// // Copyright 2018 gRPC authors. // // Licensed 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. // #include #include "src/core/ext/xds/xds_endpoint.h" #include #include #include #include #include #include #include #include "absl/status/status.h" #include "absl/status/statusor.h" #include "absl/strings/str_cat.h" #include "absl/strings/str_join.h" #include "absl/types/optional.h" #include "envoy/config/core/v3/address.upb.h" #include "envoy/config/core/v3/base.upb.h" #include "envoy/config/endpoint/v3/endpoint.upb.h" #include "envoy/config/endpoint/v3/endpoint.upbdefs.h" #include "envoy/config/endpoint/v3/endpoint_components.upb.h" #include "envoy/type/v3/percent.upb.h" #include "google/protobuf/wrappers.upb.h" #include "upb/text/encode.h" #include #include "src/core/ext/xds/upb_utils.h" #include "src/core/ext/xds/xds_health_status.h" #include "src/core/ext/xds/xds_resource_type.h" #include "src/core/lib/address_utils/parse_address.h" #include "src/core/lib/address_utils/sockaddr_utils.h" #include "src/core/lib/channel/channel_args.h" #include "src/core/lib/debug/trace.h" #include "src/core/lib/gpr/string.h" #include "src/core/lib/gprpp/env.h" #include "src/core/lib/gprpp/validation_errors.h" #include "src/core/lib/iomgr/resolved_address.h" // IWYU pragma: no_include "absl/meta/type_traits.h" namespace grpc_core { namespace { // TODO(roth): Remove this once dualstack support is stable. bool XdsDualstackEndpointsEnabled() { auto value = GetEnv("GRPC_EXPERIMENTAL_XDS_DUALSTACK_ENDPOINTS"); if (!value.has_value()) return false; bool parsed_value; bool parse_succeeded = gpr_parse_bool_value(value->c_str(), &parsed_value); return parse_succeeded && parsed_value; } } // namespace // // XdsEndpointResource // std::string XdsEndpointResource::Priority::Locality::ToString() const { std::vector endpoint_strings; for (const EndpointAddresses& endpoint : endpoints) { endpoint_strings.emplace_back(endpoint.ToString()); } return absl::StrCat("{name=", name->AsHumanReadableString(), ", lb_weight=", lb_weight, ", endpoints=[", absl::StrJoin(endpoint_strings, ", "), "]}"); } bool XdsEndpointResource::Priority::operator==(const Priority& other) const { if (localities.size() != other.localities.size()) return false; auto it1 = localities.begin(); auto it2 = other.localities.begin(); while (it1 != localities.end()) { if (*it1->first != *it2->first) return false; if (it1->second != it2->second) return false; ++it1; ++it2; } return true; } std::string XdsEndpointResource::Priority::ToString() const { std::vector locality_strings; locality_strings.reserve(localities.size()); for (const auto& p : localities) { locality_strings.emplace_back(p.second.ToString()); } return absl::StrCat("[", absl::StrJoin(locality_strings, ", "), "]"); } bool XdsEndpointResource::DropConfig::ShouldDrop( const std::string** category_name) { for (size_t i = 0; i < drop_category_list_.size(); ++i) { const auto& drop_category = drop_category_list_[i]; // Generate a random number in [0, 1000000). const uint32_t random = [&]() { MutexLock lock(&mu_); return absl::Uniform(bit_gen_, 0, 1000000); }(); if (random < drop_category.parts_per_million) { *category_name = &drop_category.name; return true; } } return false; } std::string XdsEndpointResource::DropConfig::ToString() const { std::vector category_strings; for (const DropCategory& category : drop_category_list_) { category_strings.emplace_back( absl::StrCat(category.name, "=", category.parts_per_million)); } return absl::StrCat("{[", absl::StrJoin(category_strings, ", "), "], drop_all=", drop_all_, "}"); } std::string XdsEndpointResource::ToString() const { std::vector priority_strings; for (size_t i = 0; i < priorities.size(); ++i) { const Priority& priority = priorities[i]; priority_strings.emplace_back( absl::StrCat("priority ", i, ": ", priority.ToString())); } return absl::StrCat( "priorities=[", absl::StrJoin(priority_strings, ", "), "], drop_config=", drop_config == nullptr ? "" : drop_config->ToString()); } // // XdsEndpointResourceType // namespace { void MaybeLogClusterLoadAssignment( const XdsResourceType::DecodeContext& context, const envoy_config_endpoint_v3_ClusterLoadAssignment* cla) { if (GRPC_TRACE_FLAG_ENABLED(*context.tracer) && gpr_should_log(GPR_LOG_SEVERITY_DEBUG)) { const upb_MessageDef* msg_type = envoy_config_endpoint_v3_ClusterLoadAssignment_getmsgdef( context.symtab); char buf[10240]; upb_TextEncode(reinterpret_cast(cla), msg_type, nullptr, 0, buf, sizeof(buf)); gpr_log(GPR_DEBUG, "[xds_client %p] ClusterLoadAssignment: %s", context.client, buf); } } absl::optional ParseCoreAddress( const envoy_config_core_v3_Address* address, ValidationErrors* errors) { if (address == nullptr) { errors->AddError("field not present"); return absl::nullopt; } ValidationErrors::ScopedField field(errors, ".socket_address"); const envoy_config_core_v3_SocketAddress* socket_address = envoy_config_core_v3_Address_socket_address(address); if (socket_address == nullptr) { errors->AddError("field not present"); return absl::nullopt; } std::string address_str = UpbStringToStdString( envoy_config_core_v3_SocketAddress_address(socket_address)); uint32_t port; { ValidationErrors::ScopedField field(errors, ".port_value"); port = envoy_config_core_v3_SocketAddress_port_value(socket_address); if (GPR_UNLIKELY(port >> 16) != 0) { errors->AddError("invalid port"); return absl::nullopt; } } auto addr = StringToSockaddr(address_str, port); if (!addr.ok()) { errors->AddError(addr.status().message()); return absl::nullopt; } return *addr; } absl::optional EndpointAddressesParse( const envoy_config_endpoint_v3_LbEndpoint* lb_endpoint, ValidationErrors* errors) { // health_status const int32_t health_status = envoy_config_endpoint_v3_LbEndpoint_health_status(lb_endpoint); auto status = XdsHealthStatus::FromUpb(health_status); if (!status.has_value()) return absl::nullopt; // load_balancing_weight uint32_t weight = 1; { ValidationErrors::ScopedField field(errors, ".load_balancing_weight"); const google_protobuf_UInt32Value* load_balancing_weight = envoy_config_endpoint_v3_LbEndpoint_load_balancing_weight(lb_endpoint); if (load_balancing_weight != nullptr) { weight = google_protobuf_UInt32Value_value(load_balancing_weight); if (weight == 0) { errors->AddError("must be greater than 0"); } } } // endpoint std::vector addresses; { ValidationErrors::ScopedField field(errors, ".endpoint"); const envoy_config_endpoint_v3_Endpoint* endpoint = envoy_config_endpoint_v3_LbEndpoint_endpoint(lb_endpoint); if (endpoint == nullptr) { errors->AddError("field not present"); return absl::nullopt; } { ValidationErrors::ScopedField field(errors, ".address"); auto address = ParseCoreAddress( envoy_config_endpoint_v3_Endpoint_address(endpoint), errors); if (address.has_value()) addresses.push_back(*address); } if (XdsDualstackEndpointsEnabled()) { size_t size; auto* additional_addresses = envoy_config_endpoint_v3_Endpoint_additional_addresses(endpoint, &size); for (size_t i = 0; i < size; ++i) { ValidationErrors::ScopedField field( errors, absl::StrCat(".additional_addresses[", i, "].address")); auto address = ParseCoreAddress( envoy_config_endpoint_v3_Endpoint_AdditionalAddress_address( additional_addresses[i]), errors); if (address.has_value()) addresses.push_back(*address); } } } if (addresses.empty()) return absl::nullopt; // Convert to EndpointAddresses. return EndpointAddresses( addresses, ChannelArgs() .Set(GRPC_ARG_ADDRESS_WEIGHT, weight) .Set(GRPC_ARG_XDS_HEALTH_STATUS, status->status())); } struct ParsedLocality { size_t priority; XdsEndpointResource::Priority::Locality locality; }; struct ResolvedAddressLessThan { bool operator()(const grpc_resolved_address& a1, const grpc_resolved_address& a2) const { if (a1.len != a2.len) return a1.len < a2.len; return memcmp(a1.addr, a2.addr, a1.len) < 0; } }; using ResolvedAddressSet = std::set; absl::optional LocalityParse( const