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use anyhow::Result;
use std::panic::{self, AssertUnwindSafe};
use wasmtime::*;
#[test]
fn test_trap_return() -> Result<()> {
let store = Store::default();
Support parsing the text format in `wasmtime` crate (#813) * Support parsing the text format in `wasmtime` crate This commit adds support to the `wasmtime::Module` type to parse the text format. This is often quite convenient to support in testing or tinkering with the runtime. Additionally the `wat` parser is pretty lightweight and easy to add to builds, so it&#39;s relatively easy for us to support as well! The exact manner that this is now supported comes with a few updates to the existing API: * A new optional feature of the `wasmtime` crate, `wat`, has been added. This is enabled by default. * The `Module::new` API now takes `impl AsRef&lt;[u8]&gt;` instead of just `&amp;[u8]`, and when the `wat` feature is enabled it will attempt to interpret it either as a wasm binary or as the text format. Note that this check is quite cheap since you just check the first byte. * A `Module::from_file` API was added as a convenience to parse a file from disk, allowing error messages for `*.wat` files on disk to be a bit nicer. * APIs like `Module::new_unchecked` and `Module::validate` remain unchanged, they require the binary format to be called. The intention here is to make this as convenient as possible for new developers of the `wasmtime` crate. By changing the default behavior though this has ramifications such as, for example, supporting the text format implicitly through the C API now. * Handle review comments * Update more tests to avoid usage of `wat` crate * Go back to unchecked for now in wasm_module_new Looks like C# tests rely on this?
5 years ago
let wat = r#"
(module
(func $hello (import "" "hello"))
(func (export "run") (call $hello))
)
"#;
let module = Module::new(&store, wat)?;
let hello_type = FuncType::new(Box::new([]), Box::new([]));
let hello_func = Func::new(&store, hello_type, |_, _, _| Err(Trap::new("test 123")));
let instance = Instance::new(&module, &[hello_func.into()])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let run_func = instance.get_func("run").expect("expected function export");
let e = run_func
.call(&[])
.err()
.expect("error calling function")
.downcast::<Trap>()?;
assert!(e.to_string().contains("test 123"));
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn test_trap_trace() -> Result<()> {
let store = Store::default();
Support parsing the text format in `wasmtime` crate (#813) * Support parsing the text format in `wasmtime` crate This commit adds support to the `wasmtime::Module` type to parse the text format. This is often quite convenient to support in testing or tinkering with the runtime. Additionally the `wat` parser is pretty lightweight and easy to add to builds, so it&#39;s relatively easy for us to support as well! The exact manner that this is now supported comes with a few updates to the existing API: * A new optional feature of the `wasmtime` crate, `wat`, has been added. This is enabled by default. * The `Module::new` API now takes `impl AsRef&lt;[u8]&gt;` instead of just `&amp;[u8]`, and when the `wat` feature is enabled it will attempt to interpret it either as a wasm binary or as the text format. Note that this check is quite cheap since you just check the first byte. * A `Module::from_file` API was added as a convenience to parse a file from disk, allowing error messages for `*.wat` files on disk to be a bit nicer. * APIs like `Module::new_unchecked` and `Module::validate` remain unchanged, they require the binary format to be called. The intention here is to make this as convenient as possible for new developers of the `wasmtime` crate. By changing the default behavior though this has ramifications such as, for example, supporting the text format implicitly through the C API now. * Handle review comments * Update more tests to avoid usage of `wat` crate * Go back to unchecked for now in wasm_module_new Looks like C# tests rely on this?
5 years ago
let wat = r#"
(module $hello_mod
(func (export "run") (call $hello))
(func $hello (unreachable))
)
"#;
let module = Module::new(&store, wat)?;
let instance = Instance::new(&module, &[])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let run_func = instance.get_func("run").expect("expected function export");
let e = run_func
.call(&[])
.err()
.expect("error calling function")
.downcast::<Trap>()?;
let trace = e.trace();
assert_eq!(trace.len(), 2);
assert_eq!(trace[0].module_name().unwrap(), "hello_mod");
assert_eq!(trace[0].func_index(), 1);
assert_eq!(trace[0].func_name(), Some("hello"));
Expose precise offset information in `wasmtime::FrameInfo` (#1495) * Consolidate trap/frame information This commit removes `TrapRegistry` in favor of consolidating this information in the `FRAME_INFO` we already have in the `wasmtime` crate. This allows us to keep information generally in one place and have one canonical location for &#34;map this PC to some original wasm stuff&#34;. The intent for this is to next update with enough information to go from a program counter to a position in the original wasm file. * Expose module offset information in `FrameInfo` This commit implements functionality for `FrameInfo`, the wasm stack trace of a `Trap`, to return the module/function offset. This allows knowing the precise wasm location of each stack frame, instead of only the main trap itself. The intention here is to provide more visibility into the wasm source when something traps, so you know precisely where calls were and where traps were, in order to assist in debugging. Eventually we might use this information for mapping back to native source languages as well (given sufficient debug information). This change makes a previously-optional artifact of compilation always computed on the cranelift side of things. This `ModuleAddressMap` is then propagated to the same store of information other frame information is stored within. This also removes the need for passing a `SourceLoc` with wasm traps or to wasm trap creation, since the backtrace&#39;s wasm frames will be able to infer their own `SourceLoc` from the relevant program counters.
