avrdude/src/micronucleus.c

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/*
* avrdude - A Downloader/Uploader for AVR device programmers
* Copyright (C) 2019 Marius Greuel
* Portions Copyright (C) 2014 T. Bo"scke
* Portions Copyright (C) 2012 ihsan Kehribar
*
* 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 2 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/>.
*/
// Notes:
// This file adds support for the Micronucleus bootloader V1 and V2,
// so you do no longer need the Micronucleus command-line utility.
//
// This bootloader is typically used on small ATtiny boards,
// such as Digispark (ATtiny85), Digispark Pro (ATtiny167),
// and the respective clones.
// By default, it bootloader uses the VID/PID 16d0:0753 (MCS Digistump).
//
// As the micronucleus bootloader is optimized for size, it implements
// writing to flash memory only. Since it does not support reading,
// use the -V option to prevent avrdude from verifing the flash memory.
// To have avrdude wait for the device to be connected, use the
// extended option '-x wait'.
//
// Example:
// avrdude -c micronucleus -p t85 -x wait -V -U flash:w:main.hex
#include "ac_cfg.h"
#include <stdint.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <unistd.h>
#include <time.h>
#include "avrdude.h"
#include "micronucleus.h"
#include "usbdevs.h"
#if defined(HAVE_LIBUSB)
#if defined(HAVE_USB_H)
#include <usb.h>
#elif defined(HAVE_LUSB0_USB_H)
#include <lusb0_usb.h>
#else
#error "libusb needs either <usb.h> or <lusb0_usb.h>"
#endif
//-----------------------------------------------------------------------------
#define MICRONUCLEUS_VID 0x16D0
#define MICRONUCLEUS_PID 0x0753
#define MICRONUCLEUS_CONNECT_WAIT 100
#define MICRONUCLEUS_CMD_INFO 0
#define MICRONUCLEUS_CMD_TRANSFER 1
#define MICRONUCLEUS_CMD_ERASE 2
#define MICRONUCLEUS_CMD_PROGRAM 3
#define MICRONUCLEUS_CMD_START 4
#define MICRONUCLEUS_DEFAULT_TIMEOUT 500
#define MICRONUCLEUS_MAX_MAJOR_VERSION 2
#define PDATA(pgm) ((pdata_t*)(pgm->cookie))
//-----------------------------------------------------------------------------
typedef struct pdata
{
usb_dev_handle* usb_handle;
// Extended parameters
bool wait_until_device_present;
int wait_timout; // in seconds
// Bootloader version
uint8_t major_version;
uint8_t minor_version;
// Bootloader info (via USB request)
uint16_t flash_size; // programmable size (in bytes) of flash
uint8_t page_size; // size (in bytes) of page
uint8_t write_sleep; // milliseconds
uint8_t signature1; // only used in protocol v2
uint8_t signature2; // only used in protocol v2
// Calculated bootloader info
uint16_t pages; // total number of pages to program
uint16_t bootloader_start; // start of the bootloader (at page boundary)
uint16_t erase_sleep; // milliseconds
// State
uint16_t user_reset_vector; // reset vector of user program
bool write_last_page; // last page already programmed
bool start_program; // require start after flash
} pdata_t;
//-----------------------------------------------------------------------------
static void delay_ms(uint32_t duration)
{
usleep(duration * 1000);
}
static int micronucleus_check_connection(pdata_t* pdata)
{
if (pdata->major_version >= 2)
{
uint8_t buffer[6] = { 0 };
int result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_INFO,
0, 0,
(char*)buffer, sizeof(buffer),
MICRONUCLEUS_DEFAULT_TIMEOUT);
return result == sizeof(buffer) ? 0 : -1;
}
else
{
uint8_t buffer[4] = { 0 };
int result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_INFO,
0, 0,
(char*)buffer, sizeof(buffer),
MICRONUCLEUS_DEFAULT_TIMEOUT);
return result == sizeof(buffer) ? 0 : -1;
}
}
static bool micronucleus_is_device_responsive(pdata_t* pdata, struct usb_device* device)
{
pdata->usb_handle = usb_open(device);
if (pdata->usb_handle == NULL)
{
