Network Working Group P. Hallam-Baker Internet-Draft Comodo Group Inc. Intended status: Standards Track March 7, 2016 Expires: September 8, 2016 Mathematical Mesh: Architecture draft-hallambaker-mesh-architecture-01 Abstract The Mathematical Mesh 'The Mesh' is an end-to-end secure infrastructure that facilitates the exchange of configuration and credential data between multiple user devices. The architecture of the Mesh and examples of typical applications are described. Status of This Memo This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet- Drafts is at http://datatracker.ietf.org/drafts/current/. Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress." This Internet-Draft will expire on September 8, 2016. Copyright Notice Copyright (c) 2016 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Hallam-Baker Expires September 8, 2016 [Page 1] Internet-Draft Mathematical Mesh Architecture March 2016 1. Introduction The Mathematical Mesh is a user centered Public Key Infrastructure that uses cryptography to make computers easier to use. The Mesh uses cryptography and an untrusted cloud service to make management of computer configuration data transparent to the end user. Each Mesh user has a personal profile that is unique to them and contains a set of public keys for maintaining the user's Mesh profile. 2. Definitions 2.1. Requirements Language The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [RFC2119]. 3. Background Public Key Cryptography permits Internet applications to be secure but requires an infrastructure for key distribution. WebPKI has been very successful for E-commerce. Client side PKI has been remarkably less successful. S/MIME and OpenPGP both have significant user bases but both have been limited to a small community. Government for S/MIME, system admins and security researchers for OpenPGP. Use of PKI for authentication of Web users has seen negligible use. One of the chief obstacles any network application has to overcome is the critical mass problem. While S/MIME and OpenPGP both have several million users, this is a small fraction of the number of email users. It is likely that the more significant obstacle to deployment is the difficulty of using client side PKI applications. While S/MIME and OpenPGP both claim to reduce the effort of sending secure email 'to a single click', no security feature that requires the user to make a conscious decision to use it every time it is used can ever hope to achieve ubiquitous deployment. Attempting to automate the process of sending encrypted mail introduces a new problem. The fact that a user has configured a client to receive encrypted mail the past does not mean that they are capable of receiving and decrypting such mail today. And even if Hallam-Baker Expires September 8, 2016 [Page 2] Internet-Draft Mathematical Mesh Architecture March 2016 they are still capable of receiving the encrypted mail today, this capability may be limited to a single machine that they do not currently have access to. While such objections have been repeatedly dismissed as trivial and 'easily solved' by protocol designers, to ordinary email users, they are anything but trivial. If a change is to be made to an infrastructure they rely on daily, it must be completely transparent. An email security infrastructure that interrupts or disrupts their flow of work is totally unacceptable. Equally overlooked by application designers is the difficulty of configuring applications that support end-to-end security through cryptography. While working on this project, the author attempted to configure a very popular email client to make use of the built in S/ MIME capabilities. Even with 25 years of experience, this took over half an hour and required the user to follow a procedure with 17 different steps! It is important to note that this complexity is not simply a consequence of one poorly designed application, it is the result of the functions of the PKI being divided across three poorly integrated applications on the user's machine compounded by a set of network protocols that are not designed to provide a seamless user experience. A similar problem is illustrated by the problem of configuring SSH. There is a simple way to configure SSH and there is a secure way and these are not the same. The simple way to configure SSH is for each user to create a single keypair and copy it to each of the machines they might need terminal access to. While this is straightforward it means that there is no way to mitigate the possibility of the key being compromised if a machine is lost or stolen. Sharing a private key between machines is as bad as sharing a password between accounts. But attempting to achieve cryptographic hygiene across a diverse collection of devices requires user effort proportional to the square of the number of devices. 3.1. What it means to be user-centered A key principle that guides the design of the Mesh is that any set of instructions that can be written down and given to a user can be written down as code and executed by the computer. Public key cryptography is used to automate the process of managing public keys. Traditional PKI attempted to solve the problems that were of paramount concern to the designers. The designers of S/MIME were concerned with the problem of exchanging secure email within a Hallam-Baker Expires September 8, 2016 [Page 3] Internet-Draft Mathematical Mesh Architecture March 2016 hierarchical organization and built a (mostly) hierarchical design. The designers of OpenPGP were concerned with the risk of government subversion of the trust infrastructure for nefarious ends. But what does the user care about? What is the user's principal concern? The biggest concern I hear from users is not the risk that someone else might get to see their confidential data, rather it is the risk that they might lose their precious data by some unintended user- error. Being user centered means considering and addressing the requirements that are set by users regardless of whether they are compatible with the designer's view of optimal security. In particular a user- centered PKI must address requirements such as: Guaranteeing that data loss does not happen even in the most extreme cases of total loss or destruction of all hardware they used to store their keys. Mitigating the consequences of user error or carelessness. Mitigating the consequences of devices being lost or stolen. Providing mechanisms that permit a user to permit access to their digital assets after their death. 