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|
#
# Copyright (c) 2020 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.
#
#
# Provide two classes FromJSON and TOJSON that converts between JSON and VPP's
# binary API format
#
'''
This module creates C code for core VPP, VPP plugins and client side VAT and
VAT2 tests.
'''
import datetime
import os
import time
import sys
from io import StringIO
import shutil
process_imports = False
###############################################################################
class ToJSON():
'''Class to generate functions converting from VPP binary API to JSON.'''
_dispatch = {}
noprint_fields = {'_vl_msg_id': None,
'client_index': None,
'context': None}
is_number = {'u8': None,
'i8': None,
'u16': None,
'i16': None,
'u32': None,
'i32': None,
'u64': None,
'i64': None,
'f64': None,
}
def __init__(self, module, types, defines, imported_types, stream):
self.stream = stream
self.module = module
self.defines = defines
self.types = types
self.types_hash = {'vl_api_'+d.name+'_t':
d for d in types + imported_types}
self.defines_hash = {d.name: d for d in defines}
def header(self):
'''Output the top boilerplate.'''
write = self.stream.write
write('#ifndef included_{}_api_tojson_h\n'.format(self.module))
write('#define included_{}_api_tojson_h\n'.format(self.module))
write('#include <vppinfra/cJSON.h>\n\n')
write('#include <vat2/jsonconvert.h>\n\n')
def footer(self):
'''Output the bottom boilerplate.'''
write = self.stream.write
write('#endif\n')
def get_base_type(self, t):
vt_type = None
try:
vt = self.types_hash[t]
if vt.type == 'Using' and 'length' not in vt.alias:
vt_type = vt.alias['type']
except KeyError:
vt = t
return vt, vt_type
def get_json_func(self, t):
'''Given the type, returns the function to use to create a
cJSON object'''
vt, vt_type = self.get_base_type(t)
if t in self.is_number or vt_type in self.is_number:
return 'cJSON_AddNumberToObject', '', False
if t == 'bool':
return 'cJSON_AddBoolToObject', '', False
# Lookup type name check if it's enum
if vt.type == 'Enum' or vt.type == 'EnumFlag':
return '{t}_tojson'.format(t=t), '', True
return '{t}_tojson'.format(t=t), '&', True
def get_json_array_func(self, t):
'''Given a type returns the function to create a cJSON object
for arrays.'''
if t in self.is_number:
return 'cJSON_CreateNumber', ''
if t == 'bool':
return 'cJSON_CreateBool', ''
vt, vt_type = self.get_base_type(t)
if vt.type == 'Enum' or vt.type == 'EnumFlag':
return '{t}_tojson'.format(t=t), ''
return '{t}_tojson'.format(t=t), '&'
def print_string(self, o):
'''Create cJSON object from vl_api_string_t'''
write = self.stream.write
if o.modern_vla:
write(' vl_api_string_cJSON_AddToObject(o, "{n}", &a->{n});\n'
.format(n=o.fieldname))
else:
write(' cJSON_AddStringToObject(o, "{n}", (char *)a->{n});\n'
.format(n=o.fieldname))
def print_field(self, o):
'''Called for every field in a typedef or define.'''
write = self.stream.write
if o.fieldname in self.noprint_fields:
return
f, p, newobj = self.get_json_func(o.fieldtype)
if newobj:
write(' cJSON_AddItemToObject(o, "{n}", {f}({p}a->{n}));\n'
.format(f=f, p=p, n=o.fieldname))
else:
write(' {f}(o, "{n}", {p}a->{n});\n'
.format(f=f, p=p, n=o.fieldname))
_dispatch['Field'] = print_field
def print_array(self, o):
'''Converts a VPP API array to cJSON array.'''
write = self.stream.write
forloop = '''\
{{
int i;
cJSON *array = cJSON_AddArrayToObject(o, "{n}");
for (i = 0; i < {lfield}; i++) {{
cJSON_AddItemToArray(array, {f}({p}a->{n}[i]));
}}
}}
'''
if o.fieldtype == 'string':
self.print_string(o)
return
lfield = 'a->' + o.lengthfield if o.lengthfield else o.length
if o.fieldtype == 'u8':
write(' {\n')
# What is length field doing here?
write(' u8 *s = format(0, "0x%U", format_hex_bytes, '
'&a->{n}, {lfield});\n'
.format(n=o.fieldname, lfield=lfield))
write(' cJSON_AddStringToObject(o, "{n}", (char *)s);\n'
.format(n=o.fieldname))
write(' vec_free(s);\n')
write(' }\n')
return
f, p = self.get_json_array_func(o.fieldtype)
write(forloop.format(lfield=lfield,
t=o.fieldtype,
n=o.fieldname,
f=f,
p=p))
_dispatch['Array'] = print_array
def print_enum(self, o):
'''Create cJSON object (string) for VPP API enum'''
write = self.stream.write
write('static inline cJSON *vl_api_{name}_t_tojson '
'(vl_api_{name}_t a) {{\n'.format(name=o.name))
write(" switch(a) {\n")
for b in o.block:
write(" case %s:\n" % b[1])
write(' return cJSON_CreateString("{}");\n'.format(b[0]))
write(' default: return cJSON_CreateString("Invalid ENUM");\n')
write(' }\n')
write(' return 0;\n')
write('}\n')
_dispatch['Enum'] = print_enum
def print_enum_flag(self, o):
'''Create cJSON object (string) for VPP API enum'''
write = self.stream.write
write('static inline cJSON *vl_api_{name}_t_tojson '
'(vl_api_{name}_t a) {{\n'.format(name=o.name))
write(' cJSON *array = cJSON_CreateArray();\n')
for b in o.block:
write(' if (a & {})\n'.format(b[0]))
write(' cJSON_AddItemToArray(array, cJSON_CreateString("{}"));\n'.format(b[0]))
write(' return array;\n')
write('}\n')
_dispatch['EnumFlag'] = print_enum_flag
def print_typedef(self, o):
'''Create cJSON (dictionary) object from VPP API typedef'''
write = self.stream.write
write('static inline cJSON *vl_api_{name}_t_tojson '
'(vl_api_{name}_t *a) {{\n'.format(name=o.name))
write(' cJSON *o = cJSON_CreateObject();\n')
for t in o.block:
self._dispatch[t.type](self, t)
write(' return o;\n')
write('}\n')
def print_define(self, o):
'''Create cJSON (dictionary) object from VPP API define'''
write = self.stream.write
write('static inline cJSON *vl_api_{name}_t_tojson '
'(vl_api_{name}_t *a) {{\n'.format(name=o.name))
write(' cJSON *o = cJSON_CreateObject();\n')
write(' cJSON_AddStringToObject(o, "_msgname", "{}");\n'
.format(o.name))
for t in o.block:
self._dispatch[t.type](self, t)
write(' return o;\n')
write('}\n')
def print_using(self, o):
'''Create cJSON (dictionary) object from VPP API aliased type'''
if o.manual_print:
return
write = self.stream.write
write('static inline cJSON *vl_api_{name}_t_tojson '
'(vl_api_{name}_t *a) {{\n'.format(name=o.name))
write(' u8 *s = format(0, "%U", format_vl_api_{}_t, a);\n'
.format(o.name))
write(' cJSON *o = cJSON_CreateString((char *)s);\n')
write(' vec_free(s);\n')
write(' return o;\n')
write('}\n')
_dispatch['Typedef'] = print_typedef
_dispatch['Define'] = print_define
_dispatch['Using'] = print_using
_dispatch['Union'] = print_typedef
def generate_function(self, t):
'''Main entry point'''
write = self.stream.write
if t.manual_print:
write('/* Manual print {} */\n'.format(t.name))
return
self._dispatch[t.type](self, t)
def generate_types(self):
'''Main entry point'''
for t in self.types:
self.generate_function(t)
def generate_defines(self):
'''Main entry point'''
for t in self.defines:
self.generate_function(t)
class FromJSON():
'''
Parse JSON objects into VPP API binary message structures.
