mirror of
https://github.com/felis/USB_Host_Shield_2.0.git
synced 2024-03-22 11:31:26 +01:00
57afaefd2c
To not break support for users who used the "wrong" control enumeration for that controller, but had their program work because the "wrong" enum used the same ID.
586 lines
23 KiB
C++
586 lines
23 KiB
C++
/* Copyright (C) 2012 Kristian Lauszus, TKJ Electronics. All rights reserved.
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This software may be distributed and modified under the terms of the GNU
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General Public License version 2 (GPL2) as published by the Free Software
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Foundation and appearing in the file GPL2.TXT included in the packaging of
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this file. Please note that GPL2 Section 2[b] requires that all works based
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on this software must also be made publicly available under the terms of
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the GPL2 ("Copyleft").
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Contact information
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-------------------
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Kristian Lauszus, TKJ Electronics
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Web : http://www.tkjelectronics.com
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e-mail : kristianl@tkjelectronics.com
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getBatteryLevel and checkStatus functions made by timstamp.co.uk found using BusHound from Perisoft.net
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*/
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#include "XBOXRECV.h"
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// To enable serial debugging see "settings.h"
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//#define EXTRADEBUG // Uncomment to get even more debugging data
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//#define PRINTREPORT // Uncomment to print the report send by the Xbox 360 Controller
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XBOXRECV::XBOXRECV(USB *p) :
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pUsb(p), // pointer to USB class instance - mandatory
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bAddress(0), // device address - mandatory
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bPollEnable(false) { // don't start polling before dongle is connected
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for(uint8_t i = 0; i < XBOX_MAX_ENDPOINTS; i++) {
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epInfo[i].epAddr = 0;
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epInfo[i].maxPktSize = (i) ? 0 : 8;
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epInfo[i].bmSndToggle = 0;
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epInfo[i].bmRcvToggle = 0;
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epInfo[i].bmNakPower = (i) ? USB_NAK_NOWAIT : USB_NAK_MAX_POWER;
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}
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if(pUsb) // register in USB subsystem
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pUsb->RegisterDeviceClass(this); //set devConfig[] entry
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}
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uint8_t XBOXRECV::ConfigureDevice(uint8_t parent, uint8_t port, bool lowspeed) {
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const uint8_t constBufSize = sizeof (USB_DEVICE_DESCRIPTOR);
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uint8_t buf[constBufSize];
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USB_DEVICE_DESCRIPTOR * udd = reinterpret_cast<USB_DEVICE_DESCRIPTOR*>(buf);
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uint8_t rcode;
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UsbDevice *p = NULL;
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EpInfo *oldep_ptr = NULL;
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uint16_t PID, VID;
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AddressPool &addrPool = pUsb->GetAddressPool(); // Get memory address of USB device address pool
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#ifdef EXTRADEBUG
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Notify(PSTR("\r\nXBOXRECV Init"), 0x80);
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#endif
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if(bAddress) { // Check if address has already been assigned to an instance
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nAddress in use"), 0x80);
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#endif
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return USB_ERROR_CLASS_INSTANCE_ALREADY_IN_USE;
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}
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p = addrPool.GetUsbDevicePtr(0); // Get pointer to pseudo device with address 0 assigned
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if(!p) {
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nAddress not found"), 0x80);
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#endif
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return USB_ERROR_ADDRESS_NOT_FOUND_IN_POOL;
