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| 1 | +.. SPDX-License-Identifier: MIT OR Apache-2.0 |
| 2 | + SPDX-FileCopyrightText: The Coding Guidelines Subcommittee Contributors |
| 3 | + |
| 4 | +.. default-domain:: coding-guidelines |
| 5 | + |
| 6 | +.. guideline:: Do not create values from uninitialized memory except for union fields |
| 7 | + :id: gui_uyp3mCj77FS8 |
| 8 | + :category: mandatory |
| 9 | + :status: draft |
| 10 | + :release: <TODO> |
| 11 | + :fls: fls_6lg0oaaopc26 |
| 12 | + :decidability: undecidable |
| 13 | + :scope: system |
| 14 | + :tags: undefined-behavior, unsafe |
| 15 | + |
| 16 | + A program shall not create a value of any type from uninitialized memory, |
| 17 | + except when accessing a field of a union type, |
| 18 | + where such reads are explicitly defined to be permitted even if the bytes of that field are uninitialized. |
| 19 | + It is prohibited to interpret uninitialized memory as a value of any Rust type such as a |
| 20 | + primitive, aggregate, reference, pointer, struct, enum, array, or tuple. |
| 21 | + |
| 22 | + **Exception:** You can access a field of a union even when the backing bytes of that field are uninitialized provided that: |
| 23 | + |
| 24 | + - The resulting value has an unspecified but well-defined bit pattern. |
| 25 | + - Interpreting that value must still comply with the requirements of the accessed type |
| 26 | + (e.g., no invalid enum discriminants, no invalid pointer values, etc.). |
| 27 | + |
| 28 | + For example, reading an uninitialized u32 field of a union is allowed; |
| 29 | + reading an uninitialized bool field is disallowed because not all bit patterns are valid. |
| 30 | + |
| 31 | + .. rationale:: |
| 32 | + :id: rat_kjFRrhpS8Wu6 |
| 33 | + :status: draft |
| 34 | + |
| 35 | + Rust's memory model treats all types except unions as having an invariant that all bytes must be initialized before a value may be constructed. |
| 36 | + Reading uninitialized memory: |
| 37 | +
|
| 38 | + - creates undefined behavior for most types, |
| 39 | + - may violate niche or discriminant validity, |
| 40 | + - may create invalid pointer values, or |
| 41 | + - may produce values that violate type invariants. |
| 42 | +
|
| 43 | + The sole exception is that unions work like C unions: any union field may be read, even if it was never written. |
| 44 | + The resulting bytes must, however, form a valid representation for the field's type, |
| 45 | + which is not guaranteed if the union contains arbitrary data. |
| 46 | + |
| 47 | + .. non_compliant_example:: |
| 48 | + :id: non_compl_ex_Qb5GqYTP6db1 |
| 49 | + :status: draft |
| 50 | + |
| 51 | + This noncompliant example creates a value of type ``u32`` from uninitialized memory via |
| 52 | + `assume_init <https://doc.rust-lang.org/stable/std/mem/union.MaybeUninit.html#method.assume_init>`_: |
| 53 | + |
| 54 | + .. rust-example:: |
| 55 | + |
| 56 | + use std::mem::MaybeUninit; |
| 57 | + |
| 58 | + # fn main() { |
| 59 | + let x: u32 = unsafe { MaybeUninit::uninit().assume_init() }; // UB |
| 60 | + # } |
| 61 | + |
| 62 | + .. compliant_example:: |
| 63 | + :id: compl_ex_Ke869nSXuShU |
| 64 | + :status: draft |
| 65 | + |
| 66 | + Types such as ``u8``, ``u16``, ``u32``, and ``i128`` allow all possible bit patterns. |
| 67 | + Provided the memory is initialized, there is no undefined behavior. |
| 68 | + |
| 69 | + .. rust-example:: |
| 70 | + |
| 71 | + union U { |
| 72 | + n: u32, |
| 73 | + bytes: [u8; 4], |
| 74 | + } |
| 75 | + |
| 76 | + # fn main() { |
| 77 | + let u = U { bytes: [0xFF, 0xEE, 0xDD, 0xCC] }; |
| 78 | + let n = unsafe { u.n }; // OK — all bit patterns valid for u32 |
| 79 | + # } |
| 80 | + |
| 81 | + .. compliant_example:: |
| 82 | + :id: compl_ex_Ke869nSXuShV |
| 83 | + :status: draft |
| 84 | + |
| 85 | + This compliant example calls the ``write`` function to fully initialize low-level memory. |
| 86 | + |
| 87 | + .. rust-example:: |
| 88 | + |
