Metadata-Version: 2.1
Name: iotery-embedded-python-sdk
Version: 0.1.6
Summary: iotery.io embedded python SDK
Home-page: https://github.com/bjyurkovich/iotery-embedded-python-sdk
Author: bjyurkovich
Author-email: bj.yurkovich@technicity.io
License: MIT
Description: # iotery.io Embedded Python SDK
        
        The python iotery.io SDK is intended to be used on your embedded device to interact with the itoery.io IoT Platform. The SDK is a fully featured wrapper for the [REST API](https://iotery.io/docs/embedded).
        
        ## Getting Started
        
        Setup your free account on [iotery.io](https://dashboard.iotery.io) and go to your [dashboard](https://iotery.io/devices) get started with creating device types and devices.
        
        After you get your key, install the SDK:
        
        ```bash
        pip install iotery-embedded-python-sdk
        ```
        
        > Note: Make sure you are using Python 3.5+!
        
        And finally, some simple example usage:
        
        ```python
        from iotery_embedded_python_sdk import Iotery
        TEAM_ID="265fcb74-8889-11f9-8452-d283610663ec" # team ID found on the dashboard: https://iotery.io/system
        iotery = Iotery()
        d = iotery.getDeviceTokenBasic(data={"key": "thermal_sensor_001",
                                             "serial": "THERMAL_SENSOR_001", "secret": "thermal_sensor_001_secret", "teamUuid": TEAM_ID})
        iotery.set_token(d["token"])
        me = iotery.getMe()
        
        print(me["name"])
        
        ```
        
        ## API
        
        This SDK simply wraps the [REST API](https://iotery.io/docs/embedded), so more information and specifics can be found there. Since the API is a wrapper around the REST API, the syntax is standard for each of the Create, Read, Update, and Delete operations on iotery.io resources. All methods return a dictonary containing the API response. If there is an error, the method will `raise` an expection.
        
        ### Creating Resources
        
        The generalized syntax for creating resources in iotery.io python sdk looks like:
        
        ```python
        iotery.methodName(inputParameter="parameter", data={ "data": "variables" })
        ```
        
        For example, to create a device, the python would look like
        
        ```python
        createDeviceCommandInstanceEmbedded(
          deviceUuid="a-valid-device-type-uuid",
          commandTypeUuid="a-valid-command-type-uuid",
          data={}
        )
        ```
        
        where `createDeviceCommandInstanceEmbedded` maps to `methodName`, `deviceUuid` maps to `inputParameter`, and `data={}` and maps to the dictonary `{data : "variables"}` in the generalized form given above.
        
        The available resource creation (POST) methods are
        
        |    `methodName`    | `input` | link |  `description`
        |:-----------:|:-----------:|:-----------:|:-----------:|
        | getDeviceTokenBasic | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1basic~1get-token/POST) | Get token for device via key, serial, and secret. |
        | reportAlreadyExecutedCommands | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1command-instances~1executed/POST) | Report an already executed set of commands to the server. |
        | createDeviceCommandInstanceEmbedded | `deviceUuid`,`commandTypeUuid` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1devices~1:deviceUuid~1command-types~1:commandTypeUuid/POST) | Create a command instance via a device. |
        | postData | `deviceUuid` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1devices~1:deviceUuid~1data/POST) | Post data to the cloud. |
        | upsertDeviceSettings | `deviceUuid` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1devices~1:deviceUuid~1settings/POST) | Upsert settings for a device. |
        | uploadDeviceLogs | `deviceUuid` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1devices~1:deviceUuid~1upload-log-file/POST) | Upload zip file of device logs. |
        | getDeviceTokenAsymmetric | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1token~1asymmetric/POST) | Get device token based on encrypted credentials. |
        
        ### Reading Resources
        
        The generalized syntax for reading (getting) resources in iotery.io python sdk looks like:
        
        ```python
        iotery.methodName(inputParameter="parameter", opts={"query":"parameter"})
        ```
        
        For example, to get a device by it's unique identifier `uuid`, the python would look like
        
        ```python
        getDeviceTypeFirmwareRecord(
          deviceUuid="a-valid-device-uuid",
          version="valid version",
          opts={ "limit": 1 }
        )
        ```
        
        where `getDeviceTypeFirmwareRecord` maps to `methodName`, `deviceUuid` maps to `inputParameter`, and `{ "limit": 1 }` maps to the dictonary `{"query" : "parameters"}` in the generalized form given above.
        
