Updating BlueZ on Raspberry Pi (from 5.43 to 5.50)

This post shows how to update BlueZ on Raspberry Pi from 5.43 (the default version comes with Raspbian Stretch) to 5.50 (released notes [1]). In this post, I assume that you already have a Raspberry Pi 3, Pi 3+, or Raspberry Pi Zero W running Raspbian Stretch.


Steps [2]
1. Check Current BlueZ Version
1-1. Before starting, let’s check the current BlueZ version.

In case of Raspbian Stretch, the BlueZ version should be 5.43.


2. Install Dependencies
2-1. Update the package list.

2-1. Install the dependencies.


3. Install BlueZ
3-1. Download BlueZ source code.

3-2. Uncompress the downloaded file.

3-3. Configure.

3-4. Compile the source code.

3-5. Install.

3-6. Reboot Raspberry Pi 3.


4. Verify Update[3] [4]
4-1. Verify the BlueZ version by issuing the command below.

The result should be like this:


[1] BlueZ Release Notes
[2] Installing Bluez 5.44 onto Raspbian? – Stack Exchange
[3] Bluetooth LE upgrade not working – Raspberry Pi Forum
[4] Why does bluetoothd show version 5.37 after installing Bluez 5.45? – Stack Exchange



Enabling Amazon Alexa on Raspberry Pi

This post shows steps to enable Amazon Alexa on Raspberry Pi. While there is already a comprehensive tutorial on Amazon Alexa official site [1], this post focuses on doing the same with minimal setup.


Prerequisites (parentheses indicate my environment)


1. Raspberry Pi Setup
1-1. Setup headress Raspberry Pi.

1-2. Connect the speaker and the microphone on Raspberry Pi.

1-3. Make sure the speaker are working. The command below can be used for speaker output test. To end the test, press Ctrl-C.

1-4. Check if the microphone is working. First, record some audio from the microphone by the command below.

1-5. Next, play the recorded audio by the command below.

If everything goes right, you can hear the recorded audio from the speaker. If the speaker output or microphone input is too low, you can adjust the gain with alsamixer.


2. Register Product Info
2-1. Open a web browser on PC and log in to Amazon Developer. Please sign up if you don’t already have the account.

2-2. Click on “GET STARTED” and then “CREATE PRODUCT”.

2-3. Enter “rpialexa” for both Product Name and Product ID.

2-4. Check on “Device with Alexa built-in”.

2-5. Check on “No” for “Will your device use a companion app?”.

2-6. Select “Other” for “Product category” and enter “Alexa on Raspberry Pi” both for the category description and the product description.

2-7. Check on “Touch-initiated” and “Hands-free”.

2-8. Skip the image section and check on “No” for the rest of the questions, then click on “NEXT”.


3. Create Security Profile
3-1. Click on “Create New Profile”.

3-2. Enter “rpialexa security profile” for “Security Profile Name” and “Security Profile Description”, then click on “NEXT”.

3-3. Select “Other devices and platforms” in “Platform information” section.

3-4. Enter “rpialexa” as Client ID name then clock on “GENERATE ID”.

3-5. Click on “DOWNLOAD”.

3-6. Copy downloaded “config.json” file to Raspberry Pi’s home directory. If you are using Linux PC, you can do it like below.

3-7. Review the agreement and check on it, then click on “FINISH”.

3-8. Your will be prompted “Your product has been created”. Click on “OK”.

3-9. Open a web browser and access to Login with Amazon Console.

3-10. Select the security profile just created and click on “Confirm”.

3-11. Enter a privacy policy URL and click on “Save”. In this example, let’s use a fake URL below.


4. SDK Installation and Configuration on RPi
4-1. Make sure you are in home directory (or wherever you copied “config.json” to in step 3-6).

4-2. Download scripts.

4-3. Run setup.sh with config.json.

4-4. Type “AGREE” when asked for licensing agreement.

4-5. Once setup is completed, run startsample.sh.

4-6. The script will show the line like below, then access the URL with a web browser, enter the code and click on “Continue”.

