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-rw-r--r--indra/llcommon/llsingleton.cpp71
-rw-r--r--indra/llcommon/llsingleton.h409
-rw-r--r--indra/llcommon/tests/lleventcoro_test.cpp33
-rw-r--r--indra/llcommon/tests/lleventdispatcher_test.cpp83
-rw-r--r--indra/llcommon/tests/lleventfilter_test.cpp12
-rw-r--r--indra/llcommon/tests/llinstancetracker_test.cpp33
-rw-r--r--indra/llcommon/tests/lllazy_test.cpp13
-rw-r--r--indra/llcommon/tests/llleap_test.cpp20
-rw-r--r--indra/llcommon/tests/llprocess_test.cpp16
-rw-r--r--indra/llcommon/tests/llsingleton_test.cpp133
-rw-r--r--indra/llcommon/tests/wrapllerrs.h26
11 files changed, 610 insertions, 239 deletions
diff --git a/indra/llcommon/llsingleton.cpp b/indra/llcommon/llsingleton.cpp
index 9fbd78a000..c45c144570 100644
--- a/indra/llcommon/llsingleton.cpp
+++ b/indra/llcommon/llsingleton.cpp
@@ -134,12 +134,6 @@ LLSingletonBase::list_t& LLSingletonBase::get_initializing()
return LLSingletonBase::MasterList::instance().get_initializing_();
}
-//static
-LLSingletonBase::list_t& LLSingletonBase::get_initializing_from(MasterList* master)
-{
- return master->get_initializing_();
-}
-
LLSingletonBase::~LLSingletonBase() {}
void LLSingletonBase::push_initializing(const char* name)
@@ -156,7 +150,7 @@ void LLSingletonBase::pop_initializing()
if (list.empty())
{
logerrs("Underflow in stack of currently-initializing LLSingletons at ",
- demangle(typeid(*this).name()).c_str(), "::getInstance()");
+ classname(this).c_str(), "::getInstance()");
}
// Now we know list.back() exists: capture it
@@ -178,14 +172,39 @@ void LLSingletonBase::pop_initializing()
if (back != this)
{
logerrs("Push/pop mismatch in stack of currently-initializing LLSingletons: ",
- demangle(typeid(*this).name()).c_str(), "::getInstance() trying to pop ",
- demangle(typeid(*back).name()).c_str());
+ classname(this).c_str(), "::getInstance() trying to pop ",
+ classname(back).c_str());
}
// log AFTER popping so logging singletons don't cry circularity
log_initializing("Popping", typeid(*back).name());
}
+void LLSingletonBase::reset_initializing(list_t::size_type size)
+{
+ // called for cleanup in case the LLSingleton subclass constructor throws
+ // an exception
+
+ // The tricky thing about this, the reason we have a separate method
+ // instead of just calling pop_initializing(), is (hopefully remote)
+ // possibility that the exception happened *before* the
+ // push_initializing() call in LLSingletonBase's constructor. So only
+ // remove the stack top if in fact we've pushed something more than the
+ // previous size.
+ list_t& list(get_initializing());
+
+ while (list.size() > size)
+ {
+ list.pop_back();
+ }
+
+ // as in pop_initializing()
+ if (list.empty())
+ {
+ MasterList::instance().cleanup_initializing_();
+ }
+}
+
//static
void LLSingletonBase::log_initializing(const char* verb, const char* name)
{
@@ -197,7 +216,7 @@ void LLSingletonBase::log_initializing(const char* verb, const char* name)
ri != rend; ++ri)
{
LLSingletonBase* sb(*ri);
- LL_CONT << ' ' << demangle(typeid(*sb).name());
+ LL_CONT << ' ' << classname(sb);
}
LL_ENDL;
}
@@ -231,7 +250,7 @@ void LLSingletonBase::capture_dependency(list_t& initializing, EInitState initSt
// 'found' is an iterator; *found is an LLSingletonBase*; **found
// is the actual LLSingletonBase instance.
LLSingletonBase* foundp(*found);
- out << demangle(typeid(*foundp).name()) << " -> ";
+ out << classname(foundp) << " -> ";
}
// We promise to capture dependencies from both the constructor
// and the initSingleton() method, so an LLSingleton's instance
@@ -245,7 +264,7 @@ void LLSingletonBase::capture_dependency(list_t& initializing, EInitState initSt
if (initState == CONSTRUCTING)
{
logerrs("LLSingleton circularity in Constructor: ", out.str().c_str(),
- demangle(typeid(*this).name()).c_str(), "");
+ classname(this).c_str(), "");
}
else if (it_next == initializing.end())
{
@@ -256,14 +275,14 @@ void LLSingletonBase::capture_dependency(list_t& initializing, EInitState initSt
// Example: LLNotifications singleton initializes default channels.
// Channels register themselves with singleton once done.
logdebugs("LLSingleton circularity: ", out.str().c_str(),
- demangle(typeid(*this).name()).c_str(), "");
+ classname(this).c_str(), "");
}
else
{
// Actual circularity with other singleton (or single singleton is used extensively).
// Dependency can be unclear.
logwarns("LLSingleton circularity: ", out.str().c_str(),
- demangle(typeid(*this).name()).c_str(), "");
+ classname(this).c_str(), "");
}
}
else
@@ -276,8 +295,8 @@ void LLSingletonBase::capture_dependency(list_t& initializing, EInitState initSt
if (current->mDepends.insert(this).second)
{
// only log the FIRST time we hit this dependency!
- logdebugs(demangle(typeid(*current).name()).c_str(),
- " depends on ", demangle(typeid(*this).name()).c_str());
+ logdebugs(classname(current).c_str(),
+ " depends on ", classname(this).c_str());
}
}
}
@@ -336,19 +355,19 @@ void LLSingletonBase::cleanupAll()
sp->mCleaned = true;
logdebugs("calling ",
- demangle(typeid(*sp).name()).c_str(), "::cleanupSingleton()");
+ classname(sp).c_str(), "::cleanupSingleton()");
try
{
sp->cleanupSingleton();
}
catch (const std::exception& e)
{
- logwarns("Exception in ", demangle(typeid(*sp).name()).c_str(),
+ logwarns("Exception in ", classname(sp).c_str(),
"::cleanupSingleton(): ", e.what());
}
catch (...)
