lbrycrd/src/qt/paymentserver.cpp

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// Copyright (c) 2011-2016 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include "paymentserver.h"
#include "bitcoinunits.h"
#include "guiutil.h"
#include "optionsmodel.h"
#include "base58.h"
#include "chainparams.h"
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#include "policy/policy.h"
#include "ui_interface.h"
#include "util.h"
#include "wallet/wallet.h"
#include <cstdlib>
#include <openssl/x509_vfy.h>
#include <QApplication>
#include <QByteArray>
#include <QDataStream>
#include <QDateTime>
#include <QDebug>
#include <QFile>
#include <QFileOpenEvent>
#include <QHash>
#include <QList>
#include <QLocalServer>
#include <QLocalSocket>
#include <QNetworkAccessManager>
#include <QNetworkProxy>
#include <QNetworkReply>
#include <QNetworkRequest>
#include <QSslCertificate>
#include <QSslError>
#include <QSslSocket>
#include <QStringList>
#include <QTextDocument>
#if QT_VERSION < 0x050000
#include <QUrl>
#else
#include <QUrlQuery>
#endif
const int BITCOIN_IPC_CONNECT_TIMEOUT = 1000; // milliseconds
const QString BITCOIN_IPC_PREFIX("bitcoin:");
// BIP70 payment protocol messages
const char* BIP70_MESSAGE_PAYMENTACK = "PaymentACK";
const char* BIP70_MESSAGE_PAYMENTREQUEST = "PaymentRequest";
// BIP71 payment protocol media types
const char* BIP71_MIMETYPE_PAYMENT = "application/bitcoin-payment";
const char* BIP71_MIMETYPE_PAYMENTACK = "application/bitcoin-paymentack";
const char* BIP71_MIMETYPE_PAYMENTREQUEST = "application/bitcoin-paymentrequest";
struct X509StoreDeleter {
void operator()(X509_STORE* b) {
X509_STORE_free(b);
}
};
struct X509Deleter {
void operator()(X509* b) { X509_free(b); }
};
namespace // Anon namespace
{
std::unique_ptr<X509_STORE, X509StoreDeleter> certStore;
}
//
// Create a name that is unique for:
// testnet / non-testnet
// data directory
//
static QString ipcServerName()
{
QString name("BitcoinQt");
// Append a simple hash of the datadir
// Note that GetDataDir(true) returns a different path
// for -testnet versus main net
QString ddir(GUIUtil::boostPathToQString(GetDataDir(true)));
name.append(QString::number(qHash(ddir)));
return name;
}
//
// We store payment URIs and requests received before
// the main GUI window is up and ready to ask the user
// to send payment.
static QList<QString> savedPaymentRequests;
static void ReportInvalidCertificate(const QSslCertificate& cert)
{
#if QT_VERSION < 0x050000
qDebug() << QString("%1: Payment server found an invalid certificate: ").arg(__func__) << cert.serialNumber() << cert.subjectInfo(QSslCertificate::CommonName) << cert.subjectInfo(QSslCertificate::OrganizationalUnitName);
#else
qDebug() << QString("%1: Payment server found an invalid certificate: ").arg(__func__) << cert.serialNumber() << cert.subjectInfo(QSslCertificate::CommonName) << cert.subjectInfo(QSslCertificate::DistinguishedNameQualifier) << cert.subjectInfo(QSslCertificate::OrganizationalUnitName);
#endif
}
//
// Load OpenSSL's list of root certificate authorities
//
void PaymentServer::LoadRootCAs(X509_STORE* _store)
{
// Unit tests mostly use this, to pass in fake root CAs:
if (_store)
{
certStore.reset(_store);
return;
}
// Normal execution, use either -rootcertificates or system certs:
certStore.reset(X509_STORE_new());
// Note: use "-system-" default here so that users can pass -rootcertificates=""
// and get 'I don't like X.509 certificates, don't trust anybody' behavior:
QString certFile = QString::fromStdString(GetArg("-rootcertificates", "-system-"));
// Empty store
if (certFile.isEmpty()) {
qDebug() << QString("PaymentServer::%1: Payment request authentication via X.509 certificates disabled.").arg(__func__);
return;
}
QList<QSslCertificate> certList;