5 years ago
assert_eq!(trace[0].func_offset(), 1);
assert_eq!(trace[0].module_offset(), 0x26);
assert_eq!(trace[1].module_name().unwrap(), "hello_mod");
assert_eq!(trace[1].func_index(), 0);
assert_eq!(trace[1].func_name(), None);
Expose precise offset information in `wasmtime::FrameInfo` (#1495) * Consolidate trap/frame information This commit removes `TrapRegistry` in favor of consolidating this information in the `FRAME_INFO` we already have in the `wasmtime` crate. This allows us to keep information generally in one place and have one canonical location for &#34;map this PC to some original wasm stuff&#34;. The intent for this is to next update with enough information to go from a program counter to a position in the original wasm file. * Expose module offset information in `FrameInfo` This commit implements functionality for `FrameInfo`, the wasm stack trace of a `Trap`, to return the module/function offset. This allows knowing the precise wasm location of each stack frame, instead of only the main trap itself. The intention here is to provide more visibility into the wasm source when something traps, so you know precisely where calls were and where traps were, in order to assist in debugging. Eventually we might use this information for mapping back to native source languages as well (given sufficient debug information). This change makes a previously-optional artifact of compilation always computed on the cranelift side of things. This `ModuleAddressMap` is then propagated to the same store of information other frame information is stored within. This also removes the need for passing a `SourceLoc` with wasm traps or to wasm trap creation, since the backtrace&#39;s wasm frames will be able to infer their own `SourceLoc` from the relevant program counters.
5 years ago
assert_eq!(trace[1].func_offset(), 1);
assert_eq!(trace[1].module_offset(), 0x21);
Remove global state for trap registration (#909) * Remove global state for trap registration There&#39;s a number of changes brought about in this commit, motivated by a few things. One motivation was to remove an instance of using `lazy_static!` in an effort to remove global state and encapsulate it wherever possible. A second motivation came when investigating a slowly-compiling wasm module (a bit too slowly) where a good chunk of time was spent in managing trap registrations. The specific change made here is that `TrapRegistry` is now stored inside of a `Compiler` instead of inside a global. Additionally traps are &#34;bulk registered&#34; for a module rather than one-by-one. This form of bulk-registration allows optimizing the locks used here, where a lock is only held for a module at-a-time instead of once-per-function. With these changes the &#34;unregister&#34; logic has also been tweaked a bit here and there to continue to work. As a nice side effect the `Compiler` type now has one fewer field that requires actual mutability and has been updated for multi-threaded compilation, nudging us closer to a world where we can support multi-threaded compilation. Yay! In terms of performance improvements, a local wasm test file that previously took 3 seconds to compile is now 10% faster to compile, taking ~2.7 seconds now. * Perform trap resolution after unwinding This avoids taking locks in signal handlers which feels a bit iffy... * Remove `TrapRegistration::dummy()` Avoid an case where you&#39;re trying to lookup trap information from a dummy module for something that happened in a different module. * Tweak some comments
5 years ago
assert!(
e.to_string().contains("unreachable"),
Remove global state for trap registration (#909) * Remove global state for trap registration There&#39;s a number of changes brought about in this commit, motivated by a few things. One motivation was to remove an instance of using `lazy_static!` in an effort to remove global state and encapsulate it wherever possible. A second motivation came when investigating a slowly-compiling wasm module (a bit too slowly) where a good chunk of time was spent in managing trap registrations. The specific change made here is that `TrapRegistry` is now stored inside of a `Compiler` instead of inside a global. Additionally traps are &#34;bulk registered&#34; for a module rather than one-by-one. This form of bulk-registration allows optimizing the locks used here, where a lock is only held for a module at-a-time instead of once-per-function. With these changes the &#34;unregister&#34; logic has also been tweaked a bit here and there to continue to work. As a nice side effect the `Compiler` type now has one fewer field that requires actual mutability and has been updated for multi-threaded compilation, nudging us closer to a world where we can support multi-threaded compilation. Yay! In terms of performance improvements, a local wasm test file that previously took 3 seconds to compile is now 10% faster to compile, taking ~2.7 seconds now. * Perform trap resolution after unwinding This avoids taking locks in signal handlers which feels a bit iffy... * Remove `TrapRegistration::dummy()` Avoid an case where you&#39;re trying to lookup trap information from a dummy module for something that happened in a different module. * Tweak some comments
