import os, sys, re, json
import platform
import shutil
from datetime import datetime
from decimal import Decimal
import traceback
import urlparse
import urllib
import threading

def normalize_version(v):
    return [int(x) for x in re.sub(r'(\.0+)*$','', v).split(".")]

class NotEnoughFunds(Exception): pass

class InvalidPassword(Exception):
    def __str__(self):
        from i18n import _
        return _("Incorrect password")

class MyEncoder(json.JSONEncoder):
    def default(self, obj):
        from transaction import Transaction
        if isinstance(obj, Transaction):
            return obj.as_dict()
        return super(MyEncoder, self).default(obj)

class ThreadJob:
    """A job that is run periodically from a thread's main loop.  run() is
    called from that thread's context.
    """

    def print_error(self, *msg):
        print_error("[%s]" % self.__class__.__name__, *msg)

    def print_msg(self, *msg):
        print_msg("[%s]" % self.__class__.__name__, *msg)

    def run(self):
        """Called periodically from the thread"""
        pass

class DaemonThread(threading.Thread):
    """ daemon thread that terminates cleanly """

    def __init__(self):
        threading.Thread.__init__(self)
        self.parent_thread = threading.currentThread()
        self.running = False
        self.running_lock = threading.Lock()
        self.job_lock = threading.Lock()
        self.jobs = []

    def add_job(self, job):
        with self.job_lock:
            self.jobs.append(job)

    def run_jobs(self):
        # Don't let a throwing job disrupt the thread, future runs of
        # itself, or other jobs.  This is useful protection against
        # malformed or malicious server responses
        with self.job_lock:
            for job in self.jobs:
                try:
                    job.run()
                except:
                    traceback.print_exc(file=sys.stderr)

    def remove_job(self, job):
        with self.job_lock:
            self.jobs.remove(job)

    def start(self):
        with self.running_lock:
            self.running = True
        return threading.Thread.start(self)

    def is_running(self):
        with self.running_lock:
            return self.running and self.parent_thread.is_alive()

    def stop(self):
        with self.running_lock:
            self.running = False

    def print_error(self, *msg):
        print_error("[%s]" % self.__class__.__name__, *msg)

    def print_msg(self, *msg):
        print_msg("[%s]" % self.__class__.__name__, *msg)



is_verbose = False
def set_verbosity(b):
    global is_verbose
    is_verbose = b


def print_error(*args):
    if not is_verbose: return
    print_stderr(*args)

def print_stderr(*args):
    args = [str(item) for item in args]
    sys.stderr.write(" ".join(args) + "\n")
    sys.stderr.flush()

def print_msg(*args):
    # Stringify args
    args = [str(item) for item in args]
    sys.stdout.write(" ".join(args) + "\n")
    sys.stdout.flush()

def print_json(obj):
    try:
        s = json.dumps(obj, sort_keys = True, indent = 4, cls=MyEncoder)
    except TypeError:
        s = repr(obj)
    sys.stdout.write(s + "\n")
    sys.stdout.flush()


# decorator that prints execution time
def profiler(func):
    def do_profile(func, args):
        n = func.func_name
        t0 = time.time()
        o = apply(func, args)
        t = time.time() - t0
        print_error("[profiler]", n, "%.4f"%t)
        return o
    return lambda *args: do_profile(func, args)



def user_dir():
    if "HOME" in os.environ:
        return os.path.join(os.environ["HOME"], ".electrum")
    elif "APPDATA" in os.environ:
        return os.path.join(os.environ["APPDATA"], "Electrum")
    elif "LOCALAPPDATA" in os.environ:
        return os.path.join(os.environ["LOCALAPPDATA"], "Electrum")
    elif 'ANDROID_DATA' in os.environ:
        try:
            import jnius
            env  = jnius.autoclass('android.os.Environment')
            _dir =  env.getExternalStorageDirectory().getPath()
            return _dir + '/electrum/'
        except ImportError:
            pass
        return "/sdcard/electrum/"
    else:
        #raise Exception("No home directory found in environment variables.")
        return

def format_satoshis_plain(x, decimal_point = 8):
    '''Display a satoshi amount scaled.  Always uses a '.' as a decimal
    point and has no thousands separator'''
    scale_factor = pow(10, decimal_point)
    return "{:.8f}".format(Decimal(x) / scale_factor).rstrip('0').rstrip('.')

def format_satoshis(x, is_diff=False, num_zeros = 0, decimal_point = 8, whitespaces=False):
    from locale import localeconv
    if x is None:
        return 'unknown'
    x = int(x)  # Some callers pass Decimal
    scale_factor = pow (10, decimal_point)
    integer_part = "{:n}".format(int(abs(x) / scale_factor))
    if x < 0:
        integer_part = '-' + integer_part
    elif is_diff:
        integer_part = '+' + integer_part
    dp = localeconv()['decimal_point']
    fract_part = ("{:0" + str(decimal_point) + "}").format(abs(x) % scale_factor)
    fract_part = fract_part.rstrip('0')
    if len(fract_part) < num_zeros:
        fract_part += "0" * (num_zeros - len(fract_part))
    result = integer_part + dp + fract_part
    if whitespaces:
        result += " " * (decimal_point - len(fract_part))
        result = " " * (15 - len(result)) + result
    return result.decode('utf8')

def format_time(timestamp):
    import datetime
    try:
        time_str = datetime.datetime.fromtimestamp(timestamp).isoformat(' ')[:-3]
    except:
        time_str = "unknown"
    return time_str


