PAWS V. Chen, Ed.
Internet-Draft Google
Intended status: Standards Track S. Das
Expires: September 5, 2014 Applied Communication Sciences
L. Zhu
Huawei
J. Malyar
iconectiv (formerly Telcordia
Interconnection Solutions)
P. McCann
Huawei
March 4, 2014
Protocol to Access White-Space (PAWS) Databases
draft-ietf-paws-protocol-11
Abstract
Portions of the radio spectrum that are allocated to licensees are
available for non-interfering use. This available spectrum is called
"White Space." Allowing secondary users access to available spectrum
"unlocks" existing spectrum to maximize its utilization and to
provide opportunities for innovation, resulting in greater overall
spectrum utilization.
One approach to manage spectrum sharing uses databases to report
spectrum availability to devices. To achieve interoperability among
multiple devices and databases, a standardized protocol must be
defined and implemented. This document defines such a protocol, the
"Protocol to Access White Space (PAWS) Databases".
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 5, 2014.
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Copyright Notice
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 5
2. Conventions and Terminology . . . . . . . . . . . . . . . . . 5
2.1. Conventions Used in This Document . . . . . . . . . . . . 5
2.2. Terminology . . . . . . . . . . . . . . . . . . . . . . . 6
3. Protocol Overview . . . . . . . . . . . . . . . . . . . . . . 6
3.1. Multi-ruleset Support . . . . . . . . . . . . . . . . . . 7
4. Protocol Functionalities . . . . . . . . . . . . . . . . . . 8
4.1. Database Discovery . . . . . . . . . . . . . . . . . . . 8
4.1.1. Listing Server . . . . . . . . . . . . . . . . . . . 10
4.2. Initialization . . . . . . . . . . . . . . . . . . . . . 11
4.2.1. INIT_REQ . . . . . . . . . . . . . . . . . . . . . . 11
4.2.2. INIT_RESP . . . . . . . . . . . . . . . . . . . . . . 12
4.3. Device Registration . . . . . . . . . . . . . . . . . . . 13
4.3.1. REGISTRATION_REQ . . . . . . . . . . . . . . . . . . 13
4.3.2. REGISTRATION_RESP . . . . . . . . . . . . . . . . . . 14
4.4. Available Spectrum Query . . . . . . . . . . . . . . . . 15
4.4.1. AVAIL_SPECTRUM_REQ . . . . . . . . . . . . . . . . . 18
4.4.2. AVAIL_SPECTRUM_RESP . . . . . . . . . . . . . . . . . 19
4.4.3. AVAIL_SPECTRUM_BATCH_REQ . . . . . . . . . . . . . . 21
4.4.4. AVAIL_SPECTRUM_BATCH_RESP . . . . . . . . . . . . . . 23
4.4.5. SPECTRUM_USE_NOTIFY . . . . . . . . . . . . . . . . . 25
4.4.6. SPECTRUM_USE_RESP . . . . . . . . . . . . . . . . . . 26
4.5. Device Validation . . . . . . . . . . . . . . . . . . . . 26
4.5.1. DEV_VALID_REQ . . . . . . . . . . . . . . . . . . . . 28
4.5.2. DEV_VALID_RESP . . . . . . . . . . . . . . . . . . . 28
5. Protocol Parameters . . . . . . . . . . . . . . . . . . . . . 29
5.1. GeoLocation . . . . . . . . . . . . . . . . . . . . . . . 29
5.2. DeviceDescriptor . . . . . . . . . . . . . . . . . . . . 31
5.3. AntennaCharacteristics . . . . . . . . . . . . . . . . . 32
5.4. DeviceCapabilities . . . . . . . . . . . . . . . . . . . 33
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5.5. DeviceOwner . . . . . . . . . . . . . . . . . . . . . . . 34
5.6. RulesetInfo . . . . . . . . . . . . . . . . . . . . . . . 34
5.7. DbUpdateSpec . . . . . . . . . . . . . . . . . . . . . . 35
5.8. DatabaseSpec . . . . . . . . . . . . . . . . . . . . . . 36
5.9. SpectrumSpec . . . . . . . . . . . . . . . . . . . . . . 36
5.10. SpectrumSchedule . . . . . . . . . . . . . . . . . . . . 38
5.11. Spectrum . . . . . . . . . . . . . . . . . . . . . . . . 39
5.12. SpectrumProfile . . . . . . . . . . . . . . . . . . . . . 41
5.13. FrequencyRange . . . . . . . . . . . . . . . . . . . . . 42
5.14. EventTime . . . . . . . . . . . . . . . . . . . . . . . . 43
5.15. GeoSpectrumSpec . . . . . . . . . . . . . . . . . . . . . 43
5.16. DeviceValidity . . . . . . . . . . . . . . . . . . . . . 44
5.17. Error Element . . . . . . . . . . . . . . . . . . . . . . 45
5.17.1. OUTSIDE_COVERAGE Error . . . . . . . . . . . . . . . 47
5.17.2. DATABASE_CHANGE Error . . . . . . . . . . . . . . . . 47
5.17.3. REQUIRED Error . . . . . . . . . . . . . . . . . . . 47
6. Message Encoding . . . . . . . . . . . . . . . . . . . . . . 48
6.1. JSON-RPC Binding . . . . . . . . . . . . . . . . . . . . 48
6.2. init Method . . . . . . . . . . . . . . . . . . . . . . . 50
6.2.1. INIT_REQ Parameters . . . . . . . . . . . . . . . . . 50
6.2.2. INIT_RESP Parameters . . . . . . . . . . . . . . . . 51
6.3. register Method . . . . . . . . . . . . . . . . . . . . . 53
6.3.1. REGISTRATION_REQ Parameters . . . . . . . . . . . . . 53
6.3.2. REGISTRATION_RESP Parameters . . . . . . . . . . . . 54
6.4. getSpectrum Method . . . . . . . . . . . . . . . . . . . 55
6.4.1. AVAIL_SPECTRUM_REQ Parameters . . . . . . . . . . . . 56
6.4.2. AVAIL_SPECTRUM_RESP Parameters . . . . . . . . . . . 58
6.5. getSpectrumBatch Method . . . . . . . . . . . . . . . . . 62
6.5.1. AVAIL_SPECTRUM_BATCH_REQ Parameters . . . . . . . . . 63
6.5.2. AVAIL_SPECTRUM_BATCH_RESP Parameters . . . . . . . . 65
6.6. notifySpectrumUse Method . . . . . . . . . . . . . . . . 68
6.6.1. SPECTRUM_USE_NOTIFY Parameters . . . . . . . . . . . 68
6.6.2. SPECTRUM_USE_RESP Parameters . . . . . . . . . . . . 70
6.7. verifyDevice Method . . . . . . . . . . . . . . . . . . . 71
6.7.1. DEV_VALID_REQ Parameters . . . . . . . . . . . . . . 71
6.7.2. DEV_VALID_RESP Parameters . . . . . . . . . . . . . . 72
6.8. Sub-message Schemas . . . . . . . . . . . . . . . . . . . 74
6.8.1. GeoLocation . . . . . . . . . . . . . . . . . . . . . 74
6.8.2. DeviceDescriptor . . . . . . . . . . . . . . . . . . 76
6.8.3. AntennaCharacteristics . . . . . . . . . . . . . . . 77
6.8.4. DeviceCapabilities . . . . . . . . . . . . . . . . . 78
6.8.5. DeviceOwner . . . . . . . . . . . . . . . . . . . . . 79
6.8.6. RulesetInfo . . . . . . . . . . . . . . . . . . . . . 80
6.8.7. DbUpdateSpec . . . . . . . . . . . . . . . . . . . . 81
6.8.8. DatabaseSpec . . . . . . . . . . . . . . . . . . . . 82
6.8.9. Spectrum . . . . . . . . . . . . . . . . . . . . . . 82
6.8.10. FrequencyRange . . . . . . . . . . . . . . . . . . . 84
6.8.11. EventTime . . . . . . . . . . . . . . . . . . . . . . 85
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6.8.12. SpectrumSchedule . . . . . . . . . . . . . . . . . . 85
6.8.13. SpectrumSpec . . . . . . . . . . . . . . . . . . . . 86
6.8.14. GeoSpectrumSpec . . . . . . . . . . . . . . . . . . . 87
6.8.15. DeviceValidity . . . . . . . . . . . . . . . . . . . 88
6.8.16. Additional Properties . . . . . . . . . . . . . . . . 89
7. HTTPS Binding . . . . . . . . . . . . . . . . . . . . . . . . 89
8. Extensibility . . . . . . . . . . . . . . . . . . . . . . . . 91
8.1. Defining New Message Parameters . . . . . . . . . . . . . 91
8.2. Defining Ruleset Identifiers . . . . . . . . . . . . . . 91
8.3. Defining Additional Error Codes . . . . . . . . . . . . . 92
9. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 92
9.1. PAWS Parameters Registry . . . . . . . . . . . . . . . . 92
9.1.1. Registration Template . . . . . . . . . . . . . . . . 92
9.1.2. Initial Registry Contents . . . . . . . . . . . . . . 93
9.2. PAWS Ruleset ID Registry . . . . . . . . . . . . . . . . 95
9.2.1. Registration Template . . . . . . . . . . . . . . . . 95
9.2.2. Initial Registry Contents . . . . . . . . . . . . . . 95
9.3. PAWS Error Code Registry . . . . . . . . . . . . . . . . 98
9.3.1. Registration Template . . . . . . . . . . . . . . . . 98
9.3.2. Initial Registry Contents . . . . . . . . . . . . . . 98
10. Security Considerations . . . . . . . . . . . . . . . . . . . 99
10.1. Assurance of Proper Database . . . . . . . . . . . . . . 100
10.2. Protection Against Modification . . . . . . . . . . . . . 100
10.3. Protection Against Eavesdropping . . . . . . . . . . . . 100
10.4. Client Authentication Considerations . . . . . . . . . . 100
11. Contributors . . . . . . . . . . . . . . . . . . . . . . . . 101
12. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 101
13. References . . . . . . . . . . . . . . . . . . . . . . . . . 102
13.1. Normative References . . . . . . . . . . . . . . . . . . 102
13.2. Informative References . . . . . . . . . . . . . . . . . 103
Appendix A. Changes / Author Notes. . . . . . . . . . . . . . . 104
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 107
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1. Introduction
This section provides some high level introductory material. Readers
are strongly encouraged to read Protocol to Access White-Space (PAWS)
Databases: Use Cases and Requirements [RFC6953] for use cases,
requirements, and additional background.
A geospatial database can track available spectrum (in accordance
with the rules of one or more regulatory domains) and make this
information available to devices. This approach shifts the
complexity of spectrum-policy conformance out of the device and into
the Database. This approach also simplifies adoption of policy
changes, limiting updates to a handful of databases, rather than
numerous devices. It opens the door for innovations in spectrum
management that can incorporate a variety of parameters, including
user location and time. In the future, it also can include other
parameters, such as user priority, time, signal type and power,
spectrum supply and demand, payment or micro-auction bidding, and
more.
In providing this service, a database records and updates information
necessary to protect primary users -- for example, this information
may include parameters such as a fixed transmitter's call sign, its
geo-location, antenna height, power, and periods of operation. The
rules that the Database must follow, including its schedule for
obtaining and updating protection information, protection rules, and
information reported to devices, vary according to regulatory domain.
Such variations, however, should be handled by each database, and
exposure to the variations by devices should be minimized.
This specification defines an extensible protocol to obtain available
spectrum from a geospatial database by a device with geo-location
capability. It enables a device to operate in any regulatory domain
that implements the same protocol and in which the device is
authorized to operate. The document describes the use of HTTP/TLS as
transport for the protocol.
2. Conventions and Terminology
2.1. Conventions Used in This Document
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 Key words for use in
RFCs to Indicate Requirement Levels [RFC2119].
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2.2. Terminology
Database or Spectrum Database: A database is an entity that contains
current information about available spectrum at a given location
and time, as well as other types of information related to
spectrum availability and usage.
Device ID An identifier for a device.
EIRP: Effective isotropically radiated power
ETSI: European Telecommunications Standards Institute
FCC: Federal Communications Commission
Listing server: A server that provides the URIs for one or more
Spectrum Databases. A regulator, for example, may operate a
Database Listing Server to publish the list of authorized Spectrum
Databases for its regulatory domain.
Master Device: A device that queries the database, on its own behalf
and/or on behalf of a slave device, to obtain available spectrum
information.
Ruleset: A set of rules that governs operations of white space
devices and Spectrum Databases within a regulatory domain. The
same set of rules may be used by more than one regulatory domain.
Slave Device: A device that queries the database through a master
device.
3. Protocol Overview
A Master Device uses the PAWS protocol to obtain a schedule of
available spectrum at its location. The security necessary to ensure
the accuracy, privacy, and confidentiality of the Device's location
is described in the Security Considerations (Section 10). This
document assumes that the Master Device and the Database are
connected to the Internet.
A typical sequence of PAWS operations is outlined as follows. See
Protocol Functionalities (Section 4) and Protocol Parameters
(Section 5) for details:
1. The Master Device obtains (statically or dynamically) the URI
for a Database appropriate for its location to send subsequent
PAWS messages.
2. The Master Device establishes an HTTPS session with the
Database.
3. The Master Device optionally sends an initialization message to
the Database to exchange capabilities.
4. If the Database receives an initialization message, it responds
with a message in the body of the HTTP response.
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5. The Database may require the Master Device to be registered
before providing service.
6. The Master Device sends an available-spectrum request message to
the Database.
7. The Master Device may verify with the Database that the Slave
Device is valid.
8. The Database responds with an available-spectrum response
message in the body of the HTTP response.
9. The Master Device may send a spectrum-usage notification message
to the Database.
10. If the Database receives a spectrum-usage notification message,
it responds by sending the Master Device a spectrum-usage
acknowledgement message.
Different regulatory domains may impose particular requirements, such
as requiring Master Devices to register with the Database, performing
Slave Device verification, and sending spectrum usage notifications.
3.1. Multi-ruleset Support
For a Master Device that supports multiple rulesets and operates with
multiple databases in multiple regulatory domains, the PAWS protocol
supports the following sequence of operations for each request by the
Master Device:
1. The Master Device includes in its request its location and
optionally includes the identifier of all the rulesets it
supports and any parameter values it might need for the request
2. The Database uses the device location and also may use the
ruleset list to determine its response, for example, to select
the list of required parameters
3. If required parameters are missing from the request, the Database
responds with an error and a list of names of the missing
parameters
4. The Master Device makes the request again, adding the missing
parameter values
5. The Database responds to the request, including the identifier of
the applicable ruleset
6. The Master Device uses the indicated ruleset to determine how to
interpret the Database response
NOTE: Regulatory rules contain many device-only requirements that
govern device behavior, independent of any database rules. These
requirements may be complex and involve device behavior that are not
easily parameterized. The ruleset-id parameter provides a mechanism
for the Database to inform the Master Device of the applicable
ruleset without having to express device-side behavior within the
protocol. The ruleset identifier is a string value that contains the
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name of regulatory body that established the rules and version
information, such as "FccTvBandWhiteSpace-2010".
By separating the regulatory "authority" from the "ruleset-id", it
allows the protocol to support multiple regulatory authorities that
use the same device-side ruleset. It also allows support for a
single authority to define multiple rulesets.
4. Protocol Functionalities
The PAWS protocol consists of several components:
o Database Discovery (Section 4.1) MUST be supported by the Master
Device
o Initialization (Section 4.2) MAY be used by the Master Device and
MUST be implemented by the Database.
o Device Registration (Section 4.3) MAY be used by the Master Device
and MAY be implemented by the Database as a separate component or
as part of the Available Spectrum Query (Section 4.4) component.
o Available Spectrum Query (Section 4.4) MUST be supported by Master
Device and the Database.
o Spectrum Use Notify (Section 4.4.5) MAY be used by the Master
Device and the Database. Some regulatory domains mandate
notifications, which would mandate their use by the Master Device
and mandate their implementation by the Database.
o Device Validation (Section 4.5) MAY be used by the Master Device.
Some regulatory domains mandate device validation, which would
mandate its use by the Master Device and mandate its
implementation by the Database.
This section describes the protocol components and their messages.
Protocol Parameters (Section 5) contains a more thorough discussion
of the parameters that comprise the PAWS request and response
messages. Message Encoding (Section 6) provides details of the
message encodings. HTTPS Binding (Section 7) describes the use of
HTTPS (HTTP Over TLS [RFC2818]) for transporting PAWS messages and
optional device authentication.
4.1. Database Discovery
Different regulators may have different requirements for the approval
and operation of databases, such as:
o A regulator may only allow a limited number of certified databases
to operate. It also may require the certification of each device-
to-database pairing.
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o A regulator may maintain a trusted website that lists all approved
databases, known as the Listing Server. It also may mandate how
devices use the listing server.
o A regulator may allow each database to define its own terms of
use, so that, for example, an approved device may not be able to
access all approved databases.
Prior to sending PAWS messages, a Device needs to determine the URI
for a Database that provides service at its current location.
Preconfiguration
The Master Device can be provisioned statically with the URI of one
or more Databases. For operation in regulatory domains that do not
have a listing server, the device can be provisioned with the URI of
all the databases for which it is certified or otherwise permitted to
operate. The Device also can be provisioned with the URI of listing
servers approved by regulators.
Configuration Update
To adapt to changes in the list of certified or approved databases,
the Device needs to update its preconfigured list of databases. If
the Master Device retrieves its preconfigured list of databases from
a listing server, the device SHOULD check the listing server
periodically to update its list.
A Database MAY indicate that its URI will be changing by including
the URI of one or more alternate databases (See DbUpdateSpec
(Section 5.7)) in its responses to a Device. Before a Database
ceases operation, for example, it MUST include DbUpdateSpec in its
responses to notify Devices. A Device will update its preconfigured
list of databases to replace (only) its entry for the responding
Database with the URIs of the alternate databases; the list of
alternate databases does not affect any other entries.
Error Handling
The Device SHOULD select another database from its list of
preconfigured databases if:
o The selected database is unreachable or does not respond.
o The selected database returns an UNSUPPORTED error (see Error
Codes (Section 5.17)), which may indicate that the database does
not support the regulatory domain where the device is located.
If a suitable database cannot be contacted, the Device MUST treat
this as equivalent to a response indicating no available spectrum.
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If the Device is already operating when it fails to contact a
suitable database, the spectrum the Device is currently using can be
used for as long as the spectrum data is valid, but after that period
of time, the Device will no longer have valid spectrum to use. Some
regulators will have specific rules regarding how long the spectrum
data remains valid in these cases.
4.1.1. Listing Server
Within a regulatory domain that has a Database Listing Server, the
regulator can mandate its use by a Device to determine the URIs of
databases for the domain. The URI of the Listing Server for a
regulatory domain can be preconfigured in the device. Where allowed
by the regulator, the Device can save the database list and SHOULD
contact the Database Listing Server periodically to update its list.
The time between such updates MUST be no longer than one week, or any
update interval required by the applicable regulatory domain,
whichever is shorter.
If the Device is unable to contact the Database Listing Server to
obtain the list of databases for the domain, the Device MUST treat
this as equivalent to not having available spectrum. Some regulatory
domains may have additional rules regarding device behavior in such
cases.
