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5 Pierogi Universal Infrared Remote Control
11 <img src="PierogiIcon.png">
13 <img src="PierogiIcon.png">
16 <h2 align="center">A Universal Infrared Remote Control app for the Nokia N900</h2>
18 <p>Welcome to the Pierogi website! This web page and the app itself are
19 still under active construction. Until I have time to construct a proper
20 home page, I'll just place a copy of the app's internal documentation below.
21 If you have any questions or comments, please post a note on the
22 <a href="https://garage.maemo.org/forum/?group_id=2286">Pierogi forum boards</a>
24 <a href="mailto:jpietrzak8@gmail.com">jpietrzak8@gmail.com</a>.
25 Thank you for your understanding.
28 <h1>Pierogi Documentation</h1>
31 The Pierogi universal infrared remote controller is a single self-contained
32 app capable of sending IR commands to a wide variety of devices.
33 At the moment, it is oriented towards television, VCR, DVD, and Blu-ray
34 devices, but a few other types of device have had their command sets entered.
38 In this app, each family of related infrared commands is collected into a
39 "keyset". As manufacturers commonly reuse a given set of commands rather
40 than re-invent the wheel each time they come out with a new product, many
41 devices can share the same keyset.
45 Pierogi also follows the classic concept of a universal remote, by having
46 a common set of buttons that are reused for each device. So, for example,
47 the "power" button has the same name and is located in the same position,
48 no matter what keyset is currently in use -- even if that keyset has a
49 different name for "power", or has no "power" command at all. (Check out
50 the <a href="http://en.wikipedia.org/wiki/Universal_remote">Universal
51 Remote wiki</a> for a description of universal remote controls, which
52 includes a special mention of the N900!)
56 So in short, to use Pierogi, you first select an appropriate keyset, then
57 press the appropriate buttons to control the target device. More detail on
58 the features of Pierogi is provided below.
61 <h2>Using Pierogi</h2>
64 The current Pierogi design is built around a tabbed window, each tab containing
65 a group of related buttons. Depending on the keyset that has been selected,
66 some of these buttons will be active, others inactive. Active buttons are ones
67 which have been associated with a command in the current keyset. Pressing an
68 active button will begin repeating the associated command; letting up on the
69 button will stop the command.
73 Keysets can be chosen using the "Select Keyset" option in the drop-down menu.
74 If you have a particular keyset you use often, it can be stored in the
75 "favorites" tab for quick access.
80 <img src="MainTab.png">
82 <p>The Main tab contains just the power, volume, and channel buttons. It is
83 intended to be a quick way to get to the most important, commonly used
84 controls. The name of the current keyset is also provided in this tab.</p>
88 <img src="UtilityTab.png">
90 <p>The Utility tab contains a selection of commonly useful controls, such as
91 "Mute", "Sleep", "Input", "Closed Captions / Subtitles", and the color buttons.
92 The exact selection of buttons on this tab will probably change to reflect
93 which commands turn out to be the most popular.</p>
97 <img src="KeypadTab.png">
99 <p>This tab provides a numeric keypad and a handful of associated commands,
100 intended mainly for use with televisions. The "Prev Channel" button should
101 take you to the previously selected channel, if any. The "Dash" button
102 should allow you to specify a digital subchannel, as in "16-4". The "+100"
103 button is used for television sets which normally expect only two digits
104 per channel; using this button allows you to enter a third digit. The "-/--
105 Double Digit" button is used on very old televisions that normally expect
106 channels to be represented by just a single digit; pressing this should
107 allow you to enter a second digit.</p>
111 <img src="MenuTab.png">
113 <p>This tab contains buttons used to enter and exit a menu, navigate within
114 a menu, and select menu entries. The "Menu" button is meant to enter the
115 main system menu of a given device; the "Info" and "Guide" buttons are
116 targeted towards entering other useful menus when available.</p>
120 <img src="MediaTab.png">
122 <p>Many of the most important playback commands are represented on this tab.
