#
# QAPI types generator
#
# Copyright IBM, Corp. 2011
#
# Authors:
# Anthony Liguori <aliguori@us.ibm.com>
#
# This work is licensed under the terms of the GNU GPL, version 2.
# See the COPYING file in the top-level directory.
from ordereddict import OrderedDict
from qapi import *
def generate_fwd_builtin(name):
return mcgen('''
typedef struct %(name)sList
{
union {
%(type)s value;
uint64_t padding;
};
struct %(name)sList *next;
} %(name)sList;
''',
type=c_type(name),
name=name)
def generate_fwd_struct(name):
return mcgen('''
typedef struct %(name)s %(name)s;
typedef struct %(name)sList
{
union {
%(name)s *value;
uint64_t padding;
};
struct %(name)sList *next;
} %(name)sList;
''',
name=c_name(name))
def generate_fwd_enum_struct(name):
return mcgen('''
typedef struct %(name)sList
{
union {
%(name)s value;
uint64_t padding;
};
struct %(name)sList *next;
} %(name)sList;
''',
name=c_name(name))
def generate_struct_fields(members):
ret = ''
for argname, argentry, optional in parse_args(members):
if optional:
ret += mcgen('''
bool has_%(c_name)s;
''',
c_name=c_name(argname))
ret += mcgen('''
%(c_type)s %(c_name)s;
''',
c_type=c_type(argentry), c_name=c_name(argname))
return ret
def generate_struct(expr):
structname = expr.get('struct', "")
members = expr['data']
base = expr.get('base')
ret = mcgen('''
struct %(name)s
{
''',
name=c_name(structname))
if base:
ret += generate_struct_fields({'base': base})
ret += generate_struct_fields(members)
# Make sure that all structs have at least one field; this avoids
# potential issues with attempting to malloc space for zero-length structs
# in C, and also incompatibility with C++ (where an empty struct is size 1).
if not base and not members:
ret += mcgen('''
char qapi_dummy_field_for_empty_struct;
''')
ret += mcgen('''
};
''')
return ret
def generate_enum_lookup(name, values):
ret = mcgen('''
const char * const %(name)s_lookup[] = {
''',
name=c_name(name))
i = 0
for value in values:
index = c_enum_const(name, value)
ret += mcgen('''
[%(index)s] = "%(value)s",
''',
index = index, value = value)
max_index = c_enum_const(name, 'MAX')
ret += mcgen('''
[%(max_index)s] = NULL,
};
''',
max_index=max_index)
return ret
def generate_enum(name, values):
name = c_name(name)
lookup_decl = mcgen('''
extern const char * const %(name)s_lookup[];
''',
name=name)
enum_decl = mcgen('''
typedef enum %(name)s
{
''',
name=name)
# append automatically generated _MAX value
enum_values = values + [ 'MAX' ]
i = 0
for value in enum_values:
enum_full_value = c_enum_const(name, value)
enum_decl += mcgen('''
%(enum_full_value)s = %(i)d,
''',
enum_full_value = enum_full_value,
i=i)
i += 1
enum_decl += mcgen('''
} %(name)s;
''',
name=name)
return lookup_decl + enum_decl
def generate_alternate_qtypes(expr):
name = expr['alternate']
members = expr['data']
ret = mcgen('''
const int %(name)s_qtypes[QTYPE_MAX] = {
''',
name=c_name(name))
for key in members:
qtype = find_alternate_member_qtype(members[key])
assert qtype, "Invalid alternate member"
ret += mcgen('''
[%(qtype)s] = %(enum_const)s,
''',
qtype = qtype,
enum_const = c_enum_const(name + 'Kind', key))
ret += mcgen('''
};
''')
return ret
def generate_union(expr, meta):
name = c_name(expr[meta])
typeinfo = expr['data']
base = expr.get('base')
discriminator = expr.get('discriminator')
enum_define = discriminator_find_enum_define(expr)
if enum_define:
discriminator_type_name = enum_define['enum_name']
else:
discriminator_type_name = '%sKind' % (name)
ret = mcgen('''
struct %(name)s
{
%(discriminator_type_name)s kind;
union {
void *data;
''',
name=name,
discriminator_type_name=c_name(discriminator_type_name))
for key in typeinfo:
ret += mcgen('''
%(c_type)s %(c_name)s;
''',
c_type=c_type(typeinfo[key]),
c_name=c_name(key))
ret += mcgen('''
};
''')
if base:
assert discriminator
base_fields = find_struct(base)['data'].copy()
del base_fields[discriminator]
ret += generate_struct_fields(base_fields)
else:
assert not discriminator
ret += mcgen('''
};
''')
if meta == 'alternate':
ret += mcgen('''
extern const int %(name)s_qtypes[];
''',
name=name)
return ret
def generate_type_cleanup_decl(name):
ret = mcgen('''
void qapi_free_%(name)s(%(c_type)s obj);
''',
c_type=c_type(name), name=c_name(name))
return ret
def generate_type_cleanup(name):
ret = mcgen('''
void qapi_free_%(name)s(%(c_type)s obj)
{
QapiDeallocVisitor *md;
Visitor *v;
if (!obj) {
return;
}
md = qapi_dealloc_visitor_new();
v = qapi_dealloc_get_visitor(md);
visit_type_%(name)s(v, &obj, NULL, NULL);
qapi_dealloc_visitor_cleanup(md);
}
''',
c_type=c_type(name), name=c_name(name))
return ret
do_builtins = False
(input_file, output_dir, do_c, do_h, prefix, opts) = \
parse_command_line("b", ["builtins"])
for o, a in opts:
if o in ("-b", "--builtins"):
do_builtins = True
c_comment = '''
/*
* deallocation functions for schema-defined QAPI types
*
* Copyright IBM, Corp. 2011
*
* Authors:
* Anthony Liguori <aliguori@us.ibm.com>
* Michael Roth <mdroth@linux.vnet.ibm.com>
*
* This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
* See the COPYING.LIB file in the top-level directory.
