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Deadlock conditions

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(Hold and wait)
Current revision (05:33, 10 October 2023) (edit) (undo)
 
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Fighting problems with [[ImpossibleThreading|threading may seem impossible]], but there is an easy way avoid [[deadlock]]s. Just make sure '''one''' (enough if only one) of following conditions isn't true. Then a [[deadlock]] cannot occur.
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== Mutual exclusion ==
== Mutual exclusion ==
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Nobody can take away a resource from a thread. If there was a supervisor, that could take the resource away, it could effectively solve all deadlocks by detecting them (which is easy) and then choosing a thread to loose its resource while letting others proceed.
Nobody can take away a resource from a thread. If there was a supervisor, that could take the resource away, it could effectively solve all deadlocks by detecting them (which is easy) and then choosing a thread to loose its resource while letting others proceed.
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== Resource waiting or circular wait ==
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== Incremental Requests ==
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A circular chain of processes, with each process holding resources which are currently being requested by the next process in the chain, cannot exist. If it does, the cycle theorem (which states that "a cycle in the resource graph is necessary for deadlock to occur") indicated that deadlock could occur.
 
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[http://www.google.com/search?q=four+necessary+condition+for+a+deadlock+to+appear&start=0&start=0&ie=utf-8&oe=utf-8 four necessary and also sufficient conditions]
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There must be a way to request another resource while already holding some. If a thread can only request resource(s) while holding none (or there is some order of resources and those can be requested only in such order), a [[deadlock]] cannot be created.

Current revision

Fighting problems with threading may seem impossible, but there is an easy way avoid deadlocks. Just make sure one (enough if only one) of following conditions isn't true. Then a deadlock cannot occur.

Contents

Mutual exclusion

The resources involved must be exclusive. Once a thread gets on hold of a resource, nobody else can use it. Otherwise the concurrent threads would not be prevented from using the resource.

Hold and wait

A thread can hold and wait indefinitely. If it could not, and for example would time out, the deadlock can be resolved by letting the timed out thread to give up and release all resources.

Cannot Take Away a Resource

Nobody can take away a resource from a thread. If there was a supervisor, that could take the resource away, it could effectively solve all deadlocks by detecting them (which is easy) and then choosing a thread to loose its resource while letting others proceed.

Incremental Requests

There must be a way to request another resource while already holding some. If a thread can only request resource(s) while holding none (or there is some order of resources and those can be requested only in such order), a deadlock cannot be created.

Retrieved from "http://wiki.apidesign.org/wiki/Deadlock_conditions"
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