thin-provisioning-tools/tests/common/thin_xml_generator.rs

use anyhow::{anyhow, Result};
use rand::prelude::*;
use std::collections::VecDeque;
use std::fs::OpenOptions;
use std::ops::Range;
use std::path::Path;
use thinp::thin::ir::{self, MetadataVisitor};
use thinp::thin::xml;

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

pub trait XmlGen {
    fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()>;
}

pub fn write_xml(path: &Path, g: &mut dyn XmlGen) -> Result<()> {
    let xml_out = OpenOptions::new()
        .read(false)
        .write(true)
        .create(true)
        .truncate(true)
        .open(path)?;
    let mut w = xml::XmlWriter::new(xml_out);

    g.generate_xml(&mut w)
}

fn common_sb(nr_blocks: u64) -> ir::Superblock {
    ir::Superblock {
        uuid: "".to_string(),
        time: 0,
        transaction: 1,
        flags: None,
        version: None,
        data_block_size: 128,
        nr_data_blocks: nr_blocks,
        metadata_snap: None,
    }
}

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

pub struct EmptyPoolS {}

impl XmlGen for EmptyPoolS {
    fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()> {
        v.superblock_b(&common_sb(1024))?;
        v.superblock_e()?;
        Ok(())
    }
}

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

pub struct SingleThinS {
    pub offset: u64,
    pub len: u64,
    pub old_nr_data_blocks: u64,
    pub new_nr_data_blocks: u64,
}

impl SingleThinS {
    pub fn new(offset: u64, len: u64, old_nr_data_blocks: u64, new_nr_data_blocks: u64) -> Self {
        SingleThinS {
            offset,
            len,
            old_nr_data_blocks,
            new_nr_data_blocks,
        }
    }
}

impl XmlGen for SingleThinS {
    fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()> {
        v.superblock_b(&common_sb(self.old_nr_data_blocks))?;
        v.device_b(&ir::Device {
            dev_id: 0,
            mapped_blocks: self.len,
            transaction: 0,
            creation_time: 0,
            snap_time: 0,
        })?;
        v.map(&ir::Map {
            thin_begin: 0,
            data_begin: self.offset,
            time: 0,
            len: self.len,
        })?;
        v.device_e()?;
        v.superblock_e()?;
        Ok(())
    }
}

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

pub struct FragmentedS {
    pub nr_thins: u32,
    pub thin_size: u64,
    pub old_nr_data_blocks: u64,
    pub new_nr_data_blocks: u64,
}

impl FragmentedS {
    pub fn new(nr_thins: u32, thin_size: u64) -> Self {
        let old_size = (nr_thins as u64) * thin_size;
        FragmentedS {
            nr_thins,
            thin_size,
            old_nr_data_blocks: (nr_thins as u64) * thin_size,
            new_nr_data_blocks: old_size * 3 / 4,
        }
    }
}

#[derive(Clone)]
struct ThinRun {
    thin_id: u32,
    thin_begin: u64,
    len: u64,
}

#[derive(Clone, Debug, Copy)]
struct MappedRun {
    thin_id: u32,
    thin_begin: u64,
    data_begin: u64,
    len: u64,
}

fn mk_runs(thin_id: u32, total_len: u64, run_len: std::ops::Range<u64>) -> Vec<ThinRun> {
    let mut runs = Vec::new();
    let mut b = 0u64;
    while b < total_len {
        let len = u64::min(
            total_len - b,
            thread_rng().gen_range(run_len.start..run_len.end),
        );
        runs.push(ThinRun {
            thin_id,
            thin_begin: b,
            len,
        });
        b += len;
    }
    runs
}

impl XmlGen for FragmentedS {
    fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()> {
        // Allocate each thin fully, in runs between 1 and 16.
        let mut runs = Vec::new();
        for thin in 0..self.nr_thins {
            runs.append(&mut mk_runs(thin, self.thin_size, 1..17));
        }

        // Shuffle
        runs.shuffle(&mut rand::thread_rng());