return false;
}
int result = micronucleus_check_connection(pdata);
usb_close(pdata->usb_handle);
pdata->usb_handle = NULL;
return result >= 0;
}
static int micronucleus_reconnect(pdata_t* pdata)
{
struct usb_device* device = usb_device(pdata->usb_handle);
usb_close(pdata->usb_handle);
pdata->usb_handle = NULL;
for (int i = 0; i < 25; i++)
{
avrdude_message(MSG_NOTICE, "%s: Trying to reconnect...\n", progname);
pdata->usb_handle = usb_open(device);
if (pdata->usb_handle != NULL)
return 0;
delay_ms(MICRONUCLEUS_CONNECT_WAIT);
}
return -1;
}
static int micronucleus_get_bootloader_info_v1(pdata_t* pdata)
{
uint8_t buffer[4] = { 0 };
int result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_INFO,
0, 0,
(char*)buffer, sizeof(buffer),
MICRONUCLEUS_DEFAULT_TIMEOUT);
if (result < 0)
{
avrdude_message(MSG_INFO, "%s: WARNING: Failed to get bootloader info block: %s\n",
progname, usb_strerror());
return result;
}
else if (result < sizeof(buffer))
{
avrdude_message(MSG_INFO, "%s: WARNING: Received invalid bootloader info block size: %d\n",
progname, result);
return -1;
}
pdata->flash_size = (buffer[0] << 8) | buffer[1];
pdata->page_size = buffer[2];
pdata->write_sleep = buffer[3] & 127;
// Take a wild guess on the part ID, so that we can supply it for device verification
if (pdata->page_size == 128)
{
// ATtiny167
pdata->signature1 = 0x94;
pdata->signature2 = 0x87;
}
else if (pdata->page_size == 64)
{
if (pdata->flash_size > 4096)
{
// ATtiny85
pdata->signature1 = 0x93;
pdata->signature2 = 0x0B;
}
else
{
// ATtiny45
pdata->signature1 = 0x92;
pdata->signature2 = 0x06;
}
}
else if (pdata->page_size == 16)
{
// ATtiny841
pdata->signature1 = 0x93;
pdata->signature2 = 0x15;
}
else
{
// Unknown device
pdata->signature1 = 0;
pdata->signature2 = 0;
}
pdata->pages = (pdata->flash_size + pdata->page_size - 1) / pdata->page_size;
pdata->bootloader_start = pdata->pages * pdata->page_size;
pdata->erase_sleep = pdata->write_sleep * pdata->pages;
return 0;
}
static int micronucleus_get_bootloader_info_v2(pdata_t* pdata)
{
uint8_t buffer[6] = { 0 };
int result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_IN | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_INFO,
0, 0,
(char*)buffer, sizeof(buffer),
MICRONUCLEUS_DEFAULT_TIMEOUT);
if (result < 0)
{
avrdude_message(MSG_INFO, "%s: WARNING: Failed to get bootloader info block: %s\n",
progname, usb_strerror());
return result;
}
else if (result < sizeof(buffer))
{
avrdude_message(MSG_INFO, "%s: WARNING: Received invalid bootloader info block size: %d\n",
progname, result);
return -1;
}
pdata->flash_size = (buffer[0] << 8) + buffer[1];
pdata->page_size = buffer[2];
pdata->write_sleep = (buffer[3] & 127) + 2;
pdata->signature1 = buffer[4];
pdata->signature2 = buffer[5];
pdata->pages = (pdata->flash_size + pdata->page_size - 1) / pdata->page_size;
pdata->bootloader_start = pdata->pages * pdata->page_size;
pdata->erase_sleep = pdata->write_sleep * pdata->pages;
// if bit 7 of write sleep time is set, divide the erase time by four to
// accomodate to the 4*page erase of the ATtiny841/441
if ((buffer[3] & 128) != 0)
{
pdata->erase_sleep /= 4;
}
return 0;
}
static int micronucleus_get_bootloader_info(pdata_t* pdata)
{
if (pdata->major_version >= 2)
{
return micronucleus_get_bootloader_info_v2(pdata);
}
else
{
return micronucleus_get_bootloader_info_v1(pdata);
}
}
static void micronucleus_dump_device_info(pdata_t* pdata)
{
avrdude_message(MSG_NOTICE, "%s: Bootloader version: %d.%d\n", progname, pdata->major_version, pdata->minor_version);
avrdude_message(MSG_NOTICE, "%s: Available flash size: %u\n", progname, pdata->flash_size);
avrdude_message(MSG_NOTICE, "%s: Page size: %u\n", progname, pdata->page_size);
avrdude_message(MSG_NOTICE, "%s: Bootloader start: 0x%04X\n", progname, pdata->bootloader_start);
