[ aws . iotfleetwise ]
Updates a decoder manifest.
A decoder manifest can only be updated when the status is DRAFT
. Only ACTIVE
decoder manifests can be associated with vehicles.
See also: AWS API Documentation
update-decoder-manifest
--name <value>
[--description <value>]
[--signal-decoders-to-add <value>]
[--signal-decoders-to-update <value>]
[--signal-decoders-to-remove <value>]
[--network-interfaces-to-add <value>]
[--network-interfaces-to-update <value>]
[--network-interfaces-to-remove <value>]
[--status <value>]
[--cli-input-json | --cli-input-yaml]
[--generate-cli-skeleton <value>]
[--debug]
[--endpoint-url <value>]
[--no-verify-ssl]
[--no-paginate]
[--output <value>]
[--query <value>]
[--profile <value>]
[--region <value>]
[--version <value>]
[--color <value>]
[--no-sign-request]
[--ca-bundle <value>]
[--cli-read-timeout <value>]
[--cli-connect-timeout <value>]
[--cli-binary-format <value>]
[--no-cli-pager]
[--cli-auto-prompt]
[--no-cli-auto-prompt]
--name
(string)
The name of the decoder manifest to update.
--description
(string)
A brief description of the decoder manifest to update.
--signal-decoders-to-add
(list)
A list of information about decoding additional signals to add to the decoder manifest.
(structure)
Information about a signal decoder.
fullyQualifiedName -> (string)
The fully qualified name of a signal decoder as defined in a vehicle model.type -> (string)
The network protocol for the vehicle. For example,CAN_SIGNAL
specifies a protocol that defines how data is communicated between electronic control units (ECUs).OBD_SIGNAL
specifies a protocol that defines how self-diagnostic data is communicated between ECUs.interfaceId -> (string)
The ID of a network interface that specifies what network protocol a vehicle follows.canSignal -> (structure)
Information about signal decoder using the Controller Area Network (CAN) protocol.
messageId -> (integer)
The ID of the message.isBigEndian -> (boolean)
Whether the byte ordering of a CAN message is big-endian.isSigned -> (boolean)
Whether the message data is specified as a signed value.startBit -> (integer)
Indicates the beginning of the CAN signal. This should always be the least significant bit (LSB).
This value might be different from the value in a DBC file. For little endian signals,
startBit
is the same value as in the DBC file. For big endian signals in a DBC file, the start bit is the most significant bit (MSB). You will have to calculate the LSB instead and pass it as thestartBit
.offset -> (double)
The offset used to calculate the signal value. Combined with factor, the calculation isvalue = raw_value * factor + offset
.factor -> (double)
A multiplier used to decode the CAN message.length -> (integer)
How many bytes of data are in the message.name -> (string)
The name of the signal.obdSignal -> (structure)
Information about signal decoder using the On-board diagnostic (OBD) II protocol.
pidResponseLength -> (integer)
The length of the requested data.serviceMode -> (integer)
The mode of operation (diagnostic service) in a message.pid -> (integer)
The diagnostic code used to request data from a vehicle for this signal.scaling -> (double)
A multiplier used to decode the message.offset -> (double)
The offset used to calculate the signal value. Combined with scaling, the calculation isvalue = raw_value * scaling + offset
.startByte -> (integer)
Indicates the beginning of the message.byteLength -> (integer)
The length of a message.bitRightShift -> (integer)
The number of positions to shift bits in the message.bitMaskLength -> (integer)
The number of bits to mask in a message.messageSignal -> (structure)
The decoding information for a specific message which supports higher order data types.