{
- logwarns("Unknown exception in ", demangle(typeid(*sp).name()).c_str(),
+ logwarns("Unknown exception in ", classname(sp).c_str(),
"::cleanupSingleton()");
}
}
@@ -363,7 +382,7 @@ void LLSingletonBase::deleteAll()
{
// Capture the class name first: in case of exception, don't count on
// being able to extract it later.
- const std::string name = demangle(typeid(*sp).name());
+ const std::string name = classname(sp);
try
{
// Call static method through instance function pointer.
@@ -440,7 +459,17 @@ void LLSingletonBase::logerrs(const char* p1, const char* p2, const char* p3, co
log(LLError::LEVEL_ERROR, p1, p2, p3, p4);
// The other important side effect of LL_ERRS() is
// https://www.youtube.com/watch?v=OMG7paGJqhQ (emphasis on OMG)
- LLError::crashAndLoop(std::string());
+ std::ostringstream out;
+ out << p1 << p2 << p3 << p4;
+ auto crash = LLError::getFatalFunction();
+ if (crash)
+ {
+ crash(out.str());
+ }
+ else
+ {
+ LLError::crashAndLoop(out.str());
+ }
}
std::string LLSingletonBase::demangle(const char* mangled)
diff --git a/indra/llcommon/llsingleton.h b/indra/llcommon/llsingleton.h
index 859e271e26..0da6d548ab 100644
--- a/indra/llcommon/llsingleton.h
+++ b/indra/llcommon/llsingleton.h
@@ -31,6 +31,18 @@
#include <vector>
#include <typeinfo>
+#if LL_WINDOWS
+#pragma warning (push)
+#pragma warning (disable:4265)
+#endif
+// warning C4265: 'std::_Pad' : class has virtual functions, but destructor is not virtual
+
+#include <mutex>
+
+#if LL_WINDOWS
+#pragma warning (pop)
+#endif
+
class LLSingletonBase: private boost::noncopyable
{
public:
@@ -43,7 +55,6 @@ private:
// This, on the other hand, is a stack whose top indicates the LLSingleton
// currently being initialized.
static list_t& get_initializing();
- static list_t& get_initializing_from(MasterList*);
// Produce a vector<LLSingletonBase*> of master list, in dependency order.
typedef std::vector<LLSingletonBase*> vec_t;
static vec_t dep_sort();
@@ -57,10 +68,11 @@ protected:
typedef enum e_init_state
{
UNINITIALIZED = 0, // must be default-initialized state
- CONSTRUCTING,
- INITIALIZING,
- INITIALIZED,
- DELETED
+ CONSTRUCTING, // within DERIVED_TYPE constructor
+ CONSTRUCTED, // finished DERIVED_TYPE constructor
+ INITIALIZING, // within DERIVED_TYPE::initSingleton()
+ INITIALIZED, // normal case
+ DELETED // deleteSingleton() or deleteAll() called
} EInitState;
// Define tag<T> to pass to our template constructor. You can't explicitly
@@ -100,6 +112,9 @@ protected:
// That being the case, we control exactly when it happens -- and we can
// pop the stack immediately thereafter.
void pop_initializing();
+ // Remove 'this' from the init stack in case of exception in the
+ // LLSingleton subclass constructor.
+ static void reset_initializing(list_t::size_type size);
private:
// logging
static void log_initializing(const char* verb, const char* name);
@@ -115,6 +130,10 @@ protected:
static void logwarns(const char* p1, const char* p2="",
const char* p3="", const char* p4="");
static std::string demangle(const char* mangled);
+ template <typename T>
+ static std::string classname() { return demangle(typeid(T).name()); }
+ template <typename T>
+ static std::string classname(T* ptr) { return demangle(typeid(*ptr).name()); }
// Default methods in case subclass doesn't declare them.
virtual void initSingleton() {}
@@ -178,7 +197,15 @@ struct LLSingleton_manage_master
void remove(LLSingletonBase* sb) { sb->remove_master(); }
void push_initializing(LLSingletonBase* sb) { sb->push_initializing(typeid(T).name()); }
void pop_initializing (LLSingletonBase* sb) { sb->pop_initializing(); }
- LLSingletonBase::list_t& get_initializing(T*) { return LLSingletonBase::get_initializing(); }
+ // used for init stack cleanup in case an LLSingleton subclass constructor
+ // throws an exception
+ void reset_initializing(LLSingletonBase::list_t::size_type size)
+ {
+ LLSingletonBase::reset_initializing(size);
+ }
+ // For any LLSingleton subclass except the MasterList, obtain the init
+ // stack from the MasterList singleton instance.
+ LLSingletonBase::list_t& get_initializing() { return LLSingletonBase::get_initializing(); }
};
// But for the specific case of LLSingletonBase::MasterList, don't.
@@ -189,9 +216,14 @@ struct LLSingleton_manage_master<LLSingletonBase::MasterList>
void remove(LLSingletonBase*) {}
void push_initializing(LLSingletonBase*) {}
void pop_initializing (LLSingletonBase*) {}
- LLSingletonBase::list_t& get_initializing(LLSingletonBase::MasterList* instance)
+ // since we never pushed, no need to clean up
+ void reset_initializing(LLSingletonBase::list_t::size_type size) {}
+ LLSingletonBase::list_t& get_initializing()
{
- return LLSingletonBase::get_initializing_from(instance);
+ // The MasterList shouldn't depend on any other LLSingletons. We'd
+ // get into trouble if we tried to recursively engage that machinery.
+ static LLSingletonBase::list_t sDummyList;
+ return sDummyList;
}
};
@@ -201,10 +233,19 @@ LLSingletonBase::LLSingletonBase(tag<DERIVED_TYPE>):
mCleaned(false),
mDeleteSingleton(NULL)
{
- // Make this the currently-initializing LLSingleton.
+ // This is the earliest possible point at which we can push this new
+ // instance onto the init stack. LLSingleton::constructSingleton() can't
+ // do it before calling the constructor, because it doesn't have an
+ // instance pointer until the constructor returns. Fortunately this
+ // constructor is guaranteed to be called before any subclass constructor.