        // map across the data
        let mut maps = Vec::new();
        let mut b = 0;
        for r in &runs {
            maps.push(MappedRun {
                thin_id: r.thin_id,
                thin_begin: r.thin_begin,
                data_begin: b,
                len: r.len,
            });
            b += r.len;
        }

        // drop half the mappings, which leaves us free runs
        let mut dropped = Vec::new();
        for (i, m) in maps.iter().enumerate() {
            if i % 2 == 0 {
                dropped.push(*m);
            }
        }

        // Unshuffle.  This isn't strictly necc. but makes the xml
        // more readable.
        use std::cmp::Ordering;
        maps.sort_by(|&l, &r| match l.thin_id.cmp(&r.thin_id) {
            Ordering::Equal => l.thin_begin.cmp(&r.thin_begin),
            o => o,
        });

        // write the xml
        v.superblock_b(&common_sb(self.old_nr_data_blocks))?;
        for thin in 0..self.nr_thins {
            v.device_b(&ir::Device {
                dev_id: thin,
                mapped_blocks: self.thin_size,
                transaction: 0,
                creation_time: 0,
                snap_time: 0,
            })?;

            for m in &dropped {
                if m.thin_id != thin {
                    continue;
                }

                v.map(&ir::Map {
                    thin_begin: m.thin_begin,
                    data_begin: m.data_begin,
                    time: 0,
                    len: m.len,
                })?;
            }

            v.device_e()?;
        }
        v.superblock_e()?;
        Ok(())
    }
}

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

struct Allocator {
    runs: VecDeque<Range<u64>>,
}

impl Allocator {
    fn new_shuffled(total_len: u64, run_len: Range<u64>) -> Allocator {
        let mut runs = Vec::new();

        let mut b = 0u64;
        while b < total_len {
            let len = u64::min(
                total_len - b,
                thread_rng().gen_range(run_len.start..run_len.end),
            );
            runs.push(b..(b + len));
            b += len;
        }

        runs.shuffle(&mut thread_rng());
        let runs: VecDeque<Range<u64>> = runs.iter().cloned().collect();
        Allocator { runs }
    }

    #[allow(dead_code)]
    fn is_empty(&self) -> bool {
        self.runs.is_empty()
    }

    fn alloc(&mut self, len: u64) -> Result<Vec<Range<u64>>> {
        let mut len = len;
        let mut runs = Vec::new();

        while len > 0 {
            let r = self.runs.pop_front();

            if r.is_none() {
                return Err(anyhow!("could not allocate; out of space"));
            }

            let r = r.unwrap();
            let rlen = r.end - r.start;
            if len < rlen {
                runs.push(r.start..(r.start + len));

                // We need to push something back.
                self.runs.push_front((r.start + len)..r.end);
                len = 0;
            } else {
                runs.push(r.start..r.end);
                len -= rlen;
            }
        }

        Ok(runs)
    }
}

// Having explicitly unmapped regions makes it easier to
// apply snapshots.
#[derive(Clone)]
enum Run {
    Mapped { data_begin: u64, len: u64 },
    UnMapped { len: u64 },
}

impl Run {
    #[allow(dead_code)]
    fn len(&self) -> u64 {
        match self {
            Run::Mapped {
                data_begin: _data_begin,
                len,
            } => *len,
            Run::UnMapped { len } => *len,
        }
    }

    fn split(&self, n: u64) -> (Option<Run>, Option<Run>) {
        if n == 0 {
            (None, Some(self.clone()))
        } else if self.len() <= n {
            (Some(self.clone()), None)
        } else {
            match self {
                Run::Mapped { data_begin, len } => (
                    Some(Run::Mapped {
                        data_begin: *data_begin,
                        len: n,
                    }),
                    Some(Run::Mapped {
                        data_begin: data_begin + n,
                        len: len - n,
                    }),
                ),
                Run::UnMapped { len } => (
                    Some(Run::UnMapped { len: n }),
                    Some(Run::UnMapped { len: len - n }),
                ),
            }
        }
    }
}

