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139 lines
5.2 KiB
139 lines
5.2 KiB
In addition to the single ESS object, there will be namespace representation
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objects, containing:
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----------------------------------------------------------------------------
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- namespace pointer
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- update lock
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- binding table
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- poller
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- provider cache
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- consumer provider cache
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- tree for database event filtering
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The main ESS object is left with:
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- searchable list of namespace representation objects
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- the thread pool
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- the timer
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- the event log
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There are several types of operations that affect event registrations;
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----------------------------------------------------------------------
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1) Creation and deletion of event filters.
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2) Creation and deletion of bindings.
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3) Creation and deletion of event provider registrations.
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4) Creation, deletion and modification of class definitions.
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5) Creation and deletion of consumer provider registrations.
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These operations will affect the following updatable objects:
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-------------------------------------------------------------
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1) Event filters (CEventFilter): creation, deletion, binding list change,
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activation, deactivation.
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2) Event Consumers (CPermanentConsumer): creation, deletion, consumer provider
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reference.
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3) Provider pods: filter tree updates in proxies.
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The following objects can only be created or deleted, not modified in an update:
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--------------------------------------------------------------------------------
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1) Bindings (CBinding)
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2) Polling instructions.
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Implementation of each one of these operations will proceed as follows:
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-----------------------------------------------------------------------
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a) the namespace object is locked for update and the thread is marked as
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updating this namespace
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b) The current state of the object in question (__EventFilter,
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__FilterToConsumerBinding, __Provider, __EventProviderRegistration,
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__EventConsumerProviderRegistrastion instance, or the class definition)
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is retrieved. The operation is modified to reflect the current state.
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c) All the updatable and deletable objects listed above that may be affected by
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this change are locked for update. Creatable objects are created and locked.
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Notice that this can hang if some of
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these objects are participating in an ongoing update. This will leave the
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entire namespace locked for update until the ongoing one completes --- by
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design. Note: the act of locking will AddRef the objects.
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d) The namespace object is unlocked.
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e) All the objects are instructed to perform the changes
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f) Update lock is released. This has the affect of releasing the objects, so
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those of them that have been deleted will go away at this time.
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g) The thread is "unmarked".
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Re-entrancy issues --- two possibilities:
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-----------------------------------------
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- no reentrancy: any marked thread attempting an update shall fail
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- limited reentrancy: any marked thread attempting to lock an object for an
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update shall fail if the object is locked by this thread, or block if the
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object is locked by another thread.
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Sequence of update lock acquisitioins:
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--------------------------------------
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1) Namespace object
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2) Filters
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3) Consumers
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4)
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Category (1): Event Filter creation
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-----------------------------------
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Affected objects:
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- Provider records whose definition queries intersect with this one.
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Non-exclusive changes:
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- Activate provider, call NewQuery, inform proxies of the change
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Note: the proxy will get exclusive lock while actually updating the
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tree. However, this lock will not be held while the proxy is
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talking to the stub.
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Exclusive changes:
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- update the list of filters.
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Created objects:
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- Event Filter
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- Polling instruction
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- Aggregating instruction
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Activating a filter
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-------------------
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When a filter is activated, the update lock is held on the filter and all the
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provider pods whose registration queries intersect with the filter. No exclusive
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locks are held. The tasks are: registering with all the provider pods and
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creating the appropriate polling instructions. Throughout these operations,
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a recording meta-data access point will be used to record the list of class
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names that were accessed. This list will be used to see if re-activation is
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needed when a class definition changes.
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Activation and polling selection mechanisms will not be changed in M3, despite
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their shortcomings.
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Aggregator for this filter is not separately protected.
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Exclusive lock on CEventFilter will be held only while the activation state
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is changed.
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Deactivating a filter
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---------------------
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Update locks are held on the filter, all the affected provider pods, and the
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polling instruction for this filter.
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Category (4): Class definition change
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-------------------------------------
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Note that since separate events are fired by the core for all the children of
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the class being changed, it is safe to only update the objects directly affected
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by this class. In particular, a filter is considered affected by a change to
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class A if this class was accessed during construction of the tree for this
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filter.
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Affected objects:
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- non
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