407 lines
12 KiB
C++
407 lines
12 KiB
C++
// This file is part of the thin-provisioning-tools source.
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//
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// thin-provisioning-tools is free software: you can redistribute it
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// and/or modify it under the terms of the GNU General Public License
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// as published by the Free Software Foundation, either version 3 of
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// the License, or (at your option) any later version.
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//
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// thin-provisioning-tools is distributed in the hope that it will be
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// useful, but WITHOUT ANY WARRANTY; without even the implied warranty
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// of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License along
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// with thin-provisioning-tools. If not, see
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// <http://www.gnu.org/licenses/>.
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#include <boost/lexical_cast.hpp>
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#include <boost/optional.hpp>
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#include <getopt.h>
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#include <vector>
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#include <fstream>
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#include "base/indented_stream.h"
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#include "persistent-data/file_utils.h"
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#include "persistent-data/data-structures/btree.h"
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#include "persistent-data/data-structures/btree_counter.h"
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#include "persistent-data/data-structures/btree_damage_visitor.h"
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#include "persistent-data/data-structures/btree_node_checker.h"
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#include "persistent-data/data-structures/simple_traits.h"
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#include "persistent-data/space-maps/core.h"
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#include "persistent-data/space-maps/disk_structures.h"
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#include "thin-provisioning/metadata.h"
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#include "thin-provisioning/metadata_counter.h"
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#include "thin-provisioning/commands.h"
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#include "version.h"
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using namespace thin_provisioning;
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using namespace persistent_data;
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//---------------------------------------------------------------------------
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namespace {
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struct node_info {
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uint64_t blocknr_;
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uint32_t flags_;
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uint64_t key_begin_;
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uint64_t key_end_;
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uint64_t nr_entries_;
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uint32_t value_size_;
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};
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//-------------------------------------------------------------------
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struct btree_node_checker {
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typedef boost::shared_ptr<btree_node_checker> ptr;
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virtual ~btree_node_checker() {}
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virtual bool check(node_ref<uint64_traits> &n) = 0;
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};
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struct unvisited_btree_node_filter: public btree_node_checker {
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unvisited_btree_node_filter(block_counter const &bc)
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: nv_(create_btree_node_validator()), bc_(bc) {
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}
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virtual bool check(node_ref<uint64_traits> &n) {
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uint32_t flags = to_cpu<uint32_t>(n.raw()->header.flags);
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if ((n.get_value_size() == sizeof(mapping_tree_detail::block_traits::disk_type) ||
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n.get_value_size() == sizeof(device_tree_detail::device_details_traits::disk_type)) &&
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!bc_.get_count(n.get_location()) &&
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checker_.check_block_nr(n) &&
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(((flags & INTERNAL_NODE) && !(flags & LEAF_NODE)) ||
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(flags & LEAF_NODE)) &&
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nv_->check_raw(n.raw()) &&
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checker_.check_max_entries(n) &&
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checker_.check_nr_entries(n, true) &&
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checker_.check_ordered_keys(n))
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return true;
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return false;
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}
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bcache::validator::ptr nv_;
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block_counter const &bc_;
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btree_detail::btree_node_checker checker_;
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};
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//-------------------------------------------------------------------
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void find_btree_nodes(block_manager<>::ptr bm,
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block_address begin,
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block_address end,
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btree_node_checker::ptr checker,
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base::run_set<block_address> &found) {
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using namespace persistent_data;
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for (block_address b = begin; b < end; ++b) {
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block_manager<>::read_ref rr = bm->read_lock(b);
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node_ref<uint64_traits> n = btree_detail::to_node<uint64_traits>(rr);
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if (checker->check(n))
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found.add(b);
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}
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}
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//-------------------------------------------------------------------
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bool first_key_cmp(node_info const &lhs, node_info const &rhs) {
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return lhs.key_begin_ < rhs.key_begin_;
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}
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template <typename ValueTraits>
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void convert_to_node_info(node_ref<ValueTraits> const &n, node_info &ni) {
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ni.blocknr_ = n.get_location();
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ni.flags_ = to_cpu<uint32_t>(n.raw()->header.flags);
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if ((ni.nr_entries_ = n.get_nr_entries()) > 0) {
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ni.key_begin_ = n.key_at(0);
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ni.key_end_ = n.key_at(n.get_nr_entries() - 1);
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}
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ni.value_size_ = n.get_value_size();
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}
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void output_node_info(indented_stream &out, node_info const &ni) {
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out.indent();
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out << "<node blocknr=\"" << ni.blocknr_
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<< "\" flags=\"" << ni.flags_
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<< "\" key_begin=\"" << ni.key_begin_
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<< "\" key_end=\"" << ni.key_end_
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<< "\" nr_entries=\"" << ni.nr_entries_
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<< "\" value_size=\"" << ni.value_size_
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<< "\"/>" << endl;
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}
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//-------------------------------------------------------------------
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class ll_mapping_tree_emitter : public mapping_tree_detail::device_visitor {
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public:
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ll_mapping_tree_emitter(block_manager<>::ptr bm,
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indented_stream &out)
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: bm_(bm), out_(out) {
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}
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void visit(btree_path const &path, block_address tree_root) {
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out_.indent();
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out_ << "<device dev_id=\"" << path[0] <<"\">" << endl;
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out_.inc();
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// Do not throw exception. Process the next entry inside the current node.
