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279 lines
9.7 KiB
279 lines
9.7 KiB
use std::{
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collections::{hash_map::RandomState, HashSet},
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sync::{
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atomic::{AtomicBool, Ordering},
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Arc, RwLock,
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},
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};
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use wasmtime::*;
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#[test]
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fn test_instantiate_shared_memory() -> Result<()> {
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let wat = r#"(module (memory 1 1 shared))"#;
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let mut config = Config::new();
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config.wasm_threads(true);
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let engine = Engine::new(&config)?;
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let module = Module::new(&engine, wat)?;
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let mut store = Store::new(&engine, ());
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let _instance = Instance::new(&mut store, &module, &[])?;
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Ok(())
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}
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#[test]
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fn test_import_shared_memory() -> Result<()> {
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let wat = r#"(module (import "env" "memory" (memory 1 5 shared)))"#;
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let mut config = Config::new();
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config.wasm_threads(true);
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let engine = Engine::new(&config)?;
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let module = Module::new(&engine, wat)?;
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let mut store = Store::new(&engine, ());
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let shared_memory = SharedMemory::new(&engine, MemoryType::shared(1, 5))?;
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let _instance = Instance::new(&mut store, &module, &[shared_memory.into()])?;
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Ok(())
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}
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#[test]
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fn test_export_shared_memory() -> Result<()> {
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let wat = r#"(module (memory (export "memory") 1 5 shared))"#;
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let mut config = Config::new();
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config.wasm_threads(true);
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let engine = Engine::new(&config)?;
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let module = Module::new(&engine, wat)?;
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let mut store = Store::new(&engine, ());
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let instance = Instance::new(&mut store, &module, &[])?;
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let shared_memory = instance.get_shared_memory(&mut store, "memory").unwrap();
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assert_eq!(shared_memory.size(), 1);
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assert!(shared_memory.ty().is_shared());
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assert_eq!(shared_memory.ty().maximum(), Some(5));
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Ok(())
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}
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#[test]
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#[cfg_attr(miri, ignore)]
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fn test_sharing_of_shared_memory() -> Result<()> {
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let wat = r#"(module
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(import "env" "memory" (memory 1 5 shared))
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(func (export "first_word") (result i32) (i32.load (i32.const 0)))
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)"#;
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let mut config = Config::new();
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config.wasm_threads(true);
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let engine = Engine::new(&config)?;
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let module = Module::new(&engine, wat)?;
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let mut store = Store::new(&engine, ());
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let shared_memory = SharedMemory::new(&engine, MemoryType::shared(1, 5))?;
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let instance1 = Instance::new(&mut store, &module, &[shared_memory.clone().into()])?;
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let instance2 = Instance::new(&mut store, &module, &[shared_memory.clone().into()])?;
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let data = shared_memory.data();
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// Modify the memory in one place.
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unsafe {
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*data[0].get() = 42;
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}
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// Verify that the memory is the same in all shared locations.
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let shared_memory_first_word = i32::from_le_bytes(unsafe {
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[
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*data[0].get(),
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*data[1].get(),
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*data[2].get(),
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*data[3].get(),
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]
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});
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let instance1_first_word = instance1
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.get_typed_func::<(), i32>(&mut store, "first_word")?
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.call(&mut store, ())?;
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let instance2_first_word = instance2
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.get_typed_func::<(), i32>(&mut store, "first_word")?
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.call(&mut store, ())?;
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assert_eq!(shared_memory_first_word, 42);
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assert_eq!(instance1_first_word, 42);
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assert_eq!(instance2_first_word, 42);
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Ok(())
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}
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#[test]
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#[cfg_attr(miri, ignore)]
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fn test_probe_shared_memory_size() -> Result<()> {
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let wat = r#"(module
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(memory (export "memory") 1 2 shared)
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(func (export "size") (result i32) (memory.size))
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)"#;
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let mut config = Config::new();
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config.wasm_threads(true);
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let engine = Engine::new(&config)?;
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let module = Module::new(&engine, wat)?;
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let mut store = Store::new(&engine, ());
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let instance = Instance::new(&mut store, &module, &[])?;
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let size_fn = instance.get_typed_func::<(), i32>(&mut store, "size")?;
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let shared_memory = instance.get_shared_memory(&mut store, "memory").unwrap();
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assert_eq!(size_fn.call(&mut store, ())?, 1);
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assert_eq!(shared_memory.size(), 1);
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shared_memory.grow(1)?;
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assert_eq!(shared_memory.size(), 2);
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assert_eq!(size_fn.call(&mut store, ())?, 2);
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Ok(())
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}
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#[test]
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fn test_multi_memory() -> Result<()> {
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let wat = r#"(module
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(import "env" "imported" (memory $imported 5 10 shared))
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(memory (export "owned") 10 20)
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(memory (export "shared") 1 2 shared)
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(export "imported" (memory $imported))
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)"#;
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let mut config = Config::new();
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config.wasm_threads(true);
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config.wasm_multi_memory(true);
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let engine = Engine::new(&config)?;
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let module = Module::new(&engine, wat)?;
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let mut store = Store::new(&engine, ());
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let incoming_shared_memory = SharedMemory::new(&engine, MemoryType::shared(5, 10))?;
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let instance = Instance::new(&mut store, &module, &[incoming_shared_memory.into()])?;
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let owned_memory = instance.get_memory(&mut store, "owned").unwrap();
