esp-idf: Make esp-idf support Libc WASI
1. Support to get WASM APP libs' DIR from upper layer
2. Add SSP support for esp-idf platform
3. Change the errno of readlinkat
Reserve one pointer size for fast-interp code_compiled_size: if the last opcode of
current function is to be dropped (e.g. OP_DROP), the peak memory usage will
be larger than the final code_compiled_size, we record the peak size to ensure
there won't be invalid memory access during the second traversing.
Remove some unused fields in module instance and the related codes,
which are introduced by emsdk some special mode (-DSIDE_MODULE=1),
and are not required now.
Add a new option WAMR_BUILD_STACK_GUARD_SIZE to set the custom
stack guard size. For most RTOS systems, we use the native stack base
address as the check boundary which may be not safe as POSIX based
systems (like Linux).
Thread data should not be destroyed when thread exits, or other thread
may not be able to join it. This PR saves the thread data into thread data
list when thread exits, sets thread status and stores the return value, so
that other thread can join it.
Also set MEM_TOP_DOWN flag for Windows VirtualAlloc to yield LLVM
JIT relocation error.
And set opt/size level to 3 for LLVM JIT for future use, currently the flags
are not used by LLVM JIT.
ASSERT_NOT_IMPLEMENTED is bh_assert, which might be no-op.
in that case, it's better to fall back to the "default" case,
which reports an error properly.
Should not clear last label's polymorphic state after current label is popped
Fix invalid func_idx check in opcode REF_FUNC
Add check when there are extra unneeded bytecodes for a wasm function
Fix dump call stack issue in interpreter introduced by hw bound check:
the call stack isn't dumped if the exception is thrown and caught by
signal handler.
And restore the wasm stack frame to the original status after calling a
wasm function.
Lookup table for i32.const and i64.const for xtensa XIP
Lookup const offset from table for load/store opcodes for xtensa XIP
Fill capability flags for xtensa XIP
Enable lower switch pass for xtensa XIP
Import WAMR Fast JIT which is a lightweight JIT with quick startup, small footprint,
relatively good performance (~40% to ~50% of LLVM JIT) and good portability.
Platforms supported: Linux, MacOS and Linux SGX.
Arch supported: x86-64.
Since legacy binding for loop unswitch pass was removed and we can't get
it back. Implement its equivalent in `aot_llvm_extra.cpp` and use it in
`aot_compiler.c`.
Follow up to #1183.
Before resolving the module function's export in wasm_mini_loader,
"module->retain_function" need to be initialized, otherwise,
the "__new" function export will lead to abort.
issue: https://github.com/bytecodealliance/wasm-micro-runtime/issues/1332
Co-authored-by: yaozhongxiao <yaozhongxiao@bytedance.com>
Fix build script to enable hw bound check for interpreter when
AOT is disabled, so as to enable spec cases test for interp with
hw bound check. And fix the issues found.
Implement boundary check with hardware trap for interpreter on
64-bit platforms:
- To improve the performance of interpreter and Fast JIT
- To prepare for multi-tier compilation for the feature
Linux/MacOS/Windows 64-bit are enabled.
The existing validation didn't work as expected; e.g. for address
pool: 8.8.8.8/24 the application had access to the 127.0.0.1 address (which
should not).
Fix the issue reported in #1282.
When i32/i64 rotate (rotl/rotr) with 0, the LLVM IRs translated are:
left<<0 | left>>64 and left >>0 | left<<64
The value of left >> 64 and left <<64 in LLVM are treated as poison,
which causes invalid result when executing the aot function.
Directly return left when right is 0 to fix the issue.
Sub module's auxiliary stack boundary and bottom may be different from
main module's counterpart, so when calling sub module, its aux stack info
should be gotten and set to exec_env firstly, or aux stack overflow and out
of bounds memory access exception may be thrown when calling sub
module's function.
Fix the issue reported in PR #1278.
Enhance the hw bound check reported in #1262:
When registering signal handlers for SIGSEGV & SIGBUS in boundary
check with hardware trap, preserve the previous handlers for signal
SIGSEGV and SIGBUS, and forward the signal to the preserved signal
handlers if it isn't handled by hw bound check.
Enable aot compiler and jit based on llvm-14.0 and llvm-15.0git,
replace LLVMBuildLoad/LLVMBuildInBoundsGEP/LLVMBuildCall with
LLVMBuildLoad2/LLVMBuildInBoundsGEP2/LLVMBuildCall2, and pass
them with related types, so as to meet the requirements of opaque
pointers.
And fix several compilation errors for llvm-14.0/15.0git.
Most spec cases and standalone cases are tested.
Fix the following warning introduced by the recent change.
```
In file included from wamr/core/iwasm/libraries/libc-wasi/sandboxed-system-primitives/src/locking.h:17,
from wamr/core/iwasm/libraries/libc-wasi/sandboxed-system-primitives/src/posix.h:18,
from wamr/core/iwasm/aot/../common/wasm_runtime_common.h:18,
from wamr/core/iwasm/aot/aot_runtime.h:10,
from wamr/core/iwasm/aot/aot_loader.c:6:
wamr/core/iwasm/libraries/libc-wasi/sandboxed-system-primitives/src/ssp_config.h:55: error: "CONFIG_HAS_ISATTY" redefined [-Werror]
#define CONFIG_HAS_ISATTY 1
In file included from wamr/core/shared/utils/../platform/include/platform_common.h:13,
from wamr/core/shared/utils/bh_platform.h:9,
from wamr/core/iwasm/aot/aot_runtime.h:9,
from wamr/core/iwasm/aot/aot_loader.c:6:
wamr/core/shared/platform/nuttx/platform_internal.h:75: note: this is the location of the previous definition
#define CONFIG_HAS_ISATTY 0
```
When using clang compiler, the f32/f64 return value might be
invalid when calling invokeNative asm code. Declare the return
type of invokeNative as void, and set volatile for the converted
function pointers to resolve the issue.
Enable dump call stack to a buffer, use API
`wasm_runtime_get_call_stack_buf_size` to get the required buffer size
and use API
`wasm_runtime_dump_call_stack_to_buf` to dump call stack to a buffer
Support integrating 3rd-party toolchain llc compiler or asm compiler
into wamrc by setting environment variable WAMRC_LLC_COMPILER
or WAMRC_ASM_COMPILER, wamrc will use these tools to generate
object file from LLVM IR firstly, and then refactor the object file into
aot file.
