iris/boot-programs/udc.ccp

#pypp 0
// Iris: micro-kernel for a capability-based operating system.
// boot-programs/udc.ccp: USB device controller driver.
// Copyright 2009 Bas Wijnen <wijnen@debian.org>
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program.  If not, see <http://www.gnu.org/licenses/>.

#include "devices.hh"
#include "init.hh"
#define ARCH
#include "arch.hh"

class Udc:
	typedef unsigned char u8
	typedef unsigned short u16
	typedef unsigned int u32
	typedef u8 string
	// The ugly stuff is because pypp doesn't support __attribute__.
	/**/struct Setup {
		u8 request_type;
		u8 request;
		u16 value;
		u16 index;
		u16 length;
	 } __attribute__ ((packed))
	/**/struct Device {
		static u8 const Type = 1;
		u8 length;
		u8 type;
		u16 usb_version;
		u8 dev_class;
		u8 subclass;
		u8 protocol;
		u8 max_packet_size0;
		u16 vendor;
		u16 product;
		u16 dev_version;
		string s_manufacturer;
		string s_product;
		string s_serial;
		u8 num_configurations;
	 } __attribute__ ((packed))
	/**/struct Configuration {
		static u8 const Type = 2;
		u8 length;
		u8 type;
		u16 total_length;
		u8 num_interfaces;
		u8 configuration_value;
		u8 configuration;
		u8 attributes;
		u8 max_power;
	 } __attribute__ ((packed))
	/**/struct Interface {
		static u8 const Type = 4;
		u8 length;
		u8 type;
		u8 interface;
		u8 alternate;
		u8 num_endpoints;
		u8 iface_class;
		u8 subclass;
		u8 protocol;
		string name;
	 } __attribute__ ((packed))
	/**/struct Endpoint {
		static u8 const Type = 5;
		u8 length;
		u8 type;
		u8 address;
		u8 attributes;
		u16 max_packet_size;
		u8 interval;
	 } __attribute__ ((packed))
	template <unsigned size> struct String {
		static u8 const Type = 3;
		u8 length;
		u8 type;
		u16 data[size];
	 } __attribute__ ((packed))
	static unsigned const max_packet_size0 = 64
	static unsigned const max_packet_size_bulk = 512
	enum Requests:
		GET_STATUS = 0
		CLEAR_FEATURE = 1
		SET_FEATURE = 3
		SET_ADDRESS = 5
		GET_DESCRIPTOR = 6
		SET_DESCRIPTOR = 7
		GET_CONFIGURATION = 8
		SET_CONFIGURATION = 9
		GET_INTERFACE = 10
		SET_INTERFACE = 11
		SYNCH_FRAME = 12
	enum Request_types:
		STANDARD_TO_DEVICE = 0
		VENDOR_TO_DEVICE = 0x40
		STANDARD_FROM_DEVICE = 0x80
		VENDOR_FROM_DEVICE = 0xc0
	enum Endpoint_types:
		CONTROL = 0
		ISOCHRONOUS = 1
		BULK = 2
		INTERRUPT = 3
	/**/struct my_config {
		Configuration config;
		Interface interface;
		Endpoint endpoint[2];
	 } __attribute__ ((packed))
	static Device const device_descriptor
	static my_config const config_descriptor
	static String <7> const s_manufacturer
	static String <22> const s_product
	enum State:
		IDLE
		TX
		RX
	State state
	char configuration
	unsigned size
	char const *ptr
	unsigned send_next (unsigned old_csr)
	unsigned vendor (unsigned old_csr, Setup *s)
	unsigned get_descriptor (unsigned old_csr, unsigned type, unsigned idx, unsigned len)
	public:
	void init ()
	void log (unsigned c)
	void interrupt ()
	unsigned handle_setup (unsigned old_csr, Setup *s)

