/* * Copyright (C) 1996-2015 The Squid Software Foundation and contributors * * Squid software is distributed under GPLv2+ license and includes * contributions from numerous individuals and organizations. * Please see the COPYING and CONTRIBUTORS files for details. */ /* DEBUG: section 79 Storage Manager UFS Interface */ #include "squid.h" #include "DiskIO/DiskFile.h" #include "DiskIO/DiskIOStrategy.h" #include "DiskIO/ReadRequest.h" #include "DiskIO/WriteRequest.h" #include "Generic.h" #include "SquidList.h" #include "Store.h" #include "SwapDir.h" #include "UFSStoreState.h" #include "UFSStrategy.h" CBDATA_NAMESPACED_CLASS_INIT(Fs::Ufs,UFSStoreState); void Fs::Ufs::UFSStoreState::ioCompletedNotification() { if (opening) { opening = false; debugs(79, 3, "UFSStoreState::ioCompletedNotification: dirno " << swap_dirn << ", fileno "<< std::setfill('0') << std::hex << std::setw(8) << swap_filen << " status "<< std::setfill(' ') << std::dec << theFile->error()); assert (FILE_MODE(mode) == O_RDONLY); openDone(); return; } if (creating) { creating = false; debugs(79, 3, "UFSStoreState::ioCompletedNotification: dirno " << swap_dirn << ", fileno "<< std::setfill('0') << std::hex << std::setw(8) << swap_filen << " status "<< std::setfill(' ') << std::dec << theFile->error()); openDone(); return; } assert (!(closing ||opening)); debugs(79, 3, "diskd::ioCompleted: dirno " << swap_dirn << ", fileno "<< std::setfill('0') << std::hex << std::setw(8) << swap_filen << " status "<< std::setfill(' ') << std::dec << theFile->error()); /* Ok, notification past open means an error has occured */ assert (theFile->error()); tryClosing(); } void Fs::Ufs::UFSStoreState::openDone() { if (closing) debugs(0, DBG_CRITICAL, HERE << "already closing in openDone()!?"); if (theFile->error()) { tryClosing(); return; } if (FILE_MODE(mode) == O_WRONLY) { drainWriteQueue(); } else if ((FILE_MODE(mode) == O_RDONLY) && !closing) { if (kickReadQueue()) return; } if (flags.try_closing) tryClosing(); debugs(79, 3, "UFSStoreState::openDone: exiting"); } void Fs::Ufs::UFSStoreState::closeCompleted() { assert (closing); debugs(79, 3, "UFSStoreState::closeCompleted: dirno " << swap_dirn << ", fileno "<< std::setfill('0') << std::hex << std::setw(8) << swap_filen << " status "<< std::setfill(' ') << std::dec << theFile->error()); if (theFile->error()) { debugs(79,3,HERE<< "theFile->error() ret " << theFile->error()); doCloseCallback(DISK_ERROR); } else { doCloseCallback(DISK_OK); } closing = false; } /* * DPW 2006-05-24 * This close function is called by the higher layer when it has finished * reading/writing everything, or otherwise wants to close the swap * file. In the case of writing and using aufs storage, close() might * be called before any/all data is written, and even before the open * callback occurs. Thus, we use our tryClosing() method, which knows * when it is safe to actually signal the lower layer for closing. */ void Fs::Ufs::UFSStoreState::close(int) { debugs(79, 3, "UFSStoreState::close: dirno " << swap_dirn << ", fileno "<< std::setfill('0') << std::hex << std::uppercase << std::setw(8) << swap_filen); tryClosing(); // UFS does not distinguish different closure types } void Fs::Ufs::UFSStoreState::read_(char *buf, size_t size, off_t aOffset, STRCB * aCallback, void *aCallbackData) { assert(read.callback == NULL); assert(read.callback_data == NULL); assert(!reading); assert(!closing); assert (aCallback); if (!theFile->canRead()) { debugs(79, 3, "UFSStoreState::read_: queueing read because theFile can't read"); queueRead (buf, size, aOffset, aCallback, aCallbackData); return; } read.callback = aCallback; read.callback_data = cbdataReference(aCallbackData); debugs(79, 3, "UFSStoreState::read_: dirno " << swap_dirn << ", fileno "<< std::setfill('0') << std::hex << std::uppercase << std::setw(8) << swap_filen); offset_ = aOffset; read_buf = buf; reading = true; theFile->read(new ReadRequest(buf,aOffset,size)); } /* * DPW 2006-05-24 * This, the public write interface, places the write request at the end * of the pending_writes queue to ensure correct ordering of writes. * We could optimize things a little if there are no other pending * writes and just do the write directly. But for now we'll keep