topicName -> (string)
The topic name for the message signal. It corresponds to topics in ROS 2.structuredMessage -> (tagged union structure)
The structured message for the message signal. It can be defined with either a
primitiveMessageDefinition
,structuredMessageListDefinition
, orstructuredMessageDefinition
recursively.Note
This is a Tagged Union structure. Only one of the following top level keys can be set:primitiveMessageDefinition
,structuredMessageListDefinition
,structuredMessageDefinition
.primitiveMessageDefinition -> (tagged union structure)
Represents a primitive type node of the complex data structure.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:ros2PrimitiveMessageDefinition
.ros2PrimitiveMessageDefinition -> (structure)
Information about a
PrimitiveMessage
using a ROS 2 compliant primitive type message of the complex data structure.primitiveType -> (string)
The primitive type (integer, floating point, boolean, etc.) for the ROS 2 primitive message definition.offset -> (double)
The offset used to calculate the signal value. Combined with scaling, the calculation isvalue = raw_value * scaling + offset
.scaling -> (double)
A multiplier used to decode the message.upperBound -> (long)
An optional attribute specifying the upper bound forSTRING
andWSTRING
.structuredMessageListDefinition -> (structure)
Represents a list type node of the complex data structure.
name -> (string)
The name of the structured message list definition.memberType -> (tagged union structure)
The member type of the structured message list definition.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:primitiveMessageDefinition
,structuredMessageListDefinition
,structuredMessageDefinition
.primitiveMessageDefinition -> (tagged union structure)
Represents a primitive type node of the complex data structure.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:ros2PrimitiveMessageDefinition
.ros2PrimitiveMessageDefinition -> (structure)
Information about a
PrimitiveMessage
using a ROS 2 compliant primitive type message of the complex data structure.primitiveType -> (string)
The primitive type (integer, floating point, boolean, etc.) for the ROS 2 primitive message definition.offset -> (double)
The offset used to calculate the signal value. Combined with scaling, the calculation isvalue = raw_value * scaling + offset
.scaling -> (double)
A multiplier used to decode the message.upperBound -> (long)
An optional attribute specifying the upper bound forSTRING
andWSTRING
.structuredMessageListDefinition -> (structure)
Represents a list type node of the complex data structure.
name -> (string)
The name of the structured message list definition.( … recursive … )listType -> (string)
The type of list of the structured message list definition.capacity -> (integer)
The capacity of the structured message list definition when the list type isFIXED_CAPACITY
orDYNAMIC_BOUNDED_CAPACITY
.structuredMessageDefinition -> (list)
Represents a struct type node of the complex data structure.
(structure)
Represents a
StructureMessageName
toDataType
map element.fieldName -> (string)
The field name of the structured message. It determines how a data value is referenced in the target language.( … recursive … )
listType -> (string)
The type of list of the structured message list definition.capacity -> (integer)
The capacity of the structured message list definition when the list type isFIXED_CAPACITY
orDYNAMIC_BOUNDED_CAPACITY
.structuredMessageDefinition -> (list)
Represents a struct type node of the complex data structure.
(structure)
Represents a
StructureMessageName
toDataType
map element.fieldName -> (string)
The field name of the structured message. It determines how a data value is referenced in the target language.dataType -> (tagged union structure)
The data type.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:primitiveMessageDefinition
,structuredMessageListDefinition
,structuredMessageDefinition
.primitiveMessageDefinition -> (tagged union structure)
Represents a primitive type node of the complex data structure.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:ros2PrimitiveMessageDefinition
.ros2PrimitiveMessageDefinition -> (structure)
Information about a
PrimitiveMessage
using a ROS 2 compliant primitive type message of the complex data structure.primitiveType -> (string)
The primitive type (integer, floating point, boolean, etc.) for the ROS 2 primitive message definition.offset -> (double)
The offset used to calculate the signal value. Combined with scaling, the calculation isvalue = raw_value * scaling + offset
.scaling -> (double)
A multiplier used to decode the message.upperBound -> (long)
An optional attribute specifying the upper bound forSTRING
andWSTRING
.structuredMessageListDefinition -> (structure)
Represents a list type node of the complex data structure.
name -> (string)
The name of the structured message list definition.( … recursive … )listType -> (string)
The type of list of the structured message list definition.capacity -> (integer)
The capacity of the structured message list definition when the list type isFIXED_CAPACITY
orDYNAMIC_BOUNDED_CAPACITY
.structuredMessageDefinition -> (list)
Represents a struct type node of the complex data structure.
