-#!/usr/bin/env python
+#!/usr/bin/env python3
#
# Copyright (c) 2016 Cisco and/or its affiliates.
# Licensed under the Apache License, Version 2.0 (the "License");
from __future__ import print_function
from __future__ import absolute_import
import ctypes
+import ipaddress
import sys
import multiprocessing as mp
import os
+import queue
import logging
-import collections
-import struct
import functools
import json
import threading
import fnmatch
import weakref
import atexit
-from . vpp_serializer import VPPType, VPPEnumType, VPPUnionType, BaseTypes
+import time
+from . vpp_format import verify_enum_hint
+from . vpp_serializer import VPPType, VPPEnumType, VPPEnumFlagType, VPPUnionType
from . vpp_serializer import VPPMessage, vpp_get_type, VPPTypeAlias
-from . macaddress import MACAddress, mac_pton, mac_ntop
-logger = logging.getLogger(__name__)
+try:
+ import VppTransport
+except ModuleNotFoundError:
+ class V:
+ """placeholder for VppTransport as the implementation is dependent on
+ VPPAPIClient's initialization values
+ """
+
+ VppTransport = V
+
+logger = logging.getLogger('vpp_papi')
+logger.addHandler(logging.NullHandler())
-if sys.version[0] == '2':
- import Queue as queue
-else:
- import queue as queue
+__all__ = ('FuncWrapper', 'VppApiDynamicMethodHolder',
+ 'VppEnum', 'VppEnumType', 'VppEnumFlag',
+ 'VPPIOError', 'VPPRuntimeError', 'VPPValueError',
+ 'VPPApiClient', )
def metaclass(metaclass):
@metaclass(VppEnumType)
-class VppEnum(object):
+class VppEnum:
+ pass
+
+
+@metaclass(VppEnumType)
+class VppEnumFlag:
pass
"""Clean up VPP connection on shutdown."""
vpp_instance = vpp_weakref()
if vpp_instance and vpp_instance.transport.connected:
- vpp_instance.logger.debug('Cleaning up VPP on exit')
+ logger.debug('Cleaning up VPP on exit')
vpp_instance.disconnect()
-if sys.version[0] == '2':
- def vpp_iterator(d):
- return d.iteritems()
-else:
- def vpp_iterator(d):
- return d.items()
-
-
-def call_logger(msgdef, kwargs):
- s = 'Calling {}('.format(msgdef.name)
- for k, v in kwargs.items():
- s += '{}:{} '.format(k, v)
- s += ')'
- return s
+def add_convenience_methods():
+ # provide convenience methods to IP[46]Address.vapi_af
+ def _vapi_af(self):
+ if 6 == self._version:
+ return VppEnum.vl_api_address_family_t.ADDRESS_IP6.value
+ if 4 == self._version:
+ return VppEnum.vl_api_address_family_t.ADDRESS_IP4.value
+ raise ValueError("Invalid _version.")
+ def _vapi_af_name(self):
+ if 6 == self._version:
+ return 'ip6'
+ if 4 == self._version:
+ return 'ip4'
+ raise ValueError("Invalid _version.")
-def return_logger(r):
- s = 'Return from {}'.format(r)
- return s
+ ipaddress._IPAddressBase.vapi_af = property(_vapi_af)
+ ipaddress._IPAddressBase.vapi_af_name = property(_vapi_af_name)
-class VppApiDynamicMethodHolder(object):
+class VppApiDynamicMethodHolder:
pass
-class FuncWrapper(object):
+class FuncWrapper:
def __init__(self, func):
self._func = func
self.__name__ = func.__name__
def __call__(self, **kwargs):
return self._func(**kwargs)
+ def __repr__(self):
+ return '<FuncWrapper(func=<%s(%s)>)>' % (self.__name__, self.__doc__)
+
class VPPApiError(Exception):
pass
pass
-class VPPApiClient(object):
- """VPP interface.
+class VPPApiJSONFiles:
+ @classmethod
+ def find_api_dir(cls, dirs):
+ """Attempt to find the best directory in which API definition
+ files may reside. If the value VPP_API_DIR exists in the environment
+ then it is first on the search list. If we're inside a recognized
+ location in a VPP source tree (src/scripts and src/vpp-api/python)
+ then entries from there to the likely locations in build-root are
+ added. Finally the location used by system packages is added.
