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/**
* @author ETSI / STF481
* @version $URL$
* $Id$
* @desc Module containing templates for Security Protocol
*
*/
module LibItsSecurity_Templates {
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import from LibCommon_BasicTypesAndValues all;
import from LibCommon_DataStrings all;
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import from LibItsSecurity_TypesAndValues all;
import from LibItsSecurity_Pixits all;
group constants {
/**
* @desc Protocol version
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.1 SecuredMessage
*/
const UInt8 c_protocol_version := 2;
/**
* @desc Security profile identifier for CAMs
* @see Draft ETSI TS 103 097 V1.1.6 Clause 7.1 Security profile for CAMs
*/
const UInt8 c_security_profileCAMs := 1;
/**
* @desc Security profile identifier for DENMs
* @see Draft ETSI TS 103 097 V1.1.6 Clause 7.2 Security profile for DENMs
*/
const UInt8 c_security_profileDENMs := 2;
/**
* @desc Security profile identifier for other messages
* @see Draft ETSI TS 103 097 V1.1.6 Clause 7.3 Generic security profile for other signed messages
*/
const UInt8 c_security_profileOthers := 3;
* @desc Certificate version
* @see Draft ETSI TS 103 097 V1.1.6 Clause 6.1 Certificate
/**
* @desc CAM message type
* @see Draft ETSI TS 103 097 V1.1.6 Clause 7.1 Security profile for CAMs
*/
const UInt16 c_messageType_CAM := 2;
/**
* @desc DENM message type
* @see Draft ETSI TS 103 097 V1.1.6 Clause 7.2 Security profile for DENMs
*/
const UInt16 c_messageType_DENM := 1;
* @desc Dummy send/receive templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4 Basic format elements
* @desc Dummy send templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2 Specification of basic format elements
* @desc Generic Send/Receive templates for security algorithm descriptions
group dummyAlgorithms {
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} // End of group dummyAlgorithms
} // End of group dummyBasicFormatElementsSend
/**
* @desc Dummy receive templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2 Specification of basic format elements
*/
group dummyBasicFormatElementsRecv {
/**
* @desc Dummy receive template for PublicKey/EccPoint
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.4 PublicKey
*/
template (present) PublicKey mw_publicKey_eccPoint_dummy := {
algorithm := e_ecdsa_nistp256_with_sha256,
public_key := {
eccPoint := ?
} // End of field public_key
} // End of template PublicKey
/**
* @desc Dummy send template for PublicKey/AES CCM
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.4 PublicKey
*/
template (present) PublicKey mw_publicKey_aesccm_dummy := {
algorithm := e_ecies_nistp256,
public_key := {
aesCcm := ?
} // End of field public_key
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/**
* @desc Dummy receive template for Time64WithStandardDeviation
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.17 Time64WithStandardDeviation
*/
template (present) Time64WithStandardDeviation mw_time64WithStandardDeviation_dummy := {
time := ?,
log_std_dev := ?
} // End of template mw_time64WithStandardDeviation_dummy
/**
* @desc Dummy receive template for TwoDLocation
* @param p_latitude Latitude range from 900 000 000 to +900 000 000
* @param p_longitude Longitude range from 1 800 000 000 to +1 800 000 000
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.19 TwoDLocation
*/
template (present) TwoDLocation mw_twoDLocation_dummy := {
latitude := ?,
longitude := ?
} // End of template mw_twoDLocation_dummy
/**
* @desc Dummy send template for ThreeDLocation
* @param p_latitude Latitude range from 900 000 000 to +900 000 000
* @param p_longitude Longitude range from 1 800 000 000 to +1 800 000 000
* @param p_elevation Elevation relative to the WGS-84 ellipsoid in decimetres
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.20 ThreeDLocation
*/
template (present) ThreeDLocation mdw_threeDLocation_dummy := {
latitude := ?,
longitude := ?,
elevation := ?
