libvirt/tools/virt-qemu-qmp-proxy

#!/usr/bin/env python3

import argparse
import array
import fcntl
import json
import os
import re
import socket
import sys
import traceback

import libvirt

import libvirt_qemu

debug = False


def get_domain(uri, domstr):
    conn = libvirt.open(uri)

    dom = None
    saveex = None

    def try_lookup(cb):
        try:
            return cb()
        except libvirt.libvirtError as ex:
            nonlocal saveex
            if saveex is None:
                saveex = ex

    if re.match(r'^\d+$', domstr):
        dom = try_lookup(lambda: conn.lookupByID(int(domstr)))

    if dom is None and re.match(r'^[-a-f0-9]{36}|[a-f0-9]{32}$', domstr):
        dom = try_lookup(lambda: conn.lookupByUUIDString(domstr))

    if dom is None:
        dom = try_lookup(lambda: conn.lookupByName(domstr))

    if dom is None:
        raise saveex

    if not dom.isActive():
        raise Exception("Domain must be running to use QMP")

    return conn, dom


class QMPProxy(object):

    def __init__(self, conn, dom, serversock, verbose):
        self.conn = conn
        self.dom = dom
        self.verbose = verbose

        self.serversock = serversock
        self.serverwatch = 0

        self.clientsock = None
        self.clientwatch = 0

        self.api2sock = bytes([])
        self.api2sockfds = []

        self.sock2api = bytes([])
        self.sock2apifds = []

        self.serverwatch = libvirt.virEventAddHandle(
            self.serversock.fileno(), libvirt.VIR_EVENT_HANDLE_READABLE,
            self.handle_server_io, self)

        libvirt_qemu.qemuMonitorEventRegister(self.conn, self.dom,
                                              None,
                                              self.handle_qmp_event,
                                              self)

    @staticmethod
    def handle_qmp_event(conn, dom, event, secs, usecs, details, self):
        evdoc = {
            "event": event,
            "timestamp": {"seconds": secs, "microseconds": usecs}
        }
        if details is not None:
            evdoc["data"] = details

        ev = json.dumps(evdoc)
        if self.verbose:
            print(ev)
        ev += "\r\n"
        self.api2sock += ev.encode("utf-8")
        self.update_client_events()

    def recv_with_fds(self):
        # Match VIR_NET_MESSAGE_NUM_FDS_MAX in virnetprotocol.x
        maxfds = 32
        fds = array.array('i')
        cmsgdatalen = socket.CMSG_LEN(maxfds * fds.itemsize)

        data, cmsgdata, flags, addr = self.clientsock.recvmsg(1024,
                                                              cmsgdatalen)
        for cmsg_level, cmsg_type, cmsg_data in cmsgdata:
            scm_rights = (cmsg_level == socket.SOL_SOCKET and
                          cmsg_type == socket.SCM_RIGHTS)
            if scm_rights:
                fds.frombytes(cmsg_data[:len(cmsg_data) -
                                        (len(cmsg_data) % fds.itemsize)])
            else:
                raise Exception("Unexpected CMSGDATA level %d type %d" % (
                    cmsg_level, cmsg_type))

        return data, [self.make_file(fd) for fd in fds]

    def send_with_fds(self, data, fds):
        cfds = [fd.fileno() for fd in fds]

        cmsgdata = [(socket.SOL_SOCKET, socket.SCM_RIGHTS,
                     array.array("i", cfds))]

        return self.clientsock.sendmsg([data], cmsgdata)