if (certFile != "-system-") {
qDebug() << QString("PaymentServer::%1: Using \"%2\" as trusted root certificate.").arg(__func__).arg(certFile);
certList = QSslCertificate::fromPath(certFile);
// Use those certificates when fetching payment requests, too:
QSslSocket::setDefaultCaCertificates(certList);
} else
certList = QSslSocket::systemCaCertificates();
int nRootCerts = 0;
const QDateTime currentTime = QDateTime::currentDateTime();
for (const QSslCertificate& cert : certList) {
// Don't log NULL certificates
if (cert.isNull())
continue;
// Not yet active/valid, or expired certificate
if (currentTime < cert.effectiveDate() || currentTime > cert.expiryDate()) {
ReportInvalidCertificate(cert);
continue;
}
#if QT_VERSION >= 0x050000
// Blacklisted certificate
if (cert.isBlacklisted()) {
ReportInvalidCertificate(cert);
continue;
}
#endif
QByteArray certData = cert.toDer();
const unsigned char *data = (const unsigned char *)certData.data();
std::unique_ptr<X509, X509Deleter> x509(d2i_X509(0, &data, certData.size()));
if (x509 && X509_STORE_add_cert(certStore.get(), x509.get()))
{
// Note: X509_STORE increases the reference count to the X509 object,
// we still have to release our reference to it.
++nRootCerts;
}
else
{
ReportInvalidCertificate(cert);
continue;
}
}
qWarning() << "PaymentServer::LoadRootCAs: Loaded " << nRootCerts << " root certificates";
// Project for another day:
// Fetch certificate revocation lists, and add them to certStore.
// Issues to consider:
// performance (start a thread to fetch in background?)
// privacy (fetch through tor/proxy so IP address isn't revealed)
// would it be easier to just use a compiled-in blacklist?
// or use Qt's blacklist?
// "certificate stapling" with server-side caching is more efficient
}
//
// Sending to the server is done synchronously, at startup.
// If the server isn't already running, startup continues,
// and the items in savedPaymentRequest will be handled
// when uiReady() is called.
//
// Warning: ipcSendCommandLine() is called early in init,
// so don't use "Q_EMIT message()", but "QMessageBox::"!
//
void PaymentServer::ipcParseCommandLine(int argc, char* argv[])
{
for (int i = 1; i < argc; i++)
{
QString arg(argv[i]);
if (arg.startsWith("-"))
continue;
// If the bitcoin: URI contains a payment request, we are not able to detect the
// network as that would require fetching and parsing the payment request.
// That means clicking such an URI which contains a testnet payment request
// will start a mainnet instance and throw a "wrong network" error.
if (arg.startsWith(BITCOIN_IPC_PREFIX, Qt::CaseInsensitive)) // bitcoin: URI
{
savedPaymentRequests.append(arg);
SendCoinsRecipient r;
if (GUIUtil::parseBitcoinURI(arg, &r) && !r.address.isEmpty())
{
CBitcoinAddress address(r.address.toStdString());
auto tempChainParams = CreateChainParams(CBaseChainParams::MAIN);
if (address.IsValid(*tempChainParams))
{
SelectParams(CBaseChainParams::MAIN);
}
else {
tempChainParams = CreateChainParams(CBaseChainParams::TESTNET);
if (address.IsValid(*tempChainParams))
SelectParams(CBaseChainParams::TESTNET);
}
}
}
else if (QFile::exists(arg)) // Filename
{
savedPaymentRequests.append(arg);
PaymentRequestPlus request;
if (readPaymentRequestFromFile(arg, request))
{
if (request.getDetails().network() == "main")
{
SelectParams(CBaseChainParams::MAIN);
}
else if (request.getDetails().network() == "test")
{
SelectParams(CBaseChainParams::TESTNET);
}
}
}
else
{
// Printing to debug.log is about the best we can do here, the
// GUI hasn't started yet so we can't pop up a message box.
qWarning() << "PaymentServer::ipcSendCommandLine: Payment request file does not exist: " << arg;
}
}
}
//
// Sending to the server is done synchronously, at startup.
