Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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--[[--------------------------------------------------------------------------
Protocol Buffers - Google's data interchange format
Copyright 2023 Google LLC. All rights reserved.
Use of this source code is governed by a BSD-style
license that can be found in the LICENSE file or at
https://developers.google.com/open-source/licenses/bsd
--]]--------------------------------------------------------------------------
local upb = require "lupb"
local lunit = require "lunit"
local upb_test = require "lua.test_pb"
local test_messages_proto3 = require "google.protobuf.test_messages_proto3_pb"
local test_messages_proto2 = require "google.protobuf.test_messages_proto2_pb"
local descriptor = require "google.protobuf.descriptor_pb"
local empty = require "google.protobuf.empty_pb"
if _VERSION >= 'Lua 5.2' then
_ENV = lunit.module("testupb", "seeall")
else
module("testupb", lunit.testcase, package.seeall)
end
function iter_to_array(iter)
local arr = {}
for v in iter do
arr[#arr + 1] = v
end
return arr
end
function test_def_readers()
local m = test_messages_proto3.TestAllTypesProto3
assert_equal("TestAllTypesProto3", m:name())
assert_equal("protobuf_test_messages.proto3.TestAllTypesProto3", m:full_name())
-- field
local f = m:field("optional_int32")
local f2 = m:field(1)
assert_equal(f, f2)
assert_equal(1, f:number())
assert_equal("optional_int32", f:name())
assert_equal(upb.LABEL_OPTIONAL, f:label())
assert_equal(upb.DESCRIPTOR_TYPE_INT32, f:descriptor_type())
assert_equal(upb.TYPE_INT32, f:type())
assert_nil(f:containing_oneof())
assert_equal(m, f:containing_type())
assert_equal(0, f:default())
local message_field_count = 0
for field in m:fields() do
message_field_count = message_field_count + 1
end
assert_equal(message_field_count, #m)
local message_oneof_count = 0
for oneof in m:oneofs() do
message_oneof_count = message_oneof_count + 1
end
assert_equal(message_oneof_count, m:oneof_count())
-- oneof
local o = m:lookup_name("oneof_field")
assert_equal("oneof_field", o:name())
assert_equal(m, o:containing_type())
local oneof_field_count = 0
for field in o:fields() do
oneof_field_count = oneof_field_count + 1
end
assert_equal(oneof_field_count, #o)
-- enum
local e = test_messages_proto3['TestAllTypesProto3.NestedEnum']
assert_true(#e > 3 and #e < 10)
assert_equal(2, e:value("BAZ"):number())
end
function test_msg_map()
msg = test_messages_proto3.TestAllTypesProto3()
msg.map_int32_int32[5] = 10
msg.map_int32_int32[6] = 12
assert_equal(10, msg.map_int32_int32[5])
assert_equal(12, msg.map_int32_int32[6])
-- Test overwrite.
msg.map_int32_int32[5] = 20
assert_equal(20, msg.map_int32_int32[5])
assert_equal(12, msg.map_int32_int32[6])
msg.map_int32_int32[5] = 10
-- Test delete.
msg.map_int32_int32[5] = nil
assert_nil(msg.map_int32_int32[5])
assert_equal(12, msg.map_int32_int32[6])
msg.map_int32_int32[5] = 10
local serialized = upb.encode(msg)
assert_true(#serialized > 0)
local msg2 = upb.decode(test_messages_proto3.TestAllTypesProto3, serialized)
assert_equal(10, msg2.map_int32_int32[5])
assert_equal(12, msg2.map_int32_int32[6])
end
function test_map_sorting()
function msg_with_int32_entries(start, expand)
local msg = test_messages_proto3.TestAllTypesProto3()
for i=start,start + 8 do
msg.map_int32_int32[i] = i * 2
end
if expand then
for i=start+20,200 do
msg.map_int32_int32[i] = i
end
for i=start+20,200 do
msg.map_int32_int32[i] = nil
end
end
return msg
end
function msg_with_msg_entries(expand)
local msg = test_messages_proto3.TestAllTypesProto3()
-- 8! = 40320 possible orderings makes it overwhelmingly likely that two
-- random orderings will be different.