- This class provides the APIs to VPP. The APIs are loaded
- from provided .api.json files and makes functions accordingly.
- These functions are documented in the VPP .api files, as they
- are dynamically created.
+ :returns: A single directory name, or None if no such directory
+ could be found.
+ """
- Additionally, VPP can send callback messages; this class
- provides a means to register a callback function to receive
- these messages in a background thread.
- """
- apidir = None
- VPPApiError = VPPApiError
- VPPRuntimeError = VPPRuntimeError
- VPPValueError = VPPValueError
- VPPNotImplementedError = VPPNotImplementedError
- VPPIOError = VPPIOError
+ # perhaps we're in the 'src/scripts' or 'src/vpp-api/python' dir;
+ # in which case, plot a course to likely places in the src tree
+ import __main__ as main
+ if hasattr(main, '__file__'):
+ # get the path of the calling script
+ localdir = os.path.dirname(os.path.realpath(main.__file__))
+ else:
+ # use cwd if there is no calling script
+ localdir = os.getcwd()
+ localdir_s = localdir.split(os.path.sep)
+
+ def dmatch(dir):
+ """Match dir against right-hand components of the script dir"""
+ d = dir.split('/') # param 'dir' assumes a / separator
+ length = len(d)
+ return len(localdir_s) > length and localdir_s[-length:] == d
+
+ def sdir(srcdir, variant):
+ """Build a path from srcdir to the staged API files of
+ 'variant' (typically '' or '_debug')"""
+ # Since 'core' and 'plugin' files are staged
+ # in separate directories, we target the parent dir.
+ return os.path.sep.join((
+ srcdir,
+ 'build-root',
+ 'install-vpp%s-native' % variant,
+ 'vpp',
+ 'share',
+ 'vpp',
+ 'api',
+ ))
+
+ srcdir = None
+ if dmatch('src/scripts'):
+ srcdir = os.path.sep.join(localdir_s[:-2])
+ elif dmatch('src/vpp-api/python'):
+ srcdir = os.path.sep.join(localdir_s[:-3])
+ elif dmatch('test'):
+ # we're apparently running tests
+ srcdir = os.path.sep.join(localdir_s[:-1])
+
+ if srcdir:
+ # we're in the source tree, try both the debug and release
+ # variants.
+ dirs.append(sdir(srcdir, '_debug'))
+ dirs.append(sdir(srcdir, ''))
+ # Test for staged copies of the scripts
+ # For these, since we explicitly know if we're running a debug versus
+ # release variant, target only the relevant directory
+ if dmatch('build-root/install-vpp_debug-native/vpp/bin'):
+ srcdir = os.path.sep.join(localdir_s[:-4])
+ dirs.append(sdir(srcdir, '_debug'))
+ if dmatch('build-root/install-vpp-native/vpp/bin'):
+ srcdir = os.path.sep.join(localdir_s[:-4])
+ dirs.append(sdir(srcdir, ''))
+
+ # finally, try the location system packages typically install into
+ dirs.append(os.path.sep.join(('', 'usr', 'share', 'vpp', 'api')))
+
+ # check the directories for existence; first one wins
+ for dir in dirs:
+ if os.path.isdir(dir):
+ return dir
+
+ return None
+
+ @classmethod
+ def find_api_files(cls, api_dir=None, patterns='*'): # -> list
+ """Find API definition files from the given directory tree with the
+ given pattern. If no directory is given then find_api_dir() is used
+ to locate one. If no pattern is given then all definition files found
+ in the directory tree are used.
+
+ :param api_dir: A directory tree in which to locate API definition
+ files; subdirectories are descended into.
+ If this is None then find_api_dir() is called to discover it.
+ :param patterns: A list of patterns to use in each visited directory
+ when looking for files.
+ This can be a list/tuple object or a comma-separated string of
+ patterns. Each value in the list will have leading/trialing
+ whitespace stripped.
+ The pattern specifies the first part of the filename, '.api.json'
+ is appended.
+ The results are de-duplicated, thus overlapping patterns are fine.
