IOT Projects

Internet of Things, Internet of Stuff

I wanted to take some time to touch on my every changing collection of Internet of Things style devices.  Honestly, it’s kind of iffy what constitutes an “IOT” device, but for the most part I’m sticking with “cheap” and “non traditional computing devices”.

The chief player among these are of course…

The Raspberry Pi

I’m up to 5 Raspberry Pis, a B+, two B2s, one B3, and one Pi Zero.  I have already discuss these quite a bit so they don’t need a ton of additional discussion.  The B+ still operates my DNS/DHCP server, one B2 still runs my IRC stuff, one B2 still runs a Minecraft server.  I actually have not yet come up with a good use for the B3 and Zero yet.  I’ve started messing with Windows 10 IOT on the B3 a bit and there is a Retro Gaming GameBoy project using the Pi Zero floating around on Reddit I may have a go at.

Arduino

If Raspberry Pi is the king of IOT, then Arduino is definitely the Queen. I’ve kind of dropped out of doing Arduino projects a bit and dismantled most of the ones I had built.  Other than adding a WiFi enabled board to my set (by mistake, I thought I was ordering a Shield not a board), not much has changed on my Arduino library.

i did try to build a little digital hourglass project I found online but it’s not going super great.  Stay Tuned for More

Next Thing’s CHIP

CHIP is still one of the most annoying and impossible to search for terms online.  I’m up to three CHIPs now, I’ve received my second Kickstarter CHIP and my VGA DIP.  I’ve still been having some bad luck getting my CHIPs to do much of anything.  I tried to build an Amazon Alexa with no luck in the end after a ton of troubleshooting.  I’ve been trying to get Synergy combined and running on one to let it work with my multi monitor set up.

Now that the Kickstarter campaign is more or less finished and the CHIP is reaching a wider audience I’m hoping it starts to get more support online.

Remix Mini

Another kickstarter product, the Remix Mini is a small computer that runs Android as a desktop.  It works pretty well, I mostly used it last year while traveling for work in the Hotel Room.  I have not touched it since, for one simple, stupid reason.  The HDMI output doesn’t support any of my HDMI to DVI cables.  I can’t plug it into a regular monitor, so I just have… not used it.  I could plug it into a TV but it’s effectively a simple desktop machine and doesn’t work as well for a “lean back” experience.  Maybe if I had a wireless KB and Mouse it would work better.

It’s a shame to because I was really looking forward to this one and it runs a lot of my apps surprisingly well.

ChromeCast

I picked up a Chromecast last year on Black Friday. I used it a bit but in the end, it’s ended up in a drawer.  It’s just too much of a hassle and it caused too many problems.  First off, the hassle.  My crappy old Nexus 7 is partially to blame here but in general the lack of any built in interface is just a flat out pain.  Having to dig out my tablet to use it is a pain.

Worse yet, it was causing problems with the Wireless in the house.  I disabled guest mode which eliminated the problem (eliminating the interference) but it’s still kind of lame that it was an issue to start with.

Kindle Fire Stick

A more recent addition to the network, I added a Kindle Fire Stick.  This is effectively the same as the Chromecast, without the hassle and bull shit of needing a separate device to use it.  It’s not completely without it’s issues but it works pretty well.  The main problem I’ve had is that it loses signal, a lot.  It doesn’t work as all directly hooked to my HDMI switch and at this point it’s cabled out and laying out on the floor behind everything to get it away from any interference.

It runs Amazon videos, which I don’t really use, it runs Netflix, which is used a lot.  It also works well with the fact that I buy my MP3s primarily through Amazon.  Another nice bonus, I use Amazon Cloud to backup all of my Photos, so they are all available through the Fire Stick now to view on the TV.

SteamBox

 Another newer addition is the SteamBox.  Specifically, the cheap streaming box.  It works pretty nicely.  I haven’t had a chance to really put it through the loops yet but my first tests worked well.  I’ll probably do a more in depth write up at some point on it.

NextThing CHIP and Raspberry Pi Zero

Raspberry Pi Zero and Next Thing's CHIPI’ve already briefly discussed my NextThing CHIP computers before. A few weeks ago I was purchasing a Raspberry Pi 3 and found that the store had Pi Zeros in stock as well, so I tossed one on because, hey, $5, and they are apparently hard to find.

These two little devices are pretty similar, but at the same time so different.

Both are small computers, not just microcontrollers like an Arduino, but little Linux machines. Both have GPIO pins, both can be used as a regular “desktop” if you wanted, both cost less than $10… Mostly…

Raspberry Pi ZeroThe cost is where things get tricky, especially for the Raspberry Pi Zero. Upfront, the Pi Zero is only $5, which looks great on paper, and it’s still pretty cheap. That five dollars gets you a small flat circuit board with a few low profile ports on it. Chances are you’ll need a power supply, if you want to be able to configure it at all you’ll also need a way to plug a standard USB hub for keyboard and mouse into a micro USB port. The display out is a mini HDMI port, which you’ll likely also need an adaptor for. The Pi Zero also doesn’t have any sort of case on it. All of this is stuff that you may or may not need, you might have on hand, or, if you’re programming many Zeros, you can reuse the adapters and parts on all of the Pi Zeros you want, once configured.

The point is, after picking up even some cheap accessories, you’re probably looking at closer to $15 for a Pi Zero. Still cheap, just not quite AS cheap.

Next Thing CHIPThe CHIP on the other hand, is $9. It has built in WiFi and Bluetooth, it comes with a little plastic case for the underside of the board, and it comes with an RCA adapter. The RCA isn’t ideal and an HDMI or VGA attachment are both coming (for $10-$15) but the RCA is usable for setting up WiFi easily for SSH or VNC access. It even has built in storage. For $9, you’re pretty much up and running right out of the box. The Pi Zero is actually kind of useless all on it’s lonesome.

That doesn’t necessarily mean the CHIP is better.

Both The Raspberry Pi Zero and Next Thing’s CHIP run an arm based version of Debian (by default, but this could be changed), thus both have a lot of common in terms of what sorts of software can be used. The CHIP however seriously lacks the Raspberry Pi’s strong community. I’ve not been able to find any decent resources for how to even use the GPIO pins, for example. I had hoped to use one of my CHIPs for a project in the garage but I’ve hit some roadblocks.

chipdesktopI’ve actually had lots of roadblocks with the CHIP. Initially they were unstable, requiring a firmware update. I’ve had many strange problems getting software packages to work properly, even when following tutorials put out by others. The closest I’ve come to finishing a project is making a homemade Alexa clone. Even after buying identical parts (Mic and Button really), after trying many fixes and even wiping the thing out and starting from scratch, I still get errors with the Audio about “Period too large”.

Everything being built in is really convenient though. I honestly haven’t come up with any ideas yet for what to do with my Pi Zero. It ends up with some goofy dongles all over it to make it functional and I have 4 full sized Raspberry Pis at my disposal for other projects. I’ve seen an interesting Game Boy emulator build using the Zero I will probably try but so far, it’s pretty much just been running quietly on my workspace counter.

Personally, I think that ultimately it comes down to there is a point where these things become too cheap or small to be useful, at least for my needs. The sorts of projects a smaller board like this may be useful for feel like they would be better suited for an Arduino. Most of the projects I use my Pis for amount to “Hardware VMs”. Single task servers that can easily be repurposed or swapped out (using SD cards).

 

Raspberry Pi Project 02 – Ad Blocking DNS and DHCP

Raspberry_Pi_LogoI’ve been at a bit of a loss for a while on what to do with my RaspberryPi B+.  I have a B+ and two RaspberryPi B 2s.  The B2s are so much more useful and powerful than the B+ that the poor B+ has kind of been tossed to the wayside.  I was using it as a server for ZNC, an IRC Bouncer.  When I set up my milti-monitor set up, I tried running X-Chat on the B+ with ZNC but the lag was too much.  I’m not sure if the load was from XChat or from ZNC or from Synergy, but the short of it is, the B+ wasn’t useful to my array of machines and needed a headless activity assigned to it.

Sure, I could let it continue to run ZNC, but dedicating two Pis to IRC seems like overkill, so I moved ZNC to the B2 that I run Xchat on and freed the B+ for whatever I wanted.

Pi-Hole for DNS

I started out by setting up Pi-Hole.  It has a fancy name and is simple to install, but at the core, Pi-Hole is just a DNS server that filters sites based on some predefined public lists.  Specifically, it filters ads.  There is a whole debate to be made on the pluses and minuses of ad filtering, but it is what it is and I’m not getting into that debate here.  Pi-Hole has a white list anyway, for “good ads”.  Mostly, it’s a way to filter on mobile, where it’s not easy to install an ad blocker.

Installing Pi-Hole is as simple as entering the following into the command line over SSH or even on the RaspberryPi itself:

sudo curl -L install.pi-hole.net | bash

Though you will also need to set up the Pi with a static IP and then later point your computer’s DNS records to the IP of the Pi.

