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Merge branch main into dev/memory64

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This commit is contained in:
Wenyong Huang 2024-04-29 14:22:24 +08:00
commit 6760b8826d
140 changed files with 8694 additions and 1743 deletions
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35
.github/dependabot.yml vendored Normal file
View File

@ -0,0 +1,35 @@
# Copyright (C) 2019 Intel Corporation. All rights reserved.
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
version: 2
updates:
- package-ecosystem: "github-actions"
directory: "/"
schedule:
interval: "weekly"
- package-ecosystem: "docker"
directory: "/.devcontainer"
schedule:
interval: "weekly"
- package-ecosystem: "devcontainers"
directory: "/"
schedule:
interval: "weekly"
- package-ecosystem: "pip"
directory: "/build-scripts"
schedule:
interval: "weekly"
- package-ecosystem: "pip"
directory: "/language-bindings/python/wasm-c-api"
schedule:
interval: "weekly"
- package-ecosystem: "pip"
directory: "/language-bindings/python/wamr-api"
schedule:
interval: "weekly"

25
.github/workflows/codeql_buildscript.sh → .github/scripts/codeql_buildscript.sh vendored
View File

@ -1,5 +1,10 @@
#!/usr/bin/env bash
#
# Copyright (C) 2019 Intel Corporation. All rights reserved.
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
#
sudo apt update
sudo apt install -y build-essential cmake g++-multilib libgcc-11-dev lib32gcc-11-dev ccache ninja-build ccache
@ -101,6 +106,26 @@ if [[ $? != 0 ]]; then
exit 1;
fi
# build iwasm with exception handling enabled
cd ${WAMR_DIR}/product-mini/platforms/linux
rm -rf build && mkdir build && cd build
cmake .. -DCMAKE_BUILD_TYPE=Debug -DWAMR_BUILD_EXCE_HANDLING=1
make -j
if [[ $? != 0 ]]; then
echo "Failed to build iwasm with exception handling enabled!"
exit 1;
fi
# build iwasm with memory64 enabled
cd ${WAMR_DIR}/product-mini/platforms/linux
rm -rf build && mkdir build && cd build
cmake .. -DCMAKE_BUILD_TYPE=Debug -DWAMR_BUILD_MEMORY64=1
make -j
if [[ $? != 0 ]]; then
echo "Failed to build iwasm with memory64 enabled!"
exit 1;
fi
# build iwasm with hardware boundary check disabled
cd ${WAMR_DIR}/product-mini/platforms/linux
rm -rf build && mkdir build && cd build

124
.github/scripts/codeql_fail_on_error.py vendored Executable file
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@ -0,0 +1,124 @@
#!/usr/bin/env python3
#
# Copyright (C) 2019 Intel Corporation. All rights reserved.
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
#
import json
import sys
import os
import requests
def fetch_dismissed_alerts(repo_name, github_token):
headers = {
"Authorization": f"token {github_token}",
"Accept": "application/vnd.github.v3+json",
}
url = (
f"https://api.github.com/repos/{repo_name}/code-scanning/alerts?state=dismissed"
)
response = requests.get(url, headers=headers)
return response.json() # This assumes a successful API call
def parse_location(location):
path = location.get("physicalLocation", {}).get("artifactLocation", {}).get("uri")
start_line = location.get("physicalLocation", {}).get("region", {}).get("startLine")
column_range = (
location.get("physicalLocation", {}).get("region", {}).get("startColumn"),
location.get("physicalLocation", {}).get("region", {}).get("endColumn"),
)
return (path, start_line, column_range)
def is_dismissed(rule_id, path, start_line, column_range, dismissed_alerts):
for alert in dismissed_alerts:
alert_rule_id = alert.get("rule", {}).get("id")
alert_path = alert.get("location", {}).get("path")
alert_start_line = alert.get("location", {}).get("start_line")
alert_column_range = (
alert.get("location", {}).get("start_column"),
alert.get("location", {}).get("end_column"),
)
if (
rule_id == alert_rule_id
and path == alert_path
and start_line == alert_start_line
and column_range == alert_column_range
):
return True
return False
# Return whether SARIF file contains error-level results
def codeql_sarif_contain_error(filename, dismissed_alerts):
has_error = False
with open(filename, "r") as f:
s = json.load(f)
for run in s.get("runs", []):
rules_metadata = run["tool"]["driver"]["rules"]
if not rules_metadata:
rules_metadata = run["tool"]["extensions"][0]["rules"]
for res in run.get("results", []):
if "ruleIndex" in res:
rule_index = res["ruleIndex"]
elif "rule" in res and "index" in res["rule"]:
rule_index = res["rule"]["index"]
else:
continue
# check whether it's dismissed before
rule_id = res["ruleId"]
path, start_line, column_range = parse_location(res["locations"][0])
# the source code is from dependencies
if "_deps" in path:
continue
if is_dismissed(rule_id, path, start_line, column_range, dismissed_alerts):
print(
f"====== Finding a dismissed entry: {rule_id} at {path}:{start_line} is dismissed.======"
)
print(res)
continue
try:
rule_level = rules_metadata[rule_index]["defaultConfiguration"]["level"]
except IndexError as e:
print(e, rule_index, len(rules_metadata))
else:
if rule_level == "error":
# very likely to be an actual error
if rules_metadata[rule_index]["properties"].get("precision") in [
"high",
"very-high",
]:
# the security severity is above medium(Common Vulnerability Scoring System (CVSS) >= 4.0)
if "security-severity" in rules_metadata[rule_index][
"properties"
] and (
float(
rules_metadata[rule_index]["properties"][
"security-severity"
]
)
> 4.0
):
print("====== Finding a likely error. ======")
print(res)
has_error = True
return has_error
if __name__ == "__main__":
GITHUB_TOKEN = os.getenv("GITHUB_TOKEN")
GITHUB_REPOSITORY = os.getenv("GITHUB_REPOSITORY")
dismissed_alerts = fetch_dismissed_alerts(GITHUB_REPOSITORY, GITHUB_TOKEN)
if codeql_sarif_contain_error(sys.argv[1], dismissed_alerts):
sys.exit(1)

9
.github/scripts/fetch_and_compare_version.py vendored
View File

@ -42,9 +42,12 @@ def fetch_version_from_code():
def fetch_latest_git_tag():
list_tag_cmd = (
'git tag --list WAMR-*.*.* --sort=committerdate --format="%(refname:short)"'
)
"""
Get the most recent tag from the HEAD,
if it's main branch, it should be the latest release tag.
if it's release/x.x.x branch, it should be the latest release tag of the branch.
"""
list_tag_cmd = "git describe --tags --abbrev=0 HEAD"
p = subprocess.run(shlex.split(list_tag_cmd), capture_output=True, check=True)
all_tags = p.stdout.decode().strip()

4
.github/workflows/build_wamr_lldb.yml vendored
View File

@ -82,9 +82,7 @@ jobs:
- name: install utils macos
if: steps.lldb_build_cache.outputs.cache-hit != 'true' && contains(inputs.runner, 'macos')
run: |
brew remove swig
brew install swig@4.1 cmake ninja libedit
brew link --overwrite swig@4.1
brew install swig cmake ninja libedit
sudo rm -rf /Library/Developer/CommandLineTools
- name: install utils ubuntu

6
.github/workflows/build_wamr_sdk.yml vendored
View File

@ -58,6 +58,12 @@ jobs:
sudo rm ${basename}
sudo mv wasi-sdk-* wasi-sdk
- name: download dependencies
run: |
cd ./wamr-app-framework/deps
./download.sh
working-directory: wamr-sdk
- name: generate wamr-sdk release
run: |
cd ./wamr-app-framework/wamr-sdk

2
.github/workflows/build_wamr_vscode_ext.yml vendored
View File

@ -21,7 +21,7 @@ jobs:
- uses: actions/checkout@v4
- name: Use Node.js 16.x
uses: actions/setup-node@v3
uses: actions/setup-node@v4
with:
node-version: 16.x

17
.github/workflows/codeql.yml vendored
View File

@ -28,7 +28,7 @@ jobs:
# - https://gh.io/supported-runners-and-hardware-resources
# - https://gh.io/using-larger-runners
# Consider using larger runners for possible analysis time improvements.
runs-on: ${{ (matrix.language == 'swift' && 'macos-latest') || 'ubuntu-20.04' }}
runs-on: ${{ (matrix.language == 'swift' && 'macos-13') || 'ubuntu-20.04' }}
timeout-minutes: ${{ (matrix.language == 'swift' && 120) || 360 }}
permissions:
actions: read
@ -49,7 +49,7 @@ jobs:
# Initializes the CodeQL tools for scanning.
- name: Initialize CodeQL
uses: github/codeql-action/init@v2
uses: github/codeql-action/init@v3
with:
languages: ${{ matrix.language }}
@ -64,9 +64,9 @@ jobs:
# modify them (or add more) to build your code if your project, please refer to the EXAMPLE below for guidance.
- run: |
./.github/workflows/codeql_buildscript.sh
./.github/scripts/codeql_buildscript.sh
- name: Perform CodeQL Analysis
uses: github/codeql-action/analyze@v2
uses: github/codeql-action/analyze@v3
with:
category: "/language:${{matrix.language}}"
upload: false
@ -95,14 +95,14 @@ jobs:
output: ${{ steps.step1.outputs.sarif-output }}/cpp.sarif
- name: Upload CodeQL results to code scanning
uses: github/codeql-action/upload-sarif@v2
uses: github/codeql-action/upload-sarif@v3
with:
sarif_file: ${{ steps.step1.outputs.sarif-output }}
category: "/language:${{matrix.language}}"
- name: Upload CodeQL results as an artifact
if: success() || failure()
uses: actions/upload-artifact@v3
uses: actions/upload-artifact@v4
with:
name: codeql-results
path: ${{ steps.step1.outputs.sarif-output }}
@ -110,5 +110,8 @@ jobs:
- name: Fail if an error is found
run: |
./.github/workflows/codeql_fail_on_error.py \
./.github/scripts/codeql_fail_on_error.py \
${{ steps.step1.outputs.sarif-output }}/cpp.sarif
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
GITHUB_REPOSITORY: ${{ github.repository }}

34
.github/workflows/codeql_fail_on_error.py vendored
View File

@ -1,34 +0,0 @@
#!/usr/bin/env python3
import json
import sys
# Return whether SARIF file contains error-level results
def codeql_sarif_contain_error(filename):
with open(filename, 'r') as f:
s = json.load(f)
for run in s.get('runs', []):
rules_metadata = run['tool']['driver']['rules']
if not rules_metadata:
rules_metadata = run['tool']['extensions'][0]['rules']
for res in run.get('results', []):
if 'ruleIndex' in res:
rule_index = res['ruleIndex']
elif 'rule' in res and 'index' in res['rule']:
rule_index = res['rule']['index']
else:
continue
try:
rule_level = rules_metadata[rule_index]['defaultConfiguration']['level']
except IndexError as e:
print(e, rule_index, len(rules_metadata))
else:
if rule_level == 'error':
return True
return False
if __name__ == "__main__":
if codeql_sarif_contain_error(sys.argv[1]):
sys.exit(1)

11
.github/workflows/compilation_on_android_ubuntu.yml vendored
View File

@ -389,14 +389,14 @@ jobs:
cd /opt
sudo wget ${{ matrix.wasi_sdk_release }}
sudo tar -xzf wasi-sdk-*.tar.gz
sudo mv wasi-sdk-20.0 wasi-sdk
sudo ln -sf wasi-sdk-20.0 wasi-sdk
- name: download and install wabt
run: |
cd /opt
sudo wget ${{ matrix.wabt_release }}
sudo tar -xzf wabt-1.0.31-*.tar.gz
sudo mv wabt-1.0.31 wabt
sudo ln -sf wabt-1.0.31 wabt
- name: Get LLVM libraries
id: retrieve_llvm_libs
uses: actions/cache@v4
@ -491,6 +491,13 @@ jobs:
./iwasm wasm-apps/trap.aot | grep "#" > call_stack_aot.txt
bash -x ../symbolicate.sh
- name: Build Sample [native-stack-overflow]
run: |
cd samples/native-stack-overflow
./build.sh
./run.sh test1
./run.sh test2
test:
needs:
[

29
.github/workflows/compilation_on_macos.yml vendored
View File

@ -56,7 +56,7 @@ jobs:
build_llvm_libraries_on_intel_macos:
uses: ./.github/workflows/build_llvm_libraries.yml
with:
os: "macos-latest"
os: "macos-13"
arch: "X86"
build_llvm_libraries_on_arm_macos:
uses: ./.github/workflows/build_llvm_libraries.yml
@ -70,7 +70,7 @@ jobs:
strategy:
matrix:
include:
- os: macos-latest
- os: macos-13
llvm_cache_key: ${{ needs.build_llvm_libraries_on_intel_macos.outputs.cache_key }}
steps:
- name: checkout
@ -131,7 +131,7 @@ jobs:
"-DWAMR_BUILD_TAIL_CALL=1",
"-DWAMR_DISABLE_HW_BOUND_CHECK=1",
]
os: [macos-latest]
os: [macos-13]
platform: [darwin]
exclude:
# uncompatiable feature and platform
@ -173,7 +173,7 @@ jobs:
- make_options_run_mode: $LLVM_EAGER_JIT_BUILD_OPTIONS
make_options_feature: "-DWAMR_BUILD_MINI_LOADER=1"
include:
- os: macos-latest
- os: macos-13
llvm_cache_key: ${{ needs.build_llvm_libraries_on_intel_macos.outputs.cache_key }}
steps:
- name: checkout
@ -218,7 +218,7 @@ jobs:
#$LLVM_EAGER_JIT_BUILD_OPTIONS,
#$AOT_BUILD_OPTIONS,
]
os: [macos-latest]
os: [macos-13]
wasi_sdk_release:
[
"https://github.com/WebAssembly/wasi-sdk/releases/download/wasi-sdk-20/wasi-sdk-20.0-macos.tar.gz",
@ -250,7 +250,7 @@ jobs:
runs-on: ${{ matrix.os }}
strategy:
matrix:
os: [macos-latest, macos-14]
os: [macos-13, macos-14]
wasi_sdk_release:
[
"https://github.com/WebAssembly/wasi-sdk/releases/download/wasi-sdk-20/wasi-sdk-20.0-macos.tar.gz",
@ -260,7 +260,7 @@ jobs:
"https://github.com/WebAssembly/wabt/releases/download/1.0.31/wabt-1.0.31-macos-12.tar.gz",
]
include:
- os: macos-latest
- os: macos-13
llvm_cache_key: ${{ needs.build_llvm_libraries_on_intel_macos.outputs.cache_key }}
- os: macos-14
llvm_cache_key: ${{ needs.build_llvm_libraries_on_arm_macos.outputs.cache_key }}
@ -273,14 +273,14 @@ jobs:
cd /opt
sudo wget ${{ matrix.wasi_sdk_release }}
sudo tar -xzf wasi-sdk-*.tar.gz
sudo mv wasi-sdk-20.0 wasi-sdk
sudo ln -sf wasi-sdk-20.0 wasi-sdk
- name: download and install wabt
run: |
cd /opt
sudo wget ${{ matrix.wabt_release }}
sudo tar -xzf wabt-1.0.31-*.tar.gz
sudo mv wabt-1.0.31 wabt
sudo ln -sf wabt-1.0.31 wabt
- name: Build Sample [basic]
run: |
@ -346,7 +346,7 @@ jobs:
cmake ..
cmake --build . --config Release --parallel 4
working-directory: wamr-compiler
- name: Build Sample [wasi-threads]
run: |
cd samples/wasi-threads
@ -378,4 +378,11 @@ jobs:
cmake --build . --config Debug --parallel 4
./iwasm wasm-apps/trap.wasm | grep "#" > call_stack.txt
./iwasm wasm-apps/trap.aot | grep "#" > call_stack_aot.txt
bash -x ../symbolicate.sh
bash -x ../symbolicate.sh
- name: Build Sample [native-stack-overflow]
run: |
cd samples/native-stack-overflow
./build.sh
./run.sh test1
./run.sh test2

25
.github/workflows/compilation_on_nuttx.yml vendored
View File

@ -61,8 +61,6 @@ jobs:
"boards/arm/rp2040/raspberrypi-pico/configs/nsh",
# cortex-m7
"boards/arm/stm32h7/nucleo-h743zi/configs/nsh",
# riscv32imc
"boards/risc-v/espressif/esp32c3-generic/configs/nsh",
# riscv32gc
"boards/risc-v/qemu-rv/rv-virt/configs/nsh",
# riscv64gc
@ -114,3 +112,26 @@ jobs:
cd nuttx
tools/configure.sh ${{ matrix.nuttx_board_config }}
make -j$(nproc) EXTRAFLAGS=-Werror
- name: Checkout Bloaty
uses: actions/checkout@v3
with:
repository: google/bloaty
submodules: recursive
path: bloaty
- name: Build Bloaty
run: |
cmake -Bbuild -GNinja bloaty
cmake --build build
- name: Size Report
run: |
echo "Build target: ${{ matrix.nuttx_board_config }}"
echo "WAMR build config: ${{ matrix.wamr_config_option }}"
echo "WAMR size:"
build/bloaty -d compileunits --source-filter wamr nuttx/nuttx
echo "libc-builtin size (if enabled):"
build/bloaty -d compileunits --source-filter libc-builtin nuttx/nuttx
echo "libc-wasi size (if enabled):"
build/bloaty -d compileunits --source-filter libc-wasi nuttx/nuttx

18
.github/workflows/create_tag.yml vendored
View File

@ -32,8 +32,22 @@ jobs:
- name: prepare
id: preparation
run: |
# show latest 3 versions
git tag --list WAMR-*.*.* --sort=committerdate --format="%(refname:short)" | tail -n 3
# show latest 3 versions on the branch that create release
# Set the initial commit to the head of the branch
commit="HEAD"
#
# Loop to get the three most recent tags
for i in {1..3}
do
# Get the most recent tag reachable from the current commit
tag=$(git describe --tags --abbrev=0 $commit)
# Print the tag
echo "$tag"
# Move to the commit before the found tag to find the next tag in the next iteration
commit=$(git rev-list -n 1 $tag^)
done
# compare latest git tag and semantic version definition
result=$(python3 ./.github/scripts/fetch_and_compare_version.py)
echo "script result is ${result}"