'''
_dispatch = {}
noprint_fields = {'_vl_msg_id': None,
'client_index': None,
'context': None}
is_number = {'u8': None,
'i8': None,
'u16': None,
'i16': None,
'u32': None,
'i32': None,
'u64': None,
'i64': None,
'f64': None,
}
def __init__(self, module, types, defines, imported_types, stream):
self.stream = stream
self.module = module
self.defines = defines
self.types = types
self.types_hash = {'vl_api_'+d.name+'_t':
d for d in types + imported_types}
self.defines_hash = {d.name: d for d in defines}
def header(self):
'''Output the top boilerplate.'''
write = self.stream.write
write('#ifndef included_{}_api_fromjson_h\n'.format(self.module))
write('#define included_{}_api_fromjson_h\n'.format(self.module))
write('#include <vppinfra/cJSON.h>\n\n')
write('#include <vat2/jsonconvert.h>\n\n')
def is_base_type(self, t):
'''Check if a type is one of the VPP API base types'''
if t in self.is_number:
return True
if t == 'bool':
return True
return False
def footer(self):
'''Output the bottom boilerplate.'''
write = self.stream.write
write('#endif\n')
def print_string(self, o, toplevel=False):
'''Convert JSON string to vl_api_string_t'''
write = self.stream.write
msgvar = "a" if toplevel else "mp"
msgsize = "l" if toplevel else "*len"
if o.modern_vla:
write(' char *p = cJSON_GetStringValue(item);\n')
write(' size_t plen = strlen(p);\n')
write(' {msgvar} = realloc({msgvar}, {msgsize} + plen);\n'
.format(msgvar=msgvar, msgsize=msgsize))
write(' vl_api_c_string_to_api_string(p, (void *){msgvar} + '
'{msgsize} - sizeof(vl_api_string_t));\n'
.format(msgvar=msgvar, msgsize=msgsize))
write(' {msgsize} += plen;\n'.format(msgsize=msgsize))
else:
write(' strncpy_s((char *)a->{n}, sizeof(a->{n}), '
'cJSON_GetStringValue(item), sizeof(a->{n}) - 1);\n'
.format(n=o.fieldname))
def print_field(self, o, toplevel=False):
'''Called for every field in a typedef or define.'''
write = self.stream.write
write(' // start field {}\n'.format(o.fieldname))
if o.fieldname in self.noprint_fields:
return
is_bt = self.is_base_type(o.fieldtype)
t = 'vl_api_{}'.format(o.fieldtype) if is_bt else o.fieldtype
msgvar = "a" if toplevel else "mp"
msgsize = "&l" if toplevel else "len"
if is_bt:
write(' vl_api_{t}_fromjson(item, &a->{n});\n'
.format(t=o.fieldtype, n=o.fieldname))
else:
write(' {msgvar} = {t}_fromjson({msgvar}, '
'{msgsize}, item, &a->{n});\n'
.format(t=t, n=o.fieldname, msgvar=msgvar, msgsize=msgsize))
write(' if (!{msgvar}) return 0;\n'.format(msgvar=msgvar))
write(' // end field {}\n'.format(o.fieldname))
_dispatch['Field'] = print_field
def print_array(self, o, toplevel=False):
'''Convert JSON array to VPP API array'''
write = self.stream.write
forloop = '''\
{{
int i;
cJSON *array = cJSON_GetObjectItem(o, "{n}");
int size = cJSON_GetArraySize(array);
if (size != {lfield}) return 0;
for (i = 0; i < size; i++) {{
cJSON *e = cJSON_GetArrayItem(array, i);
{call}
}}
}}
'''
forloop_vla = '''\
{{
int i;
cJSON *array = cJSON_GetObjectItem(o, "{n}");
int size = cJSON_GetArraySize(array);
{lfield} = size;
{msgvar} = realloc({msgvar}, {msgsize} + sizeof({t}) * size);
{t} *d = (void *){msgvar} + {msgsize};
{msgsize} += sizeof({t}) * size;
for (i = 0; i < size; i++) {{
cJSON *e = cJSON_GetArrayItem(array, i);
{call}
}}
}}
'''
t = o.fieldtype
if o.fieldtype == 'string':
self.print_string(o, toplevel)
return
lfield = 'a->' + o.lengthfield if o.lengthfield else o.length
msgvar = "a" if toplevel else "mp"
msgsize = "l" if toplevel else "*len"
if o.fieldtype == 'u8':
if o.lengthfield:
write(' s = u8string_fromjson(o, "{}");\n'
.format(o.fieldname))
write(' if (!s) return 0;\n')
write(' {} = vec_len(s);\n'.format(lfield))
write(' {msgvar} = realloc({msgvar}, {msgsize} + '
'vec_len(s));\n'.format(msgvar=msgvar, msgsize=msgsize))
write(' memcpy((void *){msgvar} + {msgsize}, s, '
'vec_len(s));\n'.format(msgvar=msgvar, msgsize=msgsize))
write(' {msgsize} += vec_len(s);\n'.format(msgsize=msgsize))
write(' vec_free(s);\n')
else:
write(' u8string_fromjson2(o, "{n}", a->{n});\n'
.format(n=o.fieldname))
return
is_bt = self.is_base_type(o.fieldtype)
if o.lengthfield:
if is_bt:
call = ('vl_api_{t}_fromjson(e, &d[i]);'
.format(t=o.fieldtype))
else:
call = ('{t}_fromjson({msgvar}, len, e, &d[i]); '
.format(t=o.fieldtype, msgvar=msgvar))
write(forloop_vla.format(lfield=lfield,
t=o.fieldtype,
n=o.fieldname,
call=call,
msgvar=msgvar,
msgsize=msgsize))
else:
if is_bt:
call = ('vl_api_{t}_fromjson(e, &a->{n}[i]);'
.format(t=t, n=o.fieldname))
else:
call = ('a = {}_fromjson({}, len, e, &a->{}[i]);'
.format(t, msgvar, o.fieldname))
write(forloop.format(lfield=lfield,
t=t,
n=o.fieldname,
call=call,
msgvar=msgvar,
msgsize=msgsize))
_dispatch['Array'] = print_array
def print_enum(self, o):
'''Convert to JSON enum(string) to VPP API enum (int)'''
write = self.stream.write
write('static inline void *vl_api_{n}_t_fromjson '
'(void *mp, int *len, cJSON *o, vl_api_{n}_t *a) {{\n'
.format(n=o.name))
write(' char *p = cJSON_GetStringValue(o);\n')
for b in o.block:
write(' if (strcmp(p, "{}") == 0) {{*a = {}; return mp;}}\n'