The Database Listing request procedure is depicted in Figure 1.
o LISTING_REQ is the database-listing request message
o LISTING_RESP is the database-listing response message
+---------------+ +-------------------+
| Master Device | | Listing Server |
+---------------+ +-------------------+
| |
| LISTING_REQ |
|-------------------->|
| |
| LISTING_RESP |
|<--------------------|
| |
Figure 1
Specific message formats are defined by the regulators.
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4.2. Initialization
A Master Device SHOULD use the initialization procedure to exchange
capability information with the Database whenever the Master Device
powers up or initiates communication with the Database. The
initialization response informs the Master Device of specific
regulatory-dependent parameterized-rule values, such as threshold
distances and time periods beyond which the Device must update its
available-spectrum data (see RuleSetInfo (Section 5.6)). When a
Master Device is configured manually with these parameterized-rule
values, it does not need to use the initialization procedure. The
initialization message also represents extension points for database
implementations or regulatory domains that require the extra
handshake.
The Initialization request procedure is depicted in Figure 2.
o INIT_REQ (Section 4.2.1) is the initialization request message
o INIT_RESP (Section 4.2.2) is the initialization response message
+---------------+ +-------------------+
| Master Device | | Spectrum Database |
+---------------+ +-------------------+
| |
| INIT_REQ |
|-------------------->|
| |
| INIT_RESP |
|<--------------------|
| |
Figure 2
4.2.1. INIT_REQ
The initialization request message allows the Master Device to
initiate exchange of capabilities with the Database.
+---------------------------------------+
|INIT_REQ |
+----------------------------+----------|
|deviceDesc:DeviceDescriptor | required |
|location:GeoLocation | required |
|.......................................|
|*other:any | |
+----------------------------+----------+
Parameters:
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deviceDesc: The DeviceDescriptor (Section 5.2) for the Device is
REQUIRED. If the Database does not support the device or any of
the rulesets specified in the device descriptor, it MUST return an
error with the UNSUPPORTED (Table 1) code in the error response.
If the device descriptor does not contain any ruleset IDs, the
Database SHOULD return a list of RulesetInfo (Section 5.6)
parameters for each regulatory domain it supports at the specified
location.
location: The GeoLocation (Section 5.1) for the Device is REQUIRED.
other: The Master Device MAY specify additional handshake parameters
in the INIT_REQ message. The Database MUST ignore all parameters
it does not understand. To simplify its initialization logic, a
Master Device that supports multiple Databases and regulatory
domains can include the union of all required parameters for all
its supported regulatory domains. Consult the PAWS Parameters
Registry (Section 9.1) for possible additional parameters.
4.2.2. INIT_RESP
The initialization response message communicates database parameters
to the requesting device.
+---------------------------------------+
|INIT_RESP |
+----------------------------+----------+ 1..* +-------------+
|rulesetInfos:list | required |------->| RulesetInfo |
|databaseChange:DbUpdateSpec | optional | +-------------+
|.......................................|
|*other:any | |
+----------------------------+----------+
Parameters:
rulesetInfos: A list of RulesetInfo (Section 5.6) parameters MUST be
included in the response. Each RulesetInfo parameter corresponds
to a regulatory domain supported by the Database and is applicable
to the location specified in the INIT_REQ (Section 4.2.1) message.
If the Device included a list of ruleset IDs in the
DeviceDescriptor parameter of its INIT_REQ message, each
RulesetInfo parameter in the response MUST match one of the
specified ruleset IDs.
databaseChange: The Database MAY include a DbUpdateSpec
(Section 5.7) parameter to notify the Master Device of a change to
the Database URI, providing one or more alternate database URIs.
The Device needs to use the information to update its list of
preconfigured databases to replace (only) its entry for the
responding database with the list of alternate URIs.
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other: The Database MAY include additional handshake parameters in
the INIT_RESP (Section 4.2.2) message. The Master Device MUST
ignore all parameters it does not understand. Consult the PAWS
Parameters Registry (Section 9.1) for possible additional
parameters.
4.3. Device Registration
Some regulatory domains require a Master Device to send its
registration information to the Database in order to establish
certain operational parameters. FCC rules, for example, require that
a 'Fixed Device' register its owner and operator contact information,
its device identifier, its location, and its antenna height.
The Database MAY support device registration as a separate Device
Registration component, or as part of the Spectrum Availability
component. If the Database does not support a separate Device
Registration request, it MUST return an error with the UNIMPLEMENTED
(Table 1) code in the error-response message.
The Device Registration request procedure is depicted in Figure 3.
o REGISTRATION_REQ (Section 4.3.1) is the device-registration
request message
o REGISTRATION_RESP (Section 4.3.2) is the device-registration
response message
+---------------+ +-------------------+
| Master Device | | Spectrum Database |
+---------------+ +-------------------+
| |
| REGISTRATION_REQ |
|------------------------>|
| |
| REGISTRATION_RESP |
|<------------------------|
| |
Figure 3
4.3.1. REGISTRATION_REQ
The registration request message contains the required registration
parameters.
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+--------------------------------------------------------------+
|REGISTRATION_REQ |
+-------------------------------+------------------------------+
|deviceDesc:DeviceDescriptor | required |
|location:GeoLocation | required |
|deviceOwner:DeviceOwner | required |
|antenna:AntennaCharacteristics | depends on regulatory domain |
|..............................................................|
|*other:any | |
+-------------------------------+------------------------------+
Parameters:
deviceDesc: The DeviceDescriptor (Section 5.2) for the Master Device
is REQUIRED. The ruleset IDs included in the this parameter
indicate the regulatory domains for which the Device wishes to
register. If the registration information is unacceptable for all
of the regulatory domains supported by the Database, the Database
MUST return an error message with an appropriate error code.
Otherwise, the Database MUST return, in its response, a list of
RulesetInfo (Section 5.6) parameters for all regulatory domains
for which device registration was accepted.
location: The GeoLocation (Section 5.1) for the Device is REQUIRED.
deviceOwner: The DeviceOwner (Section 5.5) information is REQUIRED.
antenna: The AntennaCharacteristics (Section 5.3) is OPTIONAL. Some
regulatory domains may mandate its use.
other: Regulatory domains and database implementations may require
additional registration parameters. To simplify its registration
logic, the Master Device MAY send a union of the registration
information required by all supported regulatory domains. The
Database MUST ignore all parameters it does not understand.
Consult the PAWS Parameters Registry (Section 9.1) for possible
additional parameters.
4.3.2. REGISTRATION_RESP
The registration response message acknowledges successful
registration by including a RulesetInfo message for each regulatory
domain in which the registration is accepted. If the Database
accepts the registration for none of the regulatory domains it
supports, the Database MUST return the NOT_REGISTERED error (See
Error Codes (Section 5.17)).
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+---------------------------------------+
|REGISTRATION_RESP |
+----------------------------+----------+ 1..* +-------------+
|rulesetInfos:list | required |------->| RulesetInfo |
|databaseChange:DbUpdateSpec | optional | +-------------+
|............................|..........|
|*other:any | |
+----------------------------+----------+
Parameters:
rulesetInfos: A list of RulesetInfo (Section 5.6) parameters MUST be
included in the response. Each entry corresponds to a regulatory
domain for which the registration was accepted. The list MUST
contain at least one entry.
databaseChange: The Database MAY include a DbUpdateSpec
(Section 5.7) parameter to notify the Master Device of a change to
the Database URI, providing one or more alternate database URIs.
The Device needs to use the information to update its list of
preconfigured databases to replace (only) its entry for the
responding database with the list of alternate URIs.
other: Database implementations MAY return additional parameters in
the registration response. The Master Device MUST ignore any
parameters it does not understand. Consult the PAWS Parameters
Registry (Section 9.1) for possible additional parameters.
4.4. Available Spectrum Query
To obtain the available spectrum from the Database, a Master Device
sends a request that contains its geo-location and any parameters
required by the regulatory rules (such as device identifier,
capabilities, and characteristics). The Database returns a response
that describes which frequencies are available, at what permissible
operating power levels, and a schedule of when they are available.
The Available Spectrum Query procedure is depicted in Figure 4.
o AVAIL_SPECTRUM_REQ (Section 4.4.1) is the available-spectrum
request message.
o AVAIL_SPECTRUM_RESP (Section 4.4.2) is the available-spectrum
response message.
o AVAIL_SPECTRUM_BATCH_REQ (Section 4.4.3) is an OPTIONAL batch
version of the available-spectrum request message that allows
multiple locations to be specified in the request.
o AVAIL_SPECTRUM_BATCH_RESP (Section 4.4.4) is the response message
for the batch version of the available-spectrum request that
contains available spectrum for each location in the request.
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o SPECTRUM_USE_NOTIFY (Section 4.4.5) is the spectrum-usage
notification message.
o SPECTRUM_USE_RESP (Section 4.4.6) is the spectrum-usage
acknowledgment message.
+---------------+ +-------------------+
| Master Device | | Spectrum Database |
+---------------+ +-------------------+
| |
| AVAIL_SPECTRUM_REQ |
| (AVAIL_SPECTRUM_BATCH_REQ) |
|--------------------------->|
| |
| AVAIL_SPECTRUM_RESP |
| (AVAIL_SPECTRUM_BATCH_RESP)|
|<---------------------------|
| |
| (SPECTRUM_USE_NOTIFY) |
|--------------------------->|
| |
| (SPECTRUM_USE_RESP) |
|<---------------------------|
| |
Figure 4
1. First, the Master Device sends an available-spectrum request
message to the Database.
2. The Database MUST respond with an error using the NOT_REGISTERED
(Table 1) code if:
* registration information is required, and
* the request does not include registration information, and
* the Device has not previously registered with the Database
3. If the location specified in the request is outside the
regulatory domain supported by the Database, the Database MUST
respond with an OUTSIDE_COVERAGE (Table 1) error. If some
locations within a batch request are outside the regulatory
domain supported by the Database, the Database MAY return an OK
response with available spectrum for only the valid locations;
otherwise, if all locations within a batch request are outside
the regulatory domain, the Database MUST respond with an
OUTSIDE_COVERAGE error.
4. The Database MAY perform other validation of the request, (e.g.,
checking for missing required parameters, authorizations). It
MUST return an error with appropriate error code (Table 1), if
validation fails. If the request is missing required parameters,
the Database MUST respond with a REQUIRED (Table 1) error and
SHOULD include a list of the missing parameters.
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5. If the request is valid, the Database responds with an available-
spectrum response message. If the regulatory domain requires
that devices must report anticipated spectrum usage, the Database
MUST indicate so in the response message.
6. If the available-spectrum response indicates that the Master
Device must send a spectrum-usage notification message, the
Master Device MUST send the notification message to the Database.
7. If the Database receives a spectrum-usage notification message,
it MUST send a spectrum-usage acknowledgment message to the
Master Device.
The procedure for asking for available spectrum on behalf of a Slave
Device is similar, except that the process is initiated by the Slave
Device. The device identifier, capabilities, and characteristics
communicated in the AVAIL_SPECTRUM_REQ message MUST be those of the
Slave Device, but the location MUST be that of the Master Device.
Although the communication and protocol between the Slave Device and
Master Device is outside the scope of this document (represented as
dotted lines), the expected message sequence is shown in Figure 5.
+------------+ +---------------+ +-------------------+
|Slave Device| | Master Device | | Spectrum Database |
+------------+ +---------------+ +-------------------+
| | |
| AVAIL_SPEC_REQ | |
|................>| |
| | |
| | AVAIL_SPECTRUM_REQ |
| |-------------------------->|
| | |
| | AVAIL_SPECTRUM_RESP |
| |<--------------------------|
| AVAIL_SPEC_RESP | |
|<................| |
| | |
| (SPECTRUM_USE) | |
|................>| (SPECTRUM_USE_NOTIFY) |
| |-------------------------->|
| | |
| | (SPECTRUM_USE_RESP) |
| |<--------------------------|
| | |
Figure 5
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4.4.1. AVAIL_SPECTRUM_REQ
The request message for the Available Spectrum Query protocol MUST
include a geo-location. Regulatory domains may mandate that it be
the Device's current location or allow it to be an anticipated
location.
+-----------------------------------------------------------------+
|AVAIL_SPECTRUM_REQ |
+----------------------------------+------------------------------+
|deviceDesc:DeviceDescriptor | optional |
|location:GeoLocation | optional |
|owner:DeviceOwner | depends on regulatory domain |
|antenna:AntennaCharacteristics | depends on regulatory domain |
|capabilities:DeviceCapabilities | optional |
|masterDeviceDesc:DeviceDescriptor | optional |
|masterDeviceLocation:GeoLocation | optional |
|requestType:string | optional |
|..................................|..............................|
|*other:any | |
+----------------------------------+------------------------------+
Parameters:
deviceDesc: The DeviceDescriptor (Section 5.2) for the Device
requesting available spectrum. When the request is made by a
Master Device on its own behalf, the descriptor is that of the
Master Device and it is REQUIRED. When the request is made on
behalf of a Slave Device, the descriptor is that of the Slave
Device, and it is REQUIRED if the "requestType" parameter is not
specified. The deviceDesc parameter may be OPTIONAL for some
values of requestType.
location: The GeoLocation (Section 5.1) for the Device requesting
available spectrum. The location SHOULD be the current location
of the Device, but more precisely, the location of the radiation
center of the Device's antenna. When the request is made by the
Master Device on its own behalf, the location is that of the
Master Device and it is REQUIRED. When the request is made by the
Master Device on behalf of a Slave Device, the location is that of
the Slave Device and it is OPTIONAL (see also the
masterDeviceLocation parameter). The location may be an
anticipated position of the Device to support mobile devices, but
its use depends on regulatory rules. If the location specifies a
region, rather than a point, the Database MAY return an error with
the UNIMPLEMENTED (Table 1) code, if it does not support query by
region.
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owner: The DeviceOwner (Section 5.5) information MAY be included to
register the Device with the Database. This enables the Device to
register and get spectrum-availability information in a single
request. Some regulatory domains mandate registration for
specific device types.
antenna: The AntennaCharacteristics (Section 5.3) is OPTIONAL. Some
regulatory domains may require this parameter.
capabilities: The Master Device MAY include its DeviceCapabilities
(Section 5.4) to limit the available-spectrum response to the
spectrum that is compatible with its capabilities. The Database
SHOULD NOT return spectrum that is not compatible with the
specified capabilities.
masterDeviceDesc: When the request is made by the Master Device on
behalf of a Slave Device, the Master Device MAY provide its own
descriptor. Some regulatory domains may require it.
masterDeviceLocation: When the request is made by the Master Device
on behalf of a Slave Device, the Master Device MAY provide its own
GeoLocation (Section 5.1). Some regulatory domains may require
it.
requestType: The request type is an OPTIONAL parameter that may be
used to modify the request, but its use depends on applicable
regulatory rules. The request type may be used, for example, to
indicate a the response should include generic Slave Device
parameters without having to specify the device descriptor for a
specific device. When the requestType parameter is missing, the
request is for a specific device (Master or Slave), so the
deviceDesc parameter is REQUIRED. See IANA Ruleset Registry,
Initial Registry Contents (Section 9.2.2) for regulatory
specifics.
other: Regulatory domains and database implementations may require
additional request parameters. The Database MUST ignore all
parameters it does not understand. Consult the PAWS Parameters
Registry (Section 9.1) for possible additional parameters.
4.4.2. AVAIL_SPECTRUM_RESP
The response message for the Available Spectrum Query contains one or
more SpectrumSpec (Section 5.9) elements, one for each regulatory
domain supported at the location specified in the corresponding
AVAIL_SPECTRUM_REQ (Section 4.4.1) request. Each SpectrumSpec
element contains a list of one or more spectrum schedules,
representing permissible power levels over time:
o Within each list of schedules, event-time intervals MUST be
disjoint and SHOULD be sorted in increasing time.
o A gap in the time schedule means no spectrum is available for that
time interval.
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+---------------------------------------+
|AVAIL_SPECTRUM_RESP |
+----------------------------+----------+
|timestamp:string | required |
|deviceDesc:DeviceDescriptor | required |
|spectrumSpecs:list | required |-------+
|............................|..........| |
|databaseChange:DbUpdateSpec | optional | |
|*other:any | | |
+----------------------------+----------+ | 1..*
V
+-----------------------------------+
|SpectrumSpec |
+------------------------+----------+
|rulesetInfo:RulesetInfo | required |
|spectrumSchedules:list | required |-+
|timeRange:EventTime | optional | |
|frequencyRanges:list | optional | |
|needsSpectrumReport:bool| optional | |
|maxTotalBwHz:float | optional | |
|maxContiguousBwHz:float | optional | |
+------------------------+----------+ |
+--------------------+
| 1..*
V
+-------------------------------+
|SpectrumSchedule |
+--------------------+----------+
|eventTime:EventTime | required |
|spectra:list | required |
+--------------------+----------+
Parameters:
timestamp: Timestamp of the response of the form, YYYY-MM-
DDThh:mm:ssZ, as defined by Date and Time on the Internet:
Timestamps [RFC3339]. This SHOULD be used by the Device as a
reference for the start and stop times in the spectrum schedules.
deviceDesc: The Database MUST include the DeviceDescriptor
(Section 5.2) specified in the AVAIL_SPECTRUM_REQ message.
spectrumSpecs: The SpectrumSpec (Section 5.9) list is REQUIRED and
MUST include at least one entry. Each entry contains the
schedules of available spectrum for a regulatory domain. The
Database MAY return more than one SpectrumSpec to represent
available spectrum for multiple regulatory domains at the
specified location.
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databaseChange: The Database MAY include a DbUpdateSpec
(Section 5.7) parameter to notify the Device of a change to the
Database URI, providing one or more alternate database URIs. The
Device needs to use the information to update its list of
preconfigured databases to replace (only) its entry for the
responding database with the list of alternate URIs.
other: Database implementations MAY return additional parameters in
the response. The Device MUST ignore any parameters that it does
not understand. Consult the PAWS Parameters Registry
(Section 9.1) for possible additional parameters and requirements
they place on the Device.
4.4.2.1. Update Requirements
When the stop time specified in the schedule has been reached, the
Device:
o MUST obtain a new spectrum-availability schedule, either by using
the next one in the list (if provided) or making another Available
Spectrum Query (Section 4.4).
o If the Device is unable to contact the Database to obtain a new
schedule, it MUST treat this as equivalent to a response with no
available spectrum.
Some regulatory domains also mandate that a Device must obtain a new
specturm-availability schedule if the Device moves beyond a threshold
distance (established by regulatory rules) away from the actual
location and all anticipated location(s) it reported in previous
AVAIL_SPECTRUM_REQ or AVAIL_SPECTRUM_BATCH_REQ requests (see
"maxLocationChange" in RulesetInfo (Section 5.6)). If the Device is
unable to contact the Database to obtain a new schedule, it MUST
treat this as equivalent to a response with no available spectrum.
NOTE: Regulatory rules determine required device behavior when
spectrum is no longer available. Regulatory rules also govern
whether a device may request and use spectrum at anticipated
locations beyond the threshold distance from its current location.