    @staticmethod
    def make_file(fd):
        flags = fcntl.fcntl(fd, fcntl.F_GETFL)

        mask = os.O_RDONLY | os.O_WRONLY | os.O_RDWR | os.O_APPEND
        flags = flags & mask
        mode = ""
        if flags == os.O_RDONLY:
            mode = "rb"
        elif flags == os.O_WRONLY:
            mode = "wb"
        elif flags == os.O_RDWR:
            mode = "r+b"
        elif flags == (os.O_WRONLY | os.O_APPEND):
            mode = "ab"
        elif flags == (os.O_RDWR | os.O_APPEND):
            mode = "a+b"

        return os.fdopen(fd, mode)

    def add_client(self, sock):
        ver = self.conn.getVersion()
        major = int(ver / 1000000) % 1000
        minor = int(ver / 1000) % 1000
        micro = ver % 1000

        greetingobj = {
            "QMP": {
                "version": {
                    "qemu": {
                        "major": major,
                        "minor": minor,
                        "micro": micro,
                    },
                    "package": f"qemu-{major}.{minor}.{micro}",
                },
                "capabilities": [
                    "oob"
                ],
            }
        }
        greeting = json.dumps(greetingobj)
        if self.verbose:
            print(greeting)
        greeting += "\r\n"

        self.clientsock = sock
        self.clientwatch = libvirt.virEventAddHandle(
            self.clientsock.fileno(), libvirt.VIR_EVENT_HANDLE_WRITABLE,
            self.handle_client_io, self)
        self.api2sock += greeting.encode("utf-8")
        self.update_server_events()

    def remove_client(self):
        libvirt.virEventRemoveHandle(self.clientwatch)
        self.clientsock.close()
        self.clientsock = None
        self.clientwatch = 0
        self.update_server_events()

        self.api2sock = bytes([])
        self.api2sockfds = []

        self.sock2api = bytes([])
        self.sock2apifds = []

    def update_client_events(self):
        # For simplicity of tracking distinct QMP cmds and their passed FDs
        # we don't try to support "pipelining", only a single cmd may be
        # inflight
        if len(self.api2sock) > 0:
            events = libvirt.VIR_EVENT_HANDLE_WRITABLE
        else:
            events = libvirt.VIR_EVENT_HANDLE_READABLE

        libvirt.virEventUpdateHandle(self.clientwatch, events)

    def update_server_events(self):
        if self.clientsock is not None:
            libvirt.virEventUpdateHandle(self.serverwatch, 0)
        else:
            libvirt.virEventUpdateHandle(self.serverwatch,
                                         libvirt.VIR_EVENT_HANDLE_READABLE)

    def try_command(self):
        try:
            cmdstr = self.sock2api.decode("utf-8")
            cmd = json.loads(cmdstr)

            if self.verbose:
                cmdstr = cmdstr.strip()
                print(cmdstr)
        except Exception as ex:
            if debug:
                print("Incomplete %s: %s" % (self.sock2api, ex))
            return

        id = None
        if "id" in cmd:
            id = cmd["id"]
            del cmd["id"]

        if cmd.get("execute", "") == "qmp_capabilities":
            resobj = {
                "return": {},
            }
            resfds = []
        else:
            if hasattr(libvirt_qemu, "qemuMonitorCommandWithFiles"):
                res, resfds = libvirt_qemu.qemuMonitorCommandWithFiles(
                    self.dom, json.dumps(cmd), [f.fileno() for f in self.sock2apifds])
                resobj = json.loads(res)
            else:
                if len(self.sock2apifds) > 0:
                    raise Exception("FD passing not supported")
                res = libvirt_qemu.qemuMonitorCommand(
                    self.dom, json.dumps(cmd))
                resfds = []
                resobj = json.loads(res)

        if "id" in resobj:
            del resobj["id"]
        if id is not None:
            resobj["id"] = id

        res = json.dumps(resobj)
        if self.verbose:
            print(res)
        res += "\r\n"

        self.sock2api = bytes([])
        self.sock2apifds = []
        self.api2sock += res.encode("utf-8")
        self.api2sockfds = resfds

    @staticmethod
    def handle_client_io(watch, fd, events, self):
        error = False
        try:
            if events & libvirt.VIR_EVENT_HANDLE_WRITABLE:
                done = self.send_with_fds(self.api2sock, self.api2sockfds)
                if done > 0:
                    self.api2sock = self.api2sock[done:]
                    self.api2sockfds = []
            elif events & libvirt.VIR_EVENT_HANDLE_READABLE:
                data, fds = self.recv_with_fds()
                if len(data) == 0:
                    error = True
                else:
                    self.sock2api += data
                    if len(fds):
                        self.sock2apifds += fds

                    self.try_command()
            else:
                error = True
        except Exception as e:
            global debug
            if debug:
                print("%s: %s" % (sys.argv[0], str(e)))
                print(traceback.format_exc())
            error = True

        if error:
            self.remove_client()
        else:
            self.update_client_events()

