wiggle: automate borrow checking, explicitly passing borrow checker throughout

crates/wiggle/generate/src/funcs.rs

@@ -24,7 +24,9 @@ pub fn define_func(
     });
 
     let abi_args = quote!(
-            ctx: &#ctx_type, memory: &dyn #rt::GuestMemory,
+            ctx: &#ctx_type,
+            memory: &dyn #rt::GuestMemory,
+            bc: &#rt::BorrowChecker,
             #(#params),*
     );
     let abi_ret = if let Some(ret) = &coretype.ret {
@@ -210,7 +212,7 @@ fn marshal_arg(
         let arg_name = names.func_ptr_binding(&param.name);
         let name = names.func_param(&param.name);
         quote! {
-            let #name = match #rt::GuestPtr::<#pointee_type>::new(memory, #arg_name as u32).read() {
+            let #name = match #rt::GuestPtr::<#pointee_type>::new(memory, bc, #arg_name as u32).read() {
                 Ok(r) => r,
                 Err(e) => {
                     #error_handling
@@ -256,7 +258,7 @@ fn marshal_arg(
                 let len_name = names.func_len_binding(&param.name);
                 let name = names.func_param(&param.name);
                 quote! {
-                    let #name = #rt::GuestPtr::<#lifetime, str>::new(memory, (#ptr_name as u32, #len_name as u32));
+                    let #name = #rt::GuestPtr::<#lifetime, str>::new(memory, bc, (#ptr_name as u32, #len_name as u32));
                 }
             }
         },
@@ -264,7 +266,7 @@ fn marshal_arg(
             let pointee_type = names.type_ref(pointee, anon_lifetime());
             let name = names.func_param(&param.name);
             quote! {
-                let #name = #rt::GuestPtr::<#pointee_type>::new(memory, #name as u32);
+                let #name = #rt::GuestPtr::<#pointee_type>::new(memory, bc, #name as u32);
             }
         }
         witx::Type::Struct(_) => read_conversion,
@@ -274,7 +276,7 @@ fn marshal_arg(
             let len_name = names.func_len_binding(&param.name);
             let name = names.func_param(&param.name);
             quote! {
-                let #name = #rt::GuestPtr::<[#pointee_type]>::new(memory, (#ptr_name as u32, #len_name as u32));
+                let #name = #rt::GuestPtr::<[#pointee_type]>::new(memory, bc, (#ptr_name as u32, #len_name as u32));
             }
         }
         witx::Type::Union(_u) => read_conversion,
@@ -303,7 +305,7 @@ where
         let ptr_name = names.func_ptr_binding(&result.name);
         let ptr_err_handling = error_handling(&format!("{}:result_ptr_mut", result.name.as_str()));
         let pre = quote! {
-            let #ptr_name = #rt::GuestPtr::<#pointee_type>::new(memory, #ptr_name as u32);
+            let #ptr_name = #rt::GuestPtr::<#pointee_type>::new(memory, bc, #ptr_name as u32);
         };
         // trait binding returns func_param name.
         let val_name = names.func_param(&result.name);

crates/wiggle/src/borrow.rs

@@ -1,64 +1,67 @@
+use crate::error::GuestError;
 use crate::region::Region;
-use crate::{GuestError, GuestPtr, GuestType};
+use std::cell::RefCell;
+use std::collections::HashMap;
 
-#[derive(Debug)]
+#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
-pub struct GuestBorrows {
+pub struct BorrowHandle(usize);
-    borrows: Vec<Region>,
+
+pub struct BorrowChecker {
+    bc: RefCell<InnerBorrowChecker>,
 }
 
-impl GuestBorrows {
+impl BorrowChecker {
     pub fn new() -> Self {
-        Self {
+        BorrowChecker {
-            borrows: Vec::new(),
+            bc: RefCell::new(InnerBorrowChecker::new()),
+        }
+    }
+    pub fn borrow(&self, r: Region) -> Result<BorrowHandle, GuestError> {
+        self.bc
+            .borrow_mut()
+            .borrow(r)
+            .ok_or_else(|| GuestError::PtrBorrowed(r))
+    }
+    pub fn unborrow(&self, h: BorrowHandle) {
+        self.bc.borrow_mut().unborrow(h)
+    }
+}
+
+#[derive(Debug)]
+struct InnerBorrowChecker {
+    borrows: HashMap<BorrowHandle, Region>,
+    next_handle: BorrowHandle,
+}
+
+impl InnerBorrowChecker {
+    fn new() -> Self {
+        InnerBorrowChecker {
+            borrows: HashMap::new(),
+            next_handle: BorrowHandle(0),
         }
     }
 
     fn is_borrowed(&self, r: Region) -> bool {
-        !self.borrows.iter().all(|b| !b.overlaps(r))
+        !self.borrows.values().all(|b| !b.overlaps(r))
     }
 
-    pub(crate) fn borrow(&mut self, r: Region) -> Result<(), GuestError> {
+    fn new_handle(&mut self) -> BorrowHandle {
+        let h = self.next_handle;
+        self.next_handle = BorrowHandle(h.0 + 1);
+        h
+    }
+
+    fn borrow(&mut self, r: Region) -> Option<BorrowHandle> {
         if self.is_borrowed(r) {
-            Err(GuestError::PtrBorrowed(r))
+            return None;
-        } else {
-            self.borrows.push(r);
-            Ok(())
         }
+        let h = self.new_handle();
+        self.borrows.insert(h, r);
+        Some(h)
     }
 
-    /// Borrow the region of memory pointed to by a `GuestPtr`. This is required for safety if
+    fn unborrow(&mut self, h: BorrowHandle) {
-    /// you are dereferencing `GuestPtr`s while holding a reference to a slice via
+        let _ = self.borrows.remove(&h);
-    /// `GuestPtr::as_raw`.
-    pub fn borrow_pointee<'a, T>(&mut self, p: &GuestPtr<'a, T>) -> Result<(), GuestError>
-    where
-        T: GuestType<'a>,
-    {
-        self.borrow(Region {
-            start: p.offset(),
-            len: T::guest_size(),
-        })
-    }
-
-    /// Borrow the slice of memory pointed to by a `GuestPtr<[T]>`. This is required for safety if
-    /// you are dereferencing the `GuestPtr`s while holding a reference to another slice via
-    /// `GuestPtr::as_raw`. Not required if using `GuestPtr::as_raw` on this pointer.
-    pub fn borrow_slice<'a, T>(&mut self, p: &GuestPtr<'a, [T]>) -> Result<(), GuestError>
-    where
-        T: GuestType<'a>,
-    {
-        let (start, elems) = p.offset();
-        let len = T::guest_size()
-            .checked_mul(elems)
-            .ok_or_else(|| GuestError::PtrOverflow)?;
-        self.borrow(Region { start, len })
-    }
-
-    /// Borrow the slice of memory pointed to by a `GuestPtr<str>`. This is required for safety if
-    /// you are dereferencing the `GuestPtr`s while holding a reference to another slice via
-    /// `GuestPtr::as_raw`. Not required if using `GuestPtr::as_raw` on this pointer.
-    pub fn borrow_str(&mut self, p: &GuestPtr<str>) -> Result<(), GuestError> {
-        let (start, len) = p.offset();
-        self.borrow(Region { start, len })
     }
 }
 
@@ -67,14 +70,14 @@ mod test {
     use super::*;
     #[test]
     fn nonoverlapping() {
-        let mut bs = GuestBorrows::new();
+        let mut bs = InnerBorrowChecker::new();
         let r1 = Region::new(0, 10);
         let r2 = Region::new(10, 10);
         assert!(!r1.overlaps(r2));
         bs.borrow(r1).expect("can borrow r1");
         bs.borrow(r2).expect("can borrow r2");
 
-        let mut bs = GuestBorrows::new();
+        let mut bs = InnerBorrowChecker::new();
         let r1 = Region::new(10, 10);
         let r2 = Region::new(0, 10);
         assert!(!r1.overlaps(r2));
@@ -84,35 +87,35 @@ mod test {
 
     #[test]
     fn overlapping() {
-        let mut bs = GuestBorrows::new();
+        let mut bs = InnerBorrowChecker::new();
         let r1 = Region::new(0, 10);
         let r2 = Region::new(9, 10);
         assert!(r1.overlaps(r2));
         bs.borrow(r1).expect("can borrow r1");
-        assert!(bs.borrow(r2).is_err(), "cant borrow r2");
+        assert!(bs.borrow(r2).is_none(), "cant borrow r2");
 
-        let mut bs = GuestBorrows::new();
+        let mut bs = InnerBorrowChecker::new();
         let r1 = Region::new(0, 10);
         let r2 = Region::new(2, 5);
         assert!(r1.overlaps(r2));
         bs.borrow(r1).expect("can borrow r1");
-        assert!(bs.borrow(r2).is_err(), "cant borrow r2");
+        assert!(bs.borrow(r2).is_none(), "cant borrow r2");
 
-        let mut bs = GuestBorrows::new();
+        let mut bs = InnerBorrowChecker::new();
         let r1 = Region::new(9, 10);
         let r2 = Region::new(0, 10);
         assert!(r1.overlaps(r2));
         bs.borrow(r1).expect("can borrow r1");
-        assert!(bs.borrow(r2).is_err(), "cant borrow r2");
+        assert!(bs.borrow(r2).is_none(), "cant borrow r2");
 
-        let mut bs = GuestBorrows::new();
+        let mut bs = InnerBorrowChecker::new();
         let r1 = Region::new(2, 5);
         let r2 = Region::new(0, 10);
         assert!(r1.overlaps(r2));
         bs.borrow(r1).expect("can borrow r1");
-        assert!(bs.borrow(r2).is_err(), "cant borrow r2");
+        assert!(bs.borrow(r2).is_none(), "cant borrow r2");
 
-        let mut bs = GuestBorrows::new();
+        let mut bs = InnerBorrowChecker::new();
         let r1 = Region::new(2, 5);
         let r2 = Region::new(10, 5);
         let r3 = Region::new(15, 5);
@@ -121,6 +124,23 @@ mod test {
         bs.borrow(r1).expect("can borrow r1");
         bs.borrow(r2).expect("can borrow r2");
         bs.borrow(r3).expect("can borrow r3");
-        assert!(bs.borrow(r4).is_err(), "cant borrow r4");
+        assert!(bs.borrow(r4).is_none(), "cant borrow r4");
+    }
+
+    #[test]
+    fn unborrowing() {
+        let mut bs = InnerBorrowChecker::new();
+        let r1 = Region::new(0, 10);
+        let r2 = Region::new(10, 10);
+        assert!(!r1.overlaps(r2));
+        let _h1 = bs.borrow(r1).expect("can borrow r1");
+        let h2 = bs.borrow(r2).expect("can borrow r2");
+
+        assert!(bs.borrow(r2).is_none(), "can't borrow r2 twice");
+        bs.unborrow(h2);
+
+        let _h3 = bs
+            .borrow(r2)
+            .expect("can borrow r2 again now that its been unborrowed");
     }
 }

crates/wiggle/src/guest_type.rs

@@ -131,7 +131,7 @@ impl<'a, T> GuestType<'a> for GuestPtr<'a, T> {
 
     fn read(ptr: &GuestPtr<'a, Self>) -> Result<Self, GuestError> {
         let offset = ptr.cast::<u32>().read()?;
-        Ok(GuestPtr::new(ptr.mem(), offset))
+        Ok(GuestPtr::new(ptr.mem(), ptr.borrow_checker(), offset))
     }
 
     fn write(ptr: &GuestPtr<'_, Self>, val: Self) -> Result<(), GuestError> {

crates/wiggle/src/lib.rs

@@ -16,7 +16,8 @@ mod error;
 mod guest_type;
 mod region;
 
-pub use borrow::GuestBorrows;
+pub use borrow::BorrowChecker;
+use borrow::BorrowHandle;
 pub use error::GuestError;
 pub use guest_type::{GuestErrorType, GuestType, GuestTypeTransparent};
 pub use region::Region;
@@ -150,12 +151,12 @@ pub unsafe trait GuestMemory {
     /// Note that `T` can be almost any type, and typically `offset` is a `u32`.
     /// The exception is slices and strings, in which case `offset` is a `(u32,
     /// u32)` of `(offset, length)`.
-    fn ptr<'a, T>(&'a self, offset: T::Pointer) -> GuestPtr<'a, T>
+    fn ptr<'a, T>(&'a self, bc: &'a BorrowChecker, offset: T::Pointer) -> GuestPtr<'a, T>
     where
         Self: Sized,
         T: ?Sized + Pointee,
     {
-        GuestPtr::new(self, offset)
+        GuestPtr::new(self, bc, offset)
     }
 }
 
@@ -237,6 +238,7 @@ unsafe impl<T: ?Sized + GuestMemory> GuestMemory for Arc<T> {
 /// already-attached helper methods.
 pub struct GuestPtr<'a, T: ?Sized + Pointee> {
     mem: &'a (dyn GuestMemory + 'a),
+    bc: &'a BorrowChecker,
     pointer: T::Pointer,
     _marker: marker::PhantomData<&'a Cell<T>>,
 }
@@ -247,9 +249,14 @@ impl<'a, T: ?Sized + Pointee> GuestPtr<'a, T> {
     /// Note that for sized types like `u32`, `GuestPtr<T>`, etc, the `pointer`
     /// vlue is a `u32` offset into guest memory. For slices and strings,
     /// `pointer` is a `(u32, u32)` offset/length pair.
-    pub fn new(mem: &'a (dyn GuestMemory + 'a), pointer: T::Pointer) -> GuestPtr<'_, T> {
+    pub fn new(
+        mem: &'a (dyn GuestMemory + 'a),
+        bc: &'a BorrowChecker,
+        pointer: T::Pointer,
+    ) -> GuestPtr<'a, T> {
         GuestPtr {
             mem,
+            bc,
             pointer,
             _marker: marker::PhantomData,
         }
@@ -268,6 +275,11 @@ impl<'a, T: ?Sized + Pointee> GuestPtr<'a, T> {
         self.mem
     }
 
+    /// Returns the borrow checker that this pointer uses
+    pub fn borrow_checker(&self) -> &'a BorrowChecker {
+        self.bc
+    }
+
     /// Casts this `GuestPtr` type to a different type.
     ///
     /// This is a safe method which is useful for simply reinterpreting the type
@@ -278,7 +290,7 @@ impl<'a, T: ?Sized + Pointee> GuestPtr<'a, T> {
     where
         T: Pointee<Pointer = u32>,
     {
-        GuestPtr::new(self.mem, self.pointer)
+        GuestPtr::new(self.mem, self.bc, self.pointer)
     }
 
     /// Safely read a value from this pointer.
@@ -345,7 +357,7 @@ impl<'a, T: ?Sized + Pointee> GuestPtr<'a, T> {
             Some(o) => o,
             None => return Err(GuestError::PtrOverflow),
         };
-        Ok(GuestPtr::new(self.mem, offset))
+        Ok(GuestPtr::new(self.mem, self.bc, offset))
     }
 
     /// Returns a `GuestPtr` for an array of `T`s using this pointer as the
@@ -354,7 +366,7 @@ impl<'a, T: ?Sized + Pointee> GuestPtr<'a, T> {
     where
         T: GuestType<'a> + Pointee<Pointer = u32>,
     {
-        GuestPtr::new(self.mem, (self.pointer, elems))
+        GuestPtr::new(self.mem, self.bc, (self.pointer, elems))
     }
 }
 
@@ -403,7 +415,7 @@ impl<'a, T> GuestPtr<'a, [T]> {
     /// For safety against overlapping mutable borrows, the user must use the
     /// same `GuestBorrows` to create all `*mut str` or `*mut [T]` that are alive
     /// at the same time.
-    pub fn as_raw(&self, bc: &mut GuestBorrows) -> Result<*mut [T], GuestError>
+    pub fn as_slice(&self) -> Result<GuestSlice<'a, T>, GuestError>
     where
         T: GuestTypeTransparent<'a>,
     {
@@ -415,7 +427,7 @@ impl<'a, T> GuestPtr<'a, [T]> {
             self.mem
                 .validate_size_align(self.pointer.0, T::guest_align(), len)? as *mut T;
 
-        bc.borrow(Region {
+        let borrow = self.bc.borrow(Region {
             start: self.pointer.0,
             len,
         })?;
@@ -428,10 +440,16 @@ impl<'a, T> GuestPtr<'a, [T]> {
 
         // SAFETY: iff there are no overlapping borrows (all uses of as_raw use this same
         // GuestBorrows), its valid to construct a *mut [T]
-        unsafe {
+        let ptr = unsafe {
             let s = slice::from_raw_parts_mut(ptr, self.pointer.1 as usize);
-            Ok(s as *mut [T])
+            s as *mut [T]
-        }
+        };
+
+        Ok(GuestSlice {
+            ptr,
+            bc: self.bc,
+            borrow,
+        })
     }
 
     /// Copies the data pointed to by `slice` into this guest region.
@@ -451,22 +469,20 @@ impl<'a, T> GuestPtr<'a, [T]> {
         T: GuestTypeTransparent<'a> + Copy,
     {
         // bounds check ...
-        let raw = self.as_raw(&mut GuestBorrows::new())?;
+        let mut self_slice = self.as_slice()?;
-        unsafe {
         // ... length check ...
-            if (*raw).len() != slice.len() {
+        if self_slice.len() != slice.len() {
             return Err(GuestError::SliceLengthsDiffer);
         }
         // ... and copy!
-            (*raw).copy_from_slice(slice);
+        self_slice.copy_from_slice(slice);
         Ok(())
     }
-    }
 
     /// Returns a `GuestPtr` pointing to the base of the array for the interior
     /// type `T`.
     pub fn as_ptr(&self) -> GuestPtr<'a, T> {
-        GuestPtr::new(self.mem, self.offset_base())
+        GuestPtr::new(self.mem, self.bc, self.offset_base())
     }
 }
 
@@ -485,7 +501,7 @@ impl<'a> GuestPtr<'a, str> {
     /// Returns a raw pointer for the underlying slice of bytes that this
     /// pointer points to.
     pub fn as_bytes(&self) -> GuestPtr<'a, [u8]> {
-        GuestPtr::new(self.mem, self.pointer)
+        GuestPtr::new(self.mem, self.bc, self.pointer)
     }
 
     /// Attempts to read a raw `*mut str` pointer from this pointer, performing
@@ -505,27 +521,29 @@ impl<'a> GuestPtr<'a, str> {
     /// For safety against overlapping mutable borrows, the user must use the
     /// same `GuestBorrows` to create all `*mut str` or `*mut [T]` that are
     /// alive at the same time.
-    pub fn as_raw(&self, bc: &mut GuestBorrows) -> Result<*mut str, GuestError> {
+    pub fn as_str(&self) -> Result<GuestStr<'a>, GuestError> {
         let ptr = self
             .mem
             .validate_size_align(self.pointer.0, 1, self.pointer.1)?;
 
-        bc.borrow(Region {
+        let borrow = self.bc.borrow(Region {
             start: self.pointer.0,
             len: self.pointer.1,
         })?;
 
         // SAFETY: iff there are no overlapping borrows (all uses of as_raw use this same
         // GuestBorrows), its valid to construct a *mut str
-        unsafe {
+        let ptr = unsafe { slice::from_raw_parts_mut(ptr, self.pointer.1 as usize) };
-            let s = slice::from_raw_parts_mut(ptr, self.pointer.1 as usize);
+        match str::from_utf8_mut(ptr) {
-            match str::from_utf8_mut(s) {
+            Ok(ptr) => Ok(GuestStr {
-                Ok(s) => Ok(s),
+                ptr,
+                bc: self.bc,
+                borrow,
+            }),
             Err(e) => Err(GuestError::InvalidUtf8(e)),
         }
     }
 }
-}
 
 impl<T: ?Sized + Pointee> Clone for GuestPtr<'_, T> {
     fn clone(&self) -> Self {
@@ -541,6 +559,56 @@ impl<T: ?Sized + Pointee> fmt::Debug for GuestPtr<'_, T> {
     }
 }
 
+pub struct GuestSlice<'a, T> {
+    ptr: *mut [T],
+    bc: &'a BorrowChecker,
+    borrow: BorrowHandle,
+}
+
+impl<'a, T> std::ops::Deref for GuestSlice<'a, T> {
+    type Target = [T];
+    fn deref(&self) -> &Self::Target {
+        unsafe { self.ptr.as_ref().expect("ptr guaranteed to be non-null") }
+    }
+}
+
+impl<'a, T> std::ops::DerefMut for GuestSlice<'a, T> {
+    fn deref_mut(&mut self) -> &mut Self::Target {
+        unsafe { self.ptr.as_mut().expect("ptr guaranteed to be non-null") }
+    }
+}
+
+impl<'a, T> Drop for GuestSlice<'a, T> {
+    fn drop(&mut self) {
+        self.bc.unborrow(self.borrow)
+    }
+}
+
+pub struct GuestStr<'a> {
+    ptr: *mut str,
+    bc: &'a BorrowChecker,
+    borrow: BorrowHandle,
+}
+
+impl<'a> std::ops::Deref for GuestStr<'a> {
+    type Target = str;
+    fn deref(&self) -> &Self::Target {
+        unsafe { self.ptr.as_ref().expect("ptr guaranteed to be non-null") }
+    }
+}
+
+impl<'a> std::ops::DerefMut for GuestStr<'a> {
+    fn deref_mut(&mut self) -> &mut Self::Target {
+        unsafe { self.ptr.as_mut().expect("ptr guaranteed to be non-null") }
+    }
+}
+
+impl<'a> Drop for GuestStr<'a> {
+    fn drop(&mut self) {
+        self.bc.unborrow(self.borrow)
+    }
+}
+
 mod private {
     pub trait Sealed {}
     impl<T> Sealed for T {}

crates/wiggle/tests/arrays.rs

@@ -1,5 +1,5 @@
 use proptest::prelude::*;
-use wiggle::{GuestMemory, GuestPtr};
+use wiggle::{BorrowChecker, GuestMemory, GuestPtr};
 use wiggle_test::{impl_errno, HostMemory, MemArea, WasiCtx};
 
 wiggle::from_witx!({
@@ -75,31 +75,35 @@ impl ReduceExcusesExcercise {
     }
 
     pub fn test(&self) {
-        let mut ctx = WasiCtx::new();
+        let ctx = WasiCtx::new();
-        let mut host_memory = HostMemory::new();
+        let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         // Populate memory with pointers to generated Excuse values
         for (&excuse, ptr) in self.excuse_values.iter().zip(self.excuse_ptr_locs.iter()) {
             host_memory
-                .ptr(ptr.ptr)
+                .ptr(&bc, ptr.ptr)
                 .write(excuse)
                 .expect("deref ptr mut to Excuse value");
         }
 
         // Populate the array with pointers to generated Excuse values
         {
-            let array: GuestPtr<'_, [GuestPtr<types::Excuse>]> =
+            let array: GuestPtr<'_, [GuestPtr<types::Excuse>]> = host_memory.ptr(
-                host_memory.ptr((self.array_ptr_loc.ptr, self.excuse_ptr_locs.len() as u32));
+                &bc,
+                (self.array_ptr_loc.ptr, self.excuse_ptr_locs.len() as u32),
+            );
             for (slot, ptr) in array.iter().zip(&self.excuse_ptr_locs) {
                 let slot = slot.expect("array should be in bounds");
-                slot.write(host_memory.ptr(ptr.ptr))
+                slot.write(host_memory.ptr(&bc, ptr.ptr))
                     .expect("should succeed in writing array");
             }
         }
 
         let res = arrays::reduce_excuses(
-            &mut ctx,
+            &ctx,
-            &mut host_memory,
+            &host_memory,
+            &bc,
             self.array_ptr_loc.ptr as i32,
             self.excuse_ptr_locs.len() as i32,
             self.return_ptr_loc.ptr as i32,
@@ -112,7 +116,7 @@ impl ReduceExcusesExcercise {
             .last()
             .expect("generated vec of excuses should be non-empty");
         let given: types::Excuse = host_memory
-            .ptr(self.return_ptr_loc.ptr)
+            .ptr(&bc, self.return_ptr_loc.ptr)
             .read()
             .expect("deref ptr to returned value");
         assert_eq!(expected, given, "reduce excuses return val");
@@ -165,28 +169,30 @@ impl PopulateExcusesExcercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         // Populate array with valid pointers to Excuse type in memory
-        let ptr = host_memory.ptr::<[GuestPtr<'_, types::Excuse>]>((
+        let ptr = host_memory.ptr::<[GuestPtr<'_, types::Excuse>]>(
-            self.array_ptr_loc.ptr,
+            &bc,
-            self.elements.len() as u32,
+            (self.array_ptr_loc.ptr, self.elements.len() as u32),
-        ));
+        );
         for (ptr, val) in ptr.iter().zip(&self.elements) {
             ptr.expect("should be valid pointer")
-                .write(host_memory.ptr(val.ptr))
+                .write(host_memory.ptr(&bc, val.ptr))
                 .expect("failed to write value");
         }
 
         let res = arrays::populate_excuses(
             &ctx,
             &host_memory,
+            &bc,
             self.array_ptr_loc.ptr as i32,
             self.elements.len() as i32,
         );
         assert_eq!(res, types::Errno::Ok.into(), "populate excuses errno");
 
         let arr: GuestPtr<'_, [GuestPtr<'_, types::Excuse>]> =
-            host_memory.ptr((self.array_ptr_loc.ptr, self.elements.len() as u32));
+            host_memory.ptr(&bc, (self.array_ptr_loc.ptr, self.elements.len() as u32));
         for el in arr.iter() {
             let ptr_to_ptr = el
                 .expect("valid ptr to ptr")

crates/wiggle/tests/atoms.rs

@@ -1,5 +1,5 @@
 use proptest::prelude::*;
-use wiggle::GuestMemory;
+use wiggle::{BorrowChecker, GuestMemory};
 use wiggle_test::{impl_errno, HostMemory, MemArea, WasiCtx};
 
 wiggle::from_witx!({
@@ -31,8 +31,9 @@ impl IntFloatExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
-        let e = atoms::int_float_args(&ctx, &host_memory, self.an_int as i32, self.an_float);
+        let e = atoms::int_float_args(&ctx, &host_memory, &bc, self.an_int as i32, self.an_float);
 
         assert_eq!(e, types::Errno::Ok.into(), "int_float_args error");
     }
@@ -60,16 +61,18 @@ impl DoubleIntExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         let e = atoms::double_int_return_float(
             &ctx,
             &host_memory,
+            &bc,
             self.input as i32,
             self.return_loc.ptr as i32,
         );
 
         let return_val = host_memory
-            .ptr::<types::AliasToFloat>(self.return_loc.ptr)
+            .ptr::<types::AliasToFloat>(&bc, self.return_loc.ptr)
             .read()
             .expect("failed to read return");
         assert_eq!(e, types::Errno::Ok.into(), "errno");

crates/wiggle/tests/flags.rs

@@ -1,6 +1,6 @@
 use proptest::prelude::*;
 use std::convert::TryFrom;
-use wiggle::{GuestMemory, GuestPtr};
+use wiggle::{BorrowChecker, GuestMemory, GuestPtr};
 use wiggle_test::{impl_errno, HostMemory, MemArea, WasiCtx};
 
 wiggle::from_witx!({
@@ -65,16 +65,18 @@ impl ConfigureCarExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         // Populate input ptr
         host_memory
-            .ptr(self.other_config_by_ptr.ptr)
+            .ptr(&bc, self.other_config_by_ptr.ptr)
             .write(self.other_config)
             .expect("deref ptr mut to CarConfig");
 
         let res = flags::configure_car(
             &ctx,
             &host_memory,
+            &bc,
             self.old_config.into(),
             self.other_config_by_ptr.ptr as i32,
             self.return_ptr_loc.ptr as i32,
@@ -82,7 +84,7 @@ impl ConfigureCarExercise {
         assert_eq!(res, types::Errno::Ok.into(), "configure car errno");
 
         let res_config = host_memory
-            .ptr::<types::CarConfig>(self.return_ptr_loc.ptr)
+            .ptr::<types::CarConfig>(&bc, self.return_ptr_loc.ptr)
             .read()
             .expect("deref to CarConfig value");
 

crates/wiggle/tests/handles.rs

@@ -1,5 +1,5 @@
 use proptest::prelude::*;
-use wiggle::{GuestMemory, GuestType};
+use wiggle::{BorrowChecker, GuestMemory, GuestType};
 use wiggle_test::{impl_errno, HostMemory, MemArea, WasiCtx};
 
 const FD_VAL: u32 = 123;
@@ -34,23 +34,24 @@ impl HandleExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
-        let e = handle_examples::fd_create(&ctx, &host_memory, self.return_loc.ptr as i32);
+        let e = handle_examples::fd_create(&ctx, &host_memory, &bc, self.return_loc.ptr as i32);
 
         assert_eq!(e, types::Errno::Ok.into(), "fd_create error");
 
         let h_got: u32 = host_memory
-            .ptr(self.return_loc.ptr)
+            .ptr(&bc, self.return_loc.ptr)
             .read()
             .expect("return ref_mut");
 
         assert_eq!(h_got, 123, "fd_create return val");
 
-        let e = handle_examples::fd_consume(&ctx, &host_memory, h_got as i32);
+        let e = handle_examples::fd_consume(&ctx, &host_memory, &bc, h_got as i32);
 
         assert_eq!(e, types::Errno::Ok.into(), "fd_consume error");
 
-        let e = handle_examples::fd_consume(&ctx, &host_memory, h_got as i32 + 1);
+        let e = handle_examples::fd_consume(&ctx, &host_memory, &bc, h_got as i32 + 1);
 
         assert_eq!(
             e,

crates/wiggle/tests/ints.rs

@@ -1,6 +1,6 @@
 use proptest::prelude::*;
 use std::convert::TryFrom;
-use wiggle::GuestMemory;
+use wiggle::{BorrowChecker, GuestMemory};
 use wiggle_test::{impl_errno, HostMemory, MemArea, WasiCtx};
 
 wiggle::from_witx!({
@@ -46,17 +46,19 @@ impl CookieCutterExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         let res = ints::cookie_cutter(
             &ctx,
             &host_memory,
+            &bc,
             self.cookie.into(),
             self.return_ptr_loc.ptr as i32,
         );
         assert_eq!(res, types::Errno::Ok.into(), "cookie cutter errno");
 
         let is_cookie_start = host_memory
-            .ptr::<types::Bool>(self.return_ptr_loc.ptr)
+            .ptr::<types::Bool>(&bc, self.return_ptr_loc.ptr)
             .read()
             .expect("deref to Bool value");
 

crates/wiggle/tests/pointers.rs

@@ -1,5 +1,5 @@
 use proptest::prelude::*;
-use wiggle::{GuestMemory, GuestPtr};
+use wiggle::{BorrowChecker, GuestMemory, GuestPtr};
 use wiggle_test::{impl_errno, HostMemory, MemArea, WasiCtx};
 
 wiggle::from_witx!({
@@ -128,30 +128,32 @@ impl PointersAndEnumsExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         host_memory
-            .ptr(self.input2_loc.ptr)
+            .ptr(&bc, self.input2_loc.ptr)
             .write(self.input2)
             .expect("input2 ref_mut");
 
         host_memory
-            .ptr(self.input3_loc.ptr)
+            .ptr(&bc, self.input3_loc.ptr)
             .write(self.input3)
             .expect("input3 ref_mut");
 
         host_memory
-            .ptr(self.input4_loc.ptr)
+            .ptr(&bc, self.input4_loc.ptr)
             .write(self.input4)
             .expect("input4 ref_mut");
 
         host_memory
-            .ptr(self.input4_ptr_loc.ptr)
+            .ptr(&bc, self.input4_ptr_loc.ptr)
             .write(self.input4_loc.ptr)
             .expect("input4 ptr ref_mut");
 
         let e = pointers::pointers_and_enums(
             &ctx,
             &host_memory,
+            &bc,
             self.input1.into(),
             self.input2_loc.ptr as i32,
             self.input3_loc.ptr as i32,
@@ -161,7 +163,7 @@ impl PointersAndEnumsExercise {
 
         // Implementation of pointers_and_enums writes input3 to the input2_loc:
         let written_to_input2_loc: i32 = host_memory
-            .ptr(self.input2_loc.ptr)
+            .ptr(&bc, self.input2_loc.ptr)
             .read()
             .expect("input2 ref");
 
@@ -173,7 +175,7 @@ impl PointersAndEnumsExercise {
 
         // Implementation of pointers_and_enums writes input2_loc to input4_ptr_loc:
         let written_to_input4_ptr: u32 = host_memory
-            .ptr(self.input4_ptr_loc.ptr)
+            .ptr(&bc, self.input4_ptr_loc.ptr)
             .read()
             .expect("input4_ptr_loc ref");
 

crates/wiggle/tests/strings.rs

@@ -1,5 +1,5 @@
 use proptest::prelude::*;
-use wiggle::{GuestBorrows, GuestMemory, GuestPtr};
+use wiggle::{BorrowChecker, GuestMemory, GuestPtr};
 use wiggle_test::{impl_errno, HostMemory, MemArea, MemAreas, WasiCtx};
 
 wiggle::from_witx!({
@@ -11,12 +11,9 @@ impl_errno!(types::Errno, types::GuestErrorConversion);
 
 impl<'a> strings::Strings for WasiCtx<'a> {
     fn hello_string(&self, a_string: &GuestPtr<str>) -> Result<u32, types::Errno> {
-        let mut bc = GuestBorrows::new();
+        let s = a_string.as_str().expect("should be valid string");
-        let s = a_string.as_raw(&mut bc).expect("should be valid string");
-        unsafe {
         println!("a_string='{}'", &*s);
-            Ok((*s).len() as u32)
+        Ok(s.len() as u32)
-        }
     }
 
     fn multi_string(
@@ -25,12 +22,10 @@ impl<'a> strings::Strings for WasiCtx<'a> {
         b: &GuestPtr<str>,
         c: &GuestPtr<str>,
     ) -> Result<u32, types::Errno> {
-        let mut bc = GuestBorrows::new();
+        let sa = a.as_str().expect("A should be valid string");
-        let sa = a.as_raw(&mut bc).expect("A should be valid string");
+        let sb = b.as_str().expect("B should be valid string");
-        let sb = b.as_raw(&mut bc).expect("B should be valid string");
+        let sc = c.as_str().expect("C should be valid string");
-        let sc = c.as_raw(&mut bc).expect("C should be valid string");
+        let total_len = sa.len() + sb.len() + sc.len();
-        unsafe {
-            let total_len = (&*sa).len() + (&*sb).len() + (&*sc).len();
         println!(
             "len={}, a='{}', b='{}', c='{}'",
             total_len, &*sa, &*sb, &*sc
@@ -38,7 +33,6 @@ impl<'a> strings::Strings for WasiCtx<'a> {
         Ok(total_len as u32)
     }
 }
-}
 
 fn test_string_strategy() -> impl Strategy<Value = String> {
     "\\p{Greek}{1,256}"
@@ -75,9 +69,11 @@ impl HelloStringExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         // Populate string in guest's memory
-        let ptr = host_memory.ptr::<str>((self.string_ptr_loc.ptr, self.test_word.len() as u32));
+        let ptr =
+            host_memory.ptr::<str>(&bc, (self.string_ptr_loc.ptr, self.test_word.len() as u32));
         for (slot, byte) in ptr.as_bytes().iter().zip(self.test_word.bytes()) {
             slot.expect("should be valid pointer")
                 .write(byte)
@@ -87,6 +83,7 @@ impl HelloStringExercise {
         let res = strings::hello_string(
             &ctx,
             &host_memory,
+            &bc,
             self.string_ptr_loc.ptr as i32,
             self.test_word.len() as i32,
             self.return_ptr_loc.ptr as i32,
@@ -94,7 +91,7 @@ impl HelloStringExercise {
         assert_eq!(res, types::Errno::Ok.into(), "hello string errno");
 
         let given = host_memory
-            .ptr::<u32>(self.return_ptr_loc.ptr)
+            .ptr::<u32>(&bc, self.return_ptr_loc.ptr)
             .read()
             .expect("deref ptr to return value");
         assert_eq!(self.test_word.len() as u32, given);
@@ -181,9 +178,10 @@ impl MultiStringExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         let write_string = |val: &str, loc: MemArea| {
-            let ptr = host_memory.ptr::<str>((loc.ptr, val.len() as u32));
+            let ptr = host_memory.ptr::<str>(&bc, (loc.ptr, val.len() as u32));
             for (slot, byte) in ptr.as_bytes().iter().zip(val.bytes()) {
                 slot.expect("should be valid pointer")
                     .write(byte)
@@ -198,6 +196,7 @@ impl MultiStringExercise {
         let res = strings::multi_string(
             &ctx,
             &host_memory,
+            &bc,
             self.sa_ptr_loc.ptr as i32,
             self.a.len() as i32,
             self.sb_ptr_loc.ptr as i32,
@@ -209,7 +208,7 @@ impl MultiStringExercise {
         assert_eq!(res, types::Errno::Ok.into(), "multi string errno");
 
         let given = host_memory
-            .ptr::<u32>(self.return_ptr_loc.ptr)
+            .ptr::<u32>(&bc, self.return_ptr_loc.ptr)
             .read()
             .expect("deref ptr to return value");
         assert_eq!((self.a.len() + self.b.len() + self.c.len()) as u32, given);

crates/wiggle/tests/structs.rs

@@ -1,5 +1,5 @@
 use proptest::prelude::*;
-use wiggle::{GuestMemory, GuestPtr};
+use wiggle::{BorrowChecker, GuestMemory, GuestPtr};
 use wiggle_test::{impl_errno, HostMemory, MemArea, WasiCtx};
 
 wiggle::from_witx!({
@@ -83,18 +83,20 @@ impl SumOfPairExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         host_memory
-            .ptr(self.input_loc.ptr)
+            .ptr(&bc, self.input_loc.ptr)
             .write(self.input.first)
             .expect("input ref_mut");
         host_memory
-            .ptr(self.input_loc.ptr + 4)
+            .ptr(&bc, self.input_loc.ptr + 4)
             .write(self.input.second)
             .expect("input ref_mut");
         let sum_err = structs::sum_of_pair(
             &ctx,
             &host_memory,
+            &bc,
             self.input_loc.ptr as i32,
             self.return_loc.ptr as i32,
         );
@@ -102,7 +104,7 @@ impl SumOfPairExercise {
         assert_eq!(sum_err, types::Errno::Ok.into(), "sum errno");
 
         let return_val: i64 = host_memory
-            .ptr(self.return_loc.ptr)
+            .ptr(&bc, self.return_loc.ptr)
             .read()
             .expect("return ref");
 
@@ -171,28 +173,30 @@ impl SumPairPtrsExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         host_memory
-            .ptr(self.input_first_loc.ptr)
+            .ptr(&bc, self.input_first_loc.ptr)
             .write(self.input_first)
             .expect("input_first ref");
         host_memory
-            .ptr(self.input_second_loc.ptr)
+            .ptr(&bc, self.input_second_loc.ptr)
             .write(self.input_second)
             .expect("input_second ref");
 
         host_memory
-            .ptr(self.input_struct_loc.ptr)
+            .ptr(&bc, self.input_struct_loc.ptr)
             .write(self.input_first_loc.ptr)
             .expect("input_struct ref");
         host_memory
-            .ptr(self.input_struct_loc.ptr + 4)
+            .ptr(&bc, self.input_struct_loc.ptr + 4)
             .write(self.input_second_loc.ptr)
             .expect("input_struct ref");
 
         let res = structs::sum_of_pair_of_ptrs(
             &ctx,
             &host_memory,
+            &bc,
             self.input_struct_loc.ptr as i32,
             self.return_loc.ptr as i32,
         );
@@ -200,7 +204,7 @@ impl SumPairPtrsExercise {
         assert_eq!(res, types::Errno::Ok.into(), "sum of pair of ptrs errno");
 
         let doubled: i64 = host_memory
-            .ptr(self.return_loc.ptr)
+            .ptr(&bc, self.return_loc.ptr)
             .read()
             .expect("return ref");
 
@@ -255,23 +259,25 @@ impl SumIntAndPtrExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         host_memory
-            .ptr(self.input_first_loc.ptr)
+            .ptr(&bc, self.input_first_loc.ptr)
             .write(self.input_first)
             .expect("input_first ref");
         host_memory
-            .ptr(self.input_struct_loc.ptr)
+            .ptr(&bc, self.input_struct_loc.ptr)
             .write(self.input_first_loc.ptr)
             .expect("input_struct ref");
         host_memory
-            .ptr(self.input_struct_loc.ptr + 4)
+            .ptr(&bc, self.input_struct_loc.ptr + 4)
             .write(self.input_second)
             .expect("input_struct ref");
 
         let res = structs::sum_of_int_and_ptr(
             &ctx,
             &host_memory,
+            &bc,
             self.input_struct_loc.ptr as i32,
             self.return_loc.ptr as i32,
         );
@@ -279,7 +285,7 @@ impl SumIntAndPtrExercise {
         assert_eq!(res, types::Errno::Ok.into(), "sum of int and ptr errno");
 
         let doubled: i64 = host_memory
-            .ptr(self.return_loc.ptr)
+            .ptr(&bc, self.return_loc.ptr)
             .read()
             .expect("return ref");
 
@@ -312,13 +318,14 @@ impl ReturnPairInts {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
-        let err = structs::return_pair_ints(&ctx, &host_memory, self.return_loc.ptr as i32);
+        let err = structs::return_pair_ints(&ctx, &host_memory, &bc, self.return_loc.ptr as i32);
 
         assert_eq!(err, types::Errno::Ok.into(), "return struct errno");
 
         let return_struct: types::PairInts = host_memory
-            .ptr(self.return_loc.ptr)
+            .ptr(&bc, self.return_loc.ptr)
             .read()
             .expect("return ref");
 
@@ -377,19 +384,21 @@ impl ReturnPairPtrsExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         host_memory
-            .ptr(self.input_first_loc.ptr)
+            .ptr(&bc, self.input_first_loc.ptr)
             .write(self.input_first)
             .expect("input_first ref");
         host_memory
-            .ptr(self.input_second_loc.ptr)
+            .ptr(&bc, self.input_second_loc.ptr)
             .write(self.input_second)
             .expect("input_second ref");
 
         let res = structs::return_pair_of_ptrs(
             &ctx,
             &host_memory,
+            &bc,
             self.input_first_loc.ptr as i32,
             self.input_second_loc.ptr as i32,
             self.return_loc.ptr as i32,
@@ -398,7 +407,7 @@ impl ReturnPairPtrsExercise {
         assert_eq!(res, types::Errno::Ok.into(), "return pair of ptrs errno");
 
