f87b220f2a
While we attempt to hide implementation details from the plugin we shouldn't be totally obtuse. Let the user know what they can and can't expect with the various instrumentation options. Reviewed-by: Pierrick Bouvier <pierrick.bouvier@linaro.org> Signed-off-by: Alex Bennée <alex.bennee@linaro.org> Message-Id: <20240227144335.1196131-29-alex.bennee@linaro.org>
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Copyright (C) 2017, Emilio G. Cota <cota@braap.org>
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Copyright (c) 2019, Linaro Limited
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Written by Emilio Cota and Alex Bennée
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.. _TCG Plugins:
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QEMU TCG Plugins
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================
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QEMU TCG plugins provide a way for users to run experiments taking
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advantage of the total system control emulation can have over a guest.
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It provides a mechanism for plugins to subscribe to events during
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translation and execution and optionally callback into the plugin
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during these events. TCG plugins are unable to change the system state
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only monitor it passively. However they can do this down to an
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individual instruction granularity including potentially subscribing
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to all load and store operations.
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Usage
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-----
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Any QEMU binary with TCG support has plugins enabled by default.
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Earlier releases needed to be explicitly enabled with::
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configure --enable-plugins
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Once built a program can be run with multiple plugins loaded each with
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their own arguments::
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$QEMU $OTHER_QEMU_ARGS \
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-plugin contrib/plugin/libhowvec.so,inline=on,count=hint \
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-plugin contrib/plugin/libhotblocks.so
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Arguments are plugin specific and can be used to modify their
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behaviour. In this case the howvec plugin is being asked to use inline
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ops to count and break down the hint instructions by type.
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Linux user-mode emulation also evaluates the environment variable
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``QEMU_PLUGIN``::
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QEMU_PLUGIN="file=contrib/plugins/libhowvec.so,inline=on,count=hint" $QEMU
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Writing plugins
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---------------
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API versioning
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~~~~~~~~~~~~~~
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This is a new feature for QEMU and it does allow people to develop
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out-of-tree plugins that can be dynamically linked into a running QEMU
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process. However the project reserves the right to change or break the
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API should it need to do so. The best way to avoid this is to submit
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your plugin upstream so they can be updated if/when the API changes.
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All plugins need to declare a symbol which exports the plugin API
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version they were built against. This can be done simply by::
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QEMU_PLUGIN_EXPORT int qemu_plugin_version = QEMU_PLUGIN_VERSION;
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The core code will refuse to load a plugin that doesn't export a
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``qemu_plugin_version`` symbol or if plugin version is outside of QEMU's
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supported range of API versions.
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Additionally the ``qemu_info_t`` structure which is passed to the
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``qemu_plugin_install`` method of a plugin will detail the minimum and
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current API versions supported by QEMU. The API version will be
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incremented if new APIs are added. The minimum API version will be
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incremented if existing APIs are changed or removed.
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Lifetime of the query handle
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Each callback provides an opaque anonymous information handle which
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can usually be further queried to find out information about a
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translation, instruction or operation. The handles themselves are only
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valid during the lifetime of the callback so it is important that any
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information that is needed is extracted during the callback and saved
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by the plugin.
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Plugin life cycle
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~~~~~~~~~~~~~~~~~
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First the plugin is loaded and the public qemu_plugin_install function
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is called. The plugin will then register callbacks for various plugin
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events. Generally plugins will register a handler for the *atexit*
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if they want to dump a summary of collected information once the
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program/system has finished running.
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When a registered event occurs the plugin callback is invoked. The
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callbacks may provide additional information. In the case of a
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translation event the plugin has an option to enumerate the
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instructions in a block of instructions and optionally register
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callbacks to some or all instructions when they are executed.
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There is also a facility to add an inline event where code to
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increment a counter can be directly inlined with the translation.
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Currently only a simple increment is supported. This is not atomic so
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can miss counts. If you want absolute precision you should use a
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callback which can then ensure atomicity itself.
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Finally when QEMU exits all the registered *atexit* callbacks are
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invoked.
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Exposure of QEMU internals
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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The plugin architecture actively avoids leaking implementation details
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about how QEMU's translation works to the plugins. While there are
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conceptions such as translation time and translation blocks the
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details are opaque to plugins. The plugin is able to query select
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details of instructions and system configuration only through the
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exported *qemu_plugin* functions.
