Trying automagic version stuff

[proxmark3-svn] / common / usb.c

//-----------------------------------------------------------------------------\r
// My USB driver. This has to be common, because it exists in both the\r
// bootrom and the application.\r
// Jonathan Westhues, split Aug 14 2005\r
//-----------------------------------------------------------------------------\r
#include <proxmark3.h>\r
\r
#define min(a, b) (((a) > (b)) ? (b) : (a))\r
\r
#define USB_REPORT_PACKET_SIZE 64\r
\r
typedef struct PACKED {\r
	BYTE	bmRequestType;\r
	BYTE	bRequest;\r
	WORD	wValue;\r
	WORD	wIndex;\r
	WORD	wLength;\r
} UsbSetupData;\r
\r
#define USB_REQUEST_GET_STATUS					0\r
#define USB_REQUEST_CLEAR_FEATURE				1\r
#define USB_REQUEST_SET_FEATURE					3\r
#define USB_REQUEST_SET_ADDRESS					5\r
#define USB_REQUEST_GET_DESCRIPTOR				6\r
#define USB_REQUEST_SET_DESCRIPTOR				7\r
#define USB_REQUEST_GET_CONFIGURATION			8\r
#define USB_REQUEST_SET_CONFIGURATION			9\r
#define USB_REQUEST_GET_INTERFACE				10\r
#define USB_REQUEST_SET_INTERFACE				11\r
#define USB_REQUEST_SYNC_FRAME					12\r
\r
#define USB_DESCRIPTOR_TYPE_DEVICE				1\r
#define USB_DESCRIPTOR_TYPE_CONFIGURATION		2\r
#define USB_DESCRIPTOR_TYPE_STRING				3\r
#define USB_DESCRIPTOR_TYPE_INTERFACE			4\r
#define USB_DESCRIPTOR_TYPE_ENDPOINT			5\r
#define USB_DESCRIPTOR_TYPE_DEVICE_QUALIFIER	6\r
#define USB_DESCRIPTOR_TYPE_OTHER_SPEED_CONF	7\r
#define USB_DESCRIPTOR_TYPE_INTERFACE_POWER		8\r
#define USB_DESCRIPTOR_TYPE_HID					0x21\r
#define USB_DESCRIPTOR_TYPE_HID_REPORT			0x22\r
\r
#define USB_DEVICE_CLASS_HID					0x03\r
\r
static const BYTE HidReportDescriptor[] = {\r
	0x06,0xA0,0xFF,	// Usage Page (vendor defined) FFA0\r
	0x09,0x01,		// Usage (vendor defined)\r
	0xA1,0x01,	 	// Collection (Application)\r
	0x09,0x02,   	// Usage (vendor defined)\r
	0xA1,0x00,   	// Collection (Physical)\r
	0x06,0xA1,0xFF,	// Usage Page (vendor defined)\r
\r
	//The,input report\r
	0x09,0x03,   	// usage - vendor defined\r
	0x09,0x04,   	// usage - vendor defined\r
	0x15,0x80,   	// Logical Minimum (-128)\r
	0x25,0x7F,   	// Logical Maximum (127)\r
	0x35,0x00,   	// Physical Minimum (0)\r
	0x45,0xFF,   	// Physical Maximum (255)\r
	0x75,0x08,   	// Report Size (8)  (bits)\r
	0x95,0x40,   	// Report Count (64)  (fields)\r
	0x81,0x02,   	// Input (Data,Variable,Absolute)\r
\r
	//The,output report\r
	0x09,0x05,   	// usage - vendor defined\r
	0x09,0x06,   	// usage - vendor defined\r
	0x15,0x80,   	// Logical Minimum (-128)\r
	0x25,0x7F,   	// Logical Maximum (127)\r
	0x35,0x00,   	// Physical Minimum (0)\r
	0x45,0xFF,   	// Physical Maximum (255)\r
	0x75,0x08,   	// Report Size (8)  (bits)\r