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}
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if(!p->epinfo) {
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nepinfo is null"), 0x80);
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#endif
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return USB_ERROR_EPINFO_IS_NULL;
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}
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oldep_ptr = p->epinfo; // Save old pointer to EP_RECORD of address 0
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p->epinfo = epInfo; // Temporary assign new pointer to epInfo to p->epinfo in order to avoid toggle inconsistence
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p->lowspeed = lowspeed;
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rcode = pUsb->getDevDescr(0, 0, constBufSize, (uint8_t*)buf); // Get device descriptor - addr, ep, nbytes, data
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p->epinfo = oldep_ptr; // Restore p->epinfo
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if(rcode)
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goto FailGetDevDescr;
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VID = udd->idVendor;
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PID = udd->idProduct;
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if((VID != XBOX_VID && VID != MADCATZ_VID && VID != JOYTECH_VID) || (PID != XBOX_WIRELESS_RECEIVER_PID && PID != XBOX_WIRELESS_RECEIVER_THIRD_PARTY_PID)) { // Check if it's a Xbox receiver using the Vendor ID and Product ID
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nYou'll need a wireless receiver for this libary to work"), 0x80);
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#endif
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goto FailUnknownDevice;
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}
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bAddress = addrPool.AllocAddress(parent, false, port); // Allocate new address according to device class
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if(!bAddress) {
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nOut of address space"), 0x80);
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#endif
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return USB_ERROR_OUT_OF_ADDRESS_SPACE_IN_POOL;
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}
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epInfo[0].maxPktSize = udd->bMaxPacketSize0; // Extract Max Packet Size from device descriptor
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delay(20); // Wait a little before resetting device
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return USB_ERROR_CONFIG_REQUIRES_ADDITIONAL_RESET;
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/* Diagnostic messages */
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FailGetDevDescr:
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#ifdef DEBUG_USB_HOST
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NotifyFailGetDevDescr(rcode);
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#endif
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if(rcode != hrJERR)
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rcode = USB_ERROR_FailGetDevDescr;
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goto Fail;
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FailUnknownDevice:
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#ifdef DEBUG_USB_HOST
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NotifyFailUnknownDevice(VID, PID);
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#endif
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rcode = USB_DEV_CONFIG_ERROR_DEVICE_NOT_SUPPORTED;
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Fail:
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nXbox 360 Init Failed, error code: "), 0x80);
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NotifyFail(rcode);
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#endif
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Release();
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return rcode;
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};
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uint8_t XBOXRECV::Init(uint8_t parent __attribute__((unused)), uint8_t port __attribute__((unused)), bool lowspeed) {
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uint8_t rcode;
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AddressPool &addrPool = pUsb->GetAddressPool();
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#ifdef EXTRADEBUG
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Notify(PSTR("\r\nBTD Init"), 0x80);
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#endif
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UsbDevice *p = addrPool.GetUsbDevicePtr(bAddress); // Get pointer to assigned address record
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if(!p) {
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nAddress not found"), 0x80);
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#endif
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return USB_ERROR_ADDRESS_NOT_FOUND_IN_POOL;
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}