.format(b[0], b[1]))
write(' return 0;\n')
write('}\n')
_dispatch['Enum'] = print_enum
def print_enum_flag(self, o):
'''Convert to JSON enum(string) to VPP API enum (int)'''
write = self.stream.write
write('static inline void *vl_api_{n}_t_fromjson '
'(void *mp, int *len, cJSON *o, vl_api_{n}_t *a) {{\n'
.format(n=o.name))
write(' int i;\n')
write(' *a = 0;\n')
write(' for (i = 0; i < cJSON_GetArraySize(o); i++) {\n')
write(' cJSON *e = cJSON_GetArrayItem(o, i);\n')
write(' char *p = cJSON_GetStringValue(e);\n')
write(' if (!p) return 0;\n')
for b in o.block:
write(' if (strcmp(p, "{}") == 0) *a |= {};\n'
.format(b[0], b[1]))
write(' }\n')
write(' return mp;\n')
write('}\n')
_dispatch['EnumFlag'] = print_enum_flag
def print_typedef(self, o):
'''Convert from JSON object to VPP API binary representation'''
write = self.stream.write
write('static inline void *vl_api_{name}_t_fromjson (void *mp, '
'int *len, cJSON *o, vl_api_{name}_t *a) {{\n'
.format(name=o.name))
write(' cJSON *item __attribute__ ((unused));\n')
write(' u8 *s __attribute__ ((unused));\n')
for t in o.block:
if t.type == 'Field' and t.is_lengthfield:
continue
write(' item = cJSON_GetObjectItem(o, "{}");\n'
.format(t.fieldname))
write(' if (!item) return 0;\n')
self._dispatch[t.type](self, t)
write(' return mp;\n')
write('}\n')
def print_union(self, o):
'''Convert JSON object to VPP API binary union'''
write = self.stream.write
write('static inline void *vl_api_{name}_t_fromjson (void *mp, '
'int *len, cJSON *o, vl_api_{name}_t *a) {{\n'
.format(name=o.name))
write(' cJSON *item __attribute__ ((unused));\n')
write(' u8 *s __attribute__ ((unused));\n')
for t in o.block:
if t.type == 'Field' and t.is_lengthfield:
continue
write(' item = cJSON_GetObjectItem(o, "{}");\n'
.format(t.fieldname))
write(' if (item) {\n')
self._dispatch[t.type](self, t)
write(' };\n')
write(' return mp;\n')
write('}\n')
def print_define(self, o):
'''Convert JSON object to VPP API message'''
write = self.stream.write
write('static inline vl_api_{name}_t *vl_api_{name}_t_fromjson '
'(cJSON *o, int *len) {{\n'.format(name=o.name))
write(' cJSON *item __attribute__ ((unused));\n')
write(' u8 *s __attribute__ ((unused));\n')
write(' int l = sizeof(vl_api_{}_t);\n'.format(o.name))
write(' vl_api_{}_t *a = malloc(l);\n'.format(o.name))
for t in o.block:
if t.fieldname in self.noprint_fields:
continue
if t.type == 'Field' and t.is_lengthfield:
continue
write(' // processing {}: {} {}\n'
.format(o.name, t.fieldtype, t.fieldname))
write(' item = cJSON_GetObjectItem(o, "{}");\n'
.format(t.fieldname))
write(' if (!item) { free(a); return 0; }\n')
self._dispatch[t.type](self, t, toplevel=True)
write('\n')
write('\n')
write(' *len = l;\n')
write(' return a;\n')
write('}\n')
def print_using(self, o):
'''Convert JSON field to VPP type alias'''
write = self.stream.write
if o.manual_print:
return
t = o.using
write('static inline void *vl_api_{name}_t_fromjson (void *mp, '
'int *len, cJSON *o, vl_api_{name}_t *a) {{\n'
.format(name=o.name))
if 'length' in o.alias:
if t.fieldtype != 'u8':
raise ValueError("Error in processing type {} for {}"
.format(t.fieldtype, o.name))
write(' vl_api_u8_string_fromjson(o, (u8 *)a, {});\n'
.format(o.alias['length']))
else:
write(' vl_api_{t}_fromjson(o, ({t} *)a);\n'
.format(t=t.fieldtype))
write(' return mp;\n')
write('}\n')
_dispatch['Typedef'] = print_typedef
_dispatch['Define'] = print_define
_dispatch['Using'] = print_using
_dispatch['Union'] = print_union
def generate_function(self, t):
'''Main entry point'''
write = self.stream.write
if t.manual_print:
write('/* Manual print {} */\n'.format(t.name))
return
self._dispatch[t.type](self, t)
def generate_types(self):
'''Main entry point'''
for t in self.types:
self.generate_function(t)
def generate_defines(self):
'''Main entry point'''
for t in self.defines:
self.generate_function(t)
def generate_tojson(s, modulename, stream):
'''Generate all functions to convert from API to JSON'''
write = stream.write
write('/* Imported API files */\n')
for i in s['Import']:
f = i.filename.replace('plugins/', '')
write('#include <{}_tojson.h>\n'.format(f))
pp = ToJSON(modulename, s['types'], s['Define'], s['imported']['types'],
stream)
pp.header()
pp.generate_types()
pp.generate_defines()
pp.footer()
return ''
def generate_fromjson(s, modulename, stream):
'''Generate all functions to convert from JSON to API'''
write = stream.write
write('/* Imported API files */\n')
for i in s['Import']:
f = i.filename.replace('plugins/', '')
write('#include <{}_fromjson.h>\n'.format(f))
pp = FromJSON(modulename, s['types'], s['Define'], s['imported']['types'],
stream)
pp.header()
pp.generate_types()
pp.generate_defines()
pp.footer()
return ''
###############################################################################
DATESTRING = datetime.datetime.utcfromtimestamp(
int(os.environ.get('SOURCE_DATE_EPOCH', time.time())))
TOP_BOILERPLATE = '''\
/*
* VLIB API definitions {datestring}
* Input file: {input_filename}
* Automatically generated: please edit the input file NOT this file!
