e03b878df3
tmpfs has trouble with O_DIRECT.
155 lines
4.4 KiB
Markdown
155 lines
4.4 KiB
Markdown
Introduction
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============
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A suite of tools for manipulating the metadata of the dm-thin, dm-cache and
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dm-era device-mapper targets.
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Requirements
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============
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A C++ compiler that supports the c++11 standard (eg, g++).
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The [Boost C++ library](http://www.boost.org/).
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The [expat](http://expat.sourceforge.net/) xml parser library (version 1).
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The libaio library (note this is not the same as the aio library that you get by linking -lrt)
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make, autoconf etc.
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There are more requirements for testing, detailed below.
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Building
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========
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autoconf
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./configure
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make
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sudo make install
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Quick examples
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==============
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These tools introduce an xml format for the metadata. This is useful
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for making backups, or allowing scripting languages to generate or
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manipulate metadata. A Ruby library for this available;
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[thinp_xml](https://rubygems.org/gems/thinp_xml).
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To convert the binary metadata format that the kernel uses to this xml
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format use _thin\_dump_.
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thin_dump --format xml /dev/mapper/my_thinp_metadata
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To convert xml back to the binary form use _thin\_restore_.
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thin_restore -i my_xml -o /dev/mapper/my_thinp_metadata
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You should periodically check the health of your metadata, much as you
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fsck a filesystem. Your volume manager (eg, LVM2) should be doing
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this for you behind the scenes.
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thin_check /dev/mapper/my_thinp_metadata
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Checking all the mappings can take some time, you can omit this part
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of the check if you wish.
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thin_check --skip-mappings /dev/mapper/my_thinp_metadata
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If your metadata has become corrupt for some reason (device failure,
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user error, kernel bug), thin_check will tell you what the effects of
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the corruption are (eg, which thin devices are effected, which
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mappings).
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There are two ways to repair metadata. The simplest is via the
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_thin\_repair_ tool.
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thin_repair -i /dev/mapper/broken_metadata_dev -o /dev/mapper/new_metadata_dev
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This is a non-destructive operation that writes corrected metadata to
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a new metadata device.
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Alternatively you can go via the xml format (perhaps you want to
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inspect the repaired metadata before restoring).
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thin_dump --repair /dev/mapper/my_metadata > repaired.xml
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thin_restore -i repaired.xml -o /dev/mapper/my_metadata
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Development
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===========
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Autoconf
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--------
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If you've got the source from github you'll need to create the
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configure script with autoconf. I do this by running:
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autoreconf
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Enable tests
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------------
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You will need to enable tests when you configure.
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./configure --enable-testing
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Unit tests
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----------
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Unit tests are implemented using the google mock framework. This is a
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source library that you will have to download. A script is provided
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to do this for you.
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./get-gmock.sh
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All tests can be run via:
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make unit-test
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Alternatively you may want to run a subset of the tests:
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make unit-tests/unit_tests
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unit-tests/unit_tests --gtest_filter=BtreeTests.*
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Functional tests
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----------------
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A bunch of high level tests are implemented in the functional-tests directory.
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These tests are written in Scheme. To run them you'll need to install
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chezscheme (http://www.scheme.com/). In addition they make use of the
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thunderchez (https://github.com/ovenpasta/thunderchez) library.
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Make sure the tools that you wish to test are in your PATH, and the thunderchez
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directory is in the CHEZSCHEMELIBDIRS environment variable.
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Then,
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cd funtional-tests
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./run-tests run
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Other command are help and list.
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The test framework places temporary files under ./test-output/. By default
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the tests tidy up after themselves, just leaving a log file for each test. You
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can turn this off by using the --disable-unlink flag if you want all the
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artifacts left.
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Dump Metadata
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=============
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To dump the metadata of a live thin pool, you must first create a snapshot of
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the metadata:
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$ dmsetup message vg001-mythinpool-tpool 0 reserve_metadata_snap
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Extract the metadata:
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$ sudo bin/thin_dump -m /dev/mapper/vg001-mythinpool_tmeta
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<superblock uuid="" time="1" transaction="2" data_block_size="128"nr_data_blocks="0">
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<device dev_id="1" mapped_blocks="1" transaction="0" creation_time="0" snap_time="1">
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<single_mapping origin_block="0" data_block="0" time="0"/>
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</device>
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<device dev_id="2" mapped_blocks="1" transaction="1" creation_time="1" snap_time="1">
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<single_mapping origin_block="0" data_block="0" time="0"/>
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</device>
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</superblock>
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Finally, release the root:
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$ dmsetup message vg001-mythinpool-tpool 0 release_metadata_snap
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