#[derive(Clone)]
struct ThinDev {
    thin_id: u32,
    dev_size: u64,
    runs: Vec<Run>,
}

impl ThinDev {
    fn emit(&self, v: &mut dyn MetadataVisitor) -> Result<()> {
        v.device_b(&ir::Device {
            dev_id: self.thin_id,
            mapped_blocks: self.dev_size,
            transaction: 0,
            creation_time: 0,
            snap_time: 0,
        })?;

        let mut b = 0;
        for r in &self.runs {
            match r {
                Run::Mapped { data_begin, len } => {
                    v.map(&ir::Map {
                        thin_begin: b,
                        data_begin: *data_begin,
                        time: 0,
                        len: *len,
                    })?;
                    b += len;
                }
                Run::UnMapped { len } => {
                    b += len;
                }
            }
        }

        v.device_e()?;
        Ok(())
    }
}

#[derive(Clone)]
enum SnapRunType {
    Same,
    Diff,
    Hole,
}

#[derive(Clone)]
struct SnapRun(SnapRunType, u64);

fn mk_origin(thin_id: u32, total_len: u64, allocator: &mut Allocator) -> Result<ThinDev> {
    let mut runs = Vec::new();
    let mut b = 0;
    while b < total_len {
        let len = u64::min(thread_rng().gen_range(16..64), total_len - b);
        match thread_rng().gen_range(0..2) {
            0 => {
                for data in allocator.alloc(len)? {
                    assert!(data.end >= data.start);
                    runs.push(Run::Mapped {
                        data_begin: data.start,
                        len: data.end - data.start,
                    });
                }
            }
            1 => {
                runs.push(Run::UnMapped { len });
            }
            _ => {
                return Err(anyhow!("bad value returned from rng"));
            }
        };

        b += len;
    }

    Ok(ThinDev {
        thin_id,
        dev_size: total_len,
        runs,
    })
}

fn mk_snap_mapping(
    total_len: u64,
    run_len: Range<u64>,
    same_percent: usize,
    diff_percent: usize,
) -> Vec<SnapRun> {
    let mut runs = Vec::new();

    let mut b = 0u64;
    while b < total_len {
        let len = u64::min(
            total_len - b,
            thread_rng().gen_range(run_len.start..run_len.end),
        );

        let n = thread_rng().gen_range(0..100);

        if n < same_percent {
            runs.push(SnapRun(SnapRunType::Same, len));
        } else if n < diff_percent {
            runs.push(SnapRun(SnapRunType::Diff, len));
        } else {
            runs.push(SnapRun(SnapRunType::Hole, len));
        }

        b += len;
    }

    runs
}

fn split_runs(mut n: u64, runs: &[Run]) -> (Vec<Run>, Vec<Run>) {
    let mut before = Vec::new();
    let mut after = Vec::new();

    for r in runs {
        match r.split(n) {
            (Some(lhs), None) => {
                before.push(lhs);
            }
            (Some(lhs), Some(rhs)) => {
                before.push(lhs);
                after.push(rhs);
            }
            (None, Some(rhs)) => {
                after.push(rhs);
            }
            (None, None) => {}
        }
        n -= r.len();
    }

    (before, after)
}

fn apply_snap_runs(
    origin: &[Run],
    snap: &[SnapRun],
    allocator: &mut Allocator,
) -> Result<Vec<Run>> {
    let mut origin = origin.to_owned();
    let mut runs = Vec::new();

    for SnapRun(st, slen) in snap {
        let (os, rest) = split_runs(*slen, &origin);
        match st {
            SnapRunType::Same => {
                for o in os {
                    runs.push(o);
                }
            }
            SnapRunType::Diff => {
                for data in allocator.alloc(*slen)? {
                    runs.push(Run::Mapped {
                        data_begin: data.start,
                        len: data.end - data.start,
                    });
                }
            }
            SnapRunType::Hole => {
                runs.push(Run::UnMapped { len: *slen });
            }
        }

        origin = rest;
    }

    Ok(runs)
}

// Snapshots share mappings, not neccessarily the entire ranges.
pub struct SnapS {
    pub len: u64,
    pub nr_snaps: u32,

