use core::fmt; use std::{convert::TryFrom, num::ParseIntError, ops::Deref, str::FromStr}; use byte_unit::{Byte, ByteError}; use clap::Parser; use milli::update::IndexerConfig; use serde::Serialize; use sysinfo::{RefreshKind, System, SystemExt}; #[derive(Debug, Clone, Parser, Serialize)] pub struct IndexerOpts { /// The amount of documents to skip before printing /// a log regarding the indexing advancement. #[serde(skip)] #[clap(long, default_value = "100000", hide = true)] // 100k pub log_every_n: usize, /// Grenad max number of chunks in bytes. #[serde(skip)] #[clap(long, hide = true)] pub max_nb_chunks: Option, /// The maximum amount of memory the indexer will use. It defaults to 2/3 /// of the available memory. It is recommended to use something like 80%-90% /// of the available memory, no more. /// /// In case the engine is unable to retrieve the available memory the engine will /// try to use the memory it needs but without real limit, this can lead to /// Out-Of-Memory issues and it is recommended to specify the amount of memory to use. #[clap(long, env = "MEILI_MAX_INDEXING_MEMORY", default_value_t)] pub max_indexing_memory: MaxMemory, /// The maximum number of threads the indexer will use. /// It defaults to half of the available threads. #[clap(long, env = "MEILI_MAX_INDEXING_THREADS", default_value_t)] pub max_indexing_threads: MaxThreads, } #[derive(Debug, Clone, Parser, Default, Serialize)] pub struct SchedulerConfig { /// enable the autobatching experimental feature #[clap(long, hide = true)] pub enable_auto_batching: bool, // The maximum number of updates of the same type that can be batched together. // If unspecified, this is unlimited. A value of 0 is interpreted as 1. #[clap(long, requires = "enable-auto-batching", hide = true)] pub max_batch_size: Option, // The maximum number of documents in a document batch. Since batches must contain at least one // update for the scheduler to make progress, the number of documents in a batch will be at // least the number of documents of its first update. #[clap(long, requires = "enable-auto-batching", hide = true)] pub max_documents_per_batch: Option, /// Debounce duration in seconds /// /// When a new task is enqueued, the scheduler waits for `debounce_duration_sec` seconds for new updates before /// starting to process a batch of updates. #[clap(long, requires = "enable-auto-batching", hide = true)] pub debounce_duration_sec: Option, } impl TryFrom<&IndexerOpts> for IndexerConfig { type Error = anyhow::Error; fn try_from(other: &IndexerOpts) -> Result { let thread_pool = rayon::ThreadPoolBuilder::new() .num_threads(*other.max_indexing_threads) .build()?; Ok(Self { log_every_n: Some(other.log_every_n), max_nb_chunks: other.max_nb_chunks, max_memory: other.max_indexing_memory.map(|b| b.get_bytes() as usize), thread_pool: Some(thread_pool), max_positions_per_attributes: None, ..Default::default() }) } } impl Default for IndexerOpts { fn default() -> Self { Self { log_every_n: 100_000, max_nb_chunks: None, max_indexing_memory: MaxMemory::default(), max_indexing_threads: MaxThreads::default(), } } } /// A type used to detect the max memory available and use 2/3 of it. #[derive(Debug, Clone, Copy, Serialize)] pub struct MaxMemory(Option); impl FromStr for MaxMemory { type Err = ByteError; fn from_str(s: &str) -> Result { Byte::from_str(s).map(Some).map(MaxMemory) } } impl Default for MaxMemory { fn default() -> MaxMemory { MaxMemory( total_memory_bytes() .map(|bytes| bytes * 2 / 3) .map(Byte::from_bytes), ) } } impl fmt::Display for MaxMemory { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self.0 { Some(memory) => write!(f, "{}", memory.get_appropriate_unit(true)), None => f.write_str("unknown"), } } } impl Deref for MaxMemory { type Target = Option; fn deref(&self) -> &Self::Target { &self.0 } } impl MaxMemory { pub fn unlimited() -> Self { Self(None) } } /// Returns the total amount of bytes available or `None` if this system isn't supported. fn total_memory_bytes() -> Option { if System::IS_SUPPORTED { let memory_kind = RefreshKind::new().with_memory(); let mut system = System::new_with_specifics(memory_kind); system.refresh_memory(); Some(system.total_memory() * 1024) // KiB into bytes } else { None } } #[derive(Debug, Clone, Copy, Serialize)] pub struct MaxThreads(usize); impl FromStr for MaxThreads { type Err = ParseIntError; fn from_str(s: &str) -> Result { usize::from_str(s).map(Self) } } impl Default for MaxThreads { fn default() -> Self { MaxThreads(num_cpus::get() / 2) } } impl fmt::Display for MaxThreads { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}", self.0) } } impl Deref for MaxThreads { type Target = usize; fn deref(&self) -> &Self::Target { &self.0 } }