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Summary: Adding a new restructuredText file to document the trace format produced with an FDR mode handler and read by llvm-xray toolset. Fixed two problems in the documentation from differential review. One bad table and a missing link in the toc. Original commit was e97c5836a77db803fe53319c53f3bf8e8b26d2b7. Reviewers: dberris, pelikan Subscribers: llvm-commits Differential Revision: https://reviews.llvm.org/D36041 llvm-svn: 309891
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====================
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XRay Instrumentation
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====================
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:Version: 1 as of 2016-11-08
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.. contents::
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:local:
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Introduction
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============
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XRay is a function call tracing system which combines compiler-inserted
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instrumentation points and a runtime library that can dynamically enable and
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disable the instrumentation.
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More high level information about XRay can be found in the `XRay whitepaper`_.
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This document describes how to use XRay as implemented in LLVM.
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XRay in LLVM
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============
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XRay consists of three main parts:
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- Compiler-inserted instrumentation points.
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- A runtime library for enabling/disabling tracing at runtime.
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- A suite of tools for analysing the traces.
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**NOTE:** As of February 27, 2017 , XRay is only available for the following
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architectures running Linux: x86_64, arm7 (no thumb), aarch64, powerpc64le,
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mips, mipsel, mips64, mips64el.
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The compiler-inserted instrumentation points come in the form of nop-sleds in
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the final generated binary, and an ELF section named ``xray_instr_map`` which
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contains entries pointing to these instrumentation points. The runtime library
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relies on being able to access the entries of the ``xray_instr_map``, and
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overwrite the instrumentation points at runtime.
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Using XRay
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==========
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You can use XRay in a couple of ways:
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- Instrumenting your C/C++/Objective-C/Objective-C++ application.
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- Generating LLVM IR with the correct function attributes.
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The rest of this section covers these main ways and later on how to customise
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what XRay does in an XRay-instrumented binary.
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Instrumenting your C/C++/Objective-C Application
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------------------------------------------------
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The easiest way of getting XRay instrumentation for your application is by
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enabling the ``-fxray-instrument`` flag in your clang invocation.
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For example:
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::
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clang -fxray-instrument ..
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By default, functions that have at least 200 instructions will get XRay
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instrumentation points. You can tweak that number through the
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``-fxray-instruction-threshold=`` flag:
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::
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clang -fxray-instrument -fxray-instruction-threshold=1 ..
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You can also specifically instrument functions in your binary to either always
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or never be instrumented using source-level attributes. You can do it using the
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GCC-style attributes or C++11-style attributes.
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.. code-block:: c++
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[[clang::xray_always_intrument]] void always_instrumented();
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[[clang::xray_never_instrument]] void never_instrumented();
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void alt_always_instrumented() __attribute__((xray_always_intrument));
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void alt_never_instrumented() __attribute__((xray_never_instrument));
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When linking a binary, you can either manually link in the `XRay Runtime
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Library`_ or use ``clang`` to link it in automatically with the
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``-fxray-instrument`` flag. Alternatively, you can statically link-in the XRay
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runtime library from compiler-rt -- those archive files will take the name of
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`libclang_rt.xray-{arch}` where `{arch}` is the mnemonic supported by clang
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(x86_64, arm7, etc.).
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LLVM Function Attribute
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-----------------------
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If you're using LLVM IR directly, you can add the ``function-instrument``
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string attribute to your functions, to get the similar effect that the
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C/C++/Objective-C source-level attributes would get:
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.. code-block:: llvm
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define i32 @always_instrument() uwtable "function-instrument"="xray-always" {
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; ...
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}
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define i32 @never_instrument() uwtable "function-instrument"="xray-never" {
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; ...
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}
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You can also set the ``xray-instruction-threshold`` attribute and provide a
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numeric string value for how many instructions should be in the function before
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it gets instrumented.
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.. code-block:: llvm
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define i32 @maybe_instrument() uwtable "xray-instruction-threshold"="2" {
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; ...
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}
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XRay Runtime Library
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--------------------
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The XRay Runtime Library is part of the compiler-rt project, which implements
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the runtime components that perform the patching and unpatching of inserted
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instrumentation points. When you use ``clang`` to link your binaries and the
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``-fxray-instrument`` flag, it will automatically link in the XRay runtime.
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The default implementation of the XRay runtime will enable XRay instrumentation
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before ``main`` starts, which works for applications that have a short
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lifetime. This implementation also records all function entry and exit events
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which may result in a lot of records in the resulting trace.
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Also by default the filename of the XRay trace is ``xray-log.XXXXXX`` where the
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``XXXXXX`` part is randomly generated.
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These options can be controlled through the ``XRAY_OPTIONS`` environment
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variable, where we list down the options and their defaults below.
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+-------------------+-----------------+---------------+------------------------+
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| Option | Type | Default | Description |
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+===================+=================+===============+========================+
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| patch_premain | ``bool`` | ``false`` | Whether to patch |
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| | | | instrumentation points |
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| | | | before main. |
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+-------------------+-----------------+---------------+------------------------+
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| xray_naive_log | ``bool`` | ``true`` | Whether to install |
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| | | | the naive log |
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| | | | implementation. |
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+-------------------+-----------------+---------------+------------------------+
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| xray_logfile_base | ``const char*`` | ``xray-log.`` | Filename base for the |
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| | | | XRay logfile. |
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+-------------------+-----------------+---------------+------------------------+
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| xray_fdr_log | ``bool`` | ``false`` | Whether to install the |
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| | | | Flight Data Recorder |
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| | | | (FDR) mode. |
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+-------------------+-----------------+---------------+------------------------+
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If you choose to not use the default logging implementation that comes with the
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XRay runtime and/or control when/how the XRay instrumentation runs, you may use
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the XRay APIs directly for doing so. To do this, you'll need to include the
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``xray_interface.h`` from the compiler-rt ``xray`` directory. The important API
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functions we list below:
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- ``__xray_set_handler(void (*entry)(int32_t, XRayEntryType))``: Install your
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own logging handler for when an event is encountered. See
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``xray/xray_interface.h`` for more details.