    @staticmethod
    def handle_server_io(watch, fd, events, self):
        if self.clientsock is None:
            sock, addr = self.serversock.accept()
            self.add_client(sock)
        else:
            self.update_server_events()


def parse_commandline():
    parser = argparse.ArgumentParser(description="Libvirt QMP proxy")
    parser.add_argument("--connect", "-c",
                        help="Libvirt QEMU driver connection URI")
    parser.add_argument("--debug", "-d", action='store_true',
                        help="Display debugging information")
    parser.add_argument("--verbose", "-v", action='store_true',
                        help="Display QMP traffic")
    parser.add_argument("domain", metavar="DOMAIN",
                        help="Libvirt guest domain ID/UUID/Name")
    parser.add_argument("sockpath", metavar="QMP-SOCK-PATH",
                        help="UNIX socket path for QMP server")

    return parser.parse_args()


def main():
    args = parse_commandline()
    global debug
    debug = args.debug

    if not debug:
        libvirt.registerErrorHandler(lambda opaque, error: None, None)

    libvirt.virEventRegisterDefaultImpl()

    conn, dom = get_domain(args.connect, args.domain)

    if conn.getType() != "QEMU":
        raise Exception("QMP proxy requires a QEMU driver connection not %s" %
                        conn.getType())

    sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
    if os.path.exists(args.sockpath):
        os.unlink(args.sockpath)
    sock.bind(args.sockpath)
    sock.listen(1)

    _ = QMPProxy(conn, dom, sock, args.verbose)

    while True:
        libvirt.virEventRunDefaultImpl()


try:
    main()
    sys.exit(0)
except Exception as e:
    print("%s: %s" % (sys.argv[0], str(e)))
    if debug:
        print(traceback.format_exc())
    sys.exit(1)
tools: add virt-qemu-qmp-proxy for proxying QMP via libvirt QEMU guests Libvirt provides QMP passthrough APIs for the QEMU driver and these are exposed in virsh. It is not especially pleasant, however, using the raw QMP JSON syntax. QEMU has a tool 'qmp-shell' which can speak QMP and exposes a human friendly interactive shell. It is not possible to use this with libvirt managed guest, however, since only one client can attach to the QMP socket at any point in time. While it would be possible to configure a second QMP socket for a VM, it may not be an known requirement at the time the guest is provisioned. The virt-qmp-proxy tool aims to solve this problem. It opens a UNIX socket and listens for incoming client connections, speaking QMP on the connected socket. It will forward any QMP commands received onto the running libvirt QEMU guest, and forward any replies back to the QMP client. It will also forward back events. $ virsh start demo $ virt-qmp-proxy demo demo.qmp & $ qmp-shell demo.qmp Welcome to the QMP low-level shell! Connected to QEMU 6.2.0 (QEMU) query-kvm { "return": { "enabled": true, "present": true } } Note this tool of course has the same risks as the raw libvirt QMP passthrough. It is safe to run query commands to fetch information but commands which change the QEMU state risk disrupting libvirt's management of QEMU, potentially resulting in data loss/corruption in the worst case. Any use of this tool will cause the guest to be marked as tainted as an warning that it could be in an unexpected state. Since this tool introduces a python dependency it is not desirable to include it in any of the existing RPMs in libvirt. This tool is also QEMU specific, so isn't appropriate to bundle with the generic tools. Thus a new RPM is introduced 'libvirt-clients-qemu', to contain additional QEMU specific tools, with extra external deps. Signed-off-by: Daniel P. Berrangé <berrange@redhat.com> 2022-05-27 09:34:47 +00:00			`#!/usr/bin/env python3`

