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<!-- title Debugging Go Code with GDB -->
<p><i>
This applies to the 6g toolchain. Gccgo has native gdb support. Besides this
overview you might want to consult the
<a href="http://sourceware.org/gdb/current/onlinedocs/gdb/">GDB manual</a>.
</i></p>
<h2 id="Introduction">Introduction</h2>
<p>
When you compile and link your Go programs with the 6g/6l or 8g/8l toolchains
on Linux, Mac OSX or FreeBSD, the resulting binaries contain DWARFv3
debugging information that recent versions (>7.1) of the GDB debugger can
use to inspect a live process or a core dump.
</p>
<p>
Pass the <code>'-s'</code> flag to the linker to omit the debug information.
</p>
<h3 id="Common_Operations">Common Operations</h3>
<ul>
<li>
Show file and line number for code
and set breakpoints:
<pre>(gdb) <b>list</b>
(gdb) <b>list <i>line</i></b>
(gdb) <b>list <i>file.go</i>:<i>line</i></b>
(gdb) <b>break <i>line</i></b>
(gdb) <b>break <i>file.go</i>:<i>line</i></b>
(gdb) <b>disas</b></pre>
</li>
<li>
Unwind stack frames:
<pre>(gdb) <b>bt</b>
(gdb) <b>frame <i>n</i></b></pre>
</li>
<li>
Show the name, type and location on the stack frame of local variables,
arguments and return values:
<pre>(gdb) <b>info locals</b>
(gdb) <b>info args</b>
(gdb) <b>p variable</b>
(gdb) <b>whatis variable</b></pre>
</li>
<li>
Show the name, type and location of global variables:
<pre>(gdb) <b>info variables <i>regexp</i></b></pre>
</li>
</ul>
<h3 id="Go_Extensions">Go Extensions</h3>
<p>
A recent extension mechanism to GDB allows it to load extension scripts for a
given binary. The tool chain uses this to extend GDB with a handful of
commands to inspect internals of the runtime code (such as goroutines) and to
pretty print the built-in map, slice and channel types.
</p>
<ul>
<li>
Pretty printing a string, slice, map, channel or interface:
<pre>(gdb) <b>p <i>var</i></b></pre>
</li>
<li>
A $len() and $cap() function for strings, slices and maps:
<pre>(gdb) <b>p $len(<i>var</i>)</b></pre>
</li>
<li>
A function to cast interfaces to their dynamic types:
<pre>(gdb) <b>p $dtype(<i>var</i>)</b>
(gdb) <b>iface <i>var</i></b></pre>
<p class="detail"><b>Known issue:</b> GDB cant automatically find the dynamic
type of an interface value if its long name differs from its short name
(annoying when printing stacktraces, the pretty printer falls back to printing
the short type name and a pointer).</p>
</li>
<li>
Inspecting goroutines:
<pre>(gdb) <b>info goroutines</b>
(gdb) <b>goroutine <i>n</i> <i>cmd</i></b>
(gdb) <b>help goroutine</b></pre>
For example:
<pre>(gdb) <b>goroutine 12 bt</b></pre>
</li>
</ul>
<p>
If you'd like to see how this works, or want to extend it, take a look at <a
href="/src/pkg/runtime/runtime-gdb.py">src/pkg/runtime/runtime-gdb.py</a> in
the Go source distribution. It depends on some special magic types
(<code>hash&lt;T,U&gt;</code>) and variables (<code>runtime.m</code> and
<code>runtime.g</code>) that the linker
(<a href="/src/cmd/ld/dwarf.c">src/cmd/ld/dwarf.c</a>) ensures are described in
the DWARF code.
</ines
<p>
If you're interested in what the debugging information looks like, run
'<code>objdump -W 6.out</code>' and browse through the <code>.debug_*</code>
sections.
</p>
<h3 id="Known_Issues">Known Issues</h3>
<ol>
<li>String pretty printing only triggers for type string, not for types derived
from it.</li>
<li>Type information is missing for the C parts of the runtime library.</li>
<li>GDB does not understand Gos name qualifications and treats
<code>"fmt.Print"</code> as an unstructured literal with a <code>"."</code>
that needs to be quoted. It objects even more strongly to method names of
the form <code>pkg.(*MyType).Meth</code>.