(structure)
Represents a
StructureMessageName
toDataType
map element.fieldName -> (string)
The field name of the structured message. It determines how a data value is referenced in the target language.( … recursive … )
JSON Syntax:
[
{
"fullyQualifiedName": "string",
"type": "CAN_SIGNAL"|"OBD_SIGNAL"|"MESSAGE_SIGNAL",
"interfaceId": "string",
"canSignal": {
"messageId": integer,
"isBigEndian": true|false,
"isSigned": true|false,
"startBit": integer,
"offset": double,
"factor": double,
"length": integer,
"name": "string"
},
"obdSignal": {
"pidResponseLength": integer,
"serviceMode": integer,
"pid": integer,
"scaling": double,
"offset": double,
"startByte": integer,
"byteLength": integer,
"bitRightShift": integer,
"bitMaskLength": integer
},
"messageSignal": {
"topicName": "string",
"structuredMessage": {
"primitiveMessageDefinition": {
"ros2PrimitiveMessageDefinition": {
"primitiveType": "BOOL"|"BYTE"|"CHAR"|"FLOAT32"|"FLOAT64"|"INT8"|"UINT8"|"INT16"|"UINT16"|"INT32"|"UINT32"|"INT64"|"UINT64"|"STRING"|"WSTRING",
"offset": double,
"scaling": double,
"upperBound": long
}
},
"structuredMessageListDefinition": {
"name": "string",
"memberType": {
"primitiveMessageDefinition": {
"ros2PrimitiveMessageDefinition": {
"primitiveType": "BOOL"|"BYTE"|"CHAR"|"FLOAT32"|"FLOAT64"|"INT8"|"UINT8"|"INT16"|"UINT16"|"INT32"|"UINT32"|"INT64"|"UINT64"|"STRING"|"WSTRING",
"offset": double,
"scaling": double,
"upperBound": long
}
},
"structuredMessageListDefinition": {
"name": "string",
"memberType": { ... recursive ... },
"listType": "FIXED_CAPACITY"|"DYNAMIC_UNBOUNDED_CAPACITY"|"DYNAMIC_BOUNDED_CAPACITY",
"capacity": integer
},
"structuredMessageDefinition": [
{
"fieldName": "string",
"dataType": { ... recursive ... }
}
...
]
},
"listType": "FIXED_CAPACITY"|"DYNAMIC_UNBOUNDED_CAPACITY"|"DYNAMIC_BOUNDED_CAPACITY",
"capacity": integer
},
"structuredMessageDefinition": [
{
"fieldName": "string",
"dataType": {
"primitiveMessageDefinition": {
"ros2PrimitiveMessageDefinition": {
"primitiveType": "BOOL"|"BYTE"|"CHAR"|"FLOAT32"|"FLOAT64"|"INT8"|"UINT8"|"INT16"|"UINT16"|"INT32"|"UINT32"|"INT64"|"UINT64"|"STRING"|"WSTRING",
"offset": double,
"scaling": double,
"upperBound": long
}
},
"structuredMessageListDefinition": {
"name": "string",
"memberType": { ... recursive ... },
"listType": "FIXED_CAPACITY"|"DYNAMIC_UNBOUNDED_CAPACITY"|"DYNAMIC_BOUNDED_CAPACITY",
"capacity": integer
},
"structuredMessageDefinition": [
{
"fieldName": "string",
"dataType": { ... recursive ... }
}
...
]
}
}
...
]
}
}
}
...
]
--signal-decoders-to-update
(list)
A list of updated information about decoding signals to update in the decoder manifest.
(structure)
Information about a signal decoder.
fullyQualifiedName -> (string)
The fully qualified name of a signal decoder as defined in a vehicle model.type -> (string)
The network protocol for the vehicle. For example,CAN_SIGNAL
specifies a protocol that defines how data is communicated between electronic control units (ECUs).OBD_SIGNAL
specifies a protocol that defines how self-diagnostic data is communicated between ECUs.interfaceId -> (string)
The ID of a network interface that specifies what network protocol a vehicle follows.canSignal -> (structure)
Information about signal decoder using the Controller Area Network (CAN) protocol.
messageId -> (integer)
The ID of the message.isBigEndian -> (boolean)
Whether the byte ordering of a CAN message is big-endian.isSigned -> (boolean)
Whether the message data is specified as a signed value.startBit -> (integer)
Indicates the beginning of the CAN signal. This should always be the least significant bit (LSB).
This value might be different from the value in a DBC file. For little endian signals,
startBit
is the same value as in the DBC file. For big endian signals in a DBC file, the start bit is the most significant bit (MSB). You will have to calculate the LSB instead and pass it as thestartBit
.offset -> (double)
The offset used to calculate the signal value. Combined with factor, the calculation isvalue = raw_value * factor + offset
.factor -> (double)
A multiplier used to decode the CAN message.length -> (integer)
How many bytes of data are in the message.name -> (string)
The name of the signal.obdSignal -> (structure)
Information about signal decoder using the On-board diagnostic (OBD) II protocol.
pidResponseLength -> (integer)
The length of the requested data.serviceMode -> (integer)
The mode of operation (diagnostic service) in a message.pid -> (integer)
The diagnostic code used to request data from a vehicle for this signal.scaling -> (double)
A multiplier used to decode the message.offset -> (double)
The offset used to calculate the signal value. Combined with scaling, the calculation isvalue = raw_value * scaling + offset
.startByte -> (integer)
Indicates the beginning of the message.byteLength -> (integer)
The length of a message.bitRightShift -> (integer)
The number of positions to shift bits in the message.bitMaskLength -> (integer)
The number of bits to mask in a message.messageSignal -> (structure)
The decoding information for a specific message which supports higher order data types.
topicName -> (string)
The topic name for the message signal. It corresponds to topics in ROS 2.structuredMessage -> (tagged union structure)
The structured message for the message signal. It can be defined with either a
primitiveMessageDefinition
,structuredMessageListDefinition
, orstructuredMessageDefinition
recursively.Note
This is a Tagged Union structure. Only one of the following top level keys can be set:primitiveMessageDefinition
,structuredMessageListDefinition
,structuredMessageDefinition
.primitiveMessageDefinition -> (tagged union structure)
Represents a primitive type node of the complex data structure.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:ros2PrimitiveMessageDefinition
.ros2PrimitiveMessageDefinition -> (structure)
Information about a
PrimitiveMessage
using a ROS 2 compliant primitive type message of the complex data structure.primitiveType -> (string)
The primitive type (integer, floating point, boolean, etc.) for the ROS 2 primitive message definition.offset -> (double)
The offset used to calculate the signal value. Combined with scaling, the calculation isvalue = raw_value * scaling + offset
.scaling -> (double)
A multiplier used to decode the message.upperBound -> (long)
An optional attribute specifying the upper bound forSTRING
andWSTRING
.structuredMessageListDefinition -> (structure)
Represents a list type node of the complex data structure.
