blob: a5d0714777e2d82eebf898ea80de80223e9684ae [file] [log] [blame]
#!/usr/bin/env python3
import sys
import argparse
import keyword
import logging
import binascii
import os
from subprocess import Popen, PIPE
import ply.lex as lex
import ply.yacc as yacc
assert sys.version_info >= (3, 5), \
"Not supported Python version: {}".format(sys.version)
log = logging.getLogger('vppapigen')
# Ensure we don't leave temporary files around
sys.dont_write_bytecode = True
#
# VPP API language
#
# Global dictionary of new types (including enums)
global_types = {}
seen_imports = {}
def global_type_add(name, obj):
'''Add new type to the dictionary of types '''
type_name = 'vl_api_' + name + '_t'
if type_name in global_types:
raise KeyError("Attempted redefinition of {!r} with {!r}.".format(
name, obj))
global_types[type_name] = obj
# All your trace are belong to us!
def exception_handler(exception_type, exception, traceback):
print("%s: %s" % (exception_type.__name__, exception))
#
# Lexer
#
class VPPAPILexer:
def __init__(self, filename):
self.filename = filename
reserved = {
'service': 'SERVICE',
'rpc': 'RPC',
'returns': 'RETURNS',
'null': 'NULL',
'stream': 'STREAM',
'events': 'EVENTS',
'define': 'DEFINE',
'typedef': 'TYPEDEF',
'enum': 'ENUM',
'enumflag': 'ENUMFLAG',
'typeonly': 'TYPEONLY',
'manual_print': 'MANUAL_PRINT',
'manual_endian': 'MANUAL_ENDIAN',
'dont_trace': 'DONT_TRACE',
'autoreply': 'AUTOREPLY',
'autoendian': 'AUTOENDIAN',
'option': 'OPTION',
'u8': 'U8',
'u16': 'U16',
'u32': 'U32',
'u64': 'U64',
'i8': 'I8',
'i16': 'I16',
'i32': 'I32',
'i64': 'I64',
'f64': 'F64',
'bool': 'BOOL',
'string': 'STRING',
'import': 'IMPORT',
'true': 'TRUE',
'false': 'FALSE',
'union': 'UNION',
'counters': 'COUNTERS',
'paths': 'PATHS',
'units': 'UNITS',
'severity': 'SEVERITY',
'type': 'TYPE',
'description': 'DESCRIPTION',
}
tokens = ['STRING_LITERAL',
'ID', 'NUM'] + list(reserved.values())
t_ignore_LINE_COMMENT = '//.*'
def t_FALSE(self, t):
r'false'
t.value = False
return t
def t_TRUE(self, t):
r'false'
t.value = True
return t
def t_NUM(self, t):
r'0[xX][0-9a-fA-F]+|-?\d+\.?\d*'
base = 16 if t.value.startswith('0x') else 10
if '.' in t.value:
t.value = float(t.value)
else:
t.value = int(t.value, base)
return t
def t_ID(self, t):
r'[a-zA-Z_][a-zA-Z_0-9]*'
# Check for reserved words
t.type = VPPAPILexer.reserved.get(t.value, 'ID')
return t
# C string
def t_STRING_LITERAL(self, t):
r'\"([^\\\n]|(\\.))*?\"'
t.value = str(t.value).replace("\"", "")
return t
# C or C++ comment (ignore)
def t_comment(self, t):
r'(/\*(.|\n)*?\*/)|(//.*)'
t.lexer.lineno += t.value.count('\n')
# Error handling rule
def t_error(self, t):
raise ParseError("Illegal character '{}' ({})"
"in {}: line {}".format(t.value[0],
hex(ord(t.value[0])),
self.filename,
t.lexer.lineno))
# Define a rule so we can track line numbers
def t_newline(self, t):
r'\n+'
t.lexer.lineno += len(t.value)
literals = ":{}[];=.,"
# A string containing ignored characters (spaces and tabs)
t_ignore = ' \t'
def vla_mark_length_field(block):
if isinstance(block[-1], Array):
lengthfield = block[-1].lengthfield
for b in block:
if b.fieldname == lengthfield:
b.is_lengthfield = True
def vla_is_last_check(name, block):
vla = False
for i, b in enumerate(block):
if isinstance(b, Array) and b.vla:
vla = True
if i + 1 < len(block):
raise ValueError(
'VLA field "{}" must be the last field in message "{}"'
.format(b.fieldname, name))
elif b.fieldtype.startswith('vl_api_'):
if global_types[b.fieldtype].vla:
vla = True
if i + 1 < len(block):
raise ValueError(
'VLA field "{}" must be the last '
'field in message "{}"'
.format(b.fieldname, name))
elif b.fieldtype == 'string' and b.length == 0:
vla = True
if i + 1 < len(block):
raise ValueError(
'VLA field "{}" must be the last '
'field in message "{}"'
.format(b.fieldname, name))
return vla
class Processable:
type = "<Invalid>"
def process(self, result): # -> Dict
result[self.type].append(self)
class Service(Processable):
type = 'Service'
def __init__(self, caller, reply, events=None, stream_message=None,
stream=False):
self.caller = caller
self.reply = reply
self.stream = stream
self.stream_message = stream_message
self.events = [] if events is None else events
class Typedef(Processable):
type = 'Typedef'
def __init__(self, name, flags, block):
self.name = name
self.flags = flags
self.block = block
self.crc = str(block).encode()
self.manual_print = False
self.manual_endian = False
for f in flags:
if f == 'manual_print':
self.manual_print = True
elif f == 'manual_endian':
self.manual_endian = True
global_type_add(name, self)
self.vla = vla_is_last_check(name, block)
vla_mark_length_field(self.block)
def process(self, result):
result['types'].append(self)
def __repr__(self):
return self.name + str(self.flags) + str(self.block)
class Using(Processable):
type = 'Using'
def __init__(self, name, flags, alias):
self.name = name
self.vla = False
self.block = []
self.manual_print = True
self.manual_endian = True
self.manual_print = False
self.manual_endian = False
for f in flags:
if f == 'manual_print':
self.manual_print = True
elif f == 'manual_endian':
self.manual_endian = True
if isinstance(alias, Array):
a = {'type': alias.fieldtype,
'length': alias.length}
else:
a = {'type': alias.fieldtype}
self.alias = a
self.using = alias
#
# Should have been:
# self.crc = str(alias).encode()
# but to be backwards compatible use the block ([])
#
self.crc = str(self.block).encode()
global_type_add(name, self)
def process(self, result): # -> Dict
result['types'].append(self)
def __repr__(self):
return self.name + str(self.alias)
class Union(Processable):
type = 'Union'
def __init__(self, name, flags, block):
self.manual_print = False
self.manual_endian = False
self.name = name
for f in flags:
if f == 'manual_print':
self.manual_print = True
elif f == 'manual_endian':
self.manual_endian = True
self.block = block
self.crc = str(block).encode()
self.vla = vla_is_last_check(name, block)