5 years ago
"wrong message: {}",
e.to_string()
Remove global state for trap registration (#909) * Remove global state for trap registration There&#39;s a number of changes brought about in this commit, motivated by a few things. One motivation was to remove an instance of using `lazy_static!` in an effort to remove global state and encapsulate it wherever possible. A second motivation came when investigating a slowly-compiling wasm module (a bit too slowly) where a good chunk of time was spent in managing trap registrations. The specific change made here is that `TrapRegistry` is now stored inside of a `Compiler` instead of inside a global. Additionally traps are &#34;bulk registered&#34; for a module rather than one-by-one. This form of bulk-registration allows optimizing the locks used here, where a lock is only held for a module at-a-time instead of once-per-function. With these changes the &#34;unregister&#34; logic has also been tweaked a bit here and there to continue to work. As a nice side effect the `Compiler` type now has one fewer field that requires actual mutability and has been updated for multi-threaded compilation, nudging us closer to a world where we can support multi-threaded compilation. Yay! In terms of performance improvements, a local wasm test file that previously took 3 seconds to compile is now 10% faster to compile, taking ~2.7 seconds now. * Perform trap resolution after unwinding This avoids taking locks in signal handlers which feels a bit iffy... * Remove `TrapRegistration::dummy()` Avoid an case where you&#39;re trying to lookup trap information from a dummy module for something that happened in a different module. * Tweak some comments
5 years ago
);
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn test_trap_trace_cb() -> Result<()> {
let store = Store::default();
Support parsing the text format in `wasmtime` crate (#813) * Support parsing the text format in `wasmtime` crate This commit adds support to the `wasmtime::Module` type to parse the text format. This is often quite convenient to support in testing or tinkering with the runtime. Additionally the `wat` parser is pretty lightweight and easy to add to builds, so it&#39;s relatively easy for us to support as well! The exact manner that this is now supported comes with a few updates to the existing API: * A new optional feature of the `wasmtime` crate, `wat`, has been added. This is enabled by default. * The `Module::new` API now takes `impl AsRef&lt;[u8]&gt;` instead of just `&amp;[u8]`, and when the `wat` feature is enabled it will attempt to interpret it either as a wasm binary or as the text format. Note that this check is quite cheap since you just check the first byte. * A `Module::from_file` API was added as a convenience to parse a file from disk, allowing error messages for `*.wat` files on disk to be a bit nicer. * APIs like `Module::new_unchecked` and `Module::validate` remain unchanged, they require the binary format to be called. The intention here is to make this as convenient as possible for new developers of the `wasmtime` crate. By changing the default behavior though this has ramifications such as, for example, supporting the text format implicitly through the C API now. * Handle review comments * Update more tests to avoid usage of `wat` crate * Go back to unchecked for now in wasm_module_new Looks like C# tests rely on this?
5 years ago
let wat = r#"
(module $hello_mod
(import "" "throw" (func $throw))
(func (export "run") (call $hello))
(func $hello (call $throw))
)
"#;
let fn_type = FuncType::new(Box::new([]), Box::new([]));
let fn_func = Func::new(&store, fn_type, |_, _, _| Err(Trap::new("cb throw")));
Support parsing the text format in `wasmtime` crate (#813) * Support parsing the text format in `wasmtime` crate This commit adds support to the `wasmtime::Module` type to parse the text format. This is often quite convenient to support in testing or tinkering with the runtime. Additionally the `wat` parser is pretty lightweight and easy to add to builds, so it&#39;s relatively easy for us to support as well! The exact manner that this is now supported comes with a few updates to the existing API: * A new optional feature of the `wasmtime` crate, `wat`, has been added. This is enabled by default. * The `Module::new` API now takes `impl AsRef&lt;[u8]&gt;` instead of just `&amp;[u8]`, and when the `wat` feature is enabled it will attempt to interpret it either as a wasm binary or as the text format. Note that this check is quite cheap since you just check the first byte. * A `Module::from_file` API was added as a convenience to parse a file from disk, allowing error messages for `*.wat` files on disk to be a bit nicer. * APIs like `Module::new_unchecked` and `Module::validate` remain unchanged, they require the binary format to be called. The intention here is to make this as convenient as possible for new developers of the `wasmtime` crate. By changing the default behavior though this has ramifications such as, for example, supporting the text format implicitly through the C API now. * Handle review comments * Update more tests to avoid usage of `wat` crate * Go back to unchecked for now in wasm_module_new Looks like C# tests rely on this?
