I'm a software engineering student who's also passionate about photography so I wanted to combine the two interests in a fun project. What I ended up with is a web server that will automatically display photos to any connected browser as soon as a photo is taken with a digital camera. Now I want to teach you how to make it too!
I made this instructable for the Photography contest and I would really appreciate your vote if you think it's worthy (click the orange "vote" ribbon at the top right). Thanks!
If you don't have much coding experience, dont panic! I will literally walk you through every line of code. It should only take about an hour.
This Instructable makes use of an Eye-Fi SD card ($39.99 new) which does some of the work for us by wirelessly transferring photos from the camera to a computer or you can mimic the behavior of the Eye-Fi by pasting photos into a directory we'll create! I'll show you how to set up an Eye-Fi card so that we can get a photo from the camera to the right directory and how to set up a web server to get that photo from the directory to the browsers of lots of people - instantly!
First, we'll get it working on a local network so that it can be shared with other people connected to the same wi-fi connection (which is a majority of the Instructable). Then, for the more technical crowd, I'll explain a few more steps about how to get it functioning on a public-facing web server so anyone on the entire world wide web can check out your live stream. All the code can be found in my Github repository.
You'll need a few physical things:
Once the photo is taken, the image is sent to Eye-Fi's servers before being forwarded to our own computer. In the meantime, our server is accepting connections and opening web sockets with each browser that attempts to connect with it. When the server detects a new image that has finished uploading, it sends a link to that image to each of the clients through the socket. Pretty simple, right?
So let's get started.
First, we'll need to install Node JS (which I'll refer to as just 'node') to run our server. There are a couple of easy methods described on the node Github page. Once node is installed, we will make a directory for the project and install a couple node modules that will make our lives much easier. We'll be using the terminal to complete these tasks and for a few similar tasks in the future. On Windows, this can be accessed by hitting the windows key, typing 'cmd', and then pressing enter. On OSX, just open the Terminal application. Run the following commands in the terminal. Node-watch is for monitoring our directory, express is the framework we're using for our web server and socket.io is for maintaining web sockets.
I apologize that none of the code is copyable; you can't write code on Instructable's site because they don't want you hacking it. I can't say I blame them.
Now we can start creating our server. In your editor of choice (
Now that the code has been written, we will run the server. To run the server, simply enter node livePhotoServer.js and, later, when we need to stop it, type control+c. But for now leave it running.
Note: If you receive an error like 'Error: listen EADDRINUSE' when trying to run the server, you may need to change the active port. To do that, change line 19 of 'livePhotoServer.js' to server.listen(X); where X is some number between 3000 and 9000 but not 8080.
Now, if you open your web browser and navigate to 'localhost:8080' (or, if you had to change your port number, enter that port number after the colon), you should see "Welcome to our awesome photo streamer!". That means our server is responding!
The next thing we are going to do is serve up an actual HTML page instead of text when we hit the server so that we can eventually display an image. First, we'll create a directory inside our project directory called 'public' inside of which we will store any of the files that we'll serve our clients.
Then we'll create a file called 'livePhoto.html' inside the 'public' directory and enter the code below into it. The code creates a simple webpage with a single red square.
Finally, let's add a couple of lines to our 'livePhotoServer.js' file that configures the public directory as our static file sharing source (line 14), and include the module for reading files (line 17). We then modify our root route (lines 20 - 24) to read our livePhoto.html file and send the text down in the response (which will render as HTML in the browser). I encourage to compare the line numbers in the screenshots to figure out where in the files the code bits go.
Now we need to start the server again. To go back up a directory, type 'cd ..' after which you can start the server (node livePhotoServer.js). Reload http://localhost:8080 (or whatever your port number is) in your browser and see the red square!
There is one more layer of communication we need between our server and our client: websockets. Websockets give the server the ability to initiate a data transfer to the client instead of depending on the client to request new pages. We can use these two-way pipes to keep open a communication channel that will notify the client when we receive a new photo.
We'll start by adding two lines to our 'livePhotoServer.js' script. First, we import the socket io module and start listening for connections on our server's address. Then we create an array to hold references to the sockets that we'll make.
Then, we'll write a method that on our server accepts web socket connections from clients, stores the socket reference to the array and sends a little message back to make sure it worked. Also, to keep the logic clean, we'll remove the socket reference from the array on disconnect.
Now we need to write the logic that initializes web socket connections from the browser when it loads the page from our server. Create a file titled 'livePhoto-client.js" in the public directory and add some code to initiate a web socket connection with the server (line 2). When the client receives a "connected" message from the server, it will open a dialog box with the contents of the message (lines 5 - 10).
