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Paper/Paper.thy
author Christian Urban <urbanc@in.tum.de>
Wed, 10 Jan 2018 00:28:27 +0000
changeset 202 336ec74969df
parent 20 b56616fd88dd
permissions -rw-r--r--
updated
Ignore whitespace changes - Everywhere: Within whitespace: At end of lines:
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Christian Urban <christian dot urban at kcl dot ac dot uk>
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(*<*)
Christian Urban <christian dot urban at kcl dot ac dot uk>
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theory Paper
Christian Urban <christian dot urban at kcl dot ac dot uk>
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imports "../CpsG" "../ExtGG" "~~/src/HOL/Library/LaTeXsugar"
Christian Urban <christian dot urban at kcl dot ac dot uk>
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begin
Christian Urban <christian dot urban at kcl dot ac dot uk>
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Christian Urban <christian dot urban at kcl dot ac dot uk>


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(*












Christian Urban <christian dot urban at kcl dot ac dot uk>


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find_unused_assms CpsG 












Christian Urban <christian dot urban at kcl dot ac dot uk>


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find_unused_assms ExtGG 












Christian Urban <christian dot urban at kcl dot ac dot uk>


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find_unused_assms Moment 












Christian Urban <christian dot urban at kcl dot ac dot uk>


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find_unused_assms Precedence_ord 












Christian Urban <christian dot urban at kcl dot ac dot uk>


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find_unused_assms PrioG 












Christian Urban <christian dot urban at kcl dot ac dot uk>


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find_unused_assms PrioGDef












Christian Urban <christian dot urban at kcl dot ac dot uk>


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*)












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Christian Urban <christian dot urban at kcl dot ac dot uk>


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ML {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  open Printer;












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  show_question_marks_default := false;












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  *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


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Christian Urban <christian dot urban at kcl dot ac dot uk>


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notation (latex output)












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  Cons ("_::_" [78,77] 73) and












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  vt ("valid'_state") and












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  runing ("running") and












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  birthtime ("last'_set") and












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  If  ("(\<^raw:\textrm{>if\<^raw:}> (_)/ \<^raw:\textrm{>then\<^raw:}> (_)/ \<^raw:\textrm{>else\<^raw:}> (_))" 10) and












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  Prc ("'(_, _')") and












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  holding ("holds") and












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  waiting ("waits") and












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  Th ("T") and












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  Cs ("C") and












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  readys ("ready") and












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  depend ("RAG") and 












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  preced ("prec") and












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  cpreced ("cprec") and












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  dependents ("dependants") and












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  cp ("cprec") and












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  holdents ("resources") and












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  original_priority ("priority") and












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  DUMMY  ("\<^raw:\mbox{$\_\!\_$}>")












Christian Urban <christian dot urban at kcl dot ac dot uk>


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Christian Urban <christian dot urban at kcl dot ac dot uk>


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(*abbreviation












Christian Urban <christian dot urban at kcl dot ac dot uk>


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 "detached s th \<equiv> cntP s th = cntV s th"












Christian Urban <christian dot urban at kcl dot ac dot uk>


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*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


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(*>*)












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Christian Urban <christian dot urban at kcl dot ac dot uk>


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section {* Introduction *}












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Christian Urban <christian dot urban at kcl dot ac dot uk>


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text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  Many real-time systems need to support threads involving priorities and












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  locking of resources. Locking of resources ensures mutual exclusion












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  when accessing shared data or devices that cannot be












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  preempted. Priorities allow scheduling of threads that need to












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  finish their work within deadlines.  Unfortunately, both features












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  can interact in subtle ways leading to a problem, called












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  \emph{Priority Inversion}. Suppose three threads having priorities












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  $H$(igh), $M$(edium) and $L$(ow). We would expect that the thread












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  $H$ blocks any other thread with lower priority and the thread itself cannot












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  be blocked indefinitely by threads with lower priority. Alas, in a naive












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  implementation of resource locking and priorities this property can












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  be violated. For this let $L$ be in the












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  possession of a lock for a resource that $H$ also needs. $H$ must












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  therefore wait for $L$ to exit the critical section and release this












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  lock. The problem is that $L$ might in turn be blocked by any












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  thread with priority $M$, and so $H$ sits there potentially waiting












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  indefinitely. Since $H$ is blocked by threads with lower












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  priorities, the problem is called Priority Inversion. It was first












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  described in \cite{Lampson80} in the context of the












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  Mesa programming language designed for concurrent programming.












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Christian Urban <christian dot urban at kcl dot ac dot uk>


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  If the problem of Priority Inversion is ignored, real-time systems












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  can become unpredictable and resulting bugs can be hard to diagnose.












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  The classic example where this happened is the software that












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  controlled the Mars Pathfinder mission in 1997 \cite{Reeves98}.












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  Once the spacecraft landed, the software shut down at irregular












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  intervals leading to loss of project time as normal operation of the












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  craft could only resume the next day (the mission and data already












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  collected were fortunately not lost, because of a clever system












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  design).  The reason for the shutdowns was that the scheduling












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  software fell victim to Priority Inversion: a low priority thread












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  locking a resource prevented a high priority thread from running in












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  time, leading to a system reset. Once the problem was found, it was












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  rectified by enabling the \emph{Priority Inheritance Protocol} (PIP)












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  \cite{Sha90}\footnote{Sha et al.~call it the \emph{Basic Priority












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  Inheritance Protocol} \cite{Sha90} and others sometimes also call it












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  \emph{Priority Boosting} or \emph{Priority Donation}.} in the scheduling software.












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  The idea behind PIP is to let the thread $L$ temporarily inherit












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  the high priority from $H$ until $L$ leaves the critical section












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  unlocking the resource. This solves the problem of $H$ having to












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  wait indefinitely, because $L$ cannot be blocked by threads having












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  priority $M$. While a few other solutions exist for the Priority












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  Inversion problem, PIP is one that is widely deployed and












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  implemented. This includes VxWorks (a proprietary real-time OS used












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  in the Mars Pathfinder mission, in Boeing's 787 Dreamliner, Honda's












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  ASIMO robot, etc.), but also the POSIX 1003.1c Standard realised for












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  example in libraries for FreeBSD, Solaris and Linux. 












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Christian Urban <christian dot urban at kcl dot ac dot uk>


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  One advantage of PIP is that increasing the priority of a thread












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  can be dynamically calculated by the scheduler. This is in contrast












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  to, for example, \emph{Priority Ceiling} \cite{Sha90}, another












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  solution to the Priority Inversion problem, which requires static












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  analysis of the program in order to prevent Priority












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  Inversion. However, there has also been strong criticism against












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  PIP. For instance, PIP cannot prevent deadlocks when lock












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  dependencies are circular, and also blocking times can be












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  substantial (more than just the duration of a critical section).












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  Though, most criticism against PIP centres around unreliable












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  implementations and PIP being too complicated and too inefficient.












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  For example, Yodaiken writes in \cite{Yodaiken02}:












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  \begin{quote}












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  \it{}``Priority inheritance is neither efficient nor reliable. Implementations












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  are either incomplete (and unreliable) or surprisingly complex and intrusive.''












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  \end{quote}












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  \noindent












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  He suggests avoiding PIP altogether by designing the system so that no 












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  priority inversion may happen in the first place. However, such ideal designs may 












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  not always be achievable in practice.












Christian Urban <christian dot urban at kcl dot ac dot uk>


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Christian Urban <christian dot urban at kcl dot ac dot uk>


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  In our opinion, there is clearly a need for investigating correct












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  algorithms for PIP. A few specifications for PIP exist (in English)












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  and also a few high-level descriptions of implementations (e.g.~in












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  the textbook \cite[Section 5.6.5]{Vahalia96}), but they help little












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  with actual implementations. That this is a problem in practice is












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  proved by an email by Baker, who wrote on 13 July 2009 on the Linux












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  Kernel mailing list:












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  \begin{quote}












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  \it{}``I observed in the kernel code (to my disgust), the Linux PIP












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  implementation is a nightmare: extremely heavy weight, involving












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  maintenance of a full wait-for graph, and requiring updates for a












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  range of events, including priority changes and interruptions of












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  wait operations.''