40
.github/workflows/nightly_run.yml vendored
View File

@ -8,7 +8,7 @@ on:
types:
- opened
- synchronize
# running nightly pipeline if you're changing it
# running nightly pipeline if you're changing it
# stress tests are run only in nightly at the moment, so running them in they are changed
paths:
- ".github/workflows/nightly_run.yml"
@ -54,7 +54,7 @@ jobs:
with:
os: "ubuntu-22.04"
arch: "X86"
build_wamrc:
needs:
[
@ -65,7 +65,7 @@ jobs:
matrix:
include:
- os: ubuntu-20.04
llvm_cache_key: ${{ needs.build_llvm_libraries_on_ubuntu_2004.outputs.cache_key }}
llvm_cache_key: ${{ needs.build_llvm_libraries_on_ubuntu_2004.outputs.cache_key }}
steps:
- name: checkout
uses: actions/checkout@v4
@ -459,13 +459,13 @@ jobs:
cd /opt
sudo wget ${{ matrix.wasi_sdk_release }}
sudo tar -xzf wasi-sdk-*.tar.gz
sudo mv wasi-sdk-20.0 wasi-sdk
sudo ln -sf wasi-sdk-20.0 wasi-sdk
- name: download and install wabt
run: |
cd /opt
sudo wget ${{ matrix.wabt_release }}
sudo tar -xzf wabt-1.0.31-*.tar.gz
sudo mv wabt-1.0.31 wabt
sudo ln -sf wabt-1.0.31 wabt
- name: Get LLVM libraries
id: retrieve_llvm_libs
@ -547,6 +547,34 @@ jobs:
cd samples/terminate
./build.sh
./run.sh
- name: Build Sample [native-stack-overflow]
run: |
cd samples/native-stack-overflow
./build.sh
./run.sh test1
./run.sh test2
- name: Build Sample [native-lib]
run: |
mkdir build && cd build
cmake ..
cmake --build . --config Release --parallel 4
./iwasm --native-lib=./libtest_add.so --native-lib=./libtest_sqrt.so --native-lib=./libtest_hello.so --native-lib=./libtest_hello2.so wasm-app/test.wasm
working-directory: ./samples/native-lib
- name: checkout wamr-app-framework
run: git clone https://github.com/bytecodealliance/wamr-app-framework.git
- name: download wamr-app-framework dependencies
run: LVGL=0 LV_DRIVERS=0 ./download.sh
working-directory: ./wamr-app-framework/deps
- name: Build Sample [simple]
run: |
./build.sh -p host-interp
python3 ./sample_test_run.py $(pwd)/out
exit $?
working-directory: ./wamr-app-framework/samples/simple
test:
needs:
[
@ -643,7 +671,7 @@ jobs:
sudo tar -xzf wasi-sdk-*.tar.gz
sudo mv wasi-sdk-20.0 wasi-sdk
# It is a temporary solution until new wasi-sdk that includes bug fixes is released
# It is a temporary solution until new wasi-sdk that includes bug fixes is released
- name: build wasi-libc from source
if: matrix.test_option == '$WASI_TEST_OPTIONS'
run: |

10
.github/workflows/release_process.yml vendored
View File

@ -69,7 +69,7 @@ jobs:
needs: [create_tag, create_release]
uses: ./.github/workflows/build_llvm_libraries.yml
with:
os: "macos-latest"
os: "macos-13"
arch: "AArch64 ARM Mips RISCV X86"
#
@ -100,7 +100,7 @@ jobs:
with:
llvm_cache_key: ${{ needs.build_llvm_libraries_on_macos.outputs.cache_key }}
release: true
runner: macos-latest
runner: macos-13
upload_url: ${{ needs.create_release.outputs.upload_url }}
ver_num: ${{ needs.create_tag.outputs.new_ver }}
@ -132,7 +132,7 @@ jobs:
with:
cwd: product-mini/platforms/darwin
llvm_cache_key: ${{ needs.build_llvm_libraries_on_macos.outputs.cache_key }}
runner: macos-latest
runner: macos-13
upload_url: ${{ needs.create_release.outputs.upload_url }}
ver_num: ${{ needs.create_tag.outputs.new_ver}}
@ -165,7 +165,7 @@ jobs:
uses: ./.github/workflows/build_wamr_sdk.yml
with:
config_file: wamr_config_macos_release.cmake
runner: macos-latest
runner: macos-13
upload_url: ${{ needs.create_release.outputs.upload_url }}
ver_num: ${{ needs.create_tag.outputs.new_ver}}
wasi_sdk_url: https://github.com/WebAssembly/wasi-sdk/releases/download/wasi-sdk-19/wasi-sdk-19.0-macos.tar.gz
@ -212,7 +212,7 @@ jobs:
needs: [create_tag, create_release]
uses: ./.github/workflows/build_wamr_lldb.yml
with:
runner: macos-latest
runner: macos-13
arch: universal
upload_url: ${{ needs.create_release.outputs.upload_url }}
ver_num: ${{ needs.create_tag.outputs.new_ver}}

5
.github/workflows/spec_test_on_nuttx.yml vendored
View File

@ -22,11 +22,14 @@ on:
workflow_dispatch:
# Note on INTERPRETERS_WAMR_STACK_GUARD_SIZE:
# https://github.com/apache/nuttx-apps/pull/2241 is not included in
# releases/12.4 branch as of writing this.
env:
LLVM_CACHE_SUFFIX: "build-llvm_libraries_ex"
WASI_SDK_PATH: "/opt/wasi-sdk"
WAMR_COMMON_OPTION:
"CONFIG_INTERPRETERS_WAMR=y\\nCONFIG_INTERPRETERS_WAMR_STACKSIZE=327680\\nCONFIG_INTERPRETERS_WAMR_LOG=y\\nCONFIG_INTERPRETERS_WAMR_LIBC_BUILTIN=y\\nCONFIG_INTERPRETERS_WAMR_REF_TYPES=y\\nCONFIG_INTERPRETERS_WAMR_ENABLE_SPEC_TEST=y\\nCONFIG_INTERPRETERS_WAMR_SHARED_MEMORY=y\\nCONFIG_INTERPRETERS_WAMR_BULK_MEMORY=y\\nCONFIG_EOL_IS_LF=y\\nCONFIG_ARM_SEMIHOSTING_HOSTFS=y\\nCONFIG_ARM_SEMIHOSTING_HOSTFS_CACHE_COHERENCE=y\\nCONFIG_RISCV_SEMIHOSTING_HOSTFS=y\\nCONFIG_FS_HOSTFS=y\\nCONFIG_LIBC_FLOATINGPOINT=y\\n"
"CONFIG_INTERPRETERS_WAMR=y\\nCONFIG_INTERPRETERS_WAMR_STACKSIZE=327680\\nCONFIG_INTERPRETERS_WAMR_LOG=y\\nCONFIG_INTERPRETERS_WAMR_LIBC_BUILTIN=y\\nCONFIG_INTERPRETERS_WAMR_REF_TYPES=y\\nCONFIG_INTERPRETERS_WAMR_ENABLE_SPEC_TEST=y\\nCONFIG_INTERPRETERS_WAMR_SHARED_MEMORY=y\\nCONFIG_INTERPRETERS_WAMR_BULK_MEMORY=y\\nCONFIG_EOL_IS_LF=y\\nCONFIG_ARM_SEMIHOSTING_HOSTFS=y\\nCONFIG_ARM_SEMIHOSTING_HOSTFS_CACHE_COHERENCE=y\\nCONFIG_RISCV_SEMIHOSTING_HOSTFS=y\\nCONFIG_FS_HOSTFS=y\\nCONFIG_LIBC_FLOATINGPOINT=y\\nCONFIG_INTERPRETERS_WAMR_STACK_GUARD_SIZE=1024\\n"
jobs:
build_llvm_libraries:

36
ADOPTERS.md Normal file
View File

@ -0,0 +1,36 @@
# WAMR adopters
_If you are using WAMR in production/pre-production at your organization, please add your company name to this list.
The list is in alphabetical order._
| Organization | Contact | Status | Description of Use |
| -------------------------------------- | ------------------------------------------------------------ | ------------------------------------------------------------ | ------------------------------------------------------------ |
| [Alibaba](https://www.alibaba.com) | [@johnlanni](https://github.com/johnlanni) | ![production](https://img.shields.io/badge/-production-blue?style=flat) | Higress is a next-generation cloud-native gateway built on the core of open-source Istio + Envoy based on Alibaba's internal Envoy Gateway practice. |
| [Amazon](https://www.amazon.com) | [@loganek](https://github.com/loganek) | ![production](https://img.shields.io/badge/-production-blue?style=flat) | Prime Video is a global streaming service by Amazon that provides on-demand access to a vast library of movies, TV shows, and original programming, as well as live content. |
| [Ant Group](https://www.antgroup.com) | [@wei-tang](https://github.com/wei-tang) | ![production](https://img.shields.io/badge/-production-blue?style=flat) | AntChain is a blockchain technology platform owned by Ant Group, a Chinese tech conglomerate that also runs Alipay, China's largest digital payment system. |
| [Bosch](https://www.bosch.com) | emily.ruppel@us.bosch.com | ![Undisclosed](https://img.shields.io/badge/-Undisclosed-orange?style=flat) | Silverline Cloud-Edge platform |
| [Disney](https://www.disney.com) | | ![production](https://img.shields.io/badge/-production-blue?style=flat) | Disney+ Streaming |
| [Intel](https://www.intel.com) | [@wenyongh](https://github.com/wenyongh) | ![Undisclosed](https://img.shields.io/badge/-Undisclosed-orange?style=flat) | Edge and the embedded environments |
| [Moonbit](https://www.moonbitlang.com) | [@peter-jerry-ye](https://github.com/peter-jerry-ye) | ![Undisclosed](https://img.shields.io/badge/-Undisclosed-orange?style=flat) | MoonBit is an end-to-end programming language toolchain for cloud and edge computing using WebAssembly. |
| [Microsoft](https://www.microsoft.com) | [@Mossaka](https://github.com/Mossaka) | ![production](https://img.shields.io/badge/-production-blue?style=flat) | Hyperlight runs Wasm workloads in VMs without OS and kernel, it is a solution for improving the management and security of Wasm workloads on Azure. |
| [Midokura](https://www.midokura.com) | [@yamt](https://github.com/yamt) | ![Undisclosed](https://img.shields.io/badge/-Undisclosed-orange?style=flat) | The next-generation Edge AI sensing platform |
| [Siemens](https://www.siemens.com) | [@ttrenner](https://github.com/ttrenner) | ![Undisclosed](https://img.shields.io/badge/-Undisclosed-orange?style=flat) | Industrial, IoT |
| [Sony Semiconductor Solutions](https://www.sony-semicon.com) | [@dongsheng28849455](https://github.com/dongsheng28849455) | ![production](https://img.shields.io/badge/-production-blue?style=flat) | AI digital camera |
| [Xiaomi](https://www.mi.com) | [@no1wudi](https://github.com/no1wudi) | ![production](https://img.shields.io/badge/-production-blue?style=flat) | Xiaomi Vela is Xiaomi's IoT embedded software platform based on the open-source, real-time operating system NuttX. |
| [Xiaomi](https://www.mi.com) | [@no1wudi](https://github.com/no1wudi) | ![production](https://img.shields.io/badge/-production-blue?style=flat) | TEE (trusted execution environment) app engine. |
# Adopted in open-source projects
_The list is in alphabetical order._
| Project | Reference |
| ------------------------------------------------------------ | ------------------------------------------------------------ |
| [Apache Teaclave](https://github.com/apache/incubator-teaclave) | https://github.com/apache/incubator-teaclave/blob/master/docs/executing-wasm.md |
| [Envoy](https://github.com/envoyproxy/envoy) | https://github.com/envoyproxy/envoy/blob/main/docs/root/configuration/other_features/wasm.rst |
| [faasm](https://github.com/faasm/faasm) | https://github.com/faasm/faasm/blob/main/docs/source/wamr.md |
| [fluent-bit](https://github.com/fluent/fluent-bit) | https://github.com/fluent/fluent-bit/tree/master/lib/wasm-micro-runtime-WAMR-1.3.0 |
| [harfbuzz](https://github.com/harfbuzz/harfbuzz) | https://github.com/harfbuzz/harfbuzz/blob/main/docs/wasm-shaper.md#enabling-the-wasm-shaper-when-building-harfbuzz |
| [inclave-containers](https://github.com/inclavare-containers/inclavare-containers) | https://github.com/inclavare-containers/inclavare-containers |
| [private-data-objects](https://github.com/hyperledger-labs/private-data-objects) | https://github.com/hyperledger-labs/private-data-objects/blob/main/common/interpreter/wawaka_wasm/README.md |
| [runwasi](https://github.com/containerd/runwasi) | https://github.com/containerd/runwasi/pull/508 (WIP) |
| [Wasmnizer-ts](https://github.com/web-devkits/Wasmnizer-ts) | https://github.com/web-devkits/Wasmnizer-ts |

5
CMakeLists.txt
View File

@ -3,6 +3,11 @@
cmake_minimum_required (VERSION 3.0)
if(ESP_PLATFORM)
include (${COMPONENT_DIR}/build-scripts/esp-idf/wamr/CMakeLists.txt)
return()
endif()
project (iwasm)
set (CMAKE_VERBOSE_MAKEFILE OFF)

23
README.md
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@ -10,18 +10,23 @@
[Build WAMR](./doc/build_wamr.md) | [Build AOT Compiler](./wamr-compiler/README.md) | [Embed WAMR](./doc/embed_wamr.md) | [Export Native API](./doc/export_native_api.md) | [Build Wasm Apps](./doc/build_wasm_app.md) | [Samples](./samples/README.md)
WebAssembly Micro Runtime (WAMR) is a lightweight standalone WebAssembly (Wasm) runtime with small footprint, high performance and highly configurable features for applications cross from embedded, IoT, edge to Trusted Execution Environment (TEE), smart contract, cloud native and so on. It includes a few parts as below:
- [**VMcore**](./core/iwasm/): A set of runtime libraries for loading and running Wasm modules. It supports several execution modes including interpreter, Ahead-of-Time compilation(AoT) and Just-in-Time compilation (JIT). The WAMR supports two JIT tiers - Fast JIT, LLVM JIT, and dynamic tier-up from Fast JIT to LLVM JIT.
- [**iwasm**](./product-mini/): The executable binary built with WAMR VMcore supports WASI and command line interface.
- [**VMcore**](./core/iwasm/): A set of runtime libraries for loading and running Wasm modules. It supports rich running modes including interpreter, Ahead-of-Time compilation(AoT) and Just-in-Time compilation (JIT). WAMR supports two JIT tiers - Fast JIT, LLVM JIT, and dynamic tier-up from Fast JIT to LLVM JIT.
- [**iwasm**](./product-mini/): The executable binary built with WAMR VMcore which supports WASI and command line interface.
- [**wamrc**](./wamr-compiler/): The AOT compiler to compile Wasm file into AOT file
- Useful components and tools for building real solutions with WAMR vmcore:
- [App-framework](https://github.com/bytecodealliance/wamr-app-framework/blob/main/app-framework/README.md): A framework for supporting APIs for the Wasm applications
- [App-manager](https://github.com/bytecodealliance/wamr-app-framework/blob/main/app-mgr/README.md): a framework for dynamical loading the Wasm module remotely
- [App-manager](https://github.com/bytecodealliance/wamr-app-framework/blob/main/app-mgr/README.md): A framework for dynamical loading the Wasm module remotely
- [WAMR-IDE](./test-tools/wamr-ide): An experimental VSCode extension for developping WebAssembly applications with C/C++
### Key features
- Full compliant to the W3C Wasm MVP
- Small runtime binary size (~85K for interpreter and ~50K for AOT) and low memory usage
- Small runtime binary size (core vmlib on cortex-m4f with tail-call/bulk memroy/shared memroy support, text size from bloaty)
* ~58.9K for fast interpreter
* ~56.3K for classic interpreter
* ~29.4K for aot runtime
* ~21.4K for libc-wasi library
* ~3.7K for libc-builtin library
- Near to native speed by AOT and JIT
- Self-implemented AOT module loader to enable AOT working on Linux, Windows, MacOS, Android, SGX and MCU systems
- Choices of Wasm application libc support: the built-in libc subset for the embedded environment or [WASI](https://github.com/WebAssembly/WASI) for the standard libc
@ -41,9 +46,8 @@ WebAssembly Micro Runtime (WAMR) is a lightweight standalone WebAssembly (Wasm)
- [wasm-c-api](https://github.com/WebAssembly/wasm-c-api), ref to [document](doc/wasm_c_api.md) and [sample](samples/wasm-c-api)
- [128-bit SIMD](https://github.com/WebAssembly/simd), ref to [samples/workload](samples/workload)
- [Reference Types](https://github.com/WebAssembly/reference-types), ref to [document](doc/ref_types.md) and [sample](samples/ref-types)
- [Non-trapping float-to-int conversions](https://github.com/WebAssembly/nontrapping-float-to-int-conversions)
- [Sign-extension operators](https://github.com/WebAssembly/sign-extension-ops), [Bulk memory operations](https://github.com/WebAssembly/bulk-memory-operations)
- [Multi-value](https://github.com/WebAssembly/multi-value), [Tail-call](https://github.com/WebAssembly/tail-call), [Shared memory](https://github.com/WebAssembly/threads/blob/main/proposals/threads/Overview.md#shared-linear-memory)
- [Bulk memory operations](https://github.com/WebAssembly/bulk-memory-operations), [Shared memory](https://github.com/WebAssembly/threads/blob/main/proposals/threads/Overview.md#shared-linear-memory), [Memory64](https://github.com/WebAssembly/memory64)
- [Tail-call](https://github.com/WebAssembly/tail-call), [Garbage Collection](https://github.com/WebAssembly/gc), [Exception Handling](https://github.com/WebAssembly/exception-handling)
### Supported architectures and platforms
The WAMR VMcore supports the following architectures:
@ -61,14 +65,14 @@ The following platforms are supported, click each link below for how to build iw
## Getting started
- [Build VM core](./doc/build_wamr.md) and [Build wamrc AOT compiler](./wamr-compiler/README.md)
- [Build iwasm (mini product)](./product-mini/README.md): [Linux](./product-mini/README.md#linux), [SGX](./doc/linux_sgx.md), [MacOS](./product-mini/README.md#macos) and [Windows](./product-mini/README.md#windows)
- [Embed into C/C++](./doc/embed_wamr.md), [Embed into Python](./language-bindings/python), [Embed into Go](./language-bindings/go)
- [Embed into C/C++](./doc/embed_wamr.md), [Embed into Python](./language-bindings/python), [Embed into Go](./language-bindings/go), [Embed in Rust](./language-bindings/rust)
- [Register native APIs for Wasm applications](./doc/export_native_api.md)
- [Build wamrc AOT compiler](./wamr-compiler/README.md)
- [Build Wasm applications](./doc/build_wasm_app.md)
- [Port WAMR to a new platform](./doc/port_wamr.md)
- [VS Code development container](./doc/devcontainer.md)
- [Samples](./samples) and [Benchmarks](./tests/benchmarks)
- [End-user APIs documentation](https://bytecodealliance.github.io/wamr.dev/apis/)
### Performance and memory
@ -82,7 +86,6 @@ The following platforms are supported, click each link below for how to build iw
- [Performance and footprint data](https://github.com/bytecodealliance/wasm-micro-runtime/wiki/Performance): the performance and footprint data
Project Technical Steering Committee
====================================
The [WAMR PTSC Charter](./TSC_Charter.md) governs the operations of the project TSC.

