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364 lines
22 KiB
HTML
Executable File
364 lines
22 KiB
HTML
Executable File
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
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<html xmlns="http://www.w3.org/1999/xhtml">
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<head>
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<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1" />
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<link href="style.css" rel="stylesheet" type="text/css" />
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<title>Symbolicating with LLDB</title>
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</head>
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<body>
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<div class="www_title">
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The <strong>LLDB</strong> Debugger
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</div>
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<div id="container">
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<div id="content">
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<!--#include virtual="sidebar.incl"-->
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<div id="middle">
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<div class="post">
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<h1 class="postheader">Manual Symbolication with LLDB</h1>
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<div class="postcontent">
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<p>LLDB is separated into a shared library that contains the core of the debugger,
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and a driver that implements debugging and a command interpreter. LLDB can be
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used to symbolicate your crash logs and can often provide more information than
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other symbolication programs:
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</p>
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<ul>
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<li>Inlined functions</li>
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<li>Variables that are in scope for an address, along with their locations</li>
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</ul>
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<p>The simplest form of symbolication is to load an executable:</p>
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<code><pre><tt><b>(lldb)</b> target create --no-dependents --arch x86_64 /tmp/a.out
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</tt></pre></code>
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<p>We use the "--no-dependents" flag with the "target create" command so
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that we don't load all of the dependent shared libraries from the current
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system. When we symbolicate, we are often symbolicating a binary that
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was running on another system, and even though the main executable might
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reference shared libraries in "/usr/lib", we often don't want to load
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the versions on the current computer.</p>
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<p>Using the "image list" command will show us a list of all shared libraries
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associated with the current target. As expected, we currently only have a single
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binary:
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</p>
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<code><pre><tt><b>(lldb)</b> image list
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[ 0] 73431214-6B76-3489-9557-5075F03E36B4 0x0000000100000000 /tmp/a.out
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/tmp/a.out.dSYM/Contents/Resources/DWARF/a.out
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</tt></pre></code>
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<p>Now we can look up an address:</p>
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<code><pre><tt><b>(lldb)</b> image lookup --address 0x100000aa3
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Address: a.out[0x0000000100000aa3] (a.out.__TEXT.__text + 131)
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Summary: a.out`main + 67 at main.c:13
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</tt></pre></code>
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<p>Since we haven't specified a slide or any load addresses for individual sections
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in the binary, the address that we use here is a <b>file</b> address. A <b>file</b>
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address refers to a virtual address as defined by each object file.
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</p>
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<p>If we didn't use the "--no-dependents" option with "target create", we would
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have loaded all dependent shared libraries:<p>
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<code><pre><tt><b>(lldb)</b> image list
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[ 0] 73431214-6B76-3489-9557-5075F03E36B4 0x0000000100000000 /tmp/a.out
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/tmp/a.out.dSYM/Contents/Resources/DWARF/a.out
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[ 1] 8CBCF9B9-EBB7-365E-A3FF-2F3850763C6B 0x0000000000000000 /usr/lib/system/libsystem_c.dylib
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[ 2] 62AA0B84-188A-348B-8F9E-3E2DB08DB93C 0x0000000000000000 /usr/lib/system/libsystem_dnssd.dylib
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[ 3] C0535565-35D1-31A7-A744-63D9F10F12A4 0x0000000000000000 /usr/lib/system/libsystem_kernel.dylib
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...
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</tt></pre></code>
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<p>Now if we do a lookup using a <b>file</b> address, this can result in multiple
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matches since most shared libraries have a virtual address space that starts at zero:</p>
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<code><pre><tt><b>(lldb)</b> image lookup -a 0x1000
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Address: a.out[0x0000000000001000] (a.out.__PAGEZERO + 4096)
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Address: libsystem_c.dylib[0x0000000000001000] (libsystem_c.dylib.__TEXT.__text + 928)
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Summary: libsystem_c.dylib`mcount + 9
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Address: libsystem_dnssd.dylib[0x0000000000001000] (libsystem_dnssd.dylib.__TEXT.__text + 456)
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Summary: libsystem_dnssd.dylib`ConvertHeaderBytes + 38
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Address: libsystem_kernel.dylib[0x0000000000001000] (libsystem_kernel.dylib.__TEXT.__text + 1116)
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Summary: libsystem_kernel.dylib`clock_get_time + 102
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...