<li>All global variables are lumped into package <code>"main"</code>.</li>
</ol>
<h2 id="Tutorial">Tutorial</h2>
<p>
In this tutorial we will inspect the binary of the
<a href="/pkg/regexp/">regexp</a> package's unit tests. To build the binary,
change to <code>$GOROOT/src/pkg/regexp</code> and run <code>gotest</code>.
This should produce an executable file named <code>6.out</code>.
</p>
<h3 id="Getting_Started">Getting Started</h3>
<p>
Launch GDB, debugging <code>6.out</code>:
</p>
<pre>
$ <b>gdb 6.out</b>
GNU gdb (GDB) 7.2-gg8
Copyright (C) 2010 Free Software Foundation, Inc.
License GPLv 3+: GNU GPL version 3 or later &lt;http://gnu.org/licenses/gpl.html&gt;
Type "show copying" and "show warranty" for licensing/warranty details.
This GDB was configured as "x86_64-linux".
Reading symbols from /home/user/go/src/pkg/regexp/6.out...
done.
Loading Go Runtime support.
(gdb)
</pre>
<p>
The message <code>"Loading Go Runtime support"</code> means that GDB loaded the
extension from <code>$GOROOT/src/pkg/runtime/runtime-gdb.py</code>.
</p>
<p>
To help GDB find the Go runtime sources and the accompanying support script,
pass your <code>$GOROOT</code> with the <code>'-d'</code> flag:
</p>
<pre>
$ <b>gdb 6.out -d $GOROOT</b>
</pre>
<p>
If for some reason GDB still can't find that directory or that script, you can load
it by hand by telling gdb (assuming you have the go sources in
<code>~/go/</code>):
<p>
<pre>
(gdb) <b>source ~/go/src/pkg/runtime/runtime-gdb.py</b>
Loading Go Runtime support.
</pre>
<h3 id="Inspecting_the_source">Inspecting the source</h3>
<p>
Use the <code>"l"</code> or <code>"list"</code> command to inspect source code.
</p>
<pre>
(gdb) <b>l</b>
</pre>
<p>
List a specific part of the source parametrizing <code>"list"</code> with a
function name (it must be qualified with its package name).
</p>
<pre>
(gdb) <b>l main.main</b>
</pre>
<p>
List a specific file and line number:
</p>
<pre>
(gdb) <b>l regexp.go:1</b>
(gdb) <i># Hit enter to repeat last command. Here, this lists next 10 lines.</i>
</pre>
<h3 id="Naming">Naming</h3>
<p>
Variable and function names must be qualified with the name of the packages
they belong to. The <code>Compile</code> function from the <code>regexp</code>
package is known to GDB as <code>'regexp.Compile'</code>.
</p>
<p>
Methods must be qualified with the name of their receiver types. For example,
the <code>*Regexp</code> types <code>doParse</code> method is known as
<code>'regexp.*Regexp.doParse'</code>. (Note that the second dot is a "middot,"
an artifact of Gos internal representation of methods.)
</p>
<p>
Variables that shadow other variables are magically suffixed with a number in the debug info.
Variables referenced by closures will appear as pointers magically prefixed with '&amp'.
</p>
<h3 id="Setting_breakpoints">Setting breakpoints</h3>
<p>
Set a breakpoint at the <code>TestFind</code> function:
</p>
<pre>
(gdb) <b>b 'regexp.TestFind'</b>
Breakpoint 1 at 0x424908: file /home/user/go/src/pkg/regexp/find_test.go, line 148.
</pre>
<p>
Run the program:
</p>
<pre>
(gdb) <b>run</b>
Starting program: /home/lvd/g/src/pkg/regexp/6.out
Breakpoint 1, regexp.TestFind (t=0xf8404a89c0) at /home/user/go/src/pkg/regexp/find_test.go:148
148 func TestFind(t *testing.T) {
</pre>
<p>
Execution has paused at the breakpoint.
See which goroutines are running, and what they're doing:
</p>
<pre>
(gdb) <b>info goroutines</b>
1 waiting runtime.gosched
* 13 running runtime.goexit
</pre>
<p>
the one marked with the <code>*</code> is the current goroutine.
