#!/usr/bin/env python2
#
# Copyright (c) 2018 Cisco and/or its affiliates.
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
import json
import pprint
from collections import OrderedDict
import binascii
BASE_PACKAGE = "io.fd.vpp.jvpp"
class ParseException(Exception):
pass
class Type(object):
def __init__(self, name, java_name, java_name_fqn, jni_signature, jni_type, jni_accessor,
host_to_net_function, net_to_host_function):
"""
Initializes Type class.
:param name: name of type as defined in .api file, e.g. u8, u32[] or mac_entry
:param java_name: corresponding java name, e.g. byte, int[] or MacEntry
:param java_name_fqn: fully qualified java name, e.g. io.fd.vpp.jvpp.core.types.MacEntry
:param jni_signature: JNI Type signature, e.g. B, [I or Lio.fd.vpp.jvpp.core.types.MacEntry;
See https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/types.html#type_signatures
:param jni_type: JNI reference type, e.g. jbyte jintArray, jobject
See https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/types.html#reference_types
:param jni_accessor: Java type do by used in Get<type>Field, Set<type>Field and other functions.
See https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/functions.html#accessing_fields_of_objects
:param host_to_net_function: name of function host to net byte order swap function
:param net_to_host_function: name of function net to host byte order swap function
"""
self.name = name
self.java_name = java_name
# Java generation specific properties, TODO(VPP-1186): move to Java specific subclass
self.java_name_fqn = java_name_fqn
# JNI generation specific properties, TODO(VPP-1186): move to JNI specific subclass
self.jni_signature = jni_signature
# Native type, see:
# https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/types.html#primitive_types
# and
# https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/types.html#reference_types
self.jni_type = jni_type
# Java type do by used in Get<type>Field, Set<type>Field and other functions, see:
# https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/functions.html#accessing_fields_of_objects
self.jni_accessor = jni_accessor
self.host_to_net_function = host_to_net_function
self.net_to_host_function = net_to_host_function
self.is_swap_needed = host_to_net_function and net_to_host_function
class SimpleType(Type):
def __init__(self, name, java_name, jni_signature, jni_type, jni_accessor,
host_to_net_function=None, net_to_host_function=None):
super(SimpleType, self).__init__(
name=name,
java_name=java_name,
java_name_fqn=java_name,
jni_signature=jni_signature,
jni_type=jni_type,
jni_accessor=jni_accessor,
host_to_net_function=host_to_net_function,
net_to_host_function=net_to_host_function
)
self.vpp_name = name
def get_host_to_net_function(self, host_ref_name, net_ref_name):
return "%s = %s(%s)" % (net_ref_name, self.host_to_net_function, host_ref_name)
def __str__(self):
return "SimpleType{name:%s, java_name:%s}" % (self.name, self.java_name)
# TODO(VPP-1187): add array host to net functions to reduce number of members and simplify JNI generation
class Array(Type):
def __init__(self, base_type):
super(Array, self).__init__(
name=base_type.name + _ARRAY_SUFFIX,
java_name=base_type.java_name + _ARRAY_SUFFIX,
java_name_fqn=base_type.java_name_fqn + _ARRAY_SUFFIX,
jni_signature="[%s" % base_type.jni_signature,
jni_type="%sArray" % base_type.jni_type,
jni_accessor="Object",
host_to_net_function=base_type.host_to_net_function,
net_to_host_function=base_type.net_to_host_function
)
self.base_type = base_type
def get_host_to_net_function(self, host_ref_name, net_ref_name):
return self.base_type.get_host_to_net_function(host_ref_name, net_ref_name)
def __str__(self):
return "Array{name:%s, java_name:%s}" % (self.name, self.java_name)
class Enum(Type):
def __init__(self, name, value, constants, definition, plugin_name):
_java_name = _underscore_to_camelcase_upper(name)
super(Enum, self).__init__(
name=name,
java_name=_java_name,
java_name_fqn="io.fd.vpp.jvpp.%s.types.%s" % (plugin_name, _java_name),
jni_signature="Lio/fd/vpp/jvpp/%s/types/%s;" % (plugin_name, _java_name),
jni_type="jobject",
jni_accessor="Object",
host_to_net_function="_host_to_net_%s" % name,
net_to_host_function="_net_to_host_%s" % name
)
self.value = value
self.constants = constants
self.doc = _message_to_javadoc(definition)
self.java_name_lower = _underscore_to_camelcase_lower(name)
self.vpp_name = "%s%s%s" % (_VPP_TYPE_PREFIX, name, _VPP_TYPE_SUFFIX)
# Fully qualified class name used by FindClass function, see:
# https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/functions.html#FindClass
self.jni_name = "io/fd/vpp/jvpp/%s/types/%s" % (plugin_name, _java_name)
def get_host_to_net_function(self, host_ref_name, net_ref_name):
return "_host_to_net_%s(env, %s, &(%s))" % (self.name, host_ref_name, net_ref_name)
class Class(Type):
def __init__(self, name, crc, fields, definition, plugin_name):
_java_name = _underscore_to_camelcase_upper(name)
super(Class, self).__init__(
name=name,
java_name=_java_name,
java_name_fqn="io.fd.vpp.jvpp.%s.types.%s" % (plugin_name, _java_name),
jni_signature="Lio/fd/vpp/jvpp/%s/types/%s;" % (plugin_name, _java_name),
jni_type="jobject",
jni_accessor="Object",
host_to_net_function="_host_to_net_%s" % name,
net_to_host_function="_net_to_host_%s" % name
)
self.crc = crc
self.fields = fields
self.doc = _message_to_javadoc(definition)
self.java_name_lower = _underscore_to_camelcase_lower(name)
self.vpp_name = "%s%s%s" % (_VPP_TYPE_PREFIX, name, _VPP_TYPE_SUFFIX)
# Fully qualified class name used by FindClass function, see:
# https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/functions.html#FindClass
self.jni_name = "io/fd/vpp/jvpp/%s/types/%s" % (plugin_name, _java_name)
def get_host_to_net_function(self, host_ref_name, net_ref_name):
return "_host_to_net_%s(env, %s, &(%s))" % (self.name, host_ref_name, net_ref_name)
class Union(Type):
def __init__(self, name, crc, fields, definition, plugin_name):
_java_name = _underscore_to_camelcase_upper(name)
super(Union, self).__init__(
name=name,
java_name=_java_name,
java_name_fqn="io.fd.vpp.jvpp.%s.types.%s" % (plugin_name, _java_name),
jni_signature="Lio/fd/vpp/jvpp/%s/types/%s;" % (plugin_name, _java_name),
jni_type="jobject",
jni_accessor="Object",
host_to_net_function="_host_to_net_%s" % name,
net_to_host_function="_net_to_host_%s" % name
)
self.crc = crc
self.fields = fields
self.doc = _message_to_javadoc(definition)
self.java_name_lower = _underscore_to_camelcase_lower(name)
self.vpp_name = "%s%s%s" % (_VPP_TYPE_PREFIX, name, _VPP_TYPE_SUFFIX)
# Fully qualified class name used by FindClass function, see:
# https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/functions.html#FindClass
self.jni_name = "io/fd/vpp/jvpp/%s/types/%s" % (plugin_name, _java_name)
def get_host_to_net_function(self, host_ref_name, net_ref_name):
return "_host_to_net_%s(env, %s, &(%s))" % (self.name, host_ref_name, net_ref_name)
class Field(object):
def __init__(self, name, field_type, array_len=None, array_len_field=None):
self.name = name
self.java_name = _underscore_to_camelcase_lower(name)
self.java_name_upper = _underscore_to_camelcase_upper(name)
self.type = field_type
self.array_len = array_len
self.array_len_field = array_len_field
def __str__(self):
return "Field{name:%s, java_name:%s, type:%s}" % (self.name, self.java_name, self.type)
class Message(object):
def __init__(self, name, crc, fields, definition):
self.name = name
self.java_name_upper = _underscore_to_camelcase_upper(name)
self.java_name_lower = _underscore_to_camelcase_lower(name)
self.crc = crc[2:]
self.fields = fields
self.has_fields = fields != []
self.doc = _message_to_javadoc(definition)
def __str__(self):
return "Message{name:%s, java_name:%s, crc:%s, fields:%s}" % (
self.name, self.java_name_upper, self.crc, self.fields)
class Event(Message):
def __init__(self, name, crc, fields, definition):
super(Event, self).__init__(name, crc, fields, definition)
class Request(Message):
def __init__(self, name, reply, crc, fields, definition):
super(Request, self).__init__(name, crc, fields, definition)
self.reply = reply
self.reply_java = _underscore_to_camelcase_upper(reply)
def __str__(self):
return "Request{name:%s, reply:%s, crc:%s, fields:%s}" % (self.name, self.reply, self.crc, self.fields)
class Reply(Message):
def __init__(self, name, request, crc, fields, definition):
super(Reply, self).__init__(name, crc, fields, definition)
self.request = request
self.request_java = _underscore_to_camelcase_upper(request)
def __str__(self):
return "Reply{name:%s, request:%s, crc:%s, fields:%s}" % (self.name, self.request, self.crc, self.fields)
class Dump(Message):
def __init__(self, name, details, crc, fields, definition):
super(Dump, self).__init__(name, crc, fields, definition)
self.details = details
self.reply_java = _underscore_to_camelcase_upper(details)
def __str__(self):
return "Dump{name:%s, details:%s, crc:%s, fields:%s}" % (self.name, self.details, self.crc, self.fields)
class Details(Message):
def __init__(self, name, dump, crc, fields, definition):
super(Details, self).__init__(name, crc, fields, definition)
self.dump = dump
self.request_java = _underscore_to_camelcase_upper(dump)
def __str__(self):
return "Details{name:%s, dump:%s, crc:%s, fields:%s}" % (self.name, self.dump, self.crc, self.fields)
def is_retval(field):
return field.name == u'retval'
def is_array(field):
return field.array_len is not None
def is_request(msg):
return hasattr(msg, 'reply')
def is_reply(msg):
return hasattr(msg, 'request')
def is_dump(msg):
return hasattr(msg, 'details')
def is_details(msg):
return hasattr(msg, 'dump')
def is_event(msg):
return isinstance(msg, Event)
def is_control_ping(msg):
return msg.name == u'control_ping'
def is_control_ping_reply(msg):
return msg.name == u'control_ping_reply'
def crc(block):
s = str(block).encode()
return binascii.crc32(s) & 0xffffffff
class JVppModel(object):
def __init__(self, logger, json_api_files, plugin_name):
self.logger = logger
# TODO(VPP-1188): provide json_file_by_definition map to improve javadoc
self.json_api_files = json_api_files
self.plugin_package = BASE_PACKAGE + "." + plugin_name
self.plugin_name = plugin_name
self.plugin_java_name = _underscore_to_camelcase_upper(plugin_name)
self._load_json_files(json_api_files)
self._parse_services()
self._parse_messages()
self._validate_messages()
def _load_json_files(self, json_api_files):
types = {}
self._messages = []
self._services = {}
self._aliases = {}
for file_name in json_api_files:
with open(file_name) as f:
j = json.load(f)
types.update({d[0]: {'type': 'enum', 'data': d} for d in j['enums']})
types.update({d[0]: {'type': 'type', 'data': d} for d in j['types']})
types.update({d[0]: {'type': 'union', 'data': d} for d in j['unions']})
self._messages.extend(j['messages'])
self._services.update(j['services'])
self._aliases.update(j['aliases'])
self._parse_types(types)
def _parse_aliases(self, types):
for alias_name in self._aliases:
alias = self._aliases[alias_name]
alias_type = {"type": "type"}
java_name_lower = _underscore_to_camelcase_lower(alias_name)
vpp_type = alias["type"]
crc_value = '0x%08x' % crc(alias_name)
if "length" in alias:
length = alias["length"]
alias_type["data"] = [
alias_name,
[
vpp_type,
java_name_lower,
length
],
{
"crc": crc_value
}
]
else:
alias_type["data"] = [
alias_name,
[
vpp_type,
java_name_lower
],
{
"crc": crc_value
}
]
types[alias_name] = alias_type
def _parse_types(self, types):
self._parse_simple_types()
self._parse_aliases(types)
i = 0
while True:
unresolved = {}
for name, value in types.items():
if name in self._types_by_name:
continue
type = value['type']
data = value['data'][1:]
try:
if type == 'enum':
type = self._parse_enum(name, data)
elif type == 'union':
type = self._parse_union(name, data)
elif type == 'type':
type = self._parse_type(name, data)
else:
self.logger.warning("Unsupported type %s. Ignoring...", type)
continue
self._types_by_name[name] = type
self._types_by_name[name + _ARRAY_SUFFIX] = Array(type)
except ParseException as e:
self.logger.debug("Failed to parse %s type in iteration %s: %s.", name, i, e)
unresolved[name] = value
if len(unresolved) == 0:
break
if i > 3:
raise ParseException('Unresolved type definitions {}'
.format(unresolved))
types = unresolved
i += 1
self.types = self._types_by_name.values()
def _parse_simple_types(self):
# Mapping according to:
# http://docs.oracle.com/javase/7/do+'[]'cs/technotes/guides/jni/spec/types.html
# and
# https://docs.oracle.com/javase/8/docs/technotes/guides/jni/spec/functions.html#Get_type_Field_routines
#
# Unsigned types are converted to signed java types that have the same size.
# It is the API user responsibility to interpret them correctly.
self._types_by_name = OrderedDict({
'u8': SimpleType('u8', 'byte', 'B', 'jbyte', 'Byte'),
'i8': SimpleType('i8', 'byte', 'B', 'jbyte', 'Byte'),
'u16': SimpleType('u16', 'short', 'S', 'jshort', 'Short',
host_to_net_function='clib_host_to_net_u16',
net_to_host_function='clib_net_to_host_u16'),
'i16': SimpleType('i16', 'short', 'S', 'jshort', 'Short',
host_to_net_function='clib_host_to_net_i16',
net_to_host_function='clib_net_to_host_i16'),
'u32': SimpleType('u32', 'int', 'I', 'jint', 'Int',
host_to_net_function='clib_host_to_net_u32',
net_to_host_function='clib_net_to_host_u32'),
'i32': SimpleType('i32', 'int', 'I', 'jint', 'Int',
host_to_net_function='clib_host_to_net_i32',
net_to_host_function='clib_net_to_host_i32'),
'u64': SimpleType('u64', 'long', 'J', 'jlong', 'Long',
host_to_net_function='clib_host_to_net_u64',
net_to_host_function='clib_net_to_host_u64'),
'i64': SimpleType('i64', 'long', 'J', 'jlong', 'Long',
host_to_net_function='clib_host_to_net_i64',
net_to_host_function='clib_net_to_host_i64'),
'f64': SimpleType('f64', 'double', 'D', 'jdouble', 'Double')
})
for n, t in self._types_by_name.items():
self._types_by_name[n + _ARRAY_SUFFIX] = Array(t)
def _parse_enum(self, name, definition):
self.logger.debug("Parsing enum %s: %s", name, definition)
constants = []
type_name = None
for item in definition:
if type(item) is dict and 'enumtype' in item:
type_name = item['enumtype']
continue
constants.append({'name': item[0], 'value': item[1]})
if not type_name:
raise ParseException("'enumtype' was not defined for %s" % definition)
return Enum(name, Field('value', self._types_by_name[type_name]), constants, definition, self.plugin_name)
def _parse_union(self, name, definition):
self.logger.debug("Parsing union %s: %s", name, definition)
crc, fields = self._parse_fields(definition)
return Union(name, crc, fields, definition, self.plugin_name)
def _parse_type(self, name, definition):
self.logger.debug("Parsing type %s: %s", name, definition)
crc, fields = self._parse_fields(definition)
return Class(name, crc, fields, definition, self.plugin_name)
def _parse_services(self):
self._dumps_by_details = {}
self._requests_by_reply = {}
for name, service in self._services.iteritems():
if _is_stream(service):
self._dumps_by_details[service['reply']] = name
else:
self._requests_by_reply[service['reply']] = name
def _parse_messages(self):
# Preserve ordering from JSON file to make debugging easier.
self._messages_by_name = OrderedDict()
for msg in self._messages:
try:
name = msg[0]
definition = msg[1:]
self._messages_by_name[name] = self._parse_message(name, definition)
except ParseException as e:
self.logger.warning("Failed to parse message %s: %s. Skipping message.", name, e)
def _parse_message(self, name, definition):
self.logger.debug("Parsing message %s: %s", name, definition)
crc, fields = self._parse_fields(definition)
if name in self._services:
service = self._services[name]
reply = service['reply']
if _is_stream(service):
return Dump(name, reply, crc, filter(_is_request_field, fields), definition)
if reply:
return Request(name, reply, crc, filter(_is_request_field, fields), definition)
else:
return Event(name, crc, filter(_is_request_field, fields), definition)
elif name in self._requests_by_reply:
return Reply(name, self._requests_by_reply[name], crc, filter(_is_reply_field, fields), definition)
elif name in self._dumps_by_details:
return Details(name, self._dumps_by_details[name], crc, filter(_is_reply_field, fields), definition)
else:
# TODO: some messages like combined_counters are not visible in the services.
# Throw exception instead (requires fixing vppagigen).
return Event(name, crc, filter(_is_request_field, fields), definition)
def _parse_fields(self, definition):
crc = None
fields = []
for item in definition:
if type(item) == dict and 'crc' in item:
crc = item['crc']
else:
fields.append(self._parse_field(item, fields))
if not crc:
raise ParseException("CRC was not defined for %s" % definition)
return crc, fields
def _parse_field(self, field, fields):
type_name = _extract_type_name(field[0])
if type_name in self._types_by_name:
if len(field) > 2:
# Array field
array_len_field = None
if len(field) == 4:
for f in fields:
if f.name == field[3]:
array_len_field = f
if not array_len_field:
raise ParseException("Could not find field %s declared as length of array %s",
field[3], field[1])
return Field(field[1], self._types_by_name[type_name + _ARRAY_SUFFIX], field[2], array_len_field)
else:
return Field(field[1], self._types_by_name[type_name])
else:
raise ParseException("Unknown field type %s" % field)
def _validate_messages(self):
"""
In case if message A is known to be reply for message B, and message B was not correctly parsed,
remove message A from the set of all messages.
"""
to_be_removed = []
messages = self._messages_by_name
for name, msg in messages.iteritems():
if (is_request(msg) and msg.reply not in messages) \
or (is_reply(msg) and msg.request not in messages) \
or (is_dump(msg) and msg.details not in messages) \
or (is_details(msg) and msg.dump not in messages):
to_be_removed.append(name)
for name in to_be_removed:
del messages[name]
self.messages = self._messages_by_name.values()
_ARRAY_SUFFIX = '[]'
def _underscore_to_camelcase_upper(name):
return name.title().replace("_", "")
def _underscore_to_camelcase_lower(name):
name = name.title().replace("_", "")
return name[0].lower() + name[1:]
def _message_to_javadoc(message_definition):
""" Converts JSON message definition to javadoc """
formatted_message = pprint.pformat(message_definition, indent=4, width=120, depth=None)
return " * " + formatted_message.replace("\n", "\n * ")
def _is_stream(service):
"""
Checks if service represents stream, e.g.:
"ip_address_dump": {
"reply": "ip_address_details",
"stream": true
}
:param service: JSON definition of service
:return: value assigned to "stream" or None
"""
return "stream" in service
def _extract_type_name(name):
if name.startswith(_VPP_TYPE_PREFIX) and name.endswith(_VPP_TYPE_SUFFIX):
return name[len(_VPP_TYPE_PREFIX): - len(_VPP_TYPE_SUFFIX)]
return name
_VPP_TYPE_PREFIX = "vl_api_"
_VPP_TYPE_SUFFIX = "_t"
def _is_request_field(field):
# Skip fields that are hidden to the jvpp user (handled by JNI layer)
return field.name not in {'_vl_msg_id', 'client_index', 'context'}
def _is_reply_field(field):
# Skip fields that are hidden to the jvpp user:
# _vl_msg_id is handled at JNI layer,
# Unlike in the request case, context is visible to allow matching replies with requests at Java layer.
return field.name not in {'_vl_msg_id'}