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  \end{quote}












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  The criticism by Yodaiken, Baker and others suggests another look












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  at PIP from a more abstract level (but still concrete enough












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  to inform an implementation), and makes PIP a good candidate for a












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  formal verification. An additional reason is that the original












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  presentation of PIP~\cite{Sha90}, despite being informally












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  ``proved'' correct, is actually \emph{flawed}. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


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Christian Urban <christian dot urban at kcl dot ac dot uk>


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  Yodaiken \cite{Yodaiken02} points to a subtlety that had been












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  overlooked in the informal proof by Sha et al. They specify in












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  \cite{Sha90} that after the thread (whose priority has been raised)












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  completes its critical section and releases the lock, it ``returns












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  to its original priority level.'' This leads them to believe that an












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  implementation of PIP is ``rather straightforward''~\cite{Sha90}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  Unfortunately, as Yodaiken points out, this behaviour is too












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  simplistic.  Consider the case where the low priority thread $L$












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  locks \emph{two} resources, and two high-priority threads $H$ and












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  $H'$ each wait for one of them.  If $L$ releases one resource












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  so that $H$, say, can proceed, then we still have Priority Inversion












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  with $H'$ (which waits for the other resource). The correct












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  behaviour for $L$ is to switch to the highest remaining priority of












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  the threads that it blocks. The advantage of formalising the












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  correctness of a high-level specification of PIP in a theorem prover












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  is that such issues clearly show up and cannot be overlooked as in












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  informal reasoning (since we have to analyse all possible behaviours












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  of threads, i.e.~\emph{traces}, that could possibly happen).\medskip












Christian Urban <christian dot urban at kcl dot ac dot uk>


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   163













Christian Urban <christian dot urban at kcl dot ac dot uk>


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  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  {\bf Contributions:} There have been earlier formal investigations












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  into PIP \cite{Faria08,Jahier09,Wellings07}, but they employ model












Christian Urban <christian dot urban at kcl dot ac dot uk>


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   167


  checking techniques. This paper presents a formalised and












Christian Urban <christian dot urban at kcl dot ac dot uk>


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   168


  mechanically checked proof for the correctness of PIP (to our












Christian Urban <christian dot urban at kcl dot ac dot uk>


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   169


  knowledge the first one).  In contrast to model checking, our












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  formalisation provides insight into why PIP is correct and allows us












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  to prove stronger properties that, as we will show, can help with an












Christian Urban <christian dot urban at kcl dot ac dot uk>


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  efficient implementation of PIP in the educational PINTOS operating












Christian Urban <christian dot urban at kcl dot ac dot uk>


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   173


  system \cite{PINTOS}.  For example, we found by ``playing'' with the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   174


  formalisation that the choice of the next thread to take over a lock












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   175


  when a resource is released is irrelevant for PIP being correct---a












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   176


  fact that has not been mentioned in the literature and not been used












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   177


  in the reference implementation of PIP in PINTOS.  This fact, however, is important












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   178


  for an efficient implementation of PIP, because we can give the lock












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   179


  to the thread with the highest priority so that it terminates more












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   180


  quickly.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   181


*}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   182













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   183


section {* Formal Model of the Priority Inheritance Protocol *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   184













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   185


text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   186


  The Priority Inheritance Protocol, short PIP, is a scheduling












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   187


  algorithm for a single-processor system.\footnote{We shall come back












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   188


  later to the case of PIP on multi-processor systems.} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   189


  Following good experience in earlier work \cite{Wang09},  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   190


  our model of PIP is based on Paulson's inductive approach to protocol












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   191


  verification \cite{Paulson98}. In this approach a \emph{state} of a system is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   192


  given by a list of events that happened so far (with new events prepended to the list). 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   193


  \emph{Events} of PIP fall












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   194


  into five categories defined as the datatype:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   195













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   196


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   197


  \mbox{\begin{tabular}{r@ {\hspace{2mm}}c@ {\hspace{2mm}}l@ {\hspace{7mm}}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   198


  \isacommand{datatype} event 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   199


  & @{text "="} & @{term "Create thread priority"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   200


  & @{text "|"} & @{term "Exit thread"} \\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   201


  & @{text "|"} & @{term "Set thread priority"} & {\rm reset of the priority for} @{text thread}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   202


  & @{text "|"} & @{term "P thread cs"} & {\rm request of resource} @{text "cs"} {\rm by} @{text "thread"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   203


  & @{text "|"} & @{term "V thread cs"} & {\rm release of resource} @{text "cs"} {\rm by} @{text "thread"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   204


  \end{tabular}}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   205


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   206













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   207


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   208


  whereby threads, priorities and (critical) resources are represented












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   209


  as natural numbers. The event @{term Set} models the situation that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   210


  a thread obtains a new priority given by the programmer or












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   211


  user (for example via the {\tt nice} utility under UNIX).  As in Paulson's work, we












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   212


  need to define functions that allow us to make some observations












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   213


  about states.  One, called @{term threads}, calculates the set of












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   214


  ``live'' threads that we have seen so far:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   215













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   216


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   217


  \mbox{\begin{tabular}{lcl}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   218


  @{thm (lhs) threads.simps(1)} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   219


    @{thm (rhs) threads.simps(1)}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   220


  @{thm (lhs) threads.simps(2)[where thread="th"]} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   221


    @{thm (rhs) threads.simps(2)[where thread="th"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   222


  @{thm (lhs) threads.simps(3)[where thread="th"]} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   223


    @{thm (rhs) threads.simps(3)[where thread="th"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   224


  @{term "threads (DUMMY#s)"} & @{text "\<equiv>"} & @{term "threads s"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   225


  \end{tabular}}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   226


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   227













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   228


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   229


  In this definition @{term "DUMMY # DUMMY"} stands for list-cons.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   230


  Another function calculates the priority for a thread @{text "th"}, which is 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   231


  defined as












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   232













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   233


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   234


  \mbox{\begin{tabular}{lcl}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   235


  @{thm (lhs) original_priority.simps(1)[where thread="th"]} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   236


    @{thm (rhs) original_priority.simps(1)[where thread="th"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   237


  @{thm (lhs) original_priority.simps(2)[where thread="th" and thread'="th'"]} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   238


    @{thm (rhs) original_priority.simps(2)[where thread="th" and thread'="th'"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   239


  @{thm (lhs) original_priority.simps(3)[where thread="th" and thread'="th'"]} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   240


    @{thm (rhs) original_priority.simps(3)[where thread="th" and thread'="th'"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   241


  @{term "original_priority th (DUMMY#s)"} & @{text "\<equiv>"} & @{term "original_priority th s"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   242


  \end{tabular}}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   243


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   244













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   245


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   246


  In this definition we set @{text 0} as the default priority for












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   247


  threads that have not (yet) been created. The last function we need 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   248


  calculates the ``time'', or index, at which time a process had its 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   249


  priority last set.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   250













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   251


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   252


  \mbox{\begin{tabular}{lcl}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   253


  @{thm (lhs) birthtime.simps(1)[where thread="th"]} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   254


    @{thm (rhs) birthtime.simps(1)[where thread="th"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   255


  @{thm (lhs) birthtime.simps(2)[where thread="th" and thread'="th'"]} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   256


    @{thm (rhs) birthtime.simps(2)[where thread="th" and thread'="th'"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   257


  @{thm (lhs) birthtime.simps(3)[where thread="th" and thread'="th'"]} & @{text "\<equiv>"} & 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   258


    @{thm (rhs) birthtime.simps(3)[where thread="th" and thread'="th'"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   259


  @{term "birthtime th (DUMMY#s)"} & @{text "\<equiv>"} & @{term "birthtime th s"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   260


  \end{tabular}}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   261


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   262













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   263


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   264


  In this definition @{term "length s"} stands for the length of the list












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   265


  of events @{text s}. Again the default value in this function is @{text 0}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   266


  for threads that have not been created yet. A \emph{precedence} of a thread @{text th} in a 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   267


  state @{text s} is the pair of natural numbers defined as












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   268


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   269


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   270


  @{thm preced_def[where thread="th"]}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   271


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   272













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   273


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   274


  The point of precedences is to schedule threads not according to priorities (because what should












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   275


  we do in case two threads have the same priority), but according to precedences. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   276


  Precedences allow us to always discriminate between two threads with equal priority by 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   277


  taking into account the time when the priority was last set. We order precedences so 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   278


  that threads with the same priority get a higher precedence if their priority has been 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   279


  set earlier, since for such threads it is more urgent to finish their work. In an implementation












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   280


  this choice would translate to a quite natural FIFO-scheduling of processes with 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   281


  the same priority.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   282













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   283


  Next, we introduce the concept of \emph{waiting queues}. They are












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   284


  lists of threads associated with every resource. The first thread in












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   285


  this list (i.e.~the head, or short @{term hd}) is chosen to be the one 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   286


  that is in possession of the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   287


  ``lock'' of the corresponding resource. We model waiting queues as












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   288


  functions, below abbreviated as @{text wq}. They take a resource as












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   289


  argument and return a list of threads.  This allows us to define












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   290


  when a thread \emph{holds}, respectively \emph{waits} for, a












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   291


  resource @{text cs} given a waiting queue function @{text wq}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   292













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   293


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   294


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   295


  @{thm cs_holding_def[where thread="th"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   296


  @{thm cs_waiting_def[where thread="th"]}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   297


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   298


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   299













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   300


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   301


  In this definition we assume @{text "set"} converts a list into a set.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   302


