Sending and Consuming Binary Data From EdgeX Device Services
EdgeX - Ireland Release
Overview
In this example, we will demonstrate how to send EdgeX Events and Readings that contain arbitrary binary data.
DeviceService Implementation
Device Profile
To indicate that a deviceResource represents a Binary type, the following format is used:
deviceResources:
-
name: "camera_snapshot"
isHidden: false
description: "snapshot from camera"
properties:
valueType: "Binary"
readWrite: "R"
mediaType: "image/jpeg"
deviceCommands:
-
name: "OnvifSnapshot"
isHidden: false
readWrite: "R"
resourceOperations:
- { deviceResource: "camera_snapshot" }
Device Service
Here is a snippet from a hypothetical Device Service's
HandleReadCommands()
method that produces an event that
represents a JPEG image captured from a camera:
if req.DeviceResourceName == "camera_snapshot" {
data, err := cameraClient.GetSnapshot() // returns ([]byte, error)
check(err)
cv, err := sdkModels.NewCommandValue(reqs[i].DeviceResourceName, common.ValueTypeBinary, data)
check(err)
responses[i] = cv
}
Calling Device Service Command
Querying core-metadata for the Device's Commands and DeviceName provides the following as the URL to request a reading from the snapshot command: http://localhost:59990/api/v2/device/name/camera-device/OnvifSnapshot
Unlike with non-binary Events, making a request to this URL will return an event in CBOR representation. CBOR is a representation of binary data loosely based off of the JSON data model. This Event will not be human-readable.
Parsing CBOR Encoded Events
To access the data enclosed in these Events and Readings, they will first need to be decoded from CBOR. The following is a simple Go program that reads in the CBOR response from a file containing the response from the previous HTTP request. The Go library recommended for parsing these events can be found at https://github.com/fxamacker/cbor/
package main
import (
"io/ioutil"
"github.com/edgexfoundry/go-mod-core-contracts/v2/dtos/requests"
"github.com/fxamacker/cbor/v2"
)
func check(e error) {
if e != nil {
panic(e)
}
}
func main() {
// Read in our cbor data
fileBytes, err := ioutil.ReadFile("/Users/johndoe/Desktop/image.cbor")
check(err)
// Decode into an EdgeX Event
eventRequest := &requests.AddEventRequest{}
err = cbor.Unmarshal(fileBytes, eventRequest)
check(err)
// Grab binary data and write to a file
imgBytes := eventRequest.Event.Readings[0].BinaryValue
ioutil.WriteFile("/Users/johndoe/Desktop/image.jpeg", imgBytes, 0644)
}
In the code above, the CBOR data is read into a byte array , an EdgeX Event struct is created,
and cbor.Unmarshal
parses the CBOR-encoded data and stores the result in the Event struct.
Finally, the binary payload is written to a file from the BinaryValue
field of
the Reading.
This method would work as well for decoding Events off the EdgeX message bus.
Encoding Arbitrary Structures in Events
The Device SDK's NewCommandValue()
function above only
accepts a byte slice as binary data. Any arbitrary Go structure can be
encoded in a binary reading by first encoding the structure into a byte
slice using CBOR. The following illustrates this method:
// DeviceService HandleReadCommands() code:
foo := struct {
X int
Y int
Z int
Bar string
} {
X: 7,
Y: 3,
Z: 100,
Bar: "Hello world!",
}
data, err := cbor.Marshal(&foo)
check(err)
cv, err := sdkModels.NewCommandValue(reqs[i].DeviceResourceName, common.ValueTypeBinary, data)
responses[i] = cv
This code takes the anonymous struct with fields X, Y, Z, and Bar (of
different types) and serializes it into a byte slice using the same
cbor
library, and passing the output to
NewCommandValue()
.
When consuming these events, another level of decoding will need to take place to get the structure out of the binary payload.
func main() {
// Read in our cbor data
fileBytes, err := ioutil.ReadFile("/Users/johndoe/Desktop/foo.cbor")
check(err)
// Decode into an EdgeX Event
eventRequest := &requests.AddEventRequest{}
err = cbor.Unmarshal(fileBytes, eventRequest)
check(err)
// Decode into arbitrary type
foo := struct {
X int
Y int
Z int
Bar string
}{}
err = cbor.Unmarshal(eventRequest.Event.Readings[0].BinaryValue, &foo)
check(err)
fmt.Println(foo)
}
This code takes a command response in the same format as the previous
example, but uses the cbor
library to decode the CBOR
data inside the EdgeX Reading's BinaryValue
field.
Using this approach, an Event can be sent containing data containing an arbitrary, flexible structure. Use cases could be a Reading containing multiple images, a variable length list of integer read-outs, etc.