*/
#include <stdbool.h>
#if defined(vl_msg_id)||defined(vl_union_id) \\
|| defined(vl_printfun) ||defined(vl_endianfun) \\
|| defined(vl_api_version)||defined(vl_typedefs) \\
|| defined(vl_msg_name)||defined(vl_msg_name_crc_list) \\
|| defined(vl_api_version_tuple)
/* ok, something was selected */
#else
#warning no content included from {input_filename}
#endif
#define VL_API_PACKED(x) x __attribute__ ((packed))
'''
BOTTOM_BOILERPLATE = '''\
/****** API CRC (whole file) *****/
#ifdef vl_api_version
vl_api_version({input_filename}, {file_crc:#08x})
#endif
'''
def msg_ids(s):
'''Generate macro to map API message id to handler'''
output = '''\
/****** Message ID / handler enum ******/
#ifdef vl_msg_id
'''
for t in s['Define']:
output += "vl_msg_id(VL_API_%s, vl_api_%s_t_handler)\n" % \
(t.name.upper(), t.name)
output += "#endif"
return output
def msg_names(s):
'''Generate calls to name mapping macro'''
output = '''\
/****** Message names ******/
#ifdef vl_msg_name
'''
for t in s['Define']:
dont_trace = 0 if t.dont_trace else 1
output += "vl_msg_name(vl_api_%s_t, %d)\n" % (t.name, dont_trace)
output += "#endif"
return output
def msg_name_crc_list(s, suffix):
'''Generate list of names to CRC mappings'''
output = '''\
/****** Message name, crc list ******/
#ifdef vl_msg_name_crc_list
'''
output += "#define foreach_vl_msg_name_crc_%s " % suffix
for t in s['Define']:
output += "\\\n_(VL_API_%s, %s, %08x) " % \
(t.name.upper(), t.name, t.crc)
output += "\n#endif"
return output
def api2c(fieldtype):
'''Map between API type names and internal VPP type names'''
mappingtable = {'string': 'vl_api_string_t', }
if fieldtype in mappingtable:
return mappingtable[fieldtype]
return fieldtype
def typedefs(filename):
'''Include in the main files to the types file'''
output = '''\
/****** Typedefs ******/
#ifdef vl_typedefs
#include "{include}.api_types.h"
#endif
'''.format(include=filename)
return output
FORMAT_STRINGS = {'u8': '%u',
'bool': '%u',
'i8': '%d',
'u16': '%u',
'i16': '%d',
'u32': '%u',
'i32': '%ld',
'u64': '%llu',
'i64': '%lld',
'f64': '%.2f'}
class Printfun():
'''Functions for pretty printing VPP API messages'''
_dispatch = {}
noprint_fields = {'_vl_msg_id': None,
'client_index': None,
'context': None}
def __init__(self, stream):
self.stream = stream
@staticmethod
def print_string(o, stream):
'''Pretty print a vl_api_string_t'''
write = stream.write
if o.modern_vla:
write(' if (vl_api_string_len(&a->{f}) > 0) {{\n'
.format(f=o.fieldname))
write(' s = format(s, "\\n%U{f}: %U", '
'format_white_space, indent, '
'vl_api_format_string, (&a->{f}));\n'.format(f=o.fieldname))
write(' } else {\n')
write(' s = format(s, "\\n%U{f}:", '
'format_white_space, indent);\n'.format(f=o.fieldname))
write(' }\n')
else:
write(' s = format(s, "\\n%U{f}: %s", '
'format_white_space, indent, a->{f});\n'
.format(f=o.fieldname))
def print_field(self, o, stream):
'''Pretty print API field'''
write = stream.write
if o.fieldname in self.noprint_fields:
return
if o.fieldtype in FORMAT_STRINGS:
f = FORMAT_STRINGS[o.fieldtype]
write(' s = format(s, "\\n%U{n}: {f}", '
'format_white_space, indent, a->{n});\n'
.format(n=o.fieldname, f=f))
else:
write(' s = format(s, "\\n%U{n}: %U", '
'format_white_space, indent, '
'format_{t}, &a->{n}, indent);\n'
.format(n=o.fieldname, t=o.fieldtype))
_dispatch['Field'] = print_field
def print_array(self, o, stream):
'''Pretty print API array'''
write = stream.write
forloop = '''\
for (i = 0; i < {lfield}; i++) {{
s = format(s, "\\n%U{n}: %U",
format_white_space, indent, format_{t}, &a->{n}[i], indent);
}}
'''
forloop_format = '''\
for (i = 0; i < {lfield}; i++) {{
s = format(s, "\\n%U{n}: {t}",
format_white_space, indent, a->{n}[i]);
}}
'''
if o.fieldtype == 'string':
self.print_string(o, stream)
return
if o.fieldtype == 'u8':
if o.lengthfield:
write(' s = format(s, "\\n%U{n}: %U", format_white_space, '
'indent, format_hex_bytes, a->{n}, a->{lfield});\n'
.format(n=o.fieldname, lfield=o.lengthfield))
else:
write(' s = format(s, "\\n%U{n}: %U", format_white_space, '
'indent, format_hex_bytes, a, {lfield});\n'
.format(n=o.fieldname, lfield=o.length))
return
lfield = 'a->' + o.lengthfield if o.lengthfield else o.length
if o.fieldtype in FORMAT_STRINGS:
write(forloop_format.format(lfield=lfield,
t=FORMAT_STRINGS[o.fieldtype],
n=o.fieldname))
else:
write(forloop.format(lfield=lfield, t=o.fieldtype, n=o.fieldname))
_dispatch['Array'] = print_array
@staticmethod
def print_alias(k, v, stream):
'''Pretty print type alias'''
write = stream.write
if ('length' in v.alias and v.alias['length'] and
v.alias['type'] == 'u8'):
write(' return format(s, "%U", format_hex_bytes, a, {});\n'
.format(v.alias['length']))
elif v.alias['type'] in FORMAT_STRINGS:
write(' return format(s, "{}", *a);\n'
.format(FORMAT_STRINGS[v.alias['type']]))
else:
write(' return format(s, "{} (print not implemented)");\n'
.format(k))
@staticmethod
def print_enum(o, stream):
'''Pretty print API enum'''
write = stream.write
write(" switch(*a) {\n")
for b in o:
write(" case %s:\n" % b[1])
write(' return format(s, "{}");\n'.format(b[0]))
write(' }\n')
_dispatch['Enum'] = print_enum
_dispatch['EnumFlag'] = print_enum
def print_obj(self, o, stream):
'''Entry point'''
write = stream.write
if o.type in self._dispatch:
self._dispatch[o.type](self, o, stream)
else:
write(' s = format(s, "\\n{} {} {} (print not implemented");\n'
.format(o.type, o.fieldtype, o.fieldname))
def printfun(objs, stream, modulename):
'''Main entry point for pretty print function generation'''
write = stream.write
h = '''\
/****** Print functions *****/
#ifdef vl_printfun
#ifndef included_{module}_printfun
#define included_{module}_printfun
#ifdef LP64
#define _uword_fmt \"%lld\"
#define _uword_cast (long long)
#else
#define _uword_fmt \"%ld\"
#define _uword_cast long
#endif
'''
signature = '''\
static inline void *vl_api_{name}_t_print (vl_api_{name}_t *a, void *handle)
{{
u8 *s = 0;
u32 indent __attribute__((unused)) = 2;
int i __attribute__((unused));
'''
h = h.format(module=modulename)
write(h)
pp = Printfun(stream)
for t in objs:
if t.manual_print:
