Example #1
0
class ElectrumGui:

    def __init__(self, config, daemon, plugins):
        self.config = config
        self.network = daemon.network
        storage = WalletStorage(config.get_wallet_path())
        if not storage.file_exists:
            print "Wallet not found. try 'electrum create'"
            exit()
        if storage.is_encrypted():
            password = getpass.getpass('Password:'******'updated', 'banner'])
        self.commands = [_("[h] - displays this help text"), \
                         _("[i] - display transaction history"), \
                         _("[o] - enter payment order"), \
                         _("[p] - print stored payment order"), \
                         _("[s] - send stored payment order"), \
                         _("[r] - show own receipt addresses"), \
                         _("[c] - display contacts"), \
                         _("[b] - print server banner"), \
                         _("[q] - quit") ]
        self.num_commands = len(self.commands)

    def on_network(self, event, *args):
        if event == 'updated':
            self.updated()
        elif event == 'banner':
            self.print_banner()

    def main_command(self):
        self.print_balance()
        c = raw_input("enter command: ")
        if   c == "h" : self.print_commands()
        elif c == "i" : self.print_history()
        elif c == "o" : self.enter_order()
        elif c == "p" : self.print_order()
        elif c == "s" : self.send_order()
        elif c == "r" : self.print_addresses()
        elif c == "c" : self.print_contacts()
        elif c == "b" : self.print_banner()
        elif c == "n" : self.network_dialog()
        elif c == "e" : self.settings_dialog()
        elif c == "q" : self.done = 1
        else: self.print_commands()

    def updated(self):
        s = self.get_balance()
        if s != self.last_balance:
            print(s)
        self.last_balance = s
        return True

    def print_commands(self):
        self.print_list(self.commands, "Available commands")

    def print_history(self):
        width = [20, 40, 14, 14]
        delta = (80 - sum(width) - 4)/3
        format_str = "%"+"%d"%width[0]+"s"+"%"+"%d"%(width[1]+delta)+"s"+"%" \
        + "%d"%(width[2]+delta)+"s"+"%"+"%d"%(width[3]+delta)+"s"
        b = 0
        messages = []

        for item in self.wallet.get_history():
            tx_hash, confirmations, value, timestamp, balance = item
            if confirmations:
                try:
                    time_str = datetime.datetime.fromtimestamp(timestamp).isoformat(' ')[:-3]
                except Exception:
                    time_str = "unknown"
            else:
                time_str = 'unconfirmed'

            label = self.wallet.get_label(tx_hash)
            messages.append( format_str%( time_str, label, format_satoshis(value, whitespaces=True), format_satoshis(balance, whitespaces=True) ) )

        self.print_list(messages[::-1], format_str%( _("Date"), _("Description"), _("Amount"), _("Balance")))


    def print_balance(self):
        print(self.get_balance())

    def get_balance(self):
        if self.wallet.network.is_connected():
            if not self.wallet.up_to_date:
                msg = _( "Synchronizing..." )
            else:
                c, u, x =  self.wallet.get_balance()
                msg = _("Balance")+": %f  "%(Decimal(c) / COIN)
                if u:
                    msg += "  [%f unconfirmed]"%(Decimal(u) / COIN)
                if x:
                    msg += "  [%f unmatured]"%(Decimal(x) / COIN)
        else:
                msg = _( "Not connected" )

        return(msg)


    def print_contacts(self):
        messages = map(lambda x: "%20s   %45s "%(x[0], x[1][1]), self.contacts.items())
        self.print_list(messages, "%19s  %25s "%("Key", "Value"))

    def print_addresses(self):
        messages = map(lambda addr: "%30s    %30s       "%(addr, self.wallet.labels.get(addr,"")), self.wallet.get_addresses())
        self.print_list(messages, "%19s  %25s "%("Address", "Label"))

    def print_order(self):
        print("send order to " + self.str_recipient + ", amount: " + self.str_amount \
              + "\nfee: " + self.str_fee + ", desc: " + self.str_description)

