On Thu, Sep 05, 2024 at 09:47:47AM +0300, Kirill A. Shutemov wrote:
On Thu, Aug 29, 2024 at 12:15:57AM -0700, Charlie Jenkins wrote:
Some applications rely on placing data in free bits addresses allocated by mmap. Various architectures (eg. x86, arm64, powerpc) restrict the address returned by mmap to be less than the 48-bit address space, unless the hint address uses more than 47 bits (the 48th bit is reserved for the kernel address space).
The riscv architecture needs a way to similarly restrict the virtual address space. On the riscv port of OpenJDK an error is thrown if attempted to run on the 57-bit address space, called sv57 [1]. golang has a comment that sv57 support is not complete, but there are some workarounds to get it to mostly work [2].
These applications work on x86 because x86 does an implicit 47-bit restriction of mmap() address that contain a hint address that is less than 48 bits.
Instead of implicitly restricting the address space on riscv (or any current/future architecture), a flag would allow users to opt-in to this behavior rather than opt-out as is done on other architectures. This is desirable because it is a small class of applications that do pointer masking.
This argument looks broken to me.
The "small class of applications" is going to be broken unless they got patched to use your new mmap() flag. You are asking for bugs.
Consider the case when you write, compile and validate a piece of software on machine that has <=47bit VA. The binary got shipped to customers. Later, customer gets a new shiny machine that supports larger address space and your previously working software is broken. Such binaries might exist today.
It is bad idea to use >47bit VA by default. Most of software got tested on x86 with 47bit VA.
We can consider more options to opt-in into wider address space like personality or prctl() handle. But opt-out is no-go from what I see.
-- Kiryl Shutsemau / Kirill A. Shutemov
riscv is in an interesting state in regards to this because the software ecosystem is much less mature than other architectures. The existing riscv hardware supports either 38 or 47 bit userspace VAs, but a lot of people test on QEMU which defaults to 56 bit. As a result, a lot of code is tested with the larger address space. Applications that don't work on the larger address space, like OpenJDK, currently throw an error and exit.
Since riscv does not currently have the address space default to 47 bits, some applications just don't work on 56 bits. We could change the kernel so that these applications start working without the need for them to change their code, but that seems like the kernel is overstepping and fixing binaries rather than providing users tools to fix the binaries themselves.
This mmap flag was an attempt to provide a tool for these applications that work on the existing 47 bit VA hardware to also work on different hardware that supports a 56 bit VA space. After feedback, it looks like a better solution than the mmap flag is to use the personality syscall to set a process wide restriction to 47 bits instead, which matches the 32 bit flag that already exists.
- Charlie