avrdude_message(MSG_NOTICE, "%s: Write sleep: %ums\n", progname, pdata->write_sleep);
avrdude_message(MSG_NOTICE, "%s: Erase sleep: %ums\n", progname, pdata->erase_sleep);
avrdude_message(MSG_NOTICE, "%s: Signature1: 0x%02X\n", progname, pdata->signature1);
avrdude_message(MSG_NOTICE, "%s: Signature2: 0x%02X\n", progname, pdata->signature2);
}
static int micronucleus_erase_device(pdata_t* pdata)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_erase_device()\n", progname);
int result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_ERASE,
0, 0,
NULL, 0,
MICRONUCLEUS_DEFAULT_TIMEOUT);
if (result < 0)
{
switch (result)
{
case -EIO:
case -EPIPE:
avrdude_message(MSG_NOTICE, "%s: Ignoring last error of erase command: %s\n", progname, usb_strerror());
break;
default:
avrdude_message(MSG_INFO, "%s: WARNING: Failed is issue erase command, code %d: %s\n", progname, result, usb_strerror());
return result;
}
}
delay_ms(pdata->erase_sleep);
result = micronucleus_check_connection(pdata);
if (result < 0)
{
avrdude_message(MSG_NOTICE, "%s: Connection dropped, trying to reconnect...\n", progname);
result = micronucleus_reconnect(pdata);
if (result < 0)
{
avrdude_message(MSG_INFO, "%s: WARNING: Failed to reconnect USB device: %s\n", progname, usb_strerror());
return result;
}
}
return 0;
}
static int micronucleus_patch_reset_vector(pdata_t* pdata, uint8_t* buffer)
{
// Save user reset vector.
uint16_t word0 = (buffer[1] << 8) | buffer[0];
uint16_t word1 = (buffer[3] << 8) | buffer[2];
if (word0 == 0x940C)
{
// long jump
pdata->user_reset_vector = word1;
}
else if ((word0 & 0xF000) == 0xC000)
{
// rjmp
pdata->user_reset_vector = (word0 & 0x0FFF) + 1;
}
else
{
avrdude_message(MSG_INFO, "%s: The reset vector of the user program does not contain a branch instruction.\n", progname);
return -1;
}
// Patch in jmp to bootloader.
if (pdata->bootloader_start > 0x2000)
{
// jmp
uint16_t data = 0x940C;
buffer[0] = (uint8_t)(data >> 0);
buffer[1] = (uint8_t)(data >> 8);
buffer[2] = (uint8_t)(pdata->bootloader_start >> 0);
buffer[3] = (uint8_t)(pdata->bootloader_start >> 8);
}
else
{
// rjmp
uint16_t data = 0xC000 | ((pdata->bootloader_start / 2 - 1) & 0x0FFF);
buffer[0] = (uint8_t)(data >> 0);
buffer[1] = (uint8_t)(data >> 8);
}
return 0;
}
static void micronucleus_patch_user_vector(pdata_t* pdata, uint8_t* buffer)
{
uint16_t user_reset_addr = pdata->bootloader_start - 4;
uint16_t address = pdata->bootloader_start - pdata->page_size;
if (user_reset_addr > 0x2000)
{
// jmp
uint16_t data = 0x940C;
buffer[user_reset_addr - address + 0] = (uint8_t)(data >> 0);
buffer[user_reset_addr - address + 1] = (uint8_t)(data >> 8);
buffer[user_reset_addr - address + 2] = (uint8_t)(pdata->user_reset_vector >> 0);
buffer[user_reset_addr - address + 3] = (uint8_t)(pdata->user_reset_vector >> 8);
}
else
{
// rjmp
uint16_t data = 0xC000 | ((pdata->user_reset_vector - user_reset_addr / 2 - 1) & 0x0FFF);
buffer[user_reset_addr - address + 0] = (uint8_t)(data >> 0);
buffer[user_reset_addr - address + 1] = (uint8_t)(data >> 8);
}
}
static int micronucleus_write_page_v1(pdata_t* pdata, uint32_t address, uint8_t* buffer, uint32_t size)
{
int result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_TRANSFER,
size, address,
(char*)buffer, size,
MICRONUCLEUS_DEFAULT_TIMEOUT);
if (result < 0)
{
avrdude_message(MSG_INFO, "%s: Failed to transfer page: %s\n", progname, usb_strerror());
return result;
}
return 0;
}
static int micronucleus_write_page_v2(pdata_t* pdata, uint32_t address, uint8_t* buffer, uint32_t size)
{
int result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_TRANSFER,
size, address,
NULL, 0,
MICRONUCLEUS_DEFAULT_TIMEOUT);
if (result < 0)
{
avrdude_message(MSG_INFO, "%s: Failed to transfer page: %s\n", progname, usb_strerror());