3.2. Eliminate unnecessary options Traditionally cryptographic applications give the user a bewildering choice of algorithms and options. They can choose to have one RSA keypair used for encryption and signature or they can have separate keys for both, they can encrypt their messages using 3DES or AES at 128, 192 or 256 bit security. And so on. The Mesh eliminates such choices as unnecessary. Except where required by an application, the Mesh always uses separate keys for encryption and signature operations and only uses the highest strength on offer. Currently, Mesh profiles are always encrypted using RSA with a 2048 bit key, AES with a 256 bit key and SHA-2-512. (The CFRG ECC curves will be added in the near future when implementations become available.) For similar reasons, every Mesh master profile has an escrow key. The use of key escrow by applications is optional, but every profile has the capability of using it should circumstances require. Hallam-Baker Expires September 8, 2016 [Page 4] Internet-Draft Mathematical Mesh Architecture March 2016 3.3. Why change is possible All four of the open standards based PKIs that have been developed in the IETF are based on designs that emerged in the mid-1990s. Performing the computations necessary for public key cryptography without noticeable impact on the speed of user interaction was a constraint for even the fastest machines of the day. Consequently, PKI designs attempted to limit the number of cryptographic operations required to the bare minimum necessary. There were long debates over the question of whether certificate chains of more than 3 certificates were acceptable. Today a 32 bit computer with two processing cores running at 1.2GHz can be bought for $5 and public key algorithms are available that provide a higher level of security for less computation time. In 1995, the idea that a single user might need a hundred public key pairs and a personal PKI to manage them as an extreme scenario. Today when the typical user has a phone, a tablet and a laptop and their home is about to fill up dozens if not hundreds of network connected devices, the need to manage large numbers of keys for individual users is clear. Almost any information security requirement has a straightforward solution if you are prepared to commit the necessary resources. In general, each degree of cryptographic separation that is required will introduce an additional layer of hierarchy. Traditionally PKI has focused on the problem of delegating trust from one party to another. Such capabilities have been implicit in the model but only expressed in applications to a limited degree. In the WebPKI, Certificate Authorities maintain the private keys corresponding to their widely distributed root keys in offline facilities that are never connected to the Internet. These keys are in turn used to sign 'intermediate root certificates' corresponding to the keys used to sign end entity certificates. The CA has this capability but the end entity does not. In the PKIX model it is assumed that if the end entity needs to change their cryptographic configuration, they will go back to their CA and get a new certificate. In the OpenPGP Web of trust, Alice signs the key of Bob who signs the key of Carol. Since everyone is a trust provider in the OpenPGP model, Alice can sign a key for Alice. This mechanism is used to support key rollover but the task of distributing her new keys to the devices where Alice needs them is a problem left to Alice. Hallam-Baker Expires September 8, 2016 [Page 5] Internet-Draft Mathematical Mesh Architecture March 2016 While it is quite possible for a very capable and experienced PKI expert to configure PKIX and OpenPGP applications in a fashion that supports management of personal keys, such use is far beyond what can reasonably be expected of typical users. The Mesh applies PKI technology to the problem of making PKI use effortless. Once an initial configuration is established, the user is not required to think about PKI at all. Every PKI operation (e.g. key and certificate rollover) is performed automatically. 4. Basic Concepts 4.1. Parties The Mesh is a network infrastructure. As with any such infrastructure it is formed not as a set of things but rather as the relationship between those things. 4.1.1. User A Mesh user is a person or organization that has established a Mesh personal profile. A Mesh personal profile describes the configuration of the set of devices and applications that the user uses. Each Mesh profile is identified by a globally unique fingerprint value. A Mesh user MAY have multiple profiles for the purpose of compartmentalizing their online identity and preventing activity in one network context being linked to activity in another network context. The extent to which such separation provides increased privacy is not currently understood. From the point of view of the Mesh protocols, such profiles are held by separate users. At present the Mesh specifications are designed to support requirements arising from personal use such as the user transferring application settings from one device they own to another device they own. To deploy the Mesh in an enterprise environment, features such as the ability to import settings provided by the IT department are highly desirable. 4.1.2. Devices The Mesh may be used on any computer that has the ability to connect to a network and perform public key cryptography. Every device that uses the Mesh has a unique device profile that specifies public key pairs that are unique to that device. Hallam-Baker Expires September 8, 2016 [Page 6] Internet-Draft Mathematical Mesh Architecture March 2016 When a device is connected to a user's personal profile, it may be an Administration Device or a Connected Device depending on whether it has been assigned an Administration key. Administration device A device that has access to an administration key for the user's Mesh Personal Profile and is thus authorized to authorize actions such as connecting a new device to the profile, removing devices and creating or removing application profiles. Connected Device A device that is connected to the Mesh Personal Profile that is not an administration device. Note that a device MAY be connected to more than one Personal Profile at the same time. For example, an embedded device such as a thermostat might have a single device profile installed during manufacture. If Alice and Bob share the same accommodations where the thermostat is installed, both users might have connected the device to their personal profile. 4.1.3. Portal Provider Users do not interact with a Mesh Directly. All interaction with the Mesh is mediated by a Portal Provider. The portal provider is responsible for protecting the Mesh from abuse such as Denial of Service attacks, resource exhaustion, spam, etc. Users interact with a portal provider through an account which has an account identifier in the traditional [RFC5822] format: @ Where is an account identifier that is unique to that portal service and is the DNS name of the portal service. 