#include #include #include #include #include #include #include #include #include "pgmstrings.h" USB Usb; USBHub Hub1(&Usb); USBHub Hub2(&Usb); USBHub Hub3(&Usb); USBHub Hub4(&Usb); USBHub Hub5(&Usb); USBHub Hub6(&Usb); USBHub Hub7(&Usb); uint32_t next_time; void PrintAllAddresses(UsbDevice *pdev) { UsbDeviceAddress adr; adr.devAddress = pdev->address; Serial.print("\r\nAddr:"); Serial.print(adr.devAddress, HEX); Serial.print("("); Serial.print(adr.bmHub, HEX); Serial.print("."); Serial.print(adr.bmParent, HEX); Serial.print("."); Serial.print(adr.bmAddress, HEX); Serial.println(")"); } void PrintAddress(uint8_t addr) { UsbDeviceAddress adr; adr.devAddress = addr; Serial.print("\r\nADDR:\t"); Serial.println(adr.devAddress,HEX); Serial.print("DEV:\t"); Serial.println(adr.bmAddress,HEX); Serial.print("PRNT:\t"); Serial.println(adr.bmParent,HEX); Serial.print("HUB:\t"); Serial.println(adr.bmHub,HEX); } void setup() { Serial.begin( 115200 ); Serial.println("Start"); if (Usb.Init() == -1) Serial.println("OSC did not start."); delay( 200 ); next_time = millis() + 10000; } byte getdevdescr( byte addr, byte &num_conf ); void PrintDescriptors(uint8_t addr) { uint8_t rcode = 0; byte num_conf = 0; rcode = getdevdescr( (byte)addr, num_conf ); if( rcode ) { printProgStr(Gen_Error_str); print_hex( rcode, 8 ); } Serial.print("\r\n"); for (int i=0; iaddress, 8); Serial.println("\r\n--"); PrintDescriptors( pdev->address ); } void loop() { Usb.Task(); if( Usb.getUsbTaskState() == USB_STATE_RUNNING ) { //if (millis() >= next_time) { Usb.ForEachUsbDevice(&PrintAllDescriptors); Usb.ForEachUsbDevice(&PrintAllAddresses); while( 1 ); //stop } } } byte getdevdescr( byte addr, byte &num_conf ) { USB_DEVICE_DESCRIPTOR buf; byte rcode; rcode = Usb.getDevDescr( addr, 0, 0x12, ( uint8_t *)&buf ); if( rcode ) { return( rcode ); } printProgStr(Dev_Header_str); printProgStr(Dev_Length_str); print_hex( buf.bLength, 8 ); printProgStr(Dev_Type_str); print_hex( buf.bDescriptorType, 8 ); printProgStr(Dev_Version_str); print_hex( buf.bcdUSB, 16 ); printProgStr(Dev_Class_str); print_hex( buf.bDeviceClass, 8 ); printProgStr(Dev_Subclass_str); print_hex( buf.bDeviceSubClass, 8 ); printProgStr(Dev_Protocol_str); print_hex( buf.bDeviceProtocol, 8 ); printProgStr(Dev_Pktsize_str); print_hex( buf.bMaxPacketSize0, 8 ); printProgStr(Dev_Vendor_str); print_hex( buf.idVendor, 16 ); printProgStr(Dev_Product_str); print_hex( buf.idProduct, 16 ); printProgStr(Dev_Revision_str); print_hex( buf.bcdDevice, 16 ); printProgStr(Dev_Mfg_str); print_hex( buf.iManufacturer, 8 ); printProgStr(Dev_Prod_str); print_hex( buf.iProduct, 8 ); printProgStr(Dev_Serial_str); print_hex( buf.iSerialNumber, 8 ); printProgStr(Dev_Nconf_str); print_hex( buf.bNumConfigurations, 8 ); num_conf = buf.bNumConfigurations; return( 0 ); } void printhubdescr(uint8_t *descrptr, uint8_t addr) { HubDescriptor *pHub = (HubDescriptor*) descrptr; uint8_t len = *((uint8_t*)descrptr); printProgStr(PSTR("\r\n\r\nHub Descriptor:\r\n")); printProgStr(PSTR("bDescLength:\t\t")); Serial.println(pHub->bDescLength, HEX); printProgStr(PSTR("bDescriptorType:\t")); Serial.println(pHub->bDescriptorType, HEX); printProgStr(PSTR("bNbrPorts:\t\t")); Serial.println(pHub->bNbrPorts, HEX); printProgStr(PSTR("LogPwrSwitchMode:\t")); Serial.println(pHub->LogPwrSwitchMode, BIN); printProgStr(PSTR("CompoundDevice:\t\t")); Serial.println(pHub->CompoundDevice, BIN); printProgStr(PSTR("OverCurrentProtectMode:\t")); Serial.println(pHub->OverCurrentProtectMode, BIN); printProgStr(PSTR("TTThinkTime:\t\t")); Serial.println(pHub->TTThinkTime, BIN); printProgStr(PSTR("PortIndicatorsSupported:")); Serial.println(pHub->PortIndicatorsSupported, BIN); printProgStr(PSTR("Reserved:\t\t")); Serial.println(pHub->Reserved, HEX); printProgStr(PSTR("bPwrOn2PwrGood:\t\t")); Serial.println(pHub->bPwrOn2PwrGood, HEX); printProgStr(PSTR("bHubContrCurrent:\t")); Serial.println(pHub->bHubContrCurrent, HEX); for (uint8_t i=7; ibNbrPorts; i++) // PrintHubPortStatus(&Usb, addr, i, 1); } byte getconfdescr( byte addr, byte conf ) { uint8_t buf[ BUFSIZE ]; uint8_t* buf_ptr = buf; byte rcode; byte descr_length; byte descr_type; unsigned int total_length; rcode = Usb.getConfDescr( addr, 0, 4, conf, buf ); //get total length LOBYTE( total_length ) = buf[ 2 ]; HIBYTE( total_length ) = buf[ 3 ]; if( total_length > 256 ) { //check if total length is larger than buffer printProgStr(Conf_Trunc_str); total_length = 256; } rcode = Usb.getConfDescr( addr, 0, total_length, conf, buf ); //get the whole descriptor while( buf_ptr < buf + total_length ) { //parsing descriptors descr_length = *( buf_ptr ); descr_type = *( buf_ptr + 1 ); switch( descr_type ) { case( USB_DESCRIPTOR_CONFIGURATION ): printconfdescr( buf_ptr ); break; case( USB_DESCRIPTOR_INTERFACE ): printintfdescr( buf_ptr ); break; case( USB_DESCRIPTOR_ENDPOINT ): printepdescr( buf_ptr ); break; case 0x29: printhubdescr( buf_ptr, addr ); break; default: printunkdescr( buf_ptr ); break; }//switch( descr_type buf_ptr = ( buf_ptr + descr_length ); //advance buffer pointer }//while( buf_ptr <=... return( 0 ); } /* prints hex numbers with leading zeroes */ // copyright, Peter H Anderson, Baltimore, MD, Nov, '07 // source: http://www.phanderson.com/arduino/arduino_display.html void print_hex(int v, int num_places) { int mask=0, n, num_nibbles, digit; for (n=1; n<=num_places; n++) { mask = (mask << 1) | 0x0001; } v = v & mask; // truncate v to specified number of places num_nibbles = num_places / 4; if ((num_places % 4) != 0) { ++num_nibbles; } do { digit = ((v >> (num_nibbles-1) * 4)) & 0x0f; Serial.print(digit, HEX); } while(--num_nibbles); } /* function to print configuration descriptor */ void printconfdescr( uint8_t* descr_ptr ) { USB_CONFIGURATION_DESCRIPTOR* conf_ptr = ( USB_CONFIGURATION_DESCRIPTOR* )descr_ptr; printProgStr(Conf_Header_str); printProgStr(Conf_Totlen_str); print_hex( conf_ptr->wTotalLength, 16 ); printProgStr(Conf_Nint_str); print_hex( conf_ptr->bNumInterfaces, 8 ); printProgStr(Conf_Value_str); print_hex( conf_ptr->bConfigurationValue, 8 ); printProgStr(Conf_String_str); print_hex( conf_ptr->iConfiguration, 8 ); printProgStr(Conf_Attr_str); print_hex( conf_ptr->bmAttributes, 8 ); printProgStr(Conf_Pwr_str); print_hex( conf_ptr->bMaxPower, 8 ); return; } /* function to print interface descriptor */ void printintfdescr( uint8_t* descr_ptr ) { USB_INTERFACE_DESCRIPTOR* intf_ptr = ( USB_INTERFACE_DESCRIPTOR* )descr_ptr; printProgStr(Int_Header_str); printProgStr(Int_Number_str); print_hex( intf_ptr->bInterfaceNumber, 8 ); printProgStr(Int_Alt_str); print_hex( intf_ptr->bAlternateSetting, 8 ); printProgStr(Int_Endpoints_str); print_hex( intf_ptr->bNumEndpoints, 8 ); printProgStr(Int_Class_str); print_hex( intf_ptr->bInterfaceClass, 8 ); printProgStr(Int_Subclass_str); print_hex( intf_ptr->bInterfaceSubClass, 8 ); printProgStr(Int_Protocol_str); print_hex( intf_ptr->bInterfaceProtocol, 8 ); printProgStr(Int_String_str); print_hex( intf_ptr->iInterface, 8 ); return; } /* function to print endpoint descriptor */ void printepdescr( uint8_t* descr_ptr ) { USB_ENDPOINT_DESCRIPTOR* ep_ptr = ( USB_ENDPOINT_DESCRIPTOR* )descr_ptr; printProgStr(End_Header_str); printProgStr(End_Address_str); print_hex( ep_ptr->bEndpointAddress, 8 ); printProgStr(End_Attr_str); print_hex( ep_ptr->bmAttributes, 8 ); printProgStr(End_Pktsize_str); print_hex( ep_ptr->wMaxPacketSize, 16 ); printProgStr(End_Interval_str); print_hex( ep_ptr->bInterval, 8 ); return; } /*function to print unknown descriptor */ void printunkdescr( uint8_t* descr_ptr ) { byte length = *descr_ptr; byte i; printProgStr(Unk_Header_str); printProgStr(Unk_Length_str); print_hex( *descr_ptr, 8 ); printProgStr(Unk_Type_str); print_hex( *(descr_ptr + 1 ), 8 ); printProgStr(Unk_Contents_str); descr_ptr += 2; for( i = 0; i < length; i++ ) { print_hex( *descr_ptr, 8 ); descr_ptr++; } } /* Print a string from Program Memory directly to save RAM */ void printProgStr(const prog_char str[]) { char c; if(!str) return; while((c = pgm_read_byte(str++))) Serial.print(c,BYTE); }