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trezor-firmware/firmware/stellar.c

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2018-04-06 21:45:32 +00:00
/*
* This file is part of the TREZOR project.
*
* 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/>.
*
* Stellar signing has the following workflow:
* 1. Client sends first 1024 bytes of the transaction
* 2. Trezor parses the transaction header and confirms the details with the user
* 3. Trezor responds to the client with an offset for where to send the next chunk of bytes
* 4. Client sends next 1024 bytes starting at <offset>
* 5. Trezor parses and confirms the next operation
* 6. Trezor responds with either an offset for the next operation or a signature
*/
#include <stdbool.h>
#include <time.h>
#include "messages.h"
#include "messages.pb.h"
#include "stellar.h"
#include "bip32.h"
#include "crypto.h"
#include "layout2.h"
#include "gettext.h"
#include "bignum.h"
#include "oled.h"
#include "base32.h"
#include "storage.h"
#include "fsm.h"
#include "protect.h"
#include "util.h"
#include "layout2.h"
#include "fonts.h"
static bool stellar_signing = false;
static StellarTransaction stellar_activeTx;
/*
* Starts the signing process and parses the transaction header
*/
void stellar_signingInit(StellarSignTx *msg)
{
memset(&stellar_activeTx, 0, sizeof(StellarTransaction));
stellar_signing = true;
// Initialize signing context
sha256_Init(&(stellar_activeTx.sha256_ctx));
// Calculate sha256 for network passphrase
// max length defined in messages.options
uint8_t network_hash[32];
sha256_Raw((uint8_t *)msg->network_passphrase, strnlen(msg->network_passphrase, 1024), network_hash);
uint8_t tx_type_bytes[4] = { 0x00, 0x00, 0x00, 0x02 };
// Copy some data into the active tx
stellar_activeTx.num_operations = msg->num_operations;
// Start building what will be signed:
// sha256 of:
// sha256(network passphrase)
// 4-byte unsigned big-endian int type constant (2 for tx)
// remaining bytes are operations added in subsequent messages
stellar_hashupdate_bytes(network_hash, sizeof(network_hash));
stellar_hashupdate_bytes(tx_type_bytes, sizeof(tx_type_bytes));
// Public key comes from deriving the specified account path
HDNode *node = stellar_deriveNode(msg->address_n, msg->address_n_count);
if (!node) {
// TODO: bail on error
return;
}
memcpy(&(stellar_activeTx.signing_pubkey), node->public_key + 1, sizeof(stellar_activeTx.signing_pubkey));
2018-04-06 21:45:32 +00:00
stellar_activeTx.address_n_count = msg->address_n_count;
// todo: fix sizeof check
memcpy(&(stellar_activeTx.address_n), &(msg->address_n), sizeof(stellar_activeTx.address_n));
// Hash: public key
stellar_hashupdate_address(node->public_key + 1);
2018-04-06 21:45:32 +00:00
// Hash: fee
stellar_hashupdate_uint32(msg->fee);
// Hash: sequence number
stellar_hashupdate_uint64(msg->sequence_number);
// Timebounds are only present if timebounds_start or timebounds_end is non-zero
uint8_t has_timebounds = (msg->timebounds_start > 0 || msg->timebounds_end > 0);
if (has_timebounds) {
// Hash: the "has timebounds?" boolean
stellar_hashupdate_bool(true);
// Timebounds are sent as uint32s since that's all we can display, but they must be hashed as
// 64-bit values
stellar_hashupdate_uint32(0);
stellar_hashupdate_uint32(msg->timebounds_start);
stellar_hashupdate_uint32(0);
stellar_hashupdate_uint32(msg->timebounds_end);
}
// No timebounds, hash a false boolean
else {
stellar_hashupdate_bool(false);
}
// Hash: memo
stellar_hashupdate_uint32(msg->memo_type);
switch (msg->memo_type) {
// None, nothing else to do
case 0:
break;
// Text: 4 bytes (size) + up to 28 bytes
case 1:
stellar_hashupdate_string((unsigned char*)&(msg->memo_text), strnlen(msg->memo_text, 28));
break;
// ID (8 bytes, uint64)
case 2:
stellar_hashupdate_uint64(msg->memo_id);
break;
// Hash and return are the same data structure (32 byte tx hash)
case 3:
case 4:
stellar_hashupdate_bytes(msg->memo_hash.bytes, msg->memo_hash.size);
break;
default:
break;
}
// Hash: number of operations
stellar_hashupdate_uint32(msg->num_operations);
// Determine what type of network this transaction is for
if (strncmp("Public Global Stellar Network ; September 2015", msg->network_passphrase, 1024) == 0) {
stellar_activeTx.network_type = 1;
}
else if (strncmp("Test SDF Network ; September 2015", msg->network_passphrase, 1024) == 0) {
stellar_activeTx.network_type = 2;
}
else {
stellar_activeTx.network_type = 3;
}
}
void stellar_confirmSourceAccount(bool has_source_account, uint8_t *bytes)
{
if (!has_source_account) {
stellar_hashupdate_bool(false);
return;
}
const char **str_addr_rows = stellar_lineBreakAddress(bytes);
stellar_layoutTransactionDialog(
_("Op src account OK?"),
NULL,
str_addr_rows[0],
str_addr_rows[1],
str_addr_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash: source account
stellar_hashupdate_address(bytes);
}
void stellar_confirmCreateAccountOp(StellarCreateAccountOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(0);
const char **str_addr_rows = stellar_lineBreakAddress(msg->new_account.bytes);
// Amount being funded
char str_amount_line[32];
char str_amount[32];
stellar_format_stroops(msg->starting_balance, str_amount, sizeof(str_amount));
strlcpy(str_amount_line, _("With "), sizeof(str_amount_line));
strlcat(str_amount_line, str_amount, sizeof(str_amount_line));
strlcat(str_amount_line, _(" XLM"), sizeof(str_amount_line));
stellar_layoutTransactionDialog(
_("Create account: "),
str_addr_rows[0],
str_addr_rows[1],
str_addr_rows[2],
str_amount_line
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash: address
stellar_hashupdate_address(msg->new_account.bytes);
// Hash: starting amount
stellar_hashupdate_uint64(msg->starting_balance);
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmPaymentOp(StellarPaymentOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(1);
const char **str_addr_rows = stellar_lineBreakAddress(msg->destination_account.bytes);
// To: G...