4.4.3. AVAIL_SPECTRUM_BATCH_REQ
The Database MAY support the batch request that allows multiple
locations to be specified. This enables a portable Master Device,
for example, to get available spectrum for a sequence of anticipated
locations using a single request. The Database MUST interpret each
location in the batch request as if it were an independent request
and MUST return results consistent with multiple individual
AVAIL_SPECTRUM_REQ (Section 4.4.1) requests. The request message for
the batch Available Spectrum Query protocol MUST include at least one
GeoLocation (Section 5.1). If the Database does not support batch
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requests, it MUST return an UNIMPLEMENTED (Table 1) error.
NOTE: Whether anticipated locations are allowed depends on specified
regulatory rules.
+----------------------------------------------------------------+
|AVAIL_SPECTRUM_BATCH_REQ |
+---------------------------------+------------------------------+
|deviceDesc:DeviceDescriptor | optional |
|locations:list | required |--+
|owner:DeviceOwner | depends on regulatory domain | |
|antenna:AntennaCharacteristics | depends on regulatory domain | |
|capabilities:DeviceCapabilities | optional | |
|masterDeviceDesc:DeviceDescriptor| optional | |
|masterDeviceLocation:GeoLocation | optional | |
|requestType:string | optional | |
+.................................+..............................+ |
|*other:any | | |
+---------------------------------+------------------------------+ |
|
1..* V
+-------------+
| GeoLocation |
+-------------+
Parameters:
deviceDesc: The DeviceDescriptor (Section 5.2) for the Device
requesting available spectrum. When the request is made by a
Master Device on its own behalf, the descriptor is that of the
Master Device and it is REQUIRED. When the request is made on
behalf of a Slave Device, the descriptor is that of the Slave
Device, and it is REQUIRED if the "requestType" parameter is not
specified. The deviceDesc parameter may be OPTIONAL for some
values of requestType.
locations: The GeoLocation (Section 5.1) list for the Device is
REQUIRED. This allows the Device to specify its actual location
plus additional anticipated locations. At least one location MUST
be included. This specification places no upper limit on the
number of locations, but the Database MAY restrict the number of
locations it supports by returning a response with fewer locations
than specified in the request. If the locations specify regions,
rather than points, the Database MAY return an error with the
UNIMPLEMENTED (Table 1) code, if it does not support query by
region. When the request is made by a Master Device on its own
behalf, the locations are those of the Master Device. When the
request is made by the Master Device on behalf of a Slave Device,
the locations are those of the Slave Device (see also the
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masterDeviceLocation parameter).
owner: The DeviceOwner (Section 5.5) information MAY be included to
register the Device with the Database. This enables the Device to
register and get spectrum-availability information in a single
request. Some regulatory domains mandate registration for
specific device types.
antenna: The AntennaCharacteristics (Section 5.3) is OPTIONAL. Some
regulatory domains may require this parameter.
capabilities: The Master Device MAY include its DeviceCapabilities
(Section 5.4) to limit the available-spectrum response to the
spectrum that is compatible with its capabilities. The Database
SHOULD NOT return spectrum that is not compatible with the
specified capabilities.
masterDeviceDesc: When the request is made by the Master Device on
behalf of a Slave Device, the Master Device MAY provide its own
descriptor. Some regulatory domains may require it.
masterDeviceLocation: When the request is made by the Master Device
on behalf of a Slave Device, the Master Device MAY provide its own
GeoLocation (Section 5.1). Some regulatory domains may require
it.
requestType: The request type is an OPTIONAL parameter that may be
used to modify the request, but its use depends on applicable
regulatory rules. The request type may be used, for example, to
request generic Slave Device parameters without having to specify
the device descriptor for a specific device. When the requestType
parameter is missing, the request is for a specific device (Master
or Slave), so the deviceDesc parameter is REQUIRED. See IANA
Ruleset Registry, Initial Registry Contents (Section 9.2.2) for
regulatory specifics.
other: Regulatory domains and database implementations may require
additional request parameters. The Database MUST ignore all
parameters it does not understand. Consult the PAWS Parameters
Registry (Section 9.1) for possible additional parameters.
4.4.4. AVAIL_SPECTRUM_BATCH_RESP
The response message for the batch Available Spectrum Query contains
a schedule of available spectrum for the Device at multiple
locations.
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+---------------------------------------+
|AVAIL_SPECTRUM_BATCH_RESP |
+----------------------------+----------+
|timestamp:string | required |
|deviceDesc:DeviceDescriptor | required |
|geoSpectrumSpecs:list | required |-------+
|............................|..........| |
|databaseChange:DbUpdateSpec | optional | |
|*other:any | | |
+----------------------------+----------+ | 0..*
V
+---------------------------------+
|GeoSpectrumSpec |
+----------------------+----------+
|location:GeoLocation | required |
|spectrumSpecs:list | required |
+----------------------+----------+
Parameters:
timestamp: Timestamp of the response of the form, YYYY-MM-
DDThh:mm:ssZ, as defined by Date and Time on the Internet:
Timestamps [RFC3339]. This SHOULD be used by the Device as a
reference for the start and stop times in the spectrum schedules.
deviceDesc: The Database MUST include the DeviceDescriptor
(Section 5.2) specified in the AVAIL_SPECTRUM_BATCH_REQ message.
geoSpectrumSpecs: The geoSpectrumSpecs (Section 5.15) list is
REQUIRED (although it MAY be empty if spectrum is unavailable).
For each location, the Database MAY return one or more
SpectrumSpec (Section 5.9) parameters to represent available
spectrum for one or more regulatory domains. The Database MAY
return available spectrum for fewer locations than requested. The
Device MUST NOT make any assumptions on the order of the entries
in the list and MUST use the location value in each
GeoSpectrumSpec entry to match available spectrum to a location.
databaseChange: The Database MAY include a DbUpdateSpec
(Section 5.7) parameter to notify the Device of a change to the
Database URI, providing one or more alternate database URIs. The
Device needs to use the information to update its list of
preconfigured databases to replace (only) its entry for the
responding database with the list of alternate URIs.
other: Database implementations MAY return additional parameters in
the response. Consult the PAWS Parameters Registry (Section 9.1)
for possible additional parameters and requirements they place on
the Device.
See Update Requirements (Section 4.4.2.1) for when the Device must
update its available spectrum data.
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4.4.5. SPECTRUM_USE_NOTIFY
The spectrum-use notification message MUST contain the geo-location
of the Device. Some regulatory domains may mandate additional
parameters.
+--------------------------------------------+
|SPECTRUM_USE_NOTIFY |
+---------------------------------+----------+
|deviceDesc:DeviceDescriptor | required |
|location:GeoLocation | required |
|masterDeviceDesc:DeviceDescriptor| optional |
|masterDeviceLocation:GeoLocation | optional |
|spectra:list | required |-------+
|............................................| |
|*other:any | | |
+---------------------------------+----------+ | 0..*
V
+--------------------------------+
|Spectrum |
+---------------------+----------+
|resolutionBwHz:float | required |
|profiles:list | required |
+---------------------+----------+
Parameters:
deviceDesc: The DeviceDescriptor (Section 5.2) for the Device is
REQUIRED.
location: The GeoLocation (Section 5.1) for the Device. When the
notification is made by a Master Device on its own behalf, the
location is that of the Master Device and is REQUIRED. When the
notification is made by a Master Device on behalf of a Slave
Device, the location is that of the Slave Device and is OPTIONAL,
but may be required by some regulatory domains.
spectra: The Spectrum (Section 5.11) list is REQUIRED, and specifies
the spectrum anticipated to be used by the Device, which includes
profiles of frequencies and power levels. The list MAY be empty,
if the Device decides not to use any spectrum. For consistency,
the resolution bandwidth value, "resolutionBwHz" SHOULD match that
from one of the Spectrum (Section 5.11) elements in the
corresponding AVAIL_SPECTRUM_RESP message, and the maximum power
levels in the Spectrum element MUST be expressed as power over the
specified "resolutionBwHz" value. The actual bandwidth to be used
(as computed from the start and stop frequencies) MAY be different
from the "resolutionBwHz" value. As an example, when regulatory
rules express maximum power spectral density in terms of maximum
power over any 100 kHz band, then the "resolutionBwHz" value
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should be set to 100 kHz, even though the actual bandwidth used
can be 20 kHz.
masterDeviceDesc: When the notification is made by the Master Device
on behalf of a Slave Device, the Master Device MAY provide its own
descriptor. Some regulatory domains may require it.
masterDeviceLocation: When the notification is made by the Master
Device on behalf of a Slave Device, the Master Device MAY include
its own GeoLocation (Section 5.1). Some regulatory domains may
require this parameter.
other: Depending on the regulatory domain, other parameters may be
required. To simplify its logic, the Device MAY include the union
of all parameters required by all supported regulatory domains.
The Database MUST ignore all parameters it does not understand.
4.4.6. SPECTRUM_USE_RESP
The spectrum-use response message simply acknowledges receipt of the
notification.
+---------------------------------------+
|SPECTRUM_USE_RESP |
+----------------------------+----------+
|databaseChange:DbUpdateSpec | optional |
|.......................................|
|*other:any | |
+----------------------------+----------+
Parameters:
databaseChange: The Database MAY include a DbUpdateSpec
(Section 5.7) parameter to notify the Device of a change to the
Database URI, providing one or more alternate database URIs. The
Device needs to use the information to update its list of
preconfigured databases to replace (only) its entry for the
responding database with the list of alternate URIs.
other: Database implementations MAY return additional parameters in
the response. Consult the PAWS Parameters Registry (Section 9.1)
for possible additional parameters.
4.5. Device Validation
Typically, a Slave Device needs a Master Device to ask the Database
on its behalf for available spectrum. Depending on the regulatory
domain, the Master Device also must validate with the Database that
the Slave Device is permitted to operate. When regulatory rules
allow a Master Device to "cache" the available spectrum for a period
of time, the Master Device may use the simpler Device Validation
component, instead of the full Available Spectrum Query component, to
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validate a Slave Device.
When validating one or more Slave Devices, the Master Device sends
the Database a request that includes the device identifier -- and any
other parameters required by the regulatory rules -- for each Slave
Device. The Database MUST return a response with and entry for each
device to indicate whether it is permitted to use the spectrum.
A typical sequence for using the Device Validation request is
illustrated in Figure 6, where the Master Device already has a valid
set of available spectrum for Slave Devices. Note that the
communication and protocol between the Slave Device and Master Device
is outside the scope of this document.
o DEV_VALID_REQ (Section 4.5.1) is the device-validation request
message
o DEV_VALID_RESP (Section 4.5.2) is the device-validation response
message
+------------+ +---------------+ +-------------------+
|Slave Device| | Master Device | | Spectrum Database |
+------------+ +---------------+ +-------------------+
| | |
| AVAIL_SPEC_REQ | |
|................>| |
| | |
| | DEV_VALID_REQ |
| |-------------------------->|
| | |
| | DEV_VALID_RESP |
| |<--------------------------|
| AVAIL_SPEC_RESP | |
|<................| |
| | |
| (SPECTRUM_USE) | |
|................>| (SPECTRUM_USE_NOTIFY) |
| |-------------------------->|
| | |
| | (SPECTRUM_USE_RESP) |
| |<--------------------------|
Figure 6
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4.5.1. DEV_VALID_REQ
+---------------------------------------------+
|DEV_VALID_REQ |
+----------------------------------+----------+
|deviceDescs:list | required |---+
|masterDeviceDesc:DeviceDescriptor | optional | |
+----------------------------------+----------+ |
V 1..*
+----------------------+
|DeviceDescriptor |
+----------------------+
Parameters:
deviceDescs: A DeviceDescriptor (Section 5.2) list is REQUIRED,
which specifies the list of Slave Devices that are to be
validated.
masterDeviceDesc: The Master Device MAY provide its own descriptor.
Some regulatory domains may require it.
4.5.2. DEV_VALID_RESP
+---------------------------------------+
|DEV_VALID_RESP |
+----------------------------+----------+
|deviceValidities:list | required |----
|databaseChange:DbUpdateSpec | optional | |
+----------------------------+----------+ |
V 1..*
+---------------------------------------+
|DeviceValidity |
+----------------------------+----------+
|deviceDesc:DeviceDescriptor | required |
|isValid:boolean | required |
|reason:string | optional |
+----------------------------+----------+
Parameters:
deviceValidities: A DeviceValidities (Section 5.16) list is REQUIRED
to report the list of Slave Devices and whether each listed Device
is valid. The number of entries MUST match the number of
DeviceDescriptors (Section 5.2) listed in the DEV_VALID_REQ
message.
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databaseChange: The Database MAY include a DbUpdateSpec
(Section 5.7) parameter to notify the Device of a change to the
Database URI, providing one or more alternate database URIs. The
Device needs to use the information to update its list of
preconfigured databases to replace (only) its entry for the
responding database with the list of alternate URIs.
5. Protocol Parameters
This section presents more details of the parameters that make up the
PAWS request and response messages. It also includes a sub-section
defining response codes.
5.1. GeoLocation
This parameter is used to specify the geo-location of the Device. It
may be used to specify one of the following:
o A single point with optional uncertainty
o A region described by a polygon
These are represented using geometric shapes defined in Section 5 of
GEOPRIV Presence Information Data Format Location Object [RFC5491],
where:
o A "point" with uncertainty is represented using the Ellipse shape
o A region is represented using the Polygon shape
The coordinates are expressed using the WGS84 datum [WGS-84], and
units are degrees or meters. The parameter MAY also include a
confidence level, expressed as a percentage. The data model for
GeoLocation is illustrated below:
+-------------------------------------------------+
|GeoLocation |
+------------------+------------------------------+
|point:Ellipse | optional |
|region:Polygon | optional |
|confidence:int | depends on regulatory domain |
+------------------+------------------------------+
Note: point and region are mutually exclusive. Exactly one must
be present.
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+---------------------------------------------------+
|Ellipse |
+--------------------+------------------------------+
|center:Point | required |--+
|semiMajorAxis:float | depends on regulatory domain | |
|semiMinorAxis:float | depends on regulatory domain | |
|orientation:float | optional | |
+--------------------+------------------------------+ v
+---------------------------+
|Point |
+----------------+----------+
|latitude:float | required |
|longitude:float | required |
+----------------+----------+
+-------------------------------+
|Polygon |
+-------------------+-----------+ 4..* +---------------------------+
|exterior:list | required |------>|Point |
+-------------------+-----------+ +----------------+----------+
|latitude:float | required |
|longitude:float | required |
+----------------+----------+
Parameters:
point: If present, it indicates that the GeoLocation represents a
point. Paradoxically, a "point" is parameterized using an
Ellipse, where the center represents the location of the point and
the distances along the major and minor axes represent the
uncertainty. The uncertainty values may be required, depending on
the regulatory domain. Exactly one of "point" or "region" MUST be
present.
region: If present, it indicates that the GeoLocation represents a
region. Exactly one of "point" or "region" MUST be present.
center: The center refers to the location of a GeoLocation point and
is represented as the center of an ellipse.
latitude, longitude: Floating-point numbers that express the
latitude and longitude in degrees using the WGS84 datum [WGS-84].
semiMajorAxis, semiMinorAxis: The location uncertainty, expressed in
meters, is OPTIONAL. It is parameterized using distances along
the major and minor axes of the ellipse. The default value is 0.
Some regulatory domains may require that they be provided
explicitly.
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orientation: This defines the orientation of the ellipse, expressed
as the rotation, in degrees, of the semi-major axis from North
towards the East. For example, when the uncertainty is greatest
along the North-South direction, orientation is 0 degrees;
conversely, if the uncertainty is greatest along the East-West
direction, orientation is 90 degrees. When orientation is not
present, the orientation MUST be interpreted as 0. Some
regulatory domains may require that orientation be provided
explicitly.
exterior: When GeoLocation describes a region, the "exterior" field
refers to a list of latitude/longitude points that represents the
vertices of a polygon. The first and last points MUST be the
same. Thus, a minimum of 4 points is required. The following
polygon restrictions from [RFC5491] apply:
* A connecting line MUST NOT cross another connecting line of the
same polygon.
* The vertices MUST be defined in a counter-clockwise direction.
* The edges of a polygon are defined by the shortest path between
two points in space (not a geodesic curve). Consequently, the
length between two adjacent vertices SHOULD be restricted to a
maximum of 130 km.
* All vertices are assumed to be at the same altitude.
* Polygon shapes SHOULD be restricted to a maximum of 15 vertices
(16 points that includes the repeated vertex).
confidence: The location confidence level, as a percentage, MAY be
provided. Some regulatory domains may require that it be provided
explicitly. When the parameter is not provided, its value MUST be
interpreted as 95. Valid values range from 0 to 100, but, in
practice, 100-percent confidence is not achievable. The
confidence value is meaningful only when GeoLocation refers to a
point with uncertainty.
5.2. DeviceDescriptor
The device descriptor contains parameters that identify the specific
device, such as its manufacturer serial number, regulatory-specific
ID (e.g., FCC ID), and any other device characteristics required by
regulatory domains.
+--------------------------------+
|DeviceDescriptor |
+---------------------+----------+
|serialNumber:string | required |
|manufacturerId:string| optional |
|modelId:string | optional | 1..*
|rulesetIds:list | optional |------>string
|.....................|..........|
|*other:any | |
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+---------------------+----------+
Parameters:
serialNumber: The manufacturer's device serial number is REQUIRED.
The length of the value MUST NOT exceed 64 characters, conforming
to the X.520 [ITUT.X520.2008] recommendations.
manufacturerId: The manufacturer's ID is OPTIONAL, but may be
required by some regulatory domains. This SHOULD represent the
name of the device manufacturer, SHOULD be consistent across all
devices from the same manufacturer, and SHOULD be distinct from
that of other manufacturers. The string value MUST NOT exceed 64
characters in length.
modelId: The device's model ID is OPTIONAL, but may be required by
some regulatory domains. The string value MUST NOT exceed 64
characters in length.
rulesetIds: The list of identifiers for rulesets supported by the
device (see Ruleset ID Registry (Section 9.2)). A Database MAY
require that the device provides this list before servicing the
device requests. If the Database does not support any of the
rulesets specified in the list, the Database MAY refuse to service
the device requests. See RulesetInfo (Section 5.6) for discussion
on ruleset identifier. If present, the list MUST contain at least
one entry.
other: Depending on the regulatory domain, other parameters may be
required. The Database MUST ignore all parameters in the message
it does not understand. See PAWS Parameters Registry
(Section 9.1) for additional valid parameters and for the process
for extending the message with more parameters. Additionally, see
PAWS Ruleset ID Registry (Section 9.2) for the valid set of
parameters for each ruleset.
5.3. AntennaCharacteristics
Antenna characteristics provide additional information, such as the
antenna height, antenna type, etc. Whether antenna characteristics
must be provided in a request depends on the device type and
regulatory domain.
+--------------------------------------------------------+
|AntennaCharacteristics |
+-------------------------+------------------------------+
|height:float | depends on regulatory domain |
|heightType:enum | optional |
|heightUncertainty:float | depends on regulatory domain |
|.........................|..............................|
|*characteristics: | depends on regulatory domain |
| various | |
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+-------------------------+------------------------------+
Parameters:
height: The antenna height in meters. Whether the antenna height is
required depends on the device type and the regulatory domain.