5 years ago
let module = Module::new(&store, wat)?;
let instance = Instance::new(&module, &[fn_func.into()])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let run_func = instance.get_func("run").expect("expected function export");
let e = run_func
.call(&[])
.err()
.expect("error calling function")
.downcast::<Trap>()?;
let trace = e.trace();
assert_eq!(trace.len(), 2);
assert_eq!(trace[0].module_name().unwrap(), "hello_mod");
assert_eq!(trace[0].func_index(), 2);
assert_eq!(trace[1].module_name().unwrap(), "hello_mod");
assert_eq!(trace[1].func_index(), 1);
assert!(e.to_string().contains("cb throw"));
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn test_trap_stack_overflow() -> Result<()> {
let store = Store::default();
Support parsing the text format in `wasmtime` crate (#813) * Support parsing the text format in `wasmtime` crate This commit adds support to the `wasmtime::Module` type to parse the text format. This is often quite convenient to support in testing or tinkering with the runtime. Additionally the `wat` parser is pretty lightweight and easy to add to builds, so it&#39;s relatively easy for us to support as well! The exact manner that this is now supported comes with a few updates to the existing API: * A new optional feature of the `wasmtime` crate, `wat`, has been added. This is enabled by default. * The `Module::new` API now takes `impl AsRef&lt;[u8]&gt;` instead of just `&amp;[u8]`, and when the `wat` feature is enabled it will attempt to interpret it either as a wasm binary or as the text format. Note that this check is quite cheap since you just check the first byte. * A `Module::from_file` API was added as a convenience to parse a file from disk, allowing error messages for `*.wat` files on disk to be a bit nicer. * APIs like `Module::new_unchecked` and `Module::validate` remain unchanged, they require the binary format to be called. The intention here is to make this as convenient as possible for new developers of the `wasmtime` crate. By changing the default behavior though this has ramifications such as, for example, supporting the text format implicitly through the C API now. * Handle review comments * Update more tests to avoid usage of `wat` crate * Go back to unchecked for now in wasm_module_new Looks like C# tests rely on this?
5 years ago
let wat = r#"
(module $rec_mod
(func $run (export "run") (call $run))
)
"#;
let module = Module::new(&store, wat)?;
let instance = Instance::new(&module, &[])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let run_func = instance.get_func("run").expect("expected function export");
let e = run_func
.call(&[])
.err()
.expect("error calling function")
.downcast::<Trap>()?;
let trace = e.trace();
assert!(trace.len() >= 32);
for i in 0..trace.len() {
assert_eq!(trace[i].module_name().unwrap(), "rec_mod");
assert_eq!(trace[i].func_index(), 0);
assert_eq!(trace[i].func_name(), Some("run"));
}
assert!(e.to_string().contains("call stack exhausted"));
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn trap_display_pretty() -> Result<()> {
let store = Store::default();
Support parsing the text format in `wasmtime` crate (#813) * Support parsing the text format in `wasmtime` crate This commit adds support to the `wasmtime::Module` type to parse the text format. This is often quite convenient to support in testing or tinkering with the runtime. Additionally the `wat` parser is pretty lightweight and easy to add to builds, so it&#39;s relatively easy for us to support as well! The exact manner that this is now supported comes with a few updates to the existing API: * A new optional feature of the `wasmtime` crate, `wat`, has been added. This is enabled by default. * The `Module::new` API now takes `impl AsRef&lt;[u8]&gt;` instead of just `&amp;[u8]`, and when the `wat` feature is enabled it will attempt to interpret it either as a wasm binary or as the text format. Note that this check is quite cheap since you just check the first byte. * A `Module::from_file` API was added as a convenience to parse a file from disk, allowing error messages for `*.wat` files on disk to be a bit nicer. * APIs like `Module::new_unchecked` and `Module::validate` remain unchanged, they require the binary format to be called. The intention here is to make this as convenient as possible for new developers of the `wasmtime` crate. By changing the default behavior though this has ramifications such as, for example, supporting the text format implicitly through the C API now. * Handle review comments * Update more tests to avoid usage of `wat` crate * Go back to unchecked for now in wasm_module_new Looks like C# tests rely on this?
