1 files changed, 162 insertions, 50 deletions

diff --git a/indra/llcommon/llevents.h b/indra/llcommon/llevents.h
index 240adcdd41..192d79b27d 100644
--- a/indra/llcommon/llevents.h
+++ b/indra/llcommon/llevents.h
@@ -19,7 +19,6 @@
 #include <map>
 #include <set>
 #include <vector>
-#include <list>
 #include <deque>
 #include <stdexcept>
 #if LL_WINDOWS
@@ -37,13 +36,9 @@
 #include <boost/enable_shared_from_this.hpp>
 #include <boost/utility.hpp>        // noncopyable
 #include <boost/optional/optional.hpp>
-#include <boost/ptr_container/ptr_vector.hpp>
 #include <boost/visit_each.hpp>
 #include <boost/ref.hpp>            // reference_wrapper
 #include <boost/type_traits/is_pointer.hpp>
-#include <boost/utility/addressof.hpp>
-#include <boost/preprocessor/repetition/enum_params.hpp>
-#include <boost/preprocessor/iteration/local.hpp>
 #include <boost/function.hpp>
 #include <boost/static_assert.hpp>
 #include "llsd.h"
@@ -120,6 +115,9 @@ typedef LLStandardSignal::slot_type LLEventListener;
 /// Result of registering a listener, supports <tt>connected()</tt>,
 /// <tt>disconnect()</tt> and <tt>blocked()</tt>
 typedef boost::signals2::connection LLBoundListener;
+/// Storing an LLBoundListener in LLTempBoundListener will disconnect the
+/// referenced listener when the LLTempBoundListener instance is destroyed.
+typedef boost::signals2::scoped_connection LLTempBoundListener;
 
 /**
  * A common idiom for event-based code is to accept either a callable --
@@ -136,7 +134,7 @@ typedef boost::signals2::connection LLBoundListener;
  * LLListenerOrPumpName::Empty. Test for this condition beforehand using
  * either <tt>if (param)</tt> or <tt>if (! param)</tt>.
  */
-class LLListenerOrPumpName
+class LL_COMMON_API LLListenerOrPumpName
 {
 public:
     /// passing string name of LLEventPump
@@ -189,7 +187,7 @@ class LLEventPump;
  * LLEventPumps is a Singleton manager through which one typically accesses
  * this subsystem.
  */
-class LLEventPumps: public LLSingleton<LLEventPumps>
+class LL_COMMON_API LLEventPumps: public LLSingleton<LLEventPumps>
 {
     friend class LLSingleton<LLEventPumps>;
 public:
@@ -204,6 +202,12 @@ public:
      */
     void flush();
 
+    /**
+     * Reset all known LLEventPump instances
+     * workaround for DEV-35406 crash on shutdown
+     */
+    void reset();
+
 private:
     friend class LLEventPump;
     /**
@@ -264,13 +268,61 @@ namespace LLEventDetail
 } // namespace LLEventDetail
 