| 89 | + use std::mem::MaybeUninit; |
| 90 | + |
| 91 | + # fn main() { |
| 92 | + let mut x = MaybeUninit::<u64>::uninit(); |
| 93 | + x.write(42); |
| 94 | + let val = unsafe { x.assume_init() }; // OK — value was fully initialized |
| 95 | + # } |
| 96 | + |
| 97 | + .. non_compliant_example:: |
| 98 | + :id: non_compl_ex_Qb5GqYTP6db2 |
| 99 | + :status: draft |
| 100 | + |
| 101 | + Creating a reference from arbitrary or uninitialized bytes is always undefined behavior. |
| 102 | + References must be valid, aligned, properly dereferenceable, and non-null. |
| 103 | + Uninitialized memory cannot satisfy these invariants. |
| 104 | + |
| 105 | + .. rust-example:: |
| 106 | + |
| 107 | + use std::mem::MaybeUninit; |
| 108 | + |
| 109 | + # fn main() { |
| 110 | + let r: &u32 = unsafe { MaybeUninit::uninit().assume_init() }; // UB — invalid reference |
| 111 | + # } |
| 112 | + |
| 113 | + .. non_compliant_example:: |
| 114 | + :id: non_compl_ex_Qb5GqYTP6db4 |
| 115 | + :status: draft |
| 116 | + |
| 117 | + Not all bit patterns are valid pointers for all operations (e.g., provenance rules). |
| 118 | + You cannot create a pointer from unspecified bytes. |
| 119 | + Even a raw pointer type (e.g., ``*const T``) has validity rules. |
| 120 | + |
| 121 | + .. rust-example:: |
| 122 | + |
| 123 | + use std::mem::MaybeUninit; |
| 124 | + |
| 125 | + # fn main() { |
| 126 | + let p: *const u32 = unsafe { MaybeUninit::uninit().assume_init() }; // UB |
| 127 | + # } |
| 128 | + .. non_compliant_example:: |
| 129 | + :id: non_compl_ex_Qb5GqYTP6db5 |
| 130 | + :status: draft |
| 131 | + |
| 132 | + Array elements must individually be valid values. |
| 133 | + |
| 134 | + .. rust-example:: |
| 135 | + |
| 136 | + use std::mem::MaybeUninit; |
| 137 | + |
| 138 | + # fn main() { |
| 139 | + let mut arr: [MaybeUninit<u8>; 4] = unsafe { MaybeUninit::uninit().assume_init() }; |
| 140 | + let a = unsafe { std::mem::transmute::<_, [u8; 4]>(arr) }; // UB — not all elements initialized |
| 141 | + # } |
| 142 | + |
| 143 | + .. compliant_example:: |
| 144 | + :id: compl_ex_Ke869nSXuShT |
| 145 | + :status: draft |
| 146 | + |
| 147 | + The following code reads a union field: |
| 148 | + |
| 149 | + .. rust-example:: |
| 150 | + |
| 151 | + union U { |
| 152 | + x: u32, |
| 153 | + y: f32, |
| 154 | + } |
| 155 | + |
| 156 | + # fn main() { |
| 157 | + let u = U { x: 123 }; // write to one field |
| 158 | + let f = unsafe { u.y }; // reading the other field is allowed |
| 159 | + # } |
| 160 | + |
| 161 | + .. non_compliant_example:: |
| 162 | + :id: non_compl_ex_Qb5GqYTP6db3 |
| 163 | + :status: draft |
| 164 | + |
| 165 | + Even though unions allow reads of any field, not all bit patterns are valid for a ``bool``. |
| 166 | + Unions do not relax type validity requirements. |
| 167 | + Only the read itself is allowed; |
| 168 | + the resulting bytes must still be a valid bool. |
| 169 | + |
| 170 | + .. rust-example:: |
| 171 | + |
| 172 | + union U { |
| 173 | + b: bool, |
| 174 | + x: u8, |
| 175 | + } |
| 176 | + |
| 177 | + # fn main() { |
| 178 | + let u = U { x: 255 }; // 255 is not a valid bool representation |
| 179 | + let b = unsafe { u.b }; // UB — invalid bool |
| 180 | + # } |
| 181 | + |
| 182 | + .. compliant_example:: |
| 183 | + :id: compl_ex_Ke869nSXuShW |
| 184 | + :status: draft |
| 185 | + |
| 186 | + Accessing padding bytes is allowed if not interpreted as typed data: |
| 187 | + |
| 188 | + .. rust-example:: |
| 189 | + |
| 190 | + #[repr(C)] |
| 191 | + struct S { |
| 192 | + a: u8, |
| 193 | + b: u32, |
| 194 | + } |
| 195 | + |
| 196 | + # fn main() { |
| 197 | + let mut buf = [0u8; std::mem::size_of::<S>()]; |
| 198 | + buf[0] = 10; |
| 199 | + buf[1] = 20; // writing padding is fine |
| 200 | + |
| 201 | + let p = buf.as_ptr() as *const S; |
| 202 | + let s = unsafe { p.read_unaligned() }; // OK — all *fields* are initialized (padding doesn't matter) |
| 203 | + # } |
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