global_type_add(name, self)
def process(self, result):
result['types'].append(self)
def __repr__(self):
return str(self.block)
class Define(Processable):
type = 'Define'
def __init__(self, name, flags, block):
self.name = name
self.flags = flags
self.block = block
self.dont_trace = False
self.manual_print = False
self.manual_endian = False
self.autoreply = False
self.autoendian = 0
self.options = {}
for f in flags:
if f == 'dont_trace':
self.dont_trace = True
elif f == 'manual_print':
self.manual_print = True
elif f == 'manual_endian':
self.manual_endian = True
elif f == 'autoreply':
self.autoreply = True
elif f == 'autoendian':
self.autoendian = 1
remove = []
for b in block:
if isinstance(b, Option):
self.options[b.option] = b.value
remove.append(b)
block = [x for x in block if x not in remove]
self.block = block
self.vla = vla_is_last_check(name, block)
vla_mark_length_field(self.block)
self.crc = str(block).encode()
def autoreply_block(self, name, parent):
block = [Field('u32', 'context'),
Field('i32', 'retval')]
# inherit the parent's options
for k, v in parent.options.items():
block.append(Option(k, v))
return Define(name + '_reply', [], block)
def process(self, result): # -> Dict
tname = self.__class__.__name__
result[tname].append(self)
if self.autoreply:
result[tname].append(self.autoreply_block(self.name, self))
def __repr__(self):
return self.name + str(self.flags) + str(self.block)
class Enum(Processable):
type = 'Enum'
def __init__(self, name, block, enumtype='u32'):
self.name = name
self.enumtype = enumtype
self.vla = False
self.manual_print = False
count = 0
block2 = []
block3 = []
bc_set = False
for b in block:
if 'value' in b:
count = b['value']
else:
count += 1
block2.append([b['id'], count])
try:
if b['option']['backwards_compatible']:
pass
bc_set = True
except KeyError:
block3.append([b['id'], count])
if bc_set:
raise ValueError("Backward compatible enum must "
"be last {!r} {!r}"
.format(name, b['id']))
self.block = block2
self.crc = str(block3).encode()
global_type_add(name, self)
def process(self, result):
result['types'].append(self)
def __repr__(self):
return self.name + str(self.block)
class EnumFlag(Enum):
type = 'EnumFlag'
def __init__(self, name, block, enumtype='u32'):
super(EnumFlag, self).__init__(name, block, enumtype)
for b in self.block:
if bin(b[1])[2:].count("1") > 1:
raise TypeError("%s is not a flag enum. No element in a "
"flag enum may have more than a "
"single bit set." % self.name)
class Import(Processable):
type = 'Import'
_initialized = False
def __new__(cls, *args, **kwargs):
if args[0] not in seen_imports:
instance = super().__new__(cls)
instance._initialized = False
seen_imports[args[0]] = instance
return seen_imports[args[0]]
def __init__(self, filename, revision):
if self._initialized:
return
self.filename = filename
# Deal with imports
parser = VPPAPI(filename=filename, revision=revision)
dirlist = dirlist_get()
f = filename
for dir in dirlist:
f = os.path.join(dir, filename)
if os.path.exists(f):
break
self.result = parser.parse_filename(f, None)
self._initialized = True
def __repr__(self):
return self.filename
class Option(Processable):
type = 'Option'
def __init__(self, option, value=None):
self.option = option
self.value = value
self.crc = str(option).encode()
def process(self, result): # -> Dict
result[self.type][self.option] = self.value
def __repr__(self):
return str(self.option)
def __getitem__(self, index):
return self.option[index]
class Array(Processable):
type = 'Array'
def __init__(self, fieldtype, name, length, modern_vla=False):
self.fieldtype = fieldtype
self.fieldname = name
self.modern_vla = modern_vla
if type(length) is str:
self.lengthfield = length
self.length = 0
self.vla = True
else:
self.length = length
self.lengthfield = None
self.vla = False
def __repr__(self):
return str([self.fieldtype, self.fieldname, self.length,
self.lengthfield])
class Field(Processable):
type = 'Field'
def __init__(self, fieldtype, name, limit=None):
# limit field has been expanded to an options dict.
self.fieldtype = fieldtype
self.is_lengthfield = False
if self.fieldtype == 'string':
raise ValueError("The string type {!r} is an "
"array type ".format(name))
if name in keyword.kwlist:
raise ValueError("Fieldname {!r} is a python keyword and is not "
"accessible via the python API. ".format(name))
self.fieldname = name
self.limit = limit
def __repr__(self):
return str([self.fieldtype, self.fieldname])
class Counter(Processable):
type = 'Counter'
def __init__(self, path, counter):
self.name = path
self.block = counter
def process(self, result): # -> Dict
result['Counters'].append(self)
class Paths(Processable):
type = 'Paths'
def __init__(self, pathset):
self.paths = pathset
def __repr__(self):
return "%s(paths=%s)" % (
self.__class__.__name__, self.paths
)
class Coord:
""" Coordinates of a syntactic element. Consists of:
- File name
- Line number
- (optional) column number, for the Lexer
"""
__slots__ = ('file', 'line', 'column', '__weakref__')
def __init__(self, file, line, column=None):
self.file = file
self.line = line
self.column = column
def __str__(self):
str = "%s:%s" % (self.file, self.line)
if self.column:
str += ":%s" % self.column
return str
class ParseError(Exception):
pass
#
# Grammar rules
#
class VPPAPIParser:
tokens = VPPAPILexer.tokens
def __init__(self, filename, logger, revision=None):
self.filename = filename
self.logger = logger
self.fields = []
self.revision = revision
def _parse_error(self, msg, coord):
raise ParseError("%s: %s" % (coord, msg))
def _parse_warning(self, msg, coord):
if self.logger:
self.logger.warning("%s: %s" % (coord, msg))
def _coord(self, lineno, column=None):
return Coord(
file=self.filename,
line=lineno, column=column)
def _token_coord(self, p, token_idx):
""" Returns the coordinates for the YaccProduction object 'p' indexed
with 'token_idx'. The coordinate includes the 'lineno' and
'column'. Both follow the lex semantic, starting from 1.
