// Copyright 2019 The GoPacket Authors. All rights reserved. // // Use of this source code is governed by a BSD-style license that can be found // in the LICENSE file in the root of the source tree. package layers // This file implements the RMCP ASF Presence Pong message, specified in section // 3.2.4.3 of // https://www.dmtf.org/sites/default/files/standards/documents/DSP0136.pdf. It // also contains non-competing elements from IPMI v2.0, specified in section // 13.2.4 of // https://www.intel.com/content/dam/www/public/us/en/documents/specification-updates/ipmi-intelligent-platform-mgt-interface-spec-2nd-gen-v2-0-spec-update.pdf. import ( "encoding/binary" "fmt" "github.com/google/gopacket" ) type ( // ASFEntity is the type of individual entities that a Presence Pong // response can indicate support of. The entities currently implemented by // the spec are IPMI and ASFv1. ASFEntity uint8 // ASFInteraction is the type of individual interactions that a Presence // Pong response can indicate support for. The interactions currently // implemented by the spec are RMCP security extensions. Although not // specified, IPMI uses this field to indicate support for DASH, which is // supported as well. ASFInteraction uint8 ) const ( // ASFDCMIEnterprise is the IANA-assigned Enterprise Number of the Data // Center Manageability Interface Forum. The Presence Pong response's // Enterprise field being set to this value indicates support for DCMI. The // DCMI spec regards the OEM field as reserved, so these should be null. ASFDCMIEnterprise uint32 = 36465 // ASFPresencePongEntityIPMI ANDs with Presence Pong's supported entities // field if the managed system supports IPMI. ASFPresencePongEntityIPMI ASFEntity = 1 << 7 // ASFPresencePongEntityASFv1 ANDs with Presence Pong's supported entities // field if the managed system supports ASF v1.0. ASFPresencePongEntityASFv1 ASFEntity = 1 // ASFPresencePongInteractionSecurityExtensions ANDs with Presence Pong's // supported interactions field if the managed system supports RMCP v2.0 // security extensions. See section 3.2.3. ASFPresencePongInteractionSecurityExtensions ASFInteraction = 1 << 7 // ASFPresencePongInteractionDASH ANDs with Presence Pong's supported // interactions field if the managed system supports DMTF DASH. See // https://www.dmtf.org/standards/dash. ASFPresencePongInteractionDASH ASFInteraction = 1 << 5 ) // ASFPresencePong defines the structure of a Presence Pong message's payload. // See section 3.2.4.3. type ASFPresencePong struct { BaseLayer // Enterprise is the IANA Enterprise Number of an entity that has defined // OEM-specific capabilities for the managed client. If no such capabilities // exist, this is set to ASF's IANA Enterprise Number. Enterprise uint32 // OEM identifies OEM-specific capabilities. Its structure is defined by the // OEM. This is set to 0s if no OEM-specific capabilities exist. This // implementation does not change byte order from the wire for this field. OEM [4]byte // We break out entities and interactions into separate booleans as // discovery is the entire point of this type of message, so we assume they // are accessed. It also makes gopacket's default layer printing more // useful. // IPMI is true if IPMI is supported by the managed system. There is no // explicit version in the specification, however given the dates, this is // assumed to be IPMI v1.0. Support for IPMI is contained in the "supported // entities" field of the presence pong payload. IPMI bool // ASFv1 indicates support for ASF v1.0. This seems somewhat redundant as // ASF must be supported in order to receive a response. This is contained // in the "supported entities" field of the presence pong payload. ASFv1 bool // SecurityExtensions indicates support for RMCP Security Extensions, // specified in ASF v2.0. This will always be false for v1.x // implementations. This is contained in the "supported interactions" field // of the presence pong payload. This field is defined in ASF v1.0, but has // no useful value. SecurityExtensions bool // DASH is true if DMTF DASH is supported. This is not specified in ASF // v2.0, but in IPMI v2.0, however the former does not preclude it, so we // support it. DASH bool // 6 bytes reserved after the entities and interactions fields, set to 0s. } // SupportsDCMI returns whether the Presence Pong message indicates support for // the Data Center Management Interface, which is an extension of IPMI v2.0. func (a *ASFPresencePong) SupportsDCMI() bool { return a.Enterprise == ASFDCMIEnterprise && a.IPMI && a.ASFv1 } // LayerType returns LayerTypeASFPresencePong. It partially satisfies Layer and // SerializableLayer. func (*ASFPresencePong) LayerType() gopacket.LayerType { return LayerTypeASFPresencePong } // CanDecode returns LayerTypeASFPresencePong. It partially satisfies // DecodingLayer. func (a *ASFPresencePong) CanDecode() gopacket.LayerClass { return a.LayerType() } // DecodeFromBytes makes the layer represent the provided bytes. It partially // satisfies DecodingLayer. func (a *ASFPresencePong) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error { if len(data) < 16 { df.SetTruncated() return fmt.Errorf("invalid ASF presence pong payload, length %v less than 16", len(data)) } a.BaseLayer.Contents = data[:16] a.BaseLayer.Payload = data[16:] a.Enterprise = binary.BigEndian.Uint32(data[:4]) copy(a.OEM[:], data[4:8]) // N.B. no byte order change a.IPMI = data[8]&uint8(ASFPresencePongEntityIPMI) != 0 a.ASFv1 = data[8]&uint8(ASFPresencePongEntityASFv1) != 0 a.SecurityExtensions = data[9]&uint8(ASFPresencePongInteractionSecurityExtensions) != 0 a.DASH = data[9]&uint8(ASFPresencePongInteractionDASH) != 0 // ignore remaining 6 bytes; should be set to 0s return nil } // NextLayerType returns LayerTypePayload, as there are no further layers to // decode. This partially satisfies DecodingLayer. func (a *ASFPresencePong) NextLayerType() gopacket.LayerType { return gopacket.LayerTypePayload } // SerializeTo writes the serialized fom of this layer into the SerializeBuffer, // partially satisfying SerializableLayer. func (a *ASFPresencePong) SerializeTo(b gopacket.SerializeBuffer, _ gopacket.SerializeOptions) error { bytes, err := b.PrependBytes(16) if err != nil { return err } binary.BigEndian.PutUint32(bytes[:4], a.Enterprise) copy(bytes[4:8], a.OEM[:]) bytes[8] = 0 if a.IPMI { bytes[8] |= uint8(ASFPresencePongEntityIPMI) } if a.ASFv1 { bytes[8] |= uint8(ASFPresencePongEntityASFv1) } bytes[9] = 0 if a.SecurityExtensions { bytes[9] |= uint8(ASFPresencePongInteractionSecurityExtensions) } if a.DASH { bytes[9] |= uint8(ASFPresencePongInteractionDASH) } // zero-out remaining 6 bytes for i := 10; i < len(bytes); i++ { bytes[i] = 0x00 } return nil } // decodeASFPresencePong decodes the byte slice into an RMCP-ASF Presence Pong // struct. func decodeASFPresencePong(data []byte, p gopacket.PacketBuilder) error { return decodingLayerDecoder(&ASFPresencePong{}, data, p) }