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However the following assumptions can be made:
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Translation Blocks
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++++++++++++++++++
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All code will go through a translation phase although not all
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translations will be necessarily be executed. You need to instrument
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actual executions to track what is happening.
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It is quite normal to see the same address translated multiple times.
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If you want to track the code in system emulation you should examine
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the underlying physical address (``qemu_plugin_insn_haddr``) to take
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into account the effects of virtual memory although if the system does
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paging this will change too.
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Not all instructions in a block will always execute so if its
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important to track individual instruction execution you need to
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instrument them directly. However asynchronous interrupts will not
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change control flow mid-block.
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Instructions
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++++++++++++
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Instruction instrumentation runs before the instruction executes. You
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can be can be sure the instruction will be dispatched, but you can't
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be sure it will complete. Generally this will be because of a
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synchronous exception (e.g. SIGILL) triggered by the instruction
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attempting to execute. If you want to be sure you will need to
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instrument the next instruction as well. See the ``execlog.c`` plugin
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for examples of how to track this and finalise details after execution.
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Memory Accesses
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+++++++++++++++
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Memory callbacks are called after a successful load or store.
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Unsuccessful operations (i.e. faults) will not be visible to memory
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instrumentation although the execution side effects can be observed
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(e.g. entering a exception handler).
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System Idle and Resume States
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+++++++++++++++++++++++++++++
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The ``qemu_plugin_register_vcpu_idle_cb`` and
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``qemu_plugin_register_vcpu_resume_cb`` functions can be used to track
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when CPUs go into and return from sleep states when waiting for
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external I/O. Be aware though that these may occur less frequently
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than in real HW due to the inefficiencies of emulation giving less
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chance for the CPU to idle.
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Internals
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---------
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Locking
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~~~~~~~
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We have to ensure we cannot deadlock, particularly under MTTCG. For
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this we acquire a lock when called from plugin code. We also keep the
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list of callbacks under RCU so that we do not have to hold the lock
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when calling the callbacks. This is also for performance, since some
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callbacks (e.g. memory access callbacks) might be called very
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frequently.
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* A consequence of this is that we keep our own list of CPUs, so that
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we do not have to worry about locking order wrt cpu_list_lock.
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* Use a recursive lock, since we can get registration calls from
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callbacks.
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As a result registering/unregistering callbacks is "slow", since it
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takes a lock. But this is very infrequent; we want performance when
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calling (or not calling) callbacks, not when registering them. Using
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RCU is great for this.
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We support the uninstallation of a plugin at any time (e.g. from
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plugin callbacks). This allows plugins to remove themselves if they no
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longer want to instrument the code. This operation is asynchronous
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which means callbacks may still occur after the uninstall operation is
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requested. The plugin isn't completely uninstalled until the safe work
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has executed while all vCPUs are quiescent.
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Example Plugins
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===============
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There are a number of plugins included with QEMU and you are
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encouraged to contribute your own plugins plugins upstream. There is a
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``contrib/plugins`` directory where they can go. There are also some
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basic plugins that are used to test and exercise the API during the
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``make check-tcg`` target in ``tests\plugins``.
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- tests/plugins/empty.c
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Purely a test plugin for measuring the overhead of the plugins system
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itself. Does no instrumentation.
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- tests/plugins/bb.c
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A very basic plugin which will measure execution in course terms as
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each basic block is executed. By default the results are shown once
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execution finishes::
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$ qemu-aarch64 -plugin tests/plugin/libbb.so \
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-d plugin ./tests/tcg/aarch64-linux-user/sha1
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SHA1=15dd99a1991e0b3826fede3deffc1feba42278e6
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bb's: 2277338, insns: 158483046
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Behaviour can be tweaked with the following arguments:
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* inline=true|false
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Use faster inline addition of a single counter. Not per-cpu and not
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thread safe.
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* idle=true|false
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Dump the current execution stats whenever the guest vCPU idles
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- tests/plugins/insn.c
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This is a basic instruction level instrumentation which can count the
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number of instructions executed on each core/thread::
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$ qemu-aarch64 -plugin tests/plugin/libinsn.so \
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-d plugin ./tests/tcg/aarch64-linux-user/threadcount
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Created 10 threads
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Done
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cpu 0 insns: 46765
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cpu 1 insns: 3694
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cpu 2 insns: 3694
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cpu 3 insns: 2994
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cpu 4 insns: 1497
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cpu 5 insns: 1497
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cpu 6 insns: 1497
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cpu 7 insns: 1497
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total insns: 63135
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Behaviour can be tweaked with the following arguments:
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* inline=true|false
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Use faster inline addition of a single counter. Not per-cpu and not
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thread safe.
