mirror of
https://github.com/trezor/trezor-firmware.git
synced 2024-11-25 00:48:19 +00:00
332 lines
10 KiB
C
332 lines
10 KiB
C
#include STM32_HAL_H
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#include <string.h>
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#include <pb_decode.h>
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#include <pb_encode.h>
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#include "messages.pb.h"
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#include "common.h"
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#include "display.h"
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#include "flash.h"
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#include "usb.h"
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#include "version.h"
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#include "messages.h"
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bool msg_parse_header(const uint8_t *buf, uint16_t *msg_id, uint32_t *msg_size)
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{
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if (buf[0] != '?' || buf[1] != '#' || buf[2] != '#') {
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return false;
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}
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*msg_id = (buf[3] << 8) + buf[4];
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*msg_size = (buf[5] << 24) + (buf[6] << 16) + (buf[7] << 8) + buf[8];
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return true;
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}
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typedef struct {
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uint8_t iface_num;
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uint8_t packet_index;
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uint8_t packet_pos;
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uint8_t buf[USB_PACKET_SIZE];
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} usb_write_state;
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static bool _usb_write(pb_ostream_t *stream, const pb_byte_t *buf, size_t count)
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{
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usb_write_state *state = (usb_write_state *)(stream->state);
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size_t written = 0;
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// while we have data left
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while (written < count) {
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size_t remaining = count - written;
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// if all remaining data fit into our packet
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if (state->packet_pos + remaining <= USB_PACKET_SIZE) {
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// append data from buf to state->buf
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memcpy(state->buf + state->packet_pos, buf + written, remaining);
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// advance position
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state->packet_pos += remaining;
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// and return
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return true;
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} else {
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// append data that fits
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memcpy(state->buf + state->packet_pos, buf + written, USB_PACKET_SIZE - state->packet_pos);
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written += USB_PACKET_SIZE - state->packet_pos;
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// send packet
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usb_hid_write_blocking(state->iface_num, state->buf, USB_PACKET_SIZE, 1);
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// prepare new packet
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state->packet_index++;
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memset(state->buf, 0, USB_PACKET_SIZE);
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state->buf[0] = '?';
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state->packet_pos = MSG_HEADER2_LEN;
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}
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}
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return true;
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}
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static void _usb_write_flush(usb_write_state *state)
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{
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// if packet is not filled up completely
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if (state->packet_pos < USB_PACKET_SIZE) {
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// pad it with zeroes
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memset(state->buf + state->packet_pos, 0, USB_PACKET_SIZE - state->packet_pos);
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}
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// send packet
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usb_hid_write_blocking(state->iface_num, state->buf, USB_PACKET_SIZE, 1);
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}
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static bool _send_msg(uint8_t iface_num, uint16_t msg_id, const pb_field_t fields[], const void *msg)
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{
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// determine message size by serializing it into a dummy stream
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pb_ostream_t sizestream = {
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.callback = NULL,
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.state = NULL,
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.max_size = SIZE_MAX,
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.bytes_written = 0,
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.errmsg = NULL};
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if (!pb_encode(&sizestream, fields, msg)) {
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return false;
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}
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const uint32_t msg_size = sizestream.bytes_written;
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usb_write_state state = {
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.iface_num = iface_num,
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.packet_index = 0,
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.packet_pos = MSG_HEADER1_LEN,
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.buf = {
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'?', '#', '#',
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(msg_id >> 8) & 0xFF, msg_id & 0xFF,
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(msg_size >> 24) & 0xFF, (msg_size >> 16) & 0xFF, (msg_size >> 8) & 0xFF, msg_size & 0xFF,
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},
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};
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pb_ostream_t stream = {
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.callback = &_usb_write,
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.state = &state,
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.max_size = SIZE_MAX,
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.bytes_written = 0,
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.errmsg = NULL
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};
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if (!pb_encode(&stream, fields, msg)) {
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return false;
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}
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_usb_write_flush(&state);
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return true;
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}
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#define MSG_SEND_INIT(TYPE) TYPE msg_send = TYPE##_init_default
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#define MSG_SEND_ASSIGN_VALUE(FIELD, VALUE) do { msg_send.has_##FIELD = true; msg_send.FIELD = VALUE; } while (0)
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// FIXME: strcpy -> strncpy
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#define MSG_SEND_ASSIGN_STRING(FIELD, VALUE) do { msg_send.has_##FIELD = true; strcpy(msg_send.FIELD, VALUE); } while (0)
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#define MSG_SEND(TYPE) do { _send_msg(iface_num, MessageType_MessageType_##TYPE, TYPE##_fields, &msg_send); } while (0)
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typedef struct {
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uint8_t iface_num;
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uint8_t packet_index;
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uint8_t packet_pos;
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uint8_t *buf;
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} usb_read_state;
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static bool _usb_read(pb_istream_t *stream, uint8_t *buf, size_t count)
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{
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usb_read_state *state = (usb_read_state *)(stream->state);
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size_t read = 0;
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// while we have data left
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while (read < count) {
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size_t remaining = count - read;
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// if all remaining data fit into our packet
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if (state->packet_pos + remaining <= USB_PACKET_SIZE) {
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// append data from buf to state->buf
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memcpy(buf + read, state->buf + state->packet_pos, remaining);
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// advance position
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state->packet_pos += remaining;
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// and return
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return true;
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} else {
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// append data that fits
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memcpy(buf + read, state->buf + state->packet_pos, USB_PACKET_SIZE - state->packet_pos);
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read += USB_PACKET_SIZE - state->packet_pos;
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// read next packet
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usb_hid_read_blocking(state->iface_num, state->buf, USB_PACKET_SIZE, 100);
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// prepare next packet
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state->packet_index++;
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state->packet_pos = MSG_HEADER2_LEN;
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}
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}
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return true;
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}
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static void _usb_read_flush(usb_read_state *state)
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{
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(void)state;
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}
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static bool _recv_msg(uint8_t iface_num, uint32_t msg_size, uint8_t *buf, const pb_field_t fields[], void *msg)
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{
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usb_read_state state = {
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.iface_num = iface_num,
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.packet_index = 0,
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.packet_pos = MSG_HEADER1_LEN,
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.buf = buf
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};
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pb_istream_t stream = {
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.callback = &_usb_read,
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.state = &state,
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.bytes_left = msg_size,
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.errmsg = NULL
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};
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if (!pb_decode_noinit(&stream, fields, msg)) {
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return false;
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}
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_usb_read_flush(&state);
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return true;
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}
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#define MSG_RECV_INIT(TYPE) TYPE msg_recv = TYPE##_init_default
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#define MSG_RECV_CALLBACK(FIELD, CALLBACK) do { msg_recv.FIELD.funcs.decode = &CALLBACK; } while (0)
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#define MSG_RECV(TYPE) do { _recv_msg(iface_num, msg_size, buf, TYPE##_fields, &msg_recv); } while(0)
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void process_msg_Initialize(uint8_t iface_num, uint32_t msg_size, uint8_t *buf)
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{
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MSG_RECV_INIT(Initialize);
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MSG_RECV(Initialize);
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MSG_SEND_INIT(Features);
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MSG_SEND_ASSIGN_STRING(vendor, "trezor.io");
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MSG_SEND_ASSIGN_VALUE(major_version, VERSION_MAJOR);
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MSG_SEND_ASSIGN_VALUE(minor_version, VERSION_MINOR);
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MSG_SEND_ASSIGN_VALUE(patch_version, VERSION_PATCH);
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MSG_SEND_ASSIGN_VALUE(bootloader_mode, true);
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// TODO: properly detect firmware
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MSG_SEND_ASSIGN_VALUE(firmware_present, false);
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MSG_SEND(Features);
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}
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void process_msg_Ping(uint8_t iface_num, uint32_t msg_size, uint8_t *buf)
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{
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MSG_RECV_INIT(Ping);
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MSG_RECV(Ping);
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MSG_SEND_INIT(Success);
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MSG_SEND_ASSIGN_STRING(message, msg_recv.message);
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MSG_SEND(Success);
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}
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static uint32_t firmware_remaining, firmware_flashed, chunk_requested;
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static void progress_erase(uint16_t val)
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{
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display_loader(val / 4, 0, 0xFFFF, 0, 0, 0, 0);
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}
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void process_msg_FirmwareErase(uint8_t iface_num, uint32_t msg_size, uint8_t *buf)
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{
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firmware_remaining = 0;
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firmware_flashed = 0;
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chunk_requested = 0;
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MSG_RECV_INIT(FirmwareErase);
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MSG_RECV(FirmwareErase);
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firmware_remaining = msg_recv.has_length ? msg_recv.length : 0;
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if (firmware_remaining > 0 && firmware_remaining % 4 == 0) {
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// erase flash
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flash_erase_sectors(FLASH_SECTOR_FIRMWARE_START, FLASH_SECTOR_FIRMWARE_END, progress_erase);
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// request new firmware
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chunk_requested = (firmware_remaining > FIRMWARE_CHUNK_SIZE) ? FIRMWARE_CHUNK_SIZE : firmware_remaining;
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MSG_SEND_INIT(FirmwareRequest);
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MSG_SEND_ASSIGN_VALUE(offset, 0);
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MSG_SEND_ASSIGN_VALUE(length, chunk_requested);
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MSG_SEND(FirmwareRequest);
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} else {
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MSG_SEND_INIT(Failure);
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MSG_SEND_ASSIGN_VALUE(code, FailureType_Failure_DataError);
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MSG_SEND_ASSIGN_STRING(message, "Wrong firmware size");
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MSG_SEND(Failure);
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}
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}
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static uint32_t chunk_size = 0;
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static bool _read_payload(pb_istream_t *stream, const pb_field_t *field, void **arg)
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{
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#define BUFSIZE 4096
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uint32_t buf[BUFSIZE / sizeof(uint32_t)];
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uint32_t chunk_written = 0;
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chunk_size = stream->bytes_left;
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while (stream->bytes_left) {
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// print loader
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display_loader(250 + 750 * (firmware_flashed + chunk_written) / (firmware_flashed + firmware_remaining), 0, 0xFFFF, 0, 0, 0, 0);
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memset(buf, 0xFF, sizeof(buf));
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// read data
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if (!pb_read(stream, (pb_byte_t *)buf, (stream->bytes_left > BUFSIZE) ? BUFSIZE : stream->bytes_left)) {
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return false;
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}
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// write data
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for (int i = 0; i < BUFSIZE / sizeof(uint32_t); i++) {
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if (HAL_FLASH_Program(FLASH_TYPEPROGRAM_WORD, FIRMWARE_START + firmware_flashed + chunk_written + i * sizeof(uint32_t), buf[i]) != HAL_OK) {
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return false;
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}
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}
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chunk_written += BUFSIZE;
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}
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return true;
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}
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void process_msg_FirmwareUpload(uint8_t iface_num, uint32_t msg_size, uint8_t *buf)
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{
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HAL_FLASH_Unlock();
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MSG_RECV_INIT(FirmwareUpload);
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MSG_RECV_CALLBACK(payload, _read_payload);
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MSG_RECV(FirmwareUpload);
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HAL_FLASH_Lock();
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if (chunk_size != chunk_requested) {
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MSG_SEND_INIT(Failure);
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MSG_SEND_ASSIGN_VALUE(code, FailureType_Failure_DataError);
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MSG_SEND_ASSIGN_STRING(message, "Invalid chunk size");
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MSG_SEND(Failure);
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}
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firmware_remaining -= chunk_requested;
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firmware_flashed += chunk_requested;
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if (firmware_remaining > 0) {
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chunk_requested = (firmware_remaining > FIRMWARE_CHUNK_SIZE) ? FIRMWARE_CHUNK_SIZE : firmware_remaining;
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MSG_SEND_INIT(FirmwareRequest);
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MSG_SEND_ASSIGN_VALUE(offset, firmware_flashed);
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MSG_SEND_ASSIGN_VALUE(length, chunk_requested);
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MSG_SEND(FirmwareRequest);
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} else {
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display_clear();
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MSG_SEND_INIT(Success);
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MSG_SEND(Success);
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}
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}
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void process_msg_unknown(uint8_t iface_num, uint32_t msg_size, uint8_t *buf)
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{
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// consume remaining message
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int remaining_chunks = (msg_size - (USB_PACKET_SIZE - MSG_HEADER1_LEN)) / (USB_PACKET_SIZE - MSG_HEADER2_LEN);
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for (int i = 0; i < remaining_chunks; i++) {
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int r = usb_hid_read_blocking(USB_IFACE_NUM, buf, USB_PACKET_SIZE, 100);
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if (r != USB_PACKET_SIZE) {
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break;
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}
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}
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MSG_SEND_INIT(Failure);
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MSG_SEND_ASSIGN_VALUE(code, FailureType_Failure_UnexpectedMessage);
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MSG_SEND_ASSIGN_STRING(message, "Unexpected message");
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MSG_SEND(Failure);
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}
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