for i=1,8 do
local submsg = test_messages_proto3.TestAllTypesProto3.NestedMessage()
submsg.corecursive = msg_with_int32_entries(i, expand)
msg.map_string_nested_message[tostring(i)] = submsg
end
expand = false
if expand then
for i=21,2000 do
local submsg = test_messages_proto3.TestAllTypesProto3.NestedMessage()
submsg.corecursive = msg_with_int32_entries(i, expand)
msg.map_string_nested_message[tostring(i)] = submsg
end
for i=21,2000 do
msg.map_string_nested_message[tostring(i)] = nil
end
end
return msg
end
-- Create two messages with the same contents but (hopefully) different
-- map table orderings.
local msg = msg_with_msg_entries(false)
local msg2 = msg_with_msg_entries(true)
local text1 = upb.text_encode(msg)
local text2 = upb.text_encode(msg2)
assert_equal(text1, text2)
local binary1 = upb.encode(msg, {upb.ENCODE_DETERMINISTIC})
local binary2 = upb.encode(msg2, {upb.ENCODE_DETERMINISTIC})
assert_equal(binary1, binary2)
-- Non-sorted map should compare different.
local text3 = upb.text_encode(msg, {upb.TXTENC_NOSORT})
assert_not_equal(text1, text3)
local binary3 = upb.encode(msg)
assert_not_equal(binary1, binary3)
end
function test_utf8()
local proto2_msg = test_messages_proto2.TestAllTypesProto2()
proto2_msg.optional_string = "\xff"
local serialized = upb.encode(proto2_msg)
-- Decoding invalid UTF-8 succeeds in proto2.
upb.decode(test_messages_proto2.TestAllTypesProto2, serialized)
-- Decoding invalid UTF-8 fails in proto2.
assert_error_match("Error decoding protobuf", function()
upb.decode(test_messages_proto3.TestAllTypesProto3, serialized)
end)
-- TODO: should proto3 accessors also check UTF-8 at set time?
end
function test_string_double_map()
msg = upb_test.MapTest()
msg.map_string_double["one"] = 1.0
msg.map_string_double["two point five"] = 2.5
assert_equal(1, msg.map_string_double["one"])
assert_equal(2.5, msg.map_string_double["two point five"])
-- Test overwrite.
msg.map_string_double["one"] = 2
assert_equal(2, msg.map_string_double["one"])
assert_equal(2.5, msg.map_string_double["two point five"])
msg.map_string_double["one"] = 1.0
-- Test delete.
msg.map_string_double["one"] = nil
assert_nil(msg.map_string_double["one"])
assert_equal(2.5, msg.map_string_double["two point five"])
msg.map_string_double["one"] = 1
local serialized = upb.encode(msg)
assert_true(#serialized > 0)
local msg2 = upb.decode(upb_test.MapTest, serialized)
assert_equal(1, msg2.map_string_double["one"])
assert_equal(2.5, msg2.map_string_double["two point five"])
end
function test_string_double_map()
local function fill_msg(msg)
msg.i32_packed[1] = 100
msg.i32_packed[2] = 200
msg.i32_packed[3] = 50000
msg.i64_packed[1] = 101
msg.i64_packed[2] = 201
msg.i64_packed[3] = 50001
msg.f32_packed[1] = 102
msg.f32_packed[2] = 202
msg.f32_packed[3] = 50002
msg.f64_packed[1] = 103
msg.f64_packed[2] = 203
msg.f64_packed[3] = 50003
end
local function check_msg(msg)
assert_equal(100, msg.i32_packed[1])
assert_equal(200, msg.i32_packed[2])
assert_equal(50000, msg.i32_packed[3])
assert_equal(3, #msg.i32_packed)
assert_equal(101, msg.i64_packed[1])
assert_equal(201, msg.i64_packed[2])
assert_equal(50001, msg.i64_packed[3])
assert_equal(3, #msg.i64_packed)
assert_equal(102, msg.f32_packed[1])
assert_equal(202, msg.f32_packed[2])
assert_equal(50002, msg.f32_packed[3])
