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brought nuevo_diskloader changes over to diskloader 

Moved nuevo_diskloader files into diskloader directory.  Changed back to real PID for Leonardo
This commit is contained in:
Zach Eveland 2011-10-27 10:23:06 -04:00
parent df9835efaf
commit 3d848a5b9a
19 changed files with 993 additions and 2689 deletions
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283
hardware/arduino/bootloaders/diskloader/DiskLoader-Leonardo.hex
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hardware/arduino/bootloaders/diskloader/DiskLoader-Micro.hex
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:107B70008093D70080EA8093D80082E189BD09B460
:107B800000FEFDCF80E98093D8001092E0000895B8
:107B9000FB018093E90024E69BE611C08091E80098
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:107BB0008091E80085FD02C09093E8004150442385
:107BC00069F70895982FFB01282F20728770809302
:107BD000E90064E63AE317C08091E80085FFFCCF36
:107BE00097FF02C0849101C080813196211180E00D
:107BF0005D9860938C018093F1008091E80085FD91
:107C000002C03093E800415050408FEF4F3F58077B
:107C100019F796FF03C08AE38093E80008958091E6
:107C20009301813299F45D9884E680938C0120E081
:107C300030E003C080818093F100F901E050FF4FF4
:107C40002F5F3F4F28303105A9F714C0803261F40F
:107C50008091E80082FFFCCF80E091E067E072DF76
:107C60008BEF8093E80006C0823221F4809194016A
:107C70008093070181E0089520919501223261F1FE
:107C8000213081F48091980190919901089711F425
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:107D100011F44093E800319694E6231750F39093C2
:107D20008C0181E0089590938C0180E0089580E0BB
:107D30000895EDE9F8E78491D2CF1092E90080919F
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:107EC00090018091900190919101892B09F446DDF8
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:087EDA0000E1000000000000BF
:040000030000780081
:00000001FF

198
hardware/arduino/bootloaders/diskloader/Makefile
View File

@ -1,105 +1,103 @@
###############################################################################
# Makefile for DiskLoader
###############################################################################
## General Flags
PROJECT = DiskLoader
TARGET = DiskLoader.elf
CC = avr-gcc
# BOARD2
MCU = atmega32u4
AVR_FREQ = 16000000L
###############################################################################
# Makefile for DiskLoader
###############################################################################
## General Flags
PROJECT = DiskLoader
TARGET = DiskLoader.elf
CC = avr-gcc
# BOARD2
MCU = atmega32u4
AVR_FREQ = 16000000L
# Specify the Arduino model using the assigned PID. This is used by Descriptors.c
# to set PID and product descriptor string
# Arduino Leonardo PID
ARDUINO_MODEL_PID = 0x0034
# Arduino Micro PID
#ARDUINO_MODEL_PID = 0x0035
# Change if your programmer is different
AVRDUDE_PROGRAMMER = avrispmkII
AVRDUDE_PORT = usb
# program name should not be changed...
PROGRAM = DiskLoader
AVRDUDE = avrdude
AVRDUDE_FLAGS = -p $(MCU) -P $(AVRDUDE_PORT) -c $(AVRDUDE_PROGRAMMER) -p $(MCU)
## Options common to compile, link and assembly rules
COMMON = -mmcu=$(MCU)
override CFLAGS = -g -Wall -Os -mmcu=$(MCU) -DF_CPU=$(AVR_FREQ) -DARDUINO_MODEL_PID=$(ARDUINO_MODEL_PID) $(DEFS) -ffunction-sections -gdwarf-2 -fdata-sections -fno-split-wide-types
## Assembly specific flags
ASMFLAGS = $(COMMON)
ASMFLAGS += $(CFLAGS)
ASMFLAGS += -x assembler-with-cpp -Wa,-gdwarf2
## Linker flags
LDFLAGS = $(COMMON)
LDFLAGS += -Wl,-gc-sections,-Map=DiskLoader.map,--section-start=.text=0x7800,--relax
LDFLAGS += -nodefaultlibs -nostartfiles
## Intel Hex file production flags
HEX_EEPROM_FLAGS = -j .eeprom
HEX_EEPROM_FLAGS += --set-section-flags=.eeprom="alloc,load"
HEX_EEPROM_FLAGS += --change-section-lma .eeprom=0 --no-change-warnings
## Objects explicitly added by the user
LINKONLYOBJECTS =
MODULES := .
SRC_DIR := $(addprefix src/,$(MODULES))
BUILD_DIR := $(addprefix build/,$(MODULES))
SRC := $(foreach sdir,$(SRC_DIR),$(wildcard $(sdir)/*.cpp))
OBJ := $(patsubst src/%.cpp,build/%.o,$(SRC))
DEP := $(OBJ:%.o=%.d)
INCLUDES := $(addprefix -I,$(SRC_DIR))
vpath %.cpp $(SRC_DIR)
.PHONY: all checkdirs clean
all: checkdirs $(TARGET) DiskLoader.hex DiskLoader.lss size
-include $(DEP)
checkdirs: $(BUILD_DIR)
$(BUILD_DIR):
@mkdir -p $@
clean:
@rm -rf build/
@rm -f *.hex
@rm -f *.elf
@rm -f *.lss
@rm -f *.map
define make-goal
$1/%.o: %.cpp
$(CC) $(INCLUDES) $(CFLAGS) -c $$< -MD -o $$@
endef
$(foreach bdir,$(BUILD_DIR),$(eval $(call make-goal,$(bdir))))
$(TARGET): $(OBJ)
$(CC) $(LDFLAGS) $(LINKONLYOBJECTS) $(LIBDIRS) $(LIBS) $^ -o $@
%.hex: $(TARGET)
avr-objcopy -O ihex $(HEX_FLASH_FLAGS) $< $@
%.lss: $(TARGET)
avr-objdump -h -S $< > $@
size: $(TARGET)
@echo
# @avr-size -C --mcu=${MCU} ${TARGET}.elf
program: $(TARGET).hex
$(AVRDUDE) $(AVRDUDE_FLAGS) -B 5 -u -U flash:w:$(TARGET).hex
#ARDUINO_MODEL_PID = 0x0035
# Change if your programmer is different
AVRDUDE_PROGRAMMER = avrispmkII
AVRDUDE_PORT = usb
# program name should not be changed...
PROGRAM = DiskLoader
AVRDUDE = avrdude
AVRDUDE_FLAGS = -p $(MCU) -P $(AVRDUDE_PORT) -c $(AVRDUDE_PROGRAMMER) -p $(MCU)
## Options common to compile, link and assembly rules
COMMON = -mmcu=$(MCU)
override CFLAGS = -g -Wall -Os -mmcu=$(MCU) -DF_CPU=$(AVR_FREQ) -DARDUINO_MODEL_PID=$(ARDUINO_MODEL_PID) $(DEFS) -ffunction-sections -gdwarf-2 -fdata-sections -fno-split-wide-types
## Assembly specific flags
ASMFLAGS = $(COMMON)
ASMFLAGS += $(CFLAGS)
ASMFLAGS += -x assembler-with-cpp -Wa,-gdwarf2
## Linker flags
LDFLAGS = $(COMMON)
LDFLAGS += -Wl,-gc-sections,-Map=DiskLoader.map,--section-start=.text=0x7000,--relax
## Intel Hex file production flags
HEX_EEPROM_FLAGS = -j .eeprom
HEX_EEPROM_FLAGS += --set-section-flags=.eeprom="alloc,load"
HEX_EEPROM_FLAGS += --change-section-lma .eeprom=0 --no-change-warnings
## Objects explicitly added by the user
LINKONLYOBJECTS =
MODULES := .
SRC_DIR := $(addprefix src/,$(MODULES))
BUILD_DIR := $(addprefix build/,$(MODULES))
SRC := $(foreach sdir,$(SRC_DIR),$(wildcard $(sdir)/*.cpp))
OBJ := $(patsubst src/%.cpp,build/%.o,$(SRC))
DEP := $(OBJ:%.o=%.d)
INCLUDES := $(addprefix -I,$(SRC_DIR))
vpath %.cpp $(SRC_DIR)
.PHONY: all checkdirs clean
all: checkdirs $(TARGET) DiskLoader.hex DiskLoader.lss size
-include $(DEP)
checkdirs: $(BUILD_DIR)
$(BUILD_DIR):
@mkdir -p $@
clean:
@rm -rf build/
@rm -f *.hex
@rm -f *.elf
@rm -f *.lss
@rm -f *.map
define make-goal
$1/%.o: %.cpp
$(CC) $(INCLUDES) $(CFLAGS) -c $$< -MD -o $$@
endef
$(foreach bdir,$(BUILD_DIR),$(eval $(call make-goal,$(bdir))))
$(TARGET): $(OBJ)
$(CC) $(LDFLAGS) $(LINKONLYOBJECTS) $(LIBDIRS) $(LIBS) $^ -o $@
%.hex: $(TARGET)
avr-objcopy -O ihex $(HEX_FLASH_FLAGS) $< $@
%.lss: $(TARGET)
avr-objdump -h -S $< > $@
size: $(TARGET)
@echo
# @avr-size -C --mcu=${MCU} ${TARGET}.elf
program: $(TARGET).hex
$(AVRDUDE) $(AVRDUDE_FLAGS) -B 1 -u -U flash:w:$(TARGET).hex

0
hardware/arduino/bootloaders/nuevo_diskloader/src/CDC.cpp → hardware/arduino/bootloaders/diskloader/src/CDC.cpp
View File