Note that the height may be negative.
heightType: If the height is provided, then heightType is REQUIRED.
Valid values are:
AGL Above ground level (default)
AMSL Above mean sea level
heightUncertainty: The height uncertainty in meters. Whether this
is required depends on the regulatory domain.
NOTE: Depending on the regulatory domain, additional antenna
characteristics may be required, such as:
o antenna direction
o antenna radiation pattern
o antenna gain
o antenna polarization
These are not defined by the base protocol, but may be added to the
PAWS Parameters Registry (Section 9.1), as needed.
5.4. DeviceCapabilities
Device capabilities provide additional information that may be used
by the Device to provide additional information to the Database that
can help it to determine available spectrum. If the Database does
not support device capabilities it MUST ignore the parameter
altogether.
+-------------------------------+
|DeviceCapabilities |
+---------------------+---------+
|frequencyRanges:list |optional |--+
|.....................|.........| |
|*other:any | | |
+---------------------+---------+ | 0..*
V
+--------------------------------+
|FrequencyRange |
+----------------------+---------+
|startHz:float |required |
|stopHz:float |required |
+----------------------+---------+
Parameters:
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frequencyRanges: Optional FrequencyRange (Section 5.13) list. Each
FrequencyRange element MUST contain start and stop frequencies in
which the Device can operate. When specified, the Database SHOULD
NOT return available spectrum that falls outside these ranges.
other Consult the PAWS Parameters Registry (Section 9.1) for
possible additional parameters. The Database MUST ignore all
parameters it does not understand.
5.5. DeviceOwner
This parameter contains device-owner information required as part of
device registration. Regulatory domains may require additional
parameters.
+-----------------------------+
|DeviceOwner |
+------------------+----------+
|owner:vcard | required |
|operator:vcard | optional |
+------------------+----------+
Parameters:
owner: The vCard contact information for the individual or business
that owns the Device is REQUIRED.
operator: The vCard contact information for the device operator is
OPTIONAL, but may be required by specific regulatory domains
NOTE: Depending on the regulatory domain, the Database may be
required to validate the device-owner information. In these cases,
the Database MUST respond with an INVALID_VALUE error (see Error
Codes (Section 5.17)) if validation fails. See PAWS Ruleset ID
Registry (Section 9.2) for regulatory-specific requirements on
mandatory vCard properties.
All contact information MUST be expressed using the structure defined
by the vCard Format Specification [RFC6350]. Note that the vCard
specification defines maximum lengths for each field, conforming to
X.520 [ITUT.X520.2008] recommendations.
5.6. RulesetInfo
This contains parameters for the ruleset of a regulatory domain that
is communicated using the Initialization component (Section 4.2),
Device Registration (Section 4.3), and Available Spectrum Query
(Section 4.4) components.
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+-----------------------------------+
|RulesetInfo |
+-----------------------------------+
|authority:string | required |
|rulesetId:string | required |
|maxLocationChange:float | optional |
|maxPollingSecs:int | optional |
|...................................|
|*other:any | |
+------------------------+----------+
Parameters:
authority: A string that indicates the regulatory domain to which
the ruleset applies is REQUIRED. It MUST be a 2-letter country
code defined by Country Codes - ISO 3166 [ISO3166-1].
rulesetId: The ID of a ruleset for the specified authority (see
Ruleset ID Registry (Section 9.2)). The Device can use this to
determine additional device behavior required by the associated
regulatory rules.
maxLocationChange: The maximum location change in meters is REQUIRED
for Initialization Response (Section 4.2.2), but OPTIONAL
otherwise. Some regulatory domains mandate that, when the Device
changes location by more than this specified distance, it contact
the Database to get the available spectrum for the new location.
If this value is provided by the Database within the context of an
Available Spectrum Response (Section 4.4.2), it takes precedence
over the value within the Initialization Response (Section 4.2.2).
maxPollingSecs: The maximum duration, in seconds, between requests
for available spectrum is REQUIRED for the Initialization Response
(Section 4.2.2), but OPTIONAL otherwise. The Device MUST contact
the Database to get available spectrum no less frequently than
this duration. If this value is provided within the context of an
Available Spectrum Response (Section 4.4.2), it takes precedence
over the value within the Initialization Response (Section 4.2.2).
other: This message is intended to be extensible with other
regulatory-specific parameters. Devices MUST ignore all
parameters in the message it does not understand. Consult the
PAWS Parameters Registry (Section 9.1) for possible additional
parameters.
5.7. DbUpdateSpec
This element is provided by the Database to notify devices of an
upcoming change to the Database URI.
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+-------------------------------+
|DbUpdateSpec |
+---------------------+---------+ +--------------------------+
|databases:list |required |------>|DatabaseSpec |
+---------------------+---------+ 1..* +---------------+----------+
|name:string | required |
|uri:string | required |
+---------------+----------+
Parameters:
databases: List of one or more DatabaseSpec (Section 5.8) entries.
A Device needs to update its preconfigured list of databases to
replace (only) the database that provided the response with the
specified entries.
5.8. DatabaseSpec
This element contains the name and URI of a database.
+--------------------------+
|DatabaseSpec |
+---------------+----------+
|name:string | required |
|uri:string | required |
+---------------+----------+
Parameters:
name: The display name for a database.
uri: The corresponding URI of the database.
5.9. SpectrumSpec
The SpectrumSpec element encapsulates the schedule of available
spectrum for a regulatory domain.
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+---------------------------------------+
|SpectrumSpec |
+----------------------------+----------+
|rulesetInfo:RulesetInfo | required |
|spectrumSchedules:list | required |-----+
|timeRange:EventTime | optional | |
|frequencyRanges:list | optional | |
|needsSpectrumReport:boolean | optional | |
|maxTotalBwHz:float | optional | |
|maxContiguousBwHz:float | optional | |
+----------------------------+----------+ |
| 1..*
V
+-------------------------------+
|SpectrumSchedule |
+--------------------+----------+
|eventTime:EventTime | required |
|spectra:list | required |
+--------------------+----------+
Parameters:
rulesetInfo: The RulesetInfo (Section 5.6) is REQUIRED to identify
the regulatory domain and ruleset for which the spectrum schedule
applies (see Ruleset ID Registry (Section 9.2)). The Device needs
to use the corresponding ruleset to interpret the response.
Values provided within this parameter, such as maxLocationChange,
take precedence over the values provided by the Initialization
Procedure (Section 4.2).
spectrumSchedules: The SpectrumSchedule (Section 5.10) list is
REQUIRED. At least one schedule MUST be included. More than one
schedule MAY be included to represent future changes to the
available spectrum. How far in advance a schedule may be provided
depends on the regulatory domain. If more than one schedule is
included, the eventTime intervals MUST be disjoint and SHOULD be
sorted in increasing time. A gap in the time schedule indicates
no available spectrum during that time-interval gap.
timeRange: The time range for which the specification is
comprehensive is OPTIONAL. When specified, any gaps in time
intervals within the "spectrumSchedules" element that overlaps
with the range specified by "timeRange" MUST be interpreted by the
Device as time intervals in which there are is available spectrum.
frequencyRanges: The frequency ranges for which the specification is
comprehensive is OPTIONAL. It is a list of disjoint
FrequencyRange (Section 5.13) entries. When specified, it SHOULD
correspond to the frequency ranges governed by the ruleset. A
Device can combine this information with the available-spectrum
specification within the "spectrumSchedules" element to
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distinguish between "unavailable spectrum" and "spectrum for which
no information has been provided".
needsSpectrumReport: The Database MAY return true for this parameter
if spectrumSchedules list is non-empty; otherwise, the Database
MAY omit this parameter altogether, which the Device MUST treat as
the same as a false value. If this parameter is present and its
value is true, the Device MUST send a SPECTRUM_USE_NOTIFY
(Section 4.4.5) message to the Database; otherwise, the Device
SHOULD NOT send the SPECTRUM_USE_NOTIFY message. Some regulatory
domains mandate this value to be true.
maxTotalBwHz: The Database MAY return a constraint on the maximum
total bandwidth (in Hertz) allowed, which may or may not be
contiguous. Some regulatory domains mandate the Database to
return this parameter. When present in the response, the Device
needs to apply this constraint to its spectrum-selection logic to
ensure total bandwidth does not exceed this value.
maxContiguousBwHz: The Database MAY return a constraint on the
maximum contiguous bandwidth (in Hertz) allowed. Some regulatory
domains mandate the Database to return this parameter. When
present in the response, the Device needs to apply this constraint
to its spectrum-selection logic to ensure no single block of
spectrum has bandwidth that exceeds this value.
5.10. SpectrumSchedule
The SpectrumSchedule element combines EventTime (Section 5.14) with
Spectrum (Section 5.11) to define a time period in which the spectrum
is valid.
+-------------------------------+
|SpectrumSchedule |
+--------------------+----------+
|eventTime:EventTime | required | +--------------------+
|spectra:list | required |------->|Spectrum |
+--------------------+----------+ 0..* +--------------------+
|resolutionBwHz:float|
|profiles:list |
+--------------------+
Parameters:
eventTime: The EventTime (Section 5.14) is REQUIRED to express
"when" this specification is valid.
spectra: The Spectrum (Section 5.11) list is REQUIRED to specify the
available spectrum and permissible power levels, one per
resolutionBwHz. The list MAY be empty when there is no available
spectrum.
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5.11. Spectrum
Available spectrum can be characterized by an ordered list of
spectrum profiles that defines permissible power levels over a set of
frequency ranges. Each Spectrum element defines permissible power
levels as maximum power spectral densities over a specified
resolution bandwidth, "resolutionBwHz". Note that the spectrum
profiles represent the "availability mask", as defined by the
governing rule set; they are not intended to encode device-level
transmission-mask requirements.
o To support regulatory rules that define different "wide-band" and
"narrow-band" power levels, PAWS allows multiple Spectrum elements
to be included in the available-spectrum response, each with a
different resolution bandwidth.
o When multiple Spectrum elements are included in the response, they
represent a logical AND condition, such that the Device MUST
satisfy all the conditions.
o Each Spectrum element MUST cover the range of frequencies governed
by a ruleset, rather than splitting the frequencies across
multiple Spectrum elements for the same resolution bandwidth.
o Each spectrum profile represents the maximum permissible power
spectral density over a contiguous range of frequencies.
o When multiple spectrum profiles are included, they MUST be
disjoint and SHOULD be ordered in non-decreasing frequency value.
o Gaps in frequencies between consecutive spectrum profiles
represent unavailability for those frequencies.
The following figure illustrates the Spectrum element and the
SpectrumProfile list.
+-------------------------------+
|Spectrum |
+---------------------+---------+
|resolutionBwHz:float |required |
|profiles:list |required |---+
+---------------------+---------+ | 0..*
V
+-----------------------------+
|SpectrumProfile |
+-------------------+---------+
|list |required |
+-------------------+---------+
|
V 2..*
+----------------+---------+
|hz:float |required |
|dbm:float |required |
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+----------------+---------+
Parameters:
resolutionBwHz: This parameter is REQUIRED to define the resolution
bandwidth (in Hertz) over which permissible power spectral density
is defined. For example, FCC regulation would require one
spectrum specification at a bandwidth of 6MHz, and ETSI regulation
would require two specifications, at 0.1MHz and 8MHz.
profiles: A SpectrumProfile (Section 5.12) list is REQUIRED to
specify permissible power levels over a set of frequency ranges.
The list MAY be empty if there is no available spectrum.
Consider the following example with two different sets of permitted
power spectral densities for the same set of frequencies over
different resolution bandwidths (for illustrative purposes only):
[
{
"resolutionBwHz": 6e6,
"profiles": [
[
{"hz": 5.18e8, "dbm": 30.0},
{"hz": 5.24e8, "dbm": 30.0}
],
...
]
},
{
"resolutionBwHz": 1e5,
"profiles": [
[
{"hz": 5.18e8, "dbm": 27.0},
{"hz": 5.24e8, "dbm": 27.0}
],
...
]
}
]
This is interpreted as:
o Over any 6MHz within the frequency range, [518MHz, 524MHz),
maximum permitted power is 30.0dBm (1000mW), and
o Over any 100 kHz within the frequency range, [518MHz, 524MHz),
maximum permitted power is 27.0dBm (500mW)
This would allow, for example, operating two 100kHz sub-channels
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within the indicated 6MHz range at 500mW each, totaling 1000mW. Of
course, many combinations are possible, as long as they satisfy both
conditions.
The following example encodes multiple (two) spectrum profiles, each
having a gap from 530 MHz to 536 MHz (for illustrative purposes
only):
[
{
"resolutionBwHz": 6e6,
"profiles": [
[
{"hz": 5.18e8, "dbm": 30.0},
{"hz": 5.24e8, "dbm": 30.0},
{"hz": 5.24e8, "dbm": 36.0},
{"hz": 5.30e8, "dbm": 36.0}
],
[
{"hz": 5.36e8, "dbm": 30.0},
{"hz": 5.42e8, "dbm": 30.0}
],
...
]
},
{
"resolutionBwHz": 1e5,
"profiles": [
[
{"hz": 5.18e8, "dbm": 27.0},
{"hz": 5.24e8, "dbm": 27.0},
{"hz": 5.24e8, "dbm": 30.0},
{"hz": 5.30e8, "dbm": 30.0}
],
[
{"hz": 5.36e8, "dbm": 27.0},
{"hz": 5.42e8, "dbm": 27.0}
],
...
]
}
]
5.12. SpectrumProfile
A spectrum profile is characterized by an ordered list of (frequency,
power) points that represents the shape of maximum permissible power
levels over a range of frequencies.
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o It MUST contain a minimum of two entries.
o The entries in the list MUST be ordered in non-decreasing
frequency values.
o Two consecutive points MAY have the same frequency value to
represent a "step function".
o Three or more points MUST NOT share the same frequency value.
o The first frequency is inclusive; the last frequency is exclusive.
The following figure illustrates the SpectrumProfile element.
+-------------------------------+
|SpectrumProfile |
+---------------------+---------+
|list |required |---+
+---------------------+---------+ | 2..*
V
+----------------+---------+
|hz:float |required |
|dbm:float |required |
+----------------+---------+
Parameters of each point in the profile:
hz: The frequency, in Hertz, at which the power level is defined.
dbm: The power level, expressed as dBm per resolution bandwidth, as
defined by the "resolutionBwHz" element of the enclosing Spectrum
(Section 5.11) element.
5.13. FrequencyRange
The FrequencyRange parameter specifies a frequency range.
+--------------------------------+
|FrequencyRange |
+----------------------+---------+
|startHz:float |required |
|stopHz:float |required |
+----------------------+---------+
Parameters:
startHz: The inclusive start of the frequency range (in Hertz) is
REQUIRED.
stopHz: The exclusive end of the frequency range (in Hertz) is
REQUIRED.
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5.14. EventTime
The EventTime element specifies the start and stop times of an
"event". This is used to indicate the time period for which a
Spectrum (Section 5.11) is valid.
+---------------------------+
|EventTime |
+-----------------+---------+
|startTime:string |required |
|stopTime:string |required |
+-----------------+---------+
Parameters:
startTime: The inclusive start of the event is REQUIRED.
stopTime: The exclusive end of the event is REQUIRED.
Both times are expressed using the format, YYYY-MM-DDThh:mm:ssZ, as
defined by Date and Time on the Internet: Timestamps [RFC3339]. The
times MUST be expressed using UTC.
A device that does not have access to the current date and time MUST
use the timestamp at the top-level of the response message as a
substitute for the current time (see Available Spectrum Response
(Section 4.4.2) and Available Spectrum Batch Response
(Section 4.4.4)). E.g.,
o (startTime - timestamp) gives the duration that a device must wait
before the event becomes "active". If the value is zero or
negative, the event is already active.
o If the event is already active, (stopTime - timestamp) is the
duration that the event remains active. If the value is zero or
negative, the event is no longer active and MUST be ignored.
5.15. GeoSpectrumSpec
The GeoSpectrumSpec element encapsulates the available spectrum for a
location. It is returned within a AVAIL_SPECTRUM_BATCH_RESP
(Section 4.4.4) batch response that contains multiple GeoSpectrumSpec
entries, each matching a location provided in the batch request.
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+----------------------------------+
|GeoSpectrumSpec |
+-----------------------+----------+
|location:GeoLocation | required |
|spectrumSpecs:list | required |-------+
+-----------------------+----------+ |
| 1..*
V
+--------------+
| SpectrumSpec |
+--------------+
Parameters:
location: The GeoLocation (Section 5.1) is REQUIRED to identify the
location at which the spectrum schedule applies.
spectrumSpecs: The SpectrumSpec (Section 5.9) list is REQUIRED. At
least one entry MUST be included. Each entry represents schedules
of available spectrum for a regulatory domain. More than one
entry MAY be included to support multiple regulatory domains at a
location.
5.16. DeviceValidity
The DeviceValidity element is used to indicate whether a device is
valid. See Section 4.5.2.
+---------------------------------------+
|DeviceValidity |
+----------------------------+----------+
|deviceDesc:DeviceDescriptor | required |
|isValid:boolean | required |
|reason:string | optional |
+----------------------------+----------+
Parameters:
deviceDesc: The DeviceDescriptor (Section 5.2) that was used to
check for validity is REQUIRED.
isValid: This is a REQUIRED boolean value that indicates whether the
Device is valid.
reason: If the device identifier is not valid, the Database MAY
include a reason. The reason MAY be in any language. The length
of the value MUST NOT exceed 128 characters.
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5.17. Error Element
If the Database responds to a PAWS request message with an error, it
MUST include an Error element.
+---------------------------+
|Error |
+----------------+----------+
|code:int | required |
|message:string | optional |
|data:any | optional |
+----------------+----------+
Parameters:
code: An integer code that indicates the error type is REQUIRED.
Values MUST be within the range, -32768 to 32767, inclusive.
message: A description of the error is OPTIONAL. It MAY be in any
language. The length of the value MUST NOT exceed 128 characters.
data: The Database MAY include additional data. For some errors,
additional data may be required. The Device MUST ignore any data
parameters it does not understand.
The following table lists predefined and reserved error codes. They
are loosely grouped into the following categories:
-100s: Indicates compatibility issues, e.g., version mismatch,
unsupported or unimplemented features.
-200s: Indicates that the Device request contains an error that
needs to be modified before making another request.
-300s: Indicates authorization-related issues.
Values that are not defined explicitly in the Error Codes Table
(Table 1) below are unassigned.
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Code Name Description & Additional parameters
------ ---------------- ---------------------------------------------
0 (reserved)
-100 (reserved)
-101 VERSION The Database does not support the specified
version of the message.
-102 UNSUPPORTED The Database does not support the Device. For
example, it does not support the regulatory
domain specified in the request.
-103 UNIMPLEMENTED The Database does not implement the optional
request or optional feature.
-104 OUTSIDE_COVERAGE The specified geo-location is outside the
coverage area of the Database. The Database
MAY include a DbUpdateSpec (Section 5.7)
parameter to provide a list of alternate
databases that might be appropriate for the
requested location. See OUTSIDE_COVERAGE
Error (Section 5.17.1) for more details.
