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+Deterministic Automata Monitor Synthesis
+========================================
+
+The starting point for the application of runtime verification (RV) technics is
+the *specification* or *modeling* of the desired (or undesired) behavior of the
+system under scrutiny.
+
+The formal representation needs to be then *synthesized* into a *monitor* that
+can then be used in the analysis of the trace of the system. The *monitor*
+conects to the system via an *instrumentation* layer, that converts the events
+from the *system* to the events of the *specification*.
+
+This document introduces some concepts behind the **Deterministic Automata
+(DA)** monitor synthesis.
+
+DA monitor synthesis in a nutshell
+------------------------------------------------------
+
+The synthesis of automata-based models into the Linux *RV monitor* abstraction
+is automated by a tool named "dot2k", and the "rv/da_monitor.h" provided
+by the RV interface.
+
+Given a file "wip.dot", representing a per-cpu monitor, with this content::
+
+ digraph state_automaton {
+ center = true;
+ size = "7,11";
+ rankdir = LR;
+ {node [shape = circle] "non_preemptive"};
+ {node [shape = plaintext, style=invis, label=""] "__init_preemptive"};
+ {node [shape = doublecircle] "preemptive"};
+ {node [shape = circle] "preemptive"};
+ "__init_preemptive" -> "preemptive";
+ "non_preemptive" [label = "non_preemptive"];
+ "non_preemptive" -> "non_preemptive" [ label = "sched_waking" ];
+ "non_preemptive" -> "preemptive" [ label = "preempt_enable" ];
+ "preemptive" [label = "preemptive"];
+ "preemptive" -> "non_preemptive" [ label = "preempt_disable" ];
+ { rank = min ;
+ "__init_preemptive";
+ "preemptive";
+ }
+ }
+
+Run the dot2k tool with the model, specifying that it is a "per-cpu"
+model::
+
+ $ dot2k -d ~/wip.dot -t per_cpu
+
+This will create a directory named "wip/" with the following files:
+
+- model.h: the wip in C
+- wip.h: tracepoints that report the execution of the events by the
+ monitor
+- wip.c: the RV monitor
+
+The following line in the "wip.c" file is responsible for the monitor
+synthesis::
+
+ DECLARE_DA_MON_PER_CPU(wip, char);
+
+With that in place, the work left to be done is the *instrumentation* of
+the monitor, which is already initialized by dot2k.
+
+DA: Introduction and representation formats
+---------------------------------------------------------------
+
+Formally, a deterministic automaton, denoted by G, is defined as a quintuple:
+
+ *G* = { *X*, *E*, *f*, x\ :subscript:`0`, X\ :subscript:`m` }
+
+where:
+
+- *X* is the set of states;
+- *E* is the finite set of events;
+- x\ :subscript:`0` is the initial state;
+- X\ :subscript:`m` (subset of *X*) is the set of marked states.
+- *f* : *X* x *E* -> *X* $ is the transition function. It defines the state
+ transition in the occurrence of an event from *E* in the state *X*. In the
+ special case of deterministic automata, the occurrence of the event in *E*
+ in a state in *X* has a deterministic next state from *X*.
+
+One of the most evident benefits for the practical application of the automata
+formalism is its *graphic representation*, represented using vertices (nodes)
+and edges, which is very intuitive for *operating system* practitioners.
+
+For example, given an automata wip, with a regular representation of:
+
+- *X* = { ``preemptive``, ``non_preemptive``}
+- *E* = { ``preempt_enable``, ``preempt_disable``, ``sched_waking``}
+- x\ :subscript:`0` = ``preemptive``
+- X\ :subscript:`m` = {``preemptive``}
+- *f* =
+ - *f*\ (``preemptive``, ``preempt_disable``) = ``non_preemptive``
+ - *f*\ (``non_preemptive``, ``sched_waking``) = ``non_preemptive``
+ - *f*\ (``non_preemptive``, ``preempt_enable``) = ``preemptive``
+
+
+It can also be represented in a graphic format, without any loss, using this
+format::
+
+ preempt_enable
+ +---------------------------------+
+ v |
+ #============# preempt_disable +------------------+
+ --> H preemptive H -----------------> | non_preemptive |
+ #============# +------------------+
+ ^ sched_waking |
+ +--------------+
+
+The Graphviz open-source tool can produce this graphic format using the
+(textual) DOT language as the source code. The DOT format is widely
+used and can be converted to many other formats, including the ASCII art above.
+
+The dot2c tool presented in:
+
+ DE OLIVEIRA, Daniel Bristot; CUCINOTTA, Tommaso; DE OLIVEIRA, Romulo
+ Silva. Efficient formal verification for the Linux kernel. In:
+ International Conference on Software Engineering and Formal Methods.
+ Springer, Cham, 2019. p. 315-332.
+
+Translates a deterministic automaton in the DOT format into a C source
+code. For instance, using the wip model as input for dot2c results in
+the following C representation::
+
+ enum states {
+ preemptive = 0,
+ non_preemptive,
+ state_max
+ };
+
+ enum events {
+ preempt_disable = 0,
+ preempt_enable,
+ sched_waking,
+ event_max
+ };
+
+ struct automaton {
+ char *state_names[state_max];
+ char *event_names[event_max];
+ char function[state_max][event_max];
+ char initial_state;
+ char final_states[state_max];
+ };
+
+ struct automaton aut = {
+ .state_names = {
+ "preemptive",
+ "non_preemptive"
+ },
+ .event_names = {
+ "preempt_disable",
+ "preempt_enable",
+ "sched_waking"
+ },
+ .function = {
+ { non_preemptive, -1, -1 },
+ { -1, preemptive, non_preemptive },
+ },
+ .initial_state = preemptive,
+ .final_states = { 1, 0 },
+ };
+
+DA monitor synthesis for Linux
+------------------------------
+
+In Linux terms, the runtime verification monitors are encapsulated
+inside the "RV monitor" abstraction. The "RV monitor" includes a set
+of instances of the monitor (per-cpu monitor, per-task monitor, and
+so on), the helper functions that glue the monitor to the system
+reference model, and the trace output as a reaction for event parsing
+and exceptions, as depicted below::
+
+ Linux +----- RV Monitor ----------------------------------+ Formal
+ Realm | | Realm
+ +-------------------+ +----------------+ +-----------------+
+ | Linux kernel | | Monitor | | Reference |
+ | Tracing | -> | Instance(s) | <- | Model |
+ | (instrumentation) | | (verification) | | (specification) |
+ +-------------------+ +----------------+ +-----------------+
+ | | |
+ | V |
+ | +----------+ |
+ | | Reaction | |
+ | +--+--+--+-+ |
+ | | | | |
+ | | | +-> trace output ? |
+ +------------------------|--|----------------------+
+ | +----> panic ?
+ +-------> <user-specified>
+
+
+The dot2c tool works connecting the *Reference Model* to the *RV Monitor*
+abstraction by translating the *formal notation* into *code*.
+
+The "rv/da_monitor.h" header goes beyond dot2c, extending the code
+generation to the verification stage, generating the code to the *Monitor
+Instance(s)* level using C macros. The trace event code inspires this
+approach.
+
+The benefits of the usage of macro for monitor synthesis is 3-fold:
+
+- Reduces the code duplication;
+- Facilitates the bug fix/improvement;
+- Avoids the case of developers changing the core of the monitor code
+ to manipulate the model in a (let's say) non-standard way.
+
+This initial implementation presents two different types of monitor instances:
+
+- ``#define DECLARE_DA_MON_PER_CPU(name, type)``
+- ``#define DECLARE_DA_MON_PER_TASK(name, type)``
+
+The first declares the functions for deterministic automata monitor with
+per-cpu instances, and the second with per-task instances.
+
+In both cases, the name is a string that identifies the monitor, and the type
+is the data type used by dot2c/k on the representation of the model.
