9f7ad79c16
Event format ending with newlines confuse the trace reports. Forbid them. Add a check to refuse new format added with trailing newline: $ make [...] GEN hw/misc/trace.h Traceback (most recent call last): File "scripts/tracetool.py", line 152, in <module> main(sys.argv) File "scripts/tracetool.py", line 143, in main events.extend(tracetool.read_events(fh, arg)) File "scripts/tracetool/__init__.py", line 367, in read_events event = Event.build(line) File "scripts/tracetool/__init__.py", line 281, in build raise ValueError("Event format can not end with a newline character") ValueError: Error at hw/misc/trace-events:121: Event format can not end with a newline character Reviewed-by: John Snow <jsnow@redhat.com> Reviewed-by: Kevin Wolf <kwolf@redhat.com> Signed-off-by: Philippe Mathieu-Daudé <philmd@redhat.com> Message-id: 20190916095121.29506-3-philmd@redhat.com Message-Id: <20190916095121.29506-3-philmd@redhat.com> Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com>
453 lines
16 KiB
Plaintext
453 lines
16 KiB
Plaintext
= Tracing =
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== Introduction ==
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This document describes the tracing infrastructure in QEMU and how to use it
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for debugging, profiling, and observing execution.
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== Quickstart ==
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1. Build with the 'simple' trace backend:
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./configure --enable-trace-backends=simple
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make
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2. Create a file with the events you want to trace:
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echo memory_region_ops_read >/tmp/events
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3. Run the virtual machine to produce a trace file:
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qemu --trace events=/tmp/events ... # your normal QEMU invocation
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4. Pretty-print the binary trace file:
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./scripts/simpletrace.py trace-events-all trace-* # Override * with QEMU <pid>
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== Trace events ==
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=== Sub-directory setup ===
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Each directory in the source tree can declare a set of static trace events
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in a local "trace-events" file. All directories which contain "trace-events"
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files must be listed in the "trace-events-subdirs" make variable in the top
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level Makefile.objs. During build, the "trace-events" file in each listed
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subdirectory will be processed by the "tracetool" script to generate code for
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the trace events.
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The individual "trace-events" files are merged into a "trace-events-all" file,
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which is also installed into "/usr/share/qemu" with the name "trace-events".
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This merged file is to be used by the "simpletrace.py" script to later analyse
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traces in the simpletrace data format.
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In the sub-directory the following files will be automatically generated
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- trace.c - the trace event state declarations
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- trace.h - the trace event enums and probe functions
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- trace-dtrace.h - DTrace event probe specification
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- trace-dtrace.dtrace - DTrace event probe helper declaration
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- trace-dtrace.o - binary DTrace provider (generated by dtrace)
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- trace-ust.h - UST event probe helper declarations
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Source files in the sub-directory should #include the local 'trace.h' file,
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without any sub-directory path prefix. eg io/channel-buffer.c would do
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#include "trace.h"
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To access the 'io/trace.h' file. While it is possible to include a trace.h
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file from outside a source files' own sub-directory, this is discouraged in
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general. It is strongly preferred that all events be declared directly in
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the sub-directory that uses them. The only exception is where there are some
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shared trace events defined in the top level directory trace-events file.
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The top level directory generates trace files with a filename prefix of
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"trace-root" instead of just "trace". This is to avoid ambiguity between
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a trace.h in the current directory, vs the top level directory.
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=== Using trace events ===
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Trace events are invoked directly from source code like this:
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#include "trace.h" /* needed for trace event prototype */
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void *qemu_vmalloc(size_t size)
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{
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void *ptr;
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size_t align = QEMU_VMALLOC_ALIGN;
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if (size < align) {
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align = getpagesize();
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}
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ptr = qemu_memalign(align, size);
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trace_qemu_vmalloc(size, ptr);
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return ptr;
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}
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=== Declaring trace events ===
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The "tracetool" script produces the trace.h header file which is included by
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every source file that uses trace events. Since many source files include
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trace.h, it uses a minimum of types and other header files included to keep the
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namespace clean and compile times and dependencies down.
