Red Bear OS 94646dee65 relibc: cap mmap_min_addr at canonical user-space top
ROOT CAUSE: fexec_impl maps the 8 MB stack at STACK_TOP - STACK_SIZE =
0x7FFFFFF800000 (with STACK_TOP = 1 << 47 = 0x800000000000 on x86_64).
The update_min_mmap_addr closure computes (addr + size).next_multiple_of(PAGE_SIZE)
= 0x800000000000 as the new mmap_min. But 0x800000000000 is the FIRST
non-canonical address on x86-64 — the canonical lower half ends at
0x7FFFFFFFFFFF. With mmap_min = 0x800000000000, every subsequent anonymous
mmap fails because find_free_near can't find any hole at or above
0x800000000000.

This breaks ld.so's stage2 Tcb::new(0) call (8 KB anonymous mmap),
which uses .expect_notls() and panics → ud2. The init process crashes
before main() with 'Invalid opcode fault' at RIP 0x21cd1.

FIX: Add USER_CANONICAL_TOP_PAGE constant per architecture and cap
mmap_min_addr at that value. On x86_64/aarch64 this is 0x7FFFFFFFF000
(last page in the 48-bit canonical lower half). On riscv64-sv39 this
is (1 << 38) - 0x1000. On i686 this is (1 << 31) - 0x1000.
2026-07-10 19:20:59 +03:00
2019-01-14 14:22:24 -07:00
2020-08-07 14:16:45 +00:00
2019-02-20 19:27:18 +01:00
2018-03-07 17:29:33 -07:00

Redox C Library (relibc)

relibc is a portable C standard library written in Rust and is under heavy development, this library contain the following items:

  • C, Linux, BSD functions and extensions
  • POSIX compatibility layer
  • Interfaces for system components

The motivation for this project is twofold: Reduce issues that the Redox developers were having with newlib, and create a more stable and safe alternative to C standard libraries written in C. It is mainly designed to be used under Redox, as an alternative to newlib, but it also supports Linux via the sc crate.

Currently Redox and Linux are supported.

redox-rt

redox-rt is a runtime library that provides much of the code that enables POSIX on Redox, like fork, exec, signal handling, etc. Relibc uses it as backend in src/platform/redox, and it's intended to eventually be usable independently, without relibc.

Repository Layout

  • include - Header files (mostly macros and variadic functions cbindgen can't generate)
  • src - Source files
  • src/c - C code
  • src/crt0 - Runtime code
  • src/crti - Runtime code
  • src/crtn - Runtime code
  • src/header - Header files implementation
  • src/header/* - Each folder has a cbindgen.toml file, it generates a C-to-Rust interface and header files
  • src/ld_so - Dynamic loader code
  • src/platform - Platform-specific and common code
  • src/platform/redox - Redox-specific code
  • src/platform/linux - Linux-specific code
  • src/pthread - pthread implementation
  • src/sync - Synchronization primitives
  • tests - C tests (each MR needs to give success in all of them)

Download the sources

To download the relibc sources run the following command:

git clone --recursive https://gitlab.redox-os.org/redox-os/relibc

Build Instructions

To build relibc out of the Redox build system, do the following steps:

Dependencies

  • Install cbindgen
cargo install cbindgen

Install the expect tool

  • Debian, Ubuntu and PopOS:
sudo apt install expect
  • Fedora:
sudo dnf install expect
  • Arch Linux:
sudo pacman -S expect

Build Relibc

To build the relibc library objects, run the following command:

make all
  • Clean old library objects and tests
make clean

Build relibc inside the Redox build system

Inside of your Redox build system, run:

make prefix

If you need to rebuild relibc for testing a Cookbook recipe, run:

touch relibc
make prefix r.recipe-name

Touching (changing the "last modified time" of) the relibc folder is needed to trigger recompilation for make prefix. Replace recipe-name with your desired recipe name.

Note: Do not edit relibc inside prefix folder! Do your work on relibc folder directly inside your Redox build system instead.

Tests

Relibc has a test suite that also runs every time a new commit get pushed. You can see .gitlab-ci.yml to see how it's being executed. That being said, ./check.sh is the recommended way to run tests. Here's few examples:

  • ./check.sh - Run build, without running the test
  • ./check.sh --test - Run all tests in x86_64 Redox using Redoxer
  • ./check.sh --test --host - Run all tests in host (Linux)
  • ./check.sh --test --arch=aarch64 - Run all tests in specified arch
    • Arch can be x86_64, aarch64, i586, or riscv64gc
  • ./check.sh --test=stdio/printf - Run a single test
    • Can be combined with --host or --arch
    • Will run statically linked test in Linux, dynamically linked in Redox

Couple of notes:

  • Relibc and its tests will rebuild if files changed, however switching between arch or host requires you to run make clean
  • Redoxer is needed to run tests for Redox without --host. You can install it using cargo install redoxer
  • Tests can hangs, the test runner can anticipate this, assuming the kernel doesn't hang too.

Issues

I'm building for my own platform which I run, and am getting x86_64-linux-gnu-ar: command not found (or similar)

The Makefile expects GNU compiler tools prefixed with the platform specifier, as would be present when you installed a cross compiler. Since you are building for your own platform, some Linux distributions (like Manjaro) don't install/symlink the prefixed executables.

An easy fix would be to replace the corresponding lines in config.mk, e.g.

ifeq ($(TARGET),x86_64-unknown-linux-gnu)
-	export CC=x86_64-linux-gnu-gcc
-	export LD=x86_64-linux-gnu-ld
-	export AR=x86_64-linux-gnu-ar
-	export NM=x86_64-linux-gnu-nm
+       export CC=gcc
+       export LD=ld
+       export AR=ar
+       export NM=nm
	export OBJCOPY=objcopy
	export CPPFLAGS=
	LD_SO_PATH=lib/ld64.so.1
endif

Contributing

Before starting to contribute, read this document.

Supported OSes

  • Redox OS
  • Linux

Supported architectures

  • i586 (Intel/AMD)
  • x86_64 (Intel/AMD)
  • aarch64 (ARM64)
  • riscv64gc (RISC-V)

Funding - Unix-style Signals and Process Management

This project is funded through NGI Zero Core, a fund established by NLnet with financial support from the European Commission's Next Generation Internet program. Learn more at the NLnet project page.

NLnet foundation logo NGI Zero Logo

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