"""An Application for launching a kernel"""

# Copyright (c) IPython Development Team.
# Distributed under the terms of the Modified BSD License.

from __future__ import print_function

import atexit
import os
import sys
import errno
import signal
import traceback
import logging

from tornado import ioloop
import zmq
from zmq.eventloop import ioloop as zmq_ioloop
from zmq.eventloop.zmqstream import ZMQStream

from IPython.core.application import (
    BaseIPythonApplication, base_flags, base_aliases, catch_config_error
)
from IPython.core.profiledir import ProfileDir
from IPython.core.shellapp import (
    InteractiveShellApp, shell_flags, shell_aliases
)
from ipython_genutils.path import filefind, ensure_dir_exists
from traitlets import (
    Any, Instance, Dict, Unicode, Integer, Bool, DottedObjectName, Type, default
)
from ipython_genutils.importstring import import_item
from jupyter_core.paths import jupyter_runtime_dir
from jupyter_client import write_connection_file
from jupyter_client.connect import ConnectionFileMixin

# local imports
from .iostream import IOPubThread
from .heartbeat import Heartbeat
from .ipkernel import IPythonKernel
from .parentpoller import ParentPollerUnix, ParentPollerWindows
from jupyter_client.session import (
    Session, session_flags, session_aliases,
)
from .zmqshell import ZMQInteractiveShell

#-----------------------------------------------------------------------------
# Flags and Aliases
#-----------------------------------------------------------------------------

kernel_aliases = dict(base_aliases)
kernel_aliases.update({
    'ip' : 'IPKernelApp.ip',
    'hb' : 'IPKernelApp.hb_port',
    'shell' : 'IPKernelApp.shell_port',
    'iopub' : 'IPKernelApp.iopub_port',
    'stdin' : 'IPKernelApp.stdin_port',
    'control' : 'IPKernelApp.control_port',
    'f' : 'IPKernelApp.connection_file',
    'transport': 'IPKernelApp.transport',
})

kernel_flags = dict(base_flags)
kernel_flags.update({
    'no-stdout' : (
            {'IPKernelApp' : {'no_stdout' : True}},
            "redirect stdout to the null device"),
    'no-stderr' : (
            {'IPKernelApp' : {'no_stderr' : True}},
            "redirect stderr to the null device"),
    'pylab' : (
        {'IPKernelApp' : {'pylab' : 'auto'}},
        """Pre-load matplotlib and numpy for interactive use with
        the default matplotlib backend."""),
    'trio-loop' : (
        {'InteractiveShell' : {'trio_loop' : False}},
        'Enable Trio as main event loop.'
    ),
})

# inherit flags&aliases for any IPython shell apps
kernel_aliases.update(shell_aliases)
kernel_flags.update(shell_flags)

# inherit flags&aliases for Sessions
kernel_aliases.update(session_aliases)
kernel_flags.update(session_flags)

_ctrl_c_message = """\
NOTE: When using the `ipython kernel` entry point, Ctrl-C will not work.

To exit, you will have to explicitly quit this process, by either sending
"quit" from a client, or using Ctrl-\\ in UNIX-like environments.

To read more about this, see https://github.com/ipython/ipython/issues/2049

"""

#-----------------------------------------------------------------------------
# Application class for starting an IPython Kernel
#-----------------------------------------------------------------------------

class IPKernelApp(BaseIPythonApplication, InteractiveShellApp,
        ConnectionFileMixin):
    name='ipython-kernel'
    aliases = Dict(kernel_aliases)
    flags = Dict(kernel_flags)
    classes = [IPythonKernel, ZMQInteractiveShell, ProfileDir, Session]
    # the kernel class, as an importstring
    kernel_class = Type('ipykernel.ipkernel.IPythonKernel',
                        klass='ipykernel.kernelbase.Kernel',
    help="""The Kernel subclass to be used.

