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/*
* Copyright 2014 Ettus Research LLC
*
* 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 <stdbool.h>
#include <stdint.h>
#include <string.h>
#include <avr/boot.h>
#include <avr/eeprom.h>
#include <avr/io.h>
#include <avr/pgmspace.h>
#include <avr/wdt.h>
#include <avrlibdefs.h>
#include <octoclock.h>
#include <debug.h>
#include <network.h>
#include <net/enc28j60.h>
#include "octoclock/common.h"
/*
* The number for 5 seconds is close enough to 65535 that the
* timer may have overflowed before the main loop queries it.
*/
#define TIME_PASSED (TCNT1 > (TIMER1_ONE_SECOND*5) || (TIFR & _BV(TOV1)))
/*
* States
*/
static bool received_cmd = false; // Received "PREPARE_FW_BURN_CMD" signal
static bool done_burning = false; // Received "FINALIZE_BURNING_CMD" signal
static bool app_checked = false; // Ran validation check on firmware
/*
* After new firmware is burned onto the device, the bootloader calculates its
* CRC and burns it into the EEPROM. When the device boots, this CRC is used
* to validate the firmware before loading it. This struct represents how the
* information is stored in the EEPROM.
*/
typedef struct {
uint16_t fw_len;
uint16_t fw_crc;
} crc_info_t;
static crc_info_t crc_info;
/*
* What actually burns the firmware onto the device.
*
* Source: http://www.atmel.com/webdoc/AVRLibcReferenceManual/group__avr__boot.html
*/
static void boot_program_page(uint8_t *buf, uint16_t page){
// Disable interrupts
uint8_t sreg = SREG;
cli();
eeprom_busy_wait();
boot_page_erase(page);
boot_spm_busy_wait(); // Wait until the memory is erased.
for(uint16_t i = 0; i < SPM_PAGESIZE; i += 2){
// Set up little-endian word.
uint16_t w = *buf++;
w += ((*buf++) << 8);
boot_page_fill(page + i, w);
}
boot_page_write(page); // Store buffer in flash page.
boot_spm_busy_wait(); // Wait until the memory is written.
// Reenable RWW-section again. We need this if we want to jump back
// to the application after bootloading.
boot_rww_enable();
// Restore interrupt state
SREG = sreg;
sei();
}
/*
* Load firmware at given address into packet to send to host.
*/
static void read_firmware(uint16_t addr, octoclock_packet_t *pkt_out){
for(size_t i = 0; i < SPM_PAGESIZE; i++){
pkt_out->data[i] = pgm_read_byte(addr+i);
}
}
/*
* Calculate the CRC of the current firmware.
*
* Adapted from _crc16_update in <util/crc16.h>.
*/
static void calculate_crc(uint16_t *crc, uint16_t len){
*crc = 0xFFFF;
for(size_t i = 0; i < len; i++){
*crc ^= pgm_read_byte(i);
for(uint8_t j = 0; j < 8; ++j){
if(*crc & 1) *crc = (*crc >> 1) ^ 0xA001;
else *crc = (*crc >> 1);
}
}
}
/*
* Calculate the CRC of the current firmware. If it matches the
* CRC burned into the EEPROM, the firmware is considered valid,
* and the bootloader can load it.