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delay(300); // Assign new address to the device
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rcode = pUsb->setAddr(0, 0, bAddress); // Assign new address to the device
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if(rcode) {
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nsetAddr: "), 0x80);
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D_PrintHex<uint8_t > (rcode, 0x80);
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#endif
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p->lowspeed = false;
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goto Fail;
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}
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#ifdef EXTRADEBUG
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Notify(PSTR("\r\nAddr: "), 0x80);
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D_PrintHex<uint8_t > (bAddress, 0x80);
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#endif
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p->lowspeed = false;
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p = addrPool.GetUsbDevicePtr(bAddress); // Get pointer to assigned address record
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if(!p) {
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nAddress not found"), 0x80);
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#endif
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return USB_ERROR_ADDRESS_NOT_FOUND_IN_POOL;
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}
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p->lowspeed = lowspeed;
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rcode = pUsb->setEpInfoEntry(bAddress, 1, epInfo); // Assign epInfo to epinfo pointer - only EP0 is known
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if(rcode)
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goto FailSetDevTblEntry;
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/* The application will work in reduced host mode, so we can save program and data
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memory space. After verifying the VID we will use known values for the
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configuration values for device, interface, endpoints and HID for the XBOX360 Wireless receiver */
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/* Initialize data structures for endpoints of device */
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epInfo[ XBOX_INPUT_PIPE_1 ].epAddr = 0x01; // XBOX 360 report endpoint - poll interval 1ms
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epInfo[ XBOX_INPUT_PIPE_1 ].epAttribs = USB_TRANSFER_TYPE_INTERRUPT;
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epInfo[ XBOX_INPUT_PIPE_1 ].bmNakPower = USB_NAK_NOWAIT; // Only poll once for interrupt endpoints
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epInfo[ XBOX_INPUT_PIPE_1 ].maxPktSize = EP_MAXPKTSIZE;
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epInfo[ XBOX_INPUT_PIPE_1 ].bmSndToggle = 0;
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epInfo[ XBOX_INPUT_PIPE_1 ].bmRcvToggle = 0;
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epInfo[ XBOX_OUTPUT_PIPE_1 ].epAddr = 0x01; // XBOX 360 output endpoint - poll interval 8ms
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epInfo[ XBOX_OUTPUT_PIPE_1 ].epAttribs = USB_TRANSFER_TYPE_INTERRUPT;
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epInfo[ XBOX_OUTPUT_PIPE_1 ].bmNakPower = USB_NAK_NOWAIT; // Only poll once for interrupt endpoints
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epInfo[ XBOX_OUTPUT_PIPE_1 ].maxPktSize = EP_MAXPKTSIZE;
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epInfo[ XBOX_OUTPUT_PIPE_1 ].bmSndToggle = 0;
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epInfo[ XBOX_OUTPUT_PIPE_1 ].bmRcvToggle = 0;
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epInfo[ XBOX_INPUT_PIPE_2 ].epAddr = 0x03; // XBOX 360 report endpoint - poll interval 1ms
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epInfo[ XBOX_INPUT_PIPE_2 ].epAttribs = USB_TRANSFER_TYPE_INTERRUPT;
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epInfo[ XBOX_INPUT_PIPE_2 ].bmNakPower = USB_NAK_NOWAIT; // Only poll once for interrupt endpoints
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epInfo[ XBOX_INPUT_PIPE_2 ].maxPktSize = EP_MAXPKTSIZE;
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epInfo[ XBOX_INPUT_PIPE_2 ].bmSndToggle = 0;
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epInfo[ XBOX_INPUT_PIPE_2 ].bmRcvToggle = 0;
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epInfo[ XBOX_OUTPUT_PIPE_2 ].epAddr = 0x03; // XBOX 360 output endpoint - poll interval 8ms
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epInfo[ XBOX_OUTPUT_PIPE_2 ].epAttribs = USB_TRANSFER_TYPE_INTERRUPT;
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epInfo[ XBOX_OUTPUT_PIPE_2 ].bmNakPower = USB_NAK_NOWAIT; // Only poll once for interrupt endpoints
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epInfo[ XBOX_OUTPUT_PIPE_2 ].maxPktSize = EP_MAXPKTSIZE;
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epInfo[ XBOX_OUTPUT_PIPE_2 ].bmSndToggle = 0;
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epInfo[ XBOX_OUTPUT_PIPE_2 ].bmRcvToggle = 0;