    This should allow easy re-use of the IPKernelApp entry point
    to configure and launch kernels other than IPython's own.
    """).tag(config=True)
    kernel = Any()
    poller = Any() # don't restrict this even though current pollers are all Threads
    heartbeat = Instance(Heartbeat, allow_none=True)

    context = Any()
    shell_socket = Any()
    control_socket = Any()
    stdin_socket = Any()
    iopub_socket = Any()
    iopub_thread = Any()

    ports = Dict()

    subcommands = {
        'install': (
            'ipykernel.kernelspec.InstallIPythonKernelSpecApp',
            'Install the IPython kernel'
        ),
    }

    # connection info:
    connection_dir = Unicode()

    @default('connection_dir')
    def _default_connection_dir(self):
        return jupyter_runtime_dir()

    @property
    def abs_connection_file(self):
        if os.path.basename(self.connection_file) == self.connection_file:
            return os.path.join(self.connection_dir, self.connection_file)
        else:
            return self.connection_file

    # streams, etc.
    no_stdout = Bool(False, help="redirect stdout to the null device").tag(config=True)
    no_stderr = Bool(False, help="redirect stderr to the null device").tag(config=True)
    trio_loop = Bool(False, help="Set main event loop.").tag(config=True)
    quiet = Bool(True, help="Only send stdout/stderr to output stream").tag(config=True)
    outstream_class = DottedObjectName('ipykernel.iostream.OutStream',
        help="The importstring for the OutStream factory").tag(config=True)
    displayhook_class = DottedObjectName('ipykernel.displayhook.ZMQDisplayHook',
        help="The importstring for the DisplayHook factory").tag(config=True)

    # polling
    parent_handle = Integer(int(os.environ.get('JPY_PARENT_PID') or 0),
        help="""kill this process if its parent dies.  On Windows, the argument
        specifies the HANDLE of the parent process, otherwise it is simply boolean.
        """).tag(config=True)
    interrupt = Integer(int(os.environ.get('JPY_INTERRUPT_EVENT') or 0),
        help="""ONLY USED ON WINDOWS
        Interrupt this process when the parent is signaled.
        """).tag(config=True)

    def init_crash_handler(self):
        sys.excepthook = self.excepthook

    def excepthook(self, etype, evalue, tb):
        # write uncaught traceback to 'real' stderr, not zmq-forwarder
        traceback.print_exception(etype, evalue, tb, file=sys.__stderr__)

    def init_poller(self):
        if sys.platform == 'win32':
            if self.interrupt or self.parent_handle:
                self.poller = ParentPollerWindows(self.interrupt, self.parent_handle)
        elif self.parent_handle and self.parent_handle != 1:
            # PID 1 (init) is special and will never go away,
            # only be reassigned.
            # Parent polling doesn't work if ppid == 1 to start with.
            self.poller = ParentPollerUnix()

    def _try_bind_socket(self, s, port):
        iface = '%s://%s' % (self.transport, self.ip)
        if self.transport == 'tcp':
            if port <= 0:
                port = s.bind_to_random_port(iface)
            else:
                s.bind("tcp://%s:%i" % (self.ip, port))
        elif self.transport == 'ipc':
            if port <= 0:
                port = 1
                path = "%s-%i" % (self.ip, port)
                while os.path.exists(path):
                    port = port + 1
                    path = "%s-%i" % (self.ip, port)
            else:
                path = "%s-%i" % (self.ip, port)
            s.bind("ipc://%s" % path)
        return port

    def _bind_socket(self, s, port):
        try:
            win_in_use = errno.WSAEADDRINUSE
        except AttributeError:
            win_in_use = None

        # Try up to 100 times to bind a port when in conflict to avoid
        # infinite attempts in bad setups
        max_attempts = 1 if port else 100
        for attempt in range(max_attempts):
            try:
                return self._try_bind_socket(s, port)
            except zmq.ZMQError as ze:
                # Raise if we have any error not related to socket binding
                if ze.errno != errno.EADDRINUSE and ze.errno != win_in_use:
                    raise
                if attempt == max_attempts - 1:
                    raise

    def write_connection_file(self):
        """write connection info to JSON file"""
        cf = self.abs_connection_file
        self.log.debug("Writing connection file: %s", cf)
        write_connection_file(cf, ip=self.ip, key=self.session.key, transport=self.transport,
        shell_port=self.shell_port, stdin_port=self.stdin_port, hb_port=self.hb_port,
        iopub_port=self.iopub_port, control_port=self.control_port)

    def cleanup_connection_file(self):
        cf = self.abs_connection_file
        self.log.debug("Cleaning up connection file: %s", cf)
        try:
            os.remove(cf)
        except (IOError, OSError):
            pass

        self.cleanup_ipc_files()

    def init_connection_file(self):
        if not self.connection_file:
            self.connection_file = "kernel-%s.json"%os.getpid()
        try:
            self.connection_file = filefind(self.connection_file, ['.', self.connection_dir])
        except IOError:
            self.log.debug("Connection file not found: %s", self.connection_file)
            # This means I own it, and I'll create it in this directory:
            ensure_dir_exists(os.path.dirname(self.abs_connection_file), 0o700)
            # Also, I will clean it up:
            atexit.register(self.cleanup_connection_file)
            return
        try:
            self.load_connection_file()
        except Exception:
            self.log.error("Failed to load connection file: %r", self.connection_file, exc_info=True)
            self.exit(1)