335
hardware/arduino/bootloaders/diskloader/src/DiskLoader.cpp
View File

@ -1,65 +1,56 @@
/*
* DiskLoader.cpp
*/
#include "Platform.h"
//#include "USBCore.h"
// This bootloader creates a composite Serial device
//
// The serial interface supports a STK500v1 protocol that is very similar to optiboot
//
// The bootloader will timeout and start the firmware after a few hundred milliseconds
// if a usb connection is not detected.
//
// The tweakier code is to keep the bootloader below 2k (no interrupt table, for example)
extern "C"
void entrypoint(void) __attribute__ ((naked)) __attribute__ ((section (".vectors")));
void entrypoint(void)
{
asm volatile (
"eor r1, r1\n" // Zero register
"out 0x3F, r1\n" // SREG
"ldi r28, 0xFF\n"
"ldi r29, 0x0A\n"
"out 0x3E, r29\n" // SPH
"out 0x3D, r28\n" // SPL
"rjmp main" // Stack is all set up, start the main code
::);
"eor r1, r1\n" // Zero register
"out 0x3F, r1\n" // SREG
"ldi r28, 0xFF\n" // Y-register
"ldi r29, 0x0A\n" // Y-register
"out 0x3E, r29\n" // SPH
"out 0x3D, r28\n" // SPL
"rjmp main" // Stack is all set up, start the main code
::);
}
u8 _flashbuf[128];
u8 _inSync;
u8 _ok;
extern volatile u8 _ejected;
extern volatile u16 _timeout;
u16 do_reset = 0;
volatile u16 _timeout;
void Program(u8 ep, u16 page, u8 count)
{
u8 write = page < 30*1024; // Don't write over firmware please
u8 write = page < 28*1024; // Don't write over bootloader please
if (write)
boot_page_erase(page);
Recv(ep,_flashbuf,count); // Read while page is erasing
USB_Recv_block(ep,_flashbuf,count); // Read while page is erasing
if (!write)
return;
boot_spm_busy_wait(); // Wait until the memory is erased.
count >>= 1;
u16* p = (u16*)page;
u16* b = (u16*)_flashbuf;
for (u8 i = 0; i < count; i++)
boot_page_fill(p++, b[i]);
boot_page_write(page);
boot_spm_busy_wait();
boot_rww_enable ();
}
int USBGetChar();
#define getch USBGetChar
#define HW_VER 0x02
#define SW_MAJOR 0x01
#define SW_MINOR 0x10
@ -104,136 +95,186 @@ const u8 _consts[] =
0x00, //
};
//int getch(void)
//{
// u16 timeout;
// u8 c;
// for (timeout = 0; timeout; timeout--)
// {
// c = USB_Recv(CDC_RX);
// if (c != -1)
// return c;
// }
// return -1;
//}
void USBInit(void);
int main(void) __attribute__ ((naked));
// STK500v1 main loop, very similar to optiboot in protocol and implementation
int main()
void start_sketch()
{
wdt_disable();
TXLED0;
RXLED0;
LED0;
BOARD_INIT();
USBInit();
UDCON = 1; // Detatch USB
UDIEN = 0;
asm volatile ( // Reset vector to run firmware
"clr r30\n"
"clr r31\n"
"ijmp\n"
::);
}
int main(void) __attribute__ ((naked));
int main()
{
wdt_disable();
BOARD_INIT();
/* move interrupts to boot section:
* uses inline assembly because the procedure must be completed in four cycles.
* seems to fail if called before disabling WDT and calling BOARD_INIT()
*/
asm volatile (
"ldi r16, 0x01\n" // (1<<IVCE) /* Enable change of interrupt vectors */
"out 0x35, r16\n" // MCUCR
"ldi r16, 0x02\n" // (1<<IVSEL) /* Move interrupts to boot flash section */
"out 0x35, r16\n" // MCUCR
);
TX_LED_OFF();
RX_LED_OFF();
L_LED_OFF();
USB.attach();
sei();
_inSync = STK_INSYNC;
_ok = STK_OK;
if (pgm_read_word(0) != -1)
_ejected = 1;
for(;;)
for (;;)
{
u8* packet = _flashbuf;
u16 address = 0;
for (;;)
{
u8 cmd = getch();
// Read packet contents
u8 len;
const u8* rs = _readSize;
for(;;)
// while (!USB_Available(CDC_RX))
// ;
if (USB_Available(CDC_RX))
{
u8 c = pgm_read_byte(rs++);
len = pgm_read_byte(rs++);
if (c == cmd || c == 0)
u8 cmd = USB_Recv(CDC_RX);
// Read packet contents
u8 len;
const u8* rs = _readSize;
for (;;)
{
u8 c = pgm_read_byte(rs++);
len = pgm_read_byte(rs++);
if (c == cmd || c == 0)
break;
}
_timeout = 0;
// Read params
USB_Recv_block(CDC_RX, packet, len);
// Send a response
u8 send = 0;
const u8* pgm = _consts+7;
if (STK_GET_PARAMETER == cmd)
{
u8 i = packet[0] - 0x80;
if (i > 2)
i = (i==0x18) ? 3 : 4; // 0x80:HW_VER,0x81:SW_MAJOR,0x82:SW_MINOR,0x18:3 or 0
pgm = _consts + i + 3;
send = 1;
}
else if (STK_UNIVERSAL == cmd)
{
if (packet[0] == 0x30)
pgm = _consts + packet[2];
send = 1;
}
else if (STK_READ_SIGN == cmd)
{
pgm = _consts;
send = 3;
}
else if (STK_LOAD_ADDRESS == cmd)
{
address = *((u16*)packet); // word address
address += address;
}
else if (STK_PROG_PAGE == cmd)
{
Program(CDC_RX, address, packet[1]);
}
else if (STK_READ_PAGE == cmd)
{
send = packet[1];
pgm = (const u8*)address;
address += send;
}
// Check sync
// if (Serial.available() > 0 && Serial.read() != ' ')
// break;
// if (USB_Available(CDC_RX) && USB_Recv(CDC_RX) != ' ')
// u8 countdown = 10;
// while (!USB_Available(CDC_RX))
// {
// if (countdown-- == 0)
// break;
// }
// u8 x = USB_Recv(CDC_RX);
// if (x != -1 && x != ' ')
// {
// L_LED_ON();
// break;
// }
// if (getch() != ' ')
// break;
// while (!USB_Available(CDC_RX))
// ;
//
// int x = USB_Recv(CDC_RX);
// if (x == -1)
// {
// UEINTX = 0x6B;
// break;
// }
// else if (x != ' ')
// {
//// UEINTX = 0x6B;
// break;
// }
u16 countdown = 5000;
while (countdown-- > 10 && !USB_Available(CDC_RX))
;
int x = USB_Recv(CDC_RX);
if (x != -1 && x != ' ')
break;
USB_Send(CDC_TX, &_inSync, 1);
if (send)
USB_Send(CDC_TX|TRANSFER_PGM, pgm, send);
// Send ok
USB_Send(CDC_TX|TRANSFER_RELEASE, &_ok, 1);
if ('Q' == cmd)
{
_delay_ms(100);
/* move interrupts to application section:
* uses inline assembly because the procedure must be completed in four cycles.
*/
asm volatile (
"ldi r16, 0x01\n" // (1<<IVCE) /* Enable change of interrupt vectors */
"out 0x35, r16\n" // MCUCR
"ldi r16, 0x00\n" // (1<<IVSEL) /* Move interrupts to application flash section */
"out 0x35, r16\n" // MCUCR
);
start_sketch();
// break;
}
}
_timeout = 0;
// Read params
Recv(CDC_RX,packet,len);
// Send a response
u8 send = 0;
const u8* pgm = _consts+7; // 0
if (STK_GET_PARAMETER == cmd)
{
u8 i = packet[0] - 0x80;
if (i > 2)
i = (i == 0x18) ? 3 : 4; // 0x80:HW_VER,0x81:SW_MAJOR,0x82:SW_MINOR,0x18:3 or 0
pgm = _consts + i + 3;
send = 1;
}
else if (STK_UNIVERSAL == cmd)
{
if (packet[0] == 0x30)
pgm = _consts + packet[2]; // read signature
send = 1;
}
// Read signature bytes
else if (STK_READ_SIGN == cmd)
{
pgm = _consts;
send = 3;
}
else if (STK_LOAD_ADDRESS == cmd)
{
address = *((u16*)packet); // word addresses
address += address;
}
else if (STK_PROG_PAGE == cmd)
{
Program(CDC_RX,address,packet[1]);
}
else if (STK_READ_PAGE == cmd)
{
send = packet[1];
pgm = (const u8*)address;
address += send; // not sure of this is required
}
// Check sync
if (getch() != ' ')
break;
Transfer(CDC_TX,&_inSync,1);
// Send result
if (send)
Transfer(CDC_TX|TRANSFER_PGM,pgm,send); // All from pgm memory
// Send ok
Transfer(CDC_TX|TRANSFER_RELEASE,&_ok,1);
if (cmd == 'Q')
break;
}
_timeout = 500; // wait a moment before exiting the bootloader - may need to finish responding to 'Q' for example
_ejected = 1;
}
}
// Nice breathing LED indicates we are in the firmware
u16 _pulse;
void LEDPulse()
{
_pulse += 4;
u8 p = _pulse >> 9;
if (p > 63)
p = 127-p;
p += p;
if (((u8)_pulse) > p)
LED0;
else
LED1;
}
void Reboot()
{
TXLED0; // switch off the RX and TX LEDs before starting the user sketch
RXLED0;
UDCON = 1; // Detatch USB
UDIEN = 0;
asm volatile ( // Reset vector to run firmware
"clr r30\n"
"clr r31\n"
"ijmp\n"
::);
}

63
hardware/arduino/bootloaders/diskloader/src/Platform.h
View File

@ -1,3 +1,9 @@
/*
* Platform.h
*/
#ifndef __PLATFORM_H__
#define __PLATFORM_H__
#include <inttypes.h>
#include <avr/io.h>
@ -11,39 +17,56 @@
#include <stdlib.h>
#include <string.h>
#ifdef __cplusplus
extern "C"{
#endif
typedef unsigned char u8;
typedef unsigned short u16;
typedef unsigned long u32;
#define CPU_PRESCALE(n) (CLKPR = 0x80, CLKPR = (n))
#define DISABLE_JTAG() MCUCR = (1 << JTD) | (1 << IVCE) | (0 << PUD); MCUCR = (1 << JTD) | (0 << IVSEL) | (0 << IVCE) | (0 << PUD);
#define CDC_ENABLED
#define USB_PID_LEONARDO 0x0034
#define USB_PID_MICRO 0x0035
#define USB_VID 0x2341 // arduino LLC vid
#define USB_PID ARDUINO_MODEL_PID // passed in by Makefile - 0x0034 for Leonardo, 0x0035 for MIcro
#define OEM_NAME 'l','e','o','n','a','r','d','o' // 8 chars
#define BOARD_INIT() DDRC |= (1<<7); DDRB |= (1<<0); DDRD |= (1<<5); CPU_PRESCALE(0); DISABLE_JTAG();
#define LED0 PORTC &= ~(1<<7)
#define LED1 PORTC |= (1<<7)
#define TXLED0 PORTD |= (1<<5)
#define TXLED1 PORTD &= ~(1<<5)
#define RXLED0 PORTB |= (1<<0)
#define RXLED1 PORTB &= ~(1<<0)
//#include "USBDesc.h"
//#include "../../../cores/arduino/USBCore.h"
#define TRANSFER_PGM 0x80
#define TRANSFER_RELEASE 0x40
#define TRANSFER_ZERO 0x20
void Transfer(u8 ep, const u8* data, int len);
void Recv(u8 ep, u8* dst, u8 len);
void Program(u8 ep, u16 page, u8 count);
#define min(a,b) ((a)<(b)?(a):(b))
#define CDC_ENABLED
#define CPU_PRESCALE(n) (CLKPR = 0x80, CLKPR = (n))
#define DISABLE_JTAG() MCUCR = (1 << JTD) | (1 << IVCE) | (0 << PUD); MCUCR = (1 << JTD) | (0 << IVSEL) | (0 << IVCE) | (0 << PUD)
#define BOARD_INIT() DDRC |= (1<<7); DDRB |= (1<<0); DDRE |= (1<<6); CPU_PRESCALE(0); DISABLE_JTAG(); // for XXX-series boards
//#define BOARD_INIT() DDRC |= (1<<7); DDRB |= (1<<0); DDRD |= (1<<5); CPU_PRESCALE(0); DISABLE_JTAG(); // for non-XXX boards
// for XXX-series boards
#define TX_LED_OFF() PORTE |= (1<<6)
#define TX_LED_ON() PORTE &= ~(1<<6)
#define RX_LED_OFF() PORTB |= (1<<0)
#define RX_LED_ON() PORTB &= ~(1<<0)
#define L_LED_OFF() PORTC &= ~(1<<7)
#define L_LED_ON() PORTC |= (1<<7)
#define L_LED_TOGGLE() PORTC ^= (1<<7)
// these for non-XXX boards
//#define LED0 PORTC &= ~(1<<7)
//#define LED1 PORTC |= (1<<7)
//#define TXLED0 PORTD |= (1<<5)
//#define TXLED1 PORTD &= ~(1<<5)
//#define RXLED0 PORTB |= (1<<0)
//#define RXLED1 PORTB &= ~(1<<0)
#ifdef __cplusplus
} /* extern "C"{ */
#endif
#include "USBCore.h"
#include "USBDesc.h"
#include "USBCore.h"
#include "USBAPI.h"
#endif /* __PLATFORM_H__ */

0
hardware/arduino/bootloaders/nuevo_diskloader/src/USBAPI.h → hardware/arduino/bootloaders/diskloader/src/USBAPI.h
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615
hardware/arduino/bootloaders/diskloader/src/USBCore.cpp
View File