Udc::Device const Udc::device_descriptor = { sizeof (Device), Device::Type, 0x200, 0, 0, 0, max_packet_size0, 0x601a, 0x4740, 0x100, 1, 2, 0, 1 }
Udc::my_config const Udc::config_descriptor = {
	(Configuration){ sizeof (Configuration), Configuration::Type, sizeof (my_config), 1, 1, 0, 0xc0, 1 },
	(Interface){ sizeof (Interface), Interface::Type, 0, 0, 2, 0xff, 0, 0x80, 0 }, {
		(Endpoint){ sizeof (Endpoint), Endpoint::Type, 1, BULK, max_packet_size_bulk, 0 },
		(Endpoint){ sizeof (Endpoint), Endpoint::Type, 0x81, BULK, max_packet_size_bulk, 0 }
	}
 }
Udc::String <7> const Udc::s_manufacturer = { sizeof (String <7>), String <7>::Type, { 'I', 'n', 'g', 'e', 'n', 'i', 'c' } }
Udc::String <22> const Udc::s_product = { sizeof (String <22>), String <22>::Type, { 'J', 'Z', '4', '7', '4', '0', ' ', 'U', 'S', 'B', ' ', 'B', 'o', 'o', 't', ' ', 'D', 'e', 'v', 'i', 'c', 'e'} }
void Udc::init ():
	state = IDLE
	configuration = 0
	size = 0
	// exit suspend mode by reading the interrupt register.
	unsigned i = UDC_INTRUSB
	// reset all pending endpoint interrupts.
	i = UDC_INTRIN
	i = UDC_INTROUT
	// enable interrupt on bus reset.
	UDC_INTRUSB = UDC_INTR_RESET
	// enable interrupts on endpoint 0.
	UDC_INTRINE |= 1 << 0

unsigned Udc::send_next (unsigned old_csr):
	for unsigned i = 0; size > 0 && i < max_packet_size0; ++i, --size:
		// Use 8-bit transfers to avoid problems with alignment.
		REG8 (UDC_FIFO_EP0) = *ptr++
	if size:
		state = TX
		return (old_csr | UDC_CSR0_INPKTRDY) & ~UDC_CSR0_DATAEND
	else:
		state = IDLE
		return old_csr | UDC_CSR0_INPKTRDY

unsigned Udc::vendor (unsigned old_csr, Setup *s):
	if s->request_type & 0x80:
		ptr = "abcdefgh"
		size = 8
		return send_next (old_csr)
	return old_csr

unsigned Udc::get_descriptor (unsigned old_csr, unsigned type, unsigned idx, unsigned len):
	switch type:
		case Configuration::Type:
			if idx != 1:
				return old_csr | UDC_CSR0_SENDSTALL
			ptr = reinterpret_cast <char const *> (&config_descriptor)
			size = (len < sizeof (config_descriptor) ? len : sizeof (config_descriptor))
			break
		case Device::Type:
			if idx != 0:
				return old_csr | UDC_CSR0_SENDSTALL
			ptr = reinterpret_cast <char const *> (&device_descriptor)
			size = (len < sizeof (device_descriptor) ? len : sizeof (device_descriptor))
			break
		// The 7 is an arbitrary number.
		case String <7>::Type:
			switch idx:
				case 1:
					ptr = reinterpret_cast <char const *> (&s_manufacturer)
					size = (len < sizeof (s_manufacturer) ? len : sizeof (s_manufacturer))
					break
				case 2:
					ptr = reinterpret_cast <char const *> (&s_product)
					size = (len < sizeof (s_product) ? len : sizeof (s_product))
					break
				default:
					return old_csr | UDC_CSR0_SENDSTALL
			break
		default:
			return old_csr | UDC_CSR0_SENDSTALL
		return send_next (old_csr)