"""
last_cr = p.lexer.lexdata.rfind('\n', 0, p.lexpos(token_idx))
if last_cr < 0:
last_cr = -1
column = (p.lexpos(token_idx) - (last_cr))
return self._coord(p.lineno(token_idx), column)
def p_slist(self, p):
'''slist : stmt
| slist stmt'''
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[2]]
def p_stmt(self, p):
'''stmt : define
| typedef
| option
| import
| enum
| enumflag
| union
| service
| paths
| counters'''
p[0] = p[1]
def p_import(self, p):
'''import : IMPORT STRING_LITERAL ';' '''
p[0] = Import(p[2], revision=self.revision)
def p_path_elements(self, p):
'''path_elements : path_element
| path_elements path_element'''
if len(p) == 2:
p[0] = p[1]
else:
if type(p[1]) is dict:
p[0] = [p[1], p[2]]
else:
p[0] = p[1] + [p[2]]
def p_path_element(self, p):
'''path_element : STRING_LITERAL STRING_LITERAL ';' '''
p[0] = {'path': p[1], 'counter': p[2]}
def p_paths(self, p):
'''paths : PATHS '{' path_elements '}' ';' '''
p[0] = Paths(p[3])
def p_counters(self, p):
'''counters : COUNTERS ID '{' counter_elements '}' ';' '''
p[0] = Counter(p[2], p[4])
def p_counter_elements(self, p):
'''counter_elements : counter_element
| counter_elements counter_element'''
if len(p) == 2:
p[0] = [p[1]]
else:
if type(p[1]) is dict:
p[0] = [p[1], p[2]]
else:
p[0] = p[1] + [p[2]]
def p_counter_element(self, p):
'''counter_element : ID '{' counter_statements '}' ';' '''
p[0] = {**{'name': p[1]}, **p[3]}
def p_counter_statements(self, p):
'''counter_statements : counter_statement
| counter_statements counter_statement'''
if len(p) == 2:
p[0] = p[1]
else:
p[0] = {**p[1], **p[2]}
def p_counter_statement(self, p):
'''counter_statement : SEVERITY ID ';'
| UNITS STRING_LITERAL ';'
| DESCRIPTION STRING_LITERAL ';'
| TYPE ID ';' '''
p[0] = {p[1]: p[2]}
def p_service(self, p):
'''service : SERVICE '{' service_statements '}' ';' '''
p[0] = p[3]
def p_service_statements(self, p):
'''service_statements : service_statement
| service_statements service_statement'''
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[2]]
def p_service_statement(self, p):
'''service_statement : RPC ID RETURNS NULL ';'
| RPC ID RETURNS ID ';'
| RPC ID RETURNS STREAM ID ';'
| RPC ID RETURNS ID EVENTS event_list ';' '''
if p[2] == p[4]:
# Verify that caller and reply differ
self._parse_error(
'Reply ID ({}) should not be equal to Caller ID'.format(p[2]),
self._token_coord(p, 1))
if len(p) == 8:
p[0] = Service(p[2], p[4], p[6])
elif len(p) == 7:
p[0] = Service(p[2], p[5], stream=True)
else:
p[0] = Service(p[2], p[4])
def p_service_statement2(self, p):
'''service_statement : RPC ID RETURNS ID STREAM ID ';' '''
p[0] = Service(p[2], p[4], stream_message=p[6], stream=True)
def p_event_list(self, p):
'''event_list : events
| event_list events '''
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[2]]
def p_event(self, p):
'''events : ID
| ID ',' '''
p[0] = p[1]
def p_enum(self, p):
'''enum : ENUM ID '{' enum_statements '}' ';' '''
p[0] = Enum(p[2], p[4])
def p_enum_type(self, p):
''' enum : ENUM ID ':' enum_size '{' enum_statements '}' ';' '''
if len(p) == 9:
p[0] = Enum(p[2], p[6], enumtype=p[4])
else:
p[0] = Enum(p[2], p[4])
def p_enumflag(self, p):
'''enumflag : ENUMFLAG ID '{' enum_statements '}' ';' '''
p[0] = EnumFlag(p[2], p[4])
def p_enumflag_type(self, p):
''' enumflag : ENUMFLAG ID ':' enumflag_size '{' enum_statements '}' ';' ''' # noqa : E502
if len(p) == 9:
p[0] = EnumFlag(p[2], p[6], enumtype=p[4])
else:
p[0] = EnumFlag(p[2], p[4])
def p_enum_size(self, p):
''' enum_size : U8
| U16
| U32
| I8
| I16
| I32 '''
p[0] = p[1]
def p_enumflag_size(self, p):
''' enumflag_size : U8
| U16
| U32 '''
p[0] = p[1]
def p_define(self, p):
'''define : DEFINE ID '{' block_statements_opt '}' ';' '''
self.fields = []
p[0] = Define(p[2], [], p[4])
def p_define_flist(self, p):
'''define : flist DEFINE ID '{' block_statements_opt '}' ';' '''
# Legacy typedef
if 'typeonly' in p[1]:
self._parse_error('legacy typedef. use typedef: {} {}[{}];'
.format(p[1], p[2], p[4]),
self._token_coord(p, 1))
else:
p[0] = Define(p[3], p[1], p[5])
def p_flist(self, p):
'''flist : flag
| flist flag'''
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[2]]
def p_flag(self, p):
'''flag : MANUAL_PRINT
| MANUAL_ENDIAN
| DONT_TRACE
| TYPEONLY
| AUTOENDIAN
| AUTOREPLY'''
if len(p) == 1:
return
p[0] = p[1]
def p_typedef(self, p):
'''typedef : TYPEDEF ID '{' block_statements_opt '}' ';' '''
p[0] = Typedef(p[2], [], p[4])
def p_typedef_flist(self, p):
'''typedef : flist TYPEDEF ID '{' block_statements_opt '}' ';' '''
p[0] = Typedef(p[3], p[1], p[5])
def p_typedef_alias(self, p):
'''typedef : TYPEDEF declaration '''
p[0] = Using(p[2].fieldname, [], p[2])
def p_typedef_alias_flist(self, p):
'''typedef : flist TYPEDEF declaration '''
p[0] = Using(p[3].fieldname, p[1], p[3])
def p_block_statements_opt(self, p):
'''block_statements_opt : block_statements '''
p[0] = p[1]
def p_block_statements(self, p):
'''block_statements : block_statement
| block_statements block_statement'''
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[2]]
def p_block_statement(self, p):
'''block_statement : declaration
| option '''
p[0] = p[1]
def p_enum_statements(self, p):
'''enum_statements : enum_statement
| enum_statements enum_statement'''
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[2]]
def p_enum_statement(self, p):
'''enum_statement : ID '=' NUM ','
| ID ','
| ID '[' field_options ']' ','
| ID '=' NUM '[' field_options ']' ',' '''
if len(p) == 3:
p[0] = {'id': p[1]}
elif len(p) == 5:
p[0] = {'id': p[1], 'value': p[3]}
elif len(p) == 6:
p[0] = {'id': p[1], 'option': p[3]}
elif len(p) == 8:
p[0] = {'id': p[1], 'value': p[3], 'option': p[5]}
else:
self._parse_error('ERROR', self._token_coord(p, 1))
def p_field_options(self, p):
'''field_options : field_option
| field_options field_option'''
if len(p) == 2:
p[0] = p[1]
else:
p[0] = {**p[1], **p[2]}
def p_field_option(self, p):
'''field_option : ID
| ID '=' assignee ','
| ID '=' assignee
'''
if len(p) == 2:
p[0] = {p[1]: None}
else:
p[0] = {p[1]: p[3]}
def p_variable_name(self, p):
'''variable_name : ID
| TYPE
| SEVERITY
| DESCRIPTION
| COUNTERS
| PATHS
'''
p[0] = p[1]
def p_declaration(self, p):
'''declaration : type_specifier variable_name ';'