			`import argparse`
			`import array`
scripts: Fix the flake8 syntax-check failures Fix the syntax-check failures (which can be seen after python3-flake8-import-order package is installed) with the help of isort[1]: 289/316 libvirt:syntax-check / flake8 FAIL 5.24s exit status 2 [1]: https://pycqa.github.io/isort/ Signed-off-by: Han Han <hhan@redhat.com> Signed-off-by: Michal Privoznik <mprivozn@redhat.com> Reviewed-by: Michal Privoznik <mprivozn@redhat.com> 2023-06-05 07:40:13 +00:00			`import fcntl`
			`import json`
tools: add virt-qemu-qmp-proxy for proxying QMP via libvirt QEMU guests Libvirt provides QMP passthrough APIs for the QEMU driver and these are exposed in virsh. It is not especially pleasant, however, using the raw QMP JSON syntax. QEMU has a tool 'qmp-shell' which can speak QMP and exposes a human friendly interactive shell. It is not possible to use this with libvirt managed guest, however, since only one client can attach to the QMP socket at any point in time. While it would be possible to configure a second QMP socket for a VM, it may not be an known requirement at the time the guest is provisioned. The virt-qmp-proxy tool aims to solve this problem. It opens a UNIX socket and listens for incoming client connections, speaking QMP on the connected socket. It will forward any QMP commands received onto the running libvirt QEMU guest, and forward any replies back to the QMP client. It will also forward back events. $ virsh start demo $ virt-qmp-proxy demo demo.qmp & $ qmp-shell demo.qmp Welcome to the QMP low-level shell! Connected to QEMU 6.2.0 (QEMU) query-kvm { "return": { "enabled": true, "present": true } } Note this tool of course has the same risks as the raw libvirt QMP passthrough. It is safe to run query commands to fetch information but commands which change the QEMU state risk disrupting libvirt's management of QEMU, potentially resulting in data loss/corruption in the worst case. Any use of this tool will cause the guest to be marked as tainted as an warning that it could be in an unexpected state. Since this tool introduces a python dependency it is not desirable to include it in any of the existing RPMs in libvirt. This tool is also QEMU specific, so isn't appropriate to bundle with the generic tools. Thus a new RPM is introduced 'libvirt-clients-qemu', to contain additional QEMU specific tools, with extra external deps. Signed-off-by: Daniel P. Berrangé <berrange@redhat.com> 2022-05-27 09:34:47 +00:00			`import os`
			`import re`
			`import socket`
			`import sys`
			`import traceback`

scripts: Fix the flake8 syntax-check failures Fix the syntax-check failures (which can be seen after python3-flake8-import-order package is installed) with the help of isort[1]: 289/316 libvirt:syntax-check / flake8 FAIL 5.24s exit status 2 [1]: https://pycqa.github.io/isort/ Signed-off-by: Han Han <hhan@redhat.com> Signed-off-by: Michal Privoznik <mprivozn@redhat.com> Reviewed-by: Michal Privoznik <mprivozn@redhat.com> 2023-06-05 07:40:13 +00:00			`import libvirt`

			`import libvirt_qemu`
tools: add virt-qemu-qmp-proxy for proxying QMP via libvirt QEMU guests Libvirt provides QMP passthrough APIs for the QEMU driver and these are exposed in virsh. It is not especially pleasant, however, using the raw QMP JSON syntax. QEMU has a tool 'qmp-shell' which can speak QMP and exposes a human friendly interactive shell. It is not possible to use this with libvirt managed guest, however, since only one client can attach to the QMP socket at any point in time. While it would be possible to configure a second QMP socket for a VM, it may not be an known requirement at the time the guest is provisioned. The virt-qmp-proxy tool aims to solve this problem. It opens a UNIX socket and listens for incoming client connections, speaking QMP on the connected socket. It will forward any QMP commands received onto the running libvirt QEMU guest, and forward any replies back to the QMP client. It will also forward back events. $ virsh start demo $ virt-qmp-proxy demo demo.qmp & $ qmp-shell demo.qmp Welcome to the QMP low-level shell! Connected to QEMU 6.2.0 (QEMU) query-kvm { "return": { "enabled": true, "present": true } } Note this tool of course has the same risks as the raw libvirt QMP passthrough. It is safe to run query commands to fetch information but commands which change the QEMU state risk disrupting libvirt's management of QEMU, potentially resulting in data loss/corruption in the worst case. Any use of this tool will cause the guest to be marked as tainted as an warning that it could be in an unexpected state. Since this tool introduces a python dependency it is not desirable to include it in any of the existing RPMs in libvirt. This tool is also QEMU specific, so isn't appropriate to bundle with the generic tools. Thus a new RPM is introduced 'libvirt-clients-qemu', to contain additional QEMU specific tools, with extra external deps. Signed-off-by: Daniel P. Berrangé <berrange@redhat.com> 2022-05-27 09:34:47 +00:00
			`debug = False`