assert_equal(3, #msg.f32_packed)
assert_equal(103, msg.f64_packed[1])
assert_equal(203, msg.f64_packed[2])
assert_equal(50003, msg.f64_packed[3])
assert_equal(3, #msg.f64_packed)
end
local msg = upb_test.PackedTest()
fill_msg(msg)
check_msg(msg)
local serialized_packed = upb.encode(msg)
local msg2 = upb.decode(upb_test.PackedTest, serialized_packed)
local msg3 = upb.decode(upb_test.UnpackedTest, serialized_packed)
check_msg(msg2)
check_msg(msg3)
serialized_unpacked = upb.encode(msg3)
local msg4 = upb.decode(upb_test.PackedTest, serialized_unpacked)
local msg5 = upb.decode(upb_test.PackedTest, serialized_unpacked)
check_msg(msg4)
check_msg(msg5)
end
function test_msg_string_map()
msg = test_messages_proto3.TestAllTypesProto3()
msg.map_string_string["foo"] = "bar"
msg.map_string_string["baz"] = "quux"
assert_nil(msg.map_string_string["abc"])
assert_equal("bar", msg.map_string_string["foo"])
assert_equal("quux", msg.map_string_string["baz"])
-- Test overwrite.
msg.map_string_string["foo"] = "123"
assert_equal("123", msg.map_string_string["foo"])
assert_equal("quux", msg.map_string_string["baz"])
msg.map_string_string["foo"] = "bar"
-- Test delete
msg.map_string_string["foo"] = nil
assert_nil(msg.map_string_string["foo"])
assert_equal("quux", msg.map_string_string["baz"])
msg.map_string_string["foo"] = "bar"
local serialized = upb.encode(msg)
assert_true(#serialized > 0)
local msg2 = upb.decode(test_messages_proto3.TestAllTypesProto3, serialized)
assert_equal("bar", msg2.map_string_string["foo"])
assert_equal("quux", msg2.map_string_string["baz"])
end
function test_msg_array()
msg = test_messages_proto3.TestAllTypesProto3()
assert_not_nil(msg.repeated_int32)
assert_equal(msg.repeated_int32, msg.repeated_int32)
assert_equal(0, #msg.repeated_int32)
msg.repeated_int32[1] = 2
assert_equal(1, #msg.repeated_int32);
assert_equal(2, msg.repeated_int32[1]);
-- Can't assign a scalar; array is expected.
assert_error_match("lupb.array expected", function() msg.repeated_int32 = 5 end)
-- Can't assign array of the wrong type.
local function assign_int64()
msg.repeated_int32 = upb.Array(upb.TYPE_INT64)
end
assert_error_match("array type mismatch", assign_int64)
local arr = upb.Array(upb.TYPE_INT32)
arr[1] = 6
assert_equal(1, #arr)
msg.repeated_int32 = arr
assert_equal(msg.repeated_int32, msg.repeated_int32)
assert_equal(arr, msg.repeated_int32)
assert_equal(1, #msg.repeated_int32)
assert_equal(6, msg.repeated_int32[1])
-- Can't assign other Lua types.
assert_error_match("array expected", function() msg.repeated_int32 = "abc" end)
assert_error_match("array expected", function() msg.repeated_int32 = true end)
assert_error_match("array expected", function() msg.repeated_int32 = false end)
assert_error_match("array expected", function() msg.repeated_int32 = nil end)
assert_error_match("array expected", function() msg.repeated_int32 = {} end)
assert_error_match("array expected", function() msg.repeated_int32 = print end)
end
function test_array_append()
local arr = upb.Array(upb.TYPE_INT32)
for i=1,200000 do
arr[i] = i
end
for i=1,200000 do
assert_equal(i, arr[i])
end
end
function test_msg_submsg()
--msg = test_messages_proto3.TestAllTypesProto3()
msg = test_messages_proto3['TestAllTypesProto3']()
assert_nil(msg.optional_nested_message)
-- Can't assign message of the wrong type.
