package nomad import ( "errors" "fmt" "io" "net" "strings" "time" metrics "github.com/armon/go-metrics" log "github.com/hashicorp/go-hclog" cstructs "github.com/hashicorp/nomad/client/structs" "github.com/hashicorp/nomad/acl" "github.com/hashicorp/nomad/helper" "github.com/hashicorp/nomad/nomad/structs" "github.com/ugorji/go/codec" ) // FileSystem endpoint is used for accessing the logs and filesystem of // allocations from a Node. type FileSystem struct { srv *Server logger log.Logger } func (f *FileSystem) register() { f.srv.streamingRpcs.Register("FileSystem.Logs", f.logs) f.srv.streamingRpcs.Register("FileSystem.Stream", f.stream) } // handleStreamResultError is a helper for sending an error with a potential // error code. The transmission of the error is ignored if the error has been // generated by the closing of the underlying transport. func (f *FileSystem) handleStreamResultError(err error, code *int64, encoder *codec.Encoder) { // Nothing to do as the conn is closed if err == io.EOF || strings.Contains(err.Error(), "closed") { return } // Attempt to send the error encoder.Encode(&cstructs.StreamErrWrapper{ Error: cstructs.NewRpcError(err, code), }) } // forwardRegionStreamingRpc is used to make a streaming RPC to a different // region. It looks up the allocation in the remote region to determine what // remote server can route the request. func (f *FileSystem) forwardRegionStreamingRpc(conn io.ReadWriteCloser, encoder *codec.Encoder, args interface{}, method, allocID string, qo *structs.QueryOptions) { // Request the allocation from the target region allocReq := &structs.AllocSpecificRequest{ AllocID: allocID, QueryOptions: *qo, } var allocResp structs.SingleAllocResponse if err := f.srv.forwardRegion(qo.RequestRegion(), "Alloc.GetAlloc", allocReq, &allocResp); err != nil { f.handleStreamResultError(err, nil, encoder) return } if allocResp.Alloc == nil { f.handleStreamResultError(structs.NewErrUnknownAllocation(allocID), helper.Int64ToPtr(404), encoder) return } // Determine the Server that has a connection to the node. srv, err := f.srv.serverWithNodeConn(allocResp.Alloc.NodeID, qo.RequestRegion()) if err != nil { var code *int64 if structs.IsErrNoNodeConn(err) { code = helper.Int64ToPtr(404) } f.handleStreamResultError(err, code, encoder) return } // Get a connection to the server srvConn, err := f.srv.streamingRpc(srv, method) if err != nil { f.handleStreamResultError(err, nil, encoder) return } defer srvConn.Close() // Send the request. outEncoder := codec.NewEncoder(srvConn, structs.MsgpackHandle) if err := outEncoder.Encode(args); err != nil { f.handleStreamResultError(err, nil, encoder) return } structs.Bridge(conn, srvConn) } // List is used to list the contents of an allocation's directory. func (f *FileSystem) List(args *cstructs.FsListRequest, reply *cstructs.FsListResponse) error { // We only allow stale reads since the only potentially stale information is // the Node registration and the cost is fairly high for adding another hope // in the forwarding chain. args.QueryOptions.AllowStale = true // Potentially forward to a different region. if done, err := f.srv.forward("FileSystem.List", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"nomad", "file_system", "list"}, time.Now()) // Check filesystem read permissions if aclObj, err := f.srv.ResolveToken(args.AuthToken); err != nil { return err } else if aclObj != nil && !aclObj.AllowNsOp(args.Namespace, acl.NamespaceCapabilityReadFS) { return structs.ErrPermissionDenied } // Verify the arguments. if args.AllocID == "" { return errors.New("missing allocation ID") } // Lookup the allocation snap, err := f.srv.State().Snapshot() if err != nil { return err } alloc, err := snap.AllocByID(nil, args.AllocID) if err != nil { return err } if alloc == nil { return structs.NewErrUnknownAllocation(args.AllocID) } // Make sure Node is valid and new enough to support RPC _, err = getNodeForRpc(snap, alloc.NodeID) if err != nil { return err } // Get the connection to the client state, ok := f.srv.getNodeConn(alloc.NodeID) if !ok { return findNodeConnAndForward(f.srv, alloc.NodeID, "FileSystem.List", args, reply) } // Make the RPC return NodeRpc(state.Session, "FileSystem.List", args, reply) } // Stat is used to stat a file in the allocation's directory. func (f *FileSystem) Stat(args *cstructs.FsStatRequest, reply *cstructs.FsStatResponse) error { // We only allow stale reads since the only potentially stale information is // the Node registration and the cost is fairly high for adding another hope // in the forwarding chain. args.QueryOptions.AllowStale = true // Potentially forward to a different region. if done, err := f.srv.forward("FileSystem.Stat", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"nomad", "file_system", "stat"}, time.Now()) // Check filesystem read permissions if aclObj, err := f.srv.ResolveToken(args.AuthToken); err != nil { return err } else if aclObj != nil && !aclObj.AllowNsOp(args.Namespace, acl.NamespaceCapabilityReadFS) { return structs.ErrPermissionDenied } // Verify the arguments. if args.AllocID == "" { return errors.New("missing allocation ID") } // Lookup the allocation snap, err := f.srv.State().Snapshot() if err != nil { return err } alloc, err := snap.AllocByID(nil, args.AllocID) if err != nil { return err } if alloc == nil { return structs.NewErrUnknownAllocation(args.AllocID) } // Make sure Node is valid and new enough to support RPC _, err = getNodeForRpc(snap, alloc.NodeID) if err != nil { return err } // Get the connection to the client state, ok := f.srv.getNodeConn(alloc.NodeID) if !ok { return findNodeConnAndForward(f.srv, alloc.NodeID, "FileSystem.Stat", args, reply) } // Make the RPC return NodeRpc(state.Session, "FileSystem.Stat", args, reply) } // stream is is used to stream the contents of file in an allocation's // directory. func (f *FileSystem) stream(conn io.ReadWriteCloser) { defer conn.Close() defer metrics.MeasureSince([]string{"nomad", "file_system", "stream"}, time.Now()) // Decode the arguments var args cstructs.FsStreamRequest decoder := codec.NewDecoder(conn, structs.MsgpackHandle) encoder := codec.NewEncoder(conn, structs.MsgpackHandle) if err := decoder.Decode(&args); err != nil { f.handleStreamResultError(err, helper.Int64ToPtr(500), encoder) return } // Check if we need to forward to a different region if r := args.RequestRegion(); r != f.srv.Region() { f.forwardRegionStreamingRpc(conn, encoder, &args, "FileSystem.Stream", args.AllocID, &args.QueryOptions) return } // Check node read permissions if aclObj, err := f.srv.ResolveToken(args.AuthToken); err != nil { f.handleStreamResultError(err, nil, encoder) return } else if aclObj != nil && !aclObj.AllowNsOp(args.Namespace, acl.NamespaceCapabilityReadFS) { f.handleStreamResultError(structs.ErrPermissionDenied, nil, encoder) return } // Verify the arguments. if args.AllocID == "" { f.handleStreamResultError(errors.New("missing AllocID"), helper.Int64ToPtr(400), encoder) return } // Retrieve the allocation snap, err := f.srv.State().Snapshot() if err != nil { f.handleStreamResultError(err, nil, encoder) return } alloc, err := snap.AllocByID(nil, args.AllocID) if err != nil { f.handleStreamResultError(err, nil, encoder) return } if alloc == nil { f.handleStreamResultError(structs.NewErrUnknownAllocation(args.AllocID), helper.Int64ToPtr(404), encoder) return } nodeID := alloc.NodeID // Make sure Node is valid and new enough to support RPC node, err := snap.NodeByID(nil, nodeID) if err != nil { f.handleStreamResultError(err, helper.Int64ToPtr(500), encoder) return } if node == nil { err := fmt.Errorf("Unknown node %q", nodeID) f.handleStreamResultError(err, helper.Int64ToPtr(400), encoder) return } if err := nodeSupportsRpc(node); err != nil { f.handleStreamResultError(err, helper.Int64ToPtr(400), encoder) return } // Get the connection to the client either by forwarding to another server // or creating a direct stream var clientConn net.Conn state, ok := f.srv.getNodeConn(nodeID) if !ok { // Determine the Server that has a connection to the node. srv, err := f.srv.serverWithNodeConn(nodeID, f.srv.Region()) if err != nil { var code *int64 if structs.IsErrNoNodeConn(err) { code = helper.Int64ToPtr(404) } f.handleStreamResultError(err, code, encoder) return } // Get a connection to the server conn, err := f.srv.streamingRpc(srv, "FileSystem.Stream") if err != nil { f.handleStreamResultError(err, nil, encoder) return } clientConn = conn } else { stream, err := NodeStreamingRpc(state.Session, "FileSystem.Stream") if err != nil { f.handleStreamResultError(err, nil, encoder) return } clientConn = stream } defer clientConn.Close() // Send the request. outEncoder := codec.NewEncoder(clientConn, structs.MsgpackHandle) if err := outEncoder.Encode(args); err != nil { f.handleStreamResultError(err, nil, encoder) return } structs.Bridge(conn, clientConn) return } // logs is used to access an task's logs for a given allocation func (f *FileSystem) logs(conn io.ReadWriteCloser) { defer conn.Close() defer metrics.MeasureSince([]string{"nomad", "file_system", "logs"}, time.Now()) // Decode the arguments var args cstructs.FsLogsRequest decoder := codec.NewDecoder(conn, structs.MsgpackHandle) encoder := codec.NewEncoder(conn, structs.MsgpackHandle) if err := decoder.Decode(&args); err != nil { f.handleStreamResultError(err, helper.Int64ToPtr(500), encoder) return } // Check if we need to forward to a different region if r := args.RequestRegion(); r != f.srv.Region() { f.forwardRegionStreamingRpc(conn, encoder, &args, "FileSystem.Logs", args.AllocID, &args.QueryOptions) return } // Check node read permissions if aclObj, err := f.srv.ResolveToken(args.AuthToken); err != nil { f.handleStreamResultError(err, nil, encoder) return } else if aclObj != nil { readfs := aclObj.AllowNsOp(args.QueryOptions.Namespace, acl.NamespaceCapabilityReadFS) logs := aclObj.AllowNsOp(args.QueryOptions.Namespace, acl.NamespaceCapabilityReadLogs) if !readfs && !logs { f.handleStreamResultError(structs.ErrPermissionDenied, nil, encoder) return } } // Verify the arguments. if args.AllocID == "" { f.handleStreamResultError(errors.New("missing AllocID"), helper.Int64ToPtr(400), encoder) return } // Retrieve the allocation snap, err := f.srv.State().Snapshot() if err != nil { f.handleStreamResultError(err, nil, encoder) return } alloc, err := snap.AllocByID(nil, args.AllocID) if err != nil { f.handleStreamResultError(err, nil, encoder) return } if alloc == nil { f.handleStreamResultError(structs.NewErrUnknownAllocation(args.AllocID), helper.Int64ToPtr(404), encoder) return } nodeID := alloc.NodeID // Make sure Node is valid and new enough to support RPC node, err := snap.NodeByID(nil, nodeID) if err != nil { f.handleStreamResultError(err, helper.Int64ToPtr(500), encoder) return } if node == nil { err := fmt.Errorf("Unknown node %q", nodeID) f.handleStreamResultError(err, helper.Int64ToPtr(400), encoder) return } if err := nodeSupportsRpc(node); err != nil { f.handleStreamResultError(err, helper.Int64ToPtr(400), encoder) return } // Get the connection to the client either by forwarding to another server // or creating a direct stream var clientConn net.Conn state, ok := f.srv.getNodeConn(nodeID) if !ok { // Determine the Server that has a connection to the node. srv, err := f.srv.serverWithNodeConn(nodeID, f.srv.Region()) if err != nil { var code *int64 if structs.IsErrNoNodeConn(err) { code = helper.Int64ToPtr(404) } f.handleStreamResultError(err, code, encoder) return } // Get a connection to the server conn, err := f.srv.streamingRpc(srv, "FileSystem.Logs") if err != nil { f.handleStreamResultError(err, nil, encoder) return } clientConn = conn } else { stream, err := NodeStreamingRpc(state.Session, "FileSystem.Logs") if err != nil { f.handleStreamResultError(err, nil, encoder) return } clientConn = stream } defer clientConn.Close() // Send the request. outEncoder := codec.NewEncoder(clientConn, structs.MsgpackHandle) if err := outEncoder.Encode(args); err != nil { f.handleStreamResultError(err, nil, encoder) return } structs.Bridge(conn, clientConn) return }