Initial version by Dario Andres (2010-03). Corrections by Lydia Pintscher
All this guide is based on my own experience (approximately 2 years) on the KDE bug tracker.
It may not work for you ;)
If you are not familiar with the Bugzilla (KDE bug tracker system) interface, you may find this guide useful: Quick Introduction to Bugzilla
Manpower is always needed in a bug tracker, but as any action taken on it may be potentially destructive to other people's work; or it may end up messing things up (and consuming the developers' or other triager's time) the tracker requires special permissions to perform changes in bug reports.
If you want to work in the bug tracker you need to prove that you know what you are doing.
Initially you will ask for support on #kde-bugs (on IRC) and add comments in the bug report (so other people will see and check them, perform the needed actions, and evaluate your work)
You could use different techniques or approaches to triage the reports according to your current mood or the amount of work you want to do for example.
Note: The two following techniques are complementary.
In this technique you check all the bug reports (of all the products) which were filed today (or some days ago).
You can focus on crash, normal or wish reports individually (recommended) or all of them together.
Not so Good:
This technique could be used every week (or every day)
Choose a product (application or library). Then choose a period of time like 1 month or 1 or 2 years (or "from the beginning of the current year"). You can also choose which kind of reports you want to handle.
This technique is useful to audit old bugs or perform a deep clean (in case that the bugs weren't triaged on a daily basis previously).
Not so Good:
You can also filter out results (and be even more focused) if you select a custom component inside the product (a subsection of the application).
This technique could be used two times a month.
Now that you have a list of bug reports, pick one !
Workflow Graphic (ToDo)
There are several things that must be checked and "fixed" to make an initial bug report an interesting and useful peace of information for the developers to check.
|if at any point you don't really know how to continue, because you don't understand the issue properly, always ask to the developers or related contributors|
As KDE has too much users, we get a lot of reports about bugs which are already reported (the so named "duplicates"). Before putting any effort in the current report we should check for the main report.
There are a lot of ways of identifying duplicate reports depending of the kind of bug.
|due to the heavy usage of libraries in the KDE software, a bug reported for an application may be being tracked at a library product (example, a bug in Plasma Desktop may be a bug in kdelibs, and therefore being tracked in the "kdelibs" product)|
(Link ToDo) List of related KDE technologies
|when using more than one word in the "Comments" field you need to select the option "contains all of the words/strings"|
|it is sometimes difficult to choose the proper ones, as the way of describing a scene varies from person to person (but we have time)|
Perform a full search over the same product (read general note), initially on the "general" component, putting the "ClassName::FunctionName" pairs that identify the crash in the Comments field of the form (if you put more than one pair, you need to select the option "contains all of the words/strings")
|you may found related reports that are already marked as duplicate of a third report. Always try to use this third report as the "main" one. However, in some cases, the "main" reports refers to a root issue, and some of its duplicates may refer to sub-issues. In those cases try to check which refers to the issue you are looking at.|
A backtrace is a piece of information that describes what was the application doing when it encountered the error and had to close itself. It is a "function stack" leading to the "crashing point".
In KDE applications, the backtraces are generated by the Crash Handler Dialog ("DrKonqi"). They can also be generated by the general debugger "GDB", but that involves more steps.
The backtrace is read from top to bottom
The first line shows *where* the crash occurred (because of an illegal instruction, invalid pointer, memory problem or other issues)
The other lines show the "way to the first function"
Application: Plasma Workspace (kdeinit4), signal: Bus error [KCrash Handler] #5 0x00007fb563bb8f02 in KPixmapCache::Private::mmapFile (this=0x92df60, filename=..., info=0x92dfb0, newsize=33656832) at /usr/src/debug/kdelibs- 4.4.1/kdeui/util/kpixmapcache.cpp:491 #6 0x00007fb563be3c34 in KPixmapCache::Private::mmapFiles (this=0x92df60) at /usr/src/debug/kdelibs-4.4.1/kdeui/util/kpixmapcache.cpp:419 #7 0x00007fb563be38e3 in KPixmapCache::Private::init (this=0x92df60) at /usr/src/debug/kdelibs-4.4.1/kdeui/util/kpixmapcache.cpp:1061 #8 0x00007fb563be576d in KPixmapCache::discard (this=0x1203ca0) at /usr/src /debug/kdelibs-4.4.1/kdeui/util/kpixmapcache.cpp:1279 #9 0x00007fb563be5e48 in KPixmapCache::deleteCache (name=...) at /usr/src /debug/kdelibs-4.4.1/kdeui/util/kpixmapcache.cpp:1255 #10 0x00007fb55afdc97d in Plasma::ThemePrivate::discardCache (this=0x7a7d30) at /usr/src/debug/kdelibs-4.4.1/plasma/theme.cpp:224 #11 0x00007fb55afe009b in Plasma::ThemePrivate::setThemeName (this=0x7a7d30, tempThemeName=<value optimized out>, writeSettings=<value optimized out>) at /usr/src/debug/kdelibs-4.4.1/plasma/theme.cpp:380 #12 0x00007fb55afe19fb in Plasma::Theme::settingsChanged (this=0x70af20) at /usr/src/debug/kdelibs-4.4.1/plasma/theme.cpp:341 #13 0x00007fb55afe2918 in Plasma::ThemePrivate::settingsFileChanged (this=0x7a7d30, file=<value optimized out>) at /usr/src/debug/kdelibs- 4.4.1/plasma/theme.cpp:335 ...
#NumberInTheStack MemoryAddress in Namespace::Class:FunctionMember (argumentThis=pointerValue, argument1=value, argument2=value, ...) at path/to /source/code/file.cpp:linenumber
#13 0xb759d5d7 in Nepomuk::ResourceData::determineUri (this=0x91ec5f8) at /home/kde-devel/kde/src/KDE/kdelibs/nepomuk/core/resourcedata.cpp:671
The first thing you need to do is to locate where it crashed, identifying the "[KCrash Handler]" mark (only in backtraces fetched using DrKonqi)
If the application only had one thread, then it is at the top of the unique thread; otherwise you may need to look at all the thread (the KCrash mark may not be always in the Thread number 1)
Once that you located the "crashing thread start", pickup the first two or three "ClassName::Functions" pairs from top to bottom (some functions should be ignored, read below)
This pairs will be used as "keywords" for the duplicate search
|this is only a general rule. There are some special cases when the first three function at the top may be the same but the crash may be different (specially on complex application/libraries as Konqueror)|
f the first backtrace functions aren't available (they are not there, or there are "??" )then we can't proceed without requiring more information (a more complete backtrace) [Ask for more information Todo Link]
Some functions or calls are common to a lot of applications using the same core libraries (like the Qt library, glib, glibc, or many others). This kind of functions should not be used for search as they are not representative of the crash itself and it may return lots of results.
Classes and functions to ignore in backtrace:
There are special crashes related to the X11 graphics server. To identify this crashes you can search for the "XIOError" function name (often on Thread 1). The "[KCrash handler]" mark appears in a secondary thread.
The important things to identify those crashes is recognizing the functions *below* the XIOError call (this is, which functions caused the X11 error).
In most of this crashes the functions below "[KCrash handler]" are not important (but they could still be useful to search for duplicates).