name -> (string)
The name of the structured message list definition.memberType -> (tagged union structure)
The member type of the structured message list definition.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:primitiveMessageDefinition
,structuredMessageListDefinition
,structuredMessageDefinition
.primitiveMessageDefinition -> (tagged union structure)
Represents a primitive type node of the complex data structure.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:ros2PrimitiveMessageDefinition
.ros2PrimitiveMessageDefinition -> (structure)
Information about a
PrimitiveMessage
using a ROS 2 compliant primitive type message of the complex data structure.primitiveType -> (string)
The primitive type (integer, floating point, boolean, etc.) for the ROS 2 primitive message definition.offset -> (double)
The offset used to calculate the signal value. Combined with scaling, the calculation isvalue = raw_value * scaling + offset
.scaling -> (double)
A multiplier used to decode the message.upperBound -> (long)
An optional attribute specifying the upper bound forSTRING
andWSTRING
.structuredMessageListDefinition -> (structure)
Represents a list type node of the complex data structure.
name -> (string)
The name of the structured message list definition.( … recursive … )listType -> (string)
The type of list of the structured message list definition.capacity -> (integer)
The capacity of the structured message list definition when the list type isFIXED_CAPACITY
orDYNAMIC_BOUNDED_CAPACITY
.structuredMessageDefinition -> (list)
Represents a struct type node of the complex data structure.
(structure)
Represents a
StructureMessageName
toDataType
map element.fieldName -> (string)
The field name of the structured message. It determines how a data value is referenced in the target language.( … recursive … )
listType -> (string)
The type of list of the structured message list definition.capacity -> (integer)
The capacity of the structured message list definition when the list type isFIXED_CAPACITY
orDYNAMIC_BOUNDED_CAPACITY
.structuredMessageDefinition -> (list)
Represents a struct type node of the complex data structure.
(structure)
Represents a
StructureMessageName
toDataType
map element.fieldName -> (string)
The field name of the structured message. It determines how a data value is referenced in the target language.dataType -> (tagged union structure)
The data type.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:primitiveMessageDefinition
,structuredMessageListDefinition
,structuredMessageDefinition
.primitiveMessageDefinition -> (tagged union structure)
Represents a primitive type node of the complex data structure.
Note
This is a Tagged Union structure. Only one of the following top level keys can be set:ros2PrimitiveMessageDefinition
.ros2PrimitiveMessageDefinition -> (structure)
Information about a
PrimitiveMessage
using a ROS 2 compliant primitive type message of the complex data structure.primitiveType -> (string)
The primitive type (integer, floating point, boolean, etc.) for the ROS 2 primitive message definition.offset -> (double)
The offset used to calculate the signal value. Combined with scaling, the calculation isvalue = raw_value * scaling + offset
.scaling -> (double)
A multiplier used to decode the message.upperBound -> (long)
An optional attribute specifying the upper bound forSTRING
andWSTRING
.structuredMessageListDefinition -> (structure)
Represents a list type node of the complex data structure.
name -> (string)
The name of the structured message list definition.( … recursive … )listType -> (string)
The type of list of the structured message list definition.capacity -> (integer)
The capacity of the structured message list definition when the list type isFIXED_CAPACITY
orDYNAMIC_BOUNDED_CAPACITY
.structuredMessageDefinition -> (list)
Represents a struct type node of the complex data structure.