	0x95,0x40,   	// Report Count (64)  (fields)\r
	0x91,0x02,   	// Output (Data,Variable,Absolute)\r
\r
	0xC0,			// End Collection\r
\r
	0xC0,			// End Collection\r
};\r
\r
static const BYTE DeviceDescriptor[] = {\r
	0x12,			// Descriptor length (18 bytes)\r
	0x01,			// Descriptor type (Device)\r
	0x10,0x01,		// Complies with USB Spec. Release (0110h = release 1.10)\r
	0x00,			// Class code (0)\r
	0x00,			// Subclass code (0)\r
	0x00,			// Protocol (No specific protocol)\r
	0x08,			// Maximum packet size for Endpoint 0 (8 bytes)\r
	0xc4,0x9a,		// Vendor ID (random numbers)\r
	0x8f,0x4b,		// Product ID (random numbers)\r
	0x01,0x00,		// Device release number (0001)\r
	0x01,			// Manufacturer string descriptor index\r
	0x02,			// Product string descriptor index\r
	0x00,			// Serial Number string descriptor index (None)\r
	0x01,			// Number of possible configurations (1)\r
};\r
\r
static const BYTE ConfigurationDescriptor[] = {\r
	0x09,			// Descriptor length (9 bytes)\r
	0x02,			// Descriptor type (Configuration)\r
	0x29,0x00,		// Total data length (41 bytes)\r
	0x01,			// Interface supported (1)\r
	0x01,			// Configuration value (1)\r
	0x00,			// Index of string descriptor (None)\r
	0x80,			// Configuration (Bus powered)\r
	250,			// Maximum power consumption (500mA)\r
\r
	//interface\r
	0x09,			// Descriptor length (9 bytes)\r
	0x04,			// Descriptor type (Interface)\r
	0x00,			// Number of interface (0)\r
	0x00,			// Alternate setting (0)\r
	0x02,			// Number of interface endpoint (2)\r
	0x03,			// Class code (HID)\r
	0x00,			// Subclass code ()\r
	0x00,			// Protocol code ()\r
	0x00,			// Index of string()\r
\r
	// class\r
	0x09,			// Descriptor length (9 bytes)\r
	0x21,			// Descriptor type (HID)\r
	0x00,0x01,		// HID class release number (1.00)\r
	0x00,			// Localized country code (None)\r
	0x01,			// # of HID class dscrptr to follow (1)\r
	0x22,			// Report descriptor type (HID)\r
	// Total length of report descriptor\r
	sizeof(HidReportDescriptor),0x00,\r
\r
	// endpoint 1\r
	0x07,			// Descriptor length (7 bytes)\r
	0x05,			// Descriptor type (Endpoint)\r
	0x01,			// Encoded address (Respond to OUT)\r
	0x03,			// Endpoint attribute (Interrupt transfer)\r
	0x08,0x00,		// Maximum packet size (8 bytes)\r
	0x01,			// Polling interval (1 ms)\r
\r
	// endpoint 2\r
	0x07,			// Descriptor length (7 bytes)\r
	0x05,			// Descriptor type (Endpoint)\r
	0x82,			// Encoded address (Respond to IN)\r
	0x03,			// Endpoint attribute (Interrupt transfer)\r
	0x08,0x00,		// Maximum packet size (8 bytes)\r
	0x01,			// Polling interval (1 ms)\r
};\r
\r
static const BYTE StringDescriptor0[] = {\r
	0x04,			// Length\r
	0x03,			// Type is string\r
	0x09,			// English\r
