arlo-go/devices.go

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package arlo
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import (
"fmt"
"strings"
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"github.com/pkg/errors"
)
// A Device is the device data, this can be a camera, basestation, arloq, etc.
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type Device struct {
DeviceType string `json:"deviceType"`
XCloudId string `json:"xCloudId"`
DisplayOrder uint8 `json:"displayOrder"`
State string `json:"state"`
ModelId string `json:"modelId"`
InterfaceVersion string `json:"interfaceVersion"`
ParentId string `json:"parentId"`
UserId string `json:"userId"`
DeviceName string `json:"deviceName"`
FirmwareVersion string `json:"firmwareVersion"`
MediaObjectCount uint8 `json:"mediaObjectCount"`
DateCreated float64 `json:"dateCreated"`
Owner Owner `json:"owner"`
Properties Properties `json:"properties"`
UniqueId string `json:"uniqueId"`
LastModified float64 `json:"lastModified"`
UserRole string `json:"userRole"`
InterfaceSchemaVer string `json:"interfaceSchemaVer"`
DeviceId string `json:"deviceId"`
Metadata interface{}
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}
// Devices is an array of Device objects.
type Devices []Device
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// A DeviceOrder holds a map of device ids and a numeric index. The numeric index is the device order.
// Device order is mainly used by the UI to determine which order to show the devices.
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/*
{
"devices":{
"XXXXXXXXXXXXX":1,
"XXXXXXXXXXXXX":2,
"XXXXXXXXXXXXX":3
}
*/
type DeviceOrder struct {
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Devices map[string]int `json:"devices"`
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}
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// Find returns a device with the device id passed in.
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func (ds *Devices) Find(deviceId string) *Device {
for _, d := range *ds {
if d.DeviceId == deviceId {
return &d
}
}
return nil
}
func (ds *Devices) FindCameras(basestationId string) *Cameras {
cs := new(Cameras)
for _, d := range *ds {
if d.ParentId == basestationId {
*cs = append(*cs, Camera(d))
}
}
return cs
}
func (d Device) IsBasestation() bool {
return d.DeviceType == DeviceTypeBasestation
}
func (d Device) IsCamera() bool {
return d.DeviceType == DeviceTypeCamera
}
// GetBasestations returns a Basestations object containing all devices that are NOT type "camera".
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// I did this because some device types, like arloq, don't have a basestation.
// So, when interacting with them you must treat them like a basestation and a camera.
// Cameras also includes devices of this type, so you can get the same data there or cast.
func (ds *Devices) GetBasestations() Basestations {
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var basestations Basestations
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for _, d := range *ds {
if !d.IsCamera() {
basestations = append(basestations, Basestation{Device: d})
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}
}
return basestations
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}
// GetCameras returns a Cameras object containing all devices that are of type "camera".
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// I did this because some device types, like arloq, don't have a basestation.
// So, when interacting with them you must treat them like a basestation and a camera.
// Basestations also includes decvices of this type, so you can get the same data there or cast.
func (ds *Devices) GetCameras() Cameras {
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var cameras Cameras
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for _, d := range *ds {
if !d.IsBasestation() {
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cameras = append(cameras, Camera(d))
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}
}
return cameras
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}
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// GetDevices returns an array of all devices.
// When you call Login, this method is called and all devices are cached in the Arlo object.
func (a *Arlo) GetDevices() (*DeviceResponse, error) {
resp, err := a.client.Get(DevicesUri, nil)
if err != nil {
return nil, errors.WithMessage(err, "failed to get devices")
}
defer resp.Body.Close()
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var deviceResponse DeviceResponse
if err := resp.Decode(&deviceResponse); err != nil {
return nil, err
}
if len(deviceResponse.Data) == 0 {
return nil, errors.New("no devices found")
}
return &deviceResponse, nil
}
// UpdateDeviceName sets the name of the given device to the name argument.
func (a *Arlo) UpdateDeviceName(d Device, name string) (*Status, error) {
body := map[string]string{"deviceId": d.DeviceId, "deviceName": name, "parentId": d.ParentId}
resp, err := a.client.Put(DeviceRenameUri, body, nil)
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if err != nil {
return nil, errors.WithMessage(err, "failed to update device name")
}
defer resp.Body.Close()
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var status Status
if err := resp.Decode(&status); err != nil {
return nil, err
}
return &status, nil
return nil, errors.New("device not found")
}
// UpdateDisplayOrder sets the display order according to the order defined in the DeviceOrder given.