write("/***** manual: vl_api_%s_t_print *****/\n\n" % t.name)
continue
write(signature.format(name=t.name))
write(' /* Message definition: vl_api_{}_t: */\n'.format(t.name))
write(" s = format(s, \"vl_api_%s_t:\");\n" % t.name)
for o in t.block:
pp.print_obj(o, stream)
write(' vec_add1(s, 0);\n')
write(' vl_print (handle, (char *)s);\n')
write(' vec_free (s);\n')
write(' return handle;\n')
write('}\n\n')
write("\n#endif")
write("\n#endif /* vl_printfun */\n")
return ''
def printfun_types(objs, stream, modulename):
'''Pretty print API types'''
write = stream.write
pp = Printfun(stream)
h = '''\
/****** Print functions *****/
#ifdef vl_printfun
#ifndef included_{module}_printfun_types
#define included_{module}_printfun_types
'''
h = h.format(module=modulename)
write(h)
signature = '''\
static inline u8 *format_vl_api_{name}_t (u8 *s, va_list * args)
{{
vl_api_{name}_t *a = va_arg (*args, vl_api_{name}_t *);
u32 indent __attribute__((unused)) = va_arg (*args, u32);
int i __attribute__((unused));
indent += 2;
'''
for t in objs:
if t.__class__.__name__ == 'Enum' or t.__class__.__name__ == 'EnumFlag':
write(signature.format(name=t.name))
pp.print_enum(t.block, stream)
write(' return s;\n')
write('}\n\n')
continue
if t.manual_print:
write("/***** manual: vl_api_%s_t_print *****/\n\n" % t.name)
continue
if t.__class__.__name__ == 'Using':
write(signature.format(name=t.name))
pp.print_alias(t.name, t, stream)
write('}\n\n')
continue
write(signature.format(name=t.name))
for o in t.block:
pp.print_obj(o, stream)
write(' return s;\n')
write('}\n\n')
write("\n#endif")
write("\n#endif /* vl_printfun_types */\n")
def generate_imports(imports):
'''Add #include matching the API import statements'''
output = '/* Imported API files */\n'
output += '#ifndef vl_api_version\n'
for i in imports:
s = i.filename.replace('plugins/', '')
output += '#include <{}.h>\n'.format(s)
output += '#endif\n'
return output
ENDIAN_STRINGS = {
'u16': 'clib_net_to_host_u16',
'u32': 'clib_net_to_host_u32',
'u64': 'clib_net_to_host_u64',
'i16': 'clib_net_to_host_i16',
'i32': 'clib_net_to_host_i32',
'i64': 'clib_net_to_host_i64',
'f64': 'clib_net_to_host_f64',
}
def endianfun_array(o):
'''Generate endian functions for arrays'''
forloop = '''\
for (i = 0; i < {length}; i++) {{
a->{name}[i] = {format}(a->{name}[i]);
}}
'''
forloop_format = '''\
for (i = 0; i < {length}; i++) {{
{type}_endian(&a->{name}[i]);
}}
'''
output = ''
if o.fieldtype == 'u8' or o.fieldtype == 'string' or o.fieldtype == 'bool':
output += ' /* a->{n} = a->{n} (no-op) */\n'.format(n=o.fieldname)
else:
lfield = 'a->' + o.lengthfield if o.lengthfield else o.length
if o.fieldtype in ENDIAN_STRINGS:
output += (forloop
.format(length=lfield,
format=ENDIAN_STRINGS[o.fieldtype],
name=o.fieldname))
else:
output += (forloop_format
.format(length=lfield, type=o.fieldtype,
name=o.fieldname))
return output
NO_ENDIAN_CONVERSION = {'client_index': None}
def endianfun_obj(o):
'''Generate endian conversion function for type'''
output = ''
if o.type == 'Array':
return endianfun_array(o)
if o.type != 'Field':
output += (' s = format(s, "\\n{} {} {} (print not implemented");\n'
.format(o.type, o.fieldtype, o.fieldname))
return output
if o.fieldname in NO_ENDIAN_CONVERSION:
output += ' /* a->{n} = a->{n} (no-op) */\n'.format(n=o.fieldname)
return output
if o.fieldtype in ENDIAN_STRINGS:
output += (' a->{name} = {format}(a->{name});\n'
.format(name=o.fieldname,
format=ENDIAN_STRINGS[o.fieldtype]))
elif o.fieldtype.startswith('vl_api_'):
output += (' {type}_endian(&a->{name});\n'
.format(type=o.fieldtype, name=o.fieldname))
else:
output += ' /* a->{n} = a->{n} (no-op) */\n'.format(n=o.fieldname)
return output
def endianfun(objs, modulename):
'''Main entry point for endian function generation'''
output = '''\
/****** Endian swap functions *****/\n\
#ifdef vl_endianfun
#ifndef included_{module}_endianfun
#define included_{module}_endianfun
#undef clib_net_to_host_uword
#ifdef LP64
#define clib_net_to_host_uword clib_net_to_host_u64
#else
#define clib_net_to_host_uword clib_net_to_host_u32
#endif
'''
output = output.format(module=modulename)
signature = '''\
static inline void vl_api_{name}_t_endian (vl_api_{name}_t *a)
{{
int i __attribute__((unused));
'''
for t in objs:
if t.__class__.__name__ == 'Enum' or t.__class__.__name__ == 'EnumFlag' :
output += signature.format(name=t.name)
if t.enumtype in ENDIAN_STRINGS:
output += (' *a = {}(*a);\n'
.format(ENDIAN_STRINGS[t.enumtype]))
else:
output += (' /* a->{name} = a->{name} (no-op) */\n'
.format(name=t.name))
output += '}\n\n'
continue
if t.manual_endian:
output += "/***** manual: vl_api_%s_t_endian *****/\n\n" % t.name
continue
if t.__class__.__name__ == 'Using':
output += signature.format(name=t.name)
if ('length' in t.alias and t.alias['length'] and
t.alias['type'] == 'u8'):
output += (' /* a->{name} = a->{name} (no-op) */\n'
.format(name=t.name))
elif t.alias['type'] in FORMAT_STRINGS:
output += (' *a = {}(*a);\n'
.format(ENDIAN_STRINGS[t.alias['type']]))
else:
output += ' /* Not Implemented yet {} */'.format(t.name)
output += '}\n\n'
continue
output += signature.format(name=t.name)
for o in t.block:
output += endianfun_obj(o)
output += '}\n\n'
output += "\n#endif"
output += "\n#endif /* vl_endianfun */\n\n"
return output
def version_tuple(s, module):
'''Generate semantic version string'''
output = '''\
/****** Version tuple *****/
#ifdef vl_api_version_tuple
'''
if 'version' in s['Option']:
v = s['Option']['version']
(major, minor, patch) = v.split('.')
output += "vl_api_version_tuple(%s, %s, %s, %s)\n" % \
(module, major, minor, patch)
output += "\n#endif /* vl_api_version_tuple */\n\n"
return output
def generate_include_enum(s, module, stream):
'''Generate <name>.api_enum.h'''
write = stream.write
if 'Define' in s:
write('typedef enum {\n')
for t in s['Define']:
write(' VL_API_{},\n'.format(t.name.upper()))
write(' VL_MSG_{}_LAST\n'.format(module.upper()))
write('}} vl_api_{}_enum_t;\n'.format(module))
def generate_include_counters(s, stream):
'''Include file for the counter data model types.'''
