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/*
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LUFA Library
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Copyright (C) Dean Camera, 2010.
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dean [at] fourwalledcubicle [dot] com
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www.lufa-lib.org
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*/
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/*
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Copyright 2010 Dean Camera (dean [at] fourwalledcubicle [dot] com)
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Permission to use, copy, modify, distribute, and sell this
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software and its documentation for any purpose is hereby granted
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without fee, provided that the above copyright notice appear in
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all copies and that both that the copyright notice and this
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permission notice and warranty disclaimer appear in supporting
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documentation, and that the name of the author not be used in
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advertising or publicity pertaining to distribution of the
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software without specific, written prior permission.
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The author disclaim all warranties with regard to this
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software, including all implied warranties of merchantability
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and fitness. In no event shall the author be liable for any
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special, indirect or consequential damages or any damages
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whatsoever resulting from loss of use, data or profits, whether
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in an action of contract, negligence or other tortious action,
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arising out of or in connection with the use or performance of
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this software.
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*/
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/** \file
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*
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* RFCOMM multiplexer control layer module. This module handles multiplexer
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* channel commands to the control DLCI in the RFCOMM layer, to open, configure,
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* test and close logical RFCOMM channels.
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*/
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#define INCLUDE_FROM_RFCOMM_CONTROL_C
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#include "RFCOMMControl.h"
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void RFCOMM_ProcessControlCommand(const uint8_t* Command,
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Bluetooth_Channel_t* const ACLChannel)
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{
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const RFCOMM_Command_t* CommandHeader = (const RFCOMM_Command_t*)Command;
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const uint8_t* CommandData = (const uint8_t*)Command + sizeof(RFCOMM_Command_t);
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uint8_t CommandDataLen = RFCOMM_GetVariableFieldValue(&CommandData);
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switch (CommandHeader->Command)
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{
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case RFCOMM_Control_Test:
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RFCOMM_ProcessTestCommand(CommandHeader, CommandDataLen, CommandData, ACLChannel);
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break;
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case RFCOMM_Control_FlowControlEnable:
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RFCOMM_ProcessFCECommand(CommandHeader, CommandData, ACLChannel);
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break;
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case RFCOMM_Control_FlowControlDisable:
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RFCOMM_ProcessFCDCommand(CommandHeader, CommandData, ACLChannel);
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break;
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case RFCOMM_Control_ModemStatus:
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RFCOMM_ProcessMSCCommand(CommandHeader, CommandDataLen, CommandData, ACLChannel);
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break;
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case RFCOMM_Control_RemotePortNegotiation:
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RFCOMM_ProcessRPNCommand(CommandHeader, CommandData, ACLChannel);
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break;
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case RFCOMM_Control_RemoteLineStatus:
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RFCOMM_ProcessRLSCommand(CommandHeader, CommandData, ACLChannel);
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break;
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case RFCOMM_Control_DLCParameterNegotiation:
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RFCOMM_ProcessDPNCommand(CommandHeader, CommandData, ACLChannel);
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break;
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default:
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BT_RFCOMM_DEBUG(1, "<< Unknown Command");
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break;
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}
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}
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static void RFCOMM_ProcessTestCommand(const RFCOMM_Command_t* const CommandHeader,
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const uint8_t CommandDataLen,
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const uint8_t* CommandData,
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Bluetooth_Channel_t* const ACLChannel)
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{
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const uint8_t* Params = (const uint8_t*)CommandData;
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BT_RFCOMM_DEBUG(1, "<< TEST Command");
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struct
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{
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RFCOMM_Command_t CommandHeader;
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uint8_t Length;
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uint8_t TestData[CommandDataLen];
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} TestResponse;
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/* Fill out the Test response data */
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TestResponse.CommandHeader = (RFCOMM_Command_t){.Command = RFCOMM_Control_Test, .EA = true, .CR = false};
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TestResponse.Length = (CommandDataLen << 1) | 0x01;
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memcpy(TestResponse.TestData, Params, CommandDataLen);
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BT_RFCOMM_DEBUG(1, ">> TEST Response");
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/* Send the PDN response to acknowledge the command */
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RFCOMM_SendFrame(RFCOMM_CONTROL_DLCI, false, RFCOMM_Frame_UIH, sizeof(TestResponse), &TestResponse, ACLChannel);
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}
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static void RFCOMM_ProcessFCECommand(const RFCOMM_Command_t* const CommandHeader,
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const uint8_t* CommandData,
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Bluetooth_Channel_t* const ACLChannel)
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{
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BT_RFCOMM_DEBUG(1, "<< FCE Command");
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}
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static void RFCOMM_ProcessFCDCommand(const RFCOMM_Command_t* const CommandHeader,
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const uint8_t* CommandData,
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Bluetooth_Channel_t* const ACLChannel)
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{
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BT_RFCOMM_DEBUG(1, "<< FCD Command");
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}
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static void RFCOMM_ProcessMSCCommand(const RFCOMM_Command_t* const CommandHeader,
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const uint8_t CommandDataLen,
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const uint8_t* CommandData,