// If the server isn't already running, startup continues,
// and the items in savedPaymentRequest will be handled
// when uiReady() is called.
//
bool PaymentServer::ipcSendCommandLine()
{
bool fResult = false;
for (const QString& r : savedPaymentRequests)
{
QLocalSocket* socket = new QLocalSocket();
socket->connectToServer(ipcServerName(), QIODevice::WriteOnly);
if (!socket->waitForConnected(BITCOIN_IPC_CONNECT_TIMEOUT))
{
delete socket;
socket = NULL;
return false;
}
QByteArray block;
QDataStream out(&block, QIODevice::WriteOnly);
out.setVersion(QDataStream::Qt_4_0);
out << r;
out.device()->seek(0);
socket->write(block);
socket->flush();
socket->waitForBytesWritten(BITCOIN_IPC_CONNECT_TIMEOUT);
socket->disconnectFromServer();
delete socket;
socket = NULL;
fResult = true;
}
return fResult;
}
PaymentServer::PaymentServer(QObject* parent, bool startLocalServer) :
QObject(parent),
saveURIs(true),
uriServer(0),
netManager(0),
optionsModel(0)
{
// Verify that the version of the library that we linked against is
// compatible with the version of the headers we compiled against.
GOOGLE_PROTOBUF_VERIFY_VERSION;
// Install global event filter to catch QFileOpenEvents
// on Mac: sent when you click bitcoin: links
// other OSes: helpful when dealing with payment request files
if (parent)
parent->installEventFilter(this);
QString name = ipcServerName();
// Clean up old socket leftover from a crash:
QLocalServer::removeServer(name);
if (startLocalServer)
{
uriServer = new QLocalServer(this);
if (!uriServer->listen(name)) {
// constructor is called early in init, so don't use "Q_EMIT message()" here
QMessageBox::critical(0, tr("Payment request error"),
tr("Cannot start bitcoin: click-to-pay handler"));
}
else {
connect(uriServer, SIGNAL(newConnection()), this, SLOT(handleURIConnection()));
connect(this, SIGNAL(receivedPaymentACK(QString)), this, SLOT(handlePaymentACK(QString)));
}
}
}
PaymentServer::~PaymentServer()
{
google::protobuf::ShutdownProtobufLibrary();
}
//
// OSX-specific way of handling bitcoin: URIs and PaymentRequest mime types.
// Also used by paymentservertests.cpp and when opening a payment request file
// via "Open URI..." menu entry.