-105 DATABASE_CHANGE The Database has changed its URI. The
Database MAY include a DbUpdateSpec
(Section 5.7) parameter in the error response
to provide devices with one or more alternate
database URIs. The Device needs to use the
information to update its list of
preconfigured databases to replace (only) its
entry for the responding Database with the
list of alternate database URIs. See
DATABASE_CHANGE Error (Section 5.17.2) for
more details.
-200 (reserved)
-201 REQUIRED A required parameter is missing. The Database
MUST include a list of the required parameter
names. The Database MAY include only names of
parameters that are missing, but MAY include
a full list. Including the full list of
missing parameters may reduce the number of
re-queries from the Device. See REQUIRED
Error (Section 5.17.3) for more details.
-202 INVALID_VALUE A parameter value is invalid in some way. The
Database SHOULD include a message indicating
which parameter and why its value is invalid.
-300 (reserved)
-301 UNAUTHORIZED The Device is not authorized to used the
Database. Authorization may be determined by
regulatory rules or be dependent on prior
arrangement between the Device and Database.
-302 NOT_REGISTERED Device registration required, but the Device
is not registered.
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-32000 (reserved) Reserved for JSON-RPC error codes.
to
-32768
Table 1: Error Codes
5.17.1. OUTSIDE_COVERAGE Error
When the error code is OUTSIDE_COVERAGE, the Database MAY include an
ErrorData element within its Error response as the "data" field, and,
if present, the ErrorData MAY include a DbUpdateSpec (Section 5.7)
element that provides a list of alternate databases that might be
appropriate for the requested location.
+---------------------------+
|Error |
+----------------+----------+
|code:int | required |
|message:string | optional | +-----------------------------+
|data:ErrorData | optional |--->|ErrorData |
+----------------+----------+ +------------------+----------+
|spec:DbUpdateSpec | optional |
+------------------+----------+
5.17.2. DATABASE_CHANGE Error
When the error code is DATABASE_CHANGE, the Database MAY include an
ErrorData element within its Error response as the "data" field, and,
if present, the ErrorData MUST include a DbUpdateSpec (Section 5.7)
element that provides a list of alternate databases.
+---------------------------+
|Error |
+----------------+----------+
|code:int | required |
|message:string | optional | +-----------------------------+
|data:ErrorData | optional |--->|ErrorData |
+----------------+----------+ +------------------+----------+
|spec:DbUpdateSpec | required |
+------------------+----------+
5.17.3. REQUIRED Error
When the error code is REQUIRED, the Database MUST include an
ErrorData element within its Error response as the "data" field, and
the ErrorData element MUST include a list of the missing required
parameters and MAY include the list of all required parameters.
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+---------------------------+
|Error |
+----------------+----------+
|code:int | required |
|message:string | optional | +---------------------------+
|data:ErrorData | required |--->|ErrorData |
+----------------+----------+ +----------------+----------+ 1..*
|parameters:list | required |--+
+----------------+----------+ |
v
string
Parameters:
parameters: List of one or more parameter names (strings). The name
of a parameter SHOULD be expressed using dotted notation, when
appropriate, e.g., "deviceDesc.serialNumber".
6. Message Encoding
The PAWS protocol is encoded using JSON-RPC [JSON-RPC] (see also The
JavaScript Object Notation (JSON) Data Interchange Format [RFC7159]).
Each component described in Protocol Functionalities (Section 4)
corresponds to one or more JSON-RPC methods. This section provides
the JSON schema for each of the protocol messages and parameters
defined in sections Protocol Functionalities (Section 4) and Protocol
Parameters (Section 5). JSON schemas are expressed using the format
described by JSON Schema [I-D.zyp-json-schema], but are not intended
to be used for formal validation.
NOTE: In general, all messages defined in this section are extensible
by adding additional properties to support regulatory-specific and
database-specific requirements. In all cases, the Device or Database
MUST ignore any parameter it does not understand.
NOTE: The JSON examples in this section may contain ellipses (...) to
represent additional properties or elements that have been omitted in
order to make the examples more concise.
6.1. JSON-RPC Binding
The JSON-RPC [JSON-RPC] protocol consists of two basic objects,
Request and Response:
o The JSON-RPC Request object encapsulates a PAWS functionality
(operation) and the request message
o The JSON-RPC Response object encapsulates a PAWS response message
and Error element
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The Database and Device MUST support JSON-RPC 2.0 encoding.
The JSON-RPC Request for PAWS has the following form:
{
"jsonrpc": "2.0",
"method": "string",
"params": <PAWS_REQ>,
"id": "string"
}
where "method" is the name of a PAWS functionality (operation), and
<PAWS_REQ> represents one of the PAWS request objects associated with
the method. Method names are defined with the prefix,
"spectrum.paws.".
The non-error JSON-RPC Response for PAWS has the following form:
{
"jsonrpc": "2.0",
"result": <PAWS_RESP>,
"id": "string"
}
where <PAWS_RESP> represents one of the PAWS response objects
associated with the method.
The error JSON-RPC Response for PAWS has the following form:
{
"jsonrpc": "2.0",
"error": {
"code": "integer",
"message": "string",
"data": "object"
},
"id": "string"
}
where the Error object and error codes are described by Error Element
(Section 5.17). The Database SHOULD attempt to use the most specific
applicable PAWS error code. When an accurate one is not available,
it SHOULD fall back to standard JSONRPC error codes as defined in
JSONRPC specification. For example, if the Database receives invalid
JSON from the Device, it should respond with "-32700", signifying a
parse error. As a last resort, the Database MAY send a suitable HTTP
5xx response.
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Depending on prior arrangement between a Database and Device, the
Request and Response objects MAY contain additional parameters. The
Database or Device MUST ignore all parameters it does not understand.
6.2. init Method
This section describes the encoding for the JSON-RPC
"spectrum.paws.init" method that represents the Initialization
functionality (Section 4.2).
6.2.1. INIT_REQ Parameters
The JSON encoding of the Initialization request message INIT_REQ
(Section 4.2.1) is described by the following schema:
{
"name": "INIT_REQ",
"type": "object",
"properties": {
"type": "INIT_REQ",
"version": {
"type": "string",
"required": true
},
"deviceDesc": {
"type": "DeviceDescriptor",
"required": true
},
"location": {
"type": "GeoLocation",
"description": "The location of the Device's antenna.
Some regulatory domains mandate this to be the
Device's current location; others allow it to be
an anticipated position of the Device.",
"required": true
}
}
}
Example "init" JSON-RPC request:
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{
"jsonrpc": "2.0",
"method": "spectrum.paws.init",
"params": {
"type": "INIT_REQ",
"version": "1.0",
"deviceDesc": {
"serialNumber": "XXX",
"fccId": "YYY",
...
},
"location": {
"point": {
"center": {"latitude": 37.0, "longitude": -101.3}
}
}
},
"id": "xxxxxx"
}
6.2.2. INIT_RESP Parameters
The JSON encoding of the Initialization response message INIT_RESP
(Section 4.2.2) is described by the following schema:
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{
"name": "INIT_RESP",
"type": "object",
"properties": {
"type": "INIT_RESP",
"version": {
"type": "string",
"required": true
},
"rulesetInfos": {
"type": "array",
"description": "List of regulatory domains and associated
attributes that govern the device at the location specified
by the device. The list MUST have at least one entry.",
"items": "RulesetInfo",
"required": true
},
"databaseChange": {
"type": "DbUpdateSpec",
"description": "Indicates that the Database URI will be
changing. Devices need to update their configurations",
"required": false
}
}
}
Example "init" JSON-RPC response:
{
"jsonrpc": "2.0",
"result": {
"type": "INIT_RESP",
"version": "1.0",
"rulesetInfos": [
{
"authority": "us",
...
},
...
]
},
"id": "xxxxxx"
}
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6.3. register Method
This section describes the encoding for the JSON-RPC
"spectrum.paws.register" method that represents Device Registration
functionality (Section 4.3).
6.3.1. REGISTRATION_REQ Parameters
The JSON encoding of the Registration request message
REGISTRATION_REQ (Section 4.3.1) is described by the following
schema:
{
"name": "REGISTRATION_REQ",
"type": "object",
"properties": {
"type": "REGISTRATION_REQ",
"version": {
"type": "string",
"required": true
},
"deviceDesc": {
"type": "DeviceDescriptor",
"required": true
},
"location": {
"type": "GeoLocation",
"description": "The location of the Device's antenna.",
"required": true
},
"deviceOwner": {
"type": "DeviceOwner",
"required": true
},
"antenna": {
"type": "AntennaCharacteristics",
"description": "Antenna characteristics, including its
height and height type",
"required": false
}
}
}
Example "register" JSON-RPC request:
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{
"jsonrpc": "2.0",
"method": "spectrum.paws.register",
"params": {
"type": "REGISTRATION_REQ",
"version": "1.0",
"deviceDesc": {
"serialNumber": "XXX",
"fccId": "YYY",
...
},
"deviceOwner": {
"owner": [
"vcard", [
["version", {}, "text", "4.0"],
["kind", {}, "text", "org"],
["fn", {}, "text", "Racafrax, Inc."]
]
],
"operator": [
"vcard", [
["version", {}, "text", "4.0"],
["fn", {}, "text", "John Frax"],
["adr", {}, "text",
["", "", "100 Main Street",
"Summersville", "CA", "90034", "USA"
]
],
["tel", {}, "uri", "tel:+1-213-555-1212"],
["email", {}, "text", "j.frax@rackafrax.com"]
]
]
},
"location": {
"point": {
"center": {"latitude": 37.0, "longitude": -101.3}
}
},
"antenna": {"height": 10.2, "heightType": "AGL"}
},
"id": "xxxxxx"
}
6.3.2. REGISTRATION_RESP Parameters
The JSON encoding of the Registration response message
REGISTRATION_RESP (Section 4.3.2) is described by the following
schema:
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{
"name": "REGISTRATION_RESP",
"type": "object",
"properties": {
"type": "REGISTRATION_RESP",
"version": {
"type": "string",
"required": true
},
"rulesetInfos": {
"type": "array",
"description": "List of regulatory domains for which device
registration was successful. The list MUST have at
least one entry.",
"items": "RulesetInfo",
"required": true
},
"databaseChange": {
"type": "DbUpdateSpec",
"description": "Indicates that the Database URI will be
changing. Devices need to update their configurations",
"required": false
}
}
}
Example "register" JSON-RPC response:
{
"jsonrpc": "2.0",
"result": {
"type": "REGISTRATION_RESP",
"version": "1.0",
"rulesetInfos": [
{
"authority": "us",
...
}
]
},
"id": "xxxxxx"
}
6.4. getSpectrum Method
This section describes the encoding for the JSON-RPC
"spectrum.paws.getSpectrum" method that represents the single-
location query of the Available Spectrum Query functionality
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(Section 4.4) that enables a Device to obtain a set of available
spectrum from the Database.
6.4.1. AVAIL_SPECTRUM_REQ Parameters
The JSON encoding of the Available Spectrum request message
AVAIL_SPECTRUM_REQ (Section 4.4.1) is described by the following
schema:
{
"name": "AVAIL_SPECTRUM_REQ",
"type": "object",
"properties": {
"type": "AVAIL_SPECTRUM_REQ",
"version": {
"type": "string",
"required": true
},
"deviceDesc": {
"type": "DeviceDescriptor",
"description": "Descriptor of the device for which to
determine available spectrum.",
"required": false
},
"location": {
"type": "GeoLocation",
"description": "The location of the Device's antenna.
Some regulatory domains mandate this to be the Device's
current location; others allow it to be an anticipated
position of the Device. When the request is made by a
Master Device on behalf of a Slave Device, this is the
location of the Slave Device (optional), and the Master
Device location is provided in the masterDeviceLocation
parameter.",
"required": false
},
"owner": {
"type": "DeviceOwner",
"description": "May be required if the Device is not yet
registered or if the DB does not implement a separate
device-registration request. Also depends on device type
and regulatory domain",
"required": false
},
"antenna": {
"type": "AntennaCharacteristics",
"description": "Antenna characteristics, including its
height and height type. May be required, depending on
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device type and regulatory domain",
"required": false
},
"capabilities": {
"type": "DeviceCapabilities",
"description": "The Database SHOULD NOT return spectrum that
is incompatible with the specified capabilities.",
"required": false
},
"masterDeviceDesc": {
"type": "DeviceDescriptor",
"description": "When the request is made by a Master Device
on behalf of a Slave Device, this is the descriptor of
the Master Device.",
"required": false
},
"masterDeviceLocation": {
"type": "GeoLocation",
"description": "When the request is made by a Master Device
on behalf of a Slave Device, this is the location of
the Master Device.",
"required": false
},
"requestType": {
"type": "string",
"description": "Optional value that modifies the request.
Valid values depends on regulatory domain.",
"required": false
}
}
}
Example "getSpectrum" JSON-RPC request:
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{
"jsonrpc": "2.0",
"method": "spectrum.paws.getSpectrum",
"params": {
"type": "AVAIL_SPECTRUM_REQ",
"version": "1.0",
"deviceDesc": {
"serialNumber": "XXX",
"fccId": "YYY",
...
},
"location": {
"point": {
"center": {"latitude": 37.0, "longitude": -101.3}
}
},
"antenna": {"height": 10.2, "heightType": "AGL"}
},
"id": "xxxxxx"
}
6.4.2. AVAIL_SPECTRUM_RESP Parameters
The JSON encoding of the Available Spectrum response message
AVAIL_SPECTRUM_RESP (Section 4.4.2) is described by the following
schema:
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{
"name": "AVAIL_SPECTRUM_RESP",
"type": "object",
"properties": {
"type": "AVAIL_SPECTRUM_RESP",
"version": {
"type": "string",
"required": true
},
"timestamp": {
"type": "string",
"description": "Timestamp of the response, using
YYYY-MM-DDThh:mm:ssZ RFC3339 format. This SHOULD be used
by the Device as a reference for the start and stop times
in the spectrum schedule",
"format": "date-time",
"required": true
},
"deviceDesc": {
"type": "DeviceDescriptor",
"required": true
},
"spectrumSpecs": {
"type": "array",
"description": "The Database MAY return more than one
SpectrumSpec to represent available spectrum for multiple
regulatory domains at the specified location.",
"items": "SpectrumSpec",
"required": true
},
"databaseChange": {
"type": "DbUpdateSpec",
"description": "Indicates that the Database URI will be
changing. Devices need to update their configurations",
"required": false
}
}
}
The following example "getSpectrum" JSON-RPC response contains:
o A schedule with two time ranges
o A spectrum profile for one resolution bandwidth (6 MHz)
The schemas for these (and other) nested objects may be found in the
Sub-message Schemas (Section 6.8) section.
{
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"jsonrpc": "2.0",
"result": {
"type": "AVAIL_SPECTRUM_RESP",
"version": "1.0",
"timestamp": "2013-03-02T14:30:21Z",
"deviceDesc": {
"serialNumber": "XXX",
"fccId": "YYY",
...
},
"spectrumSpecs": [
{
"rulesetInfo": {
"authority": "us",
...
},
"needsSpectrumReport": false,
"spectrumSchedules": [
{
"eventTime": {
"startTime": "2013-03-02T14:30:21Z",
"stopTime": "2013-03-02T20:00:00Z"
},
"spectra": [
{
"resolutionBwHz": 6e6,
"profiles": [
...
[
{"hz":5.18e8, "dbm":30.0},
{"hz":5.36e8, "dbm":30.0},
{"hz":5.36e8, "dbm":36.0},
{"hz":5.42e8, "dbm":36.0}
],
[
{"hz":6.20e8, "dbm":30.0},
{"hz":6.26e8, "dbm":30.0}
],
...
]
}
]
},
{
"eventTime": {
"startTime": "2013-03-02T22:00:00Z",
"stopTime": "2013-03-03T14:30:21Z"
},
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"spectra": [
...
]
}
]
}
]
},
"id": "xxxxxx"
}
The following example "getSpectrum" JSON-RPC response includes a
spectrum profile that contains specifications for two different
bandwidth resolutions (6 MHz and 100 kHz):
{
"jsonrpc": "2.0",
"result": {
"type": "AVAIL_SPECTRUM_RESP",
"version": "1.0",
"timestamp": "2013-03-02T14:30:21Z",
"deviceDesc": {
"serialNumber": "XXX",
...
},
"spectrumSpecs": [
{
"rulesetInfo": {
"authority": "xx",
...
},
"needsSpectrumReport": false,
"spectrumSchedules": [
{
"eventTime": {
"startTime": "2013-03-02T14:30:21Z",
"stopTime": "2013-03-02T20:00:00Z"
},
"spectra": [
{
"resolutionBwHz": 6e6,
"profiles": [
...
[
{"hz":5.18e8, "dbm":30.0},
{"hz":5.36e8, "dbm":30.0},
{"hz":5.36e8, "dbm":36.0},
{"hz":5.42e8, "dbm":36.0}
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],
[
{"hz":6.20e8, "dbm":30.0},
{"hz":6.26e8, "dbm":30.0}
],
...
]
},
{
"resolutionBwHz": 1e5,
"profiles": [
...
[
{"hz":5.18e8, "dbm":27.0},
{"hz":5.36e8, "dbm":27.0},
{"hz":5.36e8, "dbm":30.0},
{"hz":5.42e8, "dbm":30.0}
],
[
{"hz":6.20e8, "dbm":27.0},
{"hz":6.26e8, "dbm":27.0}
],
...
]
}
]
},
{
"eventTime": {
"startTime": "2013-03-02T22:00:00Z",
"stopTime": "2013-03-03T14:30:21Z"
},
"spectra": [
...
]
}
]
}
]
},
"id": "xxxxxx"
}
6.5. getSpectrumBatch Method
This section describes the encoding for the JSON-RPC
"spectrum.paws.getSpectrumBatch" method that represents the multiple-
location query of the Available Spectrum Query functionality
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(Section 4.4) that enables a Device to obtain a set of available
spectrum for multiple locations from the Database.
6.5.1. AVAIL_SPECTRUM_BATCH_REQ Parameters
The JSON encoding of the Batch Available Spectrum request
AVAIL_SPECTRUM_BATCH_REQ (Section 4.4.3) is described by the
following schema. This an OPTIONAL feature of the Database.
{
"name": "AVAIL_SPECTRUM_BATCH_REQ",
"type": "object",
"properties": {
"type": "AVAIL_SPECTRUM_BATCH_REQ",
"version": {
"type": "string",
"required": true
},
"deviceDesc": {
"type": "DeviceDescriptor",
"description": "Descriptor of the device for which to
determine available spectrum.",
"required": true
},
"locations": {
"type": "array",
"description": "At least one device location is required.