the * code simpler and always go through the pending_writes queue. */ bool Fs::Ufs::UFSStoreState::write(char const *buf, size_t size, off_t aOffset, FREE * free_func) { debugs(79, 3, "UFSStoreState::write: dirn " << swap_dirn << ", fileno "<< std::setfill('0') << std::hex << std::uppercase << std::setw(8) << swap_filen); if (theFile->error()) { debugs(79, DBG_IMPORTANT,HERE << "avoid write on theFile with error"); debugs(79, DBG_IMPORTANT,HERE << "calling free_func for " << (void*) buf); free_func((void*)buf); return false; } queueWrite(buf, size, aOffset, free_func); drainWriteQueue(); return true; } /* * DPW 2006-05-24 * This, the private write method, calls the lower level write for the * first write request in the pending_writes queue. doWrite() is only * called by drainWriteQueue(). */ void Fs::Ufs::UFSStoreState::doWrite() { debugs(79, 3, HERE << this << " UFSStoreState::doWrite"); assert(theFile->canWrite()); _queued_write *q = (_queued_write *)linklistShift(&pending_writes); if (q == NULL) { debugs(79, 3, HERE << this << " UFSStoreState::doWrite queue is empty"); return; } if (theFile->error()) { debugs(79, DBG_IMPORTANT,HERE << "avoid write on theFile with error"); debugs(79,3,HERE << "calling free_func for " << (void*) q->buf); /* * DPW 2006-05-24 * Note "free_func" is memNodeWriteComplete(), which doesn't * really free the memory. Instead it clears the node's * write_pending flag. */ q->free_func((void*)q->buf); delete q; return; } /* * DPW 2006-05-24 * UFSStoreState has a 'writing' flag that we used to set here, * but it wasn't really used anywhere. In fact, some lower * layers such as DISKD allow multiple outstanding writes, which * makes the boolean writing flag meaningless. We would need * a counter to keep track of writes going out and write callbacks * coming in. For now let's just not use the writing flag at * all. */ debugs(79, 3, HERE << this << " calling theFile->write(" << q->size << ")"); theFile->write(new WriteRequest(q->buf, q->offset, q->size, q->free_func)); delete q; } void Fs::Ufs::UFSStoreState::readCompleted(const char *buf, int len, int errflag, RefCount result) { assert (result.getRaw()); reading = false; debugs(79, 3, "UFSStoreState::readCompleted: dirno " << swap_dirn << ", fileno "<< std::setfill('0') << std::hex << std::setw(8) << swap_filen << " len "<< std::setfill(' ') << std::dec << len); if (len > 0) offset_ += len; STRCB *callback_ = read.callback; assert(callback_); read.callback = NULL; void *cbdata; /* A note: * diskd IO queues closes via the diskd queue. So close callbacks * occur strictly after reads and writes. * ufs doesn't queue, it simply completes, so close callbacks occur * strictly after reads and writes. * aufs performs closes syncronously, so close events must be managed * to force strict ordering. * The below does this: * closing is set when theFile->close() has been called, and close only triggers * when no io's are pending. * writeCompleted likewise. */ if (!closing && cbdataReferenceValidDone(read.callback_data, &cbdata)) { if (len > 0 && read_buf != buf) memcpy(read_buf, buf, len); callback_(cbdata, read_buf, len, this); } if (flags.try_closing || (theFile != NULL && theFile->error()) ) tryClosing(); } void Fs::Ufs::UFSStoreState::writeCompleted(int errflag, size_t len, RefCount writeRequest) { debugs(79, 3, HERE << "dirno " << swap_dirn << ", fileno " << std::setfill('0') << std::hex << std::uppercase << std::setw(8) << swap_filen << ", len " << len); /* * DPW 2006-05-24 * See doWrites() for why we don't update UFSStoreState::writing * here anymore. */ offset_ += len; if (theFile->error()) { debugs(79,2,HERE << " detected an error, will try to close"); tryClosing(); } /* * HNO 2009-07-24 * Kick any pending write/close operations alive */ drainWriteQueue(); } void Fs::Ufs::UFSStoreState::doCloseCallback(int errflag) { debugs(79, 3, "storeUfsIOCallback: errflag=" << errflag); /* * DPW 2006-05-24 * When we signal the higher layer with this callback, it might unlock * the StoreEntry and its associated data. We must "free" any queued * I/Os (especially writes) now, otherwise the StoreEntry's mem_node's * will have their write_pending flag set, and we'll get an assertion. */ freePending(); STIOCB *theCallback = callback; callback = NULL; void *cbdata; if (cbdataReferenceValidDone(callback_data, &cbdata) && theCallback) theCallback(cbdata, errflag, this); /* * We are finished with theFile since the lower layer signalled * us that the file has been closed. This must be the last line, * as theFile may be the only object holding us in memory. */ theFile = NULL; // refcounted } /* ============= THE REAL UFS CODE ================ */ Fs::Ufs::UFSStoreState::UFSStoreState(SwapDir * SD, StoreEntry * anEntry, STIOCB * callback_, void *callback_data_) : opening (false), creating (false), closing (false), reading(false), writing(false), pending_reads(NULL), pending_writes (NULL) { swap_filen = anEntry->swap_filen; swap_dirn = SD->index; mode = O_BINARY; callback = callback_; callback_data = cbdataReference(callback_data_); e = anEntry; flags.write_draining = false; flags.try_closing = false; } Fs::Ufs::UFSStoreState::~UFSStoreState() { assert(pending_reads == NULL); assert(pending_writes == NULL); } void Fs::Ufs::UFSStoreState::freePending() { _queued_read *qr; while ((qr = (_queued_read *)linklistShift(&pending_reads))) { cbdataReferenceDone(qr->callback_data); delete qr; } debugs(79,3,HERE << "UFSStoreState::freePending: freed pending reads"); _queued_write *qw; while ((qw = (_queued_write *)linklistShift(&pending_writes))) { if (qw->free_func) qw->free_func(const_cast(qw->buf)); delete qw; } debugs(79,3,HERE << "UFSStoreState::freePending: freed pending writes"); } bool Fs::Ufs::UFSStoreState::kickReadQueue() { _queued_read *q = (_queued_read *)linklistShift(&pending_reads); if (NULL == q) return false; debugs(79, 3, "UFSStoreState::kickReadQueue: reading queued request of " << q->size << " bytes"); void *cbdata; if (cbdataReferenceValidDone(q->callback_data, &cbdata)) { read_(q->buf, q->size, q->offset, q->callback, cbdata); } else { debugs(79, 2, "UFSStoreState::kickReadQueue: this: " << this << " cbdataReferenceValidDone returned false." << " closing: " << closing << " flags.try_closing: " << flags.try_closing); delete q; return false; } delete q; return true; } void Fs::Ufs::UFSStoreState::queueRead(char *buf, size_t size, off_t aOffset, STRCB *callback_, void *callback_data_) { debugs(79, 3, "UFSStoreState::queueRead: queueing read"); assert(opening); assert (pending_reads == NULL); _queued_read *q = new _queued_read; q->buf = buf; q->size = size; q->offset = aOffset; q->callback = callback_; q->callback_data = cbdataReference(callback_data_); linklistPush(&pending_reads, q); } /* * DPW 2006-05-24 * drainWriteQueue() is a loop around doWrite(). */ void Fs::Ufs::UFSStoreState::drainWriteQueue() { /* * DPW 2007-04-12 * We might find that flags.write_draining is already set * because schemes like diskd can process I/O acks * before sending another I/O request. e.g. the following * sequence of events: open request -> write request -> * drainWriteQueue() -> queue full -> callbacks -> openDone() -> * drainWriteQueue(). */ if (flags.write_draining) return; if (!theFile->canWrite()) return; flags.write_draining = true; while (pending_writes != NULL) { doWrite(); } flags.write_draining = false; if (flags.try_closing) tryClosing(); } /* * DPW 2006-05-24 * This blows. DiskThreadsDiskFile::close() won't actually do the close * if ioInProgress() is true. So we have to check it here. Maybe someday * DiskThreadsDiskFile::close() will be modified to have a return value, * or will remember to do the close for us. */ void Fs::Ufs::UFSStoreState::tryClosing() { debugs(79,3,HERE << this << " tryClosing()" << " closing = " << closing << " flags.try_closing = " << flags.try_closing << " ioInProgress = " << theFile->ioInProgress()); if (theFile->ioInProgress()) { debugs(79, 3, HERE << this << " won't close since ioInProgress is true, bailing"); flags.try_closing = true; return; } closing = true; flags.try_closing = false; theFile->close(); } void Fs::Ufs::UFSStoreState::queueWrite(char const *buf, size_t size, off_t aOffset, FREE * free_func) { debugs(79, 3, HERE << this << " UFSStoreState::queueWrite: queueing write of size " << size); _queued_write *q; q = new _queued_write; q->buf = buf; q->size = size; q->offset = aOffset; q->free_func = free_func; linklistPush(&pending_writes, q); }