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trezor-firmware/firmware/fsm.c

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2014-04-29 12:26:51 +00:00
/*
* This file is part of the TREZOR project.
*
* Copyright (C) 2014 Pavol Rusnak <stick@satoshilabs.com>
*
* This library is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This library 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this library. If not, see <http://www.gnu.org/licenses/>.
*/
#include "trezor.h"
#include "fsm.h"
#include "messages.h"
#include "bip32.h"
#include "storage.h"
#include "coins.h"
#include "debug.h"
#include "transaction.h"
#include "rng.h"
#include "storage.h"
#include "oled.h"
#include "protect.h"
#include "pinmatrix.h"
#include "layout2.h"
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#include "address.h"
#include "base58.h"
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#include "ecdsa.h"
#include "reset.h"
#include "recovery.h"
#include "memory.h"
#include "usb.h"
#include "util.h"
#include "signing.h"
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#include "aes.h"
#include "hmac.h"
#include "crypto.h"
#include "base58.h"
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#include "bip39.h"
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#include "ripemd160.h"
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#include "curves.h"
#include "secp256k1.h"
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#include <libopencm3/stm32/flash.h>
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#include "ethereum.h"
#include "gettext.h"
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// message methods
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static uint8_t msg_resp[MSG_OUT_SIZE] __attribute__ ((aligned));
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#define RESP_INIT(TYPE) \
TYPE *resp = (TYPE *) (void *) msg_resp; \
_Static_assert(sizeof(msg_resp) >= sizeof(TYPE), #TYPE " is too large"); \
memset(resp, 0, sizeof(TYPE));
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#define CHECK_INITIALIZED \
if (!storage_isInitialized()) { \
fsm_sendFailure(FailureType_Failure_NotInitialized, NULL); \
return; \
}
#define CHECK_NOT_INITIALIZED \
if (storage_isInitialized()) { \
fsm_sendFailure(FailureType_Failure_UnexpectedMessage, _("Device is already initialized. Use Wipe first.")); \
return; \
}
#define CHECK_PIN \
if (!protectPin(true)) { \
layoutHome(); \
return; \
}
#define CHECK_PIN_UNCACHED \
if (!protectPin(false)) { \
layoutHome(); \
return; \
}
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#define CHECK_PARAM(cond, errormsg) \
if (!(cond)) { \
fsm_sendFailure(FailureType_Failure_DataError, (errormsg)); \
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layoutHome(); \
return; \
}
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void fsm_sendSuccess(const char *text)
{
RESP_INIT(Success);
if (text) {
resp->has_message = true;
strlcpy(resp->message, text, sizeof(resp->message));
}
msg_write(MessageType_MessageType_Success, resp);
}
void fsm_sendFailure(FailureType code, const char *text)
{
if (protectAbortedByInitialize) {
fsm_msgInitialize((Initialize *)0);
protectAbortedByInitialize = false;
return;
}
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RESP_INIT(Failure);
resp->has_code = true;
resp->code = code;
if (!text) {
switch (code) {
case FailureType_Failure_UnexpectedMessage:
text = _("Unexpected message");
break;
case FailureType_Failure_ButtonExpected:
text = _("Button expected");
break;
case FailureType_Failure_DataError:
text = _("Data error");
break;
case FailureType_Failure_ActionCancelled:
text = _("Action cancelled by user");
break;
case FailureType_Failure_PinExpected:
text = _("PIN expected");
break;
case FailureType_Failure_PinCancelled:
text = _("PIN cancelled");
break;
case FailureType_Failure_PinInvalid:
text = _("PIN invalid");
break;
case FailureType_Failure_InvalidSignature:
text = _("Invalid signature");
break;
case FailureType_Failure_ProcessError:
text = _("Process error");
break;
case FailureType_Failure_NotEnoughFunds:
text = _("Not enough funds");
break;
case FailureType_Failure_NotInitialized:
text = _("Device not initialized");
break;
case FailureType_Failure_FirmwareError:
text = _("Firmware error");
break;
}
}
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if (text) {
resp->has_message = true;
strlcpy(resp->message, text, sizeof(resp->message));
}
msg_write(MessageType_MessageType_Failure, resp);
}
const CoinType *fsm_getCoin(bool has_name, const char *name)
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{
const CoinType *coin;
if (has_name) {
coin = coinByName(name);
} else {
coin = coinByName("Bitcoin");
}
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if (!coin) {
fsm_sendFailure(FailureType_Failure_DataError, _("Invalid coin name"));
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layoutHome();
return 0;
}
return coin;
}
HDNode *fsm_getDerivedNode(const char *curve, uint32_t *address_n, size_t address_n_count)
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{
static CONFIDENTIAL HDNode node;
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if (!storage_getRootNode(&node, curve, true)) {
