-
Notifications
You must be signed in to change notification settings - Fork 626
New issue
Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.
By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.
Already on GitHub? Sign in to your account
WASI threads support #1790
Comments
Does it mean users have to write some glue code to satisfy wasi-threads requirements and can't keep their original version of code? |
embedder will need wasi initialization etc. wasm apps will need a rebuild at least. |
Glue code might or might not be needed depending on the features being used. At the moment wasi-libc does not implement all the pthread API (having said that, I don't think WAMR pthread implement it all either?) so there might be some limitations. I'd suggest keeping pthread as an option for now and only if we achieve feature parity in wasi-libc (or we're close to that, and we're ok accepting potential gaps), we can drop pthread library. |
This is necessary for WASI threads as the aux stack should be managed by the application. See #1790 for details.
Because stack grows from high address towards low address, the value returned by malloc is the end of the stack, not top of the stack. The top of the stack is the end of the allocated space (i.e. address returned by malloc + cluster size). Refer to #1790.
I'm resolving the issue as the functionality has been already implemented and a lot of tests have been added. We'll continue testing and bugfixing the feature but any further problems will be tracked in separate github issue. |
This is necessary for WASI threads as the aux stack should be managed by the application. See bytecodealliance#1790 for details.
Because stack grows from high address towards low address, the value returned by malloc is the end of the stack, not top of the stack. The top of the stack is the end of the allocated space (i.e. address returned by malloc + cluster size). Refer to bytecodealliance#1790.
I create this issue to track implementation of the
WASI threads
proposal, define technical approach and give opportunity for discussion.High-level approach
The high-level approach for implementing
WASI threads
is to create a new module instance for every new thread and only share the memory between created instances.API
As of today there's a single API that has to be added to the host:
where
start_arg
is an opaque pointer and its value should not be inspected by the host environment; instead, it should be passed back to the WASM code. The function return unique non-negative thread identifier integer.thread_spawn
instantiates new thread, and must call the following exported function in a new thread once the thread is ready:where the
start_arg
is exactly the same value as the one being passed to thethread_spawn
, andthread_id
is the same thread ID as the one returned fromthread_spawn
.Project structure
We considered two approaches:
libc-wasi
, given it is already part of wasi sdkiwasm/core/libraries
) that includes the implementationThe main benefit of the former approach is consistency with other APIs; however, we decided to go for the latter approach due to the following reasons:
WASI threads
is still in progress and some of the concepts haven't been fully clarified yet; having it as a separate library help emphasizing the instability of the module to potential usersifdef
's here and there as the whole implementation will live in a separate place; that will enable us to have cleaner and more maintainable codeCompatibility
WAMR already allows for spawning new threads, either using pthread library or wasm_runtime_spawn_thread.
Our goal as part of wasi threads support is to provide a replacement for pthread library (through wasi-libc) therefore we won't guarantee compatibility with pthread library (i.e. both wasi threads and pthread library can not be used at the same time). If we see that using both implementations at the same time might actually be harmful, we might even restrict enabling both features at the same time at build time.
Users who are willing to use threads, should be instructed to use wasi-libc implementation on top of wasi threads in WAMR, so eventually pthread library can be deprecated and removed.
We see a value in keeping
wasm_runtime_spawn_thread
in parallel to wasi threads as this allows running concurrently multiple instances of a module from the native code (as opposed to spawning new threads from WASM code itself). wasi threads implementation should be able to work in parallel withwasm_runtime_spawn_thread
functionality (with caveats, see sections below).Thread instantiation & management
wasi threads implementation needs some sort of native thread management for multiple reasons, e.g.:
wasi_thread_exit
-like API is needed in Iswasi_thread_exit
needed? WebAssembly/wasi-threads#7; if so, or if other syscalls are being added for threads (e.g. for setting thread priorities), thread manager must be able to locate the thread and interact with it accordingly.WAMR already have a concept of WASM threads implemented using pthread library and thread management using thread manager. We'll use this thread manager for prototype as it gives us out of the box thread instantiation. However, because thread manager also enforces aux stack management, we'll have to refactor the module to allow pass aux stack control to the application.
Auxiliary stack management
Currently WAMR manages stack boundaries when threads are enabled:
The approach is not ideal for a few reasons:
-z stack-size=XXX
is split across all the threads, therefore e.g. the main thread receives only a fraction of the stack size. This is inconsistent with LLD's-Wl,-stack_size
, where the thread receives a fullstack_size
value.pthread_create
) allocates memory for the stack dynamically, so there's no need for the host to manage stack for multiple threads.We'll disable stack allocation for new threads created with
wasi_thread_spawn
and instead, we off-load stack management to WASM application.Similar approach can be used for
wasm_runtime_spawn_thread
; we'll usewasm_runtime_module_malloc
/wasm_runtime_module_free
to allocate aux stack either in libc heap (ifmalloc
/free
are exported) or app heap.Stack overrun detection
At the moment WAMR has the information about stack boundaries so can detect aux stack overflow/underflow when it happens. This detection still will be possible for
wasm_runtime_spawn_thread
because the memory for those methods will be allocated in native code. However, WAMR won't have access to stack boundaries defined by wasi-libc's pthread implementation. This was already discussed in WebAssembly/wasi-threads#12; one of the approach is to use binaryen's stack-check pass.MVP Tasks
thread_spawn
function Add implementation for wasi_thread_spawn() #1786proc_exit
terminates all of the threads, and traps kill the processThe text was updated successfully, but these errors were encountered: