X-Git-Url: https://gerrit.opnfv.org/gerrit/gitweb?a=blobdiff_plain;f=src%2Fceph%2Fsrc%2Fmds%2Fflock.cc;fp=src%2Fceph%2Fsrc%2Fmds%2Fflock.cc;h=2382322bce4efd19a232295868bd8dc7d9c31793;hb=812ff6ca9fcd3e629e49d4328905f33eee8ca3f5;hp=0000000000000000000000000000000000000000;hpb=15280273faafb77777eab341909a3f495cf248d9;p=stor4nfv.git diff --git a/src/ceph/src/mds/flock.cc b/src/ceph/src/mds/flock.cc new file mode 100644 index 0000000..2382322 --- /dev/null +++ b/src/ceph/src/mds/flock.cc @@ -0,0 +1,596 @@ +// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- +// vim: ts=8 sw=2 smarttab +#include + +#include "common/debug.h" +#include "mdstypes.h" +#include "mds/flock.h" + +#define dout_subsys ceph_subsys_mds + +static multimap global_waiting_locks; + +static void remove_global_waiting(ceph_filelock &fl, ceph_lock_state_t *lock_state) +{ + for (auto p = global_waiting_locks.find(fl); + p != global_waiting_locks.end(); ) { + if (p->first != fl) + break; + if (p->second == lock_state) { + global_waiting_locks.erase(p); + break; + } + ++p; + } +} + +ceph_lock_state_t::~ceph_lock_state_t() +{ + if (type == CEPH_LOCK_FCNTL) { + for (auto p = waiting_locks.begin(); p != waiting_locks.end(); ++p) { + remove_global_waiting(p->second, this); + } + } +} + +bool ceph_lock_state_t::is_waiting(const ceph_filelock &fl) const +{ + multimap::const_iterator p = waiting_locks.find(fl.start); + while (p != waiting_locks.end()) { + if (p->second.start > fl.start) + return false; + if (p->second.length == fl.length && + ceph_filelock_owner_equal(p->second, fl)) + return true; + ++p; + } + return false; +} + +void ceph_lock_state_t::remove_waiting(const ceph_filelock& fl) +{ + for (auto p = waiting_locks.find(fl.start); + p != waiting_locks.end(); ) { + if (p->second.start > fl.start) + break; + if (p->second.length == fl.length && + ceph_filelock_owner_equal(p->second, fl)) { + if (type == CEPH_LOCK_FCNTL) { + remove_global_waiting(p->second, this); + } + waiting_locks.erase(p); + --client_waiting_lock_counts[(client_t)fl.client]; + if (!client_waiting_lock_counts[(client_t)fl.client]) { + client_waiting_lock_counts.erase((client_t)fl.client); + } + break; + } + ++p; + } +} + +bool ceph_lock_state_t::is_deadlock(const ceph_filelock& fl, + list::iterator>& + overlapping_locks, + const ceph_filelock *first_fl, unsigned depth) const +{ + ldout(cct,15) << "is_deadlock " << fl << dendl; + + // only for posix lock + if (type != CEPH_LOCK_FCNTL) + return false; + + // find conflict locks' owners + set lock_owners; + for (auto p = overlapping_locks.begin(); + p != overlapping_locks.end(); + ++p) { + + if (fl.type == CEPH_LOCK_SHARED && + (*p)->second.type == CEPH_LOCK_SHARED) + continue; + + // circle detected + if (first_fl && ceph_filelock_owner_equal(*first_fl, (*p)->second)) { + ldout(cct,15) << " detect deadlock" << dendl; + return true; + } + + ceph_filelock tmp = (*p)->second; + tmp.start = 0; + tmp.length = 0; + tmp.type = 0; + lock_owners.insert(tmp); + } + + if (depth >= MAX_DEADLK_DEPTH) + return false; + + first_fl = first_fl ? first_fl : &fl; + for (auto p = lock_owners.begin(); + p != lock_owners.end(); + ++p) { + ldout(cct,15) << " conflict lock owner " << *p << dendl; + // if conflict lock' owner is waiting for other lock? + for (auto q = global_waiting_locks.lower_bound(*p); + q != global_waiting_locks.end(); + ++q) { + if (!ceph_filelock_owner_equal(q->first, *p)) + break; + + list::iterator> + _overlapping_locks, _self_overlapping_locks; + ceph_lock_state_t& state = *(q->second); + if (state.get_overlapping_locks(q->first, _overlapping_locks)) { + state.split_by_owner(q->first, _overlapping_locks, _self_overlapping_locks); + } + if (!