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Files Critical to Abstraction:
Application/config_notecard_config.hProvides
#definevariables that can be used to force override Notecard specific settings.Application/Framework/sched.hDeclares application callback signatures and the scheduled application configuration structure,
schedAppConfig.Application/Framework/sched.cContains application array, implements the Sparrow task scheduler functions, and performs application callbacks (”Application Host”).
Application/Gateway/auth.cUsed by the gateway to receive/process Notes by adding additional information before forwarding to the Notecard.
Application/Sensor/init.cImplements the weakly linked
schedAppInit()function, which loads the example applications into the “Application Host”.
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The system states used by the state machine are represented by the following constants, which have values in the set of negative integers, {x ε Z | x < 0}are all negative integers:
STATE_UNDEFINEDSTATE_ONCE(initialization)STATE_ACTIVATEDSTATE_DEACTIVATEDSTATE_SENDING_REQUESTSTATE_RECEIVING_RESPONSE
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User-defined states are used to extend the Application Host system states for application specific purposes. These custom states are passed into the caller as a parameter to the polling callback function.
User-defined , application states MUST have values from the set of whole numbers, {x ε Z | x ≥ 0} be integers >= 0.
WARNING: Negative numbers are RESERVED for the system states and CANNOT be used for user-defined, application states.
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WARNING: The maximum number of characters is ninety ( 90).
Dynamic Queue File Naming
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Invoking this API causes a cascade of changes to be made to the applications runtime.
The current state is send to
STATE_SENDING_REQUESTand if you indicated you were expecting a response, the state will change toSTATE_RECEIVING_RESPONSEafter sending the request.
However, both the success and failure states are set toSTATE_DEACTIVATED, which means whether your application succeeds or fails at it’s attempt to send the Note (or receive a response), it will ultimately become deactivated. If you wish to alter the success and failure states, thenschedSetCompletionState()can be called promptly afternoteSendToGatewayAsync()has returned.If a response has been requested, then the application will continue running - blocking the main thread of execution. This, in turn, prevents other applications from running.
Note Tracking
If you have requested a response, then an arbitrary number can be added to the id tag of the Note, which allows you to match the response with the original request. When "id" is supplied to a Note, then the response (which comes as the rsp parameter of diagResponse() callback) will contain a matching "id" tag.
NOTE: Responses are expected to be used sparingly, as they work against the spirit of the typical LoRa communications model as well as the core of the Sparrow application design pattern. Responses can be an invaluable tool during the early development of a Sparrow application, but they should be removed (unless critical to the application) before an application is considered ready for production.
Integrating a Custom Sensor into CMake
To add an application to the Sparrow firmware, you will be able to do everything from the sparrow-application folder by following these steps:
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Create a new folder for your application in the sparrow-application folder.
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Create an application module (.c/.h files) in your new folder.
Multiple working examples exist, each in their own folder, listed under the sparrow-application folder.
Update sparrow-application/CMakeLists.txt to build your source file (.c) and include your header (.h)
GPIO Special Interactions/Behaviors
Analog Pins
To enable the analog pins on the header rail (i.e. A1, A2, A3), the macro Ax_ENABLE where x corresponds to the desired analog pin (e.g. A1_ENABLE).
Digital Pins
RED- This pin is required to enable the evaluation of several internal variables and values. As such, this pin is in use by the system outside thepollFnrelated to your application. The implication is that this pin cannot be used as an interrupt or other function that would require it to operate in a continuous fashion.
Integrating a Custom Sensor into CMake
To add an application to the Sparrow firmware, you will be able to do everything from the sparrow-application folder by following these steps:
Create a new folder for your application in the
sparrow-applicationfolder.Create an application module (
.c/.hfiles) in your new folder.Multiple working examples exist, each in their own folder, listed under the
sparrow-applicationfolder.Update
sparrow-application/CMakeLists.txtto build your source file (.c) and include your header (.h)Each of the samples is also built by this
CMakeLists.txtfile.
Collecting Logs
Use an STLINK-V3MINI to connect to your device, you can use a terminal emulator to view the debugging output on the serial port that appears on your computer.
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Connect your computer to STLINK-V3MINI using a USB A-to-Micro, then connect the STLINK-V3MINI to your device using the Cortex debug connector.
Sparrow Rail Pinout (v1.1)
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Pin #
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Pin Name
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Description
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Pin #
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Pin Name
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Description
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NRST
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RST#
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RESET Button
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PA7
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MOSI
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Main Out / Secondary In
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PH3-BOOT0
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BOOT
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BOOT Button
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PA6
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MISO
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Main In / Secondary Out
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VSS_EP
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GND
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Ground
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PA5
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SCK
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SPI Clock
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PA2
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LPTX
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Low-Power UART Transmit
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PA4
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CS
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Chip Select
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PA3
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LPRX
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Low-Power UART Receive
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PA11
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SDA
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I2C Data
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PB2
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A1
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Analog Pin 1
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PA12
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SCL
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I2C Clock
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PA10
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A2
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Analog Pin 2
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PA1
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BLUE
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Blue LED
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PA15
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A3
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Analog Pin 3
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PA0
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RED
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Red LED
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PA13
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SWDIO
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Single-Wire Debug I/O
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PB12
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GREEN
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Green LED
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PA14
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SWCLK
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Single-Wire Debug Clock
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PB6
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RX
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UART Receive
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PC13
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BTN#
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PAIR Button
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PB7
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TX
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UART Transmit
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VDD
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<VIO
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Logic-level Voltage
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--
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VBAT
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Direct Battery Voltage
Link to Sparrow MCU Datasheet (PDF)
[DEPRECATED] v1.0 Hardware
Collecting Logs
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FTDI
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Pin Mapping
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Sparrow FTDI Cable Color
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GND
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GND
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BLACK
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LPRX
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TXD
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ORANGE
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LPTX
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RXD
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YELLOW
NOTE: The serial connection MUST be set to operate at 9600 (8-N-1).
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a USB A-to-Micro, then connect the STLINK-V3MINI to your device using the Cortex debug connector.
Sparrow Rail Pinout (v1.1)
Pin # | Pin Name | Description | Pin # | Pin Name | Description | |
|---|---|---|---|---|---|---|
NRST | RST# | RESET Button | PA7 | MOSI | Main Out / Secondary In | |
PH3-BOOT0 | BOOT | BOOT Button | PA6 | MISO | Main In / Secondary Out | |
VSS_EP |
GND
Ground
PA5
SCK
SPI Clock
PB2
A1
Analog Pin 1
PA4
CS
Chip Select
PA10
A2
GND | Ground | PA5 | SCK | SPI Clock | ||
PA2 | LPTX | Low-Power UART Transmit |
PA4 |
A3
CS | Chip Select | |||||
PA3 | LPRX | Low-Power UART Receive | PA11 | SDA | I2C Data | |
PB2 | A1 | Analog Pin 1 | PA12 | SCL | I2C Clock | |
PA10 | A2 | Analog Pin 2 | PA1 | BLUE | Blue LED |
PA15 |
SCL
A3 | Analog Pin 3 | PA0 | RED | Red LED | ||
PA13 | SWDIO | Single-Wire Debug I/O | PB12 | GREEN | Green LED | |
PA14 | SWCLK | Single-Wire Debug Clock | PB6 | RX | UART Receive | |
PC13 | BTN# | PAIR Button | PB7 | TX | UART Transmit | |
VDD | <VIO | Logic-level Voltage | -- | VBAT | Direct Battery Voltage |