I recently upgraded to a PS4 Pro from an original release model PS4. I chose to copy all my games, files, settings, etc to the new system from the old so I didn’t have to waste time doing manual setup. For anyone who’s looking for reference, it took about 2.5-3 hours. I didn’t keep an exact record because I let it run while working, but it was a lot less than others have claimed where they let it go overnight. To be more specific…
I copied about 400 GB from an original PS4 to a 1 TB God of War special edition PS4 Pro. I used wired gigabit ethernet for both. The original estimated time was 79 minutes, but I knew that’d be too little. It ended up taking about 2.5 times that estimate, which was fine. Second by second transfer speed varied wildly, as it does with any large transfer because large files go faster than smaller ones.
If you’re doing a similar copy, I strongly suggest using wired ethernet if possible and estimate 37 MB per second average (faster for large files, slower for smaller). This should give you a rough estimate of how long it’s going to take and whether you should just do it overnight (say, if you’re copying 1 TB or more) or just over a meal (50 GB). Once initial steps completed and the process started the copy, no intervention was required of me.
If you’re not using wired gigabit ethernet, your copy speed will probably be significantly different than mine.
If, like me, you’ve found that emails viewed in the Yahoo Mail web UI don’t have the same paragraph spacing as emails viewed in other web UIs like Gmail, the solution is simple! At the top of the email where you define styles, simply add this style for p:
If you’re using Unity and Visual Studio with a version control system like I am, beware your ignore/exclude file! When I first started my project I decided to simply combine the Unity ignore template and the Visual Studio ignore template. This is a big mistake! The Visual Studio ignore includes a *.meta, which is a very important file in Unity! Here is my resulting gitignore for Unity Visual Studio repositories:
## Ignore Visual Studio temporary files, build results, and
## files generated by popular Visual Studio add-ons.
Short post: if you’re trying to use AngularJS to $http.post() to a .NET MonoRail backend, you’ll find that there is nothing in Request.Form, or anywhere in the Request object.
I still have refactoring to do, but the quick solution is something like below. Note the headers object and transformRequest method. This needs refactored into a friendly service, but you get the idea for now.
This is going to be much less detailed than my post to install version 1.x of Redmine. This is a much more intense process, but I’ve done all the work for you. It’s possible I made a small error or two, but it should be pretty easy to work through if I did. I’ve done most of the work getting past all the really hard errors in the process.
This also assumes you’ve already done the regular Redmine install, though it’s not required.
Following along with http://www.redmine.org/projects/redmine/wiki/RedmineUpgrade but filling in the gaps to get it working on the Pi 2.
unzip redmine 3 to /usr/share/redmine3/ ensuring it doesn’t create a root directory inside there. (I extracted as redmine-3.0.1 and then renamed the folder)
sudo chmod 777 -R redmine3
sudo chown pi:pi -R redmine3
Now if you try the bundle install command, it won’t work. Why? Because the Pi has too low of a version of Bundler. Soooo, we have to uninstall it from apt-get, install a “fake” package, and then install the updated version straight through ruby.
sudo apt-get update
sudo dpkg -r –force-depends “bundler” Download my fake bundler package here.
sudo dpkg -i bundler_1.9.4_all.deb
Now inside the redmine3 directory
sudo gem install bundler –version ‘1.9.4’
sudo apt-get install ruby1.9.1-dev
sudo gem install json -v ‘1.8.2’
sudo apt-get install libmysql-ruby
sudo apt-get install libmysqlclient-dev
sudo gem install mysql2 -v ‘0.3.18’
cp /etc/redmine/default/database.yml /usr/share/redmine3/config/database.yml
sudo chmod 777 config/database.yml
sudo chown pi:pi config/database.yml
nano config/database.yml and change mysql to mysql2
bundle install –without development test rmagick
This should now actually work since we did the pre-reqs, and it is going to take awhile. 10+ minutes on the Pi 2.
bundle exec rake generate_secret_token
bundle exec rake db:migrate RAILS_ENV=production
bundle exec rake tmp:cache:clear tmp:sessions:clear RAILS_ENV=production
sudo /etc/init.d/apache2 reload
sudo /etc/init.d/apache2 restart
sudo rm /var/www/redmine
sudo ln -s /usr/share/redmine3/public /var/www/redmine
Now try to surf to it. Ooops! Doesn’t work! Why? We need an upgrade to mod_passenger, and we have to build this sucker from source! Hold on to your boostraps…
(I used this tarball, which may differ from the latest when you read this.)