} // End of template mdw_threeDLocation_dummy
/**
* @desc Basic receive template rectangular geographic region
* @param p_northwest Upper left corner
* @param p_southeast Lower rigth corner
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (present) GeographicRegion mw_geographicRegion_rectangle_dummy(
in template (present) TwoDLocation p_northwest,
in template (present) TwoDLocation p_southeast
) := {
region_type := e_rectangle,
region := {
rectangular_region := {
{
northwest := p_northwest,
southeast := p_southeast
}
} // End of field rectangular_region
} // End of field region
} // End of template mw_geographicRegion_rectangle_dummy
} // End of group dummyBasicFormatElementsRecv
} // End of group dummyBasicFormatElements
/**
* @desc Send/receive templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4 Basic format elements
*/
group basicFormatElements {
/**
* @desc Send templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2 Specification of basic format elements
*/
group basicFormatElementsSend {
/**
* @desc Send/Receive templates for security algorithm descriptions
*/
group algorithms {
* @desc Send template for EccPoint description based on x_coordinate_only type
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.5 EccPoint
* @see Draft ETSI TS 103 097 V1.1.6 Table 2: Derivation of field sizes depending on the used algorithm
*/
template (value) EccPoint m_eccPointecdsa_nistp256_with_sha256_x_coordinate_only(
in template (value) octetstring p_x
) := {
type_ := e_x_coordinate_only,
x := p_x,
y := omit
} // End of template m_eccPointecdsa_nistp256_with_sha256_x_coordinate_only
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/**
* @desc Send template for EccPoint description based on y_coordinate_only type
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.5 EccPoint
* @see Draft ETSI TS 103 097 V1.1.6 Table 2: Derivation of field sizes depending on the used algorithm
*/
template (value) EccPoint m_eccPointecdsa_nistp256_with_sha256_y_coordinate_only(
in template (value) octetstring p_x
) := {
type_ := e_compressed_lsb_y_0,
x := p_x,
y := omit
} // End of template m_eccPointecdsa_nistp256_with_sha256_y_coordinate_only
* @desc Send template for EccPoint description based on uncompressed type
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.5 EccPoint
* @see Draft ETSI TS 103 097 V1.1.6 Table 2: Derivation of field sizes depending on the used algorithm
*/
template (value) EccPoint m_eccPointecdsa_nistp256_with_sha256_uncompressed(
in template (value) octetstring p_x,
in template (value) octetstring p_y
) := {
type_ := e_uncompressed,
}
} // End of template m_eccPointecdsa_nistp256_with_sha256_uncompressed
/**
* @desc Information regarding AES CCM encryption
* @param p_eccPoint The EccPoint used in the PublicKey
*/
template (value) AesCcm m_aesccm(
in template (value) EccPoint p_eccPoint
) := {
supported_symm_alg := e_aes_128_ccm,
eccPoint := p_eccPoint
} // End of template m_aesccm
* @desc Send template for AES CCM encryption parameters
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.7 EncryptionParameters
*/
template (value) EncryptionParameters m_encryptionParameters_aes_128_ccm(
in template (value) Oct12 p_nonce
symm_algorithm := e_aes_128_ccm,
public_key := {
nonce := p_nonce
}
} // End of template m_encryptionParameters_aes_128_ccm
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/**
* @desc Send template for PublicKey/EccPoint
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.4 PublicKey
*/
template (value) PublicKey m_publicKey_eccPoint(
in template (value) EccPoint p_eccPoint
) := {
algorithm := e_ecdsa_nistp256_with_sha256,
public_key := {
eccPoint := p_eccPoint
} // End of field public_key
} // End of template m_publicKey_eccPoint
/**
* @desc Send template for PublicKey/AES CCM
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.4 PublicKey
*/
template (value) PublicKey m_publicKey_aesccm(
in template (value) AesCcm p_aesCcm
) := {
algorithm := e_ecies_nistp256,
public_key := {
aesCcm := p_aesCcm
} // End of field public_key
} // End of template m_publicKey_aesccm
* @desc Send/receive templates for Signature description
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.9 Signature
* @see Draft ETSI TS 103 097 V1.1.6 Table 2: Derivation of field sizes depending on the used algorithm
/**
* @desc Send template for signatures based on ECDSA algorithm
* @member p_ecdsaSignature The ECDSA based signature
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.9 Signature
template (value) Signature m_signature(
in template (value) EcdsaSignature p_ecdsaSignature
):= {
} // End of field signature_
} // End of template m_signature_ecdsa
/**
* @desc Send template for ECDSA based signature
* @member p_r The coordinate of the elliptic curve point resulting from multiplying the generator element by the ephemeral private key