char str_to[32];
strlcpy(str_to, _("To: "), sizeof(str_to));
strlcat(str_to, str_addr_rows[0], sizeof(str_to));
char str_asset_row[32];
memset(str_asset_row, 0, sizeof(str_asset_row));
stellar_format_asset(&(msg->asset), str_asset_row, sizeof(str_asset_row));
char str_pay_amount[32];
char str_amount[32];
stellar_format_stroops(msg->amount, str_amount, sizeof(str_amount));
strlcpy(str_pay_amount, _("Pay "), sizeof(str_pay_amount));
strlcat(str_pay_amount, str_amount, sizeof(str_pay_amount));
stellar_layoutTransactionDialog(
str_pay_amount,
str_asset_row,
str_to,
str_addr_rows[1],
str_addr_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash destination
stellar_hashupdate_address(msg->destination_account.bytes);
// asset
stellar_hashupdate_asset(&(msg->asset));
// amount (even though amount is signed it doesn't matter for hashing)
stellar_hashupdate_uint64(msg->amount);
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmPathPaymentOp(StellarPathPaymentOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(2);
const char **str_dest_rows = stellar_lineBreakAddress(msg->destination_account.bytes);
// To: G...
char str_to[32];
strlcpy(str_to, _("To: "), sizeof(str_to));
strlcat(str_to, str_dest_rows[0], sizeof(str_to));
char str_send_asset[32];
char str_dest_asset[32];
stellar_format_asset(&(msg->send_asset), str_send_asset, sizeof(str_send_asset));
stellar_format_asset(&(msg->destination_asset), str_dest_asset, sizeof(str_dest_asset));
char str_pay_amount[32];
char str_amount[32];
stellar_format_stroops(msg->destination_amount, str_amount, sizeof(str_amount));
strlcpy(str_pay_amount, _("Path Pay "), sizeof(str_pay_amount));
strlcat(str_pay_amount, str_amount, sizeof(str_pay_amount));
// Confirm what the receiver will get
/*
Path Pay 100
JPY (G1234ABCDEF)
To: G....
....
....
*/
stellar_layoutTransactionDialog(
str_pay_amount,
str_dest_asset,
str_to,
str_dest_rows[1],
str_dest_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Confirm what the sender is using to pay
char str_source_amount[32];
char str_source_number[32];
stellar_format_stroops(msg->send_max, str_source_number, sizeof(str_source_number));
strlcpy(str_source_amount, _("Pay Using "), sizeof(str_source_amount));
strlcat(str_source_amount, str_source_number, sizeof(str_source_amount));
stellar_layoutTransactionDialog(
str_source_amount,
str_send_asset,
NULL,
_("This is the amount debited"),
_("from your account.")
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Note: no confirmation for intermediate steps since they don't impact the user
// Hash send asset
stellar_hashupdate_asset(&(msg->send_asset));
// send max (signed vs. unsigned doesn't matter wrt hashing)
stellar_hashupdate_uint64(msg->send_max);
// destination account
stellar_hashupdate_address(msg->destination_account.bytes);
// destination asset
stellar_hashupdate_asset(&(msg->destination_asset));
// destination amount
stellar_hashupdate_uint64(msg->destination_amount);
// paths are stored as an array so hash the number of elements as a uint32
stellar_hashupdate_uint32(msg->paths_count);
for (uint8_t i=0; i < msg->paths_count; i++) {
stellar_hashupdate_asset(&(msg->paths[i]));
}
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmManageOfferOp(StellarManageOfferOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(3);
// New Offer / Delete #123 / Update #123
char str_offer[32];
if (msg->offer_id == 0) {
strlcpy(str_offer, _("New Offer"), sizeof(str_offer));
}
else {
char str_offer_id[20];
stellar_format_uint64(msg->offer_id, str_offer_id, sizeof(str_offer_id));
if (msg->amount == 0) {
strlcpy(str_offer, _("Delete #"), sizeof(str_offer));
}
else {
strlcpy(str_offer, _("Update #"), sizeof(str_offer));
}
strlcat(str_offer, str_offer_id, sizeof(str_offer));
}
char str_selling[32];
char str_sell_amount[32];
char str_selling_asset[32];
stellar_format_asset(&(msg->selling_asset), str_selling_asset, sizeof(str_selling_asset));
stellar_format_stroops(msg->amount, str_sell_amount, sizeof(str_sell_amount));
/*
Sell 200
XLM (Native Asset)
*/
strlcpy(str_selling, _("Sell "), sizeof(str_selling));
strlcat(str_selling, str_sell_amount, sizeof(str_selling));
char str_buying[32];
char str_buying_asset[32];
char str_price[17];
stellar_format_asset(&(msg->buying_asset), str_buying_asset, sizeof(str_buying_asset));
stellar_format_price(msg->price_n, msg->price_d, str_price, sizeof(str_price));
/*
For 0.675952 Per
USD (G12345678)
*/
strlcpy(str_buying, _("For "), sizeof(str_buying));
strlcat(str_buying, str_price, sizeof(str_buying));
strlcat(str_buying, _(" Per"), sizeof(str_buying));
stellar_layoutTransactionDialog(
str_offer,
str_selling,
str_selling_asset,
str_buying,
str_buying_asset
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash selling asset
stellar_hashupdate_asset(&(msg->selling_asset));
// buying asset
stellar_hashupdate_asset(&(msg->buying_asset));
// amount to sell (signed vs. unsigned doesn't matter wrt hashing)
stellar_hashupdate_uint64(msg->amount);
// numerator
stellar_hashupdate_uint32(msg->price_n);
// denominator
stellar_hashupdate_uint32(msg->price_d);
// offer ID
stellar_hashupdate_uint64(msg->offer_id);
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmCreatePassiveOfferOp(StellarCreatePassiveOfferOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(4);