  At the beginning, that is in the state where no thread is created yet, 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   303


  the waiting queue function will be the function that returns the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   304


  empty list for every resource.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   305













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   306


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   307


  @{abbrev all_unlocked}\hfill\numbered{allunlocked}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   308


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   309













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   310


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   311


  Using @{term "holding"} and @{term waiting}, we can introduce \emph{Resource Allocation Graphs} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   312


  (RAG), which represent the dependencies between threads and resources.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   313


  We represent RAGs as relations using pairs of the form












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   314













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   315


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   316


  @{term "(Th th, Cs cs)"} \hspace{5mm}{\rm and}\hspace{5mm}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   317


  @{term "(Cs cs, Th th)"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   318


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   319













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   320


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   321


  where the first stands for a \emph{waiting edge} and the second for a 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   322


  \emph{holding edge} (@{term Cs} and @{term Th} are constructors of a 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   323


  datatype for vertices). Given a waiting queue function, a RAG is defined 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   324


  as the union of the sets of waiting and holding edges, namely












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   325













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   326


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   327


  @{thm cs_depend_def}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   328


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   329













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   330


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   331


  Given four threads and three resources, an instance of a RAG can be pictured 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   332


  as follows:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   333













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   334


  \begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   335


  \newcommand{\fnt}{\fontsize{7}{8}\selectfont}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   336


  \begin{tikzpicture}[scale=1]












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   337


  %%\draw[step=2mm] (-3,2) grid (1,-1);












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   338









20





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   339


  \node (A) at (0,0) [draw, rounded corners=1mm, rectangle, very thick] {@{text "th\<^sub>0"}};












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   340


  \node (B) at (2,0) [draw, circle, very thick, inner sep=0.4mm] {@{text "cs\<^sub>1"}};












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   341


  \node (C) at (4,0.7) [draw, rounded corners=1mm, rectangle, very thick] {@{text "th\<^sub>1"}};












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   342


  \node (D) at (4,-0.7) [draw, rounded corners=1mm, rectangle, very thick] {@{text "th\<^sub>2"}};












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   343


  \node (E) at (6,-0.7) [draw, circle, very thick, inner sep=0.4mm] {@{text "cs\<^sub>2"}};












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   344


  \node (E1) at (6, 0.2) [draw, circle, very thick, inner sep=0.4mm] {@{text "cs\<^sub>3"}};












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   345


  \node (F) at (8,-0.7) [draw, rounded corners=1mm, rectangle, very thick] {@{text "th\<^sub>3"}};








2





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   346













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   347


  \draw [<-,line width=0.6mm] (A) to node [pos=0.54,sloped,above=-0.5mm] {\fnt{}holding}  (B);












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   348


  \draw [->,line width=0.6mm] (C) to node [pos=0.4,sloped,above=-0.5mm] {\fnt{}waiting}  (B);












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   349


  \draw [->,line width=0.6mm] (D) to node [pos=0.4,sloped,below=-0.5mm] {\fnt{}waiting}  (B);












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   350


  \draw [<-,line width=0.6mm] (D) to node [pos=0.54,sloped,below=-0.5mm] {\fnt{}holding}  (E);












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   351


  \draw [<-,line width=0.6mm] (D) to node [pos=0.54,sloped,above=-0.5mm] {\fnt{}holding}  (E1);












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   352


  \draw [->,line width=0.6mm] (F) to node [pos=0.45,sloped,below=-0.5mm] {\fnt{}waiting}  (E);












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   353


  \end{tikzpicture}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   354


  \end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   355













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   356


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   357


  The use of relations for representing RAGs allows us to conveniently define












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   358


  the notion of the \emph{dependants} of a thread using the transitive closure












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   359


  operation for relations. This gives












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   360













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   361


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   362


  @{thm cs_dependents_def}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   363


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   364













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   365


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   366


  This definition needs to account for all threads that wait for a thread to












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   367


  release a resource. This means we need to include threads that transitively












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   368


  wait for a resource being released (in the picture above this means the dependants








20





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   369


  of @{text "th\<^sub>0"} are @{text "th\<^sub>1"} and @{text "th\<^sub>2"}, which wait for resource @{text "cs\<^sub>1"}, 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   370


  but also @{text "th\<^sub>3"}, 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   371


  which cannot make any progress unless @{text "th\<^sub>2"} makes progress, which












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   372


  in turn needs to wait for @{text "th\<^sub>0"} to finish). If there is a circle of dependencies 








2





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   373


  in a RAG, then clearly












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   374


  we have a deadlock. Therefore when a thread requests a resource,












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   375


  we must ensure that the resulting RAG is not circular. In practice, the 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   376


  programmer has to ensure this.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   377













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   378













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   379


  Next we introduce the notion of the \emph{current precedence} of a thread @{text th} in a 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   380


  state @{text s}. It is defined as












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   381













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   382


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   383


  @{thm cpreced_def2}\hfill\numbered{cpreced}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   384


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   385













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   386


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   387


  where the dependants of @{text th} are given by the waiting queue function.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   388


  While the precedence @{term prec} of a thread is determined statically 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   389


  (for example when the thread is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   390


  created), the point of the current precedence is to let the scheduler increase this












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   391


  precedence, if needed according to PIP. Therefore the current precedence of @{text th} is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   392


  given as the maximum of the precedence @{text th} has in state @{text s} \emph{and} all 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   393


  threads that are dependants of @{text th}. Since the notion @{term "dependants"} is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   394


  defined as the transitive closure of all dependent threads, we deal correctly with the 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   395


  problem in the informal algorithm by Sha et al.~\cite{Sha90} where a priority of a thread is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   396


  lowered prematurely.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   397


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   398


  The next function, called @{term schs}, defines the behaviour of the scheduler. It will be defined












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   399


  by recursion on the state (a list of events); this function returns a \emph{schedule state}, which 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   400


  we represent as a record consisting of two












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   401


  functions:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   402













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   403


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   404


  @{text "\<lparr>wq_fun, cprec_fun\<rparr>"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   405


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   406













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   407


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   408


  The first function is a waiting queue function (that is, it takes a












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   409


  resource @{text "cs"} and returns the corresponding list of threads












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   410


  that lock, respectively wait for, it); the second is a function that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   411


  takes a thread and returns its current precedence (see












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   412


  the definition in \eqref{cpreced}). We assume the usual getter and setter methods for












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   413


  such records.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   414













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   415


  In the initial state, the scheduler starts with all resources unlocked (the corresponding 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   416


  function is defined in \eqref{allunlocked}) and the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   417


  current precedence of every thread is initialised with @{term "Prc 0 0"}; that means 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   418


  \mbox{@{abbrev initial_cprec}}. Therefore












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   419


  we have for the initial shedule state












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   420













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   421


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   422


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   423


  @{thm (lhs) schs.simps(1)} @{text "\<equiv>"}\\ 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   424


  \hspace{5mm}@{term "(|wq_fun = all_unlocked, cprec_fun = (\<lambda>_::thread. Prc 0 0)|)"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   425


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   426


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   427













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   428


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   429


  The cases for @{term Create}, @{term Exit} and @{term Set} are also straightforward:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   430


  we calculate the waiting queue function of the (previous) state @{text s}; 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   431


  this waiting queue function @{text wq} is unchanged in the next schedule state---because












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   432


  none of these events lock or release any resource; 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   433


  for calculating the next @{term "cprec_fun"}, we use @{text wq} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   434


  @{term cpreced}. This gives the following three clauses for @{term schs}:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   435













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   436


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   437


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   438


  @{thm (lhs) schs.simps(2)} @{text "\<equiv>"}\\ 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   439


  \hspace{5mm}@{text "let"} @{text "wq = wq_fun (schs s)"} @{text "in"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   440


  \hspace{8mm}@{term "(|wq_fun = wq\<iota>, cprec_fun = cpreced wq\<iota> (Create th prio # s)|)"}\smallskip\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   441


  @{thm (lhs) schs.simps(3)} @{text "\<equiv>"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   442


  \hspace{5mm}@{text "let"} @{text "wq = wq_fun (schs s)"} @{text "in"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   443


  \hspace{8mm}@{term "(|wq_fun = wq\<iota>, cprec_fun = cpreced wq\<iota> (Exit th # s)|)"}\smallskip\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   444


  @{thm (lhs) schs.simps(4)} @{text "\<equiv>"}\\ 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   445


  \hspace{5mm}@{text "let"} @{text "wq = wq_fun (schs s)"} @{text "in"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   446


  \hspace{8mm}@{term "(|wq_fun = wq\<iota>, cprec_fun = cpreced wq\<iota> (Set th prio # s)|)"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   447


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   448


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   449













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   450


  \noindent 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   451


  More interesting are the cases where a resource, say @{text cs}, is locked or released. In these cases












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   452


  we need to calculate a new waiting queue function. For the event @{term "P th cs"}, we have to update