func (a *Arlo) UpdateDisplayOrder(d DeviceOrder) (*Status, error) {
resp, err := a.client.Post(DeviceDisplayOrderUri, d, nil)
if err != nil {
return nil, errors.WithMessage(err, "failed to update display order")
}
defer resp.Body.Close()
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var status Status
if err := resp.Decode(&status); err != nil {
return nil, err
}
return &status, nil
}
// StartStream returns a json object containing the rtmps url to the requested video stream.
// You will need the to install a library to handle streaming of this protocol: https://pypi.python.org/pypi/python-librtmp
//
// The request to /users/devices/startStream returns:
// NOTE: { "url":"rtsp://vzwow09-z2-prod.vz.netgear.com:80/vzmodulelive?egressToken=b1b4b675_ac03_4182_9844_043e02a44f71&userAgent=web&cameraId=48B4597VD8FF5_1473010750131" }
func (a *Arlo) StartStream(c Camera) (*StreamResponse, error) {
body := map[string]interface{}{
"to": c.ParentId,
"from": fmt.Sprintf("%s_%s", c.UserId, TransIdPrefix),
"resource": fmt.Sprintf("cameras/%s", c.DeviceId),
"action": "set",
"publishResponse": true,
"transId": GenTransId(),
"properties": map[string]string{
"activityState": "startUserStream",
"cameraId": c.DeviceId,
},
}
resp, err := a.client.Post(DeviceStartStreamUri, body, nil)
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if err != nil {
return nil, errors.WithMessage(err, "failed to start stream")
}
defer resp.Body.Close()
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var streamResponse StreamResponse
if err := resp.Decode(&streamResponse); err != nil {
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return nil, err
}
streamResponse.Data.Url = strings.Replace(streamResponse.Data.Url, "rtsp://", "rtsps://", 1)
return &streamResponse, nil
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}
// TakeSnapshot causes the camera to record a snapshot.
func (a *Arlo) TakeSnapshot(c Camera) (*StreamResponse, error) {
stream, err := a.StartStream(c)
if err != nil {
return nil, errors.WithMessage(err, "failed to take snapshot")
}
body := map[string]string{"deviceId": c.DeviceId, "parentId": c.ParentId, "xcloudId": c.XCloudId, "olsonTimeZone": c.Properties.OlsonTimeZone}
resp, err := a.client.Post(DeviceTakeSnapshotUri, body, nil)
if err != nil {
return nil, errors.WithMessage(err, "failed to take snapshot")
}
defer resp.Body.Close()
var status Status
if err := resp.Decode(&status); err != nil {
return nil, err
}
streamResponse := StreamResponse{stream.Data, &status}
return &streamResponse, nil
}
// StartRecording causes the camera to start recording and returns a url that you must start reading from using ffmpeg
// or something similar.
func (a *Arlo) StartRecording(c Camera) (*StreamResponse, error) {
stream, err := a.StartStream(c)
if err != nil {
return nil, errors.WithMessage(err, "failed to start recording")
}
body := map[string]string{"deviceId": c.DeviceId, "parentId": c.ParentId, "xcloudId": c.XCloudId, "olsonTimeZone": c.Properties.OlsonTimeZone}
resp, err := a.client.Post(DeviceStartRecordUri, body, nil)
if err != nil {
return nil, errors.WithMessage(err, "failed to start recording")
}
defer resp.Body.Close()
var status Status
if err := resp.Decode(&status); err != nil {
return nil, err
}
streamResponse := StreamResponse{stream.Data, &status}
return &streamResponse, nil
}
/*
##
# This function causes the camera to stop recording.
#
# You can get the timezone from GetDevices().
##
func (a *Arlo) StopRecording(camera):
return a.client.Post('https://arlo.netgear.com/hmsweb/users/devices/stopRecord', {'xcloudId':camera.get('xCloudId'),'parentId':camera.get('parentId'),'deviceId':camera.get('deviceId'),'olsonTimeZone':camera.get('properties', {}).get('olsonTimeZone')}, headers={"xcloudId":camera.get('xCloudId')})
*/