write = stream.write
for counters in s:
csetname = counters.name
write('typedef enum {\n')
for c in counters.block:
write(' {}_ERROR_{},\n'
.format(csetname.upper(), c['name'].upper()))
write(' {}_N_ERROR\n'.format(csetname.upper()))
write('}} vl_counter_{}_enum_t;\n'.format(csetname))
write('extern vl_counter_t {}_error_counters[];\n'.format(csetname))
def generate_include_types(s, module, stream):
'''Generate separate API _types file.'''
write = stream.write
write('#ifndef included_{module}_api_types_h\n'.format(module=module))
write('#define included_{module}_api_types_h\n'.format(module=module))
if 'version' in s['Option']:
v = s['Option']['version']
(major, minor, patch) = v.split('.')
write('#define VL_API_{m}_API_VERSION_MAJOR {v}\n'
.format(m=module.upper(), v=major))
write('#define VL_API_{m}_API_VERSION_MINOR {v}\n'
.format(m=module.upper(), v=minor))
write('#define VL_API_{m}_API_VERSION_PATCH {v}\n'
.format(m=module.upper(), v=patch))
if 'Import' in s:
write('/* Imported API files */\n')
for i in s['Import']:
filename = i.filename.replace('plugins/', '')
write('#include <{}_types.h>\n'.format(filename))
for o in s['types'] + s['Define']:
tname = o.__class__.__name__
if tname == 'Using':
if 'length' in o.alias:
write('typedef %s vl_api_%s_t[%s];\n' %
(o.alias['type'], o.name, o.alias['length']))
else:
write('typedef %s vl_api_%s_t;\n' % (o.alias['type'], o.name))
elif tname == 'Enum' or tname == 'EnumFlag':
if o.enumtype == 'u32':
write("typedef enum {\n")
else:
write("typedef enum __attribute__((packed)) {\n")
for b in o.block:
write(" %s = %s,\n" % (b[0], b[1]))
write('} vl_api_%s_t;\n' % o.name)
if o.enumtype != 'u32':
size1 = 'sizeof(vl_api_%s_t)' % o.name
size2 = 'sizeof(%s)' % o.enumtype
err_str = 'size of API enum %s is wrong' % o.name
write('STATIC_ASSERT(%s == %s, "%s");\n'
% (size1, size2, err_str))
else:
if tname == 'Union':
write("typedef union __attribute__ ((packed)) _vl_api_%s {\n"
% o.name)
else:
write(("typedef struct __attribute__ ((packed)) _vl_api_%s {\n")
% o.name)
for b in o.block:
if b.type == 'Option':
continue
if b.type == 'Field':
write(" %s %s;\n" % (api2c(b.fieldtype),
b.fieldname))
elif b.type == 'Array':
if b.lengthfield:
write(" %s %s[0];\n" % (api2c(b.fieldtype),
b.fieldname))
else:
# Fixed length strings decay to nul terminated u8
if b.fieldtype == 'string':
if b.modern_vla:
write(' {} {};\n'
.format(api2c(b.fieldtype),
b.fieldname))
else:
write(' u8 {}[{}];\n'
.format(b.fieldname, b.length))
else:
write(" %s %s[%s];\n" %
(api2c(b.fieldtype), b.fieldname,
b.length))
else:
raise ValueError("Error in processing type {} for {}"
.format(b, o.name))
write('} vl_api_%s_t;\n' % o.name)
for t in s['Define']:
write('#define VL_API_{ID}_CRC "{n}_{crc:08x}"\n'
.format(n=t.name, ID=t.name.upper(), crc=t.crc))
write("\n#endif\n")
def generate_c_boilerplate(services, defines, counters, file_crc,
module, stream):
'''VPP side plugin.'''
write = stream.write
define_hash = {d.name: d for d in defines}
hdr = '''\
#define vl_endianfun /* define message structures */
#include "{module}.api.h"
#undef vl_endianfun
/* instantiate all the print functions we know about */
#define vl_print(handle, ...) vlib_cli_output (handle, __VA_ARGS__)
#define vl_printfun
#include "{module}.api.h"
#undef vl_printfun
'''
write(hdr.format(module=module))
write('static u16\n')
write('setup_message_id_table (void) {\n')
write(' api_main_t *am = my_api_main;\n')
write(' vl_msg_api_msg_config_t c;\n')
write(' u16 msg_id_base = vl_msg_api_get_msg_ids ("{}_{crc:08x}", '
'VL_MSG_{m}_LAST);\n'
.format(module, crc=file_crc, m=module.upper()))
for d in defines:
write(' vl_msg_api_add_msg_name_crc (am, "{n}_{crc:08x}",\n'
' VL_API_{ID} + msg_id_base);\n'
.format(n=d.name, ID=d.name.upper(), crc=d.crc))
for s in services:
d = define_hash[s.caller]
write(' c = (vl_msg_api_msg_config_t) '
' {{.id = VL_API_{ID} + msg_id_base,\n'
' .name = "{n}",\n'
' .handler = vl_api_{n}_t_handler,\n'
' .cleanup = vl_noop_handler,\n'
' .endian = vl_api_{n}_t_endian,\n'
' .print = vl_api_{n}_t_print,\n'
' .is_autoendian = {auto}}};\n'
.format(n=s.caller, ID=s.caller.upper(),
auto=d.autoendian))
write(' vl_msg_api_config (&c);\n')
try:
d = define_hash[s.reply]
write(' c = (vl_msg_api_msg_config_t) '
'{{.id = VL_API_{ID} + msg_id_base,\n'
' .name = "{n}",\n'
' .handler = 0,\n'
' .cleanup = vl_noop_handler,\n'
' .endian = vl_api_{n}_t_endian,\n'
' .print = vl_api_{n}_t_print,\n'
' .is_autoendian = {auto}}};\n'
.format(n=s.reply, ID=s.reply.upper(),
auto=d.autoendian))
write(' vl_msg_api_config (&c);\n')
except KeyError:
pass
write(' return msg_id_base;\n')
write('}\n')
severity = {'error': 'VL_COUNTER_SEVERITY_ERROR',
'info': 'VL_COUNTER_SEVERITY_INFO',
'warn': 'VL_COUNTER_SEVERITY_WARN'}
for cnt in counters:
csetname = cnt.name
write('vl_counter_t {}_error_counters[] = {{\n'.format(csetname))
for c in cnt.block:
write(' {\n')
write(' .name = "{}",\n'.format(c['name']))
write(' .desc = "{}",\n'.format(c['description']))
write(' .severity = {},\n'.format(severity[c['severity']]))
write(' },\n')
write('};\n')
def generate_c_test_boilerplate(services, defines, file_crc, module, plugin,
stream):
'''Generate code for legacy style VAT. To be deleted.'''