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   453


  the function so that the new thread list for @{text cs} is the old thread list plus the thread @{text th} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   454


  appended to the end of that list (remember the head of this list is assigned to be in the possession of this












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   455


  resource). This gives the clause












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   456













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   457


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   458


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   459


  @{thm (lhs) schs.simps(5)} @{text "\<equiv>"}\\ 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   460


  \hspace{5mm}@{text "let"} @{text "wq = wq_fun (schs s)"} @{text "in"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   461


  \hspace{5mm}@{text "let"} @{text "new_wq = wq(cs := (wq cs @ [th]))"} @{text "in"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   462


  \hspace{8mm}@{term "(|wq_fun = new_wq, cprec_fun = cpreced new_wq (P th cs # s)|)"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   463


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   464


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   465













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   466


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   467


  The clause for event @{term "V th cs"} is similar, except that we need to update the waiting queue function












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   468


  so that the thread that possessed the lock is deleted from the corresponding thread list. For this 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   469


  list transformation, we use












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   470


  the auxiliary function @{term release}. A simple version of @{term release} would












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   471


  just delete this thread and return the remaining threads, namely












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   472













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   473


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   474


  \begin{tabular}{@ {}lcl}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   475


  @{term "release []"} & @{text "\<equiv>"} & @{term "[]"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   476


  @{term "release (DUMMY # qs)"} & @{text "\<equiv>"} & @{term "qs"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   477


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   478


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   479













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   480


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   481


  In practice, however, often the thread with the highest precedence in the list will get the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   482


  lock next. We have implemented this choice, but later found out that the choice 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   483


  of which thread is chosen next is actually irrelevant for the correctness of PIP.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   484


  Therefore we prove the stronger result where @{term release} is defined as












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   485













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   486


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   487


  \begin{tabular}{@ {}lcl}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   488


  @{term "release []"} & @{text "\<equiv>"} & @{term "[]"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   489


  @{term "release (DUMMY # qs)"} & @{text "\<equiv>"} & @{term "SOME qs'. distinct qs' \<and> set qs' = set qs"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   490


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   491


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   492













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   493


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   494


  where @{text "SOME"} stands for Hilbert's epsilon and implements an arbitrary












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   495


  choice for the next waiting list. It just has to be a list of distinctive threads and












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   496


  contain the same elements as @{text "qs"}. This gives for @{term V} the clause:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   497


 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   498


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   499


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   500


  @{thm (lhs) schs.simps(6)} @{text "\<equiv>"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   501


  \hspace{5mm}@{text "let"} @{text "wq = wq_fun (schs s)"} @{text "in"}\\








17






105715a0a807
updated



Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
2

diff
changeset




   502


  \hspace{5mm}@{text "let"} @{text "new_wq = wq(cs := release (wq cs))"} @{text "in"}\\








2





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   503


  \hspace{8mm}@{term "(|wq_fun = new_wq, cprec_fun = cpreced new_wq (V th cs # s)|)"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   504


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   505


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   506













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   507


  Having the scheduler function @{term schs} at our disposal, we can ``lift'', or












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   508


  overload, the notions












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   509


  @{term waiting}, @{term holding}, @{term depend} and @{term cp} to operate on states only.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   510













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   511


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   512


  \begin{tabular}{@ {}rcl}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   513


  @{thm (lhs) s_holding_abv} & @{text "\<equiv>"} & @{thm (rhs) s_holding_abv}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   514


  @{thm (lhs) s_waiting_abv} & @{text "\<equiv>"} & @{thm (rhs) s_waiting_abv}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   515


  @{thm (lhs) s_depend_abv}  & @{text "\<equiv>"} & @{thm (rhs) s_depend_abv}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   516


  @{thm (lhs) cp_def}        & @{text "\<equiv>"} & @{thm (rhs) cp_def}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   517


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   518


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   519













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   520


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   521


  With these abbreviations in place we can introduce 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   522


  the notion of a thread being @{term ready} in a state (i.e.~threads












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   523


  that do not wait for any resource) and the running thread.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   524













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   525


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   526


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   527


  @{thm readys_def}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   528


  @{thm runing_def}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   529


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   530


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   531













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   532


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   533


  In the second definition @{term "DUMMY ` DUMMY"} stands for the image of a set under a function.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   534


  Note that in the initial state, that is where the list of events is empty, the set 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   535


  @{term threads} is empty and therefore there is neither a thread ready nor running.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   536


  If there is one or more threads ready, then there can only be \emph{one} thread












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   537


  running, namely the one whose current precedence is equal to the maximum of all ready 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   538


  threads. We use sets to capture both possibilities.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   539


  We can now also conveniently define the set of resources that are locked by a thread in a












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   540


  given state and also when a thread is detached that state (meaning the thread neither 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   541


  holds nor waits for a resource):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   542













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   543


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   544


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   545


  @{thm holdents_def}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   546


  @{thm detached_def}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   547


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   548


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   549













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   550


  %\noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   551


  %The second definition states that @{text th}  in @{text s}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   552


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   553


  Finally we can define what a \emph{valid state} is in our model of PIP. For












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   554


  example we cannot expect to be able to exit a thread, if it was not












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   555


  created yet. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   556


  These validity constraints on states are characterised by the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   557


  inductive predicate @{term "step"} and @{term vt}. We first give five inference rules












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   558


  for @{term step} relating a state and an event that can happen next.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   559













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   560


  \begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   561


  \begin{tabular}{c}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   562


  @{thm[mode=Rule] thread_create[where thread=th]}\hspace{1cm}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   563


  @{thm[mode=Rule] thread_exit[where thread=th]}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   564


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   565


  \end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   566













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   567


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   568


  The first rule states that a thread can only be created, if it is not alive yet.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   569


  Similarly, the second rule states that a thread can only be terminated if it was












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   570


  running and does not lock any resources anymore (this simplifies slightly our model;












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   571


  in practice we would expect the operating system releases all locks held by a












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   572


  thread that is about to exit). The event @{text Set} can happen












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   573


  if the corresponding thread is running. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   574













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   575


  \begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   576


  @{thm[mode=Rule] thread_set[where thread=th]}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   577


  \end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   578













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   579


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   580


  If a thread wants to lock a resource, then the thread needs to be












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   581


  running and also we have to make sure that the resource lock does












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   582


  not lead to a cycle in the RAG. In practice, ensuring the latter












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   583


  is the responsibility of the programmer.  In our formal












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   584


  model we brush aside these problematic cases in order to be able to make












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   585


  some meaningful statements about PIP.\footnote{This situation is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   586


  similar to the infamous \emph{occurs check} in Prolog: In order to say












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   587


  anything meaningful about unification, one needs to perform an occurs












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   588


  check. But in practice the occurs check is omitted and the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   589


  responsibility for avoiding problems rests with the programmer.}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   590













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   591


 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   592


  \begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   593


  @{thm[mode=Rule] thread_P[where thread=th]}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   594


  \end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   595


 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   596


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   597


  Similarly, if a thread wants to release a lock on a resource, then












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   598


  it must be running and in the possession of that lock. This is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   599


  formally given by the last inference rule of @{term step}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   600


 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   601


  \begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   602


  @{thm[mode=Rule] thread_V[where thread=th]}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   603


  \end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   604













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   605


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   606


  A valid state of PIP can then be conveniently be defined as follows:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   607













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   608


  \begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   609


  \begin{tabular}{c}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   610


  @{thm[mode=Axiom] vt_nil}\hspace{1cm}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   611


  @{thm[mode=Rule] vt_cons}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   612


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   613


  \end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   614













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   615


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   616


  This completes our formal model of PIP. In the next section we present












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   617


  properties that show our model of PIP is correct.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   618


*}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   619













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   620


section {* The Correctness Proof *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   621













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   622


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   623


context extend_highest_gen












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   624


begin












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   625


(*>*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   626


text {* 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   627


  Sha et al.~state their first correctness criterion for PIP in terms












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   628


  of the number of low-priority threads \cite[Theorem 3]{Sha90}: if












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   629


  there are @{text n} low-priority threads, then a blocked job with












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   630


  high priority can only be blocked a maximum of @{text n} times.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   631


  Their second correctness criterion is given












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   632


  in terms of the number of critical resources \cite[Theorem 6]{Sha90}: if there are












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   633


  @{text m} critical resources, then a blocked job with high priority












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   634


  can only be blocked a maximum of @{text m} times. Both results on their own, strictly speaking, do