local function assign_int64()
msg.optional_nested_message = test_messages_proto3.TestAllTypesProto3()
end
assert_error_match("message type mismatch", assign_int64)
local nested = test_messages_proto3['TestAllTypesProto3.NestedMessage']()
msg.optional_nested_message = nested
assert_equal(nested, msg.optional_nested_message)
-- Can't assign other Lua types.
assert_error_match("msg expected", function() msg.optional_nested_message = "abc" end)
assert_error_match("msg expected", function() msg.optional_nested_message = true end)
assert_error_match("msg expected", function() msg.optional_nested_message = false end)
assert_error_match("msg expected", function() msg.optional_nested_message = nil end)
assert_error_match("msg expected", function() msg.optional_nested_message = {} end)
assert_error_match("msg expected", function() msg.optional_nested_message = print end)
end
-- Lua 5.1 and 5.2 have slightly different semantics for how a finalizer
-- can be defined in Lua.
if _VERSION >= 'Lua 5.2' then
function defer(fn)
setmetatable({}, { __gc = fn })
end
else
function defer(fn)
getmetatable(newproxy(true)).__gc = fn
end
end
function test_finalizer()
-- Tests that we correctly handle a call into an already-finalized object.
-- Collectible objects are finalized in the opposite order of creation.
do
local t = {}
defer(function()
assert_error_match("called into dead object", function()
-- Generic def call.
t[1]:lookup_msg("abc")
end)
end)
t = {
upb.DefPool(),
}
end
collectgarbage()
end
-- in-range of 64-bit types but not exactly representable as double
local bad64 = 2^68 - 1
local numeric_types = {
[upb.TYPE_UINT32] = {
valid_val = 2^32 - 1,
too_big = 2^32,
too_small = -1,
other_bad = 5.1
},
[upb.TYPE_UINT64] = {
valid_val = 2^63,
too_big = 2^64,
too_small = -1,
other_bad = bad64
},
[upb.TYPE_INT32] = {
valid_val = 2^31 - 1,
too_big = 2^31,
too_small = -2^31 - 1,
other_bad = 5.1
},
-- Enums don't exist at a language level in Lua, so we just represent enum
-- values as int32s.
[upb.TYPE_ENUM] = {
valid_val = 2^31 - 1,
too_big = 2^31,
too_small = -2^31 - 1,
other_bad = 5.1
},
[upb.TYPE_INT64] = {
valid_val = 2^62,
too_big = 2^63,
too_small = -2^64,
other_bad = bad64
},
[upb.TYPE_FLOAT] = {
valid_val = 340282306073709652508363335590014353408
},
[upb.TYPE_DOUBLE] = {
valid_val = 10^101
},
}
function test_utf8()
local invalid_utf8 = "\xff"
local proto2_msg = test_messages_proto2.TestAllTypesProto2{
optional_string = invalid_utf8,
}
-- As proto2, invalid UTF-8 parses and serializes fine.
local serialized = upb.encode(proto2_msg)
local proto2_msg2 = upb.decode(test_messages_proto2.TestAllTypesProto2, serialized)
-- Decoding as proto3 fails.
assert_error(function()
upb.decode(test_messages_proto3.TestAllTypesProto3, serialized)
end)
end
function test_msg_primitives()
local msg = test_messages_proto3.TestAllTypesProto3{
optional_int32 = 10,
optional_uint32 = 20,
optional_int64 = 30,
optional_uint64 = 40,
optional_double = 50,
optional_float = 60,
optional_sint32 = 70,
optional_sint64 = 80,
optional_fixed32 = 90,
optional_fixed64 = 100,
optional_sfixed32 = 110,
optional_sfixed64 = 120,
optional_bool = true,
optional_string = "abc",
optional_nested_message = test_messages_proto3['TestAllTypesProto3.NestedMessage']{a = 123},
}
-- Attempts to access non-existent fields fail.
assert_error_match("no such field", function() msg.no_such = 1 end)
assert_equal(10, msg.optional_int32)
assert_equal(20, msg.optional_uint32)
assert_equal(30, msg.optional_int64)
assert_equal(40, msg.optional_uint64)
assert_equal(50, msg.optional_double)
assert_equal(60, msg.optional_float)
assert_equal(70, msg.optional_sint32)
assert_equal(80, msg.optional_sint64)
assert_equal(90, msg.optional_fixed32)
assert_equal(100, msg.optional_fixed64)
assert_equal(110, msg.optional_sfixed32)
assert_equal(120, msg.optional_sfixed64)
assert_equal(true, msg.optional_bool)
assert_equal("abc", msg.optional_string)
assert_equal(123, msg.optional_nested_message.a)
end
function test_string_array()
local function test_for_string_type(upb_type)
local array = upb.Array(upb_type)
assert_equal(0, #array)
-- 0 is never a valid index in Lua.
assert_error_match("array index", function() return array[0] end)
-- Past the end of the array.
assert_error_match("array index", function() return array[1] end)
array[1] = "foo"
assert_equal("foo", array[1])
assert_equal(1, #array)
-- Past the end of the array.
assert_error_match("array index", function() return array[2] end)
local array2 = upb.Array(upb_type)
assert_equal(0, #array2)
array[2] = "bar"
assert_equal("foo", array[1])
assert_equal("bar", array[2])
assert_equal(2, #array)
-- Past the end of the array.
assert_error_match("array index", function() return array[3] end)
-- Can't assign other Lua types.
assert_error_match("Expected string", function() array[3] = 123 end)
assert_error_match("Expected string", function() array[3] = true end)
assert_error_match("Expected string", function() array[3] = false end)
assert_error_match("Expected string", function() array[3] = nil end)
assert_error_match("Expected string", function() array[3] = {} end)
assert_error_match("Expected string", function() array[3] = print end)
assert_error_match("Expected string", function() array[3] = array end)
end
test_for_string_type(upb.TYPE_STRING)
test_for_string_type(upb.TYPE_BYTES)
end
function test_numeric_array()
local function test_for_numeric_type(upb_type)
local array = upb.Array(upb_type)
local vals = numeric_types[upb_type]
assert_equal(0, #array)
-- 0 is never a valid index in Lua.
assert_error_match("array index", function() return array[0] end)
-- Past the end of the array.
assert_error_match("array index", function() return array[1] end)
array[1] = vals.valid_val
assert_equal(vals.valid_val, array[1])
assert_equal(1, #array)
assert_equal(vals.valid_val, array[1])
-- Past the end of the array.
assert_error_match("array index", function() return array[2] end)
array[2] = 10
assert_equal(vals.valid_val, array[1])
assert_equal(10, array[2])
assert_equal(2, #array)
-- Past the end of the array.
assert_error_match("array index", function() return array[3] end)
-- Values that are out of range.
local errmsg = "not an integer or out of range"
if vals.too_small then
assert_error_match(errmsg, function() array[3] = vals.too_small end)
end
if vals.too_big then
assert_error_match(errmsg, function() array[3] = vals.too_big end)
end
if vals.other_bad then
assert_error_match(errmsg, function() array[3] = vals.other_bad end)
end
-- Can't assign other Lua types.
errmsg = "bad argument #3"
assert_error_match(errmsg, function() array[3] = "abc" end)
assert_error_match(errmsg, function() array[3] = true end)
assert_error_match(errmsg, function() array[3] = false end)
assert_error_match(errmsg, function() array[3] = nil end)
assert_error_match(errmsg, function() array[3] = {} end)
assert_error_match(errmsg, function() array[3] = print end)
assert_error_match(errmsg, function() array[3] = array end)
end
for k in pairs(numeric_types) do
test_for_numeric_type(k)
end
end
function test_numeric_map()
local function test_for_numeric_types(key_type, val_type)
local map = upb.Map(key_type, val_type)
local key_vals = numeric_types[key_type]
local val_vals = numeric_types[val_type]
assert_equal(0, #map)
-- Unset keys return nil
assert_nil(map[key_vals.valid_val])
map[key_vals.valid_val] = val_vals.valid_val
assert_equal(1, #map)
assert_equal(val_vals.valid_val, map[key_vals.valid_val])
i = 0
for k, v in pairs(map) do
assert_equal(key_vals.valid_val, k)
assert_equal(val_vals.valid_val, v)
end
-- Out of range key/val
local errmsg = "not an integer or out of range"
if key_vals.too_small then
assert_error_match(errmsg, function() map[key_vals.too_small] = 1 end)
end
if key_vals.too_big then
assert_error_match(errmsg, function() map[key_vals.too_big] = 1 end)
end
if key_vals.other_bad then
assert_error_match(errmsg, function() map[key_vals.other_bad] = 1 end)
end
if val_vals.too_small then
assert_error_match(errmsg, function() map[1] = val_vals.too_small end)
end
if val_vals.too_big then
assert_error_match(errmsg, function() map[1] = val_vals.too_big end)
end
if val_vals.other_bad then
assert_error_match(errmsg, function() map[1] = val_vals.other_bad end)
end
end
for k in pairs(numeric_types) do
for v in pairs(numeric_types) do
test_for_numeric_types(k, v)
end
end
end
function test_unknown()
local bytes = string.rep("\x38\x00", 1000)
for i=1,1000 do
local msg = upb.decode(test_messages_proto3.TestAllTypesProto3, bytes)
end
end
function test_foo()
local defpool = upb.DefPool()
local filename = "external/com_google_protobuf/src/google/protobuf/descriptor_proto-descriptor-set.proto.bin"
local alternate_filename = "src/google/protobuf/descriptor_proto-descriptor-set.proto.bin"
local file = io.open(filename, "rb") or io.open("bazel-bin/" .. filename, "rb") or io.open(alternate_filename, "rb")
assert_not_nil(file)
local descriptor = file:read("*a")
assert_true(#descriptor > 0)
defpool:add_set(descriptor)
local FileDescriptorSet = defpool:lookup_msg("google.protobuf.FileDescriptorSet")
assert_not_nil(FileDescriptorSet)
set = FileDescriptorSet()
assert_equal(#set.file, 0)
assert_error_match("lupb.array expected", function () set.file = 1 end)
set = upb.decode(FileDescriptorSet, descriptor)
-- Test that we can at least call this without crashing.
set_textformat = tostring(set)
-- print(set_textformat)
assert_equal(#set.file, 1)
assert_equal(set.file[1].name, "google/protobuf/descriptor.proto")
end
function test_descriptor()
local defpool = upb.DefPool()
local file_proto = descriptor.FileDescriptorProto {
name = "test.proto",
message_type = upb.Array(descriptor.DescriptorProto, {
descriptor.DescriptorProto{
name = "ABC",
},
})
}
local file = defpool:add_file(upb.encode(file_proto))
assert_equal(file:defpool(), defpool)
end
function test_descriptor_error()
local defpool = upb.DefPool()
local file = descriptor.FileDescriptorProto()
file.name = "test.proto"
file.message_type[1] = descriptor.DescriptorProto{
name = "ABC"
}
file.message_type[2] = descriptor.DescriptorProto{
name = "BC."