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epInfo[ XBOX_INPUT_PIPE_3 ].epAddr = 0x05; // XBOX 360 report endpoint - poll interval 1ms
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epInfo[ XBOX_INPUT_PIPE_3 ].epAttribs = USB_TRANSFER_TYPE_INTERRUPT;
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epInfo[ XBOX_INPUT_PIPE_3 ].bmNakPower = USB_NAK_NOWAIT; // Only poll once for interrupt endpoints
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epInfo[ XBOX_INPUT_PIPE_3 ].maxPktSize = EP_MAXPKTSIZE;
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epInfo[ XBOX_INPUT_PIPE_3 ].bmSndToggle = 0;
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epInfo[ XBOX_INPUT_PIPE_3 ].bmRcvToggle = 0;
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epInfo[ XBOX_OUTPUT_PIPE_3 ].epAddr = 0x05; // XBOX 360 output endpoint - poll interval 8ms
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epInfo[ XBOX_OUTPUT_PIPE_3 ].epAttribs = USB_TRANSFER_TYPE_INTERRUPT;
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epInfo[ XBOX_OUTPUT_PIPE_3 ].bmNakPower = USB_NAK_NOWAIT; // Only poll once for interrupt endpoints
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epInfo[ XBOX_OUTPUT_PIPE_3 ].maxPktSize = EP_MAXPKTSIZE;
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epInfo[ XBOX_OUTPUT_PIPE_3 ].bmSndToggle = 0;
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epInfo[ XBOX_OUTPUT_PIPE_3 ].bmRcvToggle = 0;
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epInfo[ XBOX_INPUT_PIPE_4 ].epAddr = 0x07; // XBOX 360 report endpoint - poll interval 1ms
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epInfo[ XBOX_INPUT_PIPE_4 ].epAttribs = USB_TRANSFER_TYPE_INTERRUPT;
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epInfo[ XBOX_INPUT_PIPE_4 ].bmNakPower = USB_NAK_NOWAIT; // Only poll once for interrupt endpoints
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epInfo[ XBOX_INPUT_PIPE_4 ].maxPktSize = EP_MAXPKTSIZE;
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epInfo[ XBOX_INPUT_PIPE_4 ].bmSndToggle = 0;
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epInfo[ XBOX_INPUT_PIPE_4 ].bmRcvToggle = 0;
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epInfo[ XBOX_OUTPUT_PIPE_4 ].epAddr = 0x07; // XBOX 360 output endpoint - poll interval 8ms
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epInfo[ XBOX_OUTPUT_PIPE_4 ].epAttribs = USB_TRANSFER_TYPE_INTERRUPT;
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epInfo[ XBOX_OUTPUT_PIPE_4 ].bmNakPower = USB_NAK_NOWAIT; // Only poll once for interrupt endpoints
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epInfo[ XBOX_OUTPUT_PIPE_4 ].maxPktSize = EP_MAXPKTSIZE;
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epInfo[ XBOX_OUTPUT_PIPE_4 ].bmSndToggle = 0;
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epInfo[ XBOX_OUTPUT_PIPE_4 ].bmRcvToggle = 0;
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rcode = pUsb->setEpInfoEntry(bAddress, 9, epInfo);
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if(rcode)
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goto FailSetDevTblEntry;
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delay(200); //Give time for address change
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rcode = pUsb->setConf(bAddress, epInfo[ XBOX_CONTROL_PIPE ].epAddr, 1);
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if(rcode)
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goto FailSetConfDescr;
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nXbox Wireless Receiver Connected\r\n"), 0x80);
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#endif
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XboxReceiverConnected = true;
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bPollEnable = true;
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checkStatusTimer = 0; // Reset timer
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return 0; // Successful configuration
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/* Diagnostic messages */
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FailSetDevTblEntry:
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#ifdef DEBUG_USB_HOST
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NotifyFailSetDevTblEntry();
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goto Fail;
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#endif
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FailSetConfDescr:
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#ifdef DEBUG_USB_HOST
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NotifyFailSetConfDescr();
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#endif
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Fail:
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("\r\nXbox 360 Init Failed, error code: "), 0x80);
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NotifyFail(rcode);
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#endif
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Release();
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return rcode;
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}
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/* Performs a cleanup after failed Init() attempt */
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uint8_t XBOXRECV::Release() {