write = stream.write
define_hash = {d.name: d for d in defines}
hdr = '''\
#define vl_endianfun /* define message structures */
#include "{module}.api.h"
#undef vl_endianfun
/* instantiate all the print functions we know about */
#define vl_print(handle, ...) vlib_cli_output (handle, __VA_ARGS__)
#define vl_printfun
#include "{module}.api.h"
#undef vl_printfun
'''
write(hdr.format(module=module))
for s in services:
try:
d = define_hash[s.reply]
except KeyError:
continue
if d.manual_print:
write('/*\n'
' * Manual definition requested for: \n'
' * vl_api_{n}_t_handler()\n'
' */\n'
.format(n=s.reply))
continue
if not define_hash[s.caller].autoreply:
write('/* Generation not supported (vl_api_{n}_t_handler()) */\n'
.format(n=s.reply))
continue
write('#ifndef VL_API_{n}_T_HANDLER\n'.format(n=s.reply.upper()))
write('static void\n')
write('vl_api_{n}_t_handler (vl_api_{n}_t * mp) {{\n'
.format(n=s.reply))
write(' vat_main_t * vam = {}_test_main.vat_main;\n'.format(module))
write(' i32 retval = ntohl(mp->retval);\n')
write(' if (vam->async_mode) {\n')
write(' vam->async_errors += (retval < 0);\n')
write(' } else {\n')
write(' vam->retval = retval;\n')
write(' vam->result_ready = 1;\n')
write(' }\n')
write('}\n')
write('#endif\n')
for e in s.events:
if define_hash[e].manual_print:
continue
write('static void\n')
write('vl_api_{n}_t_handler (vl_api_{n}_t * mp) {{\n'.format(n=e))
write(' vl_print(0, "{n} event called:");\n'.format(n=e))
write(' vl_api_{n}_t_print(mp, 0);\n'.format(n=e))
write('}\n')
write('static void\n')
write('setup_message_id_table (vat_main_t * vam, u16 msg_id_base) {\n')
for s in services:
write(' vl_msg_api_set_handlers(VL_API_{ID} + msg_id_base, '
' "{n}",\n'
' vl_api_{n}_t_handler, '
' vl_noop_handler,\n'
' vl_api_{n}_t_endian, '
' vl_api_{n}_t_print,\n'
' sizeof(vl_api_{n}_t), 1);\n'
.format(n=s.reply, ID=s.reply.upper()))
write(' hash_set_mem (vam->function_by_name, "{n}", api_{n});\n'
.format(n=s.caller))
try:
write(' hash_set_mem (vam->help_by_name, "{n}", "{help}");\n'
.format(n=s.caller,
help=define_hash[s.caller].options['vat_help']))
except KeyError:
pass
# Events
for e in s.events:
write(' vl_msg_api_set_handlers(VL_API_{ID} + msg_id_base, '
' "{n}",\n'
' vl_api_{n}_t_handler, '
' vl_noop_handler,\n'
' vl_api_{n}_t_endian, '
' vl_api_{n}_t_print,\n'
' sizeof(vl_api_{n}_t), 1);\n'
.format(n=e, ID=e.upper()))
write('}\n')
if plugin:
write('clib_error_t * vat_plugin_register (vat_main_t *vam)\n')
else:
write('clib_error_t * vat_{}_plugin_register (vat_main_t *vam)\n'
.format(module))
write('{\n')
write(' {n}_test_main_t * mainp = &{n}_test_main;\n'.format(n=module))
write(' mainp->vat_main = vam;\n')
write(' mainp->msg_id_base = vl_client_get_first_plugin_msg_id '
' ("{n}_{crc:08x}");\n'
.format(n=module, crc=file_crc))
write(' if (mainp->msg_id_base == (u16) ~0)\n')
write(' return clib_error_return (0, "{} plugin not loaded...");\n'
.format(module))
write(' setup_message_id_table (vam, mainp->msg_id_base);\n')
write('#ifdef VL_API_LOCAL_SETUP_MESSAGE_ID_TABLE\n')
write(' VL_API_LOCAL_SETUP_MESSAGE_ID_TABLE(vam);\n')
write('#endif\n')
write(' return 0;\n')
write('}\n')
def apifunc(func):
'''Check if a method is generated already.'''
def _f(module, d, processed, *args):
if d.name in processed:
return None
processed[d.name] = True
return func(module, d, *args)
return _f
def c_test_api_service(s, dump, stream):
'''Generate JSON code for a service.'''
write = stream.write
req_reply_template = '''\
static cJSON *
api_{n} (cJSON *o)
{{
vl_api_{n}_t *mp;
int len;
if (!o) return 0;
mp = vl_api_{n}_t_fromjson(o, &len);
if (!mp) {{
fprintf(stderr, "Failed converting JSON to API\\n");
return 0;
}}
mp->_vl_msg_id = vac_get_msg_index(VL_API_{N}_CRC);
vl_api_{n}_t_endian(mp);
vac_write((char *)mp, len);
free(mp);
/* Read reply */
char *p;
int l;
vac_read(&p, &l, 5); // XXX: Fix timeout
// XXX Will fail in case of event received. Do loop
if (ntohs(*((u16 *)p)) != vac_get_msg_index(VL_API_{R}_CRC)) {{
fprintf(stderr, "Mismatched reply\\n");
return 0;
}}
vl_api_{r}_t *rmp = (vl_api_{r}_t *)p;
vl_api_{r}_t_endian(rmp);
return vl_api_{r}_t_tojson(rmp);
}}
'''
dump_details_template = '''\
static cJSON *
api_{n} (cJSON *o)
{{
u16 msg_id = vac_get_msg_index(VL_API_{N}_CRC);
int len;
if (!o) return 0;
vl_api_{n}_t *mp = vl_api_{n}_t_fromjson(o, &len);
if (!mp) {{
fprintf(stderr, "Failed converting JSON to API\\n");
return 0;
}}
mp->_vl_msg_id = msg_id;
vl_api_{n}_t_endian(mp);
vac_write((char *)mp, len);
free(mp);
vat2_control_ping(123); // FIX CONTEXT
cJSON *reply = cJSON_CreateArray();
u16 ping_reply_msg_id = vac_get_msg_index(VL_API_CONTROL_PING_REPLY_CRC);
u16 details_msg_id = vac_get_msg_index(VL_API_{R}_CRC);
while (1) {{
/* Read reply */
char *p;
int l;
vac_read(&p, &l, 5); // XXX: Fix timeout
/* Message can be one of [_details, control_ping_reply
* or unrelated event]
*/
u16 reply_msg_id = ntohs(*((u16 *)p));
if (reply_msg_id == ping_reply_msg_id) {{
break;
}}
if (reply_msg_id == details_msg_id) {{
vl_api_{r}_t *rmp = (vl_api_{r}_t *)p;
vl_api_{r}_t_endian(rmp);
cJSON_AddItemToArray(reply, vl_api_{r}_t_tojson(rmp));
}}
}}
return reply;
}}
'''
gets_details_reply_template = '''\
static cJSON *
api_{n} (cJSON *o)
{{
u16 msg_id = vac_get_msg_index(VL_API_{N}_CRC);
int len = 0;
if (!o) return 0;
vl_api_{n}_t *mp = vl_api_{n}_t_fromjson(o, &len);
if (!mp) {{
fprintf(stderr, "Failed converting JSON to API\\n");
return 0;
}}
mp->_vl_msg_id = msg_id;
vl_api_{n}_t_endian(mp);