</p>
<h3 id="Inspecting_the_stack">Inspecting the stack</h3>
<p>
Look at the stack trace for where weve paused the program:
</p>
<pre>
(gdb) <b>bt</b> <i># backtrace</i>
#0 regexp.TestFind (t=0xf8404a89c0) at /home/user/go/src/pkg/regexp/find_test.go:148
#1 0x000000000042f60b in testing.tRunner (t=0xf8404a89c0, test=0x573720) at /home/user/go/src/pkg/testing/testing.go:156
#2 0x000000000040df64 in runtime.initdone () at /home/user/go/src/pkg/runtime/proc.c:242
#3 0x000000f8404a89c0 in ?? ()
#4 0x0000000000573720 in ?? ()
#5 0x0000000000000000 in ?? ()
</pre>
<p>
The other goroutine, number 1, is stuck in <code>runtime.gosched</code>, blocked on a channel receive:
</p>
<pre>
(gdb) <b>goroutine 1 bt</b>
#0 0x000000000040facb in runtime.gosched () at /home/lvd/g/src/pkg/runtime/proc.c:873
#1 0x00000000004031c9 in runtime.chanrecv (c=void, ep=void, selected=void, received=void)
at /home/lvd/g/src/pkg/runtime/chan.c:342
#2 0x0000000000403299 in runtime.chanrecv1 (t=void, c=void) at/home/lvd/g/src/pkg/runtime/chan.c:423
#3 0x000000000043075b in testing.RunTests (matchString={void (struct string, struct string, bool *, os.Error *)} 0x7ffff7f9ef60, tests= []testing.InternalTest = {...}) at /home/lvd/g/src/pkg/testing/testing.go:201
#4 0x00000000004302b1 in testing.Main (matchString={void (struct string, struct string, bool *, os.Error *)} 0x7ffff7f9ef80, tests= []testing.InternalTest = {...}, benchmarks= []testing.InternalBenchmark = {...})
at /home/lvd/g/src/pkg/testing/testing.go:168
#5 0x0000000000400dc1 in main.main () at /home/lvd/g/src/pkg/regexp/_testmain.go:98
#6 0x00000000004022e7 in runtime.mainstart () at /home/lvd/g/src/pkg/runtime/amd64/asm.s:78
#7 0x000000000040ea6f in runtime.initdone () at /home/lvd/g/src/pkg/runtime/proc.c:243
#8 0x0000000000000000 in ?? ()
</pre>
<p>
The stack frame shows were currently executing the <code>regexp.TestFind</code> function, as expected.
</p>
<pre>
(gdb) <b>info frame</b>
Stack level 0, frame at 0x7ffff7f9ff88:
rip = 0x425530 in regexp.TestFind (/home/lvd/g/src/pkg/regexp/find_test.go:148);
saved rip 0x430233
called by frame at 0x7ffff7f9ffa8
source language minimal.
Arglist at 0x7ffff7f9ff78, args: t=0xf840688b60
Locals at 0x7ffff7f9ff78, Previous frame's sp is 0x7ffff7f9ff88
Saved registers:
rip at 0x7ffff7f9ff80
</pre>
<p>
The command <code>info locals</code> lists all variables local to the function and their values, but is a bit
dangerous to use, since it will also try to print uninitialized variables. Uninitialized slices may cause gdb to try
to print arbitrary large arrays.
</p>
<p>
The functions arguments:
</p>
<pre>
(gdb) <b>info args</b>
t = 0xf840688b60
</pre>
<p>
When printing the argument, notice that its a pointer to a
<code>Regexp</code> value. Note that GDB has incorrectly put the <code>*</code>
on the right-hand side of the type name and made up a 'struct' keyword, in traditional C style.
</p>
<pre>
(gdb) <b>p re</b>
(gdb) p t
$1 = (struct testing.T *) 0xf840688b60
(gdb) p t
$1 = (struct testing.T *) 0xf840688b60
(gdb) p *t
$2 = {errors = "", failed = false, ch = 0xf8406f5690}
(gdb) p *t->ch
$3 = struct hchan<*testing.T>
</pre>
<p>
That <code>struct hchan<*testing.T></code> is the runtime-internal represntation of a channel. It is currently empty, or gdb would have pretty-printed it's contents.