// New Offer / Delete #123 / Update #123
char str_offer[32];
if (msg->amount == 0) {
strlcpy(str_offer, _("Delete Passive Offer"), sizeof(str_offer));
}
else {
strlcpy(str_offer, _("New Passive Offer"), sizeof(str_offer));
}
char str_selling[32];
char str_sell_amount[32];
char str_selling_asset[32];
stellar_format_asset(&(msg->selling_asset), str_selling_asset, sizeof(str_selling_asset));
stellar_format_stroops(msg->amount, str_sell_amount, sizeof(str_sell_amount));
/*
Sell 200
XLM (Native Asset)
*/
strlcpy(str_selling, _("Sell "), sizeof(str_selling));
strlcat(str_selling, str_sell_amount, sizeof(str_selling));
char str_buying[32];
char str_buying_asset[32];
char str_price[17];
stellar_format_asset(&(msg->buying_asset), str_buying_asset, sizeof(str_buying_asset));
stellar_format_price(msg->price_n, msg->price_d, str_price, sizeof(str_price));
/*
For 0.675952 Per
USD (G12345678)
*/
strlcpy(str_buying, _("For "), sizeof(str_buying));
strlcat(str_buying, str_price, sizeof(str_buying));
strlcat(str_buying, _(" Per"), sizeof(str_buying));
stellar_layoutTransactionDialog(
str_offer,
str_selling,
str_selling_asset,
str_buying,
str_buying_asset
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash selling asset
stellar_hashupdate_asset(&(msg->selling_asset));
// buying asset
stellar_hashupdate_asset(&(msg->buying_asset));
// amount to sell (signed vs. unsigned doesn't matter wrt hashing)
stellar_hashupdate_uint64(msg->amount);
// numerator
stellar_hashupdate_uint32(msg->price_n);
// denominator
stellar_hashupdate_uint32(msg->price_d);
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmSetOptionsOp(StellarSetOptionsOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(5);
// Something like Set Inflation Destination
char str_title[32];
char rows[4][32];
int row_idx = 0;
memset(rows, 0, sizeof(rows));
// Inflation destination
stellar_hashupdate_bool(msg->has_inflation_destination_account);
if (msg->has_inflation_destination_account) {
strlcpy(str_title, _("Set Inflation Destination"), sizeof(str_title));
const char **str_addr_rows = stellar_lineBreakAddress(msg->inflation_destination_account.bytes);
stellar_layoutTransactionDialog(
str_title,
NULL,
str_addr_rows[0],
str_addr_rows[1],
str_addr_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// address
stellar_hashupdate_address(msg->inflation_destination_account.bytes);
}
// Clear flags
stellar_hashupdate_bool(msg->has_clear_flags);
if (msg->has_clear_flags) {
strlcpy(str_title, _("Clear Flag(s)"), sizeof(str_title));
// Auth required
if (msg->clear_flags & 0x01) {
strlcpy(rows[row_idx], _("AUTH_REQUIRED"), sizeof(rows[row_idx]));
row_idx++;
}
// Auth revocable
if (msg->clear_flags & 0x02) {
strlcpy(rows[row_idx], _("AUTH_REVOCABLE"), sizeof(rows[row_idx]));
row_idx++;
}
stellar_layoutTransactionDialog(
str_title,
rows[0],
rows[1],
rows[2],
rows[3]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
memset(rows, 0, sizeof(rows));
row_idx = 0;
// Hash flags
stellar_hashupdate_uint32(msg->clear_flags);
}
// Set flags
stellar_hashupdate_bool(msg->has_set_flags);
if (msg->has_set_flags) {
strlcpy(str_title, _("Set Flag(s)"), sizeof(str_title));
// Auth required
if (msg->set_flags & 0x01) {
strlcpy(rows[row_idx], _("AUTH_REQUIRED"), sizeof(rows[row_idx]));
row_idx++;
}
// Auth revocable
if (msg->set_flags & 0x02) {
strlcpy(rows[row_idx], _("AUTH_REVOCABLE"), sizeof(rows[row_idx]));
row_idx++;
}
stellar_layoutTransactionDialog(
str_title,
rows[0],
rows[1],
rows[2],
rows[3]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
memset(rows, 0, sizeof(rows));
row_idx = 0;
// Hash flags
stellar_hashupdate_uint32(msg->set_flags);
}
// Account thresholds
bool show_thresholds_confirm = false;
row_idx = 0;
stellar_hashupdate_bool(msg->has_master_weight);
if (msg->has_master_weight) {
char str_master_weight[10+1];
show_thresholds_confirm = true;
stellar_format_uint32(msg->master_weight, str_master_weight, sizeof(str_master_weight));
strlcpy(rows[row_idx], _("Master Weight: "), sizeof(rows[row_idx]));
strlcat(rows[row_idx], str_master_weight, sizeof(rows[row_idx]));
row_idx++;
// Hash master weight
stellar_hashupdate_uint32(msg->master_weight);
}
stellar_hashupdate_bool(msg->has_low_threshold);
if (msg->has_low_threshold) {
char str_low_threshold[10+1];
show_thresholds_confirm = true;
stellar_format_uint32(msg->low_threshold, str_low_threshold, sizeof(str_low_threshold));
strlcpy(rows[row_idx], _("Low: "), sizeof(rows[row_idx]));
strlcat(rows[row_idx], str_low_threshold, sizeof(rows[row_idx]));
row_idx++;
// Hash low threshold
stellar_hashupdate_uint32(msg->low_threshold);
}
stellar_hashupdate_bool(msg->has_medium_threshold);
if (msg->has_medium_threshold) {
char str_med_threshold[10+1];
show_thresholds_confirm = true;
stellar_format_uint32(msg->medium_threshold, str_med_threshold, sizeof(str_med_threshold));
strlcpy(rows[row_idx], _("Medium: "), sizeof(rows[row_idx]));
strlcat(rows[row_idx], str_med_threshold, sizeof(rows[row_idx]));
row_idx++;
// Hash medium threshold
stellar_hashupdate_uint32(msg->medium_threshold);
}
stellar_hashupdate_bool(msg->has_high_threshold);
if (msg->has_high_threshold) {
char str_high_threshold[10+1];
show_thresholds_confirm = true;
stellar_format_uint32(msg->high_threshold, str_high_threshold, sizeof(str_high_threshold));
strlcpy(rows[row_idx], _("High: "), sizeof(rows[row_idx]));
strlcat(rows[row_idx], str_high_threshold, sizeof(rows[row_idx]));
row_idx++;
// Hash high threshold
stellar_hashupdate_uint32(msg->high_threshold);
}
if (show_thresholds_confirm) {
strlcpy(str_title, _("Account Thresholds"), sizeof(str_title));
stellar_layoutTransactionDialog(
str_title,
rows[0],
rows[1],
rows[2],
rows[3]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
memset(rows, 0, sizeof(rows));
row_idx = 0;
}
// Home domain
stellar_hashupdate_bool(msg->has_home_domain);
if (msg->has_home_domain) {
strlcpy(str_title, _("Home Domain"), sizeof(str_title));
// Split home domain if longer than 22 characters
int home_domain_len = strnlen(msg->home_domain, 32);
if (home_domain_len > 22) {
strlcpy(rows[0], msg->home_domain, 22);
strlcpy(rows[1], msg->home_domain + 21, sizeof(rows[1]));
}
else {
strlcpy(rows[0], msg->home_domain, sizeof(rows[0]));
}
stellar_layoutTransactionDialog(
str_title,
rows[0],
rows[1],
NULL,
NULL
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
memset(rows, 0, sizeof(rows));
row_idx = 0;
stellar_hashupdate_string((unsigned char*)&(msg->home_domain), strnlen(msg->home_domain, 32));
}
// Signer
stellar_hashupdate_bool(msg->has_signer_type);
if (msg->has_signer_type) {
if (msg->signer_weight > 0) {
strlcpy(str_title, _("Add Signer: "), sizeof(str_title));
}
else {
strlcpy(str_title, _("REMOVE Signer: "), sizeof(str_title));
}
// Format weight as a string
char str_weight[16];
stellar_format_uint32(msg->signer_weight, str_weight, sizeof(str_weight));
char str_weight_row[32];
strlcpy(str_weight_row, _("Weight: "), sizeof(str_weight_row));
strlcat(str_weight_row, str_weight, sizeof(str_weight_row));
// 0 = account, 1 = pre-auth, 2 = hash(x)
char str_signer_type[16];
bool needs_hash_confirm = false;
if (msg->signer_type == 0) {
strlcpy(str_signer_type, _("account"), sizeof(str_signer_type));
strlcat(str_title, str_signer_type, sizeof(str_title));
const char **str_addr_rows = stellar_lineBreakAddress(msg->signer_key.bytes);
stellar_layoutTransactionDialog(
str_title,
str_weight_row,
str_addr_rows[0],
str_addr_rows[1],
str_addr_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
}
if (msg->signer_type == 1) {
needs_hash_confirm = true;
strlcpy(str_signer_type, _("pre-auth hash"), sizeof(str_signer_type));
strlcat(str_title, str_signer_type, sizeof(str_title));
stellar_layoutTransactionDialog(
str_title,
str_weight_row,
NULL,
_("(confirm hash on next"),
_("screen)")
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
}
if (msg->signer_type == 2) {
needs_hash_confirm = true;
strlcpy(str_signer_type, _("hash(x)"), sizeof(str_signer_type));
strlcat(str_title, str_signer_type, sizeof(str_title));
stellar_layoutTransactionDialog(
str_title,
str_weight_row,
NULL,
_("(confirm hash on next"),
_("screen)")
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
}
// Extra confirmation step for hash signers
if (needs_hash_confirm) {
data2hex(msg->signer_key.bytes + 0, 8, rows[row_idx++]);
data2hex(msg->signer_key.bytes + 8, 8, rows[row_idx++]);
data2hex(msg->signer_key.bytes + 16, 8, rows[row_idx++]);
data2hex(msg->signer_key.bytes + 24, 8, rows[row_idx++]);
stellar_layoutTransactionDialog(
_("Confirm Hash"),
rows[0],
rows[1],
rows[2],
rows[3]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
memset(rows, 0, sizeof(rows));
row_idx = 0;
}
// Hash: signer type
stellar_hashupdate_uint32(msg->signer_type);
// key
stellar_hashupdate_bytes(msg->signer_key.bytes, msg->signer_key.size);
// weight
stellar_hashupdate_uint32(msg->signer_weight);
}
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmChangeTrustOp(StellarChangeTrustOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(6);
// Add Trust: USD
char str_title[32];
if (msg->limit == 0) {
strlcpy(str_title, _("DELETE Trust: "), sizeof(str_title));
}
else {
strlcpy(str_title, _("Add Trust: "), sizeof(str_title));
}
strlcat(str_title, msg->asset.code, sizeof(str_title));
// Amount: MAX (or a number)
char str_amount_row[32];
strlcpy(str_amount_row, _("Amount: "), sizeof(str_amount_row));
if (msg->limit == 9223372036854775807) {
strlcat(str_amount_row, _("[Maximum]"), sizeof(str_amount_row));
}
else {
char str_amount[32];
stellar_format_stroops(msg->limit, str_amount, sizeof(str_amount));
strlcat(str_amount_row, str_amount, sizeof(str_amount_row));
}
// Display full issuer address
const char **str_addr_rows = stellar_lineBreakAddress(msg->asset.issuer.bytes);
stellar_layoutTransactionDialog(
str_title,
str_amount_row,
str_addr_rows[0],
str_addr_rows[1],
str_addr_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash: asset
stellar_hashupdate_asset(&(msg->asset));
// limit
stellar_hashupdate_uint64(msg->limit);
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmAllowTrustOp(StellarAllowTrustOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(7);
// Add Trust: USD
char str_title[32];
if (msg->is_authorized) {
strlcpy(str_title, _("Allow Trust of"), sizeof(str_title));
}
else {
strlcpy(str_title, _("REVOKE Trust of"), sizeof(str_title));
}
// Asset code
char str_asset_row[32];
strlcpy(str_asset_row, msg->asset_code, sizeof(str_asset_row));
const char **str_trustor_rows = stellar_lineBreakAddress(msg->trusted_account.bytes);
// By: G...