* @member p_s The signature
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.10 EcdsaSignature
template (value) EcdsaSignature m_ecdsaSignature(
in template (value) EccPoint p_r,
in template (value) octetstring p_s
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} // End of group signatures
group signerInfos {
/**
* @desc Send template for self signed message
*/
template (value) SignerInfo m_SignerInfo_self := {
type_ := e_self,
signerInfo := omit
} // End of template m_SignerInfo_self
/**
* @desc Send template for self signed message
*/
template (value) SignerInfo m_SignerInfo_digest(
in template (value) HashedId8 p_digest
) := {
type_ := e_certificate_digest_with_ecdsap256,
signerInfo := {
digest := p_digest
} // End of field signerInfo
} // End of template m_SignerInfo_digest
template (value) SignerInfo m_signerInfo_certificate(
in template (value) Certificate p_certificate
) := {
type_ := e_certificate,
signerInfo := {
certificate := p_certificate
} // End of field signerInfo
} // End of template m_signerInfo_certificate
template (value) SignerInfo m_signerInfo_certificates(
in template (value) CertificateChain p_certificates
) := {
type_ := e_certificate_chain,
signerInfo := {
certificates := p_certificates
} // End of field signerInfo
} // End of template m_signerInfo_certificates
} // End of group signerInfos
/**
* @desc Send template for Time64WithStandardDeviation
* @param p_time TODO
* @param p_log_std_dev TODO
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.17 Time64WithStandardDeviation
*/
template (value) Time64WithStandardDeviation m_time64WithStandardDeviation(
in template (value) Time64 p_time,
in template (value) UInt8 p_log_std_dev
) := {
time := p_time,
log_std_dev := p_log_std_dev
} // End of template m_time64WithStandardDeviation
/**
* @desc Send template for Duration (in seconds)
* @param p_duration The duration value
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.18 Duration
*/
template (value) Duration m_duration_in_seconds(
in template (value) Int13 p_duration
) := {
unit := e_seconds,
duration := p_duration
} // End of template m_duration_in_seconds
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/**
* @desc Send template for TwoDLocation
* @param p_latitude Latitude range from 900 000 000 to +900 000 000
* @param p_longitude Longitude range from 1 800 000 000 to +1 800 000 000
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.19 TwoDLocation
*/
template (value) TwoDLocation m_twoDLocation(
in template (value) Int32 p_latitude,
in template (value) Int32 p_longitude
) := {
latitude := p_latitude,
longitude := p_longitude
} // End of template m_twoDLocation
/**
* @desc Send template for ThreeDLocation
* @param p_latitude Latitude range from 900 000 000 to +900 000 000
* @param p_longitude Longitude range from 1 800 000 000 to +1 800 000 000
* @param p_elevation Elevation relative to the WGS-84 ellipsoid in decimetres
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.20 ThreeDLocation
*/
template (value) ThreeDLocation m_threeDLocation(
in template (value) Int32 p_latitude,
in template (value) Int32 p_longitude,
in template (value) Oct2 p_elevation
) := {
latitude := p_latitude,
longitude := p_longitude,
elevation := p_elevation
} // End of template m_threeDLocation
/**
* @desc Send template circular geographic region
* @param p_center Circle center
* @param p_radius Circle radius
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (value) GeographicRegion m_geographicRegion_circle(
in template (value) TwoDLocation p_center,
in template (value) UInt16 p_radius
region_type := e_circle,
region := {
circular_region := {
center := p_center,
radius := p_radius
} // End of field circular_region
} // End of field region
} // End of template m_geographicRegion_circle
/**
* @desc Send template rectangular geographic region
* @param p_northwest Upper left corner
* @param p_southeast Lower rigth corner
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (value) GeographicRegion m_geographicRegion_rectangle(
in template (value) TwoDLocation p_northwest,
in template (value) TwoDLocation p_southeast
region_type := e_rectangle,
region := {
rectangular_region := {
{
northwest := p_northwest,
southeast := p_southeast
}
} // End of field rectangular_region
} // End of field region
} // End of template m_geographicRegion_rectangle
/**
* @desc Send template polygonial geographic region
* @param p_polygonal_region Polygonial region description
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (value) GeographicRegion m_geographicRegion_polygonial(
in template (value) PolygonalRegion p_polygonal_region
region_type := e_polygon,
region := {
polygonal_region := p_polygonal_region
} // End of field region
} // End of template m_geographicRegion_polygonial
/**
* @desc Send template for geographic identified region