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* sizes=true|false
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Give a summary of the instruction sizes for the execution
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* match=<string>
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Only instrument instructions matching the string prefix. Will show
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some basic stats including how many instructions have executed since
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the last execution. For example::
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$ qemu-aarch64 -plugin tests/plugin/libinsn.so,match=bl \
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-d plugin ./tests/tcg/aarch64-linux-user/sha512-vector
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...
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0x40069c, 'bl #0x4002b0', 10 hits, 1093 match hits, Δ+1257 since last match, 98 avg insns/match
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0x4006ac, 'bl #0x403690', 10 hits, 1094 match hits, Δ+47 since last match, 98 avg insns/match
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0x4037fc, 'bl #0x4002b0', 18 hits, 1095 match hits, Δ+22 since last match, 98 avg insns/match
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0x400720, 'bl #0x403690', 10 hits, 1096 match hits, Δ+58 since last match, 98 avg insns/match
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0x4037fc, 'bl #0x4002b0', 19 hits, 1097 match hits, Δ+22 since last match, 98 avg insns/match
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0x400730, 'bl #0x403690', 10 hits, 1098 match hits, Δ+33 since last match, 98 avg insns/match
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0x4037ac, 'bl #0x4002b0', 12 hits, 1099 match hits, Δ+20 since last match, 98 avg insns/match
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...
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For more detailed execution tracing see the ``execlog`` plugin for
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other options.
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- tests/plugins/mem.c
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Basic instruction level memory instrumentation::
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$ qemu-aarch64 -plugin tests/plugin/libmem.so,inline=true \
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-d plugin ./tests/tcg/aarch64-linux-user/sha1
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SHA1=15dd99a1991e0b3826fede3deffc1feba42278e6
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inline mem accesses: 79525013
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Behaviour can be tweaked with the following arguments:
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* inline=true|false
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Use faster inline addition of a single counter. Not per-cpu and not
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thread safe.
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* callback=true|false
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Use callbacks on each memory instrumentation.
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* hwaddr=true|false
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Count IO accesses (only for system emulation)
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- tests/plugins/syscall.c
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A basic syscall tracing plugin. This only works for user-mode. By
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default it will give a summary of syscall stats at the end of the
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run::
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$ qemu-aarch64 -plugin tests/plugin/libsyscall \
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-d plugin ./tests/tcg/aarch64-linux-user/threadcount
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Created 10 threads
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Done
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syscall no. calls errors
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226 12 0
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99 11 11
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115 11 0
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222 11 0
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93 10 0
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220 10 0
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233 10 0
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215 8 0
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214 4 0
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134 2 0
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64 2 0
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96 1 0
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94 1 0
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80 1 0
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261 1 0
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78 1 0
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160 1 0
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135 1 0
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- contrib/plugins/hotblocks.c
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The hotblocks plugin allows you to examine the where hot paths of
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execution are in your program. Once the program has finished you will
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get a sorted list of blocks reporting the starting PC, translation
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count, number of instructions and execution count. This will work best
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with linux-user execution as system emulation tends to generate
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re-translations as blocks from different programs get swapped in and
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out of system memory.
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If your program is single-threaded you can use the ``inline`` option for
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slightly faster (but not thread safe) counters.
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Example::
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$ qemu-aarch64 \
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-plugin contrib/plugins/libhotblocks.so -d plugin \
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./tests/tcg/aarch64-linux-user/sha1
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SHA1=15dd99a1991e0b3826fede3deffc1feba42278e6
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collected 903 entries in the hash table
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pc, tcount, icount, ecount
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0x0000000041ed10, 1, 5, 66087
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0x000000004002b0, 1, 4, 66087
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...