			`def get_domain(uri, domstr):`
			`conn = libvirt.open(uri)`

			`dom = None`
			`saveex = None`

			`def try_lookup(cb):`
			`try:`
			`return cb()`
			`except libvirt.libvirtError as ex:`
			`nonlocal saveex`
			`if saveex is None:`
			`saveex = ex`

			`if re.match(r'^\d+$', domstr):`
			`dom = try_lookup(lambda: conn.lookupByID(int(domstr)))`

			`if dom is None and re.match(r'^[-a-f0-9]{36}\|[a-f0-9]{32}$', domstr):`
			`dom = try_lookup(lambda: conn.lookupByUUIDString(domstr))`

			`if dom is None:`
			`dom = try_lookup(lambda: conn.lookupByName(domstr))`

			`if dom is None:`
			`raise saveex`

			`if not dom.isActive():`
			`raise Exception("Domain must be running to use QMP")`

			`return conn, dom`


			`class QMPProxy(object):`

			`def __init__(self, conn, dom, serversock, verbose):`
			`self.conn = conn`
			`self.dom = dom`
			`self.verbose = verbose`

			`self.serversock = serversock`
			`self.serverwatch = 0`

			`self.clientsock = None`
			`self.clientwatch = 0`

			`self.api2sock = bytes([])`
			`self.api2sockfds = []`

			`self.sock2api = bytes([])`
			`self.sock2apifds = []`

			`self.serverwatch = libvirt.virEventAddHandle(`
			`self.serversock.fileno(), libvirt.VIR_EVENT_HANDLE_READABLE,`
			`self.handle_server_io, self)`

			`libvirt_qemu.qemuMonitorEventRegister(self.conn, self.dom,`
			`None,`
			`self.handle_qmp_event,`
			`self)`

			`@staticmethod`
			`def handle_qmp_event(conn, dom, event, secs, usecs, details, self):`
			`evdoc = {`
			`"event": event,`
			`"timestamp": {"seconds": secs, "microseconds": usecs}`
			`}`
			`if details is not None:`
			`evdoc["data"] = details`

			`ev = json.dumps(evdoc)`
			`if self.verbose:`
			`print(ev)`
			`ev += "\r\n"`
			`self.api2sock += ev.encode("utf-8")`
			`self.update_client_events()`

			`def recv_with_fds(self):`
			`# Match VIR_NET_MESSAGE_NUM_FDS_MAX in virnetprotocol.x`
			`maxfds = 32`
			`fds = array.array('i')`
			`cmsgdatalen = socket.CMSG_LEN(maxfds * fds.itemsize)`

			`data, cmsgdata, flags, addr = self.clientsock.recvmsg(1024,`
			`cmsgdatalen)`
			`for cmsg_level, cmsg_type, cmsg_data in cmsgdata:`
			`scm_rights = (cmsg_level == socket.SOL_SOCKET and`
			`cmsg_type == socket.SCM_RIGHTS)`
			`if scm_rights:`
			`fds.frombytes(cmsg_data[:len(cmsg_data) -`
			`(len(cmsg_data) % fds.itemsize)])`
			`else:`
			`raise Exception("Unexpected CMSGDATA level %d type %d" % (`
			`cmsg_level, cmsg_type))`

