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Tracking issue for RFC #2145: Type privacy and private-in-public lints #48054
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privacy: Use common `DefId` visiting infrastructure for all privacy visitors One repeating pattern in privacy checking is going through a type, visiting all `DefId`s inside it and doing something with them. This is the case because visibilities and reachabilities are attached to `DefId`s. Previously various privacy visitors visited types slightly differently using their own methods, with most recently written `TypePrivacyVisitor` being the "gold standard". This mostly worked okay, but differences could manifest in overly conservative reachability analysis, some errors being reported twice, some private-in-public lints (not errors) being wrongly reported or not reported. This PR does something that I wanted to do since #32674 (comment) - factoring out the common visiting logic! Now all the common logic is contained in `struct DefIdVisitorSkeleton`, with specific privacy visitors deciding only what to do with visited `DefId`s (via `trait DefIdVisitor`). A bunch of cleanups is also applied in the process. This area is somewhat tricky due to lots of easily miss-able details, but thankfully it's was well covered by tests in #46083 and previous PRs, so I'm relatively sure in the refactoring correctness. Fixes #56837 (comment) in particular. Also this will help with implementing #48054.
@rustbot claim |
@petrochenkov: Oops - I didn't mean for that to un-assign you. Is there a way to prevent these lints from becoming insta-stable? Would it make sense to put them behind a feature gate? |
Perhaps we could only fire the lints if an unstable compiler flag (maybe |
Previously, given code such as: ```rust struct Private<T>; \#[pin_project] pub struct Public<T> { #[pin] private: Private<T> } ``` we would generate an Unpin impl like this: ```rust impl Unpin for Public where Private: Unpin {} ``` Unfortunately, since Private is not a public type, this would cause an E0446 ('private type `Private` in public interface) When RFC 2145 is implemented (rust-lang/rust#48054), this will become a lint, rather then a hard error. In the time being, we need a solution that will work with the current type privacy rules. The solution is to generate code like this: ```rust fn __private_scope() { pub struct __UnpinPublic<T> { __field0: Private<T> } impl<T> Unpin for Public<T> where __UnpinPublic<T>: Unpin {} } ``` That is, we generate a new struct, containing all of the pinned fields from our #[pin_project] type. This struct is delcared within a function, which makes it impossible to be named by user code. This guarnatees that it will use the default auto-trait impl for Unpin - that is, it will implement Unpin iff all of its fields implement Unpin. This type can be safely declared as 'public', satisfiying the privacy checker without actually allowing user code to access it. This allows users to apply the #[pin_project] attribute to types regardless of the privacy of the types of their fields.
Previously, given code such as: ```rust struct Private<T>; #[pin_project] pub struct Public<T> { #[pin] private: Private<T> } ``` we would generate an Unpin impl like this: ```rust impl Unpin for Public where Private: Unpin {} ``` Unfortunately, since Private is not a public type, this would cause an E0446 ('private type `Private` in public interface) When RFC 2145 is implemented (rust-lang/rust#48054), this will become a lint, rather then a hard error. In the time being, we need a solution that will work with the current type privacy rules. The solution is to generate code like this: ```rust fn __private_scope() { pub struct __UnpinPublic<T> { __field0: Private<T> } impl<T> Unpin for Public<T> where __UnpinPublic<T>: Unpin {} } ``` That is, we generate a new struct, containing all of the pinned fields from our #[pin_project] type. This struct is delcared within a function, which makes it impossible to be named by user code. This guarnatees that it will use the default auto-trait impl for Unpin - that is, it will implement Unpin iff all of its fields implement Unpin. This type can be safely declared as 'public', satisfiying the privacy checker without actually allowing user code to access it. This allows users to apply the #[pin_project] attribute to types regardless of the privacy of the types of their fields.