fsm_sendFailure(FailureType_Failure_NotInitialized, _("Device not initialized or passphrase request cancelled or unsupported curve"));
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layoutHome();
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return 0;
}
if (!address_n || address_n_count == 0) {
return &node;
}
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if (hdnode_private_ckd_cached(&node, address_n, address_n_count, NULL) == 0) {
fsm_sendFailure(FailureType_Failure_ProcessError, _("Failed to derive private key"));
layoutHome();
return 0;
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}
return &node;
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}
void fsm_msgInitialize(Initialize *msg)
{
(void)msg;
recovery_abort();
signing_abort();
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session_clear(false); // do not clear PIN
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layoutHome();
fsm_msgGetFeatures(0);
}
void fsm_msgGetFeatures(GetFeatures *msg)
{
(void)msg;
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RESP_INIT(Features);
resp->has_vendor = true; strlcpy(resp->vendor, "bitcointrezor.com", sizeof(resp->vendor));
resp->has_major_version = true; resp->major_version = VERSION_MAJOR;
resp->has_minor_version = true; resp->minor_version = VERSION_MINOR;
resp->has_patch_version = true; resp->patch_version = VERSION_PATCH;
resp->has_device_id = true; strlcpy(resp->device_id, storage_uuid_str, sizeof(resp->device_id));
resp->has_pin_protection = true; resp->pin_protection = storage.has_pin;
resp->has_passphrase_protection = true; resp->passphrase_protection = storage.has_passphrase_protection && storage.passphrase_protection;
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#ifdef SCM_REVISION
int len = sizeof(SCM_REVISION) - 1;
resp->has_revision = true; memcpy(resp->revision.bytes, SCM_REVISION, len); resp->revision.size = len;
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#endif
resp->has_bootloader_hash = true; resp->bootloader_hash.size = memory_bootloader_hash(resp->bootloader_hash.bytes);
if (storage.has_language) {
resp->has_language = true;
strlcpy(resp->language, storage.language, sizeof(resp->language));
}
if (storage.has_label) {
resp->has_label = true;
strlcpy(resp->label, storage.label, sizeof(resp->label));
}
resp->coins_count = COINS_COUNT;
memcpy(resp->coins, coins, COINS_COUNT * sizeof(CoinType));
resp->has_initialized = true; resp->initialized = storage_isInitialized();
resp->has_imported = true; resp->imported = storage.has_imported && storage.imported;
resp->has_pin_cached = true; resp->pin_cached = session_isPinCached();
resp->has_passphrase_cached = true; resp->passphrase_cached = session_isPassphraseCached();
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resp->has_needs_backup = true; resp->needs_backup = storage_needsBackup();
resp->has_flags = true; resp->flags = storage_getFlags();
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msg_write(MessageType_MessageType_Features, resp);
}
void fsm_msgPing(Ping *msg)
{
RESP_INIT(Success);
if (msg->has_button_protection && msg->button_protection) {
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("answer to ping?"), NULL, NULL, NULL, NULL);
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if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
}
if (msg->has_pin_protection && msg->pin_protection) {
CHECK_PIN
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}
if (msg->has_passphrase_protection && msg->passphrase_protection) {
if (!protectPassphrase()) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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return;
}
}
if (msg->has_message) {
resp->has_message = true;
memcpy(&(resp->message), &(msg->message), sizeof(resp->message));
}
msg_write(MessageType_MessageType_Success, resp);
layoutHome();
}
void fsm_msgChangePin(ChangePin *msg)
{
bool removal = msg->has_remove && msg->remove;
if (removal) {
if (storage_hasPin()) {
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("remove current PIN?"), NULL, NULL, NULL, NULL);
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} else {
fsm_sendSuccess(_("PIN removed"));
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return;
}
} else {
if (storage_hasPin()) {
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("change current PIN?"), NULL, NULL, NULL, NULL);
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} else {
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("set new PIN?"), NULL, NULL, NULL, NULL);
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}
}
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
CHECK_PIN_UNCACHED
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if (removal) {
storage_setPin(0);
fsm_sendSuccess(_("PIN removed"));
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} else {
if (protectChangePin()) {
fsm_sendSuccess(_("PIN changed"));
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} else {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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}
}
layoutHome();
}
void fsm_msgWipeDevice(WipeDevice *msg)
{
(void)msg;