If you restart the server again, and reload the page, you should see an alert box with the message: 'Message from server: Welcome to Photo Stream." If you see that, your websockets are working beautifully!
First, we're going to create an 'images' directory inside our 'public' directory that our photos will be magically delivered to (or which you can paste images into if you don't have an Eye-Fi card).
If you've never used your Eye-Fi card, follow the instructions on Eye-Fi's website to set it up. If you have already used it, make sure you can connect to a wireless network. We're going to want to make sure that the card uploads photos to the 'images' directory inside of our 'public' folder and that it doesn't create date-based folders. If you're confused about this step, see the screenshot below from the Eye-Fi Center App.
Finally, we can start taking pictures! I recommend changing your camera's settings to the lowest resolution possible, if it has the capability, so we can achieve faster upload times. Take a few pictures and verify that they end up in the 'images' directory. If it doesn't seem to be working, make sure you camera doesn't go into a sleep mode after taking pictures and that you're close enough to the wireless router. I had a few problems with this myself when I was working on the project.
Now let's get back to the code!
Now we are going to start monitoring our file system to detect when Eye-Fi delivers a new photo to our 'images' directory. We'll need to add the code below to our 'livePhotoServer.js' file so that we can import the node-watch module to utilize it's watch method. It monitors a directory and provides us with a callback it will execute when a file changes (line 32). Unfortunately, the filename of the changed file it provides in the callback is the name of parent directory (in our case 'public/images') which is pretty useless. Instead, we'll create an array called images in which we will manually keep track of the images we've already displayed so that we know which image is new when the file system is changed (we'll write the implementation of findNewImageName() in the next step).
Now we're going to add more code to our 'livePhotoServer.js' file to append all the images that are in the directory to our array as soon as we start the server so that we don't accidentally display them as we take more pictures (lines 92 - 103 & 106). Then, whenever we get notice from node-watch that something changed, we can iterate over the file system to see which file isn't in our array (lines 71 - 85). It seems to be a bit complicated for such a simple task so if anyone can think of a simpler way of doing it, please let me know.
Now, if you restart the server and take a few photos, your terminal should print out the file names of the pictures you're taking! Awesome.
The final part of the system involves sending over URLs of the new images to all of the awaiting client sockets. In our 'livePhotoServer.js" file, we'll add some code to update the clients by iterating through the array of sockets and sending down the URL to each one. This gets called whenever we detect a change in the filesystem.
Restart your node server, refresh your localhost:8080 page, and start taking pictures. They should be updating on the page in realtime! There is about a 3 second lag between taking pictures and them appearing in my browser when using the 'S3' file size setting on my Canon DSLR so expect a transport delay of that magnitude.
You can also view the live stream from any other device on the same wireless network as your server. Simply find your IP Address using either the ifconfig command, if your running OSX, or the ipconfig, if your running Windows, in your terminal. Enter that IP address followed by ':8080' (or whatever port number you used) on another device and it will update with photos as you take them (or paste them in the 'images' folder).
If you already have an FTP server active somewhere, it's not too much more trouble to move this photo streaming server onto it. There are three changes we need to make:
Now we are going to utilize Eye-Fi's ability to send the photos to an FTP server. You should follow Eye-Fi's great instructions of how to do this here but I also want to specify one more thing. For some reason, Eye-Fi doesn't allow you to disallow titled directory creation for the photos like they do when you have them transferred to your local computer, so you need to point the FTP transaction to LivePhoto/public (instead of LivePhoto/public/images like we had before) and set the album name to images. That way, the file structure stays the same so our code doesn't break.
The final change we have to make is a consequence of the FTP implementation (it may depend on the FTP service you use on your sever... I'm not sure... I used pure-ftp). I found that when I used the code from above on my FTP server, links would be sent over and over again to clients as the upload was in progress. Sometimes the links stopped being sent before the upload was complete so the browsers would see incomplete or missing pictures. In order to counteract that effect in the simplest way possible, I added an interval of .5 seconds before sending out the link, and if another file change was detected because the image was still being uploaded before the .5 seconds was up, I reset the interval. This seemed to alleviate the problem.
There are a couple other more complicated, but more reliable, ways of getting around this such as monitoring programs like lsof (stands for list open files) or monitoring your FTP server's logs because they usually indicate when a file has finished uploading. However, for this demo, those would have been more trouble than they're worth.
And that's it! Run the node server, go to YOUR_DOMAIN:8080 and start live streaming your photos!
My thanks go out to selkeymoonbeam for her help working the kinks out of this Instructable.