123 Play, pause, and stop are the most common ones, along with "Reverse" (often
124 called "Rewind") and Fast Forward. A variety of other less common navigation
125 controls are included, along with the "eject" command.</p>
129 <img src="MiscTab.png">
131 <p>This tab contains a selection of buttons that did not fit into any of the
132 previous tabs. The content of this tab is subject to change.</p>
134 <h3>Favorites Tab</h3>
136 <img src="FavoritesTab.png">
138 <p>As there are numerous keysets available in Pierogi, a "favorites" tab has
139 been implemented. To add a favorite keyset to the tab, first select that
140 keyset from the "Select Keyset" window. Then, navigate to the Favorites tab
141 and press "Add Current Keyset".</p>
143 <p>Once you have added some keysets to the favorites list, you can tell
144 Pierogi to use one by simply selecting that keyset from the list.</p>
146 <p>A keyset can be removed from the list by selecting it and pressing
147 "Remove Selected Keyset".</p>
149 <h3>Select Keyset Window</h3>
151 <img src="SelectKeysetWindow.png">
153 <p>The Select Keyset window presents a list of all the keysets currently
154 available in Pierogi. As this list is fairly long, a button has been added
155 at the top of the window that allows you to choose the make (or brand) of
156 the device you are trying to control; once a make has been selected, all
157 keysets not associated with that make will be hidden. To use a keyset,
158 simply select it from the list, and close the window (by pressing the
159 return arrow at the top right of the screen).</p>
161 <h2>Design Rationale</h2>
163 <p>Here I collect my thoughts on the how and why of creating Pierogi.</p>
165 <h3>Hasn't this been done before?</h3>
167 <p>Yes, remote control software has already been written for the N900. In
169 <a href="http://irreco.garage.maemo.org/">Irreco / QtIrreco</a> project
170 creates beautiful virtual remote controls. I've also used the
171 <a href="http://thp.io/2010/raemote/">Raemote</a> widget to control my Apple
172 computers. But these programs have their shortcomings; in particular, they
173 are not universal. Each simulated remote control in QtIrreco is a completely
174 separate animal. I would like to have a standard set of buttons that I can
175 use on all sorts of different hardware.</p>
177 <h3>What's up with LIRC?</h3>
179 <p>Just as QtIrreco and Raemote do, I want to leverage the work of the
180 <a href="http://www.lirc.org/">Linux Infrared Remote Control</a> project.
181 The LIRC project is by far the most influential open-source effort working
182 with consumer IR. And the N900 comes with a device driver made
183 specifically for their server! But, you see, I have a problem. I
184 don't want to do things the way LIRC wants to do things.</p>
186 <p>The N900 is different from other Linux systems using IR -- rather than
187 being the machine at which you point a remote control, this machine <i>is</i>
188 the remote control. This is not what LIRC was designed for; the heart of the
189 LIRC project is a server that will sit and wait for messages to arrive from
190 the IR system. Although it can also broadcast IR data back out (when using
191 hardware that supports 2-way IR communication), that is not its primary
194 <p>I believe there are three disadvantages to using the LIRC server as it
195 currently exists. First, there isn't much point to running a daemon on
196 the N900 to manage the IR device; no messages are ever going to come in from
197 the output-only hardware on the N900, so why sit and listen for them?</p>
199 <p>The second problem is somewhat larger. LIRC uses configuration files to
200 describe the command set for each remote control. And there are a lot of them.
201 A whole lot. We're talking thousands of files here, and each file can describe
202 many remote controls. This is not a problem for Raemote or Irreco, as they
203 only need to deal with one config file at a time. But if you're aiming to
204 manage the whole lot of them, you need to find a way to deal with the
207 <p>The third problem is more subtle, but really tough to crack. You see, the
208 whole point of LIRC is to take the commands it receives from the IR port and
209 translate them into something recognizable. As such, each config file provides
210 a mapping from numeric commands to human-readable strings. This is a
211 serious problem, if your interest is in finding similar commands in
212 different config files! Take, for example, the "power"
213 button found on most remote controls. In some config files, the string for
214 this is "power". Others have "Power", or "POWER". You can also find "pwr",
215 "PWR", "ON/OFF", "ON-OFF", "ONOFF", "POWER_ON_OFF", "KEY_POWER", "Operate",
216 "Standby", and who knows what else. And, you've gotta be careful not to get
217 confused by strings like "SUBTITLE_ON/OFF" or "TV_ON_TIMER". How is an app to
218 know which key to map all these strings to?</p>
220 <h3>So how is Pierogi different?</h3>
223 Pierogi attempts to answer these problems. First, it talks directly to the
224 /dev/lirc0 device, no server middleman needed. Yes, you can use Pierogi
225 without the LIRC daemon running; in fact, there's no need to ever install it.
226 Second, Pierogi is built
227 around the concept of the "keyset"; all IR codes that can share the same
228 protocol without interfering with one another are combined into a single
229 family of related commands. In short, this reduces the quantity of data
230 available from LIRC config files to something much more manageable.</p>
232 <p>The third problem mentioned above is a bit harder to solve; I'm currently
233 mapping each LIRC string to a corresponding Pierogi key by hand. Naturally,
234 this process will be fraught with errors; I intend to keep updating Pierogi
235 as these errors are found and fixed.
238 <h2>Internal Design Notes</h2>
240 <p>If you're interested in the ugly details of the code, read on!</p>
242 <h3>What's up with the name of this app?</h3>
244 <p>Lately I've been naming my projects after tasty foods. In particular,
245 I've been working my way through the pasta-oriented dishes. (My previous
246 project, "Linguine", has gotten bogged down, so I moved on to this one...)</p>
250 <p>I'm a C++ kind of guy, it just makes sense to me to use a C++ kind of
251 interface. The Qt classes have everything you need to set up a decent UI,
252 and Qt Creator makes coding up a project for the N900 relatively
253 painless. Check it out for yourself at
254 <a href="http://qt.nokia.com/">the Qt webpage</a>.
257 <h3>The simplest device ever!</h3>
259 <p>If you ever wanted to learn how to work with device drivers on Linux, the
260 N900's infrared port is the device you want to start with. It's not
261 much more than a flashlight: You turn it on. You turn it off. You turn it on
262 again. You turn it off again. You really can't get much simpler than that.
263 Interaction with the "/dev/lirc0" device involves no more than handing
264 it an array of integers: the first integer being an amount of time to keep the
265 light lit (in microseconds), the second being an amount of time to leave it
266 switched off, the third on, the fourth off, and so on.</p>
268 <p>Well, ok, so it involves just a little bit more than that. You don't want
269 to leave the light stuck in the "on" state when you are finished, so the driver
270 demands that the last item in every array be an "on" amount -- after finishing
271 that timer, the IR will stay off until the next command arrives.
275 Also, in an attempt to weed out any confusing signals from natural IR sources
276 in the environment, consumer IR devices are "pulsed" at a particular
277 frequency. So you're really turning a strobelight on and off, not just a
278 flashlight. When the receiver sees that the light is coming from a strobelight
279 pulsing at the desired frequency, it can be assured that that signal came from
280 an actual remote control. The N900's device driver allows you to set the
281 frequency anywhere between 20000 Hz and 500000 Hz. 38000 Hz seems to the most
282 popular frequency used by modern remote controls, at least from what you find
283 in LIRC config files. Also, you can set how long each pulse needs to be held,
284 in terms of a percentage: 25% means turning the light on for just one quarter
285 of the pulse, 33% means leaving it on for one third, etc. This is called the
286 "duty cycle", and can be anywhere between 0 and 100 percent. LIRC's default
287 duty cycle is 50 percent.
290 <p>And that's about it. I've been using a
291 <a href="http://svn.jacekowski.org/host_mode/trunk/drivers/input/lirc/lirc_rx51.c">web page</a>
292 that lists the source code for the IR device driver. I'm not sure if there's
293 a better location out there for N900 source code, but this seems accurate
296 <h3>You did <i>what</i> to the LIRC daemon?</h3>
299 Well, ok, yeah, I've cannibalized the transmission code out of the LIRC
300 server and dumped it into my app. Sort of. I can't really keep my hands off
301 of code once I've seen it, so I've rewritten it in C++, reorganizing it in
302 an object-oriented manner along the way.</p>
305 Here's one way in which I disagree with the authors of LIRC: they've managed
306 to cram support for practically every protocol used by every remote control
307 ever made into a single codepath. So, there's a single "transmit" function,
308 sorting through a massive pile of flags, conditional statements, and some
309 really funky delayed-action buffering to make everything work. The simple act
310 of splitting the code into one routine for the RC5 (biphase) protocol and
311 another for the NEC (space-encoded) protocol makes it much easier to read, at
312 least to my eyes. (I haven't yet implemented the RC6 or other protocols.)
316 In any case, I owe the LIRC authors a deep debt of gratitude for their
317 efforts. If you are one such author, thank you. As Pierogi is more-or-less
318 derived directly from their work, it is also licensed under the same terms,
319 the GNU General Public License (GPL) version 2 or later.
324 <p>I've fallen in love with the Gentleface Mono Icon Set. Of the creative
325 commons icon sets available, theirs stands head and shoulders above the rest.
326 Find their work at <a href="http://www.gentleface.com">www.gentleface.com</a>.
330 <p>A set of links to some resources I've used while writing the code.</p>
333 <li>The center of the Linux infrared world, the
334 <a href="http://www.lirc.org/">Linux Infrared Remote Control</a> project.
336 <li>A <a href="http://en.wikipedia.org/wiki/Consumer_IR">Wiki page</a> with
337 general info on consumer IR
339 <li>A <a href="http://www.sbprojects.com/knowledge/ir/index.php">good introduction</a>
340 to the theory and practice behind consumer IR devices
342 <li>A <a href="http://en.wikipedia.org/wiki/RC-5">Wiki for the RC-5 protocol</a>
344 <li>Some <a href="http://www.sbprojects.com/knowledge/ir/nec.php">Info on the NEC protocol</a>
346 <li>Some <a href="http://www2.renesas.com/faq/en/mi_com/f_com_remo.html">More info on the NEC protocol</a>
348 <li>Link to (what appears to be) source code for the N900's
349 <a href="http://svn.jacekowski.org/host_mode/trunk/drivers/input/lirc/lirc_rx51.c">/dev/lirc0 device driver</a>.