</p>
<p>
Stepping forward:
</p>
<pre>
(gdb) <b>n</b> <i># execute next line</i>
149 for _, test := range findTests {
(gdb) <i># enter is repeat</i>
150 re := MustCompile(test.pat)
(gdb) <b>p test.pat</b>
$4 = ""
(gdb) <b>p re</b>
$5 = (struct regexp.Regexp *) 0xf84068d070
(gdb) <b>p *re</b>
$6 = {expr = "", prog = 0xf840688b80, prefix = "", prefixBytes = []uint8, prefixComplete = true,
prefixRune = 0, cond = 0 '\000', numSubexp = 0, longest = false, mu = {state = 0, sema = 0},
machine = []*regexp.machine}
(gdb) <b>p *re->prog</b>
$7 = {Inst = []regexp/syntax.Inst = {{Op = 5 '\005', Out = 0, Arg = 0, Rune = []int}, {Op =
6 '\006', Out = 2, Arg = 0, Rune = []int}, {Op = 4 '\004', Out = 0, Arg = 0, Rune = []int}},
Start = 1, NumCap = 2}
</pre>
<p>
We can step into the <code>String</code>function call with <code>"s"</code>:
</p>
<pre>
(gdb) <b>s</b>
regexp.(*Regexp).String (re=0xf84068d070, noname=void) at /home/lvd/g/src/pkg/regexp/regexp.go:97
97 func (re *Regexp) String() string {
</pre>
<p>
Get a stack trace to see where we are:
</p>
<pre>
(gdb) <b>bt</b>
(gdb) bt
#0 regexp.(*Regexp).String (re=0xf84068d070, noname=void)
at /home/lvd/g/src/pkg/regexp/regexp.go:97
#1 0x0000000000425615 in regexp.TestFind (t=0xf840688b60)
at /home/lvd/g/src/pkg/regexp/find_test.go:151
#2 0x0000000000430233 in testing.tRunner (t=0xf840688b60, test=0x5747b8)
at /home/lvd/g/src/pkg/testing/testing.go:156
#3 0x000000000040ea6f in runtime.initdone () at /home/lvd/g/src/pkg/runtime/proc.c:243
....
</pre>
<p>
Look at the source code:
</p>
<pre>
(gdb) <b>l</b>
92 mu sync.Mutex
93 machine []*machine
94 }
95
96 // String returns the source text used to compile the regular expression.
97 func (re *Regexp) String() string {
98 return re.expr
99 }
100
101 // Compile parses a regular expression and returns, if successful,
</pre>
<h3 id="Pretty_Printing">Pretty Printing</h3>
<p>
GDB's pretty printing mechanism is triggered by regexp matches on type names. An example for slices:
</p>
<pre>
(gdb) <b>p utf</b>
$22 = []uint8 = {0 '\000', 0 '\000', 0 '\000', 0 '\000'}
</pre>
<p>
Since slices, arrays and strings are not C pointers, GDB can't interpret the subscripting operation for you, but
you can look inside the runtime representation to do that (tab completion helps here):
</p>
<pre>
(gdb) <b>p slc</b>
$11 = []int = {0, 0}
(gdb) <b>p slc-&gt</b><i>&ltTAB&gt</i>
array slc len
(gdb) <b>p slc->array</b>
$12 = (int *) 0xf84057af00
(gdb) <b>p slc->array[1]</b>
$13 = 0</pre>
<p>
The extension functions $len and $cap work on strings, arrays and slices:
</p>
<pre>
(gdb) <b>p $len(utf)</b>
$23 = 4
(gdb) <b>p $cap(utf)</b>
$24 = 4
</pre>
<p>
Channels and maps are 'reference' types, which gdb shows as pointers to C++-like types <code>hash&ltint,string&gt*</code>. Dereferencing will trigger prettyprinting
</p>
<p>
Interfaces are represented in the runtime as a pointer to a type descriptor and a pointer to a value. The Go GDB runtime extension decodes this and automatically triggers pretty printing for the runtime type. The extension function <code>$dtype</code> decodes the dynamic type for you (examples are taken from a breakpoint at <code>regexp.go</code> line 293.)
</p>
<pre>
(gdb) <b>p i</b>
$4 = {str = "cbb"}
(gdb) <b>whatis i</b>
type = regexp.input
(gdb) <b>p $dtype(i)</b>
$26 = (struct regexp.inputBytes *) 0xf8400b4930
(gdb) <b>iface i</b>
regexp.input: struct regexp.inputBytes *
</pre>