char str_by[32];
strlcpy(str_by, _("By: "), sizeof(str_by));
strlcat(str_by, str_trustor_rows[0], sizeof(str_by));
stellar_layoutTransactionDialog(
str_title,
str_asset_row,
str_by,
str_trustor_rows[1],
str_trustor_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash: trustor account (the account being allowed to access the asset)
stellar_hashupdate_address(msg->trusted_account.bytes);
// asset type
stellar_hashupdate_uint32(msg->asset_type);
// asset code
if (msg->asset_type == 1) {
char code4[4+1];
memset(code4, 0, sizeof(code4));
strlcpy(code4, msg->asset_code, sizeof(code4));
stellar_hashupdate_bytes((uint8_t *)code4, 4);
}
if (msg->asset_type == 2) {
char code12[12+1];
memset(code12, 0, sizeof(code12));
strlcpy(code12, msg->asset_code, sizeof(code12));
stellar_hashupdate_bytes((uint8_t *)code12, 12);
}
// is authorized
stellar_hashupdate_bool(msg->is_authorized);
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmAccountMergeOp(StellarAccountMergeOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(8);
const char **str_destination_rows = stellar_lineBreakAddress(msg->destination_account.bytes);
stellar_layoutTransactionDialog(
_("Merge Account"),
_("All XLM will be sent to:"),
str_destination_rows[0],
str_destination_rows[1],
str_destination_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash: destination account
stellar_hashupdate_address(msg->destination_account.bytes);
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmManageDataOp(StellarManageDataOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(10);
char str_title[32];
if (msg->has_value) {
strlcpy(str_title, _("Set data value key:"), sizeof(str_title));
}
else {
strlcpy(str_title, _("CLEAR data value key:"), sizeof(str_title));
}
// Confirm key
const char **str_key_lines = split_message((const uint8_t*)(msg->key), strnlen(msg->key, 64), 16);
stellar_layoutTransactionDialog(
str_title,
str_key_lines[0],
str_key_lines[1],
str_key_lines[2],
str_key_lines[3]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Confirm value by displaying sha256 hash since this can contain non-printable characters
if (msg->has_value) {
strlcpy(str_title, _("Confirm sha256 of value:"), sizeof(str_title));
char str_hash_digest[SHA256_DIGEST_STRING_LENGTH];
sha256_Data(msg->value.bytes, msg->value.size, str_hash_digest);
const char **str_hash_lines = split_message((const uint8_t*)str_hash_digest, sizeof(str_hash_digest), 16);
stellar_layoutTransactionDialog(
str_title,
str_hash_lines[0],
str_hash_lines[1],
str_hash_lines[2],
str_hash_lines[3]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
}
// Hash: key
stellar_hashupdate_string((unsigned char*)&(msg->key), strnlen(msg->key, 64));
// value
if (msg->has_value) {
stellar_hashupdate_bool(true);
// Variable opaque field is length + raw bytes
stellar_hashupdate_uint32(msg->value.size);
stellar_hashupdate_bytes(msg->value.bytes, msg->value.size);
}
else {
stellar_hashupdate_bool(false);
}
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_confirmBumpSequenceOp(StellarBumpSequenceOp *msg)
{
stellar_confirmSourceAccount(msg->has_source_account, msg->source_account.bytes);
// Hash: operation type
stellar_hashupdate_uint32(11);
char str_bump_to[20];
stellar_format_uint64(msg->bump_to, str_bump_to, sizeof(str_bump_to));
stellar_layoutTransactionDialog(
_("Bump Sequence"),
_("Set sequence to:"),
str_bump_to,
NULL,
NULL
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Hash: bump to
stellar_hashupdate_uint64(msg->bump_to);
// At this point, the operation is confirmed
stellar_activeTx.confirmed_operations++;
}
void stellar_signingAbort()
{
stellar_signing = false;
fsm_sendFailure(FailureType_Failure_ActionCancelled, NULL);
layoutHome();
}
/**
* Populates the fields of resp with the signature of the active transaction
*/
void stellar_fillSignedTx(StellarSignedTx *resp)
{
StellarTransaction *activeTx = stellar_getActiveTx();
// Finalize the transaction by hashing 4 null bytes representing a (currently unused) empty union
stellar_hashupdate_uint32(0);
// Add the public key for verification that the right account was used for signing
memcpy(resp->public_key.bytes, &(activeTx->signing_pubkey), 32);
resp->public_key.size = 32;
resp->has_public_key = true;
// Add the signature (note that this does not include the 4-byte hint since it can be calculated from the public key)
uint8_t signature[64];
// Note: this calls sha256_Final on the hash context
stellar_getSignatureForActiveTx(signature);
memcpy(resp->signature.bytes, signature, sizeof(signature));
resp->signature.size = sizeof(signature);
resp->has_signature = true;
}
uint8_t stellar_allOperationsConfirmed()
{
return stellar_activeTx.confirmed_operations == stellar_activeTx.num_operations;
}
StellarTransaction *stellar_getActiveTx()
{
return &stellar_activeTx;
}
/*
* Calculates and sets the signature for the active transaction
*/
void stellar_getSignatureForActiveTx(uint8_t *out_signature)
{
HDNode *node = stellar_deriveNode(stellar_activeTx.address_n, stellar_activeTx.address_n_count);
// Signature is the ed25519 detached signature of the sha256 of all the bytes
// that have been read so far
uint8_t to_sign[32];
