Skip to main content

Template project demonstrating use of Arduino base node RPC framework.

Project description

# teensy-minimal-rpc #

Template package for remote procedure call (RPC) project, utilizing [base-node-rpc][3].

## Overview ##

This package contains:

  • Firmware compatible with Arduino Uno or Mega2560.

  • Installable Python package for interfacing with Arduino firmware through serial port or i2c (through a serial-to-i2c proxy).

## Install ##

The Python package can be installed through pip using the following command:

pip install teensy-minimal-rpc

## Upload firmware ##

To upload the pre-compiled firmware included in the Python package, run the following command:

python -m teensy_minimal_rpc.bin.upload <board type>

replacing <board type> with either uno or mega2560, depending on the model of the board.

This will attempt to upload the firmware by automatically discovering the serial port. On systems with multiple serial ports, use the -p command line argument to specify the serial port to use. For example:

python -m teensy_minimal_rpc.bin.upload -p COM3 uno


## Usage ##

After uploading the firmware to the board, the teensy_minimal_rpc.Proxy class can be used to interact with the Arduino device.

See the session log below for example usage.

### Example interactive session ###

>>> from serial import Serial
>>> from teensy_minimal_rpc import Proxy

Connect to serial device.

>>> serial_device = Serial('/dev/ttyUSB0', baudrate=115200)

Initialize a device proxy using existing serial connection.

>>> proxy = Proxy(serial_device)

Query the number of bytes free in device RAM.

>>> proxy.ram_free()
409

Query descriptive properties of device.

>>> proxy.properties()
base_node_software_version                               0.9.post8.dev141722557
name                                                                  teensy_minimal_rpc
manufacturer                                                        Wheeler Lab
url                           http://github.com/wheeler-microfluidics/rpc-p...
software_version                                                            0.1
dtype: object

Use Arduino API methods interactively.

>>> # Set pin 13 as output
>>> proxy.pin_mode(13, 1)
>>> # Turn led on
>>> proxy.digital_write(13, 1)
>>> # Turn led off
>>> proxy.digital_write(13, 0)

### Configuration and state ###

The device stores a configuration and a state. The configuration is serialized and stored in EEPROM, allowing settings to persist across device resets. The state is stored in device memory and is reinitialized each time the device starts up.

Print (non-default) configuration values.

>>> print proxy.config
serial_number: 2
baud_rate: 115200
i2c_address: 17

Configuration settings can be set by updating the configuration.

>>> result_code = proxy.update_config(serial_number=1234)
>>> result_code = proxy.update_config(i2c_address=32)

To persist changes to configuration across device reset - not state - use save_config method.

>>> proxy.save_config()

### Other methods ###

Below is a list of the attributes of the teensy_minimal_rpc.Proxy Python class. Note that many of the [Arduino API][1] functions (e.g., pin_mode, digital_write, etc.) are exposed through the RPC API.

>>> proxy.
proxy.analog_read                      proxy.microseconds
proxy.analog_write                     proxy.milliseconds
proxy.array_length                     proxy.name
proxy.base_node_software_version       proxy.on_config_baud_rate_changed
proxy.begin                            proxy.on_config_i2c_address_changed
proxy.buffer_size                      proxy.on_config_serial_number_changed
proxy.channel_count                    proxy.on_state_frequency_changed
proxy.config                           proxy.on_state_voltage_changed
proxy.delay_ms                         proxy.pin_mode
proxy.delay_us                         proxy.properties
proxy.digital_read                     proxy.ram_free
proxy.digital_write                    proxy.read_eeprom_block
proxy.echo_array                       proxy.reset_config
proxy.get_buffer                       proxy.reset_state
proxy.i2c_address                      proxy.save_config
proxy.i2c_available                    proxy.serialize_config
proxy.i2c_buffer_size                  proxy.serialize_state
proxy.i2c_read                         proxy.set_i2c_address
proxy.i2c_read_byte                    proxy.set_state_of_channels
proxy.i2c_request                      proxy.software_version
proxy.i2c_request_from                 proxy.state
proxy.i2c_scan                         proxy.state_of_channels
proxy.i2c_write                        proxy.str_echo
proxy.load_config                      proxy.update_config
proxy.manufacturer                     proxy.update_eeprom_block
proxy.max_i2c_payload_size             proxy.update_state
proxy.max_serial_payload_size          proxy.url

## Firmware development ##

The Arduino firmware/sketch is located in the teensy_minimal_rpc/Arduino/teensy_minimal_rpc directory. The key functionality is defined in the teensy_minimal_rpc::Node class in the file Node.h.

Running the following command will build the firmware using [SCons][2] for Arduino Uno and Arduino Mega2560, and will package the resulting firmware in a Python package, ready for distribution.

paver sdist

### Adding new remote procedure call (RPC) methods ###

New methods may be added to the RPC API by adding new methods to the teensy_minimal_rpc::Node class in the file Node.h.

# Author #

Copyright 2015 Christian Fobel <christian@fobel.net>

[1]: https://www.arduino.cc/en/Reference/HomePage [2]: http://www.scons.org/ [3]: https://github.com/wheeler-microfluidics/base_node_rpc

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

teensy-minimal-rpc-0.2.post1.zip (16.5 MB view details)

Uploaded Source

File details

Details for the file teensy-minimal-rpc-0.2.post1.zip.

File metadata

File hashes

Hashes for teensy-minimal-rpc-0.2.post1.zip
Algorithm Hash digest
SHA256 6a804f8929009c4b8cb889e0c5f340f6016117012d4dd3986cd46b51d1c286d3
MD5 5898d4a9a56470de0f2ea7efa513b4b3
BLAKE2b-256 ad685bdcb21541ca748e2d44e875d8bf9ab3efc98f8dacafe1077e8357973c64

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page