qemu-e2k/tests/qapi-schema/qapi-schema-test.json
Eric Blake 748053c97b qapi: Use generated TestStruct machinery in tests
Commit d88f5fd and friends first introduced the various test-qmp-*
tests in 2011, with duplicated hand-rolled TestStruct machinery,
to make sure the qapi visitor interface was tested.  Later, commit
4f193e3 in 2013 added a .json file for further testing use by the
files, but without consolidating any of the existing hand-rolled
visitors.  And with four copies, subtle differences have crept in,
between the tests themselves (mainly whitespace differences, but
also a question of whether to use NULL or "TestStruct" when
calling visit_start_struct()) and from what the generator produces
(the hand-rolled versions did not cater to partially-allocated
objects, because they did not have a deallocation usage).

Of course, just because the visitor interface is tested does not
mean it is a sane interface; and future patches will be changing
some of the visitor contracts.  Rather than having to duplicate
the cleanup work in each copy of the TestStruct visitor, and keep
each hand-rolled copy in sync with what the generator supplies, we
might as well just test what the generator should give us in the
first place.

Signed-off-by: Eric Blake <eblake@redhat.com>
Message-Id: <1446791754-23823-2-git-send-email-eblake@redhat.com>
Signed-off-by: Markus Armbruster <armbru@redhat.com>
2015-11-09 16:45:05 +01:00

