MultiTech / Mbed OS Dot-Examples

Example programs for MultiTech Dot devices demonstrating how to use the Dot devices and the Dot libraries for LoRa communication.

Dependencies:   ISL29011

Dependents:   Dot-Examples-delujoc

Example Programs Description

This application contains multiple example programs. Each example demonstrates a different way to configure and use a Dot. A short summary of each example is provided below. Common code used by multiple examples is in the dot_utils.cpp file.

All examples print logging, including RX data, on the USB debug port at 115200 baud. Each example defaults the Dot's configuration and saves the new configuration to NVM.

OTA Example

This example demonstrates configuring the Dot for OTA join mode and entering sleep or deepsleep mode between transactions with the gateway. If deepsleep mode is used, the session is saved and restored so that a rejoin is not necessary after waking up even though RAM contents have been lost. ACKs are disabled, but network link checks are configured - if enough link checks are missed, the Dot will no longer be considered joined to the network and will attempt to rejoin before transmitting more data.

AUTO_OTA Example

This example demonstrates configuring the Dot for AUTO_OTA join mode and entering sleep or deepsleep mode between transactions with the gateway. AUTO_OTA join mode automatically saves and restores the session when deepsleep mode is used, so the manual saving and restoring of the session is not necessary. ACKs are disabled, but network link checks are configured - if enough link checks are missed, the Dot will no longer be considered joined to the network and will attempt to rejoin before transmitting more data.

Manual Example

This example demonstrates configuring the Dot for MANUAL join mode and entering sleep or deepsleep mode between transactions with the gateway. The Dot must be provisioned on the gateway before its packets will be accepted! Follow these steps to provision the Dot on a Conduit gateway:

• ssh into the conduit
• use the lorq-query application to provision the Dot on the gateway
  • lora-query -a 01020304 A 0102030401020304 <your Dot's device ID> 01020304010203040102030401020304 01020304010203040102030401020304
  • if any of the credentials change on the Dot side, they must be updated on the gateway side as well

To provision a Dot on a third-party gateway, see the gateway or network provider documentation.

Class B Example

This example demonstrates how to configure the dot for an OTA join, how to acquire a lock on a GPS synchronized beacon, and then to subsequently enter class B mode of operation. After a successful join, the device will request to the dot-library to switch to class B. When this happens, the library will send an uplink to the network server (hence we must be joined first before entering this mode) requesting the GPS time to calculate when the next beacon is expected. Once this time elapses, the dot will open an rx window to demodulate the broadcasted beacon and fire an mDotEvent::BeaconRx event upon successful reception. After the beacon is received, the example sends an uplink which will have the class B bit in the packet's frame control set to indicate to the network server that downlinks may now be scheduled on ping slots. The lora-query application can be used to configure a Conduit gateway to communicate with a Dot in class B mode. For information on how to inform a third-party gateway that a Dot is operating in class B mode, see the gateway or network provider documentation.

Class C Example

This example demonstrates configuring the Dot for OTA join mode and communicating with the gateway using class C mode. In class C mode the gateway can send a packet to the Dot at any time, so it must be listening whenever it is not transmitting. This means that the Dot cannot enter sleep or deepsleep mode. The gateway will not immediately send packets to the Dot (outside the receive windows following a transmission from the Dot) until it is informed that the Dot is operating in class C mode. The lora-query application can be used to configure a Conduit gateway to communicate with a Dot in class C mode. For information on how to inform a third-party gateway that a Dot is operating in class C mode, see the gateway or network provider documentation.

FOTA Example

Full FOTA support is available on mDot and on xDot with external flash. See this article for details on adding external flash for xDot FOTA.

Without external flash xDot can use the FOTA example to dynamically join a multicast session only. After joining the multicast session the received Fragmentation packets could be handed to a host MCU for processing and at completion the firmware can be loaded into the xDot using the bootloader and y-modem. See xDot Developer Guide.

This example demonstrates how to incorporate over-the-air updates to an application. The example uses a Class C application. Class A or B functionality could also be used. The device will automatically enter into Class C operation for the FOTA operation, Class B would be disabled during the FOTA transfer.