@ -17,9 +17,10 @@
*/
#include "Platform.h"
#include "USBAPI.h"
#include "USBDesc.h"
#define CDC_TX CDC_ENDPOINT_IN
#define CDC_RX CDC_ENDPOINT_OUT
#if defined(USBCON)
#define EP_TYPE_CONTROL 0x00
#define EP_TYPE_BULK_IN 0x81
@ -31,32 +32,54 @@
/** Pulse generation counters to keep track of the number of milliseconds remaining for each pulse type */
#define TX_RX_LED_PULSE_MS 100
u8 TxLEDPulse; /**< Milliseconds remaining for data Tx LED pulse */
u8 RxLEDPulse; /**< Milliseconds remaining for data Rx LED pulse */
void Reboot();
volatile u8 TxLEDPulse; /**< Milliseconds remaining for data Tx LED pulse */
volatile u8 RxLEDPulse; /**< Milliseconds remaining for data Rx LED pulse */
//==================================================================
//==================================================================
typedef struct
{
u32 dwDTERate;
u8 bCharFormat;
u8 bParityType;
u8 bDataBits;
u8 lineState;
} LineInfo;
extern const u16 STRING_LANGUAGE[] PROGMEM;
extern const u16 STRING_IPRODUCT[] PROGMEM;
extern const u16 STRING_IMANUFACTURER[] PROGMEM;
extern const DeviceDescriptor USB_DeviceDescriptor PROGMEM;
extern const DeviceDescriptor USB_DeviceDescriptorA PROGMEM;
static volatile LineInfo _usbLineInfo = { 57600, 0x00, 0x00, 0x00, 0x00 };
const u16 STRING_LANGUAGE[2] = {
(3<<8) | (2+2),
0x0409 // English
};
const u16 STRING_IPRODUCT[17] = {
(3<<8) | (2+2*16),
#if USB_PID == USB_PID_LEONARDO
'A','r','d','u','i','n','o',' ','L','e','o','n','a','r','d','o'
#elif USB_PID == USB_PID_MICRO
'A','r','d','u','i','n','o',' ','M','i','c','r','o',' ',' ',' '
#endif
};
const u16 STRING_IMANUFACTURER[12] = {
(3<<8) | (2+2*11),
'A','r','d','u','i','n','o',' ','L','L','C'
};
#ifdef CDC_ENABLED
#define DEVICE_CLASS 0x02
#else
#define DEVICE_CLASS 0x00
#endif
// DEVICE DESCRIPTOR
const DeviceDescriptor USB_DeviceDescriptor =
D_DEVICE(0x00,0x00,0x00,64,USB_VID,USB_PID,0x100,IMANUFACTURER,IPRODUCT,0,1);
const DeviceDescriptor USB_DeviceDescriptorA =
D_DEVICE(DEVICE_CLASS,0x00,0x00,64,USB_VID,USB_PID,0x100,IMANUFACTURER,IPRODUCT,0,1);
//==================================================================
//==================================================================
// 4 bytes of RAM
volatile u8 _usbConfiguration;
volatile u8 _ejected;
volatile u16 _timeout;
volatile u8 _usbConfiguration = 0;
static inline void WaitIN(void)
{
@ -86,34 +109,25 @@ static inline void ClearOUT(void)
UEINTX = ~(1<<RXOUTI);
}
static
void Send(volatile const u8* data, u8 count)
{
TXLED1; // light the TX LED
TxLEDPulse = TX_RX_LED_PULSE_MS;
while (count--)
UEDATX = *data++;
}
void Recv(volatile u8* data, u8 count)
{
RXLED1; // light the RX LED
RxLEDPulse = TX_RX_LED_PULSE_MS;
while (count--)
*data++ = UEDATX;
RX_LED_ON();
RxLEDPulse = TX_RX_LED_PULSE_MS;
}
static inline u8 Recv8()
{
RXLED1; // light the RX LED
RX_LED_ON();
RxLEDPulse = TX_RX_LED_PULSE_MS;
return UEDATX;
return UEDATX;
}
static inline void Send8(u8 d)
{
TXLED1; // light the TX LED
TxLEDPulse = TX_RX_LED_PULSE_MS;
UEDATX = d;
}
@ -175,48 +189,38 @@ static inline u8 FrameNumber()
//==================================================================
//==================================================================
#define EP_SINGLE_64 0x32 // EP0
#define EP_DOUBLE_64 0x36 // Other endpoints
static void InitEP(u8 index, u8 type, u8 size)
{
UENUM = index;
UECONX = 1;
UECFG0X = type;
UECFG1X = size;
}
// API
void USBInit(void)
{
_timeout = 0;
_usbConfiguration = 0;
_ejected = 0;
UHWCON = 0x01; // power internal reg (don't need this?)
USBCON = (1<<USBE)|(1<<FRZCLK); // clock frozen, usb enabled
PLLCSR = 0x12; // Need 16 MHz xtal
while (!(PLLCSR & (1<<PLOCK))) // wait for lock pll
;
USBCON = ((1<<USBE)|(1<<OTGPADE)); // start USB clock
UDCON = 0; // enable attach resistor
}
u8 USBGetConfiguration(void)
{
return _usbConfiguration;
}
u8 HasData(u8 ep)
#define USB_RECV_TIMEOUT
class LockEP
{
SetEP(ep);
return ReadWriteAllowed(); // count in fifo
u8 _sreg;
public:
LockEP(u8 ep) : _sreg(SREG)
{
cli();
SetEP(ep & 7);
}
~LockEP()
{
SREG = _sreg;
}
};
// Number of bytes, assumes a rx endpoint
u8 USB_Available(u8 ep)
{
LockEP lock(ep);
return FifoByteCount();
}
int USBGetChar();
void Recv(u8 ep, u8* dst, u8 len)
void USB_Recv_block(u8 ep, u8* dst, int len)
{
SetEP(ep);
// SetEP(ep & 7);
LockEP lock(ep);
while (len--)
{
while (!ReadWriteAllowed())
@ -224,47 +228,131 @@ void Recv(u8 ep, u8* dst, u8 len)
*dst++ = Recv8();
if (!ReadWriteAllowed()) // release empty buffer
ReleaseRX();
}
}
}
// Transmit a packet to endpoint
void Transfer(u8 ep, const u8* data, int len)
// Non Blocking receive
// Return number of bytes read
int USB_Recv(u8 ep, void* d, int len)
{
u8 zero = ep & TRANSFER_ZERO;
SetEP(ep & 7);
while (len--)
if (!_usbConfiguration || len < 0)
return -1;
LockEP lock(ep);
u8 n = FifoByteCount();
len = min(n,len);
n = len;
u8* dst = (u8*)d;
while (n--)
*dst++ = Recv8();
if (len && !FifoByteCount()) // release empty buffer
ReleaseRX();
return len;
}
// Recv 1 byte if ready
int USB_Recv(u8 ep)
{
u8 c;
if (USB_Recv(ep,&c,1) != 1)
return -1;
return c;
}
// Space in send EP
u8 USB_SendSpace(u8 ep)
{
LockEP lock(ep);
if (!ReadWriteAllowed())
return 0;
return 64 - FifoByteCount();
}
// Blocking Send of data to an endpoint
int USB_Send(u8 ep, const void* d, int len)
{
if (!_usbConfiguration)
return -1;
int r = len;
const u8* data = (const u8*)d;
// u8 zero = ep & TRANSFER_ZERO;
u8 timeout = 250; // 250ms timeout on send? TODO
while (len)
{
while (!ReadWriteAllowed())
; // TODO Check for STALL etc
u8 n = USB_SendSpace(ep);
if (n == 0)
{
// if (!(--timeout))
// return -1;
// delay(1);
_delay_ms(1);
continue;
}
u8 d = (ep & TRANSFER_PGM) ? pgm_read_byte(data) : data[0];
data++;
if (zero)
d = 0;
Send8(d);
if (!ReadWriteAllowed())
ReleaseTX();
if (n > len)
n = len;
len -= n;
{
LockEP lock(ep);
if (ep & TRANSFER_ZERO)
{
while (n--)
Send8(0);
}
else if (ep & TRANSFER_PGM)
{
while (n--)
Send8(pgm_read_byte(data++));
}
else
{
while (n--)
Send8(*data++);
}
if (!ReadWriteAllowed() || ((len == 0) && (ep & TRANSFER_RELEASE))) // Release full buffer
ReleaseTX();
}
}
if (ep & TRANSFER_RELEASE)
ReleaseTX();
TX_LED_ON();
TxLEDPulse = TX_RX_LED_PULSE_MS;
return r;
}
extern const u8 _initEndpoints[] PROGMEM;
const u8 _initEndpoints[] =
{
0,
#ifdef CDC_ENABLED
EP_TYPE_INTERRUPT_IN, // CDC_ENDPOINT_ACM
EP_TYPE_BULK_OUT, // CDC_ENDPOINT_OUT
EP_TYPE_BULK_IN, // CDC_ENDPOINT_IN
#endif
EP_TYPE_INTERRUPT_IN, // HID_ENDPOINT_INT
#ifdef HID_ENABLED
EP_TYPE_INTERRUPT_IN // HID_ENDPOINT_INT
#endif
};
static void InitEndpoints()
#define EP_SINGLE_64 0x32 // EP0
#define EP_DOUBLE_64 0x36 // Other endpoints
static
void InitEP(u8 index, u8 type, u8 size)
{
UENUM = index;
UECONX = 1;
UECFG0X = type;
UECFG1X = size;
}
static
void InitEndpoints()
{
for (u8 i = 1; i < sizeof(_initEndpoints); i++)
{
@ -277,99 +365,123 @@ static void InitEndpoints()
UERST = 0;
}
typedef struct
// Handle CLASS_INTERFACE requests
static
bool ClassInterfaceRequest(Setup& setup)
{
u8 bmRequestType;
u8 bRequest;
u8 wValueL;
u8 wValueH;
u16 wIndex;
u16 wLength;
} Setup;
Setup _setup;
u8 i = setup.wIndex;
//bool USBHook(Setup& setup)
bool USBHook()
#ifdef CDC_ENABLED
if (CDC_ACM_INTERFACE == i)
return CDC_Setup(setup);
#endif
return false;
}
int _cmark;
int _cend;
void InitControl(int end)
{
Setup& setup = _setup;
u8 r = setup.bRequest;
SetEP(0);
_cmark = 0;
_cend = end;
}
// CDC Requests
if (CDC_GET_LINE_CODING == r)
static
bool SendControl(u8 d)
{
if (_cmark < _cend)
{
Send((const volatile u8*)&_usbLineInfo,7);
if (!WaitForINOrOUT())
return false;
Send8(d);
if (!((_cmark + 1) & 0x3F))
ClearIN(); // Fifo is full, release this packet
}
_cmark++;
return true;
};
else if (CDC_SET_LINE_CODING == r)
// Clipped by _cmark/_cend
int USB_SendControl(u8 flags, const void* d, int len)
{
int sent = len;
const u8* data = (const u8*)d;
bool pgm = flags & TRANSFER_PGM;
while (len--)
{
WaitOUT();
Recv((volatile u8*)&_usbLineInfo,7);
ClearOUT();
u8 c = pgm ? pgm_read_byte(data++) : *data++;
if (!SendControl(c))
return -1;
}
return sent;
}
else if (CDC_SET_CONTROL_LINE_STATE == r)
{
_usbLineInfo.lineState = setup.wValueL;
}
// Does not timeout or cross fifo boundaries
// Will only work for transfers <= 64 bytes
// TODO
int USB_RecvControl(void* d, int len)
{
WaitOUT();
Recv((u8*)d,len);
ClearOUT();
return len;
}
int SendInterfaces()
{
int total = 0;
u8 interfaces = 0;
#ifdef CDC_ENABLED
total = CDC_GetInterface(&interfaces);
#endif
return interfaces;
}
// Construct a dynamic configuration descriptor
// This really needs dynamic endpoint allocation etc
// TODO
static
bool SendConfiguration(int maxlen)
{
// Count and measure interfaces
InitControl(0);
int interfaces = SendInterfaces();
ConfigDescriptor config = D_CONFIG(_cmark + sizeof(ConfigDescriptor),interfaces);
// Now send them
InitControl(maxlen);
USB_SendControl(0,&config,sizeof(ConfigDescriptor));
SendInterfaces();
return true;
}
extern const u8 _rawHID[] PROGMEM;
#define LSB(_x) ((_x) & 0xFF)
#define MSB(_x) ((_x) >> 8)
#define RAWHID_USAGE_PAGE 0xFFC0
#define RAWHID_USAGE 0x0C00
#define RAWHID_TX_SIZE 64
#define RAWHID_RX_SIZE 64
const u8 _rawHID[] =
{
// RAW HID
0x06, LSB(RAWHID_USAGE_PAGE), MSB(RAWHID_USAGE_PAGE), // 30
0x0A, LSB(RAWHID_USAGE), MSB(RAWHID_USAGE),
0xA1, 0x01, // Collection 0x01
0x85, 0x03, // REPORT_ID (3)
0x75, 0x08, // report size = 8 bits
0x15, 0x00, // logical minimum = 0
0x26, 0xFF, 0x00, // logical maximum = 255
0x95, 64, // report count TX
0x09, 0x01, // usage
0x81, 0x02, // Input (array)
0x95, 64, // report count RX
0x09, 0x02, // usage
0x91, 0x02, // Output (array)
0xC0 // end collection
};
u8 _cdcComposite = 0;
bool SendDescriptor()
static
bool SendDescriptor(Setup& setup)
{
Setup& setup = _setup;
u8 t = setup.wValueH;
if (USB_CONFIGURATION_DESCRIPTOR_TYPE == t)
return SendConfiguration(setup.wLength);
InitControl(setup.wLength);
#ifdef HID_ENABLED
if (HID_REPORT_DESCRIPTOR_TYPE == t)
return HID_GetDescriptor(t);
#endif
u8 desc_length = 0;
const u8* desc_addr = 0;
u8 t = setup.wValueH;
if (0x22 == t)
{
desc_addr = _rawHID;
desc_length = sizeof(desc_length);
} else if (USB_DEVICE_DESCRIPTOR_TYPE == t)
if (USB_DEVICE_DESCRIPTOR_TYPE == t)
{
if (setup.wLength == 8)
_cdcComposite = 1;
desc_addr = _cdcComposite ? (const u8*)&USB_DeviceDescriptorA : (const u8*)&USB_DeviceDescriptor;
}
else if (USB_CONFIGURATION_DESCRIPTOR_TYPE == t)
{
desc_addr = (const u8*)&USB_ConfigDescriptor;
desc_length = sizeof(USB_ConfigDescriptor);
}
else if (USB_STRING_DESCRIPTOR_TYPE == t)
{
if (setup.wValueL == 0)
@ -380,81 +492,106 @@ bool SendDescriptor()
desc_addr = (const u8*)&STRING_IMANUFACTURER;
else
return false;
} else
return false;
}
if (desc_addr == 0)
return false;
if (desc_length == 0)
desc_length = pgm_read_byte(desc_addr);
if ((u8)setup.wLength < desc_length) // bit of a cheat limiting to 255 bytes TODO (saved 8 bytes)
desc_length = (u8)setup.wLength;
// Send descriptor
// EP0 is 64 bytes long
// RWAL and FIFOCON don't work on EP0
u8 n = 0;
do
{
if (!WaitForINOrOUT())
return false;
Send8(pgm_read_byte(&desc_addr[n++]));
u8 clr = n & 0x3F;
if (!clr)
ClearIN(); // Fifo is full, release this packet
} while (n < desc_length);
USB_SendControl(TRANSFER_PGM,desc_addr,desc_length);
return true;
}
void USBSetupInterrupt()
// Endpoint 0 interrupt
ISR(USB_COM_vect)
{
SetEP(0);
if (!ReceivedSetupInt())
return;
Setup& setup = _setup; // global saves ~30 bytes
Setup setup;
Recv((u8*)&setup,8);
ClearSetupInt();
if (setup.bmRequestType & DEVICETOHOST)
u8 requestType = setup.bmRequestType;
if (requestType & REQUEST_DEVICETOHOST)
WaitIN();
else
ClearIN();
bool ok = true;
u8 r = setup.bRequest;
if (SET_ADDRESS == r)
if (REQUEST_STANDARD == (requestType & REQUEST_TYPE))
{
WaitIN();
UDADDR = setup.wValueL | (1<<ADDEN);
}
else if (SET_CONFIGURATION == r)
{
_usbConfiguration = setup.wValueL;
InitEndpoints();
}
else if (GET_CONFIGURATION == r)
{
Send8(_usbConfiguration);
}
else if (GET_STATUS == r)
{
Send8(0); // All good as far as I know
}
else if (GET_DESCRIPTOR == r)
{
ok = SendDescriptor();
// Standard Requests
u8 r = setup.bRequest;
if (GET_STATUS == r)
{
Send8(0); // TODO
Send8(0);
}
else if (CLEAR_FEATURE == r)
{
}
else if (SET_FEATURE == r)
{
}
else if (SET_ADDRESS == r)
{
WaitIN();
UDADDR = setup.wValueL | (1<<ADDEN);
}
else if (GET_DESCRIPTOR == r)
{
ok = SendDescriptor(setup);
}
else if (SET_DESCRIPTOR == r)
{
ok = false;
}
else if (GET_CONFIGURATION == r)
{
Send8(1);
}
else if (SET_CONFIGURATION == r)
{
if (REQUEST_DEVICE == (requestType & REQUEST_RECIPIENT))
{
InitEndpoints();
_usbConfiguration = setup.wValueL;
} else
ok = false;
}
else if (GET_INTERFACE == r)
{
}
else if (SET_INTERFACE == r)
{
}
}
else
{
ok = USBHook();
InitControl(setup.wLength); // Max length of transfer
ok = ClassInterfaceRequest(setup);
}
if (ok)
ClearIN();
else
{
Stall();
}
}
void USBGeneralInterrupt()
void USB_Flush(u8 ep)
{
SetEP(ep);
if (FifoByteCount())
ReleaseTX();
}
// General interrupt
ISR(USB_GEN_vect)
{
u8 udint = UDINT;
UDINT = 0;
@ -464,45 +601,69 @@ void USBGeneralInterrupt()
{
InitEP(0,EP_TYPE_CONTROL,EP_SINGLE_64); // init ep0
_usbConfiguration = 0; // not configured yet
UEIENX = 1 << RXSTPE; // Enable interrupts for ep0
}
// Start of Frame - happens every millisecond so we use it for TX and RX LED one-shot timing, too
if (udint & (1<<SOFI))
{
//#ifdef CDC_ENABLED
USB_Flush(CDC_TX); // Send a tx frame if found
//#endif
// check whether the one-shot period has elapsed. if so, turn off the LED
if (TxLEDPulse && !(--TxLEDPulse))
TXLED0;
TX_LED_OFF();
if (RxLEDPulse && !(--RxLEDPulse))
RXLED0;
if (!_ejected)
_timeout = 0;
RX_LED_OFF();
}
}
void LEDPulse();
int USBGetChar()
// VBUS or counting frames
// Any frame counting?
u8 USBConnected()
{
for(;;)
{
USBSetupInterrupt();
USBGeneralInterrupt();
// Read a char
if (HasData(CDC_RX))
{
u8 c = Recv8();
if (!ReadWriteAllowed())
ReleaseRX();
return c;
}
if (!--_timeout) {
Reboot(); // USB not connected, run firmware
}
_delay_us(100); // stretch out the bootloader period to about 5 seconds after enumeration
LEDPulse();
}
return -1;
u8 f = UDFNUML;
// delay(3);
_delay_ms(3);
return f != UDFNUML;
}
//=======================================================================
//=======================================================================
USB_ USB;
USB_::USB_()
{
}
void USB_::attach()
{
_usbConfiguration = 0;
UHWCON = 0x01; // power internal reg
USBCON = (1<<USBE)|(1<<FRZCLK); // clock frozen, usb enabled
PLLCSR = 0x12; // Need 16 MHz xtal
while (!(PLLCSR & (1<<PLOCK))) // wait for lock pll
;
USBCON = ((1<<USBE)|(1<<OTGPADE)); // start USB clock
UDIEN = (1<<EORSTE)|(1<<SOFE); // Enable interrupts for EOR (End of Reset) and SOF (start of frame)
UDCON = 0; // enable attach resistor
}
void USB_::detach()
{
}
// Check for interrupts
// TODO: VBUS detection
bool USB_::configured()
{
return _usbConfiguration;
}
void USB_::poll()
{
}
#endif /* if defined(USBCON) */

89
hardware/arduino/bootloaders/diskloader/src/USBCore.h
View File

@ -18,31 +18,54 @@
#ifndef __USBCORE_H__
#define __USBCORE_H__
// Standard requests
#define GET_STATUS 0
#define CLEAR_FEATURE 1
#define SET_FEATURE 3
#define SET_ADDRESS 5
#define GET_DESCRIPTOR 6
#define SET_DESCRIPTOR 7
#define GET_CONFIGURATION 8
#define SET_CONFIGURATION 9
#define GET_INTERFACE 10
#define SET_INTERFACE 11
// bmRequestType
#define HOSTTODEVICE 0x00
#define DEVICETOHOST 0x80
#define STANDARD 0x00
#define CLASS 0x20
#define VENDOR 0x40
#define DEVICE 0x00
#define INTERFACE 0x01
#define ENDPOINT 0x02
#define OTHER 0x03
#define CDC_SET_LINE_CODING 0x20
#define CDC_GET_LINE_CODING 0x21
// bmRequestType
#define REQUEST_HOSTTODEVICE 0x00
#define REQUEST_DEVICETOHOST 0x80
#define REQUEST_DIRECTION 0x80
#define REQUEST_STANDARD 0x00
#define REQUEST_CLASS 0x20
#define REQUEST_VENDOR 0x40
#define REQUEST_TYPE 0x60
#define REQUEST_DEVICE 0x00
#define REQUEST_INTERFACE 0x01
#define REQUEST_ENDPOINT 0x02
#define REQUEST_OTHER 0x03
#define REQUEST_RECIPIENT 0x03
#define REQUEST_DEVICETOHOST_CLASS_INTERFACE (REQUEST_DEVICETOHOST + REQUEST_CLASS + REQUEST_INTERFACE)
#define REQUEST_HOSTTODEVICE_CLASS_INTERFACE (REQUEST_HOSTTODEVICE + REQUEST_CLASS + REQUEST_INTERFACE)
// Class requests
#define CDC_SET_LINE_CODING 0x20
#define CDC_GET_LINE_CODING 0x21
#define CDC_SET_CONTROL_LINE_STATE 0x22
#define MSC_RESET 0xFF
#define MSC_GET_MAX_LUN 0xFE
#define HID_GET_REPORT 0x01
#define HID_GET_IDLE 0x02
#define HID_GET_PROTOCOL 0x03
#define HID_SET_REPORT 0x09
#define HID_SET_IDLE 0x0A
#define HID_SET_PROTOCOL 0x0B
// Descriptors
#define USB_DEVICE_DESC_SIZE 18
@ -94,6 +117,13 @@
#define CDC_CS_ENDPOINT 0x25
#define CDC_DATA_INTERFACE_CLASS 0x0A
#define MSC_SUBCLASS_SCSI 0x06
#define MSC_PROTOCOL_BULK_ONLY 0x50
#define HID_HID_DESCRIPTOR_TYPE 0x21
#define HID_REPORT_DESCRIPTOR_TYPE 0x22
#define HID_PHYSICAL_DESCRIPTOR_TYPE 0x23
// Device
typedef struct {
@ -186,14 +216,32 @@ typedef struct
typedef struct
{
u8 len;
u8 dtype; // 0x24
u8 subtype; // 1
u8 bmCapabilities;
u8 bDataInterface;
} CMFunctionalDescriptor;
typedef struct
{
u8 len;
u8 dtype; // 0x24
u8 subtype; // 1
u8 bmCapabilities;
} ACMFunctionalDescriptor;
typedef struct
{
// IAD
IADDescriptor iad; // Only needed on compound device
// Control
InterfaceDescriptor cif; //
CDCCSInterfaceDescriptor header;
CDCCSInterfaceDescriptor callManagement;
CDCCSInterfaceDescriptor4 controlManagement;
CDCCSInterfaceDescriptor functionalDescriptor;
CMFunctionalDescriptor callManagement; // Call Management
ACMFunctionalDescriptor controlManagement; // ACM
CDCCSInterfaceDescriptor functionalDescriptor; // CDC_UNION
EndpointDescriptor cifin;
// Data
@ -202,6 +250,13 @@ typedef struct
EndpointDescriptor out;
} CDCDescriptor;
typedef struct
{
InterfaceDescriptor msc;
EndpointDescriptor in;
EndpointDescriptor out;
} MSCDescriptor;
typedef struct
{
u8 len; // 9
@ -222,11 +277,12 @@ typedef struct
EndpointDescriptor in;
} HIDDescriptor;
#define D_DEVICE(_class,_subClass,_proto,_packetSize0,_vid,_pid,_version,_im,_ip,_is,_configs) \
{ 18, 1, 0x200, _class,_subClass,_proto,_packetSize0,_vid,_pid,_version,_im,_ip,_is,_configs }
#define D_CONFIG(_totalLength,_interfaces) \
{ 9, 2, _totalLength,_interfaces, 1, 0, USB_CONFIG_BUS_POWERED, USB_CONFIG_POWER_MA(100) }
{ 9, 2, _totalLength,_interfaces, 1, 0, USB_CONFIG_BUS_POWERED, USB_CONFIG_POWER_MA(500) }
#define D_INTERFACE(_n,_numEndpoints,_class,_subClass,_protocol) \
{ 9, 4, _n, 0, _numEndpoints, _class,_subClass, _protocol, 0 }
@ -243,4 +299,5 @@ typedef struct
#define D_CDCCS(_subtype,_d0,_d1) { 5, 0x24, _subtype, _d0, _d1 }
#define D_CDCCS4(_subtype,_d0) { 4, 0x24, _subtype, _d0 }
#endif