Previously, given code such as: ```rust struct Private<T>; pub struct Public<T> { #[pin] private: Private<T> } ``` we would generate an Unpin impl like this: ```rust impl Unpin for Public where Private: Unpin {} ``` Unfortunately, since Private is not a public type, this would cause an E0446 ('private type `Private` in public interface) When RFC 2145 is implemented (rust-lang/rust#48054), this will become a lint, rather then a hard error. In the time being, we need a solution that will work with the current type privacy rules. The solution is to generate code like this: ```rust fn __private_scope() { pub struct __UnpinPublic<T> { __field0: Private<T> } impl<T> Unpin for Public<T> where __UnpinPublic<T>: Unpin {} } ``` That is, we generate a new struct, containing all of the pinned fields from our #[pin_project] type. This struct is delcared within a function, which makes it impossible to be named by user code. This guarnatees that it will use the default auto-trait impl for Unpin - that is, it will implement Unpin iff all of its fields implement Unpin. This type can be safely declared as 'public', satisfiying the privacy checker without actually allowing user code to access it. This allows users to apply the #[pin_project] attribute to types regardless of the privacy of the types of their fields.
Previously, given code such as: ```rust struct Private<T>; pub struct Public<T> { #[pin] private: Private<T> } ``` we would generate an Unpin impl like this: ```rust impl Unpin for Public where Private: Unpin {} ``` Unfortunately, since Private is not a public type, this would cause an E0446 ('private type `Private` in public interface) When RFC 2145 is implemented (rust-lang/rust#48054), this will become a lint, rather then a hard error. In the time being, we need a solution that will work with the current type privacy rules. The solution is to generate code like this: ```rust fn __private_scope() { pub struct __UnpinPublic<T> { __field0: Private<T> } impl<T> Unpin for Public<T> where __UnpinPublic<T>: Unpin {} } ``` That is, we generate a new struct, containing all of the pinned fields from our #[pin_project] type. This struct is delcared within a function, which makes it impossible to be named by user code. This guarnatees that it will use the default auto-trait impl for Unpin - that is, it will implement Unpin iff all of its fields implement Unpin. This type can be safely declared as 'public', satisfiying the privacy checker without actually allowing user code to access it. This allows users to apply the #[pin_project] attribute to types regardless of the privacy of the types of their fields.
53: Allow using #[pin_project] type with private field types r=taiki-e a=Aaron1011 Previously, given code such as: ```rust struct Private<T>; #[pin_project] pub struct Public<T> { #[pin] private: Private<T> } ``` we would generate an Unpin impl like this: ```rust impl Unpin for Public where Private: Unpin {} ``` Unfortunately, since Private is not a public type, this would cause an E0446 ('private type `Private` in public interface) When RFC 2145 is implemented (rust-lang/rust#48054), this will become a lint, rather then a hard error. In the time being, we need a solution that will work with the current type privacy rules. The solution is to generate code like this: ```rust fn __private_scope() { pub struct __UnpinPublic<T> { __field0: Private<T> } impl<T> Unpin for Public<T> where __UnpinPublic<T>: Unpin {} } ``` That is, we generate a new struct, containing all of the pinned fields from our #[pin_project] type. This struct is delcared within a function, which makes it impossible to be named by user code. This guarnatees that it will use the default auto-trait impl for Unpin - that is, it will implement Unpin iff all of its fields implement Unpin. This type can be safely declared as 'public', satisfiying the privacy checker without actually allowing user code to access it. This allows users to apply the #[pin_project] attribute to types regardless of the privacy of the types of their fields. Co-authored-by: Aaron Hill <[email protected]>
Populate effective visibilities in 'rustc_privacy' Next part of RFC rust-lang#48054. r? `@petrochenkov`
