forked from Deuxfleurs/garage
295 lines
8.3 KiB
Rust
295 lines
8.3 KiB
Rust
use std::path::PathBuf;
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use serde::{Deserialize, Serialize};
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use garage_util::config::DataDirEnum;
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use garage_util::data::Hash;
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use garage_util::error::{Error, OkOrMessage};
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use garage_util::migrate::*;
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type Idx = u16;
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const DRIVE_NPART: usize = 1024;
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const HASH_DRIVE_BYTES: (usize, usize) = (2, 3);
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#[derive(Serialize, Deserialize, Debug, Clone)]
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pub(crate) struct DataLayout {
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pub(crate) data_dirs: Vec<DataDir>,
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/// Primary storage location (index in data_dirs) for each partition
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/// = the location where the data is supposed to be, blocks are always
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/// written there (copies in other dirs may be deleted if they exist)
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pub(crate) part_prim: Vec<Idx>,
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/// Secondary storage locations for each partition = locations
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/// where data blocks might be, we check from these dirs when reading
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pub(crate) part_sec: Vec<Vec<Idx>>,
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}
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#[derive(Serialize, Deserialize, Debug, Clone, Eq, PartialEq)]
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pub(crate) struct DataDir {
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pub(crate) path: PathBuf,
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pub(crate) state: DataDirState,
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}
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#[derive(Serialize, Deserialize, Debug, Clone, Copy, Eq, PartialEq)]
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pub(crate) enum DataDirState {
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Active { capacity: u64 },
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ReadOnly,
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}
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impl DataLayout {
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pub(crate) fn initialize(dirs: &DataDirEnum) -> Result<Self, Error> {
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let data_dirs = make_data_dirs(dirs)?;
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// Split partitions proportionnally to capacity for all drives
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// to affect primary storage location
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let total_cap = data_dirs.iter().filter_map(|x| x.capacity()).sum::<u64>();
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let mut part_prim = Vec::with_capacity(DRIVE_NPART);
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let mut cum_cap = 0;
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for (i, dd) in data_dirs.iter().enumerate() {
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if let DataDirState::Active { capacity } = dd.state {
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cum_cap += capacity;
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let n_total = (cum_cap * DRIVE_NPART as u64) / total_cap;
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part_prim.resize(n_total as usize, i as Idx);
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}
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}
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assert_eq!(cum_cap, total_cap);
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assert_eq!(part_prim.len(), DRIVE_NPART);
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// If any of the storage locations is non-empty, it probably existed before
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// this algorithm was added, so add it as a secondary storage location for all partitions
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// to make sure existing files are not lost
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let mut part_sec = vec![vec![]; DRIVE_NPART];
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for (i, dd) in data_dirs.iter().enumerate() {
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if dir_not_empty(&dd.path)? {
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for (sec, prim) in part_sec.iter_mut().zip(part_prim.iter()) {
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if *prim != i as Idx {
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sec.push(i as Idx);
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}
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}
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}
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}
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Ok(Self {
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data_dirs,
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part_prim,
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part_sec,
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})
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}
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pub(crate) fn update(&mut self, dirs: &DataDirEnum) -> Result<(), Error> {
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// Make list of new data directories, exit if nothing changed
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let data_dirs = make_data_dirs(dirs)?;
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if data_dirs == self.data_dirs {
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return Ok(());
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}
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// Compute mapping of old indices to new indices
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let old2new = self
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.data_dirs
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.iter()
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.map(|x| {
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data_dirs
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.iter()
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.position(|y| y.path == x.path)
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.map(|x| x as Idx)
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})
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.collect::<Vec<_>>();
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// Compute secondary location list for partitions based on existing
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// folders, translating indices from old to new
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let mut part_sec = self
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.part_sec
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.iter()
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.map(|dl| {
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dl.iter()
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.filter_map(|old| old2new.get(*old as usize).copied().flatten())
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.collect::<Vec<_>>()
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})
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.collect::<Vec<_>>();
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// Compute a vector that, for each data dir,
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// contains the list of partitions primarily stored on that drive
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let mut dir_prim = vec![vec![]; data_dirs.len()];
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for (ipart, prim) in self.part_prim.iter().enumerate() {
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if let Some(new) = old2new.get(*prim as usize).copied().flatten() {
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dir_prim[new as usize].push(ipart);
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}
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}
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// Compute the target number of partitions per data directory
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let total_cap = data_dirs.iter().filter_map(|x| x.capacity()).sum::<u64>();
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let mut cum_cap = 0;
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let mut npart_per_dir = vec![0; data_dirs.len()];
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for (idir, dd) in data_dirs.iter().enumerate() {
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if let DataDirState::Active { capacity } = dd.state {
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let begin = (cum_cap * DRIVE_NPART as u64) / total_cap;
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cum_cap += capacity;
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let end = (cum_cap * DRIVE_NPART as u64) / total_cap;
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npart_per_dir[idir] = (end - begin) as usize;
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}
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}
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assert_eq!(cum_cap, total_cap);
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assert_eq!(npart_per_dir.iter().sum::<usize>(), DRIVE_NPART);
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// For all directories that have too many primary partitions,
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// move that partition to secondary
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for (idir, (parts, tgt_npart)) in dir_prim.iter_mut().zip(npart_per_dir.iter()).enumerate()
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{
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while parts.len() > *tgt_npart {
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let part = parts.pop().unwrap();
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if !part_sec[part].contains(&(idir as Idx)) {
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part_sec[part].push(idir as Idx);
