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Paper/Paper.thy
author zhangx
Thu, 28 Jan 2016 21:14:17 +0800
changeset 90 ed938e2246b9
parent 20 b56616fd88dd
permissions -rw-r--r--
Retrofiting of: CpsG.thy (the parallel copy of PIPBasics.thy), ExtGG.thy (The paralell copy of Implemenation.thy), PrioG.thy (The paralell copy of Correctness.thy) has completed. The next step is to overwite original copies with the paralell ones.
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>
parents:
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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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*)












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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ML {*












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


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  open Printer;












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


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  show_question_marks_default := false;












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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notation (latex output)












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


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












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


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  vt ("valid'_state") and












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


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  runing ("running") and












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


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  birthtime ("last'_set") and












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


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












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


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












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


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  holding ("holds") and












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


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  waiting ("waits") and












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


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  Th ("T") and












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


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  Cs ("C") and












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


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  readys ("ready") and












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


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  depend ("RAG") and 












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


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  preced ("prec") and












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


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  cpreced ("cprec") and












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


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  dependents ("dependants") and












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


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  cp ("cprec") and












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


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  holdents ("resources") and












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


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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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(*>*)












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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section {* Introduction *}












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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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












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


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  locking of resources. Locking of resources ensures mutual exclusion












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


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  when accessing shared data or devices that cannot be












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


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  preempted. Priorities allow scheduling of threads that need to












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


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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












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


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












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


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












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


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












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


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












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


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  implementation of resource locking and priorities this property can












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


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












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


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












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


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












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


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












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


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












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


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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












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


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  Mesa programming language designed for concurrent programming.












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


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    69













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


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    70


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












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


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












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


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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}.












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


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  Once the spacecraft landed, the software shut down at irregular












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


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












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


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












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


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  collected were fortunately not lost, because of a clever system












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


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












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


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  software fell victim to Priority Inversion: a low priority thread












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


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  locking a resource prevented a high priority thread from running in












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


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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)












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


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












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


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












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


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












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


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    86













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


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












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


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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












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


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












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


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  Inversion problem, PIP is one that is widely deployed and












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


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












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


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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












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


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  example in libraries for FreeBSD, Solaris and Linux. 












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












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


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












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


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












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


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  solution to the Priority Inversion problem, which requires static












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


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  analysis of the program in order to prevent Priority












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


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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












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


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  dependencies are circular, and also blocking times can be












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


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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












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


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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}:












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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  \begin{quote}












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


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












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


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












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












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


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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)












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


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












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


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












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


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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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   127


  Kernel mailing list:












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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  \begin{quote}












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


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












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


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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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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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   138


  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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   141


  formal verification. An additional reason is that the original












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


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   142


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












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


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   143


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












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


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   144













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


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   145


  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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   146


  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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   147


  \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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   148


  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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   151


  Unfortunately, as Yodaiken points out, this behaviour is too












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


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   152


  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












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


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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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   155


  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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   156


  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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   157


  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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   158


  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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   159


  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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   160


  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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   161


  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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   162


  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>


parents: 

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   164


  \noindent












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


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   165


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












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


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   166


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












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


parents: 

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   167


  checking techniques. This paper presents a formalised and












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


parents: 

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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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   170


  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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   171


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












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


parents: 

diff
changeset




   172


  efficient implementation of PIP in the educational PINTOS operating












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


parents: 

diff
changeset




   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
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   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