    def init_sockets(self):
        # Create a context, a session, and the kernel sockets.
        self.log.info("Starting the kernel at pid: %i", os.getpid())
        assert self.context is None, "init_sockets cannot be called twice!"
        self.context = context = zmq.Context()
        atexit.register(self.close)

        self.shell_socket = context.socket(zmq.ROUTER)
        self.shell_socket.linger = 1000
        self.shell_port = self._bind_socket(self.shell_socket, self.shell_port)
        self.log.debug("shell ROUTER Channel on port: %i" % self.shell_port)

        self.stdin_socket = context.socket(zmq.ROUTER)
        self.stdin_socket.linger = 1000
        self.stdin_port = self._bind_socket(self.stdin_socket, self.stdin_port)
        self.log.debug("stdin ROUTER Channel on port: %i" % self.stdin_port)

        self.control_socket = context.socket(zmq.ROUTER)
        self.control_socket.linger = 1000
        self.control_port = self._bind_socket(self.control_socket, self.control_port)
        self.log.debug("control ROUTER Channel on port: %i" % self.control_port)

        if hasattr(zmq, 'ROUTER_HANDOVER'):
            # set router-handover to workaround zeromq reconnect problems
            # in certain rare circumstances
            # see ipython/ipykernel#270 and zeromq/libzmq#2892
            self.shell_socket.router_handover = \
                self.control_socket.router_handover = \
                self.stdin_socket.router_handover = 1

        self.init_iopub(context)

    def init_iopub(self, context):
        self.iopub_socket = context.socket(zmq.PUB)
        self.iopub_socket.linger = 1000
        self.iopub_port = self._bind_socket(self.iopub_socket, self.iopub_port)
        self.log.debug("iopub PUB Channel on port: %i" % self.iopub_port)
        self.configure_tornado_logger()
        self.iopub_thread = IOPubThread(self.iopub_socket, pipe=True)
        self.iopub_thread.start()
        # backward-compat: wrap iopub socket API in background thread
        self.iopub_socket = self.iopub_thread.background_socket

    def init_heartbeat(self):
        """start the heart beating"""
        # heartbeat doesn't share context, because it mustn't be blocked
        # by the GIL, which is accessed by libzmq when freeing zero-copy messages
        hb_ctx = zmq.Context()
        self.heartbeat = Heartbeat(hb_ctx, (self.transport, self.ip, self.hb_port))
        self.hb_port = self.heartbeat.port
        self.log.debug("Heartbeat REP Channel on port: %i" % self.hb_port)
        self.heartbeat.start()

    def close(self):
        """Close zmq sockets in an orderly fashion"""
        # un-capture IO before we start closing channels
        self.reset_io()
        self.log.info("Cleaning up sockets")
        if self.heartbeat:
            self.log.debug("Closing heartbeat channel")
            self.heartbeat.context.term()
        if self.iopub_thread:
            self.log.debug("Closing iopub channel")
            self.iopub_thread.stop()
            self.iopub_thread.close()
        for channel in ('shell', 'control', 'stdin'):
            self.log.debug("Closing %s channel", channel)
            socket = getattr(self, channel + "_socket", None)
            if socket and not socket.closed:
                socket.close()
        self.log.debug("Terminating zmq context")
        self.context.term()
        self.log.debug("Terminated zmq context")

    def log_connection_info(self):
        """display connection info, and store ports"""
        basename = os.path.basename(self.connection_file)
        if basename == self.connection_file or \
            os.path.dirname(self.connection_file) == self.connection_dir:
            # use shortname
            tail = basename
        else:
            tail = self.connection_file
        lines = [
            "To connect another client to this kernel, use:",
            "    --existing %s" % tail,
        ]
        # log connection info
        # info-level, so often not shown.
        # frontends should use the %connect_info magic
        # to see the connection info
        for line in lines:
            self.log.info(line)
        # also raw print to the terminal if no parent_handle (`ipython kernel`)
        # unless log-level is CRITICAL (--quiet)
        if not self.parent_handle and self.log_level < logging.CRITICAL:
            print(_ctrl_c_message, file=sys.__stdout__)
            for line in lines:
                print(line, file=sys.__stdout__)

