/* Copyright (C) 2011 Circuits At Home, LTD. All rights reserved. This software may be distributed and modified under the terms of the GNU General Public License version 2 (GPL2) as published by the Free Software Foundation and appearing in the file GPL2.TXT included in the packaging of this file. Please note that GPL2 Section 2[b] requires that all works based on this software must also be made publicly available under the terms of the GPL2 ("Copyleft"). Contact information ------------------- Circuits At Home, LTD Web : http://www.circuitsathome.com e-mail : support@circuitsathome.com */ #if !defined(_usb_h_) || defined(__CONFDESCPARSER_H__) #error "Never include confdescparser.h directly; include Usb.h instead" #else #define __CONFDESCPARSER_H__ class UsbConfigXtracter { public: virtual void EndpointXtract(uint8_t conf, uint8_t iface, uint8_t alt, uint8_t proto, const USB_ENDPOINT_DESCRIPTOR *ep) = 0; }; #define CP_MASK_COMPARE_CLASS 1 #define CP_MASK_COMPARE_SUBCLASS 2 #define CP_MASK_COMPARE_PROTOCOL 4 #define CP_MASK_COMPARE_ALL 7 // Configuration Descriptor Parser Class Template template class ConfigDescParser : public USBReadParser { UsbConfigXtracter *theXtractor; MultiValueBuffer theBuffer; MultiByteValueParser valParser; ByteSkipper theSkipper; uint8_t varBuffer[16 /*sizeof(USB_CONFIGURATION_DESCRIPTOR)*/]; uint8_t stateParseDescr; // ParseDescriptor state uint8_t dscrLen; // Descriptor length uint8_t dscrType; // Descriptor type bool isGoodInterface; // Apropriate interface flag uint8_t confValue; // Configuration value uint8_t protoValue; // Protocol value uint8_t ifaceNumber; // Interface number uint8_t ifaceAltSet; // Interface alternate settings bool UseOr; bool ParseDescriptor(uint8_t **pp, uint16_t *pcntdn); public: void SetOR(void) { UseOr = true; } ConfigDescParser(UsbConfigXtracter *xtractor); virtual void Parse(const uint16_t len, const uint8_t *pbuf, const uint16_t &offset); }; template ConfigDescParser::ConfigDescParser(UsbConfigXtracter *xtractor) : theXtractor(xtractor), stateParseDescr(0), dscrLen(0), dscrType(0), UseOr(false) { theBuffer.pValue = varBuffer; valParser.Initialize(&theBuffer); theSkipper.Initialize(&theBuffer); }; template void ConfigDescParser::Parse(const uint16_t len, const uint8_t *pbuf, const uint16_t &offset) { uint16_t cntdn = (uint16_t)len; uint8_t *p = (uint8_t*)pbuf; while(cntdn) if(!ParseDescriptor(&p, &cntdn)) return; } /* Parser for the configuration descriptor. Takes values for class, subclass, protocol fields in interface descriptor and compare masks for them. When the match is found, calls EndpointXtract passing buffer containing endpoint descriptor */ template bool ConfigDescParser::ParseDescriptor(uint8_t **pp, uint16_t *pcntdn) { USB_CONFIGURATION_DESCRIPTOR* ucd = reinterpret_cast(varBuffer); USB_INTERFACE_DESCRIPTOR* uid = reinterpret_cast(varBuffer); switch(stateParseDescr) { case 0: theBuffer.valueSize = 2; valParser.Initialize(&theBuffer); stateParseDescr = 1; case 1: if(!valParser.Parse(pp, pcntdn)) return false; dscrLen = *((uint8_t*)theBuffer.pValue); dscrType = *((uint8_t*)theBuffer.pValue + 1); stateParseDescr = 2; case 2: // This is a sort of hack. Assuming that two bytes are all ready in the buffer // the pointer is positioned two bytes ahead in order for the rest of descriptor // to be read right after the size and the type fields. // This should be used carefully. varBuffer should be used directly to handle data // in the buffer. theBuffer.pValue = varBuffer + 2; stateParseDescr = 3; case 3: switch(dscrType) { case USB_DESCRIPTOR_INTERFACE: isGoodInterface = false; case USB_DESCRIPTOR_CONFIGURATION: theBuffer.valueSize = sizeof (USB_CONFIGURATION_DESCRIPTOR) - 2; break; case USB_DESCRIPTOR_ENDPOINT: theBuffer.valueSize = sizeof (USB_ENDPOINT_DESCRIPTOR) - 2; break; case HID_DESCRIPTOR_HID: theBuffer.valueSize = dscrLen - 2; break; } valParser.Initialize(&theBuffer); stateParseDescr = 4; case 4: switch(dscrType) { case USB_DESCRIPTOR_CONFIGURATION: if(!valParser.Parse(pp, pcntdn)) return false; confValue = ucd->bConfigurationValue; break; case USB_DESCRIPTOR_INTERFACE: if(!valParser.Parse(pp, pcntdn)) return false; if((MASK & CP_MASK_COMPARE_CLASS) && uid->bInterfaceClass != CLASS_ID) break; if((MASK & CP_MASK_COMPARE_SUBCLASS) && uid->bInterfaceSubClass != SUBCLASS_ID) break; if(UseOr) { if((!((MASK & CP_MASK_COMPARE_PROTOCOL) && uid->bInterfaceProtocol))) break; } else { if((MASK & CP_MASK_COMPARE_PROTOCOL) && uid->bInterfaceProtocol != PROTOCOL_ID) break; } isGoodInterface = true; ifaceNumber = uid->bInterfaceNumber; ifaceAltSet = uid->bAlternateSetting; protoValue = uid->bInterfaceProtocol; break; case USB_DESCRIPTOR_ENDPOINT: if(!valParser.Parse(pp, pcntdn)) return false; if(isGoodInterface) if(theXtractor) theXtractor->EndpointXtract(confValue, ifaceNumber, ifaceAltSet, protoValue, (USB_ENDPOINT_DESCRIPTOR*)varBuffer); break; default: if(!theSkipper.Skip(pp, pcntdn, dscrLen - 2)) return false; } theBuffer.pValue = varBuffer; stateParseDescr = 0; } return true; } #endif // __CONFDESCPARSER_H__