return result;
}
for (int i = 0; i < size; i += 4)
{
int w1 = (buffer[i + 1] << 8) | (buffer[i + 0] << 0);
int w2 = (buffer[i + 3] << 8) | (buffer[i + 2] << 0);
result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_PROGRAM,
w1, w2,
NULL, 0,
MICRONUCLEUS_DEFAULT_TIMEOUT);
if (result < 0)
{
avrdude_message(MSG_INFO, "%s: Failed to transfer page: %s\n", progname, usb_strerror());
return result;
}
}
return 0;
}
static int micronucleus_write_page(pdata_t* pdata, uint32_t address, uint8_t* buffer, uint32_t size)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_write_page(address=0x%04X, size=%d)\n", progname, address, size);
if (address == 0)
{
if (pdata->major_version >= 2)
{
int result = micronucleus_patch_reset_vector(pdata, buffer);
if (result < 0)
{
return result;
}
}
// Require last page (with application reset vector) to be written.
pdata->write_last_page = true;
// Require software start.
pdata->start_program = true;
}
else if (address >= pdata->bootloader_start - pdata->page_size)
{
if (pdata->major_version >= 2)
{
micronucleus_patch_user_vector(pdata, buffer);
}
// Mark last page as written.
pdata->write_last_page = false;
}
int result;
if (pdata->major_version >= 2)
{
result = micronucleus_write_page_v2(pdata, address, buffer, size);
}
else
{
result = micronucleus_write_page_v1(pdata, address, buffer, size);
}
if (result < 0)
{
return result;
}
delay_ms(pdata->write_sleep);
return 0;
}
static int micronucleus_start(pdata_t* pdata)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_start()\n", progname);
int result = usb_control_msg(
pdata->usb_handle,
USB_ENDPOINT_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE,
MICRONUCLEUS_CMD_START,
0, 0,
NULL, 0,
MICRONUCLEUS_DEFAULT_TIMEOUT);
if (result < 0)
{
avrdude_message(MSG_INFO, "%s: WARNING: Failed is issue start command: %s\n", progname, usb_strerror());
return result;
}
return 0;
}
//-----------------------------------------------------------------------------
static void micronucleus_setup(PROGRAMMER* pgm)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_setup()\n", progname);
if ((pgm->cookie = malloc(sizeof(pdata_t))) == 0)
{
avrdude_message(MSG_INFO, "%s: micronucleus_setup(): Out of memory allocating private data\n", progname);
exit(1);
}
memset(pgm->cookie, 0, sizeof(pdata_t));
}
static void micronucleus_teardown(PROGRAMMER* pgm)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_teardown()\n", progname);
free(pgm->cookie);
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_initialize(const PROGRAMMER *pgm, const AVRPART *p) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_initialize()\n", progname);
pdata_t* pdata = PDATA(pgm);
int result = micronucleus_get_bootloader_info(pdata);
if (result < 0)
return result;
micronucleus_dump_device_info(pdata);
return 0;
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static void micronucleus_display(const PROGRAMMER *pgm, const char *prefix) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_display()\n", progname);
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static void micronucleus_powerup(const PROGRAMMER *pgm) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_powerup()\n", progname);
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static void micronucleus_powerdown(const PROGRAMMER *pgm) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_powerdown()\n", progname);
pdata_t* pdata = PDATA(pgm);
if (pdata->write_last_page)
{
pdata->write_last_page = false;
uint8_t* buffer = (unsigned char*)malloc(pdata->page_size);
if (buffer != NULL)
{
memset(buffer, 0xFF, pdata->page_size);
micronucleus_write_page(pdata, pdata->bootloader_start - pdata->page_size, buffer, pdata->page_size);
free(buffer);
}
}
if (pdata->start_program)