         let ptr_pair_int_ptrs: types::PairIntPtrs<'_> = host_memory
-            .ptr(self.return_loc.ptr)
+            .ptr(&bc, self.return_loc.ptr)
             .read()
             .expect("failed to read return location");
         let ret_first_ptr = ptr_pair_int_ptrs.first;

crates/wiggle/tests/union.rs

@@ -1,5 +1,5 @@
 use proptest::prelude::*;
-use wiggle::{GuestMemory, GuestType};
+use wiggle::{BorrowChecker, GuestMemory, GuestType};
 use wiggle_test::{impl_errno, HostMemory, MemArea, WasiCtx};
 
 wiggle::from_witx!({
@@ -107,21 +107,22 @@ impl GetTagExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         let discriminant: u8 = reason_tag(&self.input).into();
         host_memory
-            .ptr(self.input_loc.ptr)
+            .ptr(&bc, self.input_loc.ptr)
             .write(discriminant)
             .expect("input discriminant ptr");
         match self.input {
             types::Reason::DogAte(f) => {
                 host_memory
-                    .ptr(self.input_loc.ptr + 4)
+                    .ptr(&bc, self.input_loc.ptr + 4)
                     .write(f)
                     .expect("input contents ref_mut");
             }
             types::Reason::Traffic(v) => host_memory
-                .ptr(self.input_loc.ptr + 4)
+                .ptr(&bc, self.input_loc.ptr + 4)
                 .write(v)
                 .expect("input contents ref_mut"),
             types::Reason::Sleeping => {} // Do nothing
@@ -129,6 +130,7 @@ impl GetTagExercise {
         let e = union_example::get_tag(
             &ctx,
             &host_memory,
+            &bc,
             self.input_loc.ptr as i32,
             self.return_loc.ptr as i32,
         );
@@ -136,7 +138,7 @@ impl GetTagExercise {
         assert_eq!(e, types::Errno::Ok.into(), "get_tag errno");
 
         let return_val: types::Excuse = host_memory
-            .ptr(self.return_loc.ptr)
+            .ptr(&bc, self.return_loc.ptr)
             .read()
             .expect("return ref");
 
@@ -184,27 +186,28 @@ impl ReasonMultExercise {
     pub fn test(&self) {
         let ctx = WasiCtx::new();
         let host_memory = HostMemory::new();
+        let bc = BorrowChecker::new();
 
         let discriminant: u8 = reason_tag(&self.input).into();
         host_memory
-            .ptr(self.input_loc.ptr)
+            .ptr(&bc, self.input_loc.ptr)
             .write(discriminant)
             .expect("input discriminant ref_mut");
         host_memory
-            .ptr(self.input_loc.ptr + 4)
+            .ptr(&bc, self.input_loc.ptr + 4)
             .write(self.input_pointee_loc.ptr)
             .expect("input pointer ref_mut");
 
         match self.input {
             types::Reason::DogAte(f) => {
                 host_memory
-                    .ptr(self.input_pointee_loc.ptr)
+                    .ptr(&bc, self.input_pointee_loc.ptr)
                     .write(f)
                     .expect("input contents ref_mut");
             }
             types::Reason::Traffic(v) => {
                 host_memory
-                    .ptr(self.input_pointee_loc.ptr)
+                    .ptr(&bc, self.input_pointee_loc.ptr)
                     .write(v)
                     .expect("input contents ref_mut");
             }
@@ -213,6 +216,7 @@ impl ReasonMultExercise {
         let e = union_example::reason_mult(
             &ctx,
             &host_memory,
+            &bc,
             self.input_loc.ptr as i32,
             self.multiply_by as i32,
         );
@@ -222,7 +226,7 @@ impl ReasonMultExercise {
         match self.input {
             types::Reason::DogAte(f) => {
                 let f_result: f32 = host_memory
-                    .ptr(self.input_pointee_loc.ptr)
+                    .ptr(&bc, self.input_pointee_loc.ptr)
                     .read()
                     .expect("input contents ref_mut");
                 assert_eq!(
@@ -233,7 +237,7 @@ impl ReasonMultExercise {
             }
             types::Reason::Traffic(v) => {
                 let v_result: i32 = host_memory
-                    .ptr(self.input_pointee_loc.ptr)
+                    .ptr(&bc, self.input_pointee_loc.ptr)
                     .read()
                     .expect("input contents ref_mut");
                 assert_eq!(

crates/wiggle/tests/wasi.rs

@@ -1,4 +1,4 @@
-use wiggle::{GuestBorrows, GuestError, GuestErrorType, GuestPtr};
+use wiggle::{GuestError, GuestErrorType, GuestPtr, GuestSlice};
 use wiggle_test::WasiCtx;
 
 // This test file exists to make sure that the entire `wasi.witx` file can be
@@ -141,11 +141,11 @@ impl<'a> crate::wasi_snapshot_preview1::WasiSnapshotPreview1 for WasiCtx<'a> {
         // that we can use the wiggle API to create the datastructures we want
         // for efficient implementation of this function elsewhere.
 
-        let mut bc = GuestBorrows::new();
+        let mut slices: Vec<GuestSlice<'_, u8>> = Vec::new();
-        let mut slices: Vec<&'_ mut [u8]> = Vec::new();
+        // XXX FIXME make sure this property still holds:
         // Mark the iov elements as borrowed, to ensure that they does not
         // overlap with any of the as_raw regions.
-        bc.borrow_slice(&iovs).expect("borrow iovec array");
+        // bc.borrow_slice(&iovs).expect("borrow iovec array");
         for iov_ptr in iovs.iter() {
             let iov_ptr = iov_ptr.expect("iovec element pointer is valid");
 
@@ -153,10 +153,14 @@ impl<'a> crate::wasi_snapshot_preview1::WasiSnapshotPreview1 for WasiCtx<'a> {
             let base: GuestPtr<u8> = iov.buf;
             let len: u32 = iov.buf_len;
             let buf: GuestPtr<[u8]> = base.as_array(len);
-            let slice = buf.as_raw(&mut bc).expect("borrow slice from iovec");
+            let slice = buf.as_slice().expect("borrow slice from iovec");
-            slices.push(unsafe { &mut *slice });
+            slices.push(slice);
         }
-        println!("iovec slices: {:?}", slices);
+        println!("iovec slices: [");
+        for slice in slices {
+            println!("  {:?},", &*slice);
+        }
+        println!("]");
         unimplemented!("fd_pread")
     }