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XboxReceiverConnected = false;
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for(uint8_t i = 0; i < 4; i++)
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Xbox360Connected[i] = 0x00;
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pUsb->GetAddressPool().FreeAddress(bAddress);
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bAddress = 0;
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bPollEnable = false;
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return 0;
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}
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uint8_t XBOXRECV::Poll() {
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if(!bPollEnable)
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return 0;
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if(!checkStatusTimer || ((int32_t)((uint32_t)millis() - checkStatusTimer) > 3000)) { // Run checkStatus every 3 seconds
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checkStatusTimer = (uint32_t)millis();
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checkStatus();
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}
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uint8_t inputPipe;
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uint16_t bufferSize;
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for(uint8_t i = 0; i < 4; i++) {
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if(i == 0)
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inputPipe = XBOX_INPUT_PIPE_1;
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else if(i == 1)
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inputPipe = XBOX_INPUT_PIPE_2;
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else if(i == 2)
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inputPipe = XBOX_INPUT_PIPE_3;
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else
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inputPipe = XBOX_INPUT_PIPE_4;
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bufferSize = EP_MAXPKTSIZE; // This is the maximum number of bytes we want to receive
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pUsb->inTransfer(bAddress, epInfo[ inputPipe ].epAddr, &bufferSize, readBuf);
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if(bufferSize > 0) { // The number of received bytes
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#ifdef EXTRADEBUG
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Notify(PSTR("Bytes Received: "), 0x80);
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D_PrintHex<uint16_t > (bufferSize, 0x80);
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Notify(PSTR("\r\n"), 0x80);
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#endif
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readReport(i);
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#ifdef PRINTREPORT
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printReport(i, bufferSize); // Uncomment "#define PRINTREPORT" to print the report send by the Xbox 360 Controller
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#endif
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}
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}
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return 0;
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}
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void XBOXRECV::readReport(uint8_t controller) {
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if(readBuf == NULL)
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return;
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// This report is send when a controller is connected and disconnected
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if(readBuf[0] == 0x08 && readBuf[1] != Xbox360Connected[controller]) {
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Xbox360Connected[controller] = readBuf[1];
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#ifdef DEBUG_USB_HOST
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Notify(PSTR("Controller "), 0x80);
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Notify(controller, 0x80);
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#endif
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if(Xbox360Connected[controller]) {
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#ifdef DEBUG_USB_HOST
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const char* str = 0;
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switch(readBuf[1]) {
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case 0x80: str = PSTR(" as controller\r\n");
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break;
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case 0x40: str = PSTR(" as headset\r\n");
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break;
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case 0xC0: str = PSTR(" as controller+headset\r\n");
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break;
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}
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Notify(PSTR(": connected"), 0x80);
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Notify(str, 0x80);
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#endif