4-7. Select “Allow”. Then you’ll be prompted as below.

Also, you will be able to see the lines below in the terminal window. Now, Alexa is ready.


5. Test
You can ask Alexa like


[1] AVS Tutorials Prototype with Raspberry Pi – amazon alexa
[2] Raspberry Pi Quick Start Guide with Script – alexa/avs-device-sdk – GitHub



Controlling LEDs on Raspberry Pi using Voice with Amazon Echo

The goal of this post is to create an Alexa skill [1] that controls three LEDs (red, yellow, and green) connected to Raspberry Pi’s GPIO pins. The skill will enable to turn ON/OFF each LED by specifying the color of light and the ON/OFF status via voice command.


Prerequisites (parentheses indicate my environment)


1. Setup LEDs on Raspberry Pi
Connect LEDs to Raspberry Pi’s GPIO pins. In this post, I’ll use Pi Traffic Light. Please refer this post for setup.


2. Create Alexa skill on Raspberry Pi
flask-ask is a Flask extension that makes it easier to build Alexa skill [2].

2-1. Install Flask and flask-ask.

2-2. Create a python file.

2-3. Create a python file and implement a skill like below.

2-4. Save the file and run the code. In this example, the file name is “led.py”.

Now the skill is running as a local web service on default port (i.e. localhost:5000).


3. Publish Skill on the Internet
To communicate with Alexa, the skill needs to be accessible from the internet. In this post, I’ll use a tunnel service called serveo [3].

3-1. Open another terminal.

3-2. Enter the command below. It will connect the local server to a public URL.

In the output, you should be able to find a line like below. This URL will be required as an endpoint when configuring the skill in next step.


4. Configure Skill on Amazon Cloud 

4-1. Open a browser and log in to Amazon Developer. Please sign up if you don’t already have the account.

4-2. Navigate to Alexa Developer Console and click on “Create Skill”.

4-3. Enter a skill name. In this example, it’s “raspberry pi”.

4-4. Make sure “Custom” is selected then click on “Create skill”.

4-5. Make sure “Start from scratch” is selected then click on “Choose”.

4-6. Click on “+” icon next to “Slot types” in the left pane.

4-7. Enter “STATUS” and click on “Create custom slot type” button.

4-8. Add “on” and “off” as the slot values.

4-9. Click on “+” icon next to “Slot types” in the left pane again.

4-10. Click on “Use an existing slot type from Alexa’s built-in library”

4-11. Search “AMAZON.Color” and click on “Add slot type”.

4-12. Click on “+” icon next to “Intents” in the left pane again.

4-13. Enter “LedIntent” as an intent name, then click on “Create custom intent”.

4-14. Enter below as a Sample Utterances, then click on “+” button.

4-15. Select “AMAZON.Color” and “STATUS” types for color and status slots respectively.

4-16. Click on “Build Model” button on the top. If everything goes right, you’ll get a “Build Successful” notification.

4-17. Select Endpoint in the left pane and and check on “HTTPS”.

4-18. Enter the URL generated by serveo in Step 3.2 under Default Region.

4-19. Select “My development endpoint is sub-domain of domain that has a wildcard certificate from a certificate authority” for SSL certificate type.

4-20. Click on “Save Endpoints”


5. Testing Skill in Alexa Developer Console

5-1. Select “Test” tab in the top menu bar.

5-2. Select “Development” in the pull down menu to enable Skill testing.

5-3. Say or input below to Alexa Simulator.

This should turn on LED light connected to you Raspberry Pi. Also, you should be able to see similar to below in Alexa Simulator.


6. Testing Skill with Amazon Echo
You can test the skill on your Alexa-enable device (e.g Echo dot) like this.


[1] Alexa Skills Kit – Amazon Alexa
[2] Welcome to Flask-Ask
[3] serveo – Expose local servers to the internet
[4] Amazon Alexa + Raspberry PI + jasm.eu: Our first steps together
[5] Flask-Ask: A New Python Framework for Rapid Alexa Skills Kit Development




Updating ALSA on Raspbian Stretch

This post shows how to update ALSA [1] on Raspberry Pi running Raspbian Stretch. As of writing this post (Dec. 9th 2018) the latest ALSA version is 1.1.7.