+ // Make this new instance the currently-initializing LLSingleton.
LLSingleton_manage_master<DERIVED_TYPE>().push_initializing(this);
}
+// forward declare for friend directive within LLSingleton
+template <typename DERIVED_TYPE>
+class LLParamSingleton;
+
/**
* LLSingleton implements the getInstance() method part of the Singleton
* pattern. It can't make the derived class constructors protected, though, so
@@ -270,9 +311,94 @@ template <typename DERIVED_TYPE>
class LLSingleton : public LLSingletonBase
{
private:
- static DERIVED_TYPE* constructSingleton()
+ // Allow LLParamSingleton subclass -- but NOT DERIVED_TYPE itself -- to
+ // access our private members.
+ friend class LLParamSingleton<DERIVED_TYPE>;
+
+ // LLSingleton only supports a nullary constructor. However, the specific
+ // purpose for its subclass LLParamSingleton is to support Singletons
+ // requiring constructor arguments. constructSingleton() supports both use
+ // cases.
+ template <typename... Args>
+ static void constructSingleton(Args&&... args)
+ {
+ auto prev_size = LLSingleton_manage_master<DERIVED_TYPE>().get_initializing().size();
+ // getInstance() calls are from within constructor
+ sData.mInitState = CONSTRUCTING;
+ try
+ {
+ sData.mInstance = new DERIVED_TYPE(std::forward<Args>(args)...);
+ // we have called constructor, have not yet called initSingleton()
+ sData.mInitState = CONSTRUCTED;
+ }
+ catch (const std::exception& err)
+ {
+ // LLSingletonBase might -- or might not -- have pushed the new
+ // instance onto the init stack before the exception. Reset the
+ // init stack to its previous size BEFORE logging so log-machinery
+ // LLSingletons don't record a dependency on DERIVED_TYPE!
+ LLSingleton_manage_master<DERIVED_TYPE>().reset_initializing(prev_size);
+ logwarns("Error constructing ", classname<DERIVED_TYPE>().c_str(),
+ ": ", err.what());
+ // There isn't a separate EInitState value meaning "we attempted
+ // to construct this LLSingleton subclass but could not," so use
+ // DELETED. That seems slightly more appropriate than UNINITIALIZED.
+ sData.mInitState = DELETED;
+ // propagate the exception
+ throw;
+ }
+ }
+
+ static void finishInitializing()
+ {
+ // getInstance() calls are from within initSingleton()
+ sData.mInitState = INITIALIZING;
+ try
+ {
+ // initialize singleton after constructing it so that it can
+ // reference other singletons which in turn depend on it, thus
+ // breaking cyclic dependencies
+ sData.mInstance->initSingleton();
+ sData.mInitState = INITIALIZED;
+
+ // pop this off stack of initializing singletons
+ pop_initializing();
+ }
+ catch (const std::exception& err)
+ {
+ // pop this off stack of initializing singletons here, too --
+ // BEFORE logging, so log-machinery LLSingletons don't record a
+ // dependency on DERIVED_TYPE!
+ pop_initializing();
+ logwarns("Error in ", classname<DERIVED_TYPE>().c_str(),
+ "::initSingleton(): ", err.what());
+ // and get rid of the instance entirely
+ deleteSingleton();
+ // propagate the exception
+ throw;
+ }
+ }
+
+ static void pop_initializing()
{
- return new DERIVED_TYPE();
+ // route through LLSingleton_manage_master so we Do The Right Thing
+ // (namely, nothing) for MasterList
+ LLSingleton_manage_master<DERIVED_TYPE>().pop_initializing(sData.mInstance);
+ }
+
+ // Without this 'using' declaration, the static method we're declaring
+ // here would hide the base-class method we want it to call.
+ using LLSingletonBase::capture_dependency;
+ static void capture_dependency()
+ {
+ // By this point, if DERIVED_TYPE was pushed onto the initializing
+ // stack, it has been popped off. So the top of that stack, if any, is
+ // an LLSingleton that directly depends on DERIVED_TYPE. If
+ // getInstance() was called by another LLSingleton, rather than from
+ // vanilla application code, record the dependency.
+ sData.mInstance->capture_dependency(
+ LLSingleton_manage_master<DERIVED_TYPE>().get_initializing(),
+ sData.mInitState);
}
// We know of no way to instruct the compiler that every subclass
@@ -285,34 +411,17 @@ private:
// subclass body.
virtual void you_must_use_LLSINGLETON_macro() = 0;
- // stores pointer to singleton instance
- struct SingletonLifetimeManager
+ // The purpose of this struct is to engage the C++11 guarantee that static
+ // variables declared in function scope are initialized exactly once, even
+ // if multiple threads concurrently reach the same declaration.
+ // https://en.cppreference.com/w/cpp/language/storage_duration#Static_local_variables
+ // Since getInstance() declares a static instance of SingletonInitializer,
+ // only the first call to getInstance() calls constructSingleton().
+ struct SingletonInitializer
{
- SingletonLifetimeManager()
- {
- construct();
- }
-
- static void construct()
- {
- sData.mInitState = CONSTRUCTING;
- sData.mInstance = constructSingleton();
- sData.mInitState = INITIALIZING;
- }
-
- ~SingletonLifetimeManager()
+ SingletonInitializer()
{
- // The dependencies between LLSingletons, and the arbitrary order
- // of static-object destruction, mean that we DO NOT WANT this
- // destructor to delete this LLSingleton. This destructor will run
- // without regard to any other LLSingleton whose cleanup might
- // depend on its existence. If you want to clean up LLSingletons,
- // call LLSingletonBase::deleteAll() sometime before static-object
- // destruction begins. That method will properly honor cross-
- // LLSingleton dependencies. Otherwise we simply leak LLSingleton
- // instances at shutdown. Since the whole process is terminating
- // anyway, that's not necessarily a bad thing; it depends on what
- // resources your LLSingleton instances are managing.