• Add the following code to allow Fota to use the Dot instance

    // Initialize FOTA singleton
    Fota::getInstance(dot);

• Add fragmentation and multicast handling the the PacketRx event

    virtual void PacketRx(uint8_t port, uint8_t *payload, uint16_t size, int16_t rssi, int8_t snr, lora::DownlinkControl ctrl, uint8_t slot, uint8_t retries, uint32_t address, uint32_t fcnt, bool dupRx) {
        mDotEvent::PacketRx(port, payload, size, rssi, snr, ctrl, slot, retries, address, fcnt, dupRx);

#if ACTIVE_EXAMPLE == FOTA_EXAMPLE
        if(port == 200 || port == 201 || port == 202) {
            Fota::getInstance()->processCmd(payload, port, size);
        }
#endif
    }

A definition is needed to enable FOTA.

{
    "macros": [
        "FOTA=1"
    ]
}

Peer to Peer Example

This example demonstrates configuring Dots for peer to peer communication without a gateway. It should be compiled and run on two Dots. Peer to peer communication uses LoRa modulation but uses a single higher throughput (usually 500kHz or 250kHz) datarate. It is similar to class C operation - when a Dot isn't transmitting, it's listening for packets from the other Dot. Both Dots must be configured exactly the same for peer to peer communication to be successful.

Choosing An Example Program and Channel Plan

Only the active example is compiled. The active example can be updated by changing the ACTIVE_EXAMPLE definition in the examples/example_config.h file.

By default the OTA_EXAMPLE will be compiled and the US915 channel plan will be used.

#ifndef __EXAMPLE__CONFIG_H__
#define __EXAMPLE__CONFIG_H__

#define OTA_EXAMPLE              1  // see ota_example.cpp
#define AUTO_OTA_EXAMPLE         2  // see auto_ota_example.cpp
#define MANUAL_EXAMPLE           3  // see manual_example.cpp
#define PEER_TO_PEER_EXAMPLE     4  // see peer_to_peer_example.cpp
#define CLASS_C_EXAMPLE          5  // see class_c_example.cpp

// the active example is the one that will be compiled
#if !defined(ACTIVE_EXAMPLE)
#define ACTIVE_EXAMPLE  OTA_EXAMPLE
#endif

// the active channel plan is the one that will be compiled
// options are :
//      CP_US915
//      CP_AU915
//      CP_EU868
//      CP_KR920
//      CP_AS923
//      CP_AS923_JAPAN
#if !defined(CHANNEL_PLAN)
#define CHANNEL_PLAN CP_US915
#endif

#endif

Compile the AUTO_OTA_EXAMPLE and use the EU868 channel plan instead.

#ifndef __EXAMPLE__CONFIG_H__
#define __EXAMPLE__CONFIG_H__

#define OTA_EXAMPLE              1  // see ota_example.cpp
#define AUTO_OTA_EXAMPLE         2  // see auto_ota_example.cpp
#define MANUAL_EXAMPLE           3  // see manual_example.cpp
#define PEER_TO_PEER_EXAMPLE     4  // see peer_to_peer_example.cpp
#define CLASS_C_EXAMPLE          5  // see class_c_example.cpp

// the active example is the one that will be compiled
#if !defined(ACTIVE_EXAMPLE)
#define ACTIVE_EXAMPLE  AUTO_OTA_EXAMPLE
#endif

// the active channel plan is the one that will be compiled
// options are :
//      CP_US915
//      CP_AU915
//      CP_EU868
//      CP_KR920
//      CP_AS923
//      CP_AS923_JAPAN
#if !defined(CHANNEL_PLAN)
#define CHANNEL_PLAN CP_EU868
#endif

#endif

Dot Libraries

Stable and development libraries are available for both mDot and xDot platforms. The library chosen must match the target platform. Compiling for the mDot platform with the xDot library or vice versa will not succeed.

mDot Library

Development library for mDot.

libmDot-dev

Stable library for mDot.

libmDot-stable

For mbed-os 5 use:

xDot Library

Development library for xDot.

libxDot-dev

Stable library for xDot.

libxDot-stable

For mbed-os 5 use:

Back out NetworkMode config so code still builds with stable 3.0 library