174 lines
6.1 KiB
Python

# *-*- Mode: Python -*-*
# This file is a stress test of supported qapi constructs that must
# parse and compile correctly.
{ 'struct': 'TestStruct',
'data': { 'integer': 'int', 'boolean': 'bool', 'string': 'str' } }
# for testing enums
{ 'struct': 'NestedEnumsOne',
'data': { 'enum1': 'EnumOne', # Intentional forward reference
'*enum2': 'EnumOne', 'enum3': 'EnumOne', '*enum4': 'EnumOne' } }
# An empty enum, although unusual, is currently acceptable
{ 'enum': 'MyEnum', 'data': [ ] }
# Likewise for an empty struct, including an empty base
{ 'struct': 'Empty1', 'data': { } }
{ 'struct': 'Empty2', 'base': 'Empty1', 'data': { } }
# for testing override of default naming heuristic
{ 'enum': 'QEnumTwo',
'prefix': 'QENUM_TWO',
'data': [ 'value1', 'value2' ] }
# for testing nested structs
{ 'struct': 'UserDefOne',
'base': 'UserDefZero', # intentional forward reference
'data': { 'string': 'str',
'*enum1': 'EnumOne' } } # intentional forward reference
{ 'enum': 'EnumOne',
'data': [ 'value1', 'value2', 'value3' ] }
{ 'struct': 'UserDefZero',
'data': { 'integer': 'int' } }
{ 'struct': 'UserDefTwoDictDict',
'data': { 'userdef': 'UserDefOne', 'string': 'str' } }
{ 'struct': 'UserDefTwoDict',
'data': { 'string1': 'str',
'dict2': 'UserDefTwoDictDict',
'*dict3': 'UserDefTwoDictDict' } }
{ 'struct': 'UserDefTwo',
'data': { 'string0': 'str',
'dict1': 'UserDefTwoDict' } }
# dummy struct to force generation of array types not otherwise mentioned
{ 'struct': 'ForceArrays',
'data': { 'unused1':['UserDefOne'], 'unused2':['UserDefTwo'],
'unused3':['TestStruct'] } }
# for testing unions
# Among other things, test that a name collision between branches does
# not cause any problems (since only one branch can be in use at a time),
# by intentionally using two branches that both have a C member 'a_b'
{ 'struct': 'UserDefA',
'data': { 'boolean': 'bool', '*a_b': 'int' } }
{ 'struct': 'UserDefB',
'data': { 'intb': 'int', '*a-b': 'bool' } }
{ 'union': 'UserDefFlatUnion',
'base': 'UserDefUnionBase', # intentional forward reference
'discriminator': 'enum1',
'data': { 'value1' : 'UserDefA',
'value2' : 'UserDefB',
'value3' : 'UserDefB' } }
{ 'struct': 'UserDefUnionBase',
'base': 'UserDefZero',
'data': { 'string': 'str', 'enum1': 'EnumOne' } }
# this variant of UserDefFlatUnion defaults to a union that uses fields with
# allocated types to test corner cases in the cleanup/dealloc visitor
{ 'union': 'UserDefFlatUnion2',
'base': 'UserDefUnionBase',
'discriminator': 'enum1',
'data': { 'value1' : 'UserDefC', # intentional forward reference
'value2' : 'UserDefB',
'value3' : 'UserDefA' } }
{ 'alternate': 'UserDefAlternate',
'data': { 'uda': 'UserDefA', 's': 'str', 'i': 'int' } }
{ 'struct': 'UserDefC',
'data': { 'string1': 'str', 'string2': 'str' } }
# for testing use of 'number' within alternates
{ 'alternate': 'AltStrBool', 'data': { 's': 'str', 'b': 'bool' } }
{ 'alternate': 'AltStrNum', 'data': { 's': 'str', 'n': 'number' } }
{ 'alternate': 'AltNumStr', 'data': { 'n': 'number', 's': 'str' } }
{ 'alternate': 'AltStrInt', 'data': { 's': 'str', 'i': 'int' } }
{ 'alternate': 'AltIntNum', 'data': { 'i': 'int', 'n': 'number' } }
{ 'alternate': 'AltNumInt', 'data': { 'n': 'number', 'i': 'int' } }
# for testing native lists
{ 'union': 'UserDefNativeListUnion',
'data': { 'integer': ['int'],
's8': ['int8'],
's16': ['int16'],
's32': ['int32'],
's64': ['int64'],
'u8': ['uint8'],
'u16': ['uint16'],
'u32': ['uint32'],
'u64': ['uint64'],
'number': ['number'],
'boolean': ['bool'],
'string': ['str'],
'sizes': ['size'],
'any': ['any'] } }
# testing commands
{ 'command': 'user_def_cmd', 'data': {} }
{ 'command': 'user_def_cmd1', 'data': {'ud1a': 'UserDefOne'} }
{ 'command': 'user_def_cmd2',
'data': {'ud1a': 'UserDefOne', '*ud1b': 'UserDefOne'},
'returns': 'UserDefTwo' }
# Returning a non-dictionary requires a name from the whitelist
{ 'command': 'guest-get-time', 'data': {'a': 'int', '*b': 'int' },
'returns': 'int' }
{ 'command': 'guest-sync', 'data': { 'arg': 'any' }, 'returns': 'any' }
# For testing integer range flattening in opts-visitor. The following schema
# corresponds to the option format:
#
# -userdef i64=3-6,i64=-5--1,u64=2,u16=1,u16=7-12
#
# For simplicity, this example doesn't use [type=]discriminator nor optargs
# specific to discriminator values.
{ 'struct': 'UserDefOptions',
'data': {
'*i64' : [ 'int' ],
'*u64' : [ 'uint64' ],
'*u16' : [ 'uint16' ],
'*i64x': 'int' ,
'*u64x': 'uint64' } }
# testing event
{ 'struct': 'EventStructOne',
'data': { 'struct1': 'UserDefOne', 'string': 'str', '*enum2': 'EnumOne' } }
{ 'event': 'EVENT_A' }
{ 'event': 'EVENT_B',
'data': { } }
{ 'event': 'EVENT_C',
'data': { '*a': 'int', '*b': 'UserDefOne', 'c': 'str' } }
{ 'event': 'EVENT_D',
'data': { 'a' : 'EventStructOne', 'b' : 'str', '*c': 'str', '*enum3': 'EnumOne' } }
# test that we correctly compile downstream extensions
{ 'enum': '__org.qemu_x-Enum', 'data': [ '__org.qemu_x-value' ] }
{ 'struct': '__org.qemu_x-Base',
'data': { '__org.qemu_x-member1': '__org.qemu_x-Enum' } }
{ 'struct': '__org.qemu_x-Struct', 'base': '__org.qemu_x-Base',
'data': { '__org.qemu_x-member2': 'str' } }
{ 'union': '__org.qemu_x-Union1', 'data': { '__org.qemu_x-branch': 'str' } }
{ 'struct': '__org.qemu_x-Struct2',
'data': { 'array': ['__org.qemu_x-Union1'] } }
{ 'union': '__org.qemu_x-Union2', 'base': '__org.qemu_x-Base',
'discriminator': '__org.qemu_x-member1',
'data': { '__org.qemu_x-value': '__org.qemu_x-Struct2' } }
{ 'alternate': '__org.qemu_x-Alt',
'data': { '__org.qemu_x-branch': 'str', 'b': '__org.qemu_x-Base' } }
{ 'event': '__ORG.QEMU_X-EVENT', 'data': '__org.qemu_x-Struct' }
{ 'command': '__org.qemu_x-command',
'data': { 'a': ['__org.qemu_x-Enum'], 'b': ['__org.qemu_x-Struct'],
'c': '__org.qemu_x-Union2', 'd': '__org.qemu_x-Alt' },
'returns': '__org.qemu_x-Union1' }