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Bluetooth_Channel_t* const ACLChannel)
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{
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const RFCOMM_MSC_Parameters_t* Params = (const RFCOMM_MSC_Parameters_t*)CommandData;
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BT_RFCOMM_DEBUG(1, "<< MSC %s", (CommandHeader->CR) ? "Command" : "Response");
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BT_RFCOMM_DEBUG(2, "-- DLCI: 0x%02X", Params->Channel.DLCI);
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/* Ignore status flags sent to the control channel */
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if (Params->Channel.DLCI == RFCOMM_CONTROL_DLCI)
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return;
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/* Retrieve existing channel configuration data, if already opened */
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RFCOMM_Channel_t* RFCOMMChannel = RFCOMM_GetChannelData(Params->Channel.DLCI);
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/* If the channel does not exist, abort */
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if (RFCOMMChannel == NULL)
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return;
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/* Check if the MSC packet is a command or a response */
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if (CommandHeader->CR)
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{
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/* Save the new channel signals to the channel state structure */
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RFCOMMChannel->Remote.Signals = Params->Signals;
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RFCOMMChannel->ConfigFlags |= RFCOMM_CONFIG_REMOTESIGNALS;
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/* If the command contains the optional break signals field, store the value */
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if (CommandDataLen == sizeof(RFCOMM_MSC_Parameters_t))
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RFCOMMChannel->Remote.BreakSignal = Params->BreakSignal;
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/* Notify the user application that the signals have been received */
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RFCOMM_ChannelSignalsReceived(RFCOMMChannel);
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struct
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{
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RFCOMM_Command_t CommandHeader;
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uint8_t Length;
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RFCOMM_MSC_Parameters_t Params;
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} MSResponse;
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/* Fill out the MS response data */
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MSResponse.CommandHeader = (RFCOMM_Command_t){.Command = RFCOMM_Control_ModemStatus, .EA = true, .CR = false};
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MSResponse.Length = (CommandDataLen << 1) | 0x01;
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memcpy(&MSResponse.Params, Params, sizeof(RFCOMM_MSC_Parameters_t));
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BT_RFCOMM_DEBUG(1, ">> MSC Response");
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/* Send the MSC response to acknowledge the command */
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RFCOMM_SendFrame(RFCOMM_CONTROL_DLCI, false, RFCOMM_Frame_UIH,
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(sizeof(MSResponse) - sizeof(MSResponse.Params) + CommandDataLen), &MSResponse, ACLChannel);
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}
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else
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{
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/* Indicate that the remote device has acknowledged the sent signals */
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RFCOMMChannel->ConfigFlags |= RFCOMM_CONFIG_LOCALSIGNALS;
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}
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}
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static void RFCOMM_ProcessRPNCommand(const RFCOMM_Command_t* const CommandHeader,
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const uint8_t* CommandData,
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Bluetooth_Channel_t* const ACLChannel)
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{
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BT_RFCOMM_DEBUG(1, "<< RPN Command");
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}
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static void RFCOMM_ProcessRLSCommand(const RFCOMM_Command_t* const CommandHeader,
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const uint8_t* CommandData,
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Bluetooth_Channel_t* const ACLChannel)
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{
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BT_RFCOMM_DEBUG(1, "<< RLS Command");
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}
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static void RFCOMM_ProcessDPNCommand(const RFCOMM_Command_t* const CommandHeader,
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const uint8_t* CommandData,
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Bluetooth_Channel_t* const ACLChannel)
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{
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const RFCOMM_DPN_Parameters_t* Params = (const RFCOMM_DPN_Parameters_t*)CommandData;
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BT_RFCOMM_DEBUG(1, "<< DPN Command");
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BT_RFCOMM_DEBUG(2, "-- DLCI: 0x%02X", Params->DLCI);
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/* Ignore parameter negotiations to the control channel */
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if (Params->DLCI == RFCOMM_CONTROL_DLCI)
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return;
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/* Retrieve existing channel configuration data, if already opened */
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RFCOMM_Channel_t* RFCOMMChannel = RFCOMM_GetChannelData(Params->DLCI);
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/* Check if the channel has no corresponding entry - remote did not open it first */
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if (RFCOMMChannel == NULL)
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{
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/* Create a new entry in the channel table for the new channel */
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RFCOMMChannel = RFCOMM_GetFreeChannelEntry(Params->DLCI);
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/* No free entry was found, discard the request */
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if (RFCOMMChannel == NULL)
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{
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BT_RFCOMM_DEBUG(2, "-- No Free Channel");
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return;
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}
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}
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/* Save the new channel configuration */
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RFCOMMChannel->State = RFCOMM_Channel_Configure;
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RFCOMMChannel->Priority = Params->Priority;
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RFCOMMChannel->MTU = Params->MaximumFrameSize;
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struct
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{
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RFCOMM_Command_t CommandHeader;
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uint8_t Length;
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RFCOMM_DPN_Parameters_t Params;
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} DPNResponse;
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/* Fill out the DPN response data */
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DPNResponse.CommandHeader = (RFCOMM_Command_t){.Command = RFCOMM_Control_DLCParameterNegotiation, .EA = true, .CR = false};
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DPNResponse.Length = (sizeof(DPNResponse.Params) << 1) | 0x01;
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memcpy(&DPNResponse.Params, Params, sizeof(RFCOMM_DPN_Parameters_t));
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DPNResponse.Params.ConvergenceLayer = 0x00; // TODO: Enable credit based transaction support
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BT_RFCOMM_DEBUG(1, ">> DPN Response");
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/* Send the DPN response to acknowledge the command */
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RFCOMM_SendFrame(RFCOMM_CONTROL_DLCI, false, RFCOMM_Frame_UIH, sizeof(DPNResponse), &DPNResponse, ACLChannel);
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}
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