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- contrib/plugins/hotpages.c
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Similar to hotblocks but this time tracks memory accesses::
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$ qemu-aarch64 \
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-plugin contrib/plugins/libhotpages.so -d plugin \
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./tests/tcg/aarch64-linux-user/sha1
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SHA1=15dd99a1991e0b3826fede3deffc1feba42278e6
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Addr, RCPUs, Reads, WCPUs, Writes
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0x000055007fe000, 0x0001, 31747952, 0x0001, 8835161
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0x000055007ff000, 0x0001, 29001054, 0x0001, 8780625
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0x00005500800000, 0x0001, 687465, 0x0001, 335857
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0x0000000048b000, 0x0001, 130594, 0x0001, 355
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0x0000000048a000, 0x0001, 1826, 0x0001, 11
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The hotpages plugin can be configured using the following arguments:
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* sortby=reads|writes|address
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Log the data sorted by either the number of reads, the number of writes, or
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memory address. (Default: entries are sorted by the sum of reads and writes)
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* io=on
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Track IO addresses. Only relevant to full system emulation. (Default: off)
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* pagesize=N
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The page size used. (Default: N = 4096)
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- contrib/plugins/howvec.c
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This is an instruction classifier so can be used to count different
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types of instructions. It has a number of options to refine which get
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counted. You can give a value to the ``count`` argument for a class of
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instructions to break it down fully, so for example to see all the system
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registers accesses::
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$ qemu-system-aarch64 $(QEMU_ARGS) \
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-append "root=/dev/sda2 systemd.unit=benchmark.service" \
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-smp 4 -plugin ./contrib/plugins/libhowvec.so,count=sreg -d plugin
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which will lead to a sorted list after the class breakdown::
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Instruction Classes:
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Class: UDEF not counted
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Class: SVE (68 hits)
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Class: PCrel addr (47789483 hits)
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Class: Add/Sub (imm) (192817388 hits)
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Class: Logical (imm) (93852565 hits)
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Class: Move Wide (imm) (76398116 hits)
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Class: Bitfield (44706084 hits)
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Class: Extract (5499257 hits)
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Class: Cond Branch (imm) (147202932 hits)
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Class: Exception Gen (193581 hits)
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Class: NOP not counted
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Class: Hints (6652291 hits)
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Class: Barriers (8001661 hits)
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Class: PSTATE (1801695 hits)
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Class: System Insn (6385349 hits)
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Class: System Reg counted individually
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Class: Branch (reg) (69497127 hits)
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Class: Branch (imm) (84393665 hits)
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Class: Cmp & Branch (110929659 hits)
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Class: Tst & Branch (44681442 hits)
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Class: AdvSimd ldstmult (736 hits)
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Class: ldst excl (9098783 hits)
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Class: Load Reg (lit) (87189424 hits)
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Class: ldst noalloc pair (3264433 hits)
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Class: ldst pair (412526434 hits)
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Class: ldst reg (imm) (314734576 hits)
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Class: Loads & Stores (2117774 hits)
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Class: Data Proc Reg (223519077 hits)
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Class: Scalar FP (31657954 hits)
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Individual Instructions:
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Instr: mrs x0, sp_el0 (2682661 hits) (op=0xd5384100/ System Reg)
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Instr: mrs x1, tpidr_el2 (1789339 hits) (op=0xd53cd041/ System Reg)
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Instr: mrs x2, tpidr_el2 (1513494 hits) (op=0xd53cd042/ System Reg)
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Instr: mrs x0, tpidr_el2 (1490823 hits) (op=0xd53cd040/ System Reg)
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Instr: mrs x1, sp_el0 (933793 hits) (op=0xd5384101/ System Reg)
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Instr: mrs x2, sp_el0 (699516 hits) (op=0xd5384102/ System Reg)
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Instr: mrs x4, tpidr_el2 (528437 hits) (op=0xd53cd044/ System Reg)
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Instr: mrs x30, ttbr1_el1 (480776 hits) (op=0xd538203e/ System Reg)
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Instr: msr ttbr1_el1, x30 (480713 hits) (op=0xd518203e/ System Reg)
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Instr: msr vbar_el1, x30 (480671 hits) (op=0xd518c01e/ System Reg)
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...
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To find the argument shorthand for the class you need to examine the
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source code of the plugin at the moment, specifically the ``*opt``
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argument in the InsnClassExecCount tables.
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- contrib/plugins/lockstep.c
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This is a debugging tool for developers who want to find out when and
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where execution diverges after a subtle change to TCG code generation.