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</tt></pre></code>
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<p>To avoid getting multiple file address matches, you can specify the
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<b>name</b> of the shared library to limit the search:</p>
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<code><pre><tt><b>(lldb)</b> image lookup -a 0x1000 <b>a.out</b>
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Address: a.out[0x0000000000001000] (a.out.__PAGEZERO + 4096)
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</tt></pre></code>
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</div>
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<div class="postfooter"></div>
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</div>
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<div class="post">
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<h1 class="postheader">Defining Load Addresses for Sections</h1>
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<div class="postcontent">
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<p>When symbolicating your crash logs, it can be tedious if you always have to
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adjust your crashlog-addresses into file addresses. To avoid having to do any
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conversion, you can set the load address for the sections of the modules in your target.
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Once you set any section load address, lookups will switch to using
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<b>load</b> addresses. You can slide all sections in the executable by the same amount,
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or set the <b>load</b> address for individual sections. The
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"target modules load --slide" command allows us to set the <b>load</b> address for
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all sections.
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<p>Below is an example of sliding all sections in <b>a.out</b> by adding 0x123000 to each section's <b>file</b> address:</p>
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<code><pre><tt><b>(lldb)</b> target create --no-dependents --arch x86_64 /tmp/a.out
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<b>(lldb)</b> target modules load --file a.out --slide 0x123000
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</tt></pre></code>
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<p>It is often much easier to specify the actual load location of each section by name.
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Crash logs on Mac OS X have a <b>Binary Images</b> section that specifies
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that address of the __TEXT segment for each binary. Specifying a slide requires
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requires that you first find the original (<b>file</b>) address for the __TEXT
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segment, and subtract the two values.
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If you specify the
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address of the __TEXT segment with "target modules load <i>section</i> <i>address</i>", you don't need to do any calculations. To specify
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the load addresses of sections we can specify one or more section name + address pairs
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in the "target modules load" command:</p>
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<code><pre><tt><b>(lldb)</b> target create --no-dependents --arch x86_64 /tmp/a.out
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<b>(lldb)</b> target modules load --file a.out __TEXT 0x100123000
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</tt></pre></code>
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<p>We specified that the <b>__TEXT</b> section is loaded at 0x100123000.
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Now that we have defined where sections have been loaded in our target,
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any lookups we do will now use <b>load</b> addresses so we don't have to
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do any math on the addresses in the crashlog backtraces, we can just use the
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raw addresses:</p>
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<code><pre><tt><b>(lldb)</b> image lookup --address 0x100123aa3
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Address: a.out[0x0000000100000aa3] (a.out.__TEXT.__text + 131)
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Summary: a.out`main + 67 at main.c:13
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</tt></pre></code>
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</div>
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<div class="postfooter"></div>
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</div>
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<div class="post">
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<h1 class="postheader">Loading Multiple Executables</h1>
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<div class="postcontent">
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<p>You often have more than one executable involved when you need to symbolicate
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a crash log. When this happens, you create a target for the main executable
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or one of the shared libraries, then add more modules to the target using the
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"target modules add" command.<p>
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<p>Lets say we have a Darwin crash log that contains the following images:
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<code><pre><tt>Binary Images:
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<font color=blue>0x100000000</font> - 0x100000ff7 <A866975B-CA1E-3649-98D0-6C5FAA444ECF> /tmp/a.out
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<font color=green>0x7fff83f32000</font> - 0x7fff83ffefe7 <8CBCF9B9-EBB7-365E-A3FF-2F3850763C6B> /usr/lib/system/libsystem_c.dylib
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<font color=red>0x7fff883db000</font> - 0x7fff883e3ff7 <62AA0B84-188A-348B-8F9E-3E2DB08DB93C> /usr/lib/system/libsystem_dnssd.dylib
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<font color=purple>0x7fff8c0dc000</font> - 0x7fff8c0f7ff7 <C0535565-35D1-31A7-A744-63D9F10F12A4> /usr/lib/system/libsystem_kernel.dylib
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</tt></pre></code>
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<p>First we create the target using the main executable and then add any extra shared libraries we want:</p>
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<code><pre><tt><b>(lldb)</b> target create --no-dependents --arch x86_64 /tmp/a.out
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<b>(lldb)</b> target modules add /usr/lib/system/libsystem_c.dylib
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<b>(lldb)</b> target modules add /usr/lib/system/libsystem_dnssd.dylib
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<b>(lldb)</b> target modules add /usr/lib/system/libsystem_kernel.dylib
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</tt></pre></code>