//
bool PaymentServer::eventFilter(QObject *object, QEvent *event)
{
if (event->type() == QEvent::FileOpen) {
QFileOpenEvent *fileEvent = static_cast<QFileOpenEvent*>(event);
if (!fileEvent->file().isEmpty())
handleURIOrFile(fileEvent->file());
else if (!fileEvent->url().isEmpty())
handleURIOrFile(fileEvent->url().toString());
return true;
}
return QObject::eventFilter(object, event);
}
void PaymentServer::initNetManager()
{
if (!optionsModel)
return;
if (netManager != NULL)
delete netManager;
// netManager is used to fetch paymentrequests given in bitcoin: URIs
netManager = new QNetworkAccessManager(this);
QNetworkProxy proxy;
// Query active SOCKS5 proxy
if (optionsModel->getProxySettings(proxy)) {
netManager->setProxy(proxy);
qDebug() << "PaymentServer::initNetManager: Using SOCKS5 proxy" << proxy.hostName() << ":" << proxy.port();
}
else
qDebug() << "PaymentServer::initNetManager: No active proxy server found.";
connect(netManager, SIGNAL(finished(QNetworkReply*)),
this, SLOT(netRequestFinished(QNetworkReply*)));
connect(netManager, SIGNAL(sslErrors(QNetworkReply*, const QList<QSslError> &)),
this, SLOT(reportSslErrors(QNetworkReply*, const QList<QSslError> &)));
}
void PaymentServer::uiReady()
{
initNetManager();
saveURIs = false;
for (const QString& s : savedPaymentRequests)
{
handleURIOrFile(s);
}
savedPaymentRequests.clear();
}
void PaymentServer::handleURIOrFile(const QString& s)
{
if (saveURIs)
{
savedPaymentRequests.append(s);
return;
}
if (s.startsWith(BITCOIN_IPC_PREFIX, Qt::CaseInsensitive)) // bitcoin: URI
{
#if QT_VERSION < 0x050000
QUrl uri(s);
#else
QUrlQuery uri((QUrl(s)));
#endif
if (uri.hasQueryItem("r")) // payment request URI
{
QByteArray temp;
temp.append(uri.queryItemValue("r"));
QString decoded = QUrl::fromPercentEncoding(temp);
QUrl fetchUrl(decoded, QUrl::StrictMode);
if (fetchUrl.isValid())
{
qDebug() << "PaymentServer::handleURIOrFile: fetchRequest(" << fetchUrl << ")";
fetchRequest(fetchUrl);
}
else
{
qWarning() << "PaymentServer::handleURIOrFile: Invalid URL: " << fetchUrl;
Q_EMIT message(tr("URI handling"),
tr("Payment request fetch URL is invalid: %1").arg(fetchUrl.toString()),
CClientUIInterface::ICON_WARNING);
}
return;
}
else // normal URI
{
SendCoinsRecipient recipient;
if (GUIUtil::parseBitcoinURI(s, &recipient))
{
CBitcoinAddress address(recipient.address.toStdString());
if (!address.IsValid()) {
Q_EMIT message(tr("URI handling"), tr("Invalid payment address %1").arg(recipient.address),
CClientUIInterface::MSG_ERROR);
}
else
Q_EMIT receivedPaymentRequest(recipient);
}
else
Q_EMIT message(tr("URI handling"),
tr("URI cannot be parsed! This can be caused by an invalid Bitcoin address or malformed URI parameters."),
CClientUIInterface::ICON_WARNING);
return;
}
}
if (QFile::exists(s)) // payment request file
{
PaymentRequestPlus request;
SendCoinsRecipient recipient;
if (!readPaymentRequestFromFile(s, request))
{
Q_EMIT message(tr("Payment request file handling"),
tr("Payment request file cannot be read! This can be caused by an invalid payment request file."),
CClientUIInterface::ICON_WARNING);
}
else if (processPaymentRequest(request, recipient))
Q_EMIT receivedPaymentRequest(recipient);
return;
}
}
void PaymentServer::handleURIConnection()
{
QLocalSocket *clientConnection = uriServer->nextPendingConnection();
while (clientConnection->bytesAvailable() < (int)sizeof(quint32))
clientConnection->waitForReadyRead();
connect(clientConnection, SIGNAL(disconnected()),
clientConnection, SLOT(deleteLater()));
QDataStream in(clientConnection);
in.setVersion(QDataStream::Qt_4_0);
if (clientConnection->bytesAvailable() < (int)sizeof(quint16)) {
return;
}
QString msg;
in >> msg;
handleURIOrFile(msg);
}
//
// Warning: readPaymentRequestFromFile() is used in ipcSendCommandLine()
// so don't use "Q_EMIT message()", but "QMessageBox::"!