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It is not an exact science and results are likely to be mixed once
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asynchronous events are introduced. While the use of -icount can
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introduce determinism to the execution flow it doesn't always follow
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the translation sequence will be exactly the same. Typically this is
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caused by a timer firing to service the GUI causing a block to end
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early. However in some cases it has proved to be useful in pointing
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people at roughly where execution diverges. The only argument you need
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for the plugin is a path for the socket the two instances will
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communicate over::
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$ qemu-system-sparc -monitor none -parallel none \
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-net none -M SS-20 -m 256 -kernel day11/zImage.elf \
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-plugin ./contrib/plugins/liblockstep.so,sockpath=lockstep-sparc.sock \
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-d plugin,nochain
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which will eventually report::
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qemu-system-sparc: warning: nic lance.0 has no peer
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@ 0x000000ffd06678 vs 0x000000ffd001e0 (2/1 since last)
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@ 0x000000ffd07d9c vs 0x000000ffd06678 (3/1 since last)
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Δ insn_count @ 0x000000ffd07d9c (809900609) vs 0x000000ffd06678 (809900612)
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previously @ 0x000000ffd06678/10 (809900609 insns)
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previously @ 0x000000ffd001e0/4 (809900599 insns)
|
|
previously @ 0x000000ffd080ac/2 (809900595 insns)
|
|
previously @ 0x000000ffd08098/5 (809900593 insns)
|
|
previously @ 0x000000ffd080c0/1 (809900588 insns)
|
|
|
|
- contrib/plugins/hwprofile.c
|
|
|
|
The hwprofile tool can only be used with system emulation and allows
|
|
the user to see what hardware is accessed how often. It has a number of options:
|
|
|
|
* track=read or track=write
|
|
|
|
By default the plugin tracks both reads and writes. You can use one
|
|
of these options to limit the tracking to just one class of accesses.
|
|
|
|
* source
|
|
|
|
Will include a detailed break down of what the guest PC that made the
|
|
access was. Not compatible with the pattern option. Example output::
|
|
|
|
cirrus-low-memory @ 0xfffffd00000a0000
|
|
pc:fffffc0000005cdc, 1, 256
|
|
pc:fffffc0000005ce8, 1, 256
|
|
pc:fffffc0000005cec, 1, 256
|
|
|
|
* pattern
|
|
|
|
Instead break down the accesses based on the offset into the HW
|
|
region. This can be useful for seeing the most used registers of a
|
|
device. Example output::
|
|
|
|
pci0-conf @ 0xfffffd01fe000000
|
|
off:00000004, 1, 1
|
|
off:00000010, 1, 3
|
|
off:00000014, 1, 3
|
|
off:00000018, 1, 2
|
|
off:0000001c, 1, 2
|
|
off:00000020, 1, 2
|
|
...
|
|
|
|
- contrib/plugins/execlog.c
|
|
|
|
The execlog tool traces executed instructions with memory access. It can be used
|
|
for debugging and security analysis purposes.
|
|
Please be aware that this will generate a lot of output.
|
|
|
|
The plugin needs default argument::
|
|
|
|
$ qemu-system-arm $(QEMU_ARGS) \
|
|
-plugin ./contrib/plugins/libexeclog.so -d plugin
|
|
|
|
which will output an execution trace following this structure::
|
|
|
|
# vCPU, vAddr, opcode, disassembly[, load/store, memory addr, device]...
|
|
0, 0xa12, 0xf8012400, "movs r4, #0"
|
|
0, 0xa14, 0xf87f42b4, "cmp r4, r6"
|
|
0, 0xa16, 0xd206, "bhs #0xa26"
|
|
0, 0xa18, 0xfff94803, "ldr r0, [pc, #0xc]", load, 0x00010a28, RAM
|
|
0, 0xa1a, 0xf989f000, "bl #0xd30"
|
|
0, 0xd30, 0xfff9b510, "push {r4, lr}", store, 0x20003ee0, RAM, store, 0x20003ee4, RAM
|
|
0, 0xd32, 0xf9893014, "adds r0, #0x14"
|
|
0, 0xd34, 0xf9c8f000, "bl #0x10c8"
|
|
0, 0x10c8, 0xfff96c43, "ldr r3, [r0, #0x44]", load, 0x200000e4, RAM
|
|
|
|
the output can be filtered to only track certain instructions or
|
|
addresses using the ``ifilter`` or ``afilter`` options. You can stack the
|
|
arguments if required::
|
|
|
|
$ qemu-system-arm $(QEMU_ARGS) \
|
|
-plugin ./contrib/plugins/libexeclog.so,ifilter=st1w,afilter=0x40001808 -d plugin
|
|
|
|
This plugin can also dump registers when they change value. Specify the name of the
|
|
registers with multiple ``reg`` options. You can also use glob style matching if you wish::
|
|
|
|
$ qemu-system-arm $(QEMU_ARGS) \
|
|
-plugin ./contrib/plugins/libexeclog.so,reg=\*_el2,reg=sp -d plugin
|
|
|
|
Be aware that each additional register to check will slow down
|
|
execution quite considerably. You can optimise the number of register
|
|
checks done by using the rdisas option. This will only instrument
|
|
instructions that mention the registers in question in disassembly.