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   635


  \emph{not} prevent indefinite, or unbounded, Priority Inversion,












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   636


  because if a low-priority thread does not give up its critical












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   637


  resource (the one the high-priority thread is waiting for), then the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   638


  high-priority thread can never run.  The argument of Sha et al.~is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   639


  that \emph{if} threads release locked resources in a finite amount












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   640


  of time, then indefinite Priority Inversion cannot occur---the high-priority












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   641


  thread is guaranteed to run eventually. The assumption is that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   642


  programmers must ensure that threads are programmed in this way.  However, even












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   643


  taking this assumption into account, the correctness properties of












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   644


  Sha et al.~are












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   645


  \emph{not} true for their version of PIP---despite being ``proved''. As Yodaiken












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   646


  \cite{Yodaiken02} pointed out: If a low-priority thread possesses












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   647


  locks to two resources for which two high-priority threads are












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   648


  waiting for, then lowering the priority prematurely after giving up












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   649


  only one lock, can cause indefinite Priority Inversion for one of the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   650


  high-priority threads, invalidating their two bounds.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   651













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   652


  Even when fixed, their proof idea does not seem to go through for












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   653


  us, because of the way we have set up our formal model of PIP.  One












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   654


  reason is that we allow critical sections, which start with a @{text P}-event












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   655


  and finish with a corresponding @{text V}-event, to arbitrarily overlap












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   656


  (something Sha et al.~explicitly exclude).  Therefore we have












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   657


  designed a different correctness criterion for PIP. The idea behind












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   658


  our criterion is as follows: for all states @{text s}, we know the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   659


  corresponding thread @{text th} with the highest precedence; we show












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   660


  that in every future state (denoted by @{text "s' @ s"}) in which












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   661


  @{text th} is still alive, either @{text th} is running or it is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   662


  blocked by a thread that was alive in the state @{text s} and was waiting 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   663


  for or in the possession of a lock in @{text s}. Since in @{text s}, as in












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   664


  every state, the set of alive threads is finite, @{text th} can only












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   665


  be blocked a finite number of times. This is independent of how many












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   666


  threads of lower priority are created in @{text "s'"}. We will actually prove a












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   667


  stronger statement where we also provide the current precedence of












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   668


  the blocking thread. However, this correctness criterion hinges upon












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   669


  a number of assumptions about the states @{text s} and @{text "s' @












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   670


  s"}, the thread @{text th} and the events happening in @{text












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   671


  s'}. We list them next:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   672













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   673


  \begin{quote}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   674


  {\bf Assumptions on the states {\boldmath@{text s}} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   675


  {\boldmath@{text "s' @ s"}:}} We need to require that @{text "s"} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   676


  @{text "s' @ s"} are valid states:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   677


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   678


  \begin{tabular}{l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   679


  @{term "vt s"}, @{term "vt (s' @ s)"} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   680


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   681


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   682


  \end{quote}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   683













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   684


  \begin{quote}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   685


  {\bf Assumptions on the thread {\boldmath@{text "th"}:}} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   686


  The thread @{text th} must be alive in @{text s} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   687


  has the highest precedence of all alive threads in @{text s}. Furthermore the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   688


  priority of @{text th} is @{text prio} (we need this in the next assumptions).












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   689


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   690


  \begin{tabular}{l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   691


  @{term "th \<in> threads s"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   692


  @{term "prec th s = Max (cprec s ` threads s)"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   693


  @{term "prec th s = (prio, DUMMY)"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   694


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   695


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   696


  \end{quote}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   697


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   698


  \begin{quote}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   699


  {\bf Assumptions on the events in {\boldmath@{text "s'"}:}} We want to prove that @{text th} cannot












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   700


  be blocked indefinitely. Of course this can happen if threads with higher priority












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   701


  than @{text th} are continuously created in @{text s'}. Therefore we have to assume that  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   702


  events in @{text s'} can only create (respectively set) threads with equal or lower 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   703


  priority than @{text prio} of @{text th}. We also need to assume that the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   704


  priority of @{text "th"} does not get reset and also that @{text th} does












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   705


  not get ``exited'' in @{text "s'"}. This can be ensured by assuming the following three implications. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   706


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   707


  \begin{tabular}{l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   708


  {If}~~@{text "Create th' prio' \<in> set s'"}~~{then}~~@{text "prio' \<le> prio"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   709


  {If}~~@{text "Set th' prio' \<in> set s'"}~~{then}~~@{text "th' \<noteq> th"}~~{and}~~@{text "prio' \<le> prio"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   710


  {If}~~@{text "Exit th' \<in> set s'"}~~{then}~~@{text "th' \<noteq> th"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   711


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   712


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   713


  \end{quote}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   714













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   715


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   716


  The locale mechanism of Isabelle helps us to manage conveniently such assumptions~\cite{Haftmann08}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   717


  Under these assumptions we shall prove the following correctness property:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   718













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   719


  \begin{theorem}\label{mainthm}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   720


  Given the assumptions about states @{text "s"} and @{text "s' @ s"},












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   721


  the thread @{text th} and the events in @{text "s'"},












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   722


  if @{term "th' \<in> running (s' @ s)"} and @{text "th' \<noteq> th"} then












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   723


  @{text "th' \<in> threads s"}, @{text "\<not> detached s th'"} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   724


  @{term "cp (s' @ s) th' = prec th s"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   725


  \end{theorem}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   726













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   727


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   728


  This theorem ensures that the thread @{text th}, which has the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   729


  highest precedence in the state @{text s}, can only be blocked in












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   730


  the state @{text "s' @ s"} by a thread @{text th'} that already












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   731


  existed in @{text s} and requested or had a lock on at least 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   732


  one resource---that means the thread was not \emph{detached} in @{text s}. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   733


  As we shall see shortly, that means there are only finitely 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   734


  many threads that can block @{text th} in this way and then they 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   735


  need to run with the same current precedence as @{text th}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   736













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   737


  Like in the argument by Sha et al.~our












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   738


  finite bound does not guarantee absence of indefinite Priority












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   739


  Inversion. For this we further have to assume that every thread












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   740


  gives up its resources after a finite amount of time. We found that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   741


  this assumption is awkward to formalise in our model. Therefore we












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   742


  leave it out and let the programmer assume the responsibility to












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   743


  program threads in such a benign manner (in addition to causing no 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   744


  circularity in the @{text RAG}). In this detail, we do not












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   745


  make any progress in comparison with the work by Sha et al.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   746


  However, we are able to combine their two separate bounds into a












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   747


  single theorem improving their bound.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   748













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   749


  In what follows we will describe properties of PIP that allow us to prove 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   750


  Theorem~\ref{mainthm} and, when instructive, briefly describe our argument. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   751


  It is relatively easy to see that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   752













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   753


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   754


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   755


  @{text "running s \<subseteq> ready s \<subseteq> threads s"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   756


  @{thm[mode=IfThen]  finite_threads}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   757


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   758


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   759













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   760


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   761


  The second property is by induction of @{term vt}. The next three












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   762


  properties are 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   763













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   764


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   765


  \begin{tabular}{@ {}l}








20





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   766


  @{thm[mode=IfThen] waiting_unique[of _ _ "cs\<^sub>1" "cs\<^sub>2"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   767


  @{thm[mode=IfThen] held_unique[of _ "th\<^sub>1" _ "th\<^sub>2"]}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   768


  @{thm[mode=IfThen] runing_unique[of _ "th\<^sub>1" "th\<^sub>2"]}








2





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   769


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   770


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   771













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   772


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   773


  The first property states that every waiting thread can only wait for a single












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   774


  resource (because it gets suspended after requesting that resource); the second 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   775


  that every resource can only be held by a single thread; 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   776


  the third property establishes that in every given valid state, there is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   777


  at most one running thread. We can also show the following properties 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   778


  about the @{term RAG} in @{text "s"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   779













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   780


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   781


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   782


  @{text If}~@{thm (prem 1) acyclic_depend}~@{text "then"}:\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   783


  \hspace{5mm}@{thm (concl) acyclic_depend},












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   784


  @{thm (concl) finite_depend} and












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   785


  @{thm (concl) wf_dep_converse},\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   786


  \hspace{5mm}@{text "if"}~@{thm (prem 2) dm_depend_threads}~@{text "then"}~@{thm (concl) dm_depend_threads}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   787


  and\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   788


  \hspace{5mm}@{text "if"}~@{thm (prem 2) range_in}~@{text "then"}~@{thm (concl) range_in}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   789


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   790


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   791













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   792


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   793


  The acyclicity property follows from how we restricted the events in












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   794


  @{text step}; similarly the finiteness and well-foundedness property.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   795


  The last two properties establish that every thread in a @{text "RAG"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   796


  (either holding or waiting for a resource) is a live thread.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   797













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   798


  The key lemma in our proof of Theorem~\ref{mainthm} is as follows:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   799













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   800


  \begin{lemma}\label{mainlem}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   801


  Given the assumptions about states @{text "s"} and @{text "s' @ s"},












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   802


  the thread @{text th} and the events in @{text "s'"},












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   803


  if @{term "th' \<in> threads (s' @ s)"}, @{text "th' \<noteq> th"} and @{text "detached (s' @ s) th'"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   804


  then @{text "th' \<notin> running (s' @ s)"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   805