82
hardware/arduino/bootloaders/diskloader/src/USBDesc.cpp
View File

@ -1,82 +0,0 @@
/* Copyright (c) 2011, Peter Barrett
**
** Permission to use, copy, modify, and/or distribute this software for
** any purpose with or without fee is hereby granted, provided that the
** above copyright notice and this permission notice appear in all copies.
**
** THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
** WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
** WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR
** BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES
** OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
** WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
** ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
** SOFTWARE.
*/
#include "Platform.h"
//====================================================================================================
//====================================================================================================
// Actual device descriptors
const u16 STRING_LANGUAGE[2] = {
(3<<8) | (2+2),
0x0409 // English
};
const u16 STRING_IPRODUCT[28] = {
(3<<8) | (2+2*27),
#if USB_PID == USB_PID_LEONARDO
'A','r','d','u','i','n','o',' ','L','e','o','n','a','r','d','o',' ','b','o','o','t','l','o','a','d','e','r'
#elif USB_PID == USB_PID_MICRO
'A','r','d','u','i','n','o',' ','M','i','c','r','o',' ','b','o','o','t','l','o','a','d','e','r',' ',' ',' '
#endif
};
const u16 STRING_IMANUFACTURER[12] = {
(3<<8) | (2+2*11),
'A','r','d','u','i','n','o',' ','L','L','C'
};
//#ifdef CDC_ENABLED
DeviceDescriptor USB_DeviceDescriptorA = D_DEVICE(0X02,0X00,0X00,64,USB_VID,USB_PID,0x100,IMANUFACTURER,IPRODUCT,0,1);
//#else
DeviceDescriptor USB_DeviceDescriptor = D_DEVICE(0x00,0x00,0x00,64,USB_VID,USB_PID,0x100,IMANUFACTURER,IPRODUCT,0,1);
//#endif
Config USB_ConfigDescriptor =
{
D_CONFIG(sizeof(Config),INTERFACE_COUNT),
#ifdef CDC_ENABLED
// CDC
{
D_IAD(0,2,CDC_COMMUNICATION_INTERFACE_CLASS,CDC_ABSTRACT_CONTROL_MODEL,1),
// CDC communication interface
D_INTERFACE(CDC_ACM_INTERFACE,1,CDC_COMMUNICATION_INTERFACE_CLASS,CDC_ABSTRACT_CONTROL_MODEL,0),
D_CDCCS(CDC_HEADER,0x10,0x01), // Header (1.10 bcd)
D_CDCCS(CDC_CALL_MANAGEMENT,1,1), // Device handles call management
D_CDCCS4(CDC_ABSTRACT_CONTROL_MANAGEMENT,2), // SET_LINE_CODING, GET_LINE_CODING, SET_CONTROL_LINE_STATE supported
D_CDCCS(CDC_UNION,CDC_ACM_INTERFACE,CDC_DATA_INTERFACE), // Communication interface is master, data interface is slave 0
D_ENDPOINT(USB_ENDPOINT_IN (CDC_ENDPOINT_ACM),USB_ENDPOINT_TYPE_INTERRUPT,0x10,0x40),
// CDC data interface
D_INTERFACE(CDC_DATA_INTERFACE,2,CDC_DATA_INTERFACE_CLASS,0,0),
D_ENDPOINT(USB_ENDPOINT_OUT(CDC_ENDPOINT_OUT),USB_ENDPOINT_TYPE_BULK,0x40,0),
D_ENDPOINT(USB_ENDPOINT_IN (CDC_ENDPOINT_IN ),USB_ENDPOINT_TYPE_BULK,0x40,0)
},
#endif
// HID
{
D_INTERFACE(HID_INTERFACE,1,3,0,0),
D_HIDREPORT(30),
D_ENDPOINT(USB_ENDPOINT_IN (HID_ENDPOINT_INT),USB_ENDPOINT_TYPE_INTERRUPT,0x40,0x40)
}
};

62
hardware/arduino/bootloaders/diskloader/src/USBDesc.h
View File

@ -16,48 +16,50 @@
** SOFTWARE.
*/
#define CDC_ENABLED
#ifdef CDC_ENABLED
#define CDC_INTERFACE_COUNT 2
#define CDC_ENPOINT_COUNT 3
#else
#define CDC_INTERFACE_COUNT 0
#define CDC_ENPOINT_COUNT 0
#endif
#ifdef HID_ENABLED
#define HID_INTERFACE_COUNT 1
#define HID_ENPOINT_COUNT 1
#else
#define HID_INTERFACE_COUNT 0
#define HID_ENPOINT_COUNT 0
#endif
#define CDC_ACM_INTERFACE 0 // CDC ACM
#define CDC_DATA_INTERFACE 1 // CDC Data
#define CDC_ENDPOINT_ACM 1
#define CDC_ENDPOINT_OUT 2
#define CDC_ENDPOINT_IN 3
#define CDC_FIRST_ENDPOINT 1
#define CDC_ENDPOINT_ACM (CDC_FIRST_ENDPOINT) // CDC First
#define CDC_ENDPOINT_OUT (CDC_FIRST_ENDPOINT+1)
#define CDC_ENDPOINT_IN (CDC_FIRST_ENDPOINT+2)
#define HID_INTERFACE 2 // HID Interface
#define HID_ENDPOINT_INT 4
#define HID_INTERFACE (CDC_ACM_INTERFACE + CDC_INTERFACE_COUNT) // HID Interface
#define HID_FIRST_ENDPOINT (CDC_FIRST_ENDPOINT + CDC_ENPOINT_COUNT)
#define HID_ENDPOINT_INT (HID_FIRST_ENDPOINT)
#define INTERFACE_COUNT 3 // 2 for cdc + 1 for hid
#define INTERFACE_COUNT (MSC_INTERFACE + MSC_INTERFACE_COUNT)
#else
#define HID_INTERFACE 2 // HID Interface
#define HID_ENDPOINT_INT 4
#define INTERFACE_COUNT 1 // 1 for hid
#endif
typedef struct
{
ConfigDescriptor config;
#ifdef CDC_ENABLED
CDCDescriptor cdc;
#define CDC_RX CDC_ENDPOINT_OUT
#define CDC_TX CDC_ENDPOINT_IN
#endif
HIDDescriptor hid;
} Config;
extern Config USB_ConfigDescriptor PROGMEM;
extern DeviceDescriptor USB_DeviceDescriptor PROGMEM;
extern DeviceDescriptor USB_DeviceDescriptorA PROGMEM;
extern const u16 STRING_LANGUAGE[2] PROGMEM;
extern const u16 STRING_IPRODUCT[28] PROGMEM;
extern const u16 STRING_IMANUFACTURER[12] PROGMEM;
#ifdef HID_ENABLED
#define HID_TX HID_ENDPOINT_INT
#endif
#define IMANUFACTURER 1
#define IPRODUCT 2
#define USB_PID_LEONARDO 0x0034
#define USB_PID_MICRO 0x0035
#define USB_VID 0x2341 // arduino LLC vid
//#define USB_PID ARDUINO_MODEL_USB_PID
#define CDC_TX CDC_ENDPOINT_IN
#define CDC_RX CDC_ENDPOINT_OUT

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109
hardware/arduino/bootloaders/nuevo_diskloader/Makefile
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@ -1,109 +0,0 @@
###############################################################################
# Makefile for DiskLoader
###############################################################################
## General Flags
PROJECT = DiskLoader
TARGET = DiskLoader.elf
CC = avr-gcc
# BOARD2
MCU = atmega32u4
AVR_FREQ = 16000000L
# Specify the Arduino model using the assigned PID. This is used by Descriptors.c
# to set PID and product descriptor string
# Arduino Leonardo PID
ARDUINO_MODEL_PID = 0x0089
# Arduino Micro PID
#ARDUINO_MODEL_PID = 0x0035
# Change if your programmer is different
AVRDUDE_PROGRAMMER = avrispmkII
AVRDUDE_PORT = usb
# program name should not be changed...
PROGRAM = DiskLoader
AVRDUDE = avrdude
AVRDUDE_FLAGS = -p $(MCU) -P $(AVRDUDE_PORT) -c $(AVRDUDE_PROGRAMMER) -p $(MCU)
## Options common to compile, link and assembly rules
COMMON = -mmcu=$(MCU)
override CFLAGS = -g -Wall -Os -mmcu=$(MCU) -DF_CPU=$(AVR_FREQ) -DARDUINO_MODEL_PID=$(ARDUINO_MODEL_PID) $(DEFS) -ffunction-sections -gdwarf-2 -fdata-sections -fno-split-wide-types
## Assembly specific flags
ASMFLAGS = $(COMMON)
ASMFLAGS += $(CFLAGS)
ASMFLAGS += -x assembler-with-cpp -Wa,-gdwarf2
## Linker flags
LDFLAGS = $(COMMON)
#LDFLAGS += -Wl,-gc-sections,-Map=DiskLoader.map,--cref
#LDFLAGS += -Wl,--section-start=.text=0x7000,--relax
#LDFLAGS += -Wl,--gc-sections
#LDFLAGS += -nodefaultlibs -nostartfiles
#LDFLAGS += -nostartfiles
LDFLAGS += -Wl,-gc-sections,-Map=DiskLoader.map,--section-start=.text=0x7000,--relax
## Intel Hex file production flags
HEX_EEPROM_FLAGS = -j .eeprom
HEX_EEPROM_FLAGS += --set-section-flags=.eeprom="alloc,load"
HEX_EEPROM_FLAGS += --change-section-lma .eeprom=0 --no-change-warnings
## Objects explicitly added by the user
LINKONLYOBJECTS =
MODULES := .
SRC_DIR := $(addprefix src/,$(MODULES))
BUILD_DIR := $(addprefix build/,$(MODULES))
SRC := $(foreach sdir,$(SRC_DIR),$(wildcard $(sdir)/*.cpp))
OBJ := $(patsubst src/%.cpp,build/%.o,$(SRC))
DEP := $(OBJ:%.o=%.d)
INCLUDES := $(addprefix -I,$(SRC_DIR))
vpath %.cpp $(SRC_DIR)
.PHONY: all checkdirs clean
all: checkdirs $(TARGET) DiskLoader.hex DiskLoader.lss size
-include $(DEP)
checkdirs: $(BUILD_DIR)
$(BUILD_DIR):
@mkdir -p $@
clean:
@rm -rf build/
@rm -f *.hex
@rm -f *.elf
@rm -f *.lss
@rm -f *.map
define make-goal
$1/%.o: %.cpp
$(CC) $(INCLUDES) $(CFLAGS) -c $$< -MD -o $$@
endef
$(foreach bdir,$(BUILD_DIR),$(eval $(call make-goal,$(bdir))))
$(TARGET): $(OBJ)
$(CC) $(LDFLAGS) $(LINKONLYOBJECTS) $(LIBDIRS) $(LIBS) $^ -o $@
%.hex: $(TARGET)
avr-objcopy -O ihex $(HEX_FLASH_FLAGS) $< $@
%.lss: $(TARGET)
avr-objdump -h -S $< > $@
size: $(TARGET)
@echo
# @avr-size -C --mcu=${MCU} ${TARGET}.elf
program: $(TARGET).hex
$(AVRDUDE) $(AVRDUDE_FLAGS) -B 1 -u -U flash:w:$(TARGET).hex