5 years ago
let wat = r#"
(module $m
(func $die unreachable)
(func call $die)
(func $foo call 1)
(func (export "bar") call $foo)
)
"#;
let module = Module::new(&store, wat)?;
let instance = Instance::new(&module, &[])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let run_func = instance.get_func("bar").expect("expected function export");
let e = run_func.call(&[]).err().expect("error calling function");
assert_eq!(
e.to_string(),
"\
Expose precise offset information in `wasmtime::FrameInfo` (#1495) * Consolidate trap/frame information This commit removes `TrapRegistry` in favor of consolidating this information in the `FRAME_INFO` we already have in the `wasmtime` crate. This allows us to keep information generally in one place and have one canonical location for &#34;map this PC to some original wasm stuff&#34;. The intent for this is to next update with enough information to go from a program counter to a position in the original wasm file. * Expose module offset information in `FrameInfo` This commit implements functionality for `FrameInfo`, the wasm stack trace of a `Trap`, to return the module/function offset. This allows knowing the precise wasm location of each stack frame, instead of only the main trap itself. The intention here is to provide more visibility into the wasm source when something traps, so you know precisely where calls were and where traps were, in order to assist in debugging. Eventually we might use this information for mapping back to native source languages as well (given sufficient debug information). This change makes a previously-optional artifact of compilation always computed on the cranelift side of things. This `ModuleAddressMap` is then propagated to the same store of information other frame information is stored within. This also removes the need for passing a `SourceLoc` with wasm traps or to wasm trap creation, since the backtrace&#39;s wasm frames will be able to infer their own `SourceLoc` from the relevant program counters.
5 years ago
wasm trap: unreachable
wasm backtrace:
Expose precise offset information in `wasmtime::FrameInfo` (#1495) * Consolidate trap/frame information This commit removes `TrapRegistry` in favor of consolidating this information in the `FRAME_INFO` we already have in the `wasmtime` crate. This allows us to keep information generally in one place and have one canonical location for &#34;map this PC to some original wasm stuff&#34;. The intent for this is to next update with enough information to go from a program counter to a position in the original wasm file. * Expose module offset information in `FrameInfo` This commit implements functionality for `FrameInfo`, the wasm stack trace of a `Trap`, to return the module/function offset. This allows knowing the precise wasm location of each stack frame, instead of only the main trap itself. The intention here is to provide more visibility into the wasm source when something traps, so you know precisely where calls were and where traps were, in order to assist in debugging. Eventually we might use this information for mapping back to native source languages as well (given sufficient debug information). This change makes a previously-optional artifact of compilation always computed on the cranelift side of things. This `ModuleAddressMap` is then propagated to the same store of information other frame information is stored within. This also removes the need for passing a `SourceLoc` with wasm traps or to wasm trap creation, since the backtrace&#39;s wasm frames will be able to infer their own `SourceLoc` from the relevant program counters.
5 years ago
0: 0x23 - m!die
1: 0x27 - m!<wasm function 1>
2: 0x2c - m!foo
3: 0x31 - m!<wasm function 3>
"
);
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn trap_display_multi_module() -> Result<()> {
let store = Store::default();
Support parsing the text format in `wasmtime` crate (#813) * Support parsing the text format in `wasmtime` crate This commit adds support to the `wasmtime::Module` type to parse the text format. This is often quite convenient to support in testing or tinkering with the runtime. Additionally the `wat` parser is pretty lightweight and easy to add to builds, so it&#39;s relatively easy for us to support as well! The exact manner that this is now supported comes with a few updates to the existing API: * A new optional feature of the `wasmtime` crate, `wat`, has been added. This is enabled by default. * The `Module::new` API now takes `impl AsRef&lt;[u8]&gt;` instead of just `&amp;[u8]`, and when the `wat` feature is enabled it will attempt to interpret it either as a wasm binary or as the text format. Note that this check is quite cheap since you just check the first byte. * A `Module::from_file` API was added as a convenience to parse a file from disk, allowing error messages for `*.wat` files on disk to be a bit nicer. * APIs like `Module::new_unchecked` and `Module::validate` remain unchanged, they require the binary format to be called. The intention here is to make this as convenient as possible for new developers of the `wasmtime` crate. By changing the default behavior though this has ramifications such as, for example, supporting the text format implicitly through the C API now. * Handle review comments * Update more tests to avoid usage of `wat` crate * Go back to unchecked for now in wasm_module_new Looks like C# tests rely on this?