tar xzvf /location-to/passenger-x.x.x.tar.gz
This will guide you through a process that will probably fail, but it will tell you what you need to do to make it work. Best work I’ve ever seen in an open source project! For me, I needed to:
apt-get install libcurl4-openssl-dev
apt-get install libssl-dev
apt-get install apache2-threaded-dev
apt-get install libapr1-dev
apt-get install libaprutil1-dev
Which I combined into one apt-get install libcurl4-openssl-dev libssl-dev apache2-threaded-dev libapr1-dev libaprutil1-dev
Let apt-get do its thing and then run the passenger installer again: ./bin/passenger-install-apache2-module
It will be happy and take a VERY long time to compile.
When it’s done, it will tell you modify your apache config with the following lines:
LoadModule passenger_module /opt/passenger/passenger-5.0.6/buildout/apache2/mod_passenger.so
I’ll show you how and where now.
If you already had a version of mod_passenger installed, then this will already contain a mod_passenger line. Comment it out with a # and replace it with LoadModule passenger_module /opt/passenger/passenger-5.0.6/buildout/apache2/mod_passenger.so
Again, you may need to comment out the existing mod_passenger details and replace it with
sudo /etc/init.d/apache2 reload
sudo /etc/init.d/apache2 restart
Surf to your redmine URL and you’re done!
(UPDATE: I needed Redmine >=3.0 for a plugin, so I ended up re-doing this for version 3 of Redmine, which is a more complicated process. I wrote instructions for Redmine version 3 onto the Raspberry Pi 2, but they’re not quite as detailed as the ones here. But if you’re able to follow these instructions, you should be able to follow along for 3.0. It’s just a bit more complex because you have to build packages.)
(COMMENTS: I suggest you take a look below at the comments to this post if you run into anything unexpected, like an error. There is a lot of feedback for various issues some folks ran into.)
After scouring the internet, I’ve created the go-to tutorial for installing Redmine onto the Raspberry Pi 2 without assuming you are a Linux guru and without pages and pages of steps. This assumes you have a Raspberry Pi 2 and a freshly imaged SD card that has never booted. If you’ve already booted, that’s fine, you should be able to pick up around step 12 (I would recommend an SD image backup first!).
I’m using Raspbian 2015-02-16 in this tutorial. Yes, this is 27 steps, but it holds your hand and it zips by. Plus, the first half is initial Pi setup and backup.
Before even booting your Pi, download Adafruit Pi Finder. This is a cross-platform utility that allows you to get started with your Pi without having to hook it to a TV and use a keyboard. It will discover it, tell you the IP, and get you connected without any display or keyboard attached to the Pi. Just make sure it’s connected via wire to your network.
Insert your SD card, plug in the wired ethernet cable, and finally plug in the power supply. Let it go to town booting and doing it’s first time thing. Note that you don’t need it hooked to a screen or keyboard, you just need to let it run for a minute or two until the activity light dies down.
Click Find my Pi
It will take a minute or two to search your network–be patient.
If you have more than one Pi, you will need to make sure you edit the correct one, but I expect in most cases you will just have the one. Enter the SSH credentials you want to use and a hostname. I chose piredmine for my hostname. For this install, leave “Install the WebIDE?” unchecked.
The tool will connect, an SSH Terminal window will open, and go to town downloading and installing stuff. Let it run.
Run sudo raspi-config and expand the filesystem to fill the SD card.
Optional: Shutdown, eject your SD card from the Pi, and make a backup on your regular machine using the same Win32DiskImager utility. This way, if things go wrong, you can rollback to this point easily. Put it back in your Pi when it’s done.
Now to actually install stuff!
(At this point, it may be easier to sudo su to become root rather than prefix all your commands with sudo. It’s up to you, though!)
Execute sudo apt-get install apache2 mysql-server and wait. You’ll be prompted to enter a password for the MySQL root user. Remember to make it secure. Wait some more.
Next execute sudo apt-get install redmine redmine-mysql and wait. You’ll be prompted about configuring the redmine/instances/default package with a lengthy text blurb advising you to select Yes. Select Yes, then select mysql. Now enter the MySQL root user password from earlier. For the next password prompt, you can leave it blank for a random password or enter whatever you like. This one shouldn’t ever be important for you to know because you know the root password. I left mine blank for random.