	0x04,			//  US\r
};\r
\r
static const BYTE StringDescriptor1[] = {\r
	24,				// Length\r
	0x03,			// Type is string\r
	'J', 0x00,\r
	'.', 0x00,\r
	' ', 0x00,\r
	'W', 0x00,\r
	'e', 0x00,\r
	's', 0x00,\r
	't', 0x00,\r
	'h', 0x00,\r
	'u', 0x00,\r
	'e', 0x00,\r
	's', 0x00,\r
};\r
\r
static const BYTE StringDescriptor2[] = {\r
	54,				// Length\r
	0x03,			// Type is string\r
	'P', 0x00,\r
	'r', 0x00,\r
	'o', 0x00,\r
	'x', 0x00,\r
	'M', 0x00,\r
	'a', 0x00,\r
	'r', 0x00,\r
	'k', 0x00,\r
	'-', 0x00,\r
	'3', 0x00,\r
	' ', 0x00,\r
	'R', 0x00,\r
	'F', 0x00,\r
	'I', 0x00,\r
	'D', 0x00,\r
	' ', 0x00,\r
	'I', 0x00,\r
	'n', 0x00,\r
	's', 0x00,\r
	't', 0x00,\r
	'r', 0x00,\r
	'u', 0x00,\r
	'm', 0x00,\r
	'e', 0x00,\r
	'n', 0x00,\r
	't', 0x00,\r
};\r
\r
static const BYTE * const StringDescriptors[] = {\r
	StringDescriptor0,\r
	StringDescriptor1,\r
	StringDescriptor2,\r
};\r
\r
\r
static BYTE UsbBuffer[64];\r
static int  UsbSoFarCount;\r
\r
static BYTE CurrentConfiguration;\r
\r
static void UsbSendEp0(const BYTE *data, int len)\r
{\r
	int thisTime, i;\r
\r
	do {\r
		thisTime = min(len, 8);\r
		len -= thisTime;\r
\r
		for(i = 0; i < thisTime; i++) {\r
			UDP_ENDPOINT_FIFO(0) = *data;\r
			data++;\r
		}\r
\r
		if(UDP_ENDPOINT_CSR(0) & UDP_CSR_TX_PACKET_ACKED) {\r
			UDP_ENDPOINT_CSR(0) &= ~UDP_CSR_TX_PACKET_ACKED;\r
			while(UDP_ENDPOINT_CSR(0) & UDP_CSR_TX_PACKET_ACKED)\r
				;\r
		}\r
\r
		UDP_ENDPOINT_CSR(0) |= UDP_CSR_TX_PACKET;\r
\r
		do {\r
			if(UDP_ENDPOINT_CSR(0) & UDP_CSR_RX_PACKET_RECEIVED_BANK_0) {\r
				// This means that the host is trying to write to us, so\r
				// abandon our write to them.\r
				UDP_ENDPOINT_CSR(0) &= ~UDP_CSR_RX_PACKET_RECEIVED_BANK_0;\r
				return;\r
			}\r
		} while(!(UDP_ENDPOINT_CSR(0) & UDP_CSR_TX_PACKET_ACKED));\r
	} while(len > 0);\r
\r
	if(UDP_ENDPOINT_CSR(0) & UDP_CSR_TX_PACKET_ACKED) {\r
		UDP_ENDPOINT_CSR(0) &= ~UDP_CSR_TX_PACKET_ACKED;\r
		while(UDP_ENDPOINT_CSR(0) & UDP_CSR_TX_PACKET_ACKED)\r
			;\r
	}\r
}\r
\r
static void UsbSendZeroLength(void)\r
{\r
	UDP_ENDPOINT_CSR(0) |= UDP_CSR_TX_PACKET;\r
\r
	while(!(UDP_ENDPOINT_CSR(0) & UDP_CSR_TX_PACKET_ACKED))\r
		;\r
\r
	UDP_ENDPOINT_CSR(0) &= ~UDP_CSR_TX_PACKET_ACKED;\r
\r
	while(UDP_ENDPOINT_CSR(0) & UDP_CSR_TX_PACKET_ACKED)\r
		;\r
}\r
\r
static void UsbSendStall(void)\r
{\r
	UDP_ENDPOINT_CSR(0) |= UDP_CSR_FORCE_STALL;\r
\r
	while(!(UDP_ENDPOINT_CSR(0) & UDP_CSR_STALL_SENT))\r
		;\r
\r
	UDP_ENDPOINT_CSR(0) &= ~UDP_CSR_STALL_SENT;\r
\r
	while(UDP_ENDPOINT_CSR(0) & UDP_CSR_STALL_SENT)\r
		;\r
}\r
\r
static void HandleRxdSetupData(void)\r
{\r
	int i;\r
	UsbSetupData usd;\r
\r
	for(i = 0; i < sizeof(usd); i++) {\r
		((BYTE *)&usd)[i] = UDP_ENDPOINT_FIFO(0);\r
	}\r
\r
	if(usd.bmRequestType & 0x80) {\r
		UDP_ENDPOINT_CSR(0) |= UDP_CSR_CONTROL_DATA_DIR;\r
		while(!(UDP_ENDPOINT_CSR(0) & UDP_CSR_CONTROL_DATA_DIR))\r
			;\r
	}\r
\r
	UDP_ENDPOINT_CSR(0) &= ~UDP_CSR_RX_HAVE_READ_SETUP_DATA;\r
	while(UDP_ENDPOINT_CSR(0) & UDP_CSR_RX_HAVE_READ_SETUP_DATA)\r
		;\r
\r
	switch(usd.bRequest) {\r
		case USB_REQUEST_GET_DESCRIPTOR:\r
			if((usd.wValue >> 8) == USB_DESCRIPTOR_TYPE_DEVICE) {\r
				UsbSendEp0((BYTE *)&DeviceDescriptor,\r
					min(sizeof(DeviceDescriptor), usd.wLength));\r
			} else if((usd.wValue >> 8) == USB_DESCRIPTOR_TYPE_CONFIGURATION) {\r
				UsbSendEp0((BYTE *)&ConfigurationDescriptor,\r
					min(sizeof(ConfigurationDescriptor), usd.wLength));\r
			} else if((usd.wValue >> 8) == USB_DESCRIPTOR_TYPE_STRING) {\r
				const BYTE *s = StringDescriptors[usd.wValue & 0xff];\r
				UsbSendEp0(s, min(s[0], usd.wLength));\r
			} else if((usd.wValue >> 8) == USB_DESCRIPTOR_TYPE_HID_REPORT) {\r
				UsbSendEp0((BYTE *)&HidReportDescriptor,\r
					min(sizeof(HidReportDescriptor), usd.wLength));\r
			} else {\r
				*((DWORD *)0x00200000) = usd.wValue;\r
			}\r
			break;\r
\r
		case USB_REQUEST_SET_ADDRESS:\r
			UsbSendZeroLength();\r
			UDP_FUNCTION_ADDR = UDP_FUNCTION_ADDR_ENABLED | usd.wValue ;\r
			if(usd.wValue != 0) {\r
				UDP_GLOBAL_STATE = UDP_GLOBAL_STATE_ADDRESSED;\r
			} else {\r
				UDP_GLOBAL_STATE = 0;\r
			}\r
			break;\r
\r
		case USB_REQUEST_GET_CONFIGURATION:\r
			UsbSendEp0(&CurrentConfiguration, sizeof(CurrentConfiguration));\r
			break;\r
\r
		case USB_REQUEST_GET_STATUS: {\r
			if(usd.bmRequestType & 0x80) {\r
				WORD w = 0;\r
				UsbSendEp0((BYTE *)&w, sizeof(w));\r
			}\r
			break;\r
		}\r
		case USB_REQUEST_SET_CONFIGURATION:\r
			CurrentConfiguration = usd.wValue;\r
			if(CurrentConfiguration) {\r
				UDP_GLOBAL_STATE = UDP_GLOBAL_STATE_CONFIGURED;\r
				UDP_ENDPOINT_CSR(1) = UDP_CSR_ENABLE_EP |\r
					UDP_CSR_EPTYPE_INTERRUPT_OUT;\r
				UDP_ENDPOINT_CSR(2) = UDP_CSR_ENABLE_EP |\r
					UDP_CSR_EPTYPE_INTERRUPT_IN;\r
			} else {\r
				UDP_GLOBAL_STATE = UDP_GLOBAL_STATE_ADDRESSED;\r
				UDP_ENDPOINT_CSR(1) = 0;\r
				UDP_ENDPOINT_CSR(2) = 0;\r
			}\r
			UsbSendZeroLength();\r
			break;\r
\r
		case USB_REQUEST_GET_INTERFACE: {\r
			BYTE b = 0;\r
			UsbSendEp0(&b, sizeof(b));\r
			break;\r
		}\r
\r
		case USB_REQUEST_SET_INTERFACE:\r
			UsbSendZeroLength();\r
			break;\r
\r
		case USB_REQUEST_CLEAR_FEATURE:\r
		case USB_REQUEST_SET_FEATURE:\r
			UsbSendStall();\r
			break;\r
		case USB_REQUEST_SET_DESCRIPTOR:\r
		case USB_REQUEST_SYNC_FRAME:\r
		default:\r
			break;\r
	}\r
}\r
\r
void UsbSendPacket(BYTE *packet, int len)\r
{\r
	int i, thisTime;\r
\r
	while(len > 0) {\r
		thisTime = min(len, 8);\r