* @param p_id_region Indentified region
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (value) GeographicRegion m_geographicRegion_identifiedRegion(
in template (value) IdentifiedRegion p_id_region
) := {
region_type := e_id,
} // End of template m_geographicRegion_identifiedRegion
/**
* @desc Send template for not specified geographic region
* @param p_id_region Indentified region
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (value) GeographicRegion m_geographicRegion_nonce := {
region_type := e_none,
region := omit
} // End of template m_geographicRegion_nonce
} // End of group basicFormatElementsSend
* @desc Receive templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2 Specification of basic format elements
*/
group basicFormatElementsRecv {
/**
* @desc Receive template for Time64WithStandardDeviation
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.17 Time64WithStandardDeviation
*/
template (present) Time64WithStandardDeviation mw_time64WithStandardDeviation(
in template (present) Time64 p_time,
in template (present) UInt8 p_log_std_dev
) := {
time := p_time,
log_std_dev := p_log_std_dev
} // End of template mw_time64WithStandardDeviation
/**
* @desc Receive template for Duration (in seconds)
* @param p_duration The duration value
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.18 Duration
*/
template (present) Duration mw_duration_in_seconds(
in template (present) Int13 p_duration
) := {
unit := e_seconds,
duration := p_duration
} // End of template mw_duration_in_seconds
* @desc Receive template for TwoDLocation
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* @param p_latitude Latitude range from 900 000 000 to +900 000 000
* @param p_longitude Longitude range from 1 800 000 000 to +1 800 000 000
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.19 TwoDLocation
*/
template (present) TwoDLocation mw_twoDLocation(
in template (present) Int32 p_latitude,
in template (present) Int32 p_longitude
) := {
latitude := p_latitude,
longitude := p_longitude
} // End of template mw_twoDLocation
/**
* @desc Receive template for ThreeDLocation
* @param p_latitude Latitude range from 900 000 000 to +900 000 000
* @param p_longitude Longitude range from 1 800 000 000 to +1 800 000 000
* @param p_elevation Elevation relative to the WGS-84 ellipsoid in decimetres
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.20 ThreeDLocation
*/
template (present) ThreeDLocation mw_threeDLocation(
in template (present) Int32 p_latitude,
in template (present) Int32 p_longitude,
in template (present) Oct2 p_elevation
) := {
latitude := p_latitude,
longitude := p_longitude,
elevation := p_elevation
} // End of template mw_threeDLocation
/**
* @desc Receive template circular geographic region
* @param p_center Circle center
* @param p_radius Circle radius
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (present) GeographicRegion mw_geographicRegion_circle(
in template (present) TwoDLocation p_center,
in template (present) UInt16 p_radius
region_type := e_circle,
region := {
circular_region := {
center := p_center,
radius := p_radius
} // End of field circular_region
} // End of field region
} // End of template mw_geographicRegion_circle
/**
* @desc Receive template polygonial geographic region
* @param p_polygonal_region Polygonial region description
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (present) GeographicRegion mw_geographicRegion_polygonial(
in template (present) PolygonalRegion p_polygonal_region
region_type := e_polygon,
region := {
polygonal_region := p_polygonal_region
} // End of field region
} // End of template mw_geographicRegion_polygonial
/**
* @desc Receive template for geographic identified region
* @param p_id_region Indentified region
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (present) GeographicRegion mww_geographicRegion_identifiedRegion(
in template (present) IdentifiedRegion p_id_region
) := {
region_type := e_id,
region := {
id_region := p_id_region
} // End of field region
} // End of template mw_geographicRegion_identifiedRegion
/**
* @desc Receive template for not specified geographic region
* @param p_id_region Indentified region
* @see Draft ETSI TS 103 097 V1.1.6 Clause 4.2.21 GeographicRegion
*/
template (present) GeographicRegion mw_geographicRegion_nonce := {
region_type := e_none,
} // End of template mw_geographicRegion_nonce
} // End of group basicFormatElementsRecv
* @desc Dummy send/receive templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5 Specification of security header
* @desc Dummy send templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5 Specification of security header
*/
group dummyMessagesSend {
/**
* @desc Generic send template for Security profile for other messages
* @see Draft ETSI TS 103 097 V1.1.6 Clause 7.3 Generic security profile for other signed messages