  \end{lemma}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   806













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   807


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   808


  The point of this lemma is that a thread different from @{text th} (which has the highest












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   809


  precedence in @{text s}) and not holding any resource, cannot be running 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   810


  in the state @{text "s' @ s"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   811













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   812


  \begin{proof}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   813


  Since thread @{text "th'"} does not hold any resource, no thread can depend on it. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   814


  Therefore its current precedence @{term "cp (s' @ s) th'"} equals its own precedence












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   815


  @{term "prec th' (s' @ s)"}. Since @{text "th"} has the highest precedence in the 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   816


  state @{text "(s' @ s)"} and precedences are distinct among threads, we have












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   817


  @{term "prec th' (s' @s ) < prec th (s' @ s)"}. From this 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   818


  we have @{term "cp (s' @ s) th' < prec th (s' @ s)"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   819


  Since @{text "prec th (s' @ s)"} is already the highest 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   820


  @{term "cp (s' @ s) th"} can not be higher than this and can not be lower either (by 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   821


  definition of @{term "cp"}). Consequently, we have @{term "prec th (s' @ s) = cp (s' @ s) th"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   822


  Finally we have @{term "cp (s' @ s) th' < cp (s' @ s) th"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   823


  By defintion of @{text "running"}, @{text "th'"} can not be running in state












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   824


  @{text "s' @ s"}, as we had to show.\qed












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   825


  \end{proof}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   826













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   827


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   828


  Since @{text "th'"} is not able to run in state @{text "s' @ s"}, it is not able to 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   829


  issue a @{text "P"} or @{text "V"} event. Therefore if @{text "s' @ s"} is extended












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   830


  one step further, @{text "th'"} still cannot hold any resource. The situation will 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   831


  not change in further extensions as long as @{text "th"} holds the highest precedence.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   832













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   833


  From this lemma we can deduce Theorem~\ref{mainthm}: that @{text th} can only be 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   834


  blocked by a thread @{text th'} that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   835


  held some resource in state @{text s} (that is not @{text "detached"}). And furthermore












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   836


  that the current precedence of @{text th'} in state @{text "(s' @ s)"} must be equal to the 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   837


  precedence of @{text th} in @{text "s"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   838


  We show this theorem by induction on @{text "s'"} using Lemma~\ref{mainlem}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   839


  This theorem gives a stricter bound on the threads that can block @{text th} than the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   840


  one obtained by Sha et al.~\cite{Sha90}:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   841


  only threads that were alive in state @{text s} and moreover held a resource.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   842


  This means our bound is in terms of both---alive threads in state @{text s}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   843


  and number of critical resources. Finally, the theorem establishes that the blocking threads have the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   844


  current precedence raised to the precedence of @{text th}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   845













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   846


  We can furthermore prove that under our assumptions no deadlock exists in the state @{text "s' @ s"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   847


  by showing that @{text "running (s' @ s)"} is not empty.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   848













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   849


  \begin{lemma}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   850


  Given the assumptions about states @{text "s"} and @{text "s' @ s"},












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   851


  the thread @{text th} and the events in @{text "s'"},












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   852


  @{term "running (s' @ s) \<noteq> {}"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   853


  \end{lemma}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   854













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   855


  \begin{proof}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   856


  If @{text th} is blocked, then by following its dependants graph, we can always 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   857


  reach a ready thread @{text th'}, and that thread must have inherited the 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   858


  precedence of @{text th}.\qed












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   859


  \end{proof}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   860













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   861













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   862


  %The following lemmas show how every node in RAG can be chased to ready threads:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   863


  %\begin{enumerate}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   864


  %\item Every node in RAG can be chased to a ready thread (@{text "chain_building"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   865


  %  @   {thm [display] chain_building[rule_format]}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   866


  %\item The ready thread chased to is unique (@{text "dchain_unique"}):








20





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




   867


  %  @   {thm [display] dchain_unique[of _ _ "th\<^sub>1" "th\<^sub>2"]}








2





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   868


  %\end{enumerate}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   869













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   870


  %Some deeper results about the system:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   871


  %\begin{enumerate}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   872


  %\item The maximum of @{term "cp"} and @{term "preced"} are equal (@{text "max_cp_eq"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   873


  %@  {thm [display] max_cp_eq}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   874


  %\item There must be one ready thread having the max @{term "cp"}-value 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   875


  %(@{text "max_cp_readys_threads"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   876


  %@  {thm [display] max_cp_readys_threads}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   877


  %\end{enumerate}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   878













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   879


  %The relationship between the count of @{text "P"} and @{text "V"} and the number of 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   880


  %critical resources held by a thread is given as follows:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   881


  %\begin{enumerate}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   882


  %\item The @{term "V"}-operation decreases the number of critical resources 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   883


  %  one thread holds (@{text "cntCS_v_dec"})












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   884


  %   @  {thm [display]  cntCS_v_dec}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   885


  %\item The number of @{text "V"} never exceeds the number of @{text "P"} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   886


  %  (@  {text "cnp_cnv_cncs"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   887


  %  @  {thm [display]  cnp_cnv_cncs}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   888


  %\item The number of @{text "V"} equals the number of @{text "P"} when 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   889


  %  the relevant thread is not living:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   890


  %  (@{text "cnp_cnv_eq"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   891


  %  @  {thm [display]  cnp_cnv_eq}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   892


  %\item When a thread is not living, it does not hold any critical resource 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   893


  %  (@{text "not_thread_holdents"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   894


  %  @  {thm [display] not_thread_holdents}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   895


  %\item When the number of @{text "P"} equals the number of @{text "V"}, the relevant 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   896


  %  thread does not hold any critical resource, therefore no thread can depend on it












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   897


  %  (@{text "count_eq_dependents"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   898


  %  @  {thm [display] count_eq_dependents}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   899


  %\end{enumerate}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   900













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   901


  %The reason that only threads which already held some resoures












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   902


  %can be runing and block @{text "th"} is that if , otherwise, one thread 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   903


  %does not hold any resource, it may never have its prioirty raised












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   904


  %and will not get a chance to run. This fact is supported by 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   905


  %lemma @{text "moment_blocked"}:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   906


  %@   {thm [display] moment_blocked}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   907


  %When instantiating  @{text "i"} to @{text "0"}, the lemma means threads which did not hold any












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   908


  %resource in state @{text "s"} will not have a change to run latter. Rephrased, it means 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   909


  %any thread which is running after @{text "th"} became the highest must have already held












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   910


  %some resource at state @{text "s"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   911













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   912













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   913


  %When instantiating @{text "i"} to a number larger than @{text "0"}, the lemma means 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   914


  %if a thread releases all its resources at some moment in @{text "t"}, after that, 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   915


  %it may never get a change to run. If every thread releases its resource in finite duration,












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   916


  %then after a while, only thread @{text "th"} is left running. This shows how indefinite 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   917


  %priority inversion can be avoided. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   918













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   919


  %All these assumptions are put into a predicate @{term "extend_highest_gen"}. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   920


  %It can be proved that @{term "extend_highest_gen"} holds 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   921


  %for any moment @{text "i"} in it @{term "t"} (@{text "red_moment"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   922


  %@   {thm [display] red_moment}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   923


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   924


  %From this, an induction principle can be derived for @{text "t"}, so that 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   925


  %properties already derived for @{term "t"} can be applied to any prefix 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   926


  %of @{text "t"} in the proof of new properties 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   927


  %about @{term "t"} (@{text "ind"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   928


  %\begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   929


  %@   {thm[display] ind}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   930


  %\end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   931













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   932


  %The following properties can be proved about @{term "th"} in @{term "t"}:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   933


  %\begin{enumerate}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   934


  %\item In @{term "t"}, thread @{term "th"} is kept live and its 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   935


  %  precedence is preserved as well












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   936


  %  (@{text "th_kept"}): 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   937


  %  @   {thm [display] th_kept}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   938


  %\item In @{term "t"}, thread @{term "th"}'s precedence is always the maximum among 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   939


  %  all living threads












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   940


  %  (@{text "max_preced"}): 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   941


  %  @   {thm [display] max_preced}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   942


  %\item In @{term "t"}, thread @{term "th"}'s current precedence is always the maximum precedence












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   943


  %  among all living threads












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   944


  %  (@{text "th_cp_max_preced"}): 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   945


  %  @   {thm [display] th_cp_max_preced}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   946


  %\item In @{term "t"}, thread @{term "th"}'s current precedence is always the maximum current 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   947


  %  precedence among all living threads












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   948


  %  (@{text "th_cp_max"}): 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   949


  %  @   {thm [display] th_cp_max}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   950


  %\item In @{term "t"}, thread @{term "th"}'s current precedence equals its precedence at moment 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   951


  %  @{term "s"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   952


  %  (@{text "th_cp_preced"}): 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   953


  %  @   {thm [display] th_cp_preced}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   954


  %\end{enumerate}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   955













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   956


  %The main theorem of this part is to characterizing the running thread during @{term "t"} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   957


  %(@{text "runing_inversion_2"}):












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   958


  %@   {thm [display] runing_inversion_2}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   959


  %According to this, if a thread is running, it is either @{term "th"} or was












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   960


  %already live and held some resource 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   961


  %at moment @{text "s"} (expressed by: @{text "cntV s th' < cntP s th'"}).