    def enter_order(self):
        self.str_recipient = raw_input("Pay to: ")
        self.str_description = raw_input("Description : ")
        self.str_amount = raw_input("Amount: ")
        self.str_fee = raw_input("Fee: ")

    def send_order(self):
        self.do_send()

    def print_banner(self):
        for i, x in enumerate( self.wallet.network.banner.split('\n') ):
            print( x )

    def print_list(self, list, firstline):
        self.maxpos = len(list)
        if not self.maxpos: return
        print(firstline)
        for i in range(self.maxpos):
            msg = list[i] if i < len(list) else ""
            print(msg)


    def main(self):
        while self.done == 0: self.main_command()

    def do_send(self):
        if not is_valid(self.str_recipient):
            print(_('Invalid Bitcoin address'))
            return
        try:
            amount = int(Decimal(self.str_amount) * COIN)
        except Exception:
            print(_('Invalid Amount'))
            return
        try:
            fee = int(Decimal(self.str_fee) * COIN)
        except Exception:
            print(_('Invalid Fee'))
            return

        if self.wallet.use_encryption:
            password = self.password_dialog()
            if not password:
                return
        else:
            password = None

        c = ""
        while c != "y":
            c = raw_input("ok to send (y/n)?")
            if c == "n": return

        try:
            tx = self.wallet.mktx([(TYPE_ADDRESS, self.str_recipient, amount)], password, self.config, fee)
        except Exception as e:
            print(str(e))
            return

        if self.str_description:
            self.wallet.labels[tx.hash()] = self.str_description

        print(_("Please wait..."))
        status, msg = self.network.broadcast(tx)

        if status:
            print(_('Payment sent.'))
            #self.do_clear()
            #self.update_contacts_tab()
        else:
            print(_('Error'))

    def network_dialog(self):
        print("use 'electrum setconfig server/proxy' to change your network settings")
        return True


    def settings_dialog(self):
        print("use 'electrum setconfig' to change your settings")
        return True

    def password_dialog(self):
        return getpass.getpass()


#   XXX unused

    def run_receive_tab(self, c):
        #if c == 10:
        #    out = self.run_popup('Address', ["Edit label", "Freeze", "Prioritize"])
        return

    def run_contacts_tab(self, c):
        pass
Example #2
0
class ElectrumGui:
    def __init__(self, config, daemon, plugins):

        self.config = config
        self.network = daemon.network
        storage = WalletStorage(config.get_wallet_path())
        if not storage.file_exists():
            print("Wallet not found. try 'electron-cash create'")
            exit()
        if storage.is_encrypted():
            password = getpass.getpass('Password:'******'')
        self.encoding = locale.getpreferredencoding()

        self.stdscr = curses.initscr()
        curses.noecho()
        curses.cbreak()
        curses.start_color()
        curses.use_default_colors()
        curses.init_pair(1, curses.COLOR_WHITE, curses.COLOR_BLUE)
        curses.init_pair(2, curses.COLOR_WHITE, curses.COLOR_CYAN)
        curses.init_pair(3, curses.COLOR_BLACK, curses.COLOR_WHITE)
        self.stdscr.keypad(1)
        self.stdscr.border(0)
        self.maxy, self.maxx = self.stdscr.getmaxyx()
        self.set_cursor(0)
        self.w = curses.newwin(10, 50, 5, 5)

        set_verbosity(False)
        self.tab = 0
        self.pos = 0
        self.popup_pos = 0

        self.str_recipient = ""
        self.str_description = ""
        self.str_amount = ""
        self.str_fee = ""
        self.history = None

        if self.network:
            self.network.register_callback(self.update, ['updated'])

        self.tab_names = [
            _("History"),
            _("Send"),
            _("Receive"),
            _("Addresses"),
            _("Contacts"),
            _("Banner")
        ]
        self.num_tabs = len(self.tab_names)

    def set_cursor(self, x):
        try:
            curses.curs_set(x)
        except Exception:
            pass