+ constructSingleton();
}
};
@@ -363,64 +472,59 @@ public:
static void deleteSingleton()
{
delete sData.mInstance;
- sData.mInstance = NULL;
- sData.mInitState = DELETED;
+ // SingletonData state handled by destructor, above
}
static DERIVED_TYPE* getInstance()
{
- static SingletonLifetimeManager sLifeTimeMgr;
+ // call constructSingleton() only the first time we get here
+ static SingletonInitializer sInitializer;
switch (sData.mInitState)
{
case UNINITIALIZED:
// should never be uninitialized at this point
logerrs("Uninitialized singleton ",
- demangle(typeid(DERIVED_TYPE).name()).c_str());
+ classname<DERIVED_TYPE>().c_str());
return NULL;
case CONSTRUCTING:
+ // here if DERIVED_TYPE's constructor (directly or indirectly)
+ // calls DERIVED_TYPE::getInstance()
logerrs("Tried to access singleton ",
- demangle(typeid(DERIVED_TYPE).name()).c_str(),
+ classname<DERIVED_TYPE>().c_str(),
" from singleton constructor!");
return NULL;
- case INITIALIZING:
- // go ahead and flag ourselves as initialized so we can be
- // reentrant during initialization
- sData.mInitState = INITIALIZED;
- // initialize singleton after constructing it so that it can
- // reference other singletons which in turn depend on it, thus
- // breaking cyclic dependencies
- sData.mInstance->initSingleton();
- // pop this off stack of initializing singletons
- LLSingleton_manage_master<DERIVED_TYPE>().pop_initializing(sData.mInstance);
+ case CONSTRUCTED:
+ // first time through: set to CONSTRUCTED by
+ // constructSingleton(), called by sInitializer's constructor;
+ // still have to call initSingleton()
+ finishInitializing();
break;
+ case INITIALIZING:
+ // here if DERIVED_TYPE::initSingleton() (directly or indirectly)
+ // calls DERIVED_TYPE::getInstance(): go ahead and allow it
case INITIALIZED:
+ // normal subsequent calls
break;
case DELETED:
+ // called after deleteSingleton()
logwarns("Trying to access deleted singleton ",
- demangle(typeid(DERIVED_TYPE).name()).c_str(),
+ classname<DERIVED_TYPE>().c_str(),
" -- creating new instance");
- SingletonLifetimeManager::construct();
- // same as first time construction
- sData.mInitState = INITIALIZED;
- sData.mInstance->initSingleton();
- // pop this off stack of initializing singletons
- LLSingleton_manage_master<DERIVED_TYPE>().pop_initializing(sData.mInstance);
+ // This recovery sequence is NOT thread-safe! We would need a
+ // recursive_mutex a la LLParamSingleton.
+ constructSingleton();
+ finishInitializing();
break;
}
- // By this point, if DERIVED_TYPE was pushed onto the initializing
- // stack, it has been popped off. So the top of that stack, if any, is
- // an LLSingleton that directly depends on DERIVED_TYPE. If this call
- // came from another LLSingleton, rather than from vanilla application
- // code, record the dependency.
- sData.mInstance->capture_dependency(
- LLSingleton_manage_master<DERIVED_TYPE>().get_initializing(sData.mInstance),
- sData.mInitState);
+ // record the dependency, if any: check if we got here from another
+ // LLSingleton's constructor or initSingleton() method
+ capture_dependency();
return sData.mInstance;
}
@@ -460,6 +564,173 @@ private:
template<typename T>
typename LLSingleton<T>::SingletonData LLSingleton<T>::sData;
+
+/**
+ * LLParamSingleton<T> is like LLSingleton<T>, except in the following ways:
+ *
+ * * It is NOT instantiated on demand (instance() or getInstance()). You must
+ * first call initParamSingleton(constructor args...).
+ * * Before initParamSingleton(), calling instance() or getInstance() dies with
+ * LL_ERRS.
+ * * initParamSingleton() may be called only once. A second call dies with
+ * LL_ERRS.
+ * * However, distinct initParamSingleton() calls can be used to engage
+ * different constructors, as long as only one such call is executed at
+ * runtime.
+ * * Unlike LLSingleton, an LLParamSingleton cannot be "revived" by an
+ * instance() or getInstance() call after deleteSingleton().
+ *
+ * Importantly, though, each LLParamSingleton subclass does participate in the
+ * dependency-ordered LLSingletonBase::deleteAll() processing.
+ */
+template <typename DERIVED_TYPE>
+class LLParamSingleton : public LLSingleton<DERIVED_TYPE>
+{
+private:
+ typedef LLSingleton<DERIVED_TYPE> super;
+ // Use a recursive_mutex in case of constructor circularity. With a
+ // non-recursive mutex, that would result in deadlock rather than the
+ // logerrs() call in getInstance().
+ typedef std::recursive_mutex mutex_t;
+
+public:
+ using super::deleteSingleton;
+ using super::instanceExists;
+ using super::wasDeleted;
+
+ // Passes arguments to DERIVED_TYPE's constructor and sets appropriate states
+ template <typename... Args>
+ static void initParamSingleton(Args&&... args)
+ {
+ // In case racing threads both call initParamSingleton() at the same
+ // time, serialize them. One should initialize; the other should see
+ // mInitState already set.
+ std::unique_lock<mutex_t> lk(getMutex());
+ // For organizational purposes this function shouldn't be called twice
+ if (super::sData.mInitState != super::UNINITIALIZED)
+ {
+ super::logerrs("Tried to initialize singleton ",
+ super::template classname<DERIVED_TYPE>().c_str(),
+ " twice!");
+ }
+ else
+ {
+ super::constructSingleton(std::forward<Args>(args)...);
+ super::finishInitializing();
+ }
+ }
+
+ static DERIVED_TYPE* getInstance()
+ {
+ // In case racing threads call getInstance() at the same moment as
+ // initParamSingleton(), serialize the calls.
+ std::unique_lock<mutex_t> lk(getMutex());
+
+ switch (super::sData.mInitState)
+ {
+ case super::UNINITIALIZED:
+ super::logerrs("Uninitialized param singleton ",
+ super::template classname<DERIVED_TYPE>().c_str());
+ break;
+
+ case super::CONSTRUCTING:
+ super::logerrs("Tried to access param singleton ",
+ super::template classname<DERIVED_TYPE>().c_str(),
+ " from singleton constructor!");
+ break;
+
+ case super::CONSTRUCTED:
+ // Should never happen!? The CONSTRUCTED state is specifically to
+ // navigate through LLSingleton::SingletonInitializer getting
+ // constructed (once) before LLSingleton::getInstance()'s switch
+ // on mInitState. But our initParamSingleton() method calls
+ // constructSingleton() and then calls finishInitializing(), which
+ // immediately sets INITIALIZING. Why are we here?