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Trace events should use types as follows:
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* Use stdint.h types for fixed-size types. Most offsets and guest memory
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addresses are best represented with uint32_t or uint64_t. Use fixed-size
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types over primitive types whose size may change depending on the host
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(32-bit versus 64-bit) so trace events don't truncate values or break
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the build.
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* Use void * for pointers to structs or for arrays. The trace.h header
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cannot include all user-defined struct declarations and it is therefore
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necessary to use void * for pointers to structs.
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* For everything else, use primitive scalar types (char, int, long) with the
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appropriate signedness.
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* Avoid floating point types (float and double) because SystemTap does not
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support them. In most cases it is possible to round to an integer type
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instead. This may require scaling the value first by multiplying it by 1000
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or the like when digits after the decimal point need to be preserved.
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Format strings should reflect the types defined in the trace event. Take
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special care to use PRId64 and PRIu64 for int64_t and uint64_t types,
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respectively. This ensures portability between 32- and 64-bit platforms.
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Format strings must not end with a newline character. It is the responsibility
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of backends to adapt line ending for proper logging.
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Each event declaration will start with the event name, then its arguments,
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finally a format string for pretty-printing. For example:
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qemu_vmalloc(size_t size, void *ptr) "size %zu ptr %p"
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qemu_vfree(void *ptr) "ptr %p"
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=== Hints for adding new trace events ===
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1. Trace state changes in the code. Interesting points in the code usually
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involve a state change like starting, stopping, allocating, freeing. State
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changes are good trace events because they can be used to understand the
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execution of the system.
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2. Trace guest operations. Guest I/O accesses like reading device registers
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are good trace events because they can be used to understand guest
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interactions.
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3. Use correlator fields so the context of an individual line of trace output
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can be understood. For example, trace the pointer returned by malloc and
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used as an argument to free. This way mallocs and frees can be matched up.
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Trace events with no context are not very useful.
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4. Name trace events after their function. If there are multiple trace events
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in one function, append a unique distinguisher at the end of the name.
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== Generic interface and monitor commands ==
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You can programmatically query and control the state of trace events through a
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backend-agnostic interface provided by the header "trace/control.h".
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Note that some of the backends do not provide an implementation for some parts
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of this interface, in which case QEMU will just print a warning (please refer to
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header "trace/control.h" to see which routines are backend-dependent).
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The state of events can also be queried and modified through monitor commands:
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* info trace-events
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View available trace events and their state. State 1 means enabled, state 0
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means disabled.
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* trace-event NAME on|off
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Enable/disable a given trace event or a group of events (using wildcards).
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The "--trace events=<file>" command line argument can be used to enable the
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events listed in <file> from the very beginning of the program. This file must
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contain one event name per line.
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If a line in the "--trace events=<file>" file begins with a '-', the trace event
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will be disabled instead of enabled. This is useful when a wildcard was used
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to enable an entire family of events but one noisy event needs to be disabled.
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Wildcard matching is supported in both the monitor command "trace-event" and the
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events list file. That means you can enable/disable the events having a common
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prefix in a batch. For example, virtio-blk trace events could be enabled using
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the following monitor command:
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trace-event virtio_blk_* on
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== Trace backends ==
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The "tracetool" script automates tedious trace event code generation and also
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keeps the trace event declarations independent of the trace backend. The trace
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events are not tightly coupled to a specific trace backend, such as LTTng or
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SystemTap. Support for trace backends can be added by extending the "tracetool"
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script.
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The trace backends are chosen at configure time:
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./configure --enable-trace-backends=simple
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For a list of supported trace backends, try ./configure --help or see below.
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If multiple backends are enabled, the trace is sent to them all.
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If no backends are explicitly selected, configure will default to the
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"log" backend.
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The following subsections describe the supported trace backends.
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=== Nop ===
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The "nop" backend generates empty trace event functions so that the compiler
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can optimize out trace events completely. This imposes no performance
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penalty.
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Note that regardless of the selected trace backend, events with the "disable"
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property will be generated with the "nop" backend.
