdc_id); const struct pios_com_driver pios_usb_cdc_com_driver = { .tx_start = PIOS_USB_CDC_TxStart, .rx_start = PIOS_USB_CDC_RxStart, .bind_tx_cb = PIOS_USB_CDC_RegisterTxCallback, .bind_rx_cb = PIOS_USB_CDC_RegisterRxCallback, .available = PIOS_USB_CDC_Available, }; enum pios_usb_cdc_dev_magic { PIOS_USB_CDC_DEV_MAGIC = 0xAABBCCDD, }; struct pios_usb_cdc_dev { enum pios_usb_cdc_dev_magic magic; const struct pios_usb_cdc_cfg *cfg; uint32_t lower_id; pios_com_callback rx_in_cb; uint32_t rx_in_context; pios_com_callback tx_out_cb; uint32_t tx_out_context; bool usb_ctrl_if_enabled; bool usb_data_if_enabled; uint8_t rx_packet_buffer[PIOS_USB_BOARD_CDC_DATA_LENGTH] __attribute__((aligned(4))); volatile bool rx_active; /* * NOTE: This is -1 as somewhat of a hack. It ensures that we always send packets * that are strictly < maxPacketSize for this interface which means we never have * to bother with zero length packets (ZLP). */ uint8_t tx_packet_buffer[PIOS_USB_BOARD_CDC_DATA_LENGTH - 1] __attribute__((aligned(4))); volatile bool tx_active; uint8_t ctrl_tx_packet_buffer[PIOS_USB_BOARD_CDC_MGMT_LENGTH] __attribute__((aligned(4))); uint32_t rx_dropped; uint32_t rx_oversize; /* * Used to hold the current state of the simulated UART. Changes to this * variable may trigger new USB CDC Notification packets to be sent to the host. */ volatile uint16_t prev_uart_state; }; static bool PIOS_USB_CDC_validate(struct pios_usb_cdc_dev *usb_cdc_dev) { return usb_cdc_dev && (usb_cdc_dev->magic == PIOS_USB_CDC_DEV_MAGIC); } #if defined(PIOS_INCLUDE_FREERTOS) static struct pios_usb_cdc_dev *PIOS_USB_CDC_alloc(void) { struct pios_usb_cdc_dev *usb_cdc_dev; usb_cdc_dev = (struct pios_usb_cdc_dev *)pvPortMalloc(sizeof(struct pios_usb_cdc_dev)); if (!usb_cdc_dev) { return NULL; } memset(usb_cdc_dev, 0, sizeof(struct pios_usb_cdc_dev)); usb_cdc_dev->magic = PIOS_USB_CDC_DEV_MAGIC; return usb_cdc_dev; } #else static struct pios_usb_cdc_dev pios_usb_cdc_devs[PIOS_USB_CDC_MAX_DEVS]; static uint8_t pios_usb_cdc_num_devs; static struct pios_usb_cdc_dev *PIOS_USB_CDC_alloc(void) { struct pios_usb_cdc_dev *usb_cdc_dev; if (pios_usb_cdc_num_devs >= PIOS_USB_CDC_MAX_DEVS) { return NULL; } usb_cdc_dev = &pios_usb_cdc_devs[pios_usb_cdc_num_devs++]; memset(usb_cdc_dev, 0, sizeof(struct pios_usb_cdc_dev)); usb_cdc_dev->magic = PIOS_USB_CDC_DEV_MAGIC; return usb_cdc_dev; } #endif /* if defined(PIOS_INCLUDE_FREERTOS) */ /* Implement USB_IFOPS for CDC Control Interface */ static void PIOS_USB_CDC_CTRL_IF_Init(uint32_t usb_cdc_id); static void PIOS_USB_CDC_CTRL_IF_DeInit(uint32_t usb_cdc_id); static bool PIOS_USB_CDC_CTRL_IF_Setup(uint32_t usb_cdc_id, struct usb_setup_request *req); static void PIOS_USB_CDC_CTRL_IF_CtrlDataOut(uint32_t usb_cdc_id, const struct usb_setup_request *req); static struct pios_usb_ifops usb_cdc_ctrl_ifops = { .init = PIOS_USB_CDC_CTRL_IF_Init, .deinit = PIOS_USB_CDC_CTRL_IF_DeInit, .setup = PIOS_USB_CDC_CTRL_IF_Setup, .ctrl_data_out = PIOS_USB_CDC_CTRL_IF_CtrlDataOut, }; /* Implement USB_IFOPS for CDC Data Interface */ static void PIOS_USB_CDC_DATA_IF_Init(uint32_t usb_cdc_id); static void PIOS_USB_CDC_DATA_IF_DeInit(uint32_t usb_cdc_id); static bool PIOS_USB_CDC_DATA_IF_Setup(uint32_t usb_cdc_id, struct usb_setup_request *req); static void PIOS_USB_CDC_DATA_IF_CtrlDataOut(uint32_t usb_cdc_id, const struct usb_setup_request *req); static struct pios_usb_ifops