+ super::logerrs("Param singleton ",
+ super::template classname<DERIVED_TYPE>().c_str(),
+ "::initSingleton() not yet called");
+ break;
+
+ case super::INITIALIZING:
+ // As with LLSingleton, explicitly permit circular calls from
+ // within initSingleton()
+ case super::INITIALIZED:
+ // for any valid call, capture dependencies
+ super::capture_dependency();
+ return super::sData.mInstance;
+
+ case super::DELETED:
+ super::logerrs("Trying to access deleted param singleton ",
+ super::template classname<DERIVED_TYPE>().c_str());
+ break;
+ }
+
+ // should never actually get here; this is to pacify the compiler,
+ // which assumes control might return from logerrs()
+ return nullptr;
+ }
+
+ // instance() is replicated here so it calls
+ // LLParamSingleton::getInstance() rather than LLSingleton::getInstance()
+ // -- avoid making getInstance() virtual
+ static DERIVED_TYPE& instance()
+ {
+ return *getInstance();
+ }
+
+private:
+ // sMutex must be a function-local static rather than a static member. One
+ // of the essential features of LLSingleton and friends is that they must
+ // support getInstance() even when the containing module's static
+ // variables have not yet been runtime-initialized. A mutex requires
+ // construction. A static class member might not yet have been
+ // constructed.
+ //
+ // We could store a dumb mutex_t*, notice when it's NULL and allocate a
+ // heap mutex -- but that's vulnerable to race conditions. And we can't
+ // defend the dumb pointer with another mutex.
+ //
+ // We could store a std::atomic<mutex_t*> -- but a default-constructed
+ // std::atomic<T> does not contain a valid T, even a default-constructed
+ // T! Which means std::atomic, too, requires runtime initialization.
+ //
+ // But a function-local static is guaranteed to be initialized exactly
+ // once, the first time control reaches that declaration.
+ static mutex_t& getMutex()
+ {
+ static mutex_t sMutex;
+ return sMutex;
+ }
+};
+
+/**
+ * Initialization locked singleton, only derived class can decide when to initialize.
+ * Starts locked.
+ * For cases when singleton has a dependency onto something or.
+ *
+ * LLLockedSingleton is like an LLParamSingleton with a nullary constructor.
+ * It cannot be instantiated on demand (instance() or getInstance() call) --
+ * it must be instantiated by calling construct(). However, it does
+ * participate in dependency-ordered LLSingletonBase::deleteAll() processing.
+ */
+template <typename DT>
+class LLLockedSingleton : public LLParamSingleton<DT>
+{
+ typedef LLParamSingleton<DT> super;
+
+public:
+ using super::deleteSingleton;
+ using super::getInstance;
+ using super::instance;
+ using super::instanceExists;
+ using super::wasDeleted;
+
+ static void construct()
+ {
+ super::initParamSingleton();
+ }
+};
+
/**
* Use LLSINGLETON(Foo); at the start of an LLSingleton<Foo> subclass body
* when you want to declare an out-of-line constructor:
@@ -484,13 +755,13 @@ typename LLSingleton<T>::SingletonData LLSingleton<T>::sData;
* file, use 'inline' (unless it's a template class) to avoid duplicate-symbol
* errors at link time.
*/
-#define LLSINGLETON(DERIVED_CLASS) \
+#define LLSINGLETON(DERIVED_CLASS, ...) \
private: \
/* implement LLSingleton pure virtual method whose sole purpose */ \
/* is to remind people to use this macro */ \
virtual void you_must_use_LLSINGLETON_macro() {} \
friend class LLSingleton<DERIVED_CLASS>; \
- DERIVED_CLASS()
+ DERIVED_CLASS(__VA_ARGS__)
/**
* Use LLSINGLETON_EMPTY_CTOR(Foo); at the start of an LLSingleton<Foo>
diff --git a/indra/llcommon/tests/lleventcoro_test.cpp b/indra/llcommon/tests/lleventcoro_test.cpp
index a459d17fb8..fa02d2bb1a 100644
--- a/indra/llcommon/tests/lleventcoro_test.cpp
+++ b/indra/llcommon/tests/lleventcoro_test.cpp
@@ -506,16 +506,10 @@ namespace tut
replyName = waiter.getName0();
errorName = waiter.getName1();
WrapLLErrs capture;
- try
- {
- result = waiter.suspendWithLog();
- debug("no exception");
- }
- catch (const WrapLLErrs::FatalException& e)
- {
- debug(STRINGIZE("exception " << e.what()));
- threw = e.what();
- }
+ threw = capture.catch_llerrs([&waiter, &debug](){
+ result = waiter.suspendWithLog();
+ debug("no exception");
+ });
}
END
}
@@ -762,18 +756,13 @@ namespace tut
{
LLCoroEventPumps waiter;
WrapLLErrs capture;
- try
- {
- result = waiter.postAndSuspendWithLog(
- LLSDMap("value", 31)("fail", LLSD()),
- immediateAPI.getPump(), "reply", "error");
- debug("no exception");