On a bit of a side note, DNS is Domain Name Server.  The easy analogy is that it is a phone book to the Internet.  Servers where websites live all have IP addresses assigned in various ways, but in order to keep things simple for humans, these servers get friendly names, like Microsoft.com or Facebook.com.  The DNS is where your computer looks up “Facebook.com” to find out what IP address it’s located at.  In this case, ads come from specific servers and providers, often not related to the core domain.  So Website.com may serve ads from advertiser.org.  With Pi-Hole, your computer looks up both domains when you connect to Website.com, but the RaspberryPi Pi-Hole simply replies “I don’t know where Advertiser.org is located”.  You computer then fetches what it can from Website.com, but displays nothing from Advertiser.org.

ISC-DHCP for DHCP

Sort of tangentially related, I recently changed ISPs.  I went from a 3Mbps DSL to 50Mbps Cable modem.  I keep my home network crazy organized since there are a ton of devices on it.  For every person in my house there are something like 4 devices, and this doesn’t count game consoles, media devices, or my own little IOT devices.  On the old modem, I set up MAC assignments on the router so that wireless devices like my phone, where I can’t assign a static IP, get assigned a specific IP.  I went through and set all of this up on the new modem, but none of the assignments seem to have taken.  I’m not entirely sure why, I have theories, but I’ve instead decided to use this as an excuse to re-purpose my B+ and to learn more about managing a DHCP server.

So what is DHCP.  DHCP stands for Dynamic Host control Protocol.  I mentioned earlier that DNS was the way to connect the firstly domain name to an unfriendly IP address.  DHCP assigns those IP addresses.  Some static devices like routers or desktop computers that never go anywhere can pick and self assign an IP but things like phone that move between networks need to be given a temporary IP address as they come and go.  DHCP handles this.  Every device on a network has a unique IP address, though small networks like the one in your home, all tend to share IP ranges since to the outside world they appear to be one node/thing/device.  DHCP can be used to give out reserved “static like” IPs to these roaming devices though based on the device’s MAC Address.  A MAC Address is a device unique identifier.  For example, when the DHCP server or router sees a specific MAC, it can say “I know you, you get IP 192.168.1.50”.  When a strange device shows up, it will simply say “Here, this time you are 192.168.1.103, which is the next free IP in my pool of IPs”.

The set up for DHCP is a bit more involved than for Pi-Hole.  There is a detailed guide below but I’ll run through the cliff notes version.  There is a lot more that can be done but I’m not going to get super detailed here.  This is essentially for a simple home network with one subnet.  The first steps are to set up and configure the server, it will likely error out in the middle, just keep going with it.

sudo apt-get install isc-dhcp-server

sudo nano /etc/dhcp/dhcpd.conf

This is where it gets a little trickier.  You will need to edit the options in the config file.

option domain-name “your_domain”
option domain-name-servers

Your Domain can be more or less anything really, it’s often just “Workgroup” by default in Windows.  It should be all one word though.  Domain Name Servers are specific however.  If you are using Pi-Hole, set the IP of the Pi running Pi-Hole into this list.  You can add additional DNS servers with a comma between each one, some suggestions, 8.8.8.8, and 8.8.4.4 are Google’s DNS servers.  OpenDNS uses 208.67.222.222 and 208.67.20.220.  It’s a good idea to have more than one in case there are issues.

The only other thing you NEED to set is the ip information and range found under

subnet 10.0.0.0 netmask 255.255.255.0
{ range  10.0.0.1 10.0.0.200;
option routers 10.0.0.254;
}

You will need to replace the IP information in this block.  the subnet should be the first three octets of your network followed by a .0.  The most common ones in a home network are 192.168.1.0, 192.168.0.0, and 10.110.1.0.  The range is the range of IPs to give out.  If you are going to use static IPs, i would recommend setting this range beyond your static IP ranges.  For example, I have a spreadsheet blocking off reservations through 192.168.1.100, I added some extra for my router to serve as a backup DHCP server and set the range on the RaspberryPi as 192.168.1.175 192.168.1.250.  This means, when a device connects, it will be assigned an IP starting at the next available at .175.

The final option is routers, chances are really good that you have only one, and chances are the IP ends in .1 or .254.  This will assign the router IP so that devices know how to get out to the Internet.

If you want to ensure your Pi DHCP server is assigning IPs over anything else on the network (ie your router) you will need to find the line that reads “If this DHCP is the official DHCP server…” and uncomment the line “authoritative”.

Finally at the bottom, there are blocks to assign static IPs using a format like:

host MACHINENAME
{
hardware ethernet MACADDRESS;
fixed-address FIXED_IP_YOU_WANT_TO_ASSIGN;
}

An easy way, if you are running Windows, to find out MAC addresses of devices is to run Netscan.  This will give you a list of everything connected to your home network.  There are a few ways to decipher which IP/MAC is which.  Some will have the MAC printed on them, often near the network port.  In the case of phones or tablets, it’s simplest to simply disable the WiFi or turn them of and rescan to see which disappears.  Some may show up with names you may recognize.  You can also sometimes search for the first 3 sets of numbers (IE 45:3b:a3) which is manufacturer specific to decipher that “That’s a Sony device, the only Sony thing I own is the Blu Ray player”.