+
+For example, the "wip" model with two states and three events can be
+stored in a "char" type. Considering that the preemption control is a
+per-cpu behavior, the monitor declaration will be::
+
+ DECLARE_DA_MON_PER_CPU(wip, char);
+
+The monitor is executed by sending events to be processed via the functions
+presented below::
+
+ da_handle_event_$(MONITOR_NAME)($(event from event enum));
+ da_handle_init_event_$(MONITOR_NAME)($(event from event enum));
+
+The function ``da_handle_event_$(MONITOR_NAME)()`` is the regular case,
+while the function ``da_handle_init_event_$(MONITOR_NAME)()`` is a special
+case used to synchronize the system with the model.
+
+When a monitor is enabled, it is placed in the initial state of the automata.
+However, the monitor does not know if the system is in the *initial state*.
+Hence, the monitor ignores events sent by sent by
+``da_handle_event_$(MONITOR_NAME)()`` until the function
+``da_handle_init_event_$(MONITOR_NAME)()`` is called.
+
+The function ``da_handle_init_event_$(MONITOR_NAME)()`` should be used for
+the case in which the system generates the event is the one that returns
+the automata to the initial state.
+
+After receiving a ``da_handle_init_event_$(MONITOR_NAME)()`` event, the
+monitor will know that it is in sync with the system and hence will
+start processing the next events.
+
+Using the wip model as example, the events "preempt_disable" and
+"sched_waking" should be sent to monitor, respectively, via::
+
+ da_handle_event_wip(preempt_disable);
+ da_handle_event_wip(sched_waking);
+
+While the event "preempt_enabled" will use::
+
+ da_handle_init_event_wip(preempt_enable);
+
+To notify the monitor that the system will be returning to the initial state,
+so the system and the monitor should be in sync.
+
+rv/da_monitor.h
+-------------------------------------------
+
+The "rv/da_monitor.h" is, mostly, a set of C macros that create function
+definitions based on the paremeters passed via ``DECLARE_DA_MON_*``.
+
+In fewer words, the declaration of a monitor generates:
+
+- Helper functions for getting information from the automata model generated
+ by dot2k.
+- Helper functions for the analysis of a deterministic automata model
+- Functions for the initialization of the monitor instances
+- The definition of the structure to store the monitor instances' data
+
+One important aspect is that the monitor does not call external functions
+for the handling of the events sent by the instrumentation, except for
+generating *tracing events* or *reactions*.
+
+Final remarks
+-------------
+
+With the monitor synthesis in place using, the "rv/da_monitor.h" and
+dot2k, the developer's work should be limited to the instrumentation
+of the system, increasing the confidence in the overall approach.
Add the da_monitor_synthesis.rst introduces some concepts behind the Deterministic Automata (DA) monitor synthesis and interface. Cc: Jonathan Corbet <corbet@lwn.net> Cc: Steven Rostedt <rostedt@goodmis.org> Cc: Ingo Molnar <mingo@redhat.com> Cc: Thomas Gleixner <tglx@linutronix.de> Cc: Peter Zijlstra <peterz@infradead.org> Cc: Will Deacon <will@kernel.org> Cc: Catalin Marinas <catalin.marinas@arm.com> Cc: Marco Elver <elver@google.com> Cc: Dmitry Vyukov <dvyukov@google.com> Cc: "Paul E. McKenney" <paulmck@kernel.org> Cc: Shuah Khan <skhan@linuxfoundation.org> Cc: Gabriele Paoloni <gpaoloni@redhat.com> Cc: Juri Lelli <juri.lelli@redhat.com> Cc: Clark Williams <williams@redhat.com> Cc: linux-doc@vger.kernel.org Cc: linux-kernel@vger.kernel.org Cc: linux-trace-devel@vger.kernel.org Signed-off-by: Daniel Bristot de Oliveira <bristot@kernel.org> --- .../trace/rv/da_monitor_synthesis.rst | 286 ++++++++++++++++++ 1 file changed, 286 insertions(+) create mode 100644 Documentation/trace/rv/da_monitor_synthesis.rst