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178 lines
5.7 KiB
Plaintext
178 lines
5.7 KiB
Plaintext
Trace Malloc Tools
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Chris Waterson <waterson@netscape.com>
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November 27, 2000
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This is a short primer on how to use the `trace malloc' tools
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contained in this directory.
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WHAT IS TRACE MALLOC?
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=====================
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Trace malloc is an optional facility that is built in to XPCOM. It
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uses `weak linking' to intercept all calls to malloc(), calloc(),
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realloc() and free(). It does two things:
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1. Writes information about allocations to a filehandle that you
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specify. As each call to malloc(), et. al. is made, a record is logged
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to the filehandle.
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2. Maintains a table of all `live objects' -- that is, objects that
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have been allocated by malloc(), calloc() or realloc(), but have not
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yet been free()'d. The contents of this table can be called by making
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a `secret' call to JavaScript.
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MAKING A TRACE MALLOC BUILD
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===========================
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As of this writing, trace malloc only works on Linux, but work is
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underway to port it to Windows.
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On Linux, start with a clean tree, and configure your build with the
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following flags:
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--enable-trace-malloc
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--enable-cpp-rtti
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Be sure that `--enable-boehm' is *not* set. I don't think that the
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values for `--enable-debug' and `--enable-optimize' matter, but I've
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typically had debug on and optimize off.
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COLLECTING LIVE OBJECT DATA
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===========================
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To collect `live object' data from `mozilla' using a build that has
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trace malloc enabled,
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1. Run `mozilla' as follows:
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% mozilla --trace-malloc /dev/null
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2. Do whatever operations in mozilla you'd like to test.
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3. Open the `live-bloat.html' file contained in this directory.
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4. Press the button that says `Dump to /tmp/dump.log'
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An enormous file (typically 300MB) called `dump.log' will be dropped
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in your `/tmp' directory.
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To collect live object data from `gtkEmbed' using a build that has
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trace malloc enabled:
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1. Run `gtkEmbed' as follows:
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% gtkEmbed --trace-malloc /dev/null
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2. Do whatever operations in gtkEmbed that you'd like to test.
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3. Press the `Dump Memory' button at the bottom of gtkEmbed.
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The enormous file will be dropped in the current directory, and is
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called `allocations.log'.
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About Live Object Logs
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----------------------
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A typical entry from the `live object' dump file will look like:
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Address Type Size
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v v v
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0x40008080 <nsFooBar> 16
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0x00000001 <- Fields
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0x40008084
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0x80004001
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0x00000036
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__builtin_new[./libxpcom.so +0x10E9DC] <- Stack at allocation time
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nsFooBar::CreateFooBar(nsFooBar **)[./libfoobar.so +0x408C]
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main+C7E5AFB5[(null) +0xC7E5AFB5]
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One will be printed for each object that was allocated.
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TOOLS TO PARSE LIVE OBJECT LOGS
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===============================
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This directory is meant to house the tools that you can use to parse
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live-object logs.
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Object Histograms - histogram.pl
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--------------------------------
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This program parses a `live object' dump and produces a histogram of
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the objects, sorted from objects that take the most memory to objects
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that take the least. The output of this program is rather spartan: on
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each line, it prints the object type, the number of objects of that
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type, and the total number of bytes that the objects consume.
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There are a two simple programs to `pretty print' the output from
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histogram.pl:
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1. histogram-pretty.sh takes a single histogram and produces a table
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of objects.
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Type Count Bytes %Total
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TOTAL 67348 4458127 100.00
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nsImageGTK 76 679092 15.23
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void* 8956 563572 12.64
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...
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PRLock 732 61488 1.38
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OTHER 24419 940235 21.09
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2. histogram-diff.sh takes two histograms and computes the difference
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between them.
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---- Base ---- ---- Incr ---- ----- Difference ----
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Type Count Bytes Count Bytes Count Bytes %Total
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TOTAL 40241 1940945 73545 5315142 33304 3374197 100.00
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nsImageGTK 16 106824 151 832816 135 725992 21.52
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PresShell 16 51088 198 340706 182 289618 8.58
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...
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OTHER 27334 1147033 38623 1493385 11289 346352 10.26
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Both of these scripts accept `-c' parameter that specifies how many
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rows you'd like to see (by default, twenty). Any rows past the first
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`n' rows are lumped into a single `OTHER' row. This allows you to keep
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your reports short n' sweet.
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Stack-based Type Inference - types.dat
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--------------------------------------
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Trace malloc uses `speculative RTTI' to determine the types of objects
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as it dumps them. Unfortunately, RTTI can only deduce the type name
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for C++ objects with a virtual destructor.
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This leaves:
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. C++ object without a virtual destructor
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. array allocated C++ objects, and
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. objects allocated with the C runtime function (malloc
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and friends)
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out in the cold. Trace malloc reports objects allocated this was as
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having type `void*'.
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The good news is that you can almost always determine the object's
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type by looking at the stack trace that's taken at the time the object
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is allocated.
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The file `types.dat' consists of rules to classify objects based on
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stack trace.
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Uncategorized Objects - uncategorized.pl
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----------------------------------------
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Categorizing objects in `types.dat' is sweaty work, and the
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`uncategorized.pl' script is a tool that makes it a bit
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easier. Specifically, it reads a `live object' dump file and sorts the
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stack traces. Stack traces that account for the most uncategorized
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objects are placed first.
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Using this tool, you can add the `most effective' rules to
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`types.dat': rules that account for most of the uncategorized data.
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