sha256_Final(&(stellar_activeTx.sha256_ctx), to_sign);
uint8_t signature[64];
ed25519_sign(to_sign, sizeof(to_sign), node->private_key, node->public_key + 1, signature);
memcpy(out_signature, signature, sizeof(signature));
}
/*
* Returns number (representing stroops) formatted as XLM
* For example, if number has value 1000000000 then it will be returned as "100.0"
*/
void stellar_format_stroops(uint64_t number, char *out, size_t outlen)
{
bn_format_uint64(number, NULL, NULL, 7, 0, false, out, outlen);
}
/*
* Formats a price represented as a uint32 numerator and uint32 denominator
*
* Note that there may be a loss of precision between the real price value and what
* is shown to the user
*
* Smallest possible price is 1 / 4294967296 which is:
* 0.00000000023283064365386962890625
*
* largest possible price is:
* 4294967296
*/
void stellar_format_price(uint32_t numerator, uint32_t denominator, char *out, size_t outlen)
{
memset(out, 0, outlen);
// early exist for invalid denominator
if (denominator == 0) {
strlcpy(out, _("[Invalid Price]"), outlen);
return;
}
int scale = 0;
double dbl_value = (double)numerator / (double)denominator;
// Multiply by 10 until the value is larger than the largest possible offer size
// Largest possible offer size is UINT32_MAX (4294967296)
while (dbl_value < UINT32_MAX) {
dbl_value *= (double)10;
scale++;
}
// Cast back to an integer
uint64_t scaled_value = (uint64_t) dbl_value;
// Format with bn_format_uint64
bn_format_uint64(scaled_value, NULL, NULL, scale, 0, false, out, outlen);
}
/*
* Returns a uint32 formatted as a string
*/
void stellar_format_uint32(uint32_t number, char *out, size_t outlen)
{
bignum256 bn_number;
bn_read_uint32(number, &bn_number);
bn_format(&bn_number, NULL, NULL, 0, 0, false, out, outlen);
}
/*
* Returns a uint64 formatted as a string
*/
void stellar_format_uint64(uint64_t number, char *out, size_t outlen)
{
bn_format_uint64(number, NULL, NULL, 0, 0, false, out, outlen);
}
/*
* Breaks a 56 character address into 3 lines of lengths 16, 20, 20
* This is to allow a small label to be prepended to the first line
*/
const char **stellar_lineBreakAddress(uint8_t *addrbytes)
{
char str_fulladdr[56+1];
static char rows[3][20+1];
memset(rows, 0, sizeof(rows));
// get full address string
stellar_publicAddressAsStr(addrbytes, str_fulladdr, sizeof(str_fulladdr));
// Break it into 3 lines
strlcpy(rows[0], str_fulladdr + 0, 17);
strlcpy(rows[1], str_fulladdr + 16, 21);
strlcpy(rows[2], str_fulladdr + 16 + 20, 21);
static const char *ret[3] = { rows[0], rows[1], rows[2] };
return ret;
}
/*
* Returns the asset formatted to fit in a single row
*
* Examples:
* XLM (Native Asset)
2018-06-05 09:32:47 +00:00
* MOBI (G123456789000)
2018-04-06 21:45:32 +00:00
* ALPHA12EXAMP (G0987)
*/
void stellar_format_asset(StellarAssetType *asset, char *str_formatted, size_t len)
{
char str_asset_code[12 + 1];
// Full asset issuer string
char str_asset_issuer[56+1];
// truncated asset issuer, final length depends on length of asset code
char str_asset_issuer_trunc[13 + 1];
memset(str_formatted, 0, len);
memset(str_asset_code, 0, sizeof(str_asset_code));
memset(str_asset_issuer_trunc, 0, sizeof(str_asset_issuer_trunc));
// Get string representation of address
stellar_publicAddressAsStr(asset->issuer.bytes, str_asset_issuer, sizeof(str_asset_issuer));
// Native asset
if (asset->type == 0) {
strlcpy(str_formatted, _("XLM (native asset)"), len);
}
// 4-character custom
if (asset->type == 1) {
memcpy(str_asset_code, asset->code, 4);
strlcpy(str_formatted, str_asset_code, len);
// Truncate issuer to 13 chars
memcpy(str_asset_issuer_trunc, str_asset_issuer, 13);
}
// 12-character custom
if (asset->type == 2) {
memcpy(str_asset_code, asset->code, 12);
strlcpy(str_formatted, str_asset_code, len);
// Truncate issuer to 5 characters
memcpy(str_asset_issuer_trunc, str_asset_issuer, 5);
}
// Issuer is read the same way for both types of custom assets
if (asset->type == 1 || asset->type == 2) {
strlcat(str_formatted, _(" ("), len);
strlcat(str_formatted, str_asset_issuer_trunc, len);
strlcat(str_formatted, _(")"), len);
}
}
size_t stellar_publicAddressAsStr(uint8_t *bytes, char *out, size_t outlen)
{
// version + key bytes + checksum
uint8_t keylen = 1 + 32 + 2;
uint8_t bytes_full[keylen];
bytes_full[0] = 6 << 3; // 'G'
memcpy(bytes_full + 1, bytes, 32);
// Last two bytes are the checksum
uint16_t checksum = stellar_crc16(bytes_full, 33);
bytes_full[keylen-2] = checksum & 0x00ff;
bytes_full[keylen-1] = (checksum>>8) & 0x00ff;
base32_encode(bytes_full, keylen, out, outlen, BASE32_ALPHABET_RFC4648);
// Public key will always be 56 characters
return 56;
}
/*
* CRC16 implementation compatible with the Stellar version
* Ported from this implementation: http://introcs.cs.princeton.edu/java/61data/CRC16CCITT.java.html
* Initial value changed to 0x0000 to match Stellar
*/
uint16_t stellar_crc16(uint8_t *bytes, uint32_t length)
{
// Calculate checksum for existing bytes
uint16_t crc = 0x0000;
uint16_t polynomial = 0x1021;
uint32_t i;
uint8_t bit;
uint8_t byte;
uint8_t bitidx;
uint8_t c15;
for (i=0; i < length; i++) {
byte = bytes[i];
for (bitidx=0; bitidx < 8; bitidx++) {
bit = ((byte >> (7 - bitidx) & 1) == 1);