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try {
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block_manager<>::read_ref rr = bm_->read_lock(tree_root);
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node_ref<uint64_traits> n = btree_detail::to_node<uint64_traits>(rr);
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node_info ni;
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convert_to_node_info(n, ni);
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output_node_info(out_, ni);
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} catch (std::exception &e) {
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cerr << e.what() << endl;
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}
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out_.dec();
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out_.indent();
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out_ << "</device>" << endl;
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}
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private:
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block_manager<>::ptr bm_;
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indented_stream& out_;
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};
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//-------------------------------------------------------------------
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struct flags {
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flags() : use_metadata_snap_(false) {
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}
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bool use_metadata_snap_;
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boost::optional<block_address> metadata_snap_;
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boost::optional<block_address> data_mapping_root_;
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boost::optional<block_address> device_details_root_;
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boost::optional<block_address> scan_begin_;
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boost::optional<block_address> scan_end_;
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};
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int low_level_dump_(string const &input,
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std::ostream &output,
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flags const &f) {
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block_manager<>::ptr bm = open_bm(input, block_manager<>::READ_ONLY);
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block_address scan_begin = f.scan_begin_ ? *f.scan_begin_ : 0;
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block_address scan_end = f.scan_end_ ? *f.scan_end_ : bm->get_nr_blocks();
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// Allow to read superblock at arbitrary location for low-level dump,
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// without checking equality between the given metadata_snap and sb.metadata_snap_
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superblock_detail::superblock sb = read_superblock(bm, superblock_detail::SUPERBLOCK_LOCATION);
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if (f.use_metadata_snap_) {
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sb = f.metadata_snap_ ?
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read_superblock(bm, *f.metadata_snap_) :
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read_superblock(bm, sb.metadata_snap_);
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}
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// override sb.data_mapping_root_
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if (f.data_mapping_root_)
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sb.data_mapping_root_ = *f.data_mapping_root_;
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// override sb.device_details_root_
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if (f.device_details_root_)
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sb.device_details_root_ = *f.device_details_root_;
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transaction_manager::ptr tm =
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open_tm(bm, superblock_detail::SUPERBLOCK_LOCATION);
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indented_stream out(output);
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out.indent();
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out << "<superblock blocknr=\"" << sb.blocknr_
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<< "\" data_mapping_root=\"" << sb.data_mapping_root_
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<< "\" device_details_root=\"" << sb.device_details_root_
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<< "\">" << endl;
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out.inc();
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// output the top-level data mapping tree
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ll_mapping_tree_emitter ll_mte(tm->get_bm(), out);
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dev_tree dtree(*tm, sb.data_mapping_root_,
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mapping_tree_detail::mtree_traits::ref_counter(*tm));
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noop_damage_visitor noop_dv;
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btree_visit_values(dtree, ll_mte, noop_dv);
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out.dec();
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out.indent();
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out << "</superblock>" << endl;
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// find orphans
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binary_block_counter bc;
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bc.inc(superblock_detail::SUPERBLOCK_LOCATION);
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count_metadata(tm, sb, bc, true);
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btree_node_checker::ptr filter = btree_node_checker::ptr(
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new unvisited_btree_node_filter(bc));
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base::run_set<block_address> orphans;
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find_btree_nodes(bm, scan_begin, scan_end, filter, orphans);
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// sort orphans
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std::vector<node_info> nodes;
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for (base::run_set<block_address>::const_iterator it = orphans.begin();
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it != orphans.end();
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++it) {
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if (it->begin_ && it->end_) {
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for (block_address b = *it->begin_; b < *it->end_; ++b) {
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block_manager<>::read_ref rr = bm->read_lock(b);
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node_ref<uint64_traits> n = btree_detail::to_node<uint64_traits>(rr);
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nodes.push_back(node_info());
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convert_to_node_info(n, nodes.back());
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}
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}
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}
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std::sort(nodes.begin(), nodes.end(), first_key_cmp);
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// output orphans
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out.indent();
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out << "<orphans>" << std::endl;
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out.inc();
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for (size_t i = 0; i < nodes.size(); ++i)
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output_node_info(out, nodes[i]);
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out.dec();
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out.indent();
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out << "</orphans>" << std::endl;
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return 0;
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}
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int low_level_dump(string const &input,
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boost::optional<string> output,
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flags const &f) {
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try {
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if (output) {
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ofstream out(output->c_str());