Setup (parentheses indicate my environment)

  • Raspberry Pi (Raspberry Pi3) running Raspbian Stretch (Nov. 2018)
  • Speaker connected to Raspberry Pi’s 3.5 mm audio jack


1. Checking Preinstalled ALSA Version
1-1. First, let’s check the current ALSA version.

The result should be like below. In this example (Raspbian Stretch 2018 Nov. version), the preinstalled ALSA version is 1.1.3.


2. alsa-lib Installation [2]
2-1. Download alsa-lib.

2-2. Extract the directory.

2-3. Move to the extracted directory.

2-4. Configure.

2-5. Build and install.


3. Curses Library Installation
ALSA requires a curses library.

3-1. Update the package list.

3-2. Install “libncursesw5-dev”.


4. alsa-utils Installation [3]
4-1. Download alsa-utils.

4-2. Extract the directory.

4-3. Move to the extracted directory.

4-4. Configure.

4-5. Build and install.


5. Verification
5-1. Check ALSA version.

The result should be like below. In this example, ALSA was updated from 1.1.3 (see step 1-1) to 1.1.7.

5-2. Make sure ALSA is working by using speaker-test [4]. If everything is fine, you should be able to hear the wav sound from the connected speaker.

5-3. Press ctrl-c to stop the speaker-test.


[1] Advanced Linux Sound Architecture (ALSA) project homepage
[2] alsa-lib-1.1.7 – Linux From Scratch!
[3] alsa-utils-1.1.7 – Linux From Scratch!
[4] Using ALSA’s speaker-test utility




Controlling LEDs with Raspberry Pi GPIO Pins

Controlling LED on Raspberry Pi is pretty easy. This post shows how to turn ON/OFF LEDs using Raspberry Pi’s GPIO pins with Python.


Setup (parentheses indicate my environment)


1. Wiring and Booting Up
In this post we’ll use Pi Traffic Light so that we can skip making the circuit. Pi Traffic Light is designed for Raspberry Pi and you can just connect it to Raspberry Pi’s GPIO pins. [1]

1-1. Follow the instruction and connect Pi Traffic Light. For Raspberry Pi’s GPIO pin numbers, this site is convenient.

1-2. Make sure a micro SD card with Raspbian OS image is inserted. In case you haven’t prepared OS image yet, please refer the steps.

1-3. Connect Micro USB Power Cable and boot Raspberry up.


2. Setting up GPIO Pins
2-1. Open Raspberry Pi’s terminal and launch Python interactive shell.

2-2. Import RPi.GPIO [2] to control GPIO pins.

2-3. Set BCM as GPIO numbering mode since the instruction uses BCM numbering. See [3] for more about the pin numbering.

2-4. For readability purpose, let’s assign the pin numbers to variables. GPIO pins 9, 10, and 11 will be used for red, yellow, and green lights respectively.

2-5. Set those pins as output pins.


3. Controlling LEDs
Now, the preparation is done. Let’s turn ON/OFF the LEDs by using “GPIO.output”. The first argument is for LED color (i.e. pin number) and the second argument is for OFF/ON (0 and 1 respectively).

3-1. Turn on the red light.


3-2. Turn off the red light.


3-3. Turn on the yellow light.


3-4. Turn off the yellow light.


3-5. Turn on the green light.


3-6. Turn off the green light.


4. Finishing the Program
4-1. Reset the all the pins to input mode. [4]

4-2. Ctrl-D to quit the Python.


[1] Pi Traffic Light – LOW VOLTAGE LABS
[2] RPi.GPIO – PyPI
[3] What is the difference between BOARD and BCM for GPIO pin numbering?
[4] How to Exit GPIO programs cleanly, avoid warnings and protect your Pi