c15 = ((crc >> 15 & 1) == 1);
crc <<= 1;
if (c15 ^ bit) crc ^= polynomial;
}
}
return crc & 0xffff;
}
/*
* Derives the HDNode at the given index
* Standard Stellar prefix is m/44'/148'/ and the default account is m/44'/148'/0'
*
* All paths must be hardened
*/
HDNode *stellar_deriveNode(uint32_t *address_n, size_t address_n_count)
{
static CONFIDENTIAL HDNode node;
const char *curve = "ed25519";
// Device not initialized, passphrase request cancelled, or unsupported curve
if (!storage_getRootNode(&node, curve, true)) {
return 0;
}
// Failed to derive private key
if (hdnode_private_ckd_cached(&node, address_n, address_n_count, NULL) == 0) {
return 0;
}
hdnode_fill_public_key(&node);
return &node;
}
void stellar_hashupdate_uint32(uint32_t value)
{
// Ensure uint32 is big endian
#if BYTE_ORDER == LITTLE_ENDIAN
REVERSE32(value, value);
#endif
// Byte values must be hashed as big endian
uint8_t data[4];
data[3] = (value >> 24) & 0xFF;
data[2] = (value >> 16) & 0xFF;
data[1] = (value >> 8) & 0xFF;
data[0] = value & 0xFF;
stellar_hashupdate_bytes(data, sizeof(data));
}
void stellar_hashupdate_uint64(uint64_t value)
{
// Ensure uint64 is big endian
#if BYTE_ORDER == LITTLE_ENDIAN
REVERSE64(value, value);
#endif
// Byte values must be hashed as big endian
uint8_t data[8];
data[7] = (value >> 56) & 0xFF;
data[6] = (value >> 48) & 0xFF;
data[5] = (value >> 40) & 0xFF;
data[4] = (value >> 32) & 0xFF;
data[3] = (value >> 24) & 0xFF;
data[2] = (value >> 16) & 0xFF;
data[1] = (value >> 8) & 0xFF;
data[0] = value & 0xFF;
stellar_hashupdate_bytes(data, sizeof(data));
}
void stellar_hashupdate_bool(bool value)
{
if (value) {
stellar_hashupdate_uint32(1);
}
else {
stellar_hashupdate_uint32(0);
}
}
void stellar_hashupdate_string(uint8_t *data, size_t len)
{
// Hash the length of the string
stellar_hashupdate_uint32((uint32_t)len);
// Hash the raw bytes of the string
stellar_hashupdate_bytes(data, len);
// If len isn't a multiple of 4, add padding bytes
int remainder = len % 4;
uint8_t null_byte[1] = { 0x00 };
if (remainder) {
while (remainder < 4) {
stellar_hashupdate_bytes(null_byte, 1);
remainder++;
}
}
}
void stellar_hashupdate_address(uint8_t *address_bytes)
{
// First 4 bytes of an address are the type. There's only one type (0)
stellar_hashupdate_uint32(0);
// Remaining part of the address is 32 bytes
stellar_hashupdate_bytes(address_bytes, 32);
}
/*
* Note about string handling below: this field is an XDR "opaque" field and not a typical string,
* so if "TEST" is the asset code then the hashed value needs to be 4 bytes and not include the null
* at the end of the string
*/
void stellar_hashupdate_asset(StellarAssetType *asset)
{
stellar_hashupdate_uint32(asset->type);
// 4-character asset code
if (asset->type == 1) {
char code4[4+1];
memset(code4, 0, sizeof(code4));
strlcpy(code4, asset->code, sizeof(code4));
stellar_hashupdate_bytes((uint8_t *)code4, 4);
stellar_hashupdate_address(asset->issuer.bytes);
}
// 12-character asset code
if (asset->type == 2) {
char code12[12+1];
memset(code12, 0, sizeof(code12));
strlcpy(code12, asset->code, sizeof(code12));
stellar_hashupdate_bytes((uint8_t *)code12, 12);
stellar_hashupdate_address(asset->issuer.bytes);
}
}
void stellar_hashupdate_bytes(uint8_t *data, size_t len)
{
sha256_Update(&(stellar_activeTx.sha256_ctx), data, len);
}
/*
* Displays a summary of the overall transaction
*/
void stellar_layoutTransactionSummary(StellarSignTx *msg)
{
char str_lines[5][32];
memset(str_lines, 0, sizeof(str_lines));
char str_fee[12];
char str_num_ops[12];
// Will be set to true for some large hashes that don't fit on one screen
uint8_t needs_memo_hash_confirm = 0;
// Format the fee
stellar_format_stroops(msg->fee, str_fee, sizeof(str_fee));
strlcpy(str_lines[0], _("Fee: "), sizeof(str_lines[0]));
strlcat(str_lines[0], str_fee, sizeof(str_lines[0]));
strlcat(str_lines[0], _(" XLM"), sizeof(str_lines[0]));
// add in numOperations
stellar_format_uint32(msg->num_operations, str_num_ops, sizeof(str_num_ops));
strlcat(str_lines[0], _(" ("), sizeof(str_lines[0]));
strlcat(str_lines[0], str_num_ops, sizeof(str_lines[0]));
if (msg->num_operations == 1) {
strlcat(str_lines[0], _(" op)"), sizeof(str_lines[0]));
} else {
strlcat(str_lines[0], _(" ops)"), sizeof(str_lines[0]));
}
// Display full address being used to sign transaction
const char **str_addr_rows = stellar_lineBreakAddress(stellar_activeTx.signing_pubkey);
stellar_layoutTransactionDialog(
str_lines[0],
_("Signing with:"),
str_addr_rows[0],
str_addr_rows[1],
str_addr_rows[2]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Reset lines for displaying memo
memset(str_lines, 0, sizeof(str_lines));
// Memo: none
if (msg->memo_type == 0) {
strlcpy(str_lines[0], _("[No Memo Set]"), sizeof(str_lines[0]));
strlcpy(str_lines[1], _("Important:"), sizeof(str_lines[0]));
strlcpy(str_lines[2], _("Many exchanges require"), sizeof(str_lines[0]));
strlcpy(str_lines[3], _("a memo when depositing."), sizeof(str_lines[0]));
}
// Memo: text
if (msg->memo_type == 1) {
strlcpy(str_lines[0], _("Memo (TEXT)"), sizeof(str_lines[0]));
// Split 28-character string into two lines of 19 / 9
// todo: word wrap method?