_overlapping_locks.empty()) { + if (is_deadlock(q->first, _overlapping_locks, first_fl, depth + 1)) + return true; + } + } + } + return false; +} + +void ceph_lock_state_t::add_waiting(const ceph_filelock& fl) +{ + waiting_locks.insert(pair(fl.start, fl)); + ++client_waiting_lock_counts[(client_t)fl.client]; + if (type == CEPH_LOCK_FCNTL) { + global_waiting_locks.insert(pair(fl, this)); + } +} + +bool ceph_lock_state_t::add_lock(ceph_filelock& new_lock, + bool wait_on_fail, bool replay, + bool *deadlock) +{ + ldout(cct,15) << "add_lock " << new_lock << dendl; + bool ret = false; + list::iterator> + overlapping_locks, self_overlapping_locks, neighbor_locks; + + // first, get any overlapping locks and split them into owned-by-us and not + if (get_overlapping_locks(new_lock, overlapping_locks, &neighbor_locks)) { + ldout(cct,15) << "got overlapping lock, splitting by owner" << dendl; + split_by_owner(new_lock, overlapping_locks, self_overlapping_locks); + } + if (!overlapping_locks.empty()) { //overlapping locks owned by others :( + if (CEPH_LOCK_EXCL == new_lock.type) { + //can't set, we want an exclusive + ldout(cct,15) << "overlapping lock, and this lock is exclusive, can't set" + << dendl; + if (wait_on_fail && !replay) { + if (is_deadlock(new_lock, overlapping_locks)) + *deadlock = true; + else + add_waiting(new_lock); + } + } else { //shared lock, check for any exclusive locks blocking us + if (contains_exclusive_lock(overlapping_locks)) { //blocked :( + ldout(cct,15) << " blocked by exclusive lock in overlapping_locks" << dendl; + if (wait_on_fail && !replay) { + if (is_deadlock(new_lock, overlapping_locks)) + *deadlock = true; + else + add_waiting(new_lock); + } + } else { + //yay, we can insert a shared lock + ldout(cct,15) << "inserting shared lock" << dendl; + remove_waiting(new_lock); + adjust_locks(self_overlapping_locks, new_lock, neighbor_locks); + held_locks.insert(pair(new_lock.start, new_lock)); + ret = true; + } + } + } else { //no overlapping locks except our own + remove_waiting(new_lock); + adjust_locks(self_overlapping_locks, new_lock, neighbor_locks); + ldout(cct,15) << "no conflicts, inserting " << new_lock << dendl; + held_locks.insert(pair + (new_lock.start, new_lock)); + ret = true; + } + if (ret) { + ++client_held_lock_counts[(client_t)new_lock.client]; + } + return ret; +} + +void ceph_lock_state_t::look_for_lock(ceph_filelock& testing_lock) +{ + list::iterator> overlapping_locks, + self_overlapping_locks; + if (get_overlapping_locks(testing_lock, overlapping_locks)) { + split_by_owner(testing_lock, overlapping_locks, self_overlapping_locks); + } + if (!overlapping_locks.empty()) { //somebody else owns overlapping lock + if (CEPH_LOCK_EXCL == testing_lock.type) { //any lock blocks it + testing_lock = (*overlapping_locks.begin())->second; + } else { + ceph_filelock *blocking_lock; + if ((blocking_lock = contains_exclusive_lock(overlapping_locks))) { + testing_lock = *blocking_lock; + } else { //nothing blocking! + testing_lock.type = CEPH_LOCK_UNLOCK; + } + } + return; + } + //if we get here, only our own locks block + testing_lock.type = CEPH_LOCK_UNLOCK; +} + +void ceph_lock_state_t::remove_lock(ceph_filelock removal_lock, + list& activated_locks) +{ + list::iterator> overlapping_locks, + self_overlapping_locks; + if (get_overlapping_locks(removal_lock, overlapping_locks)) { + ldout(cct,15) << "splitting by owner" << dendl; + split_by_owner(removal_lock, overlapping_locks, self_overlapping_locks); + } else ldout(cct,15) << "attempt to remove lock at " << removal_lock.start + << " but no locks there!" << dendl; + bool remove_to_end = (0 == removal_lock.length); + uint64_t removal_start = removal_lock.start; + uint64_t removal_end = removal_start + removal_lock.length - 1; + __s64 old_lock_client = 0; + ceph_filelock *old_lock; + + ldout(cct,15) << "examining " << self_overlapping_locks.size() + << " self-overlapping locks for removal" << dendl; + for (list::iterator>::iterator + iter = self_overlapping_locks.begin(); + iter != self_overlapping_locks.end(); + ++iter) { + ldout(cct,15) << "self overlapping lock " << (*iter)->second << dendl; + old_lock = &(*iter)->second; + bool old_lock_to_end = (0 == old_lock->length); + uint64_t old_lock_end = old_lock->start + old_lock->length - 1; + old_lock_client = old_lock->client; + if (remove_to_end) { + if (old_lock->start < removal_start) { + old_lock->length = removal_start - old_lock->start; + } else { + ldout(cct,15) << "erasing " << (*iter)->second << dendl; + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } + } else if (old_lock_to_end) { + ceph_filelock append_lock = *old_lock; + append_lock.start = removal_end+1; + held_locks.insert(pair + (append_lock.start, append_lock)); + ++client_held_lock_counts[(client_t)old_lock->client]; + if (old_lock->start >= removal_start) { + ldout(cct,15) << "erasing " << (*iter)->second << dendl; + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } else old_lock->length = removal_start - old_lock->start; + } else { + if (old_lock_end > removal_end) { + ceph_filelock append_lock = *old_lock; + append_lock.start = removal_end + 1; + append_lock.length = old_lock_end - append_lock.start + 1; + held_locks.insert(pair + (append_lock.start, append_lock)); + ++client_held_lock_counts[(client_t)old_lock->client]; + } + if (old_lock->start < removal_start) { + old_lock->length = removal_start - old_lock->start; + } else { + ldout(cct,15) << "erasing " << (*iter)->second << dendl; + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } + } + if (!client_held_lock_counts[old_lock_client]) { + client_held_lock_counts.erase(old_lock_client); + } + } +} + +bool ceph_lock_state_t::remove_all_from (client_t client) +{ + bool cleared_any = false; + if (client_held_lock_counts.count(client)) { + multimap::iterator iter = held_locks.begin(); + while (iter != held_locks.end()) { + if ((client_t)iter->second.client == client) { + held_locks.erase(iter++); + } else + ++iter; + } + client_held_lock_counts.erase(client); + cleared_any = true; + } + + if (client_waiting_lock_counts.count(client)) { + multimap::iterator iter = waiting_locks.begin(); + while (iter != waiting_locks.end()) { + if ((client_t)iter->second.client != client) { + ++iter; + continue; + } + if (type == CEPH_LOCK_FCNTL) { + remove_global_waiting(iter->second, this); + } + waiting_locks.erase(iter++); + } + client_waiting_lock_counts.erase(client); + } + return cleared_any; +} + +void ceph_lock_state_t::adjust_locks(list::iterator> old_locks, + ceph_filelock& new_lock, + list::iterator> + neighbor_locks) +{ + ldout(cct,15) << "adjust_locks" << dendl; + bool new_lock_to_end = (0 == new_lock.length); + __s64 old_lock_client = 0; + ceph_filelock *old_lock; + for (list::iterator>::iterator + iter = old_locks.begin(); + iter != old_locks.end(); + ++iter) { + old_lock = &(*iter)->second; + ldout(cct,15) << "adjusting lock: " << *old_lock << dendl; + bool old_lock_to_end = (0 == old_lock->length); + uint64_t old_lock_start = old_lock->start; + uint64_t old_lock_end = old_lock->start + old_lock->length - 1; + uint64_t new_lock_start = new_lock.start; + uint64_t new_lock_end = new_lock.start + new_lock.length - 1; + old_lock_client = old_lock->client; + if (new_lock_to_end || old_lock_to_end) { + //special code path to deal with a length set at 0 + ldout(cct,15) << "one lock extends forever" << dendl; + if (old_lock->type == new_lock.type) { + //just unify them in new lock, remove old lock + ldout(cct,15) << "same lock type, unifying" << dendl; + new_lock.start = (new_lock_start < old_lock_start) ? new_lock_start : + old_lock_start; + new_lock.length = 0; + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } else { //not same type, have to keep any remains of old lock around + ldout(cct,15) << "shrinking