			`return data, [self.make_file(fd) for fd in fds]`

			`def send_with_fds(self, data, fds):`
			`cfds = [fd.fileno() for fd in fds]`

			`cmsgdata = [(socket.SOL_SOCKET, socket.SCM_RIGHTS,`
			`array.array("i", cfds))]`

			`return self.clientsock.sendmsg([data], cmsgdata)`

			`@staticmethod`
			`def make_file(fd):`
			`flags = fcntl.fcntl(fd, fcntl.F_GETFL)`

			`mask = os.O_RDONLY \| os.O_WRONLY \| os.O_RDWR \| os.O_APPEND`
			`flags = flags & mask`
			`mode = ""`
			`if flags == os.O_RDONLY:`
			`mode = "rb"`
			`elif flags == os.O_WRONLY:`
			`mode = "wb"`
			`elif flags == os.O_RDWR:`
			`mode = "r+b"`
			`elif flags == (os.O_WRONLY \| os.O_APPEND):`
			`mode = "ab"`
			`elif flags == (os.O_RDWR \| os.O_APPEND):`
			`mode = "a+b"`

			`return os.fdopen(fd, mode)`

			`def add_client(self, sock):`
			`ver = self.conn.getVersion()`
			`major = int(ver / 1000000) % 1000`
			`minor = int(ver / 1000) % 1000`
			`micro = ver % 1000`

			`greetingobj = {`
			`"QMP": {`
			`"version": {`
			`"qemu": {`
			`"major": major,`
			`"minor": minor,`
			`"micro": micro,`
			`},`
			`"package": f"qemu-{major}.{minor}.{micro}",`
			`},`
			`"capabilities": [`
			`"oob"`
			`],`
			`}`
			`}`
			`greeting = json.dumps(greetingobj)`
			`if self.verbose:`
			`print(greeting)`
			`greeting += "\r\n"`

			`self.clientsock = sock`
			`self.clientwatch = libvirt.virEventAddHandle(`
			`self.clientsock.fileno(), libvirt.VIR_EVENT_HANDLE_WRITABLE,`
			`self.handle_client_io, self)`
			`self.api2sock += greeting.encode("utf-8")`
			`self.update_server_events()`

			`def remove_client(self):`
			`libvirt.virEventRemoveHandle(self.clientwatch)`
			`self.clientsock.close()`
			`self.clientsock = None`
			`self.clientwatch = 0`
			`self.update_server_events()`

			`self.api2sock = bytes([])`
			`self.api2sockfds = []`

			`self.sock2api = bytes([])`
			`self.sock2apifds = []`

			`def update_client_events(self):`
			`# For simplicity of tracking distinct QMP cmds and their passed FDs`
			`# we don't try to support "pipelining", only a single cmd may be`
			`# inflight`
			`if len(self.api2sock) > 0:`
			`events = libvirt.VIR_EVENT_HANDLE_WRITABLE`
			`else:`
			`events = libvirt.VIR_EVENT_HANDLE_READABLE`

			`libvirt.virEventUpdateHandle(self.clientwatch, events)`

			`def update_server_events(self):`
			`if self.clientsock is not None:`
			`libvirt.virEventUpdateHandle(self.serverwatch, 0)`
			`else:`
			`libvirt.virEventUpdateHandle(self.serverwatch,`
			`libvirt.VIR_EVENT_HANDLE_READABLE)`

			`def try_command(self):`
			`try:`
			`cmdstr = self.sock2api.decode("utf-8")`
			`cmd = json.loads(cmdstr)`

			`if self.verbose:`
			`cmdstr = cmdstr.strip()`
			`print(cmdstr)`
			`except Exception as ex:`
			`if debug:`
			`print("Incomplete %s: %s" % (self.sock2api, ex))`
			`return`