strlcpy(str_lines[1], (const char*)msg->memo_text, 19 + 1);
strlcpy(str_lines[2], (const char*)(msg->memo_text + 19), 9 + 1);
}
// Memo: ID
if (msg->memo_type == 2) {
strlcpy(str_lines[0], _("Memo (ID)"), sizeof(str_lines[0]));
stellar_format_uint64(msg->memo_id, str_lines[1], sizeof(str_lines[1]));
}
// Memo: hash
if (msg->memo_type == 3) {
needs_memo_hash_confirm = 1;
strlcpy(str_lines[0], _("Memo (HASH)"), sizeof(str_lines[0]));
}
// Memo: return
if (msg->memo_type == 4) {
needs_memo_hash_confirm = 1;
strlcpy(str_lines[0], _("Memo (RETURN)"), sizeof(str_lines[0]));
}
if (needs_memo_hash_confirm) {
data2hex(msg->memo_hash.bytes + 0, 8, str_lines[1]);
data2hex(msg->memo_hash.bytes + 8, 8, str_lines[2]);
data2hex(msg->memo_hash.bytes + 16, 8, str_lines[3]);
data2hex(msg->memo_hash.bytes + 24, 8, str_lines[4]);
}
stellar_layoutTransactionDialog(
str_lines[0],
str_lines[1],
str_lines[2],
str_lines[3],
str_lines[4]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
// Verify timebounds, if present
memset(str_lines, 0, sizeof(str_lines));
// Timebound: lower
if (msg->timebounds_start || msg->timebounds_end) {
time_t timebound;
char str_timebound[32];
const struct tm *tm;
timebound = (time_t)msg->timebounds_start;
strlcpy(str_lines[0], _("Valid from:"), sizeof(str_lines[0]));
if (timebound) {
tm = gmtime(&timebound);
strftime(str_timebound, sizeof(str_timebound), "%F %T (UTC)", tm);
strlcpy(str_lines[1], str_timebound, sizeof(str_lines[1]));
}
else {
strlcpy(str_lines[1], _("[no restriction]"), sizeof(str_lines[1]));
}
// Reset for timebound_max
memset(str_timebound, 0, sizeof(str_timebound));
timebound = (time_t)msg->timebounds_end;
strlcpy(str_lines[0], _("Valid from:"), sizeof(str_lines[0]));
if (timebound) {
tm = gmtime(&timebound);
strftime(str_timebound, sizeof(str_timebound), "%F %T (UTC)", tm);
strlcpy(str_lines[1], str_timebound, sizeof(str_lines[1]));
}
else {
strlcpy(str_lines[1], _("[no restriction]"), sizeof(str_lines[1]));
}
}
if (msg->timebounds_start || msg->timebounds_end) {
stellar_layoutTransactionDialog(
_("Confirm Time Bounds"),
str_lines[0],
str_lines[1],
str_lines[2],
str_lines[3]
);
if (!protectButton(ButtonRequestType_ButtonRequest_ProtectCall, false)) {
stellar_signingAbort();
return;
}
}
}
/*
* Most basic dialog used for signing
* - Header indicating which key is being used for signing
* - 5 rows for content
* - Cancel / Next buttons
* - Warning message can appear between cancel/next buttons
*/
void stellar_layoutSigningDialog(const char *line1, const char *line2, const char *line3, const char *line4, const char *line5, uint32_t *address_n, size_t address_n_count, const char *warning, bool is_final_step)
{
// Start with some initial padding and use these to track position as rendering moves down the screen
int offset_x = 1;
int offset_y = 1;
int line_height = 9;
HDNode *node = stellar_deriveNode(address_n, address_n_count);
if (!node) {
// TODO: bail on error
return;
}
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char str_pubaddr_truncated[12]; // G???? + null
memset(str_pubaddr_truncated, 0, sizeof(str_pubaddr_truncated));
layoutLast = layoutDialogSwipe;
layoutSwipe();
oledClear();
// Load up public address
char str_pubaddr[56+1];
memset(str_pubaddr, 0, sizeof(str_pubaddr));
stellar_publicAddressAsStr(node->public_key + 1, str_pubaddr, sizeof(str_pubaddr));
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memcpy(str_pubaddr_truncated, str_pubaddr, sizeof(str_pubaddr_truncated) - 1);
// Header
// Ends up as: Signing with GABCDEFGHIJKL
char str_header[32];
memset(str_header, 0, sizeof(str_header));
strlcpy(str_header, _("Signing with "), sizeof(str_header));
strlcat(str_header, str_pubaddr_truncated, sizeof(str_header));
oledDrawString(offset_x, offset_y, str_header, FONT_STANDARD);
offset_y += line_height;
// Invert color on header
oledInvert(0, 0, OLED_WIDTH, offset_y - 2);
// Dialog contents begin
if (line1) {
oledDrawString(offset_x, offset_y, line1, FONT_STANDARD);
}
offset_y += line_height;
if (line2) {
oledDrawString(offset_x, offset_y, line2, FONT_STANDARD);
}
offset_y += line_height;
if (line3) {
oledDrawString(offset_x, offset_y, line3, FONT_STANDARD);
}
offset_y += line_height;
if (line4) {
oledDrawString(offset_x, offset_y, line4, FONT_STANDARD);
}
offset_y += line_height;
if (line5) {
oledDrawString(offset_x, offset_y, line5, FONT_STANDARD);
}
offset_y += line_height;
// Cancel button
oledDrawString(1, OLED_HEIGHT - 8, "\x15", FONT_STANDARD);
oledDrawString(fontCharWidth(FONT_STANDARD, '\x15') + 3, OLED_HEIGHT - 8, "Cancel", FONT_STANDARD);
oledInvert(0, OLED_HEIGHT - 9, fontCharWidth(FONT_STANDARD, '\x15') + oledStringWidth("Cancel", FONT_STANDARD) + 2, OLED_HEIGHT - 1);
// Warnings (drawn centered between the buttons
if (warning) {
oledDrawStringCenter(OLED_HEIGHT - 8, warning, FONT_STANDARD);
}
// Next / sign button
char str_next_label[8];
if (is_final_step) {
strlcpy(str_next_label, _("SIGN"), sizeof(str_next_label));
}
else {
strlcpy(str_next_label, _("Next"), sizeof(str_next_label));
}
oledDrawString(OLED_WIDTH - fontCharWidth(FONT_STANDARD, '\x06') - 1, OLED_HEIGHT - 8, "\x06", FONT_STANDARD);
oledDrawString(OLED_WIDTH - oledStringWidth(str_next_label, FONT_STANDARD) - fontCharWidth(FONT_STANDARD, '\x06') - 3, OLED_HEIGHT - 8, str_next_label, FONT_STANDARD);
oledInvert(OLED_WIDTH - oledStringWidth(str_next_label, FONT_STANDARD) - fontCharWidth(FONT_STANDARD, '\x06') - 4, OLED_HEIGHT - 9, OLED_WIDTH - 1, OLED_HEIGHT - 1);
oledRefresh();
}
/*
* Main dialog helper method. Allows displaying 5 lines.
* A title showing the account being used to sign is always displayed.
*/
void stellar_layoutTransactionDialog(const char *line1, const char *line2, const char *line3, const char *line4, const char *line5)
{
char str_warning[16];
memset(str_warning, 0, sizeof(str_warning));
if (stellar_activeTx.network_type == 2) {
// Warning: testnet
strlcpy(str_warning, _("WRN:TN"), sizeof(str_warning));
}
if (stellar_activeTx.network_type == 3) {
// Warning: private network
strlcpy(str_warning, _("WRN:PN"), sizeof(str_warning));
}
stellar_layoutSigningDialog(
line1,
line2,
line3,
line4,
line5,
stellar_activeTx.address_n,
stellar_activeTx.address_n_count,
str_warning,
false
);
}