usb_cdc_data_ifops = { .init = PIOS_USB_CDC_DATA_IF_Init, .deinit = PIOS_USB_CDC_DATA_IF_DeInit, .setup = PIOS_USB_CDC_DATA_IF_Setup, .ctrl_data_out = PIOS_USB_CDC_DATA_IF_CtrlDataOut, }; static uint32_t pios_usb_cdc_id; int32_t PIOS_USB_CDC_Init(uint32_t *usbcdc_id, const struct pios_usb_cdc_cfg *cfg, uint32_t lower_id) { PIOS_Assert(usbcdc_id); PIOS_Assert(cfg); struct pios_usb_cdc_dev *usb_cdc_dev; usb_cdc_dev = (struct pios_usb_cdc_dev *)PIOS_USB_CDC_alloc(); if (!usb_cdc_dev) { goto out_fail; } /* Bind the configuration to the device instance */ usb_cdc_dev->cfg = cfg; usb_cdc_dev->lower_id = lower_id; pios_usb_cdc_id = (uint32_t)usb_cdc_dev; /* Rx and Tx are not active yet */ usb_cdc_dev->rx_active = false; usb_cdc_dev->tx_active = false; /* Clear stats */ usb_cdc_dev->rx_dropped = 0; usb_cdc_dev->rx_oversize = 0; /* Initialize the uart state */ usb_cdc_dev->prev_uart_state = 0; /* Register class specific interface callbacks with the USBHOOK layer */ usb_cdc_dev->usb_ctrl_if_enabled = false; PIOS_USBHOOK_RegisterIfOps(cfg->ctrl_if, &usb_cdc_ctrl_ifops, (uint32_t)usb_cdc_dev); /* Register class specific interface callbacks with the USBHOOK layer */ usb_cdc_dev->usb_data_if_enabled = false; PIOS_USBHOOK_RegisterIfOps(cfg->data_if, &usb_cdc_data_ifops, (uint32_t)usb_cdc_dev); *usbcdc_id = (uint32_t)usb_cdc_dev; return 0; out_fail: return -1; } static bool PIOS_USB_CDC_SendData(struct pios_usb_cdc_dev *usb_cdc_dev) { uint16_t bytes_to_tx; if (!usb_cdc_dev->tx_out_cb) { return false; } bool need_yield = false; bytes_to_tx = (usb_cdc_dev->tx_out_cb)(usb_cdc_dev->tx_out_context, usb_cdc_dev->tx_packet_buffer, sizeof(usb_cdc_dev->tx_packet_buffer), NULL, &need_yield); if (bytes_to_tx == 0) { return false; } /* * Mark this endpoint as being tx active _before_ actually transmitting * to make sure we don't race with the Tx completion interrupt */ usb_cdc_dev->tx_active = true; PIOS_USBHOOK_EndpointTx(usb_cdc_dev->cfg->data_tx_ep, usb_cdc_dev->tx_packet_buffer, bytes_to_tx); #if defined(PIOS_INCLUDE_FREERTOS) if (need_yield) { vPortYieldFromISR(); } #endif /* PIOS_INCLUDE_FREERTOS */ return true; } static void PIOS_USB_CDC_RxStart(uint32_t usbcdc_id, uint16_t rx_bytes_avail) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usbcdc_id; bool valid = PIOS_USB_CDC_validate(usb_cdc_dev); PIOS_Assert(valid); /* Make sure this USB interface has been initialized */ if (!usb_cdc_dev->usb_data_if_enabled) { return; } if (!PIOS_USB_CheckAvailable(usb_cdc_dev->lower_id)) { return; } // If endpoint was stalled and there is now space make it valid if (!usb_cdc_dev->rx_active && (rx_bytes_avail >= PIOS_USB_BOARD_CDC_DATA_LENGTH)) { PIOS_USBHOOK_EndpointRx(usb_cdc_dev->cfg->data_rx_ep, usb_cdc_dev->rx_packet_buffer, sizeof(usb_cdc_dev->rx_packet_buffer)); usb_cdc_dev->rx_active = true; } } static void PIOS_USB_CDC_TxStart(uint32_t usbcdc_id, __attribute__((unused)) uint16_t tx_bytes_avail) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usbcdc_id; bool valid = PIOS_USB_CDC_validate(usb_cdc_dev); PIOS_Assert(valid); /* Make sure this USB interface has been initialized */ if (!usb_cdc_dev->usb_data_if_enabled) { return; } if (!PIOS_USB_CheckAvailable(usb_cdc_dev->lower_id)) { return; } if (!usb_cdc_dev->tx_active) { /* Transmitter is not currently active, send a report */ PIOS_USB_CDC_SendData(usb_cdc_dev); } } static void PIOS_USB_CDC_RegisterRxCallback(uint32_t