99
RELEASE_NOTES.md
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@ -1,3 +1,102 @@
## WAMR-2.0.0
### Breaking Changes
- The AOT ABI was changed after GC and memory64 features were introduced:
- Implement GC feature for interpreter, AOT and LLVM-JIT (#3125)
- Implement memory64 for classic interpreter (#3266)
- Always allocate linear memory using mmap (#3052)
- Refactor APIs and data structures as preliminary work for Memory64 (#3209)
- Remove unused argument in wasm_runtime_lookup_function (#3218)
- Separate app-manager and app-framework from WAMR (#3129)
### New Features
- Implement GC feature for interpreter, AOT and LLVM-JIT (#3125)
- Implement memory64 for classic interpreter (#3266)
- Add wasi_ephemeral_nn module support (#3241)
### Bug Fixes
- EH: Fix broken stack usage calculation (#3121)
- Fix loader check_wasi_abi_compatibility (#3126)
- Fix possible integer overflow in loader target block check (#3133)
- Fix locel.set in polymorphic stack (#3135)
- Fix threads opcodes' boundary check in classic-interp and fast-interp (#3136)
- fast-interp: Fix copy_stack_top_i64 overlap issue (#3146)
- Fix a ubsan complaint "applying zero offset to null pointer" (#3160)
- fast-interp: Fix GC opcode ref.as_non_null (#3156)
- Fix llvm jit push funcref/externref result type issue (#3169)
- Fix wasm loader handling opcode br_table (#3176)
- Fix ref.func opcode check when GC is enabled (#3181)
- lldb_function_to_function_dbi: Fix a null dereference (#3189)
- Fix compilation errors on MinGW (#3217)
- Fix compilation errors on esp-idf platform (#3224)
- Fix aot relocation symbols not found on windows 32-bit (#3231)
- posix_file.c: Correct the dirfd argument that passes to fstatat (#3244)
- Fix compilation errors on zephyr platform (#3255)
- Fix dynamic offset not updated in op_br for block with ret type (#3269)
- aot debug: Fix a NULL dereference (#3274)
- thread mgr: Free aux stack only when it was allocated (#3282)
- interp: Restore context from prev_frame after tail calling a native function (#3283)
- Sync simd opcode definitions spec (#3290)
- Fix posix_fadvise error handling (#3323)
- Fix windows relocation string parsing issue (#3333)
### Enhancements
- Zero the memory mapped from os_mmap in NuttX (#3132)
- Use logger for runtime error/debug prints (#3097)
- aot_compile_op_call: Stop setting calling convention explicitly (#3140)
- aot compiler: Place precheck wrapper before the corresponding wrapped function (#3141)
- Fix null pointer access in fast-interp when configurable soft bound check is enabled (#3150)
- Clarify how to verify SGX evidence without an Intel SGX-enabled platform (#3158)
- zephyr: Use zephyr sys_cache instead of CMSIS (#3162)
- VSCode IDE enhancement and readme update (#3172)
- Add vprintf override for android and esp-idf (#3174)
- zephyr: Include math only with minimal libc (#3177)
- zephyr: Implement Alloc_With_System_Allocator (#3179)
- Use indirect call in pre-checker function to avoid relocation in XIP mode (#3142)
- Implement the remaining Windows filesystem functions (#3166)
- Fix LLVM assertion failure and update CONTRIBUTING.md (#3197)
- Allow overriding max memory on module instantiation (#3198)
- Get location info from function indexes in addr2line script (#3206)
- Demangle function names in stack trace when using addr2line script (#3211)
- Refactor APIs and data structures as preliminary work for Memory64 (#3209)
- Allow converting the zero wasm address to native (#3215)
- Small refactor on WASMModuleInstance and fix Go/Python language bindings (#3227)
- Add esp32c6 support (#3234)
- Make android platform's cmake flags configurable (#3239)
- Go binding: Change C.long to C.int64_t when call wasm_runtime_set_wasi_args_ex (#3235)
- Implement apis to set and get the name of a wasm module (#3254)
- Append '\0' to every name string in aot name section (#3249)
- Add cmake flag to control aot intrinsics (#3261)
- Add lock and ref_count for runtime init (#3263)
- nuttx: Migrate NuttX CMake build for WAMR (#3256)
- LLVM 19: Switch to debug records (#3272)
- aot debug: Process lldb_function_to_function_dbi only for C (#3278)
- Fix warnings/issues reported in Windows and by CodeQL/Coverity (#3275)
- Enhance wasm loading with LoadArgs and support module names (#3265)
- Add wamr to esp-idf components registry (#3287)
- zephyr: Add missing pthread library functions (#3291)
- Add more checks in wasm loader (#3300)
- Log warning if growing table failed (#3310)
- Enhance GC subtyping checks (#3317)
- User defined memory allocator for different purposes (#3316)
- Add a comment on WASM_STACK_GUARD_SIZE (#3332)
- Allow executing malloc/free from native in memory64 mode (#3315)
- Add functions to expose module import/export info (#3330)
### Others
- Add ARM MacOS to the CI (#3120)
- Download jetstream src from github instead of browserbench.org (#3196)
- Update document to add wamr-rust-sdk introduction (#3204)
- Fix nightly run tsan ASLR issue (#3233)
- Add CodeQL Workflow for Code Security Analysis (#2812)
- Add issue templates (#3248)
- Fix CI error when install packages for macos-14 (#3270)
- Update document for GC, exception handling and memory64 features (#3284)
- Update release CI (#3295)
- Add native-stack-overflow sample (#3321)
---
## WAMR-1.3.2
### Breaking Changes

10
build-scripts/config_common.cmake
View File

@ -134,7 +134,9 @@ endif ()
# Sanitizers
set(WAMR_BUILD_SANITIZER $ENV{WAMR_BUILD_SANITIZER})
if (NOT DEFINED WAMR_BUILD_SANITIZER)
set(WAMR_BUILD_SANITIZER $ENV{WAMR_BUILD_SANITIZER})
endif ()
if (NOT DEFINED WAMR_BUILD_SANITIZER)
set(WAMR_BUILD_SANITIZER "")
@ -554,3 +556,9 @@ else ()
# Disable aot intrinsics for interp, fast-jit and llvm-jit
add_definitions (-DWASM_ENABLE_AOT_INTRINSICS=0)
endif ()
if (WAMR_BUILD_ALLOC_WITH_USAGE EQUAL 1)
add_definitions(-DWASM_MEM_ALLOC_WITH_USAGE=1)
endif()
if (NOT WAMR_BUILD_SANITIZER STREQUAL "")
message (" Sanitizer ${WAMR_BUILD_SANITIZER} enabled")
endif ()

142
build-scripts/esp-idf/wamr/CMakeLists.txt
View File

@ -2,56 +2,102 @@
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
# Set WAMR's build options
if("${IDF_TARGET}" STREQUAL "esp32c3" OR "${IDF_TARGET}" STREQUAL "esp32c6")
set(WAMR_BUILD_TARGET "RISCV32")
else()
set(WAMR_BUILD_TARGET "XTENSA")
endif()
set(WAMR_BUILD_PLATFORM "esp-idf")
if (NOT CMAKE_BUILD_TYPE)
set(CMAKE_BUILD_TYPE Release)
endif ()
if (NOT DEFINED WAMR_BUILD_INTERP)
set (WAMR_BUILD_INTERP 1)
endif ()
if (NOT DEFINED WAMR_BUILD_FAST_INTERP)
set (WAMR_BUILD_FAST_INTERP 1)
endif ()
if (NOT DEFINED WAMR_BUILD_AOT)
set (WAMR_BUILD_AOT 1)
endif ()
if (NOT DEFINED WAMR_BUILD_LIBC_BUILTIN)
set (WAMR_BUILD_LIBC_BUILTIN 1)
endif ()
if (NOT DEFINED WAMR_BUILD_APP_FRAMEWORK)
set (WAMR_BUILD_APP_FRAMEWORK 0)
endif ()
if (NOT CMAKE_BUILD_EARLY_EXPANSION)
if (WAMR_BUILD_TARGET STREQUAL "XTENSA")
idf_build_set_property(COMPILE_DEFINITIONS "-DBUILD_TARGET_XTENSA=1" APPEND)
endif ()
if (WAMR_BUILD_INTERP)
idf_build_set_property(COMPILE_DEFINITIONS "-DWASM_ENABLE_INTERP=1" APPEND)
endif ()
if (WAMR_BUILD_AOT)
idf_build_set_property(COMPILE_DEFINITIONS "-DWASM_ENABLE_AOT=1" APPEND)
endif ()
set(WAMR_ROOT_DIR ${CMAKE_CURRENT_LIST_DIR}/../../..)
include(${WAMR_ROOT_DIR}/build-scripts/runtime_lib.cmake)
endif()
if (CONFIG_IDF_TARGET_ARCH_RISCV)
set (WAMR_BUILD_TARGET "RISCV32")
elseif (CONFIG_IDF_TARGET_ARCH_XTENSA)
set (WAMR_BUILD_TARGET "XTENSA")
else ()
message (FATAL_ERROR "Arch ${CONFIG_IDF_TARGET_ARCH} is not supported")
endif ()
idf_component_register(SRCS ${WAMR_RUNTIME_LIB_SOURCE} ${PLATFORM_SHARED_SOURCE}
INCLUDE_DIRS ${IWASM_DIR}/include ${UTILS_SHARED_DIR} ${PLATFORM_SHARED_DIR} ${PLATFORM_SHARED_DIR}/../include
REQUIRES pthread lwip esp_timer
)
set (WAMR_BUILD_PLATFORM "esp-idf")
if (CONFIG_WAMR_BUILD_DEBUG)
set (CMAKE_BUILD_TYPE Debug)
else ()
set (CMAKE_BUILD_TYPE Release)
endif ()
if (CONFIG_WAMR_ENABLE_INTERP)
set (WAMR_BUILD_INTERP 1)
endif ()
if (CONFIG_WAMR_INTERP_FAST)
set (WAMR_BUILD_FAST_INTERP 1)
endif ()
if (CONFIG_WAMR_ENABLE_AOT)
set (WAMR_BUILD_AOT 1)
endif ()
if (CONFIG_WAMR_ENABLE_LIBC_BUILTIN)
set (WAMR_BUILD_LIBC_BUILTIN 1)
endif ()
if (CONFIG_WAMR_INTERP_LOADER_MINI)
set (WAMR_BUILD_MINI_LOADER 1)
endif ()
if (CONFIG_WAMR_ENABLE_MULTI_MODULE)
set (WAMR_BUILD_MULTI_MODULE 1)
endif ()
if (CONFIG_WAMR_ENABLE_SHARED_MEMORY)
set (WAMR_BUILD_SHARED_MEMORY 1)
endif ()
if (CONFIG_WAMR_ENABLE_MEMORY_PROFILING)
set (WAMR_BUILD_MEMORY_PROFILING 1)
endif ()
if (CONFIG_WAMR_ENABLE_PERF_PROFILING)
set (WAMR_BUILD_PERF_PROFILING 1)
endif ()
if (CONFIG_WAMR_ENABLE_REF_TYPES)
set (WAMR_BUILD_REF_TYPES 1)
endif ()
if (CONFIG_WAMR_ENABLE_LIBC_WASI)
set (WAMR_BUILD_LIBC_WASI 1)
endif ()
if (CONFIG_WAMR_ENABLE_LIB_PTHREAD)
set (WAMR_BUILD_LIB_PTHREAD 1)
endif ()
set (WAMR_ROOT_DIR ${CMAKE_CURRENT_LIST_DIR}/../../..)
include (${WAMR_ROOT_DIR}/build-scripts/runtime_lib.cmake)
list (APPEND srcs "${WAMR_RUNTIME_LIB_SOURCE}"
"${PLATFORM_SHARED_SOURCE}")
set (include_dirs "${IWASM_DIR}/include"
"${UTILS_SHARED_DIR}"
"${PLATFORM_SHARED_DIR}"
"${PLATFORM_SHARED_DIR}/../include"
"${IWASM_COMMON_DIR}")
endif ()
idf_component_register(SRCS ${srcs}
INCLUDE_DIRS ${include_dirs}
REQUIRES pthread lwip esp_timer
KCONFIG ${CMAKE_CURRENT_LIST_DIR}/Kconfig)
target_compile_options(${COMPONENT_LIB} PRIVATE "-Wno-format")
if (CONFIG_IDF_TARGET_ARCH_RISCV)
target_compile_definitions(${COMPONENT_LIB} PUBLIC -DBUILD_TARGET_RISCV32_ILP32=1)
elseif (CONFIG_IDF_TARGET_ARCH_XTENSA)
target_compile_definitions(${COMPONENT_LIB} PUBLIC -DBUILD_TARGET_XTENSA=1)
endif ()
if (CONFIG_WAMR_ENABLE_AOT)
target_compile_definitions(${COMPONENT_LIB} PUBLIC -DWASM_ENABLE_AOT=1)
endif ()
if (CONFIG_WAMR_ENABLE_INTERP)
target_compile_definitions(${COMPONENT_LIB} PUBLIC -DWASM_ENABLE_INTERP=1)
endif ()

77
build-scripts/esp-idf/wamr/Kconfig Normal file
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@ -0,0 +1,77 @@
menu "WASM Micro Runtime"
choice WAMR_BUILD_TYPE
prompt "Build type"
default WAMR_BUILD_RELEASE
config WAMR_BUILD_RELEASE
bool "Release"
config WAMR_BUILD_DEBUG
bool "Debug"
endchoice
config WAMR_ENABLE_AOT
bool "AOT"
default y
menuconfig WAMR_ENABLE_INTERP
bool "Interpreter"
default y
if WAMR_ENABLE_INTERP
choice WAMR_INTERP_MODE
prompt "Interpreter mode"
default WAMR_INTERP_FAST
config WAMR_INTERP_CLASSIC
bool "Classic"
config WAMR_INTERP_FAST
bool "Fast"
endchoice
choice WAMR_INTERP_LOADER_MODE
prompt "Loader mode"
default WAMR_INTERP_LOADER_NORMAL
config WAMR_INTERP_LOADER_NORMAL
bool "Normal"
config WAMR_INTERP_LOADER_MINI
bool "Mini"
endchoice
endif
config WAMR_ENABLE_LIB_PTHREAD
bool "Lib pthread"
default y
config WAMR_ENABLE_LIBC_BUILTIN
bool "Libc builtin"
default y
config WAMR_ENABLE_LIBC_WASI
bool "Libc WASI"
default y
config WAMR_ENABLE_MEMORY_PROFILING
bool "Memory profiling"
default n
config WAMR_ENABLE_MULTI_MODULE
bool "Multi module"
default n
config WAMR_ENABLE_PERF_PROFILING
bool "Performance profiling"
default n
config WAMR_ENABLE_REF_TYPES
bool "Reference types"
default n
config WAMR_ENABLE_SHARED_MEMORY
bool "Shared memory"
default n
endmenu

79
core/config.h
View File

@ -445,20 +445,91 @@
#endif
/* Reserved bytes to the native thread stack boundary, throw native
stack overflow exception if the guard boudary is reached */
* stack overflow exception if the guard boudary is reached
*
* WASM_STACK_GUARD_SIZE needs to be large enough for:
*
* - native functions
*
* w/o hw bound check, the overhead (aot_call_function etc) + the native
* function itself. as of writing this, the former is about 1000 bytes
* on macOS amd64.
*
* with hw bound check, theoretically, only needs to cover the logic to
* set up the jmp_buf stack.
*
* - aot runtime functions
* eg. aot_enlarge_memory.
*
* - w/o hw bound check, the intepreter loop
*
* the stack consumption heavily depends on compiler settings,
* especially for huge functions like the classic interpreter's
* wasm_interp_call_func_bytecode:
*
* 200 bytes (release build, macOS/amd64)
* 2600 bytes (debug build, macOS/amd64)
*
* libc snprintf (used by eg. wasm_runtime_set_exception) consumes about
* 1600 bytes stack on macOS/amd64, about 2000 bytes on Ubuntu amd64 20.04.
*
* - stack check wrapper functions generated by the aot compiler
* (--stack-bounds-checks=1)
*
* wamrc issues a warning
* "precheck functions themselves consume relatively large amount of stack"
* when it detects wrapper functions requiring more than 1KB.
*
* Note: on platforms with lazy function binding, don't forget to consider
* the symbol resolution overhead on the first call. For example,
* on Ubuntu amd64 20.04, it seems to consume about 1500 bytes.
* For some reasons, macOS amd64 12.7.4 seems to resolve symbols eagerly.
* (Observed with a binary with traditional non-chained fixups.)
* The latest macOS seems to apply chained fixups in kernel on page-in time.
* (thus it wouldn't consume userland stack.)
*/
#ifndef WASM_STACK_GUARD_SIZE
#if WASM_ENABLE_UVWASI != 0
/* UVWASI requires larger native stack */
#define WASM_STACK_GUARD_SIZE (4096 * 6)
#else
#define WASM_STACK_GUARD_SIZE (1024)
/*
* Use a larger default for platforms like macOS/Linux.
*
* For example, the classic intepreter loop which ended up with a trap
* (wasm_runtime_set_exception) would consume about 2KB stack on x86-64
* macOS. On Ubuntu amd64 20.04, it seems to consume a bit more.
*
* Although product-mini/platforms/nuttx always overrides
* WASM_STACK_GUARD_SIZE, exclude NuttX here just in case.
*/
#if defined(__APPLE__) || (defined(__unix__) && !defined(__NuttX__))
#if BH_DEBUG != 0 /* assumption: BH_DEBUG matches CMAKE_BUILD_TYPE=Debug */
#define WASM_STACK_GUARD_SIZE (1024 * 5)
#else
#define WASM_STACK_GUARD_SIZE (1024 * 3)
#endif
#else
/*
* Otherwise, assume very small requirement for now.
*
* Embedders for very small devices likely fine-tune WASM_STACK_GUARD_SIZE
* for their specific applications anyway.
*/
#define WASM_STACK_GUARD_SIZE 1024
#endif
#endif
#endif
/* Guard page count for stack overflow check with hardware trap */
#ifndef STACK_OVERFLOW_CHECK_GUARD_PAGE_COUNT
#if defined(__APPLE__) && defined(__aarch64__)
/* Note: on macOS/iOS arm64, the user page size is 16KB */
#define STACK_OVERFLOW_CHECK_GUARD_PAGE_COUNT 1
#else
#define STACK_OVERFLOW_CHECK_GUARD_PAGE_COUNT 3
#endif
#endif
/* Default wasm block address cache size and conflict list size */
#ifndef BLOCK_ADDR_CACHE_SIZE
@ -587,4 +658,8 @@
#define WASM_TABLE_MAX_SIZE 1024
#endif
#ifndef WASM_MEM_ALLOC_WITH_USAGE
#define WASM_MEM_ALLOC_WITH_USAGE 0
#endif
#endif /* end of _CONFIG_H_ */

254
core/iwasm/aot/aot_loader.c
View File

@ -16,6 +16,10 @@
#include "debug/jit_debug.h"
#endif
#if WASM_ENABLE_LINUX_PERF != 0
#include "aot_perf_map.h"
#endif
#define YMM_PLT_PREFIX "__ymm@"
#define XMM_PLT_PREFIX "__xmm@"
#define REAL_PLT_PREFIX "__real@"
@ -1430,9 +1434,20 @@ load_table_init_data_list(const uint8 **p_buf, const uint8 *buf_end,
read_uint64(buf, buf_end, init_expr_value);
#if WASM_ENABLE_GC != 0
if (wasm_is_type_multi_byte_type(elem_type)) {
/* TODO: check ref_type */
read_uint16(buf, buf_end, reftype.ref_ht_common.ref_type);
read_uint16(buf, buf_end, reftype.ref_ht_common.nullable);
uint16 ref_type, nullable;
read_uint16(buf, buf_end, ref_type);
if (elem_type != ref_type) {
set_error_buf(error_buf, error_buf_size, "invalid elem type");
return false;
}
reftype.ref_ht_common.ref_type = (uint8)ref_type;
read_uint16(buf, buf_end, nullable);
if (nullable != 0 && nullable != 1) {
set_error_buf(error_buf, error_buf_size,
"invalid nullable value");
return false;
}
reftype.ref_ht_common.nullable = (uint8)nullable;
read_uint32(buf, buf_end, reftype.ref_ht_common.heap_type);
}
else
@ -1510,30 +1525,42 @@ fail:
return false;
}
static void
destroy_type(AOTType *type)
{
#if WASM_ENABLE_GC != 0
if (type->ref_count > 1) {
/* The type is referenced by other types
of current aot module */
type->ref_count--;
return;
}
if (type->type_flag == WASM_TYPE_FUNC) {
AOTFuncType *func_type = (AOTFuncType *)type;
if (func_type->ref_type_maps != NULL) {
bh_assert(func_type->ref_type_map_count > 0);
wasm_runtime_free(func_type->ref_type_maps);
}
}
else if (type->type_flag == WASM_TYPE_STRUCT) {
AOTStructType *struct_type = (AOTStructType *)type;
if (struct_type->ref_type_maps != NULL) {
bh_assert(struct_type->ref_type_map_count > 0);
wasm_runtime_free(struct_type->ref_type_maps);
}
}
#endif
wasm_runtime_free(type);
}
static void
destroy_types(AOTType **types, uint32 count)
{
uint32 i;
for (i = 0; i < count; i++) {
if (types[i]) {
#if WASM_ENABLE_GC != 0
if (types[i]->type_flag == WASM_TYPE_FUNC) {
AOTFuncType *func_type = (AOTFuncType *)types[i];
if (func_type->ref_type_maps != NULL) {
bh_assert(func_type->ref_type_map_count > 0);
wasm_runtime_free(func_type->ref_type_maps);
}
}
else if (types[i]->type_flag == WASM_TYPE_STRUCT) {
AOTStructType *struct_type = (AOTStructType *)types[i];
if (struct_type->ref_type_maps != NULL) {
bh_assert(struct_type->ref_type_map_count > 0);
wasm_runtime_free(struct_type->ref_type_maps);
}
}
#endif
wasm_runtime_free(types[i]);
destroy_type(types[i]);
}
}
wasm_runtime_free(types);
@ -1541,14 +1568,17 @@ destroy_types(AOTType **types, uint32 count)
#if WASM_ENABLE_GC != 0
static void
init_base_type(AOTType *base_type, uint16 type_flag, bool is_sub_final,
uint32 parent_type_idx, uint16 rec_count, uint16 rec_idx)
init_base_type(AOTType *base_type, uint32 type_idx, uint16 type_flag,
bool is_sub_final, uint32 parent_type_idx, uint16 rec_count,
uint16 rec_idx)
{
base_type->type_flag = type_flag;
base_type->ref_count = 1;
base_type->is_sub_final = is_sub_final;
base_type->parent_type_idx = parent_type_idx;
base_type->rec_count = rec_count;
base_type->rec_idx = rec_idx;
base_type->rec_begin_type_idx = type_idx - rec_idx;
}
static bool
@ -1561,7 +1591,7 @@ load_types(const uint8 **p_buf, const uint8 *buf_end, AOTModule *module,
uint32 i, j;
uint32 type_flag, param_cell_num, ret_cell_num;
uint16 param_count, result_count, ref_type_map_count, rec_count, rec_idx;
bool is_sub_final;
bool is_equivalence_type, is_sub_final;
uint32 parent_type_idx;
WASMRefType ref_type;
@ -1575,12 +1605,31 @@ load_types(const uint8 **p_buf, const uint8 *buf_end, AOTModule *module,
/* Create each type */
for (i = 0; i < module->type_count; i++) {
buf = align_ptr(buf, 4);
/* Read base type info */
read_uint16(buf, buf_end, type_flag);
read_uint16(buf, buf_end, is_sub_final);
read_uint8(buf, buf_end, is_equivalence_type);
/* If there is an equivalence type, re-use it */
if (is_equivalence_type) {
uint8 u8;
/* padding */
read_uint8(buf, buf_end, u8);
(void)u8;
read_uint32(buf, buf_end, j);
if (module->types[j]->ref_count == UINT16_MAX) {
set_error_buf(error_buf, error_buf_size,
"wasm type's ref count too large");
goto fail;
}
module->types[j]->ref_count++;
module->types[i] = module->types[j];
continue;
}
read_uint8(buf, buf_end, is_sub_final);
read_uint32(buf, buf_end, parent_type_idx);
read_uint16(buf, buf_end, rec_count);
read_uint16(buf, buf_end, rec_idx);
@ -1605,7 +1654,7 @@ load_types(const uint8 **p_buf, const uint8 *buf_end, AOTModule *module,
types[i] = (AOTType *)func_type;
init_base_type((AOTType *)func_type, type_flag, is_sub_final,
init_base_type((AOTType *)func_type, i, type_flag, is_sub_final,
parent_type_idx, rec_count, rec_idx);
func_type->param_count = param_count;
func_type->result_count = result_count;
@ -1711,7 +1760,7 @@ load_types(const uint8 **p_buf, const uint8 *buf_end, AOTModule *module,
offset = (uint32)offsetof(WASMStructObject, field_data);
types[i] = (AOTType *)struct_type;
init_base_type((AOTType *)struct_type, type_flag, is_sub_final,
init_base_type((AOTType *)struct_type, i, type_flag, is_sub_final,
parent_type_idx, rec_count, rec_idx);
struct_type->field_count = field_count;
struct_type->ref_type_map_count = ref_type_map_count;
@ -1797,7 +1846,7 @@ load_types(const uint8 **p_buf, const uint8 *buf_end, AOTModule *module,
types[i] = (AOTType *)array_type;
init_base_type((AOTType *)array_type, type_flag, is_sub_final,
init_base_type((AOTType *)array_type, i, type_flag, is_sub_final,
parent_type_idx, rec_count, rec_idx);
read_uint16(buf, buf_end, array_type->elem_flags);
read_uint8(buf, buf_end, array_type->elem_type);
@ -1826,7 +1875,6 @@ load_types(const uint8 **p_buf, const uint8 *buf_end, AOTModule *module,
if (rec_count == 0) {
bh_assert(rec_idx == 0);
}
for (j = i - rec_idx; j <= i; j++) {
AOTType *cur_type = module->types[j];
parent_type_idx = cur_type->parent_type_idx;
@ -1835,6 +1883,11 @@ load_types(const uint8 **p_buf, const uint8 *buf_end, AOTModule *module,
module->types[j]->parent_type = parent_type;
module->types[j]->root_type = parent_type->root_type;
if (parent_type->inherit_depth == UINT16_MAX) {
set_error_buf(error_buf, error_buf_size,
"parent type's inherit depth too large");
goto fail;
}
module->types[j]->inherit_depth =
parent_type->inherit_depth + 1;
}
@ -1852,7 +1905,7 @@ load_types(const uint8 **p_buf, const uint8 *buf_end, AOTModule *module,
AOTType *parent_type = module->types[parent_type_idx];
/* subtyping has been checked during compilation */
bh_assert(wasm_type_is_subtype_of(
module->types[j], parent_type, module->types, i));
module->types[j], parent_type, module->types, i + 1));
(void)parent_type;
}
}
@ -3242,37 +3295,26 @@ load_relocation_section(const uint8 *buf, const uint8 *buf_end,
bh_memcpy_s(symbol_name_buf, (uint32)sizeof(symbol_name_buf),
symbol_name, symbol_name_len);
if ((group_name_len == strlen(".text")
|| (module->is_indirect_mode
&& group_name_len == strlen(".text") + 1))
/* aot compiler emits string with '\0' since 2.0.0 */
if (group_name_len == strlen(".text") + 1
&& !strncmp(group_name, ".text", strlen(".text"))) {
if ((symbol_name_len == strlen(YMM_PLT_PREFIX) + 64
|| (module->is_indirect_mode
&& symbol_name_len == strlen(YMM_PLT_PREFIX) + 64 + 1))
/* aot compiler emits string with '\0' since 2.0.0 */
if (symbol_name_len == strlen(YMM_PLT_PREFIX) + 64 + 1
&& !strncmp(symbol_name, YMM_PLT_PREFIX,
strlen(YMM_PLT_PREFIX))) {
module->ymm_plt_count++;
}
else if ((symbol_name_len == strlen(XMM_PLT_PREFIX) + 32
|| (module->is_indirect_mode
&& symbol_name_len
== strlen(XMM_PLT_PREFIX) + 32 + 1))
else if (symbol_name_len == strlen(XMM_PLT_PREFIX) + 32 + 1
&& !strncmp(symbol_name, XMM_PLT_PREFIX,
strlen(XMM_PLT_PREFIX))) {
module->xmm_plt_count++;
}
else if ((symbol_name_len == strlen(REAL_PLT_PREFIX) + 16
|| (module->is_indirect_mode
&& symbol_name_len
== strlen(REAL_PLT_PREFIX) + 16 + 1))
else if (symbol_name_len == strlen(REAL_PLT_PREFIX) + 16 + 1
&& !strncmp(symbol_name, REAL_PLT_PREFIX,
strlen(REAL_PLT_PREFIX))) {
module->real_plt_count++;
}
else if ((symbol_name_len >= strlen(REAL_PLT_PREFIX) + 8
|| (module->is_indirect_mode
&& symbol_name_len
== strlen(REAL_PLT_PREFIX) + 8 + 1))
else if (symbol_name_len >= strlen(REAL_PLT_PREFIX) + 8 + 1
&& !strncmp(symbol_name, REAL_PLT_PREFIX,
strlen(REAL_PLT_PREFIX))) {
module->float_plt_count++;
@ -3590,104 +3632,6 @@ fail:
return ret;
}
#if WASM_ENABLE_LINUX_PERF != 0
struct func_info {
uint32 idx;
void *ptr;
};
static uint32
get_func_size(const AOTModule *module, struct func_info *sorted_func_ptrs,
uint32 idx)
{
uint32 func_sz;
if (idx == module->func_count - 1)
func_sz = (uintptr_t)module->code + module->code_size
- (uintptr_t)(sorted_func_ptrs[idx].ptr);
else
func_sz = (uintptr_t)(sorted_func_ptrs[idx + 1].ptr)
- (uintptr_t)(sorted_func_ptrs[idx].ptr);
return func_sz;
}
static int
compare_func_ptrs(const void *f1, const void *f2)
{
return (intptr_t)((struct func_info *)f1)->ptr
- (intptr_t)((struct func_info *)f2)->ptr;
}
static struct func_info *
sort_func_ptrs(const AOTModule *module, char *error_buf, uint32 error_buf_size)
{
uint64 content_len;
struct func_info *sorted_func_ptrs;
unsigned i;
content_len = (uint64)sizeof(struct func_info) * module->func_count;
sorted_func_ptrs = loader_malloc(content_len, error_buf, error_buf_size);
if (!sorted_func_ptrs)
return NULL;
for (i = 0; i < module->func_count; i++) {
sorted_func_ptrs[i].idx = i;
sorted_func_ptrs[i].ptr = module->func_ptrs[i];
}
qsort(sorted_func_ptrs, module->func_count, sizeof(struct func_info),
compare_func_ptrs);
return sorted_func_ptrs;
}
static bool
create_perf_map(const AOTModule *module, char *error_buf, uint32 error_buf_size)
{
struct func_info *sorted_func_ptrs = NULL;
char perf_map_info[128] = { 0 };
FILE *perf_map = NULL;
uint32 i;
pid_t pid = getpid();
bool ret = false;
sorted_func_ptrs = sort_func_ptrs(module, error_buf, error_buf_size);
if (!sorted_func_ptrs)
goto quit;
snprintf(perf_map_info, 128, "/tmp/perf-%d.map", pid);
perf_map = fopen(perf_map_info, "w");
if (!perf_map) {
LOG_WARNING("warning: can't create /tmp/perf-%d.map, because %s", pid,
strerror(errno));
goto quit;
}
for (i = 0; i < module->func_count; i++) {
memset(perf_map_info, 0, 128);
snprintf(perf_map_info, 128, "%lx %x aot_func#%u\n",
(uintptr_t)sorted_func_ptrs[i].ptr,
get_func_size(module, sorted_func_ptrs, i),
sorted_func_ptrs[i].idx);
fwrite(perf_map_info, 1, strlen(perf_map_info), perf_map);
}
LOG_VERBOSE("generate /tmp/perf-%d.map", pid);
ret = true;
quit:
if (sorted_func_ptrs)
free(sorted_func_ptrs);
if (perf_map)
fclose(perf_map);
return ret;
}
#endif /* WASM_ENABLE_LINUX_PERF != 0*/
static bool
load_from_sections(AOTModule *module, AOTSection *sections,
bool is_load_from_file_buf, char *error_buf,
@ -3878,7 +3822,7 @@ load_from_sections(AOTModule *module, AOTSection *sections,
}
static AOTModule *
create_module(char *error_buf, uint32 error_buf_size)
create_module(char *name, char *error_buf, uint32 error_buf_size)
{
AOTModule *module =
loader_malloc(sizeof(AOTModule), error_buf, error_buf_size);
@ -3890,7 +3834,7 @@ create_module(char *error_buf, uint32 error_buf_size)
module->module_type = Wasm_Module_AoT;
module->name = "";
module->name = name;
#if WASM_ENABLE_MULTI_MODULE != 0
module->import_module_list = &module->import_module_list_head;
@ -3926,7 +3870,7 @@ AOTModule *
aot_load_from_sections(AOTSection *section_list, char *error_buf,
uint32 error_buf_size)
{
AOTModule *module = create_module(error_buf, error_buf_size);
AOTModule *module = create_module("", error_buf, error_buf_size);
if (!module)
return NULL;
@ -4172,7 +4116,7 @@ load(const uint8 *buf, uint32 size, AOTModule *module, char *error_buf,
#if WASM_ENABLE_LINUX_PERF != 0
if (wasm_runtime_get_linux_perf())
if (!create_perf_map(module, error_buf, error_buf_size))
if (!aot_create_perf_map(module, error_buf, error_buf_size))
goto fail;
#endif
@ -4182,10 +4126,10 @@ fail:
}
AOTModule *
aot_load_from_aot_file(const uint8 *buf, uint32 size, char *error_buf,
uint32 error_buf_size)
aot_load_from_aot_file(const uint8 *buf, uint32 size, const LoadArgs *args,
char *error_buf, uint32 error_buf_size)
{
AOTModule *module = create_module(error_buf, error_buf_size);
AOTModule *module = create_module(args->name, error_buf, error_buf_size);
if (!module)
return NULL;
@ -4379,7 +4323,7 @@ aot_unload(AOTModule *module)
}
if (module->string_literal_ptrs) {
wasm_runtime_free(module->string_literal_ptrs);
wasm_runtime_free((void *)module->string_literal_ptrs);
}
}
#endif

120
core/iwasm/aot/aot_perf_map.c Normal file
View File

@ -0,0 +1,120 @@
/*
* Copyright (C) 2019 Intel Corporation. All rights reserved.
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
#include "aot_perf_map.h"
#include "bh_log.h"
#include "bh_platform.h"
#if WASM_ENABLE_LINUX_PERF != 0
struct func_info {
uint32 idx;
void *ptr;
};
static uint32
get_func_size(const AOTModule *module, struct func_info *sorted_func_ptrs,
uint32 idx)
{
uint32 func_sz;
if (idx == module->func_count - 1)
func_sz = (uintptr_t)module->code + module->code_size
- (uintptr_t)(sorted_func_ptrs[idx].ptr);
else
func_sz = (uintptr_t)(sorted_func_ptrs[idx + 1].ptr)
- (uintptr_t)(sorted_func_ptrs[idx].ptr);
return func_sz;
}
static int
compare_func_ptrs(const void *f1, const void *f2)
{
return (intptr_t)((struct func_info *)f1)->ptr
- (intptr_t)((struct func_info *)f2)->ptr;
}
static struct func_info *
sort_func_ptrs(const AOTModule *module, char *error_buf, uint32 error_buf_size)
{
uint64 content_len;
struct func_info *sorted_func_ptrs;
unsigned i;
content_len = (uint64)sizeof(struct func_info) * module->func_count;
sorted_func_ptrs = wasm_runtime_malloc(content_len);
if (!sorted_func_ptrs) {
snprintf(error_buf, error_buf_size,
"allocate memory failed when creating perf map");
return NULL;
}
for (i = 0; i < module->func_count; i++) {
sorted_func_ptrs[i].idx = i;
sorted_func_ptrs[i].ptr = module->func_ptrs[i];
}
qsort(sorted_func_ptrs, module->func_count, sizeof(struct func_info),
compare_func_ptrs);
return sorted_func_ptrs;
}
bool
aot_create_perf_map(const AOTModule *module, char *error_buf,
uint32 error_buf_size)
{
struct func_info *sorted_func_ptrs = NULL;
char perf_map_path[64] = { 0 };
char perf_map_info[128] = { 0 };
FILE *perf_map = NULL;
uint32 i;
pid_t pid = getpid();
bool ret = false;
sorted_func_ptrs = sort_func_ptrs(module, error_buf, error_buf_size);
if (!sorted_func_ptrs)
goto quit;
snprintf(perf_map_path, sizeof(perf_map_path) - 1, "/tmp/perf-%d.map", pid);
perf_map = fopen(perf_map_path, "a");
if (!perf_map) {
LOG_WARNING("warning: can't create /tmp/perf-%d.map, because %s", pid,
strerror(errno));
goto quit;
}
const char *module_name = aot_get_module_name((AOTModule *)module);
for (i = 0; i < module->func_count; i++) {
memset(perf_map_info, 0, 128);
if (strlen(module_name) > 0)
snprintf(perf_map_info, 128, "%lx %x [%s]#aot_func#%u\n",
(uintptr_t)sorted_func_ptrs[i].ptr,
get_func_size(module, sorted_func_ptrs, i), module_name,
sorted_func_ptrs[i].idx);
else
snprintf(perf_map_info, 128, "%lx %x aot_func#%u\n",
(uintptr_t)sorted_func_ptrs[i].ptr,
get_func_size(module, sorted_func_ptrs, i),
sorted_func_ptrs[i].idx);
/* fwrite() is thread safe */
fwrite(perf_map_info, 1, strlen(perf_map_info), perf_map);
}
LOG_VERBOSE("write map information from %s into /tmp/perf-%d.map",
module_name, pid);
ret = true;
quit:
if (sorted_func_ptrs)
wasm_runtime_free(sorted_func_ptrs);
if (perf_map)
fclose(perf_map);
return ret;
}
#endif /* WASM_ENABLE_LINUX_PERF != 0 */