unsigned Udc::handle_setup (unsigned old_csr, Setup *s):
	switch s->request_type:
		case STANDARD_TO_DEVICE:
			switch s->request:
				case SET_ADDRESS:
					UDC_FADDR = s->value
					break
				case SET_CONFIGURATION:
					if s->value >= 2:
						return old_csr | UDC_CSR0_SENDSTALL
					configuration = s->value
					break
				case SET_INTERFACE:
					if s->value != 0:
						return old_csr | UDC_CSR0_SENDSTALL
					break
				default:
					return old_csr | UDC_CSR0_SENDSTALL
			break
		case STANDARD_FROM_DEVICE:
			switch s->request:
				case GET_STATUS:
					ptr = "\0\0"
					size = (s->length < 2 ? s->length : 2)
					return send_next (old_csr)
				case GET_DESCRIPTOR:
					return get_descriptor (old_csr, (s->value >> 8) & 0xff, s->value & 0xff, s->length)
				case GET_CONFIGURATION:
					ptr = &configuration
					size = (s->length < 1 ? s->length : 1)
					return send_next (old_csr)
				case GET_INTERFACE:
					ptr = "\0"
					size = (s->length < 1 ? s->length : 1)
					return send_next (old_csr)
				default:
					return old_csr | UDC_CSR0_SENDSTALL
			break
		case VENDOR_TO_DEVICE:
		case VENDOR_FROM_DEVICE:
			return vendor (old_csr, s)
		default:
			return old_csr | UDC_CSR0_SENDSTALL
	return old_csr

void Udc::interrupt ():
	unsigned i = UDC_INTRUSB
	if i & UDC_INTR_RESET:
		state = IDLE
		return
	i = UDC_INTRIN
	if i & (1 << 0):
		// Interrupt on endpoint 0.
		unsigned csr = UDC_CSR0
		if csr & UDC_CSR0_SENTSTALL:
			csr &= ~UDC_CSR0_SENTSTALL
			state = IDLE
		if csr & UDC_CSR0_SETUPEND:
			csr |= UDC_CSR0_SVDSETUPEND
			state = IDLE
		switch state:
			case IDLE:
				if !(csr & UDC_CSR0_OUTPKTRDY):
					break
				csr |= UDC_CSR0_SVDOUTPKTRDY | UDC_CSR0_DATAEND
				union { unsigned d[2]; Setup s; } packet
				packet.d[0] = UDC_FIFO_EP0
				packet.d[1] = UDC_FIFO_EP0
				csr = handle_setup (csr, &packet.s)
				UDC_CSR0 = csr
				break
			case TX:
				UDC_CSR0 = send_next (UDC_CSR0 | UDC_CSR0_DATAEND)
				break
			case RX:
				// Not supported.
				UDC_CSR0 |= UDC_CSR0_SENDSTALL
				state = IDLE
				break

void Udc::log (unsigned c):

Kernel::Num start ():
	map_udc ()
	Udc udc

	udc.init ()
	Kernel::Cap logcap = Kernel::my_receiver.create_capability (Init::LOG)
	__asm__ volatile ("li $a0, 1\nlw $a1, %0\nbreak" :: "m"(logcap.code): "a0", "a1", "memory")
	Kernel::register_interrupt (IRQ_UDC)
	while true:
		Kernel::wait ()
		switch Kernel::recv.protected_data.l:
			case IRQ_UDC:
				udc.interrupt ()
				break
			case Init::LOG:
				udc.log (Kernel::recv.data[0].l)
				break
			default:
				udc.log ('~')
				break
split off nanonote code, try to make it boot 2009-09-27 11:23:33 +03:00			`#pypp 0`
			`// Iris: micro-kernel for a capability-based operating system.`
			`// boot-programs/udc.ccp: USB device controller driver.`
			`// Copyright 2009 Bas Wijnen <wijnen@debian.org>`
			`//`
			`// This program is free software: you can redistribute it and/or modify`
			`// it under the terms of the GNU General Public License as published by`
			`// the Free Software Foundation, either version 3 of the License, or`
			`// (at your option) any later version.`
			`//`
			`// This program is distributed in the hope that it will be useful,`
			`// but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`// GNU General Public License for more details.`
			`//`
			`// You should have received a copy of the GNU General Public License`
			`// along with this program. If not, see <http://www.gnu.org/licenses/>.`