usbcdc_id, pios_com_callback rx_in_cb, uint32_t context) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usbcdc_id; bool valid = PIOS_USB_CDC_validate(usb_cdc_dev); PIOS_Assert(valid); /* * Order is important in these assignments since ISR uses _cb * field to determine if it's ok to dereference _cb and _context */ usb_cdc_dev->rx_in_context = context; usb_cdc_dev->rx_in_cb = rx_in_cb; } static void PIOS_USB_CDC_RegisterTxCallback(uint32_t usbcdc_id, pios_com_callback tx_out_cb, uint32_t context) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usbcdc_id; bool valid = PIOS_USB_CDC_validate(usb_cdc_dev); PIOS_Assert(valid); /* * Order is important in these assignments since ISR uses _cb * field to determine if it's ok to dereference _cb and _context */ usb_cdc_dev->tx_out_context = context; usb_cdc_dev->tx_out_cb = tx_out_cb; } static bool PIOS_USB_CDC_CTRL_EP_IN_Callback(uint32_t usb_cdc_id, uint8_t epnum, uint16_t len); static void PIOS_USB_CDC_CTRL_IF_Init(uint32_t usb_cdc_id) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usb_cdc_id; if (!PIOS_USB_CDC_validate(usb_cdc_dev)) { return; } /* Register endpoint specific callbacks with the USBHOOK layer */ PIOS_USBHOOK_RegisterEpInCallback(usb_cdc_dev->cfg->ctrl_tx_ep, sizeof(usb_cdc_dev->ctrl_tx_packet_buffer), PIOS_USB_CDC_CTRL_EP_IN_Callback, (uint32_t)usb_cdc_dev); usb_cdc_dev->usb_ctrl_if_enabled = true; } static void PIOS_USB_CDC_CTRL_IF_DeInit(uint32_t usb_cdc_id) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usb_cdc_id; if (!PIOS_USB_CDC_validate(usb_cdc_dev)) { return; } /* DeRegister endpoint specific callbacks with the USBHOOK layer */ usb_cdc_dev->usb_data_if_enabled = false; } static uint8_t cdc_altset; static struct usb_cdc_line_coding line_coding = { .dwDTERate = htousbl(57600), .bCharFormat = USB_CDC_LINE_CODING_STOP_1, .bParityType = USB_CDC_LINE_CODING_PARITY_NONE, .bDataBits = 8, }; static uint16_t control_line_state; static bool PIOS_USB_CDC_CTRL_IF_Setup(uint32_t usb_cdc_id, struct usb_setup_request *req) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usb_cdc_id; if (!PIOS_USB_CDC_validate(usb_cdc_dev)) { return false; } /* Make sure this is a request for an interface we know about */ uint8_t ifnum = req->wIndex & 0xFF; if (ifnum != usb_cdc_dev->cfg->ctrl_if) { return false; } switch (req->bmRequestType & (USB_REQ_TYPE_MASK | USB_REQ_RECIPIENT_MASK)) { case (USB_REQ_TYPE_STANDARD | USB_REQ_RECIPIENT_INTERFACE): switch (req->bRequest) { case USB_REQ_GET_INTERFACE: PIOS_USBHOOK_CtrlTx(&cdc_altset, 1); break; case USB_REQ_SET_INTERFACE: cdc_altset = (uint8_t)(req->wValue); break; default: /* Unhandled standard request */ return false; break; } break; case (USB_REQ_TYPE_CLASS | USB_REQ_RECIPIENT_INTERFACE): switch (req->bRequest) { case USB_CDC_REQ_SET_LINE_CODING: PIOS_USBHOOK_CtrlRx((uint8_t *)&line_coding, sizeof(line_coding)); break; case USB_CDC_REQ_GET_LINE_CODING: PIOS_USBHOOK_CtrlTx((uint8_t *)&line_coding, sizeof(line_coding)); break; case USB_CDC_REQ_SET_CONTROL_LINE_STATE: control_line_state = req->wValue; break; default: /* Unhandled class request */ return false; break; } break; default: /* Unhandled request */ return false; } return true; } static bool PIOS_USB_CDC_Available(uint32_t usbcdc_id) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usbcdc_id; bool valid = PIOS_USB_CDC_validate(usb_cdc_dev); PIOS_Assert(valid); return