15
core/iwasm/aot/aot_perf_map.h Normal file
View File

@ -0,0 +1,15 @@
/*
* Copyright (C) 2019 Intel Corporation. All rights reserved.
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
#ifndef _AOT_PERF_MAP_H_
#define _AOT_PERF_MAP_H_
#include "aot_runtime.h"
bool
aot_create_perf_map(const AOTModule *module, char *error_buf,
uint32 error_buf_size);
#endif /* _AOT_PERF_MAP_H_ */

1
core/iwasm/aot/aot_reloc.h
View File

@ -143,6 +143,7 @@ typedef struct {
REG_SYM(aot_array_init_with_data), \
REG_SYM(aot_create_func_obj), \
REG_SYM(aot_obj_is_instance_of), \
REG_SYM(aot_func_type_is_super_of), \
REG_SYM(aot_rtt_type_new), \
REG_SYM(wasm_array_obj_copy), \
REG_SYM(wasm_array_obj_new), \

106
core/iwasm/aot/aot_runtime.c
View File

@ -880,7 +880,7 @@ memory_instantiate(AOTModuleInstance *module_inst, AOTModuleInstance *parent,
global_addr = module_inst->global_data
+ module->globals[global_idx].data_offset;
*(uint32 *)global_addr = (uint32)aux_heap_base;
LOG_VERBOSE("Reset __heap_base global to %u", aux_heap_base);
LOG_VERBOSE("Reset __heap_base global to %" PRIu64, aux_heap_base);
}
else {
/* Insert app heap before new page */
@ -906,9 +906,10 @@ memory_instantiate(AOTModuleInstance *module_inst, AOTModuleInstance *parent,
LOG_VERBOSE("Memory instantiate:");
LOG_VERBOSE(" page bytes: %u, init pages: %u, max pages: %u",
num_bytes_per_page, init_page_count, max_page_count);
LOG_VERBOSE(" data offset: %u, stack size: %d", module->aux_data_end,
module->aux_stack_size);
LOG_VERBOSE(" heap offset: %u, heap size: %d\n", heap_offset, heap_size);
LOG_VERBOSE(" data offset: %" PRIu64 ", stack size: %d",
module->aux_data_end, module->aux_stack_size);
LOG_VERBOSE(" heap offset: %" PRIu64 ", heap size: %d\n", heap_offset,
heap_size);
max_memory_data_size = (uint64)num_bytes_per_page * max_page_count;
bh_assert(max_memory_data_size <= MAX_LINEAR_MEMORY_SIZE);
@ -1070,8 +1071,8 @@ memories_instantiate(AOTModuleInstance *module_inst, AOTModuleInstance *parent,
/* Check memory data */
/* check offset since length might negative */
if (base_offset > memory_inst->memory_data_size) {
LOG_DEBUG("base_offset(%d) > memory_data_size(%d)", base_offset,
memory_inst->memory_data_size);
LOG_DEBUG("base_offset(%d) > memory_data_size(%" PRIu64 ")",
base_offset, memory_inst->memory_data_size);
#if WASM_ENABLE_REF_TYPES != 0
set_error_buf(error_buf, error_buf_size,
"out of bounds memory access");
@ -1085,7 +1086,8 @@ memories_instantiate(AOTModuleInstance *module_inst, AOTModuleInstance *parent,
/* check offset + length(could be zero) */
length = data_seg->byte_count;
if (base_offset + length > memory_inst->memory_data_size) {
LOG_DEBUG("base_offset(%d) + length(%d) > memory_data_size(%d)",
LOG_DEBUG("base_offset(%d) + length(%d) > memory_data_size(%" PRIu64
")",
base_offset, length, memory_inst->memory_data_size);
#if WASM_ENABLE_REF_TYPES != 0
set_error_buf(error_buf, error_buf_size,
@ -1719,6 +1721,7 @@ aot_instantiate(AOTModule *module, AOTModuleInstance *parent,
bh_assert(table_init_data);
bh_assert(table_init_data->table_index < module_inst->table_count);
table = module_inst->tables[table_init_data->table_index];
bh_assert(table);
@ -1726,8 +1729,9 @@ aot_instantiate(AOTModule *module, AOTModuleInstance *parent,
bh_assert(table_data);
wasm_runtime_get_table_inst_elem_type(
(WASMModuleInstanceCommon *)module_inst, i, &tbl_elem_type,
&tbl_elem_ref_type, &tbl_init_size, &tbl_max_size);
(WASMModuleInstanceCommon *)module_inst,
table_init_data->table_index, &tbl_elem_type, &tbl_elem_ref_type,
&tbl_init_size, &tbl_max_size);
if (!wasm_elem_is_declarative(table_init_data->mode)
&& !wasm_reftype_is_subtype_of(
@ -1963,8 +1967,6 @@ invoke_native_with_hw_bound_check(WASMExecEnv *exec_env, void *func_ptr,
AOTModuleInstance *module_inst = (AOTModuleInstance *)exec_env->module_inst;
WASMExecEnv *exec_env_tls = wasm_runtime_get_exec_env_tls();
WASMJmpBuf jmpbuf_node = { 0 }, *jmpbuf_node_pop;
uint32 page_size = os_getpagesize();
uint32 guard_page_count = STACK_OVERFLOW_CHECK_GUARD_PAGE_COUNT;
#ifdef BH_PLATFORM_WINDOWS
int result;
bool has_exception;
@ -1975,10 +1977,7 @@ invoke_native_with_hw_bound_check(WASMExecEnv *exec_env, void *func_ptr,
/* Check native stack overflow firstly to ensure we have enough
native stack to run the following codes before actually calling
the aot function in invokeNative function. */
RECORD_STACK_USAGE(exec_env, (uint8 *)&module_inst);
if ((uint8 *)&module_inst < exec_env->native_stack_boundary
+ page_size * (guard_page_count + 1)) {
aot_set_exception_with_id(module_inst, EXCE_NATIVE_STACK_OVERFLOW);
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
return false;
}
@ -2523,7 +2522,8 @@ aot_module_malloc_internal(AOTModuleInstance *module_inst,
aot_set_exception(module_inst, "app heap corrupted");
}
else {
LOG_WARNING("warning: allocate %u bytes memory failed", size);
LOG_WARNING("warning: allocate %" PRIu64 " bytes memory failed",
size);
}
return 0;
}
@ -2785,9 +2785,7 @@ aot_call_indirect(WASMExecEnv *exec_env, uint32 tbl_idx, uint32 table_elem_idx,
exec_env->native_stack_boundary must have been set, we don't set
it again */
RECORD_STACK_USAGE(exec_env, (uint8 *)&module_inst);
if ((uint8 *)&module_inst < exec_env->native_stack_boundary) {
aot_set_exception_with_id(module_inst, EXCE_NATIVE_STACK_OVERFLOW);
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
goto fail;
}
@ -2806,7 +2804,7 @@ aot_call_indirect(WASMExecEnv *exec_env, uint32 tbl_idx, uint32 table_elem_idx,
}
#if WASM_ENABLE_GC == 0
func_idx = tbl_elem_val;
func_idx = (uint32)tbl_elem_val;
#else
func_idx =
wasm_func_obj_get_func_idx_bound((WASMFuncObjectRef)tbl_elem_val);
@ -3363,39 +3361,49 @@ aot_table_fill(AOTModuleInstance *module_inst, uint32 tbl_idx, uint32 length,
}
uint32
aot_table_grow(AOTModuleInstance *module_inst, uint32 tbl_idx,
uint32 inc_entries, table_elem_type_t init_val)
aot_table_grow(AOTModuleInstance *module_inst, uint32 tbl_idx, uint32 inc_size,
table_elem_type_t init_val)
{
uint32 entry_count, i, orig_tbl_sz;
AOTTableInstance *tbl_inst;
uint32 i, orig_size, total_size;
tbl_inst = module_inst->tables[tbl_idx];
if (!tbl_inst) {
return (uint32)-1;
}
orig_tbl_sz = tbl_inst->cur_size;
orig_size = tbl_inst->cur_size;
if (!inc_entries) {
return orig_tbl_sz;
if (!inc_size) {
return orig_size;
}
if (tbl_inst->cur_size > UINT32_MAX - inc_entries) {
if (tbl_inst->cur_size > UINT32_MAX - inc_size) {
#if WASM_ENABLE_SPEC_TEST == 0
LOG_WARNING("table grow (%" PRIu32 "-> %" PRIu32
") failed because of integer overflow",
tbl_inst->cur_size, inc_size);
#endif
return (uint32)-1;
}
entry_count = tbl_inst->cur_size + inc_entries;
if (entry_count > tbl_inst->max_size) {
total_size = tbl_inst->cur_size + inc_size;
if (total_size > tbl_inst->max_size) {
#if WASM_ENABLE_SPEC_TEST == 0
LOG_WARNING("table grow (%" PRIu32 "-> %" PRIu32
") failed because of over max size",
tbl_inst->cur_size, inc_size);
#endif
return (uint32)-1;
}
/* fill in */
for (i = 0; i < inc_entries; ++i) {
for (i = 0; i < inc_size; ++i) {
tbl_inst->elems[tbl_inst->cur_size + i] = init_val;
}
tbl_inst->cur_size = entry_count;
return orig_tbl_sz;
tbl_inst->cur_size = total_size;
return orig_size;
}
#endif /* WASM_ENABLE_REF_TYPES != 0 || WASM_ENABLE_GC != 0 */
@ -3697,14 +3705,14 @@ aot_create_call_stack(struct WASMExecEnv *exec_env)
frame.instance = module_inst;
frame.module_offset = 0;
frame.func_index = cur_frame->func_index;
frame.func_offset = cur_frame->ip_offset;
frame.func_name_wp =
get_func_name_from_index(module_inst, cur_frame->func_index);
frame.func_index = (uint32)cur_frame->func_index;
frame.func_offset = (uint32)cur_frame->ip_offset;
frame.func_name_wp = get_func_name_from_index(
module_inst, (uint32)cur_frame->func_index);
if (cur_frame->func_index >= module->import_func_count) {
uint32 aot_func_idx =
cur_frame->func_index - module->import_func_count;
(uint32)(cur_frame->func_index - module->import_func_count);
max_local_cell_num = module->max_local_cell_nums[aot_func_idx];
max_stack_cell_num = module->max_stack_cell_nums[aot_func_idx];
}
@ -4474,6 +4482,22 @@ aot_obj_is_instance_of(AOTModuleInstance *module_inst, WASMObjectRef gc_obj,
return wasm_obj_is_instance_of(gc_obj, type_index, types, type_count);
}
bool
aot_func_type_is_super_of(AOTModuleInstance *module_inst, uint32 type_idx1,
uint32 type_idx2)
{
AOTModule *aot_module = (AOTModule *)module_inst->module;
AOTType **types = aot_module->types;
if (type_idx1 == type_idx2)
return true;
bh_assert(types[type_idx1]->type_flag == WASM_TYPE_FUNC);
bh_assert(types[type_idx2]->type_flag == WASM_TYPE_FUNC);
return wasm_func_type_is_super_of((WASMFuncType *)types[type_idx1],
(WASMFuncType *)types[type_idx2]);
}
WASMRttTypeRef
aot_rtt_type_new(AOTModuleInstance *module_inst, uint32 type_index)
{
@ -4721,12 +4745,12 @@ aot_set_module_name(AOTModule *module, const char *name, char *error_buf,
if (!name)
return false;
module->name =
aot_const_str_set_insert((const uint8 *)name, strlen(name) + 1, module,
module->name = aot_const_str_set_insert((const uint8 *)name,
(uint32)(strlen(name) + 1), module,
#if (WASM_ENABLE_WORD_ALIGN_READ != 0)
false,
false,
#endif
error_buf, error_buf_size);
error_buf, error_buf_size);
return module->name != NULL;
}

9
core/iwasm/aot/aot_runtime.h
View File

@ -444,8 +444,8 @@ typedef struct LLVMProfileData_64 {
* @return return AOT module loaded, NULL if failed
*/
AOTModule *
aot_load_from_aot_file(const uint8 *buf, uint32 size, char *error_buf,
uint32 error_buf_size);
aot_load_from_aot_file(const uint8 *buf, uint32 size, const LoadArgs *args,
char *error_buf, uint32 error_buf_size);
/**
* Load a AOT module from a specified AOT section list.
@ -752,6 +752,11 @@ bool
aot_obj_is_instance_of(AOTModuleInstance *module_inst, WASMObjectRef gc_obj,
uint32 type_index);
/* Whether func type1 is one of super types of func type2 */
bool
aot_func_type_is_super_of(AOTModuleInstance *module_inst, uint32 type_idx1,
uint32 type_idx2);
WASMRttTypeRef
aot_rtt_type_new(AOTModuleInstance *module_inst, uint32 type_index);

1
core/iwasm/aot/debug/elf_parser.c
View File

@ -7,7 +7,6 @@
#include <assert.h>
#include <fcntl.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include <stdbool.h>

13
core/iwasm/aot/debug/jit_debug.c
View File

@ -24,7 +24,6 @@
#include <stdio.h>
#include <assert.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include <stdbool.h>
@ -56,6 +55,12 @@ typedef struct JITDescriptor {
JITCodeEntry *first_entry_;
} JITDescriptor;
#if defined(_WIN32) || defined(_WIN32_)
#define attribute_noinline __declspec(noinline)
#else
#define attribute_noinline __attribute__((noinline))
#endif
/* LLVM has already define this */
#if (WASM_ENABLE_WAMR_COMPILER == 0) && (WASM_ENABLE_JIT == 0)
/**
@ -63,9 +68,11 @@ typedef struct JITDescriptor {
* To prevent GCC from inlining or removing it we place noinline attribute
* and inline assembler statement inside.
*/
void __attribute__((noinline)) __jit_debug_register_code();
void attribute_noinline
__jit_debug_register_code();
void __attribute__((noinline)) __jit_debug_register_code()
void attribute_noinline
__jit_debug_register_code()
{
int x;
*(char *)&x = '\0';

7
core/iwasm/common/gc/gc_common.c
View File

@ -304,7 +304,12 @@ wasm_defined_type_equal(WASMType *const def_type1, WASMType *const def_type2,
}
#endif
#if WASM_ENABLE_AOT != 0
/* TODO */
if (module->module_type == Wasm_Module_AoT) {
AOTModule *aot_module = (AOTModule *)module;
types = aot_module->types;
type_count = aot_module->type_count;
}
#endif
bh_assert(types);

168
core/iwasm/common/gc/gc_type.c
View File

@ -148,7 +148,7 @@ wasm_dump_func_type(const WASMFuncType *type)
os_printf("] -> [");
for (; i < type->param_count + type->result_count; i++) {
for (; i < (uint32)(type->param_count + type->result_count); i++) {
if (wasm_is_type_multi_byte_type(type->types[i])) {
bh_assert(j < type->ref_type_map_count);
bh_assert(i == type->ref_type_maps[j].index);
@ -250,6 +250,51 @@ wasm_value_types_is_subtype_of(const uint8 *types1,
return true;
}
static bool
rec_ref_type_equal(const WASMRefType *ref_type1, const WASMRefType *ref_type2,
uint32 rec_begin_type_idx1, uint32 rec_begin_type_idx2,
uint32 rec_count, const WASMTypePtr *types,
uint32 type_count)
{
uint32 type_idx1, type_idx2;
if (!wasm_is_refheaptype_typeidx(&ref_type1->ref_ht_common)
|| !wasm_is_refheaptype_typeidx(&ref_type2->ref_ht_common))
return ref_type1->ref_ht_common.heap_type
== ref_type2->ref_ht_common.heap_type
? true
: false;
/* Now both ref types are type of (ref type_idx) */
type_idx1 = ref_type1->ref_ht_typeidx.type_idx;
type_idx2 = ref_type2->ref_ht_typeidx.type_idx;
if (type_idx1 >= rec_begin_type_idx1
&& type_idx1 < rec_begin_type_idx1 + rec_count) {
/* The converted iso-recursive types should be the same */
bool ret = (type_idx2 >= rec_begin_type_idx2
&& type_idx2 < rec_begin_type_idx2 + rec_count
&& type_idx1 - rec_begin_type_idx1
== type_idx2 - rec_begin_type_idx2)
? true
: false;
return ret;
}
else if (type_idx2 >= rec_begin_type_idx2
&& type_idx2 < rec_begin_type_idx2 + rec_count) {
/* The converted iso-recursive types should be the same */
bool ret = (type_idx1 >= rec_begin_type_idx1
&& type_idx1 < rec_begin_type_idx1 + rec_count
&& type_idx1 - rec_begin_type_idx1
== type_idx2 - rec_begin_type_idx2)
? true
: false;
return ret;
}
return types[type_idx1] == types[type_idx2] ? true : false;
}
bool
wasm_func_type_equal(const WASMFuncType *type1, const WASMFuncType *type2,
const WASMTypePtr *types, uint32 type_count)
@ -264,7 +309,7 @@ wasm_func_type_equal(const WASMFuncType *type1, const WASMFuncType *type2,
|| type1->ref_type_map_count != type2->ref_type_map_count)
return false;
for (i = 0; i < type1->param_count + type1->result_count; i++) {
for (i = 0; i < (uint32)(type1->param_count + type1->result_count); i++) {
if (type1->types[i] != type2->types[i])
return false;
@ -277,9 +322,11 @@ wasm_func_type_equal(const WASMFuncType *type1, const WASMFuncType *type2,
ref_type1 = type1->ref_type_maps[j].ref_type;
ref_type2 = type2->ref_type_maps[j].ref_type;
if (!wasm_reftype_equal(ref_type1->ref_type, ref_type1,
ref_type2->ref_type, ref_type2, types,
type_count))
if (!rec_ref_type_equal(
ref_type1, ref_type2, type1->base_type.rec_begin_type_idx,
type2->base_type.rec_begin_type_idx,
type1->base_type.rec_count, types, type_count))
return false;
j++;
@ -316,9 +363,11 @@ wasm_struct_type_equal(const WASMStructType *type1, const WASMStructType *type2,
ref_type1 = type1->ref_type_maps[j].ref_type;
ref_type2 = type2->ref_type_maps[j].ref_type;
if (!wasm_reftype_equal(ref_type1->ref_type, ref_type1,
ref_type2->ref_type, ref_type2, types,
type_count))
if (!rec_ref_type_equal(
ref_type1, ref_type2, type1->base_type.rec_begin_type_idx,
type2->base_type.rec_begin_type_idx,
type1->base_type.rec_count, types, type_count))
return false;
j++;
@ -338,21 +387,67 @@ wasm_array_type_equal(const WASMArrayType *type1, const WASMArrayType *type2,
if (type1->elem_flags != type2->elem_flags)
return false;
return wasm_reftype_equal(type1->elem_type, type1->elem_ref_type,
type2->elem_type, type2->elem_ref_type, types,
type_count);
if (type1->elem_type != type2->elem_type)
return false;
if (!wasm_is_type_multi_byte_type(type1->elem_type))
return true;
return rec_ref_type_equal(type1->elem_ref_type, type2->elem_ref_type,
type1->base_type.rec_begin_type_idx,
type2->base_type.rec_begin_type_idx,
type1->base_type.rec_count, types, type_count);
}
bool
wasm_type_equal(const WASMType *type1, const WASMType *type2,
const WASMTypePtr *types, uint32 type_count)
{
uint32 rec_begin_type_idx1 = type1->rec_begin_type_idx;
uint32 rec_begin_type_idx2 = type2->rec_begin_type_idx;
uint32 parent_type_idx1, parent_type_idx2, rec_count;
if (type1 == type2)
return true;
if (type1->type_flag != type2->type_flag)
if (!(type1->type_flag == type2->type_flag
&& type1->is_sub_final == type2->is_sub_final
&& type1->rec_count == type2->rec_count
&& type1->rec_idx == type2->rec_idx))
return false;
rec_count = type1->rec_count;
parent_type_idx1 = type1->parent_type_idx;
parent_type_idx2 = type2->parent_type_idx;
if (parent_type_idx1 >= rec_begin_type_idx1
&& parent_type_idx1 < rec_begin_type_idx1 + rec_count) {
/* The converted iso-recursive types should be the same */
if (!(parent_type_idx2 >= rec_begin_type_idx2
&& parent_type_idx2 < rec_begin_type_idx2 + rec_count
&& parent_type_idx1 - rec_begin_type_idx1
== parent_type_idx2 - rec_begin_type_idx2)) {
return false;
}
}
else if (parent_type_idx2 >= rec_begin_type_idx2
&& parent_type_idx2 < rec_begin_type_idx2 + rec_count) {
/* The converted iso-recursive types should be the same */
if (!(parent_type_idx1 >= rec_begin_type_idx1
&& parent_type_idx1 < rec_begin_type_idx1 + rec_count
&& parent_type_idx1 - rec_begin_type_idx1
== parent_type_idx2 - rec_begin_type_idx2)) {
return false;
}
}
else if (type1->parent_type != type2->parent_type) {
/* The parent types should be same since they have been
normalized and equivalence types with different type
indexes are referring to a same WASMType */
return false;
}
if (wasm_type_is_func_type(type1))
return wasm_func_type_equal((WASMFuncType *)type1,
(WASMFuncType *)type2, types, type_count);
@ -399,7 +494,7 @@ wasm_func_type_is_subtype_of(const WASMFuncType *type1,
}
}
for (; i < type1->param_count + type1->result_count; i++) {
for (; i < (uint32)(type1->param_count + type1->result_count); i++) {
if (wasm_is_type_multi_byte_type(type1->types[i])) {
bh_assert(j1 < type1->ref_type_map_count);
ref_type1 = type1->ref_type_maps[j1++].ref_type;
@ -653,12 +748,6 @@ wasm_reftype_struct_size(const WASMRefType *ref_type)
return (uint32)sizeof(RefHeapType_Common);
}
static bool
type_idx_equal(uint32 type_idx1, uint32 type_idx2)
{
return (type_idx1 == type_idx2) ? true : false;
}
bool
wasm_refheaptype_equal(const RefHeapType_Common *ref_heap_type1,
const RefHeapType_Common *ref_heap_type2,
@ -673,8 +762,16 @@ wasm_refheaptype_equal(const RefHeapType_Common *ref_heap_type1,
if (ref_heap_type1->heap_type != ref_heap_type2->heap_type) {
if (wasm_is_refheaptype_typeidx(ref_heap_type1)
&& wasm_is_refheaptype_typeidx(ref_heap_type2)) {
return type_idx_equal(ref_heap_type1->heap_type,
ref_heap_type2->heap_type);
if (ref_heap_type1->heap_type == ref_heap_type2->heap_type)
return true;
else
/* the type_count may be 0 when called from reftype_equal */
return ((uint32)ref_heap_type1->heap_type < type_count
&& (uint32)ref_heap_type2->heap_type < type_count
&& types[ref_heap_type1->heap_type]
== types[ref_heap_type2->heap_type])
? true
: false;
}
return false;
}
@ -835,6 +932,13 @@ wasm_type_is_supers_of(const WASMType *type1, const WASMType *type2)
return false;
}
bool
wasm_func_type_is_super_of(const WASMFuncType *type1, const WASMFuncType *type2)
{
return wasm_type_is_supers_of((const WASMType *)type1,
(const WASMType *)type2);
}
bool
wasm_reftype_is_subtype_of(uint8 type1, const WASMRefType *ref_type1,
uint8 type2, const WASMRefType *ref_type2,
@ -914,14 +1018,15 @@ wasm_reftype_is_subtype_of(uint8 type1, const WASMRefType *ref_type1,
#endif
else if (type1 == REF_TYPE_HT_NULLABLE) {
if (wasm_is_refheaptype_typeidx(&ref_type1->ref_ht_common)) {
bh_assert((uint32)ref_type1->ref_ht_typeidx.type_idx < type_count);
/* reftype1 is (ref null $t) */
if (type2 == REF_TYPE_HT_NULLABLE && ref_type2 != NULL
&& wasm_is_refheaptype_typeidx(&ref_type2->ref_ht_common)) {
return type_idx_equal(ref_type1->ref_ht_typeidx.type_idx,
ref_type2->ref_ht_typeidx.type_idx)
|| wasm_type_is_supers_of(
types[ref_type2->ref_ht_typeidx.type_idx],
types[ref_type1->ref_ht_typeidx.type_idx]);
bh_assert((uint32)ref_type2->ref_ht_typeidx.type_idx
< type_count);
return wasm_type_is_supers_of(
types[ref_type2->ref_ht_typeidx.type_idx],
types[ref_type1->ref_ht_typeidx.type_idx]);
}
else if (types[ref_type1->ref_ht_typeidx.type_idx]->type_flag
== WASM_TYPE_STRUCT)
@ -963,16 +1068,17 @@ wasm_reftype_is_subtype_of(uint8 type1, const WASMRefType *ref_type1,
else if (type1 == REF_TYPE_HT_NON_NULLABLE) {
bh_assert(ref_type1);
if (wasm_is_refheaptype_typeidx(&ref_type1->ref_ht_common)) {
bh_assert((uint32)ref_type1->ref_ht_typeidx.type_idx < type_count);
/* reftype1 is (ref $t) */
if ((type2 == REF_TYPE_HT_NULLABLE
|| type2 == REF_TYPE_HT_NON_NULLABLE)
&& ref_type2 != NULL
&& wasm_is_refheaptype_typeidx(&ref_type2->ref_ht_common)) {
return type_idx_equal(ref_type1->ref_ht_typeidx.type_idx,
ref_type2->ref_ht_typeidx.type_idx)
|| wasm_type_is_supers_of(
types[ref_type2->ref_ht_typeidx.type_idx],
types[ref_type1->ref_ht_typeidx.type_idx]);
bh_assert((uint32)ref_type2->ref_ht_typeidx.type_idx
< type_count);
return wasm_type_is_supers_of(
types[ref_type2->ref_ht_typeidx.type_idx],
types[ref_type1->ref_ht_typeidx.type_idx]);
}
else if (types[ref_type1->ref_ht_typeidx.type_idx]->type_flag
== WASM_TYPE_STRUCT) {

6
core/iwasm/common/gc/gc_type.h
View File

@ -47,6 +47,12 @@ wasm_func_type_is_subtype_of(const WASMFuncType *type1,
const WASMFuncType *type2,
const WASMTypePtr *types, uint32 type_count);
/* Whether func type1 is one of super types of func type2,
used for the func type check in call_indirect/call_ref opcodes */
bool
wasm_func_type_is_super_of(const WASMFuncType *type1,
const WASMFuncType *type2);
/* Whether func type1's result types are subtype of
func type2's result types */
bool

3
core/iwasm/common/wasm_application.c
View File

@ -578,8 +578,7 @@ execute_func(WASMModuleInstanceCommon *module_inst, const char *name,
is_anyref = true;
}
if (wasm_is_type_multi_byte_type(
type->types[type->param_count + i])) {
if (wasm_is_type_multi_byte_type(type->types[i])) {
WASMRefType *ref_type = ref_type_map->ref_type;
if (wasm_is_refheaptype_common(
&ref_type->ref_ht_common)) {

19
core/iwasm/common/wasm_c_api.c
View File

@ -2234,7 +2234,8 @@ quit:
#endif /* WASM_ENABLE_WASM_CACHE != 0 */
wasm_module_t *
wasm_module_new(wasm_store_t *store, const wasm_byte_vec_t *binary)
wasm_module_new_ex(wasm_store_t *store, const wasm_byte_vec_t *binary,
const LoadArgs *args)
{
char error_buf[128] = { 0 };
wasm_module_ex_t *module_ex = NULL;
@ -2290,8 +2291,8 @@ wasm_module_new(wasm_store_t *store, const wasm_byte_vec_t *binary)
if (!module_ex->binary->data)
goto free_binary;
module_ex->module_comm_rt = wasm_runtime_load(
(uint8 *)module_ex->binary->data, (uint32)module_ex->binary->size,
module_ex->module_comm_rt = wasm_runtime_load_ex(
(uint8 *)module_ex->binary->data, (uint32)module_ex->binary->size, args,
error_buf, (uint32)sizeof(error_buf));
if (!(module_ex->module_comm_rt)) {
LOG_ERROR("%s", error_buf);
@ -2337,6 +2338,14 @@ quit:
return NULL;
}
wasm_module_t *
wasm_module_new(wasm_store_t *store, const wasm_byte_vec_t *binary)
{
LoadArgs args = { 0 };
args.name = "";
return wasm_module_new_ex(store, binary, &args);
}
bool
wasm_module_validate(wasm_store_t *store, const wasm_byte_vec_t *binary)
{
@ -3987,7 +3996,7 @@ wasm_table_get(const wasm_table_t *table, wasm_table_size_t index)
if (index >= table_interp->cur_size) {
return NULL;
}
ref_idx = table_interp->elems[index];
ref_idx = (uint32)table_interp->elems[index];
}
#endif
@ -3998,7 +4007,7 @@ wasm_table_get(const wasm_table_t *table, wasm_table_size_t index)
if (index >= table_aot->cur_size) {
return NULL;
}
ref_idx = table_aot->elems[index];
ref_idx = (uint32)table_aot->elems[index];
}
#endif

3
core/iwasm/common/wasm_exec_env.h
View File

@ -117,6 +117,9 @@ typedef struct WASMExecEnv {
/* whether current thread is detached */
bool thread_is_detached;
/* whether the aux stack is allocated */
bool is_aux_stack_allocated;
#endif
#if WASM_ENABLE_GC != 0

122
core/iwasm/common/wasm_memory.c
View File

@ -29,24 +29,43 @@ static void *enlarge_memory_error_user_data;
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
static void *allocator_user_data = NULL;
static void *(*malloc_func)(void *user_data, unsigned int size) = NULL;
static void *(*realloc_func)(void *user_data, void *ptr,
unsigned int size) = NULL;
static void (*free_func)(void *user_data, void *ptr) = NULL;
#else
static void *(*malloc_func)(unsigned int size) = NULL;
static void *(*realloc_func)(void *ptr, unsigned int size) = NULL;
static void (*free_func)(void *ptr) = NULL;
#endif
static void *(*malloc_func)(
#if WASM_MEM_ALLOC_WITH_USAGE != 0
mem_alloc_usage_t usage,
#endif
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
void *user_data,
#endif
unsigned int size) = NULL;
static void *(*realloc_func)(
#if WASM_MEM_ALLOC_WITH_USAGE != 0
mem_alloc_usage_t usage, bool full_size_mmaped,
#endif
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
void *user_data,
#endif
void *ptr, unsigned int size) = NULL;
static void (*free_func)(
#if WASM_MEM_ALLOC_WITH_USAGE != 0
mem_alloc_usage_t usage,
#endif
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
void *user_data,
#endif
void *ptr) = NULL;
static unsigned int global_pool_size;
static uint32
static uint64
align_as_and_cast(uint64 size, uint64 alignment)
{
uint64 aligned_size = (size + alignment - 1) & ~(alignment - 1);
return aligned_size > UINT32_MAX ? UINT32_MAX : (uint32)aligned_size;
return aligned_size;
}
static bool
@ -177,11 +196,14 @@ wasm_runtime_malloc_internal(unsigned int size)
return mem_allocator_malloc(pool_allocator, size);
}
else if (memory_mode == MEMORY_MODE_ALLOCATOR) {
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
return malloc_func(allocator_user_data, size);
#else
return malloc_func(size);
return malloc_func(
#if WASM_MEM_ALLOC_WITH_USAGE != 0
Alloc_For_Runtime,
#endif
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
allocator_user_data,
#endif
size);
}
else {
return os_malloc(size);
@ -201,11 +223,14 @@ wasm_runtime_realloc_internal(void *ptr, unsigned int size)
}
else if (memory_mode == MEMORY_MODE_ALLOCATOR) {
if (realloc_func)
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
return realloc_func(allocator_user_data, ptr, size);
#else
return realloc_func(ptr, size);
return realloc_func(
#if WASM_MEM_ALLOC_WITH_USAGE != 0
Alloc_For_Runtime, false,
#endif
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
allocator_user_data,
#endif
ptr, size);
else
return NULL;
}
@ -233,11 +258,14 @@ wasm_runtime_free_internal(void *ptr)
mem_allocator_free(pool_allocator, ptr);
}
else if (memory_mode == MEMORY_MODE_ALLOCATOR) {
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
free_func(allocator_user_data, ptr);
#else
free_func(ptr);
free_func(
#if WASM_MEM_ALLOC_WITH_USAGE != 0
Alloc_For_Runtime,
#endif
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
allocator_user_data,
#endif
ptr);
}
else {
os_free(ptr);
@ -765,6 +793,29 @@ wasm_enlarge_memory_internal(WASMModuleInstance *module, uint32 inc_page_count)
bh_assert(total_size_new
<= GET_MAX_LINEAR_MEMORY_SIZE(memory->is_memory64));
#if WASM_MEM_ALLOC_WITH_USAGE != 0
if (!(memory_data_new =
realloc_func(Alloc_For_LinearMemory, full_size_mmaped,
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
NULL,
#endif
memory_data_old, total_size_new))) {
ret = false;
goto return_func;
}
if (heap_size > 0) {
if (mem_allocator_migrate(memory->heap_handle,
(char *)heap_data_old
+ (memory_data_new - memory_data_old),
heap_size)
!= 0) {
ret = false;
}
}
memory->heap_data = memory_data_new + (heap_data_old - memory_data_old);
memory->heap_data_end = memory->heap_data + heap_size;
memory->memory_data = memory_data_new;
#else
if (full_size_mmaped) {
#ifdef BH_PLATFORM_WINDOWS
if (!os_mem_commit(memory->memory_data_end,
@ -823,6 +874,7 @@ wasm_enlarge_memory_internal(WASMModuleInstance *module, uint32 inc_page_count)
os_writegsbase(memory_data_new);
#endif
}
#endif /* end of WASM_MEM_ALLOC_WITH_USAGE */
memory->num_bytes_per_page = num_bytes_per_page;
memory->cur_page_count = total_page_count;
@ -903,8 +955,19 @@ wasm_deallocate_linear_memory(WASMMemoryInstance *memory_inst)
#else
map_size = 8 * (uint64)BH_GB;
#endif
#if WASM_MEM_ALLOC_WITH_USAGE != 0
(void)map_size;
free_func(Alloc_For_LinearMemory,
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
NULL,
#endif
memory_inst->memory_data);
#else
wasm_munmap_linear_memory(memory_inst->memory_data,
memory_inst->memory_data_size, map_size);
#endif
memory_inst->memory_data = NULL;
}
@ -951,13 +1014,24 @@ wasm_allocate_linear_memory(uint8 **data, bool is_shared_memory,
{
bh_assert(*memory_data_size <= MAX_LINEAR_MEMORY_SIZE);
}
align_as_and_cast(*memory_data_size, page_size);
*memory_data_size = align_as_and_cast(*memory_data_size, page_size);
if (map_size > 0) {
#if WASM_MEM_ALLOC_WITH_USAGE != 0
(void)wasm_mmap_linear_memory;
if (!(*data = malloc_func(Alloc_For_LinearMemory,
#if WASM_MEM_ALLOC_WITH_USER_DATA != 0
NULL,
#endif
*memory_data_size))) {
return BHT_ERROR;
}
#else
if (!(*data = wasm_mmap_linear_memory(map_size, *memory_data_size))) {
return BHT_ERROR;
}
#endif
}
return BHT_OK;
}
}

4
core/iwasm/common/wasm_native.c
View File

@ -84,9 +84,9 @@ compare_type_with_signautre(uint8 type, const char signature)
if ('r' == signature
#if WASM_ENABLE_GC != 0
#if WASM_ENABLE_STRINGREF != 0
&& (type >= REF_TYPE_STRINGVIEWITER && type <= REF_TYPE_FUNCREF)
&& (type >= REF_TYPE_STRINGVIEWITER && type <= REF_TYPE_NULLFUNCREF)
#else
&& (type >= REF_TYPE_NULLREF && type <= REF_TYPE_FUNCREF)
&& (type >= REF_TYPE_HT_NULLABLE && type <= REF_TYPE_NULLFUNCREF)
#endif
#else
&& type == VALUE_TYPE_EXTERNREF