			`#include "devices.hh"`
			`#include "init.hh"`
			`#define ARCH`
			`#include "arch.hh"`

			`class Udc:`
			`typedef unsigned char u8`
			`typedef unsigned short u16`
			`typedef unsigned int u32`
			`typedef u8 string`
			`// The ugly stuff is because pypp doesn't support __attribute__.`
			`/**/struct Setup {`
			`u8 request_type;`
			`u8 request;`
			`u16 value;`
			`u16 index;`
			`u16 length;`
			`} __attribute__ ((packed))`
			`/**/struct Device {`
			`static u8 const Type = 1;`
			`u8 length;`
			`u8 type;`
			`u16 usb_version;`
			`u8 dev_class;`
			`u8 subclass;`
			`u8 protocol;`
			`u8 max_packet_size0;`
			`u16 vendor;`
			`u16 product;`
			`u16 dev_version;`
			`string s_manufacturer;`
			`string s_product;`
			`string s_serial;`
			`u8 num_configurations;`
			`} __attribute__ ((packed))`
			`/**/struct Configuration {`
			`static u8 const Type = 2;`
			`u8 length;`
			`u8 type;`
			`u16 total_length;`
			`u8 num_interfaces;`
			`u8 configuration_value;`
			`u8 configuration;`
			`u8 attributes;`
			`u8 max_power;`
			`} __attribute__ ((packed))`
			`/**/struct Interface {`
			`static u8 const Type = 4;`
			`u8 length;`
			`u8 type;`
			`u8 interface;`
			`u8 alternate;`
			`u8 num_endpoints;`
			`u8 iface_class;`
			`u8 subclass;`
			`u8 protocol;`
			`string name;`
			`} __attribute__ ((packed))`
			`/**/struct Endpoint {`
			`static u8 const Type = 5;`
			`u8 length;`
			`u8 type;`
			`u8 address;`
			`u8 attributes;`
			`u16 max_packet_size;`
			`u8 interval;`
			`} __attribute__ ((packed))`
			`template <unsigned size> struct String {`
			`static u8 const Type = 3;`
			`u8 length;`
			`u8 type;`
			`u16 data[size];`
			`} __attribute__ ((packed))`
			`static unsigned const max_packet_size0 = 64`
			`static unsigned const max_packet_size_bulk = 512`
			`enum Requests:`
			`GET_STATUS = 0`
			`CLEAR_FEATURE = 1`
			`SET_FEATURE = 3`
			`SET_ADDRESS = 5`
			`GET_DESCRIPTOR = 6`
			`SET_DESCRIPTOR = 7`
			`GET_CONFIGURATION = 8`
			`SET_CONFIGURATION = 9`
			`GET_INTERFACE = 10`
			`SET_INTERFACE = 11`
			`SYNCH_FRAME = 12`
			`enum Request_types:`
			`STANDARD_TO_DEVICE = 0`
			`VENDOR_TO_DEVICE = 0x40`
			`STANDARD_FROM_DEVICE = 0x80`
			`VENDOR_FROM_DEVICE = 0xc0`
			`enum Endpoint_types:`
			`CONTROL = 0`
			`ISOCHRONOUS = 1`
			`BULK = 2`
			`INTERRUPT = 3`
			`/**/struct my_config {`
			`Configuration config;`
			`Interface interface;`
			`Endpoint endpoint[2];`
			`} __attribute__ ((packed))`
			`static Device const device_descriptor`
			`static my_config const config_descriptor`
			`static String <7> const s_manufacturer`
			`static String <22> const s_product`
			`enum State:`
			`IDLE`
			`TX`
			`RX`
			`State state`
			`char configuration`
			`unsigned size`
			`char const *ptr`
			`unsigned send_next (unsigned old_csr)`
			`unsigned vendor (unsigned old_csr, Setup *s)`
			`unsigned get_descriptor (unsigned old_csr, unsigned type, unsigned idx, unsigned len)`
			`public:`
			`void init ()`
			`void log (unsigned c)`
			`void interrupt ()`
			`unsigned handle_setup (unsigned old_csr, Setup *s)`