PIOS_USB_CheckAvailable(usb_cdc_dev->lower_id) && (control_line_state & USB_CDC_CONTROL_LINE_STATE_DTE_PRESENT); } /** * Called *after* the data has been written to the buffer provided in the setup stage. The * setup request is passed in here again so we know *which* EP0 data out has just completed. */ static void PIOS_USB_CDC_CTRL_IF_CtrlDataOut(uint32_t usb_cdc_id, const struct usb_setup_request *req) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usb_cdc_id; if (!PIOS_USB_CDC_validate(usb_cdc_dev)) { return; } /* Make sure this is a request for an interface we know about */ uint8_t ifnum = req->wIndex & 0xFF; if (ifnum != usb_cdc_dev->cfg->ctrl_if) { return; } switch (req->bmRequestType & (USB_REQ_TYPE_MASK | USB_REQ_RECIPIENT_MASK)) { case (USB_REQ_TYPE_STANDARD | USB_REQ_RECIPIENT_INTERFACE): switch (req->bRequest) { default: /* Unhandled standard request */ return; break; } break; case (USB_REQ_TYPE_CLASS | USB_REQ_RECIPIENT_INTERFACE): switch (req->bRequest) { case USB_CDC_REQ_SET_LINE_CODING: /* * If we cared to, this is where we would apply the new line coding * that is now stored in the line_coding struct. This could be used * to notify the upper COM layer that the baud rate has changed. This * may be useful in the case of a COM USB bridge where we would * auto-adjust the USART baud rate based on the line coding set here. */ break; default: /* Unhandled class request */ return; break; } break; default: /* Unhandled request */ return; } } static struct usb_cdc_serial_state_report uart_state = { .bmRequestType = 0xA1, .bNotification = USB_CDC_NOTIFICATION_SERIAL_STATE, .wValue = 0, .wIndex = htousbs(1), .wLength = htousbs(2), .bmUartState = htousbs(0), }; static bool PIOS_USB_CDC_CTRL_EP_IN_Callback( __attribute__((unused)) uint32_t usb_cdc_id, __attribute__((unused)) uint8_t epnum, __attribute__((unused)) uint16_t len) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)pios_usb_cdc_id; bool valid = PIOS_USB_CDC_validate(usb_cdc_dev); PIOS_Assert(valid); /* Give back UART State Bitmap */ /* UART State Bitmap * 15-7: reserved * 6: bOverRun overrun error * 5: bParity parity error * 4: bFraming framing error * 3: bRingSignal RI * 2: bBreak break reception * 1: bTxCarrier DSR * 0: bRxCarrier DCD */ /* Currently, we only handle TxCarrier and RxCarrier reporting */ uint16_t new_uart_state = 0; if (usb_cdc_dev->tx_out_cb) { /* Someone is going to providing FC->PC data, advertise an RxCarrier to the host */ new_uart_state |= 0x1; } if (usb_cdc_dev->rx_in_cb) { /* Someone is consuming PC->FC data, advertise a TxCarrier to the host */ new_uart_state |= 0x2; } /* Has anything changed since we last sent a notification? */ if ((new_uart_state ^ usb_cdc_dev->prev_uart_state) & 0x3) { usb_cdc_dev->prev_uart_state = new_uart_state; uart_state.bmUartState = htousbs(new_uart_state); PIOS_USBHOOK_EndpointTx(usb_cdc_dev->cfg->ctrl_tx_ep, (uint8_t *)&uart_state, sizeof(uart_state)); } return true; } static bool PIOS_USB_CDC_DATA_EP_IN_Callback(uint32_t usb_cdc_id, uint8_t epnum, uint16_t len); static bool PIOS_USB_CDC_DATA_EP_OUT_Callback(uint32_t usb_cdc_id, uint8_t epnum, uint16_t len); static void PIOS_USB_CDC_DATA_IF_Init(uint32_t usb_cdc_id) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usb_cdc_id; if (!PIOS_USB_CDC_validate(usb_cdc_dev)) { return; } /* Register endpoint specific callbacks with the USBHOOK layer */ PIOS_USBHOOK_RegisterEpInCallback(usb_cdc_dev->cfg->data_tx_ep, sizeof(usb_cdc_dev->tx_packet_buffer), PIOS_USB_CDC_DATA_EP_IN_Callback, (uint32_t)usb_cdc_dev); PIOS_USBHOOK_RegisterEpOutCallback(usb_cdc_dev->cfg->data_rx_ep, sizeof(usb_cdc_dev->rx_packet_buffer), PIOS_USB_CDC_DATA_EP_OUT_Callback, (uint32_t)usb_cdc_dev); usb_cdc_dev->usb_data_if_enabled = true; } static void PIOS_USB_CDC_DATA_IF_DeInit(uint32_t usb_cdc_id) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)usb_cdc_id; if (!PIOS_USB_CDC_validate(usb_cdc_dev)) { return; } /* DeRegister endpoint specific callbacks with the USBHOOK layer */ usb_cdc_dev->usb_data_if_enabled = false; PIOS_USBHOOK_DeRegisterEpInCallback(usb_cdc_dev->cfg->data_tx_ep); PIOS_USBHOOK_DeRegisterEpOutCallback(usb_cdc_dev->cfg->data_rx_ep); } static bool PIOS_USB_CDC_DATA_IF_Setup( __attribute__((unused)) uint32_t usb_cdc_id, __attribute__((unused)) struct usb_setup_request *req) { /* There are no valid EP0 transactions for CDC DATA interfaces */ PIOS_Assert(0); return false; } /** * Called *after* the data has been written to the buffer provided in the setup stage. The * setup request is passed in here again so we know *which* EP0 data out has just completed. */ static void PIOS_USB_CDC_DATA_IF_CtrlDataOut( __attribute__((unused)) uint32_t usb_cdc_id, __attribute__((unused)) const struct usb_setup_request *req) { /* CDC DATA interfaces don't have any OUT data stages on the control endpoint */ PIOS_Assert(0); } /** * @brief Callback used to indicate a transmission from device INto host completed * Checks if any data remains, pads it into HID packet and sends. */ static bool PIOS_USB_CDC_DATA_EP_IN_Callback( __attribute__((unused)) uint32_t usb_cdc_id, __attribute__((unused)) uint8_t epnum, __attribute__((unused)) uint16_t len) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)pios_usb_cdc_id; bool valid = PIOS_USB_CDC_validate(usb_cdc_dev); PIOS_Assert(valid); bool rc = PIOS_USB_CDC_SendData(usb_cdc_dev); if (!rc) { /* No additional data was transmitted, note that tx is no longer active */ usb_cdc_dev->tx_active = false; } return rc; } static bool PIOS_USB_CDC_DATA_EP_OUT_Callback( __attribute__((unused)) uint32_t usb_cdc_id, __attribute__((unused)) uint8_t epnum, uint16_t len) { struct pios_usb_cdc_dev *usb_cdc_dev = (struct pios_usb_cdc_dev *)pios_usb_cdc_id; if (!PIOS_USB_CDC_validate(usb_cdc_dev)) { return false; } if (len > sizeof(usb_cdc_dev->rx_packet_buffer)) { len = sizeof(usb_cdc_dev->rx_packet_buffer); } if (!usb_cdc_dev->rx_in_cb) { /* No Rx call back registered, disable the receiver */ usb_cdc_dev->rx_active = false; return false; } uint16_t headroom; bool need_yield = false; uint16_t bytes_rxed; bytes_rxed = (usb_cdc_dev->rx_in_cb)(usb_cdc_dev->rx_in_context, usb_cdc_dev->rx_packet_buffer, len, &headroom, &need_yield); if (bytes_rxed < len) { /* Lost bytes on rx */ usb_cdc_dev->rx_dropped += (len - bytes_rxed); } bool rc; if (headroom >= sizeof(usb_cdc_dev->rx_packet_buffer)) { /* We have room for a maximum length message */ PIOS_USBHOOK_EndpointRx(usb_cdc_dev->cfg->data_rx_ep, usb_cdc_dev->rx_packet_buffer, sizeof(usb_cdc_dev->rx_packet_buffer)); rc = true; } else { /* Not enough room left for a message, apply backpressure */ usb_cdc_dev->rx_active = false; rc = false; } #if defined(PIOS_INCLUDE_FREERTOS) if (need_yield) { vPortYieldFromISR(); } #endif /* PIOS_INCLUDE_FREERTOS */ return rc; } #endif /* PIOS_INCLUDE_USB_CDC */