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   962













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   963


  %Since there are only finite many threads live and holding some resource at any moment,












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   964


  %if every such thread can release all its resources in finite duration, then after finite












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   965


  %duration, none of them may block @{term "th"} anymore. So, no priority inversion may happen












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   966


  %then.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   967


  *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   968


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   969


end












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   970


(*>*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   971













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   972


section {* Properties for an Implementation\label{implement} *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   973













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   974


text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   975


  While our formalised proof gives us confidence about the correctness of our model of PIP, 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   976


  we found that the formalisation can even help us with efficiently implementing it.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   977













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   978


  For example Baker complained that calculating the current precedence












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   979


  in PIP is quite ``heavy weight'' in Linux (see the Introduction).












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   980


  In our model of PIP the current precedence of a thread in a state @{text s}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   981


  depends on all its dependants---a ``global'' transitive notion,












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   982


  which is indeed heavy weight (see Def.~shown in \eqref{cpreced}).












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   983


  We can however improve upon this. For this let us define the notion












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   984


  of @{term children} of a thread @{text th} in a state @{text s} as












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   985













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   986


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   987


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   988


  @{thm children_def2}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   989


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   990


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   991













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   992


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   993


  where a child is a thread that is only one ``hop'' away from the thread












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   994


  @{text th} in the @{term RAG} (and waiting for @{text th} to release












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   995


  a resource). We can prove the following lemma.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   996













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   997


  \begin{lemma}\label{childrenlem}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   998


  @{text "If"} @{thm (prem 1) cp_rec} @{text "then"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




   999


  \begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1000


  @{thm (concl) cp_rec}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1001


  \end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1002


  \end{lemma}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1003


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1004


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1005


  That means the current precedence of a thread @{text th} can be












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1006


  computed locally by considering only the children of @{text th}. In












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1007


  effect, it only needs to be recomputed for @{text th} when one of












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1008


  its children changes its current precedence.  Once the current 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1009


  precedence is computed in this more efficient manner, the selection












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1010


  of the thread with highest precedence from a set of ready threads is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1011


  a standard scheduling operation implemented in most operating












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1012


  systems.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1013













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1014


  Of course the main work for implementing PIP involves the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1015


  scheduler and coding how it should react to events.  Below we












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1016


  outline how our formalisation guides this implementation for each












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1017


  kind of events.\smallskip












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1018


*}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1019













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1020


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1021


context step_create_cps












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1022


begin












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1023


(*>*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1024


text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1025


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1026


  \colorbox{mygrey}{@{term "Create th prio"}:} We assume that the current state @{text s'} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1027


  the next state @{term "s \<equiv> Create th prio#s'"} are both valid (meaning the event












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1028


  is allowed to occur). In this situation we can show that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1029













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1030


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1031


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1032


  @{thm eq_dep},\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1033


  @{thm eq_cp_th}, and\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1034


  @{thm[mode=IfThen] eq_cp}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1035


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1036


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1037













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1038


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1039


  This means in an implementation we do not have recalculate the @{text RAG} and also none of the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1040


  current precedences of the other threads. The current precedence of the created












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1041


  thread @{text th} is just its precedence, namely the pair @{term "(prio, length (s::event list))"}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1042


  \smallskip












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1043


  *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1044


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1045


end












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1046


context step_exit_cps












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1047


begin












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1048


(*>*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1049


text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1050


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1051


  \colorbox{mygrey}{@{term "Exit th"}:} We again assume that the current state @{text s'} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1052


  the next state @{term "s \<equiv> Exit th#s'"} are both valid. We can show that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1053













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1054


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1055


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1056


  @{thm eq_dep}, and\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1057


  @{thm[mode=IfThen] eq_cp}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1058


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1059


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1060













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1061


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1062


  This means again we do not have to recalculate the @{text RAG} and












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1063


  also not the current precedences for the other threads. Since @{term th} is not












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1064


  alive anymore in state @{term "s"}, there is no need to calculate its












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1065


  current precedence.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1066


  \smallskip












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1067


*}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1068


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1069


end












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1070


context step_set_cps












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1071


begin












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1072


(*>*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1073


text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1074


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1075


  \colorbox{mygrey}{@{term "Set th prio"}:} We assume that @{text s'} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1076


  @{term "s \<equiv> Set th prio#s'"} are both valid. We can show that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1077













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1078


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1079


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1080


  @{thm[mode=IfThen] eq_dep}, and\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1081


  @{thm[mode=IfThen] eq_cp_pre}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1082


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1083


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1084













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1085


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1086


  The first property is again telling us we do not need to change the @{text RAG}. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1087


  The second shows that the @{term cp}-values of all threads other than @{text th} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1088


  are unchanged. The reason is that @{text th} is running; therefore it is not in 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1089


  the @{term dependants} relation of any other thread. This in turn means that the 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1090


  change of its priority cannot affect other threads.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1091













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1092


  %The second












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1093


  %however states that only threads that are \emph{not} dependants of @{text th} have their












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1094


  %current precedence unchanged. For the others we have to recalculate the current












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1095


  %precedence. To do this we can start from @{term "th"} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1096


  %and follow the @{term "depend"}-edges to recompute  using Lemma~\ref{childrenlem} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1097


  %the @{term "cp"} of every 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1098


  %thread encountered on the way. Since the @{term "depend"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1099


  %is assumed to be loop free, this procedure will always stop. The following two lemmas show, however, 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1100


  %that this procedure can actually stop often earlier without having to consider all












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1101


  %dependants.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1102


  %












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1103


  %\begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1104


  %\begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1105


  %@{thm[mode=IfThen] eq_up_self}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1106


  %@{text "If"} @{thm (prem 1) eq_up}, @{thm (prem 2) eq_up} and @{thm (prem 3) eq_up}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1107


  %@{text "then"} @{thm (concl) eq_up}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1108


  %\end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1109


  %\end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1110


  %












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1111


  %\noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1112


  %The first lemma states that if the current precedence of @{text th} is unchanged,












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1113


  %then the procedure can stop immediately (all dependent threads have their @{term cp}-value unchanged).












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1114


  %The second states that if an intermediate @{term cp}-value does not change, then












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1115


  %the procedure can also stop, because none of its dependent threads will












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1116


  %have their current precedence changed.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1117


  \smallskip












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1118


  *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1119


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1120


end












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1121


context step_v_cps_nt












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1122


begin












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1123


(*>*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1124


text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1125


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1126


  \colorbox{mygrey}{@{term "V th cs"}:} We assume that @{text s'} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1127


  @{term "s \<equiv> V th cs#s'"} are both valid. We have to consider two












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1128


  subcases: one where there is a thread to ``take over'' the released












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1129


  resource @{text cs}, and one where there is not. Let us consider them












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1130


  in turn. Suppose in state @{text s}, the thread @{text th'} takes over












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1131


  resource @{text cs} from thread @{text th}. We can prove












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1132













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1133













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1134


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1135


  @{thm depend_s}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1136


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1137


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1138


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1139


  which shows how the @{text RAG} needs to be changed. The next lemma suggests












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1140


  how the current precedences need to be recalculated. For threads that are












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1141


  not @{text "th"} and @{text "th'"} nothing needs to be changed, since we












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1142


  can show












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1143













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1144


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1145


  @{thm[mode=IfThen] cp_kept}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1146


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1147


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1148


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1149


  For @{text th} and @{text th'} we need to use Lemma~\ref{childrenlem} to












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1150


  recalculate their current precedence since their children have changed. *}(*<*)end context step_v_cps_nnt begin (*>*)text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1151


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1152


  In the other case where there is no thread that takes over @{text cs}, we can show how












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1153


  to recalculate the @{text RAG} and also show that no current precedence needs












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1154


  to be recalculated.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1155













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1156


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1157


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1158


  @{thm depend_s}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1159


  @{thm eq_cp}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1160


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1161


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1162


  *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1163


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1164


end












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1165


context step_P_cps_e












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1166


begin












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1167


(*>*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1168


text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1169


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1170


  \colorbox{mygrey}{@{term "P th cs"}:} We assume that @{text s'} and 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1171


  @{term "s \<equiv> P th cs#s'"} are both valid. We again have to analyse two subcases, namely












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1172


  the one where @{text cs} is not locked, and one where it is. We treat the former case