    // Snaps will differ from the origin by this percentage
    pub percent_change: usize,
    pub old_nr_data_blocks: u64,
    pub new_nr_data_blocks: u64,
}

impl SnapS {
    pub fn new(len: u64, nr_snaps: u32, percent_change: usize) -> Self {
        let delta = len * (nr_snaps as u64) * (percent_change as u64) / 100;
        let old_nr_data_blocks = len + 3 * delta;
        let new_nr_data_blocks = len + 2 * delta;

        SnapS {
            len,
            nr_snaps,
            percent_change,
            old_nr_data_blocks,
            new_nr_data_blocks,
        }
    }
}

impl XmlGen for SnapS {
    fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()> {
        let mut allocator = Allocator::new_shuffled(self.old_nr_data_blocks, 64..512);
        let origin = mk_origin(0, self.len, &mut allocator)?;

        v.superblock_b(&common_sb(self.old_nr_data_blocks))?;
        origin.emit(v)?;
        v.superblock_e()?;

        Ok(())
    }
}

//------------------------------------------
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`use anyhow::{anyhow, Result};`
			`use rand::prelude::*;`
			`use std::collections::VecDeque;`
			`use std::fs::OpenOptions;`
			`use std::ops::Range;`
			`use std::path::Path;`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`use thinp::thin::ir::{self, MetadataVisitor};`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`use thinp::thin::xml;`

			`//------------------------------------------`

			`pub trait XmlGen {`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()>;`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`}`

			`pub fn write_xml(path: &Path, g: &mut dyn XmlGen) -> Result<()> {`
			`let xml_out = OpenOptions::new()`
			`.read(false)`
			`.write(true)`
			`.create(true)`
			`.truncate(true)`
			`.open(path)?;`
			`let mut w = xml::XmlWriter::new(xml_out);`

			`g.generate_xml(&mut w)`
			`}`

[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`fn common_sb(nr_blocks: u64) -> ir::Superblock {`
			`ir::Superblock {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`uuid: "".to_string(),`
			`time: 0,`
[thin_dump/thin_repair/thin_restore (rust)] Fix errors in tests - Move error messages to stderr - Fix the transaction_id and data_block_size in test fixture, and check the data_block_size in thin_restore. - Disable the missing_something tests for Rust. The transaction_id and nr_data_blocks now could be recovered automatically. - Limit the use of override options in test cases. Only broken superblocks could be overridden, and the provided values should be compatible to the original metadata. - Remove unused option 2021-09-10 08:03:53 +05:30			`transaction: 1,`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`flags: None,`
			`version: None,`
[thin_dump/thin_repair/thin_restore (rust)] Fix errors in tests - Move error messages to stderr - Fix the transaction_id and data_block_size in test fixture, and check the data_block_size in thin_restore. - Disable the missing_something tests for Rust. The transaction_id and nr_data_blocks now could be recovered automatically. - Limit the use of override options in test cases. Only broken superblocks could be overridden, and the provided values should be compatible to the original metadata. - Remove unused option 2021-09-10 08:03:53 +05:30			`data_block_size: 128,`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`nr_data_blocks: nr_blocks,`
			`metadata_snap: None,`
			`}`
			`}`

			`//------------------------------------------`

			`pub struct EmptyPoolS {}`

			`impl XmlGen for EmptyPoolS {`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()> {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`v.superblock_b(&common_sb(1024))?;`
			`v.superblock_e()?;`
			`Ok(())`
			`}`
			`}`

			`//------------------------------------------`

			`pub struct SingleThinS {`
			`pub offset: u64,`
			`pub len: u64,`
			`pub old_nr_data_blocks: u64,`
			`pub new_nr_data_blocks: u64,`
			`}`

			`impl SingleThinS {`
			`pub fn new(offset: u64, len: u64, old_nr_data_blocks: u64, new_nr_data_blocks: u64) -> Self {`
			`SingleThinS {`
			`offset,`
			`len,`
			`old_nr_data_blocks,`
			`new_nr_data_blocks,`
			`}`
			`}`
			`}`