314
core/iwasm/common/wasm_runtime_common.c
View File

@ -65,7 +65,7 @@
#if WASM_ENABLE_MULTI_MODULE != 0
/**
* A safety insurance to prevent
* circular depencies which leads stack overflow
* circular dependencies which leads stack overflow
* try to break early
*/
typedef struct LoadingModule {
@ -219,7 +219,7 @@ runtime_signal_handler(void *sig_addr)
os_longjmp(jmpbuf_node->jmpbuf, 1);
}
#if WASM_DISABLE_STACK_HW_BOUND_CHECK == 0
else if (stack_min_addr - page_size <= (uint8 *)sig_addr
else if (stack_min_addr <= (uint8 *)sig_addr
&& (uint8 *)sig_addr
< stack_min_addr + page_size * guard_page_count) {
/* The address which causes segmentation fault is inside
@ -275,11 +275,11 @@ decode_insn(uint8 *insn)
buffer, sizeof(buffer),
runtime_address);
#if 0
/* Print current instruction */
/*
os_printf("%012" PRIX64 " ", runtime_address);
puts(buffer);
*/
#endif
return instruction.length;
}
@ -1043,7 +1043,7 @@ wasm_runtime_register_module_internal(const char *module_name,
/* module hasn't been registered */
node = runtime_malloc(sizeof(WASMRegisteredModule), NULL, NULL, 0);
if (!node) {
LOG_DEBUG("malloc WASMRegisteredModule failed. SZ=%d",
LOG_DEBUG("malloc WASMRegisteredModule failed. SZ=%zu",
sizeof(WASMRegisteredModule));
return false;
}
@ -1333,11 +1333,15 @@ register_module_with_null_name(WASMModuleCommon *module_common, char *error_buf,
}
WASMModuleCommon *
wasm_runtime_load(uint8 *buf, uint32 size, char *error_buf,
uint32 error_buf_size)
wasm_runtime_load_ex(uint8 *buf, uint32 size, const LoadArgs *args,
char *error_buf, uint32 error_buf_size)
{
WASMModuleCommon *module_common = NULL;
if (!args) {
return NULL;
}
if (get_package_type(buf, size) == Wasm_Module_Bytecode) {
#if WASM_ENABLE_INTERP != 0
module_common =
@ -1345,13 +1349,13 @@ wasm_runtime_load(uint8 *buf, uint32 size, char *error_buf,
#if WASM_ENABLE_MULTI_MODULE != 0
true,
#endif
error_buf, error_buf_size);
args, error_buf, error_buf_size);
#endif
}
else if (get_package_type(buf, size) == Wasm_Module_AoT) {
#if WASM_ENABLE_AOT != 0
module_common = (WASMModuleCommon *)aot_load_from_aot_file(
buf, size, error_buf, error_buf_size);
buf, size, args, error_buf, error_buf_size);
#endif
}
else {
@ -1367,10 +1371,21 @@ wasm_runtime_load(uint8 *buf, uint32 size, char *error_buf,
LOG_DEBUG("WASM module load failed");
return NULL;
}
/*TODO: use file name as name and register with name? */
return register_module_with_null_name(module_common, error_buf,
error_buf_size);
}
WASMModuleCommon *
wasm_runtime_load(uint8 *buf, uint32 size, char *error_buf,
uint32 error_buf_size)
{
LoadArgs args = { 0 };
args.name = "";
return wasm_runtime_load_ex(buf, size, &args, error_buf, error_buf_size);
}
WASMModuleCommon *
wasm_runtime_load_from_sections(WASMSection *section_list, bool is_aot,
char *error_buf, uint32 error_buf_size)
@ -1780,7 +1795,7 @@ wasm_runtime_dump_mem_consumption(WASMExecEnv *exec_env)
wasm_runtime_dump_module_inst_mem_consumption(module_inst_common);
wasm_runtime_dump_exec_env_mem_consumption(exec_env);
os_printf("\nTotal memory consumption of module, module inst and "
"exec env: %u\n",
"exec env: %" PRIu64 "\n",
total_size);
os_printf("Total interpreter stack used: %u\n",
exec_env->max_wasm_stack_used);
@ -3712,6 +3727,213 @@ static union {
#define is_little_endian() (__ue.b == 1) /* NOLINT */
int32
wasm_runtime_get_import_count(WASMModuleCommon *const module)
{
if (!module) {
bh_assert(0);
return -1;
}
#if WASM_ENABLE_AOT != 0
if (module->module_type == Wasm_Module_AoT) {
const AOTModule *aot_module = (const AOTModule *)module;
return (int32)(aot_module->import_func_count
+ aot_module->import_global_count
+ aot_module->import_table_count
+ aot_module->import_memory_count);
}
#endif
#if WASM_ENABLE_INTERP != 0
if (module->module_type == Wasm_Module_Bytecode) {
const WASMModule *wasm_module = (const WASMModule *)module;
return (int32)wasm_module->import_count;
}
#endif
return -1;
}
void
wasm_runtime_get_import_type(WASMModuleCommon *const module, int32 import_index,
wasm_import_type *import_type)
{
if (!import_type) {
bh_assert(0);
return;
}
memset(import_type, 0, sizeof(wasm_import_type));
if (!module) {
bh_assert(0);
return;
}
#if WASM_ENABLE_AOT != 0
if (module->module_type == Wasm_Module_AoT) {
const AOTModule *aot_module = (const AOTModule *)module;
uint32 func_index = (uint32)import_index;
if (func_index < aot_module->import_func_count) {
const AOTImportFunc *aot_import_func =
&aot_module->import_funcs[func_index];
import_type->module_name = aot_import_func->module_name;
import_type->name = aot_import_func->func_name;
import_type->kind = WASM_IMPORT_EXPORT_KIND_FUNC;
import_type->linked =
aot_import_func->func_ptr_linked ? true : false;
return;
}
uint32 global_index = func_index - aot_module->import_func_count;
if (global_index < aot_module->import_global_count) {
const AOTImportGlobal *aot_import_global =
&aot_module->import_globals[global_index];
import_type->module_name = aot_import_global->module_name;
import_type->name = aot_import_global->global_name;
import_type->kind = WASM_IMPORT_EXPORT_KIND_GLOBAL;
import_type->linked = aot_import_global->is_linked;
return;
}
uint32 table_index = global_index - aot_module->import_global_count;
if (table_index < aot_module->import_table_count) {
const AOTImportTable *aot_import_table =
&aot_module->import_tables[table_index];
import_type->module_name = aot_import_table->module_name;
import_type->name = aot_import_table->table_name;
import_type->kind = WASM_IMPORT_EXPORT_KIND_TABLE;
import_type->linked = false;
return;
}
uint32 memory_index = table_index - aot_module->import_table_count;
if (memory_index < aot_module->import_memory_count) {
const AOTImportMemory *aot_import_memory =
&aot_module->import_memories[memory_index];
import_type->module_name = aot_import_memory->module_name;
import_type->name = aot_import_memory->memory_name;
import_type->kind = WASM_IMPORT_EXPORT_KIND_MEMORY;
import_type->linked = false;
return;
}
bh_assert(0);
return;
}
#endif
#if WASM_ENABLE_INTERP != 0
if (module->module_type == Wasm_Module_Bytecode) {
const WASMModule *wasm_module = (const WASMModule *)module;
if ((uint32)import_index >= wasm_module->import_count) {
bh_assert(0);
return;
}
const WASMImport *wasm_import = &wasm_module->imports[import_index];
import_type->module_name = wasm_import->u.names.module_name;
import_type->name = wasm_import->u.names.field_name;
import_type->kind = wasm_import->kind;
switch (import_type->kind) {
case WASM_IMPORT_EXPORT_KIND_FUNC:
import_type->linked = wasm_import->u.function.func_ptr_linked;
break;
case WASM_IMPORT_EXPORT_KIND_GLOBAL:
import_type->linked = wasm_import->u.global.is_linked;
break;
case WASM_IMPORT_EXPORT_KIND_TABLE:
/* not supported */
import_type->linked = false;
break;
case WASM_IMPORT_EXPORT_KIND_MEMORY:
/* not supported */
import_type->linked = false;
break;
default:
bh_assert(0);
break;
}
return;
}
#endif
}
int32
wasm_runtime_get_export_count(WASMModuleCommon *const module)
{
if (!module) {
bh_assert(0);
return -1;
}
#if WASM_ENABLE_AOT != 0
if (module->module_type == Wasm_Module_AoT) {
const AOTModule *aot_module = (const AOTModule *)module;
return (int32)aot_module->export_count;
}
#endif
#if WASM_ENABLE_INTERP != 0
if (module->module_type == Wasm_Module_Bytecode) {
const WASMModule *wasm_module = (const WASMModule *)module;
return (int32)wasm_module->export_count;
}
#endif
return -1;
}
void
wasm_runtime_get_export_type(WASMModuleCommon *const module, int32 export_index,
wasm_export_type *export_type)
{
if (!export_type) {
bh_assert(0);
return;
}
memset(export_type, 0, sizeof(wasm_export_type));
if (!module) {
bh_assert(0);
return;
}
#if WASM_ENABLE_AOT != 0
if (module->module_type == Wasm_Module_AoT) {
const AOTModule *aot_module = (const AOTModule *)module;
if ((uint32)export_index >= aot_module->export_count) {
bh_assert(0);
return;
}
const AOTExport *aot_export = &aot_module->exports[export_index];
export_type->name = aot_export->name;
export_type->kind = aot_export->kind;
return;
}
#endif
#if WASM_ENABLE_INTERP != 0
if (module->module_type == Wasm_Module_Bytecode) {
const WASMModule *wasm_module = (const WASMModule *)module;
if ((uint32)export_index >= wasm_module->export_count) {
bh_assert(0);
return;
}
const WASMExport *wasm_export = &wasm_module->exports[export_index];
export_type->name = wasm_export->name;
export_type->kind = wasm_export->kind;
return;
}
#endif
}
bool
wasm_runtime_register_natives(const char *module_name,
NativeSymbol *native_symbols,
@ -5488,6 +5710,7 @@ wasm_externref_set_cleanup(WASMModuleInstanceCommon *module_inst,
if (lookup_user_data.found) {
void *key = (void *)(uintptr_t)lookup_user_data.externref_idx;
ExternRefMapNode *node = bh_hash_map_find(externref_map, key);
bh_assert(node);
node->cleanup = extern_obj_cleanup;
ok = true;
}
@ -6500,6 +6723,7 @@ wasm_runtime_load_depended_module(const WASMModuleCommon *parent_module,
bool ret = false;
uint8 *buffer = NULL;
uint32 buffer_size = 0;
LoadArgs args = { 0 };
/* check the registered module list of the parent */
sub_module = wasm_runtime_search_sub_module(parent_module, sub_module_name);
@ -6539,23 +6763,25 @@ wasm_runtime_load_depended_module(const WASMModuleCommon *parent_module,
if (!ret) {
LOG_DEBUG("read the file of %s failed", sub_module_name);
set_error_buf_v(parent_module, error_buf, error_buf_size,
"unknown import", sub_module_name);
"unknown import %s", sub_module_name);
goto delete_loading_module;
}
if (get_package_type(buffer, buffer_size) != parent_module->module_type) {
LOG_DEBUG("moudle %s type error", sub_module_name);
goto delete_loading_module;
goto destroy_file_buffer;
}
args.name = (char *)sub_module_name;
if (get_package_type(buffer, buffer_size) == Wasm_Module_Bytecode) {
#if WASM_ENABLE_INTERP != 0
sub_module = (WASMModuleCommon *)wasm_load(buffer, buffer_size, false,
error_buf, error_buf_size);
sub_module = (WASMModuleCommon *)wasm_load(
buffer, buffer_size, false, &args, error_buf, error_buf_size);
#endif
}
else if (get_package_type(buffer, buffer_size) == Wasm_Module_AoT) {
#if WASM_ENABLE_AOT != 0
sub_module = (WASMModuleCommon *)aot_load_from_aot_file(
buffer, buffer_size, error_buf, error_buf_size);
buffer, buffer_size, &args, error_buf, error_buf_size);
#endif
}
if (!sub_module) {
@ -6650,7 +6876,7 @@ wasm_runtime_sub_module_instantiate(WASMModuleCommon *module,
sub_module_inst_list_node = loader_malloc(sizeof(WASMSubModInstNode),
error_buf, error_buf_size);
if (!sub_module_inst_list_node) {
LOG_DEBUG("Malloc WASMSubModInstNode failed, SZ:%d",
LOG_DEBUG("Malloc WASMSubModInstNode failed, SZ: %zu",
sizeof(WASMSubModInstNode));
if (sub_module_inst)
wasm_runtime_deinstantiate_internal(sub_module_inst, false);
@ -6789,3 +7015,59 @@ wasm_runtime_get_module_name(wasm_module_t module)
return "";
}
/*
* wasm_runtime_detect_native_stack_overflow
*
* - raise "native stack overflow" exception if available native stack
* at this point is less than WASM_STACK_GUARD_SIZE. in that case,
* return false.
*
* - update native_stack_top_min.
*/
bool
wasm_runtime_detect_native_stack_overflow(WASMExecEnv *exec_env)
{
uint8 *boundary = exec_env->native_stack_boundary;
RECORD_STACK_USAGE(exec_env, (uint8 *)&boundary);
if (boundary == NULL) {
/* the platfrom doesn't support os_thread_get_stack_boundary */
return true;
}
#if defined(OS_ENABLE_HW_BOUND_CHECK) && WASM_DISABLE_STACK_HW_BOUND_CHECK == 0
uint32 page_size = os_getpagesize();
uint32 guard_page_count = STACK_OVERFLOW_CHECK_GUARD_PAGE_COUNT;
boundary = boundary + page_size * guard_page_count;
#endif
if ((uint8 *)&boundary < boundary) {
wasm_runtime_set_exception(wasm_runtime_get_module_inst(exec_env),
"native stack overflow");
return false;
}
return true;
}
bool
wasm_runtime_detect_native_stack_overflow_size(WASMExecEnv *exec_env,
uint32 requested_size)
{
uint8 *boundary = exec_env->native_stack_boundary;
RECORD_STACK_USAGE(exec_env, (uint8 *)&boundary);
if (boundary == NULL) {
/* the platfrom doesn't support os_thread_get_stack_boundary */
return true;
}
#if defined(OS_ENABLE_HW_BOUND_CHECK) && WASM_DISABLE_STACK_HW_BOUND_CHECK == 0
uint32 page_size = os_getpagesize();
uint32 guard_page_count = STACK_OVERFLOW_CHECK_GUARD_PAGE_COUNT;
boundary = boundary + page_size * guard_page_count;
#endif
/* adjust the boundary for the requested size */
boundary = boundary - WASM_STACK_GUARD_SIZE + requested_size;
if ((uint8 *)&boundary < boundary) {
wasm_runtime_set_exception(wasm_runtime_get_module_inst(exec_env),
"native stack overflow");
return false;
}
return true;
}

7
core/iwasm/common/wasm_runtime_common.h
View File

@ -1189,6 +1189,13 @@ wasm_runtime_end_blocking_op(WASMExecEnv *exec_env);
void
wasm_runtime_interrupt_blocking_op(WASMExecEnv *exec_env);
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_detect_native_stack_overflow(WASMExecEnv *exec_env);
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_detect_native_stack_overflow_size(WASMExecEnv *exec_env,
uint32 requested_size);
#if WASM_ENABLE_LINUX_PERF != 0
bool
wasm_runtime_get_linux_perf(void);

59
core/iwasm/compilation/aot_compiler.c
View File

@ -330,7 +330,7 @@ aot_gen_commit_values(AOTCompFrame *frame)
if (!p->dirty)
continue;
n = p - frame->lp;
n = (uint32)(p - frame->lp);
/* Commit reference flag */
if (comp_ctx->enable_gc) {
@ -432,7 +432,7 @@ aot_gen_commit_values(AOTCompFrame *frame)
continue;
p->dirty = 0;
n = p - frame->lp;
n = (uint32)(p - frame->lp);
/* Commit values */
switch (p->type) {
@ -538,7 +538,7 @@ aot_gen_commit_values(AOTCompFrame *frame)
/* Clear reference flags for unused stack slots. */
for (p = frame->sp; p < end; p++) {
bh_assert(!p->ref);
n = p - frame->lp;
n = (uint32)(p - frame->lp);
/* Commit reference flag. */
if (p->ref != p->committed_ref - 1) {
@ -621,7 +621,7 @@ aot_gen_commit_sp_ip(AOTCompFrame *frame, bool commit_sp, bool commit_ip)
}
if (commit_sp) {
n = sp - frame->lp;
n = (uint32)(sp - frame->lp);
value = I32_CONST(offset_of_local(comp_ctx, n));
if (!value) {
aot_set_last_error("llvm build const failed");
@ -3452,16 +3452,6 @@ aot_compile_func(AOTCompContext *comp_ctx, uint32 func_index)
break;
}
case SIMD_i32x4_narrow_i64x2_s:
case SIMD_i32x4_narrow_i64x2_u:
{
if (!aot_compile_simd_i32x4_narrow_i64x2(
comp_ctx, func_ctx,
SIMD_i32x4_narrow_i64x2_s == opcode))
return false;
break;
}
case SIMD_i32x4_extend_low_i16x8_s:
case SIMD_i32x4_extend_high_i16x8_s:
{
@ -3501,16 +3491,6 @@ aot_compile_func(AOTCompContext *comp_ctx, uint32 func_index)
break;
}
case SIMD_i32x4_add_sat_s:
case SIMD_i32x4_add_sat_u:
{
if (!aot_compile_simd_i32x4_saturate(
comp_ctx, func_ctx, V128_ADD,
opcode == SIMD_i32x4_add_sat_s))
return false;
break;
}
case SIMD_i32x4_sub:
{
if (!aot_compile_simd_i32x4_arith(comp_ctx, func_ctx,
@ -3519,16 +3499,6 @@ aot_compile_func(AOTCompContext *comp_ctx, uint32 func_index)
break;
}
case SIMD_i32x4_sub_sat_s:
case SIMD_i32x4_sub_sat_u:
{
if (!aot_compile_simd_i32x4_saturate(
comp_ctx, func_ctx, V128_SUB,
opcode == SIMD_i32x4_add_sat_s))
return false;
break;
}
case SIMD_i32x4_mul:
{
if (!aot_compile_simd_i32x4_arith(comp_ctx, func_ctx,
@ -3565,13 +3535,6 @@ aot_compile_func(AOTCompContext *comp_ctx, uint32 func_index)
break;
}
case SIMD_i32x4_avgr_u:
{
if (!aot_compile_simd_i32x4_avgr_u(comp_ctx, func_ctx))
return false;
break;
}
case SIMD_i32x4_extmul_low_i16x8_s:
case SIMD_i32x4_extmul_high_i16x8_s:
{
@ -3728,13 +3691,6 @@ aot_compile_func(AOTCompContext *comp_ctx, uint32 func_index)
break;
}
case SIMD_f32x4_round:
{
if (!aot_compile_simd_f32x4_round(comp_ctx, func_ctx))
return false;
break;
}
case SIMD_f32x4_sqrt:
{
if (!aot_compile_simd_f32x4_sqrt(comp_ctx, func_ctx))
@ -3788,13 +3744,6 @@ aot_compile_func(AOTCompContext *comp_ctx, uint32 func_index)
break;
}
case SIMD_f64x2_round:
{
if (!aot_compile_simd_f64x2_round(comp_ctx, func_ctx))
return false;
break;
}
case SIMD_f64x2_sqrt:
{
if (!aot_compile_simd_f64x2_sqrt(comp_ctx, func_ctx))

