%% -*- coding: utf-8 -*- %% @private %% Automatically generated, do not edit %% Generated by gpb_compile version 4.5.1 -module(grpcbox_health_pb). -export([encode_msg/2, encode_msg/3]). -export([decode_msg/2, decode_msg/3]). -export([merge_msgs/3, merge_msgs/4]). -export([verify_msg/2, verify_msg/3]). -export([get_msg_defs/0]). -export([get_msg_names/0]). -export([get_group_names/0]). -export([get_msg_or_group_names/0]). -export([get_enum_names/0]). -export([find_msg_def/1, fetch_msg_def/1]). -export([find_enum_def/1, fetch_enum_def/1]). -export([enum_symbol_by_value/2, enum_value_by_symbol/2]). -export(['enum_symbol_by_value_grpc.health.v1.HealthCheckResponse.ServingStatus'/1, 'enum_value_by_symbol_grpc.health.v1.HealthCheckResponse.ServingStatus'/1]). -export([get_service_names/0]). -export([get_service_def/1]). -export([get_rpc_names/1]). -export([find_rpc_def/2, fetch_rpc_def/2]). -export([fqbin_to_service_name/1]). -export([service_name_to_fqbin/1]). -export([fqbins_to_service_and_rpc_name/2]). -export([service_and_rpc_name_to_fqbins/2]). -export([get_package_name/0]). -export([uses_packages/0]). -export([gpb_version_as_string/0, gpb_version_as_list/0]). %% enumerated types -type 'grpc.health.v1.HealthCheckResponse.ServingStatus'() :: 'UNKNOWN' | 'SERVING' | 'NOT_SERVING' | 'SERVICE_UNKNOWN'. -export_type(['grpc.health.v1.HealthCheckResponse.ServingStatus'/0]). %% message types -type health_check_request() :: #{service => iodata() % = 1 }. -type health_check_response() :: #{status => 'UNKNOWN' | 'SERVING' | 'NOT_SERVING' | 'SERVICE_UNKNOWN' | integer() % = 1, enum grpc.health.v1.HealthCheckResponse.ServingStatus }. -export_type(['health_check_request'/0, 'health_check_response'/0]). -spec encode_msg(health_check_request() | health_check_response(), atom()) -> binary(). encode_msg(Msg, MsgName) when is_atom(MsgName) -> encode_msg(Msg, MsgName, []). -spec encode_msg(health_check_request() | health_check_response(), atom(), list()) -> binary(). encode_msg(Msg, MsgName, Opts) -> case proplists:get_bool(verify, Opts) of true -> verify_msg(Msg, MsgName, Opts); false -> ok end, TrUserData = proplists:get_value(user_data, Opts), case MsgName of health_check_request -> encode_msg_health_check_request(id(Msg, TrUserData), TrUserData); health_check_response -> encode_msg_health_check_response(id(Msg, TrUserData), TrUserData) end. encode_msg_health_check_request(Msg, TrUserData) -> encode_msg_health_check_request(Msg, <<>>, TrUserData). encode_msg_health_check_request(#{} = M, Bin, TrUserData) -> case M of #{service := F1} -> begin TrF1 = id(F1, TrUserData), case is_empty_string(TrF1) of true -> Bin; false -> e_type_string(TrF1, <>, TrUserData) end end; _ -> Bin end. encode_msg_health_check_response(Msg, TrUserData) -> encode_msg_health_check_response(Msg, <<>>, TrUserData). encode_msg_health_check_response(#{} = M, Bin, TrUserData) -> case M of #{status := F1} -> begin TrF1 = id(F1, TrUserData), if TrF1 =:= 'UNKNOWN'; TrF1 =:= 0 -> Bin; true -> 'e_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(TrF1, <>, 'MaybeTrUserData') end end; _ -> Bin end. 