Additional (anticipated) locations can also be included,
as permitted by regulatory domain. When the request is
made by a Master Device on behalf of a Slave Device, these
are locations of the Slave Device.",
"items": "GeoLocation",
"required": true
},
"owner": {
"type": "DeviceOwner",
"description": "May be required if the Device is not yet
registered or if the DB does not implement a separate
device-registration request. Also depends on device type
and regulatory domain",
"required": false
},
"antenna": {
"type": "AntennaCharacteristics",
"description": "Antenna characteristics, including its
height and height type. May required depending on
device type and regulatory domain",
"required": false
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},
"capabilities": {
"type": "DeviceCapabilities",
"description": "The Database SHOULD NOT return spectrum that
is incompatible with the specified capabilities.",
"required": false
},
"masterDeviceDesc": {
"type": "DeviceDescriptor",
"description": "When the request is made by a Master Device
on behalf of a Slave Device, this is the descriptor of
the Master Device.",
"required": false
},
"masterDeviceLocation": {
"type": "GeoLocation",
"description": "When the request is made by a Master Device
on behalf of a Slave Device, this is the location of
the Master Device.",
"required": false
},
"requestType": {
"type": "string",
"description": "Optional value that modifies the request.
Valid values depends on regulatory domain.",
"required": false
}
}
}
Example "getSpectrumBatch" JSON-RPC request:
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{
"jsonrpc": "2.0",
"method": "spectrum.paws.getSpectrumBatch",
"params": {
"type": "AVAIL_SPECTRUM_BATCH_REQ",
"version": "1.0",
"deviceDesc": {
"serialNumber": "XXX",
"fccId": "YYY",
...
},
"locations": [
{
"point": {
"center": {"latitude": 37.0, "longitude": -101.3}
}
},
{
"point": {
"center": {"latitude": 37.0005, "longitude": -101.3005}
}
},
...
],
"antenna": {"height": 10.2, "heightType": "AGL"}
},
"id": "xxxxxx"
}
6.5.2. AVAIL_SPECTRUM_BATCH_RESP Parameters
The JSON encoding of the Batch Available Spectrum response
AVAIL_SPECTRUM_BATCH_RESP (Section 4.4.4) is described by the
following schema:
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{
"name": "AVAIL_SPECTRUM_BATCH_RESP",
"type": "object",
"properties": {
"type": "AVAIL_SPECTRUM_BATCH_RESP",
"version": {
"type": "string",
"required": true
},
"timestamp": {
"type": "string",
"description": "Timestamp of the response, using
YYYY-MM-DDThh:mm:ssZ RFC3339 format. This SHOULD be used
by the Device as a reference for the start and stop times
in the spectrum schedule",
"format": "date-time",
"required": true
},
"deviceDesc": {
"type": "DeviceDescriptor",
"required": true
},
"geoSpectrumSpecs": {
"type": "array",
"description": "A list of locations and available spectrum at
each location. For each location, there may be more than
one SpectrumSpec element to support more than one ruleset
at that location.",
"items": "GeoSpectrumSpec",
"required": true
},
"databaseChange": {
"type": "DbUpdateSpec",
"description": "Indicates that the Database URI will be
changing. Devices need to update their configurations",
"required": false
}
}
}
The following example "getSpectrumBatch" JSON-RPC response
illustrates a batch response that contains spectrum specifications
for two locations:
{
"jsonrpc": "2.0",
"result": {
"type": "AVAIL_SPECTRUM_BATCH_RESP",
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"version": "1.0",
"timestamp": "2013-03-02T14:30:21Z",
"deviceDesc": {
"serialNumber": "XXX",
"fccId": "YYY",
...
},
"geoSpectrumSpecs": [
{
"location": {
"point": {
"center": {"latitude": 37.0, "longitude": -101.3}
}
},
"spectrumSpecs": [
{
"rulesetInfo": {
"authority": "us",
...
},
"needsSpectrumReport": false,
"spectrumSchedules": [
{
"eventTime": {
"startTime": "2013-03-02T14:30:21Z",
"stopTime": "2013-03-02T20:00:00Z"
},
"spectra": [
{
"resolutionBwHz": 6e6,
"profiles": [
...
[
{"hz":5.18e8, "dbm":30.0},
{"hz":5.36e8, "dbm":30.0},
{"hz":5.36e8, "dbm":36.0},
{"hz":5.42e8, "dbm":36.0}
],
[
{"hz":6.20e8, "dbm":30.0},
{"hz":6.26e8, "dbm":30.0}
],
...
]
}
]
},
{
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"eventTime": {
"startTime": "2013-03-02T22:00:00Z",
"stopTime": "2013-03-03T14:30:21Z"
},
"spectra": [
...
]
}
]
}
]
},
{
"location": {
"point": {
"center": {"latitude": 37.0005, "longitude": -101.3005}
}
},
"spectrumSpecs": [
...
]
}
]
},
"id": "xxxxxx"
}
6.6. notifySpectrumUse Method
This section describes the encoding for the JSON-RPC
"spectrum.paws.notifySpectrumUse" method that represents the
Spectrum-usage notification of the Available Spectrum Query
functionality (Section 4.4.5) that notifies the Database of
anticipated spectrum usage.
6.6.1. SPECTRUM_USE_NOTIFY Parameters
The JSON encoding of the Spectrum Notification message
SPECTRUM_USE_NOTIFY (Section 4.4.5) is described by the following
schema:
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{
"name": "SPECTRUM_USE_NOTIFY",
"type": "object",
"properties": {
"type": "SPECTRUM_USE_NOTIFY",
"version": {
"type": "string",
"required": true
},
"deviceDesc": {
"type": "DeviceDescriptor",
"required": true
},
"location": {
"type": "GeoLocation",
"description": "The location of the Device. When the
notification is made by a Master Device on behalf
of a Slave Device, this is the location of the
Slave Device.",
"required": false
},
"masterDeviceDesc": {
"type": "DeviceDescriptor",
"description": "When the notification is made by a
Master Device on behalf of a Slave Device, this is
the descriptor of the Master Device.",
"required": false
},
"masterDeviceLocation": {
"type": "GeoLocation",
"description": "When the notification is made by the
Master Device on behalf of a Slave Device, this is
the location of the Master Device.",
"required": false
},
"spectra": {
"type": "array",
"description": "The spectrum anticipated to be used by
the Device.",
"items": "Spectrum",
"required": true
}
}
}
Example "notifySpectrumUse" JSON-RPC notification:
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{
"jsonrpc": "2.0",
"method": "spectrum.paws.notifySpectrumUse",
"params": {
"type": "SPECTRUM_USE_NOTIFY",
"version": "1.0",
"deviceDesc": {
"serialNumber": "XXX",
"fccId": "YYY",
...
},
"location": {
"point": {
"center": {"latitude": 37.0005, "longitude": -101.3005}
}
},
"spectra": [
{
"resolutionBwHz": 6e6,
"profiles": [
[
{"hz":5.18e8, "dbm":30.0},
{"hz":5.24e8, "dbm":30.0}
]
]
}
]
},
"id": "xxxxxx"
}
6.6.2. SPECTRUM_USE_RESP Parameters
The JSON encoding of the Spectrum-usage response SPECTRUM_USE_RESP
(Section 4.4.6) is described by the following schema:
{
"name": "SPECTRUM_USE_RESP",
"type": "object",
"properties": {
"type": "SPECTRUM_USE_RESP",
"version": {
"type": "string",
"required": true
}
}
}
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Example "notifySpectrumUse" JSON-RPC response:
{
"jsonrpc": "2.0",
"result": {
"type": "SPECTRUM_USE_RESP",
"version": "1.0"
},
"id": "xxxxxx"
}
6.7. verifyDevice Method
This section describes the encoding for the JSON-RPC
"spectrum.paws.verifyDevice" method that represents the Device
Validation functionality (Section 4.5). This is used by a Master
Device to validate Slave Devices.
6.7.1. DEV_VALID_REQ Parameters
The JSON encoding of the Device Validation request DEV_VALID_REQ
(Section 4.5.1) is described by the following schema:
{
"name": "DEV_VALID_REQ",
"type": "object",
"properties": {
"type": "DEV_VALID_REQ",
"version": {
"type": "string",
"required": true
},
"deviceDescs": {
"type": "array",
"description": "List of Slave Devices to be validated",
"items": "DeviceDescriptor",
"required": true
}
}
}
Example "verifyDevice" JSON-RPC request:
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{
"jsonrpc": "2.0",
"method": "spectrum.paws.verifyDevice",
"params": {
"type": "DEV_VALID_REQ",
"version": "1.0",
"deviceDescs": [
{
"serialNumber": "XXX",
"fccId": "YYY",
...
},
{
"serialNumber": "XXX3",
"fccId": "YYY2",
...
},
...
]
},
"id": "xxxxxx"
}
6.7.2. DEV_VALID_RESP Parameters
The JSON encoding of the Device Validation response DEV_VALID_RESP
(Section 4.5.2) is described by the following schema:
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{
"name": "DEV_VALID_RESP",
"type": "object",
"properties": {
"type": "DEV_VALID_RESP",
"version": {
"type": "string",
"required": true
},
"deviceValidities": {
"type": "array",
"description": "List of DeviceValidity objects that shows the
validity of each device included in the original Device
Validity Request message.",
"items": "DeviceValidity",
"required": true
},
"databaseChange": {
"type": "DbUpdateSpec",
"description": "Indicates that the Database URI will be
changing. Devices need to update their configurations",
"required": false
}
}
}
Example "verifyDevice" JSON-RPC response:
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{
"jsonrpc": "2.0",
"result": {
"type": "DEV_VALID_RESP",
"version": "1.0",
"deviceValidities": [
{
"deviceDesc": {
"serialNumber": "XXX",
"fccId": "YYY",
...
},
"isValid": true
},
{
"deviceDesc": {
"serialNumber": "XXX3",
"fccId": "YYY2",
...
},
"isValid": false,
"reason": "Not authorized"
}
]
},
"id": "xxxxxx"
}
6.8. Sub-message Schemas
This section defines the schema for Protocol Parameters (Section 5)
embedded in PAWS request and response messages.
6.8.1. GeoLocation
This parameter is used to specify the GeoLocation (Section 5.1) of
the Device. The geometric shapes represent the JSON encoding shapes
defined in GEOPRIV Presence Information Data Format Location Object
[RFC5491].
{
"name": "GeoLocation",
"type": "object",
"properties": {
"point": {
"description": "A single location, with optional
uncertainty measures. Exactly one of 'point' or 'region'
must be present.",
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"type": "Ellipse",
"required": false
},
"region": {
"description": "A region described by a polygon. Exactly
one of 'point' or 'region' must be present.",
"type": "Polygon",
"required": false
},
"confidence": {
"description": "Confidence interval when location
is a point with uncertainty. 0 to 100.",
"type": "integer",
"required": false,
"default": 95
}
}
}
{
"name": "Point",
"type": "object",
"properties": {
"latitude": {
"description": "Double-precision floating-point degrees.
WGS84 datum.",
"type": "number",
"required": true
},
"longitude": {
"type": "number",
"description": "Double-precision floating-point degree.
WGS84 datum.",
"required": true
}
}
}
{
"name": "Ellipse",
"type": "object",
"properties": {
"center": {
"type": "Point",
"required": true
},
"semiMajorAxis": {
"description": "Floating-point meters that describe
location uncertainty along the major axis of
the ellipse.",
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"type": "number",
"required": false,
"default": 0
},
"semiMinorAxis": {
"description": "Floating-point meters that describe
location uncertainty along the minor axis of
the ellipse.",
"type": "number",
"required": false,
"default": 0
},
"orientation": {
"description": "Orientation of the ellipse, as rotation
of the major axis from North towards East. Degrees.",
"type": "number",
"required": false,
"default": 0
}
}
}
{
"name": "Polygon",
"type": "object",
"properties": {
"exterior": {
"description": "List of Points in counter-clockwise
order. They MUST form a loop with no edges that
cross each other. First and last points MUST be
the same. Minimum of 4 points.",
"type": "array",
"items": "Point",
"required": true
}
}
}
6.8.2. DeviceDescriptor
The DeviceDescriptor (Section 5.2) contains parameters that identify
the specific device, such as its manufacturer serial number,
regulatory-specific ID (e.g., FCC ID), and any other device
characteristics required by regulatory domains, such as device-type
classification. See Initial PAWS Parameters Registry Contents
(Section 9.1.2) for additional valid parameters, e.g., "fccId",
"etsiEnDeviceType", etc.
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{
"name": "DeviceDescriptor",
"type": "object",
"properties": {
"serialNumber": {
"type": "string",
"required": true
},
"manufacturerId": {
"type": "string",
"required": false
},
"modelId": {
"type": "string",
"required": false
},
"rulesetIds": {
"type": "array",
"description": "List of identifiers for rulesets supported
by the device",
"items": "string",
"required": false
}
}
}
6.8.3. AntennaCharacteristics
AntennaCharacteristics (Section 5.3) provide additional information,
such as the antenna height, antenna type, etc.
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{
"name": "AntennaCharacteristics",
"type": "object",
"properties": {
"height": {
"description": "Height of the antenna, in meters",
"type": "number",
"required": false
},
"heightType": {
"description": "Reference type for height:
Above Ground Level (AGL), or Above Mean Sea
Level (AMSL).",
"enum": ["AGL","AMSL"],
"default": "AGL",
"required": false
},
"heightUncertainty": {
"description": "Uncertainty of the height measurement,
in meters.",
"type": "number",
"required": false
}
}
}
6.8.4. DeviceCapabilities
Device capabilities (Section 5.4) provide additional information that
MAY be used by the Device to provide additional information to the
Database to help the Database determine available spectrum. If the
Database does not support device capabilities, it MUST ignore the
parameter.
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{
"name": "DeviceCapabilities",
"type": "object",
"description": "Device capabilities to help DB determine
available spectrum. The DB SHOULD NOT return available
spectrum that falls outside the device capabilities.",
"properties": {
"frequencyRanges": {
"type": "array",
"description": "The frequency ranges in which the Device
can operate.",
"items": "FrequencyRange",
"required": false
}
}
}
6.8.5. DeviceOwner
The DeviceOwner (Section 5.5) parameter contains device-owner
information required as part of device registration. Some regulatory
domains require additional parameters and specific fields within a
vCard. JSON encoding of vCard is described in jCard: The JSON format
for vCard [RFC7095].
{
"name": "DeviceOwner",
"type": "object",
"description": "Device-owner information required as part of
Device registration. Regulatory domains MAY require
additional parameters.",
"properties": {
"owner": {
"type": "vCard",
"description":"Contact information for the individual
or business that owns the device.",
"required": true
},
"operator": {
"type": "vCard",
"description":"Contact information for the device operator.",
"required": false
}
}
}
Example:
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{
"deviceOwner": {
"owner": [
"vcard", [
["version", {}, "text", "4.0"],
["kind", {}, "text", "org"],
["fn", {}, "text", "Racafrax, Inc."]
]
],
"operator": [
"vcard", [
["version", {}, "text", "4.0"],
["fn", {}, "text", "John Frax"],
["adr", {}, "text",
["", "", "100 Main Street",
"Summersville", "CA", "90034", "USA"
]
],
["tel", {}, "uri", "tel:+1-213-555-1212"],
["email", {}, "text", "j.frax@rackafrax.com"]
]
]
}
}
6.8.6. RulesetInfo
RulesetInfo (Section 5.6) contains parameters for the ruleset of a
regulatory domain that is communicated using the Initialization
component (Section 4.2).
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{
"name": "RulesetInfo",
"type": "object",
"description": "The ruleset of a regulatory domain that is
communicated to Devices in the Initialization Response
message.",
"properties": {
"authority": {
"type": "string",
"description": "The regulatory authority at the specified
location. It is a 2-letter country codes defined by
ISO3166-1.",
"required": true
},
"rulesetId": {
"type": "string",
"description": "The identifier of an applicable ruleset",
"required": true
},
"maxLocationChange": {
"type": "number",
"description": "Maximum location change in meters.",
"required": false
},
"maxPollingSecs": {
"type": "integer",
"description": "Maximum duration, in seconds, between
requests for available spectrum.",
"required": false
}
}
}
6.8.7. DbUpdateSpec
DbUpdateSpec (Section 5.7) contains one or more database
specifications. It is used to indicate a change to the Database URI.
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{
"name": "DbUpdateSpec",
"type": "object",
"description": "Specification for updates to a Database URI",
"properties": {
"databases": {
"type": "array",
"description": "The specification of one or more databases",
"item": "DatabaseSpec",
"required": true
}
}
}
6.8.8. DatabaseSpec
DatabaseSpec (Section 5.8) specifies the name and URI of a database.
{
"name": "DatabaseSpec",
"type": "object",
"description": "Specification for a database",
"properties": {
"name": {
"type": "string",
"description": "The display name of a databases",
"required": true
},
"uri": {
"type": "string",
"description": "The URI of a databases",
"required": true
}
}
}
6.8.9. Spectrum
Available Spectrum (Section 5.11) can logically be characterized by a
list of SpectrumProfiles, each defining the shape of the permissible
power levels over a range of frequencies.
{
"name": "Spectrum",
"type": "object",
"description": "A per-bandwidth list of frequency ranges with
permissible power levels. For example, In US, FCC
requires only one spectrum specification at 6MHz
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bandwidth; ETSI requires two (at 0.1MHz and
8MHz).",
"properties": {
"resolutionBwHz": {
"type": "number",
"description": "Resolution bandwidth (Hz) over which
permissible power spectral densities are defined.",
"required": true
},
"profiles": {
"type": "array",
"description": "List of SpectrumProfile objects to specify
permissible power levels, over a set of frequency ranges,
for a given resolutionBwHz. The list MAY be empty when
there is no available spectrum.",
"items": "SpectrumProfile",
"required": true
}
}
}
{
"name": "SpectrumProfile",
"type": "array",
"description": "A list of (frequency, power) points. A minimum of
two entries is required.",
"item": "SpectrumProfilePoint"
}
{
"name": "SpectrumProfilePoint",
"type": "object",
"description": "A point defined by a frequency and power level
at that frequency.",
"properties": {
"hz": {
"type": "number",
"description": "Frequency (Hz)",
"required": true
},
"dbm": {
"type": "number",
"description": "Power (dBm) per resolution bandwidth as
defined by enclosing resolutionBwHz.",
"required": true
}
}
}
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The following example Spectrum message for a resolution bandwidth of
6 MHz. This example contains power levels for only two frequency
segments:
o From 518 MHz to 542 MHz
o From 620 MHz to 626 MHz
In practice, this message would contain more (frequency, power)
points to cover all frequencies governed by the associated regulatory
domain. See the Spectrum (Section 5.11) section for a more detailed
discussion on the representation.
{
"resolutionBwHz": 6e6,
"profiles": [
[
{"hz":5.18e8, "dbm":30.0},
{"hz":5.36e8, "dbm":30.0},
{"hz":5.36e8, "dbm":36.0},
{"hz":5.42e8, "dbm":36.0}
],
[
{"hz":6.20e8, "dbm":30.0},
{"hz":6.26e8, "dbm":30.0}
]
]
}
6.8.10. FrequencyRange
The FrequencyRange (Section 5.13) element describes a frequency range
and permissible power level within the specified range.
{
"name": "FrequencyRange",
"type": "object",
"properties": {
"startHz": {
"type": "number",
"description": "The inclusive start of the frequency range.",
"required": true
},
"stopHz": {
"type": "number",
"description": "The exclusive end of the frequency range.",
"required": true
}
}
}
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6.8.11. EventTime
The EventTime (Section 5.14) element specifies the start and stop
times of an "event." It is used to indicate the time period for
which a Spectrum (Section 5.11) is valid.