4.1.4. Mesh Provider 4.1.5. InterMesh 4.2. Technology 4.2.1. UDF Fingerprints The Uniform Data Fingerprint format (UDF) [draft-hallambaker-udf] is used to construct names for Mesh data items. UDF employs Base32 Hallam-Baker Expires September 8, 2016 [Page 7] Internet-Draft Mathematical Mesh Architecture March 2016 [RFC3977] encoding and the SHA-2-512 and SHA-3-512 digest functions to construct fingerprints of varying lengths. The choice of fingerprint length is a balance between security and compactness of the representation. Longer fingerprints offer higher security but are less convenient. The minimum fingerprint size recommended for use in the Mesh is 25 characters, this presents a work factor of 2^117 to an attacker attempting to generate a signature key matching a particular fingerprint, approximately the same work factor as RSA with 2048 bit keys. 4.2.2. Resolving In contrast to the URLs resolved by the HTTP protocol which identify a resource by means of a location and a means of retrieval, a UDF fingerprint only identifies a fixed data object and the data type. A UDF resolution service resolves UDF fingerprints in the same manner that a HTTP server resolves URLs but can only provide a response for the set of fingerprints known to that specific server. Unlike the HTTP service which the client must trust to return the correct resource, every response returned by a UDF resolution service may be validated against the fingerprint presented in the original request. Thus a user of a UDF resolution service is not required to trust it for the integrity of the result received. 4.2.3. Signed Resources UDF fingerprints provide a probabilistically unique identifier for a static data object but do not provide a direct means of identifying resources that change over time. To identify such resources, digital signatures are used. A public key signature pair is created and the UDF fingerprint of the public key parameters serves as the identifier. The private key is then used to sign either the data object itself or a data object containing a further public key. The application/pkix-keyinfo content type described in [draft- hallambaker-udf] is used to create identifiers for public keys. 4.2.4. Profile A Mesh profile is a set of configuration settings that is bound to a persistent identifier (a UDF fingerprint). The Mesh protocols do not put any limit on the size or complexity of Mesh profiles but a Mesh Portal SHOULD impose such limits as are appropriate to avoid abuse such as denial of service attacks. Hallam-Baker Expires September 8, 2016 [Page 8] Internet-Draft Mathematical Mesh Architecture March 2016 4.2.5. JSON Encoding Javascript Object Notation (JSON) [RFC7159] encoding is used to encode all Mesh data objects except for low level cryptographic formats where other encodings are already established. 4.2.6. HTTP Web Service The Mesh defines two new protocols: Mesh Portal Protocol (mmm) A client-server protocol that mediates access to a Mesh. Intermesh Protocol The Intermesh protocol is used to exchange Mesh profile data between portals. It is a flood fill protocol that applies the same principles demonstrated in NNTP [RFC4644]. The DNS SRV mechanism is used for 4.2.7. Transparency The principle of transparency was introduced by the Certificate Transparency specification [RFC6962]. Transparency is the ability to audit a system using only information that is available to the users of the system. If the system is a public service, all the data used to audit the service must be public. The Mesh uses strong encryption and 5. Mesh Profiles 5.1. Device Profile Is unique to each device. If a device has multiple accounts, each account would typically require a separate device profile. Has separate keys for encryption, authentication and signature. Typically generated on the device. Once generated, is typically constant until the device is reset. Used to provision application keys out to a device. Hallam-Baker Expires September 8, 2016 [Page 9] Internet-Draft Mathematical Mesh Architecture March 2016 5.2. Master Profile Is signed by the Master Signing Key which is in turn validated by the fingerprint. Contains a Master Signing Key, Set of Administration Keys and Set of Escrow Keys. Changes infrequently, usually only when the set of administration devices changes or a new escrow key is added. 5.3. Personal Profile Is signed by an administration key. For convenience, the master profile is included as an attachment. Changes when there is a significant change to the configuration, the addition of a new device or application. 5.4. Application Profile Is signed by an administration key or an application administration key (if specified for the application). Contains the application configuration data. Is encrypted to the device keys. Changes when the application configuration is changed or when devices are added or removed. 5.5. Future Directions It may be desirable to partition the Application profiles so that it is not necessary for every device to download the whole thing. For example, sign a manifest so that the portal can strip out just the parts of the profile that are relevant to a device. 6. Mesh Portal Protocol Not necessarily instantaneous, may be latency between an update being published and it being available. 7. Intermesh Protocol This is not a priority at the moment. Hallam-Baker Expires September 8, 2016 [Page 10] Internet-Draft Mathematical Mesh Architecture March 2016 May be used to support local replication or replication between providers. It is anticipated that the Intermesh Protocol will operate at a substantially greater latency than the Mesh Portal Protocol. Probably resynchronizing on an hourly or even daily basis. Portals are not required to forward every update to the Intermesh. Only updates that have not been superseded within the time quanta need be published. Each Portal runs a local append only log of every transaction. This is periodically closed and a new log started. Some time after the log is closed, a hash structure is calculated across the log entries and broadcast to the other participants in the InterMesh. After a quorum of hash values has been received, each participant in the exchange calculates a new master hash entry which will be added to the log before the next checkpoint occurs. The participants exchange log records, but this may be on a limited basis. If the InterMesh has a hundred members, it is not necessary for every single node to have every single entry in real time. It is sufficient for each node to have knowledge of a partner that can provide it on demand. 8. Protocol Overview [Account request does not specify the portal in the request body, only the HTTP package includes this information. This is probably a bug.] 8.1. Creating a new portal account A user interacts with a Mesh service through a Mesh portal provider with which she establishes a portal account. For user convenience, a portal account identifier has the familiar @ format established in [RFC822]. For example Alice selects example.com as her portal provider and chooses the account name alice. Her portal account identifier is alice. A user MAY establish accounts with multiple portal providers and/or change their portal provider at any time they choose. Hallam-Baker Expires September 8, 2016 [Page 11] Internet-Draft Mathematical Mesh Architecture March 2016 8.1.1. Checking Account Identifier for uniqueness The first step in creating a new account is to check to see if the chosen account identifier is available. This allows a client to validate user input and if necessary warn the user that they need to choose a new account identifier when the data is first entered. The ValidateRequest message contains the requested account identifier and an optional language parameter to allow the service to provide informative error messages in a language the user understands. The Language field contains a list of ISO language identifier codes in order of preference, most preferred first. POST /.well-known/mmm/HTTP/1.1 Host: example.com Content-Length: 88 { "ValidateRequest": { "Account": "alice@example.com", "Language": ["en-uk"]}} The ValidateResponse message returns the result of the validation request in the Valid field. Note that even if the value true is returned, a subsequent account creation request MAY still fail. HTTP/1.1 200 OK Date: Mon 07 Mar 2016 09:28:07 Content-Length: 190 { "ValidateResponse": { "Status": 201, "StatusDescription": "Operation completed successfully", "Valid": true, "Minimum": 1, "InvalidCharacters": ".,:;{}()[]<>?|\\@#"}} [Note that for the sake of concise presentation, the HTTP binding information is omitted from future examples.] 8.2. Creating a new user profile The first step in creating a new personal profile is to create a Master Profile object. This contains the long term Master Signing Key that will remain constant for the life of the profile, at least one Online Signature Key to be used for administering the personal profile and (optionally), one or more master escrow keys. Hallam-Baker Expires September 8, 2016 [Page 12] Internet-Draft Mathematical Mesh Architecture March 2016 For convenience, the descriptions of the Master Signing Key, Online Signing Keys and Escrow Keys typically include PKIX certificates signed by the Master Signing Key. This allows PKIX based applications to make use of PKIX certificate chains to express the same trust relationships described in the Mesh. { "MasterProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "MasterSignatureKey": { "UDF": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "X509Certificate": " MIIDJjCCAg6gAwIBAgIQRZ59PlINY9TLiyORByDifTANBgkqhkiG9w0BAQ0FADAu MSwwKgYDVQQDFiNNREpWQS1HV0JFUy0yWVhQQS03RkhXVS1HTlRIRS1EMkVMRDAe ... -zDRA53b1TnPYd5DNZBdF-zcF4oL-yxNqBw7BBMbyIg-72APECSAy1O9", "PublicParameters": { "PublicKeyRSA": { "kid": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "n": " x4WRJAFuUSZKqw0hx1CCKmjh_JfAgnTBUt8GCKjOLBMIteDQOG85o5CkfHEj5g3h 830JV_QRgGH4DK6YojP7sJflRPRpEgCII6kQ8S5LHtoWNLci83pHDX8IwMab4lqp Yh6gNUdvhqfL9gyuKHqJLD0W6o9dKpxm-RgbmJlgxBelxfR8EoftBKC57VFwJ2UC wKWOoo7vQAgTqXGrp_QSGpLra9BiZ1BvXR6S-uewCLNDNcaWrjPprrFp9vm_QCnw AjkDUQyircs14jIZjVY5Qv5-L4OS8UemVp93keVj9wJ8ZxUDXiN6jbutCBkYXO1p i37KwvBwn_vzlS3Cu2i3Pw", "e": " AQAB"}}}, "MasterEscrowKeys": [{ "UDF": "MDATK-6PWXI-DAQ7X-FOSO2-7CXCU-N46TJ", "X509Certificate": " MIIDJjCCAg6gAwIBAgIQYpsuNn5CHEmCr9Vmwg1JKTANBgkqhkiG9w0BAQ0FADAu MSwwKgYDVQQDFiNNREpWQS1HV0JFUy0yWVhQQS03RkhXVS1HTlRIRS1EMkVMRDAe ... Bs3BIgqOng7cW-vSZHD-dLt2E5emY_EQ_yAiiWi8EFXL1221CA1iUIOR", "PublicParameters": { "PublicKeyRSA": { "kid": "MDATK-6PWXI-DAQ7X-FOSO2-7CXCU-N46TJ", "n": " uyle9pmeONA5V9kPS2LPPIzinUD7S_Ev7SrV8gFLwcxECai7LE7K6NJIT-u8A2FI 3NOvgYpvaz7W9I-z5WSokEt72GwcNStI-kUwshem3KP-Qbg3QRkfLzv9B7E7v_KB bm1wP_UEQ_Ap1D_gFbq_PIHJQR_chtxcH91rF5W-rUi_r-C2T3-JAnGtjPISbKXG OgjQ7x1V0j-YX9s2tKDpfzlvGfSZpzbXiM4oKvPM_3lH6ZN0eIUF2CmUzr_cdems pW_bPjZdtR12UyA8eI18J7mi89eP_dIx_P0q3YY_GpMICBa7Lz5rAZkZVq00iAeP 7r_1VPQ3msY9lZ5GE61seQ", "e": " AQAB"}}}], "OnlineSignatureKeys": [{ Hallam-Baker Expires September 8, 2016 [Page 13] Internet-Draft Mathematical Mesh Architecture March 2016 "UDF": "MDPI5-HRBPS-FWTDI-76I6Q-VDYZE-UTR2X", "X509Certificate": " MIIDJzCCAg-gAwIBAgIRAI630vDDvaT5nhLoNdGb1SEwDQYJKoZIhvcNAQENBQAw LjEsMCoGA1UEAxYjTURKVkEtR1dCRVMtMllYUEEtN0ZIV1UtR05USEUtRDJFTEQw ... zEY0GG_uZCsIS9rULqu3rRtWFe3stzsKw6levDgFCdL8al-3lghyFasvug", "PublicParameters": { "PublicKeyRSA": { "kid": "MDPI5-HRBPS-FWTDI-76I6Q-VDYZE-UTR2X", "n": " pdFrro2dJEv1kS-KAyQ4jq6dbX8uCIibNHecDA-og1slmVZy5PUFfZBzgr0Cy-tK euV9ZrNVKQP-OCwp9W_ghkTjA3lmCkI_XAbZSD3luQhq4CZJo1dPKGVVZT6YNtvG Z-uIy7au7jAiamB2wm64QsbrIAd16bgGngYPYHf58bYdE1Xrb5PMQxCqFLs3VfTO qH9SAbgBHuwYSuSSboBPZD_pRiPbujWMXh5TnA_yttfZ0ISkyi18QZ1GEhG-Qwp_ pjOPtjewh0nJNunC82E1LgBsHUlFgbot3JULsW9q9CfkpgHXN_8FXsUHdEHe_9rm xb76--ouQhBchDA82rp1Zw", "e": " AQAB"}}}]}} The Master Profile is always signed using the Master Signing Key: { "SignedMasterProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTURKVkEtR1dCRVMtMllYUEEt N0ZIV1UtR05USEUtRDJFTEQifQ", "payload": " ewogICJNYXN0ZXJQcm9maWxlIjogewogICAgIklkZW50aWZpZXIiOiAiTURKVkEt R1dCRVMtMllYUEEtN0ZIV1UtR05USEUtRDJFTEQiLAogICAgIk1hc3RlclNpZ25h ... QVFBQiJ9fX1dfX0", "signature": " BrTIIVhIuK4g0bzSjAmbIcoaYLtBoJhveJfS9R-QrsSwcBEpITxyfDbdKK8GjRey hmZQSOogxnSaj4VJul6G-EnHFCMfq7DFlxI6BSim-dThjFIKq3XHPSVS1kwVX5IF YoQBzWKjeGIPYfEFTliDjjpFg_Kx7vXRDaArk108PNb7_IVmo1aWEIMh86Izs776 -hX_1TktNCMTGORG5Z5O48YcwsJX-cMwB_6R_PcVlUja-saD42-vQc_ztU-_iMxx p6maDB0vWCxSYvGDF3uxICRi2atcsc8P8arEv4dbyoRa9PArssUu2uYif8czXVEH V9Ip6IEd6FWFFyNqab0cxA"}}} Since the device used to create the personal profile is typically connected to the profile, a Device profile entry is created for it. This contains a Device Signing Key, a Device Encryption Key and a Device Authentication Key: Hallam-Baker Expires September 8, 2016 [Page 14] Internet-Draft Mathematical Mesh Architecture March 2016 { "DeviceProfile": { "Identifier": "MBKMG-6QV5K-5PSXF-6TLUP-XXLRB-FEMVT", "Names": ["Alice Desktop"], "Description": "A desktop computer built by Acme Computer Co.", "DeviceSignatureKey": { "UDF": "MBKMG-6QV5K-5PSXF-6TLUP-XXLRB-FEMVT", "PublicParameters": { "PublicKeyRSA": { "kid": "MBKMG-6QV5K-5PSXF-6TLUP-XXLRB-FEMVT", "n": " 1yqsmXfIHYqzWe5DcqLnrfa_Xfbh5vK-zagPosWcrce0122Yufm5hZb4Ujc-1ozQ z3ssEYIK30I8A8H-0qe-y6oOcRRsANc0LnGwlpadk00fOjcV8WySxkO2aaFmiKNQ 236zOwC2wtHJS7DxVQhbRUhAfQthopq3ycu88N4Re2pxnS4SBWRIH48AAwydp8Rt WGNhCbZT-N-NN8dYrPMCNHhftPKHt0xbgXMtf_49tv4-tKwmAs6uDNXPL3YPWnIK aaNA4PqLZPWVtN_kowAFjmpT19ROKLYFHSzmyx6dX6W9-Whor5BOr8U4qbWAcDQJ GNZAOa4pzXWLFk9dIaIi5Q", "e": " AQAB"}}}, "DeviceAuthenticationKey": { "UDF": "MDWGK-N4VTY-EF5N4-EBLTA-ITQZC-JZLOI", "PublicParameters": { "PublicKeyRSA": { "kid": "MDWGK-N4VTY-EF5N4-EBLTA-ITQZC-JZLOI", "n": " pJCOo5Q_fQfZy8decCRCBrjy5QGDX6pRy1E_5SNaHZIjZHOUolN3Z_plXryPiFcu 9hEULTe4Tl--d1_GrY_5HJ06g2zw__-0q7d26Z0z7tJ7OTcyysfoXZ7HAhz8ODeY GQ3_ocoW8ibiOj8nla3t3wCU8vnU4e8d2wHiZiyGxYLRH2-TQmCwDh8-mKMfUr0o _p06xjwsUvPfDspRBlltkiNbM5wtHZRDiJR15tHw8QAV4EIJFrwZQmI28sJLLqrl WZlUxbCZzdXYy4dczlkC9DvxO4qxru22hFtHSOOyArweqJXGWuUW7xkCkWl7oauT 5rIFzEM712RgNKxodBSotQ", "e": " AQAB"}}}, "DeviceEncryptiontionKey": { "UDF": "MBLYV-KC666-JGASF-7RCNB-DAHQ2-JMTA2", "PublicParameters": { "PublicKeyRSA": { "kid": "MBLYV-KC666-JGASF-7RCNB-DAHQ2-JMTA2", "n": " wj9WxkNn_BBJHbi2QTOZFn28IFXjQT2dhoytLxt8zdEPyaz031YXIrINCFuK2Bsi MsB1e8o-7kNWwOTtzXD-lB8U2mc7BH7PEMdcwlLypuKJcVX-MtXMVG4E8fqMYdUQ 6T3aKtvi1LzPZR8LFjxEx44YoN0juwcRcQkhp_pbsxaxdt4mHSd0_1CF2W5MufXb q-sCnAGRAFiCKzT4jfn-MEoQvERqORpVJaiZDyT6z5RS7oIrTu8OPCHyfN8tPzH_ QjMO5xQtBohms6uYWftiOtgmkV_VaQ4BZt-zZ0DFoDIZmAvMa-p4YZOpRofG-cii rVaW4eYY5ELY-c2AGjOpeQ", "e": " AQAB"}}}}} Hallam-Baker Expires September 8, 2016 [Page 15] Internet-Draft Mathematical Mesh Architecture March 2016 The Device Profile is signed using the Device Signing Key: { "SignedDeviceProfile": { "Identifier": "MBKMG-6QV5K-5PSXF-6TLUP-XXLRB-FEMVT", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJEZXZpY2VQcm9maWxlIjogewogICAgIklkZW50aWZpZXIiOiAiTUJLTUct NlFWNUstNVBTWEYtNlRMVVAtWFhMUkItRkVNVlQiLAogICAgIk5hbWVzIjogWyJB ... ICAgICAiZSI6ICIKQVFBQiJ9fX19fQ", "signature": " vOMCqvNhnMIYnQWldv_2fiGEsYwTHdDJSrmGSnaeG5QrdcmaPqgXHQX-w8rcBy15 _7i8_9x9jhqytLfsU7dCzNePvyX87D3dPEmdL0-A7RsGp0goKrP3w8O6WMyGTk92 GrpqSgeNWcpejqxzoB2Mln21J_vRsmkWkHZznRvh5mDSVc5OAZ5-XI8Vg2v4IpV- NJKkuAeChUGiOWUBwXsoCIXbU5tjtFYVLYii2F_a3vrVBXGY_hNfDl8DsLJp3rOz LFXbMB8B_e9sFwI4GuTykXObVrGpGBJ-Hy93EuacXI2Mh00vbRTJkbT8ClgZhsBq ERawxBaucm_Lemig4GUgjA"}}} A personal profile would typically contain at least one application when first created. For the sake of demonstration, we will do this later. The personal profile thus consists of the master profile and the device profile: Hallam-Baker Expires September 8, 2016 [Page 16] Internet-Draft Mathematical Mesh Architecture March 2016 { "PersonalProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "SignedMasterProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTURKVkEtR1dCRVMtMllYUEEt N0ZIV1UtR05USEUtRDJFTEQifQ", "payload": " ewogICJNYXN0ZXJQcm9maWxlIjogewogICAgIklkZW50aWZpZXIiOiAiTURKVkEt R1dCRVMtMllYUEEtN0ZIV1UtR05USEUtRDJFTEQiLAogICAgIk1hc3RlclNpZ25h ... QVFBQiJ9fX1dfX0", "signature": " BrTIIVhIuK4g0bzSjAmbIcoaYLtBoJhveJfS9R-QrsSwcBEpITxyfDbdKK8GjRey hmZQSOogxnSaj4VJul6G-EnHFCMfq7DFlxI6BSim-dThjFIKq3XHPSVS1kwVX5IF YoQBzWKjeGIPYfEFTliDjjpFg_Kx7vXRDaArk108PNb7_IVmo1aWEIMh86Izs776 -hX_1TktNCMTGORG5Z5O48YcwsJX-cMwB_6R_PcVlUja-saD42-vQc_ztU-_iMxx p6maDB0vWCxSYvGDF3uxICRi2atcsc8P8arEv4dbyoRa9PArssUu2uYif8czXVEH V9Ip6IEd6FWFFyNqab0cxA"}}, "Devices": [{ "Identifier": "MBKMG-6QV5K-5PSXF-6TLUP-XXLRB-FEMVT", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJEZXZpY2VQcm9maWxlIjogewogICAgIklkZW50aWZpZXIiOiAiTUJLTUct NlFWNUstNVBTWEYtNlRMVVAtWFhMUkItRkVNVlQiLAogICAgIk5hbWVzIjogWyJB ... ICAgICAiZSI6ICIKQVFBQiJ9fX19fQ", "signature": " vOMCqvNhnMIYnQWldv_2fiGEsYwTHdDJSrmGSnaeG5QrdcmaPqgXHQX-w8rcBy15 _7i8_9x9jhqytLfsU7dCzNePvyX87D3dPEmdL0-A7RsGp0goKrP3w8O6WMyGTk92 GrpqSgeNWcpejqxzoB2Mln21J_vRsmkWkHZznRvh5mDSVc5OAZ5-XI8Vg2v4IpV- NJKkuAeChUGiOWUBwXsoCIXbU5tjtFYVLYii2F_a3vrVBXGY_hNfDl8DsLJp3rOz LFXbMB8B_e9sFwI4GuTykXObVrGpGBJ-Hy93EuacXI2Mh00vbRTJkbT8ClgZhsBq ERawxBaucm_Lemig4GUgjA"}}], "Applications": []}} The personal profile is then signed using the Online Signing Key: Hallam-Baker Expires September 8, 2016 [Page 17] Internet-Draft Mathematical Mesh Architecture March 2016 { "SignedPersonalProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJQZXJzb25hbFByb2ZpbGUiOiB7CiAgICAiSWRlbnRpZmllciI6ICJNREpW QS1HV0JFUy0yWVhQQS03RkhXVS1HTlRIRS1EMkVMRCIsCiAgICAiU2lnbmVkTWFz ... X0xlbWlnNEdVZ2pBIn19XSwKICAgICJBcHBsaWNhdGlvbnMiOiBbXX19", "signature": " Tpqh8sl8K9apRYJWuZ46ApGZMNTM-lgUSr_ASLlLQkXzUILltzxKQi9RNpPdiHwz -RjcKTmBIrWXTqu94rz7Zn6VjHOMc2WkmKZumiwD0toDznLreFzN5RY7Lf9NXeiD czoE_DGIcVK-hxlJ7QPSZ4Tv0rmX2c-uwBdNqSr2_TfgE9sgWvIftTfS6rEzcJp8 pxnYMyjRknqg-Y4V5Bwz9iklcPy-K5MbnFFm_cCJikTbmUAG0-oA3HsreyqnfBQH ckfX-nwYRO0ChV4K86ud4RB0KYORDIEcxVjQS59J_iGG00NrL3KVaQ05zXPt1_UG KNrppHhqpoon0xnTRIUgAQ"}}} 8.2.1. Publishing a new user profile Once the signed personal profile is created, the client can finaly make the request for the service to create the account. The request object contains the requested account identifier and profile: { "CreateRequest": { "Account": "alice", "Profile": { "SignedPersonalProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJQZXJzb25hbFByb2ZpbGUiOiB7CiAgICAiSWRlbnRpZmllciI6ICJNREpW QS1HV0JFUy0yWVhQQS03RkhXVS1HTlRIRS1EMkVMRCIsCiAgICAiU2lnbmVkTWFz ... X0xlbWlnNEdVZ2pBIn19XSwKICAgICJBcHBsaWNhdGlvbnMiOiBbXX19", "signature": " Tpqh8sl8K9apRYJWuZ46ApGZMNTM-lgUSr_ASLlLQkXzUILltzxKQi9RNpPdiHwz -RjcKTmBIrWXTqu94rz7Zn6VjHOMc2WkmKZumiwD0toDznLreFzN5RY7Lf9NXeiD czoE_DGIcVK-hxlJ7QPSZ4Tv0rmX2c-uwBdNqSr2_TfgE9sgWvIftTfS6rEzcJp8 pxnYMyjRknqg-Y4V5Bwz9iklcPy-K5MbnFFm_cCJikTbmUAG0-oA3HsreyqnfBQH ckfX-nwYRO0ChV4K86ud4RB0KYORDIEcxVjQS59J_iGG00NrL3KVaQ05zXPt1_UG KNrppHhqpoon0xnTRIUgAQ"}}}}} Hallam-Baker Expires September 8, 2016 [Page 18] Internet-Draft Mathematical Mesh Architecture March 2016 The service reports the success (or failure) of the account creation request: { "CreateResponse": { "Status": 201, "StatusDescription": "Operation completed successfully"}} 8.3. Connecting a device profile to a user profile Connecting a device to a profile requires the client on the new device to interact with a client on a device that has administration capabilities, i.e. it has access to an Online Signing Key. Since clients cannot interact directly with other clients, a service is required to mediate the connection. This service is provided by a Mesh portal provider. All service transactions are initiated by the clients. First the connecting device posts ConnectStart, after which it may poll for the outcome of the connection request using ConnectStatus. Periodically, the Administration Device polls for a list of pending connection requests using ConnectPending. After posting a request, the administration device posts the result using ConnectComplete: Connecting Mesh Administration Device Service Device | | | | ConnectStart | | | ----------------------> | | | | ConnectPending | | | <---------------------- | | | | | | ConnectComplete | | | <---------------------- | | ConnectStatus | | | ----------------------> | | The first step in the process is for the client to generate a device profile. Ideally the device profile is bound to the device in a read-only fashion such that applications running on the device can make use of the deencryption and authentication keys but these private keys cannot be extracted from the device: Hallam-Baker Expires September 8, 2016 [Page 19] Internet-Draft Mathematical Mesh Architecture March 2016 { "DeviceProfile": { "Identifier": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM", "Names": ["Alice Ring"], "Description": "A wearable ring computer bought.", "DeviceSignatureKey": { "UDF": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM", "PublicParameters": { "PublicKeyRSA": { "kid": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM", "n": " oQ11i4hTaUpOmH6RSx6yvRgCO9ZC_eDbUYDZGzJn4nnS-5o8532smX7xGhnH8VNM rd9xp3VhOMI8emuHTbFDvEM3IvAPi4KsfTMZ__Nsl_6tLYhw9ehgN-i5oRcOc7tT Fbcrs89raMKDhwruRPYScO8SlvVRg31QHtBuC_Z5M5l4g25n311shbeWm1TeDQW3 ISZNYdxZMuzpDG2fojqQXyF5M1oJmvB5HWk5toUUFrv4399NIStYGiRlmjADEjRY MarkYq-AcMXq3j0vCRTww4b4ZDIOKERMCtpHTeNB2gNk6zV_SxoL6rSsDRTfEFE9 eTxX0Dw7wnklM1ub7ebl6w", "e": " AQAB"}}}, "DeviceAuthenticationKey": { "UDF": "MDNSC-VYX44-3L2DW-CIR3M-TUPLW-I6VP6", "PublicParameters": { "PublicKeyRSA": { "kid": "MDNSC-VYX44-3L2DW-CIR3M-TUPLW-I6VP6", "n": " 2mFfT9Dg0_ROdaFlFyWlpkwajZWF0lOTgQvFJ6Evx9GwhajzqJS6FUUFwkxNQ4TL rWd4gHF5AcPtJbCnFqIupgy341LsLOPXBzf4tFbn9JD8Ls2DmpxOvXMed4j51yw8 HN-J0slG5MPxQSB4YDUoCQuoSLDirpblQXgqTs_sY-oh_eavBYoyqt-08D8zHfQy n01tOwZ2EsBz3aWF6D910Tq11lvB_VNF58g9ipPXI1J0ljBQ8Tlv6HT8hfn31g-B SGT4EfMRUtSo149TthZynve1DfrbNq_tQgTMJBF0I38fr41QYgAi6mJjo8So_BvX xCoLUMKkG1zTfRuUQ3GS3w", "e": " AQAB"}}}, "DeviceEncryptiontionKey": { "UDF": "MCAOX-46YPX-GAW5J-75V6G-B6OUP-2RG3X", "PublicParameters": { "PublicKeyRSA": { "kid": "MCAOX-46YPX-GAW5J-75V6G-B6OUP-2RG3X", "n": " yNvvw3ddU5xc5yGZtN3XYm40aGDmntKHbqgP8csM6p6INfZK5jn9kKggE6vZBXRC xi0Ko8HrRtK2yfqFRQXItIbbAwEW0DrwsWjBsks3OU2Vxksku81TEQelYJ5uXpI2 _0W0apqqeqG_8njvPvtu1S8Fhpt7uc_bu_h4EabiTK-EaXOKmd7owPtOt5PuL8VR 3JATRj1ytyPy9zJTbHv9iahE7moRHqRtggDbJ4yI0lInT_yawrKxld2qNl9c9JtH AmtSzhU_XLztuXoA_o-Dlr6mv0p0bKi33SYOjcg08i2VYDabzY_5HJK1UfMqagIp rxOIkT7k6b5bqgLuEFqt3w", "e": " AQAB"}}}}} Hallam-Baker Expires September 8, 2016 [Page 20] Internet-Draft Mathematical Mesh Architecture March 2016 The device profile is then signed: { "SignedDeviceProfile": { "Identifier": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUNCRVktMlJWQ1otVk5FT1ot STQ3SjYtT0FFREwtQVVVV00ifQ", "payload": " ewogICJEZXZpY2VQcm9maWxlIjogewogICAgIklkZW50aWZpZXIiOiAiTUNCRVkt MlJWQ1otVk5FT1otSTQ3SjYtT0FFREwtQVVVV00iLAogICAgIk5hbWVzIjogWyJB ... In19fX19", "signature": " OKsswShxjiC010nuOa14J4oBhsZ2CIuEingj2NzXh1ZUvKspPhedict88bye3BN_ x_bzJifoUAytSICUmuMsCs4iPmnrc4UhiITRg4ZskBQfHa4YTKpywj7h6QVHuIz6 FNVWrpYjlg5hskQHm3uMXswMxrr-8xvOiz8XYOfs7DT-qIIsy9wfrADZZXP1ai9X Eg16pxvbxvC12lxNqwnZy7G06SnqQJU-VcUCAdcz6zXHFmAc6jFD4ij1FnccwoMJ VJv7v-9ID0f6YGoyM8iyW6_NKfAo6cYCc021MqGdDJdrfrT7Cm-8vSl3VMlQGkqn PcyR-G2ySzDX3x4Qd-xqNQ"}}} 8.3.1. Profile Authentication One of the main architecutral principles of the Mesh is bilateral authentication. Every device that is connected to a Mesh profile MUST authenticate the profile it is connecting to and every Mesh profile administrator MUST authenticate devices that are connected. Having created the necessary profile, the device MUST verify that it is connecting to the correct Mesh profile. The best mechanism for achieving this purpose depends on the capabilities of the device being connected. The administration device obviously requires some means of communicating with the user to serve its function. But the device being connected may have a limited display capability or no user interaction capability at all. 8.3.1.1. Interactive Devices If the device has user input and display capabilities, it can verify that it is connecting to the correct display by first requesting the user enter the portal account of the profile they wish to connect to, retreiving the profile associated with the device and displaying the profile fingerprint. The client requests the profile for the requested account name: Hallam-Baker Expires September 8, 2016 [Page 21] Internet-Draft Mathematical Mesh Architecture March 2016 { "GetRequest": { "Account": "alice", "Multiple": false}} The response contains the requested profile information. { "GetResponse": { "Status": 201, "StatusDescription": "Operation completed successfully", "Entries": [{ "SignedPersonalProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJQZXJzb25hbFByb2ZpbGUiOiB7CiAgICAiSWRlbnRpZmllciI6ICJNREpW QS1HV0JFUy0yWVhQQS03RkhXVS1HTlRIRS1EMkVMRCIsCiAgICAiU2lnbmVkTWFz ... X0xlbWlnNEdVZ2pBIn19XSwKICAgICJBcHBsaWNhdGlvbnMiOiBbXX19", "signature": " Tpqh8sl8K9apRYJWuZ46ApGZMNTM-lgUSr_ASLlLQkXzUILltzxKQi9RNpPdiHwz -RjcKTmBIrWXTqu94rz7Zn6VjHOMc2WkmKZumiwD0toDznLreFzN5RY7Lf9NXeiD czoE_DGIcVK-hxlJ7QPSZ4Tv0rmX2c-uwBdNqSr2_TfgE9sgWvIftTfS6rEzcJp8 pxnYMyjRknqg-Y4V5Bwz9iklcPy-K5MbnFFm_cCJikTbmUAG0-oA3HsreyqnfBQH ckfX-nwYRO0ChV4K86ud4RB0KYORDIEcxVjQS59J_iGG00NrL3KVaQ05zXPt1_UG KNrppHhqpoon0xnTRIUgAQ"}}}]}} Having received the profile data, the user can then verify that the device is attempting to connect to the correct profile by verifying that the fingerprint shown by the device attempting to connect is correct. 8.3.1.2. Constrained Interaction Devices Connection of an Internet of Things 'IoT' device that does not have the ability to accept user input requires a mechanism by which the user can identify the device they wish to connect to their profile and a mechanism to authenticate the profile to the device. If the connecting device has a wired communication capability such as a USB port, this MAY be used to effect the device connection using a standardized interaction profile. But an increasing number of constrained IoT devices are only capable of wireless communication. Hallam-Baker Expires September 8, 2016 [Page 22] Internet-Draft Mathematical Mesh Architecture March 2016 Configuration of such devices for the purpose of the Mesh requires that we also consider configuration of the wireless networking capabilities at the same time. The precise mechanism by which this is achieved is therefore outside the scope of this particular document. However prototypes have been built and are being considered that make use of some or all of the following communication techniques: o * Wired serial connection (RS232, RS485). * DHCP signalling. * Machine readable device identifiers (barcodes, QRCodes). * Default device profile installed during manufacture. * Optical communication path using camera on administrative device and status light on connecting device to communicate the device identifier, challenge nonce and confirm profile fingerprint. * Speech output on audio capable connecting device. 8.3.2. Connection request After the user verifies the device fingerprint as correct, the client posts a device connection request to the portal: Hallam-Baker Expires September 8, 2016 [Page 23] Internet-Draft Mathematical Mesh Architecture March 2016 { "ConnectStartRequest": { "SignedRequest": { "Identifier": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUNCRVktMlJWQ1otVk5FT1ot STQ3SjYtT0FFREwtQVVVV00ifQ", "payload": " ewogICJDb25uZWN0aW9uUmVxdWVzdCI6IHsKICAgICJQYXJlbnRVREYiOiAiYWxp Y2UiLAogICAgIkRldmljZSI6IHsKICAgICAgIklkZW50aWZpZXIiOiAiTUNCRVkt ... TlEifX19fQ", "signature": " CixG1xk8bFADyNCAJP0lqrjuFlMtoIz5hTCiGhKb_4mjgUqW4Fpsj3HydumNRktU c_7B9AlBO0TD7Z6IS-LbmfhmhQtFElvs9WhB42hqoe-cK_N_fL1T9H1B0QgyesWO nvZaE5dS3MmIsOCA_VTG_LUDmdqi908wWLHCsDpMkHwC_QD8SW1L0-NlmrJgRXSC xv2VAJAMAf1LysYyEJ_32Z2XsH7AjI9gWsVnCzbZTaNqJSdjx0mgsCRvj4GBqYGl txRC9Qr_2R_ye6PxOhBxE7Sl3pSKZqjQKVlTeKizKI6O8L-U2nwgdmwyN8eLMYMD GNWrP6SrEpPHSMUoCa6Avw"}}, "AccountID": "alice"}} The portal verifies that the request is accepable and returns the transaction result: { "ConnectStartResponse": {}} 8.3.3. Administrator Polls Pending Connections The client can poll the portal for the status of pending requests at any time (modulo any service throttling restrictions at the service side). But the request status will only change when an update is posted by an administration device. Since the user is typically connecting a device to their profile, the next step in connecting the device is to start the administration client. When started, the client polls for pending connection requests using ConnectPendingRequest. { "ConnectPendingRequest": { "AccountID": "alice"}} The service responds with a list of pending requests: Hallam-Baker Expires September 8, 2016 [Page 24] Internet-Draft Mathematical Mesh Architecture March 2016 { "ConnectPendingResponse": { "Pending": [{ "Identifier": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUNCRVktMlJWQ1otVk5FT1ot STQ3SjYtT0FFREwtQVVVV00ifQ", "payload": " ewogICJDb25uZWN0aW9uUmVxdWVzdCI6IHsKICAgICJQYXJlbnRVREYiOiAiYWxp Y2UiLAogICAgIkRldmljZSI6IHsKICAgICAgIklkZW50aWZpZXIiOiAiTUNCRVkt ... TlEifX19fQ", "signature": " CixG1xk8bFADyNCAJP0lqrjuFlMtoIz5hTCiGhKb_4mjgUqW4Fpsj3HydumNRktU c_7B9AlBO0TD7Z6IS-LbmfhmhQtFElvs9WhB42hqoe-cK_N_fL1T9H1B0QgyesWO nvZaE5dS3MmIsOCA_VTG_LUDmdqi908wWLHCsDpMkHwC_QD8SW1L0-NlmrJgRXSC xv2VAJAMAf1LysYyEJ_32Z2XsH7AjI9gWsVnCzbZTaNqJSdjx0mgsCRvj4GBqYGl txRC9Qr_2R_ye6PxOhBxE7Sl3pSKZqjQKVlTeKizKI6O8L-U2nwgdmwyN8eLMYMD GNWrP6SrEpPHSMUoCa6Avw"}}]}} 8.3.4. Administrator updates and publishes the personal profile. The device profile is added to the Personal profile which is then signed by the online signing key. The administration client publishes the updated profile to the Mesh through the portal: { "PublishRequest": { "Entry": { "SignedPersonalProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJQZXJzb25hbFByb2ZpbGUiOiB7CiAgICAiSWRlbnRpZmllciI6ICJNREpW QS1HV0JFUy0yWVhQQS03RkhXVS1HTlRIRS1EMkVMRCIsCiAgICAiU2lnbmVkTWFz ... MnlTekRYM3g0UWQteHFOUSJ9fV0sCiAgICAiQXBwbGljYXRpb25zIjogW119fQ", "signature": " QK3qK17qqKjrzJpheNMSP8l-Mfids1U8LteXgXtNslyKsN1fsf3Wc3orZRvxkmq3 SiwwkRSY3k1bWGkMQ2-IVGuAVBvDq-ndgrc9zlqx4OGOZHIsUEpMmEMxYCGPWCek DRmeCg08o-viOXuBGNukjdmoV47AdWjEwp3bim-1RsA4NP5QfdAifesjI37iScUH HwvraQsPCDmYpoWfzqLiFu-d5OIzf2A6-V73DLw63sxy6POq9XN3uvBVbpeRXD3Z 5zvFp58fprVjpqUqpdiDAecwd47xisxjtN7QNoE1mTuUsjcrz6uWRhe9zkCiAEd1 i02PON8adi7XJD39Fr7TZQ"}}}}} Hallam-Baker Expires September 8, 2016 [Page 25] Internet-Draft Mathematical Mesh Architecture March 2016 As usual, the service returns the response code: { "PublishResponse": { "Status": 201, "StatusDescription": "Operation completed successfully"}} 8.3.5. Administrator posts completion request. Having accepted the device and connected it to the profile, the administration client creates and signs a connection completion result which is posted to the portal using ConnectCompleteRequest: { "ConnectCompleteRequest": { "Result": { "Identifier": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJDb25uZWN0aW9uUmVzdWx0IjogewogICAgIkRldmljZSI6IHsKICAgICAg IklkZW50aWZpZXIiOiAiTUNCRVktMlJWQ1otVk5FT1otSTQ3SjYtT0FFREwtQVVV ... dGVkIn19", "signature": " KP_5t5TeJEXXkw19wCpGcim8tIkElcpsIAUId7f8WabrQUNDGNEYox-1QrBaCCuC X8hud2kRZimhG-f8rWnOcXe4tDU8y1eoNeiGC_TijV_Bb189XDKpZobDtVSXLvhB YZp10T3RlzUEhMAPVUXJqf5yMIgJHnTTKzlT_cwNvnRSGMAnY2NLEg-lQ3FHkiiX copSUGQ9SzXuMSKu5b29Rdgqz-9C_-v5N7x9gNuU-YliEZACFfMMylUlfIWN4aYw TU8m-XckHkuKN75TNdH_gRAe6RqgbdYa_gQS5IhwZ5bbv2TGQe6T6ap7_92SFvNT Ew6pGGbAdBJ6RAwrZFbo2A"}}, "AccountID": "alice"}} Again, the service returns the response code: { "ConnectCompleteResponse": {}} 8.3.6. Connecting device polls for status update. As stated previously, the connecting device polls the portal periodically to determine the status of the pending request using ConnectStatusRequest: Hallam-Baker Expires September 8, 2016 [Page 26] Internet-Draft Mathematical Mesh Architecture March 2016 { "ConnectStatusRequest": { "AccountID": "alice", "DeviceID": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM"}} If the response is that the connection status has not changed, the service MAY return a response that specifies a minimum retry interval. In this case however there is a connection result: { "ConnectStatusResponse": { "Result": { "Identifier": "MCBEY-2RVCZ-VNEOZ-I47J6-OAEDL-AUUWM", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJDb25uZWN0aW9uUmVzdWx0IjogewogICAgIkRldmljZSI6IHsKICAgICAg IklkZW50aWZpZXIiOiAiTUNCRVktMlJWQ1otVk5FT1otSTQ3SjYtT0FFREwtQVVV ... dGVkIn19", "signature": " KP_5t5TeJEXXkw19wCpGcim8tIkElcpsIAUId7f8WabrQUNDGNEYox-1QrBaCCuC X8hud2kRZimhG-f8rWnOcXe4tDU8y1eoNeiGC_TijV_Bb189XDKpZobDtVSXLvhB YZp10T3RlzUEhMAPVUXJqf5yMIgJHnTTKzlT_cwNvnRSGMAnY2NLEg-lQ3FHkiiX copSUGQ9SzXuMSKu5b29Rdgqz-9C_-v5N7x9gNuU-YliEZACFfMMylUlfIWN4aYw TU8m-XckHkuKN75TNdH_gRAe6RqgbdYa_gQS5IhwZ5bbv2TGQe6T6ap7_92SFvNT Ew6pGGbAdBJ6RAwrZFbo2A"}}}} [Should probably unpack further.] 8.4. Adding an application profile to a user profile Application profiles are published separately from the personal profile to which they are linked. This allows a device to be given administration capability for a particular application without granting administration capability for the profile itself and the ability to connect additional profiles and devices. Another advantage of this separation is that an application profile might be managed by a separate party. In an enterprise, the application profile for a user's corporate email account could be managed by the corporate IT department. A user MAY have multiple application profiles for the same application. If a user has three email accounts, they would have three email application profiles, one for each account. Hallam-Baker Expires September 8, 2016 [Page 27] Internet-Draft Mathematical Mesh Architecture March 2016 In this example, the user has requested a PaswordProfile to be created. When populated, this records the usernames and passwords for the various Web sites that the user has created accounts at and has requested the Web browser store in the Mesh. Unlike a traditional password management service, the data stored the Password Profile is encrypted end to end and can only be decrypted by the devices that hold a decryption key. { "PasswordProfile": { "Identifier": "MCSJQ-ENQ6L-IJZH5-MCLCC-SE2NG-3T5F2-A", "EncryptedData": { "protected": " ewogICJhbGciOiAiQUUxMjgifQ", "iv": " G3CweSUBT8omE_VT9SCuZw", "ciphertext": " _JR9uX63-CkvvvJS0axnJxCChcBqe0mYv4M2xjHDaZqE6oUkQS7ZnHOTTmKO748r", "recipients": [{ "Header": { "kid": "MBLYV-KC666-JGASF-7RCNB-DAHQ2-JMTA2"}, "encrypted_key": " ZATx6Rivrr_qGmHbbKGV7tcnm_9UgRspFXu4oti6O9kRjglHS7wnvu5IpmDk5szv Eq_Zh7X7m3vxsxfvsKrAPKVnpVMx10847apFrAmvwbHNmX1a_rxtxxdzHAgDtJT0 xJ4sch-CAEyudB_k2UNw1cpRtVm02x6sWyVtfTStFSADYw86bFvf4jHQBcv9FxHO r_EVvE5D-XuQC4ROB8ozbZnadQgQxrZYBfxyNfZfnMigeotzlD_q_lsHua3ffXGA 7ZYi02TPPqwKwcoTBy2DdjE1IR0EFcycInNwb87nyxmOVqezOIZNt_2sOJm0I4Ui kYQCDogUcrwqqcuycXQsdw"}, { "Header": { "kid": "MCAOX-46YPX-GAW5J-75V6G-B6OUP-2RG3X"}, "encrypted_key": " KRZ9IfGlNADsgNdIs0L_H-Drs_1FhtRARGP3NdZxF9JfiuN6YDF5tPaJFQ0wfrFV JKOc5PTe5UWiDPSXy_FFQb6-Cg00uJ5TcQceZoePZqmGYbxYoqQPL2MBCP5g1yvW xLoGTdqk7pJC8GkGUejMbsv5c2nNR4GT1mpj-E7FXyXD914pwmxwroubdbvTAUYy QLXAiZ20vXxFzWmdf13QZ31nRNBBorCS1EBcapxfih9H_QCiutukN4Yxoj-Cjy5O 1ogSP0GKJlchiKkypNJ6TgvuR743x7YybDvcPMUk1hMR1GteknI2dGSAADRQupF_ 7huHRXxYODuSgfq0jRf14Q"}]}}} The application profile is published to the Mesh in the same way as any other profile update, via a a Publish transaction: Hallam-Baker Expires September 8, 2016 [Page 28] Internet-Draft Mathematical Mesh Architecture March 2016 { "PublishRequest": { "Entry": { "SignedApplicationProfile": { "Identifier": "MCSJQ-ENQ6L-IJZH5-MCLCC-SE2NG-3T5F2-A", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJQYXNzd29yZFByb2ZpbGUiOiB7CiAgICAiSWRlbnRpZmllciI6ICJNQ1NK US1FTlE2TC1JSlpINS1NQ0xDQy1TRTJORy0zVDVGMi1BIiwKICAgICJFbmNyeXB0 ... MmRHU0FBRFJRdXBGXwo3aHVIUlh4WU9EdVNnZnEwalJmMTRRIn1dfX19", "signature": " i4s0nRQj3nA5sWrAzmTrBBqgRJxP7npPYUAjK4ChVBy8GKq64aldCSbeO7fzDO20 