+ If this is None it defaults to '*' meaning "all API files".
+ :returns: A list of file paths for the API files found.
+ """
+ if api_dir is None:
+ api_dir = cls.find_api_dir([])
+ if api_dir is None:
+ raise VPPApiError("api_dir cannot be located")
+
+ if isinstance(patterns, list) or isinstance(patterns, tuple):
+ patterns = [p.strip() + '.api.json' for p in patterns]
+ else:
+ patterns = [p.strip() + '.api.json' for p in patterns.split(",")]
+
+ api_files = []
+ for root, dirnames, files in os.walk(api_dir):
+ # iterate all given patterns and de-dup the result
+ files = set(sum([fnmatch.filter(files, p) for p in patterns], []))
+ for filename in files:
+ api_files.append(os.path.join(root, filename))
+
+ return api_files
+
+ @classmethod
def process_json_file(self, apidef_file):
api = json.load(apidef_file)
+ return self._process_json(api)
+
+ @classmethod
+ def process_json_str(self, json_str):
+ api = json.loads(json_str)
+ return self._process_json(api)
+
+ @staticmethod
+ def _process_json(api): # -> Tuple[Dict, Dict]
types = {}
- for t in api['enums']:
- t[0] = 'vl_api_' + t[0] + '_t'
- types[t[0]] = {'type': 'enum', 'data': t}
- for t in api['unions']:
- t[0] = 'vl_api_' + t[0] + '_t'
- types[t[0]] = {'type': 'union', 'data': t}
- for t in api['types']:
- t[0] = 'vl_api_' + t[0] + '_t'
- types[t[0]] = {'type': 'type', 'data': t}
- for t, v in api['aliases'].items():
- types['vl_api_' + t + '_t'] = {'type': 'alias', 'data': v}
- self.services.update(api['services'])
+ services = {}
+ messages = {}
+ try:
+ for t in api['enums']:
+ t[0] = 'vl_api_' + t[0] + '_t'
+ types[t[0]] = {'type': 'enum', 'data': t}
+ except KeyError:
+ pass
+ try:
+ for t in api['enumflags']:
+ t[0] = 'vl_api_' + t[0] + '_t'
+ types[t[0]] = {'type': 'enum', 'data': t}
+ except KeyError:
+ pass
+ try:
+ for t in api['unions']:
+ t[0] = 'vl_api_' + t[0] + '_t'
+ types[t[0]] = {'type': 'union', 'data': t}
+ except KeyError:
+ pass
+
+ try:
+ for t in api['types']:
+ t[0] = 'vl_api_' + t[0] + '_t'
+ types[t[0]] = {'type': 'type', 'data': t}
+ except KeyError:
+ pass
+
+ try:
+ for t, v in api['aliases'].items():
+ types['vl_api_' + t + '_t'] = {'type': 'alias', 'data': v}
+ except KeyError:
+ pass
+
+ try:
+ services.update(api['services'])
+ except KeyError:
+ pass
i = 0
while True:
VPPEnumType(t[0], t[1:])
except ValueError:
unresolved[k] = v
+ if not vpp_get_type(k):
+ if v['type'] == 'enumflag':
+ try:
+ VPPEnumFlagType(t[0], t[1:])
+ except ValueError:
+ unresolved[k] = v
elif v['type'] == 'union':
try:
VPPUnionType(t[0], t[1:])
.format(unresolved))
types = unresolved
i += 1
+ try:
+ for m in api['messages']:
+ try:
+ messages[m[0]] = VPPMessage(m[0], m[1:])
+ except VPPNotImplementedError:
+ ### OLE FIXME
+ logger.error('Not implemented error for {}'.format(m[0]))
+ except KeyError:
+ pass
+ return messages, services
- for m in api['messages']:
- try:
- self.messages[m[0]] = VPPMessage(m[0], m[1:])
- except VPPNotImplementedError:
- self.logger.error('Not implemented error for {}'.format(m[0]))
- def __init__(self, apifiles=None, testmode=False, async_thread=True,
+class VPPApiClient:
+ """VPP interface.
+
+ This class provides the APIs to VPP. The APIs are loaded
+ from provided .api.json files and makes functions accordingly.
+ These functions are documented in the VPP .api files, as they
+ are dynamically created.
+
+ Additionally, VPP can send callback messages; this class
+ provides a means to register a callback function to receive
+ these messages in a background thread.
+ """
+ apidir = None
+ VPPApiError = VPPApiError
+ VPPRuntimeError = VPPRuntimeError
+ VPPValueError = VPPValueError
+ VPPNotImplementedError = VPPNotImplementedError
+ VPPIOError = VPPIOError
+
+
+ def __init__(self, *, apifiles=None, testmode=False, async_thread=True,
logger=None, loglevel=None,
- read_timeout=5, use_socket=False,
- server_address='/run/vpp-api.sock'):
+ read_timeout=5, use_socket=True,
+ server_address='/run/vpp/api.sock'):
"""Create a VPP API object.
apifiles is a list of files containing API
to report at (from the loglevels in the logging module).
"""
if logger is None:
- logger = logging.getLogger(__name__)
+ logger = logging.getLogger(
+ "{}.{}".format(__name__, self.__class__.__name__))
if loglevel is not None:
logger.setLevel(loglevel)
self.logger = logger
self.use_socket = use_socket
self.server_address = server_address
self._apifiles = apifiles
+ self.stats = {}
if use_socket:
from . vpp_transport_socket import VppTransport
if not apifiles:
# Pick up API definitions from default directory
try:
- apifiles = self.find_api_files()
- except RuntimeError:
+ apifiles = VPPApiJSONFiles.find_api_files(self.apidir)
+ except (RuntimeError, VPPApiError):
# In test mode we don't care that we can't find the API files
if testmode:
apifiles = []
for file in apifiles:
with open(file) as apidef_file:
- self.process_json_file(apidef_file)
+ m, s = VPPApiJSONFiles.process_json_file(apidef_file)
+ self.messages.update(m)
+ self.services.update(s)
self.apifiles = apifiles
# Basic sanity check
if len(self.messages) == 0 and not testmode:
raise VPPValueError(1, 'Missing JSON message definitions')
+ if not(verify_enum_hint(VppEnum.vl_api_address_family_t)):
+ raise VPPRuntimeError("Invalid address family hints. "
+ "Cannot continue.")
self.transport = VppTransport(self, read_timeout=read_timeout,
server_address=server_address)
# Make sure we allow VPP to clean up the message rings.
atexit.register(vpp_atexit, weakref.ref(self))
- class ContextId(object):
+ add_convenience_methods()
+
+ def get_function(self, name):
+ return getattr(self._api, name)
+
+ class ContextId:
"""Multiprocessing-safe provider of unique context IDs."""
def __init__(self):
self.context = mp.Value(ctypes.c_uint, 0)
def get_type(self, name):
return vpp_get_type(name)
- @classmethod
- def find_api_dir(cls):
- """Attempt to find the best directory in which API definition
- files may reside. If the value VPP_API_DIR exists in the environment
- then it is first on the search list. If we're inside a recognized
- location in a VPP source tree (src/scripts and src/vpp-api/python)
- then entries from there to the likely locations in build-root are
- added. Finally the location used by system packages is added.
-
- :returns: A single directory name, or None if no such directory
- could be found.
- """
- dirs = [cls.apidir] if cls.apidir else []
-
- # perhaps we're in the 'src/scripts' or 'src/vpp-api/python' dir;
- # in which case, plot a course to likely places in the src tree
- import __main__ as main
- if hasattr(main, '__file__'):
- # get the path of the calling script
- localdir = os.path.dirname(os.path.realpath(main.__file__))
- else:
- # use cwd if there is no calling script
- localdir = os.getcwd()
- localdir_s = localdir.split(os.path.sep)
-
- def dmatch(dir):
- """Match dir against right-hand components of the script dir"""
- d = dir.split('/') # param 'dir' assumes a / separator
- length = len(d)
- return len(localdir_s) > length and localdir_s[-length:] == d
-
- def sdir(srcdir, variant):
- """Build a path from srcdir to the staged API files of
- 'variant' (typically '' or '_debug')"""
- # Since 'core' and 'plugin' files are staged
- # in separate directories, we target the parent dir.
- return os.path.sep.join((
- srcdir,
- 'build-root',
- 'install-vpp%s-native' % variant,
- 'vpp',
- 'share',
- 'vpp',
- 'api',
- ))
-
- srcdir = None
- if dmatch('src/scripts'):
- srcdir = os.path.sep.join(localdir_s[:-2])
- elif dmatch('src/vpp-api/python'):
- srcdir = os.path.sep.join(localdir_s[:-3])
- elif dmatch('test'):
- # we're apparently running tests
- srcdir = os.path.sep.join(localdir_s[:-1])
-
- if srcdir:
- # we're in the source tree, try both the debug and release
- # variants.
- dirs.append(sdir(srcdir, '_debug'))
- dirs.append(sdir(srcdir, ''))
-
- # Test for staged copies of the scripts
- # For these, since we explicitly know if we're running a debug versus
- # release variant, target only the relevant directory
- if dmatch('build-root/install-vpp_debug-native/vpp/bin'):
- srcdir = os.path.sep.join(localdir_s[:-4])
- dirs.append(sdir(srcdir, '_debug'))
- if dmatch('build-root/install-vpp-native/vpp/bin'):
- srcdir = os.path.sep.join(localdir_s[:-4])
- dirs.append(sdir(srcdir, ''))
-
- # finally, try the location system packages typically install into
- dirs.append(os.path.sep.join(('', 'usr', 'share', 'vpp', 'api')))
-
- # check the directories for existence; first one wins
- for dir in dirs:
- if os.path.isdir(dir):
- return dir
-
- return None
-
- @classmethod
- def find_api_files(cls, api_dir=None, patterns='*'):
- """Find API definition files from the given directory tree with the
- given pattern. If no directory is given then find_api_dir() is used
- to locate one. If no pattern is given then all definition files found
- in the directory tree are used.
-
- :param api_dir: A directory tree in which to locate API definition
- files; subdirectories are descended into.
- If this is None then find_api_dir() is called to discover it.
- :param patterns: A list of patterns to use in each visited directory
- when looking for files.
- This can be a list/tuple object or a comma-separated string of
- patterns. Each value in the list will have leading/trialing
- whitespace stripped.
- The pattern specifies the first part of the filename, '.api.json'
- is appended.
- The results are de-duplicated, thus overlapping patterns are fine.
- If this is None it defaults to '*' meaning "all API files".
- :returns: A list of file paths for the API files found.
- """
- if api_dir is None:
- api_dir = cls.find_api_dir()
- if api_dir is None:
- raise VPPApiError("api_dir cannot be located")
-
- if isinstance(patterns, list) or isinstance(patterns, tuple):
- patterns = [p.strip() + '.api.json' for p in patterns]
- else:
- patterns = [p.strip() + '.api.json' for p in patterns.split(",")]
-
- api_files = []
- for root, dirnames, files in os.walk(api_dir):
- # iterate all given patterns and de-dup the result
- files = set(sum([fnmatch.filter(files, p) for p in patterns], []))
- for filename in files:
- api_files.append(os.path.join(root, filename))
-
- return api_files
-
@property
def api(self):
if not hasattr(self, "_api"):
self.id_names = [None] * (self.vpp_dictionary_maxid + 1)
self.id_msgdef = [None] * (self.vpp_dictionary_maxid + 1)
self._api = VppApiDynamicMethodHolder()
- for name, msg in vpp_iterator(self.messages):
+ for name, msg in self.messages.items():
n = name + '_' + msg.crc[2:]
- i = self.transport.get_msg_index(n.encode('utf-8'))
+ i = self.transport.get_msg_index(n)
if i > 0:
