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Subject: Re: [wsbpel] Issue 6.2 - Proposal For Vote
Hi all, Ivana and I were still discussing an open technical issue about this 6.2 proposal. That is: whether branches of <flow> should be restricted to a scope-based only when <completionCondition> / earlyCompletion is used. However, since there is a Apr 1st deadline for proposal submission, it may be better to submit the proposal on what was drafted so far without waiting to resolve this open issue. And, let other people comment on this open issue. Here is my detailed viewpoints and analysis we need a scoped-only restriction when early completion is used: ======================================================== Scope-based-only branches restriction for early completion is needed, because:
How termination mechanism works in BPEL: Here is my understanding of how the termination mechanism in BPEL works: When a scope is sent with a termination signal, the targeted scope will: (1) cascade the termination signal inner child scopes (2) stop all the inner activities within the targeted scope (3) execute the termination handler. Then, done. As of now, the termination signal MUST alway go through a scope to other NON-scope activity. And, the termination Handler of the corresponding scope MUST got activated. Hence, termination of the whole scope is well defined. However, a partial termination of a scope is NOT well-defined. That is we have not defined:
Example #1 Consider the following, a flow with two sequence as branches, which is NOT scope-based. <scope name="A"> <flow> <completionCondition> ... </completionCondition> <sequence name="B1"> ... <scope name="B1SS1"> ... </scope> <receive name="B1R2" ... /> ... </sequence> <sequence name="B2"> ... <scope name="B2SS1"> ... </scope> <receive name="B2R2" ... /> ... </sequence> </flow> </scope> Say, sequence "B2" finishes. The completionCondition is fulfilled. Sequence "B1" is being terminated when it is waiting a message at the receive "B1R2". Now, we got the following questions unanswered, if we don't want to invent a brand variation of termination mechanism:
Ok. Let's change it into scope-based branches. <scope name="A"> <flow> <completionCondition> ... </completionCondition> <scope name="B1"> <terminationHandler> ... </terminationHandler> <sequence> ... <scope name="B1SS1"> ... </scope> <receive name="B1R2" ... /> ... </sequence> </scope> <scope name="B2"> <terminationHandler> ... </terminationHandler> <sequence> ... <scope name="B2SS1"> ... </scope> <receive name="B2R2" ... /> ... </sequence> </scope> </flow> </scope> The above questions got answered clearly, with reusing the current termination mechanism easily:
Hence, we minimize the need of "completionHandler". I hope I have refreshed your memory on why we come up with this scope-based branches. (Regardless we use <complete> activity or not). Example #2 One important to remember: <flow> only controls the parallelism of execution. It does not interfere the compensation and termination structure of a process. Without scope-based-branch only restriction, the net effect of a <flow> is just a parallellized execution of activities inside the flow in an undeterministic order. So, in one extreme case of this undeterministic order, one inner branch got completed first and then the other inner branch got executed. Hence, one extreme case of <flow> is equivalent to the following nested sequence pattern in the context of compensation and termination. (I replace <flow> in exmple #1 with an outter <sequence> ... You can also think of one control-link is used from sequence "EX2B1" to "EX2B2"). -------------------------------- <scope name="EX2A"> <sequence> <sequence name="EX2B1"> ... <scope name="EX2B1SS1"> ... </scope> <receive name="EX2B1R2" ... /> ... </sequence> <sequence name="EX2B2"> ... <scope name="EX2B2SS1"> ... </scope> <receive name="EX2B2R2" ... /> ... </sequence> </sequence> </scope> -------------------------------- Say, the execution is waiting at receive "EX2B2R2". Now due to early completion, we need to do this "partial" termination magic. We don't have a well-defined way to terminate sequence "EX2B2" without affecting sequence "EX2B1". Similarly, we don't have a well-defined way to terminate sequence "EX2B2" without affecting "EX2B2SS1" Now think again, if we have scope-based-only branches, all activities are separated in units-of-work. Now those branches have independent compensation and termination structure now. Last not least, if we map this early completion idea to transaction world, it does not seem like a good idea to allow partial transaction-work rollback (mapped to termination & compensation) without any units-of-work boundary marker or checkpoints (mapped to <scope>). ======================================================== Thanks!!! Thank you so much for reading this long email! Regards, Alex Yiu Trickovic, Ivana wrote: Motivation =========== The current semantics of the flow activity is that it completes when all its (directly) nested activities have completed, either successfully or unsuccessfully. However, there are scenarios where it is necessary to have ability to complete the flow activity before all its nested activities complete in order to speed up the process execution. For example, a process waits in parallel for 3 reviews of a paper. If 2 positive reviews are received the process may continue with the execution without waiting for the last, third response. The completion condition of may have the following flavors: * Wait for N out of M nested activities to complete * Wait until after boolean condition C evaluates to true The completion condition is interesting for a flow activity enclosing identical nested activities and for the parallel for-each activity (still under discussion). Proposal ========= Syntax: <flow standard-attributes> standard-elements <links>? <link name="ncname">+ </links> <completionCondition>? activity+ </flow> <completionCondition> <branches expressionLanguage="URI"? countCompletedBranchesOnly="yes|no"?> an-integer-expression </branches>? <booleanExpression expressionLanguage="URI"?> a-boolean-expression </booleanExpression>? </completionCondition> Semantics: (1) The completionCondition element is an optional element of the flow activity. Default behavior of the flow activity is that it waits for all its nested activities to complete. (2) There are two kinds of completion condition: A> <booleanExpression>: A boolean condition operating upon process variables. It is evaluated at the end of execution of each nested activity. B> <branches>: An integer value expression which is used to define condition of flavor N out of M. It is evaluated at the end of execution of each nested activity. This condition has "at least N out of M" semantics. (The exact N out of M condition semantics involve resolving racing condition among nested activities.) (3) Both conditions (<branches> and <booleanExpression>) may be specified at the same time. They will be evaluated at the end of execution of each nested activity. If at least one condition evaluates to true the <flow> activity completes successfully terminating all remaining running nested activities. If both conditions are specified, the <branches> will be evaluated first. If the boolean condition is specified the evaluation of the condition is done in a serialized fashion with respect to the nested activities directly enclosed in the flow activity. (4) If the integer value evaluated from the <branches> expression is larger than the number of nested activities in the <flow>, then bpws:invalidBranchCondition fault MUST be thrown. Note that the number of branches may be known only during runtime in some cases. Static analysis should be encouraged to detect this erroneous situation at design time when possible. (E.g. when the branches expression is a constant.) (5) <branches> expression has an optional attribute "countCompletedBranchesOnly". Its default value is "no". If countCompletedBranchesOnly is "no", it means the BPEL processor will count branches which have completed (either successfully or unsuccessfully). If countCompletedBranchesOnly is "yes", it means the BPEL processor will count branches which have completed successfully only. (6) If flow activity specifies a completionCondition element the completion condition is evaluated each time a nested activity completes. If the completion condition evaluates to true the flow activity completes successfully. All still running nested activities will be terminated. (7) Standard BPEL termination semantics applies to running nested activities when the completion condition is met. The termination of running nested activities follows the termination semantics defined in the specification (see section 13.4.4 Semantics of Activity Termination). (8) If all nested activities of the flow activity have been completed but the completion condition evaluates to false the "bpws:completionConditionFailure" MUST be thrown by the flow activity. (end) ---------------- Ivana --------------------------------------------------------------------- To unsubscribe from this mail list, you must leave the OASIS TC that generates this mail. 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