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fn-serverless/vendor/git.apache.org/thrift.git/test/DebugProtoTest.thrift
Reed Allman 9eaf824398 add jaeger support, link hot container & req span (#840) 
* add jaeger support, link hot container & req span

* adds jaeger support now with FN_JAEGER_URL, there's a simple tutorial in the
operating/metrics.md file now and it's pretty easy to get up and running.
* links a hot request span to a hot container span. when we change this to
sample at a lower ratio we'll need to finagle the hot container span to always
sample or something, otherwise we'll hide that info. at least, since we're
sampling at 100% for now if this is flipped on, can see freeze/unfreeze etc.
if they hit. this is useful for debugging. note that zipkin's exporter does
not follow the link at all, hence jaeger... and they're backed by the Cloud
Empire now (CNCF) so we'll probably use it anyway.

* vendor: add thrift for jaeger
2018-03-13 15:57:12 -07:00

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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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.
*/
namespace c_glib TTest
namespace cpp thrift.test.debug
namespace java thrift.test
namespace rb thrift.test
struct Doubles {
1: double nan,
2: double inf,
3: double neginf,
4: double repeating,
5: double big,
6: double tiny,
7: double zero,
8: double negzero,
}
struct OneOfEach {
1: bool im_true,
2: bool im_false,
3: i8 a_bite = 0x7f,
4: i16 integer16 = 0x7fff,
5: i32 integer32,
6: i64 integer64 = 10000000000,
7: double double_precision,
8: string some_characters,
9: string zomg_unicode,
10: bool what_who,
11: binary base64,
12: list<i8> byte_list = [1, 2, 3],
13: list<i16> i16_list = [1,2,3],
14: list<i64> i64_list = [1,2,3]
}
struct Bonk {
1: i32 type,
2: string message,
}
struct Nesting {
1: Bonk my_bonk,
2: OneOfEach my_ooe,
}
struct HolyMoley {
1: list<OneOfEach> big,
2: set<list<string> (python.immutable = "")> contain,
3: map<string,list<Bonk>> bonks,
}
struct Backwards {
2: i32 first_tag2,
1: i32 second_tag1,
}
struct Empty {
} (
python.immutable = "",
)
struct Wrapper {
1: Empty foo
} (
python.immutable = "",
)
struct RandomStuff {
1: i32 a,
2: i32 b,
3: i32 c,
4: i32 d,
5: list<i32> myintlist,
6: map<i32,Wrapper> maps,
7: i64 bigint,
8: double triple,
}
struct Base64 {
1: i32 a,
2: binary b1,
3: binary b2,
4: binary b3,
5: binary b4,
6: binary b5,
7: binary b6,
}
struct CompactProtoTestStruct {
// primitive fields
1: i8 a_byte;
2: i16 a_i16;
3: i32 a_i32;
4: i64 a_i64;
5: double a_double;
6: string a_string;
7: binary a_binary;
8: bool true_field;
9: bool false_field;
10: Empty empty_struct_field;
// primitives in lists
11: list<i8> byte_list;
12: list<i16> i16_list;
13: list<i32> i32_list;
14: list<i64> i64_list;
15: list<double> double_list;
16: list<string> string_list;
17: list<binary> binary_list;
18: list<bool> boolean_list;
19: list<Empty> struct_list;
// primitives in sets
20: set<i8> byte_set;
21: set<i16> i16_set;
22: set<i32> i32_set;
23: set<i64> i64_set;
24: set<double> double_set;
25: set<string> string_set;
26: set<binary> binary_set;
27: set<bool> boolean_set;
28: set<Empty> struct_set;
// maps
// primitives as keys
29: map<i8, i8> byte_byte_map;
30: map<i16, i8> i16_byte_map;
31: map<i32, i8> i32_byte_map;
32: map<i64, i8> i64_byte_map;
33: map<double, i8> double_byte_map;
34: map<string, i8> string_byte_map;
35: map<binary, i8> binary_byte_map;
36: map<bool, i8> boolean_byte_map;
// primitives as values