envoy_config_endpoint_v3_LocalityLbEndpoints* locality_lb_endpoints, ResolvedAddressSet* address_set, ValidationErrors* errors) { const size_t original_error_size = errors->size(); ParsedLocality parsed_locality; // load_balancing_weight // If LB weight is not specified or 0, it means this locality is assigned // no load. const google_protobuf_UInt32Value* lb_weight = envoy_config_endpoint_v3_LocalityLbEndpoints_load_balancing_weight( locality_lb_endpoints); parsed_locality.locality.lb_weight = lb_weight != nullptr ? google_protobuf_UInt32Value_value(lb_weight) : 0; if (parsed_locality.locality.lb_weight == 0) return absl::nullopt; // locality const envoy_config_core_v3_Locality* locality = envoy_config_endpoint_v3_LocalityLbEndpoints_locality( locality_lb_endpoints); if (locality == nullptr) { ValidationErrors::ScopedField field(errors, ".locality"); errors->AddError("field not present"); return absl::nullopt; } // region std::string region = UpbStringToStdString(envoy_config_core_v3_Locality_region(locality)); // zone std::string zone = UpbStringToStdString(envoy_config_core_v3_Locality_zone(locality)); // sub_zone std::string sub_zone = UpbStringToStdString(envoy_config_core_v3_Locality_sub_zone(locality)); parsed_locality.locality.name = MakeRefCounted( std::move(region), std::move(zone), std::move(sub_zone)); // lb_endpoints size_t size; const envoy_config_endpoint_v3_LbEndpoint* const* lb_endpoints = envoy_config_endpoint_v3_LocalityLbEndpoints_lb_endpoints( locality_lb_endpoints, &size); for (size_t i = 0; i < size; ++i) { ValidationErrors::ScopedField field(errors, absl::StrCat(".lb_endpoints[", i, "]")); auto endpoint = EndpointAddressesParse(lb_endpoints[i], errors); if (endpoint.has_value()) { for (const auto& address : endpoint->addresses()) { bool inserted = address_set->insert(address).second; if (!inserted) { errors->AddError(absl::StrCat( "duplicate endpoint address \"", grpc_sockaddr_to_uri(&address).value_or(""), "\"")); } } parsed_locality.locality.endpoints.push_back(std::move(*endpoint)); } } // priority parsed_locality.priority = envoy_config_endpoint_v3_LocalityLbEndpoints_priority( locality_lb_endpoints); // Return result. if (original_error_size != errors->size()) return absl::nullopt; return parsed_locality; } void DropParseAndAppend( const envoy_config_endpoint_v3_ClusterLoadAssignment_Policy_DropOverload* drop_overload, XdsEndpointResource::DropConfig* drop_config, ValidationErrors* errors) { // category std::string category = UpbStringToStdString( envoy_config_endpoint_v3_ClusterLoadAssignment_Policy_DropOverload_category( drop_overload)); if (category.empty()) { ValidationErrors::ScopedField field(errors, ".category"); errors->AddError("empty drop category name"); } // drop_percentage uint32_t numerator; { ValidationErrors::ScopedField field(errors, ".drop_percentage"); const envoy_type_v3_FractionalPercent* drop_percentage = envoy_config_endpoint_v3_ClusterLoadAssignment_Policy_DropOverload_drop_percentage( drop_overload); if (drop_percentage == nullptr) { errors->AddError("field not present"); return; } numerator = envoy_type_v3_FractionalPercent_numerator(drop_percentage); { ValidationErrors::ScopedField field(errors, ".denominator"); const int denominator = envoy_type_v3_FractionalPercent_denominator(drop_percentage); // Normalize to million. switch (denominator) { case envoy_type_v3_FractionalPercent_HUNDRED: numerator *= 10000; break; case envoy_type_v3_FractionalPercent_TEN_THOUSAND: numerator *= 100; break; case envoy_type_v3_FractionalPercent_MILLION: break; default: errors->AddError("unknown denominator type"); } } // Cap numerator to 1000000. numerator = std::min(numerator, 1000000u); } // Add category. drop_config->AddCategory(std::move(category), numerator); } absl::StatusOr> EdsResourceParse( const XdsResourceType::DecodeContext& /*context*/, const envoy_config_endpoint_v3_ClusterLoadAssignment* cluster_load_assignment) { ValidationErrors errors; auto eds_resource = std::make_shared(); // endpoints { ValidationErrors::ScopedField field(&errors, "endpoints"); ResolvedAddressSet address_set; size_t locality_size; const envoy_config_endpoint_v3_LocalityLbEndpoints* const* endpoints = envoy_config_endpoint_v3_ClusterLoadAssignment_endpoints( cluster_load_assignment, &locality_size); for (size_t i = 0; i < locality_size; ++i) { ValidationErrors::ScopedField field(&errors, absl::StrCat("[", i, "]")); auto parsed_locality = LocalityParse(endpoints[i], &address_set, &errors); if (parsed_locality.has_value()) { GPR_ASSERT(parsed_locality->locality.lb_weight != 0); // Make sure prorities is big enough. Note that they might not // arrive in priority order. if (eds_resource->priorities.size() < parsed_locality->priority + 1) { eds_resource->priorities.resize(parsed_locality->priority + 1); } auto& locality_map = eds_resource->priorities[parsed_locality->priority].localities; auto it = locality_map.find(parsed_locality->locality.name.get()); if (it != locality_map.end()) { errors.AddError(absl::StrCat( "duplicate locality ", parsed_locality->locality.name->AsHumanReadableString(), " found in priority ", parsed_locality->priority)); } else { locality_map.emplace(parsed_locality->locality.name.get(), std::move(parsed_locality->locality)); } } } for (size_t i = 0; i < eds_resource->priorities.size(); ++i) { const auto& priority = eds_resource->priorities[i]; if (priority.localities.empty()) { errors.AddError(absl::StrCat("priority ", i, " empty")); } else { // Check that the sum of the locality weights in this priority // does not exceed the max value for a uint32. uint64_t total_weight = 0; for (const auto& p : priority.localities) { total_weight += p.second.lb_weight; if (total_weight > std::numeric_limits::max()) { errors.AddError( absl::StrCat("sum of locality weights for priority ", i, " exceeds uint32 max")); break; } } } } } // policy const auto* policy = envoy_config_endpoint_v3_ClusterLoadAssignment_policy( cluster_load_assignment); if (policy != nullptr) { ValidationErrors::ScopedField field(&errors, "policy"); size_t drop_size; const auto* const* drop_overload = envoy_config_endpoint_v3_ClusterLoadAssignment_Policy_drop_overloads( policy, &drop_size); if (drop_size > 0) { eds_resource->drop_config = MakeRefCounted(); } for (size_t i = 0; i < drop_size; ++i) { ValidationErrors::ScopedField field( &errors, absl::StrCat(".drop_overloads[", i, "]")); DropParseAndAppend(drop_overload[i], eds_resource->drop_config.get(), &errors); } } // Return result. if (!errors.ok()) { return errors.status(absl::StatusCode::kInvalidArgument, "errors parsing EDS resource"); } return eds_resource; } } // namespace XdsResourceType::DecodeResult XdsEndpointResourceType::Decode( const XdsResourceType::DecodeContext& context, absl::string_view serialized_resource) const { DecodeResult result; // Parse serialized proto. auto* resource = envoy_config_endpoint_v3_ClusterLoadAssignment_parse( serialized_resource.data(), serialized_resource.size(), context.arena); if (resource == nullptr) { result.resource = absl::InvalidArgumentError( "Can't parse ClusterLoadAssignment resource."); return result; } MaybeLogClusterLoadAssignment(context, resource); // Validate resource. result.name = UpbStringToStdString( envoy_config_endpoint_v3_ClusterLoadAssignment_cluster_name(resource)); auto eds_resource = EdsResourceParse(context, resource); if (!eds_resource.ok()) { if (GRPC_TRACE_FLAG_ENABLED(*context.tracer)) { gpr_log(GPR_ERROR, "[xds_client %p] invalid ClusterLoadAssignment %s: %s", context.client, result.name->c_str(), eds_resource.status().ToString().c_str()); } result.resource = eds_resource.status(); } else { if (GRPC_TRACE_FLAG_ENABLED(*context.tracer)) { gpr_log(GPR_INFO, "[xds_client %p] parsed ClusterLoadAssignment %s: %s", context.client, result.name->c_str(), (*eds_resource)->ToString().c_str()); } result.resource = std::move(*eds_resource); } return result; } } // namespace grpc_core