4zcgyGnOUKi8AQmSTj8qHdLnGLq9zAXtFoYnHa7N5PevYLATxDNTnauHgewOufyM XxF4ImepbFZRHcoHhHOWxp-qG7RkptMwqP-3g9-4pAxRUqJWzfWjoxzhy0z0_Tal 21b6I37E-UwwJd271UNkY1b24lHILuMvvgfB1hvzu-O6bDdExIt4iN88jkw7rvQi 7veQA9D-aiAyQmwtasD9uIyKo8GdhLUOrThjQkap8xf3Dfmhd-mt-AmCQjQ_gpvS iOW-sGdz8x4VjUXDLlwSqQ"}}}}} The service returns a status response. { "PublishResponse": { "Status": 201, "StatusDescription": "Operation completed successfully"}} Note that the degree of verification to be performed by the service when an application profile is published is an open question. Having created the application profile, the administration client adds it to the personal profile and publishes it: Hallam-Baker Expires September 8, 2016 [Page 29] Internet-Draft Mathematical Mesh Architecture March 2016 { "PublishRequest": { "Entry": { "SignedPersonalProfile": { "Identifier": "MDJVA-GWBES-2YXPA-7FHWU-GNTHE-D2ELD", "SignedData": { "header": " ewogICJhbGciOiAiUlM1MTIiLAogICJraWQiOiAiTUJLTUctNlFWNUstNVBTWEYt NlRMVVAtWFhMUkItRkVNVlQifQ", "payload": " ewogICJQZXJzb25hbFByb2ZpbGUiOiB7CiAgICAiSWRlbnRpZmllciI6ICJNREpW QS1HV0JFUy0yWVhQQS03RkhXVS1HTlRIRS1EMkVMRCIsCiAgICAiU2lnbmVkTWFz ... MnlTekRYM3g0UWQteHFOUSJ9fV0sCiAgICAiQXBwbGljYXRpb25zIjogW119fQ", "signature": " QK3qK17qqKjrzJpheNMSP8l-Mfids1U8LteXgXtNslyKsN1fsf3Wc3orZRvxkmq3 SiwwkRSY3k1bWGkMQ2-IVGuAVBvDq-ndgrc9zlqx4OGOZHIsUEpMmEMxYCGPWCek DRmeCg08o-viOXuBGNukjdmoV47AdWjEwp3bim-1RsA4NP5QfdAifesjI37iScUH HwvraQsPCDmYpoWfzqLiFu-d5OIzf2A6-V73DLw63sxy6POq9XN3uvBVbpeRXD3Z 5zvFp58fprVjpqUqpdiDAecwd47xisxjtN7QNoE1mTuUsjcrz6uWRhe9zkCiAEd1 i02PON8adi7XJD39Fr7TZQ"}}}}} Note that if the publication was to happen in the reverse order, with the personal profile being published before the application profile, the personal profile might be rejected by the portal for inconsistency as it links to a non existent application profile. Though the value of such a check is debatable. It might well be preferable to not make such checks as it permits an application profile to have a degree of anonymity. { "PublishResponse": { "Status": 201, "StatusDescription": "Operation completed successfully"}} 8.5. Creating a recovery profile The Mesh invites users to put all their data eggs in one cryptographic basket. If the private keys in their master profile are lost, they could lose all their digital assets. The debate over the desirability of key escrow is a complex one. Not least because voluntary key escrow by the user to protect the user's digital assets is frequently conflated with mechanisms to support 'Lawful Access' through government managed backdoors. Accidents happen and so do disasters. For most users and most applications, data loss is a much more important concern than data Hallam-Baker Expires September 8, 2016 [Page 30] Internet-Draft Mathematical Mesh Architecture March 2016 disclosure. The option of using a robust key recovery mechanism is therefore essential for use of strong cryptography is to become ubiquitous. There are of course circumstances in which some users may prefer to risk losing some of their data rather than risk disclosure. Since any key recovery infrastructure necessarily introduces the risk of coercion, the choice of whether to use key recovery or not is left to the user to decide. The Mesh permits users to escrow their private keys in the Mesh itself in an OfflineEscrowEntry. Such entries are encrypted using the strongest degree of encryption available under a symmetric key. The symmetric key is then in turn split using Shamir secret sharing using an n of m threshold scheme. The OfflineEscrowEntry identifier is a UDF fingerprint of the symmetric key used to encrypt the data. This guarantees that a party that has the decryption key has the ability to locate the corresponding Escrow entry. The OfflineEscrowEntry is published using the usual Publish transaction: { "PublishRequest": { "Entry": { "OfflineEscrowEntry": { "Identifier": "MA2J2-OQI55-PSIGB-LZRY2-KMBCI-HNNNR", "EncryptedData": { "protected": " ewogICJhbGciOiAiQUUxMjgifQ", "iv": " gkV_n1ibVtSfrfXAAgha7A", "ciphertext": " X7tqES5Qw4mUvpjHayZf-sVKf9WPCyOTWkAG2ZXue2vbMWauYtEBVokXGJv1oQVD 1YqNzMOhcPA619L3k9qiVecNk2Q5lLw2fsYPulml3CMfUw1VOg29NH4uIZbjlCnq ... bj3d_6tV34PbzN5s8xinXqrz3_8a1Rr8dEE2tcxZdPoBZdakVphjGmH-Py8kXjgS"}}}}} The response indicates success or failure: { "PublishResponse": { "Status": 201, "StatusDescription": "Operation completed successfully"}} Hallam-Baker Expires September 8, 2016 [Page 31] Internet-Draft Mathematical Mesh Architecture March 2016 8.6. Recovering a profile To recover a profile, the user MUST supply the necessary number of secret shares. These are then used to calculate the UDF fingerprint to use as the locator in a Get transaction: { "GetRequest": { "Identifier": "MA2J2-OQI55-PSIGB-LZRY2-KMBCI-HNNNR", "Multiple": false}} If the transaction succeeds, GetResponse is returned with the requested data. { "GetResponse": { "Status": 201, "StatusDescription": "Operation completed successfully", "Entries": [{ "OfflineEscrowEntry": { "Identifier": "MA2J2-OQI55-PSIGB-LZRY2-KMBCI-HNNNR", "EncryptedData": { "protected": " ewogICJhbGciOiAiQUUxMjgifQ", "iv": " gkV_n1ibVtSfrfXAAgha7A", "ciphertext": " X7tqES5Qw4mUvpjHayZf-sVKf9WPCyOTWkAG2ZXue2vbMWauYtEBVokXGJv1oQVD 1YqNzMOhcPA619L3k9qiVecNk2Q5lLw2fsYPulml3CMfUw1VOg29NH4uIZbjlCnq ... bj3d_6tV34PbzN5s8xinXqrz3_8a1Rr8dEE2tcxZdPoBZdakVphjGmH-Py8kXjgS"}}}]}} The client can now decrypt the OfflineEscrowEntry to recover the private key(s). 9. Transparent Audit Can be performed by any party that is a participant in the InterMesh protocol or subsequently in an offline transaction. 10. Security Considerations Security Considerations are addressed in the companion document [draft-hallambaker-mesh-reference] Hallam-Baker Expires September 8, 2016 [Page 32] Internet-Draft Mathematical Mesh Architecture March 2016 11. IANA Considerations IANA Considerations are addressed in the companion document [draft- hallambaker-mesh-reference] 12. Acknowledgements Comodo Group: Egemen Tas, Melhi Abdulhayo?lu, Rob Stradling, Robin Alden. 13. References 13.1. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997. [RFC3977] Feather, C., "Network News Transfer Protocol (NNTP)", RFC 3977, DOI 10.17487/RFC3977, October 2006. [RFC7159] Bray, T., "The JavaScript Object Notation (JSON) Data Interchange Format", RFC 7159, DOI 10.17487/RFC7159, March 2014. [RFC6962] Laurie, B., Langley, A., and E. Kasper, "Certificate Transparency", RFC 6962, DOI 10.17487/RFC6962, June 2013. [RFC5822] "[Reference Not Found!]". [draft-hallambaker-udf] "[Reference Not Found!]". [draft-hallambaker-mesh-reference] "[Reference Not Found!]". 13.2. Informative References [RFC4644] Vinocur, J. and K. Murchison, "Network News Transfer Protocol (NNTP) Extension for Streaming Feeds", RFC 4644, DOI 10.17487/RFC4644, October 2006. [RFC822] "[Reference Not Found!]". Hallam-Baker Expires September 8, 2016 [Page 33] Internet-Draft Mathematical Mesh Architecture March 2016 Author's Address Phillip Hallam-Baker Comodo Group Inc. Email: philliph@comodo.com Hallam-Baker Expires September 8, 2016 [Page 34]