        self.ports = dict(shell=self.shell_port, iopub=self.iopub_port,
                                stdin=self.stdin_port, hb=self.hb_port,
                                control=self.control_port)

    def init_blackhole(self):
        """redirects stdout/stderr to devnull if necessary"""
        if self.no_stdout or self.no_stderr:
            blackhole = open(os.devnull, 'w')
            if self.no_stdout:
                sys.stdout = sys.__stdout__ = blackhole
            if self.no_stderr:
                sys.stderr = sys.__stderr__ = blackhole

    def init_io(self):
        """Redirect input streams and set a display hook."""
        if self.outstream_class:
            outstream_factory = import_item(str(self.outstream_class))
            if sys.stdout is not None:
                sys.stdout.flush()

            e_stdout = None if self.quiet else sys.__stdout__
            e_stderr = None if self.quiet else sys.__stderr__

            sys.stdout = outstream_factory(self.session, self.iopub_thread,
                                           u'stdout',
                                           echo=e_stdout)
            if sys.stderr is not None:
                sys.stderr.flush()
            sys.stderr = outstream_factory(self.session, self.iopub_thread,
                                           u'stderr',
                                           echo=e_stderr)
        if self.displayhook_class:
            displayhook_factory = import_item(str(self.displayhook_class))
            self.displayhook = displayhook_factory(self.session, self.iopub_socket)
            sys.displayhook = self.displayhook

        self.patch_io()

    def reset_io(self):
        """restore original io

        restores state after init_io
        """
        sys.stdout = sys.__stdout__
        sys.stderr = sys.__stderr__
        sys.displayhook = sys.__displayhook__

    def patch_io(self):
        """Patch important libraries that can't handle sys.stdout forwarding"""
        try:
            import faulthandler
        except ImportError:
            pass
        else:
            # Warning: this is a monkeypatch of `faulthandler.enable`, watch for possible
            # updates to the upstream API and update accordingly (up-to-date as of Python 3.5):
            # https://docs.python.org/3/library/faulthandler.html#faulthandler.enable

            # change default file to __stderr__ from forwarded stderr
            faulthandler_enable = faulthandler.enable
            def enable(file=sys.__stderr__, all_threads=True, **kwargs):
                return faulthandler_enable(file=file, all_threads=all_threads, **kwargs)

            faulthandler.enable = enable

            if hasattr(faulthandler, 'register'):
                faulthandler_register = faulthandler.register
                def register(signum, file=sys.__stderr__, all_threads=True, chain=False, **kwargs):
                    return faulthandler_register(signum, file=file, all_threads=all_threads,
                                                 chain=chain, **kwargs)
                faulthandler.register = register

    def init_signal(self):
        signal.signal(signal.SIGINT, signal.SIG_IGN)

    def init_kernel(self):
        """Create the Kernel object itself"""
        shell_stream = ZMQStream(self.shell_socket)
        control_stream = ZMQStream(self.control_socket)

        kernel_factory = self.kernel_class.instance

        kernel = kernel_factory(parent=self, session=self.session,
                                control_stream=control_stream,
                                shell_streams=[shell_stream, control_stream],
                                iopub_thread=self.iopub_thread,
                                iopub_socket=self.iopub_socket,
                                stdin_socket=self.stdin_socket,
                                log=self.log,
                                profile_dir=self.profile_dir,
                                user_ns=self.user_ns,
        )
        kernel.record_ports({
            name + '_port': port for name, port in self.ports.items()
        })
        self.kernel = kernel

        # Allow the displayhook to get the execution count
        self.displayhook.get_execution_count = lambda: kernel.execution_count

    def init_gui_pylab(self):
        """Enable GUI event loop integration, taking pylab into account."""

        # Register inline backend as default
        # this is higher priority than matplotlibrc,
        # but lower priority than anything else (mpl.use() for instance).
        # This only affects matplotlib >= 1.5
        if not os.environ.get('MPLBACKEND'):
            os.environ['MPLBACKEND'] = 'module://ipykernel.pylab.backend_inline'

        # Provide a wrapper for :meth:`InteractiveShellApp.init_gui_pylab`
        # to ensure that any exception is printed straight to stderr.
        # Normally _showtraceback associates the reply with an execution,
        # which means frontends will never draw it, as this exception
        # is not associated with any execute request.

        shell = self.shell
        _showtraceback = shell._showtraceback
        try:
            # replace error-sending traceback with stderr
            def print_tb(etype, evalue, stb):
                print ("GUI event loop or pylab initialization failed",
                       file=sys.stderr)
                print (shell.InteractiveTB.stb2text(stb), file=sys.stderr)
            shell._showtraceback = print_tb
            InteractiveShellApp.init_gui_pylab(self)
        finally:
            shell._showtraceback = _showtraceback

    def init_shell(self):
        self.shell = getattr(self.kernel, 'shell', None)
        if self.shell:
            self.shell.configurables.append(self)

    def configure_tornado_logger(self):
        """ Configure the tornado logging.Logger.