//
bool PaymentServer::readPaymentRequestFromFile(const QString& filename, PaymentRequestPlus& request)
{
QFile f(filename);
if (!f.open(QIODevice::ReadOnly)) {
qWarning() << QString("PaymentServer::%1: Failed to open %2").arg(__func__).arg(filename);
return false;
}
// BIP70 DoS protection
if (!verifySize(f.size())) {
return false;
}
QByteArray data = f.readAll();
return request.parse(data);
}
bool PaymentServer::processPaymentRequest(const PaymentRequestPlus& request, SendCoinsRecipient& recipient)
{
if (!optionsModel)
return false;
if (request.IsInitialized()) {
// Payment request network matches client network?
if (!verifyNetwork(request.getDetails())) {
Q_EMIT message(tr("Payment request rejected"), tr("Payment request network doesn't match client network."),
CClientUIInterface::MSG_ERROR);
return false;
}
// Make sure any payment requests involved are still valid.
// This is re-checked just before sending coins in WalletModel::sendCoins().
if (verifyExpired(request.getDetails())) {
Q_EMIT message(tr("Payment request rejected"), tr("Payment request expired."),
CClientUIInterface::MSG_ERROR);
return false;
}
} else {
Q_EMIT message(tr("Payment request error"), tr("Payment request is not initialized."),
CClientUIInterface::MSG_ERROR);
return false;
}
recipient.paymentRequest = request;
recipient.message = GUIUtil::HtmlEscape(request.getDetails().memo());
request.getMerchant(certStore.get(), recipient.authenticatedMerchant);
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QList<std::pair<CScript, CAmount> > sendingTos = request.getPayTo();
QStringList addresses;
for (const std::pair<CScript, CAmount>& sendingTo : sendingTos) {
// Extract and check destination addresses
CTxDestination dest;
if (ExtractDestination(sendingTo.first, dest)) {
// Append destination address
addresses.append(QString::fromStdString(CBitcoinAddress(dest).ToString()));
}
else if (!recipient.authenticatedMerchant.isEmpty()) {
// Unauthenticated payment requests to custom bitcoin addresses are not supported
// (there is no good way to tell the user where they are paying in a way they'd
// have a chance of understanding).
Q_EMIT message(tr("Payment request rejected"),
tr("Unverified payment requests to custom payment scripts are unsupported."),
CClientUIInterface::MSG_ERROR);
return false;
}
// Bitcoin amounts are stored as (optional) uint64 in the protobuf messages (see paymentrequest.proto),
// but CAmount is defined as int64_t. Because of that we need to verify that amounts are in a valid range
// and no overflow has happened.
if (!verifyAmount(sendingTo.second)) {
Q_EMIT message(tr("Payment request rejected"), tr("Invalid payment request."), CClientUIInterface::MSG_ERROR);
return false;
}
// Extract and check amounts
CTxOut txOut(sendingTo.second, sendingTo.first);
if (IsDust(txOut, ::dustRelayFee)) {
Q_EMIT message(tr("Payment request error"), tr("Requested payment amount of %1 is too small (considered dust).")
.arg(BitcoinUnits::formatWithUnit(optionsModel->getDisplayUnit(), sendingTo.second)),
CClientUIInterface::MSG_ERROR);
return false;
}
recipient.amount += sendingTo.second;
// Also verify that the final amount is still in a valid range after adding additional amounts.
