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11 KiB
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<title>pprof and Remote Servers</title>
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<h1><code>pprof</code> and Remote Servers</h1>
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<p>In mid-2006, we added an experimental facility to <A
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HREF="cpu_profiler.html">pprof</A>, the tool that analyzes CPU and
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heap profiles. This facility allows you to collect profile
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information from running applications. It makes it easy to collect
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profile information without having to stop the program first, and
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without having to log into the machine where the application is
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running. This is meant to be used on webservers, but will work on any
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application that can be modified to accept TCP connections on a port
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of its choosing, and to respond to HTTP requests on that port.</p>
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<p>We do not currently have infrastructure, such as apache modules,
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that you can pop into a webserver or other application to get the
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necessary functionality "for free." However, it's easy to generate
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the necessary data, which should allow the interested developer to add
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the necessary support into his or her applications.</p>
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<p>To use <code>pprof</code> in this experimental "server" mode, you
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give the script a host and port it should query, replacing the normal
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commandline arguments of application + profile file:</p>
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<pre>
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% pprof internalweb.mycompany.com:80
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</pre>
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<p>The host must be listening on that port, and be able to accept HTTP/1.0
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requests -- sent via <code>wget</code> and <code>curl</code> -- for
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several urls. The following sections list the urls that
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<code>pprof</code> can send, and the responses it expects in
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return.</p>
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<p>Here are examples that pprof will recognize, when you give them
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on the commandline, are urls. In general, you
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specify the host and a port (the port-number is required), and put
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the service-name at the end of the url.:</p>
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<blockquote><pre>
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http://myhost:80/pprof/heap # retrieves a heap profile
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http://myhost:8008/pprof/profile # retrieves a CPU profile
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http://myhost:80 # retrieves a CPU profile (the default)
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http://myhost:8080/ # retrieves a CPU profile (the default)
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myhost:8088/pprof/growth # "http://" is optional, but port is not
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http://myhost:80/myservice/pprof/heap # /pprof/heap just has to come at the end
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http://myhost:80/pprof/pmuprofile # CPU profile using performance counters
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</pre></blockquote>
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<h2> <code><b>/pprof/heap</b></code> </h2>
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<p><code>pprof</code> asks for the url <code>/pprof/heap</code> to
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get heap information. The actual url is controlled via the variable
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<code>HEAP_PAGE</code> in the <code>pprof</code> script, so you
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can change it if you'd like.</p>
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<p>There are two ways to get this data. The first is to call</p>
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<pre>
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MallocExtension::instance()->GetHeapSample(&output);
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</pre>
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<p>and have the server send <code>output</code> back as an HTTP
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response to <code>pprof</code>. <code>MallocExtension</code> is
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defined in the header file <code>gperftools/malloc_extension.h</code>.</p>
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<p>Note this will only only work if the binary is being run with
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sampling turned on (which is not the default). To do this, set the
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environment variable <code>TCMALLOC_SAMPLE_PARAMETER</code> to a
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positive value, such as 524288, before running.</p>
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<p>The other way is to call <code>HeapProfileStart(filename)</code>
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(from <code>heap-profiler.h</code>), continue to do work, and then,
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some number of seconds later, call <code>GetHeapProfile()</code>
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(followed by <code>HeapProfilerStop()</code>). The server can send
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the output of <code>GetHeapProfile</code> back as the HTTP response to
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pprof. (Note you must <code>free()</code> this data after using it.)
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This is similar to how <A HREF="#profile">profile requests</A> are
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handled, below. This technique does not require the application to
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run with sampling turned on.</p>
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<p>Here's an example of what the output should look like:</p>
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<pre>
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heap profile: 1923: 127923432 [ 1923: 127923432] @ heap_v2/524288
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1: 312 [ 1: 312] @ 0x2aaaabaf5ccc 0x2aaaaba4cd2c 0x2aaaac08c09a
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928: 122586016 [ 928: 122586016] @ 0x2aaaabaf682c 0x400680 0x400bdd 0x2aaaab1c368a 0x2aaaab1c8f77 0x2aaaab1c0396 0x2aaaab1c86ed 0x4007ff 0x2aaaaca62afa
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1: 16 [ 1: 16] @ 0x2aaaabaf5ccc 0x2aaaabb04bac 0x2aaaabc1b262 0x2aaaabc21496 0x2aaaabc214bb
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[...]