37: map<i8, i16> byte_i16_map;
38: map<i8, i32> byte_i32_map;
39: map<i8, i64> byte_i64_map;
40: map<i8, double> byte_double_map;
41: map<i8, string> byte_string_map;
42: map<i8, binary> byte_binary_map;
43: map<i8, bool> byte_boolean_map;
// collections as keys
44: map<list<i8> (python.immutable = ""), i8> list_byte_map;
45: map<set<i8> (python.immutable = ""), i8> set_byte_map;
46: map<map<i8,i8> (python.immutable = ""), i8> map_byte_map;
// collections as values
47: map<i8, map<i8,i8>> byte_map_map;
48: map<i8, set<i8>> byte_set_map;
49: map<i8, list<i8>> byte_list_map;
}
// To be used to test the serialization of an empty map
struct SingleMapTestStruct {
1: required map<i32, i32> i32_map;
}
const CompactProtoTestStruct COMPACT_TEST = {
'a_byte' : 127,
'a_i16' : 32000,
'a_i32' : 1000000000,
'a_i64' : 0xffffffffff,
'a_double' : 5.6789,
'a_string' : "my string",
//'a_binary,'
'true_field' : 1,
'false_field' : 0,
'empty_struct_field' : {},
'byte_list' : [-127, -1, 0, 1, 127],
'i16_list' : [-1, 0, 1, 0x7fff],
'i32_list' : [-1, 0, 0xff, 0xffff, 0xffffff, 0x7fffffff],
'i64_list' : [-1, 0, 0xff, 0xffff, 0xffffff, 0xffffffff, 0xffffffffff, 0xffffffffffff, 0xffffffffffffff, 0x7fffffffffffffff],
'double_list' : [0.1, 0.2, 0.3],
'string_list' : ["first", "second", "third"],
//'binary_list,'
'boolean_list' : [1, 1, 1, 0, 0, 0],
'struct_list' : [{}, {}],
'byte_set' : [-127, -1, 0, 1, 127],
'i16_set' : [-1, 0, 1, 0x7fff],
'i32_set' : [1, 2, 3],
'i64_set' : [-1, 0, 0xff, 0xffff, 0xffffff, 0xffffffff, 0xffffffffff, 0xffffffffffff, 0xffffffffffffff, 0x7fffffffffffffff],
'double_set' : [0.1, 0.2, 0.3],
'string_set' : ["first", "second", "third"],
//'binary_set,'
'boolean_set' : [1, 0],
'struct_set' : [{}],
'byte_byte_map' : {1 : 2},
'i16_byte_map' : {1 : 1, -1 : 1, 0x7fff : 1},
'i32_byte_map' : {1 : 1, -1 : 1, 0x7fffffff : 1},
'i64_byte_map' : {0 : 1, 1 : 1, -1 : 1, 0x7fffffffffffffff : 1},
'double_byte_map' : {-1.1 : 1, 1.1 : 1},
'string_byte_map' : {"first" : 1, "second" : 2, "third" : 3, "" : 0},
//'binary_byte_map,'
'boolean_byte_map' : {1 : 1, 0 : 0},
'byte_i16_map' : {1 : 1, 2 : -1, 3 : 0x7fff},
'byte_i32_map' : {1 : 1, 2 : -1, 3 : 0x7fffffff},
'byte_i64_map' : {1 : 1, 2 : -1, 3 : 0x7fffffffffffffff},
'byte_double_map' : {1 : 0.1, 2 : -0.1, 3 : 1000000.1},
'byte_string_map' : {1 : "", 2 : "blah", 3 : "loooooooooooooong string"},
//'byte_binary_map,'
'byte_boolean_map' : {1 : 1, 2 : 0},
'list_byte_map' : {[1, 2, 3] : 1, [0, 1] : 2, [] : 0},
'set_byte_map' : {[1, 2, 3] : 1, [0, 1] : 2, [] : 0},
'map_byte_map' : {{1 : 1} : 1, {2 : 2} : 2, {} : 0},
'byte_map_map' : {0 : {}, 1 : {1 : 1}, 2 : {1 : 1, 2 : 2}},
'byte_set_map' : {0 : [], 1 : [1], 2 : [1, 2]},
'byte_list_map' : {0 : [], 1 : [1], 2 : [1, 2]},
}
const i32 MYCONST = 2
exception ExceptionWithAMap {
1: string blah;
2: map<string, string> map_field;
}
service ServiceForExceptionWithAMap {
void methodThatThrowsAnException() throws (1: ExceptionWithAMap xwamap);
}
service Srv {
i32 Janky(1: i32 arg);
// return type only methods
void voidMethod();
i32 primitiveMethod();
CompactProtoTestStruct structMethod();
void methodWithDefaultArgs(1: i32 something = MYCONST);
oneway void onewayMethod();
bool declaredExceptionMethod(1: bool shouldThrow) throws (1: ExceptionWithAMap xwamap);
}
service Inherited extends Srv {
i32 identity(1: i32 arg)
}
service EmptyService {}
// The only purpose of this thing is to increase the size of the generated code
// so that ZlibTest has more highly compressible data to play with.
struct BlowUp {
1: map<list<i32>(python.immutable = ""),set<map<i32,string> (python.immutable = "")>> b1;
2: map<list<i32>(python.immutable = ""),set<map<i32,string> (python.immutable = "")>> b2;
3: map<list<i32>(python.immutable = ""),set<map<i32,string> (python.immutable = "")>> b3;
4: map<list<i32>(python.immutable = ""),set<map<i32,string> (python.immutable = "")>> b4;
}
struct ReverseOrderStruct {
4: string first;
3: i16 second;
2: i32 third;
1: i64 fourth;
}
service ReverseOrderService {
void myMethod(4: string first, 3: i16 second, 2: i32 third, 1: i64 fourth);
}
enum SomeEnum {
ONE = 1
TWO = 2
}
/** This is a docstring on a constant! */
const SomeEnum MY_SOME_ENUM = SomeEnum.ONE
const SomeEnum MY_SOME_ENUM_1 = 1
/*const SomeEnum MY_SOME_ENUM_2 = 7*/
const map<SomeEnum,SomeEnum> MY_ENUM_MAP = {
SomeEnum.ONE : SomeEnum.TWO
}
struct StructWithSomeEnum {
1: SomeEnum blah;
}
const map<SomeEnum,StructWithSomeEnum> EXTRA_CRAZY_MAP = {
SomeEnum.ONE : {"blah" : SomeEnum.TWO}
}
union TestUnion {
/**
* A doc string
*/
1: string string_field;
2: i32 i32_field;
3: OneOfEach struct_field;
4: list<RandomStuff> struct_list;
5: i32 other_i32_field;
6: SomeEnum enum_field;
7: set<i32> i32_set;
8: map<i32, i32> i32_map;
}
union TestUnionMinusStringField {
2: i32 i32_field;
3: OneOfEach struct_field;
4: list<RandomStuff> struct_list;
5: i32 other_i32_field;
6: SomeEnum enum_field;
7: set<i32> i32_set;
8: map<i32, i32> i32_map;
}
union ComparableUnion {
1: string string_field;
2: binary binary_field;
}
struct StructWithAUnion {
1: TestUnion test_union;
}
struct PrimitiveThenStruct {
1: i32 blah;
2: i32 blah2;
3: Backwards bw;
}
typedef map<i32,i32> SomeMap
struct StructWithASomemap {
1: required SomeMap somemap_field;
}
struct BigFieldIdStruct {
1: string field1;
45: string field2;
}
struct BreaksRubyCompactProtocol {
1: string field1;
2: BigFieldIdStruct field2;
3: i32 field3;
}
struct TupleProtocolTestStruct {
optional i32 field1;
optional i32 field2;
optional i32 field3;
optional i32 field4;
optional i32 field5;
optional i32 field6;
optional i32 field7;
optional i32 field8;
optional i32 field9;
optional i32 field10;
optional i32 field11;
optional i32 field12;
}
struct ListDoublePerf {
1: list<double> field;
}
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