if (!verifyAmount(recipient.amount)) {
Q_EMIT message(tr("Payment request rejected"), tr("Invalid payment request."), CClientUIInterface::MSG_ERROR);
return false;
}
}
// Store addresses and format them to fit nicely into the GUI
recipient.address = addresses.join("<br />");
if (!recipient.authenticatedMerchant.isEmpty()) {
qDebug() << "PaymentServer::processPaymentRequest: Secure payment request from " << recipient.authenticatedMerchant;
}
else {
qDebug() << "PaymentServer::processPaymentRequest: Insecure payment request to " << addresses.join(", ");
}
return true;
}
void PaymentServer::fetchRequest(const QUrl& url)
{
QNetworkRequest netRequest;
netRequest.setAttribute(QNetworkRequest::User, BIP70_MESSAGE_PAYMENTREQUEST);
netRequest.setUrl(url);
netRequest.setRawHeader("User-Agent", CLIENT_NAME.c_str());
netRequest.setRawHeader("Accept", BIP71_MIMETYPE_PAYMENTREQUEST);
netManager->get(netRequest);
}
void PaymentServer::fetchPaymentACK(CWallet* wallet, SendCoinsRecipient recipient, QByteArray transaction)
{
const payments::PaymentDetails& details = recipient.paymentRequest.getDetails();
if (!details.has_payment_url())
return;
QNetworkRequest netRequest;
netRequest.setAttribute(QNetworkRequest::User, BIP70_MESSAGE_PAYMENTACK);
netRequest.setUrl(QString::fromStdString(details.payment_url()));
netRequest.setHeader(QNetworkRequest::ContentTypeHeader, BIP71_MIMETYPE_PAYMENT);
netRequest.setRawHeader("User-Agent", CLIENT_NAME.c_str());
netRequest.setRawHeader("Accept", BIP71_MIMETYPE_PAYMENTACK);
payments::Payment payment;
payment.set_merchant_data(details.merchant_data());
payment.add_transactions(transaction.data(), transaction.size());
// Create a new refund address, or re-use:
QString account = tr("Refund from %1").arg(recipient.authenticatedMerchant);
std::string strAccount = account.toStdString();
std::set<CTxDestination> refundAddresses = wallet->GetAccountAddresses(strAccount);
if (!refundAddresses.empty()) {
CScript s = GetScriptForDestination(*refundAddresses.begin());
payments::Output* refund_to = payment.add_refund_to();
refund_to->set_script(&s[0], s.size());
}
else {
CPubKey newKey;
if (wallet->GetKeyFromPool(newKey)) {
CKeyID keyID = newKey.GetID();
wallet->SetAddressBook(keyID, strAccount, "refund");
CScript s = GetScriptForDestination(keyID);
payments::Output* refund_to = payment.add_refund_to();
refund_to->set_script(&s[0], s.size());
}
else {
// This should never happen, because sending coins should have
// just unlocked the wallet and refilled the keypool.
qWarning() << "PaymentServer::fetchPaymentACK: Error getting refund key, refund_to not set";
}
}
int length = payment.ByteSize();
netRequest.setHeader(QNetworkRequest::ContentLengthHeader, length);
QByteArray serData(length, '\0');
if (payment.SerializeToArray(serData.data(), length)) {
netManager->post(netRequest, serData);
}
else {
// This should never happen, either.
qWarning() << "PaymentServer::fetchPaymentACK: Error serializing payment message";
}
}
void PaymentServer::netRequestFinished(QNetworkReply* reply)
{
reply->deleteLater();
// BIP70 DoS protection
if (!verifySize(reply->size())) {
Q_EMIT message(tr("Payment request rejected"),
tr("Payment request %1 is too large (%2 bytes, allowed %3 bytes).")