 /*****************************************************************************
+*   LLEventTrackable
+*****************************************************************************/
+/**
+ * LLEventTrackable wraps boost::signals2::trackable, which resembles
+ * boost::trackable. Derive your listener class from LLEventTrackable instead,
+ * and use something like
+ * <tt>LLEventPump::listen(boost::bind(&YourTrackableSubclass::method,
+ * instance, _1))</tt>. This will implicitly disconnect when the object
+ * referenced by @c instance is destroyed.
+ *
+ * @note
+ * LLEventTrackable doesn't address a couple of cases:
+ * * Object destroyed during call
+ *   - You enter a slot call in thread A.
+ *   - Thread B destroys the object, which of course disconnects it from any
+ *     future slot calls.
+ *   - Thread A's call uses 'this', which now refers to a defunct object.
+ *     Undefined behavior results.
+ * * Call during destruction
+ *   - @c MySubclass is derived from LLEventTrackable.
+ *   - @c MySubclass registers one of its own methods using
+ *     <tt>LLEventPump::listen()</tt>.
+ *   - The @c MySubclass object begins destruction. <tt>~MySubclass()</tt>
+ *     runs, destroying state specific to the subclass. (For instance, a
+ *     <tt>Foo*</tt> data member is <tt>delete</tt>d but not zeroed.)
+ *   - The listening method will not be disconnected until
+ *     <tt>~LLEventTrackable()</tt> runs.
+ *   - Before we get there, another thread posts data to the @c LLEventPump
+ *     instance, calling the @c MySubclass method.
+ *   - The method in question relies on valid @c MySubclass state. (For
+ *     instance, it attempts to dereference the <tt>Foo*</tt> pointer that was
+ *     <tt>delete</tt>d but not zeroed.)
+ *   - Undefined behavior results.
+ * If you suspect you may encounter any such scenario, you're better off
+ * managing the lifespan of your object with <tt>boost::shared_ptr</tt>.
+ * Passing <tt>LLEventPump::listen()</tt> a <tt>boost::bind()</tt> expression
+ * involving a <tt>boost::weak_ptr<Foo></tt> is recognized specially, engaging
+ * thread-safe Boost.Signals2 machinery.
+ */
+typedef boost::signals2::trackable LLEventTrackable;
+
+/*****************************************************************************
 *   LLEventPump
 *****************************************************************************/
 /**
  * LLEventPump is the base class interface through which we access the
  * concrete subclasses LLEventStream and LLEventQueue.
+ *
+ * @NOTE
+ * LLEventPump derives from LLEventTrackable so that when you "chain"
+ * LLEventPump instances together, they will automatically disconnect on
+ * destruction. Please see LLEventTrackable documentation for situations in
+ * which this may be perilous across threads.
  */
-class LLEventPump: boost::noncopyable
+class LL_COMMON_API LLEventPump: public LLEventTrackable
 {
 public:
     /**
@@ -373,10 +425,22 @@ public:
      * themselves. listen() can throw any ListenError; see ListenError
      * subclasses.
      *
-     * If (as is typical) you pass a <tt>boost::bind()</tt> expression,
-     * listen() will inspect the components of that expression. If a bound
-     * object matches any of several cases, the connection will automatically
-     * be disconnected when that object is destroyed.
+     * The listener name must be unique among active listeners for this
+     * LLEventPump, else you get DupListenerName. If you don't care to invent
+     * a name yourself, use inventName(). (I was tempted to recognize e.g. ""
+     * and internally generate a distinct name for that case. But that would
+     * handle badly the scenario in which you want to add, remove, re-add,
+     * etc. the same listener: each new listen() call would necessarily
+     * perform a new dependency sort. Assuming you specify the same
+     * after/before lists each time, using inventName() when you first
+     * instantiate your listener, then passing the same name on each listen()
+     * call, allows us to optimize away the second and subsequent dependency
+     * sorts.
+     *
+     * If (as is typical) you pass a <tt>boost::bind()</tt> expression as @a
+     * listener, listen() will inspect the components of that expression. If a
+     * bound object matches any of several cases, the connection will
+     * automatically be disconnected when that object is destroyed.
      *
      * * You bind a <tt>boost::weak_ptr</tt>.
      * * Binding a <tt>boost::shared_ptr</tt> that way would ensure that the
@@ -438,11 +502,16 @@ public:
     /// query
     virtual bool enabled() const { return mEnabled; }
 
+    /// Generate a distinct name for a listener -- see listen()
+    static std::string inventName(const std::string& pfx="listener");
+
 private:
     friend class LLEventPumps;
     /// flush queued events
     virtual void flush() {}
 
+    virtual void reset();
+
 private:
     virtual LLBoundListener listen_impl(const std::string& name, const LLEventListener&,
                                         const NameList& after,
@@ -451,7 +520,8 @@ private:
 
 protected:
     /// implement the dispatching
-    LLStandardSignal mSignal;
+    boost::scoped_ptr<LLStandardSignal> mSignal;
+
     /// valve open?
     bool mEnabled;
     /// Map of named listeners. This tracks the listeners that actually exist
@@ -476,7 +546,7 @@ protected:
  * LLEventStream is a thin wrapper around LLStandardSignal. Posting an
  * event immediately calls all registered listeners.
  */
-class LLEventStream: public LLEventPump
+class LL_COMMON_API LLEventStream: public LLEventPump
 {
 public:
     LLEventStream(const std::string& name, bool tweak=false): LLEventPump(name, tweak) {}
@@ -493,7 +563,7 @@ public:
  * LLEventQueue isa LLEventPump whose post() method defers calling registered
  * listeners until flush() is called.
  */
-class LLEventQueue: public LLEventPump
+class LL_COMMON_API LLEventQueue: public LLEventPump
 {
 public:
     LLEventQueue(const std::string& name, bool tweak=false): LLEventPump(name, tweak) {}
@@ -512,47 +582,89 @@ private:
 };
 
 /*****************************************************************************
-*   LLEventTrackable and underpinnings
+*   LLReqID
 *****************************************************************************/
 /**
- * LLEventTrackable wraps boost::signals2::trackable, which resembles
- * boost::trackable. Derive your listener class from LLEventTrackable instead,
- * and use something like
- * <tt>LLEventPump::listen(boost::bind(&YourTrackableSubclass::method,
- * instance, _1))</tt>. This will implicitly disconnect when the object
- * referenced by @c instance is destroyed.
+ * This class helps the implementer of a given event API to honor the
+ * ["reqid"] convention. By this convention, each event API stamps into its
+ * response LLSD a ["reqid"] key whose value echoes the ["reqid"] value, if
+ * any, from the corresponding request.
+ *
+ * This supports an (atypical, but occasionally necessary) use case in which
+ * two or more asynchronous requests are multiplexed onto the same ["reply"]
+ * LLEventPump. Since the response events could arrive in arbitrary order, the
+ * caller must be able to demux them. It does so by matching the ["reqid"]
+ * value in each response with the ["reqid"] value in the corresponding
+ * request.
+ *
+ * It is the caller's responsibility to ensure distinct ["reqid"] values for
+ * that case. Though LLSD::UUID is guaranteed to work, it might be overkill:
+ * the "namespace" of unique ["reqid"] values is simply the set of requests
+ * specifying the same ["reply"] LLEventPump name.
+ *
+ * Making a given event API echo the request's ["reqid"] into the response is
+ * nearly trivial. This helper is mostly for mnemonic purposes, to serve as a
+ * place to put these comments. We hope that each time a coder implements a
+ * new event API based on some existing one, s/he will say, "Huh, what's an
+ * LLReqID?" and look up this material.
+ *
+ * The hardest part about the convention is deciding where to store the
+ * ["reqid"] value. Ironically, LLReqID can't help with that: you must store
+ * an LLReqID instance in whatever storage will persist until the reply is
+ * sent. For example, if the request ultimately ends up using a Responder
+ * subclass, storing an LLReqID instance in the Responder works.
  *
  * @note
- * LLEventTrackable doesn't address a couple of cases:
- * * Object destroyed during call
- *   - You enter a slot call in thread A.
- *   - Thread B destroys the object, which of course disconnects it from any
- *     future slot calls.
- *   - Thread A's call uses 'this', which now refers to a defunct object.
- *     Undefined behavior results.
- * * Call during destruction
- *   - @c MySubclass is derived from LLEventTrackable.
- *   - @c MySubclass registers one of its own methods using
- *     <tt>LLEventPump::listen()</tt>.
- *   - The @c MySubclass object begins destruction. <tt>~MySubclass()</tt>
- *     runs, destroying state specific to the subclass. (For instance, a
- *     <tt>Foo*</tt> data member is <tt>delete</tt>d but not zeroed.)
- *   - The listening method will not be disconnected until
- *     <tt>~LLEventTrackable()</tt> runs.
- *   - Before we get there, another thread posts data to the @c LLEventPump
- *     instance, calling the @c MySubclass method.
- *   - The method in question relies on valid @c MySubclass state. (For
- *     instance, it attempts to dereference the <tt>Foo*</tt> pointer that was
- *     <tt>delete</tt>d but not zeroed.)
- *   - Undefined behavior results.
- * If you suspect you may encounter any such scenario, you're better off
- * managing the lifespan of your object with <tt>boost::shared_ptr</tt>.
- * Passing <tt>LLEventPump::listen()</tt> a <tt>boost::bind()</tt> expression
- * involving a <tt>boost::weak_ptr<Foo></tt> is recognized specially, engaging
- * thread-safe Boost.Signals2 machinery.
+ * The @em implementer of an event API must honor the ["reqid"] convention.
+ * However, the @em caller of an event API need only use it if s/he is sharing
+ * the same ["reply"] LLEventPump for two or more asynchronous event API
+ * requests.
+ *
+ * In most cases, it's far easier for the caller to instantiate a local
+ * LLEventStream and pass its name to the event API in question. Then it's
+ * perfectly reasonable not to set a ["reqid"] key in the request, ignoring
+ * the @c isUndefined() ["reqid"] value in the response.
  */
-typedef boost::signals2::trackable LLEventTrackable;
+class LL_COMMON_API LLReqID
+{
+public:
+    /**
+     * If you have the request in hand at the time you instantiate the
+     * LLReqID, pass that request to extract its ["reqid"].
+ */
+    LLReqID(const LLSD& request):
+        mReqid(request["reqid"])
+    {}
+    /// If you don't yet have the request, use setFrom() later.
+    LLReqID() {}
+
+    /// Extract and store the ["reqid"] value from an incoming request.
+    void setFrom(const LLSD& request)
+    {
+        mReqid = request["reqid"];
+    }
+
+    /// Set ["reqid"] key into a pending response LLSD object.
+    void stamp(LLSD& response) const;
+
+    /// Make a whole new response LLSD object with our ["reqid"].
+    LLSD makeResponse() const
+    {
+        LLSD response;
+        stamp(response);
+        return response;
+    }
 
+    /// Not really sure of a use case for this accessor...
+    LLSD getReqID() const { return mReqid; }
+
+private:
+    LLSD mReqid;
+};
+
+/*****************************************************************************
+*   Underpinnings
+*****************************************************************************/
 /**
  * We originally provided a suite of overloaded
  * LLEventTrackable::listenTo(LLEventPump&, ...) methods that would call