self.id_msgdef[i] = msg
self.id_names[i] = name
# Create function for client side messages.
if name in self.services:
- if 'stream' in self.services[name] and \
- self.services[name]['stream']:
- multipart = True
- else:
- multipart = False
- f = self.make_function(msg, i, multipart, do_async)
+ f = self.make_function(msg, i, self.services[name], do_async)
setattr(self._api, name, FuncWrapper(f))
else:
self.logger.debug(
do_async):
pfx = chroot_prefix.encode('utf-8') if chroot_prefix else None
- rv = self.transport.connect(name.encode('utf-8'), pfx,
+ rv = self.transport.connect(name, pfx,
msg_handler, rx_qlen)
if rv != 0:
raise VPPIOError(2, 'Connect failed')
# Initialise control ping
crc = self.messages['control_ping'].crc
self.control_ping_index = self.transport.get_msg_index(
- ('control_ping' + '_' + crc[2:]).encode('utf-8'))
+ ('control_ping' + '_' + crc[2:]))
self.control_ping_msgdef = self.messages['control_ping']
if self.async_thread:
self.event_thread = threading.Thread(
def decode_incoming_msg(self, msg, no_type_conversion=False):
if not msg:
- self.logger.warning('vpp_api.read failed')
+ logger.warning('vpp_api.read failed')
return
(i, ci), size = self.header.unpack(msg, 0)
raise VPPValueError('Invalid argument {} to {}'
.format(list(d), msg.name))
- def _call_vpp(self, i, msgdef, multipart, **kwargs):
+ def _add_stat(self, name, ms):
+ if not name in self.stats:
+ self.stats[name] = {'max': ms, 'count': 1, 'avg': ms}
+ else:
+ if ms > self.stats[name]['max']:
+ self.stats[name]['max'] = ms
+ self.stats[name]['count'] += 1
+ n = self.stats[name]['count']
+ self.stats[name]['avg'] = self.stats[name]['avg'] * (n - 1) / n + ms / n
+
+ def get_stats(self):
+ s = '\n=== API PAPI STATISTICS ===\n'
+ s += '{:<30} {:>4} {:>6} {:>6}\n'.format('message', 'cnt', 'avg', 'max')
+ for n in sorted(self.stats.items(), key=lambda v: v[1]['avg'], reverse=True):
+ s += '{:<30} {:>4} {:>6.2f} {:>6.2f}\n'.format(n[0], n[1]['count'],
+ n[1]['avg'], n[1]['max'])
+ return s
+
+ def get_field_options(self, msg, fld_name):
+ # when there is an option, the msgdef has 3 elements.
+ # ['u32', 'ring_size', {'default': 1024}]
+ for _def in self.messages[msg].msgdef:
+ if isinstance(_def, list) and \
+ len(_def) == 3 and \
+ _def[1] == fld_name:
+ return _def[2]
+
+ def _call_vpp(self, i, msgdef, service, **kwargs):
"""Given a message, send the message and await a reply.
msgdef - the message packing definition
the response. It will raise an IOError exception if there was
no response within the timeout window.
"""
-
+ ts = time.time()
if 'context' not in kwargs:
context = self.get_context()
kwargs['context'] = context
kwargs['_vl_msg_id'] = i
no_type_conversion = kwargs.pop('_no_type_conversion', False)
+ timeout = kwargs.pop('_timeout', None)
try:
if self.transport.socket_index:
pass
self.validate_args(msgdef, kwargs)
- logging.debug(call_logger(msgdef, kwargs))
+ s = 'Calling {}({})'.format(msgdef.name,
+ ','.join(['{!r}:{!r}'.format(k, v) for k, v in kwargs.items()]))
+ self.logger.debug(s)
b = msgdef.pack(kwargs)
self.transport.suspend()
self.transport.write(b)
- if multipart:
- # Send a ping after the request - we use its response
- # to detect that we have seen all results.
- self._control_ping(context)
+ msgreply = service['reply']
+ stream = True if 'stream' in service else False
+ if stream:
+ if 'stream_msg' in service:
+ # New service['reply'] = _reply and service['stream_message'] = _details
+ stream_message = service['stream_msg']
+ modern =True
+ else:
+ # Old service['reply'] = _details
+ stream_message = msgreply
+ msgreply = 'control_ping_reply'
+ modern = False
+ # Send a ping after the request - we use its response
+ # to detect that we have seen all results.
+ self._control_ping(context)
# Block until we get a reply.
rl = []
while (True):
- msg = self.transport.read()
- if not msg:
+ r = self.read_blocking(no_type_conversion, timeout)
+ if r is None:
raise VPPIOError(2, 'VPP API client: read failed')
- r = self.decode_incoming_msg(msg, no_type_conversion)
msgname = type(r).__name__
if context not in r or r.context == 0 or context != r.context:
# Message being queued
self.message_queue.put_nowait(r)
continue
-
- if not multipart:
+ if msgname != msgreply and (stream and (msgname != stream_message)):
+ print('REPLY MISMATCH', msgreply, msgname, stream_message, stream)
+ if not stream:
rl = r
break
- if msgname == 'control_ping_reply':
+ if msgname == msgreply:
+ if modern: # Return both reply and list
+ rl = r, rl
break
rl.append(r)
self.transport.resume()
- logger.debug(return_logger(rl))
+ s = 'Return value: {!r}'.format(r)
+ if len(s) > 80:
+ s = s[:80] + "..."
+ self.logger.debug(s)
+ te = time.time()
+ self._add_stat(msgdef.name, (te - ts) * 1000)
return rl
def _call_vpp_async(self, i, msg, **kwargs):
- """Given a message, send the message and await a reply.
+ """Given a message, send the message and return the context.
msgdef - the message packing definition
i - the message type index
context - context number - chosen at random if not
supplied.
The remainder of the kwargs are the arguments to the API call.
+
+ The reply message(s) will be delivered later to the registered callback.
+ The returned context will help with assigning which call
+ the reply belongs to.
"""
if 'context' not in kwargs:
context = self.get_context()
b = msg.pack(kwargs)
self.transport.write(b)
+ return context
+
+ def read_blocking(self, no_type_conversion=False, timeout=None):
+ """Get next received message from transport within timeout, decoded.
+
+ Note that notifications have context zero
+ and are not put into receive queue (at least for socket transport),
+ use async_thread with registered callback for processing them.
+
+ If no message appears in the queue within timeout, return None.
+
+ Optionally, type conversion can be skipped,
+ as some of conversions are into less precise types.
+
+ When r is the return value of this, the caller can get message name as:
+ msgname = type(r).__name__
+ and context number (type long) as:
+ context = r.context
+
+ :param no_type_conversion: If false, type conversions are applied.
+ :type no_type_conversion: bool
+ :returns: Decoded message, or None if no message (within timeout).
+ :rtype: Whatever VPPType.unpack returns, depends on no_type_conversion.
+ :raises VppTransportShmemIOError if timed out.
+ """
+ msg = self.transport.read(timeout=timeout)
+ if not msg:
+ return None
+ return self.decode_incoming_msg(msg, no_type_conversion)
def register_event_callback(self, callback):
"""Register a callback for async messages.
if self.event_callback:
self.event_callback(msgname, r)
+ def validate_message_table(self, namecrctable):
+ """Take a dictionary of name_crc message names
+ and returns an array of missing messages"""
+
+ missing_table = []
+ for name_crc in namecrctable:
+ i = self.transport.get_msg_index(name_crc)
+ if i <= 0:
+ missing_table.append(name_crc)
+ return missing_table
+
+ def dump_message_table(self):
+ """Return VPPs API message table as name_crc dictionary"""
+ return self.transport.message_table
+
+ def dump_message_table_filtered(self, msglist):
+ """Return VPPs API message table as name_crc dictionary,
+ filtered by message name list."""
+
+ replies = [self.services[n]['reply'] for n in msglist]
+ message_table_filtered = {}
+ for name in msglist + replies:
+ for k,v in self.transport.message_table.items():
+ if k.startswith(name):
+ message_table_filtered[k] = v
+ break
+ return message_table_filtered
+
def __repr__(self):
return "<VPPApiClient apifiles=%s, testmode=%s, async_thread=%s, " \
"logger=%s, read_timeout=%s, use_socket=%s, " \
self.logger, self.read_timeout, self.use_socket,
self.server_address)
-
-# Provide the old name for backward compatibility.
-VPP = VPPApiClient
-
-# vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4
+ def details_iter(self, f, **kwargs):
+ cursor = 0
+ while True:
+ kwargs['cursor'] = cursor
+ rv, details = f(**kwargs)
+ for d in details:
+ yield d
+ if rv.retval == 0 or rv.retval != -165:
+ break
+ cursor = rv.cursor