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onInit(controller);
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}
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#ifdef DEBUG_USB_HOST
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else
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Notify(PSTR(": disconnected\r\n"), 0x80);
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#endif
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return;
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}
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// Controller status report
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if(readBuf[1] == 0x00 && readBuf[3] & 0x13 && readBuf[4] >= 0x22) {
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controllerStatus[controller] = ((uint16_t)readBuf[3] << 8) | readBuf[4];
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return;
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}
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if(readBuf[1] != 0x01) // Check if it's the correct report - the receiver also sends different status reports
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return;
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// A controller must be connected if it's sending data
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if(!Xbox360Connected[controller])
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Xbox360Connected[controller] |= 0x80;
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ButtonState[controller] = (uint32_t)(readBuf[9] | ((uint16_t)readBuf[8] << 8) | ((uint32_t)readBuf[7] << 16) | ((uint32_t)readBuf[6] << 24));
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hatValue[controller][LeftHatX] = (int16_t)(((uint16_t)readBuf[11] << 8) | readBuf[10]);
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hatValue[controller][LeftHatY] = (int16_t)(((uint16_t)readBuf[13] << 8) | readBuf[12]);
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hatValue[controller][RightHatX] = (int16_t)(((uint16_t)readBuf[15] << 8) | readBuf[14]);
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hatValue[controller][RightHatY] = (int16_t)(((uint16_t)readBuf[17] << 8) | readBuf[16]);
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//Notify(PSTR("\r\nButtonState: "), 0x80);
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//PrintHex<uint32_t>(ButtonState[controller], 0x80);
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if(ButtonState[controller] != OldButtonState[controller]) {
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buttonStateChanged[controller] = true;
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ButtonClickState[controller] = (ButtonState[controller] >> 16) & ((~OldButtonState[controller]) >> 16); // Update click state variable, but don't include the two trigger buttons L2 and R2
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if(((uint8_t)OldButtonState[controller]) == 0 && ((uint8_t)ButtonState[controller]) != 0) // The L2 and R2 buttons are special as they are analog buttons
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R2Clicked[controller] = true;
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if((uint8_t)(OldButtonState[controller] >> 8) == 0 && (uint8_t)(ButtonState[controller] >> 8) != 0)
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L2Clicked[controller] = true;
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OldButtonState[controller] = ButtonState[controller];
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}
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}
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void XBOXRECV::printReport(uint8_t controller __attribute__((unused)), uint8_t nBytes __attribute__((unused))) { //Uncomment "#define PRINTREPORT" to print the report send by the Xbox 360 Controller
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#ifdef PRINTREPORT
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if(readBuf == NULL)
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return;
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Notify(PSTR("Controller "), 0x80);
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Notify(controller, 0x80);
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Notify(PSTR(": "), 0x80);
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for(uint8_t i = 0; i < nBytes; i++) {
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D_PrintHex<uint8_t > (readBuf[i], 0x80);
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Notify(PSTR(" "), 0x80);
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}
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Notify(PSTR("\r\n"), 0x80);
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#endif
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}
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uint8_t XBOXRECV::getButtonPress(ButtonEnum b, uint8_t controller) {
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const int8_t index = getXboxButtonIndex(b); if (index < 0) return 0;
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if(index == legacyButtonValues(L2)) // These are analog buttons
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return (uint8_t)(ButtonState[controller] >> 8);
|
|
else if(index == legacyButtonValues(R2))
|
|
return (uint8_t)ButtonState[controller];