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("wipe the device?"), NULL, _("All data will be lost."), NULL, NULL);
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if (!protectButton(ButtonRequestType_ButtonRequest_WipeDevice, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
storage_wipe();
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// the following does not work on Mac anyway :-/ Linux/Windows are fine, so it is not needed
// usbReconnect(); // force re-enumeration because of the serial number change
fsm_sendSuccess(_("Device wiped"));
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layoutHome();
}
void fsm_msgGetEntropy(GetEntropy *msg)
{
#if !DEBUG_RNG
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("send entropy?"), NULL, NULL, NULL, NULL);
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if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
#endif
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RESP_INIT(Entropy);
uint32_t len = msg->size;
if (len > 1024) {
len = 1024;
}
resp->entropy.size = len;
random_buffer(resp->entropy.bytes, len);
msg_write(MessageType_MessageType_Entropy, resp);
layoutHome();
}
void fsm_msgGetPublicKey(GetPublicKey *msg)
{
RESP_INIT(PublicKey);
CHECK_INITIALIZED
CHECK_PIN
const CoinType *coin = fsm_getCoin(msg->has_coin_name, msg->coin_name);
if (!coin) return;
const char *curve = SECP256K1_NAME;
if (msg->has_ecdsa_curve_name) {
curve = msg->ecdsa_curve_name;
}
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uint32_t fingerprint;
HDNode *node;
if (msg->address_n_count == 0) {
/* get master node */
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fingerprint = 0;
node = fsm_getDerivedNode(curve, msg->address_n, 0);
} else {
/* get parent node */
node = fsm_getDerivedNode(curve, msg->address_n, msg->address_n_count - 1);
if (!node) return;
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fingerprint = hdnode_fingerprint(node);
/* get child */
hdnode_private_ckd(node, msg->address_n[msg->address_n_count - 1]);
}
hdnode_fill_public_key(node);
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if (msg->has_show_display && msg->show_display) {
layoutPublicKey(node->public_key);
if (!protectButton(ButtonRequestType_ButtonRequest_PublicKey, true)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
}
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resp->node.depth = node->depth;
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resp->node.fingerprint = fingerprint;
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resp->node.child_num = node->child_num;
resp->node.chain_code.size = 32;
memcpy(resp->node.chain_code.bytes, node->chain_code, 32);
resp->node.has_private_key = false;
resp->node.has_public_key = true;
resp->node.public_key.size = 33;
memcpy(resp->node.public_key.bytes, node->public_key, 33);
if (node->public_key[0] == 1) {
/* ed25519 public key */
resp->node.public_key.bytes[0] = 0;
}
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resp->has_xpub = true;
hdnode_serialize_public(node, fingerprint, coin->xpub_magic, resp->xpub, sizeof(resp->xpub));
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msg_write(MessageType_MessageType_PublicKey, resp);
layoutHome();
}
void fsm_msgLoadDevice(LoadDevice *msg)
{
CHECK_NOT_INITIALIZED
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layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("I take the risk"), NULL, _("Loading private seed"), _("is not recommended."), _("Continue only if you"), _("know what you are"), _("doing!"), NULL);
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if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
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if (msg->has_mnemonic && !(msg->has_skip_checksum && msg->skip_checksum) ) {
if (!mnemonic_check(msg->mnemonic)) {
fsm_sendFailure(FailureType_Failure_DataError, _("Mnemonic with wrong checksum provided"));
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layoutHome();
return;
}
}
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storage_loadDevice(msg);
storage_commit();
fsm_sendSuccess(_("Device loaded"));
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layoutHome();
}
void fsm_msgResetDevice(ResetDevice *msg)
{
CHECK_NOT_INITIALIZED
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CHECK_PARAM(!msg->has_strength || msg->strength == 128 || msg->strength == 192 || msg->strength == 256, _("Invalid seed strength"));
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reset_init(
msg->has_display_random && msg->display_random,
msg->has_strength ? msg->strength : 128,
msg->has_passphrase_protection && msg->passphrase_protection,
msg->has_pin_protection && msg->pin_protection,
msg->has_language ? msg->language : 0,
msg->has_label ? msg->label : 0,
msg->has_u2f_counter ? msg->u2f_counter : 0,
msg->has_skip_backup ? msg->skip_backup : false
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);
}
void fsm_msgBackupDevice(BackupDevice *msg)
{
CHECK_INITIALIZED
CHECK_PIN_UNCACHED
(void)msg;
reset_backup(true);
}
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void fsm_msgSignTx(SignTx *msg)
{
CHECK_INITIALIZED
CHECK_PARAM(msg->inputs_count > 0, _("Transaction must have at least one input"));
