From 1c963707dc26d24f377da0e9f8b58d8f781258b9 Mon Sep 17 00:00:00 2001
From: Jorge Aparicio <jorge@japaric.io>
Date: Tue, 3 Apr 2018 20:11:48 +0200
Subject: [PATCH 1/2] RFC: #[used] static variables

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diff --git a/text/0000-used.md b/text/0000-used.md
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+- Feature Name: used
+- Start Date: 2018-04-03
+- RFC PR: (leave this empty)
+- Rust Issue: (leave this empty)
+
+# Summary
+[summary]: #summary
+
+Stabilize the `#[used]` attribute which is used to force the compiler to keep static variables,
+even if not referenced by any other part of the program, in the output object file.
+
+# Motivation
+[motivation]: #motivation
+
+Bare metal applications, like kernels, bootloaders and other firmware, usually need precise control
+over the memory layout of the program. These programs usually need to place data structures like
+vector (interrupt) tables in certain memory locations for the system to operate properly.
+
+The final memory layout of the program is decided by the linker; bare metal applications make use of
+*linker scripts* to control the placement of (linker) *sections* in memory. But for all this to work
+the vector table must be present in the object files passed to the linker. That's where the
+`#[used]` attribute comes in: without it the compiler will optimize away the vector table, as it's
+not directly used by the program, and it will never reach the linker.
+
+It's possible to work around the lack of the `#[used]` attribute by declaring the vector table as
+public:
+
+``` rust
+// public items are exposed in the object file
+#[link_section = ".vector_table.exceptions"]
+pub static EXCEPTIONS: [extern "C" fn(); 14] = [/* .. */];
+```
+
+But this is brittle because the compiler can still optimize the symbol away when compiling with LTO
+enabled -- with LTO the compiler has global knowledge about the program, and will see that
+`EXCEPTIONS` is unused by the program and discard it.
+
+Yet another workaround is to force a volatile load of the vector table in some part of the program,
+usually before main. The compiler will always keep the vector table in this case but this
+alternative incurs in the cost of a load operation that will never be optimized away by the
+compiler.
+
+``` rust
+#[link_section = ".vector_table.exceptions"]
+static EXCEPTIONS: [extern "C" fn(); 14] = [/* .. */];
+
+// entry point of the firmware
+fn reset() -> ! {
+    extern "C" {
+        // user entry point
+        fn main() -> !;
+    }
+
+    // this operation will never be optimized away
+    unsafe { ptr::read_volatile(&EXCEPTIONS[0]) };
+
+    main()
+}
+```
+
+The proper solution to keeping the vector table is to mark the vector table as a *used* variable to
+force the compiler to keep in one of the emitted object files.
+
+``` rust
+#[used] // will be present in the object file
+#[link_section = ".vector_table.exceptions"]
+static EXCEPTIONS: [extern "C" fn(); 14] = [/* .. */];
+```
+
+# Guide-level explanation
+[guide-level-explanation]: #guide-level-explanation
+
+We can think of the compilation process performed by `rustc` as a two stage process. First, `rustc`
+compiles a crate (source code) into *object files*, then `rustc` invokes the linker on those object
+files to produce a single *executable*, or shared library (e.g. `.so`) if the crate type was set to
+"cdylib".
+
+The `#[used]` attribute can be applied to static variables to keep them in the *object files*
+produced by `rustc`, even in the presence of LTO. Note that this does **not** mean that the static
+variable will make its way into the binary file emitted by the linker as the linker is free to drop
+symbols that it deems unused. In other words, the `#[used]` attribute does **not** affect the
+behavior of the linker.
+
+Consider the following program:
+
+``` rust
+#[used]
+static FOO: u32 = 0;
+static BAR: u32 = 0;
+
+fn main() {}
+```
+
+The variable `FOO` marked with the `#[used]` attribute will be kept in the emitted object file
+regardless of the optimization level. On the other hand, the unused variable `BAR` is always
+optimized away.
+
+``` console
+$ cargo rustc -- --emit=obj  # for simplicity incr. comp. has been disabled
+$ nm -C $(find target -name '*.o')
+(..)
+0000000000000000 r foo::FOO
+0000000000000000 t foo::main
+0000000000000000 T std::rt::lang_start
+(..)
+
+$ cargo clean; cargo rustc --release --
+$ nm -C $(find target -name '*.o')
+0000000000000000 T main
+0000000000000000 r foo::FOO
+0000000000000000 t foo::main
+0000000000000000 T std::rt::lang_start
+(..)
+
+$ cargo clean; cargo rustc --release -- --emit=obj -C lto
+$ nm -C $(find target -name '*.o')
+(..)
+0000000000000000 r foo::FOO
+0000000000000000 t foo::main
+(..)
+```
+
+`FOO` never makes it to the final executable because the linker sees that the call graph that stems
+from the user entry point `main` never makes use of `FOO` and discards it.
+
+``` console
+$ cargo clean; cargo build