    def restore_or_create(self):
        pass

    def verify_seed(self):
        pass

    def get_string(self, y, x):
        self.set_cursor(1)
        curses.echo()
        self.stdscr.addstr(y, x, " " * 20, curses.A_REVERSE)
        s = self.stdscr.getstr(y, x)
        curses.noecho()
        self.set_cursor(0)
        return s

    def update(self, event):
        self.update_history()
        if self.tab == 0:
            self.print_history()
        self.refresh()

    def print_history(self):

        width = [20, 40, 14, 14]
        delta = (self.maxx - sum(width) - 4) / 3
        format_str = "%" + "%d" % width[0] + "s" + "%" + "%d" % (
            width[1] + delta) + "s" + "%" + "%d" % (
                width[2] + delta) + "s" + "%" + "%d" % (width[3] + delta) + "s"

        if self.history is None:
            self.update_history()

        self.print_list(
            self.history[::-1], format_str %
            (_("Date"), _("Description"), _("Amount"), _("Balance")))

    def update_history(self):
        width = [20, 40, 14, 14]
        delta = (self.maxx - sum(width) - 4) / 3
        format_str = "%" + "%d" % width[0] + "s" + "%" + "%d" % (
            width[1] + delta) + "s" + "%" + "%d" % (
                width[2] + delta) + "s" + "%" + "%d" % (width[3] + delta) + "s"

        b = 0
        self.history = []
        for item in self.wallet.get_history():
            tx_hash, height, conf, timestamp, value, balance = item
            if conf:
                try:
                    time_str = datetime.datetime.fromtimestamp(
                        timestamp).isoformat(' ')[:-3]
                except Exception:
                    time_str = "------"
            else:
                time_str = 'unconfirmed'

            label = self.wallet.get_label(tx_hash)
            if len(label) > 40:
                label = label[0:37] + '...'
            self.history.append(
                format_str %
                (time_str, label, format_satoshis(value, whitespaces=True),
                 format_satoshis(balance, whitespaces=True)))

    def print_balance(self):
        if not self.network:
            msg = _("Offline")
        elif self.network.is_connected():
            if not self.wallet.up_to_date:
                msg = _("Synchronizing...")
            else:
                c, u, x = self.wallet.get_balance()
                msg = _("Balance") + ": %f  " % (Decimal(c) / COIN)
                if u:
                    msg += "  [%f unconfirmed]" % (Decimal(u) / COIN)
                if x:
                    msg += "  [%f unmatured]" % (Decimal(x) / COIN)
        else:
            msg = _("Not connected")

        self.stdscr.addstr(self.maxy - 1, 3, msg)

        for i in range(self.num_tabs):
            self.stdscr.addstr(0,
                               2 + 2 * i + len(''.join(self.tab_names[0:i])),
                               ' ' + self.tab_names[i] + ' ',
                               curses.A_BOLD if self.tab == i else 0)

        self.stdscr.addstr(self.maxy - 1, self.maxx - 30,
                           ' '.join([_("Settings"),
                                     _("Network"),
                                     _("Quit")]))

    def print_receive(self):
        addr = self.wallet.get_receiving_address().to_ui_string()
        self.stdscr.addstr(2, 1, "Address: " + addr)
        self.print_qr(addr)

    def print_contacts(self):
        messages = map(lambda x: "%20s   %45s " % (x[0], x[1][1]),
                       self.contacts.items())
        self.print_list(messages, "%19s  %15s " % ("Key", "Value"))

    def print_addresses(self):
        fmt = "%-35s  %-30s"
        messages = map(
            lambda addr: fmt % (addr, self.wallet.labels.get(addr, "")),
            self.wallet.get_addresses())
        self.print_list(messages, fmt % ("Address", "Label"))

    def print_edit_line(self, y, label, text, index, size):
        text += " " * (size - len(text))
        self.stdscr.addstr(y, 2, label)
        self.stdscr.addstr(
            y, 15, text, curses.A_REVERSE if self.pos %
            6 == index else curses.color_pair(1))

