Split our existing fuzz targets into separate generators and oracles

Part of #611

crates/fuzzing/src/oracles.rs

@@ -0,0 +1,66 @@
+//! Oracles.
+//!
+//! Oracles take a test case and determine whether we have a bug. For example,
+//! one of the simplest oracles is to take a Wasm binary as our input test case,
+//! validate and instantiate it, and (implicitly) check that no assertions
+//! failed or segfaults happened. A more complicated oracle might compare the
+//! result of executing a Wasm file with and without optimizations enabled, and
+//! make sure that the two executions are observably identical.
+//!
+//! When an oracle finds a bug, it should report it to the fuzzing engine by
+//! panicking.
+
+use cranelift_codegen::settings;
+use std::cell::RefCell;
+use std::collections::HashMap;
+use std::rc::Rc;
+use wasmtime_jit::{CompilationStrategy, CompiledModule, Compiler, NullResolver};
+
+fn host_isa() -> Box<dyn cranelift_codegen::isa::TargetIsa> {
+    let flag_builder = settings::builder();
+    let isa_builder = cranelift_native::builder().expect("host machine is not a supported target");
+    isa_builder.finish(settings::Flags::new(flag_builder))
+}
+
+/// Instantiate the Wasm buffer, and implicitly fail if we have an unexpected
+/// panic or segfault or anything else that can be detected "passively".
+///
+/// Performs initial validation, and returns early if the Wasm is invalid.
+///
+/// You can control which compiler is used via passing a `CompilationStrategy`.
+pub fn instantiate(wasm: &[u8], compilation_strategy: CompilationStrategy) {
+    if wasmparser::validate(wasm, None).is_err() {
+        return;
+    }
+
+    let isa = host_isa();
+    let mut compiler = Compiler::new(isa, compilation_strategy);
+    let mut imports_resolver = NullResolver {};
+
+    wasmtime_jit::instantiate(
+        &mut compiler,
+        wasm,
+        &mut imports_resolver,
+        Default::default(),
+        true,
+    )
+    .expect("failed to instantiate valid Wasm!");
+}
+
+/// Compile the Wasm buffer, and implicitly fail if we have an unexpected
+/// panic or segfault or anything else that can be detected "passively".
+///
+/// Performs initial validation, and returns early if the Wasm is invalid.
+///
+/// You can control which compiler is used via passing a `CompilationStrategy`.
+pub fn compile(wasm: &[u8], compilation_strategy: CompilationStrategy) {
+    if wasmparser::validate(wasm, None).is_err() {
+        return;
+    }
+
+    let isa = host_isa();
+    let mut compiler = Compiler::new(isa, compilation_strategy);
+    let mut resolver = NullResolver {};
+    let global_exports = Rc::new(RefCell::new(HashMap::new()));
+    let _ = CompiledModule::new(&mut compiler, wasm, &mut resolver, global_exports, false);
+}