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=== Log ===
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The "log" backend sends trace events directly to standard error. This
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effectively turns trace events into debug printfs.
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This is the simplest backend and can be used together with existing code that
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uses DPRINTF().
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=== Simpletrace ===
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The "simple" backend supports common use cases and comes as part of the QEMU
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source tree. It may not be as powerful as platform-specific or third-party
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trace backends but it is portable. This is the recommended trace backend
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unless you have specific needs for more advanced backends.
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=== Ftrace ===
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The "ftrace" backend writes trace data to ftrace marker. This effectively
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sends trace events to ftrace ring buffer, and you can compare qemu trace
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data and kernel(especially kvm.ko when using KVM) trace data.
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if you use KVM, enable kvm events in ftrace:
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# echo 1 > /sys/kernel/debug/tracing/events/kvm/enable
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After running qemu by root user, you can get the trace:
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# cat /sys/kernel/debug/tracing/trace
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Restriction: "ftrace" backend is restricted to Linux only.
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=== Syslog ===
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The "syslog" backend sends trace events using the POSIX syslog API. The log
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is opened specifying the LOG_DAEMON facility and LOG_PID option (so events
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are tagged with the pid of the particular QEMU process that generated
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them). All events are logged at LOG_INFO level.
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NOTE: syslog may squash duplicate consecutive trace events and apply rate
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limiting.
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Restriction: "syslog" backend is restricted to POSIX compliant OS.
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==== Monitor commands ====
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* trace-file on|off|flush|set <path>
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Enable/disable/flush the trace file or set the trace file name.
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==== Analyzing trace files ====
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The "simple" backend produces binary trace files that can be formatted with the
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simpletrace.py script. The script takes the "trace-events-all" file and the
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binary trace:
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./scripts/simpletrace.py trace-events-all trace-12345
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You must ensure that the same "trace-events-all" file was used to build QEMU,
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otherwise trace event declarations may have changed and output will not be
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consistent.
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=== LTTng Userspace Tracer ===
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The "ust" backend uses the LTTng Userspace Tracer library. There are no
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monitor commands built into QEMU, instead UST utilities should be used to list,
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enable/disable, and dump traces.
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Package lttng-tools is required for userspace tracing. You must ensure that the
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current user belongs to the "tracing" group, or manually launch the
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lttng-sessiond daemon for the current user prior to running any instance of
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QEMU.
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While running an instrumented QEMU, LTTng should be able to list all available
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events:
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lttng list -u
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Create tracing session:
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lttng create mysession
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Enable events:
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lttng enable-event qemu:g_malloc -u
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Where the events can either be a comma-separated list of events, or "-a" to
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enable all tracepoint events. Start and stop tracing as needed:
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lttng start
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lttng stop
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View the trace:
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lttng view
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Destroy tracing session:
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lttng destroy
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Babeltrace can be used at any later time to view the trace:
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babeltrace $HOME/lttng-traces/mysession-<date>-<time>
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=== SystemTap ===
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The "dtrace" backend uses DTrace sdt probes but has only been tested with
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SystemTap. When SystemTap support is detected a .stp file with wrapper probes
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is generated to make use in scripts more convenient. This step can also be
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performed manually after a build in order to change the binary name in the .stp
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probes:
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scripts/tracetool.py --backends=dtrace --format=stap \
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--binary path/to/qemu-binary \
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--target-type system \
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--target-name x86_64 \
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<trace-events-all >qemu.stp
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To facilitate simple usage of systemtap where there merely needs to be printf
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logging of certain probes, a helper script "qemu-trace-stap" is provided.
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Consult its manual page for guidance on its usage.
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== Trace event properties ==
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Each event in the "trace-events-all" file can be prefixed with a space-separated
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list of zero or more of the following event properties.
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=== "disable" ===
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If a specific trace event is going to be invoked a huge number of times, this
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might have a noticeable performance impact even when the event is
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programmatically disabled.