|
|
return (bool)(ButtonState[controller] & ((uint32_t)pgm_read_word(&XBOX_BUTTONS[index]) << 16));
|
|
}
|
|
|
|
bool XBOXRECV::getButtonClick(ButtonEnum b, uint8_t controller) {
|
|
const int8_t index = getXboxButtonIndex(b); if (index < 0) return 0;
|
|
if(index == legacyButtonValues(L2)) {
|
|
if(L2Clicked[controller]) {
|
|
L2Clicked[controller] = false;
|
|
return true;
|
|
}
|
|
return false;
|
|
} else if(index == legacyButtonValues(R2)) {
|
|
if(R2Clicked[controller]) {
|
|
R2Clicked[controller] = false;
|
|
return true;
|
|
}
|
|
return false;
|
|
}
|
|
uint16_t button = pgm_read_word(&XBOX_BUTTONS[index]);
|
|
bool click = (ButtonClickState[controller] & button);
|
|
ButtonClickState[controller] &= ~button; // clear "click" event
|
|
return click;
|
|
}
|
|
|
|
int16_t XBOXRECV::getAnalogHat(AnalogHatEnum a, uint8_t controller) {
|
|
return hatValue[controller][a];
|
|
}
|
|
|
|
bool XBOXRECV::buttonChanged(uint8_t controller) {
|
|
bool state = buttonStateChanged[controller];
|
|
buttonStateChanged[controller] = false;
|
|
return state;
|
|
}
|
|
|
|
/*
|
|
ControllerStatus Breakdown
|
|
ControllerStatus[controller] & 0x0001 // 0
|
|
ControllerStatus[controller] & 0x0002 // normal batteries, no rechargeable battery pack
|
|
ControllerStatus[controller] & 0x0004 // controller starting up / settling
|
|
ControllerStatus[controller] & 0x0008 // headset adapter plugged in, but no headphones connected (mute?)
|
|
ControllerStatus[controller] & 0x0010 // 0
|
|
ControllerStatus[controller] & 0x0020 // 1
|
|
ControllerStatus[controller] & 0x0040 // battery level (high bit)
|
|
ControllerStatus[controller] & 0x0080 // battery level (low bit)
|
|
ControllerStatus[controller] & 0x0100 // 1
|
|
ControllerStatus[controller] & 0x0200 // 1
|
|
ControllerStatus[controller] & 0x0400 // headset adapter plugged in
|
|
ControllerStatus[controller] & 0x0800 // 0
|
|
ControllerStatus[controller] & 0x1000 // 1
|
|
ControllerStatus[controller] & 0x2000 // 0
|
|
ControllerStatus[controller] & 0x4000 // 0
|
|
ControllerStatus[controller] & 0x8000 // 0
|
|
*/
|
|
uint8_t XBOXRECV::getBatteryLevel(uint8_t controller) {
|
|
return ((controllerStatus[controller] & 0x00C0) >> 6);
|
|
}
|
|
|
|
void XBOXRECV::XboxCommand(uint8_t controller, uint8_t* data, uint16_t nbytes) {
|
|
#ifdef EXTRADEBUG
|
|
uint8_t rcode;
|
|
#endif
|
|
uint8_t outputPipe;
|
|
switch(controller) {
|
|
case 0: outputPipe = XBOX_OUTPUT_PIPE_1;
|
|
break;
|
|
case 1: outputPipe = XBOX_OUTPUT_PIPE_2;
|
|
break;
|
|
case 2: outputPipe = XBOX_OUTPUT_PIPE_3;
|
|
break;
|
|
case 3: outputPipe = XBOX_OUTPUT_PIPE_4;
|
|
break;
|
|
default:
|
|
return;
|
|
}
|
|
#ifdef EXTRADEBUG
|
|
rcode =
|
|
#endif
|
|
pUsb->outTransfer(bAddress, epInfo[ outputPipe ].epAddr, nbytes, data);
|
|
#ifdef EXTRADEBUG
|
|
if(rcode)
|
|
Notify(PSTR("Error sending Xbox message\r\n"), 0x80);
|
|
#endif
|
|
}
|
|
|
|
void XBOXRECV::disconnect(uint8_t controller) {
|
|
writeBuf[0] = 0x00;
|
|
writeBuf[1] = 0x00;
|
|
writeBuf[2] = 0x08;
|
|
writeBuf[3] = 0xC0;
|
|
|
|
XboxCommand(controller, writeBuf, 4);
|
|
}
|
|
|
|
void XBOXRECV::setLedRaw(uint8_t value, uint8_t controller) {
|
|
writeBuf[0] = 0x00;
|
|
writeBuf[1] = 0x00;
|
|
writeBuf[2] = 0x08;
|
|
writeBuf[3] = value | 0x40;
|
|
|
|
XboxCommand(controller, writeBuf, 4);
|
|
}
|
|
|
|
void XBOXRECV::setLedOn(LEDEnum led, uint8_t controller) {
|
|
if(led == OFF)
|
|
setLedRaw(0, controller);
|
|
else if(led != ALL) // All LEDs can't be on a the same time
|
|
setLedRaw(pgm_read_byte(&XBOX_LEDS[(uint8_t)led]) + 4, controller);
|
|
}
|
|
|
|
void XBOXRECV::setLedBlink(LEDEnum led, uint8_t controller) {
|
|
setLedRaw(pgm_read_byte(&XBOX_LEDS[(uint8_t)led]), controller);
|
|
}
|
|
|
|
void XBOXRECV::setLedMode(LEDModeEnum ledMode, uint8_t controller) { // This function is used to do some speciel LED stuff the controller supports
|
|
setLedRaw((uint8_t)ledMode, controller);
|
|
}
|
|
|
|
/* PC runs this at interval of approx 2 seconds
|
|
Thanks to BusHound from Perisoft.net for the Windows USB Analysis output
|
|
Found by timstamp.co.uk
|
|
*/
|
|
void XBOXRECV::checkStatus() {
|
|
if(!bPollEnable)
|
|
return;
|
|
// Get controller info
|
|
writeBuf[0] = 0x08;
|
|
writeBuf[1] = 0x00;
|
|
writeBuf[2] = 0x0f;
|
|
writeBuf[3] = 0xc0;
|
|
for(uint8_t i = 0; i < 4; i++) {
|
|
XboxCommand(i, writeBuf, 4);
|
|
}
|
|
// Get battery status
|
|
writeBuf[0] = 0x00;
|
|
writeBuf[1] = 0x00;
|
|
writeBuf[2] = 0x00;
|
|
writeBuf[3] = 0x40;
|
|
for(uint8_t i = 0; i < 4; i++) {
|
|
if(Xbox360Connected[i])
|
|
XboxCommand(i, writeBuf, 4);
|
|
}
|
|
}
|
|
|
|
void XBOXRECV::setRumbleOn(uint8_t lValue, uint8_t rValue, uint8_t controller) {
|
|
writeBuf[0] = 0x00;
|
|
writeBuf[1] = 0x01;
|
|
writeBuf[2] = 0x0f;
|
|
writeBuf[3] = 0xc0;
|
|
writeBuf[4] = 0x00;
|
|
writeBuf[5] = lValue; // big weight
|
|
writeBuf[6] = rValue; // small weight
|
|
|
|
XboxCommand(controller, writeBuf, 7);
|
|
}
|
|
|
|
void XBOXRECV::onInit(uint8_t controller) {
|
|
if(pFuncOnInit)
|
|
pFuncOnInit(); // Call the user function
|
|
else {
|
|
LEDEnum led;
|
|
if(controller == 0)
|
|
led = static_cast<LEDEnum>(LED1);
|
|
else if(controller == 1)
|
|
led = static_cast<LEDEnum>(LED2);
|
|
else if(controller == 2)
|
|
led = static_cast<LEDEnum>(LED3);
|
|
else
|
|
led = static_cast<LEDEnum>(LED4);
|
|
setLedOn(led, controller);
|
|
}
|
|
}
|