This would conflict with our own heap. We previously defined all those
functions to make sure it's not used, but with a more recent wasi-libc
version (https://github.com/WebAssembly/wasi-libc/pull/250) we can
simply not compile the wasi-libc heap, which is the proper fix.
This adds support for building with `-tags=llvm13` and switches to LLVM
13 for tinygo binaries that are statically linked against LLVM.
Some notes on this commit:
* Added `-mfloat-abi=soft` to all Cortex-M targets because otherwise
nrfx would complain that floating point was enabled on Cortex-M0.
That's not the case, but with `-mfloat-abi=soft` the `__SOFTFP__`
macro is defined which silences this warning.
See: https://reviews.llvm.org/D100372
* Changed from `--sysroot=<root>` to `-nostdlib -isystem <root>` for
musl because with Clang 13, even with `--sysroot` some system
libraries are used which we don't want.
* Changed all `-Xclang -internal-isystem -Xclang` to simply
`-isystem`, for consistency with the above change. It appears to
have the same effect.
* Moved WebAssembly function declarations to the top of the file in
task_asyncify_wasm.S because (apparently) the assembler has become
more strict.
The idea here is as follows:
- Run all Linux and cross compilation tests in the asser-test-linux
job.
- Only run native tests on MacOS and Windows.
This reduces testing time on MacOS and Windows, which are generally more
expensive in CI. Also, by not duplicating tests in Windows and MacOS we
can reduce overall CI usage a bit.
I've also changed the assert-test-linux job a bit to so that the tests
that are more likely to break and the tests that are only run in
assert-test-linux are run first.
Split building the release and smoke-testing the release in two, and
don't redo some tests that are already done by assert-test-linux.
Some benefits:
- Lower overall CI time because tests aren't done multiple times.
- TinyHCI can run earlier because the build-linux job is finished as
soon as the build artifact is ready.
It does however have the downside of an extra job, which costs a few
seconds to spin up and a few seconds to push and pull the workspace. But
even with this, overall CI time is down by a few minutes per workflow
run.
Instead of doing lots of repetitive tests in test-llvm11-go115 and
test-llvm11-go116, do those tests only once in assert-test-linux and
only run smoke tests for older Go versions.
Benefits:
- This should reduce total CI time, because these jobs don't do tests
that are done elsewere anyway. They only do the minimal work
necessary to prove that the given Go/LLVM version works.
- Doing all tests in assert-test-linux hopefully catches bugs that
might not be found in regular LLVM builds.
This change implements a new "scheduler" for WebAssembly using binaryen's asyncify transform.
This is more reliable than the current "coroutines" transform, and works with non-Go code in the call stack.
runtime (js/wasm): handle scheduler nesting
If WASM calls into JS which calls back into WASM, it is possible for the scheduler to nest.
The event from the callback must be handled immediately, so the task cannot simply be deferred to the outer scheduler.
This creates a minimal scheduler loop which is used to handle such nesting.
This commit adds support for musl-libc and uses it by default on Linux.
The main benefit of it is that binaries are always statically linked
instead of depending on the host libc, even when using CGo.
Advantages:
- The resulting binaries are always statically linked.
- No need for any tools on the host OS, like a compiler, linker, or
libc in a release build of TinyGo.
- This also simplifies cross compilation as no cross compiler is
needed (it's all built into the TinyGo release build).
Disadvantages:
- Binary size increases by 5-6 kilobytes if -no-debug is used. Binary
size increases by a much larger margin when debugging symbols are
included (the default behavior) because musl is built with debugging
symbols enabled.
- Musl does things a bit differently than glibc, and some CGo code
might rely on the glibc behavior.
- The first build takes a bit longer because musl needs to be built.
As an additional bonus, time is now obtained from the system in a way
that fixes the Y2038 problem because musl has been a bit more agressive
in switching to 64-bit time_t.
This is for consistency with Clang, which always adds a CPU flag even if
it's not specified in CFLAGS.
This commit also adds some tests to make sure the Clang target-cpu
matches the CPU property in the JSON files.
This does have an effect on the generated binaries. The effect is very
small though: on average just 0.2% increase in binary size, apparently
because Cortex-M3 and Cortex-M4 are compiled a bit differently. However,
when rebased on top of https://github.com/tinygo-org/tinygo/pull/2218
(minsize), the difference drops to -0.1% (a slight decrease on average).
Hopefully this will fix the CI breakage after curl and wget refuse to
download anything from wasmtime.dev (which is signed by Let's Encrypt).
- wget needs and updated libgnutls30
- curl needs and updated libssl1.0.2
This commit disables the Clang static analyzer and ARCMigrate components
of Clang. These aren't used at the moment in TinyGo so don't need to be
enabled. This reduces the build by 200 files (2909 -> 2709).
The idea comes from here (via LLVM weekly):
https://www.cambus.net/speedbuilding-llvm-clang-in-5-minutes/
The CircleCI macOS builds are failing, probably due to the old macOS
version that's used. This version (10.13 High Sierra) isn't supported
anymore on Homebrew so it seems best to me to simply bump the version.
I picked Xcode 11.1.0 because 10.3.0 is somehow triggering an error
while trying to install QEMU (the Python install fails).
Because of this newer Xcode version, I had to add an extra flag
(-isysroot) to the default command line for MacOS. The reason is that
this newer Xcode version no longer stores header files in /usr/local, an
SDK must be specified manually. With this change, the default SDK is
used.
Instead of the regular build, it's the `make test` line that fails due
to OOM. This is because testing means that a lot of test binaries need
to be built while the regular build only needs to link one binary.
This improves https://github.com/tinygo-org/tinygo/pull/1774 and should
hopefully actually fix the OOM errors.
This job is causing OOM errors on CircleCI so limit it to just two jobs
(which should be fine on a 2CPU executor). Hopefully this fixes the
errors in CI that have occured recently.
This LLVM version breaks CI and is now relatively rather old anyway, so
remove support for it.
This also reverts a workaround for LLVM 9, see a9568932b ("maixbit:
workaround to avoid medium code model").
This commit finally introduces unit tests for the compiler, to check
whether input Go code is converted to the expected output IR.
To make this necessary, a few refactors were needed. Hopefully these
refactors (to compile a program package by package instead of all at
once) will eventually become standard, so that packages can all be
compiled separate from each other and be cached between compiles.
This commit switches to LLVM 11 for builds with LLVM linked statically
(e.g. `make`). It does not yet switch the default for builds dynamically
linked to LLVM, that should be done in a later change.
This commit also changes to use the default host toolchain (probably
GCC) instead of Clang as the default compiler in CI. There were some
issues with Clang 3.8 in CI and hopefully this will fix it.
Additionally it updates the way LLVM is built on Windows, with
-DLLVM_ENABLE_PIC=OFF (which should have been used all along). This
change makes it possible to revert a hack to build libclang manually and
instead uses the libclang static library like on all other operating
systems, simplifying the Makefile.
Unfortunately, CircleCI doesn't seem to provide Debian stretch builds
with Go 1.15. We should be using Debian stretch (an older distro) to
make sure the tinygo binary runs on as many Linux systems as possible
(including older ones), and I think using Go 1.14 for these builds is
unfortunate but the better tradeoff.
This can be useful to test improvements in LLVM master and to make it
possible to support LLVM 11 for the most part already before the next
release. That also allows catching LLVM bugs early to fix them upstream.
Note that tests do not yet pass for this LLVM version, but the TinyGo
compiler can be built with the binaries from apt.llvm.org (at the time
of making this commit).
To avoid breaking this, make sure we actually test x86-32 (aka i386 aka
GOARCH=386) support in CI.
Also remove the now-unnecessary binutils-arm-none-eabi package to speed
up CI a bit.
* initial commit for WASI support
* merge "time" package with wasi build tag
* override syscall package with wasi build tag
* create runtime_wasm_{js,wasi}.go files
* create syscall_wasi.go file
* create time/zoneinfo_wasi.go file as the replacement of zoneinfo_js.go
* add targets/wasi.json target
* set visbility hidden for runtime extern variables
Accodring to the WASI docs (https://github.com/WebAssembly/WASI/blob/master/design/application-abi.md#current-unstable-abi),
none of exports of WASI executable(Command) should no be accessed.
v0.19.0 of bytecodealliance/wasmetime, which is often refered to as the reference implementation of WASI,
does not accept any exports except functions and the only limited variables like "table", "memory".
* merge syscall_{baremetal,wasi}.go
* fix js target build
* mv wasi functions to syscall/wasi && implement sleepTicks
* WASI: set visibility hidden for globals variables
* mv back syscall/wasi/* to runtime package
* WASI: add test
* unexport wasi types
* WASI test: fix wasmtime path
* stop changing visibility of runtime.alloc
* use GOOS=linux, GOARCH=arm for wasi target
Signed-off-by: mathetake <takeshi@tetrate.io>
* WASI: fix build tags for os/runtime packages
Signed-off-by: mathetake <takeshi@tetrate.io>
* run WASI test only on Linux
Signed-off-by: mathetake <takeshi@tetrate.io>
* set InternalLinkage instead of changing visibility
Signed-off-by: mathetake <takeshi@tetrate.io>
These packages are known to pass tests with `tinygo test`. It's still a
very short list, but hopefully this list can be expanded to eventually
cover most or all of the standard library.
This is only very minimal support. More support (such as tinygo flash,
or peripheral access) should be added in later commits, to keep this one
focused.
Importantly, this commit changes the LLVM repo from llvm/llvm-project to
tinygo-org/llvm-project. This provides a little bit of versioning in
case something changes in the Espressif fork. If we want to upgrade to
LLVM 11 it's easy to switch back to llvm/llvm-project until Espressif
has updated their fork.
Ayke van Laethem
deadprogram
Nia Waldvogel
sago35
Elliott Sales de Andrade
Takeshi Yoneda
Johan Brandhorst
Brad Peabody