// 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 // . #ifndef BLOCK_H #define BLOCK_H #include "block-cache/block_cache.h" #include #include #include #include #include #include #include //---------------------------------------------------------------- namespace persistent_data { using namespace bcache; uint32_t const MD_BLOCK_SIZE = 4096; template class block_manager : private boost::noncopyable { public: typedef boost::shared_ptr ptr; enum mode { READ_ONLY, READ_WRITE, CREATE }; block_manager(std::string const &path, block_address nr_blocks, unsigned max_concurrent_locks, mode m, bool excl = true); class read_ref { public: static uint32_t const BLOCK_SIZE = BlockSize; read_ref(block_cache::block &b); read_ref(read_ref const &rhs); virtual ~read_ref(); block_address get_location() const; void const *data() const; protected: block_cache::block &b_; }; // Inherited from read_ref, since you can read a block that's write // locked. class write_ref : public read_ref { public: write_ref(block_cache::block &b); write_ref(block_cache::block &b, unsigned &ref_count); write_ref(write_ref const &rhs); ~write_ref(); using read_ref::data; void *data(); private: unsigned *ref_count_; }; // Locking methods read_ref read_lock(block_address location, typename validator::ptr v = typename validator::ptr(new bcache::noop_validator())) const; write_ref write_lock(block_address location, typename validator::ptr v = typename validator::ptr(new bcache::noop_validator())); write_ref write_lock_zero(block_address location, typename validator::ptr v = typename validator::ptr(new bcache::noop_validator())); // The super block is the one that should be written last. // Unlocking this block triggers the following events: // // i) synchronous write of all dirty blocks _except_ the // superblock. // // ii) synchronous write of superblock // // If any locks are held at the time of the superblock // being unlocked then an exception will be thrown. write_ref superblock(block_address b, typename validator::ptr v = typename validator::ptr(new bcache::noop_validator())); write_ref superblock_zero(block_address b, typename validator::ptr v = typename validator::ptr(new bcache::noop_validator())); block_address get_nr_blocks() const; void prefetch(block_address b) const; void flush() const; // This is just for unit tests, don't call in application // code. bool is_locked(block_address b) const; private: uint64_t choose_cache_size(block_address nr_blocks) const; file_utils::file_descriptor open_or_create_block_file(std::string const &path, off_t file_size, mode m, bool excl); void check(block_address b) const; file_utils::file_descriptor fd_; mutable block_cache bc_; unsigned superblock_ref_count_; }; // A little utility to help build validators inline bcache::validator::ptr mk_validator(bcache::validator *v) { return bcache::validator::ptr(v); } } #include "block.tcc" //---------------------------------------------------------------- #endif