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- ``__xray_remove_handler()``: Removes whatever the installed handler is.
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- ``__xray_patch()``: Patch all the instrumentation points defined in the
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binary.
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- ``__xray_unpatch()``: Unpatch the instrumentation points defined in the
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binary.
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There are some requirements on the logging handler to be installed for the
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thread-safety of operations to be performed by the XRay runtime library:
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- The function should be thread-safe, as multiple threads may be invoking the
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function at the same time. If the logging function needs to do
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synchronisation, it must do so internally as XRay does not provide any
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synchronisation guarantees outside from the atomicity of updates to the
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pointer.
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- The pointer provided to ``__xray_set_handler(...)`` must be live even after
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calls to ``__xray_remove_handler()`` and ``__xray_unpatch()`` have succeeded.
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XRay cannot guarantee that all threads that have ever gotten a copy of the
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pointer will not invoke the function.
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Flight Data Recorder Mode
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-------------------------
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XRay supports a logging mode which allows the application to only capture a
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fixed amount of memory's worth of events. Flight Data Recorder (FDR) mode works
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very much like a plane's "black box" which keeps recording data to memory in a
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fixed-size circular queue of buffers, and have the data available
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programmatically until the buffers are finalized and flushed. To use FDR mode
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on your application, you may set the ``xray_fdr_log`` option to ``true`` in the
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``XRAY_OPTIONS`` environment variable (while also optionally setting the
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``xray_naive_log`` to ``false``).
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When the buffers are flushed to disk, the result is a binary trace format
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described by `XRay FDR format <XRayFDRFormat.html>`_
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When FDR mode is on, it will keep writing and recycling memory buffers until
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the logging implementation is finalized -- at which point it can be flushed and
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re-initialised later. To do this programmatically, we follow the workflow
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provided below:
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.. code-block:: c++
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// Patch the sleds, if we haven't yet.
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auto patch_status = __xray_patch();
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// Maybe handle the patch_status errors.
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// When we want to flush the log, we need to finalize it first, to give
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// threads a chance to return buffers to the queue.
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auto finalize_status = __xray_log_finalize();
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if (finalize_status != XRAY_LOG_FINALIZED) {
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// maybe retry, or bail out.
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}
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// At this point, we are sure that the log is finalized, so we may try
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// flushing the log.
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auto flush_status = __xray_log_flushLog();
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if (flush_status != XRAY_LOG_FLUSHED) {
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// maybe retry, or bail out.
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}
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The default settings for the FDR mode implementation will create logs named
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similarly to the naive log implementation, but will have a different log
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format. All the trace analysis tools (and the trace reading library) will
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support all versions of the FDR mode format as we add more functionality and
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record types in the future.
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**NOTE:** We do not however promise perpetual support for when we update the
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log versions we support going forward. Deprecation of the formats will be
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announced and discussed on the developers mailing list.
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XRay allows for replacing the default FDR mode logging implementation using the
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following API:
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- ``__xray_set_log_impl(...)``: This function takes a struct of type
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``XRayLogImpl``, which is defined in ``xray/xray_log_interface.h``, part of
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the XRay compiler-rt installation.
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- ``__xray_log_init(...)``: This function allows for initializing and
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re-initializing an installed logging implementation. See
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``xray/xray_log_interface.h`` for details, part of the XRay compiler-rt
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installation.
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Trace Analysis Tools
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--------------------
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We currently have the beginnings of a trace analysis tool in LLVM, which can be
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found in the ``tools/llvm-xray`` directory. The ``llvm-xray`` tool currently
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supports the following subcommands:
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- ``extract``: Extract the instrumentation map from a binary, and return it as
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YAML.
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- ``account``: Performs basic function call accounting statistics with various
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options for sorting, and output formats (supports CSV, YAML, and
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console-friendly TEXT).
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- ``convert``: Converts an XRay log file from one format to another. Currently
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only converts to YAML.
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- ``graph``: Generates a DOT graph of the function call relationships between
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functions found in an XRay trace.
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These subcommands use various library components found as part of the XRay
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libraries, distributed with the LLVM distribution. These are:
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- ``llvm/XRay/Trace.h`` : A trace reading library for conveniently loading
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an XRay trace of supported forms, into a convenient in-memory representation.
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All the analysis tools that deal with traces use this implementation.
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- ``llvm/XRay/Graph.h`` : A semi-generic graph type used by the graph
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subcommand to conveniently represent a function call graph with statistics
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associated with edges and vertices.
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- ``llvm/XRay/InstrumentationMap.h``: A convenient tool for analyzing the
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instrumentation map in XRay-instrumented object files and binaries. The
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``extract`` subcommand uses this particular library.
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Future Work
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===========
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There are a number of ongoing efforts for expanding the toolset building around
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the XRay instrumentation system.
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Trace Analysis
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--------------
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We have more subcommands and modes that we're thinking of developing, in the
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following forms:
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- ``stack``: Reconstruct the function call stacks in a timeline.
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More Platforms
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--------------
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We're looking forward to contributions to port XRay to more architectures and
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operating systems.
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.. References...
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.. _`XRay whitepaper`: http://research.google.com/pubs/pub45287.html
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