- }
- catch (const WrapLLErrs::FatalException& e)
- {
- debug(STRINGIZE("exception " << e.what()));
- threw = e.what();
- }
+ threw = capture.catch_llerrs(
+ [&waiter, &debug](){
+ result = waiter.postAndSuspendWithLog(
+ LLSDMap("value", 31)("fail", LLSD()),
+ immediateAPI.getPump(), "reply", "error");
+ debug("no exception");
+ });
}
END
}
diff --git a/indra/llcommon/tests/lleventdispatcher_test.cpp b/indra/llcommon/tests/lleventdispatcher_test.cpp
index 5a4df81bf1..a181d5c941 100644
--- a/indra/llcommon/tests/lleventdispatcher_test.cpp
+++ b/indra/llcommon/tests/lleventdispatcher_test.cpp
@@ -22,6 +22,7 @@
#include "llsdutil.h"
#include "stringize.h"
#include "tests/wrapllerrs.h"
+#include "../test/catch_and_store_what_in.h"
#include <map>
#include <string>
@@ -630,16 +631,9 @@ namespace tut
void call_exc(const std::string& func, const LLSD& args, const std::string& exc_frag)
{
- std::string threw;
- try
- {
- work(func, args);
- }
- catch (const std::runtime_error& e)
- {
- cout << "*** " << e.what() << '\n';
- threw = e.what();
- }
+ std::string threw = catch_what<std::runtime_error>([this, &func, &args](){
+ work(func, args);
+ });
ensure_has(threw, exc_frag);
}
@@ -717,15 +711,9 @@ namespace tut
LLSD attempts(LLSDArray(17)(LLSDMap("pi", 3.14)("two", 2)));
foreach(LLSD ae, inArray(attempts))
{
- std::string threw;
- try
- {
- work.add("freena_err", "freena", freena, ae);
- }
- catch (const std::exception& e)
- {
- threw = e.what();
- }
+ std::string threw = catch_what<std::exception>([this, &ae](){
+ work.add("freena_err", "freena", freena, ae);
+ });
ensure_has(threw, "must be an array");
}
}
@@ -734,15 +722,9 @@ namespace tut
void object::test<2>()
{
set_test_name("map-style registration with badly-formed defaults");
- std::string threw;
- try
- {
- work.add("freena_err", "freena", freena, LLSDArray("a")("b"), 17);
- }
- catch (const std::exception& e)
- {
- threw = e.what();
- }
+ std::string threw = catch_what<std::exception>([this](){
+ work.add("freena_err", "freena", freena, LLSDArray("a")("b"), 17);
+ });
ensure_has(threw, "must be a map or an array");
}
@@ -750,17 +732,11 @@ namespace tut
void object::test<3>()
{
set_test_name("map-style registration with too many array defaults");
- std::string threw;
- try
- {
- work.add("freena_err", "freena", freena,
- LLSDArray("a")("b"),
- LLSDArray(17)(0.9)("gack"));
- }
- catch (const std::exception& e)
- {
- threw = e.what();
- }
+ std::string threw = catch_what<std::exception>([this](){
+ work.add("freena_err", "freena", freena,
+ LLSDArray("a")("b"),
+ LLSDArray(17)(0.9)("gack"));
+ });
ensure_has(threw, "shorter than");
}
@@ -768,17 +744,11 @@ namespace tut
void object::test<4>()
{
set_test_name("map-style registration with too many map defaults");
- std::string threw;
- try
- {
- work.add("freena_err", "freena", freena,
- LLSDArray("a")("b"),
- LLSDMap("b", 17)("foo", 3.14)("bar", "sinister"));
- }
- catch (const std::exception& e)
- {
- threw = e.what();
- }
+ std::string threw = catch_what<std::exception>([this](){
+ work.add("freena_err", "freena", freena,
+ LLSDArray("a")("b"),
+ LLSDMap("b", 17)("foo", 3.14)("bar", "sinister"));
+ });
ensure_has(threw, "nonexistent params");
ensure_has(threw, "foo");
ensure_has(threw, "bar");
@@ -1039,16 +1009,9 @@ namespace tut
// We don't have a comparable helper function for the one-arg
// operator() method, and it's not worth building one just for this
// case. Write it out.
- std::string threw;
- try
- {
- work(LLSDMap("op", "freek"));
- }
- catch (const std::runtime_error& e)
- {
- cout << "*** " << e.what() << "\n";
- threw = e.what();
- }
+ std::string threw = catch_what<std::runtime_error>([this](){
+ work(LLSDMap("op", "freek"));
+ });
ensure_has(threw, "bad");
ensure_has(threw, "op");
ensure_has(threw, "freek");
diff --git a/indra/llcommon/tests/lleventfilter_test.cpp b/indra/llcommon/tests/lleventfilter_test.cpp
index eb98b12ef5..1875013794 100644
--- a/indra/llcommon/tests/lleventfilter_test.cpp
+++ b/indra/llcommon/tests/lleventfilter_test.cpp
@@ -350,15 +350,9 @@ namespace tut
// Now let the timer expire.
filter.forceTimeout();
// Notice the timeout.
- std::string threw;
- try
- {
- mainloop.post(17);
- }
- catch (const WrapLLErrs::FatalException& e)
- {
- threw = e.what();
- }
+ std::string threw = capture.catch_llerrs([this](){
+ mainloop.post(17);
+ });
ensure_contains("errorAfter() timeout exception", threw, "timeout");
// Timing out cancels the timer. Verify that.
listener0.reset(0);
diff --git a/indra/llcommon/tests/llinstancetracker_test.cpp b/indra/llcommon/tests/llinstancetracker_test.cpp
index c7d4b8a06b..d94fc0c56d 100644
--- a/indra/llcommon/tests/llinstancetracker_test.cpp
+++ b/indra/llcommon/tests/llinstancetracker_test.cpp
@@ -198,14 +198,9 @@ namespace tut
{
WrapLLErrs wrapper;
Keyed::instance_iter i(Keyed::beginInstances());
- try
- {
- delete keyed;
- }
- catch (const WrapLLErrs::FatalException& e)
- {
- what = e.what();
- }
+ what = wrapper.catch_llerrs([&keyed](){
+ delete keyed;
+ });
}
ensure(! what.empty());
}
@@ -219,14 +214,9 @@ namespace tut
{
WrapLLErrs wrapper;
Keyed::key_iter i(Keyed::beginKeys());
- try
- {
- delete keyed;
- }
- catch (const WrapLLErrs::FatalException& e)
- {
- what = e.what();
- }
+ what = wrapper.catch_llerrs([&keyed](){
+ delete keyed;
+ });
}
ensure(! what.empty());
}
@@ -240,14 +230,9 @@ namespace tut
{
WrapLLErrs wrapper;
Unkeyed::instance_iter i(Unkeyed::beginInstances());
- try
- {
- delete unkeyed;
- }
- catch (const WrapLLErrs::FatalException& e)
- {
- what = e.what();
- }
+ what = wrapper.catch_llerrs([&unkeyed](){
+ delete unkeyed;
+ });
}
ensure(! what.empty());
}
diff --git a/indra/llcommon/tests/lllazy_test.cpp b/indra/llcommon/tests/lllazy_test.cpp
index 32a717f4fc..542306ee22 100644
--- a/indra/llcommon/tests/lllazy_test.cpp
+++ b/indra/llcommon/tests/lllazy_test.cpp
@@ -38,6 +38,7 @@
#include <boost/lambda/bind.hpp>
// other Linden headers
#include "../test/lltut.h"
+#include "../test/catch_and_store_what_in.h"
namespace bll = boost::lambda;
@@ -200,15 +201,9 @@ namespace tut
void lllazy_object::test<2>()
{
TestNeedsTesting tnt;
- std::string threw;
- try
- {
- tnt.toolate();
- }
- catch (const LLLazyCommon::InstanceChange& e)
- {
- threw = e.what();
- }
+ std::string threw = catch_what<LLLazyCommon::InstanceChange>([&tnt](){
+ tnt.toolate();
+ });
ensure_contains("InstanceChange exception", threw, "replace LLLazy instance");
}
diff --git a/indra/llcommon/tests/llleap_test.cpp b/indra/llcommon/tests/llleap_test.cpp
index 45648536c4..bf0a74d10d 100644
--- a/indra/llcommon/tests/llleap_test.cpp
+++ b/indra/llcommon/tests/llleap_test.cpp
@@ -23,7 +23,7 @@
#include "../test/lltut.h"
#include "../test/namedtempfile.h"
#include "../test/catch_and_store_what_in.h"
-#include "wrapllerrs.h"
+#include "wrapllerrs.h" // CaptureLog
#include "llevents.h"
#include "llprocess.h"
#include "llstring.h"
@@ -290,12 +290,9 @@ namespace tut
void object::test<6>()
{
set_test_name("empty plugin vector");
- std::string threw;
- try
- {
- LLLeap::create("empty", StringVec());
- }
- CATCH_AND_STORE_WHAT_IN(threw, LLLeap::Error)
+ std::string threw = catch_what<LLLeap::Error>([](){
+ LLLeap::create("empty", StringVec());
+ });
ensure_contains("LLLeap::Error", threw, "no plugin");
// try the suppress-exception variant
ensure("bad launch returned non-NULL", ! LLLeap::create("empty", StringVec(), false));
@@ -308,12 +305,9 @@ namespace tut
// Synthesize bogus executable name
std::string BADPYTHON(PYTHON.substr(0, PYTHON.length()-1) + "x");
CaptureLog log;
- std::string threw;
- try
- {
- LLLeap::create("bad exe", BADPYTHON);
- }
- CATCH_AND_STORE_WHAT_IN(threw, LLLeap::Error)
+ std::string threw = catch_what<LLLeap::Error>([&BADPYTHON](){
+ LLLeap::create("bad exe", BADPYTHON);
+ });
ensure_contains("LLLeap::create() didn't throw", threw, "failed");
log.messageWith("failed");
log.messageWith(BADPYTHON);
diff --git a/indra/llcommon/tests/llprocess_test.cpp b/indra/llcommon/tests/llprocess_test.cpp
index 5c87cdabd9..222d832084 100644
--- a/indra/llcommon/tests/llprocess_test.cpp
+++ b/indra/llcommon/tests/llprocess_test.cpp
@@ -25,8 +25,6 @@
#include <boost/function.hpp>
#include <boost/algorithm/string/find_iterator.hpp>
#include <boost/algorithm/string/finder.hpp>
-//#include <boost/lambda/lambda.hpp>
-//#include <boost/lambda/bind.hpp>
// other Linden headers
#include "../test/lltut.h"
#include "../test/namedtempfile.h"
@@ -35,7 +33,7 @@
#include "llsdutil.h"
#include "llevents.h"
#include "llstring.h"
-#include "wrapllerrs.h"
+#include "wrapllerrs.h" // CaptureLog
#if defined(LL_WINDOWS)
#define sleep(secs) _sleep((secs) * 1000)
@@ -45,8 +43,7 @@
#include <sys/wait.h>
#endif
-//namespace lambda = boost::lambda;
- std::string apr_strerror_helper(apr_status_t rv)
+std::string apr_strerror_helper(apr_status_t rv)
{
char errbuf[256];
apr_strerror(rv, errbuf, sizeof(errbuf));
@@ -960,12 +957,9 @@ namespace tut
#define CATCH_IN(THREW, EXCEPTION, CODE) \
do \
{ \
- (THREW).clear(); \
- try \
- { \
- CODE; \
- } \
- CATCH_AND_STORE_WHAT_IN(THREW, EXCEPTION) \
+ (THREW) = catch_what<EXCEPTION>([&](){ \
+ CODE; \
+ }); \
ensure("failed to throw " #EXCEPTION ": " #CODE, ! (THREW).empty()); \
} while (0)
diff --git a/indra/llcommon/tests/llsingleton_test.cpp b/indra/llcommon/tests/llsingleton_test.cpp
index 56886bc73f..75ddff9d7d 100644
--- a/indra/llcommon/tests/llsingleton_test.cpp
+++ b/indra/llcommon/tests/llsingleton_test.cpp
@@ -29,7 +29,8 @@
#include "llsingleton.h"
#include "../test/lltut.h"
-
+#include "wrapllerrs.h"
+#include "llsd.h"
// Capture execution sequence by appending to log string.
std::string sLog;
@@ -198,4 +199,134 @@ namespace tut
TESTS(A, B, 4, 5, 6, 7)
TESTS(B, A, 8, 9, 10, 11)
+
+#define PARAMSINGLETON(cls) \
+ class cls: public LLParamSingleton<cls> \
+ { \
+ LLSINGLETON(cls, const LLSD::String& str): mDesc(str) {} \
+ cls(LLSD::Integer i): mDesc(i) {} \
+ \
+ public: \
+ std::string desc() const { return mDesc.asString(); } \
+ \
+ private: \
+ LLSD mDesc; \
+ }
+
+ // Declare two otherwise-identical LLParamSingleton classes so we can
+ // validly initialize each using two different constructors. If we tried
+ // to test that with a single LLParamSingleton class within the same test
+ // program, we'd get 'trying to use deleted LLParamSingleton' errors.
+ PARAMSINGLETON(PSing1);
+ PARAMSINGLETON(PSing2);
+
+ template<> template<>
+ void singleton_object_t::test<12>()
+ {
+ set_test_name("LLParamSingleton");
+
+ WrapLLErrs catcherr;
+ // query methods
+ ensure("false positive on instanceExists()", ! PSing1::instanceExists());
+ ensure("false positive on wasDeleted()", ! PSing1::wasDeleted());
+ // try to reference before initializing
+ std::string threw = catcherr.catch_llerrs([](){
+ (void)PSing1::instance();
+ });
+ ensure_contains("too-early instance() didn't throw", threw, "Uninitialized");
+ // getInstance() behaves the same as instance()
+ threw = catcherr.catch_llerrs([](){
+ (void)PSing1::getInstance();
+ });
+ ensure_contains("too-early getInstance() didn't throw", threw, "Uninitialized");
+ // initialize using LLSD::String constructor
+ PSing1::initParamSingleton("string");
+ ensure_equals(PSing1::instance().desc(), "string");
+ ensure("false negative on instanceExists()", PSing1::instanceExists());
+ // try to initialize again
+ threw = catcherr.catch_llerrs([](){
+ PSing1::initParamSingleton("again");
+ });
+ ensure_contains("second ctor(string) didn't throw", threw, "twice");
+ // try to initialize using the other constructor -- should be
+ // well-formed, but illegal at runtime
+ threw = catcherr.catch_llerrs([](){
+ PSing1::initParamSingleton(17);
+ });
+ ensure_contains("other ctor(int) didn't throw", threw, "twice");
+ PSing1::deleteSingleton();
+ ensure("false negative on wasDeleted()", PSing1::wasDeleted());
+ threw = catcherr.catch_llerrs([](){
+ (void)PSing1::instance();
+ });
+ ensure_contains("accessed deleted LLParamSingleton", threw, "deleted");
+ }
+
+ template<> template<>
+ void singleton_object_t::test<13>()
+ {
+ set_test_name("LLParamSingleton alternate ctor");
+
+ WrapLLErrs catcherr;
+ // We don't have to restate all the tests for PSing1. Only test validly
+ // using the other constructor.
+ PSing2::initParamSingleton(17);
+ ensure_equals(PSing2::instance().desc(), "17");
+ // can't do it twice
+ std::string threw = catcherr.catch_llerrs([](){
+ PSing2::initParamSingleton(34);
+ });
+ ensure_contains("second ctor(int) didn't throw", threw, "twice");
+ // can't use the other constructor either
+ threw = catcherr.catch_llerrs([](){
+ PSing2::initParamSingleton("string");
+ });
+ ensure_contains("other ctor(string) didn't throw", threw, "twice");
+ }
+
+ class CircularPCtor: public LLParamSingleton<CircularPCtor>
+ {
+ LLSINGLETON(CircularPCtor)
+ {
+ // never mind indirection, just go straight for the circularity
+ (void)instance();
+ }
+ };
+
+ template<> template<>
+ void singleton_object_t::test<14>()
+ {
+ set_test_name("Circular LLParamSingleton constructor");
+ WrapLLErrs catcherr;
+ std::string threw = catcherr.catch_llerrs([](){
+ CircularPCtor::initParamSingleton();
+ });
+ ensure_contains("constructor circularity didn't throw", threw, "constructor");
+ }
+
+ class CircularPInit: public LLParamSingleton<CircularPInit>
+ {
+ LLSINGLETON_EMPTY_CTOR(CircularPInit);
+ public:
+ virtual void initSingleton()
+ {
+ // never mind indirection, just go straight for the circularity
+ CircularPInit *pt = getInstance();
+ if (!pt)
+ {
+ throw;
+ }
+ }
+ };
+
+ template<> template<>
+ void singleton_object_t::test<15>()
+ {
+ set_test_name("Circular LLParamSingleton initSingleton()");
+ WrapLLErrs catcherr;
+ std::string threw = catcherr.catch_llerrs([](){
+ CircularPInit::initParamSingleton();
+ });
+ ensure("initSingleton() circularity threw", threw.empty());
+ }
}
diff --git a/indra/llcommon/tests/wrapllerrs.h b/indra/llcommon/tests/wrapllerrs.h
index 08fbf19b1c..b07d5afbd8 100644
--- a/indra/llcommon/tests/wrapllerrs.h
+++ b/indra/llcommon/tests/wrapllerrs.h
@@ -37,6 +37,7 @@
#include "llerrorcontrol.h"
#include "llexception.h"
#include "stringize.h"
+#include "../test/catch_and_store_what_in.h"
#include <boost/bind.hpp>
#include <boost/noncopyable.hpp>
#include <boost/shared_ptr.hpp>
@@ -81,6 +82,31 @@ struct WrapLLErrs
LLTHROW(FatalException(message));
}
+ /// Convenience wrapper for catch_what<FatalException>()
+ //
+ // The implementation makes it clear that this function need not be a
+ // member; it could easily be a free function. It is a member because it
+ // makes no sense to attempt to catch FatalException unless there is a
+ // WrapLLErrs instance in scope. Without a live WrapLLErrs instance, any
+ // LL_ERRS() reached by code within 'func' would terminate the test
+ // program instead of throwing FatalException.
+ //
+ // We were tempted to introduce a free function, likewise accepting
+ // arbitrary 'func', that would instantiate WrapLLErrs and then call
+ // catch_llerrs() on that instance. We decided against it, for this
+ // reason: on extending a test function containing a single call to that
+ // free function, a maintainer would most likely make additional calls to
+ // that free function, instead of switching to an explicit WrapLLErrs
+ // declaration with several calls to its catch_llerrs() member function.
+ // Even a construct such as WrapLLErrs().catch_llerrs(...) would make the
+ // object declaration more visible; it's not unreasonable to expect a
+ // maintainer to extend that by naming and reusing the WrapLLErrs instance.
+ template <typename FUNC>
+ std::string catch_llerrs(FUNC func)
+ {
+ return catch_what<FatalException>(func);
+ }
+
std::string error;
LLError::SettingsStoragePtr mPriorErrorSettings;
LLError::FatalFunction mPriorFatal;