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1173


  first by showing that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1174


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1175


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1176


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1177


  @{thm depend_s}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1178


  @{thm eq_cp}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1179


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1180


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1181













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1182


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1183


  This means we need to add a holding edge to the @{text RAG} and no












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1184


  current precedence needs to be recalculated.*}(*<*)end context step_P_cps_ne begin(*>*) text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1185


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1186


  In the second case we know that resource @{text cs} is locked. We can show that












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1187


  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1188


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1189


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1190


  @{thm depend_s}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1191


  @{thm[mode=IfThen] eq_cp}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1192


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1193


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1194













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1195


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1196


  That means we have to add a waiting edge to the @{text RAG}. Furthermore












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1197


  the current precedence for all threads that are not dependants of @{text th}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1198


  are unchanged. For the others we need to follow the edges 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1199


  in the @{text RAG} and recompute the @{term "cp"}. To do this we can start from @{term "th"} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1200


  and follow the @{term "depend"}-edges to recompute  using Lemma~\ref{childrenlem} 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1201


  the @{term "cp"} of every 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1202


  thread encountered on the way. Since the @{term "depend"}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1203


  is loop free, this procedure will always stop. The following lemma shows, however, 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1204


  that this procedure can actually stop often earlier without having to consider all












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1205


  dependants.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1206













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1207


  \begin{isabelle}\ \ \ \ \ %%%












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1208


  \begin{tabular}{@ {}l}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1209


  %%@ {t hm[mode=IfThen] eq_up_self}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1210


  @{text "If"} @{thm (prem 1) eq_up}, @{thm (prem 2) eq_up} and @{thm (prem 3) eq_up}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1211


  @{text "then"} @{thm (concl) eq_up}.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1212


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1213


  \end{isabelle}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1214













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1215


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1216


  This lemma states that if an intermediate @{term cp}-value does not change, then












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1217


  the procedure can also stop, because none of its dependent threads will












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1218


  have their current precedence changed.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1219


  *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1220


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1221


end












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1222


(*>*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1223


text {*












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1224


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1225


  As can be seen, a pleasing byproduct of our formalisation is that the properties in












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1226


  this section closely inform an implementation of PIP, namely whether the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1227


  @{text RAG} needs to be reconfigured or current precedences need to












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1228


  be recalculated for an event. This information is provided by the lemmas we proved.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1229


  We confirmed that our observations translate into practice by implementing












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1230


  our version of PIP on top of PINTOS, a small operating system written in C and used for teaching at 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1231


  Stanford University \cite{PINTOS}. To implement PIP, we only need to modify the kernel 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1232


  functions corresponding to the events in our formal model. The events translate to the following 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1233


  function interface in PINTOS:












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1234













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1235


  \begin{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1236


  \begin{tabular}{|l@ {\hspace{2mm}}|l@ {\hspace{2mm}}|}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1237


  \hline












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1238


  {\bf Event} & {\bf PINTOS function} \\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1239


  \hline












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1240


  @{text Create} & @{text "thread_create"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1241


  @{text Exit}   & @{text "thread_exit"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1242


  @{text Set}    & @{text "thread_set_priority"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1243


  @{text P}      & @{text "lock_acquire"}\\












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1244


  @{text V}      & @{text "lock_release"}\\ 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1245


  \hline












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1246


  \end{tabular}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1247


  \end{center}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1248













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1249


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1250


  Our implicit assumption that every event is an atomic operation is ensured by the architecture of 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1251


  PINTOS. The case where an unlocked resource is given next to the waiting thread with the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1252


  highest precedence is realised in our implementation by priority queues. We implemented












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1253


  them as \emph{Braun trees} \cite{Paulson96}, which provide efficient @{text "O(log n)"}-operations












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1254


  for accessing and updating. Apart from having to implement relatively complex data\-structures in C












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1255


  using pointers, our experience with the implementation has been very positive: our specification 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1256


  and formalisation of PIP translates smoothly to an efficent implementation in PINTOS. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1257


*}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1258













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1259


section {* Conclusion *}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1260













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1261


text {* 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1262


  The Priority Inheritance Protocol (PIP) is a classic textbook












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1263


  algorithm used in many real-time operating systems in order to avoid the problem of












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1264


  Priority Inversion.  Although classic and widely used, PIP does have












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1265


  its faults: for example it does not prevent deadlocks in cases where threads












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1266


  have circular lock dependencies.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1267













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1268


  We had two goals in mind with our formalisation of PIP: One is to












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1269


  make the notions in the correctness proof by Sha et al.~\cite{Sha90}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1270


  precise so that they can be processed by a theorem prover. The reason is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1271


  that a mechanically checked proof avoids the flaws that crept into their












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1272


  informal reasoning. We achieved this goal: The correctness of PIP now












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1273


  only hinges on the assumptions behind our formal model. The reasoning, which is












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1274


  sometimes quite intricate and tedious, has been checked by Isabelle/HOL. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1275


  We can also confirm that Paulson's












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1276


  inductive method for protocol verification~\cite{Paulson98} is quite












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1277


  suitable for our formal model and proof. The traditional application












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1278


  area of this method is security protocols. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1279













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1280


  The second goal of our formalisation is to provide a specification for actually












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1281


  implementing PIP. Textbooks, for example \cite[Section 5.6.5]{Vahalia96},












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1282


  explain how to use various implementations of PIP and abstractly












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1283


  discuss their properties, but surprisingly lack most details important for a












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1284


  programmer who wants to implement PIP (similarly Sha et al.~\cite{Sha90}).  












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1285


  That this is an issue in practice is illustrated by the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1286


  email from Baker we cited in the Introduction. We achieved also this












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1287


  goal: The formalisation allowed us to efficently implement our version












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1288


  of PIP on top of PINTOS \cite{PINTOS}, a simple instructional operating system for the x86 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1289


  architecture. It also gives the first author enough data to enable












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1290


  his undergraduate students to implement PIP (as part of their OS course).












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1291


  A byproduct of our formalisation effort is that nearly all












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1292


  design choices for the PIP scheduler are backed up with a proved












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1293


  lemma. We were also able to establish the property that the choice of












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1294


  the next thread which takes over a lock is irrelevant for the correctness












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1295


  of PIP. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1296













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1297


  PIP is a scheduling algorithm for single-processor systems. We are












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1298


  now living in a multi-processor world. Priority Inversion certainly












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1299


  occurs also there.  However, there is very little ``foundational''












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1300


  work about PIP-algorithms on multi-processor systems.  We are not












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1301


  aware of any correctness proofs, not even informal ones. There is an












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1302


  implementation of a PIP-algorithm for multi-processors as part of the












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1303


  ``real-time'' effort in Linux, including an informal description of the implemented scheduling












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1304


  algorithm given in \cite{LINUX}.  We estimate that the formal












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1305


  verification of this algorithm, involving more fine-grained events,












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1306


  is a magnitude harder than the one we presented here, but still












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1307


  within reach of current theorem proving technology. We leave this












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1308


  for future work.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1309













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1310


  The most closely related work to ours is the formal verification in












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1311


  PVS of the Priority Ceiling Protocol done by Dutertre












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1312


  \cite{dutertre99b}---another solution to the Priority Inversion












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1313


  problem, which however needs static analysis of programs in order to












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1314


  avoid it. There have been earlier formal investigations












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1315


  into PIP \cite{Faria08,Jahier09,Wellings07}, but they employ model












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1316


  checking techniques. The results obtained by them apply,












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1317


  however, only to systems with a fixed size, such as a fixed number of 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1318


  events and threads. In contrast, our result applies to systems of arbitrary












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1319


  size. Moreover, our result is a good 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1320


  witness for one of the major reasons to be interested in machine checked 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1321


  reasoning: gaining deeper understanding of the subject matter.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1322













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1323


  Our formalisation












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1324


  consists of around 210 lemmas and overall 6950 lines of readable Isabelle/Isar












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1325


  code with a few apply-scripts interspersed. The formal model of PIP












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1326


  is 385 lines long; the formal correctness proof 3800 lines. Some auxiliary












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1327


  definitions and proofs span over 770 lines of code. The properties relevant












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1328


  for an implementation require 2000 lines. 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1329


  %The code of our formalisation 












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1330


  %can be downloaded from












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1331


  %\url{http://www.inf.kcl.ac.uk/staff/urbanc/pip.html}.\medskip












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1332













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1333


  \noindent












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1334


  {\bf Acknowledgements:}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1335


  We are grateful for the comments we received from anonymous












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1336


  referees.












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1337









20





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




  1338


  %\bibliographystyle{plain}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 
17

diff
changeset




  1339


  %\bibliography{root}








2





Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1340


*}












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1341













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1342













Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1343


(*<*)












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1344


end












Christian Urban <christian dot urban at kcl dot ac dot uk>


parents: 

diff
changeset




  1345


(*>*)














pip