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low_level_dump_(input, out, f);
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} else
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low_level_dump_(input, cout, f);
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} catch (std::exception &e) {
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cerr << e.what() << endl;
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return 1;
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}
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return 0;
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}
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}
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//---------------------------------------------------------------------------
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thin_ll_dump_cmd::thin_ll_dump_cmd()
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: command("thin_ll_dump")
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{
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}
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void
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thin_ll_dump_cmd::usage(ostream &out) const {
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out << "Usage: " << get_name() << " [options] {device|file}" << endl
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<< "Options:" << endl
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<< " {-h|--help}" << endl
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<< " {-m|--metadata-snap}[block#]" << endl
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<< " {-o|--output} <xml file>" << endl
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<< " {--begin} <block#>" << endl
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<< " {--end} <block#>" << endl
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<< " {--data-mapping-root} <block#>" << endl
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<< " {--device-details-root} <block#>" << endl
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<< " {-V|--version}" << endl;
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}
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int
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thin_ll_dump_cmd::run(int argc, char **argv)
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{
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const char shortopts[] = "hm::o:V";
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const struct option longopts[] = {
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{ "help", no_argument, NULL, 'h'},
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{ "metadata-snap", optional_argument, NULL, 'm'},
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{ "output", required_argument, NULL, 'o'},
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{ "version", no_argument, NULL, 'V'},
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{ "begin", required_argument, NULL, 1},
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{ "end", required_argument, NULL, 2},
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{ "data-mapping-root", required_argument, NULL, 3},
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{ "device-details-root", required_argument, NULL, 4},
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{ NULL, no_argument, NULL, 0 }
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};
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boost::optional<string> output;
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flags f;
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int c;
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while ((c = getopt_long(argc, argv, shortopts, longopts, NULL)) != -1) {
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switch(c) {
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case 'h':
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usage(cout);
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return 0;
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case 'm':
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f.use_metadata_snap_ = true;
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if (optarg) {
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try {
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f.metadata_snap_ = boost::lexical_cast<uint64_t>(optarg);
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} catch (std::exception &e) {
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cerr << e.what() << endl;
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return 1;
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}
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}
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break;
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case 'o':
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output = optarg;
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break;
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case 'V':
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cout << THIN_PROVISIONING_TOOLS_VERSION << endl;
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return 0;
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case 1:
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try {
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f.scan_begin_ = boost::lexical_cast<uint64_t>(optarg);
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} catch (std::exception &e) {
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cerr << e.what() << endl;
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return 1;
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}
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break;
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case 2:
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try {
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f.scan_end_ = boost::lexical_cast<uint64_t>(optarg);
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} catch (std::exception &e) {
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cerr << e.what() << endl;
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return 1;
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}
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break;
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case 3:
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try {
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f.data_mapping_root_ = boost::lexical_cast<uint64_t>(optarg);
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} catch (std::exception &e) {
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cerr << e.what() << endl;
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return 1;
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}
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break;
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case 4:
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try {
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f.device_details_root_ = boost::lexical_cast<uint64_t>(optarg);
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} catch (std::exception &e) {
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cerr << e.what() << endl;
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return 1;
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}
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break;
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default:
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usage(cerr);
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return 1;
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}
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}
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if (argc == optind) {
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cerr << "No input file provided." << endl;
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usage(cerr);
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return 1;
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}
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if (f.scan_begin_ && f.scan_end_ && (*f.scan_end_ <= *f.scan_begin_)) {
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cerr << "badly formed region (end <= begin)" << endl;
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usage(cerr);
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return 1;
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}
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return low_level_dump(argv[optind], output, f);
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}
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//---------------------------------------------------------------------------
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