#ifndef METADATA_LL_H #define METADATA_LL_H #include "block.h" #include "btree.h" #include "endian_utils.h" #include "metadata_disk_structures.h" #include "space_map_disk.h" #include "transaction_manager.h" //---------------------------------------------------------------- namespace thin_provisioning { // FIXME: don't use namespaces in a header using namespace base; using namespace persistent_data; block_address const SUPERBLOCK_LOCATION = 0; typedef uint64_t sector_t; typedef uint32_t thin_dev_t; //------------------------------------------------ class space_map_ref_counter { public: space_map_ref_counter(space_map::ptr sm) : sm_(sm) { } void inc(block_address b) { sm_->inc(b); } void dec(block_address b) { sm_->dec(b); } private: space_map::ptr sm_; }; struct block_time { uint64_t block_; uint32_t time_; }; class block_time_ref_counter { public: block_time_ref_counter(space_map::ptr sm) : sm_(sm) { } void inc(block_time bt) { sm_->inc(bt.block_); } void dec(block_time bt) { sm_->dec(bt.block_); } private: space_map::ptr sm_; }; struct block_traits { typedef base::__le64 disk_type; typedef block_time value_type; typedef block_time_ref_counter ref_counter; static void unpack(disk_type const &disk, value_type &value) { uint64_t v = to_cpu(disk); value.block_ = v >> 24; value.time_ = v & ((1 << 24) - 1); } static void pack(value_type const &value, disk_type &disk) { uint64_t v = (value.block_ << 24) | value.time_; disk = base::to_disk(v); } }; //------------------------------------------------ class mtree_ref_counter { public: mtree_ref_counter(transaction_manager::ptr tm) : tm_(tm) { } void inc(block_address b) { } void dec(block_address b) { } private: transaction_manager::ptr tm_; }; struct mtree_traits { typedef base::__le64 disk_type; typedef uint64_t value_type; typedef mtree_ref_counter ref_counter; static void unpack(disk_type const &disk, value_type &value) { value = base::to_cpu(disk); } static void pack(value_type const &value, disk_type &disk) { disk = base::to_disk(value); } }; // FIXME: should these be in a sub-namespace? typedef persistent_data::transaction_manager::ptr tm_ptr; typedef persistent_data::btree<1, device_details_traits> detail_tree; typedef persistent_data::btree<1, mtree_traits> dev_tree; typedef persistent_data::btree<2, block_traits> mapping_tree; typedef persistent_data::btree<1, block_traits> single_mapping_tree; // The tools require different interfaces onto the metadata than // the in kernel driver. This class gives access to the low-level // implementation of metadata. Implement more specific interfaces // on top of this. struct metadata { enum open_type { CREATE, OPEN }; metadata(std::string const &dev_path, open_type ot); void commit(); typedef block_manager<>::read_ref read_ref; typedef block_manager<>::write_ref write_ref; typedef boost::shared_ptr ptr; tm_ptr tm_; superblock sb_; checked_space_map::ptr metadata_sm_; checked_space_map::ptr data_sm_; detail_tree::ptr details_; dev_tree::ptr mappings_top_level_; mapping_tree::ptr mappings_; }; } //---------------------------------------------------------------- #endif