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In this case you should declare such event with the "disable" property. This
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will effectively disable the event at compile time (by using the "nop" backend),
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thus having no performance impact at all on regular builds (i.e., unless you
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edit the "trace-events-all" file).
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In addition, there might be cases where relatively complex computations must be
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performed to generate values that are only used as arguments for a trace
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function. In these cases you can use the macro 'TRACE_${EVENT_NAME}_ENABLED' to
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guard such computations and avoid its compilation when the event is disabled:
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#include "trace.h" /* needed for trace event prototype */
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void *qemu_vmalloc(size_t size)
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{
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void *ptr;
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size_t align = QEMU_VMALLOC_ALIGN;
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if (size < align) {
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align = getpagesize();
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}
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ptr = qemu_memalign(align, size);
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if (TRACE_QEMU_VMALLOC_ENABLED) { /* preprocessor macro */
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void *complex;
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/* some complex computations to produce the 'complex' value */
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trace_qemu_vmalloc(size, ptr, complex);
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}
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return ptr;
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}
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You can check both if the event has been disabled and is dynamically enabled at
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the same time using the 'trace_event_get_state_backends' routine (see header
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"trace/control.h" for more information).
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=== "tcg" ===
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Guest code generated by TCG can be traced by defining an event with the "tcg"
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event property. Internally, this property generates two events:
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"<eventname>_trans" to trace the event at translation time, and
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"<eventname>_exec" to trace the event at execution time.
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Instead of using these two events, you should instead use the function
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"trace_<eventname>_tcg" during translation (TCG code generation). This function
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will automatically call "trace_<eventname>_trans", and will generate the
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necessary TCG code to call "trace_<eventname>_exec" during guest code execution.
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Events with the "tcg" property can be declared in the "trace-events" file with a
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mix of native and TCG types, and "trace_<eventname>_tcg" will gracefully forward
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them to the "<eventname>_trans" and "<eventname>_exec" events. Since TCG values
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are not known at translation time, these are ignored by the "<eventname>_trans"
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event. Because of this, the entry in the "trace-events" file needs two printing
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formats (separated by a comma):
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tcg foo(uint8_t a1, TCGv_i32 a2) "a1=%d", "a1=%d a2=%d"
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For example:
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#include "trace-tcg.h"
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void some_disassembly_func (...)
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{
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uint8_t a1 = ...;
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TCGv_i32 a2 = ...;
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trace_foo_tcg(a1, a2);
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}
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This will immediately call:
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void trace_foo_trans(uint8_t a1);
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and will generate the TCG code to call:
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void trace_foo(uint8_t a1, uint32_t a2);
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=== "vcpu" ===
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Identifies events that trace vCPU-specific information. It implicitly adds a
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"CPUState*" argument, and extends the tracing print format to show the vCPU
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information. If used together with the "tcg" property, it adds a second
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"TCGv_env" argument that must point to the per-target global TCG register that
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points to the vCPU when guest code is executed (usually the "cpu_env" variable).
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The "tcg" and "vcpu" properties are currently only honored in the root
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./trace-events file.
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The following example events:
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foo(uint32_t a) "a=%x"
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vcpu bar(uint32_t a) "a=%x"
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tcg vcpu baz(uint32_t a) "a=%x", "a=%x"
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Can be used as:
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#include "trace-tcg.h"
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CPUArchState *env;
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TCGv_ptr cpu_env;
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void some_disassembly_func(...)
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{
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/* trace emitted at this point */
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trace_foo(0xd1);
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/* trace emitted at this point */
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trace_bar(env_cpu(env), 0xd2);
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/* trace emitted at this point (env) and when guest code is executed (cpu_env) */
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trace_baz_tcg(env_cpu(env), cpu_env, 0xd3);
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}
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If the translating vCPU has address 0xc1 and code is later executed by vCPU
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0xc2, this would be an example output:
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// at guest code translation
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foo a=0xd1
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bar cpu=0xc1 a=0xd2
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baz_trans cpu=0xc1 a=0xd3
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// at guest code execution
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baz_exec cpu=0xc2 a=0xd3
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