old lock" << dendl; + if (new_lock_to_end) { + if (old_lock_start < new_lock_start) { + old_lock->length = new_lock_start - old_lock_start; + } else { + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } + } else { //old lock extends past end of new lock + ceph_filelock appended_lock = *old_lock; + appended_lock.start = new_lock_end + 1; + held_locks.insert(pair + (appended_lock.start, appended_lock)); + ++client_held_lock_counts[(client_t)old_lock->client]; + if (old_lock_start < new_lock_start) { + old_lock->length = new_lock_start - old_lock_start; + } else { + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } + } + } + } else { + if (old_lock->type == new_lock.type) { //just merge them! + ldout(cct,15) << "merging locks, they're the same type" << dendl; + new_lock.start = (old_lock_start < new_lock_start ) ? old_lock_start : + new_lock_start; + int new_end = (new_lock_end > old_lock_end) ? new_lock_end : + old_lock_end; + new_lock.length = new_end - new_lock.start + 1; + ldout(cct,15) << "erasing lock " << (*iter)->second << dendl; + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } else { //we'll have to update sizes and maybe make new locks + ldout(cct,15) << "locks aren't same type, changing sizes" << dendl; + if (old_lock_end > new_lock_end) { //add extra lock after new_lock + ceph_filelock appended_lock = *old_lock; + appended_lock.start = new_lock_end + 1; + appended_lock.length = old_lock_end - appended_lock.start + 1; + held_locks.insert(pair + (appended_lock.start, appended_lock)); + ++client_held_lock_counts[(client_t)old_lock->client]; + } + if (old_lock_start < new_lock_start) { + old_lock->length = new_lock_start - old_lock_start; + } else { //old_lock starts inside new_lock, so remove it + //if it extended past new_lock_end it's been replaced + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } + } + } + if (!client_held_lock_counts[old_lock_client]) { + client_held_lock_counts.erase(old_lock_client); + } + } + + //make sure to coalesce neighboring locks + for (list::iterator>::iterator + iter = neighbor_locks.begin(); + iter != neighbor_locks.end(); + ++iter) { + old_lock = &(*iter)->second; + old_lock_client = old_lock->client; + ldout(cct,15) << "lock to coalesce: " << *old_lock << dendl; + /* because if it's a neighboring lock there can't be any self-overlapping + locks that covered it */ + if (old_lock->type == new_lock.type) { //merge them + if (0 == new_lock.length) { + if (old_lock->start + old_lock->length == new_lock.start) { + new_lock.start = old_lock->start; + } else ceph_abort(); /* if there's no end to new_lock, the neighbor + HAS TO be to left side */ + } else if (0 == old_lock->length) { + if (new_lock.start + new_lock.length == old_lock->start) { + new_lock.length = 0; + } else ceph_abort(); //same as before, but reversed + } else { + if (old_lock->start + old_lock->length == new_lock.start) { + new_lock.start = old_lock->start; + new_lock.length = old_lock->length + new_lock.length; + } else if (new_lock.start + new_lock.length == old_lock->start) { + new_lock.length = old_lock->length + new_lock.length; + } + } + held_locks.erase(*iter); + --client_held_lock_counts[old_lock_client]; + } + if (!client_held_lock_counts[old_lock_client]) { + client_held_lock_counts.erase(old_lock_client); + } + } +} + +multimap::iterator +ceph_lock_state_t::get_lower_bound(uint64_t start, + multimap& lock_map) +{ + multimap::iterator lower_bound = + lock_map.lower_bound(start); + if ((lower_bound->first != start) + && (start != 0) + && (lower_bound != lock_map.begin())) --lower_bound; + if (lock_map.end() == lower_bound) + ldout(cct,15) << "get_lower_dout(15)eturning end()" << dendl; + else ldout(cct,15) << "get_lower_bound returning iterator pointing to " + << lower_bound->second << dendl; + return lower_bound; + } + +multimap::iterator +ceph_lock_state_t::get_last_before(uint64_t end, + multimap& lock_map) +{ + multimap::iterator last = + lock_map.upper_bound(end); + if (last != lock_map.begin()) --last; + if (lock_map.end() == last) + ldout(cct,15) << "get_last_before returning end()" << dendl; + else ldout(cct,15) << "get_last_before returning iterator pointing to " + << last->second << dendl; + return last; +} + +bool ceph_lock_state_t::share_space( + multimap::iterator& iter, + uint64_t start, uint64_t end) +{ + bool ret = ((iter->first >= start && iter->first <= end) || + ((iter->first < start) && + (((iter->first + iter->second.length - 1) >= start) || + (0 == iter->second.length)))); + ldout(cct,15) << "share_space got start: " << start << ", end: " << end + << ", lock: " << iter->second << ", returning " << ret << dendl; + return ret; +} + +bool ceph_lock_state_t::get_overlapping_locks(const ceph_filelock& lock, + list::iterator> & overlaps, + list::iterator> *self_neighbors) +{ + ldout(cct,15) << "get_overlapping_locks" << dendl; + // create a lock starting one earlier and ending one later + // to check for neighbors + ceph_filelock neighbor_check_lock = lock; + if (neighbor_check_lock.start != 0) { + neighbor_check_lock.start = neighbor_check_lock.start - 1; + if (neighbor_check_lock.length) + neighbor_check_lock.length = neighbor_check_lock.length + 2; + } else { + if (neighbor_check_lock.length) + neighbor_check_lock.length = neighbor_check_lock.length + 1; + } + //find the last held lock starting at the point after lock + uint64_t endpoint = lock.start; + if (lock.length) { + endpoint += lock.length; + } else { + endpoint = uint64_t(-1); // max offset + } + multimap::iterator iter = + get_last_before(endpoint, held_locks); + bool cont = iter != held_locks.end(); + while(cont) { + if (share_space(iter, lock)) { + overlaps.push_front(iter); + } else if (self_neighbors && + ceph_filelock_owner_equal(neighbor_check_lock, iter->second) && + share_space(iter, neighbor_check_lock)) { + self_neighbors->push_front(iter); + } + if ((iter->first < lock.start) && (CEPH_LOCK_EXCL == iter->second.type)) { + //can't be any more overlapping locks or they'd interfere with this one + cont = false; + } else if (held_locks.begin() == iter) cont = false; + else --iter; + } + return !overlaps.empty(); +} + +bool ceph_lock_state_t::get_waiting_overlaps(const ceph_filelock& lock, + list::iterator>& + overlaps) +{ + ldout(cct,15) << "get_waiting_overlaps" << dendl; + multimap::iterator iter = + get_last_before(lock.start + lock.length - 1, waiting_locks); + bool cont = iter != waiting_locks.end(); + while(cont) { + if (share_space(iter, lock)) overlaps.push_front(iter); + if (waiting_locks.begin() == iter) cont = false; + --iter; + } + return !overlaps.empty(); +} + +void ceph_lock_state_t::split_by_owner(const ceph_filelock& owner, + list::iterator>& locks, + list::iterator>& + owned_locks) +{ + list::iterator>::iterator + iter = locks.begin(); + ldout(cct,15) << "owner lock: " << owner << dendl; + while (iter != locks.end()) { + ldout(cct,15) << "comparing to " << (*iter)->second << dendl; + if (ceph_filelock_owner_equal((*iter)->second, owner)) { + ldout(cct,15) << "success, pushing to owned_locks" << dendl; + owned_locks.push_back(*iter); + iter = locks.erase(iter); + } else { + ldout(cct,15) << "failure, something not equal in this group " + << (*iter)->second.client << ":" << owner.client << "," + << (*iter)->second.owner << ":" << owner.owner << "," + << (*iter)->second.pid << ":" << owner.pid << dendl; + ++iter; + } + } +} + +ceph_filelock * +ceph_lock_state_t::contains_exclusive_lock(list::iterator>& locks) +{ + for (list::iterator>::iterator + iter = locks.begin(); + iter != locks.end(); + ++iter) { + if (CEPH_LOCK_EXCL == (*iter)->second.type) return &(*iter)->second; + } + return NULL; +}