			`impl XmlGen for SingleThinS {`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()> {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`v.superblock_b(&common_sb(self.old_nr_data_blocks))?;`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`v.device_b(&ir::Device {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`dev_id: 0,`
			`mapped_blocks: self.len,`
			`transaction: 0,`
			`creation_time: 0,`
			`snap_time: 0,`
			`})?;`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`v.map(&ir::Map {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`thin_begin: 0,`
			`data_begin: self.offset,`
			`time: 0,`
			`len: self.len,`
			`})?;`
			`v.device_e()?;`
			`v.superblock_e()?;`
			`Ok(())`
			`}`
			`}`

			`//------------------------------------------`

			`pub struct FragmentedS {`
			`pub nr_thins: u32,`
			`pub thin_size: u64,`
			`pub old_nr_data_blocks: u64,`
			`pub new_nr_data_blocks: u64,`
			`}`

			`impl FragmentedS {`
			`pub fn new(nr_thins: u32, thin_size: u64) -> Self {`
			`let old_size = (nr_thins as u64) * thin_size;`
			`FragmentedS {`
			`nr_thins,`
			`thin_size,`
			`old_nr_data_blocks: (nr_thins as u64) * thin_size,`
			`new_nr_data_blocks: old_size * 3 / 4,`
			`}`
			`}`
			`}`

			`#[derive(Clone)]`
			`struct ThinRun {`
			`thin_id: u32,`
			`thin_begin: u64,`
			`len: u64,`
			`}`

			`#[derive(Clone, Debug, Copy)]`
			`struct MappedRun {`
			`thin_id: u32,`
			`thin_begin: u64,`
			`data_begin: u64,`
			`len: u64,`
			`}`

			`fn mk_runs(thin_id: u32, total_len: u64, run_len: std::ops::Range<u64>) -> Vec<ThinRun> {`
			`let mut runs = Vec::new();`
			`let mut b = 0u64;`
			`while b < total_len {`
			`let len = u64::min(`
			`total_len - b,`
[build] Update dependencies - Update crc32c to 0.6, which allows it to be built on AArch64. - Update base64 to 0.13 - Update byteorder to 0.14 - Update io-uring to 0.4 - Update libc to 0.2.83 - Update nix to 0.19 - Update nom to 6.0.1 - Update quick-xml to 0.20 - Update rand to 0.8 - Update tempfile to 3.2 - Update tui to 0.14 Signed-off-by: Kay Lin <i@v2bv.net> 2021-01-23 14:11:01 +05:30			`thread_rng().gen_range(run_len.start..run_len.end),`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`);`
			`runs.push(ThinRun {`
[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`thin_id,`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`thin_begin: b,`
			`len,`
			`});`
			`b += len;`
			`}`
			`runs`
			`}`

			`impl XmlGen for FragmentedS {`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()> {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`// Allocate each thin fully, in runs between 1 and 16.`
			`let mut runs = Vec::new();`
			`for thin in 0..self.nr_thins {`
			`runs.append(&mut mk_runs(thin, self.thin_size, 1..17));`
			`}`

			`// Shuffle`
			`runs.shuffle(&mut rand::thread_rng());`

			`// map across the data`
			`let mut maps = Vec::new();`
			`let mut b = 0;`
			`for r in &runs {`
			`maps.push(MappedRun {`
			`thin_id: r.thin_id,`
			`thin_begin: r.thin_begin,`
			`data_begin: b,`
			`len: r.len,`
			`});`
			`b += r.len;`
			`}`

			`// drop half the mappings, which leaves us free runs`
			`let mut dropped = Vec::new();`
[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`for (i, m) in maps.iter().enumerate() {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`if i % 2 == 0 {`
[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`dropped.push(*m);`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`}`
			`}`

			`// Unshuffle. This isn't strictly necc. but makes the xml`
			`// more readable.`
			`use std::cmp::Ordering;`
			`maps.sort_by(\|&l, &r\| match l.thin_id.cmp(&r.thin_id) {`
			`Ordering::Equal => l.thin_begin.cmp(&r.thin_begin),`
			`o => o,`
			`});`

