/*- * Copyright (c) 2011, 2012, 2013, 2014, 2016 Spectra Logic Corporation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions, and the following disclaimer, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGES. * * Authors: Justin T. Gibbs (Spectra Logic Corporation) */ /** * \file zfsd_event.cc */ #include #include #include #include #include #include #include #include /* * Undefine flush, defined by cpufunc.h on sparc64, because it conflicts with * C++ flush methods */ #undef flush #undef __init #include #include #include #include #include #include #include #include #include #include "callout.h" #include "vdev_iterator.h" #include "zfsd_event.h" #include "case_file.h" #include "vdev.h" #include "zfsd.h" #include "zfsd_exception.h" #include "zpool_list.h" /*============================ Namespace Control =============================*/ using DevdCtl::Event; using DevdCtl::Guid; using DevdCtl::NVPairMap; using std::stringstream; /*=========================== Class Implementations ==========================*/ /*-------------------------------- GeomEvent --------------------------------*/ //- GeomEvent Static Public Methods ------------------------------------------- Event * GeomEvent::Builder(Event::Type type, NVPairMap &nvPairs, const string &eventString) { return (new GeomEvent(type, nvPairs, eventString)); } //- GeomEvent Virtual Public Methods ------------------------------------------ Event * GeomEvent::DeepCopy() const { return (new GeomEvent(*this)); } bool GeomEvent::Process() const { /* * We only use GEOM events to repair damaged pools. So return early if * there are no damaged pools */ if (CaseFile::Empty()) return (false); /* * We are only concerned with arrivals and physical path changes, * because those can be used to satisfy online and autoreplace * operations */ if (Value("type") != "GEOM::physpath" && Value("type") != "CREATE") return (false); /* Log the event since it is of interest. */ Log(LOG_INFO); string devPath; if (!DevPath(devPath)) return (false); int devFd(open(devPath.c_str(), O_RDONLY)); if (devFd == -1) return (false); bool inUse; bool degraded; nvlist_t *devLabel(ReadLabel(devFd, inUse, degraded)); string physPath; bool havePhysPath(PhysicalPath(physPath)); string devName; DevName(devName); close(devFd); if (inUse && devLabel != NULL) { OnlineByLabel(devPath, physPath, devLabel); } else if (degraded) { syslog(LOG_INFO, "%s is marked degraded. Ignoring " "as a replace by physical path candidate.\n", devName.c_str()); } else if (havePhysPath) { /* * TODO: attempt to resolve events using every casefile * that matches this physpath */ CaseFile *caseFile(CaseFile::Find(physPath)); if (caseFile != NULL) { syslog(LOG_INFO, "Found CaseFile(%s:%s:%s) - ReEvaluating\n", caseFile->PoolGUIDString().c_str(), caseFile->VdevGUIDString().c_str(), zpool_state_to_name(caseFile->VdevState(), VDEV_AUX_NONE)); caseFile->ReEvaluate(devPath, physPath, /*vdev*/NULL); } } return (false); } //- GeomEvent Protected Methods ----------------------------------------------- GeomEvent::GeomEvent(Event::Type type, NVPairMap &nvpairs, const string &eventString) : DevdCtl::GeomEvent(type, nvpairs, eventString) { } GeomEvent::GeomEvent(const GeomEvent &src) : DevdCtl::GeomEvent::GeomEvent(src) { } nvlist_t * GeomEvent::ReadLabel(int devFd, bool &inUse, bool °raded) { pool_state_t poolState; char *poolName; boolean_t b_inuse; int nlabels; inUse = false; degraded = false; poolName = NULL; if (zpool_in_use(g_zfsHandle, devFd, &poolState, &poolName, &b_inuse) == 0) { nvlist_t *devLabel = NULL; inUse = b_inuse == B_TRUE; if (poolName != NULL) free(poolName); if (zpool_read_label(devFd, &devLabel, &nlabels) != 0) return (NULL); /* * If we find a disk with fewer than the maximum number of * labels, it might be the whole disk of a partitioned disk * where ZFS resides on a partition. In that case, we should do * nothing and wait for the partition to appear. Or, the disk * might be damaged. In that case, zfsd should do nothing and * wait for the sysadmin to decide. */ if (nlabels != VDEV_LABELS || devLabel == NULL) { nvlist_free(devLabel); return (NULL); } try { Vdev vdev(devLabel); degraded = vdev.State() != VDEV_STATE_HEALTHY; return (devLabel); } catch (ZfsdException &exp) { string devName = fdevname(devFd); string devPath = _PATH_DEV + devName; string context("GeomEvent::ReadLabel: " + devPath + ": "); exp.GetString().insert(0, context); exp.Log(); nvlist_free(devLabel); } } return (NULL); } bool GeomEvent::OnlineByLabel(const string &devPath, const string& physPath, nvlist_t *devConfig) { bool ret = false; try { CaseFileList case_list; /* * A device with ZFS label information has been * inserted. If it matches a device for which we * have a case, see if we can solve that case. */ syslog(LOG_INFO, "Interrogating VDEV label for %s\n", devPath.c_str()); Vdev vdev(devConfig); CaseFile::Find(vdev.PoolGUID(),vdev.GUID(), case_list); for (CaseFileList::iterator curr = case_list.begin(); curr != case_list.end(); curr++) { ret |= (*curr)->ReEvaluate(devPath, physPath, &vdev); } return (ret); } catch (ZfsdException &exp) { string context("GeomEvent::OnlineByLabel: " + devPath + ": "); exp.GetString().insert(0, context); exp.Log(); } return (ret); } /*--------------------------------- ZfsEvent ---------------------------------*/ //- ZfsEvent Static Public Methods --------------------------------------------- DevdCtl::Event * ZfsEvent::Builder(Event::Type type, NVPairMap &nvpairs, const string &eventString) { return (new ZfsEvent(type, nvpairs, eventString)); } //- ZfsEvent Virtual Public Methods -------------------------------------------- Event * ZfsEvent::DeepCopy() const { return (new ZfsEvent(*this)); } bool ZfsEvent::Process() const { string logstr(""); if (!Contains("class") && !Contains("type")) { syslog(LOG_ERR, "ZfsEvent::Process: Missing class or type data."); return (false); } /* On config syncs, replay any queued events first. */ if (Value("type").find("sysevent.fs.zfs.config_sync") == 0) { /* * Even if saved events are unconsumed the second time * around, drop them. Any events that still can't be * consumed are probably referring to vdevs or pools that * no longer exist. */ ZfsDaemon::Get().ReplayUnconsumedEvents(/*discard*/true); CaseFile::ReEvaluateByGuid(PoolGUID(), *this); } if (Value("type").find("sysevent.fs.zfs.") == 0) { /* Configuration changes, resilver events, etc. */ ProcessPoolEvent(); return (false); } if (!Contains("pool_guid") || !Contains("vdev_guid")) { /* Only currently interested in Vdev related events. */ return (false); } CaseFile *caseFile(CaseFile::Find(PoolGUID(), VdevGUID())); if (caseFile != NULL) { Log(LOG_INFO); syslog(LOG_INFO, "Evaluating existing case file\n"); caseFile->ReEvaluate(*this); return (false); } /* Skip events that can't be handled. */ Guid poolGUID(PoolGUID()); /* If there are no replicas for a pool, then it's not manageable. */ if (Value("class").find("fs.zfs.vdev.no_replicas") == 0) { stringstream msg; msg << "No replicas available for pool " << poolGUID; msg << ", ignoring"; Log(LOG_INFO); syslog(LOG_INFO, "%s", msg.str().c_str()); return (false); } /* * Create a case file for this vdev, and have it * evaluate the event. */ ZpoolList zpl(ZpoolList::ZpoolByGUID, &poolGUID); if (zpl.empty()) { stringstream msg; int priority = LOG_INFO; msg << "ZfsEvent::Process: Event for unknown pool "; msg << poolGUID << " "; msg << "queued"; Log(LOG_INFO); syslog(priority, "%s", msg.str().c_str()); return (true); } nvlist_t *vdevConfig = VdevIterator(zpl.front()).Find(VdevGUID()); if (vdevConfig == NULL) { stringstream msg; int priority = LOG_INFO; msg << "ZfsEvent::Process: Event for unknown vdev "; msg << VdevGUID() << " "; msg << "queued"; Log(LOG_INFO); syslog(priority, "%s", msg.str().c_str()); return (true); } Vdev vdev(zpl.front(), vdevConfig); caseFile = &CaseFile::Create(vdev); if (caseFile->ReEvaluate(*this) == false) { stringstream msg; int priority = LOG_INFO; msg << "ZfsEvent::Process: Unconsumed event for vdev("; msg << zpool_get_name(zpl.front()) << ","; msg << vdev.GUID() << ") "; msg << "queued"; Log(LOG_INFO); syslog(priority, "%s", msg.str().c_str()); return (true); } return (false); } //- ZfsEvent Protected Methods ------------------------------------------------- ZfsEvent::ZfsEvent(Event::Type type, NVPairMap &nvpairs, const string &eventString) : DevdCtl::ZfsEvent(type, nvpairs, eventString) { } ZfsEvent::ZfsEvent(const ZfsEvent &src) : DevdCtl::ZfsEvent(src) { } /* * Sometimes the kernel won't detach a spare when it is no longer needed. This * can happen for example if a drive is removed, then either the pool is * exported or the machine is powered off, then the drive is reinserted, then * the machine is powered on or the pool is imported. ZFSD must detach these * spares itself. */ void ZfsEvent::CleanupSpares() const { Guid poolGUID(PoolGUID()); ZpoolList zpl(ZpoolList::ZpoolByGUID, &poolGUID); if (!zpl.empty()) { zpool_handle_t* hdl; hdl = zpl.front(); VdevIterator(hdl).Each(TryDetach, (void*)hdl); } } void ZfsEvent::ProcessPoolEvent() const { bool degradedDevice(false); /* The pool is destroyed. Discard any open cases */ if (Value("type") == "sysevent.fs.zfs.pool_destroy") { Log(LOG_INFO); CaseFile::ReEvaluateByGuid(PoolGUID(), *this); return; } CaseFile *caseFile(CaseFile::Find(PoolGUID(), VdevGUID())); if (caseFile != NULL) { if (caseFile->VdevState() != VDEV_STATE_UNKNOWN && caseFile->VdevState() < VDEV_STATE_HEALTHY) degradedDevice = true; Log(LOG_INFO); caseFile->ReEvaluate(*this); } else if (Value("type") == "sysevent.fs.zfs.resilver_finish") { /* * It's possible to get a resilver_finish event with no * corresponding casefile. For example, if a damaged pool were * exported, repaired, then reimported. */ Log(LOG_INFO); CleanupSpares(); } if (Value("type") == "sysevent.fs.zfs.vdev_remove" && degradedDevice == false) { /* See if any other cases can make use of this device. */ Log(LOG_INFO); ZfsDaemon::RequestSystemRescan(); } } bool ZfsEvent::TryDetach(Vdev &vdev, void *cbArg) { /* * Outline: * if this device is a spare, and its parent includes one healthy, * non-spare child, then detach this device. */ zpool_handle_t *hdl(static_cast(cbArg)); if (vdev.IsSpare()) { std::list siblings; std::list::iterator siblings_it; boolean_t cleanup = B_FALSE; Vdev parent = vdev.Parent(); siblings = parent.Children(); /* Determine whether the parent should be cleaned up */ for (siblings_it = siblings.begin(); siblings_it != siblings.end(); siblings_it++) { Vdev sibling = *siblings_it; if (!sibling.IsSpare() && sibling.State() == VDEV_STATE_HEALTHY) { cleanup = B_TRUE; break; } } if (cleanup) { syslog(LOG_INFO, "Detaching spare vdev %s from pool %s", vdev.Path().c_str(), zpool_get_name(hdl)); zpool_vdev_detach(hdl, vdev.Path().c_str()); } } /* Always return false, because there may be other spares to detach */ return (false); }