(structure)
Represents a
StructureMessageName
toDataType
map element.fieldName -> (string)
The field name of the structured message. It determines how a data value is referenced in the target language.( … recursive … )
JSON Syntax:
[
{
"fullyQualifiedName": "string",
"type": "CAN_SIGNAL"|"OBD_SIGNAL"|"MESSAGE_SIGNAL",
"interfaceId": "string",
"canSignal": {
"messageId": integer,
"isBigEndian": true|false,
"isSigned": true|false,
"startBit": integer,
"offset": double,
"factor": double,
"length": integer,
"name": "string"
},
"obdSignal": {
"pidResponseLength": integer,
"serviceMode": integer,
"pid": integer,
"scaling": double,
"offset": double,
"startByte": integer,
"byteLength": integer,
"bitRightShift": integer,
"bitMaskLength": integer
},
"messageSignal": {
"topicName": "string",
"structuredMessage": {
"primitiveMessageDefinition": {
"ros2PrimitiveMessageDefinition": {
"primitiveType": "BOOL"|"BYTE"|"CHAR"|"FLOAT32"|"FLOAT64"|"INT8"|"UINT8"|"INT16"|"UINT16"|"INT32"|"UINT32"|"INT64"|"UINT64"|"STRING"|"WSTRING",
"offset": double,
"scaling": double,
"upperBound": long
}
},
"structuredMessageListDefinition": {
"name": "string",
"memberType": {
"primitiveMessageDefinition": {
"ros2PrimitiveMessageDefinition": {
"primitiveType": "BOOL"|"BYTE"|"CHAR"|"FLOAT32"|"FLOAT64"|"INT8"|"UINT8"|"INT16"|"UINT16"|"INT32"|"UINT32"|"INT64"|"UINT64"|"STRING"|"WSTRING",
"offset": double,
"scaling": double,
"upperBound": long
}
},
"structuredMessageListDefinition": {
"name": "string",
"memberType": { ... recursive ... },
"listType": "FIXED_CAPACITY"|"DYNAMIC_UNBOUNDED_CAPACITY"|"DYNAMIC_BOUNDED_CAPACITY",
"capacity": integer
},
"structuredMessageDefinition": [
{
"fieldName": "string",
"dataType": { ... recursive ... }
}
...
]
},
"listType": "FIXED_CAPACITY"|"DYNAMIC_UNBOUNDED_CAPACITY"|"DYNAMIC_BOUNDED_CAPACITY",
"capacity": integer
},
"structuredMessageDefinition": [
{
"fieldName": "string",
"dataType": {
"primitiveMessageDefinition": {
"ros2PrimitiveMessageDefinition": {
"primitiveType": "BOOL"|"BYTE"|"CHAR"|"FLOAT32"|"FLOAT64"|"INT8"|"UINT8"|"INT16"|"UINT16"|"INT32"|"UINT32"|"INT64"|"UINT64"|"STRING"|"WSTRING",
"offset": double,
"scaling": double,
"upperBound": long
}
},
"structuredMessageListDefinition": {
"name": "string",
"memberType": { ... recursive ... },
"listType": "FIXED_CAPACITY"|"DYNAMIC_UNBOUNDED_CAPACITY"|"DYNAMIC_BOUNDED_CAPACITY",
"capacity": integer
},
"structuredMessageDefinition": [
{
"fieldName": "string",
"dataType": { ... recursive ... }
}
...
]
}
}
...
]
}
}
}
...
]
--signal-decoders-to-remove
(list)
A list of signal decoders to remove from the decoder manifest.
(string)
Syntax:
"string" "string" ...
--network-interfaces-to-add
(list)
A list of information about the network interfaces to add to the decoder manifest.
(structure)
Represents a node and its specifications in an in-vehicle communication network. All signal decoders must be associated with a network node.
To return this information about all the network interfaces specified in a decoder manifest, use the API operation.
interfaceId -> (string)
The ID of the network interface.type -> (string)
The network protocol for the vehicle. For example,CAN_SIGNAL
specifies a protocol that defines how data is communicated between electronic control units (ECUs).OBD_SIGNAL
specifies a protocol that defines how self-diagnostic data is communicated between ECUs.canInterface -> (structure)
Information about a network interface specified by the Controller Area Network (CAN) protocol.
name -> (string)
The unique name of the interface.protocolName -> (string)
The name of the communication protocol for the interface.protocolVersion -> (string)
The version of the communication protocol for the interface.obdInterface -> (structure)
Information about a network interface specified by the On-board diagnostic (OBD) II protocol.
name -> (string)
The name of the interface.requestMessageId -> (integer)
The ID of the message requesting vehicle data.obdStandard -> (string)
The standard OBD II PID.pidRequestIntervalSeconds -> (integer)
The maximum number message requests per second.dtcRequestIntervalSeconds -> (integer)
The maximum number message requests per diagnostic trouble code per second.useExtendedIds -> (boolean)
Whether to use extended IDs in the message.hasTransmissionEcu -> (boolean)
Whether the vehicle has a transmission control module (TCM).vehicleMiddleware -> (structure)
The vehicle middleware defined as a type of network interface. Examples of vehicle middleware include
ROS2
andSOME/IP
.name -> (string)
The name of the vehicle middleware.protocolName -> (string)
The protocol name of the vehicle middleware.