5 years ago
let wat = r#"
(module $a
(func $die unreachable)
(func call $die)
(func $foo call 1)
(func (export "bar") call $foo)
)
"#;
let module = Module::new(&store, wat)?;
let instance = Instance::new(&module, &[])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let bar = instance.get_export("bar").unwrap();
Support parsing the text format in `wasmtime` crate (#813) * Support parsing the text format in `wasmtime` crate This commit adds support to the `wasmtime::Module` type to parse the text format. This is often quite convenient to support in testing or tinkering with the runtime. Additionally the `wat` parser is pretty lightweight and easy to add to builds, so it&#39;s relatively easy for us to support as well! The exact manner that this is now supported comes with a few updates to the existing API: * A new optional feature of the `wasmtime` crate, `wat`, has been added. This is enabled by default. * The `Module::new` API now takes `impl AsRef&lt;[u8]&gt;` instead of just `&amp;[u8]`, and when the `wat` feature is enabled it will attempt to interpret it either as a wasm binary or as the text format. Note that this check is quite cheap since you just check the first byte. * A `Module::from_file` API was added as a convenience to parse a file from disk, allowing error messages for `*.wat` files on disk to be a bit nicer. * APIs like `Module::new_unchecked` and `Module::validate` remain unchanged, they require the binary format to be called. The intention here is to make this as convenient as possible for new developers of the `wasmtime` crate. By changing the default behavior though this has ramifications such as, for example, supporting the text format implicitly through the C API now. * Handle review comments * Update more tests to avoid usage of `wat` crate * Go back to unchecked for now in wasm_module_new Looks like C# tests rely on this?
5 years ago
let wat = r#"
(module $b
(import "" "" (func $bar))
(func $middle call $bar)
(func (export "bar2") call $middle)
)
"#;
let module = Module::new(&store, wat)?;
let instance = Instance::new(&module, &[bar])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let bar2 = instance.get_func("bar2").expect("expected function export");
let e = bar2.call(&[]).err().expect("error calling function");
assert_eq!(
e.to_string(),
"\
Expose precise offset information in `wasmtime::FrameInfo` (#1495) * Consolidate trap/frame information This commit removes `TrapRegistry` in favor of consolidating this information in the `FRAME_INFO` we already have in the `wasmtime` crate. This allows us to keep information generally in one place and have one canonical location for &#34;map this PC to some original wasm stuff&#34;. The intent for this is to next update with enough information to go from a program counter to a position in the original wasm file. * Expose module offset information in `FrameInfo` This commit implements functionality for `FrameInfo`, the wasm stack trace of a `Trap`, to return the module/function offset. This allows knowing the precise wasm location of each stack frame, instead of only the main trap itself. The intention here is to provide more visibility into the wasm source when something traps, so you know precisely where calls were and where traps were, in order to assist in debugging. Eventually we might use this information for mapping back to native source languages as well (given sufficient debug information). This change makes a previously-optional artifact of compilation always computed on the cranelift side of things. This `ModuleAddressMap` is then propagated to the same store of information other frame information is stored within. This also removes the need for passing a `SourceLoc` with wasm traps or to wasm trap creation, since the backtrace&#39;s wasm frames will be able to infer their own `SourceLoc` from the relevant program counters.
5 years ago
wasm trap: unreachable
wasm backtrace:
Expose precise offset information in `wasmtime::FrameInfo` (#1495) * Consolidate trap/frame information This commit removes `TrapRegistry` in favor of consolidating this information in the `FRAME_INFO` we already have in the `wasmtime` crate. This allows us to keep information generally in one place and have one canonical location for &#34;map this PC to some original wasm stuff&#34;. The intent for this is to next update with enough information to go from a program counter to a position in the original wasm file. * Expose module offset information in `FrameInfo` This commit implements functionality for `FrameInfo`, the wasm stack trace of a `Trap`, to return the module/function offset. This allows knowing the precise wasm location of each stack frame, instead of only the main trap itself. The intention here is to provide more visibility into the wasm source when something traps, so you know precisely where calls were and where traps were, in order to assist in debugging. Eventually we might use this information for mapping back to native source languages as well (given sufficient debug information). This change makes a previously-optional artifact of compilation always computed on the cranelift side of things. This `ModuleAddressMap` is then propagated to the same store of information other frame information is stored within. This also removes the need for passing a `SourceLoc` with wasm traps or to wasm trap creation, since the backtrace&#39;s wasm frames will be able to infer their own `SourceLoc` from the relevant program counters.