			`// write the xml`
			`v.superblock_b(&common_sb(self.old_nr_data_blocks))?;`
			`for thin in 0..self.nr_thins {`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`v.device_b(&ir::Device {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`dev_id: thin,`
			`mapped_blocks: self.thin_size,`
			`transaction: 0,`
			`creation_time: 0,`
			`snap_time: 0,`
			`})?;`

			`for m in &dropped {`
			`if m.thin_id != thin {`
			`continue;`
			`}`

[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`v.map(&ir::Map {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`thin_begin: m.thin_begin,`
			`data_begin: m.data_begin,`
			`time: 0,`
			`len: m.len,`
			`})?;`
			`}`

			`v.device_e()?;`
			`}`
			`v.superblock_e()?;`
			`Ok(())`
			`}`
			`}`

			`//------------------------------------------`

			`struct Allocator {`
			`runs: VecDeque<Range<u64>>,`
			`}`

			`impl Allocator {`
			`fn new_shuffled(total_len: u64, run_len: Range<u64>) -> Allocator {`
			`let mut runs = Vec::new();`

			`let mut b = 0u64;`
			`while b < total_len {`
			`let len = u64::min(`
			`total_len - b,`
[build] Update dependencies - Update crc32c to 0.6, which allows it to be built on AArch64. - Update base64 to 0.13 - Update byteorder to 0.14 - Update io-uring to 0.4 - Update libc to 0.2.83 - Update nix to 0.19 - Update nom to 6.0.1 - Update quick-xml to 0.20 - Update rand to 0.8 - Update tempfile to 3.2 - Update tui to 0.14 Signed-off-by: Kay Lin <i@v2bv.net> 2021-01-23 14:11:01 +05:30			`thread_rng().gen_range(run_len.start..run_len.end),`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`);`
			`runs.push(b..(b + len));`
			`b += len;`
			`}`

			`runs.shuffle(&mut thread_rng());`
[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`let runs: VecDeque<Range<u64>> = runs.iter().cloned().collect();`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`Allocator { runs }`
			`}`

			`#[allow(dead_code)]`
			`fn is_empty(&self) -> bool {`
			`self.runs.is_empty()`
			`}`

			`fn alloc(&mut self, len: u64) -> Result<Vec<Range<u64>>> {`
			`let mut len = len;`
			`let mut runs = Vec::new();`

			`while len > 0 {`
			`let r = self.runs.pop_front();`

			`if r.is_none() {`
			`return Err(anyhow!("could not allocate; out of space"));`
			`}`

			`let r = r.unwrap();`
			`let rlen = r.end - r.start;`
			`if len < rlen {`
			`runs.push(r.start..(r.start + len));`

			`// We need to push something back.`
			`self.runs.push_front((r.start + len)..r.end);`
			`len = 0;`
			`} else {`
			`runs.push(r.start..r.end);`
			`len -= rlen;`
			`}`
			`}`

			`Ok(runs)`
			`}`
			`}`

			`// Having explicitly unmapped regions makes it easier to`
			`// apply snapshots.`
			`#[derive(Clone)]`
			`enum Run {`
			`Mapped { data_begin: u64, len: u64 },`
			`UnMapped { len: u64 },`
			`}`

			`impl Run {`
			`#[allow(dead_code)]`
			`fn len(&self) -> u64 {`
			`match self {`
			`Run::Mapped {`
			`data_begin: _data_begin,`
			`len,`
			`} => *len,`
			`Run::UnMapped { len } => *len,`
			`}`
			`}`

			`fn split(&self, n: u64) -> (Option<Run>, Option<Run>) {`
			`if n == 0 {`
[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`(None, Some(self.clone()))`
			`} else if self.len() <= n {`
			`(Some(self.clone()), None)`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`} else {`
[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`match self {`
			`Run::Mapped { data_begin, len } => (`
			`Some(Run::Mapped {`
			`data_begin: *data_begin,`
			`len: n,`
			`}),`
			`Some(Run::Mapped {`
			`data_begin: data_begin + n,`
			`len: len - n,`
			`}),`
			`),`
			`Run::UnMapped { len } => (`
			`Some(Run::UnMapped { len: n }),`
			`Some(Run::UnMapped { len: len - n }),`
			`),`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`}`
			`}`
			`}`
			`}`

