blob: cc3e635790ffd9f8d41d96c0286bbdfabdf93605 [file] [log] [blame]
# Copyright 2013, Big Switch Networks, Inc.
#
# LoxiGen is licensed under the Eclipse Public License, version 1.0 (EPL), with
# the following special exception:
#
# LOXI Exception
#
# As a special exception to the terms of the EPL, you may distribute libraries
# generated by LoxiGen (LoxiGen Libraries) under the terms of your choice, provided
# that copyright and licensing notices generated by LoxiGen are not altered or removed
# from the LoxiGen Libraries and the notice provided below is (i) included in
# the LoxiGen Libraries, if distributed in source code form and (ii) included in any
# documentation for the LoxiGen Libraries, if distributed in binary form.
#
# Notice: "Copyright 2013, Big Switch Networks, Inc. This library was generated by the LoxiGen Compiler."
#
# You may not use this file except in compliance with the EPL or LOXI Exception. You may obtain
# a copy of the EPL at:
#
# http://www.eclipse.org/legal/epl-v10.html
#
# 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
# EPL for the specific language governing permissions and limitations
# under the EPL.
"""
@brief Utilities involving LOXI naming conventions
Utility functions for OpenFlow class generation
These may need to be sorted out into language specific functions
"""
import of_g
import tenjin
def class_signature(members):
"""
Generate a signature string for a class in canonical form
@param cls The class whose signature is to be generated
"""
return ";".join([",".join([x["m_type"], x["name"], str(x["offset"])])
for x in members])
def type_dec_to_count_base(m_type):
"""
Resolve a type declaration like uint8_t[4] to a count (4) and base_type
(uint8_t)
@param m_type The string type declaration to process
"""
count = 1
chk_ar = m_type.split('[')
if len(chk_ar) > 1:
count_str = chk_ar[1].split(']')[0]
if count_str in of_g.ofp_constants:
count = of_g.ofp_constants[count_str]
else:
count = int(count_str)
base_type = chk_ar[0]
else:
base_type = m_type
return count, base_type
##
# Class types:
#
# Virtual
# A virtual class is one which does not have an explicit wire
# representation. For example, an inheritance super class
# or a list type.
#
# List
# A list of objects of some other type
#
# TLV16
# The wire represenation starts with 16-bit type and length fields
#
# OXM
# An extensible match object
#
# Message
# A top level OpenFlow message
#
#
def class_is_message(cls):
"""
Return True if cls is a message object based on info in unified
"""
return "xid" in of_g.unified[cls]["union"] and cls != "of_header"
def class_is_tlv16(cls):
"""
Return True if cls_name is an object which uses uint16 for type and length
"""
if cls.find("of_action") == 0: # Includes of_action_id classes
return True
if cls.find("of_instruction") == 0:
return True
if cls.find("of_queue_prop") == 0:
return True
if cls.find("of_table_feature_prop") == 0:
return True
# *sigh*
if cls.find("of_meter_band_stats") == 0: # NOT A TLV
return False
if cls.find("of_meter_band") == 0:
return True
if cls.find("of_hello_elem") == 0:
return True
if cls == "of_match_v3":
return True
if cls == "of_match_v4":
return True
return False
def class_is_u16_len(cls):
"""
Return True if cls_name is an object which uses initial uint16 length
"""
return cls in ["of_group_desc_stats_entry", "of_group_stats_entry",
"of_flow_stats_entry", "of_bucket", "of_table_features"]
def class_is_oxm(cls):
"""
Return True if cls_name is an OXM object
"""
if cls.find("of_oxm") == 0:
return True
return False
def class_is_action(cls):
"""
Return True if cls_name is an action object
Note that action_id is not an action object, though it has
the same header. It looks like an action header, but the type
is used to identify a kind of action, it does not indicate the
type of the object following.
"""
if cls.find("of_action_id") == 0:
return False
if cls.find("of_action") == 0:
return True
# For each vendor, check for vendor specific action
for exp in of_g.experimenter_name_to_id:
if cls.find("of_action" + exp) == 0:
return True
return False
def class_is_action_id(cls):
"""
Return True if cls_name is an action object
Note that action_id is not an action object, though it has
the same header. It looks like an action header, but the type
is used to identify a kind of action, it does not indicate the
type of the object following.
"""
if cls.find("of_action_id") == 0:
return True
# For each vendor, check for vendor specific action
for exp in of_g.experimenter_name_to_id:
if cls.find("of_action_id_" + exp) == 0:
return True
return False
def class_is_instruction(cls):
"""
Return True if cls_name is an instruction object
"""
if cls.find("of_instruction") == 0:
return True
# For each vendor, check for vendor specific action
for exp in of_g.experimenter_name_to_id:
if cls.find("of_instruction_" + exp) == 0:
return True
return False
def class_is_meter_band(cls):
"""
Return True if cls_name is an instruction object
"""
# meter_band_stats is not a member of meter_band class hierarchy
if cls.find("of_meter_band_stats") == 0:
return False
if cls.find("of_meter_band") == 0:
return True
return False
def class_is_hello_elem(cls):
"""
Return True if cls_name is an instruction object
"""
if cls.find("of_hello_elem") == 0:
return True
return False
def class_is_queue_prop(cls):
"""
Return True if cls_name is a queue_prop object
"""
if cls.find("of_queue_prop") == 0:
return True
# For each vendor, check for vendor specific action
for exp in of_g.experimenter_name_to_id:
if cls.find("of_queue_prop_" + exp) == 0:
return True
return False
def class_is_table_feature_prop(cls):
"""
Return True if cls_name is a queue_prop object
"""
if cls.find("of_table_feature_prop") == 0:
return True
return False
def class_is_stats_message(cls):
"""
Return True if cls_name is a message object based on info in unified
"""
return "stats_type" in of_g.unified[cls]["union"]
def class_is_list(cls):
"""
Return True if cls_name is a list object
"""
return (cls.find("of_list_") == 0)
def type_is_of_object(m_type):
"""
Return True if m_type is an OF object type
"""
# Remove _t from the type id and see if key for unified class
if m_type[-2:] == "_t":
m_type = m_type[:-2]
return m_type in of_g.unified
def list_to_entry_type(cls):
"""
Return the entry type for a list
"""
slen = len("of_list_")
return "of_" + cls[slen:]
def type_to_short_name(m_type):
if m_type in of_g.of_base_types:
tname = of_g.of_base_types[m_type]["short_name"]
elif m_type in of_g.of_mixed_types:
tname = of_g.of_mixed_types[m_type]["short_name"]
else:
tname = "unknown"
return tname
def type_to_name_type(cls, member_name):
"""
Generate the root name of a member for accessor functions, etc
@param cls The class name
@param member_name The member name
"""
members = of_g.unified[cls]["union"]
if not member_name in members:
debug("Error: %s is not in class %s for acc_name defn" %
(member_name, cls))
os.exit()
mem = members[member_name]
m_type = mem["m_type"]
id = mem["memid"]
tname = type_to_short_name(m_type)
return "o%d_m%d_%s" % (of_g.unified[cls]["object_id"], id, tname)
def member_to_index(m_name, members):
"""
Given a member name, return the index in the members dict
@param m_name The name of the data member to search for
@param members The dict of members
@return Index if found, -1 not found
Note we could generate an index when processing the original input
"""
count = 0
for d in members:
if d["name"] == m_name:
return count
count += 1
return -1
def member_base_type(cls, m_name):
"""
Map a member to its of_ type
@param cls The class name
@param m_name The name of the member being gotten
@return The of_ type of the member
"""
rv = of_g.unified[cls]["union"][m_name]["m_type"]
if rv[-2:] == "_t":
return rv
return rv + "_t"
def member_type_is_octets(cls, m_name):
return member_base_type(cls, m_name) == "of_octets_t"
def member_returns_val(cls, m_name):
"""
Should get accessor return a value rather than void
@param cls The class name
@param m_name The member name
@return True if of_g config and the specific member allow a
return value. Otherwise False
"""
m_type = of_g.unified[cls]["union"][m_name]["m_type"]
return (config_check("get_returns") =="value" and
m_type in of_g.of_scalar_types)
def config_check(str, dictionary = of_g.code_gen_config):
"""
Return config value if in dictionary; else return False.
@param str The lookup index
@param dictionary The dict to check; use code_gen_config if None
"""
if str in dictionary:
return dictionary[str]
return False
def h_file_to_define(name):
"""
Convert a .h file name to the define used for the header
"""
h_name = name[:-2].upper()
h_name = "_" + h_name + "_H_"
return h_name
def type_to_cof_type(m_type):
if m_type in of_g.of_base_types:
if "cof_type" in of_g.of_base_types[m_type]:
return of_g.of_base_types[m_type]["cof_type"]
return m_type
def member_is_scalar(cls, m_name):
return of_g.unified[cls]["union"][m_name]["m_type"] in of_g.of_scalar_types
def type_is_scalar(m_type):
return m_type in of_g.of_scalar_types
def skip_member_name(name):
return name.find("pad") == 0 or name in of_g.skip_members
def enum_name(cls):
"""
Return the name used for an enum identifier for the given class
@param cls The class name
"""
return cls.upper()
def class_in_version(cls, ver):
"""
Return boolean indicating if cls is defined for wire version ver
"""
return (cls, ver) in of_g.base_length
def instance_to_class(instance, parent):
"""
Return the name of the class for an instance of inheritance type parent
"""
return parent + "_" + instance
def sub_class_to_var_name(cls):
"""
Given a subclass name like of_action_output, generate the
name of a variable like 'output'
@param cls The class name
"""
pass
def class_is_var_len(cls, version):
# Match is special case. Only version 1.2 (wire version 3) is var
if cls == "of_match":
return version == 3
return not (cls, version) in of_g.is_fixed_length
def base_type_to_length(base_type, version):
if base_type + "_t" in of_g.of_base_types:
inst_len = of_g.of_base_types[base_type + "_t"]["bytes"]
else:
inst_len = of_g.base_length[(base_type, version)]
def version_to_name(version):
"""
Convert an integer version to the C macro name
"""
return "OF_" + of_g.version_names[version]
##
# Is class a flow modify of some sort?
def cls_is_flow_mod(cls):
return cls in ["of_flow_modify", "of_flow_add", "of_flow_delete",
"of_flow_modify_strict", "of_flow_delete_strict"]
def all_member_types_get(cls, version):
"""
Get the members and list of types for members of a given class
@param cls The class name to process
@param version The version for the class
"""
member_types = []
if not version in of_g.unified[cls]:
return ([], [])
if "use_version" in of_g.unified[cls][version]:
v = of_g.unified[cls][version]["use_version"]
members = of_g.unified[cls][v]["members"]
else:
members = of_g.unified[cls][version]["members"]
# Accumulate variables that are supported
for member in members:
m_type = member["m_type"]
m_name = member["name"]
if skip_member_name(m_name):
continue
if not m_type in member_types:
member_types.append(m_type)
return (members, member_types)
def list_name_extract(list_type):
"""
Return the base name for a list object of the given type
@param list_type The type of the list as appears in the input,
for example list(of_port_desc_t).
@return A pair, (list-name, base-type) where list-name is the
base name for the list, for example of_list_port_desc, and base-type
is the type of list elements like of_port_desc_t
"""
base_type = list_type[5:-1]
list_name = base_type
if list_name.find("of_") == 0:
list_name = list_name[3:]
if list_name[-2:] == "_t":
list_name = list_name[:-2]
list_name = "of_list_" + list_name
return (list_name, base_type)
def version_to_name(version):
"""
Convert an integer version to the C macro name
"""
return "OF_" + of_g.version_names[version]
def gen_c_copy_license(out):
"""
Generate the top comments for copyright and license
"""
out.write("""\
/* Copyright (c) 2008 The Board of Trustees of The Leland Stanford Junior University */
/* Copyright (c) 2011, 2012 Open Networking Foundation */
/* Copyright (c) 2012, 2013 Big Switch Networks, Inc. */
""")
def accessor_returns_error(a_type, m_type):
is_var_len = (not type_is_scalar(m_type)) and \
[x for x in of_g.of_version_range if class_is_var_len(m_type[:-2], x)] != []
if a_type == "set" and is_var_len:
return True
elif m_type == "of_match_t":
return True
else:
return False
def render_template(out, name, path, context):
"""
Render a template using tenjin.
out: a file-like object
name: name of the template
path: array of directories to search for the template
context: dictionary of variables to pass to the template
"""
pp = [ tenjin.PrefixedLinePreprocessor() ] # support "::" syntax
template_globals = { "to_str": str, "escape": str } # disable HTML escaping
engine = tenjin.Engine(path=path, pp=pp)
out.write(engine.render(name, context, template_globals))
def render_static(out, name, path):
"""
Write out a static template.
out: a file-like object
name: name of the template
path: array of directories to search for the template
"""
# Reuse the tenjin logic for finding the template
template_filename = tenjin.FileSystemLoader().find(name, path)
if not template_filename:
raise ValueError("template %s not found" % name)
with open(template_filename) as infile:
out.write(infile.read())