    def print_send_tab(self):
        self.stdscr.clear()
        self.print_edit_line(3, _("Pay to"), self.str_recipient, 0, 40)
        self.print_edit_line(5, _("Description"), self.str_description, 1, 40)
        self.print_edit_line(7, _("Amount"), self.str_amount, 2, 15)
        self.print_edit_line(9, _("Fee"), self.str_fee, 3, 15)
        self.stdscr.addstr(
            12, 15, _("[Send]"),
            curses.A_REVERSE if self.pos % 6 == 4 else curses.color_pair(2))
        self.stdscr.addstr(
            12, 25, _("[Clear]"),
            curses.A_REVERSE if self.pos % 6 == 5 else curses.color_pair(2))
        self.maxpos = 6

    def print_banner(self):
        if self.network:
            self.print_list(self.network.banner.split('\n'))

    def print_qr(self, data):
        import qrcode
        try:
            from StringIO import StringIO
        except ImportError:
            from io import StringIO

        s = StringIO()
        self.qr = qrcode.QRCode()
        self.qr.add_data(data)
        self.qr.print_ascii(out=s, invert=False)
        msg = s.getvalue()
        lines = msg.split('\n')
        for i, l in enumerate(lines):
            l = l.encode("utf-8")
            self.stdscr.addstr(i + 5, 5, l, curses.color_pair(3))

    def print_list(self, lst, firstline=None):
        lst = list(lst)
        self.maxpos = len(lst)
        if not self.maxpos: return
        if firstline:
            firstline += " " * (self.maxx - 2 - len(firstline))
            self.stdscr.addstr(1, 1, firstline)
        for i in range(self.maxy - 4):
            msg = lst[i] if i < len(lst) else ""
            msg += " " * (self.maxx - 2 - len(msg))
            m = msg[0:self.maxx - 2]
            m = m.encode(self.encoding)
            self.stdscr.addstr(
                i + 2, 1, m,
                curses.A_REVERSE if i == (self.pos % self.maxpos) else 0)

    def refresh(self):
        if self.tab == -1: return
        self.stdscr.border(0)
        self.print_balance()
        self.stdscr.refresh()

    def main_command(self):
        c = self.stdscr.getch()
        print(c)
        cc = curses.unctrl(c).decode()
        if c == curses.KEY_RIGHT: self.tab = (self.tab + 1) % self.num_tabs
        elif c == curses.KEY_LEFT: self.tab = (self.tab - 1) % self.num_tabs
        elif c == curses.KEY_DOWN: self.pos += 1
        elif c == curses.KEY_UP: self.pos -= 1
        elif c == 9: self.pos += 1  # tab
        elif cc in ['^W', '^C', '^X', '^Q']: self.tab = -1
        elif cc in ['^N']: self.network_dialog()
        elif cc == '^S': self.settings_dialog()
        else: return c
        if self.pos < 0: self.pos = 0
        if self.pos >= self.maxpos: self.pos = self.maxpos - 1

    def run_tab(self, i, print_func, exec_func):
        while self.tab == i:
            self.stdscr.clear()
            print_func()
            self.refresh()
            c = self.main_command()
            if c: exec_func(c)

    def run_history_tab(self, c):
        if c == 10:
            out = self.run_popup('', ["blah", "foo"])

    def edit_str(self, target, c, is_num=False):
        # detect backspace
        cc = curses.unctrl(c).decode()
        if c in [8, 127, 263] and target:
            target = target[:-1]
        elif not is_num or cc in '0123456789.':
            target += cc
        return target

    def run_send_tab(self, c):
        if self.pos % 6 == 0:
            self.str_recipient = self.edit_str(self.str_recipient, c)
        if self.pos % 6 == 1:
            self.str_description = self.edit_str(self.str_description, c)
        if self.pos % 6 == 2:
            self.str_amount = self.edit_str(self.str_amount, c, True)
        elif self.pos % 6 == 3:
            self.str_fee = self.edit_str(self.str_fee, c, True)
        elif self.pos % 6 == 4:
            if c == 10: self.do_send()
        elif self.pos % 6 == 5:
            if c == 10: self.do_clear()