			`#[derive(Clone)]`
			`struct ThinDev {`
			`thin_id: u32,`
			`dev_size: u64,`
			`runs: Vec<Run>,`
			`}`

			`impl ThinDev {`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`fn emit(&self, v: &mut dyn MetadataVisitor) -> Result<()> {`
			`v.device_b(&ir::Device {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`dev_id: self.thin_id,`
			`mapped_blocks: self.dev_size,`
			`transaction: 0,`
			`creation_time: 0,`
			`snap_time: 0,`
			`})?;`

			`let mut b = 0;`
			`for r in &self.runs {`
			`match r {`
			`Run::Mapped { data_begin, len } => {`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`v.map(&ir::Map {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`thin_begin: b,`
			`data_begin: *data_begin,`
			`time: 0,`
			`len: *len,`
			`})?;`
			`b += len;`
			`}`
			`Run::UnMapped { len } => {`
			`b += len;`
			`}`
			`}`
			`}`

			`v.device_e()?;`
			`Ok(())`
			`}`
			`}`

			`#[derive(Clone)]`
			`enum SnapRunType {`
			`Same,`
			`Diff,`
			`Hole,`
			`}`

			`#[derive(Clone)]`
			`struct SnapRun(SnapRunType, u64);`

			`fn mk_origin(thin_id: u32, total_len: u64, allocator: &mut Allocator) -> Result<ThinDev> {`
			`let mut runs = Vec::new();`
			`let mut b = 0;`
			`while b < total_len {`
[build] Update dependencies - Update crc32c to 0.6, which allows it to be built on AArch64. - Update base64 to 0.13 - Update byteorder to 0.14 - Update io-uring to 0.4 - Update libc to 0.2.83 - Update nix to 0.19 - Update nom to 6.0.1 - Update quick-xml to 0.20 - Update rand to 0.8 - Update tempfile to 3.2 - Update tui to 0.14 Signed-off-by: Kay Lin <i@v2bv.net> 2021-01-23 14:11:01 +05:30			`let len = u64::min(thread_rng().gen_range(16..64), total_len - b);`
			`match thread_rng().gen_range(0..2) {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`0 => {`
			`for data in allocator.alloc(len)? {`
			`assert!(data.end >= data.start);`
			`runs.push(Run::Mapped {`
			`data_begin: data.start,`
			`len: data.end - data.start,`
			`});`
			`}`
			`}`
			`1 => {`
			`runs.push(Run::UnMapped { len });`
			`}`
			`_ => {`
			`return Err(anyhow!("bad value returned from rng"));`
			`}`
			`};`

			`b += len;`
			`}`

			`Ok(ThinDev {`
			`thin_id,`
			`dev_size: total_len,`
			`runs,`
			`})`
			`}`

			`fn mk_snap_mapping(`
			`total_len: u64,`
			`run_len: Range<u64>,`
			`same_percent: usize,`
			`diff_percent: usize,`
			`) -> Vec<SnapRun> {`
			`let mut runs = Vec::new();`

			`let mut b = 0u64;`
			`while b < total_len {`
			`let len = u64::min(`
			`total_len - b,`
[build] Update dependencies - Update crc32c to 0.6, which allows it to be built on AArch64. - Update base64 to 0.13 - Update byteorder to 0.14 - Update io-uring to 0.4 - Update libc to 0.2.83 - Update nix to 0.19 - Update nom to 6.0.1 - Update quick-xml to 0.20 - Update rand to 0.8 - Update tempfile to 3.2 - Update tui to 0.14 Signed-off-by: Kay Lin <i@v2bv.net> 2021-01-23 14:11:01 +05:30			`thread_rng().gen_range(run_len.start..run_len.end),`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`);`