280
hardware/arduino/bootloaders/nuevo_diskloader/src/DiskLoader.cpp
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@ -1,280 +0,0 @@
/*
* DiskLoader.cpp
*/
#include "Platform.h"
//#include "USBCore.h"
extern "C"
void entrypoint(void) __attribute__ ((naked)) __attribute__ ((section (".vectors")));
void entrypoint(void)
{
asm volatile (
"eor r1, r1\n" // Zero register
"out 0x3F, r1\n" // SREG
"ldi r28, 0xFF\n" // Y-register
"ldi r29, 0x0A\n" // Y-register
"out 0x3E, r29\n" // SPH
"out 0x3D, r28\n" // SPL
"rjmp main" // Stack is all set up, start the main code
::);
}
u8 _flashbuf[128];
u8 _inSync;
u8 _ok;
u16 do_reset = 0;
volatile u16 _timeout;
void Program(u8 ep, u16 page, u8 count)
{
u8 write = page < 28*1024; // Don't write over bootloader please
if (write)
boot_page_erase(page);
USB_Recv_block(ep,_flashbuf,count); // Read while page is erasing
if (!write)
return;
boot_spm_busy_wait(); // Wait until the memory is erased.
count >>= 1;
u16* p = (u16*)page;
u16* b = (u16*)_flashbuf;
for (u8 i = 0; i < count; i++)
boot_page_fill(p++, b[i]);
boot_page_write(page);
boot_spm_busy_wait();
boot_rww_enable ();
}
#define HW_VER 0x02
#define SW_MAJOR 0x01
#define SW_MINOR 0x10
#define STK_OK 0x10
#define STK_INSYNC 0x14 // ' '
#define CRC_EOP 0x20 // 'SPACE'
#define STK_GET_SYNC 0x30 // '0'
#define STK_GET_PARAMETER 0x41 // 'A'
#define STK_SET_DEVICE 0x42 // 'B'
#define STK_SET_DEVICE_EXT 0x45 // 'E'
#define STK_LOAD_ADDRESS 0x55 // 'U'
#define STK_UNIVERSAL 0x56 // 'V'
#define STK_PROG_PAGE 0x64 // 'd'
#define STK_READ_PAGE 0x74 // 't'
#define STK_READ_SIGN 0x75 // 'u'
extern const u8 _readSize[] PROGMEM;
const u8 _readSize[] =
{
STK_GET_PARAMETER, 1,
STK_SET_DEVICE, 20,
STK_SET_DEVICE_EXT, 5,
STK_UNIVERSAL, 4,
STK_LOAD_ADDRESS, 2,
STK_PROG_PAGE, 3,
STK_READ_PAGE, 3,
0,0
};
extern const u8 _consts[] PROGMEM;
const u8 _consts[] =
{
SIGNATURE_0,
SIGNATURE_1,
SIGNATURE_2,
HW_VER, // Hardware version
SW_MAJOR, // Software major version
SW_MINOR, // Software minor version
0x03, // Unknown but seems to be required by avr studio 3.56
0x00, //
};
//int getch(void)
//{
// u16 timeout;
// u8 c;
// for (timeout = 0; timeout; timeout--)
// {
// c = USB_Recv(CDC_RX);
// if (c != -1)
// return c;
// }
// return -1;
//}
void start_sketch()
{
UDCON = 1; // Detatch USB
UDIEN = 0;
asm volatile ( // Reset vector to run firmware
"clr r30\n"
"clr r31\n"
"ijmp\n"
::);
}
int main(void) __attribute__ ((naked));
int main()
{
wdt_disable();
BOARD_INIT();
/* move interrupts to boot section:
* uses inline assembly because the procedure must be completed in four cycles.
* seems to fail if called before disabling WDT and calling BOARD_INIT()
*/
asm volatile (
"ldi r16, 0x01\n" // (1<<IVCE) /* Enable change of interrupt vectors */
"out 0x35, r16\n" // MCUCR
"ldi r16, 0x02\n" // (1<<IVSEL) /* Move interrupts to boot flash section */
"out 0x35, r16\n" // MCUCR
);
TX_LED_OFF();
RX_LED_OFF();
L_LED_OFF();
USB.attach();
sei();
_inSync = STK_INSYNC;
_ok = STK_OK;
for (;;)
{
u8* packet = _flashbuf;
u16 address = 0;
for (;;)
{
// while (!USB_Available(CDC_RX))
// ;
if (USB_Available(CDC_RX))
{
u8 cmd = USB_Recv(CDC_RX);
// Read packet contents
u8 len;
const u8* rs = _readSize;
for (;;)
{
u8 c = pgm_read_byte(rs++);
len = pgm_read_byte(rs++);
if (c == cmd || c == 0)
break;
}
_timeout = 0;
// Read params
USB_Recv_block(CDC_RX, packet, len);
// Send a response
u8 send = 0;
const u8* pgm = _consts+7;
if (STK_GET_PARAMETER == cmd)
{
u8 i = packet[0] - 0x80;
if (i > 2)
i = (i==0x18) ? 3 : 4; // 0x80:HW_VER,0x81:SW_MAJOR,0x82:SW_MINOR,0x18:3 or 0
pgm = _consts + i + 3;
send = 1;
}
else if (STK_UNIVERSAL == cmd)
{
if (packet[0] == 0x30)
pgm = _consts + packet[2];
send = 1;
}
else if (STK_READ_SIGN == cmd)
{
pgm = _consts;
send = 3;
}
else if (STK_LOAD_ADDRESS == cmd)
{
address = *((u16*)packet); // word address
address += address;
}
else if (STK_PROG_PAGE == cmd)
{
Program(CDC_RX, address, packet[1]);
}
else if (STK_READ_PAGE == cmd)
{
send = packet[1];
pgm = (const u8*)address;
address += send;
}
// Check sync
// if (Serial.available() > 0 && Serial.read() != ' ')
// break;
// if (USB_Available(CDC_RX) && USB_Recv(CDC_RX) != ' ')
// u8 countdown = 10;
// while (!USB_Available(CDC_RX))
// {
// if (countdown-- == 0)
// break;
// }
// u8 x = USB_Recv(CDC_RX);
// if (x != -1 && x != ' ')
// {
// L_LED_ON();
// break;
// }
// if (getch() != ' ')
// break;
// while (!USB_Available(CDC_RX))
// ;
//
// int x = USB_Recv(CDC_RX);
// if (x == -1)
// {
// UEINTX = 0x6B;
// break;
// }
// else if (x != ' ')
// {
//// UEINTX = 0x6B;
// break;
// }
u16 countdown = 5000;
while (countdown-- > 10 && !USB_Available(CDC_RX))
;
int x = USB_Recv(CDC_RX);
if (x != -1 && x != ' ')
break;
USB_Send(CDC_TX, &_inSync, 1);
if (send)
USB_Send(CDC_TX|TRANSFER_PGM, pgm, send);
// Send ok
USB_Send(CDC_TX|TRANSFER_RELEASE, &_ok, 1);
if ('Q' == cmd)
{
_delay_ms(100);
/* move interrupts to application section:
* uses inline assembly because the procedure must be completed in four cycles.
*/
asm volatile (
"ldi r16, 0x01\n" // (1<<IVCE) /* Enable change of interrupt vectors */
"out 0x35, r16\n" // MCUCR
"ldi r16, 0x00\n" // (1<<IVSEL) /* Move interrupts to application flash section */
"out 0x35, r16\n" // MCUCR
);
start_sketch();
// break;
}
}
}
}
}

72
hardware/arduino/bootloaders/nuevo_diskloader/src/Platform.h
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@ -1,72 +0,0 @@
/*
* Platform.h
*/
#ifndef __PLATFORM_H__
#define __PLATFORM_H__
#include <inttypes.h>
#include <avr/io.h>
#include <avr/pgmspace.h>
#include <avr/boot.h>
#include <util/delay.h>
#include <avr/interrupt.h>
#include <avr/wdt.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef __cplusplus
extern "C"{
#endif
typedef unsigned char u8;
typedef unsigned short u16;
typedef unsigned long u32;
#define CDC_ENABLED
#define USB_PID_LEONARDO 0x0034
#define USB_PID_MICRO 0x0035
#define USB_VID 0x2341 // arduino LLC vid
#define USB_PID ARDUINO_MODEL_PID // passed in by Makefile - 0x0034 for Leonardo, 0x0035 for MIcro
//#include "USBDesc.h"
//#include "../../../cores/arduino/USBCore.h"
#define min(a,b) ((a)<(b)?(a):(b))
#define CPU_PRESCALE(n) (CLKPR = 0x80, CLKPR = (n))
#define DISABLE_JTAG() MCUCR = (1 << JTD) | (1 << IVCE) | (0 << PUD); MCUCR = (1 << JTD) | (0 << IVSEL) | (0 << IVCE) | (0 << PUD)
#define BOARD_INIT() DDRC |= (1<<7); DDRB |= (1<<0); DDRE |= (1<<6); CPU_PRESCALE(0); DISABLE_JTAG(); // for XXX-series boards
//#define BOARD_INIT() DDRC |= (1<<7); DDRB |= (1<<0); DDRD |= (1<<5); CPU_PRESCALE(0); DISABLE_JTAG(); // for non-XXX boards
// for XXX-series boards
#define TX_LED_OFF() PORTE |= (1<<6)
#define TX_LED_ON() PORTE &= ~(1<<6)
#define RX_LED_OFF() PORTB |= (1<<0)
#define RX_LED_ON() PORTB &= ~(1<<0)
#define L_LED_OFF() PORTC &= ~(1<<7)
#define L_LED_ON() PORTC |= (1<<7)
#define L_LED_TOGGLE() PORTC ^= (1<<7)
// these for non-XXX boards
//#define LED0 PORTC &= ~(1<<7)
//#define LED1 PORTC |= (1<<7)
//#define TXLED0 PORTD |= (1<<5)
//#define TXLED1 PORTD &= ~(1<<5)
//#define RXLED0 PORTB |= (1<<0)
//#define RXLED1 PORTB &= ~(1<<0)
#ifdef __cplusplus
} /* extern "C"{ */
#endif
#include "USBDesc.h"
#include "USBCore.h"
#include "USBAPI.h"
#endif /* __PLATFORM_H__ */