{
pdata->start_program = false;
micronucleus_start(pdata);
}
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static void micronucleus_enable(PROGRAMMER *pgm, const AVRPART *p) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_enable()\n", progname);
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static void micronucleus_disable(const PROGRAMMER *pgm) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_disable()\n", progname);
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_program_enable(const PROGRAMMER *pgm, const AVRPART *p) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_program_enable()\n", progname);
return 0;
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_read_sig_bytes(const PROGRAMMER *pgm, const AVRPART *p, const AVRMEM *mem) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_read_sig_bytes()\n", progname);
if (mem->size < 3)
{
avrdude_message(MSG_INFO, "%s: memory size too small for read_sig_bytes", progname);
return -1;
}
pdata_t* pdata = PDATA(pgm);
mem->buf[0] = 0x1E;
mem->buf[1] = pdata->signature1;
mem->buf[2] = pdata->signature2;
return 0;
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_chip_erase(const PROGRAMMER *pgm, const AVRPART *p) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_chip_erase()\n", progname);
pdata_t* pdata = PDATA(pgm);
return micronucleus_erase_device(pdata);
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_open(PROGRAMMER* pgm, const char *port) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_open(\"%s\")\n", progname, port);
pdata_t* pdata = PDATA(pgm);
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
const char *bus_name = NULL;
char* dev_name = NULL;
// if no -P was given or '-P usb' was given
if (strcmp(port, "usb") == 0)
{
port = NULL;
}
else
{
// calculate bus and device names from -P option
if (strncmp(port, "usb", 3) == 0 && ':' == port[3])
{
bus_name = port + 4;
dev_name = strchr(bus_name, ':');
if (dev_name != NULL)
{
*dev_name = '\0';
dev_name++;
}
}
}
if (port != NULL && dev_name == NULL)
{
avrdude_message(MSG_INFO, "%s: ERROR: Invalid -P value: '%s'\n", progname, port);
avrdude_message(MSG_INFO, "%sUse -P usb:bus:device\n", progbuf);
return -1;
}
// Determine VID/PID
int vid = pgm->usbvid ? pgm->usbvid : MICRONUCLEUS_VID;
int pid = MICRONUCLEUS_PID;
LNODEID usbpid = lfirst(pgm->usbpid);
if (usbpid != NULL)
{
pid = *(int*)(ldata(usbpid));
if (lnext(usbpid))
{
avrdude_message(MSG_INFO, "%s: WARNING: using PID 0x%04x, ignoring remaining PIDs in list\n",
progname, pid);
}
}
usb_init();
bool show_retry_message = true;
bool show_unresponsive_device_message = true;
time_t start_time = time(NULL);
for (;;)
{
usb_find_busses();
usb_find_devices();
pdata->usb_handle = NULL;
// Search for device
struct usb_bus* bus = NULL;
for (bus = usb_busses; bus != NULL && pdata->usb_handle == NULL; bus = bus->next)
{
struct usb_device* device = NULL;
for (device = bus->devices; device != NULL && pdata->usb_handle == NULL; device = device->next)
{
if (device->descriptor.idVendor == vid && device->descriptor.idProduct == pid)
{
pdata->major_version = (uint8_t)(device->descriptor.bcdDevice >> 8);
pdata->minor_version = (uint8_t)(device->descriptor.bcdDevice >> 0);
if (!micronucleus_is_device_responsive(pdata, device))
{
if (show_unresponsive_device_message)
{
2022-05-05 20:08:46 +00:00
avrdude_message(MSG_INFO, "%s: WARNING: Unresponsive Micronucleus device detected, please reconnect...\n",
progname);
show_unresponsive_device_message = false;
}
continue;
}
avrdude_message(MSG_NOTICE, "%s: Found device with Micronucleus V%d.%d, bus:device: %s:%s\n",
progname,
pdata->major_version, pdata->minor_version,
bus->dirname, device->filename);
// if -P was given, match device by device name and bus name
if (port != NULL)
{