*/
static bool valid_app(){
crc_info_t crc_eeprom_info;
eeprom_read_block(&crc_eeprom_info, (void*)OCTOCLOCK_EEPROM_APP_LEN, 4);
calculate_crc(&(crc_info.fw_crc), crc_eeprom_info.fw_len);
return (crc_info.fw_crc == crc_eeprom_info.fw_crc);
}
/*
* UDP handlers
*/
void handle_udp_query_packet(
struct socket_address src, struct socket_address dst,
unsigned char *payload, int payload_len
){
const octoclock_packet_t *pkt_in = (octoclock_packet_t*)payload;
// Respond to uhd::device::find(), identify as bootloader
if(pkt_in->code == OCTOCLOCK_QUERY_CMD){
octoclock_packet_t pkt_out;
pkt_out.proto_ver = OCTOCLOCK_BOOTLOADER_PROTO_VER;
pkt_out.sequence = pkt_in->sequence;
pkt_out.code = OCTOCLOCK_QUERY_ACK;
pkt_out.len = 0;
send_udp_pkt(OCTOCLOCK_UDP_CTRL_PORT, src, (void*)&pkt_out, sizeof(octoclock_packet_t));
}
}
void handle_udp_fw_packet(
struct socket_address src, struct socket_address dst,
unsigned char *payload, int payload_len
){
octoclock_packet_t *pkt_in = (octoclock_packet_t*)payload;
octoclock_packet_t pkt_out;
pkt_out.proto_ver = OCTOCLOCK_BOOTLOADER_PROTO_VER;
pkt_out.sequence = pkt_in->sequence;
pkt_out.len = 0;
switch(pkt_in->code){
case PREPARE_FW_BURN_CMD:
received_cmd = true;
done_burning = false;
crc_info.fw_crc = pkt_in->crc;
crc_info.fw_len = pkt_in->len;
pkt_out.code = FW_BURN_READY_ACK;
break;
// Burn firmware sent from the host
case FILE_TRANSFER_CMD:
boot_program_page(pkt_in->data, pkt_in->addr);
pkt_out.code = FILE_TRANSFER_ACK;
pkt_out.addr = pkt_in->addr;
break;
// Send firmware back to the host for verification
case READ_FW_CMD:
pkt_out.code = READ_FW_ACK;
read_firmware(pkt_in->addr, &pkt_out);
break;
// Calculate the CRC of the new firmware and finish
case FINALIZE_BURNING_CMD:
done_burning = true;
eeprom_write_block(&crc_info, (void*)OCTOCLOCK_EEPROM_APP_LEN, 4);
pkt_out.code = FINALIZE_BURNING_ACK;
break;
default:
break;
}
send_udp_pkt(OCTOCLOCK_UDP_FW_PORT, src, (void*)&pkt_out, sizeof(octoclock_packet_t));
}
void handle_udp_eeprom_packet(
struct socket_address src, struct socket_address dst,
unsigned char *payload, int payload_len
){
octoclock_packet_t *pkt_in = (octoclock_packet_t*)payload;
octoclock_packet_t pkt_out;
pkt_out.proto_ver = OCTOCLOCK_BOOTLOADER_PROTO_VER;
pkt_out.sequence = pkt_in->sequence;
pkt_out.len = 0;
// Restore OctoClock's EEPROM to factory state
if(pkt_in->proto_ver == OCTOCLOCK_FW_COMPAT_NUM){
switch(pkt_in->code){
case CLEAR_EEPROM_CMD:
received_cmd = true;
uint8_t blank_eeprom[103]; // 103 is offset of CRC info
memset(blank_eeprom, 0xFF, 103);
eeprom_write_block(blank_eeprom, 0, 103);
pkt_out.code = CLEAR_EEPROM_ACK;
send_udp_pkt(OCTOCLOCK_UDP_EEPROM_PORT, src, (void*)&pkt_out, sizeof(octoclock_packet_t));
break;
default:
break;
}
}
}
int main(void){
// Disable watchdog timer
wdt_disable();
// Give interrupts to bootloader
MCUCR = (1<<IVCE);
MCUCR = (1<<IVSEL);
cli();
// Atmega128
setup_atmel_io_ports();
// Start timer
TIMER1_INIT();
// Ethernet stack
network_init();
register_udp_listener(OCTOCLOCK_UDP_CTRL_PORT, handle_udp_query_packet);
register_udp_listener(OCTOCLOCK_UDP_FW_PORT, handle_udp_fw_packet);
register_udp_listener(OCTOCLOCK_UDP_EEPROM_PORT, handle_udp_eeprom_packet);
// Turn LED's on to show we're in the bootloader
PORTC |= 0x20;
PORTC |= (0x20<<1);
PORTC |= (0x20<<2);
/*
* This loop determines whether the OctoClock will remain in its bootloader
* state or if it will load the main firmware. After five seconds, it will
* check to see if valid firmware is installed. If so, it will immediately
* load it. Otherwise, it will remain here until firmware is installed.
*
* This process can be stopped by an instruction from the firmware burner
* utility, at which point the OctoClock will remain in bootloader state until
* instructed by the utility to exit the loop and load the new firmware.
*/
while(true){
if(done_burning){
if(valid_app()) break;
else done_burning = false; // Burning somehow failed and wasn't caught
}
if(!app_checked && !received_cmd && TIME_PASSED){
app_checked = true;
if(valid_app()) break;
}
network_check();
}
// Turn LED's off before moving to application
PORTC &= ~0x20;
PORTC &= ~(0x20<<1);
PORTC &= ~(0x20<<2);
/*
* At this point, the bootloader has determined that there is valid
* firmware installed on the device and that it is OK to load it.
*/
TIMER1_DISABLE();
MCUCR = (1<<IVCE);
MCUCR = 0;
cli();
asm("jmp 0000");
}
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