    def run_receive_tab(self, c):
        if c == 10:
            out = self.run_popup('Address',
                                 ["Edit label", "Freeze", "Prioritize"])

    def run_contacts_tab(self, c):
        if c == 10 and self.contacts:
            out = self.run_popup(
                'Address',
                ["Copy", "Pay to", "Edit label", "Delete"]).get('button')
            key = list(self.contacts.keys())[self.pos %
                                             len(self.contacts.keys())]
            if out == "Pay to":
                self.tab = 1
                self.str_recipient = key
                self.pos = 2
            elif out == "Edit label":
                s = self.get_string(6 + self.pos, 18)
                if s:
                    self.wallet.labels[key] = s

    def run_banner_tab(self, c):
        self.show_message(repr(c))
        pass

    def main(self):

        tty.setraw(sys.stdin)
        while self.tab != -1:
            self.run_tab(0, self.print_history, self.run_history_tab)
            self.run_tab(1, self.print_send_tab, self.run_send_tab)
            self.run_tab(2, self.print_receive, self.run_receive_tab)
            self.run_tab(3, self.print_addresses, self.run_banner_tab)
            self.run_tab(4, self.print_contacts, self.run_contacts_tab)
            self.run_tab(5, self.print_banner, self.run_banner_tab)

        tty.setcbreak(sys.stdin)
        curses.nocbreak()
        self.stdscr.keypad(0)
        curses.echo()
        curses.endwin()

    def do_clear(self):
        self.str_amount = ''
        self.str_recipient = ''
        self.str_fee = ''
        self.str_description = ''

    def do_send(self):
        if not Address.is_valid(self.str_recipient):
            self.show_message(_('Invalid Bitcoin address'))
            return
        try:
            amount = int(Decimal(self.str_amount) * COIN)
        except Exception:
            self.show_message(_('Invalid Amount'))
            return
        try:
            fee = int(Decimal(self.str_fee) * COIN)
        except Exception:
            self.show_message(_('Invalid Fee'))
            return

        if self.wallet.has_password():
            password = self.password_dialog()
            if not password:
                return
        else:
            password = None
        try:
            tx = self.wallet.mktx([(TYPE_ADDRESS, self.str_recipient, amount)],
                                  password, self.config, fee)
        except Exception as e:
            self.show_message(str(e))
            return

        if self.str_description:
            self.wallet.labels[tx.txid()] = self.str_description

        self.show_message(_("Please wait..."), getchar=False)
        status, msg = self.network.broadcast(tx)

        if status:
            self.show_message(_('Payment sent.'))
            self.do_clear()
            #self.update_contacts_tab()
        else:
            self.show_message(_('Error'))

    def show_message(self, message, getchar=True):
        w = self.w
        w.clear()
        w.border(0)
        for i, line in enumerate(message.split('\n')):
            w.addstr(2 + i, 2, line)
        w.refresh()
        if getchar: c = self.stdscr.getch()

    def run_popup(self, title, items):
        return self.run_dialog(
            title,
            list(map(lambda x: {
                'type': 'button',
                'label': x
            }, items)),
            interval=1,
            y_pos=self.pos + 3)

    def network_dialog(self):
        if not self.network:
            return
        params = self.network.get_parameters()
        host, port, protocol, proxy_config, auto_connect = params
        srv = 'auto-connect' if auto_connect else self.network.default_server
        out = self.run_dialog('Network', [
            {
                'label': 'server',
                'type': 'str',
                'value': srv
            },
            {
                'label': 'proxy',
                'type': 'str',
                'value': self.config.get('proxy', '')
            },
        ],
                              buttons=1)
        if out:
            if out.get('server'):
                server = out.get('server')
                auto_connect = server == 'auto-connect'
                if not auto_connect:
                    try:
                        host, port, protocol = server.split(':')
                    except Exception:
                        self.show_message("Error:" + server +
                                          "\nIn doubt, type \"auto-connect\"")
                        return False
            if out.get('server') or out.get('proxy'):
                proxy = electrum.network.deserialize_proxy(
                    out.get('proxy')) if out.get('proxy') else proxy_config
                self.network.set_parameters(host, port, protocol, proxy,
                                            auto_connect)