vac_write((char *)mp, len);
free(mp);
cJSON *reply = cJSON_CreateArray();
u16 reply_msg_id = vac_get_msg_index(VL_API_{R}_CRC);
u16 details_msg_id = vac_get_msg_index(VL_API_{D}_CRC);
while (1) {{
/* Read reply */
char *p;
int l;
vac_read(&p, &l, 5); // XXX: Fix timeout
/* Message can be one of [_details, control_ping_reply
* or unrelated event]
*/
u16 msg_id = ntohs(*((u16 *)p));
if (msg_id == reply_msg_id) {{
vl_api_{r}_t *rmp = (vl_api_{r}_t *)p;
vl_api_{r}_t_endian(rmp);
cJSON_AddItemToArray(reply, vl_api_{r}_t_tojson(rmp));
break;
}}
if (msg_id == details_msg_id) {{
vl_api_{d}_t *rmp = (vl_api_{d}_t *)p;
vl_api_{d}_t_endian(rmp);
cJSON_AddItemToArray(reply, vl_api_{d}_t_tojson(rmp));
}}
}}
return reply;
}}
'''
if dump:
if s.stream_message:
write(gets_details_reply_template
.format(n=s.caller, r=s.reply, N=s.caller.upper(),
R=s.reply.upper(), d=s.stream_message,
D=s.stream_message.upper()))
else:
write(dump_details_template.format(n=s.caller, r=s.reply,
N=s.caller.upper(),
R=s.reply.upper()))
else:
write(req_reply_template.format(n=s.caller, r=s.reply,
N=s.caller.upper(),
R=s.reply.upper()))
def generate_c_test2_boilerplate(services, defines, module, stream):
'''Generate code for VAT2 plugin.'''
write = stream.write
define_hash = {d.name: d for d in defines}
# replies = {}
hdr = '''\
#include <vlibapi/api.h>
#include <vlibmemory/api.h>
#include <vppinfra/error.h>
#include <vnet/ip/ip_format_fns.h>
#include <vnet/ethernet/ethernet_format_fns.h>
#define vl_typedefs /* define message structures */
#include <vpp/api/vpe_all_api_h.h>
#undef vl_typedefs
#include "{module}.api_enum.h"
#include "{module}.api_types.h"
#define vl_endianfun /* define message structures */
#include "{module}.api.h"
#undef vl_endianfun
#define vl_print(handle, ...) vlib_cli_output (handle, __VA_ARGS__)
#define vl_printfun
#include "{module}.api.h"
#undef vl_printfun
#include "{module}.api_tojson.h"
#include "{module}.api_fromjson.h"
#include <vpp-api/client/vppapiclient.h>
#include <vat2/vat2_helpers.h>
'''
write(hdr.format(module=module))
for s in services:
if s.reply not in define_hash:
continue
c_test_api_service(s, s.stream, stream)
write('void vat2_register_function(char *, cJSON * (*)(cJSON *));\n')
# write('__attribute__((constructor))')
write('clib_error_t *\n')
write('vat2_register_plugin (void) {\n')
for s in services:
write(' vat2_register_function("{n}", api_{n});\n'
.format(n=s.caller))
write(' return 0;\n')
write('}\n')
#
# Plugin entry point
#
def run(args, apifilename, s):
'''Main plugin entry point.'''
stream = StringIO()
if not args.outputdir:
sys.stderr.write('Missing --outputdir argument')
return None
basename = os.path.basename(apifilename)
filename, _ = os.path.splitext(basename)
modulename = filename.replace('.', '_')
filename_enum = os.path.join(args.outputdir + '/' + basename + '_enum.h')
filename_types = os.path.join(args.outputdir + '/' + basename + '_types.h')
filename_c = os.path.join(args.outputdir + '/' + basename + '.c')
filename_c_test = os.path.join(args.outputdir + '/' + basename + '_test.c')
filename_c_test2 = (os.path.join(args.outputdir + '/' + basename +
'_test2.c'))
filename_c_tojson = (os.path.join(args.outputdir +
'/' + basename + '_tojson.h'))
filename_c_fromjson = (os.path.join(args.outputdir + '/' +
basename + '_fromjson.h'))
# Generate separate types file
st = StringIO()
generate_include_types(s, modulename, st)
with open(filename_types, 'w') as fd:
st.seek(0)
shutil.copyfileobj(st, fd)
st.close()
# Generate separate enum file
st = StringIO()
st.write('#ifndef included_{}_api_enum_h\n'.format(modulename))
st.write('#define included_{}_api_enum_h\n'.format(modulename))
generate_include_enum(s, modulename, st)
generate_include_counters(s['Counters'], st)
st.write('#endif\n')
with open(filename_enum, 'w') as fd:
st.seek(0)
shutil.copyfileobj(st, fd)
st.close()
# Generate separate C file
st = StringIO()
generate_c_boilerplate(s['Service'], s['Define'], s['Counters'],
s['file_crc'], modulename, st)
with open(filename_c, 'w') as fd:
st.seek(0)
shutil.copyfileobj(st, fd)
st.close()
# Generate separate C test file
st = StringIO()
plugin = bool('plugin' in apifilename)
generate_c_test_boilerplate(s['Service'], s['Define'],
s['file_crc'],
modulename, plugin, st)
with open(filename_c_test, 'w') as fd:
st.seek(0)
shutil.copyfileobj(st, fd)
st.close()
# Fully autogenerated VATv2 C test file
st = StringIO()
generate_c_test2_boilerplate(s['Service'], s['Define'],
modulename, st)
with open(filename_c_test2, 'w') as fd:
st.seek(0)
shutil.copyfileobj(st, fd)
st.close() #
# Generate separate JSON file
st = StringIO()
generate_tojson(s, modulename, st)
with open(filename_c_tojson, 'w') as fd:
st.seek(0)
shutil.copyfileobj(st, fd)
st.close()
st = StringIO()
generate_fromjson(s, modulename, st)
with open(filename_c_fromjson, 'w') as fd:
st.seek(0)
shutil.copyfileobj(st, fd)
st.close()
output = TOP_BOILERPLATE.format(datestring=DATESTRING,
input_filename=basename)
output += generate_imports(s['Import'])
output += msg_ids(s)
output += msg_names(s)
output += msg_name_crc_list(s, filename)
output += typedefs(modulename)
printfun_types(s['types'], stream, modulename)
printfun(s['Define'], stream, modulename)
output += stream.getvalue()
stream.close()
output += endianfun(s['types'] + s['Define'], modulename)
output += version_tuple(s, basename)
output += BOTTOM_BOILERPLATE.format(input_filename=basename,
file_crc=s['file_crc'])
return output
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