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wasmtime/src/lib.rs
Alex Crichton 6bcee7f5f7 Add a configuration option to force "static" memories (#3503) 
* Add a configuration option to force "static" memories

In poking around at some things earlier today I realized that one
configuration option for memories we haven't exposed from embeddings
like the CLI is to forcibly limit the size of memory growth and force
using a static memory style. This means that the CLI, for example, can't
limit memory growth by default and memories are only limited in size by
what the OS can give and the wasm's own memory type. This configuration
option means that the CLI can artificially limit the size of wasm linear
memories.

Additionally another motivation for this is for testing out various
codegen ramifications of static/dynamic memories. This is the only way
to force a static memory, by default, for wasm64 memories with no
maximum size listed for example.

* Review feedback
2021-11-03 16:50:49 -05:00

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//! The Wasmtime command line interface (CLI) crate.
//!
//! This crate implements the Wasmtime command line tools.
#![deny(
missing_docs,
trivial_numeric_casts,
unused_extern_crates,
unstable_features
)]
#![warn(unused_import_braces)]
#![cfg_attr(feature = "clippy", plugin(clippy(conf_file = "../clippy.toml")))]
#![cfg_attr(feature = "cargo-clippy", allow(clippy::new_without_default))]
#![cfg_attr(
feature = "cargo-clippy",
warn(
clippy::float_arithmetic,
clippy::mut_mut,
clippy::nonminimal_bool,
clippy::map_unwrap_or,
clippy::unicode_not_nfc,
clippy::use_self
)
)]
const SUPPORTED_WASM_FEATURES: &[(&str, &str)] = &[
("all", "enables all supported WebAssembly features"),
(
"bulk-memory",
"enables support for bulk memory instructions",
),
(
"module-linking",
"enables support for the module-linking proposal",
),
(
"multi-memory",
"enables support for the multi-memory proposal",
),
("multi-value", "enables support for multi-value functions"),
("reference-types", "enables support for reference types"),
("simd", "enables support for proposed SIMD instructions"),
("threads", "enables support for WebAssembly threads"),
("memory64", "enables support for 64-bit memories"),
];
const SUPPORTED_WASI_MODULES: &[(&str, &str)] = &[
(
"default",
"enables all stable WASI modules (no experimental modules)",
),
(
"wasi-common",
"enables support for the WASI common APIs, see https://github.com/WebAssembly/WASI",
),
(
"experimental-wasi-nn",
"enables support for the WASI neural network API (experimental), see https://github.com/WebAssembly/wasi-nn",
),
(
"experimental-wasi-crypto",
"enables support for the WASI cryptography APIs (experimental), see https://github.com/WebAssembly/wasi-crypto",
),
];
lazy_static::lazy_static! {
static ref FLAG_EXPLANATIONS: String = {
use std::fmt::Write;
let mut s = String::new();
// Explain --wasm-features.
writeln!(&mut s, "Supported values for `--wasm-features`:").unwrap();
writeln!(&mut s).unwrap();
let max = SUPPORTED_WASM_FEATURES.iter().max_by_key(|(name, _)| name.len()).unwrap();
for (name, desc) in SUPPORTED_WASM_FEATURES.iter() {
writeln!(&mut s, "{:width$} {}", name, desc, width = max.0.len() + 2).unwrap();
}
writeln!(&mut s).unwrap();
// Explain --wasi-modules.
writeln!(&mut s, "Supported values for `--wasi-modules`:").unwrap();
writeln!(&mut s).unwrap();
let max = SUPPORTED_WASI_MODULES.iter().max_by_key(|(name, _)| name.len()).unwrap();
for (name, desc) in SUPPORTED_WASI_MODULES.iter() {
writeln!(&mut s, "{:width$} {}", name, desc, width = max.0.len() + 2).unwrap();
}
writeln!(&mut s).unwrap();
writeln!(&mut s, "Features prefixed with '-' will be disabled.").unwrap();
s
};
}
pub mod commands;
use anyhow::{bail, Result};
use std::collections::HashMap;
use std::path::PathBuf;
use structopt::StructOpt;
use wasmtime::{Config, ProfilingStrategy};
fn pick_profiling_strategy(jitdump: bool, vtune: bool) -> Result<ProfilingStrategy> {
Ok(match (jitdump, vtune) {
(true, false) => ProfilingStrategy::JitDump,
(false, true) => ProfilingStrategy::VTune,
(true, true) => {
println!("Can't enable --jitdump and --vtune at the same time. Profiling not enabled.");
ProfilingStrategy::None
}
_ => ProfilingStrategy::None,
})
}
fn init_file_per_thread_logger(prefix: &'static str) {
file_per_thread_logger::initialize(prefix);
// Extending behavior of default spawner:
// https://docs.rs/rayon/1.1.0/rayon/struct.ThreadPoolBuilder.html#method.spawn_handler
// Source code says DefaultSpawner is implementation detail and
// shouldn't be used directly.
rayon::ThreadPoolBuilder::new()
.spawn_handler(move |thread| {
let mut b = std::thread::Builder::new();
if let Some(name) = thread.name() {
b = b.name(name.to_owned());
}
if let Some(stack_size) = thread.stack_size() {
b = b.stack_size(stack_size);
}
b.spawn(move || {
file_per_thread_logger::initialize(prefix);
thread.run()
})?;
Ok(())
})
.build_global()
.unwrap();
}
/// Common options for commands that translate WebAssembly modules
#[derive(StructOpt)]
struct CommonOptions {
/// Use specified configuration file
#[structopt(long, parse(from_os_str), value_name = "CONFIG_PATH")]
config: Option<PathBuf>,
/// Disable logging.
#[structopt(long, conflicts_with = "log_to_files")]
disable_logging: bool,
/// Log to per-thread log files instead of stderr.
#[structopt(long)]
log_to_files: bool,
/// Generate debug information
#[structopt(short = "g")]
debug_info: bool,
/// Disable cache system
#[structopt(long)]
disable_cache: bool,
/// Enable support for proposed SIMD instructions (deprecated; use `--wasm-features=simd`)
#[structopt(long, hidden = true)]
enable_simd: bool,
/// Enable support for reference types (deprecated; use `--wasm-features=reference-types`)
#[structopt(long, hidden = true)]
enable_reference_types: bool,
/// Enable support for multi-value functions (deprecated; use `--wasm-features=multi-value`)
#[structopt(long, hidden = true)]
enable_multi_value: bool,
/// Enable support for Wasm threads (deprecated; use `--wasm-features=threads`)
#[structopt(long, hidden = true)]
enable_threads: bool,
/// Enable support for bulk memory instructions (deprecated; use `--wasm-features=bulk-memory`)
#[structopt(long, hidden = true)]
enable_bulk_memory: bool,
/// Enable support for the multi-memory proposal (deprecated; use `--wasm-features=multi-memory`)
#[structopt(long, hidden = true)]
enable_multi_memory: bool,
/// Enable support for the module-linking proposal (deprecated; use `--wasm-features=module-linking`)
#[structopt(long, hidden = true)]
enable_module_linking: bool,
/// Enable all experimental Wasm features (deprecated; use `--wasm-features=all`)
#[structopt(long, hidden = true)]
enable_all: bool,
/// Enables or disables WebAssembly features
#[structopt(long, value_name = "FEATURE,FEATURE,...", parse(try_from_str = parse_wasm_features))]
wasm_features: Option<wasmparser::WasmFeatures>,
/// Enables or disables WASI modules
#[structopt(long, value_name = "MODULE,MODULE,...", parse(try_from_str = parse_wasi_modules))]
wasi_modules: Option<WasiModules>,
/// Generate jitdump file (supported on --features=profiling build)
#[structopt(long, conflicts_with = "vtune")]
jitdump: bool,
/// Generate vtune (supported on --features=vtune build)
#[structopt(long, conflicts_with = "jitdump")]
vtune: bool,
/// Run optimization passes on translated functions, on by default
#[structopt(short = "O", long)]
optimize: bool,
/// Optimization level for generated functions
/// Supported levels: 0 (none), 1, 2 (most), or s (size); default is "most"
#[structopt(
long,
value_name = "LEVEL",
parse(try_from_str = parse_opt_level),
verbatim_doc_comment,
)]
opt_level: Option<wasmtime::OptLevel>,
/// Set a Cranelift setting to a given value.
/// Use `wasmtime settings` to list Cranelift settings for a target.
#[structopt(long = "cranelift-set", value_name = "NAME=VALUE", number_of_values = 1, verbatim_doc_comment, parse(try_from_str = parse_cranelift_flag))]
cranelift_set: Vec<(String, String)>,
/// Enable a Cranelift boolean setting or preset.
/// Use `wasmtime settings` to list Cranelift settings for a target.
#[structopt(
long,
value_name = "SETTING",
number_of_values = 1,
verbatim_doc_comment
)]
cranelift_enable: Vec<String>,
/// Maximum size in bytes of wasm memory before it becomes dynamically
/// relocatable instead of up-front-reserved.
#[structopt(long, value_name = "MAXIMUM")]
static_memory_maximum_size: Option<u64>,
/// Force using a "static" style for all wasm memories.
#[structopt(long)]
static_memory_forced: bool,
/// Byte size of the guard region after static memories are allocated.
#[structopt(long, value_name = "SIZE")]
static_memory_guard_size: Option<u64>,
/// Byte size of the guard region after dynamic memories are allocated.
#[structopt(long, value_name = "SIZE")]
dynamic_memory_guard_size: Option<u64>,
/// Enable Cranelift's internal debug verifier (expensive)
#[structopt(long)]
enable_cranelift_debug_verifier: bool,
/// Enable Cranelift's internal NaN canonicalization
#[structopt(long)]
enable_cranelift_nan_canonicalization: bool,
}
impl CommonOptions {
fn init_logging(&self) {
if self.disable_logging {
return;
}
if self.log_to_files {
let prefix = "wasmtime.dbg.";
init_file_per_thread_logger(prefix);
} else {
pretty_env_logger::init();
}
}
fn config(&self, target: Option<&str>) -> Result<Config> {
let mut config = Config::new();
// Set the target before setting any cranelift options, since the
// target will reset any target-specific options.
if let Some(target) = target {
config.target(target)?;
}
config
.cranelift_debug_verifier(self.enable_cranelift_debug_verifier)
.debug_info(self.debug_info)
.cranelift_opt_level(self.opt_level())
.profiler(pick_profiling_strategy(self.jitdump, self.vtune)?)?
.cranelift_nan_canonicalization(self.enable_cranelift_nan_canonicalization);
self.enable_wasm_features(&mut config);
for name in &self.cranelift_enable {
unsafe {
config.cranelift_flag_enable(name)?;
}
}
for (name, value) in &self.cranelift_set {
unsafe {
config.cranelift_flag_set(name, value)?;
}
}
if !self.disable_cache {
match &self.config {
Some(path) => {
config.cache_config_load(path)?;
}
None => {
config.cache_config_load_default()?;
}
}
}
if let Some(max) = self.static_memory_maximum_size {
config.static_memory_maximum_size(max);
}
config.static_memory_forced(self.static_memory_forced);
if let Some(size) = self.static_memory_guard_size {
config.static_memory_guard_size(size);
}
if let Some(size) = self.dynamic_memory_guard_size {
config.dynamic_memory_guard_size(size);
}
Ok(config)
}
fn enable_wasm_features(&self, config: &mut Config) {
let features = self.wasm_features.unwrap_or_default();
config
.wasm_simd(features.simd || self.enable_simd || self.enable_all)
.wasm_bulk_memory(features.bulk_memory || self.enable_bulk_memory || self.enable_all)
.wasm_reference_types(
features.reference_types || self.enable_reference_types || self.enable_all,
)
.wasm_multi_value(features.multi_value || self.enable_multi_value || self.enable_all)
.wasm_threads(features.threads || self.enable_threads || self.enable_all)
.wasm_multi_memory(features.multi_memory || self.enable_multi_memory || self.enable_all)
.wasm_memory64(features.memory64 || self.enable_all)
.wasm_module_linking(
features.module_linking || self.enable_module_linking || self.enable_all,
);
}
fn opt_level(&self) -> wasmtime::OptLevel {
match (self.optimize, self.opt_level.clone()) {
(true, _) => wasmtime::OptLevel::Speed,
(false, other) => other.unwrap_or(wasmtime::OptLevel::Speed),
}
}
}
fn parse_opt_level(opt_level: &str) -> Result<wasmtime::OptLevel> {
match opt_level {
"s" => Ok(wasmtime::OptLevel::SpeedAndSize),
"0" => Ok(wasmtime::OptLevel::None),
"1" => Ok(wasmtime::OptLevel::Speed),
"2" => Ok(wasmtime::OptLevel::Speed),
other => bail!(
"unknown optimization level `{}`, only 0,1,2,s accepted",
other
),
}
}
fn parse_wasm_features(features: &str) -> Result<wasmparser::WasmFeatures> {
let features = features.trim();
let mut all = None;
let mut values: HashMap<_, _> = SUPPORTED_WASM_FEATURES
.iter()
.map(|(name, _)| (name.to_string(), None))
.collect();
if features == "all" {
all = Some(true);
} else if features == "-all" {
all = Some(false);
} else {
for feature in features.split(',') {
let feature = feature.trim();
if feature.is_empty() {
continue;
}
let (feature, value) = if feature.starts_with('-') {
(&feature[1..], false)
} else {
(feature, true)
};
if feature == "all" {
bail!("'all' cannot be specified with other WebAssembly features");
}
match values.get_mut(feature) {
Some(v) => *v = Some(value),
None => bail!("unsupported WebAssembly feature '{}'", feature),
}
}
}
Ok(wasmparser::WasmFeatures {
reference_types: all.unwrap_or(values["reference-types"].unwrap_or(true)),
multi_value: all.unwrap_or(values["multi-value"].unwrap_or(true)),
bulk_memory: all.unwrap_or(values["bulk-memory"].unwrap_or(true)),
module_linking: all.unwrap_or(values["module-linking"].unwrap_or(false)),
simd: all.unwrap_or(values["simd"].unwrap_or(false)),
threads: all.unwrap_or(values["threads"].unwrap_or(false)),
tail_call: false,
deterministic_only: false,
multi_memory: all.unwrap_or(values["multi-memory"].unwrap_or(false)),
exceptions: false,
memory64: all.unwrap_or(values["memory64"].unwrap_or(false)),
})
}
fn parse_wasi_modules(modules: &str) -> Result<WasiModules> {
let modules = modules.trim();
match modules {
"default" => Ok(WasiModules::default()),
"-default" => Ok(WasiModules::none()),
_ => {
// Starting from the default set of WASI modules, enable or disable a list of
// comma-separated modules.
let mut wasi_modules = WasiModules::default();
let mut set = |module: &str, enable: bool| match module {
"" => Ok(()),
"wasi-common" => Ok(wasi_modules.wasi_common = enable),
"experimental-wasi-nn" => Ok(wasi_modules.wasi_nn = enable),
"experimental-wasi-crypto" => Ok(wasi_modules.wasi_crypto = enable),
"default" => bail!("'default' cannot be specified with other WASI modules"),
_ => bail!("unsupported WASI module '{}'", module),
};
for module in modules.split(',') {
let module = module.trim();
let (module, value) = if module.starts_with('-') {
(&module[1..], false)
} else {
(module, true)
};
set(module, value)?;
}
Ok(wasi_modules)
}
}
}
/// Select which WASI modules are available at runtime for use by Wasm programs.
#[derive(Debug, Clone, Copy, PartialEq)]
pub struct WasiModules {
/// Enable the wasi-common implementation; eventually this should be split into its separate
/// parts once the implementation allows for it (e.g. wasi-fs, wasi-clocks, etc.).
pub wasi_common: bool,
/// Enable the experimental wasi-nn implementation.
pub wasi_nn: bool,
/// Enable the experimental wasi-crypto implementation.
pub wasi_crypto: bool,
}
impl Default for WasiModules {
fn default() -> Self {
Self {
wasi_common: true,
wasi_nn: false,
wasi_crypto: false,
}
}
}
impl WasiModules {
/// Enable no modules.