Shorthand Syntax:
interfaceId=string,type=string,canInterface={name=string,protocolName=string,protocolVersion=string},obdInterface={name=string,requestMessageId=integer,obdStandard=string,pidRequestIntervalSeconds=integer,dtcRequestIntervalSeconds=integer,useExtendedIds=boolean,hasTransmissionEcu=boolean},vehicleMiddleware={name=string,protocolName=string} ...
JSON Syntax:
[
{
"interfaceId": "string",
"type": "CAN_INTERFACE"|"OBD_INTERFACE"|"VEHICLE_MIDDLEWARE",
"canInterface": {
"name": "string",
"protocolName": "string",
"protocolVersion": "string"
},
"obdInterface": {
"name": "string",
"requestMessageId": integer,
"obdStandard": "string",
"pidRequestIntervalSeconds": integer,
"dtcRequestIntervalSeconds": integer,
"useExtendedIds": true|false,
"hasTransmissionEcu": true|false
},
"vehicleMiddleware": {
"name": "string",
"protocolName": "ROS_2"
}
}
...
]
--network-interfaces-to-update
(list)
A list of information about the network interfaces to update in the decoder manifest.
(structure)
Represents a node and its specifications in an in-vehicle communication network. All signal decoders must be associated with a network node.
To return this information about all the network interfaces specified in a decoder manifest, use the API operation.
interfaceId -> (string)
The ID of the network interface.type -> (string)
The network protocol for the vehicle. For example,CAN_SIGNAL
specifies a protocol that defines how data is communicated between electronic control units (ECUs).OBD_SIGNAL
specifies a protocol that defines how self-diagnostic data is communicated between ECUs.canInterface -> (structure)
Information about a network interface specified by the Controller Area Network (CAN) protocol.
name -> (string)
The unique name of the interface.protocolName -> (string)
The name of the communication protocol for the interface.protocolVersion -> (string)
The version of the communication protocol for the interface.obdInterface -> (structure)
Information about a network interface specified by the On-board diagnostic (OBD) II protocol.
name -> (string)
The name of the interface.requestMessageId -> (integer)
The ID of the message requesting vehicle data.obdStandard -> (string)
The standard OBD II PID.pidRequestIntervalSeconds -> (integer)
The maximum number message requests per second.dtcRequestIntervalSeconds -> (integer)
The maximum number message requests per diagnostic trouble code per second.useExtendedIds -> (boolean)
Whether to use extended IDs in the message.hasTransmissionEcu -> (boolean)
Whether the vehicle has a transmission control module (TCM).vehicleMiddleware -> (structure)
The vehicle middleware defined as a type of network interface. Examples of vehicle middleware include
ROS2
andSOME/IP
.name -> (string)
The name of the vehicle middleware.protocolName -> (string)
The protocol name of the vehicle middleware.
Shorthand Syntax:
interfaceId=string,type=string,canInterface={name=string,protocolName=string,protocolVersion=string},obdInterface={name=string,requestMessageId=integer,obdStandard=string,pidRequestIntervalSeconds=integer,dtcRequestIntervalSeconds=integer,useExtendedIds=boolean,hasTransmissionEcu=boolean},vehicleMiddleware={name=string,protocolName=string} ...