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</pre>
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<p> Older code may produce "version 1" heap profiles which look like this:<p/>
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<pre>
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heap profile: 14933: 791700132 [ 14933: 791700132] @ heap
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1: 848688 [ 1: 848688] @ 0xa4b142 0x7f5bfc 0x87065e 0x4056e9 0x4125f8 0x42b4f1 0x45b1ba 0x463248 0x460871 0x45cb7c 0x5f1744 0x607cee 0x5f4a5e 0x40080f 0x2aaaabad7afa
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1: 1048576 [ 1: 1048576] @ 0xa4a9b2 0x7fd025 0x4ca6d8 0x4ca814 0x4caa88 0x2aaaab104cf0 0x404e20 0x4125f8 0x42b4f1 0x45b1ba 0x463248 0x460871 0x45cb7c 0x5f1744 0x607cee 0x5f4a5e 0x40080f 0x2aaaabad7afa
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2942: 388629374 [ 2942: 388629374] @ 0xa4b142 0x4006a0 0x400bed 0x5f0cfa 0x5f1744 0x607cee 0x5f4a5e 0x40080f 0x2aaaabad7afa
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[...]
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</pre>
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<p>pprof accepts both old and new heap profiles and automatically
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detects which one you are using.</p>
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<h2> <code><b>/pprof/growth</b></code> </h2>
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<p><code>pprof</code> asks for the url <code>/pprof/growth</code> to
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get heap-profiling delta (growth) information. The actual url is
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controlled via the variable <code>GROWTH_PAGE</code> in the
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<code>pprof</code> script, so you can change it if you'd like.</p>
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<p>The server should respond by calling</p>
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<pre>
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MallocExtension::instance()->GetHeapGrowthStacks(&output);
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</pre>
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<p>and sending <code>output</code> back as an HTTP response to
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<code>pprof</code>. <code>MallocExtension</code> is defined in the
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header file <code>gperftools/malloc_extension.h</code>.</p>
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<p>Here's an example, from an actual Google webserver, of what the
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output should look like:</p>
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<pre>
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heap profile: 741: 812122112 [ 741: 812122112] @ growth
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1: 1572864 [ 1: 1572864] @ 0x87da564 0x87db8a3 0x84787a4 0x846e851 0x836d12f 0x834cd1c 0x8349ba5 0x10a3177 0x8349961
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1: 1048576 [ 1: 1048576] @ 0x87d92e8 0x87d9213 0x87d9178 0x87d94d3 0x87da9da 0x8a364ff 0x8a437e7 0x8ab7d23 0x8ab7da9 0x8ac7454 0x8348465 0x10a3161 0x8349961
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[...]
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</pre>
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<h2> <A NAME="profile"><code><b>/pprof/profile</b></code></A> </h2>
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<p><code>pprof</code> asks for the url
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<code>/pprof/profile?seconds=XX</code> to get cpu-profiling
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information. The actual url is controlled via the variable
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<code>PROFILE_PAGE</code> in the <code>pprof</code> script, so you can
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change it if you'd like.</p>
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<p>The server should respond by calling
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<code>ProfilerStart(filename)</code>, continuing to do its work, and
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then, XX seconds later, calling <code>ProfilerStop()</code>. (These
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functions are declared in <code>gperftools/profiler.h</code>.) The
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application is responsible for picking a unique filename for
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<code>ProfilerStart()</code>. After calling
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<code>ProfilerStop()</code>, the server should read the contents of
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<code>filename</code> and send them back as an HTTP response to
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<code>pprof</code>.</p>
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<p>Obviously, to get useful profile information the application must
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continue to run in the XX seconds that the profiler is running. Thus,
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the profile start-stop calls should be done in a separate thread, or
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be otherwise non-blocking.</p>
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<p>The profiler output file is binary, but near the end of it, it
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should have lines of text somewhat like this:</p>
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<pre>
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01016000-01017000 rw-p 00015000 03:01 59314 /lib/ld-2.2.2.so
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</pre>
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<h2> <code><b>/pprof/pmuprofile</b></code> </h2>
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<code>pprof</code> asks for a url of the form
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<code>/pprof/pmuprofile?event=hw_event:unit_mask&period=nnn&seconds=xxx</code>
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to get cpu-profiling information. The actual url is controlled via the variable
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<code>PMUPROFILE_PAGE</code> in the <code>pprof</code> script, so you can
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change it if you'd like.</p>
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<p>
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This is similar to pprof, but is meant to be used with your CPU's hardware
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performance counters. The server could be implemented on top of a library
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such as <a href="http://perfmon2.sourceforge.net/">
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<code>libpfm</code></a>. It should collect a sample every nnn occurrences
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of the event and stop the sampling after xxx seconds. Much of the code
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for <code>/pprof/profile</code> can be reused for this purpose.