			`Udc::Device const Udc::device_descriptor = { sizeof (Device), Device::Type, 0x200, 0, 0, 0, max_packet_size0, 0x601a, 0x4740, 0x100, 1, 2, 0, 1 }`
			`Udc::my_config const Udc::config_descriptor = {`
			`(Configuration){ sizeof (Configuration), Configuration::Type, sizeof (my_config), 1, 1, 0, 0xc0, 1 },`
			`(Interface){ sizeof (Interface), Interface::Type, 0, 0, 2, 0xff, 0, 0x80, 0 }, {`
			`(Endpoint){ sizeof (Endpoint), Endpoint::Type, 1, BULK, max_packet_size_bulk, 0 },`
			`(Endpoint){ sizeof (Endpoint), Endpoint::Type, 0x81, BULK, max_packet_size_bulk, 0 }`
			`}`
			`}`
			`Udc::String <7> const Udc::s_manufacturer = { sizeof (String <7>), String <7>::Type, { 'I', 'n', 'g', 'e', 'n', 'i', 'c' } }`
			`Udc::String <22> const Udc::s_product = { sizeof (String <22>), String <22>::Type, { 'J', 'Z', '4', '7', '4', '0', ' ', 'U', 'S', 'B', ' ', 'B', 'o', 'o', 't', ' ', 'D', 'e', 'v', 'i', 'c', 'e'} }`
			`void Udc::init ():`
			`state = IDLE`
			`configuration = 0`
			`size = 0`
			`// exit suspend mode by reading the interrupt register.`
			`unsigned i = UDC_INTRUSB`
			`// reset all pending endpoint interrupts.`
			`i = UDC_INTRIN`
			`i = UDC_INTROUT`
			`// enable interrupt on bus reset.`
			`UDC_INTRUSB = UDC_INTR_RESET`
			`// enable interrupts on endpoint 0.`
			`UDC_INTRINE \|= 1 << 0`

			`unsigned Udc::send_next (unsigned old_csr):`
			`for unsigned i = 0; size > 0 && i < max_packet_size0; ++i, --size:`
			`// Use 8-bit transfers to avoid problems with alignment.`
			`REG8 (UDC_FIFO_EP0) = *ptr++`
			`if size:`
			`state = TX`
			`return (old_csr \| UDC_CSR0_INPKTRDY) & ~UDC_CSR0_DATAEND`
			`else:`
			`state = IDLE`
			`return old_csr \| UDC_CSR0_INPKTRDY`

			`unsigned Udc::vendor (unsigned old_csr, Setup *s):`
			`if s->request_type & 0x80:`
			`ptr = "abcdefgh"`
			`size = 8`
			`return send_next (old_csr)`
			`return old_csr`

			`unsigned Udc::get_descriptor (unsigned old_csr, unsigned type, unsigned idx, unsigned len):`
			`switch type:`
			`case Configuration::Type:`
			`if idx != 1:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`ptr = reinterpret_cast <char const *> (&config_descriptor)`
			`size = (len < sizeof (config_descriptor) ? len : sizeof (config_descriptor))`
			`break`
			`case Device::Type:`
			`if idx != 0:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`ptr = reinterpret_cast <char const *> (&device_descriptor)`
			`size = (len < sizeof (device_descriptor) ? len : sizeof (device_descriptor))`
			`break`
			`// The 7 is an arbitrary number.`
			`case String <7>::Type:`
			`switch idx:`
			`case 1:`
			`ptr = reinterpret_cast <char const *> (&s_manufacturer)`
			`size = (len < sizeof (s_manufacturer) ? len : sizeof (s_manufacturer))`
			`break`
			`case 2:`
			`ptr = reinterpret_cast <char const *> (&s_product)`
			`size = (len < sizeof (s_product) ? len : sizeof (s_product))`
			`break`
			`default:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`break`
			`default:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`return send_next (old_csr)`

