DSNA: the French air navigation service provider
ENAV; the Italian air navigation service provider
This Service is part of Coflight Cloud Services (CCS), which are primarily designed to support the Virtual Centre concept. As such, these CCS Services support the interactions between the CCS ATM Data Service Provider (ADSP) and Virtual Centre Air Traffic Service Units (ATSUs). The CCS AirspaceStatusDistribution service is consistent with the other CCS services. It supports the distribution of the following airspace configuration data to CWP and operational supervisor consumers according to their subscription to the service:
- The on-line updates of the ARES/CDR activation status.
- The on-line updates of the ARES/CDR planning. The dynamic updates of the airspace status are computed taking into account off-line airspace definition, e-AMI messages from CFMU and supervisor inputs.
This version of the service is intended to be used in 'test mission', which aims at providing services and support to the Customer(s) to enable them to test any version of their ATM system during development.
Service retired from 20/03/2023
DSNA: the French air navigation service provider
ENAV; the Italian air navigation service provider
CCS AirspaceStatusDistribution Service supports the distribution of the following airspace configuration data to CWP and operational supervisor consumers according to their subscription to the service:
- The on-line updates of ARES (Airspace Reservation) and CDR (Conditional Route) activation status.
ARES designates all military areas types: TSA (Temporary Segregated Area), CBA (Cross Border Area), TRA (Temporary Restricted Area)...
- The on-line updates of ARES (Airspace Reservation) and CDR (Conditional Route) planning.
Publish ARES activation status
Get Airspace activation status
Publish CDR activation status
Get airspace planning
Publish ARES planning
Publish CDR planning
IPR
In accordance with their internal contractual rules on IPRs, DSNA, ENAV and skyguide retain exclusive ownership of the information contained in this document, which is to be deemed as foreground of the Coflight Cloud Services project (aiming at delivering remote flight data processing).
Access to the Service
This service is provided to Service Consumers under a contractual basis signed between the CCS Service Provider and the Service Consumer.
If the service consumer also consumes other CCS services, this Service shall be consumed simultaneously with the other CCS SWIM Services that are part of the contractual agreement between the service consumer and CCS service provider.
This service will be updated to be as much as possible in line with the Service Definition produced by SESAR Virtual Centre activities
Both the SWIM Service Description documents / Protobuf files and the CCS Services are versioned.
The version assigned to SSDs and to Protobuf files is composed by four digits in the form x.y.z.w.
New releases are numbered according to the following rule (compared to the previous version):
- w increased by one: means that some content that could be ignored by the developers changed and the changes do not affect the protobuf files generation. For example, changes in the comments or in the descriptions of services, fields and data structures.
- z increased by one: means that some content is changed by adding (but not changing or removing) some messages and/or data types. The generated protobuf files are expected to be an extension of the previous one and as result they are backward compatible.
- y increased by one: means that the file is changed by changing or removing some operations. The generated protobuf files are not expected to be compatible with the previous one.
- x increased by one: means that the file contains a new baseline. Major changes are expected to be present.
The service version is composed by 3 digits a.b.c assigned according to the following rule:
- a could be 0,1,2 depending on the status of the service with respect to the SWIM registration phase:
0: before the service application (as candidate)
1: if candidate
2: if compliant
- b Increments if major changes have been done with respect to the previous version (modify/remove). No backward compatibility.
- c Increments if minor changes have been done with respect to the previous version (addition/description modified). Full backward compatibility.
Services management review are regularly organized with CCS customers to monitor the usability of the services and the KPI related to the quality of service described in the SLA.
The interface of CCS business services is accessible from outside DSNA premises through Internet using IPV4. An IPSEC link (IKE v1 or IKE v2) is used between CCS provider and CCS customer terminal network equipment.
The CCS provider acts as a certificate authority to provide and validate X.509 certificates. Before service operation, a package including X509 certificate and private key, will be delivered to the customer using the PKCS#12 archive file format.
Mutual authentication with X509 certificates is used between the AMQP broker and its client. Prior to any exchanges of AMQP Messages, the CCS customer shall establish with CCS Provider a TLS session using TLS 1.2 version.
- CCS customer shall provide its certificates when establishing the connection. The certificates shall be valid (nor corrupted, nor revoked). The certificates of the CCS customer allow its identification for the use of the different CCS services (CCS business services at lower level).
- The CCS provider transmit its complete certificate during the connection phase and allow OCSP stapling to allow the CCS customer to check if it is valid or not.
- For the cryptographic algorithms, the authorized cipher suites must be agreed between the CCS provider and the customer based on the standards.
As an ATSU, the CCS business services customer, once identified, has access to all CCS services.
In the case of a Customer that would fail to authenticate 3 times in less than 3 minutes, the IP address would be ban and has to trigger the incident management procedure.
The service level objectives regarding the availability, response time, throughput and recoverability of CCS Services depend on the purpose (mission) for which the Customer intend to use them (e.g. integration, test, training, operational purpose).
These service level objectives are therefore negotiated with the Customers, based on their safety analysis, and are detailed in the specific Service Level Agreement established with each CCS Customer.
The minimum Bandwidth required to consume CCS services (hypothesis for the technical integration service of 300 simultaneous flight managed by the system) is 10MB/s.
Customer ATSU shall restrict the overall rate of requests to a maximum of 720 request/minutes. The detailed rate limitation per services is detailed in the associated swim service description of each service.
Area Control Centre
Airport of Destination
ATM Data Service Provider
ATM Information Reference Model
Airspace Management Cell
Advanced Message Queuing Protocol
Air Navigation Service Provider
Airspace Reservations
Airspace Status Distribution
Airspace Status Management
Air Traffic Control
Air Traffic Control Services
Air Traffic Management
Air Traffic Service Unit
Cross Border Area
Coflight Cloud Services
Conditional Route
Central Flow Management Unit
Controller Working Position
Direction des Services de la Navigation A0xC3 0xA9rienne (French ANSP)
Ente Nazionale Assistenza al Volo (Italian ANSP)
Functional Airspace Block
Functional Airspace Block Europe Central
Flight Data Operator
Flight Data Processing System
Flight Plan
Flexible Use of Airspace
human machine Interface
International Civil Aviation Organization
Identifier
Internet Key Exchange
Internet Protocol
Internet Protocol Security protocol
Joint Undertaking
Key Performance Indicator
MegaByte
Network Time Protocol
Online Certificate Status Protocol
Operational Supervision
Public Key Cryptography Standards
Service Definition Document
Single European Sky Air Traffic Management Research
System Flight Plan
Service Level Agreement
SWIM Service Description
Synchronous Serial Interface
System Wide Information Management
Technical Architecture Description
Transfer Control Protocol
Temporary Danger Area
Technical Infrastructure
Transport Level Security
Temporary Prohibited Area
Temporary Restricted Area
Temporary Segregated Area
Coordinated Universal Time
For the exchanged data model, please refer to the SWIM Service Description document (sections 2.1 and 2.2)
Protocol buffer
CCS_airspaceStatusDistribution.proto 3.1.1.1
Protocol buffer
CCS_airspaceStatusDistribution.proto 3.1.1.1
Protocol buffer
CCS_airspaceStatusDistribution.proto 3.1.1.1
Protocol buffer
CCS_airspaceStatusDistribution.proto 3.1.1.1
Protocol buffer
CCS_airspaceStatusDistribution.proto 3.1.1.1
Protocol buffer
CCS_airspaceStatusDistribution.proto 3.1.1.1
Mutual authentication with X509 certificates is used between the AMQP broker and its client established within a TLS session
TLS 1.2 is used to provide confidentiality and integrity at transport layer.
IPsec is used to provide confidentiality, authentication and integrity at network (internet) layer
CCS provider and CCS customer use the date and time for the operation of each service and they must be able to date the traces and the information passed to the SSI log collector.
NTP is the standard solution to synchronize time accurately. So, CCS Provider and CCS Customer should use, each of them, at least one NTP server (stratum N), integrated in a NTP network containing a stratum 0 reference time clock.
Each services interface of the CCS business services relies on the concept of AMQP queues and topics.
- The CCS customer shall use an implementation of the AMQP 1.0 specification to connect to the CCS provider AMQP 1.0 endpoint.
- The CCS provider endpoint is an AMQP 1.0 broker managing queue and topics.
The message payloads are encoded following a protobuf format.
The message exchange patterns used by the CCS services are request/reply and publish/subscribe. The CCS customer acts as requester and subscriber. The CCS provider acts as responder and publisher.
Concerning publish-subscribe, the CCS customer subscribes to a CCS distribution service by directly listening to an appropriate AMQP topic, which name follows the CCS derivation rules.
The subscription to CCS Distribution Services is not performed via subscription operations, but by connecting to the appropriate AMQP Topic described in the .protobuf files as topic://..
The subscribers can filter the messages they want to receive by using the filter parameters defined for each subscription operation.
Please note that, after subscribing to a CCS Distribution Service, the current repository of messages needs to be obtained from CCS via the get operation defined for each CCS Distribution Service (see "Subscription" section of the distribution operation of the service).
N.B:
- If the CCS platform restarts while the Customer is connected to the AMQP Broker, the current repository of messages is published again.
- The acknowledgement that a Customer receives to his request ("RequestReport") may be received after the data distribution that this request has triggered, as these two messages are managed asynchronously by AMQP Queues and Topics
Concerning request-reply the CCS customer sends a request by sending a message to an appropriate AMQP queue, which name follows the CCS derivation rules, to make a request. The request message contains the name of the queue into the CCS customer listens and in which the reply from the CCS provider is expected.
The Customer is the one that initiates the TCP connection and in case of a Network / Connection failure, it is the responsibility of the CCS customer to try to reconnect regularly.
The AMQP broker creates the physical resources associated with a destination (queue, topic) on demand when messages are actually sent to them.
Permissions on queues and topics (read/write access) are granted based on intended usage. The CCS customer will have:
- Write access on the request queue
- Read access on the reply queue
- Read access on the topic for distribution service
This Service Interface exposes the technical operation that allows the consumer (operational supervisor, technical supervisor...) to get the current state of Airspace status data on request. It is typically used when starting the Service, for initialisation.
If airspaceStatusRequested is filled, this operation allows a consumer to get the applicable airspace status data related to all the relevant airspaces (ARES and/or CDR according to its request).
If airspaceName is filled, this operation allows a consumer to get the applicable airspace status data related to the designated airspace (ARES or CDR)..
For security reasons, the addresses will be communicated only to Customers
Name of the queue
Information is exchanged in Protobuf format. Protocol buffers or Protobuf are Google's language-neutral, platform-neutral, extensible mechanism for serializing structured data similar to XML, but smaller, faster, and simpler.
The detailed behavior of the service is provided in each operation dedicated section
This service Interface exposes the operations for publishing on-line updates of Airspace Status data on a specific airspace immediately when updated.
In case of dynamic modification of an ARES activation status, this operation performs the publication of the new status and data related to the updated ARES to the subscribed service consumers..
In case of dynamic modification of a CDR status, this operation performs the publication of the new status and data related to the updated CDR to the subscribed service consumers.
The publication message contains the description of the status of the given CDR.
The CDR status is based on 2 attributes of the publication message:
- cdrStatus (its value is Open or Closed)
- cdrLockStatus (its value is Locked or Unlocked)
cdrStatus is provided only if cdrLockStatus is Locked. If cdrLockStatus is Unlocked, the Open/Closed status of the CDR can be deduced from the timetable.
.
Information is exchanged in Protobuf format. Protocol buffers or Protobuf are Google's language-neutral, platform-neutral, extensible mechanism for serializing structured data similar to XML, but smaller, faster, and simpler.
The detailed behavior of the service is provided in each operation dedicated section
This Service Interface exposes the operations for publishing on-line updates of Airspace planning data on a specific airspace immediately when updated.
In case of dynamic modification of an ARES planning, this operation performs the publication of the new or updated planning of this ARES to the subscribed service consumers.
The publication message contains the description of the planning of the given ARES (upper and lower flight levels, timesheet period, periodicity, ...)..
In case of dynamic modification of a CDR planning, this operation performs the publication of the new or updated planning of this CDR to the subscribed service consumers.
The publication message contains the description of the planning of the given CDR (the Open/Closed status, upper and lower flight levels, timesheet period, periodicity, ...)..
For security reasons, the addresses will be communicated only to Customers
Information is exchanged in Protobuf format. Protocol buffers or Protobuf are Google's language-neutral, platform-neutral, extensible mechanism for serializing structured data similar to XML, but smaller, faster, and simpler.
The detailed behavior of the service is provided in each operation dedicated section
This Service Interface exposes the technical operation that allows the consumer (operational supervisor, technical supervisor...) to get the current state of Airspace planning data on request. It is typically used when starting the Service, for initialisation.
If airspaceStatusRequested is filled, this operation allows a consumer to get the applicable airspace planning data related to all the relevant airspaces (ARES and/or CDR according to its request).
Only the ARES and CDR having at least 1 timesheet are received as a response to this request.
If airspaceName is filled, this operation allows a consumer to get the applicable airspace planning data related to the designated airspace (ARES or CDR).
If the designated airspace doesnt have any timesheet, no airspace planning data is received..
For security reasons, the addresses will be communicated only to Customers
Information is exchanged in Protobuf format. Protocol buffers or Protobuf are Google's language-neutral, platform-neutral, extensible mechanism for serializing structured data similar to XML, but smaller, faster, and simpler.
The detailed behavior of the service is provided in each operation dedicated section
AIRM traceability for CCS Airspace Status Distriubtion service payload
Validation evidence for CCS Airspace Status Distribution service
Protobuf files describing the exchanged information
Protobuf file describing the exchanged information common to two or more CCS Services
Protobuf file describing the metadata used by the CCS Services
Complete service specification
Document that includes the list of all applicable error messages for CCS services
This specification contains requirements for describing information services in the context ofInitial System Wide Information Management (iSWIM). The requirements prescribe the minimum set of elements a service descriptionhas to contain
This specification contains requirements forinformation definitions, meaning the formal descriptions of exchanged information, in the context of Initial System Wide Information Management (iSWIM). This contributes to semantic interoperability of information.
This specification contains requirements for system interfaces (e.g. protocols) and for IT infrastructure capabilities required to enable a reliable, secure and efficient exchange of information in the context of Initial System Wide Information Management (iSWIM).This contributes to technical interoperability