| type_specifier variable_name '[' field_options ']' ';'
'''
if len(p) == 7:
p[0] = Field(p[1], p[2], p[4])
elif len(p) == 4:
p[0] = Field(p[1], p[2])
else:
self._parse_error('ERROR', self._token_coord(p, 1))
self.fields.append(p[2])
def p_declaration_array_vla(self, p):
'''declaration : type_specifier variable_name '[' ']' ';' '''
p[0] = Array(p[1], p[2], 0, modern_vla=True)
def p_declaration_array(self, p):
'''declaration : type_specifier variable_name '[' NUM ']' ';'
| type_specifier variable_name '[' ID ']' ';' '''
if len(p) != 7:
return self._parse_error(
'array: %s' % p.value,
self._coord(lineno=p.lineno))
# Make this error later
if type(p[4]) is int and p[4] == 0:
# XXX: Line number is wrong
self._parse_warning('Old Style VLA: {} {}[{}];'
.format(p[1], p[2], p[4]),
self._token_coord(p, 1))
if type(p[4]) is str and p[4] not in self.fields:
# Verify that length field exists
self._parse_error('Missing length field: {} {}[{}];'
.format(p[1], p[2], p[4]),
self._token_coord(p, 1))
p[0] = Array(p[1], p[2], p[4])
def p_option(self, p):
'''option : OPTION ID '=' assignee ';'
| OPTION ID ';' '''
if len(p) == 4:
p[0] = Option(p[2])
else:
p[0] = Option(p[2], p[4])
def p_assignee(self, p):
'''assignee : NUM
| TRUE
| FALSE
| STRING_LITERAL '''
p[0] = p[1]
def p_type_specifier(self, p):
'''type_specifier : U8
| U16
| U32
| U64
| I8
| I16
| I32
| I64
| F64
| BOOL
| STRING'''
p[0] = p[1]
# Do a second pass later to verify that user defined types are defined
def p_typedef_specifier(self, p):
'''type_specifier : ID '''
if p[1] not in global_types:
self._parse_error('Undefined type: {}'.format(p[1]),
self._token_coord(p, 1))
p[0] = p[1]
def p_union(self, p):
'''union : UNION ID '{' block_statements_opt '}' ';' '''
p[0] = Union(p[2], [], p[4])
def p_union_flist(self, p):
'''union : flist UNION ID '{' block_statements_opt '}' ';' '''
p[0] = Union(p[3], p[1], p[5])
# Error rule for syntax errors
def p_error(self, p):
if p:
self._parse_error(
'before: %s' % p.value,
self._coord(lineno=p.lineno))
else:
self._parse_error('At end of input', self.filename)
class VPPAPI():
def __init__(self, debug=False, filename='', logger=None, revision=None):
self.lexer = lex.lex(module=VPPAPILexer(filename), debug=debug)
self.parser = yacc.yacc(module=VPPAPIParser(filename, logger,
revision=revision),
write_tables=False, debug=debug)
self.logger = logger
self.revision = revision
self.filename = filename
def parse_string(self, code, debug=0, lineno=1):
self.lexer.lineno = lineno
return self.parser.parse(code, lexer=self.lexer, debug=debug)
def parse_fd(self, fd, debug=0):
data = fd.read()
return self.parse_string(data, debug=debug)
def parse_filename(self, filename, debug=0):
if self.revision:
git_show = 'git show {}:{}'.format(self.revision, filename)
proc = Popen(git_show.split(), stdout=PIPE, encoding='utf-8')
try:
data, errs = proc.communicate()
if proc.returncode != 0:
print('File not found: {}:{}'
.format(self.revision, filename), file=sys.stderr)
sys.exit(2)
return self.parse_string(data, debug=debug)
except Exception:
sys.exit(3)
else:
try:
with open(filename, encoding='utf-8') as fd:
return self.parse_fd(fd, None)
except FileNotFoundError:
print('File not found: {}'.format(filename), file=sys.stderr)
sys.exit(2)
def process(self, objs):
s = {}
s['Option'] = {}
s['Define'] = []
s['Service'] = []
s['types'] = []
s['Import'] = []
s['Counters'] = []
s['Paths'] = []
crc = 0
for o in objs:
try:
crc = binascii.crc32(o.crc, crc) & 0xffffffff
except AttributeError:
pass
if type(o) is list:
for o2 in o:
if isinstance(o2, Service):
o2.process(s)
else:
o.process(s)
msgs = {d.name: d for d in s['Define']}
svcs = {s.caller: s for s in s['Service']}
replies = {s.reply: s for s in s['Service']}
seen_services = {}
s['file_crc'] = crc
for service in svcs:
if service not in msgs:
raise ValueError(
'Service definition refers to unknown message'
' definition: {}'.format(service))
if svcs[service].reply != 'null' and \
svcs[service].reply not in msgs:
raise ValueError('Service definition refers to unknown message'
' definition in reply: {}'
.format(svcs[service].reply))
if service in replies:
raise ValueError('Service definition refers to message'
' marked as reply: {}'.format(service))
for event in svcs[service].events:
if event not in msgs:
raise ValueError('Service definition refers to unknown '
'event: {} in message: {}'
.format(event, service))
seen_services[event] = True
# Create services implicitly
for d in msgs:
if d in seen_services:
continue
if d.endswith('_reply'):
if d[:-6] in svcs:
continue
if d[:-6] not in msgs:
raise ValueError('{} missing calling message'
.format(d))
continue
if d.endswith('_dump'):
if d in svcs:
continue
if d[:-5]+'_details' in msgs:
s['Service'].append(Service(d, d[:-5]+'_details',
stream=True))
else:
raise ValueError('{} missing details message'
.format(d))
continue
if d.endswith('_details'):
if d[:-8]+'_get' in msgs:
if d[:-8]+'_get' in svcs:
continue
raise ValueError('{} should be in a stream service'
.format(d[:-8]+'_get'))
if d[:-8]+'_dump' in msgs:
continue
raise ValueError('{} missing dump or get message'
.format(d))
if d in svcs:
continue
if d+'_reply' in msgs:
s['Service'].append(Service(d, d+'_reply'))
else:
raise ValueError(
'{} missing reply message ({}) or service definition'
.format(d, d+'_reply'))
return s
def process_imports(self, objs, in_import, result): # -> List
for o in objs:
# Only allow the following object types from imported file
if in_import and not isinstance(o, (Enum, Import, Typedef,
Union, Using)):
continue
if isinstance(o, Import):
result.append(o)
result = self.process_imports(o.result, True, result)
else:
result.append(o)
return result
# Add message ids to each message.
def add_msg_id(s):
for o in s:
o.block.insert(0, Field('u16', '_vl_msg_id'))
return s
dirlist = []
def dirlist_add(dirs):
global dirlist
if dirs:
dirlist = dirlist + dirs
def dirlist_get():
return dirlist
def foldup_blocks(block, crc):
for b in block:
# Look up CRC in user defined types
if b.fieldtype.startswith('vl_api_'):
# Recursively
t = global_types[b.fieldtype]
try:
crc = binascii.crc32(t.crc, crc) & 0xffffffff
crc = foldup_blocks(t.block, crc)
except AttributeError:
