// @file dur.h durability support #pragma once #include "diskloc.h" #include "mongommf.h" namespace mongo { class NamespaceDetails; void mongoAbort(const char *msg); void abort(); // not defined -- use mongoAbort() instead namespace dur { // a smaller limit is likely better on 32 bit #if defined(__i386__) || defined(_M_IX86) const unsigned UncommittedBytesLimit = 50 * 1024 * 1024; #else const unsigned UncommittedBytesLimit = 100 * 1024 * 1024; #endif /** Call during startup so durability module can initialize Throws if fatal error Does nothing if cmdLine.dur is false */ void startup(); class DurableInterface : boost::noncopyable { public: virtual ~DurableInterface() { log() << "ERROR warning ~DurableInterface not intended to be called" << endl; } /** Declare that a file has been created Normally writes are applied only after journaling, for safety. But here the file is created first, and the journal will just replay the creation if the create didn't happen because of crashing. */ virtual void createdFile(string filename, unsigned long long len) = 0; /** Declarations of write intent. Use these methods to declare "i'm about to write to x and it should be logged for redo." Failure to call writing...() is checked in _DEBUG mode by using a read only mapped view (i.e., you'll segfault if the code is covered in that situation). The _DEBUG check doesn't verify that your length is correct though. */ /** declare intent to write to x for up to len @return pointer where to write. this is modified when testIntent is true. */ virtual void* writingPtr(void *x, unsigned len) = 0; /** declare write intent; should already be in the write view to work correctly when testIntent is true. if you aren't, use writingPtr() instead. */ virtual void declareWriteIntent(void *x, unsigned len) = 0; /** declare intent to write @param ofs offset within buf at which we will write @param len the length at ofs we will write @return new buffer pointer. this is modified when testIntent is true. */ virtual void* writingAtOffset(void *buf, unsigned ofs, unsigned len) = 0; /** declare intent to write @param ranges vector of pairs representing ranges. Each pair comprises an offset from buf where a range begins, then the range length. @return new buffer pointer. this is modified when testIntent is true. */ virtual void* writingRangesAtOffsets(void *buf, const vector< pair< long long, unsigned > > &ranges ) = 0; /** Wait for acknowledgement of the next group commit. @return true if --dur is on. There will be delay. @return false if --dur is off. */ virtual bool awaitCommit() = 0; /** Commit immediately. Generally, you do not want to do this often, as highly granular committing may affect performance. Does not return until the commit is complete. You must be at least read locked when you call this. Ideally, you are not write locked and then read operations can occur concurrently. @return true if --dur is on. @return false if --dur is off. (in which case there is action) */ virtual bool commitNow() = 0; /** Commit if enough bytes have been modified. Current threshold is 50MB The idea is that long running write operations that dont yield (like creating an index or update with $atomic) can call this whenever the db is in a sane state and it will prevent commits from growing too large. @return true if commited */ virtual bool commitIfNeeded() = 0; /** @return true if time to commit but does NOT do a commit */ virtual bool aCommitIsNeeded() const = 0; /** Declare write intent for a DiskLoc. @see DiskLoc::writing() */ inline DiskLoc& writingDiskLoc(DiskLoc& d) { return *((DiskLoc*) writingPtr(&d, sizeof(d))); } /** Declare write intent for an int */ inline int& writingInt(const int& d) { return *((int*) writingPtr((int*) &d, sizeof(d))); } /** "assume i've already indicated write intent, let me write" redeclaration is fine too, but this is faster. */ template inline T* alreadyDeclared(T *x) { #if defined(_TESTINTENT) return (T*) MongoMMF::switchToPrivateView(x); #else return x; #endif } /** declare intent to write to x for sizeof(*x) */ template inline T* writing(T *x) { return (T*) writingPtr(x, sizeof(T)); } /** write something that doesn't have to be journaled, as this write is "unimportant". a good example is paddingFactor. can be thought of as memcpy(dst,src,len) the dur implementation acquires a mutex in this method, so do not assume it is faster without measuring! */ virtual void setNoJournal(void *dst, void *src, unsigned len) = 0; /** Commits pending changes, flushes all changes to main data files, then removes the journal. This is useful as a "barrier" to ensure that writes before this call will never go through recovery and be applied to files that have had changes made after this call applied. */ virtual void syncDataAndTruncateJournal() = 0; static DurableInterface& getDur() { return *_impl; } private: /** Intentionally unimplemented method. It's very easy to manipulate Record::data open ended. Thus a call to writing(Record*) is suspect. This will override the templated version and yield an unresolved external. */ Record* writing(Record* r); /** Intentionally unimplemented method. BtreeBuckets are allocated in buffers larger than sizeof( BtreeBucket ). */ // BtreeBucket* writing( BtreeBucket* ); /** Intentionally unimplemented method. NamespaceDetails may be based on references to 'Extra' objects. */ NamespaceDetails* writing( NamespaceDetails* ); static DurableInterface* _impl; // NonDurableImpl at startup() static void enableDurability(); // makes _impl a DurableImpl static void disableDurability(); // makes _impl a NonDurableImpl // these need to be able to enable/disable Durability friend void startup(); friend class TempDisableDurability; }; // class DurableInterface class NonDurableImpl : public DurableInterface { void* writingPtr(void *x, unsigned len) { return x; } void* writingAtOffset(void *buf, unsigned ofs, unsigned len) { return buf; } void* writingRangesAtOffsets(void *buf, const vector< pair< long long, unsigned > > &ranges) { return buf; } void declareWriteIntent(void *, unsigned) { } void createdFile(string filename, unsigned long long len) { } bool awaitCommit() { return false; } bool commitNow() { return false; } bool commitIfNeeded() { return false; } bool aCommitIsNeeded() const { return false; } void setNoJournal(void *dst, void *src, unsigned len); void syncDataAndTruncateJournal() {} }; class DurableImpl : public DurableInterface { void* writingPtr(void *x, unsigned len); void* writingAtOffset(void *buf, unsigned ofs, unsigned len); void* writingRangesAtOffsets(void *buf, const vector< pair< long long, unsigned > > &ranges); void declareWriteIntent(void *, unsigned); void createdFile(string filename, unsigned long long len); bool awaitCommit(); bool commitNow(); bool aCommitIsNeeded() const; bool commitIfNeeded(); void setNoJournal(void *dst, void *src, unsigned len); void syncDataAndTruncateJournal(); }; } // namespace dur inline dur::DurableInterface& getDur() { return dur::DurableInterface::getDur(); } /** declare that we are modifying a diskloc and this is a datafile write. */ inline DiskLoc& DiskLoc::writing() const { return getDur().writingDiskLoc(*const_cast< DiskLoc * >( this )); } }