5 years ago
0: 0x23 - a!die
1: 0x27 - a!<wasm function 1>
2: 0x2c - a!foo
3: 0x31 - a!<wasm function 3>
4: 0x29 - b!middle
5: 0x2e - b!<wasm function 2>
"
);
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn trap_start_function_import() -> Result<()> {
let store = Store::default();
let binary = wat::parse_str(
r#"
(module $a
(import "" "" (func $foo))
(start $foo)
)
"#,
)?;
let module = Module::new(&store, &binary)?;
let sig = FuncType::new(Box::new([]), Box::new([]));
let func = Func::new(&store, sig, |_, _, _| Err(Trap::new("user trap")));
let err = Instance::new(&module, &[func.into()]).err().unwrap();
assert!(err
.downcast_ref::<Trap>()
.unwrap()
.to_string()
.contains("user trap"));
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn rust_panic_import() -> Result<()> {
let store = Store::default();
let binary = wat::parse_str(
r#"
(module $a
(import "" "" (func $foo))
(import "" "" (func $bar))
(func (export "foo") call $foo)
(func (export "bar") call $bar)
)
"#,
)?;
let module = Module::new(&store, &binary)?;
let sig = FuncType::new(Box::new([]), Box::new([]));
let func = Func::new(&store, sig, |_, _, _| panic!("this is a panic"));
let instance = Instance::new(
&module,
&[
func.into(),
Func::wrap(&store, || panic!("this is another panic")).into(),
],
)?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let func = instance.get_func("foo").unwrap();
let err = panic::catch_unwind(AssertUnwindSafe(|| {
drop(func.call(&[]));
}))
.unwrap_err();
assert_eq!(err.downcast_ref::<&'static str>(), Some(&"this is a panic"));
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let func = instance.get_func("bar").unwrap();
let err = panic::catch_unwind(AssertUnwindSafe(|| {
drop(func.call(&[]));
}))
.unwrap_err();
assert_eq!(
err.downcast_ref::<&'static str>(),
Some(&"this is another panic")
);
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn rust_panic_start_function() -> Result<()> {
let store = Store::default();
let binary = wat::parse_str(
r#"
(module $a
(import "" "" (func $foo))
(start $foo)
)
"#,
)?;
let module = Module::new(&store, &binary)?;
let sig = FuncType::new(Box::new([]), Box::new([]));
let func = Func::new(&store, sig, |_, _, _| panic!("this is a panic"));
let err = panic::catch_unwind(AssertUnwindSafe(|| {
drop(Instance::new(&module, &[func.into()]));
}))
.unwrap_err();
assert_eq!(err.downcast_ref::<&'static str>(), Some(&"this is a panic"));
let func = Func::wrap(&store, || panic!("this is another panic"));
let err = panic::catch_unwind(AssertUnwindSafe(|| {
drop(Instance::new(&module, &[func.into()]));
}))
.unwrap_err();
assert_eq!(
err.downcast_ref::<&'static str>(),
Some(&"this is another panic")
);
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn mismatched_arguments() -> Result<()> {
let store = Store::default();
let binary = wat::parse_str(
r#"
(module $a
(func (export "foo") (param i32))
)
"#,
)?;
let module = Module::new(&store, &binary)?;
let instance = Instance::new(&module, &[])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let func = instance.get_func("foo").unwrap();
assert_eq!(
func.call(&[]).unwrap_err().to_string(),
"expected 1 arguments, got 0"
);
assert_eq!(
func.call(&[Val::F32(0)]).unwrap_err().to_string(),
"argument type mismatch",
);
assert_eq!(
func.call(&[Val::I32(0), Val::I32(1)])
.unwrap_err()
.to_string(),
"expected 1 arguments, got 2"
);
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn call_signature_mismatch() -> Result<()> {
let store = Store::default();
let binary = wat::parse_str(
r#"
(module $a
(func $foo
i32.const 0
call_indirect)
(func $bar (param i32))
(start $foo)
(table 1 anyfunc)
(elem (i32.const 0) 1)
)
"#,
)?;
let module = Module::new(&store, &binary)?;
let err = Instance::new(&module, &[])
.err()
.unwrap()
.downcast::<Trap>()
.unwrap();
assert!(err
.to_string()
.contains("wasm trap: indirect call type mismatch"));
Ok(())
}
#[test]
#[cfg_attr(target_arch = "aarch64", ignore)] // FIXME(#1642)
fn start_trap_pretty() -> Result<()> {
let store = Store::default();
let wat = r#"
(module $m
(func $die unreachable)
(func call $die)
(func $foo call 1)
(func $start call $foo)
(start $start)
)
"#;
let module = Module::new(&store, wat)?;
let e = match Instance::new(&module, &[]) {
Ok(_) => panic!("expected failure"),
Err(e) => e.downcast::<Trap>()?,
};
assert_eq!(
e.to_string(),
"\
Expose precise offset information in `wasmtime::FrameInfo` (#1495) * Consolidate trap/frame information This commit removes `TrapRegistry` in favor of consolidating this information in the `FRAME_INFO` we already have in the `wasmtime` crate. This allows us to keep information generally in one place and have one canonical location for &#34;map this PC to some original wasm stuff&#34;. The intent for this is to next update with enough information to go from a program counter to a position in the original wasm file. * Expose module offset information in `FrameInfo` This commit implements functionality for `FrameInfo`, the wasm stack trace of a `Trap`, to return the module/function offset. This allows knowing the precise wasm location of each stack frame, instead of only the main trap itself. The intention here is to provide more visibility into the wasm source when something traps, so you know precisely where calls were and where traps were, in order to assist in debugging. Eventually we might use this information for mapping back to native source languages as well (given sufficient debug information). This change makes a previously-optional artifact of compilation always computed on the cranelift side of things. This `ModuleAddressMap` is then propagated to the same store of information other frame information is stored within. This also removes the need for passing a `SourceLoc` with wasm traps or to wasm trap creation, since the backtrace&#39;s wasm frames will be able to infer their own `SourceLoc` from the relevant program counters.