# Takes a timestamp and returns a string with the approximation of the age
def age(from_date, since_date = None, target_tz=None, include_seconds=False):
    if from_date is None:
        return "Unknown"

    from_date = datetime.fromtimestamp(from_date)
    if since_date is None:
        since_date = datetime.now(target_tz)

    td = time_difference(from_date - since_date, include_seconds)
    return td + " ago" if from_date < since_date else "in " + td


def time_difference(distance_in_time, include_seconds):
    #distance_in_time = since_date - from_date
    distance_in_seconds = int(round(abs(distance_in_time.days * 86400 + distance_in_time.seconds)))
    distance_in_minutes = int(round(distance_in_seconds/60))

    if distance_in_minutes <= 1:
        if include_seconds:
            for remainder in [5, 10, 20]:
                if distance_in_seconds < remainder:
                    return "less than %s seconds" % remainder
            if distance_in_seconds < 40:
                return "half a minute"
            elif distance_in_seconds < 60:
                return "less than a minute"
            else:
                return "1 minute"
        else:
            if distance_in_minutes == 0:
                return "less than a minute"
            else:
                return "1 minute"
    elif distance_in_minutes < 45:
        return "%s minutes" % distance_in_minutes
    elif distance_in_minutes < 90:
        return "about 1 hour"
    elif distance_in_minutes < 1440:
        return "about %d hours" % (round(distance_in_minutes / 60.0))
    elif distance_in_minutes < 2880:
        return "1 day"
    elif distance_in_minutes < 43220:
        return "%d days" % (round(distance_in_minutes / 1440))
    elif distance_in_minutes < 86400:
        return "about 1 month"
    elif distance_in_minutes < 525600:
        return "%d months" % (round(distance_in_minutes / 43200))
    elif distance_in_minutes < 1051200:
        return "about 1 year"
    else:
        return "over %d years" % (round(distance_in_minutes / 525600))

block_explorer_info = {
    'Biteasy.com': ('https://www.biteasy.com/blockchain',
                        {'tx': 'transactions', 'addr': 'addresses'}),
    'Bitflyer.jp': ('https://chainflyer.bitflyer.jp',
                        {'tx': 'Transaction', 'addr': 'Address'}),
    'Blockchain.info': ('https://blockchain.info',
                        {'tx': 'tx', 'addr': 'address'}),
    'Blockr.io': ('https://btc.blockr.io',
                        {'tx': 'tx/info', 'addr': 'address/info'}),
    'Blocktrail.com': ('https://www.blocktrail.com/BTC',
                        {'tx': 'tx', 'addr': 'address'}),
    'Chain.so': ('https://www.chain.so',
                        {'tx': 'tx/BTC', 'addr': 'address/BTC'}),
    'Insight.is': ('https://insight.bitpay.com',
                        {'tx': 'tx', 'addr': 'address'}),
    'TradeBlock.com': ('https://tradeblock.com/blockchain',
                        {'tx': 'tx', 'addr': 'address'}),
}

def block_explorer(config):
    return config.get('block_explorer', 'Blockchain.info')

def block_explorer_tuple(config):
    return block_explorer_info.get(block_explorer(config))

def block_explorer_URL(config, kind, item):
    be_tuple = block_explorer_tuple(config)
    if not be_tuple:
        return
    kind_str = be_tuple[1].get(kind)
    if not kind_str:
        return
    url_parts = [be_tuple[0], kind_str, item]
    return "/".join(url_parts)

# URL decode
#_ud = re.compile('%([0-9a-hA-H]{2})', re.MULTILINE)
#urldecode = lambda x: _ud.sub(lambda m: chr(int(m.group(1), 16)), x)

def parse_URI(uri):
    import bitcoin
    from bitcoin import COIN

    if ':' not in uri:
        assert bitcoin.is_address(uri)
        return {'address': uri}

    u = urlparse.urlparse(uri)
    assert u.scheme == 'bitcoin'

    address = u.path

    # python for android fails to parse query
    if address.find('?') > 0:
        address, query = u.path.split('?')
        pq = urlparse.parse_qs(query)
    else:
        pq = urlparse.parse_qs(u.query)

    for k, v in pq.items():
        if len(v)!=1:
            raise Exception('Duplicate Key', k)