CHECK_PARAM(msg->outputs_count > 0, _("Transaction must have at least one output"));
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CHECK_PIN
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const CoinType *coin = fsm_getCoin(msg->has_coin_name, msg->coin_name);
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if (!coin) return;
const HDNode *node = fsm_getDerivedNode(SECP256K1_NAME, 0, 0);
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if (!node) return;
signing_init(msg->inputs_count, msg->outputs_count, coin, node, msg->version, msg->lock_time);
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}
void fsm_msgTxAck(TxAck *msg)
{
CHECK_PARAM(msg->has_tx, _("No transaction provided"));
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signing_txack(&(msg->tx));
}
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void fsm_msgCancel(Cancel *msg)
{
(void)msg;
recovery_abort();
signing_abort();
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ethereum_signing_abort();
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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}
void fsm_msgEthereumSignTx(EthereumSignTx *msg)
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{
CHECK_INITIALIZED
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CHECK_PIN
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const HDNode *node = fsm_getDerivedNode(SECP256K1_NAME, msg->address_n, msg->address_n_count);
if (!node) return;
ethereum_signing_init(msg, node);
}
void fsm_msgEthereumTxAck(EthereumTxAck *msg)
{
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ethereum_signing_txack(msg);
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}
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void fsm_msgCipherKeyValue(CipherKeyValue *msg)
{
CHECK_INITIALIZED
CHECK_PARAM(msg->has_key, _("No key provided"));
CHECK_PARAM(msg->has_value, _("No value provided"));
CHECK_PARAM(msg->value.size % 16 == 0, _("Value length must be a multiple of 16"));
CHECK_PIN
const HDNode *node = fsm_getDerivedNode(SECP256K1_NAME, msg->address_n, msg->address_n_count);
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if (!node) return;
bool encrypt = msg->has_encrypt && msg->encrypt;
bool ask_on_encrypt = msg->has_ask_on_encrypt && msg->ask_on_encrypt;
bool ask_on_decrypt = msg->has_ask_on_decrypt && msg->ask_on_decrypt;
if ((encrypt && ask_on_encrypt) || (!encrypt && ask_on_decrypt)) {
layoutCipherKeyValue(encrypt, msg->key);
if (!protectButton(ButtonRequestType_ButtonRequest_Other, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
}
uint8_t data[256 + 4];
strlcpy((char *)data, msg->key, sizeof(data));
strlcat((char *)data, ask_on_encrypt ? "E1" : "E0", sizeof(data));
strlcat((char *)data, ask_on_decrypt ? "D1" : "D0", sizeof(data));
hmac_sha512(node->private_key, 32, data, strlen((char *)data), data);
RESP_INIT(CipheredKeyValue);
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if (encrypt) {
aes_encrypt_ctx ctx;
aes_encrypt_key256(data, &ctx);
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aes_cbc_encrypt(msg->value.bytes, resp->value.bytes, msg->value.size, ((msg->iv.size == 16) ? (msg->iv.bytes) : (data + 32)), &ctx);
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} else {
aes_decrypt_ctx ctx;
aes_decrypt_key256(data, &ctx);
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aes_cbc_decrypt(msg->value.bytes, resp->value.bytes, msg->value.size, ((msg->iv.size == 16) ? (msg->iv.bytes) : (data + 32)), &ctx);
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}
resp->has_value = true;
resp->value.size = msg->value.size;
msg_write(MessageType_MessageType_CipheredKeyValue, resp);
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layoutHome();
}
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void fsm_msgClearSession(ClearSession *msg)
{
(void)msg;
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session_clear(true); // clear PIN as well
layoutScreensaver();
fsm_sendSuccess(_("Session cleared"));
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}
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void fsm_msgApplySettings(ApplySettings *msg)
{
CHECK_PARAM(msg->has_label || msg->has_language || msg->has_use_passphrase || msg->has_homescreen, _("No setting provided"));
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CHECK_PIN
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if (msg->has_label) {
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("change label to"), msg->label, "?", NULL, NULL);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
}
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if (msg->has_language) {
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("change language to"), msg->language, "?", NULL, NULL);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
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}
if (msg->has_use_passphrase) {
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), msg->use_passphrase ? _("enable passphrase") : _("disable passphrase"), _("encryption?"), NULL, NULL, NULL);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
}
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if (msg->has_homescreen) {