            Must set up the tornado logger or else tornado will call
            basicConfig for the root logger which makes the root logger
            go to the real sys.stderr instead of the capture streams.
            This function mimics the setup of logging.basicConfig.
        """
        logger = logging.getLogger('tornado')
        handler = logging.StreamHandler()
        formatter = logging.Formatter(logging.BASIC_FORMAT)
        handler.setFormatter(formatter)
        logger.addHandler(handler)

    def _init_asyncio_patch(self):
        """set default asyncio policy to be compatible with tornado

        Tornado 6 (at least) is not compatible with the default
        asyncio implementation on Windows

        Pick the older SelectorEventLoopPolicy on Windows
        if the known-incompatible default policy is in use.

        do this as early as possible to make it a low priority and overrideable

        ref: https://github.com/tornadoweb/tornado/issues/2608

        FIXME: if/when tornado supports the defaults in asyncio,
               remove and bump tornado requirement for py38
        """
        if sys.platform.startswith("win") and sys.version_info >= (3, 8):
            import asyncio
            try:
                from asyncio import (
                    WindowsProactorEventLoopPolicy,
                    WindowsSelectorEventLoopPolicy,
                )
            except ImportError:
                pass
                # not affected
            else:
                if type(asyncio.get_event_loop_policy()) is WindowsProactorEventLoopPolicy:
                    # WindowsProactorEventLoopPolicy is not compatible with tornado 6
                    # fallback to the pre-3.8 default of Selector
                    asyncio.set_event_loop_policy(WindowsSelectorEventLoopPolicy())

    def init_pdb(self):
        """Replace pdb with IPython's version that is interruptible.
        
        With the non-interruptible version, stopping pdb() locks up the kernel in a
        non-recoverable state.
        """
        import pdb
        from IPython.core import debugger
        if hasattr(debugger, "InterruptiblePdb"):
            # Only available in newer IPython releases:
            debugger.Pdb = debugger.InterruptiblePdb
            pdb.Pdb = debugger.Pdb
            pdb.set_trace = debugger.set_trace

    @catch_config_error
    def initialize(self, argv=None):
        self._init_asyncio_patch()
        super(IPKernelApp, self).initialize(argv)
        if self.subapp is not None:
            return

        self.init_pdb()
        self.init_blackhole()
        self.init_connection_file()
        self.init_poller()
        self.init_sockets()
        self.init_heartbeat()
        # writing/displaying connection info must be *after* init_sockets/heartbeat
        self.write_connection_file()
        # Log connection info after writing connection file, so that the connection
        # file is definitely available at the time someone reads the log.
        self.log_connection_info()
        self.init_io()
        try:
            self.init_signal()
        except:
            # Catch exception when initializing signal fails, eg when running the
            # kernel on a separate thread
            if self.log_level < logging.CRITICAL:
                self.log.error("Unable to initialize signal:", exc_info=True)
        self.init_kernel()
        # shell init steps
        self.init_path()
        self.init_shell()
        if self.shell:
            self.init_gui_pylab()
            self.init_extensions()
            self.init_code()
        # flush stdout/stderr, so that anything written to these streams during
        # initialization do not get associated with the first execution request
        sys.stdout.flush()
        sys.stderr.flush()

    def start(self):
        if self.subapp is not None:
            return self.subapp.start()
        if self.poller is not None:
            self.poller.start()
        self.kernel.start()
        self.io_loop = ioloop.IOLoop.current()
        if self.trio_loop:
            from ipykernel.trio_runner import TrioRunner
            tr = TrioRunner()
            tr.initialize(self.kernel, self.io_loop)
            try:
                tr.run()
            except KeyboardInterrupt:
                pass
        else:
            try:
                self.io_loop.start()
            except KeyboardInterrupt:
                pass


launch_new_instance = IPKernelApp.launch_instance


def main():
    """Run an IPKernel as an application"""
    app = IPKernelApp.instance()
    app.initialize()
    app.start()


if __name__ == '__main__':
    main()