			`unsigned Udc::handle_setup (unsigned old_csr, Setup *s):`
			`switch s->request_type:`
			`case STANDARD_TO_DEVICE:`
			`switch s->request:`
			`case SET_ADDRESS:`
			`UDC_FADDR = s->value`
			`break`
			`case SET_CONFIGURATION:`
			`if s->value >= 2:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`configuration = s->value`
			`break`
			`case SET_INTERFACE:`
			`if s->value != 0:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`break`
			`default:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`break`
			`case STANDARD_FROM_DEVICE:`
			`switch s->request:`
			`case GET_STATUS:`
			`ptr = "\0\0"`
			`size = (s->length < 2 ? s->length : 2)`
			`return send_next (old_csr)`
			`case GET_DESCRIPTOR:`
			`return get_descriptor (old_csr, (s->value >> 8) & 0xff, s->value & 0xff, s->length)`
			`case GET_CONFIGURATION:`
			`ptr = &configuration`
			`size = (s->length < 1 ? s->length : 1)`
			`return send_next (old_csr)`
			`case GET_INTERFACE:`
			`ptr = "\0"`
			`size = (s->length < 1 ? s->length : 1)`
			`return send_next (old_csr)`
			`default:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`break`
			`case VENDOR_TO_DEVICE:`
			`case VENDOR_FROM_DEVICE:`
			`return vendor (old_csr, s)`
			`default:`
			`return old_csr \| UDC_CSR0_SENDSTALL`
			`return old_csr`

			`void Udc::interrupt ():`
			`unsigned i = UDC_INTRUSB`
			`if i & UDC_INTR_RESET:`
			`state = IDLE`
			`return`
			`i = UDC_INTRIN`
			`if i & (1 << 0):`
			`// Interrupt on endpoint 0.`
			`unsigned csr = UDC_CSR0`
			`if csr & UDC_CSR0_SENTSTALL:`
			`csr &= ~UDC_CSR0_SENTSTALL`
			`state = IDLE`
			`if csr & UDC_CSR0_SETUPEND:`
			`csr \|= UDC_CSR0_SVDSETUPEND`
			`state = IDLE`
			`switch state:`
			`case IDLE:`
			`if !(csr & UDC_CSR0_OUTPKTRDY):`
			`break`
			`csr \|= UDC_CSR0_SVDOUTPKTRDY \| UDC_CSR0_DATAEND`
			`union { unsigned d[2]; Setup s; } packet`
			`packet.d[0] = UDC_FIFO_EP0`
			`packet.d[1] = UDC_FIFO_EP0`
			`csr = handle_setup (csr, &packet.s)`
			`UDC_CSR0 = csr`
			`break`
			`case TX:`
			`UDC_CSR0 = send_next (UDC_CSR0 \| UDC_CSR0_DATAEND)`
			`break`
			`case RX:`
			`// Not supported.`
			`UDC_CSR0 \|= UDC_CSR0_SENDSTALL`
			`state = IDLE`
			`break`

			`void Udc::log (unsigned c):`

			`Kernel::Num start ():`
			`map_udc ()`
			`Udc udc`

			`udc.init ()`
			`Kernel::Cap logcap = Kernel::my_receiver.create_capability (Init::LOG)`
			`__asm__ volatile ("li $a0, 1\nlw $a1, %0\nbreak" :: "m"(logcap.code): "a0", "a1", "memory")`
			`Kernel::register_interrupt (IRQ_UDC)`
			`while true:`
			`Kernel::wait ()`
			`switch Kernel::recv.protected_data.l:`
			`case IRQ_UDC:`
			`udc.interrupt ()`
			`break`
			`case Init::LOG:`
			`udc.log (Kernel::recv.data[0].l)`
			`break`
			`default:`
			`udc.log ('~')`
			`break`