You’ll see a message that “This may take awhile.” It is not kidding. Go do something else for 5 or 10 minutes.
It will give you false hope that it is done, but it’s not. Keep waiting.
Finally it’s done, and we are nearly so. Execute one last install: sudo apt-get install libapache2-mod-passenger This one will be quick. A little configuration and we’ll be good to go.
Execute: sudo ln -s /usr/share/redmine/public /var/www/redmine This will make your URL “http://youservername/redmine”
If you’ve tried to use the modified Inkscape laser engraver plugin mentioned in this blog post about building an engraver, you may have run into an error trying to do the export. It’s something like “AttributeError: ‘module’ object has no attribute ‘unittouu’” or “unittouu not part of inkex module“. Here’s the fix.
The bug is on line 3080 of laserengraver.py and broke due to an Inkscape change. Old line:
Be sure to have the exact same number of spaces/tabs on this line. In Python, whitespace is important, so you can’t mix and match spaces and tabs, and all code blocks must have the same whitespace alignment.
With the release of Dragon Age: Inquisition, I was motivated to get a reliable, comfortable wireless controller working with my gaming PC. After ditching my Logitech because it had range issues in my living room, I had decided on wired PC/360 controllers for awhile. The wireless 360 controllers for PC always concerned me because apparently now you can’t get a genuine receiver for them, only knock-offs that may not be reliable. Why Microsoft has stopped making/selling them, I do not know.
Regardless, I wanted the newest tech, not last-gen, so I looked at the XBox One controller and PS4 Dualshock 4. The XBone controller uses some sort of “wifi direct” tech and has no adapter for PC. The DS4 on the other hand uses standard bluetooth and will pair to your PC wirelessly without a whole lot of fuss. Make sure you get a Bluetooth 4.0 adapter just to be safe, but they’re the same price as BT 2.0 and 3.0 devices, so no big deal. Just get the 4.0 one. Sony has not released Windows drivers for the DS4, so it requires extra software to get full game compatibility. But it turns out that extra layer is really easy and flexible.
Enter two pieces of software, confusingly, identically named. DS4Windows and DS4Windows. (The former is the one I had the best luck with.) Both are forked from the same base but are taking the UI in slightly different directions. I ran into major issues with both initially where the Steam UI would work with them just fine, and all the input testers were spot-on, but the few games I tried wouldn’t work at all. I discovered this was because I was leaving my wired 360 controller plugged in. Apparently this was confusing something, either Windows or the games, and they wouldn’t use the DS4. After unplugging the wired controller and rebooting with the DS4 software opening on boot, no more issues. Dragon Age: Inquisition works perfectly with it. Additionally, ensuring that the software loads before Steam opens also helps significantly.
Here are the bonuses of using a DS4 over all other options:
They still work with your PS4 after a simple re-pair.
They work just like a 360 controller on your PC, except with the modern grip and weight.
The software allows for tons of customization for games that need help recognizing controllers, and allows programmable macros.
The touchpad works as a mouse!! How cool is that?
Needless to say, I’m pretty sold on the DS4 as my go-to controller for PC. I have an Xbone controller I used for testing but expect I will sell it on Craigslist. The DS4 is where it’s at. (It also helps that I own a PS4 and not an Xbone.)
Never reference OUTER JOIN-ed tables in your WHERE clause. The exception is when you want to test if your outer join expression matched any rows at all; i.e., checking to see if the outer table’s primary key column is NULL. Otherwise, put any criteria on your outer tables within the join expression itself.
This is quite a deviation for me. Instead of talking web or games programming, this is a quick post about the Arduino and a stepper motor controller. I ordered the stepper motor and controller combo pack (“DC 5V 4-Phase 5-Wire Step Motor + Driver Board Test Module for Arduino”) from MiniInTheBox.com. I then pulled up the Adafruit tutorial for their stepper motor and controller, but it turns out the IC is different. Further, they’re expecting a raw IC on a breadboard while the one from MiniInTheBox comes with the IC on a board. Fortunately, it’s really easy to work around.
It turns out that the stepper motor seems to function fine if you use the Adafruit sample code and hook up the outputs 9-12 in sequence on the controller. So 9 goes to “1N1”, 10 goes to “1N2”, etc. Then run the Adafruit provided code, enter a number like 200 (or 2000 like I did in the video) and watch it turn! Cool! Here’s video proof, with pictures below showing the hookup.