669
hardware/arduino/bootloaders/nuevo_diskloader/src/USBCore.cpp
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@ -1,669 +0,0 @@
/* Copyright (c) 2010, Peter Barrett
**
** Permission to use, copy, modify, and/or distribute this software for
** any purpose with or without fee is hereby granted, provided that the
** above copyright notice and this permission notice appear in all copies.
**
** THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
** WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
** WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR
** BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES
** OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
** WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
** ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
** SOFTWARE.
*/
#include "Platform.h"
#include "USBAPI.h"
#include "USBDesc.h"
#if defined(USBCON)
#define EP_TYPE_CONTROL 0x00
#define EP_TYPE_BULK_IN 0x81
#define EP_TYPE_BULK_OUT 0x80
#define EP_TYPE_INTERRUPT_IN 0xC1
#define EP_TYPE_INTERRUPT_OUT 0xC0
#define EP_TYPE_ISOCHRONOUS_IN 0x41
#define EP_TYPE_ISOCHRONOUS_OUT 0x40
/** Pulse generation counters to keep track of the number of milliseconds remaining for each pulse type */
#define TX_RX_LED_PULSE_MS 100
volatile u8 TxLEDPulse; /**< Milliseconds remaining for data Tx LED pulse */
volatile u8 RxLEDPulse; /**< Milliseconds remaining for data Rx LED pulse */
//==================================================================
//==================================================================
extern const u16 STRING_LANGUAGE[] PROGMEM;
extern const u16 STRING_IPRODUCT[] PROGMEM;
extern const u16 STRING_IMANUFACTURER[] PROGMEM;
extern const DeviceDescriptor USB_DeviceDescriptor PROGMEM;
extern const DeviceDescriptor USB_DeviceDescriptorA PROGMEM;
const u16 STRING_LANGUAGE[2] = {
(3<<8) | (2+2),
0x0409 // English
};
const u16 STRING_IPRODUCT[17] = {
(3<<8) | (2+2*16),
#if USB_PID == USB_PID_LEONARDO
'A','r','d','u','i','n','o',' ','L','e','o','n','a','r','d','o'
#elif USB_PID == USB_PID_MICRO
'A','r','d','u','i','n','o',' ','M','i','c','r','o',' ',' ',' '
#endif
};
const u16 STRING_IMANUFACTURER[12] = {
(3<<8) | (2+2*11),
'A','r','d','u','i','n','o',' ','L','L','C'
};
#ifdef CDC_ENABLED
#define DEVICE_CLASS 0x02
#else
#define DEVICE_CLASS 0x00
#endif
// DEVICE DESCRIPTOR
const DeviceDescriptor USB_DeviceDescriptor =
D_DEVICE(0x00,0x00,0x00,64,USB_VID,USB_PID,0x100,IMANUFACTURER,IPRODUCT,0,1);
const DeviceDescriptor USB_DeviceDescriptorA =
D_DEVICE(DEVICE_CLASS,0x00,0x00,64,USB_VID,USB_PID,0x100,IMANUFACTURER,IPRODUCT,0,1);
//==================================================================
//==================================================================
volatile u8 _usbConfiguration = 0;
static inline void WaitIN(void)
{
while (!(UEINTX & (1<<TXINI)));
}
static inline void ClearIN(void)
{
UEINTX = ~(1<<TXINI);
}
static inline void WaitOUT(void)
{
while (!(UEINTX & (1<<RXOUTI)))
;
}
static inline u8 WaitForINOrOUT()
{
while (!(UEINTX & ((1<<TXINI)|(1<<RXOUTI))))
;
return (UEINTX & (1<<RXOUTI)) == 0;
}
static inline void ClearOUT(void)
{
UEINTX = ~(1<<RXOUTI);
}
void Recv(volatile u8* data, u8 count)
{
while (count--)
*data++ = UEDATX;
RX_LED_ON();
RxLEDPulse = TX_RX_LED_PULSE_MS;
}
static inline u8 Recv8()
{
RX_LED_ON();
RxLEDPulse = TX_RX_LED_PULSE_MS;
return UEDATX;
}
static inline void Send8(u8 d)
{
UEDATX = d;
}
static inline void SetEP(u8 ep)
{
UENUM = ep;
}
static inline u8 FifoByteCount()
{
return UEBCLX;
}
static inline u8 ReceivedSetupInt()
{
return UEINTX & (1<<RXSTPI);
}
static inline void ClearSetupInt()
{
UEINTX = ~((1<<RXSTPI) | (1<<RXOUTI) | (1<<TXINI));
}
static inline void Stall()
{
UECONX = (1<<STALLRQ) | (1<<EPEN);
}
static inline u8 ReadWriteAllowed()
{
return UEINTX & (1<<RWAL);
}
static inline u8 Stalled()
{
return UEINTX & (1<<STALLEDI);
}
static inline u8 FifoFree()
{
return UEINTX & (1<<FIFOCON);
}
static inline void ReleaseRX()
{
UEINTX = 0x6B; // FIFOCON=0 NAKINI=1 RWAL=1 NAKOUTI=0 RXSTPI=1 RXOUTI=0 STALLEDI=1 TXINI=1
}
static inline void ReleaseTX()
{
UEINTX = 0x3A; // FIFOCON=0 NAKINI=0 RWAL=1 NAKOUTI=1 RXSTPI=1 RXOUTI=0 STALLEDI=1 TXINI=0
}
static inline u8 FrameNumber()
{
return UDFNUML;
}
//==================================================================
//==================================================================
u8 USBGetConfiguration(void)
{
return _usbConfiguration;
}
#define USB_RECV_TIMEOUT
class LockEP
{
u8 _sreg;
public:
LockEP(u8 ep) : _sreg(SREG)
{
cli();
SetEP(ep & 7);
}
~LockEP()
{
SREG = _sreg;
}
};
// Number of bytes, assumes a rx endpoint
u8 USB_Available(u8 ep)
{
LockEP lock(ep);
return FifoByteCount();
}
void USB_Recv_block(u8 ep, u8* dst, int len)
{
// SetEP(ep & 7);
LockEP lock(ep);
while (len--)
{
while (!ReadWriteAllowed())
;
*dst++ = Recv8();
if (!ReadWriteAllowed()) // release empty buffer
ReleaseRX();
}
}
// Non Blocking receive
// Return number of bytes read
int USB_Recv(u8 ep, void* d, int len)
{
if (!_usbConfiguration || len < 0)
return -1;
LockEP lock(ep);
u8 n = FifoByteCount();
len = min(n,len);
n = len;
u8* dst = (u8*)d;
while (n--)
*dst++ = Recv8();
if (len && !FifoByteCount()) // release empty buffer
ReleaseRX();
return len;
}
// Recv 1 byte if ready
int USB_Recv(u8 ep)
{
u8 c;
if (USB_Recv(ep,&c,1) != 1)
return -1;
return c;
}
// Space in send EP
u8 USB_SendSpace(u8 ep)
{
LockEP lock(ep);
if (!ReadWriteAllowed())
return 0;
return 64 - FifoByteCount();
}
// Blocking Send of data to an endpoint
int USB_Send(u8 ep, const void* d, int len)
{
if (!_usbConfiguration)
return -1;
int r = len;
const u8* data = (const u8*)d;
// u8 zero = ep & TRANSFER_ZERO;
u8 timeout = 250; // 250ms timeout on send? TODO
while (len)
{
u8 n = USB_SendSpace(ep);
if (n == 0)
{
// if (!(--timeout))
// return -1;
// delay(1);
_delay_ms(1);
continue;
}
if (n > len)
n = len;
len -= n;
{
LockEP lock(ep);
if (ep & TRANSFER_ZERO)
{
while (n--)
Send8(0);
}
else if (ep & TRANSFER_PGM)
{
while (n--)
Send8(pgm_read_byte(data++));
}
else
{
while (n--)
Send8(*data++);
}
if (!ReadWriteAllowed() || ((len == 0) && (ep & TRANSFER_RELEASE))) // Release full buffer
ReleaseTX();
}
}
if (ep & TRANSFER_RELEASE)
ReleaseTX();
TX_LED_ON();
TxLEDPulse = TX_RX_LED_PULSE_MS;
return r;
}
extern const u8 _initEndpoints[] PROGMEM;
const u8 _initEndpoints[] =
{
0,
#ifdef CDC_ENABLED
EP_TYPE_INTERRUPT_IN, // CDC_ENDPOINT_ACM
EP_TYPE_BULK_OUT, // CDC_ENDPOINT_OUT
EP_TYPE_BULK_IN, // CDC_ENDPOINT_IN
#endif
#ifdef HID_ENABLED
EP_TYPE_INTERRUPT_IN // HID_ENDPOINT_INT
#endif
};
#define EP_SINGLE_64 0x32 // EP0
#define EP_DOUBLE_64 0x36 // Other endpoints
static
void InitEP(u8 index, u8 type, u8 size)
{
UENUM = index;
UECONX = 1;
UECFG0X = type;
UECFG1X = size;
}
static
void InitEndpoints()
{
for (u8 i = 1; i < sizeof(_initEndpoints); i++)
{
UENUM = i;
UECONX = 1;
UECFG0X = pgm_read_byte(_initEndpoints+i);
UECFG1X = EP_DOUBLE_64;
}
UERST = 0x7E; // And reset them
UERST = 0;
}
// Handle CLASS_INTERFACE requests
static
bool ClassInterfaceRequest(Setup& setup)
{
u8 i = setup.wIndex;
#ifdef CDC_ENABLED
if (CDC_ACM_INTERFACE == i)
return CDC_Setup(setup);
#endif
return false;
}
int _cmark;
int _cend;
void InitControl(int end)
{
SetEP(0);
_cmark = 0;
_cend = end;
}
static
bool SendControl(u8 d)
{
if (_cmark < _cend)
{
if (!WaitForINOrOUT())
return false;
Send8(d);
if (!((_cmark + 1) & 0x3F))
ClearIN(); // Fifo is full, release this packet
}
_cmark++;
return true;
};
// Clipped by _cmark/_cend
int USB_SendControl(u8 flags, const void* d, int len)
{
int sent = len;
const u8* data = (const u8*)d;
bool pgm = flags & TRANSFER_PGM;
while (len--)
{
u8 c = pgm ? pgm_read_byte(data++) : *data++;
if (!SendControl(c))
return -1;
}
return sent;
}
// Does not timeout or cross fifo boundaries
// Will only work for transfers <= 64 bytes
// TODO
int USB_RecvControl(void* d, int len)
{
WaitOUT();
Recv((u8*)d,len);
ClearOUT();
return len;
}
int SendInterfaces()
{
int total = 0;
u8 interfaces = 0;
#ifdef CDC_ENABLED
total = CDC_GetInterface(&interfaces);
#endif
return interfaces;
}
// Construct a dynamic configuration descriptor
// This really needs dynamic endpoint allocation etc
// TODO
static
bool SendConfiguration(int maxlen)
{
// Count and measure interfaces
InitControl(0);
int interfaces = SendInterfaces();
ConfigDescriptor config = D_CONFIG(_cmark + sizeof(ConfigDescriptor),interfaces);
// Now send them
InitControl(maxlen);
USB_SendControl(0,&config,sizeof(ConfigDescriptor));
SendInterfaces();
return true;
}
u8 _cdcComposite = 0;
static
bool SendDescriptor(Setup& setup)
{
u8 t = setup.wValueH;
if (USB_CONFIGURATION_DESCRIPTOR_TYPE == t)
return SendConfiguration(setup.wLength);
InitControl(setup.wLength);
#ifdef HID_ENABLED
if (HID_REPORT_DESCRIPTOR_TYPE == t)
return HID_GetDescriptor(t);
#endif
u8 desc_length = 0;
const u8* desc_addr = 0;
if (USB_DEVICE_DESCRIPTOR_TYPE == t)
{
if (setup.wLength == 8)
_cdcComposite = 1;
desc_addr = _cdcComposite ? (const u8*)&USB_DeviceDescriptorA : (const u8*)&USB_DeviceDescriptor;
}
else if (USB_STRING_DESCRIPTOR_TYPE == t)
{
if (setup.wValueL == 0)
desc_addr = (const u8*)&STRING_LANGUAGE;
else if (setup.wValueL == IPRODUCT)
desc_addr = (const u8*)&STRING_IPRODUCT;
else if (setup.wValueL == IMANUFACTURER)
desc_addr = (const u8*)&STRING_IMANUFACTURER;
else
return false;
}
if (desc_addr == 0)
return false;
if (desc_length == 0)
desc_length = pgm_read_byte(desc_addr);
USB_SendControl(TRANSFER_PGM,desc_addr,desc_length);
return true;
}
// Endpoint 0 interrupt
ISR(USB_COM_vect)
{
SetEP(0);
if (!ReceivedSetupInt())
return;
Setup setup;
Recv((u8*)&setup,8);
ClearSetupInt();
u8 requestType = setup.bmRequestType;
if (requestType & REQUEST_DEVICETOHOST)
WaitIN();
else
ClearIN();
bool ok = true;
if (REQUEST_STANDARD == (requestType & REQUEST_TYPE))
{
// Standard Requests
u8 r = setup.bRequest;
if (GET_STATUS == r)
{
Send8(0); // TODO
Send8(0);
}
else if (CLEAR_FEATURE == r)
{
}
else if (SET_FEATURE == r)
{
}
else if (SET_ADDRESS == r)
{
WaitIN();
UDADDR = setup.wValueL | (1<<ADDEN);
}
else if (GET_DESCRIPTOR == r)
{
ok = SendDescriptor(setup);
}
else if (SET_DESCRIPTOR == r)
{
ok = false;
}
else if (GET_CONFIGURATION == r)
{
Send8(1);
}
else if (SET_CONFIGURATION == r)
{
if (REQUEST_DEVICE == (requestType & REQUEST_RECIPIENT))
{
InitEndpoints();
_usbConfiguration = setup.wValueL;
} else
ok = false;
}
else if (GET_INTERFACE == r)
{
}
else if (SET_INTERFACE == r)
{
}
}
else
{
InitControl(setup.wLength); // Max length of transfer
ok = ClassInterfaceRequest(setup);
}
if (ok)
ClearIN();
else
{
Stall();
}
}
void USB_Flush(u8 ep)
{
SetEP(ep);
if (FifoByteCount())
ReleaseTX();
}
// General interrupt
ISR(USB_GEN_vect)
{
u8 udint = UDINT;
UDINT = 0;
// End of Reset
if (udint & (1<<EORSTI))
{
InitEP(0,EP_TYPE_CONTROL,EP_SINGLE_64); // init ep0
_usbConfiguration = 0; // not configured yet
UEIENX = 1 << RXSTPE; // Enable interrupts for ep0
}
// Start of Frame - happens every millisecond so we use it for TX and RX LED one-shot timing, too
if (udint & (1<<SOFI))
{
//#ifdef CDC_ENABLED
USB_Flush(CDC_TX); // Send a tx frame if found
//#endif
// check whether the one-shot period has elapsed. if so, turn off the LED
if (TxLEDPulse && !(--TxLEDPulse))
TX_LED_OFF();
if (RxLEDPulse && !(--RxLEDPulse))
RX_LED_OFF();
}
}
// VBUS or counting frames
// Any frame counting?
u8 USBConnected()
{
u8 f = UDFNUML;
// delay(3);
_delay_ms(3);
return f != UDFNUML;
}
//=======================================================================
//=======================================================================
USB_ USB;
USB_::USB_()
{
}
void USB_::attach()
{
_usbConfiguration = 0;
UHWCON = 0x01; // power internal reg
USBCON = (1<<USBE)|(1<<FRZCLK); // clock frozen, usb enabled
PLLCSR = 0x12; // Need 16 MHz xtal
while (!(PLLCSR & (1<<PLOCK))) // wait for lock pll
;
USBCON = ((1<<USBE)|(1<<OTGPADE)); // start USB clock
UDIEN = (1<<EORSTE)|(1<<SOFE); // Enable interrupts for EOR (End of Reset) and SOF (start of frame)
UDCON = 0; // enable attach resistor
}
void USB_::detach()
{
}
// Check for interrupts
// TODO: VBUS detection
bool USB_::configured()
{
return _usbConfiguration;
}
void USB_::poll()
{
}
#endif /* if defined(USBCON) */

