// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. syntax = "proto3"; option go_package = "storj.io/common/pb"; import "gogo.proto"; import "node.proto"; import "pointerdb.proto"; import "google/protobuf/timestamp.proto"; package inspector; service OverlayInspector { // CountNodes returns the number of nodes in the cache rpc CountNodes(CountNodesRequest) returns (CountNodesResponse); // DumpNodes returns all the nodes in the cache rpc DumpNodes(DumpNodesRequest) returns (DumpNodesResponse); } service PieceStoreInspector { // Stats return space and bandwidth stats for a storagenode rpc Stats(StatsRequest) returns (StatSummaryResponse) {} // Dashboard returns stats for a specific storagenode rpc Dashboard(DashboardRequest) returns (DashboardResponse) {} } service IrreparableInspector { // ListIrreparableSegments returns damaged segments rpc ListIrreparableSegments(ListIrreparableSegmentsRequest) returns (ListIrreparableSegmentsResponse); } service HealthInspector { // ObjectHealth will return stats about the health of an object rpc ObjectHealth(ObjectHealthRequest) returns (ObjectHealthResponse) {} // SegmentHealth will return stats about the health of a segment rpc SegmentHealth(SegmentHealthRequest) returns (SegmentHealthResponse) {} } // ListSegments message ListIrreparableSegmentsRequest { int32 limit = 1; bytes last_seen_segment_path = 2; } message IrreparableSegment { bytes path = 1; pointerdb.Pointer segment_detail = 2; int32 lost_pieces = 3; int64 last_repair_attempt = 4; int64 repair_attempt_count = 5; } message ListIrreparableSegmentsResponse { repeated IrreparableSegment segments = 1; } // CountNodes message CountNodesResponse { int64 count = 1; } message CountNodesRequest { } message DumpNodesRequest {} message DumpNodesResponse { repeated node.Node nodes = 1; } message StatsRequest { } message StatSummaryResponse { int64 used_space = 1; int64 available_space = 2; int64 used_ingress = 3; int64 used_egress = 4; int64 used_bandwidth = 5; int64 available_bandwidth = 6; } message DashboardRequest { } message DashboardResponse { bytes node_id = 1 [(gogoproto.customtype) = "NodeID", (gogoproto.nullable) = false]; int64 node_connections = 2; string bootstrap_address = 3 [deprecated=true]; string internal_address = 4; string external_address = 5; string dashboard_address = 6; StatSummaryResponse stats = 7; string uptime = 8; google.protobuf.Timestamp last_pinged = 9 [(gogoproto.stdtime) = true, (gogoproto.nullable) = false]; google.protobuf.Timestamp last_queried = 10 [(gogoproto.stdtime) = true, (gogoproto.nullable) = false]; bytes last_ping_from_id = 11 [(gogoproto.customtype) = "NodeID"]; string last_ping_from_address = 12; } message SegmentHealthRequest { bytes bucket = 1; // segment bucket name bytes encrypted_path = 2; // segment encrypted path int64 segment_index = 3; // segment index bytes project_id = 4; // segment project id } message SegmentHealth { repeated bytes healthy_ids = 1 [(gogoproto.customtype) = "NodeID"]; // online + not disqualified repeated bytes unhealthy_ids = 2 [(gogoproto.customtype) = "NodeID"]; // online + disqualified repeated bytes offline_ids = 3 [(gogoproto.customtype) = "NodeID"]; // offline bytes segment = 4; // path formatted segment index } message SegmentHealthResponse { SegmentHealth health = 1; // Information about a segment's health pointerdb.RedundancyScheme redundancy = 2; // expected segment info } message ObjectHealthRequest { bytes encrypted_path = 1; // object encrypted path bytes bucket = 2; // object bucket name bytes project_id = 3; // object project id int64 start_after_segment = 4; // Get all segments after specified segment index int64 end_before_segment = 5; // Stop at segment before specified segment index int32 limit = 6; // Max number of segments that are checked } message ObjectHealthResponse { repeated SegmentHealth segments = 1; // actual segment info pointerdb.RedundancyScheme redundancy = 2; // expected segment info }