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nomicon/src/what-unsafe-does.md

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# What Unsafe Rust Can Do
The only things that are different in Unsafe Rust are that you can:
* Dereference raw pointers
* Call `unsafe` functions (including C functions, compiler intrinsics, and the raw allocator)
* Implement `unsafe` traits
* Mutate statics
* Access fields of `union`s
That's it. The reason these operations are relegated to Unsafe is that misusing
any of these things will cause the ever dreaded Undefined Behavior. Invoking
Undefined Behavior gives the compiler full rights to do arbitrarily bad things
to your program. You definitely *should not* invoke Undefined Behavior.
Unlike C, Undefined Behavior is pretty limited in scope in Rust. All the core
language cares about is preventing the following things:
* Loading from or storing to null, dangling, or unaligned references or raw
pointers
* Performing out-of-bounds arithmetic for the computation of an
`enum`/`struct`/array/slice/tuple field address
* Reading [uninitialized memory][]
* Breaking the [pointer aliasing rules][]
* Producing invalid primitive values (either alone or as a field of a compound
type such as `enum`/`struct`/array/tuple):
5 years ago
* dangling/null/unaligned references
* null `fn` pointers
* a `bool` that isn't 0 or 1
* an undefined `enum` discriminant
* a `char` outside the ranges [0x0, 0xD7FF] and [0xE000, 0x10FFFF]
5 years ago
* a non-utf8 `str`
* an invalid library type with custom invalid values, such as a `NonNull` or
`NonZero*` that is 0
* Unwinding into another language
* Causing a [data race][race]
"Producing" a value happens any time a value is assigned, passed to a
function/primitive operation or returned from a function/primitive operation.
A reference/pointer is "dangling" if not all of the bytes it points to are part
of the same allocation. The span of bytes it points to is determined by the
pointer value and the size of the pointee type.
That's it. That's all the causes of Undefined Behavior baked into Rust. Of
course, unsafe functions and traits are free to declare arbitrary other
constraints that a program must maintain to avoid Undefined Behavior. For
instance, the allocator APIs declare that deallocating unallocated memory is
Undefined Behavior.
However, violations of these constraints generally will just transitively lead to one of
the above problems. Some additional constraints may also derive from compiler
intrinsics that make special assumptions about how code can be optimized. For instance,
Vec and Box make use of intrinsics that require their pointers to be non-null at all times.
Rust is otherwise quite permissive with respect to other dubious operations.
Rust considers it "safe" to:
* Deadlock
* Have a [race condition][race]
* Leak memory
* Fail to call destructors
* Overflow integers
* Abort the program
* Delete the production database
However any program that actually manages to do such a thing is *probably*
incorrect. Rust provides lots of tools to make these things rare, but
these problems are considered impractical to categorically prevent.
[pointer aliasing rules]: references.html
[uninitialized memory]: uninitialized.html
[race]: races.html