if (dev_name == NULL || strcmp(bus->dirname, bus_name) || strcmp(device->filename, dev_name))
{
continue;
}
}
if (pdata->major_version > MICRONUCLEUS_MAX_MAJOR_VERSION)
{
avrdude_message(MSG_INFO, "%s: WARNING: device with unsupported version (V%d.%d) of Micronucleus detected.\n",
progname,
pdata->major_version, pdata->minor_version);
continue;
}
pdata->usb_handle = usb_open(device);
if (pdata->usb_handle == NULL)
{
avrdude_message(MSG_INFO, "%s: ERROR: Failed to open USB device: %s\n", progname, usb_strerror());
}
}
}
}
if (pdata->usb_handle == NULL && pdata->wait_until_device_present)
{
if (show_retry_message)
{
if (pdata->wait_timout < 0)
{
avrdude_message(MSG_INFO, "%s: No device found, waiting for device to be plugged in...\n", progname);
}
else
{
avrdude_message(MSG_INFO, "%s: No device found, waiting %d seconds for device to be plugged in...\n",
progname,
pdata->wait_timout);
}
avrdude_message(MSG_INFO, "%s: Press CTRL-C to terminate.\n", progname);
show_retry_message = false;
}
if (pdata->wait_timout < 0 || (time(NULL) - start_time) < pdata->wait_timout)
{
delay_ms(MICRONUCLEUS_CONNECT_WAIT);
continue;
}
}
break;
}
if (!pdata->usb_handle)
{
avrdude_message(MSG_INFO, "%s: ERROR: Could not find device with Micronucleus bootloader (%04X:%04X)\n",
progname, vid, pid);
return -1;
}
return 0;
}
static void micronucleus_close(PROGRAMMER* pgm)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_close()\n", progname);
pdata_t* pdata = PDATA(pgm);
if (pdata->usb_handle != NULL)
{
usb_close(pdata->usb_handle);
pdata->usb_handle = NULL;
}
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_read_byte(const PROGRAMMER *pgm, const AVRPART *p, const AVRMEM *mem,
unsigned long addr, unsigned char* value)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_read_byte(desc=%s, addr=0x%0X)\n",
progname, mem->desc, addr);
if (strcmp(mem->desc, "lfuse") == 0 ||
strcmp(mem->desc, "hfuse") == 0 ||
strcmp(mem->desc, "efuse") == 0 ||
strcmp(mem->desc, "lock") == 0)
{
*value = 0xFF;
return 0;
}
else
{
avrdude_message(MSG_INFO, "%s: Unsupported memory type: %s\n", progname, mem->desc);
return -1;
}
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_write_byte(const PROGRAMMER *pgm, const AVRPART *p, const AVRMEM *mem,
unsigned long addr, unsigned char value)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_write_byte(desc=%s, addr=0x%0X)\n",
progname, mem->desc, addr);
return -1;
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_paged_load(const PROGRAMMER *pgm, const AVRPART *p, const AVRMEM *mem,
unsigned int page_size,
unsigned int addr, unsigned int n_bytes)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_paged_load(page_size=0x%X, addr=0x%X, n_bytes=0x%X)\n",
progname, page_size, addr, n_bytes);
return -1;
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_paged_write(const PROGRAMMER *pgm, const AVRPART *p, const AVRMEM *mem,
unsigned int page_size,
unsigned int addr, unsigned int n_bytes)
{
avrdude_message(MSG_DEBUG, "%s: micronucleus_paged_write(page_size=0x%X, addr=0x%X, n_bytes=0x%X)\n",
progname, page_size, addr, n_bytes);
if (strcmp(mem->desc, "flash") == 0)
{
pdata_t* pdata = PDATA(pgm);
if (n_bytes > page_size)
{
avrdude_message(MSG_INFO, "%s: Buffer size (%u) exceeds page size (%u)\n", progname, n_bytes, page_size);
return -1;
}
if (addr + n_bytes > pdata->flash_size)
{
avrdude_message(MSG_INFO, "%s: Program size (%u) exceeds flash size (%u)\n", progname, addr + n_bytes, pdata->flash_size);
return -1;
}
uint8_t* page_buffer = (uint8_t*)malloc(pdata->page_size);
if (page_buffer == NULL)
{
avrdude_message(MSG_INFO, "%s: Failed to allocate memory\n", progname);
return -1;
}
// Note: Page size reported by the bootloader may be smaller than device page size as configured in avrdude.conf.