        > The `limit` option is for instructive purposes only. By definition, a `uuid` is unique and so there will never be more than one device for a given `uuid`.
        
        The available resource creation methods are
        
        |    `methodName`    | `input` | link |  `description`
        |:-----------:|:-----------:|:-----------:|:-----------:|
        | getBrokerAddress | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1broker-address/GET) | Get the MQTT broker address. |
        | getCommandTypeListEmbedded | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1command-types/GET) | Get a list of available command types. |
        | getCurrentTimestamp | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1current-timestamp/GET) | Get the current server time in epoch (unix) time. |
        | getDataTypeListEmbedded | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1data-types/GET) | Get a list of available data types. |
        | getDeviceUnexecutedCommandInstanceList | `deviceUuid` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1devices~1:deviceUuid~1unexecuted-commands/GET) | Get a list of unexecuted command instances for a device. |
        | getDeviceTypeFirmwareRecord | `deviceTypeUuid`,`version` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1firmware~1:deviceTypeUuid~1:version/GET) | Get a desired version of a firmware record for a given device type. |
        | getPublicCloudKey | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1key/GET) | Get base64 encoded public key from the server for use in RSA scheme. |
        | getMe | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1me/GET) | Get information about the device. |
        | getNotificationListEmbedded | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1notifications/GET) | Get a list of available notifications. |
        | getSettingTypeListEmbedded | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1setting-types/GET) | Get a list of available setting types. |
        
        ### Updating Resources
        
        The generalized syntax for updating resources in iotery.io python sdk looks like:
        
        ```python
        iotery.methodName(inputParameter="parameter", data={ "data": "variables" })
        ```
        
        For example, to update a device type, the code would look like
        
        ```python
        updateDeviceChannel(
          deviceUuid="a-valid-device-type-uuid",
          channelId="1",
          data={}
        )
        ```
        
        where `updateDeviceChannel` maps to `methodName`, `deviceUuid` maps to `inputParameter`, and `{}` maps to the dictonary `{data : "variables"}` in the generalized form given above (if there was a body).
        
        The available resource creation methods are
        
        |    `methodName`    | `input` | link |  `description`
        |:-----------:|:-----------:|:-----------:|:-----------:|
        | setBatchedCommandInstancesAsExecuted | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1batch-command-instances~1:batchReferenceUuid~1executed/PATCH) | Set a collection of batched command instances as executed. |
        | setCommandInstanceAsExecuted | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1command-instances~1:commandInstanceUuid~1executed/PATCH) | Report that a command has been executed to the server. |
        | updateDeviceChannel | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1devices~1:deviceUuid~1channelId~1:channelId/PATCH) | Update device channel. |
        | setNotificationInstanceInactive | `` | [link](https://iotery.io/docs/embedded/#tag/Embedded/paths/~1embedded~1notification-instances~1:notificationInstanceUuid~1inactive/PATCH) | Set notification instance inactive. |
        
        ### Deleting Resources
        
        The generalized syntax for reading (getting) resources in iotery.io python sdk looks like:
        
        ```python
        iotery.methodName(inputParameter="parameter", opts={"query":"parameter"})
        ```
        
        For example, to get a device by it's unique identifier `uuid`, the python would look like
        
        ```python
        deleteDevice(
          deviceUuid="a-valid-device-uuid",
          opts={ "some": "option" }
        )
        ```
        
        where `deleteDevice` maps to `methodName`, `deviceUuid` maps to `inputParameter`, and `{ "some": "option" }` maps to the dictonary `{"query" : "parameters"}` in the generalized form given above.
        
        The available resource creation methods are
        
        |    `methodName`    | `input` | link |  `description`
        |:-----------:|:-----------:|:-----------:|:-----------:|
        
        ## Contributing
        
        We welcome contributors and PRs! Let us know if you are interested.
        
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Description-Content-Type: text/markdown