Setting reserve assignments is entirely optional.  The main purpose is to better organize your home network.  If you only have a half dozen devices, it really probably isn’t necessary at all.

Once you are done editing, CTRL+O (for Output) to save the file, and CTRL+X to close it. If you get an error that you can’t write the file then you forgot to do a”sudo” and you will need to do it all over again.

Wrap Up

Things are not quite finished yet.  You will need to start the DHCP server, since it error-ed out earlier.  You can do this using the following commands:

service isc-dhcpd-server stop
service isc-dhcpd-server start

HOWEVER, I still got an error when I did this.  A little searching and I found a similar issue and fix which I used.

sudo pico /etc/default/ifplugd

Then change this:

INTERFACES=”auto”
HOTPLUG_INTERFACES=”all”
ARGS=”-q -f -u0 -d10 -w -I”
SUSPEND_ACTION=”stop”

To match this:

INTERFACES=”eth0″
HOTPLUG_INTERFACES=”eth0″
ARGS=”-q -f -u0 -d10 -w -I”
SUSPEND_ACTION=”stop”

then reboot and after the reboot start the server with:

sudo reboot

service isc-dhcpd-server start

Everything should be working now.  You can run Netscan later and see if IPs are being assigned into the range you chose.  This may not happen immediately since IPs have a lease time and devices may hold on to the old IP for a bit.

Reference:

Pi-Hole

Configuring the Raspberry Pi as a DHCP Server under Raspbian Wheezy

How To : Use The Raspberry Pi As A Wireless Access Point/Router Part 3…B!

Fixing my CHIP

chiplogoI mentioned getting my CHIPs from NextThing aq bit ago, but I have not really done much with them. I noticed a bit of an issue keeping them powered when I set them up and assumed I had been using a power supply that wasn’t ideal. I believe it was the one off of the Chromecast on the TV, just because it was handy. It turns out, this is not the case, there is actually an issue with the software of the CHIPs that have shipped so far. I don’t beleive it affects all of them but it’s probably a good idea to update anyway.

It’s a pretty simple process, you can review the boot repair process here. The main issue you may have is that it requires you be running Ubuntu (or really just Linux). You can get a live image and load it using a USB drive though, and being familiar with Linux is useful for working with the CHIP itself since, it runs Linux.

I’m already running Ubuntu on my Laptop, so no issues for me there, my issue was actually getting something to short the pins for FEL mode. I didn’t have any breadboard wires handy at the time. I tried a paperclip as suggested but it was too large to stick in the pin holes. Instead I found a piece of wire to strip off. The point is, almost any melat strip would work to conduct between the pins.

You may also want to try flashing the whole image. Details on this process can be found on the NextThing’s website. It’s the same basic process of fixing the boot but you need to do more work yourself instead of just running a pre made fix app.

I’ve been trying to find some good plans and ideas for my CHIPs. There are some good ideas listed here.

I wanted to try turn a USB camera into a Streaming camera, but I can’t locate any of the USB cameras I used to have.

This Web and Bluetooth Sniffing device seemed neat, though once I started looking at it it looks more like it just tracks Wireless APs in the area, I’m more interested in building a network monitor.

This homemade Amazon Echo clone is pretty neat, and seems like an interesting project to work on that involves some hardware set up as well as software.

Microsoft’s Windows Remote Arduino Experience Test

I found a couple of Arduino apps in the Windows 10 App store recently, both put out by Microsoft.  There is an app that allows your Windows Phone to act as a virtual shield for an Arduino board which I ave not tried yet, but I set up and ran a quick test of the second app which lets you remotely trigger and monitor the pin inputs and outputs.

I set up a simple circuit with some LEDs on pins 2, 3, and 4, and toggle them from my desktop using the app.  There isn’t any special code needed for this, the Sketch used is the StandardFirmata sketch listed in the Arduino app under the example sketches.

There doesn’t seem to be a lot more that can be done with this app.  As far as I can tell, it’s not really set up for any sort of customizing such as naming the triggers or causing any sort of action to be taken when a trigger is activated on the Arduino (such as pressing a button to open a URL).

There is some additional information available from Microsoft about setting up Visual Studio to build Arduino projects but I have not tested it yet, I actually have run into an error in Visual Studio when trying to load the projects.