5 years ago
wasm trap: unreachable
wasm backtrace:
Expose precise offset information in `wasmtime::FrameInfo` (#1495) * Consolidate trap/frame information This commit removes `TrapRegistry` in favor of consolidating this information in the `FRAME_INFO` we already have in the `wasmtime` crate. This allows us to keep information generally in one place and have one canonical location for &#34;map this PC to some original wasm stuff&#34;. The intent for this is to next update with enough information to go from a program counter to a position in the original wasm file. * Expose module offset information in `FrameInfo` This commit implements functionality for `FrameInfo`, the wasm stack trace of a `Trap`, to return the module/function offset. This allows knowing the precise wasm location of each stack frame, instead of only the main trap itself. The intention here is to provide more visibility into the wasm source when something traps, so you know precisely where calls were and where traps were, in order to assist in debugging. Eventually we might use this information for mapping back to native source languages as well (given sufficient debug information). This change makes a previously-optional artifact of compilation always computed on the cranelift side of things. This `ModuleAddressMap` is then propagated to the same store of information other frame information is stored within. This also removes the need for passing a `SourceLoc` with wasm traps or to wasm trap creation, since the backtrace&#39;s wasm frames will be able to infer their own `SourceLoc` from the relevant program counters.
5 years ago
0: 0x1d - m!die
1: 0x21 - m!<wasm function 1>
2: 0x26 - m!foo
3: 0x2b - m!start
"
);
Ok(())
}
#[test]
fn present_after_module_drop() -> Result<()> {
let store = Store::default();
let module = Module::new(&store, r#"(func (export "foo") unreachable)"#)?;
let instance = Instance::new(&module, &[])?;
Refactor (#1524) * Compute instance exports on demand. Instead having instances eagerly compute a Vec of Externs, and bumping the refcount for each Extern, compute Externs on demand. This also enables `Instance::get_export` to avoid doing a linear search. This also means that the closure returned by `get0` and friends now holds an `InstanceHandle` to dynamically hold the instance live rather than being scoped to a lifetime. * Compute module imports and exports on demand too. And compute Extern::ty on demand too. * Add a utility function for computing an ExternType. * Add a utility function for looking up a function&#39;s signature. * Add a utility function for computing the ValType of a Global. * Rename wasmtime_environ::Export to EntityIndex. This helps differentiate it from other Export types in the tree, and describes what it is. * Fix a typo in a comment. * Simplify module imports and exports. * Make `Instance::exports` return the export names. This significantly simplifies the public API, as it&#39;s relatively common to need the names, and this avoids the need to do a zip with `Module::exports`. This also changes `ImportType` and `ExportType` to have public members instead of private members and accessors, as I find that simplifies the usage particularly in cases where there are temporary instances. * Remove `Instance::module`. This doesn&#39;t quite remove `Instance`&#39;s `module` member, it gets a step closer. * Use a InstanceHandle utility function. * Don&#39;t consume self in the `Func::get*` methods. Instead, just create a closure containing the instance handle and the export for them to call. * Use `ExactSizeIterator` to avoid needing separate `num_*` methods. * Rename `Extern::func()` etc. to `into_func()` etc. * Revise examples to avoid using `nth`. * Add convenience methods to instance for getting specific extern types. * Use the convenience functions in more tests and examples. * Avoid cloning strings for `ImportType` and `ExportType`. * Remove more obviated clone() calls. * Simplify `Func`&#39;s closure state. * Make wasmtime::Export&#39;s fields private. This makes them more consistent with ExportType. * Fix compilation error. * Make a lifetime parameter explicit, and use better lifetime names. Instead of &#39;me, use &#39;instance and &#39;module to make it clear what the lifetime is. * More lifetime cleanups.
5 years ago
let func = instance.get_func("foo").unwrap();
println!("asserting before we drop modules");
assert_trap(func.call(&[]).unwrap_err().downcast()?);
drop((instance, module));
println!("asserting after drop");
assert_trap(func.call(&[]).unwrap_err().downcast()?);
return Ok(());
fn assert_trap(t: Trap) {
println!("{}", t);
assert_eq!(t.trace().len(), 1);
assert_eq!(t.trace()[0].func_index(), 0);
}
}