+$ nm -C target/debug/foo | grep FOO || echo not found
+not found
+```
+
+To keep `FOO` in the final binary assistance from the linker is required; this usually means writing
+a linker script.
+
+Consider the following program:
+
+``` rust
+#[used]
+#[link_section = ".init_array"]
+static FOO: extern "C" fn() = before_main;
+
+extern "C" fn before_main() {
+    println!("Hello")
+}
+
+fn main() {
+    println!("World")
+}
+```
+
+When dealing with ELF files the `.init_array` section will usually be kept in the final binary by
+the default linker script. If the system supports it, all function pointers stored in the
+`.init_array` section will be called before entering `main`. Thus, the above program prints "Hello"
+and then "World" to the console when run on a *nix system.
+
+``` console
+$ cargo run --release
+Hello
+World
+
+$ nm -C target/release/foo | grep FOO
+000000000026b620 t foo::FOO
+```
+
+If the `#[used]` attribute is removed from the source code then only "World" is printed to the
+console as the `FOO` variable will get optimized away by the compiler.
+
+# Reference-level explanation
+[reference-level-explanation]: #reference-level-explanation
+
+The `#[used]` attribute can only be used on static variables. Static variables marked with this
+attribute will be appended to the special `@llvm.used` global variable when lowered to LLVM IR.
+
+``` rust
+#[used]
+static FOO: u32 = 0;
+
+fn main() {}
+```
+
+``` console
+$ cargo clean; cargo rustc -- --emit=llvm-ir
+$ grep llvm.used $(find -name '*.ll')
+@llvm.used = appending global [1 x i8*] [i8* getelementptr inbounds (<{ [4 x i8] }>, <{ [4 x i8] }>* @_ZN3foo3FOO17hf0af6b03a826c578E, i32 0, i32 0, i32 0)], section "llvm.metadata"
+```
+
+The semantics of this operation are (quoting [LLVM reference][llvm]):
+
+[llvm]: https://llvm.org/docs/LangRef.html#the-llvm-used-global-variable
+
+> If a symbol appears in the @llvm.used list, then the compiler, assembler, ~and linker~ are
+> required to treat the symbol as if there is a reference to the symbol that it cannot see (which is
+> why they have to be named). For example, if a variable has internal linkage and no references
+> other than that from the @llvm.used list, it cannot be deleted. This is commonly used to represent
+> references from inline asms and other things the compiler cannot “see”, and corresponds to
+> “attribute((used))” in GNU C.
+
+*strikethrough added by the author*
+
+The part about the linker is not true (\*): from the point of view of the linker static variables
+marked with `#[used]` look exactly the same as variables that have not been marked with that
+attribute -- those are the implemented LLVM semantics. Also ELF object files have no mechanism to
+prevent the linker from dropping its symbols if they are not referenced by other object files.
+
+(\*) unless "linker" is actually referring to `llvm-link` (?)
+
+# Drawbacks
+[drawbacks]: #drawbacks
+
+This is yet another low level feature that alternative `rustc` implementations would have to
+implement to be 100% compatible with the official LLVM based `rustc` implementation. Also see
+`#[repr(align = "*")]`, `#[repr(*)]`, `#[link_section]`, etc.
+
+# Rationale and alternatives
+[alternatives]: #alternatives
+
+## Chosen design
+
+This design pretty much matches how C compilers implement this feature. See prior art section below.
+
+## Not doing this
+
+Not doing this means that people will continue to use the brittle workarounds presented in the
+motivation section.
+
+# Prior art
+[prior-art]: #prior-art
+
+Most compilers provide a feature with the exact same semantics: usually in the form of a "used"
+attribute (e.g. `__attribute(used)__`)  that can be applied to static variables.
+
+The following C code is an example from the [KEIL toolchain documentation][keil]:
+
+[keil]: http://www.keil.com/support/man/docs/armcc/armcc_chr1359124983230.htm
+
+``` c
+static int lose_this = 1;
+static int keep_this __attribute__((used)) = 2;     // retained in object file
+static int keep_this_too __attribute__((used)) = 3; // retained in object file
+```
+
+# Unresolved questions
+[unresolved]: #unresolved-questions
+
+None so far.

From a435f413b83bd9a7dfe85693c9dbf8cf76a02ac4 Mon Sep 17 00:00:00 2001
From: Mazdak Farrokhzad <twingoow@gmail.com>
Date: Sun, 27 May 2018 23:49:39 +0200
Subject: [PATCH 2/2] RFC 2386

---
 text/{0000-used.md => 2386-used.md} | 6 +++---
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diff --git a/text/0000-used.md b/text/2386-used.md
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rename from text/0000-used.md
rename to text/2386-used.md
index caedcd41dda..153be68844c 100644
--- a/text/0000-used.md
+++ b/text/2386-used.md
@@ -1,7 +1,7 @@
-- Feature Name: used
+- Feature Name: `used`
 - Start Date: 2018-04-03
-- RFC PR: (leave this empty)
-- Rust Issue: (leave this empty)
+- RFC PR: [rust-lang/rfcs#2386](https://github.com/rust-lang/rfcs/pull/2386)
+- Rust Issue: [rust-lang/rust#40289](https://github.com/rust-lang/rust/issues/40289)
 
 # Summary
 [summary]: #summary