pub fn none() -> Self {
Self {
wasi_common: false,
wasi_nn: false,
wasi_crypto: false,
}
}
}
fn parse_cranelift_flag(name_and_value: &str) -> Result<(String, String)> {
let mut split = name_and_value.splitn(2, '=');
let name = if let Some(name) = split.next() {
name.to_string()
} else {
bail!("missing name in cranelift flag");
};
let value = if let Some(value) = split.next() {
value.to_string()
} else {
bail!("missing value in cranelift flag");
};
Ok((name, value))
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_all_features() -> Result<()> {
let options = CommonOptions::from_iter_safe(vec!["foo", "--wasm-features=all"])?;
let wasmparser::WasmFeatures {
reference_types,
multi_value,
bulk_memory,
module_linking,
simd,
threads,
tail_call,
deterministic_only,
multi_memory,
exceptions,
memory64,
} = options.wasm_features.unwrap();
assert!(reference_types);
assert!(multi_value);
assert!(bulk_memory);
assert!(module_linking);
assert!(simd);
assert!(threads);
assert!(!tail_call); // Not supported
assert!(!deterministic_only); // Not supported
assert!(multi_memory);
assert!(!exceptions); // Not supported
assert!(memory64);
Ok(())
}
#[test]
fn test_no_features() -> Result<()> {
let options = CommonOptions::from_iter_safe(vec!["foo", "--wasm-features=-all"])?;
let wasmparser::WasmFeatures {
reference_types,
multi_value,
bulk_memory,
module_linking,
simd,
threads,
tail_call,
deterministic_only,
multi_memory,
exceptions,
memory64,
} = options.wasm_features.unwrap();
assert!(!reference_types);
assert!(!multi_value);
assert!(!bulk_memory);
assert!(!module_linking);
assert!(!simd);
assert!(!threads);
assert!(!tail_call);
assert!(!deterministic_only);
assert!(!multi_memory);
assert!(!exceptions);
assert!(!memory64);
Ok(())
}
#[test]
fn test_multiple_features() -> Result<()> {
let options = CommonOptions::from_iter_safe(vec![
"foo",
"--wasm-features=-reference-types,simd,multi-memory,memory64",
])?;
let wasmparser::WasmFeatures {
reference_types,
multi_value,
bulk_memory,
module_linking,
simd,
threads,
tail_call,
deterministic_only,
multi_memory,
exceptions,
memory64,
} = options.wasm_features.unwrap();
assert!(!reference_types);
assert!(multi_value);
assert!(bulk_memory);
assert!(!module_linking);
assert!(simd);
assert!(!threads);
assert!(!tail_call); // Not supported
assert!(!deterministic_only); // Not supported
assert!(multi_memory);
assert!(!exceptions); // Not supported
assert!(memory64);
Ok(())
}
macro_rules! feature_test {
($test_name:ident, $name:ident, $flag:literal) => {
#[test]
fn $test_name() -> Result<()> {
let options =
CommonOptions::from_iter_safe(vec!["foo", concat!("--wasm-features=", $flag)])?;
let wasmparser::WasmFeatures { $name, .. } = options.wasm_features.unwrap();
assert!($name);
let options = CommonOptions::from_iter_safe(vec![
"foo",
concat!("--wasm-features=-", $flag),
])?;
let wasmparser::WasmFeatures { $name, .. } = options.wasm_features.unwrap();
assert!(!$name);
Ok(())
}
};
}
feature_test!(
test_reference_types_feature,
reference_types,
"reference-types"
);
feature_test!(test_multi_value_feature, multi_value, "multi-value");
feature_test!(test_bulk_memory_feature, bulk_memory, "bulk-memory");
feature_test!(
test_module_linking_feature,
module_linking,
"module-linking"
);
feature_test!(test_simd_feature, simd, "simd");
feature_test!(test_threads_feature, threads, "threads");
feature_test!(test_multi_memory_feature, multi_memory, "multi-memory");
feature_test!(test_memory64_feature, memory64, "memory64");
#[test]
fn test_default_modules() {
let options = CommonOptions::from_iter_safe(vec!["foo", "--wasi-modules=default"]).unwrap();
assert_eq!(
options.wasi_modules.unwrap(),
WasiModules {
wasi_common: true,
wasi_nn: false,
wasi_crypto: false
}
);
}
#[test]
fn test_empty_modules() {
let options = CommonOptions::from_iter_safe(vec!["foo", "--wasi-modules="]).unwrap();
assert_eq!(
options.wasi_modules.unwrap(),
WasiModules {
wasi_common: true,
wasi_nn: false,
wasi_crypto: false
}
);
}
#[test]
fn test_some_modules() {
let options = CommonOptions::from_iter_safe(vec![
"foo",
"--wasi-modules=experimental-wasi-nn,-wasi-common",
])
.unwrap();
assert_eq!(
options.wasi_modules.unwrap(),
WasiModules {
wasi_common: false,
wasi_nn: true,
wasi_crypto: false
}
);
}
#[test]
fn test_no_modules() {
let options =
CommonOptions::from_iter_safe(vec!["foo", "--wasi-modules=-default"]).unwrap();
assert_eq!(
options.wasi_modules.unwrap(),
WasiModules {
wasi_common: false,
wasi_nn: false,
wasi_crypto: false
}
);
}
}
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