JSON Syntax:
[
{
"interfaceId": "string",
"type": "CAN_INTERFACE"|"OBD_INTERFACE"|"VEHICLE_MIDDLEWARE",
"canInterface": {
"name": "string",
"protocolName": "string",
"protocolVersion": "string"
},
"obdInterface": {
"name": "string",
"requestMessageId": integer,
"obdStandard": "string",
"pidRequestIntervalSeconds": integer,
"dtcRequestIntervalSeconds": integer,
"useExtendedIds": true|false,
"hasTransmissionEcu": true|false
},
"vehicleMiddleware": {
"name": "string",
"protocolName": "ROS_2"
}
}
...
]
--network-interfaces-to-remove
(list)
A list of network interfaces to remove from the decoder manifest.
(string)
Syntax:
"string" "string" ...
--status
(string)
The state of the decoder manifest. If the status is
ACTIVE
, the decoder manifest can’t be edited. If the status isDRAFT
, you can edit the decoder manifest.Possible values:
ACTIVE
DRAFT
INVALID
VALIDATING
--cli-input-json
| --cli-input-yaml
(string)
Reads arguments from the JSON string provided. The JSON string follows the format provided by --generate-cli-skeleton
. If other arguments are provided on the command line, those values will override the JSON-provided values. It is not possible to pass arbitrary binary values using a JSON-provided value as the string will be taken literally. This may not be specified along with --cli-input-yaml
.
--generate-cli-skeleton
(string)
Prints a JSON skeleton to standard output without sending an API request. If provided with no value or the value input
, prints a sample input JSON that can be used as an argument for --cli-input-json
. Similarly, if provided yaml-input
it will print a sample input YAML that can be used with --cli-input-yaml
. If provided with the value output
, it validates the command inputs and returns a sample output JSON for that command. The generated JSON skeleton is not stable between versions of the AWS CLI and there are no backwards compatibility guarantees in the JSON skeleton generated.
--debug
(boolean)
Turn on debug logging.
--endpoint-url
(string)
Override command’s default URL with the given URL.
--no-verify-ssl
(boolean)
By default, the AWS CLI uses SSL when communicating with AWS services. For each SSL connection, the AWS CLI will verify SSL certificates. This option overrides the default behavior of verifying SSL certificates.
--no-paginate
(boolean)
Disable automatic pagination. If automatic pagination is disabled, the AWS CLI will only make one call, for the first page of results.
--output
(string)
The formatting style for command output.
--query
(string)
A JMESPath query to use in filtering the response data.
--profile
(string)
Use a specific profile from your credential file.
--region
(string)
The region to use. Overrides config/env settings.
--version
(string)
Display the version of this tool.
--color
(string)
Turn on/off color output.
--no-sign-request
(boolean)
Do not sign requests. Credentials will not be loaded if this argument is provided.
--ca-bundle
(string)
The CA certificate bundle to use when verifying SSL certificates. Overrides config/env settings.
--cli-read-timeout
(int)
The maximum socket read time in seconds. If the value is set to 0, the socket read will be blocking and not timeout. The default value is 60 seconds.
--cli-connect-timeout
(int)
The maximum socket connect time in seconds. If the value is set to 0, the socket connect will be blocking and not timeout. The default value is 60 seconds.
--cli-binary-format
(string)
The formatting style to be used for binary blobs. The default format is base64. The base64 format expects binary blobs to be provided as a base64 encoded string. The raw-in-base64-out format preserves compatibility with AWS CLI V1 behavior and binary values must be passed literally. When providing contents from a file that map to a binary blob fileb://
will always be treated as binary and use the file contents directly regardless of the cli-binary-format
setting. When using file://
the file contents will need to properly formatted for the configured cli-binary-format
.
--no-cli-pager
(boolean)
Disable cli pager for output.
--cli-auto-prompt
(boolean)
Automatically prompt for CLI input parameters.
--no-cli-auto-prompt
(boolean)
Disable automatically prompt for CLI input parameters.
name -> (string)
The name of the updated decoder manifest.
arn -> (string)
The Amazon Resource Name (ARN) of the updated decoder manifest.