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you really want to"), _("change the home"), _("screen?"), NULL, NULL, NULL);
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if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
}
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if (msg->has_label) {
storage_setLabel(msg->label);
}
if (msg->has_language) {
storage_setLanguage(msg->language);
}
if (msg->has_use_passphrase) {
storage_setPassphraseProtection(msg->use_passphrase);
}
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if (msg->has_homescreen) {
storage_setHomescreen(msg->homescreen.bytes, msg->homescreen.size);
}
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storage_commit();
fsm_sendSuccess(_("Settings applied"));
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layoutHome();
}
void fsm_msgApplyFlags(ApplyFlags *msg)
{
if (msg->has_flags) {
storage_applyFlags(msg->flags);
}
fsm_sendSuccess(_("Flags applied"));
}
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void fsm_msgGetAddress(GetAddress *msg)
{
RESP_INIT(Address);
CHECK_INITIALIZED
CHECK_PIN
const CoinType *coin = fsm_getCoin(msg->has_coin_name, msg->coin_name);
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if (!coin) return;
HDNode *node = fsm_getDerivedNode(SECP256K1_NAME, msg->address_n, msg->address_n_count);
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if (!node) return;
hdnode_fill_public_key(node);
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char address[MAX_ADDR_SIZE];
layoutProgress(_("Computing address"), 0);
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if (!compute_address(coin, msg->script_type, node, msg->has_multisig, &msg->multisig, address)) {
fsm_sendFailure(FailureType_Failure_DataError, _("Can't encode address"));
layoutHome();
return;
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}
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2014-08-08 17:09:54 +00:00
if (msg->has_show_display && msg->show_display) {
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char desc[16];
if (msg->has_multisig) {
strlcpy(desc, "Msig __ of __:", sizeof(desc));
const uint32_t m = msg->multisig.m;
const uint32_t n = msg->multisig.pubkeys_count;
desc[5] = (m < 10) ? ' ': ('0' + (m / 10));
desc[6] = '0' + (m % 10);
desc[11] = (n < 10) ? ' ': ('0' + (n / 10));
desc[12] = '0' + (n % 10);
} else {
strlcpy(desc, _("Address:"), sizeof(desc));
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}
bool qrcode = false;
for (;;) {
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layoutAddress(address, desc, qrcode);
if (protectButton(ButtonRequestType_ButtonRequest_Address, false)) {
break;
}
qrcode = !qrcode;
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}
}
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strlcpy(resp->address, address, sizeof(resp->address));
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msg_write(MessageType_MessageType_Address, resp);
layoutHome();
}
void fsm_msgEthereumGetAddress(EthereumGetAddress *msg)
{
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RESP_INIT(EthereumAddress);
CHECK_INITIALIZED
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CHECK_PIN
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const HDNode *node = fsm_getDerivedNode(SECP256K1_NAME, msg->address_n, msg->address_n_count);
if (!node) return;
resp->address.size = 20;
if (!hdnode_get_ethereum_pubkeyhash(node, resp->address.bytes))
return;
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if (msg->has_show_display && msg->show_display) {
char desc[16];
strlcpy(desc, "Address:", sizeof(desc));
char address[43] = { '0', 'x' };
ethereum_address_checksum(resp->address.bytes, address + 2);
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bool qrcode = false;
for (;;) {
layoutAddress(address, desc, qrcode);
if (protectButton(ButtonRequestType_ButtonRequest_Address, false)) {
break;
}
qrcode = !qrcode;
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}
}
msg_write(MessageType_MessageType_EthereumAddress, resp);
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layoutHome();
}
void fsm_msgEthereumSignMessage(EthereumSignMessage *msg)
{
RESP_INIT(EthereumMessageSignature);
CHECK_INITIALIZED
layoutSignMessage(msg->message.bytes, msg->message.size);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
CHECK_PIN
const HDNode *node = fsm_getDerivedNode(SECP256K1_NAME, msg->address_n, msg->address_n_count);
if (!node) return;
ethereum_message_sign(msg, node, resp);
layoutHome();
}
void fsm_msgEthereumVerifyMessage(EthereumVerifyMessage *msg)
{
CHECK_PARAM(msg->has_address, _("No address provided"));
CHECK_PARAM(msg->has_message, _("No message provided"));
if (ethereum_message_verify(msg) != 0) {
fsm_sendFailure(FailureType_Failure_DataError, _("Invalid signature"));
return;
}
char address[43] = { '0', 'x' };
ethereum_address_checksum(msg->address.bytes, address + 2);
layoutVerifyAddress(address);
if (!protectButton(ButtonRequestType_ButtonRequest_Other, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
layoutVerifyMessage(msg->message.bytes, msg->message.size);
if (!protectButton(ButtonRequestType_ButtonRequest_Other, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
fsm_sendSuccess(_("Message verified"));