303
hardware/arduino/bootloaders/nuevo_diskloader/src/USBCore.h
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// Copyright (c) 2010, Peter Barrett
/*
** Permission to use, copy, modify, and/or distribute this software for
** any purpose with or without fee is hereby granted, provided that the
** above copyright notice and this permission notice appear in all copies.
**
** THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
** WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
** WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR
** BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES
** OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
** WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
** ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
** SOFTWARE.
*/
#ifndef __USBCORE_H__
#define __USBCORE_H__
// Standard requests
#define GET_STATUS 0
#define CLEAR_FEATURE 1
#define SET_FEATURE 3
#define SET_ADDRESS 5
#define GET_DESCRIPTOR 6
#define SET_DESCRIPTOR 7
#define GET_CONFIGURATION 8
#define SET_CONFIGURATION 9
#define GET_INTERFACE 10
#define SET_INTERFACE 11
// bmRequestType
#define REQUEST_HOSTTODEVICE 0x00
#define REQUEST_DEVICETOHOST 0x80
#define REQUEST_DIRECTION 0x80
#define REQUEST_STANDARD 0x00
#define REQUEST_CLASS 0x20
#define REQUEST_VENDOR 0x40
#define REQUEST_TYPE 0x60
#define REQUEST_DEVICE 0x00
#define REQUEST_INTERFACE 0x01
#define REQUEST_ENDPOINT 0x02
#define REQUEST_OTHER 0x03
#define REQUEST_RECIPIENT 0x03
#define REQUEST_DEVICETOHOST_CLASS_INTERFACE (REQUEST_DEVICETOHOST + REQUEST_CLASS + REQUEST_INTERFACE)
#define REQUEST_HOSTTODEVICE_CLASS_INTERFACE (REQUEST_HOSTTODEVICE + REQUEST_CLASS + REQUEST_INTERFACE)
// Class requests
#define CDC_SET_LINE_CODING 0x20
#define CDC_GET_LINE_CODING 0x21
#define CDC_SET_CONTROL_LINE_STATE 0x22
#define MSC_RESET 0xFF
#define MSC_GET_MAX_LUN 0xFE
#define HID_GET_REPORT 0x01
#define HID_GET_IDLE 0x02
#define HID_GET_PROTOCOL 0x03
#define HID_SET_REPORT 0x09
#define HID_SET_IDLE 0x0A
#define HID_SET_PROTOCOL 0x0B
// Descriptors
#define USB_DEVICE_DESC_SIZE 18
#define USB_CONFIGUARTION_DESC_SIZE 9
#define USB_INTERFACE_DESC_SIZE 9
#define USB_ENDPOINT_DESC_SIZE 7
#define USB_DEVICE_DESCRIPTOR_TYPE 1
#define USB_CONFIGURATION_DESCRIPTOR_TYPE 2
#define USB_STRING_DESCRIPTOR_TYPE 3
#define USB_INTERFACE_DESCRIPTOR_TYPE 4
#define USB_ENDPOINT_DESCRIPTOR_TYPE 5
#define USB_DEVICE_CLASS_COMMUNICATIONS 0x02
#define USB_DEVICE_CLASS_HUMAN_INTERFACE 0x03
#define USB_DEVICE_CLASS_STORAGE 0x08
#define USB_DEVICE_CLASS_VENDOR_SPECIFIC 0xFF
#define USB_CONFIG_POWERED_MASK 0x40
#define USB_CONFIG_BUS_POWERED 0x80
#define USB_CONFIG_SELF_POWERED 0xC0
#define USB_CONFIG_REMOTE_WAKEUP 0x20
// bMaxPower in Configuration Descriptor
#define USB_CONFIG_POWER_MA(mA) ((mA)/2)
// bEndpointAddress in Endpoint Descriptor
#define USB_ENDPOINT_DIRECTION_MASK 0x80
#define USB_ENDPOINT_OUT(addr) ((addr) | 0x00)
#define USB_ENDPOINT_IN(addr) ((addr) | 0x80)
#define USB_ENDPOINT_TYPE_MASK 0x03
#define USB_ENDPOINT_TYPE_CONTROL 0x00
#define USB_ENDPOINT_TYPE_ISOCHRONOUS 0x01
#define USB_ENDPOINT_TYPE_BULK 0x02
#define USB_ENDPOINT_TYPE_INTERRUPT 0x03
#define TOBYTES(x) ((x) & 0xFF),(((x) >> 8) & 0xFF)
#define CDC_V1_10 0x0110
#define CDC_COMMUNICATION_INTERFACE_CLASS 0x02
#define CDC_CALL_MANAGEMENT 0x01
#define CDC_ABSTRACT_CONTROL_MODEL 0x02
#define CDC_HEADER 0x00
#define CDC_ABSTRACT_CONTROL_MANAGEMENT 0x02
#define CDC_UNION 0x06
#define CDC_CS_INTERFACE 0x24
#define CDC_CS_ENDPOINT 0x25
#define CDC_DATA_INTERFACE_CLASS 0x0A
#define MSC_SUBCLASS_SCSI 0x06
#define MSC_PROTOCOL_BULK_ONLY 0x50
#define HID_HID_DESCRIPTOR_TYPE 0x21
#define HID_REPORT_DESCRIPTOR_TYPE 0x22
#define HID_PHYSICAL_DESCRIPTOR_TYPE 0x23
// Device
typedef struct {
u8 len; // 18
u8 dtype; // 1 USB_DEVICE_DESCRIPTOR_TYPE
u16 usbVersion; // 0x200
u8 deviceClass;
u8 deviceSubClass;
u8 deviceProtocol;
u8 packetSize0; // Packet 0
u16 idVendor;
u16 idProduct;
u16 deviceVersion; // 0x100
u8 iManufacturer;
u8 iProduct;
u8 iSerialNumber;
u8 bNumConfigurations;
} DeviceDescriptor;
// Config
typedef struct {
u8 len; // 9
u8 dtype; // 2
u16 clen; // total length
u8 numInterfaces;
u8 config;
u8 iconfig;
u8 attributes;
u8 maxPower;
} ConfigDescriptor;
// String
// Interface
typedef struct
{
u8 len; // 9
u8 dtype; // 4
u8 number;
u8 alternate;
u8 numEndpoints;
u8 interfaceClass;
u8 interfaceSubClass;
u8 protocol;
u8 iInterface;
} InterfaceDescriptor;
// Endpoint
typedef struct
{
u8 len; // 7
u8 dtype; // 5
u8 addr;
u8 attr;
u16 packetSize;
u8 interval;
} EndpointDescriptor;
// Interface Association Descriptor
// Used to bind 2 interfaces together in CDC compostite device
typedef struct
{
u8 len; // 8
u8 dtype; // 11
u8 firstInterface;
u8 interfaceCount;
u8 functionClass;
u8 funtionSubClass;
u8 functionProtocol;
u8 iInterface;
} IADDescriptor;
// CDC CS interface descriptor
typedef struct
{
u8 len; // 5
u8 dtype; // 0x24
u8 subtype;
u8 d0;
u8 d1;
} CDCCSInterfaceDescriptor;
typedef struct
{
u8 len; // 4
u8 dtype; // 0x24
u8 subtype;
u8 d0;
} CDCCSInterfaceDescriptor4;
typedef struct
{
u8 len;
u8 dtype; // 0x24
u8 subtype; // 1
u8 bmCapabilities;
u8 bDataInterface;
} CMFunctionalDescriptor;
typedef struct
{
u8 len;
u8 dtype; // 0x24
u8 subtype; // 1
u8 bmCapabilities;
} ACMFunctionalDescriptor;
typedef struct
{
// IAD
IADDescriptor iad; // Only needed on compound device
// Control
InterfaceDescriptor cif; //
CDCCSInterfaceDescriptor header;
CMFunctionalDescriptor callManagement; // Call Management
ACMFunctionalDescriptor controlManagement; // ACM
CDCCSInterfaceDescriptor functionalDescriptor; // CDC_UNION
EndpointDescriptor cifin;
// Data
InterfaceDescriptor dif;
EndpointDescriptor in;
EndpointDescriptor out;
} CDCDescriptor;
typedef struct
{
InterfaceDescriptor msc;
EndpointDescriptor in;
EndpointDescriptor out;
} MSCDescriptor;
typedef struct
{
u8 len; // 9
u8 dtype; // 0x21
u8 addr;
u8 versionL; // 0x101
u8 versionH; // 0x101
u8 country;
u8 desctype; // 0x22 report
u8 descLenL;
u8 descLenH;
} HIDDescDescriptor;
typedef struct
{
InterfaceDescriptor hid;
HIDDescDescriptor desc;
EndpointDescriptor in;
} HIDDescriptor;
#define D_DEVICE(_class,_subClass,_proto,_packetSize0,_vid,_pid,_version,_im,_ip,_is,_configs) \
{ 18, 1, 0x200, _class,_subClass,_proto,_packetSize0,_vid,_pid,_version,_im,_ip,_is,_configs }
#define D_CONFIG(_totalLength,_interfaces) \
{ 9, 2, _totalLength,_interfaces, 1, 0, USB_CONFIG_BUS_POWERED, USB_CONFIG_POWER_MA(500) }
#define D_INTERFACE(_n,_numEndpoints,_class,_subClass,_protocol) \
{ 9, 4, _n, 0, _numEndpoints, _class,_subClass, _protocol, 0 }
#define D_ENDPOINT(_addr,_attr,_packetSize, _interval) \
{ 7, 5, _addr,_attr,_packetSize, _interval }
#define D_IAD(_firstInterface, _count, _class, _subClass, _protocol) \
{ 8, 11, _firstInterface, _count, _class, _subClass, _protocol, 0 }
#define D_HIDREPORT(_descriptorLength) \
{ 9, 0x21, 0x1, 0x1, 0, 1, 0x22, _descriptorLength, 0 }
#define D_CDCCS(_subtype,_d0,_d1) { 5, 0x24, _subtype, _d0, _d1 }
#define D_CDCCS4(_subtype,_d0) { 4, 0x24, _subtype, _d0 }
#endif

65
hardware/arduino/bootloaders/nuevo_diskloader/src/USBDesc.h
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/* Copyright (c) 2011, Peter Barrett
**
** Permission to use, copy, modify, and/or distribute this software for
** any purpose with or without fee is hereby granted, provided that the
** above copyright notice and this permission notice appear in all copies.
**
** THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
** WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
** WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR
** BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES
** OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
** WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
** ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
** SOFTWARE.
*/
#define CDC_ENABLED
#ifdef CDC_ENABLED
#define CDC_INTERFACE_COUNT 2
#define CDC_ENPOINT_COUNT 3
#else
#define CDC_INTERFACE_COUNT 0
#define CDC_ENPOINT_COUNT 0
#endif
#ifdef HID_ENABLED
#define HID_INTERFACE_COUNT 1
#define HID_ENPOINT_COUNT 1
#else
#define HID_INTERFACE_COUNT 0
#define HID_ENPOINT_COUNT 0
#endif
#define CDC_ACM_INTERFACE 0 // CDC ACM
#define CDC_DATA_INTERFACE 1 // CDC Data
#define CDC_FIRST_ENDPOINT 1
#define CDC_ENDPOINT_ACM (CDC_FIRST_ENDPOINT) // CDC First
#define CDC_ENDPOINT_OUT (CDC_FIRST_ENDPOINT+1)
#define CDC_ENDPOINT_IN (CDC_FIRST_ENDPOINT+2)
#define HID_INTERFACE (CDC_ACM_INTERFACE + CDC_INTERFACE_COUNT) // HID Interface
#define HID_FIRST_ENDPOINT (CDC_FIRST_ENDPOINT + CDC_ENPOINT_COUNT)
#define HID_ENDPOINT_INT (HID_FIRST_ENDPOINT)
#define INTERFACE_COUNT (MSC_INTERFACE + MSC_INTERFACE_COUNT)
#ifdef CDC_ENABLED
#define CDC_RX CDC_ENDPOINT_OUT
#define CDC_TX CDC_ENDPOINT_IN
#endif
#ifdef HID_ENABLED
#define HID_TX HID_ENDPOINT_INT
#endif
#define IMANUFACTURER 1
#define IPRODUCT 2
#define USB_PID_LEONARDO 0x0034
#define USB_PID_MICRO 0x0035
#define USB_VID 0x2341 // arduino LLC vid
//#define USB_PID ARDUINO_MODEL_USB_PID