\r
		for(i = 0; i < thisTime; i++) {\r
			UDP_ENDPOINT_FIFO(2) = packet[i];\r
		}\r
		UDP_ENDPOINT_CSR(2) |= UDP_CSR_TX_PACKET;\r
\r
		while(!(UDP_ENDPOINT_CSR(2) & UDP_CSR_TX_PACKET_ACKED))\r
			;\r
		UDP_ENDPOINT_CSR(2) &= ~UDP_CSR_TX_PACKET_ACKED;\r
\r
		while(UDP_ENDPOINT_CSR(2) & UDP_CSR_TX_PACKET_ACKED)\r
			;\r
\r
		len -= thisTime;\r
		packet += thisTime;\r
	}\r
}\r
\r
static void HandleRxdData(void)\r
{\r
	int i, len;\r
\r
	if(UDP_ENDPOINT_CSR(1) & UDP_CSR_RX_PACKET_RECEIVED_BANK_0) {\r
		len = UDP_CSR_BYTES_RECEIVED(UDP_ENDPOINT_CSR(1));\r
\r
		for(i = 0; i < len; i++) {\r
			UsbBuffer[UsbSoFarCount] = UDP_ENDPOINT_FIFO(1);\r
			UsbSoFarCount++;\r
		}\r
\r
		UDP_ENDPOINT_CSR(1) &= ~UDP_CSR_RX_PACKET_RECEIVED_BANK_0;\r
		while(UDP_ENDPOINT_CSR(1) & UDP_CSR_RX_PACKET_RECEIVED_BANK_0)\r
			;\r
\r
		if(UsbSoFarCount >= 64) {\r
			UsbPacketReceived(UsbBuffer, UsbSoFarCount);\r
			UsbSoFarCount = 0;\r
		}\r
	}\r
\r
	if(UDP_ENDPOINT_CSR(1) & UDP_CSR_RX_PACKET_RECEIVED_BANK_1) {\r
		len = UDP_CSR_BYTES_RECEIVED(UDP_ENDPOINT_CSR(1));\r
\r
		for(i = 0; i < len; i++) {\r
			UsbBuffer[UsbSoFarCount] = UDP_ENDPOINT_FIFO(1);\r
			UsbSoFarCount++;\r
		}\r
\r
		UDP_ENDPOINT_CSR(1) &= ~UDP_CSR_RX_PACKET_RECEIVED_BANK_1;\r
		while(UDP_ENDPOINT_CSR(1) & UDP_CSR_RX_PACKET_RECEIVED_BANK_1)\r
			;\r
\r
		if(UsbSoFarCount >= 64) {\r
			UsbPacketReceived(UsbBuffer, UsbSoFarCount);\r
			UsbSoFarCount = 0;\r
		}\r
	}\r
}\r
\r
void UsbStart(void)\r
{\r
	volatile int i;\r
\r
	UsbSoFarCount = 0;\r
\r
	USB_D_PLUS_PULLUP_OFF();\r
\r
	for(i = 0; i < 1000000; i++)\r
		;\r
\r
	USB_D_PLUS_PULLUP_ON();\r
\r
	if(UDP_INTERRUPT_STATUS & UDP_INTERRUPT_END_OF_BUS_RESET) {\r
		UDP_INTERRUPT_CLEAR = UDP_INTERRUPT_END_OF_BUS_RESET;\r
	}\r
}\r
\r
BOOL UsbConnected()\r
{\r
	if (UDP_GLOBAL_STATE & UDP_GLOBAL_STATE_CONFIGURED)\r
		return TRUE;\r
	else\r
		return FALSE;\r
}\r
\r
BOOL UsbPoll(BOOL blinkLeds)\r
{\r
	BOOL ret = FALSE;\r
\r
	if(UDP_INTERRUPT_STATUS & UDP_INTERRUPT_END_OF_BUS_RESET) {\r
		UDP_INTERRUPT_CLEAR = UDP_INTERRUPT_END_OF_BUS_RESET;\r
\r
		// following a reset we should be ready to receive a setup packet\r
		UDP_RESET_ENDPOINT = 0xf;\r
		UDP_RESET_ENDPOINT = 0;\r
\r
		UDP_FUNCTION_ADDR = UDP_FUNCTION_ADDR_ENABLED;\r
\r
		UDP_ENDPOINT_CSR(0) = UDP_CSR_EPTYPE_CONTROL | UDP_CSR_ENABLE_EP;\r
\r
		CurrentConfiguration = 0;\r
\r
		ret = TRUE;\r
	}\r
\r
	if(UDP_INTERRUPT_STATUS & UDP_INTERRUPT_ENDPOINT(0)) {\r
		if(UDP_ENDPOINT_CSR(0) & UDP_CSR_RX_HAVE_READ_SETUP_DATA) {\r
			HandleRxdSetupData();\r
			ret = TRUE;\r
		}\r
	}\r
\r
	if(UDP_INTERRUPT_STATUS & UDP_INTERRUPT_ENDPOINT(1)) {\r
		HandleRxdData();\r
		ret = TRUE;\r
	}\r
\r
	return ret;\r
}\r