'e_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'('UNKNOWN', Bin, _TrUserData) -> <>; 'e_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'('SERVING', Bin, _TrUserData) -> <>; 'e_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'('NOT_SERVING', Bin, _TrUserData) -> <>; 'e_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'('SERVICE_UNKNOWN', Bin, _TrUserData) -> <>; 'e_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(V, Bin, _TrUserData) -> e_varint(V, Bin). -compile({nowarn_unused_function,e_type_sint/3}). e_type_sint(Value, Bin, _TrUserData) when Value >= 0 -> e_varint(Value * 2, Bin); e_type_sint(Value, Bin, _TrUserData) -> e_varint(Value * -2 - 1, Bin). -compile({nowarn_unused_function,e_type_int32/3}). e_type_int32(Value, Bin, _TrUserData) when 0 =< Value, Value =< 127 -> <>; e_type_int32(Value, Bin, _TrUserData) -> <> = <>, e_varint(N, Bin). -compile({nowarn_unused_function,e_type_int64/3}). e_type_int64(Value, Bin, _TrUserData) when 0 =< Value, Value =< 127 -> <>; e_type_int64(Value, Bin, _TrUserData) -> <> = <>, e_varint(N, Bin). -compile({nowarn_unused_function,e_type_bool/3}). e_type_bool(true, Bin, _TrUserData) -> <>; e_type_bool(false, Bin, _TrUserData) -> <>; e_type_bool(1, Bin, _TrUserData) -> <>; e_type_bool(0, Bin, _TrUserData) -> <>. -compile({nowarn_unused_function,e_type_string/3}). e_type_string(S, Bin, _TrUserData) -> Utf8 = unicode:characters_to_binary(S), Bin2 = e_varint(byte_size(Utf8), Bin), <>. -compile({nowarn_unused_function,e_type_bytes/3}). e_type_bytes(Bytes, Bin, _TrUserData) when is_binary(Bytes) -> Bin2 = e_varint(byte_size(Bytes), Bin), <>; e_type_bytes(Bytes, Bin, _TrUserData) when is_list(Bytes) -> BytesBin = iolist_to_binary(Bytes), Bin2 = e_varint(byte_size(BytesBin), Bin), <>. -compile({nowarn_unused_function,e_type_fixed32/3}). e_type_fixed32(Value, Bin, _TrUserData) -> <>. -compile({nowarn_unused_function,e_type_sfixed32/3}). e_type_sfixed32(Value, Bin, _TrUserData) -> <>. -compile({nowarn_unused_function,e_type_fixed64/3}). e_type_fixed64(Value, Bin, _TrUserData) -> <>. -compile({nowarn_unused_function,e_type_sfixed64/3}). e_type_sfixed64(Value, Bin, _TrUserData) -> <>. -compile({nowarn_unused_function,e_type_float/3}). e_type_float(V, Bin, _) when is_number(V) -> <>; e_type_float(infinity, Bin, _) -> <>; e_type_float('-infinity', Bin, _) -> <>; e_type_float(nan, Bin, _) -> <>. -compile({nowarn_unused_function,e_type_double/3}). e_type_double(V, Bin, _) when is_number(V) -> <>; e_type_double(infinity, Bin, _) -> <>; e_type_double('-infinity', Bin, _) -> <>; e_type_double(nan, Bin, _) -> <>. -compile({nowarn_unused_function,e_varint/3}). e_varint(N, Bin, _TrUserData) -> e_varint(N, Bin). -compile({nowarn_unused_function,e_varint/2}). e_varint(N, Bin) when N =< 127 -> <>; e_varint(N, Bin) -> Bin2 = <>, e_varint(N bsr 7, Bin2). is_empty_string("") -> true; is_empty_string(<<>>) -> true; is_empty_string(L) when is_list(L) -> not string_has_chars(L); is_empty_string(B) when is_binary(B) -> false. string_has_chars([C | _]) when is_integer(C) -> true; string_has_chars([H | T]) -> case string_has_chars(H) of true -> true; false -> string_has_chars(T) end; string_has_chars(B) when is_binary(B), byte_size(B) =/= 0 -> true; string_has_chars(C) when is_integer(C) -> true; string_has_chars(<<>>) -> false; string_has_chars([]) -> false. decode_msg(Bin, MsgName) when is_binary(Bin) -> decode_msg(Bin, MsgName, []). decode_msg(Bin, MsgName, Opts) when is_binary(Bin) -> TrUserData = proplists:get_value(user_data, Opts), decode_msg_1_catch(Bin, MsgName, TrUserData). -ifdef('OTP_RELEASE'). decode_msg_1_catch(Bin, MsgName, TrUserData) -> try decode_msg_2_doit(MsgName, Bin, TrUserData) catch Class:Reason:StackTrace -> error({gpb_error,{decoding_failure, {Bin, MsgName, {Class, Reason, StackTrace}}}}) end. -else. decode_msg_1_catch(Bin, MsgName, TrUserData) -> try decode_msg_2_doit(MsgName, Bin, TrUserData) catch Class:Reason -> StackTrace = erlang:get_stacktrace(), error({gpb_error,{decoding_failure, {Bin, MsgName, {Class, Reason, StackTrace}}}}) end. -endif. decode_msg_2_doit(health_check_request, Bin, TrUserData) -> id(decode_msg_health_check_request(Bin, TrUserData), TrUserData); decode_msg_2_doit(health_check_response, Bin, TrUserData) -> id(decode_msg_health_check_response(Bin, TrUserData), TrUserData). decode_msg_health_check_request(Bin, TrUserData) -> dfp_read_field_def_health_check_request(Bin, 0, 0, id(<<>>, TrUserData), TrUserData). dfp_read_field_def_health_check_request(<<10, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> d_field_health_check_request_service(Rest, Z1, Z2, F@_1, TrUserData); dfp_read_field_def_health_check_request(<<>>, 0, 0, F@_1, _) -> #{service => F@_1}; dfp_read_field_def_health_check_request(Other, Z1, Z2, F@_1, TrUserData) -> dg_read_field_def_health_check_request(Other, Z1, Z2, F@_1, TrUserData). dg_read_field_def_health_check_request(<<1:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) when N < 32 - 7 -> dg_read_field_def_health_check_request(Rest, N + 7, X bsl N + Acc, F@_1, TrUserData); dg_read_field_def_health_check_request(<<0:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) -> Key = X bsl N + Acc, case Key of 10 -> d_field_health_check_request_service(Rest, 0, 0, F@_1, TrUserData); _ -> case Key band 7 of 0 -> skip_varint_health_check_request(Rest, 0, 0, F@_1, TrUserData); 1 -> skip_64_health_check_request(Rest, 0, 0, F@_1, TrUserData); 2 -> skip_length_delimited_health_check_request(Rest, 0, 0, F@_1, TrUserData); 3 -> skip_group_health_check_request(Rest, Key bsr 3, 0, F@_1, TrUserData); 5 -> skip_32_health_check_request(Rest, 0, 0, F@_1, TrUserData) end end; dg_read_field_def_health_check_request(<<>>, 0, 0, F@_1, _) -> #{service => F@_1}. d_field_health_check_request_service(<<1:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) when N < 57 -> d_field_health_check_request_service(Rest, N + 7, X bsl N + Acc, F@_1, TrUserData); d_field_health_check_request_service(<<0:1, X:7, Rest/binary>>, N, Acc, _, TrUserData) -> {NewFValue, RestF} = begin Len = X bsl N + Acc, <> = Rest, {id(binary:copy(Bytes), TrUserData), Rest2} end, dfp_read_field_def_health_check_request(RestF, 0, 0, NewFValue, TrUserData). skip_varint_health_check_request(<<1:1, _:7, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> skip_varint_health_check_request(Rest, Z1, Z2, F@_1, TrUserData); skip_varint_health_check_request(<<0:1, _:7, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> dfp_read_field_def_health_check_request(Rest, Z1, Z2, F@_1, TrUserData). skip_length_delimited_health_check_request(<<1:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) when N < 57 -> skip_length_delimited_health_check_request(Rest, N + 7, X bsl N + Acc, F@_1, TrUserData); skip_length_delimited_health_check_request(<<0:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) -> Length = X bsl N + Acc, <<_:Length/binary, Rest2/binary>> = Rest, dfp_read_field_def_health_check_request(Rest2, 0, 0, F@_1, TrUserData). skip_group_health_check_request(Bin, FNum, Z2, F@_1, TrUserData) -> {_, Rest} = read_group(Bin, FNum), dfp_read_field_def_health_check_request(Rest, 0, Z2, F@_1, TrUserData). skip_32_health_check_request(<<_:32, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> dfp_read_field_def_health_check_request(Rest, Z1, Z2, F@_1, TrUserData). skip_64_health_check_request(<<_:64, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> dfp_read_field_def_health_check_request(Rest, Z1, Z2, F@_1, TrUserData). decode_msg_health_check_response(Bin, TrUserData) -> dfp_read_field_def_health_check_response(Bin, 0, 0, id('UNKNOWN', TrUserData), TrUserData). dfp_read_field_def_health_check_response(<<8, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> d_field_health_check_response_status(Rest, Z1, Z2, F@_1, TrUserData); dfp_read_field_def_health_check_response(<<>>, 0, 0, F@_1, _) -> #{status => F@_1}; dfp_read_field_def_health_check_response(Other, Z1, Z2, F@_1, TrUserData) -> dg_read_field_def_health_check_response(Other, Z1, Z2, F@_1, TrUserData). dg_read_field_def_health_check_response(<<1:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) when N < 32 - 7 -> dg_read_field_def_health_check_response(Rest, N + 7, X bsl N + Acc, F@_1, TrUserData); dg_read_field_def_health_check_response(<<0:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) -> Key = X bsl N + Acc, case Key of 8 -> d_field_health_check_response_status(Rest, 0, 0, F@_1, TrUserData); _ -> case Key band 7 of 0 -> skip_varint_health_check_response(Rest, 0, 0, F@_1, TrUserData); 1 -> skip_64_health_check_response(Rest, 0, 0, F@_1, TrUserData); 2 -> skip_length_delimited_health_check_response(Rest, 0, 0, F@_1, TrUserData); 3 -> skip_group_health_check_response(Rest, Key bsr 3, 0, F@_1, TrUserData); 5 -> skip_32_health_check_response(Rest, 0, 0, F@_1, TrUserData) end end; dg_read_field_def_health_check_response(<<>>, 0, 0, F@_1, _) -> #{status => F@_1}. d_field_health_check_response_status(<<1:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) when N < 57 -> d_field_health_check_response_status(Rest, N + 7, X bsl N + Acc, F@_1, TrUserData); d_field_health_check_response_status(<<0:1, X:7, Rest/binary>>, N, Acc, _, TrUserData) -> {NewFValue, RestF} = {id('d_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(begin <> = <<(X bsl N + Acc):32/unsigned-native>>, id(Res, TrUserData) end), TrUserData), Rest}, dfp_read_field_def_health_check_response(RestF, 0, 0, NewFValue, TrUserData). skip_varint_health_check_response(<<1:1, _:7, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> skip_varint_health_check_response(Rest, Z1, Z2, F@_1, TrUserData); skip_varint_health_check_response(<<0:1, _:7, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> dfp_read_field_def_health_check_response(Rest, Z1, Z2, F@_1, TrUserData). skip_length_delimited_health_check_response(<<1:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) when N < 57 -> skip_length_delimited_health_check_response(Rest, N + 7, X bsl N + Acc, F@_1, TrUserData); skip_length_delimited_health_check_response(<<0:1, X:7, Rest/binary>>, N, Acc, F@_1, TrUserData) -> Length = X bsl N + Acc, <<_:Length/binary, Rest2/binary>> = Rest, dfp_read_field_def_health_check_response(Rest2, 0, 0, F@_1, TrUserData). skip_group_health_check_response(Bin, FNum, Z2, F@_1, TrUserData) -> {_, Rest} = read_group(Bin, FNum), dfp_read_field_def_health_check_response(Rest, 0, Z2, F@_1, TrUserData). skip_32_health_check_response(<<_:32, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> dfp_read_field_def_health_check_response(Rest, Z1, Z2, F@_1, TrUserData). skip_64_health_check_response(<<_:64, Rest/binary>>, Z1, Z2, F@_1, TrUserData) -> dfp_read_field_def_health_check_response(Rest, Z1, Z2, F@_1, TrUserData). 'd_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(0) -> 'UNKNOWN'; 'd_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(1) -> 'SERVING'; 'd_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(2) -> 'NOT_SERVING'; 'd_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(3) -> 'SERVICE_UNKNOWN'; 'd_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(V) -> V. read_group(Bin, FieldNum) -> {NumBytes, EndTagLen} = read_gr_b(Bin, 0, 0, 0, 0, FieldNum), <> = Bin, {Group, Rest}. %% Like skipping over fields, but record the total length, %% Each field is <(FieldNum bsl 3) bor FieldType> ++ %% Record the length because varints may be non-optimally encoded. %% %% Groups can be nested, but assume the same FieldNum cannot be nested %% because group field numbers are shared with the rest of the fields %% numbers. Thus we can search just for an group-end with the same %% field number. %% %% (The only time the same group field number could occur would %% be in a nested sub message, but then it would be inside a %% length-delimited entry, which we skip-read by length.) read_gr_b(<<1:1, X:7, Tl/binary>>, N, Acc, NumBytes, TagLen, FieldNum) when N < (32-7) -> read_gr_b(Tl, N+7, X bsl N + Acc, NumBytes, TagLen+1, FieldNum); read_gr_b(<<0:1, X:7, Tl/binary>>, N, Acc, NumBytes, TagLen, FieldNum) -> Key = X bsl N + Acc, TagLen1 = TagLen + 1, case {Key bsr 3, Key band 7} of {FieldNum, 4} -> % 4 = group_end {NumBytes, TagLen1}; {_, 0} -> % 0 = varint read_gr_vi(Tl, 0, NumBytes + TagLen1, FieldNum); {_, 1} -> % 1 = bits64 <<_:64, Tl2/binary>> = Tl, read_gr_b(Tl2, 0, 0, NumBytes + TagLen1 + 8, 0, FieldNum); {_, 2} -> % 2 = length_delimited read_gr_ld(Tl, 0, 0, NumBytes + TagLen1, FieldNum); {_, 3} -> % 3 = group_start read_gr_b(Tl, 0, 0, NumBytes + TagLen1, 0, FieldNum); {_, 4} -> % 4 = group_end read_gr_b(Tl, 0, 0, NumBytes + TagLen1, 0, FieldNum); {_, 5} -> % 5 = bits32 <<_:32, Tl2/binary>> = Tl, read_gr_b(Tl2, 0, 0, NumBytes + TagLen1 + 4, 0, FieldNum) end. read_gr_vi(<<1:1, _:7, Tl/binary>>, N, NumBytes, FieldNum) when N < (64-7) -> read_gr_vi(Tl, N+7, NumBytes+1, FieldNum); read_gr_vi(<<0:1, _:7, Tl/binary>>, _, NumBytes, FieldNum) -> read_gr_b(Tl, 0, 0, NumBytes+1, 0, FieldNum). read_gr_ld(<<1:1, X:7, Tl/binary>>, N, Acc, NumBytes, FieldNum) when N < (64-7) -> read_gr_ld(Tl, N+7, X bsl N + Acc, NumBytes+1, FieldNum); read_gr_ld(<<0:1, X:7, Tl/binary>>, N, Acc, NumBytes, FieldNum) -> Len = X bsl N + Acc, NumBytes1 = NumBytes + 1, <<_:Len/binary, Tl2/binary>> = Tl, read_gr_b(Tl2, 0, 0, NumBytes1 + Len, 0, FieldNum). merge_msgs(Prev, New, MsgName) when is_atom(MsgName) -> merge_msgs(Prev, New, MsgName, []). merge_msgs(Prev, New, MsgName, Opts) -> TrUserData = proplists:get_value(user_data, Opts), case MsgName of health_check_request -> merge_msg_health_check_request(Prev, New, TrUserData); health_check_response -> merge_msg_health_check_response(Prev, New, TrUserData) end. -compile({nowarn_unused_function,merge_msg_health_check_request/3}). merge_msg_health_check_request(PMsg, NMsg, _) -> S1 = #{}, case {PMsg, NMsg} of {_, #{service := NFservice}} -> S1#{service => NFservice}; {#{service := PFservice}, _} -> S1#{service => PFservice}; _ -> S1 end. -compile({nowarn_unused_function,merge_msg_health_check_response/3}). merge_msg_health_check_response(PMsg, NMsg, _) -> S1 = #{}, case {PMsg, NMsg} of {_, #{status := NFstatus}} -> S1#{status => NFstatus}; {#{status := PFstatus}, _} -> S1#{status => PFstatus}; _ -> S1 end. verify_msg(Msg, MsgName) when is_atom(MsgName) -> verify_msg(Msg, MsgName, []). verify_msg(Msg, MsgName, Opts) -> TrUserData = proplists:get_value(user_data, Opts), case MsgName of health_check_request -> v_msg_health_check_request(Msg, [MsgName], TrUserData); health_check_response -> v_msg_health_check_response(Msg, [MsgName], TrUserData); _ -> mk_type_error(not_a_known_message, Msg, []) end. -compile({nowarn_unused_function,v_msg_health_check_request/3}). -dialyzer({nowarn_function,v_msg_health_check_request/3}). v_msg_health_check_request(#{} = M, Path, TrUserData) -> case M of #{service := F1} -> v_type_string(F1, [service | Path], TrUserData); _ -> ok end, lists:foreach(fun (service) -> ok; (OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path) end, maps:keys(M)), ok; v_msg_health_check_request(M, Path, _TrUserData) when is_map(M) -> mk_type_error({missing_fields, [] -- maps:keys(M), health_check_request}, M, Path); v_msg_health_check_request(X, Path, _TrUserData) -> mk_type_error({expected_msg, health_check_request}, X, Path). -compile({nowarn_unused_function,v_msg_health_check_response/3}). -dialyzer({nowarn_function,v_msg_health_check_response/3}). v_msg_health_check_response(#{} = M, Path, TrUserData) -> case M of #{status := F1} -> 'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(F1, [status | Path], TrUserData); _ -> ok end, lists:foreach(fun (status) -> ok; (OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path) end, maps:keys(M)), ok; v_msg_health_check_response(M, Path, _TrUserData) when is_map(M) -> mk_type_error({missing_fields, [] -- maps:keys(M), health_check_response}, M, Path); v_msg_health_check_response(X, Path, _TrUserData) -> mk_type_error({expected_msg, health_check_response}, X, Path). -compile({nowarn_unused_function,'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'/3}). -dialyzer({nowarn_function,'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'/3}). 'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'('UNKNOWN', _Path, _TrUserData) -> ok; 'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'('SERVING', _Path, _TrUserData) -> ok; 'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'('NOT_SERVING', _Path, _TrUserData) -> ok; 'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'('SERVICE_UNKNOWN', _Path, _TrUserData) -> ok; 'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(V, Path, TrUserData) when is_integer(V) -> v_type_sint32(V, Path, TrUserData); 'v_enum_grpc.health.v1.HealthCheckResponse.ServingStatus'(X, Path, _TrUserData) -> mk_type_error({invalid_enum, 'grpc.health.v1.HealthCheckResponse.ServingStatus'}, X, Path). -compile({nowarn_unused_function,v_type_sint32/3}). -dialyzer({nowarn_function,v_type_sint32/3}). v_type_sint32(N, _Path, _TrUserData) when -2147483648 =< N, N =< 2147483647 -> ok; v_type_sint32(N, Path, _TrUserData) when is_integer(N) -> mk_type_error({value_out_of_range, sint32, signed, 32}, N, Path); v_type_sint32(X, Path, _TrUserData) -> mk_type_error({bad_integer, sint32, signed, 32}, X, Path). -compile({nowarn_unused_function,v_type_string/3}). -dialyzer({nowarn_function,v_type_string/3}). v_type_string(S, Path, _TrUserData) when is_list(S); is_binary(S) -> try unicode:characters_to_binary(S) of B when is_binary(B) -> ok; {error, _, _} -> mk_type_error(bad_unicode_string, S, Path) catch error:badarg -> mk_type_error(bad_unicode_string, S, Path) end; v_type_string(X, Path, _TrUserData) -> mk_type_error(bad_unicode_string, X, Path). -compile({nowarn_unused_function,mk_type_error/3}). -spec mk_type_error(_, _, list()) -> no_return(). mk_type_error(Error, ValueSeen, Path) -> Path2 = prettify_path(Path), erlang:error({gpb_type_error, {Error, [{value, ValueSeen}, {path, Path2}]}}). -compile({nowarn_unused_function,prettify_path/1}). -dialyzer({nowarn_function,prettify_path/1}). prettify_path([]) -> top_level; prettify_path(PathR) -> list_to_atom(lists:append(lists:join(".", lists:map(fun atom_to_list/1, lists:reverse(PathR))))). -compile({nowarn_unused_function,id/2}). -compile({inline,id/2}). id(X, _TrUserData) -> X. -compile({nowarn_unused_function,v_ok/3}). -compile({inline,v_ok/3}). v_ok(_Value, _Path, _TrUserData) -> ok. -compile({nowarn_unused_function,m_overwrite/3}). -compile({inline,m_overwrite/3}). m_overwrite(_Prev, New, _TrUserData) -> New. -compile({nowarn_unused_function,cons/3}). -compile({inline,cons/3}). cons(Elem, Acc, _TrUserData) -> [Elem | Acc]. -compile({nowarn_unused_function,lists_reverse/2}). -compile({inline,lists_reverse/2}). 'lists_reverse'(L, _TrUserData) -> lists:reverse(L). -compile({nowarn_unused_function,'erlang_++'/3}). -compile({inline,'erlang_++'/3}). 'erlang_++'(A, B, _TrUserData) -> A ++ B. get_msg_defs() -> [{{enum, 'grpc.health.v1.HealthCheckResponse.ServingStatus'}, [{'UNKNOWN', 0}, {'SERVING', 1}, {'NOT_SERVING', 2}, {'SERVICE_UNKNOWN', 3}]}, {{msg, health_check_request}, [#{name => service, fnum => 1, rnum => 2, type => string, occurrence => optional, opts => []}]}, {{msg, health_check_response}, [#{name => status, fnum => 1, rnum => 2, type => {enum, 'grpc.health.v1.HealthCheckResponse.ServingStatus'}, occurrence => optional, opts => []}]}]. get_msg_names() -> [health_check_request, health_check_response]. get_group_names() -> []. get_msg_or_group_names() -> [health_check_request, health_check_response]. get_enum_names() -> ['grpc.health.v1.HealthCheckResponse.ServingStatus']. fetch_msg_def(MsgName) -> case find_msg_def(MsgName) of Fs when is_list(Fs) -> Fs; error -> erlang:error({no_such_msg, MsgName}) end. fetch_enum_def(EnumName) -> case find_enum_def(EnumName) of Es when is_list(Es) -> Es; error -> erlang:error({no_such_enum, EnumName}) end. find_msg_def(health_check_request) -> [#{name => service, fnum => 1, rnum => 2, type => string, occurrence => optional, opts => []}]; find_msg_def(health_check_response) -> [#{name => status, fnum => 1, rnum => 2, type => {enum, 'grpc.health.v1.HealthCheckResponse.ServingStatus'}, occurrence => optional, opts => []}]; find_msg_def(_) -> error. find_enum_def('grpc.health.v1.HealthCheckResponse.ServingStatus') -> [{'UNKNOWN', 0}, {'SERVING', 1}, {'NOT_SERVING', 2}, {'SERVICE_UNKNOWN', 3}]; find_enum_def(_) -> error. enum_symbol_by_value('grpc.health.v1.HealthCheckResponse.ServingStatus', Value) -> 'enum_symbol_by_value_grpc.health.v1.HealthCheckResponse.ServingStatus'(Value). enum_value_by_symbol('grpc.health.v1.HealthCheckResponse.ServingStatus', Sym) -> 'enum_value_by_symbol_grpc.health.v1.HealthCheckResponse.ServingStatus'(Sym). 'enum_symbol_by_value_grpc.health.v1.HealthCheckResponse.ServingStatus'(0) -> 'UNKNOWN'; 'enum_symbol_by_value_grpc.health.v1.HealthCheckResponse.ServingStatus'(1) -> 'SERVING'; 'enum_symbol_by_value_grpc.health.v1.HealthCheckResponse.ServingStatus'(2) -> 'NOT_SERVING'; 'enum_symbol_by_value_grpc.health.v1.HealthCheckResponse.ServingStatus'(3) -> 'SERVICE_UNKNOWN'. 