*/
template (value) SecuredMessage m_secureMessage_dummy := {
protocol_version := c_protocol_version,
security_profile := c_security_profileOthers,
header_fields := {
m_header_field_signer_info(
m_SignerInfo_self
)
},
} // End of template m_secureMessage_dummy
} // End of group dummyMessagesSend
/**
* @desc Dummy receive templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5 Specification of security header
group dummyMessagesRecv {
/**
* @desc Generic received template for SecuredMessage
*/
template (present) SecuredMessage mw_securedMessage_dummy := {
protocol_version := c_protocol_version,
security_profile := ?,
header_fields := ?,
payload_fields := ?,
trailer_fields := ?
} // End of template mw_securedMessage_dummy
} // End of group dummyMessagesRecv
group dummyPayloads {
* @desc Generic received template for unsecured payload
template (present) SecPayload mw_unsecuredPayload_dummy := {
} // End of template mw_unsecuredPayload_dummy
* @desc Generic received template for SecuredMessage
template (present) SecPayload mw_signedPayload_dummy := {
} // End of template mw_signedPayload_dummy
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} // End of group payloads
group dummyEciesEncryptedKey {
group dummyEciesEncryptedKeyRecv {
/**
* @desc Basic receive template for an ECIES-encrypted symmetric key as defined in IEEE Std 1363a 2004
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.9 EciesEncryptedKey
*/
template (present) EciesEncryptedKey mw_eciesEncryptedKey_dummy := {
v := ?,
c := ?,
t := ?
} // End of template mw_eciesEncryptedKey_dummy
} // End of group dummyEciesEncryptedKeyRecv
} // End of group dummyEciesEncryptedKey
} // End of group dummyMessages
/**
* @desc Send/receive templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5 Specification of security header
*/
group messages {
/**
* @desc Send templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5 Specification of security header
*/
group messagesSend {
/**
* @desc Generic send template for Security profile for CAMs with several payloads
*/
template (value) SecuredMessage m_secureMessage(
in template (value) HeaderFields p_header_fields,
in template (value) SecPayloads p_payload_fields,
in template (value) TrailerFields p_trailer_fields
) := {
protocol_version := c_protocol_version,
security_profile := 0,
header_fields := p_header_fields,
payload_fields := p_payload_fields,
trailer_fields := p_trailer_fields
} // End of template m_secureMessage
} // End of group messagesSend
/**
* @desc Receive templates for security headers
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5 Specification of security header
*/
group messagesRecv {
/**
* @desc Generic received template for SecuredMessage
*/
template (present) SecuredMessage mw_securedMessage(
template (present) HeaderFields p_header := ?,
template (present) TrailerFields p_trailer := ?
) := {
protocol_version := c_protocol_version,
security_profile := ?,
header_fields := p_header,
payload_fields := p_payloads,
trailer_fields := p_trailer
} // End of template mw_securedMessage
} // End of group messagesRecv
/**
* @desc Send/Receive templates for Payload
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.2 Payload
*/
* @desc Send templates for Payload
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.2 Payload
*/
group payloadsSend {
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/**
* @desc Send template for 'unsecured' Payload
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.2 Payload
*/
template (value) SecPayload m_payload_unsecured(in template (omit) octetstring p_data := omit) := {
type_ := e_unsecured,
data := p_data
} // End of template m_payload_signed
/**
* @desc Send template for 'signed' Payload
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.2 Payload
*/
template (value) SecPayload m_payload_signed(in template (omit) octetstring p_data := omit) := {
type_ := e_signed,
data := p_data
} // End of template m_payload_signed
* @desc Send template for 'signed_external' Payload
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.2 Payload
*/
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template (value) SecPayload m_payload_signed_external(in template (omit) octetstring p_data := omit) := {
type_ := e_signed_external,
data := omit
} // End of template m_payload_signed_external
template (value) SecPayload m_data_payload(
in template (value) SecPayloadType p_type,
data := p_data
} // End of template m_data_payload
} // End of group payloadsSend
/**
* @desc Receive templates for Payload
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.2 Payload
*/
group payloadsRecv {
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.2 Payload
*/
template (present) SecPayload mw_payload (in template (present) SecPayloadType p_type,
in template (present) octetstring p_data := ?