    def settings_dialog(self):
        fee = str(Decimal(self.config.fee_per_kb()) / COIN)
        out = self.run_dialog('Settings', [{
            'label': 'Default fee',
            'type': 'satoshis',
            'value': fee
        }],
                              buttons=1)
        if out:
            if out.get('Default fee'):
                fee = int(Decimal(out['Default fee']) * COIN)
                self.config.set_key('fee_per_kb', fee, True)

    def password_dialog(self):
        out = self.run_dialog('Password', [{
            'label': 'Password',
            'type': 'password',
            'value': ''
        }],
                              buttons=1)
        return out.get('Password')

    def run_dialog(self, title, items, interval=2, buttons=None, y_pos=3):
        self.popup_pos = 0

        self.w = curses.newwin(
            5 + len(list(items)) * interval + (2 if buttons else 0), 50, y_pos,
            5)
        w = self.w
        out = {}
        while True:
            w.clear()
            w.border(0)
            w.addstr(0, 2, title)

            num = len(list(items))

            numpos = num
            if buttons: numpos += 2

            for i in range(num):
                item = items[i]
                label = item.get('label')
                if item.get('type') == 'list':
                    value = item.get('value', '')
                elif item.get('type') == 'satoshis':
                    value = item.get('value', '')
                elif item.get('type') == 'str':
                    value = item.get('value', '')
                elif item.get('type') == 'password':
                    value = '*' * len(item.get('value', ''))
                else:
                    value = ''
                if value is None:
                    value = ''
                if len(value) < 20:
                    value += ' ' * (20 - len(value))

                if 'value' in item:
                    w.addstr(2 + interval * i, 2, label)
                    w.addstr(
                        2 + interval * i, 15, value,
                        curses.A_REVERSE if self.popup_pos %
                        numpos == i else curses.color_pair(1))
                else:
                    w.addstr(
                        2 + interval * i, 2, label,
                        curses.A_REVERSE if self.popup_pos %
                        numpos == i else 0)

            if buttons:
                w.addstr(
                    5 + interval * i, 10, "[  ok  ]",
                    curses.A_REVERSE if self.popup_pos %
                    numpos == (numpos - 2) else curses.color_pair(2))
                w.addstr(
                    5 + interval * i, 25, "[cancel]",
                    curses.A_REVERSE if self.popup_pos %
                    numpos == (numpos - 1) else curses.color_pair(2))

            w.refresh()

            c = self.stdscr.getch()
            if c in [ord('q'), 27]: break
            elif c in [curses.KEY_LEFT, curses.KEY_UP]: self.popup_pos -= 1
            elif c in [curses.KEY_RIGHT, curses.KEY_DOWN]: self.popup_pos += 1
            else:
                i = self.popup_pos % numpos
                if buttons and c == 10:
                    if i == numpos - 2:
                        return out
                    elif i == numpos - 1:
                        return {}

                item = items[i]
                _type = item.get('type')

                if _type == 'str':
                    item['value'] = self.edit_str(item['value'], c)
                    out[item.get('label')] = item.get('value')

                elif _type == 'password':
                    item['value'] = self.edit_str(item['value'], c)
                    out[item.get('label')] = item['value']

                elif _type == 'satoshis':
                    item['value'] = self.edit_str(item['value'], c, True)
                    out[item.get('label')] = item.get('value')

                elif _type == 'list':
                    choices = item.get('choices')
                    try:
                        j = choices.index(item.get('value'))
                    except Exception:
                        j = 0
                    new_choice = choices[(j + 1) % len(choices)]
                    item['value'] = new_choice
                    out[item.get('label')] = item.get('value')

                elif _type == 'button':
                    out['button'] = item.get('label')
                    break

        return out