{
"name": "EventTime",
"type": "object",
"properties": {
"startTime": {
"type": "string",
"description": "YYYY-MM-DDThh:mm:ssZ RFC3339 format.
Inclusive.",
"format": "date-time",
"required": false
},
"stopTime": {
"type": "string",
"description": "YYYY-MM-DDThh:mm:ssZ RFC3339 format.
Exclusive.",
"format": "date-time",
"required": false
}
}
}
6.8.12. SpectrumSchedule
The SpectrumSchedule (Section 5.10) element combines EventTime with
Spectrum to define a time period during which the spectrum is valid.
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{
"name": "SpectrumSchedule",
"type": "object",
"description": "The SpectrumSchedule element combines EventTime
with Spectrum to define a time period during which spectrum
is valid.",
"properties": {
"eventTime": {
"type": "EventTime",
"description": "Period when the spectra is valid.",
"required": true
},
"spectra": {
"type": "array",
"description": "List of available spectra and permissible
power levels; one spectrum object per resolutionBwHz. The
list MAY be empty when there is no available spectrum.",
"items": "Spectrum",
"required": true
}
}
}
6.8.13. SpectrumSpec
The JSON encoding of the SpectrumSpec (Section 5.9) element is
described by the following schema:
{
"name": "SpectrumSpec",
"type": "object",
"description": "The SpectrumSpec element represents schedules of
available spectrum for a regulatory-domain ruleset.",
"properties": {
"rulesetInfo": {
"type": "RulesetInfo",
"description": "Indicates the active regulatory domain and
attributes that define the applicable ruleset that
govern the device",
"required": false
},
"spectrumSchedules": {
"type": "array",
"description": "The Database MAY return more than one
schedule to represent future changes to the available
spectrum. This array MAY be empty if no spectrum is
available. If more than one is present, the event-time
intervals SHOULD be sorted and MUST be disjoint.",
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"items": "SpectrumSchedule",
"required": true
},
"timeRange": {
"type": "EventTime",
"description": "The time range for which the spectrumSchedules
is comprehensive",
"required": false
},
"frequencyRanges": {
"type": "array",
"description": "The frequency ranges for which the
spectrumSchedules is comprehensive",
"items": "FrequencyRange",
"required": false
},
"needsSpectrumReport": {
"type": "boolean",
"description": "Regulatory domains that require a
spectrum-usage report from devices would mandate the
Database to set this value to true.",
"default": false,
"required": false
},
"maxTotalBwHz": {
"type": "number",
"description": "Constraint on total bandwidth allowed,
summed across all blocks of spectrum.",
"required": false
},
"maxContiguousBwHz": {
"type": "number",
"description": "Constraint on bandwidth allowed for
any single block of spectrum.",
"required": false
}
}
}
6.8.14. GeoSpectrumSpec
The GeoSpectrumSpec (Section 5.15) element encapsulates the schedule
of available spectrum at a location.
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{
"name": "GeoSpectrumSpec",
"type": "object",
"description": "The GeoSpectrumSpec element encapsulates
the schedule of available spectrum at a location.",
"properties": {
"location": {
"type": "GeoLocation",
"description": "The location at which the spectrum
schedule applies.",
"required": true
},
"spectrumSpecs": {
"type": "array",
"description": "At least one element MUST be included.
More than one element MAY be included
to represent available spectrum for more than one
regulatory domain.",
"items": "SpectrumSpec",
"required": true
}
}
}
6.8.15. DeviceValidity
The DeviceValidity (Section 5.16) element is used to indicate whether
a device is valid. See Section 4.5.2.
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{
"name": "DeviceValidity",
"type": "object",
"description": "The DeviceValidity element specifies whether
the device is valid.",
"properties": {
"deviceDesc": {
"type": "DeviceDescriptor",
"required": true
},
"isValid": {
"type": "boolean",
"description": "Boolean that indicates if the Device is
valid",
"required": true
},
"reason": {
"type": "string",
"description": "If the device identifier is not valid,
the Database MAY include a reason. The reason MAY be
in any language.",
"required": false
}
}
}
6.8.16. Additional Properties
The Database or Device MAY include additional properties not
explicitly listed in the schema elaborated in this document. The
Database and Device MUST ignore any such additional properties (and
their associated values) that they do not understand.
7. HTTPS Binding
This section describes the use of HTTP over TLS (HTTPS) HTTP Over TLS
[RFC2818] as the transport mechanism for the PAWS protocol. TLS
provides message integrity and confidentiality between the Master
Device and the Database. The Master Device MUST implement server
authentication, as described in Section 3.1 of HTTP Over TLS
[RFC2818]. The Device uses the URI determined (either statically
configured or dynamically discovered) to authenticate the server.
The Device SHOULD fail a request if server authentication fails.
Depending on prior relationship between a database and device, the
server MAY require client authentication, as described in the
Transport Layer Security (TLS) Protocol [RFC5246], to authenticate
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the device.
To enable databases to handle large numbers of requests from large
numbers of devices, the Database MAY support and Devices SHOULD
support Stateless TLS Session Resumption [RFC5077].
A PAWS request message is carried in the body of an HTTP POST
request. A PAWS response message is carried in the body of an HTTP
response. A PAWS response SHOULD include a Content-Length header.
The POST method is the only method REQUIRED for PAWS. If a database
chooses to support GET, it MUST be an escaped URI, but the encoding
of the URI is outside the scope of this document. The database MAY
refuse to support the GET request by returning an HTTP error code,
such as 404 (not found).
The Database MAY redirect a PAWS request by returning a HTTP 3xx
response (as defined by HTTP/1.1 [RFC2616]). The Database MUST
provide the redirect URI in the Location header of the 3xx response,
and the Device MUST handle redirects by using the Location header
provided by the Database. When redirecting, the Device MUST observe
the delay indicated by the Retry-After header. The Device MUST
authenticate the Database that returns the redirect response before
following the redirect. Also, the Device MUST authenticate the
Database indicated in the redirect. Since the Device may communicate
with a Database (which it authenticated) without user interaction,
when the response code is 301 (Moved Permanently), the Device MAY
redirect without asking a user for confirmation (note that this
represents an exception to the HTTP/1.1 [RFC2616] requirements for
HTTP POST methods).
The Database SHOULD use HTTP status code "307 Temporary Redirect" to
indicate that the Device SHOULD resubmit the same request to an
alternate URI. The Device MAY revert to the original URI for the
very next request, or MAY continue to use the alternate URI for a
period of time, e.g.,:
o For the remainder of its session, or
o For a fixed period of time, or
o Until power cycled, or
o Until it receives another redirect
However, the Device does not need to modify its stored list of URIs.
The Database SHOULD use HTTP status code "301 Moved Permanently" to
indicate that the Device SHOULD resubmit this request, and all future
requests, to an alternate URI. If the Device maintains a list of
available URIs, it needs to replace only the current URI with the
alternate URI.
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8. Extensibility
8.1. Defining New Message Parameters
New request or response parameters for use with the PAWS protocol are
defined and registered in the parameters registry following the
procedure in Section 9.1.
Parameter names MUST conform to the param-name ABNF and parameter
values syntax MUST be well-defined (e.g., using ABNF, or a reference
to the syntax of an existing parameter).
param-name = 1*name-char
name-char = ALPHA / DIGIT / "_"
The parameter name SHOULD be lowerCamelCase. The name MUST NOT
exceed 64 characters.
Unregistered vendor-specific parameter extensions that are not
commonly applicable, and are specific to the implementation details
of the Database where they are used SHOULD use a vendor-specific
prefix that is not likely to conflict with other registered values
(e.g., begin with 'companyname').
8.2. Defining Ruleset Identifiers
A ruleset represents a set of device-side requirements for which the
device has been certified. It typically corresponds to, but is not
limited to, a set of rules that govern a specific set of radio
spectrum for a regulatory domain.
Ruleset identifiers are defined and registered in the Ruleset ID
Registry following the procedure in Section 9.2. Ruleset ID values
MUST conform to the ruleset-id ABNF. If the Ruleset ID requires
additional parameters, they MUST be registered in the PAWS Parameters
Registry, as described by Section 9.1.
ruleset-id = 1*ruleset-char
ruleset-char = ALPHA / DIGIT / "_" / "."
The form of a Ruleset ID value SHOULD be guided by the following:
o The value SHOULD describe the set of rules that allow a device to
operate within one or more regulatory domains. For example, it
MAY include the name of a regulatory body or a certification
process
o The value SHOULD include version information, such as a year
and/or version number
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o The value MUST NOT exceed 64 characters
8.3. Defining Additional Error Codes
Additional error codes MAY be defined to extend the set listed in
Section 5.17. Additional error codes MUST be registered, following
the procedures in Section 9.3. If the error code requires additional
response parameters, they MUST be registered in the PAWS Parameters
Registry, as described by Section 9.1.
By convention, the error code SHOULD be a negative integer value,
using one of the range of values defined in Error Codes
(Section 5.17). If an appropriate category does not exist, it MAY
use values in a different range.
9. IANA Considerations
9.1. PAWS Parameters Registry
This specification establishes the PAWS Parameters Registry.
Additional parameters for inclusion in the PAWS protocol requests,
responses, or sub-messages are registered through the Specification
Required [RFC5226] process, after a two-week review period on the
paws-iana-review@ietf.org mailing list, on the advice of one or more
Designated Experts. To allow for the allocation of values prior to
publication, the Designated Expert(s) may approve registration once
they are satisfied that such a specification will be published.
Registration requests must be sent to the paws-iana-review@ietf.org
mailing list for review and comment, with an appropriate subject
(e.g., "Request for parameter: example").
Within the review period, the Designated Expert(s) will either
approve or deny the registration request, communicating this decision
to the review list and IANA. Denials should include an explanation
and, if applicable, suggestions as to how to make the request
successful.
IANA must only accept registry updates from the Designated Expert(s),
and should direct all requests for registration to the review mailing
list.
9.1.1. Registration Template
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Parameter name: The name of the parameter (e.g., "example").
Parameter usage location: The location(s) where the parameter can be
used. The possible locations are the named requests, responses,
and messages defined in Protocol Functionalities (Section 4) and
Protocol Parameters (Section 5).
Specification document(s): Reference to the document that specifies
the parameter, preferably including a URI that can be used to
retrieve a copy of the document. An indication of the relevant
sections also may be included, but is not required.
9.1.2. Initial Registry Contents
The PAWS Parameters Registry enables protocol extensibility to
support any regulatory domain and ruleset. The initial contents of
the registry, however, include only FCC-specific and ETSI-specific
entries, because, as of this writing, they are the only regulatory
domains that have established rules. There is no intent to restrict
the protocol to FCC and ETSI rules.
The PAWS Parameters Registry's initial contents are listed below;
each section corresponds to a row of the registry. The PAWS
Parameters Registry will include the following fields: 'Parameter
name', 'Parameter usage location', and 'Specification document(s)'.
IANA will post each registration template that is not included in the
text of an RFC.
9.1.2.1. FCC ID
Parameter name: fccId
Parameter usage location: DeviceDescriptor (Section 5.2)
Specification document(s): [[ this document ]] Specifies the
device's FCC certification identifier. The value is an identifier
string whose length MUST NOT exceed 32 characters. Note that, in
practice, a valid FCC ID may be limited to 19 characters, as
proposed in FCC Administration Topics Review [FCC-Review-2012-10].
9.1.2.2. FCC Device Type
Parameter name: fccTvbdDeviceType
Parameter usage location: DeviceDescriptor (Section 5.2)
Specification document(s): [[ this document ]] Specifies the TV Band
White Space device type, as defined by the FCC. Valid values are
"FIXED", "MODE_1", "MODE_2".
9.1.2.3. ETSI Device Type
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Parameter name: etsiEnDeviceType
Parameter usage location: DeviceDescriptor (Section 5.2)
Specification document(s): Specifies the White Space Device type, as
defined by the ETSI Harmonised Standard [ETSI-EN-301-598]. Valid
values are single-letter strings, such as "A", "B", etc. Consult
the documentation for details about the device types.
9.1.2.4. ETSI Device Emissions Class
Parameter name: etsiEnDeviceEmissionsClass
Parameter usage location: DeviceDescriptor (Section 5.2)
Specification document(s): Specifies the White Space Device
emissions class, as defined by the ETSI Harmonised Standard
[ETSI-EN-301-598], that characterises the out-of-block emissions
of the device. The values are represented by numeric strings,
such as "1", "2", "3", etc. Consult the documentation for details
about emissions classes
9.1.2.5. ETSI Technology Identifier
Parameter name: etsiEnTechnologyId
Parameter usage location: DeviceDescriptor (Section 5.2)
Specification document(s): Specifies the White Space Device
technology identifier, as defined by the ETSI Harmonised Standard
[ETSI-EN-301-598]. The string value MUST NOT exceed 64 characters
in length. Consult the documentation for valid values.
9.1.2.6. ETSI Device Category
Parameter name: etsiEnDeviceCategory
Parameter usage location: DeviceDescriptor (Section 5.2)
Specification document(s): Specifies the White Space Device
category, as defined by the ETSI Harmonised Standard
[ETSI-EN-301-598]. Valid values are the strings, "master" and
"slave". It is case insensitive.
9.1.2.7. ETSI Simultaneous Channel Operation Restriction
Parameter name: etsiEnSimultaneousChannelOperationRestriction
Parameter usage location: SpectrumSpec (Section 5.9)
Specification document(s): Specifies the constraint on the device
maximum total EIRP, as defined by the ETSI Harmonised Standard
[ETSI-EN-301-598]. The values are represented by numeric strings,
such as "0", "1", etc. Consult the documentation for the
specification of the power constraint corresponding to each
parameter value.
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9.2. PAWS Ruleset ID Registry
This specification establishes the PAWS Ruleset ID Registry.
Ruleset type names for inclusion in the PAWS protocol messages are
registered through the Specification Required [RFC5226] process,
after a two-week review period on the paws-iana-review@ietf.org
mailing list, on the advice of one or more Designated Experts. To
allow for the allocation of values prior to publication, the
Designated Expert(s) may approve registration once they are satisfied
that such a specification will be published.
Registration requests must be sent to the paws-iana-review@ietf.org
mailing list for review and comment, with an appropriate subject
(e.g., "Request for parameter: example").
Within the review period, the Designated Expert(s) will either
approve or deny the registration request, communicating this decision
to the review list and IANA. Denials should include an explanation
and, if applicable, suggestions as to how to make the request
successful.
IANA must only accept registry updates from the Designated Expert(s),
and should direct all requests for registration to the review mailing
list.
9.2.1. Registration Template
Ruleset name: The name of the ruleset. The length of the string
MUST NOT exceed 64 characters.
Additional parameter requirements: List of additional parameters to
associate with the ruleset ID and any additional requirements on
message parameters. New parameters MUST be registered separately
in the PAWS Parameters Registry, as described by Section 8.1.
Specification document(s): Reference to the document that specifies
the parameter, preferably including a URI that can be used to
retrieve a copy of the document. An indication of the relevant
sections also may be included, but is not required.
9.2.2. Initial Registry Contents
The PAWS Ruleset ID Registry enables protocol extensibility to
support any regulatory domain and ruleset. The initial contents of
the registry, however, include only FCC-specific and ETSI-specific
entries, because, as of this writing, it is the only regulatory
domain that has finalized rules. There is no intent to restrict the
protocol to FCC rules.
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The initial contents of the PAWS Ruleset ID Registry are listed
below; each section corresponds to a single row in the registry. The
PAWS Ruleset ID Registry will include the following fields: 'Ruleset
name', 'Additional parameter requirements', and 'Specification
document(s)'. IANA will post each registration template that is not
included in the text of an RFC.
9.2.2.1. Federal Communications Commission (FCC)
For the additional parameters that start with the "fcc" prefix, see
PAWS Parameters Registry Initial Contents (Section 9.1.2) for more
information.
Ruleset name: FccTvBandWhiteSpace-2010
Additional parameter requirements:
deviceDesc: The DeviceDescriptor (Section 5.2) parameter is
REQUIRED for Available Spectrum Request (Section 4.4.1) and
Available Spectrum Batch Request (Section 4.4.3).
fccId: Specifies a device's FCC certification ID. It is a
REQUIRED parameter in DeviceDescriptor (Section 5.2).
fccTvbdDeviceType: Specifies the type of TV-band White Space
device, as defined by the FCC rules. It is a REQUIRED
parameter in DeviceDescriptor (Section 5.2).
Additional DeviceOwner (Section 5.5) requirements:
owner: The owner vCard [RFC6350] entry MUST include the formatted
name of an individual or organization using the "fn" property.
When the name is that of an organization, the entry also MUST
include the "kind" property, with a value of "org".
operator: The operator vCard [RFC6350] entry MUST include the
following properties:
fn: Formatted name of a contact person responsible for the
device's operation.
adr: Address for the contact person.
tel: Phone number for the contact person.
email: E-mail address for the contact person.
Specification document(s): This ruleset refers to the FCC rules for
TV-band White Space operations established in the Code of Federal
Regulations (CFR), Title 47, Part 15, Subpart H [FCC-CFR47-15H].
9.2.2.2. European Telecommunications Standards Institute (ETSI)
For the additional parameters that start with the "etsi" prefix, see
PAWS Parameters Registry Initial Contents (Section 9.1.2) for more
information.
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Ruleset name: ETSI-EN-301-598-1.0.9-draft
Additional parameter requirements:
manufacturerId: Specifies a device's manufacturer's identifier.
It is a REQUIRED parameter in DeviceDescriptor (Section 5.2).
modelId: Specifies a device's model identifier. It is a REQUIRED
parameter in DeviceDescriptor (Section 5.2).
etsiEnDeviceType: Specifies the device's ETSI device type. It is
a REQUIRED parameter in DeviceDescriptor (Section 5.2).
etsiEnDeviceEmissionsClass: Specifies the device's ETSI device
emissions class. It is a REQUIRED parameter in
DeviceDescriptor (Section 5.2).
etsiEnTechnologyId: Specifies the device's ETSI technology ID.
It is a REQUIRED parameter in DeviceDescriptor (Section 5.2).
etsiEnDeviceCategory: Specifies the device's ETSI device
category. It is a REQUIRED parameter in DeviceDescriptor
(Section 5.2).
requestType: Modifies the available-spectrum request type. It is
an OPTIONAL parameter in the AVAIL_SPECTRUM_REQ (Section 4.4.1)
and AVAIL_SPECTRUM_BATCH_REQ (Section 4.4.3) messages. If
specified, the only valid value is, "Generic Slave", and the
Database MUST respond with generic operating parameters for any
Slave Device.
needsSpectrumReport The Database MUST set this to true in the
SpectrumSpec (Section 5.9) parameter of the AVAIL_SPECTRUM_RESP
(Section 4.4.2) and AVAIL_SPECTRUM_BATCH_RESP (Section 4.4.4)
messages to indicate that the Device must report spectrum
usage.
maxTotalBwHz: Specifies a constraint on total allowed bandwidth.