*
*/
'''
h_comment = '''
/*
* schema-defined QAPI types
*
* Copyright IBM, Corp. 2011
*
* Authors:
* Anthony Liguori <aliguori@us.ibm.com>
*
* This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
* See the COPYING.LIB file in the top-level directory.
*
*/
'''
(fdef, fdecl) = open_output(output_dir, do_c, do_h, prefix,
'qapi-types.c', 'qapi-types.h',
c_comment, h_comment)
fdef.write(mcgen('''
#include "qapi/dealloc-visitor.h"
#include "%(prefix)sqapi-types.h"
#include "%(prefix)sqapi-visit.h"
''',
prefix=prefix))
fdecl.write(mcgen('''
#include <stdbool.h>
#include <stdint.h>
'''))
exprs = parse_schema(input_file)
fdecl.write(guardstart("QAPI_TYPES_BUILTIN_STRUCT_DECL"))
for typename in builtin_types.keys():
fdecl.write(generate_fwd_builtin(typename))
fdecl.write(guardend("QAPI_TYPES_BUILTIN_STRUCT_DECL"))
for expr in exprs:
ret = "\n"
if expr.has_key('struct'):
ret += generate_fwd_struct(expr['struct'])
elif expr.has_key('enum'):
ret += generate_enum(expr['enum'], expr['data']) + "\n"
ret += generate_fwd_enum_struct(expr['enum'])
fdef.write(generate_enum_lookup(expr['enum'], expr['data']))
elif expr.has_key('union'):
ret += generate_fwd_struct(expr['union']) + "\n"
enum_define = discriminator_find_enum_define(expr)
if not enum_define:
ret += generate_enum('%sKind' % expr['union'], expr['data'].keys())
fdef.write(generate_enum_lookup('%sKind' % expr['union'],
expr['data'].keys()))
elif expr.has_key('alternate'):
ret += generate_fwd_struct(expr['alternate']) + "\n"
ret += generate_enum('%sKind' % expr['alternate'], expr['data'].keys())
fdef.write(generate_enum_lookup('%sKind' % expr['alternate'],
expr['data'].keys()))
fdef.write(generate_alternate_qtypes(expr))
else:
continue
fdecl.write(ret)
# to avoid header dependency hell, we always generate declarations
# for built-in types in our header files and simply guard them
fdecl.write(guardstart("QAPI_TYPES_BUILTIN_CLEANUP_DECL"))
for typename in builtin_types.keys():
fdecl.write(generate_type_cleanup_decl(typename + "List"))
fdecl.write(guardend("QAPI_TYPES_BUILTIN_CLEANUP_DECL"))
# ...this doesn't work for cases where we link in multiple objects that
# have the functions defined, so we use -b option to provide control
# over these cases
if do_builtins:
fdef.write(guardstart("QAPI_TYPES_BUILTIN_CLEANUP_DEF"))
for typename in builtin_types.keys():
fdef.write(generate_type_cleanup(typename + "List"))
fdef.write(guardend("QAPI_TYPES_BUILTIN_CLEANUP_DEF"))
for expr in exprs:
ret = "\n"
if expr.has_key('struct'):
ret += generate_struct(expr) + "\n"
ret += generate_type_cleanup_decl(expr['struct'] + "List")
fdef.write(generate_type_cleanup(expr['struct'] + "List") + "\n")
ret += generate_type_cleanup_decl(expr['struct'])
fdef.write(generate_type_cleanup(expr['struct']) + "\n")
elif expr.has_key('union'):
ret += generate_union(expr, 'union')
ret += generate_type_cleanup_decl(expr['union'] + "List")
fdef.write(generate_type_cleanup(expr['union'] + "List") + "\n")
ret += generate_type_cleanup_decl(expr['union'])
fdef.write(generate_type_cleanup(expr['union']) + "\n")
elif expr.has_key('alternate'):
ret += generate_union(expr, 'alternate')
ret += generate_type_cleanup_decl(expr['alternate'] + "List")
fdef.write(generate_type_cleanup(expr['alternate'] + "List") + "\n")
ret += generate_type_cleanup_decl(expr['alternate'])
fdef.write(generate_type_cleanup(expr['alternate']) + "\n")
elif expr.has_key('enum'):
ret += generate_type_cleanup_decl(expr['enum'] + "List")
fdef.write(generate_type_cleanup(expr['enum'] + "List") + "\n")
else:
continue
fdecl.write(ret)
close_output(fdef, fdecl)