    out = {k: v[0] for k, v in pq.items()}
    if address:
        assert bitcoin.is_address(address)
        out['address'] = address
    if 'amount' in out:
        am = out['amount']
        m = re.match('([0-9\.]+)X([0-9])', am)
        if m:
            k = int(m.group(2)) - 8
            amount = Decimal(m.group(1)) * pow(  Decimal(10) , k)
        else:
            amount = Decimal(am) * COIN
        out['amount'] = int(amount)
    if 'message' in out:
        out['message'] = out['message'].decode('utf8')
        out['memo'] = out['message']
    if 'time' in out:
        out['time'] = int(out['time'])
    if 'exp' in out:
        out['exp'] = int(out['exp'])
    if 'sig' in out:
        out['sig'] = bitcoin.base_decode(out['sig'], None, base=58).encode('hex')

    return out


def create_URI(addr, amount, message):
    import bitcoin
    if not bitcoin.is_address(addr):
        return ""
    query = []
    if amount:
        query.append('amount=%s'%format_satoshis_plain(amount))
    if message:
        if type(message) == unicode:
            message = message.encode('utf8')
        query.append('message=%s'%urllib.quote(message))
    p = urlparse.ParseResult(scheme='bitcoin', netloc='', path=addr, params='', query='&'.join(query), fragment='')
    return urlparse.urlunparse(p)


# Python bug (http://bugs.python.org/issue1927) causes raw_input
# to be redirected improperly between stdin/stderr on Unix systems
def raw_input(prompt=None):
    if prompt:
        sys.stdout.write(prompt)
    return builtin_raw_input()
import __builtin__
builtin_raw_input = __builtin__.raw_input
__builtin__.raw_input = raw_input



def parse_json(message):
    n = message.find('\n')
    if n==-1:
        return None, message
    try:
        j = json.loads( message[0:n] )
    except:
        j = None
    return j, message[n+1:]




class timeout(Exception):
    pass

import socket
import errno
import json
import ssl
import time

class SocketPipe:

    def __init__(self, socket):
        self.socket = socket
        self.message = ''
        self.set_timeout(0.1)
        self.recv_time = time.time()

    def set_timeout(self, t):
        self.socket.settimeout(t)

    def idle_time(self):
        return time.time() - self.recv_time

    def get(self):
        while True:
            response, self.message = parse_json(self.message)
            if response is not None:
                return response
            try:
                data = self.socket.recv(1024)
            except socket.timeout:
                raise timeout
            except ssl.SSLError:
                raise timeout
            except socket.error, err:
                if err.errno == 60:
                    raise timeout
                elif err.errno in [11, 35, 10035]:
                    print_error("socket errno", err.errno)
                    time.sleep(0.1)
                    continue
                else:
                    print_error("pipe: socket error", err)
                    data = ''
            except:
                traceback.print_exc(file=sys.stderr)
                data = ''

            if not data:  # Connection closed remotely
                return None
            self.message += data
            self.recv_time = time.time()

    def send(self, request):
        out = json.dumps(request) + '\n'
        self._send(out)

    def send_all(self, requests):
        out = ''.join(map(lambda x: json.dumps(x) + '\n', requests))
        self._send(out)

    def _send(self, out):
        while out:
            try:
                sent = self.socket.send(out)
                out = out[sent:]
            except ssl.SSLError as e:
                print_error("SSLError:", e)
                time.sleep(0.1)
                continue
            except socket.error as e:
                if e[0] in (errno.EWOULDBLOCK,errno.EAGAIN):
                    print_error("EAGAIN: retrying")
                    time.sleep(0.1)
                    continue
                elif e[0] in ['timed out', 'The write operation timed out']:
                    print_error("socket timeout, retry")
                    time.sleep(0.1)
                    continue
                else:
                    traceback.print_exc(file=sys.stdout)
                    raise e



import Queue

class QueuePipe:

    def __init__(self, send_queue=None, get_queue=None):
        self.send_queue = send_queue if send_queue else Queue.Queue()
        self.get_queue = get_queue if get_queue else Queue.Queue()
        self.set_timeout(0.1)

    def get(self):
        try:
            return self.get_queue.get(timeout=self.timeout)
        except Queue.Empty:
            raise timeout

    def get_all(self):
        responses = []
        while True:
            try:
                r = self.get_queue.get_nowait()
                responses.append(r)
            except Queue.Empty:
                break
        return responses

    def set_timeout(self, t):
        self.timeout = t

    def send(self, request):
        self.send_queue.put(request)

    def send_all(self, requests):
        for request in requests:
            self.send(request)



class StoreDict(dict):

    def __init__(self, config, name):
        self.config = config
        self.path = os.path.join(self.config.path, name)
        self.load()

    def load(self):
        try:
            with open(self.path, 'r') as f:
                self.update(json.loads(f.read()))
        except:
            pass

    def save(self):
        with open(self.path, 'w') as f:
            s = json.dumps(self, indent=4, sort_keys=True)
            r = f.write(s)

    def __setitem__(self, key, value):
        dict.__setitem__(self, key, value)
        self.save()

    def pop(self, key):
        if key in self.keys():
            dict.pop(self, key)
            self.save()