[build] Update dependencies - Update crc32c to 0.6, which allows it to be built on AArch64. - Update base64 to 0.13 - Update byteorder to 0.14 - Update io-uring to 0.4 - Update libc to 0.2.83 - Update nix to 0.19 - Update nom to 6.0.1 - Update quick-xml to 0.20 - Update rand to 0.8 - Update tempfile to 3.2 - Update tui to 0.14 Signed-off-by: Kay Lin <i@v2bv.net> 2021-01-23 14:11:01 +05:30			`let n = thread_rng().gen_range(0..100);`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30
			`if n < same_percent {`
			`runs.push(SnapRun(SnapRunType::Same, len));`
			`} else if n < diff_percent {`
			`runs.push(SnapRun(SnapRunType::Diff, len));`
			`} else {`
			`runs.push(SnapRun(SnapRunType::Hole, len));`
			`}`

			`b += len;`
			`}`

			`runs`
			`}`

[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`fn split_runs(mut n: u64, runs: &[Run]) -> (Vec<Run>, Vec<Run>) {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`let mut before = Vec::new();`
			`let mut after = Vec::new();`

			`for r in runs {`
			`match r.split(n) {`
			`(Some(lhs), None) => {`
			`before.push(lhs);`
			`}`
			`(Some(lhs), Some(rhs)) => {`
			`before.push(lhs);`
			`after.push(rhs);`
			`}`
			`(None, Some(rhs)) => {`
			`after.push(rhs);`
			`}`
			`(None, None) => {}`
			`}`
			`n -= r.len();`
			`}`

			`(before, after)`
			`}`

			`fn apply_snap_runs(`
[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`origin: &[Run],`
			`snap: &[SnapRun],`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`allocator: &mut Allocator,`
			`) -> Result<Vec<Run>> {`
[functional-tests] Fix clippy warnings 2020-08-07 20:11:21 +05:30			`let mut origin = origin.to_owned();`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`let mut runs = Vec::new();`

			`for SnapRun(st, slen) in snap {`
			`let (os, rest) = split_runs(*slen, &origin);`
			`match st {`
			`SnapRunType::Same => {`
			`for o in os {`
			`runs.push(o);`
			`}`
			`}`
			`SnapRunType::Diff => {`
			`for data in allocator.alloc(*slen)? {`
			`runs.push(Run::Mapped {`
			`data_begin: data.start,`
			`len: data.end - data.start,`
			`});`
			`}`
			`}`
			`SnapRunType::Hole => {`
			`runs.push(Run::UnMapped { len: *slen });`
			`}`
			`}`

			`origin = rest;`
			`}`

			`Ok(runs)`
			`}`

			`// Snapshots share mappings, not neccessarily the entire ranges.`
			`pub struct SnapS {`
			`pub len: u64,`
			`pub nr_snaps: u32,`

			`// Snaps will differ from the origin by this percentage`
			`pub percent_change: usize,`
			`pub old_nr_data_blocks: u64,`
			`pub new_nr_data_blocks: u64,`
			`}`

			`impl SnapS {`
			`pub fn new(len: u64, nr_snaps: u32, percent_change: usize) -> Self {`
			`let delta = len * (nr_snaps as u64) * (percent_change as u64) / 100;`
			`let old_nr_data_blocks = len + 3 * delta;`
			`let new_nr_data_blocks = len + 2 * delta;`

			`SnapS {`
			`len,`
			`nr_snaps,`
			`percent_change,`
			`old_nr_data_blocks,`
			`new_nr_data_blocks,`
			`}`
			`}`
			`}`

			`impl XmlGen for SnapS {`
[all (rust)] Pull out structures for intermediate representation Also fix the data type for thin timestamp 2021-07-08 14:34:40 +05:30			`fn generate_xml(&mut self, v: &mut dyn MetadataVisitor) -> Result<()> {`
[functional-tests] Move thin_check functional tests to Rust. They'll be run as part of 'cargo test' now. 2020-07-31 15:34:12 +05:30			`let mut allocator = Allocator::new_shuffled(self.old_nr_data_blocks, 64..512);`
			`let origin = mk_origin(0, self.len, &mut allocator)?;`

			`v.superblock_b(&common_sb(self.old_nr_data_blocks))?;`
			`origin.emit(v)?;`
			`v.superblock_e()?;`

			`Ok(())`
			`}`
			`}`

			`//------------------------------------------`