|
|
This is not foolproof as some instructions implicitly change
|
|
instructions. You can use the ifilter to catch these cases:
|
|
|
|
$ qemu-system-arm $(QEMU_ARGS) \
|
|
-plugin ./contrib/plugins/libexeclog.so,ifilter=msr,ifilter=blr,reg=x30,reg=\*_el1,rdisas=on
|
|
|
|
- contrib/plugins/cache.c
|
|
|
|
Cache modelling plugin that measures the performance of a given L1 cache
|
|
configuration, and optionally a unified L2 per-core cache when a given working
|
|
set is run::
|
|
|
|
$ qemu-x86_64 -plugin ./contrib/plugins/libcache.so \
|
|
-d plugin -D cache.log ./tests/tcg/x86_64-linux-user/float_convs
|
|
|
|
will report the following::
|
|
|
|
core #, data accesses, data misses, dmiss rate, insn accesses, insn misses, imiss rate
|
|
0 996695 508 0.0510% 2642799 18617 0.7044%
|
|
|
|
address, data misses, instruction
|
|
0x424f1e (_int_malloc), 109, movq %rax, 8(%rcx)
|
|
0x41f395 (_IO_default_xsputn), 49, movb %dl, (%rdi, %rax)
|
|
0x42584d (ptmalloc_init.part.0), 33, movaps %xmm0, (%rax)
|
|
0x454d48 (__tunables_init), 20, cmpb $0, (%r8)
|
|
...
|
|
|
|
address, fetch misses, instruction
|
|
0x4160a0 (__vfprintf_internal), 744, movl $1, %ebx
|
|
0x41f0a0 (_IO_setb), 744, endbr64
|
|
0x415882 (__vfprintf_internal), 744, movq %r12, %rdi
|
|
0x4268a0 (__malloc), 696, andq $0xfffffffffffffff0, %rax
|
|
...
|
|
|
|
The plugin has a number of arguments, all of them are optional:
|
|
|
|
* limit=N
|
|
|
|
Print top N icache and dcache thrashing instructions along with their
|
|
address, number of misses, and its disassembly. (default: 32)
|
|
|
|
* icachesize=N
|
|
* iblksize=B
|
|
* iassoc=A
|
|
|
|
Instruction cache configuration arguments. They specify the cache size, block
|
|
size, and associativity of the instruction cache, respectively.
|
|
(default: N = 16384, B = 64, A = 8)
|
|
|
|
* dcachesize=N
|
|
* dblksize=B
|
|
* dassoc=A
|
|
|
|
Data cache configuration arguments. They specify the cache size, block size,
|
|
and associativity of the data cache, respectively.
|
|
(default: N = 16384, B = 64, A = 8)
|
|
|
|
* evict=POLICY
|
|
|
|
Sets the eviction policy to POLICY. Available policies are: :code:`lru`,
|
|
:code:`fifo`, and :code:`rand`. The plugin will use the specified policy for
|
|
both instruction and data caches. (default: POLICY = :code:`lru`)
|
|
|
|
* cores=N
|
|
|
|
Sets the number of cores for which we maintain separate icache and dcache.
|
|
(default: for linux-user, N = 1, for full system emulation: N = cores
|
|
available to guest)
|
|
|
|
* l2=on
|
|
|
|
Simulates a unified L2 cache (stores blocks for both instructions and data)
|
|
using the default L2 configuration (cache size = 2MB, associativity = 16-way,
|
|
block size = 64B).
|
|
|
|
* l2cachesize=N
|
|
* l2blksize=B
|
|
* l2assoc=A
|
|
|
|
L2 cache configuration arguments. They specify the cache size, block size, and
|
|
associativity of the L2 cache, respectively. Setting any of the L2
|
|
configuration arguments implies ``l2=on``.
|
|
(default: N = 2097152 (2MB), B = 64, A = 16)
|
|
|
|
Plugin API
|
|
==========
|
|
|
|
The following API is generated from the inline documentation in
|
|
``include/qemu/qemu-plugin.h``. Please ensure any updates to the API
|
|
include the full kernel-doc annotations.
|
|
|
|
.. kernel-doc:: include/qemu/qemu-plugin.h
|