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<p>If you have debug symbols in standalone files, such as dSYM files on Mac OS X, you can specify their paths using the <b>--symfile</b> option for the "target create" (recent LLDB releases only) and "target modules add" commands:</p>
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<code><pre><tt><b>(lldb)</b> target create --no-dependents --arch x86_64 /tmp/a.out <b>--symfile /tmp/a.out.dSYM</b>
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<b>(lldb)</b> target modules add /usr/lib/system/libsystem_c.dylib <b>--symfile /build/server/a/libsystem_c.dylib.dSYM</b>
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<b>(lldb)</b> target modules add /usr/lib/system/libsystem_dnssd.dylib <b>--symfile /build/server/b/libsystem_dnssd.dylib.dSYM</b>
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<b>(lldb)</b> target modules add /usr/lib/system/libsystem_kernel.dylib <b>--symfile /build/server/c/libsystem_kernel.dylib.dSYM</b>
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</tt></pre></code>
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<p>Then we set the load addresses for each __TEXT section (note the colors of the load addresses above and below) using the first address from the Binary Images section for each image:</p>
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<code><pre><tt><b>(lldb)</b> target modules load --file a.out <font color=blue>0x100000000</font>
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<b>(lldb)</b> target modules load --file libsystem_c.dylib <font color=green>0x7fff83f32000</font>
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<b>(lldb)</b> target modules load --file libsystem_dnssd.dylib <font color=red>0x7fff883db000</font>
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<b>(lldb)</b> target modules load --file libsystem_kernel.dylib <font color=purple>0x7fff8c0dc000</font>
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</tt></pre></code>
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<p>Now any stack backtraces that haven't been symbolicated can be symbolicated using "image lookup"
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with the raw backtrace addresses.</p>
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<p>Given the following raw backtrace:</p>
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<code><pre><tt>Thread 0 Crashed:: Dispatch queue: com.apple.main-thread
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0 libsystem_kernel.dylib 0x00007fff8a1e6d46 __kill + 10
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1 libsystem_c.dylib 0x00007fff84597df0 abort + 177
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2 libsystem_c.dylib 0x00007fff84598e2a __assert_rtn + 146
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3 a.out 0x0000000100000f46 main + 70
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4 libdyld.dylib 0x00007fff8c4197e1 start + 1
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</tt></pre></code>
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<p>We can now symbolicate the <b>load</b> addresses:<p>
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<code><pre><tt><b>(lldb)</b> image lookup -a 0x00007fff8a1e6d46
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<b>(lldb)</b> image lookup -a 0x00007fff84597df0
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<b>(lldb)</b> image lookup -a 0x00007fff84598e2a
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<b>(lldb)</b> image lookup -a 0x0000000100000f46
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</tt></pre></code>
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</div>
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<div class="postfooter"></div>
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</div>
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<div class="post">
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<h1 class="postheader">Getting Variable Information</h1>
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<div class="postcontent">
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<p>If you add the --verbose flag to the "image lookup --address" command,
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you can get verbose information which can often include the locations
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of some of your local variables:
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<code><pre><tt>><b>(lldb)</b> image lookup --address 0x100123aa3 --verbose
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Address: a.out[0x0000000100000aa3] (a.out.__TEXT.__text + 110)
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Summary: a.out`main + 50 at main.c:13
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Module: file = "/tmp/a.out", arch = "x86_64"
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CompileUnit: id = {0x00000000}, file = "/tmp/main.c", language = "ISO C:1999"
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Function: id = {0x0000004f}, name = "main", range = [0x0000000100000bc0-0x0000000100000dc9)
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FuncType: id = {0x0000004f}, decl = main.c:9, clang_type = "int (int, const char **, const char **, const char **)"
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Blocks: id = {0x0000004f}, range = [0x100000bc0-0x100000dc9)
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id = {0x000000ae}, range = [0x100000bf2-0x100000dc4)
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LineEntry: [0x0000000100000bf2-0x0000000100000bfa): /tmp/main.c:13:23
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Symbol: id = {0x00000004}, range = [0x0000000100000bc0-0x0000000100000dc9), name="main"
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Variable: id = {0x000000bf}, name = "path", type= "char [1024]", location = DW_OP_fbreg(-1072), decl = main.c:28
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Variable: id = {0x00000072}, name = "argc", type= "int", <b>location = r13</b>, decl = main.c:8
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Variable: id = {0x00000081}, name = "argv", type= "const char **", <b>location = r12</b>, decl = main.c:8
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Variable: id = {0x00000090}, name = "envp", type= "const char **", <b>location = r15</b>, decl = main.c:8
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Variable: id = {0x0000009f}, name = "aapl", type= "const char **", <b>location = rbx</b>, decl = main.c:8
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</tt></pre></code>
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<p>The interesting part is the variables that are listed. The variables are
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the parameters and local variables that are in scope for the address that
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was specified. These variable entries have locations which are shown in bold
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above. Crash logs often have register information for the first frame in each
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stack, and being able to reconstruct one or more local variables can often
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help you decipher more information from a crash log than you normally would be
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able to. Note that this is really only useful for the first frame, and only if
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your crash logs have register information for your threads.
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</div>
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<div class="postfooter"></div>
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</div>
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<div class="post">
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<h1 class="postheader">Using Python API to Symbolicate</h1>
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<div class="postcontent">
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<p>All of the commands above can be done through the python script bridge. The code below
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will recreate the target and add the three shared libraries that we added in the darwin
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crash log example above:
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<code><pre><tt>triple = "x86_64-apple-macosx"
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platform_name = None
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add_dependents = False
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target = lldb.debugger.CreateTarget("/tmp/a.out", triple, platform_name, add_dependents, lldb.SBError())
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if target:
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<font color=green># Get the executable module</font>
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module = target.GetModuleAtIndex(0)
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target.SetSectionLoadAddress(module.FindSection("__TEXT"), 0x100000000)
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module = target.AddModule ("/usr/lib/system/libsystem_c.dylib", triple, None, "/build/server/a/libsystem_c.dylib.dSYM")
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target.SetSectionLoadAddress(module.FindSection("__TEXT"), 0x7fff83f32000)
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module = target.AddModule ("/usr/lib/system/libsystem_dnssd.dylib", triple, None, "/build/server/b/libsystem_dnssd.dylib.dSYM")
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target.SetSectionLoadAddress(module.FindSection("__TEXT"), 0x7fff883db000)
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module = target.AddModule ("/usr/lib/system/libsystem_kernel.dylib", triple, None, "/build/server/c/libsystem_kernel.dylib.dSYM")
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target.SetSectionLoadAddress(module.FindSection("__TEXT"), 0x7fff8c0dc000)
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load_addr = 0x00007fff8a1e6d46
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<font color=green># so_addr is a section offset address, or a lldb.SBAddress object</font>
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so_addr = target.ResolveLoadAddress (load_addr)
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<font color=green># Get a symbol context for the section offset address which includes
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# a module, compile unit, function, block, line entry, and symbol</font>
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sym_ctx = so_addr.GetSymbolContext (lldb.eSymbolContextEverything)
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print sym_ctx
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</tt></pre></code>
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</div>
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<div class="postfooter"></div>
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</div>
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<div class="post">
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<h1 class="postheader">Use Builtin Python module to Symbolicate</h1>
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<div class="postcontent">
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<p>LLDB includes a module in the <b>lldb</b> package named <b>lldb.utils.symbolication</b>.
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This module contains a lot of symbolication functions that simplify the symbolication
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process by allowing you to create objects that represent symbolication class objects such as:
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<ul>
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<li>lldb.utils.symbolication.Address</li>
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<li>lldb.utils.symbolication.Section</li>
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<li>lldb.utils.symbolication.Image</li>
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<li>lldb.utils.symbolication.Symbolicator</li>
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</ul>
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<h2>lldb.utils.symbolication.Address</h2>
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<p>This class represents an address that will be symbolicated. It will cache any information
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that has been looked up: module, compile unit, function, block, line entry, symbol.
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It does this by having a lldb.SBSymbolContext as a member variable.
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</p>
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<h2>lldb.utils.symbolication.Section</h2>
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<p>This class represents a section that might get loaded in a <b>lldb.utils.symbolication.Image</b>.
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It has helper functions that allow you to set it from text that might have been extracted from
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a crash log file.
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</p>
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<h2>lldb.utils.symbolication.Image</h2>
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<p>This class represents a module that might get loaded into the target we use for symbolication.
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This class contains the executable path, optional symbol file path, the triple, and the list of sections that will need to be loaded
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if we choose the ask the target to load this image. Many of these objects will never be loaded
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into the target unless they are needed by symbolication. You often have a crash log that has
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100 to 200 different shared libraries loaded, but your crash log stack backtraces only use a few
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of these shared libraries. Only the images that contain stack backtrace addresses need to be loaded
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in the target in order to symbolicate.
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</p>
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<p>Subclasses of this class will want to override the <b>locate_module_and_debug_symbols</b> method:
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<code><pre><tt>class CustomImage(lldb.utils.symbolication.Image):
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def locate_module_and_debug_symbols (self):
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<font color=green># Locate the module and symbol given the info found in the crash log</font>
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</tt></pre></code>
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<p>Overriding this function allows clients to find the correct executable module and symbol files as they might reside on a build server.<p>
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<h2>lldb.utils.symbolication.Symbolicator</h2>
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<p>This class coordinates the symbolication process by loading only the <b>lldb.utils.symbolication.Image</b>
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instances that need to be loaded in order to symbolicate an supplied address.
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</p>
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<h2>lldb.macosx.crashlog</h2>
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<p><b>lldb.macosx.crashlog</b> is a package that is distributed on Mac OS X builds that subclasses the above classes.
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This module parses the information in the Darwin crash logs and creates symbolication objects that
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represent the images, the sections and the thread frames for the backtraces. It then uses the functions
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in the lldb.utils.symbolication to symbolicate the crash logs.</p>
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<p>
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This module installs a new "crashlog" command into the lldb command interpreter so that you can use
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it to parse and symbolicate Mac OS X crash logs:</p>
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<code><pre><tt><b>(lldb)</b> command script import lldb.macosx.crashlog
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"crashlog" and "save_crashlog" command installed, use the "--help" option for detailed help
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<b>(lldb)</b> crashlog /tmp/crash.log
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...
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</tt></pre></code>
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<p>The command that is installed has built in help that shows the
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options that can be used when symbolicating:
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<code><pre><tt><b>(lldb)</b> crashlog --help
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Usage: crashlog [options] <FILE> [FILE ...]
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Symbolicate one or more darwin crash log files to provide source file and line
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information, inlined stack frames back to the concrete functions, and
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disassemble the location of the crash for the first frame of the crashed
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thread. If this script is imported into the LLDB command interpreter, a
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"crashlog" command will be added to the interpreter for use at the LLDB
|
|
command line. After a crash log has been parsed and symbolicated, a target
|
|
will have been created that has all of the shared libraries loaded at the load
|
|
addresses found in the crash log file. This allows you to explore the program
|
|
as if it were stopped at the locations described in the crash log and
|
|
functions can be disassembled and lookups can be performed using the
|
|
addresses found in the crash log.
|
|
|
|
Options:
|
|
-h, --help show this help message and exit
|
|
-v, --verbose display verbose debug info
|
|
-g, --debug display verbose debug logging
|
|
-a, --load-all load all executable images, not just the images found
|
|
in the crashed stack frames
|
|
--images show image list
|
|
--debug-delay=NSEC pause for NSEC seconds for debugger
|
|
-c, --crashed-only only symbolicate the crashed thread
|
|
-d DISASSEMBLE_DEPTH, --disasm-depth=DISASSEMBLE_DEPTH
|
|
set the depth in stack frames that should be
|
|
disassembled (default is 1)
|
|
-D, --disasm-all enabled disassembly of frames on all threads (not just
|
|
the crashed thread)
|
|
-B DISASSEMBLE_BEFORE, --disasm-before=DISASSEMBLE_BEFORE
|
|
the number of instructions to disassemble before the
|
|
frame PC
|
|
-A DISASSEMBLE_AFTER, --disasm-after=DISASSEMBLE_AFTER
|
|
the number of instructions to disassemble after the
|
|
frame PC
|
|
-C NLINES, --source-context=NLINES
|
|
show NLINES source lines of source context (default =
|
|
4)
|
|
--source-frames=NFRAMES
|
|
show source for NFRAMES (default = 4)
|
|
--source-all show source for all threads, not just the crashed
|
|
thread
|
|
-i, --interactive parse all crash logs and enter interactive mode
|
|
|
|
</tt></pre></code>
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<p>The source for the "symbolication" and "crashlog" modules are available in SVN:</p>
|
|
<ul>
|
|
<li><a href="http://llvm.org/svn/llvm-project/lldb/trunk/examples/python/symbolication.py">symbolication.py</a></li>
|
|
<li><a href="http://llvm.org/svn/llvm-project/lldb/trunk/examples/python/crashlog.py">crashlog.py</a></li>
|
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</ul>
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