layoutHome();
}
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void fsm_msgEntropyAck(EntropyAck *msg)
{
if (msg->has_entropy) {
reset_entropy(msg->entropy.bytes, msg->entropy.size);
} else {
reset_entropy(0, 0);
}
}
void fsm_msgSignMessage(SignMessage *msg)
{
RESP_INIT(MessageSignature);
CHECK_INITIALIZED
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layoutSignMessage(msg->message.bytes, msg->message.size);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
CHECK_PIN
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const CoinType *coin = fsm_getCoin(msg->has_coin_name, msg->coin_name);
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if (!coin) return;
HDNode *node = fsm_getDerivedNode(SECP256K1_NAME, msg->address_n, msg->address_n_count);
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if (!node) return;
layoutProgressSwipe(_("Signing"), 0);
if (cryptoMessageSign(coin, node, msg->script_type, msg->message.bytes, msg->message.size, resp->signature.bytes) == 0) {
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resp->has_address = true;
hdnode_fill_public_key(node);
if (!compute_address(coin, msg->script_type, node, false, NULL, resp->address)) {
fsm_sendFailure(FailureType_Failure_ProcessError, _("Error computing address"));
layoutHome();
return;
}
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resp->has_signature = true;
resp->signature.size = 65;
msg_write(MessageType_MessageType_MessageSignature, resp);
} else {
fsm_sendFailure(FailureType_Failure_ProcessError, _("Error signing message"));
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}
layoutHome();
}
void fsm_msgVerifyMessage(VerifyMessage *msg)
{
CHECK_PARAM(msg->has_address, _("No address provided"));
CHECK_PARAM(msg->has_message, _("No message provided"));
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const CoinType *coin = fsm_getCoin(msg->has_coin_name, msg->coin_name);
if (!coin) return;
uint8_t addr_raw[MAX_ADDR_RAW_SIZE];
uint32_t address_type;
if (!coinExtractAddressType(coin, msg->address, &address_type) || !ecdsa_address_decode(msg->address, address_type, addr_raw)) {
fsm_sendFailure(FailureType_Failure_DataError, _("Invalid address"));
return;
}
layoutProgressSwipe(_("Verifying"), 0);
if (msg->signature.size == 65 && cryptoMessageVerify(coin, msg->message.bytes, msg->message.size, address_type, addr_raw, msg->signature.bytes) == 0) {
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layoutVerifyAddress(msg->address);
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if (!protectButton(ButtonRequestType_ButtonRequest_Other, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
layoutVerifyMessage(msg->message.bytes, msg->message.size);
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if (!protectButton(ButtonRequestType_ButtonRequest_Other, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
fsm_sendSuccess(_("Message verified"));
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} else {
fsm_sendFailure(FailureType_Failure_DataError, _("Invalid signature"));
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}
layoutHome();
}
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void fsm_msgSignIdentity(SignIdentity *msg)
{
RESP_INIT(SignedIdentity);
CHECK_INITIALIZED
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layoutSignIdentity(&(msg->identity), msg->has_challenge_visual ? msg->challenge_visual : 0);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
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layoutHome();
return;
}
CHECK_PIN
2015-02-20 19:22:05 +00:00
uint8_t hash[32];
if (!msg->has_identity || cryptoIdentityFingerprint(&(msg->identity), hash) == 0) {
fsm_sendFailure(FailureType_Failure_DataError, _("Invalid identity"));
2015-02-20 19:22:05 +00:00
layoutHome();
return;
}
2015-02-20 19:22:05 +00:00
uint32_t address_n[5];
2015-03-17 14:02:07 +00:00
address_n[0] = 0x80000000 | 13;
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address_n[1] = 0x80000000 | hash[ 0] | (hash[ 1] << 8) | (hash[ 2] << 16) | (hash[ 3] << 24);
address_n[2] = 0x80000000 | hash[ 4] | (hash[ 5] << 8) | (hash[ 6] << 16) | (hash[ 7] << 24);
address_n[3] = 0x80000000 | hash[ 8] | (hash[ 9] << 8) | (hash[10] << 16) | (hash[11] << 24);
address_n[4] = 0x80000000 | hash[12] | (hash[13] << 8) | (hash[14] << 16) | (hash[15] << 24);
const char *curve = SECP256K1_NAME;
if (msg->has_ecdsa_curve_name) {
curve = msg->ecdsa_curve_name;
}
HDNode *node = fsm_getDerivedNode(curve, address_n, 5);
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if (!node) return;
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bool sign_ssh = msg->identity.has_proto && (strcmp(msg->identity.proto, "ssh") == 0);
bool sign_gpg = msg->identity.has_proto && (strcmp(msg->identity.proto, "gpg") == 0);
int result = 0;
layoutProgressSwipe(_("Signing"), 0);
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if (sign_ssh) { // SSH does not sign visual challenge
2016-04-22 15:49:00 +00:00
result = sshMessageSign(node, msg->challenge_hidden.bytes, msg->challenge_hidden.size, resp->signature.bytes);
} else if (sign_gpg) { // GPG should sign a message digest
2016-04-22 15:49:00 +00:00