			`id = None`
			`if "id" in cmd:`
			`id = cmd["id"]`
			`del cmd["id"]`

			`if cmd.get("execute", "") == "qmp_capabilities":`
			`resobj = {`
			`"return": {},`
			`}`
			`resfds = []`
			`else:`
			`if hasattr(libvirt_qemu, "qemuMonitorCommandWithFiles"):`
			`res, resfds = libvirt_qemu.qemuMonitorCommandWithFiles(`
			`self.dom, json.dumps(cmd), [f.fileno() for f in self.sock2apifds])`
			`resobj = json.loads(res)`
			`else:`
			`if len(self.sock2apifds) > 0:`
			`raise Exception("FD passing not supported")`
			`res = libvirt_qemu.qemuMonitorCommand(`
			`self.dom, json.dumps(cmd))`
			`resfds = []`
			`resobj = json.loads(res)`

			`if "id" in resobj:`
			`del resobj["id"]`
			`if id is not None:`
			`resobj["id"] = id`

			`res = json.dumps(resobj)`
			`if self.verbose:`
			`print(res)`
			`res += "\r\n"`

			`self.sock2api = bytes([])`
			`self.sock2apifds = []`
			`self.api2sock += res.encode("utf-8")`
			`self.api2sockfds = resfds`

			`@staticmethod`
			`def handle_client_io(watch, fd, events, self):`
			`error = False`
			`try:`
			`if events & libvirt.VIR_EVENT_HANDLE_WRITABLE:`
			`done = self.send_with_fds(self.api2sock, self.api2sockfds)`
			`if done > 0:`
			`self.api2sock = self.api2sock[done:]`
			`self.api2sockfds = []`
			`elif events & libvirt.VIR_EVENT_HANDLE_READABLE:`
			`data, fds = self.recv_with_fds()`
			`if len(data) == 0:`
			`error = True`
			`else:`
			`self.sock2api += data`
			`if len(fds):`
			`self.sock2apifds += fds`

			`self.try_command()`
			`else:`
			`error = True`
			`except Exception as e:`
			`global debug`
			`if debug:`
			`print("%s: %s" % (sys.argv[0], str(e)))`
			`print(traceback.format_exc())`
			`error = True`

			`if error:`
			`self.remove_client()`
			`else:`
			`self.update_client_events()`

			`@staticmethod`
			`def handle_server_io(watch, fd, events, self):`
			`if self.clientsock is None:`
			`sock, addr = self.serversock.accept()`
			`self.add_client(sock)`
			`else:`
			`self.update_server_events()`


			`def parse_commandline():`
			`parser = argparse.ArgumentParser(description="Libvirt QMP proxy")`
			`parser.add_argument("--connect", "-c",`
			`help="Libvirt QEMU driver connection URI")`
			`parser.add_argument("--debug", "-d", action='store_true',`
			`help="Display debugging information")`
			`parser.add_argument("--verbose", "-v", action='store_true',`
			`help="Display QMP traffic")`
			`parser.add_argument("domain", metavar="DOMAIN",`
			`help="Libvirt guest domain ID/UUID/Name")`
			`parser.add_argument("sockpath", metavar="QMP-SOCK-PATH",`
			`help="UNIX socket path for QMP server")`

			`return parser.parse_args()`


			`def main():`
			`args = parse_commandline()`
			`global debug`
			`debug = args.debug`

			`if not debug:`
			`libvirt.registerErrorHandler(lambda opaque, error: None, None)`

			`libvirt.virEventRegisterDefaultImpl()`

			`conn, dom = get_domain(args.connect, args.domain)`

			`if conn.getType() != "QEMU":`
			`raise Exception("QMP proxy requires a QEMU driver connection not %s" %`
			`conn.getType())`

			`sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)`
			`if os.path.exists(args.sockpath):`
			`os.unlink(args.sockpath)`
			`sock.bind(args.sockpath)`
			`sock.listen(1)`

			`_ = QMPProxy(conn, dom, sock, args.verbose)`

			`while True:`
			`libvirt.virEventRunDefaultImpl()`


			`try:`
			`main()`
			`sys.exit(0)`
			`except Exception as e:`
			`print("%s: %s" % (sys.argv[0], str(e)))`
			`if debug:`
			`print(traceback.format_exc())`
			`sys.exit(1)`