.arg(reply->request().url().toString())
.arg(reply->size())
.arg(BIP70_MAX_PAYMENTREQUEST_SIZE),
CClientUIInterface::MSG_ERROR);
return;
}
if (reply->error() != QNetworkReply::NoError) {
QString msg = tr("Error communicating with %1: %2")
.arg(reply->request().url().toString())
.arg(reply->errorString());
qWarning() << "PaymentServer::netRequestFinished: " << msg;
Q_EMIT message(tr("Payment request error"), msg, CClientUIInterface::MSG_ERROR);
return;
}
QByteArray data = reply->readAll();
QString requestType = reply->request().attribute(QNetworkRequest::User).toString();
if (requestType == BIP70_MESSAGE_PAYMENTREQUEST)
{
PaymentRequestPlus request;
SendCoinsRecipient recipient;
if (!request.parse(data))
{
qWarning() << "PaymentServer::netRequestFinished: Error parsing payment request";
Q_EMIT message(tr("Payment request error"),
tr("Payment request cannot be parsed!"),
CClientUIInterface::MSG_ERROR);
}
else if (processPaymentRequest(request, recipient))
Q_EMIT receivedPaymentRequest(recipient);
return;
}
else if (requestType == BIP70_MESSAGE_PAYMENTACK)
{
payments::PaymentACK paymentACK;
if (!paymentACK.ParseFromArray(data.data(), data.size()))
{
QString msg = tr("Bad response from server %1")
.arg(reply->request().url().toString());
qWarning() << "PaymentServer::netRequestFinished: " << msg;
Q_EMIT message(tr("Payment request error"), msg, CClientUIInterface::MSG_ERROR);
}
else
{
Q_EMIT receivedPaymentACK(GUIUtil::HtmlEscape(paymentACK.memo()));
}
}
}
void PaymentServer::reportSslErrors(QNetworkReply* reply, const QList<QSslError> &errs)
{
Q_UNUSED(reply);
QString errString;
for (const QSslError& err : errs) {
qWarning() << "PaymentServer::reportSslErrors: " << err;
errString += err.errorString() + "\n";
}
Q_EMIT message(tr("Network request error"), errString, CClientUIInterface::MSG_ERROR);
}
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void PaymentServer::setOptionsModel(OptionsModel *_optionsModel)
{
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this->optionsModel = _optionsModel;
}
void PaymentServer::handlePaymentACK(const QString& paymentACKMsg)
{
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// currently we don't further process or store the paymentACK message
Q_EMIT message(tr("Payment acknowledged"), paymentACKMsg, CClientUIInterface::ICON_INFORMATION | CClientUIInterface::MODAL);
}
bool PaymentServer::verifyNetwork(const payments::PaymentDetails& requestDetails)
{
bool fVerified = requestDetails.network() == Params().NetworkIDString();
if (!fVerified) {
qWarning() << QString("PaymentServer::%1: Payment request network \"%2\" doesn't match client network \"%3\".")
.arg(__func__)
.arg(QString::fromStdString(requestDetails.network()))
.arg(QString::fromStdString(Params().NetworkIDString()));
}
return fVerified;
}
bool PaymentServer::verifyExpired(const payments::PaymentDetails& requestDetails)
{
bool fVerified = (requestDetails.has_expires() && (int64_t)requestDetails.expires() < GetTime());
if (fVerified) {
const QString requestExpires = QString::fromStdString(DateTimeStrFormat("%Y-%m-%d %H:%M:%S", (int64_t)requestDetails.expires()));
qWarning() << QString("PaymentServer::%1: Payment request expired \"%2\".")
.arg(__func__)
.arg(requestExpires);
}
return fVerified;
}
bool PaymentServer::verifySize(qint64 requestSize)
{
bool fVerified = (requestSize <= BIP70_MAX_PAYMENTREQUEST_SIZE);
if (!fVerified) {
qWarning() << QString("PaymentServer::%1: Payment request too large (%2 bytes, allowed %3 bytes).")
.arg(__func__)
.arg(requestSize)
.arg(BIP70_MAX_PAYMENTREQUEST_SIZE);
}
return fVerified;
}
bool PaymentServer::verifyAmount(const CAmount& requestAmount)
{
bool fVerified = MoneyRange(requestAmount);
if (!fVerified) {
qWarning() << QString("PaymentServer::%1: Payment request amount out of allowed range (%2, allowed 0 - %3).")
.arg(__func__)
.arg(requestAmount)
.arg(MAX_MONEY);
}
return fVerified;
}
X509_STORE* PaymentServer::getCertStore()
{
return certStore.get();
}