148 lines
5.9 KiB
ReStructuredText
148 lines
5.9 KiB
ReStructuredText
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Deterministic Automata Monitor Synthesis
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========================================
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The starting point for the application of runtime verification (RV) technics
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is the *specification* or *modeling* of the desired (or undesired) behavior
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of the system under scrutiny.
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The formal representation needs to be then *synthesized* into a *monitor*
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that can then be used in the analysis of the trace of the system. The
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*monitor* connects to the system via an *instrumentation* that converts
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the events from the *system* to the events of the *specification*.
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In Linux terms, the runtime verification monitors are encapsulated inside
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the *RV monitor* abstraction. The RV monitor includes a set of instances
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of the monitor (per-cpu monitor, per-task monitor, and so on), the helper
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functions that glue the monitor to the system reference model, and the
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trace output as a reaction to event parsing and exceptions, as depicted
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below::
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Linux +----- RV Monitor ----------------------------------+ Formal
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Realm | | Realm
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+-------------------+ +----------------+ +-----------------+
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| Linux kernel | | Monitor | | Reference |
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| Tracing | -> | Instance(s) | <- | Model |
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| (instrumentation) | | (verification) | | (specification) |
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+-------------------+ +----------------+ +-----------------+
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| | |
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| V |
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| +----------+ |
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| | Reaction | |
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| +--+--+--+-+ |
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| | | | |
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| | | +-> trace output ? |
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+------------------------|--|----------------------+
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| +----> panic ?
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+-------> <user-specified>
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DA monitor synthesis
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--------------------
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The synthesis of automata-based models into the Linux *RV monitor* abstraction
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is automated by the dot2k tool and the rv/da_monitor.h header file that
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contains a set of macros that automatically generate the monitor's code.
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dot2k
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-----
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The dot2k utility leverages dot2c by converting an automaton model in
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the DOT format into the C representation [1] and creating the skeleton of
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a kernel monitor in C.
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For example, it is possible to transform the wip.dot model present in
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[1] into a per-cpu monitor with the following command::
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$ dot2k -d wip.dot -t per_cpu
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This will create a directory named wip/ with the following files:
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- wip.h: the wip model in C
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- wip.c: the RV monitor
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The wip.c file contains the monitor declaration and the starting point for
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the system instrumentation.
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Monitor macros
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--------------
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The rv/da_monitor.h enables automatic code generation for the *Monitor
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Instance(s)* using C macros.
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The benefits of the usage of macro for monitor synthesis are 3-fold as it:
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- Reduces the code duplication;
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- Facilitates the bug fix/improvement;
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- Avoids the case of developers changing the core of the monitor code
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to manipulate the model in a (let's say) non-standard way.
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This initial implementation presents three different types of monitor instances:
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- ``#define DECLARE_DA_MON_GLOBAL(name, type)``
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- ``#define DECLARE_DA_MON_PER_CPU(name, type)``
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- ``#define DECLARE_DA_MON_PER_TASK(name, type)``
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The first declares the functions for a global deterministic automata monitor,
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the second for monitors with per-cpu instances, and the third with per-task
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instances.
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In all cases, the 'name' argument is a string that identifies the monitor, and
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the 'type' argument is the data type used by dot2k on the representation of
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the model in C.
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For example, the wip model with two states and three events can be
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stored in an 'unsigned char' type. Considering that the preemption control
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is a per-cpu behavior, the monitor declaration in the 'wip.c' file is::
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DECLARE_DA_MON_PER_CPU(wip, unsigned char);
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The monitor is executed by sending events to be processed via the functions
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presented below::
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da_handle_event_$(MONITOR_NAME)($(event from event enum));
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da_handle_start_event_$(MONITOR_NAME)($(event from event enum));
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da_handle_start_run_event_$(MONITOR_NAME)($(event from event enum));
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The function ``da_handle_event_$(MONITOR_NAME)()`` is the regular case where
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the event will be processed if the monitor is processing events.
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When a monitor is enabled, it is placed in the initial state of the automata.
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However, the monitor does not know if the system is in the *initial state*.
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The ``da_handle_start_event_$(MONITOR_NAME)()`` function is used to notify the
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monitor that the system is returning to the initial state, so the monitor can
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start monitoring the next event.
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The ``da_handle_start_run_event_$(MONITOR_NAME)()`` function is used to notify
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the monitor that the system is known to be in the initial state, so the
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monitor can start monitoring and monitor the current event.
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Using the wip model as example, the events "preempt_disable" and
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"sched_waking" should be sent to monitor, respectively, via [2]::
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da_handle_event_wip(preempt_disable_wip);
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da_handle_event_wip(sched_waking_wip);
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While the event "preempt_enabled" will use::
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da_handle_start_event_wip(preempt_enable_wip);
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To notify the monitor that the system will be returning to the initial state,
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so the system and the monitor should be in sync.
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Final remarks
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-------------
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With the monitor synthesis in place using the rv/da_monitor.h and
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dot2k, the developer's work should be limited to the instrumentation
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of the system, increasing the confidence in the overall approach.
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[1] For details about deterministic automata format and the translation
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from one representation to another, see::
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Documentation/trace/rv/deterministic_automata.rst
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[2] dot2k appends the monitor's name suffix to the events enums to
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avoid conflicting variables when exporting the global vmlinux.h
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use by BPF programs.
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