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let shared_memory = instance.get_shared_memory(&mut store, "shared").unwrap();
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let imported_memory = instance.get_shared_memory(&mut store, "imported").unwrap();
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assert_eq!(owned_memory.size(&store), 10);
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assert_eq!(owned_memory.ty(&store).minimum(), 10);
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assert_eq!(owned_memory.ty(&store).maximum(), Some(20));
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assert_eq!(owned_memory.ty(&store).is_shared(), false);
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assert_eq!(shared_memory.size(), 1);
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assert_eq!(shared_memory.ty().minimum(), 1);
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assert_eq!(shared_memory.ty().maximum(), Some(2));
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assert_eq!(shared_memory.ty().is_shared(), true);
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assert_eq!(imported_memory.size(), 5);
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assert_eq!(imported_memory.ty().minimum(), 5);
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assert_eq!(imported_memory.ty().maximum(), Some(10));
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assert_eq!(imported_memory.ty().is_shared(), true);
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Ok(())
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}
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#[test]
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#[cfg_attr(miri, ignore)]
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fn test_grow_memory_in_multiple_threads() -> Result<()> {
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const NUM_THREADS: usize = 4;
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const NUM_GROW_OPS: usize = 1000;
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let wat = r#"(module
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(import "env" "memory" (memory 1 4000 shared))
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(func (export "grow") (param $delta i32) (result i32) (memory.grow (local.get $delta)))
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)"#;
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let mut config = Config::new();
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config.wasm_threads(true);
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let engine = Engine::new(&config)?;
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let module = Module::new(&engine, wat)?;
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let shared_memory = SharedMemory::new(&engine, MemoryType::shared(1, NUM_GROW_OPS as u32))?;
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let mut threads = vec![];
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let observed_sizes = Arc::new(RwLock::new(vec![]));
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// Spawn several threads using a single shared memory and grow the memory
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// concurrently on all threads.
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for _ in 0..NUM_THREADS {
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let engine = engine.clone();
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let module = module.clone();
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let observed_sizes = observed_sizes.clone();
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let shared_memory = shared_memory.clone();
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let thread = std::thread::spawn(move || {
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let mut store = Store::new(&engine, ());
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let instance = Instance::new(&mut store, &module, &[shared_memory.into()]).unwrap();
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let grow_fn = instance
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.get_typed_func::<i32, i32>(&mut store, "grow")
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.unwrap();
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let mut thread_local_observed_sizes: Vec<_> = (0..NUM_GROW_OPS / NUM_THREADS)
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.map(|_| grow_fn.call(&mut store, 1).unwrap() as u32)
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.collect();
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println!(
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"Returned memory sizes for {:?}: {:?}",
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std::thread::current().id(),
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thread_local_observed_sizes
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);
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assert!(is_sorted(thread_local_observed_sizes.as_slice()));
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observed_sizes
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.write()
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.unwrap()
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.append(&mut thread_local_observed_sizes);
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});
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threads.push(thread);
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}
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// Wait for all threads to finish.
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for t in threads {
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t.join().unwrap()
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}
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// Ensure the returned "old memory sizes" are all unique--i.e., we have not
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// observed the same growth twice.
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let unique_observed_sizes: HashSet<u32, RandomState> =
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HashSet::from_iter(observed_sizes.read().unwrap().iter().cloned());
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assert_eq!(
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observed_sizes.read().unwrap().len(),
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unique_observed_sizes.len()
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);
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Ok(())
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}
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fn is_sorted(data: &[u32]) -> bool {
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data.windows(2).all(|d| d[0] <= d[1])
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}
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#[test]
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#[cfg_attr(miri, ignore)]
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fn test_memory_size_accessibility() -> Result<()> {
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const NUM_GROW_OPS: usize = 1000;
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let wat = r#"(module
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(import "env" "memory" (memory $memory 1 1000 shared))
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(func (export "probe_last_available") (result i32)
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(local $last_address i32)
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(local.set $last_address (i32.sub (i32.mul (memory.size) (i32.const 0x10000)) (i32.const 4)))
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(i32.load $memory (local.get $last_address))
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)
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)"#;
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let mut config = Config::new();
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config.wasm_threads(true);
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let engine = Engine::new(&config)?;
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let module = Module::new(&engine, wat)?;
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let shared_memory = SharedMemory::new(&engine, MemoryType::shared(1, NUM_GROW_OPS as u32))?;
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let done = Arc::new(AtomicBool::new(false));
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let grow_memory = shared_memory.clone();
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let grow_thread = std::thread::spawn(move || {
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for i in 0..NUM_GROW_OPS {
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if grow_memory.grow(1).is_err() {
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println!("stopping at grow operation #{}", i);
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break;
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}
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}
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});
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let probe_memory = shared_memory.clone();
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let probe_done = done.clone();
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let probe_thread = std::thread::spawn(move || {
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let mut store = Store::new(&engine, ());
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let instance = Instance::new(&mut store, &module, &[probe_memory.into()]).unwrap();
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let probe_fn = instance
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.get_typed_func::<(), i32>(&mut store, "probe_last_available")
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.unwrap();
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while !probe_done.load(Ordering::SeqCst) {
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let value = probe_fn.call(&mut store, ()).unwrap() as u32;
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assert_eq!(value, 0);
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}
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});
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grow_thread.join().unwrap();
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done.store(true, Ordering::SeqCst);
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probe_thread.join().unwrap();
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Ok(())
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}
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