'enum_value_by_symbol_grpc.health.v1.HealthCheckResponse.ServingStatus'('UNKNOWN') -> 0; 'enum_value_by_symbol_grpc.health.v1.HealthCheckResponse.ServingStatus'('SERVING') -> 1; 'enum_value_by_symbol_grpc.health.v1.HealthCheckResponse.ServingStatus'('NOT_SERVING') -> 2; 'enum_value_by_symbol_grpc.health.v1.HealthCheckResponse.ServingStatus'('SERVICE_UNKNOWN') -> 3. get_service_names() -> ['grpc.health.v1.Health']. get_service_def('grpc.health.v1.Health') -> {{service, 'grpc.health.v1.Health'}, [#{name => 'Check', input => health_check_request, output => health_check_response, input_stream => false, output_stream => false, opts => []}, #{name => 'Watch', input => health_check_request, output => health_check_response, input_stream => false, output_stream => true, opts => []}]}; get_service_def(_) -> error. get_rpc_names('grpc.health.v1.Health') -> ['Check', 'Watch']; get_rpc_names(_) -> error. find_rpc_def('grpc.health.v1.Health', RpcName) -> 'find_rpc_def_grpc.health.v1.Health'(RpcName); find_rpc_def(_, _) -> error. 'find_rpc_def_grpc.health.v1.Health'('Check') -> #{name => 'Check', input => health_check_request, output => health_check_response, input_stream => false, output_stream => false, opts => []}; 'find_rpc_def_grpc.health.v1.Health'('Watch') -> #{name => 'Watch', input => health_check_request, output => health_check_response, input_stream => false, output_stream => true, opts => []}; 'find_rpc_def_grpc.health.v1.Health'(_) -> error. fetch_rpc_def(ServiceName, RpcName) -> case find_rpc_def(ServiceName, RpcName) of Def when is_map(Def) -> Def; error -> erlang:error({no_such_rpc, ServiceName, RpcName}) end. %% Convert a a fully qualified (ie with package name) service name %% as a binary to a service name as an atom. fqbin_to_service_name(<<"grpc.health.v1.Health">>) -> 'grpc.health.v1.Health'; fqbin_to_service_name(X) -> error({gpb_error, {badservice, X}}). %% Convert a service name as an atom to a fully qualified %% (ie with package name) name as a binary. service_name_to_fqbin('grpc.health.v1.Health') -> <<"grpc.health.v1.Health">>; service_name_to_fqbin(X) -> error({gpb_error, {badservice, X}}). %% Convert a a fully qualified (ie with package name) service name %% and an rpc name, both as binaries to a service name and an rpc %% name, as atoms. fqbins_to_service_and_rpc_name(<<"grpc.health.v1.Health">>, <<"Check">>) -> {'grpc.health.v1.Health', 'Check'}; fqbins_to_service_and_rpc_name(<<"grpc.health.v1.Health">>, <<"Watch">>) -> {'grpc.health.v1.Health', 'Watch'}; fqbins_to_service_and_rpc_name(S, R) -> error({gpb_error, {badservice_or_rpc, {S, R}}}). %% Convert a service name and an rpc name, both as atoms, %% to a fully qualified (ie with package name) service name and %% an rpc name as binaries. service_and_rpc_name_to_fqbins('grpc.health.v1.Health', 'Check') -> {<<"grpc.health.v1.Health">>, <<"Check">>}; service_and_rpc_name_to_fqbins('grpc.health.v1.Health', 'Watch') -> {<<"grpc.health.v1.Health">>, <<"Watch">>}; service_and_rpc_name_to_fqbins(S, R) -> error({gpb_error, {badservice_or_rpc, {S, R}}}). get_package_name() -> 'grpc.health.v1'. %% Whether or not the message names %% are prepended with package name or not. uses_packages() -> true. gpb_version_as_string() -> "4.5.1". gpb_version_as_list() -> [4,5,1].