}
assert_error(function () defpool:add_file(upb.encode(file)) end)
assert_nil(defpool:lookup_msg("ABC"))
end
function test_duplicate_enumval()
local defpool = upb.DefPool()
local file_proto = descriptor.FileDescriptorProto {
name = "test.proto",
message_type = upb.Array(descriptor.DescriptorProto, {
descriptor.DescriptorProto{
name = "ABC",
},
}),
enum_type = upb.Array(descriptor.EnumDescriptorProto, {
descriptor.EnumDescriptorProto{
name = "MyEnum",
value = upb.Array(descriptor.EnumValueDescriptorProto, {
descriptor.EnumValueDescriptorProto{
name = "ABC",
number = 1,
}
}),
},
})
}
assert_error(function () defpool:add_file(upb.encode(file_proto)) end)
end
function test_duplicate_filename_error()
local defpool = upb.DefPool()
local file = descriptor.FileDescriptorProto()
file.name = "test.proto"
defpool:add_file(upb.encode(file))
-- Second add with the same filename fails.
assert_error(function () defpool:add_file(upb.encode(file)) end)
end
function test_encode_skipunknown()
-- Test that upb.ENCODE_SKIPUNKNOWN does not encode unknown fields.
local msg = test_messages_proto3.TestAllTypesProto3{
optional_int32 = 10,
optional_uint32 = 20,
optional_int64 = 30,
}
-- SKIPUNKNOWN here tests that it does *not* affect regular fields.
local serialized = upb.encode(msg, {upb.ENCODE_SKIPUNKNOWN})
assert_true(#serialized > 0)
local empty_with_unknown = upb.decode(empty.Empty, serialized)
assert_true(#upb.encode(empty_with_unknown) > 0)
-- Verify that unknown fields are not serialized.
assert_true(#upb.encode(empty_with_unknown, {upb.ENCODE_SKIPUNKNOWN}) == 0)
end
function test_json_emit_defaults()
local msg = test_messages_proto3.TestAllTypesProto3()
local json = upb.json_encode(msg, {upb.JSONENC_EMITDEFAULTS})
end
function test_json_locale()
local msg = test_messages_proto3.TestAllTypesProto3()
msg.optional_double = 1.1
local original_locale = os.setlocale(nil)
os.setlocale("C")
local json = upb.json_encode(msg)
os.setlocale("de_DE.utf8")
assert_equal(json, upb.json_encode(msg))
os.setlocale(original_locale) -- Restore.
end
function test_encode_depth_limit()
local msg = test_messages_proto3.TestAllTypesProto3()
msg.recursive_message = msg
assert_error(function() upb.encode(msg) end)
end
function test_large_field_number()
local msg = upb_test.TestLargeFieldNumber()
msg.i32 = 5
local serialized = upb.encode(msg)
local msg2 = upb.decode(upb_test.TestLargeFieldNumber, serialized)
assert_equal(msg.i32, msg2.i32)
end
function test_timestamp_minutes()
local msg = upb.json_decode(upb_test.TestTimestamp, '{"ts": "2000-01-01T00:00:00-06:59"}')
assert_equal(msg.ts.seconds, 946684800 + ((6 * 60) + 59) * 60)
end
function test_gc()
local top = test_messages_proto3.TestAllTypesProto3()
local n = 100
local m
for i=1,n do
local inner = test_messages_proto3.TestAllTypesProto3()
m = inner
for j=1,n do
local tmp = m
m = test_messages_proto3.TestAllTypesProto3()
-- This will cause the arenas to fuse. But we stop referring to the child,
-- so the Lua object is eligible for collection (and therefore its original
-- arena can be collected too). Only the fusing will keep the C mem alivd.
m.recursive_message = tmp
end
top.recursive_message = m
end
collectgarbage()
for i=1,n do
-- Verify we can touch all the messages again and without accessing freed
-- memory.
m = m.recursive_message
assert_not_nil(m)
end
end
function test_b9440()
local m = upb_test.HelloRequest()
m.id = 8
assert_equal(8, m.id)
m.version = "1"
assert_equal(8, m.id)
end
local stats = lunit.main()
if stats.failed > 0 or stats.errors > 0 then
error("One or more errors in test suite")
end