):= {
type_ := p_type,
data := p_data
/**
* @desc Send/Receive templates for HeaderField
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
/**
* @desc Send templates for HeaderField
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
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group headerFieldsSend {
/**
* @desc Send template for HeaderField with generation time information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_generation_time(
in template (value) Time64 p_generation_time
) := {
type_ := e_generation_time,
headerField := {
generation_time := p_generation_time
}
} // End of template m_header_field_generation_time
/**
* @desc Send template for HeaderField with generation time and standard deviation information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_generation_time_with_standard_deviation(
in template (value) Time64WithStandardDeviation p_generation_time_with_standard_deviation
) := {
type_ := e_generation_time_standard_deviation,
headerField := {
generation_time_with_standard_deviation := p_generation_time_with_standard_deviation
}
} // End of template m_header_field_generation_time_with_standard_deviation
/**
* @desc Send template for HeaderField with expiration time information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_expiry_time(
in template (value) Time32 p_expiry_time
) := {
type_ := e_expiration,
headerField := {
expiry_time := p_expiry_time
}
} // End of template m_header_field_expiry_time
/**
* @desc Send template for HeaderField with generation location information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_generation_location(
in template (value) ThreeDLocation p_generation_location
) := {
type_ := e_generation_location,
headerField := {
generation_location := p_generation_location
}
} // End of template m_header_field_generation_location
/**
* @desc Send template for HeaderField with generation location information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_digest(
in template (value) HashedId3 p_digest
) := {
type_ := e_request_unrecognized_certificate,
headerField := {
digests := { p_digest }
}
} // End of template m_header_field_digest
/**
* @desc Send template for HeaderField with generation location information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_multiple_digests(
in template (value) HashedId3s p_digests
) := {
type_ := e_request_unrecognized_certificate,
headerField := {
digests := p_digests
}
} // End of template m_header_field_multiple_digests
/**
* @desc Send template for HeaderField with generation location information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_message_type(
in template (value) UInt16 p_message_type
) := {
type_ := e_message_type,
headerField := {
message_type := p_message_type
}
} // End of template m_header_field_message_type
/**
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* @desc Send template for HeaderField with signer information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_signer_info(
in template (value) SignerInfo p_signer
) := {
type_ := e_signer_info,
headerField := {
signer := p_signer
}
} // End of template m_header_field_signerInfo_signer_info
/**
* @desc Send template for HeaderField with signer information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_recipient(
in template (value) RecipientInfo p_recipient
) := {
type_ := e_recipient_info,
headerField := {
recipients := { p_recipient }
}
} // End of template m_header_field_recipient
/**
* @desc Send template for HeaderField with signer information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_multiple_recipients(
in template (value) RecipientInfos p_recipients
) := {
type_ := e_recipient_info,
headerField := {
recipients := p_recipients
}
} // End of template m_header_field_multiple_recipients
/**
* @desc Send template for HeaderField with signer information
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
template (value) HeaderField m_header_field_enc_params(
in template (value) EncryptionParameters p_enc_params
) := {
type_ := e_encryption_parameters,
headerField := {
enc_params := p_enc_params
}
} // End of template m_header_field_enc_params
} // End of group headerFieldsSend
/**
* @desc Receive templates for HeaderField
* @see Draft ETSI TS 103 097 V1.1.6 Clause 5.4 HeaderField
*/
/**
* @desc Receive template for HeaderField with generation time information