pass
return crc
# keep the CRCs of the existing types of messages compatible with the
# old "erroneous" way of calculating the CRC. For that - make a pointed
# adjustment of the CRC function.
# This is the purpose of the first element of the per-message dictionary.
# The second element is there to avoid weakening the duplicate-detecting
# properties of crc32. This way, if the new way of calculating the CRC
# happens to collide with the old (buggy) way - we will still get
# a different result and fail the comparison.
fixup_crc_dict = {
"abf_policy_add_del": {0xc6131197: 0xee66f93e},
"abf_policy_details": {0xb7487fa4: 0x6769e504},
"acl_add_replace": {0xee5c2f18: 0x1cabdeab},
"acl_details": {0x95babae0: 0x7a97f21c},
"macip_acl_add": {0xce6fbad0: 0xd648fd0a},
"macip_acl_add_replace": {0x2a461dd4: 0xe34402a7},
"macip_acl_details": {0x27135b59: 0x57c7482f},
"dhcp_proxy_config": {0x4058a689: 0x6767230e},
"dhcp_client_config": {0x1af013ea: 0x959b80a3},
"dhcp_compl_event": {0x554a44e5: 0xe908fd1d},
"dhcp_client_details": {0x3c5cd28a: 0xacd82f5a},
"dhcp_proxy_details": {0xdcbaf540: 0xce16f044},
"dhcp6_send_client_message": {0xf8222476: 0xf6f14ef0},
"dhcp6_pd_send_client_message": {0x3739fd8d: 0x64badb8},
"dhcp6_reply_event": {0x85b7b17e: 0x9f3af9e5},
"dhcp6_pd_reply_event": {0x5e878029: 0xcb3e462b},
"ip6_add_del_address_using_prefix": {0x3982f30a: 0x9b3d11e0},
"gbp_bridge_domain_add": {0x918e8c01: 0x8454bfdf},
"gbp_bridge_domain_details": {0x51d51be9: 0x2acd15f9},
"gbp_route_domain_add": {0x204c79e1: 0x2d0afe38},
"gbp_route_domain_details": {0xa78bfbca: 0x8ab11375},
"gbp_endpoint_add": {0x7b3af7de: 0x9ce16d5a},
"gbp_endpoint_details": {0x8dd8fbd3: 0x8aecb60},
"gbp_endpoint_group_add": {0x301ddf15: 0x8e0f4054},
"gbp_endpoint_group_details": {0xab71d723: 0x8f38292c},
"gbp_subnet_add_del": {0xa8803c80: 0x888aca35},
"gbp_subnet_details": {0xcbc5ca18: 0x4ed84156},
"gbp_contract_add_del": {0xaa8d652d: 0x553e275b},
"gbp_contract_details": {0x65dec325: 0x2a18db6e},
"gbp_ext_itf_add_del": {0x7606d0e1: 0x12ed5700},
"gbp_ext_itf_details": {0x519c3d3c: 0x408a45c0},
"gtpu_add_del_tunnel": {0xca983a2b: 0x9a9c0426},
"gtpu_tunnel_update_tteid": {0x79f33816: 0x8a2db108},
"gtpu_tunnel_details": {0x27f434ae: 0x4535cf95},
"igmp_listen": {0x19a49f1e: 0x3f93a51a},
"igmp_details": {0x38f09929: 0x52f12a89},
"igmp_event": {0x85fe93ec: 0xd7696eaf},
"igmp_group_prefix_set": {0x5b14a5ce: 0xd4f20ac5},
"igmp_group_prefix_details": {0x259ccd81: 0xc3b3c526},
"ikev2_set_responder": {0xb9aa4d4e: 0xf0d3dc80},
"vxlan_gpe_ioam_export_enable_disable": {0xd4c76d3a: 0xe4d4ebfa},
"ioam_export_ip6_enable_disable": {0xd4c76d3a: 0xe4d4ebfa},
"vxlan_gpe_ioam_vni_enable": {0xfbb5fb1: 0x997161fb},
"vxlan_gpe_ioam_vni_disable": {0xfbb5fb1: 0x997161fb},
"vxlan_gpe_ioam_transit_enable": {0x3d3ec657: 0x553f5b7b},
"vxlan_gpe_ioam_transit_disable": {0x3d3ec657: 0x553f5b7b},
"udp_ping_add_del": {0xfa2628fc: 0xc692b188},
"l3xc_update": {0xe96aabdf: 0x787b1d3},
"l3xc_details": {0xbc5bf852: 0xd4f69627},
"sw_interface_lacp_details": {0xd9a83d2f: 0x745ae0ba},
"lb_conf": {0x56cd3261: 0x22ddb739},
"lb_add_del_vip": {0x6fa569c7: 0xd15b7ddc},
"lb_add_del_as": {0x35d72500: 0x78628987},
"lb_vip_dump": {0x56110cb7: 0xc7bcb124},
"lb_vip_details": {0x1329ec9b: 0x8f39bed},
"lb_as_details": {0x8d24c29e: 0x9c39f60e},
"mactime_add_del_range": {0xcb56e877: 0x101858ef},
"mactime_details": {0xda25b13a: 0x44921c06},
"map_add_domain": {0x249f195c: 0x7a5a18c9},
"map_domain_details": {0x796edb50: 0xfc1859dd},
"map_param_add_del_pre_resolve": {0xdae5af03: 0x17008c66},
"map_param_get_reply": {0x26272c90: 0x28092156},
"memif_details": {0xda34feb9: 0xd0382c4c},
"dslite_add_del_pool_addr_range": {0xde2a5b02: 0xc448457a},
"dslite_set_aftr_addr": {0x78b50fdf: 0x1e955f8d},
"dslite_get_aftr_addr_reply": {0x8e23608e: 0x38e30db1},
"dslite_set_b4_addr": {0x78b50fdf: 0x1e955f8d},
"dslite_get_b4_addr_reply": {0x8e23608e: 0x38e30db1},
"nat44_add_del_address_range": {0x6f2b8055: 0xd4c7568c},
"nat44_address_details": {0xd1beac1: 0x45410ac4},
"nat44_add_del_static_mapping": {0x5ae5f03e: 0xe165e83b},
"nat44_static_mapping_details": {0x6cb40b2: 0x1a433ef7},
"nat44_add_del_identity_mapping": {0x2faaa22: 0x8e12743f},
"nat44_identity_mapping_details": {0x2a52a030: 0x36d21351},
"nat44_add_del_interface_addr": {0x4aed50c0: 0xfc835325},
"nat44_interface_addr_details": {0xe4aca9ca: 0x3e687514},
"nat44_user_session_details": {0x2cf6e16d: 0x1965fd69},
"nat44_add_del_lb_static_mapping": {0x4f68ee9d: 0x53b24611},
"nat44_lb_static_mapping_add_del_local": {0x7ca47547: 0x2910a151},
"nat44_lb_static_mapping_details": {0xed5ce876: 0x2267b9e8},
"nat44_del_session": {0x15a5bf8c: 0x4c49c387},
"nat_det_add_del_map": {0x1150a190: 0x112fde05},
"nat_det_map_details": {0xad91dc83: 0x88000ee1},
"nat_det_close_session_out": {0xf6b259d1: 0xc1b6cbfb},
"nat_det_close_session_in": {0x3c68e073: 0xa10ef64},
"nat64_add_del_pool_addr_range": {0xa3b944e3: 0x21234ef3},
"nat64_add_del_static_bib": {0x1c404de5: 0x90fae58a},
"nat64_bib_details": {0x43bc3ddf: 0x62c8541d},
"nat64_st_details": {0xdd3361ed: 0xc770d620},
"nat66_add_del_static_mapping": {0x3ed88f71: 0xfb64e50b},
"nat66_static_mapping_details": {0xdf39654b: 0x5c568448},
"nsh_add_del_map": {0xa0f42b0: 0x898d857d},
"nsh_map_details": {0x2fefcf49: 0xb34ac8a1},
"nsim_cross_connect_enable_disable": {0x9c3ead86: 0x16f70bdf},
"pppoe_add_del_session": {0xf6fd759e: 0x46ace853},
"pppoe_session_details": {0x4b8e8a4a: 0x332bc742},
"stn_add_del_rule": {0x224c6edd: 0x53f751e6},
"stn_rules_details": {0xa51935a6: 0xb0f6606c},
"svs_route_add_del": {0xe49bc63c: 0xd39e31fc},
"svs_details": {0x6282cd55: 0xb8523d64},
"vmxnet3_details": {0x6a1a5498: 0x829ba055},
"vrrp_vr_add_del": {0xc5cf15aa: 0x6dc4b881},
"vrrp_vr_details": {0x46edcebd: 0x412fa71},
"vrrp_vr_set_peers": {0x20bec71f: 0xbaa2e52b},
"vrrp_vr_peer_details": {0x3d99c108: 0xabd9145e},
"vrrp_vr_track_if_add_del": {0xd67df299: 0x337f4ba4},
"vrrp_vr_track_if_details": {0x73c36f81: 0x99bcca9c},
"proxy_arp_add_del": {0x1823c3e7: 0x85486cbd},
"proxy_arp_details": {0x5b948673: 0x9228c150},
"bfd_udp_get_echo_source_reply": {0xe3d736a1: 0x1e00cfce},
"bfd_udp_add": {0x939cd26a: 0x7a6d1185},
"bfd_udp_mod": {0x913df085: 0x783a3ff6},
"bfd_udp_del": {0xdcb13a89: 0x8096514d},
"bfd_udp_session_details": {0x9fb2f2d: 0x60653c02},
"bfd_udp_session_set_flags": {0x4b4bdfd: 0xcf313851},
"bfd_udp_auth_activate": {0x21fd1bdb: 0x493ee0ec},
"bfd_udp_auth_deactivate": {0x9a05e2e0: 0x99978c32},
"bier_route_add_del": {0xfd02f3ea: 0xf29edca0},
"bier_route_details": {0x4008caee: 0x39ee6a56},
"bier_disp_entry_add_del": {0x9eb80cb4: 0x648323eb},
"bier_disp_entry_details": {0x84c218f1: 0xe5b039a9},
"bond_create": {0xf1dbd4ff: 0x48883c7e},
"bond_enslave": {0xe7d14948: 0x76ecfa7},
"sw_interface_bond_details": {0xbb7c929b: 0xf5ef2106},
"pipe_create_reply": {0xb7ce310c: 0xd4c2c2b3},
"pipe_details": {0xc52b799d: 0x43ac107a},
"tap_create_v2": {0x2d0d6570: 0x445835fd},
"sw_interface_tap_v2_details": {0x1e2b2a47: 0xe53c16de},
"sw_interface_vhost_user_details": {0xcee1e53: 0x98530df1},
"virtio_pci_create": {0x1944f8db: 0xa9f1370c},
"sw_interface_virtio_pci_details": {0x6ca9c167: 0x16187f3a},
"p2p_ethernet_add": {0x36a1a6dc: 0xeeb8e717},
"p2p_ethernet_del": {0x62f81c8c: 0xb62c386},
"geneve_add_del_tunnel": {0x99445831: 0x976693b5},
"geneve_tunnel_details": {0x6b16eb24: 0xe27e2748},
"gre_tunnel_add_del": {0xa27d7f17: 0x6efc9c22},
"gre_tunnel_details": {0x24435433: 0x3bfbf1},
"sw_interface_set_flags": {0xf5aec1b8: 0x6a2b491a},
"sw_interface_event": {0x2d3d95a7: 0xf709f78d},
"sw_interface_details": {0x6c221fc7: 0x17b69fa2},
"sw_interface_add_del_address": {0x5463d73b: 0x5803d5c4},
"sw_interface_set_unnumbered": {0x154a6439: 0x938ef33b},
"sw_interface_set_mac_address": {0xc536e7eb: 0x6aca746a},
"sw_interface_set_rx_mode": {0xb04d1cfe: 0x780f5cee},
"sw_interface_rx_placement_details": {0x9e44a7ce: 0xf6d7d024},
"create_subif": {0x790ca755: 0xcb371063},
"ip_neighbor_add_del": {0x607c257: 0x105518b6},
"ip_neighbor_dump": {0xd817a484: 0xcd831298},
"ip_neighbor_details": {0xe29d79f0: 0x870e80b9},
"want_ip_neighbor_events": {0x73e70a86: 0x1a312870},
"ip_neighbor_event": {0xbdb092b2: 0x83933131},
"ip_route_add_del": {0xb8ecfe0d: 0xc1ff832d},
"ip_route_details": {0xbda8f315: 0xd1ffaae1},
"ip_route_lookup": {0x710d6471: 0xe2986185},
"ip_route_lookup_reply": {0x5d8febcb: 0xae99de8e},
"ip_mroute_add_del": {0x85d762f3: 0xf6627d17},
"ip_mroute_details": {0x99341a45: 0xc1cb4b44},
"ip_address_details": {0xee29b797: 0xb1199745},
"ip_unnumbered_details": {0xcc59bd42: 0xaa12a483},
"mfib_signal_details": {0x6f4a4cfb: 0x64398a9a},
"ip_punt_redirect": {0x6580f635: 0xa9a5592c},
"ip_punt_redirect_details": {0x2cef63e7: 0x3924f5d3},
"ip_container_proxy_add_del": {0x7df1dff1: 0x91189f40},
"ip_container_proxy_details": {0xa8085523: 0xee460e8},
"ip_source_and_port_range_check_add_del": {0x92a067e3: 0x8bfc76f2},
"sw_interface_ip6_set_link_local_address": {0x1c10f15f: 0x2931d9fa},
"ip_reassembly_enable_disable": {0xeb77968d: 0x885c85a6},
"set_punt": {0xaa83d523: 0x83799618},
"punt_socket_register": {0x95268cbf: 0xc8cd10fa},
"punt_socket_details": {0xde575080: 0x1de0ce75},
"punt_socket_deregister": {0x98fc9102: 0x98a444f4},
"sw_interface_ip6nd_ra_prefix": {0x82cc1b28: 0xe098785f},
"ip6nd_proxy_add_del": {0xc2e4a686: 0x3fdf6659},
"ip6nd_proxy_details": {0x30b9ff4a: 0xd35be8ff},
"ip6_ra_event": {0x364c1c5: 0x47e8cfbe},
"set_ipfix_exporter": {0x5530c8a0: 0x69284e07},
"ipfix_exporter_details": {0xdedbfe4: 0x11e07413},
"ipip_add_tunnel": {0x2ac399f5: 0xa9decfcd},
"ipip_6rd_add_tunnel": {0xb9ec1863: 0x56e93cc0},
"ipip_tunnel_details": {0xd31cb34e: 0x53236d75},
"ipsec_spd_entry_add_del": {0x338b7411: 0x9f384b8d},
"ipsec_spd_details": {0x5813d7a2: 0xf2222790},
"ipsec_sad_entry_add_del": {0xab64b5c6: 0xb8def364},
"ipsec_tunnel_protect_update": {0x30d5f133: 0x143f155d},
"ipsec_tunnel_protect_del": {0xcd239930: 0xddd2ba36},
"ipsec_tunnel_protect_details": {0x21663a50: 0xac6c823b},
"ipsec_tunnel_if_add_del": {0x20e353fa: 0x2b135e68},
"ipsec_sa_details": {0x345d14a7: 0xb30c7f41},
"l2_xconnect_details": {0x472b6b67: 0xc8aa6b37},
"l2_fib_table_details": {0xa44ef6b8: 0xe8d2fc72},
"l2fib_add_del": {0xeddda487: 0xf29d796c},
"l2_macs_event": {0x44b8fd64: 0x2eadfc8b},
"bridge_domain_details": {0xfa506fd: 0x979f549d},
"l2_interface_pbb_tag_rewrite": {0x38e802a8: 0x612efa5a},
"l2_patch_add_del": {0xa1f6a6f3: 0x522f3445},
"sw_interface_set_l2_xconnect": {0x4fa28a85: 0x1aaa2dbb},
"sw_interface_set_l2_bridge": {0xd0678b13: 0x2e483cd0},
"bd_ip_mac_add_del": {0x257c869: 0x5f2b84e2},
"bd_ip_mac_details": {0x545af86a: 0xa52f8044},
"l2_arp_term_event": {0x6963e07a: 0x85ff71ea},
"l2tpv3_create_tunnel": {0x15bed0c2: 0x596892cb},
"sw_if_l2tpv3_tunnel_details": {0x50b88993: 0x1dab5c7e},
"lisp_add_del_local_eid": {0x4e5a83a2: 0x21f573bd},
"lisp_add_del_map_server": {0xce19e32d: 0x6598ea7c},
"lisp_add_del_map_resolver": {0xce19e32d: 0x6598ea7c},
"lisp_use_petr": {0xd87dbad9: 0x9e141831},
"show_lisp_use_petr_reply": {0x22b9a4b0: 0xdcad8a81},
"lisp_add_del_remote_mapping": {0x6d5c789e: 0xfae8ed77},
"lisp_add_del_adjacency": {0x2ce0e6f6: 0xcf5edb61},
"lisp_locator_details": {0x2c620ffe: 0xc0c4c2a7},
"lisp_eid_table_details": {0x1c29f792: 0x4bc32e3a},
"lisp_eid_table_dump": {0x629468b5: 0xb959b73b},
"lisp_adjacencies_get_reply": {0x807257bf: 0x3f97bcdd},
"lisp_map_resolver_details": {0x3e78fc57: 0x82a09deb},
"lisp_map_server_details": {0x3e78fc57: 0x82a09deb},
"one_add_del_local_eid": {0x4e5a83a2: 0x21f573bd},
"one_add_del_map_server": {0xce19e32d: 0x6598ea7c},
"one_add_del_map_resolver": {0xce19e32d: 0x6598ea7c},
"one_use_petr": {0xd87dbad9: 0x9e141831},
"show_one_use_petr_reply": {0x84a03528: 0x10e744a6},
"one_add_del_remote_mapping": {0x6d5c789e: 0xfae8ed77},
"one_add_del_l2_arp_entry": {0x1aa5e8b3: 0x33209078},
"one_l2_arp_entries_get_reply": {0xb0dd200f: 0xb0a47bbe},
"one_add_del_ndp_entry": {0xf8a287c: 0xd1629a2f},
"one_ndp_entries_get_reply": {0x70719b1a: 0xbd34161},
"one_add_del_adjacency": {0x9e830312: 0xe48e7afe},
"one_locator_details": {0x2c620ffe: 0xc0c4c2a7},
"one_eid_table_details": {0x1c29f792: 0x4bc32e3a},
"one_eid_table_dump": {0xbd190269: 0x95151038},
"one_adjacencies_get_reply": {0x85bab89: 0xa8ed89a5},
"one_map_resolver_details": {0x3e78fc57: 0x82a09deb},
"one_map_server_details": {0x3e78fc57: 0x82a09deb},
"one_stats_details": {0x2eb74678: 0xff6ef238},
"gpe_add_del_fwd_entry": {0xf0847644: 0xde6df50f},
"gpe_fwd_entries_get_reply": {0xc4844876: 0xf9f53f1b},
"gpe_fwd_entry_path_details": {0x483df51a: 0xee80b19a},
"gpe_add_del_native_fwd_rpath": {0x43fc8b54: 0x812da2f2},
"gpe_native_fwd_rpaths_get_reply": {0x7a1ca5a2: 0x79d54eb9},
"sw_interface_set_lldp": {0x57afbcd4: 0xd646ae0f},
"mpls_ip_bind_unbind": {0xc7533b32: 0x48249a27},
"mpls_tunnel_add_del": {0x44350ac1: 0xe57ce61d},
"mpls_tunnel_details": {0x57118ae3: 0xf3c0928e},
"mpls_route_add_del": {0x8e1d1e07: 0x343cff54},
"mpls_route_details": {0x9b5043dc: 0xd0ac384c},
"policer_add_del": {0x2b31dd38: 0xcb948f6e},
"policer_details": {0x72d0e248: 0xa43f781a},
"qos_store_enable_disable": {0xf3abcc8b: 0x3507235e},
"qos_store_details": {0x3ee0aad7: 0x38a6d48},
"qos_record_enable_disable": {0x2f1a4a38: 0x25b33f88},
"qos_record_details": {0xa425d4d3: 0x4956ccdd},
"session_rule_add_del": {0xe4895422: 0xe31f9443},
"session_rules_details": {0x28d71830: 0x304b91f0},
"sw_interface_span_enable_disable": {0x23ddd96b: 0xacc8fea1},
"sw_interface_span_details": {0x8a20e79f: 0x55643fc},
"sr_mpls_steering_add_del": {0x64acff63: 0x7d1b0a0b},
"sr_mpls_policy_assign_endpoint_color": {0xe7eb978: 0x5e1c5c13},
"sr_localsid_add_del": {0x5a36c324: 0x26fa3309},
"sr_policy_add": {0x44ac92e8: 0xec79ee6a},
"sr_policy_mod": {0xb97bb56e: 0xe531a102},
"sr_steering_add_del": {0xe46b0a0f: 0x3711dace},
"sr_localsids_details": {0x2e9221b9: 0x6a6c0265},
"sr_policies_details": {0xdb6ff2a1: 0x7ec2d93},
"sr_steering_pol_details": {0xd41258c9: 0x1c1ee786},
"syslog_set_sender": {0xb8011d0b: 0xbb641285},
"syslog_get_sender_reply": {0x424cfa4e: 0xd3da60ac},
"tcp_configure_src_addresses": {0x67eede0d: 0x4b02b946},
"teib_entry_add_del": {0x8016cfd2: 0x5aa0a538},
"teib_details": {0x981ee1a1: 0xe3b6a503},
"udp_encap_add": {0xf74a60b1: 0x61d5fc48},
"udp_encap_details": {0x8cfb9c76: 0x87c82821},
"vxlan_gbp_tunnel_add_del": {0x6c743427: 0x8c819166},
"vxlan_gbp_tunnel_details": {0x66e94a89: 0x1da24016},
"vxlan_gpe_add_del_tunnel": {0xa645b2b0: 0x7c6da6ae},
"vxlan_gpe_tunnel_details": {0x968fc8b: 0x57712346},
"vxlan_add_del_tunnel": {0xc09dc80: 0xa35dc8f5},
"vxlan_tunnel_details": {0xc3916cb1: 0xe782f70f},
"vxlan_offload_rx": {0x9cc95087: 0x89a1564b},
"log_details": {0x3d61cc0: 0x255827a1},
}
def foldup_crcs(s):
for f in s:
f.crc = foldup_blocks(f.block,
binascii.crc32(f.crc) & 0xffffffff)
# fixup the CRCs to make the fix seamless
if f.name in fixup_crc_dict:
if f.crc in fixup_crc_dict.get(f.name):
f.crc = fixup_crc_dict.get(f.name).get(f.crc)
#
# Main
#
def main():
if sys.version_info < (3, 5,):
log.exception('vppapigen requires a supported version of python. '
'Please use version 3.5 or greater. '
'Using %s', sys.version)
return 1
cliparser = argparse.ArgumentParser(description='VPP API generator')
cliparser.add_argument('--pluginpath', default="")
cliparser.add_argument('--includedir', action='append')
cliparser.add_argument('--outputdir', action='store')
cliparser.add_argument('--input')
cliparser.add_argument('--output', nargs='?',
type=argparse.FileType('w', encoding='UTF-8'),
default=sys.stdout)
cliparser.add_argument('output_module', nargs='?', default='C')
cliparser.add_argument('--debug', action='store_true')
cliparser.add_argument('--show-name', nargs=1)
cliparser.add_argument('--git-revision',
help="Git revision to use for opening files")
args = cliparser.parse_args()
dirlist_add(args.includedir)
if not args.debug:
sys.excepthook = exception_handler
# Filename
if args.show_name:
filename = args.show_name[0]
elif args.input:
filename = args.input
else:
filename = ''
if args.debug:
logging.basicConfig(stream=sys.stdout, level=logging.WARNING)
else:
logging.basicConfig()
#
# Generate representation
#
from importlib.machinery import SourceFileLoader
# Default path
pluginpath = ''
if not args.pluginpath:
cand = []
cand.append(os.path.dirname(os.path.realpath(__file__)))
cand.append(os.path.dirname(os.path.realpath(__file__)) +
'/../share/vpp/')
for c in cand:
c += '/'
if os.path.isfile('{}vppapigen_{}.py'
.format(c, args.output_module.lower())):
pluginpath = c
break
else:
pluginpath = args.pluginpath + '/'
if pluginpath == '':
log.exception('Output plugin not found')
return 1
module_path = '{}vppapigen_{}.py'.format(pluginpath,
args.output_module.lower())
try:
plugin = SourceFileLoader(args.output_module,
module_path).load_module()
except Exception as err:
log.exception('Error importing output plugin: %s, %s',
module_path, err)
return 1
parser = VPPAPI(debug=args.debug, filename=filename, logger=log,
revision=args.git_revision)
try:
if not args.input:
parsed_objects = parser.parse_fd(sys.stdin, log)
else:
parsed_objects = parser.parse_filename(args.input, log)
except ParseError as e:
print('Parse error: ', e, file=sys.stderr)
sys.exit(1)
# Build a list of objects. Hash of lists.
result = []
# if the variable is not set in the plugin, assume it to be false.
try:
plugin.process_imports
except AttributeError:
plugin.process_imports = False
if plugin.process_imports:
result = parser.process_imports(parsed_objects, False, result)
s = parser.process(result)
else:
s = parser.process(parsed_objects)
imports = parser.process_imports(parsed_objects, False, result)
s['imported'] = parser.process(imports)
# Add msg_id field
s['Define'] = add_msg_id(s['Define'])
# Fold up CRCs
foldup_crcs(s['Define'])
#
# Debug
if args.debug:
import pprint
pp = pprint.PrettyPrinter(indent=4, stream=sys.stderr)
for t in s['Define']:
pp.pprint([t.name, t.flags, t.block])
for t in s['types']:
pp.pprint([t.name, t.block])
result = plugin.run(args, filename, s)
if result:
print(result, file=args.output)
else:
log.exception('Running plugin failed: %s %s', filename, result)
return 1
return 0
if __name__ == '__main__':
sys.exit(main())