Populate effective visibilities in 'rustc_privacy' Next part of RFC rust-lang/rust#48054. r? `@petrochenkov`
Private-in-public lints implementation Next part of RFC rust-lang#48054. r? `@petrochenkov`
Populate effective visibilities in 'rustc_privacy' Next part of RFC rust-lang/rust#48054. r? `@petrochenkov`
fix rust-lang#113702 emit a proper diagnostic message for unstable lints passed from CLI Current output: ```bash $ build/host/stage1/bin/rustc hello.rs -Wunnameable_types warning: unknown lint: `unnameable_types` | = note: the `unnameable_types` lint is unstable = note: see issue rust-lang#48054 <rust-lang#48054> for more information = help: add `-Zcrate-attr="feature(type_privacy_lints)"` to the command-line options to enable = note: `#[warn(unknown_lints)]` on by default warning: 1 warning emitted ``` Previously, the feature gate diagnostic message is like below, which is the same as the message for unstable lints from the root module. ```shell = help: add `#![feature(type_privacy_lints)]` to the crate attributes to enable ``` Fixes rust-lang#113702
Replace old private-in-public diagnostic with type privacy lints Next part of RFC rust-lang#48054. r? `@petrochenkov`
Replace old private-in-public diagnostic with type privacy lints Next part of RFC rust-lang/rust#48054. r? `@petrochenkov`
This issue should be closed by #120144. Two follow up issues about improving the effective visibility tables |
Replace old private-in-public diagnostic with type privacy lints Next part of RFC rust-lang/rust#48054. r? `@petrochenkov`
Rollup merge of rust-lang#120144 - petrochenkov:unty, r=davidtwco privacy: Stabilize lint `unnameable_types` This is the last piece of ["RFC rust-lang#2145: Type privacy and private-in-public lints"](rust-lang#48054). Having unstable lints is not very useful because you cannot even dogfood them in the compiler/stdlib in this case (rust-lang#113284). The worst thing that may happen when a lint is removed are some `removed_lints` warnings, but I haven't heard anyone suggesting removing this specific lint. This lint is allow-by-default and is supposed to be enabled explicitly. Some false positives are expected, because sometimes unnameable types are a legitimate pattern. This lint also have some unnecessary false positives, that can be fixed - see rust-lang#120146 and rust-lang#120149. Closes rust-lang#48054.
Populate effective visibilities in 'rustc_resolve' Next part of RFC rust-lang/rust#48054. previous: rust-lang/rust#101713 `@rustbot` author r? `@petrochenkov`
privacy: Rename "accessibility levels" to "effective visibilities" And a couple of other naming and comment tweaks. Related to rust-lang/rust#48054 For `enum Level` I initially used naming `enum EffectiveVisibilityLevel`, but it was too long and inconvenient because it's used pretty often. So I shortened it to just `Level`, if it needs to be used from some context where this name would be ambiguous, then it can be imported with renaming like `use rustc_middle::privacy::Level as EffVisLevel` or something.
Populate effective visibilities in 'rustc_resolve' Next part of RFC rust-lang/rust#48054. previous: rust-lang/rust#101713 `@rustbot` author r? `@petrochenkov`
privacy: Rename "accessibility levels" to "effective visibilities" And a couple of other naming and comment tweaks. Related to rust-lang/rust#48054 For `enum Level` I initially used naming `enum EffectiveVisibilityLevel`, but it was too long and inconvenient because it's used pretty often. So I shortened it to just `Level`, if it needs to be used from some context where this name would be ambiguous, then it can be imported with renaming like `use rustc_middle::privacy::Level as EffVisLevel` or something.
Replace old private-in-public diagnostic with type privacy lints Next part of RFC rust-lang/rust#48054. r? `@petrochenkov`
This is a tracking issue for the RFC "Type privacy and private-in-public lints " (rust-lang/rfcs#2145).
Steps:
Unresolved questions:
It's not fully clear if the restriction for associated type definitions required for
type privacy soundness, or it's just a workaround for a technical difficulty.
Interactions between macros 2.0 and the notions of reachability / effective
visibility used for the lints are unclear.
The text was updated successfully, but these errors were encountered: