thin-provisioning-tools/persistent-data/space-maps/careful_alloc.cc

// Copyright (C) 2011 Red Hat, Inc. All rights reserved.
//
// This file is part of the thin-provisioning-tools source.
//
// thin-provisioning-tools is free software: you can redistribute it
// and/or modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// thin-provisioning-tools is distributed in the hope that it will be
// useful, but WITHOUT ANY WARRANTY; without even the implied warranty
// of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along
// with thin-provisioning-tools.  If not, see
// <http://www.gnu.org/licenses/>.

#include "persistent-data/space-maps/careful_alloc.h"

#include <set>

//----------------------------------------------------------------

namespace {
	class sm_careful_alloc : public checked_space_map {
	private:
		typedef set<block_address> block_set;

	public:
		typedef shared_ptr<sm_careful_alloc> ptr;

		sm_careful_alloc(checked_space_map::ptr sm)
			: sm_(sm) {
		}

		virtual block_address get_nr_blocks() const {
			return sm_->get_nr_blocks();
		}

		virtual block_address get_nr_free() const {
			return sm_->get_nr_free();
		}

		virtual ref_t get_count(block_address b) const {
			return sm_->get_count(b);
		}

		virtual void set_count(block_address b, ref_t c) {
			if (!c && sm_->get_count(b))
				mark_freed(b);

			sm_->set_count(b, c);
		}

		virtual void commit() {
			sm_->commit();
			clear_freed();
		}

		virtual void inc(block_address b) {
			if (was_freed(b))
				throw runtime_error("inc of block freed within current transaction");

			sm_->inc(b);
		}

		virtual void dec(block_address b) {
			sm_->dec(b);

			if (!sm_->get_count(b))
				mark_freed(b);
		}

		// FIXME: rewrite with tests using the run_list stuff.
		class no_freed_blocks_iterator : public span_iterator {
		public:
			no_freed_blocks_iterator(span_iterator &sub_it,
						 block_set const &freed_blocks)
				: sub_it_(sub_it),
				  freed_blocks_(freed_blocks) {
			}

			virtual maybe_span first() {
				current_span_ = sub_it_.first();

				if (current_span_)
					current_begin_ = current_span_->first;

				return next();
			}

			virtual maybe_span next() {
				if (!current_span_)
					return current_span_;

				if (current_begin_ == current_span_->second) {
					current_span_ = sub_it_.next();
					if (!current_span_)
						return current_span_;

					current_begin_ = current_span_->first;
				}

				// FIXME: slow
				while (current_begin_ != current_span_->second &&
				       freed_blocks_.count(current_begin_))
					current_begin_++;

				block_address b = current_begin_;

				// FIXME: factor out common code
				while (current_begin_ != current_span_->second &&
				       !freed_blocks_.count(current_begin_))
					current_begin_++;

				block_address e = current_begin_;

				return maybe_span(span(b, e));
			}

		private:
			span_iterator &sub_it_;
			block_set const &freed_blocks_;
			maybe_span current_span_;
			block_address current_begin_;
		};

		virtual maybe_block new_block(span_iterator &it) {
			no_freed_blocks_iterator filtered_it(it, freed_blocks_);
			return sm_->new_block(filtered_it);
		}

		virtual bool count_possibly_greater_than_one(block_address b) const {
			return sm_->count_possibly_greater_than_one(b);
		}

		virtual void extend(block_address extra_blocks) {
			return sm_->extend(extra_blocks);
		}

		virtual void iterate(iterator &it) const {
			sm_->iterate(it);
		}

		virtual size_t root_size() const {
			return sm_->root_size();
		}

		virtual void copy_root(void *dest, size_t len) const {
			return sm_->copy_root(dest, len);
		}

		virtual void check(block_counter &counter) const {
			return sm_->check(counter);
		}

		virtual checked_space_map::ptr clone() const {
			return checked_space_map::ptr(new sm_careful_alloc(sm_));
		}

	private:
		void clear_freed() {
			freed_blocks_.clear();
		}

		void mark_freed(block_address b) {
			freed_blocks_.insert(b);
		}

		bool was_freed(block_address b) const {
			return freed_blocks_.count(b) > 0;
		}

		checked_space_map::ptr sm_;
		block_set freed_blocks_;
	};
}

//----------------------------------------------------------------

checked_space_map::ptr
persistent_data::create_careful_alloc_sm(checked_space_map::ptr sm)
{
	return checked_space_map::ptr(new sm_careful_alloc(sm));
}


//----------------------------------------------------------------