result = gpgMessageSign(node, msg->challenge_hidden.bytes, msg->challenge_hidden.size, resp->signature.bytes);
} else {
2015-07-04 21:34:26 +00:00
uint8_t digest[64];
sha256_Raw(msg->challenge_hidden.bytes, msg->challenge_hidden.size, digest);
sha256_Raw((const uint8_t *)msg->challenge_visual, strlen(msg->challenge_visual), digest + 32);
result = cryptoMessageSign(&(coins[0]), node, InputScriptType_SPENDADDRESS, digest, 64, resp->signature.bytes);
}
if (result == 0) {
hdnode_fill_public_key(node);
if (strcmp(curve, SECP256K1_NAME) != 0) {
resp->has_address = false;
} else {
resp->has_address = true;
hdnode_get_address(node, 0x00, resp->address, sizeof(resp->address)); // hardcoded Bitcoin address type
}
2015-02-20 19:22:05 +00:00
resp->has_public_key = true;
resp->public_key.size = 33;
memcpy(resp->public_key.bytes, node->public_key, 33);
if (node->public_key[0] == 1) {
/* ed25519 public key */
resp->public_key.bytes[0] = 0;
}
2015-02-20 19:22:05 +00:00
resp->has_signature = true;
resp->signature.size = 65;
msg_write(MessageType_MessageType_SignedIdentity, resp);
} else {
fsm_sendFailure(FailureType_Failure_ProcessError, _("Error signing identity"));
2015-02-20 19:22:05 +00:00
}
layoutHome();
}
2016-06-16 19:40:21 +00:00
void fsm_msgGetECDHSessionKey(GetECDHSessionKey *msg)
{
RESP_INIT(ECDHSessionKey);
CHECK_INITIALIZED
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layoutDecryptIdentity(&msg->identity);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
CHECK_PIN
2016-06-16 19:40:21 +00:00
uint8_t hash[32];
if (!msg->has_identity || cryptoIdentityFingerprint(&(msg->identity), hash) == 0) {
fsm_sendFailure(FailureType_Failure_DataError, _("Invalid identity"));
2016-06-16 19:40:21 +00:00
layoutHome();
return;
}
uint32_t address_n[5];
address_n[0] = 0x80000000 | 17;
address_n[1] = 0x80000000 | hash[ 0] | (hash[ 1] << 8) | (hash[ 2] << 16) | (hash[ 3] << 24);
address_n[2] = 0x80000000 | hash[ 4] | (hash[ 5] << 8) | (hash[ 6] << 16) | (hash[ 7] << 24);
address_n[3] = 0x80000000 | hash[ 8] | (hash[ 9] << 8) | (hash[10] << 16) | (hash[11] << 24);
address_n[4] = 0x80000000 | hash[12] | (hash[13] << 8) | (hash[14] << 16) | (hash[15] << 24);
const char *curve = SECP256K1_NAME;
if (msg->has_ecdsa_curve_name) {
curve = msg->ecdsa_curve_name;
}
const HDNode *node = fsm_getDerivedNode(curve, address_n, 5);
if (!node) return;
int result_size = 0;
if (hdnode_get_shared_key(node, msg->peer_public_key.bytes, resp->session_key.bytes, &result_size) == 0) {
2016-06-16 19:40:21 +00:00
resp->has_session_key = true;
resp->session_key.size = result_size;
2016-06-16 19:40:21 +00:00
msg_write(MessageType_MessageType_ECDHSessionKey, resp);
} else {
fsm_sendFailure(FailureType_Failure_ProcessError, _("Error getting ECDH session key"));
2016-06-16 19:40:21 +00:00
}
layoutHome();
}
2016-05-12 19:09:00 +00:00
/* ECIES disabled
void fsm_msgEncryptMessage(EncryptMessage *msg)
{
CHECK_INITIALIZED
CHECK_PARAM(msg->has_pubkey, _("No public key provided"));
CHECK_PARAM(msg->has_message, _("No message provided"));
CHECK_PARAM(msg->pubkey.size == 33, _("Invalid public key provided"));
curve_point pubkey;
CHECK_PARAM(ecdsa_read_pubkey(&secp256k1, msg->pubkey.bytes, &pubkey) == 1, _("Invalid public key provided"));
2016-11-22 20:39:33 +00:00
bool display_only = msg->has_display_only && msg->display_only;
bool signing = msg->address_n_count > 0;
RESP_INIT(EncryptedMessage);
const HDNode *node = 0;
uint8_t address_raw[MAX_ADDR_RAW_SIZE];
if (signing) {
const CoinType *coin = fsm_getCoin(msg->has_coin_name, msg->coin_name);
if (!coin) return;
CHECK_PIN
node = fsm_getDerivedNode(SECP256K1_NAME, msg->address_n, msg->address_n_count);
if (!node) return;
hdnode_get_address_raw(node, coin->address_type, address_raw);
}
layoutEncryptMessage(msg->message.bytes, msg->message.size, signing);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
layoutProgressSwipe(_("Encrypting"), 0);
if (cryptoMessageEncrypt(&pubkey, msg->message.bytes, msg->message.size, display_only, resp->nonce.bytes, &(resp->nonce.size), resp->message.bytes, &(resp->message.size), resp->hmac.bytes, &(resp->hmac.size), signing ? node->private_key : 0, signing ? address_raw : 0) != 0) {
fsm_sendFailure(FailureType_Failure_ProcessError, _("Error encrypting message"));
layoutHome();
return;
}
resp->has_nonce = true;
resp->has_message = true;
resp->has_hmac = true;
msg_write(MessageType_MessageType_EncryptedMessage, resp);
layoutHome();
}
void fsm_msgDecryptMessage(DecryptMessage *msg)
{
CHECK_INITIALIZED
CHECK_PARAM(msg->has_nonce, _("No nonce provided"));
CHECK_PARAM(msg->has_message, _("No message provided"));
CHECK_PARAM(msg->has_hmac, _("No message hmac provided"));
2016-11-22 20:39:33 +00:00
CHECK_PARAM(msg->nonce.size == 33, _("Invalid nonce key provided"));
curve_point nonce_pubkey;
CHECK_PARAM(ecdsa_read_pubkey(&secp256k1, msg->nonce.bytes, &nonce_pubkey) == 1, _("Invalid nonce provided"));
CHECK_PIN
const HDNode *node = fsm_getDerivedNode(SECP256K1_NAME, msg->address_n, msg->address_n_count);
if (!node) return;
layoutProgressSwipe(_("Decrypting"), 0);
RESP_INIT(DecryptedMessage);
bool display_only = false;
bool signing = false;
uint8_t address_raw[MAX_ADDR_RAW_SIZE];
if (cryptoMessageDecrypt(&nonce_pubkey, msg->message.bytes, msg->message.size, msg->hmac.bytes, msg->hmac.size, node->private_key, resp->message.bytes, &(resp->message.size), &display_only, &signing, address_raw) != 0) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
return;
}
if (signing) {
base58_encode_check(address_raw, 21, resp->address, sizeof(resp->address));
}
layoutDecryptMessage(resp->message.bytes, resp->message.size, signing ? resp->address : 0);
protectButton(ButtonRequestType_ButtonRequest_Other, true);
if (display_only) {
resp->has_address = false;
resp->has_message = false;
2015-05-18 11:37:44 +00:00
memset(resp->address, 0, sizeof(resp->address));
memset(&(resp->message), 0, sizeof(resp->message));
} else {
resp->has_address = signing;
resp->has_message = true;
}
msg_write(MessageType_MessageType_DecryptedMessage, resp);
layoutHome();
}
2016-05-12 19:09:00 +00:00
*/
2014-04-29 12:26:51 +00:00
void fsm_msgRecoveryDevice(RecoveryDevice *msg)
{
const bool dry_run = msg->has_dry_run ? msg->dry_run : false;
if (dry_run) {
CHECK_PIN
} else {
CHECK_NOT_INITIALIZED
}
CHECK_PARAM(!msg->has_word_count || msg->word_count == 12 || msg->word_count == 18 || msg->word_count == 24, _("Invalid word count"));
2016-11-22 20:39:33 +00:00
2014-04-29 12:26:51 +00:00
recovery_init(
msg->has_word_count ? msg->word_count : 12,
msg->has_passphrase_protection && msg->passphrase_protection,
msg->has_pin_protection && msg->pin_protection,
msg->has_language ? msg->language : 0,
msg->has_label ? msg->label : 0,
2016-11-23 11:56:42 +00:00
msg->has_enforce_wordlist && msg->enforce_wordlist,
msg->has_type ? msg->type : 0,
msg->has_u2f_counter ? msg->u2f_counter : 0,
dry_run
2014-04-29 12:26:51 +00:00
);
}
void fsm_msgWordAck(WordAck *msg)
{
recovery_word(msg->word);
}
2016-06-12 21:39:28 +00:00
void fsm_msgSetU2FCounter(SetU2FCounter *msg)
{
layoutDialogSwipe(&bmp_icon_question, _("Cancel"), _("Confirm"), NULL, _("Do you want to set"), _("the U2F counter?"), NULL, NULL, NULL, NULL);
2016-09-27 21:33:28 +00:00
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
2016-09-27 21:33:28 +00:00
layoutHome();
return;
}
2016-06-12 21:39:28 +00:00
storage_setU2FCounter(msg->u2f_counter);
fsm_sendSuccess(_("U2F counter set"));
2016-09-27 21:33:28 +00:00
layoutHome();
2016-06-12 21:39:28 +00:00
}
2014-04-29 12:26:51 +00:00
#if DEBUG_LINK
void fsm_msgDebugLinkGetState(DebugLinkGetState *msg)
{
(void)msg;
// Do not use RESP_INIT because it clears msg_resp, but another message
// might be being handled
DebugLinkState resp;
memset(&resp, 0, sizeof(resp));
resp.has_layout = true;
resp.layout.size = OLED_BUFSIZE;
memcpy(resp.layout.bytes, oledGetBuffer(), OLED_BUFSIZE);
2014-04-29 12:26:51 +00:00
if (storage.has_pin) {
resp.has_pin = true;
strlcpy(resp.pin, storage.pin, sizeof(resp.pin));
2014-04-29 12:26:51 +00:00
}
resp.has_matrix = true;
strlcpy(resp.matrix, pinmatrix_get(), sizeof(resp.matrix));
2014-04-29 12:26:51 +00:00
resp.has_reset_entropy = true;
resp.reset_entropy.size = reset_get_int_entropy(resp.reset_entropy.bytes);
2014-04-29 12:26:51 +00:00
resp.has_reset_word = true;
strlcpy(resp.reset_word, reset_get_word(), sizeof(resp.reset_word));
2014-04-29 12:26:51 +00:00
resp.has_recovery_fake_word = true;
strlcpy(resp.recovery_fake_word, recovery_get_fake_word(), sizeof(resp.recovery_fake_word));
2014-04-29 12:26:51 +00:00
resp.has_recovery_word_pos = true;
resp.recovery_word_pos = recovery_get_word_pos();
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if (storage.has_mnemonic) {
resp.has_mnemonic = true;
strlcpy(resp.mnemonic, storage.mnemonic, sizeof(resp.mnemonic));
2014-04-29 12:26:51 +00:00
}
if (storage.has_node) {
resp.has_node = true;
memcpy(&(resp.node), &(storage.node), sizeof(HDNode));
2014-04-29 12:26:51 +00:00
}
resp.has_passphrase_protection = true;
resp.passphrase_protection = storage.has_passphrase_protection && storage.passphrase_protection;
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msg_debug_write(MessageType_MessageType_DebugLinkState, &resp);
2014-04-29 12:26:51 +00:00
}
void fsm_msgDebugLinkStop(DebugLinkStop *msg)
{
(void)msg;
}
2016-05-26 18:28:11 +00:00
void fsm_msgDebugLinkMemoryRead(DebugLinkMemoryRead *msg)
{
RESP_INIT(DebugLinkMemory);
uint32_t length = 1024;
if (msg->has_length && msg->length < length)
length = msg->length;
resp->has_memory = true;
memcpy(resp->memory.bytes, (void*) msg->address, length);
resp->memory.size = length;
msg_debug_write(MessageType_MessageType_DebugLinkMemory, resp);
}
void fsm_msgDebugLinkMemoryWrite(DebugLinkMemoryWrite *msg)
{
uint32_t length = msg->memory.size;
if (msg->flash) {
flash_clear_status_flags();
flash_unlock();
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for (uint32_t i = 0; i < length; i += 4) {
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uint32_t word;
memcpy(&word, msg->memory.bytes + i, 4);
flash_program_word(msg->address + i, word);
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}
flash_lock();
} else {
memcpy((void *) msg->address, msg->memory.bytes, length);
}
}
void fsm_msgDebugLinkFlashErase(DebugLinkFlashErase *msg)
{
flash_clear_status_flags();
flash_unlock();
flash_erase_sector(msg->sector, FLASH_CR_PROGRAM_X32);
flash_lock();
}
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#endif