It is a REQUIRED field in the SpectrumSpec (Section 5.9)
parameter of the AVAIL_SPECTRUM_RESP (Section 4.4.2) and
AVAIL_SPECTRUM_BATCH_RESP (Section 4.4.4) messages.
maxContiguousBwHz: Specifies a constraint on total allowed
contiguous bandwidth. It is a REQUIRED field in the
SpectrumSpec (Section 5.9) parameter of the AVAIL_SPECTRUM_RESP
(Section 4.4.2) and AVAIL_SPECTRUM_BATCH_RESP (Section 4.4.4)
messages.
etsiEnSimultaneousChannelOperationRestriction: Specifies a
constraint on simultaneous channel operation. The Database MAY
include this field within the SpectrumSpec (Section 5.9)
parameter of the AVAIL_SPECTRUM_RESP (Section 4.4.2) and
AVAIL_SPECTRUM_BATCH_RESP (Section 4.4.4) messages. If it is
not provided, the Device MUST assume the value of "0". If it
is provided, the Device MUST NOT ignore it.
maxLocationChange: Specifies a constraint on maximum location
changes. It is a REQUIRED field in the RulesetInfo
(Section 5.6) parameter included as part of the
AVAIL_SPECTRUM_RESP (Section 4.4.2) and
AVAIL_SPECTRUM_BATCH_RESP (Section 4.4.4) messages.
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Specification document(s): This ruleset refers to the ETSI
Harmonised Standard [ETSI-EN-301-598] established by ETSI.
9.3. PAWS Error Code Registry
This specification establishes the PAWS Error Code Registry.
Additional error codes for inclusion in the PAWS protocol error
message are registered through the Specification Required [RFC5226]
process, after a two-week review period on the
paws-iana-review@ietf.org mailing list, on the advice of one or more
Designated Experts. To allow for the allocation of values prior to
publication, the Designated Expert(s) may approve registration once
they are satisfied that such a specification will be published.
Registration requests must be sent to the paws-iana-review@ietf.org
mailing list for review and comment, with an appropriate subject
(e.g., "Request for parameter: example").
Within the review period, the Designated Expert(s) will either
approve or deny the registration request, communicating this decision
to the review list and IANA. Denials should include an explanation
and, if applicable, suggestions as to how to make the request
successful.
IANA must only accept registry updates from the Designated Expert(s),
and should direct all requests for registration to the review mailing
list.
9.3.1. Registration Template
Code: Integer value of the error code. The value MUST be an
unassigned value in the range -32768 to 32767, inclusive.
Name: Name of the error.
Description: Description of the error and its associated parameters,
if any.
Additional parameters: Additional parameters that are returned in
the data portion of the error (See Section 5.17). New parameters
MUST be registered separately in the PAWS Parameters Registry, as
described by Section 9.1.
9.3.2. Initial Registry Contents
Initial registry contents are defined in the Table of Error Codes
(Table 1). Note that the third column, "Description & Additional
parameters", contains both the description of the error code and the
specification of additional parameters, when applicable.
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The PAWS Error Code Registry will include the following fields:
'Code', 'Name', 'Description', and 'Additional parameters'. The
registry will also include the error-code categories describing
-100s, -200s, and -300s as a note (see Error Codes (Section 5.17)).
IANA will post each registration template that is not included in the
text of an RFC.
10. Security Considerations
PAWS is a protocol whereby a Master Device requests a schedule of
available spectrum at its location (or location of its Slave Devices)
before it (they) can operate using those frequencies. Whereas the
information provided by the Database must be accurate and conform to
applicable regulatory rules, the Database cannot enforce, through the
protocol, that a client device uses only the spectrum it provided.
In other words, devices can put energy in the air and cause
interference without asking the Database. Hence, PAWS security
considerations do not include protection against malicious use of the
White Space spectrum. For more detailed information on specific
requirements and security considerations associated with PAWS, see
Protocol to Access White Space database: PAWS Use Cases and
Requirements [RFC6953].
By using the PAWS protocol, the Master Device and the Database expose
themselves to the following risks:
o Accuracy: The Master Device receives incorrect spectrum-
availability information.
o Privacy: An unauthorized entity intercepts identifying data for
the Master Device or its Slave Devices, such as serial number and
location.
Protection from these risks depends on the success of the following
steps:
1. The Master Device must determine the address of a proper
database.
2. The Master Device must connect to the proper database.
3. The Database must determine or compute accurate spectrum-
availability information.
4. PAWS messages must be transmitted unmodified between the Database
and the Master Device.
5. PAWS messages must be encrypted between the Database and the
Master Device to prevent exposing private information.
6. For a Slave Device, the spectrum-availability information also
must be transmitted unmodified and secure between the Master
Device and the Slave Device.
Of these, only steps 1, 2, 4, and 5 are within the scope of this
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document. This document addresses Step 1 by allowing static
provisioning of one or more trusted Databases; dynamic provisioning
is out of scope. Step 3 dependent on specific database
implementations and regulatory rules and is outside the scope of this
document. Step 6 requires a protocol between master and slave
devices and is thus outside the scope of this document.
10.1. Assurance of Proper Database
This document assumes that the Database is contacted using a domain
name or an IP address. Using HTTP over TLS HTTP Over TLS [RFC2818],
the Database authenticates its identity, either as a domain name or
IP address, to the Master Device by presenting a certificate
containing that identifier as a "subjectAltName" (i.e., as a dNSName
or IP address). If the Master Device has external information as to
the expected identity or credentials of the proper database (e.g., a
certificate fingerprint), these checks MAY be omitted. Note that in
order for the presented certificate to be valid at the client, the
client must be able to validate the certificate. In particular, the
validation path of the certificate must end in one of the client's
trust anchors, even if that trust anchor is the Database certificate
itself. A Master Device should allow for the fact that a Database
can change its certificate authorities (CAs) over time.
10.2. Protection Against Modification
To prevent a PAWS response message from being modified en route,
messages must be transmitted over an integrity-protected channel.
Using HTTP over TLS, the channel will be protected by appropriate
cypher suites.
10.3. Protection Against Eavesdropping
Using HTTP over TLS, messages protected by appropriate cypher suites
are also protected from eavesdropping or otherwise access by
unauthorized parties en route.
10.4. Client Authentication Considerations
Although the Database can inform a device of available spectrum it
can use, the Database cannot enforce that the Master Device uses any/
only those frequencies. Indeed, a malicious device can operate
without ever contacting a database. Consequently, client
authentication is not required for the core PAWS protocol (although
it may be required by specific regulators). Depending on a prior
relationship between a Database and Master Device, the Database MAY
require client authentication. TLS provides client authentication,
but there are some considerations:
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o As indicated in Section 3.2 of HTTP Over TLS [RFC2818], the TLS
client authentication procedure only determines that the device
has a certificate chain rooted in an appropriate CA (or a self-
signed certificate). The database would not know what the client
identity ought to be, unless it has some external source of
information. Distribution and management of such information,
including revocation lists, are outside the scope of this
document.
o Authentication schemes are secure only to the extent that secrets
or certificates are kept secure. When there are a vast number of
deployed devices using PAWS, the possibility that device keys will
not leak becomes small. Implementations should consider how to
manage the system in the eventuality that there is a leak.
11. Contributors
This document draws heavily from the following Internet Draft
documents, [I-D.das-paws-protocol] and [I-D.wei-paws-framework]. The
editor would like to specifically call out and thank the contributing
authors of these two documents.
Donald Joslyn
Spectrum Bridge Inc.
1064 Greenwood Blvd.
Lake Mary, FL 32746
U.S.A.
Email: d.joslyn at spectrumbridge dot com
Xinpeng Wei
Huawei
Phone: +86 13436822355
Email: weixinpeng@huawei.com
12. Acknowledgments
The authors gratefully acknowledge the contributions of: Gabor Bajko,
Ray Bellis, Teco Boot, Nancy Bravin, Rex Buddenberg, Gerald
Chouinard, Stephen Farrell, Michael Fitch, Joel M. Halpern, Daniel
Harasty, Michael Head, Jussi Kahtava, Warren Kumari, Kalle Kulsmanen,
Paul Lambert, Andy Lee, Anthony Mancuso, Basavaraj Patil, Scott
Probasco, Brian Rosen, Andy Sago, Peter Stanforth, John Stine, and
Juan Carlos Zuniga.
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13. References
13.1. Normative References
[ITUT.X520.2008]
International Telecommunication Union, "ITU-T
Recommendation X.520: Information technology - Open
Systems Interconnection - The Directory: Selected
attribute types", November 2008,
<http://www.itu.int/rec/T-REC-X.520-200811-I>.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC2616] Fielding, R., Gettys, J., Mogul, J., Frystyk, H.,
Masinter, L., Leach, P., and T. Berners-Lee, "Hypertext
Transfer Protocol -- HTTP/1.1", RFC 2616, June 1999.
[RFC3339] Klyne, G., Ed. and C. Newman, "Date and Time on the
Internet: Timestamps", RFC 3339, July 2002.
[RFC5077] Salowey, J., Zhou, H., Eronen, P., and H. Tschofenig,
"Transport Layer Security (TLS) Session Resumption without
Server-Side State", RFC 5077, January 2008.
[RFC5226] Narten, T. and H. Alvestrand, "Guidelines for Writing an
IANA Considerations Section in RFCs", BCP 26, RFC 5226,
May 2008.
[RFC5246] Dierks, T. and E. Rescorla, "The Transport Layer Security
(TLS) Protocol Version 1.2", RFC 5246, August 2008.
[RFC5491] Winterbottom, J., Thomson, M., and H. Tschofenig, "GEOPRIV
Presence Information Data Format Location Object (PIDF-LO)
Usage Clarification, Considerations, and Recommendations",
RFC 5491, March 2009.
[RFC6350] Perreault, S., "vCard Format Specification", RFC 6350,
August 2011.
[RFC7095] Kewisch, P., "jCard: The JSON Format for vCard", RFC 7095,
January 2014.
[RFC7159] Bray, T., "The JavaScript Object Notation (JSON) Data
Interchange Format", RFC 7159, March 2014.
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13.2. Informative References
[ETSI-EN-301-598]
European Telecommunication Standards Institute (ETSI),
"Final draft ETSI EN 301 598 (V1.0.9): White Space Devices
(WSD); Wireless Access Systems operating in the 470 MHz to
790 MHz frequency band; Harmonized EN covering the
essential requirements of article 3.2 of the R&TTE
Directive", February 2014, <http://www.etsi.org/deliver/
etsi_en/301500_301599/301598/01.00.09_30/
en_301598v010009v.pdf>.
[FCC-CFR47-15H]
U. S. Government, "Electronic Code of Federal Regulations,
Title 47, Part 15, Subpart H: Television Band Devices",
December 2010, <http://www.ecfr.gov/cgi-bin/
text-idx?rgn=div6&view=text&node=47:1.0.1.1.16.8>.
[FCC-Review-2012-10]
Federal Communications Commission, "Administration Topics
Review", October 2012, <http://transition.fcc.gov/bureaus/
oet/ea/presentations/files/oct12/
2b-TCB-Admin-Issues-Oct-2012-GT.pdf>.
[I-D.das-paws-protocol]
Das, S., Malyar, J., and D. Joslyn, "Device to Database
Protocol for White Space", draft-das-paws-protocol-02
(work in progress), July 2012.
[I-D.wei-paws-framework]
Wei, X., Zhu, L., and P. McCann, "PAWS Framework",
draft-wei-paws-framework-00 (work in progress), July 2012.
[I-D.zyp-json-schema]
Galiegue, F., Zyp, K., and G. Court, "JSON Schema: core
definitions and terminology", draft-zyp-json-schema-04
(work in progress), January 2013.
[ISO3166-1]
"Country Codes",
<http://www.iso.org/iso/country_codes.htm>.
[JSON-RPC]
"JSON-RPC 2.0 Specification",
<http://www.jsonrpc.org/specification>.
[RFC2818] Rescorla, E., "HTTP Over TLS", RFC 2818, May 2000.
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[RFC6953] Mancuso, A., Probasco, S., and B. Patil, "Protocol to
Access White-Space (PAWS) Databases: Use Cases and
Requirements", RFC 6953, May 2013.
[WGS-84] National Imagery and Mapping Agency, "Department of
Defense World Geodetic System 1984, Its Definition and
Relationships with Local Geodetic Systems, NIMA TR8350.2
Third Edition Amendment 1", January 2000, <http://
earth-info.nga.mil/GandG/publications/tr8350.2/
tr8350_2.html>.
Appendix A. Changes / Author Notes.
Changes from 10:
o Ruleset Name change: ETSI-EN-301-598-1.0.9 and update reference to
PDF
o Add new ETSI parameter:
etsiEnSimultaneousChannelOperationRestriction
o Separate protocol requirements from regulatory requirements
Changes from 09:
o Updated format of the IANA section
Changes from 08:
o Fix JSON typos.
o Added note that JSON schema is not intended to be formally
validated
o Finalize paws-iana-review@ietf.org as the email for updating the
PAWS IANA registries
o URLs to URIs
o Typo fixes
Changes from 07:
o Propose ruleset ID name for ETSI: ETSI-EN-301-598-1.0.0-draft
o Change TBD email address to paws-iana-review@ietf.org for
proposing changes to the PAWS IANA registries
o Moved discussion of required vCard properties to regulatory-
specific sections
o Fixed vCard examples for organization names: Use "fn" property,
but set "kind" to "org".
o Shorten parameter names:
* freqHz -> hz
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* powerDbmPerBw -> dbm
Changes from 06:
o Multi-ruleset support:
* Changed RulesetInfo to have single ruleset ID
* Changed INIT_RESP to return a list of RulesetInfo parameters,
rather than a single one
* Changed REGISTRATION_RESP to return a list of RulesetInfo
parameters to indicate the regulatory domains for which
registration was accepted
* Added SpectrumSpec (Section 5.9) parameter to represent
available-spectrum specification for one regulatory domain,
allowing AVAIL_SPECTRUM_RESP and AVAIL_SPECTRUM_BATCH_RESP to
include answers for multiple regulatory domains
* Changed GeoSpectrumSchedule to GeoSpectrumSpec (Section 5.15)
for supporting batch responses to represent available spectrum
for multiple regulatory domains at a location
o To avoid ambiguity or redundant information, clarified that:
* Event-time intervals within a single set of schedules MUST be
disjoint
* A single Spectrum element MUST cover the entire range of
frequencies governed by a ruleset, rather than splitting them
to present a "channelized" view
o Add "ruleset" to Terminology section
o Sync Terminology section with Use Case document
o Add "masterDeviceDesc" to Device Validate request
o Add "masterDeviceLocation" to the AVAIL_SPECTRUM requests and the
SPECTRUM_NOTIFY message. Change "location" to be the location of
the Slave Device, if the request is made by a Master Device on
behalf of a Slave Device
o Update vCard reference and example
o Add jsonrpc 2.0 to all sample messages
o Clarify that Listing Servers may be preconfigured in a device
o Clarify meaning of maximum power levels vs bandwidth, including
renaming parameter names:
o
* maxPowerDBm -> powerDbmPerBw
* bandwidth -> resolutionBwHz
o Explicitly allowed generic JSON-RPC error codes as possible codes.
o Replace SHALL with MUST for consistency
o Replace URI with URL for consistency
o Reduce clutter in JSON encoding examples by removing string-
concatenation characters
o Changed "depends" to "depends on regulatory rules" in several
places
Changes from 05:
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o Remove requirement for JSON-RPC 1.0
o More typo fixes and clarifications
Changes from 04:
o Add "masterDeviceDesc" parameter to the available-spectrum
requests to allow both Master and Slave device descriptors when
the Master is making the request on behalf of a Slave.
o Add "requestType" parameter to the available-spectrum requests to
support requesting generic operating parameters for any Slave
Device.
o Add DbUpdateSpec as optional parameter to all response messages
and to the error response to allow a Device to detect a database
change at any stage of the control flow.
o For the OUTSIDE_COVERAGE error, added ability to return a list of
alternate databases
o Explicitly allow JSON-RPC v2.0 and v1.0 encodings
o Relaxed language that state, "MUST stop operation" to "MUST cease
use of spectrum under rules for database-managed spectrum". I.e.,
the device may have other fallback strategies allowed by
regulators.
Changes from 03:
o Expanded the Database Discovery mechanism to describe in more
detail pre-configuration with URLs of databases and database-
listing servers, including mechanisms for updating the
configurations when things change
* Add database-change field to Available Spectrum Response
(Section 4.4.2)
o Added fields that are anticipated to be needed by the ETSI
harmonized standard for White Space Devices:
* Added bandwidth constraints to the Available Spectrum Response
(Section 4.4.2)
* Updated Available Spectrum Response to return RulesetInfo,
rather than just a ruleset identifier
* Added optional device-manufacturer and device-model IDs to the
DeviceDescriptor (Section 5.2) message. Also moved fccId from
this message to the IANA section.
* Expanded IANA (Section 9) sections
o Clarified restrictions on the specification of the vertices of a
Polygon.
o Changed default confidence level to 95% for a point with
uncertainty
o Clarified how devices without absolute time source can use the
timestamps in the response messages
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o Change method names to start with "spectrum.paws." prefix
o Added maximum string lengths
o Updated author contact info
o More typo fixes
Changes from 02:
o Added timestamp to the AVAIL_SPECTRUM_RESP (Section 4.4.2) and
AVAIL_SPECTRUM_BATCH_RESP (Section 4.4.4) data models to serve as
a reference for the event times in the response. This was
accidentally omitted (but was specified in their JSON encodings
(Section 6)).
o Fixed typos throughout the JSON encoding (Section 6) sections,
typically adding missing commas.
Changed from 01:
o Added a description of message sequences to support multiple
rulesets and multiple jurisdictions Section 3.1.
o Modified DeviceDescriptor (Section 5.2) to add rulesetIds
parameter
o Modified RulesetInfo (Section 5.6), AvailableSpectrumResponse
(Section 4.4.2) to add rulesetId parameter.
o Add Extensibility (Section 8) section.
o Filled in IANA (Section 9) section.
o Removed blank Example Messages section
Changes from 00:
o Add JSON encoding
o Adopt RFC5491 for GeoLocation
o Adopt vCard for contact information
o Add Response Code section and update text referencing the defined
response codes
o Change DeviceIdentifier to be DeviceDescriptor, allowing
identifiers and device-characteristic fields to be included.
Authors' Addresses
Vincent Chen (editor)
Google
1600 Amphitheatre Parkway
Mountain View, CA 94043
US
Email: vchen@google.com
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Subir Das
Applied Communication Sciences
150 Mount Airy Road
Basking Ridge, NJ 07920
U.S.A.
Phone:
Fax:
Email: sdas at appcomsci dot com
URI:
Lei Zhu
Huawei
Phone: +86 13910157020
Fax:
Email: lei.zhu@huawei.com
URI:
John Malyar
iconectiv (formerly Telcordia Interconnection Solutions)
444 Hoes Lane/RRC 4E1106
Piscataway, NJ 08854
U.S.A.
Phone:
Fax:
Email: jmalyar at iconectiv dot com
URI:
Peter J. McCann
Huawei
400 Crossing Blvd, 2nd Floor
Bridgewater, NJ 08807
USA
Phone: +1 908 541 3563
Fax:
Email: peter.mccann@huawei.com
URI:
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