int result = 0;
while (n_bytes > 0)
{
size_t chunk_size = n_bytes < pdata->page_size ? n_bytes : pdata->page_size;
memcpy(page_buffer, mem->buf + addr, chunk_size);
memset(page_buffer + chunk_size, 0xFF, pdata->page_size - chunk_size);
result = micronucleus_write_page(pdata, addr, page_buffer, pdata->page_size);
if (result < 0)
{
break;
}
addr += chunk_size;
n_bytes -= chunk_size;
}
free(page_buffer);
return result;
}
else
{
avrdude_message(MSG_INFO, "%s: Unsupported memory type: %s\n", progname, mem->desc);
return -1;
}
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_parseextparams(const PROGRAMMER *pgm, const LISTID xparams) {
avrdude_message(MSG_DEBUG, "%s: micronucleus_parseextparams()\n", progname);
pdata_t* pdata = PDATA(pgm);
for (LNODEID node = lfirst(xparams); node != NULL; node = lnext(node))
{
const char* param = ldata(node);
if (strcmp(param, "wait") == 0)
{
pdata->wait_until_device_present = true;
pdata->wait_timout = -1;
}
else if (strncmp(param, "wait=", 5) == 0)
{
pdata->wait_until_device_present = true;
pdata->wait_timout = atoi(param + 5);
}
else
{
avrdude_message(MSG_INFO, "%s: Invalid extended parameter '%s'\n", progname, param);
return -1;
}
}
return 0;
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
void micronucleus_initpgm(PROGRAMMER *pgm) {
strcpy(pgm->type, "Micronucleus V2.0");
pgm->setup = micronucleus_setup;
pgm->teardown = micronucleus_teardown;
pgm->initialize = micronucleus_initialize;
pgm->display = micronucleus_display;
pgm->powerup = micronucleus_powerup;
pgm->powerdown = micronucleus_powerdown;
pgm->enable = micronucleus_enable;
pgm->disable = micronucleus_disable;
pgm->program_enable = micronucleus_program_enable;
pgm->read_sig_bytes = micronucleus_read_sig_bytes;
pgm->chip_erase = micronucleus_chip_erase;
pgm->cmd = NULL;
pgm->open = micronucleus_open;
pgm->close = micronucleus_close;
pgm->read_byte = micronucleus_read_byte;
pgm->write_byte = micronucleus_write_byte;
pgm->paged_load = micronucleus_paged_load;
pgm->paged_write = micronucleus_paged_write;
pgm->parseextparams = micronucleus_parseextparams;
}
#else /* !HAVE_LIBUSB */
// Give a proper error if we were not compiled with libusb
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
static int micronucleus_nousb_open(PROGRAMMER* pgm, const char* name) {
avrdude_message(MSG_INFO, "%s: error: No usb support. Please compile again with libusb installed.\n", progname);
return -1;
}
Use const in PROGRAMMER function arguments where appropriate In order to get meaningful const properties for the PROGRAMMER, AVRPART and AVRMEM arguments, some code needed to be moved around, otherwise a network of "tainted" assignments risked rendering nothing const: - Change void (*enable)(PROGRAMMER *pgm) to void (*enable)(PROGRAMMER *pgm, const AVRPART *p); this allows changes in the PROGRAMMER structure after the part is known. For example, use TPI, UPDI, PDI functions in that programmer appropriate to the part. This used to be done later in the process, eg, in the initialize() function, which "taints" all other programmer functions wrt const and sometimes requires other finessing with flags etc. Much clearer with the modified enable() interface. - Move TPI initpgm-type code from initialize() to enable() --- note that initpgm() does not have the info at the time when it is called whether or not TPI is required - buspirate.c: move pgm->flag to PDATA(pgm)->flag (so legitimate modification of the flag does not change PROGRAMMER structure) - Move AVRPART_INIT_SMC and AVRPART_WRITE bits from the flags field in AVRPART to jtagmkII.c's private data flags32 fiels as FLAGS32_INIT_SMC and FLAGS32_WRITE bits - Move the xbeeResetPin component to private data in stk500.c as this is needed by xbee when it saddles on the stk500 code (previously, the flags component of the part was re-dedicated to this) - Change the way the "chained" private data are used in jtag3.c whilst keeping the PROGRAMMER structure read-only otherwise - In stk500v2.c move the STK600 pgm update from stk500v2_initialize() to stk500v2_enable() so the former keeps the PROGRAMMER structure read-only (for const assertion). - In usbasp change the code from changing PROGRAMMER functions late to dispatching to TPI or regular SPI protocol functions at runtime; reason being the decision whether to use TPI protocol is done at run-time depending on the capability of the attached programmer Also fixes Issue #1071, the treatment of default eecr value.
2022-08-17 15:05:28 +00:00
void micronucleus_initpgm(PROGRAMMER *pgm) {
strcpy(pgm->type, "micronucleus");
pgm->open = micronucleus_nousb_open;
}
#endif /* HAVE_LIBUSB */
const char micronucleus_desc[] = "Micronucleus Bootloader";