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</p>
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<p>The server side routines (the equivalent of
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ProfilerStart/ProfilerStart) are not available as part of perftools,
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so this URL is unlikely to be that useful.</p>
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<h2> <code><b>/pprof/contention</b></code> </h2>
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<p>This is intended to be able to profile (thread) lock contention in
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addition to CPU and memory use. It's not yet usable.</p>
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<h2> <code><b>/pprof/cmdline</b></code> </h2>
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<p><code>pprof</code> asks for the url <code>/pprof/cmdline</code> to
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figure out what application it's profiling. The actual url is
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controlled via the variable <code>PROGRAM_NAME_PAGE</code> in the
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<code>pprof</code> script, so you can change it if you'd like.</p>
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<p>The server should respond by reading the contents of
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<code>/proc/self/cmdline</code>, converting all internal NUL (\0)
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characters to newlines, and sending the result back as an HTTP
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response to <code>pprof</code>.</p>
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<p>Here's an example return value:<p>
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<pre>
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/root/server/custom_webserver
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80
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--configfile=/root/server/ws.config
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</pre>
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<h2> <code><b>/pprof/symbol</b></code> </h2>
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<p><code>pprof</code> asks for the url <code>/pprof/symbol</code> to
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map from hex addresses to variable names. The actual url is
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controlled via the variable <code>SYMBOL_PAGE</code> in the
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<code>pprof</code> script, so you can change it if you'd like.</p>
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<p>When the server receives a GET request for
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<code>/pprof/symbol</code>, it should return a line formatted like
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so:</p>
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<pre>
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num_symbols: ###
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</pre>
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<p>where <code>###</code> is the number of symbols found in the
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binary. (For now, the only important distinction is whether the value
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is 0, which it is for executables that lack debug information, or
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not-0).</p>
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<p>This is perhaps the hardest request to write code for, because in
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addition to the GET request for this url, the server must accept POST
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requests. This means that after the HTTP headers, pprof will pass in
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a list of hex addresses connected by <code>+</code>, like so:</p>
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<pre>
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curl -d '0x0824d061+0x0824d1cf' http://remote_host:80/pprof/symbol
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</pre>
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<p>The server should read the POST data, which will be in one line,
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and for each hex value, should write one line of output to the output
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stream, like so:</p>
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<pre>
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<hex address><tab><function name>
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</pre>
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<p>For instance:</p>
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<pre>
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0x08b2dabd _Update
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</pre>
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<p>The other reason this is the most difficult request to implement,
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is that the application will have to figure out for itself how to map
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from address to function name. One possibility is to run <code>nm -C
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-n <program name></code> to get the mappings at
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program-compile-time. Another, at least on Linux, is to call out to
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addr2line for every <code>pprof/symbol</code> call, for instance
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<code>addr2line -Cfse /proc/<getpid>/exe 0x12345678 0x876543210</code>
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(presumably with some caching!)</p>
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<p><code>pprof</code> itself does just this for local profiles (not
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ones that talk to remote servers); look at the subroutine
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<code>GetProcedureBoundaries</code>.</p>
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<hr>
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Last modified: Mon Jun 12 21:30:14 PDT 2006
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</body>
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</html>
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