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}
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}
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}
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// Calculate the vector of primary partition dir index
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let mut part_prim = vec![None; DRIVE_NPART];
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for (idir, parts) in dir_prim.iter().enumerate() {
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for part in parts.iter() {
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assert!(part_prim[*part].is_none());
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part_prim[*part] = Some(idir as Idx)
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}
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}
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// Calculate a vector of unassigned partitions
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let mut unassigned = part_prim
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.iter()
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.enumerate()
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.filter(|(_, dir)| dir.is_none())
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.map(|(ipart, _)| ipart)
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.collect::<Vec<_>>();
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// For all directories that don't have enough primary partitions,
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// add partitions from unassigned
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for (idir, (parts, tgt_npart)) in dir_prim.iter_mut().zip(npart_per_dir.iter()).enumerate()
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{
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if parts.len() < *tgt_npart {
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let required = *tgt_npart - parts.len();
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assert!(unassigned.len() >= required);
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for _ in 0..required {
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let new_part = unassigned.pop().unwrap();
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part_prim[new_part] = Some(idir as Idx);
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part_sec[new_part].retain(|x| *x != idir as Idx);
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}
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}
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}
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// Sanity checks
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assert!(part_prim.iter().all(|x| x.is_some()));
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assert!(unassigned.is_empty());
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let part_prim = part_prim
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.into_iter()
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.map(|x| x.unwrap())
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.collect::<Vec<_>>();
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assert!(part_prim.iter().all(|p| data_dirs
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.get(*p as usize)
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.and_then(|x| x.capacity())
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.unwrap_or(0)
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> 0));
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*self = Self {
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data_dirs,
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part_prim,
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part_sec,
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};
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Ok(())
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}
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pub(crate) fn primary_block_dir(&self, hash: &Hash) -> PathBuf {
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let ipart = self.partition_from(hash);
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let idir = self.part_prim[ipart] as usize;
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self.block_dir_from(hash, &self.data_dirs[idir].path)
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}
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pub(crate) fn secondary_block_dirs<'a>(
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&'a self,
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hash: &'a Hash,
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) -> impl Iterator<Item = PathBuf> + 'a {
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let ipart = self.partition_from(hash);
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self.part_sec[ipart]
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.iter()
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.map(move |idir| self.block_dir_from(hash, &self.data_dirs[*idir as usize].path))
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}
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fn partition_from(&self, hash: &Hash) -> usize {
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u16::from_be_bytes([
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hash.as_slice()[HASH_DRIVE_BYTES.0],
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hash.as_slice()[HASH_DRIVE_BYTES.1],
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]) as usize % DRIVE_NPART
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}
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fn block_dir_from(&self, hash: &Hash, dir: &PathBuf) -> PathBuf {
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let mut path = dir.clone();
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path.push(hex::encode(&hash.as_slice()[0..1]));
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path.push(hex::encode(&hash.as_slice()[1..2]));
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path
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}
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}
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impl InitialFormat for DataLayout {
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const VERSION_MARKER: &'static [u8] = b"G09bmdl";
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}
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impl DataDir {
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pub fn capacity(&self) -> Option<u64> {
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match self.state {
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DataDirState::Active { capacity } => Some(capacity),
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_ => None,
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}
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}
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}
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fn make_data_dirs(dirs: &DataDirEnum) -> Result<Vec<DataDir>, Error> {
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let mut data_dirs = vec![];
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match dirs {
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DataDirEnum::Single(path) => data_dirs.push(DataDir {
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path: path.clone(),
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state: DataDirState::Active {
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capacity: 1_000_000_000, // whatever, doesn't matter
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},
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}),
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DataDirEnum::Multiple(dirs) => {
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for dir in dirs.iter() {
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let state = match &dir.capacity {
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Some(cap) if dir.read_only == false => {
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DataDirState::Active {
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capacity: cap.parse::<bytesize::ByteSize>()
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.ok_or_message("invalid capacity value")?.as_u64(),
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}
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}
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None if dir.read_only == true => {
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DataDirState::ReadOnly
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}
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_ => return Err(Error::Message(format!("data directories in data_dir should have a capacity value or be marked read_only, not the case for {}", dir.path.to_string_lossy()))),
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};
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data_dirs.push(DataDir {
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path: dir.path.clone(),
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state,
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});
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}
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}
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}
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Ok(data_dirs)
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}
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fn dir_not_empty(path: &PathBuf) -> Result<bool, Error> {
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for entry in std::fs::read_dir(&path)? {
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let dir = entry?;
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if dir.file_type()?.is_dir()
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&& dir
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.file_name()
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.into_string()
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.ok()
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.and_then(|hex| hex::decode(&hex).ok())
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.is_some()
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{
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return Ok(true);
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}
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}
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Ok(false)
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}
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