64
core/iwasm/compilation/aot_emit_aot_file.c
View File

@ -484,15 +484,15 @@ static uint32
get_func_type_size(AOTCompContext *comp_ctx, AOTFuncType *func_type)
{
#if WASM_ENABLE_GC != 0
/* type flag + is_sub_final + parent_type_idx + rec_count + rec_idx + param
* count + result count
* + ref_type_map_count + types + context of ref_type_map */
/* type flag + equivalence type flag + is_sub_final + parent_type_idx
+ rec_count + rec_idx + param count + result count
+ ref_type_map_count + types + context of ref_type_map */
if (comp_ctx->enable_gc) {
uint32 size = 0;
/* type flag */
size += sizeof(func_type->base_type.type_flag);
/* is_sub_final */
/* equivalence type flag + is_sub_final */
size += sizeof(uint16);
/* parent_type_idx */
size += sizeof(func_type->base_type.parent_type_idx);
@ -529,12 +529,12 @@ static uint32
get_struct_type_size(AOTCompContext *comp_ctx, AOTStructType *struct_type)
{
uint32 size = 0;
/* type flag + is_sub_final + parent_type_idx + rec_count + rec_idx + field
* count + fields */
/* type flag + equivalence type flag + is_sub_final + parent_type_idx
+ rec_count + rec_idx + field count + fields */
/* type flag */
size += sizeof(struct_type->base_type.type_flag);
/* is_sub_final */
/* equivalence type flag + is_sub_final */
size += sizeof(uint16);
/* parent_type_idx */
size += sizeof(struct_type->base_type.parent_type_idx);
@ -558,12 +558,12 @@ static uint32
get_array_type_size(AOTCompContext *comp_ctx, AOTArrayType *array_type)
{
uint32 size = 0;
/* type flag + is_sub_final + parent_type_idx + rec_count + rec_idx +
elem_flags + elem_type + elem_ref_type */
/* type flag + equivalence type flag + is_sub_final + parent_type_idx
+ rec_count + rec_idx + elem_flags + elem_type + elem_ref_type */
/* type flag */
size += sizeof(array_type->base_type.type_flag);
/* is_sub_final */
/* equivalence type flag + is_sub_final */
size += sizeof(uint16);
/* parent_type_idx (u32) */
size += sizeof(array_type->base_type.parent_type_idx);
@ -597,7 +597,22 @@ get_type_info_size(AOTCompContext *comp_ctx, AOTCompData *comp_data)
#if WASM_ENABLE_GC != 0
if (comp_ctx->enable_gc) {
for (i = 0; i < comp_data->type_count; i++) {
uint32 j;
size = align_uint(size, 4);
/* Emit simple info if there is an equivalence type */
for (j = 0; j < i; j++) {
if (comp_data->types[j] == comp_data->types[i]) {
/* type_flag (2 bytes) + equivalence type flag (1 byte)
+ padding (1 byte) + equivalence type index */
size += 8;
break;
}
}
if (j < i)
continue;
if (comp_data->types[i]->type_flag == WASM_TYPE_FUNC)
size += get_func_type_size(comp_ctx,
(AOTFuncType *)comp_data->types[i]);
@ -2093,13 +2108,32 @@ aot_emit_type_info(uint8 *buf, uint8 *buf_end, uint32 *p_offset,
#if WASM_ENABLE_GC != 0
if (comp_ctx->enable_gc) {
int32 idx;
AOTType **types = comp_data->types;
int32 idx;
uint32 j;
for (i = 0; i < comp_data->type_count; i++) {
offset = align_uint(offset, 4);
/* Emit simple info if there is an equivalence type */
for (j = 0; j < i; j++) {
if (types[j] == types[i]) {
EMIT_U16(types[i]->type_flag);
/* equivalence type flag is true */
EMIT_U8(1);
EMIT_U8(0);
/* equivalence type index */
EMIT_U32(j);
break;
}
}
if (j < i)
continue;
EMIT_U16(types[i]->type_flag);
EMIT_U16(types[i]->is_sub_final);
/* equivalence type flag is false */
EMIT_U8(0);
EMIT_U8(types[i]->is_sub_final);
EMIT_U32(types[i]->parent_type_idx);
EMIT_U16(types[i]->rec_count);
@ -2593,7 +2627,7 @@ aot_emit_func_section(uint8 *buf, uint8 *buf_end, uint32 *p_offset,
if (comp_ctx->enable_gc) {
/* emit func_local_ref_flag arrays for both import and AOTed funcs */
AOTFuncType *func_type;
uint32 j, local_ref_flags_cell_num;
uint32 j, local_ref_flags_cell_num, paddings;
for (i = 0; i < comp_data->import_func_count; i++) {
func_type = comp_data->import_funcs[i].func_type;
@ -2603,6 +2637,8 @@ aot_emit_func_section(uint8 *buf, uint8 *buf_end, uint32 *p_offset,
local_ref_flags_cell_num += wasm_value_type_cell_num_internal(
func_type->types[j], comp_ctx->pointer_size);
}
paddings =
local_ref_flags_cell_num < 2 ? 2 - local_ref_flags_cell_num : 0;
local_ref_flags_cell_num =
local_ref_flags_cell_num > 2 ? local_ref_flags_cell_num : 2;
@ -2614,7 +2650,7 @@ aot_emit_func_section(uint8 *buf, uint8 *buf_end, uint32 *p_offset,
func_type->types[j]))
return false;
}
for (; j < 2; j++)
for (j = 0; j < paddings; j++)
EMIT_U8(0);
}

2
core/iwasm/compilation/aot_emit_control.c
View File

@ -1269,6 +1269,7 @@ aot_compile_op_br_table(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
PUSH(values[j], target_block->result_types[j]);
}
wasm_runtime_free(values);
values = NULL;
}
target_block->is_reachable = true;
if (i == br_count)
@ -1294,6 +1295,7 @@ aot_compile_op_br_table(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
PUSH(values[j], target_block->param_types[j]);
}
wasm_runtime_free(values);
values = NULL;
}
if (i == br_count)
default_llvm_block = target_block->llvm_entry_block;

94
core/iwasm/compilation/aot_emit_function.c
View File

@ -1826,6 +1826,52 @@ fail:
return ret;
}
#if WASM_ENABLE_GC != 0
static LLVMValueRef
call_aot_func_type_is_super_of_func(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx,
LLVMValueRef type_idx1,
LLVMValueRef type_idx2)
{
LLVMValueRef param_values[3], ret_value, value, func;
LLVMTypeRef param_types[3], ret_type, func_type, func_ptr_type;
param_types[0] = comp_ctx->aot_inst_type;
param_types[1] = I32_TYPE;
param_types[2] = I32_TYPE;
ret_type = INT8_TYPE;
#if WASM_ENABLE_JIT != 0
if (comp_ctx->is_jit_mode)
GET_AOT_FUNCTION(llvm_jit_func_type_is_super_of, 3);
else
#endif
GET_AOT_FUNCTION(aot_func_type_is_super_of, 3);
param_values[0] = func_ctx->aot_inst;
param_values[1] = type_idx1;
param_values[2] = type_idx2;
if (!(ret_value =
LLVMBuildCall2(comp_ctx->builder, func_type, func, param_values,
3, "call_aot_func_type_is_super_of"))) {
aot_set_last_error("llvm build call failed.");
return NULL;
}
if (!(ret_value = LLVMBuildICmp(comp_ctx->builder, LLVMIntEQ, ret_value,
I8_ZERO, "check_fail"))) {
aot_set_last_error("llvm build icmp failed.");
return NULL;
}
return ret_value;
fail:
return NULL;
}
#endif
static bool
call_aot_call_indirect_func(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
AOTFuncType *aot_func_type,
@ -2018,15 +2064,23 @@ aot_compile_op_call_indirect(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
return false;
}
/* Find the equivalent function type whose type index is the smallest:
the callee function's type index is also converted to the smallest
one in wasm loader, so we can just check whether the two type indexes
are equal (the type index of call_indirect opcode and callee func),
we don't need to check whether the whole function types are equal,
including param types and result types. */
type_idx =
wasm_get_smallest_type_idx((WASMTypePtr *)comp_ctx->comp_data->types,
comp_ctx->comp_data->type_count, type_idx);
if (!comp_ctx->enable_gc) {
/* Find the equivalent function type whose type index is the smallest:
the callee function's type index is also converted to the smallest
one in wasm loader, so we can just check whether the two type indexes
are equal (the type index of call_indirect opcode and callee func),
we don't need to check whether the whole function types are equal,
including param types and result types. */
type_idx = wasm_get_smallest_type_idx(
(WASMTypePtr *)comp_ctx->comp_data->types,
comp_ctx->comp_data->type_count, type_idx);
}
else {
/* Call aot_func_type_is_super_of to check whether the func type
provided in the bytecode is a super type of the func type of
the function to call */
}
ftype_idx_const = I32_CONST(type_idx);
CHECK_LLVM_CONST(ftype_idx_const);
@ -2254,11 +2308,23 @@ aot_compile_op_call_indirect(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
goto fail;
}
/* Check if function type index not equal */
if (!(cmp_ftype_idx = LLVMBuildICmp(comp_ctx->builder, LLVMIntNE, ftype_idx,
ftype_idx_const, "cmp_ftype_idx"))) {
aot_set_last_error("llvm build icmp failed.");
goto fail;
#if WASM_ENABLE_GC != 0
if (comp_ctx->enable_gc) {
if (!(cmp_ftype_idx = call_aot_func_type_is_super_of_func(
comp_ctx, func_ctx, ftype_idx_const, ftype_idx))) {
goto fail;
}
}
else
#endif
{
/* Check if function type index not equal */
if (!(cmp_ftype_idx =
LLVMBuildICmp(comp_ctx->builder, LLVMIntNE, ftype_idx,
ftype_idx_const, "cmp_ftype_idx"))) {
aot_set_last_error("llvm build icmp failed.");
goto fail;
}
}
/* Throw exception if ftype_idx != ftype_idx_const */

8
core/iwasm/compilation/aot_llvm.c
View File

@ -85,7 +85,7 @@ aot_add_llvm_func1(const AOTCompContext *comp_ctx, LLVMModuleRef module,
uint32 func_index, uint32 param_count, LLVMTypeRef func_type,
const char *prefix)
{
char func_name[48];
char func_name[48] = { 0 };
LLVMValueRef func;
LLVMValueRef local_value;
uint32 i, j;
@ -674,7 +674,8 @@ aot_add_llvm_func(AOTCompContext *comp_ctx, LLVMModuleRef module,
uint32 backend_thread_num, compile_thread_num;
/* Check function parameter types and result types */
for (i = 0; i < aot_func_type->param_count + aot_func_type->result_count;
for (i = 0;
i < (uint32)(aot_func_type->param_count + aot_func_type->result_count);
i++) {
if (!check_wasm_type(comp_ctx, aot_func_type->types[i]))
return NULL;
@ -2547,6 +2548,9 @@ aot_create_comp_context(const AOTCompData *comp_data, aot_comp_option_t option)
aot_set_last_error("create LLVM module failed.");
goto fail;
}
#if LLVM_VERSION_MAJOR >= 19
LLVMSetIsNewDbgInfoFormat(comp_ctx->module, true);
#endif
#if WASM_ENABLE_LINUX_PERF != 0
if (wasm_runtime_get_linux_perf()) {

70
core/iwasm/compilation/debug/dwarf_extractor.cpp
View File

@ -295,6 +295,28 @@ lldb_function_to_function_dbi(const AOTCompContext *comp_ctx,
const size_t num_function_args = function_args.GetSize();
dwarf_extractor *extractor;
/*
* Process only known languages.
* We have a few assumptions which might not be true for non-C functions.
*
* At least it's known broken for C++ and Rust:
* https://github.com/bytecodealliance/wasm-micro-runtime/issues/3187
* https://github.com/bytecodealliance/wasm-micro-runtime/issues/3163
*/
LanguageType language_type = function.GetLanguage();
switch (language_type) {
case eLanguageTypeC89:
case eLanguageTypeC:
case eLanguageTypeC99:
case eLanguageTypeC11:
case eLanguageTypeC17:
break;
default:
LOG_WARNING("func %s has unsuppoted language_type 0x%x",
function_name, (int)language_type);
return NULL;
}
if (!(extractor = TO_EXTACTOR(comp_ctx->comp_data->extractor)))
return NULL;
@ -313,6 +335,17 @@ lldb_function_to_function_dbi(const AOTCompContext *comp_ctx,
if (function_arg_type.IsValid()) {
ParamTypes[function_arg_idx + 1] =
lldb_type_to_type_dbi(comp_ctx, function_arg_type);
if (ParamTypes[function_arg_idx + 1] == NULL) {
LOG_WARNING(
"func %s arg %" PRIu32
" has a type not implemented by lldb_type_to_type_dbi",
function_name, function_arg_idx);
}
}
else {
LOG_WARNING("func %s arg %" PRIu32 ": GetTypeAtIndex failed",
function_name, function_arg_idx);
ParamTypes[function_arg_idx + 1] = NULL;
}
}
@ -354,27 +387,10 @@ lldb_function_to_function_dbi(const AOTCompContext *comp_ctx,
LLVMDIBuilderCreateExpression(DIB, NULL, 0);
auto variable_list =
function.GetBlock().GetVariables(extractor->target, true, false, false);
unsigned int variable_offset = 0;
if (num_function_args != variable_list.GetSize()) {
// A hack to detect C++ "this" pointer.
//
// REVISIT: is there a more reliable way?
// At the DWARF level, we can probably look at DW_AT_object_pointer
// and DW_AT_artificial. I'm not sure how it can be done via the
// LLDB API though.
if (num_function_args + 1 == variable_list.GetSize()) {
SBValue variable(variable_list.GetValueAtIndex(0));
const char *varname = variable.GetName();
if (varname != NULL && !strcmp(varname, "this")) {
variable_offset = 1;
}
}
if (!variable_offset) {
LOG_ERROR("function args number dismatch!:function %s %s value "
"number=%d, function args=%d",
function_name, function.GetMangledName(),
variable_list.GetSize(), num_function_args);
}
LOG_ERROR(
"function args number dismatch!:value number=%d, function args=%d",
variable_list.GetSize(), num_function_args);
}
LLVMMetadataRef ParamLocation = LLVMDIBuilderCreateDebugLocation(
@ -395,11 +411,10 @@ lldb_function_to_function_dbi(const AOTCompContext *comp_ctx,
LLVMDIBuilderInsertDbgValueAtEnd(DIB, Param, ParamVar, ParamExpression,
ParamLocation, block_curr);
for (uint32_t function_arg_idx = 0; function_arg_idx < num_function_args;
++function_arg_idx) {
uint32_t variable_idx = variable_offset + function_arg_idx;
SBValue variable(variable_list.GetValueAtIndex(variable_idx));
if (variable.IsValid()) {
for (uint32_t function_arg_idx = 0;
function_arg_idx < variable_list.GetSize(); ++function_arg_idx) {
SBValue variable(variable_list.GetValueAtIndex(function_arg_idx));
if (variable.IsValid() && ParamTypes[function_arg_idx + 1] != NULL) {
SBDeclaration dec(variable.GetDeclaration());
auto valtype = variable.GetType();
LLVMMetadataRef ParamLocation = LLVMDIBuilderCreateDebugLocation(
@ -408,11 +423,12 @@ lldb_function_to_function_dbi(const AOTCompContext *comp_ctx,
const char *varname = variable.GetName();
LLVMMetadataRef ParamVar = LLVMDIBuilderCreateParameterVariable(
DIB, FunctionMetadata, varname, varname ? strlen(varname) : 0,
variable_idx + 1 + 1,
function_arg_idx + 1 + 1,
File, // starts form 1, and 1 is exenv,
dec.GetLine(), ParamTypes[function_arg_idx + 1], true,
LLVMDIFlagZero);
LLVMValueRef Param = LLVMGetParam(func_ctx->func, variable_idx + 1);
LLVMValueRef Param =
LLVMGetParam(func_ctx->func, function_arg_idx + 1);
LLVMDIBuilderInsertDbgValueAtEnd(DIB, Param, ParamVar,
ParamExpression, ParamLocation,
block_curr);

9
core/iwasm/compilation/simd/simd_conversions.c
View File

@ -226,15 +226,6 @@ aot_compile_simd_i16x8_narrow_i32x4(AOTCompContext *comp_ctx,
}
}
bool
aot_compile_simd_i32x4_narrow_i64x2(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx, bool is_signed)
{
/* TODO: x86 intrinsics */
return simd_integer_narrow_common(comp_ctx, func_ctx, e_sat_i64x2,
is_signed);
}
enum integer_extend_type {
e_ext_i8x16,
e_ext_i16x8,

4
core/iwasm/compilation/simd/simd_conversions.h
View File

@ -20,10 +20,6 @@ bool
aot_compile_simd_i16x8_narrow_i32x4(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx, bool is_signed);
bool
aot_compile_simd_i32x4_narrow_i64x2(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx, bool is_signed);
bool
aot_compile_simd_i16x8_extend_i8x16(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx, bool is_low,

14
core/iwasm/compilation/simd/simd_floating_point.c
View File

@ -129,20 +129,6 @@ aot_compile_simd_f64x2_abs(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx)
"llvm.fabs.v2f64");
}
bool
aot_compile_simd_f32x4_round(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx)
{
return simd_float_intrinsic(comp_ctx, func_ctx, V128_f32x4_TYPE,
"llvm.round.v4f32");
}
bool
aot_compile_simd_f64x2_round(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx)
{
return simd_float_intrinsic(comp_ctx, func_ctx, V128_f64x2_TYPE,
"llvm.round.v2f64");
}
bool
aot_compile_simd_f32x4_sqrt(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx)
{

8
core/iwasm/compilation/simd/simd_floating_point.h
View File

@ -32,14 +32,6 @@ aot_compile_simd_f32x4_abs(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx);
bool
aot_compile_simd_f64x2_abs(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx);
bool
aot_compile_simd_f32x4_round(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx);
bool
aot_compile_simd_f64x2_round(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx);
bool
aot_compile_simd_f32x4_sqrt(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx);

11
core/iwasm/compilation/simd/simd_int_arith.c
View File

@ -243,7 +243,6 @@ aot_compile_simd_i64x2_abs(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx)
enum integer_avgr_u {
e_avgr_u_i8x16,
e_avgr_u_i16x8,
e_avgr_u_i32x4,
};
/* TODO: try int_x86_mmx_pavg_b and int_x86_mmx_pavg_w */
@ -257,9 +256,8 @@ simd_v128_avg(AOTCompContext *comp_ctx, AOTFuncContext *func_ctx,
LLVMTypeRef vector_type[] = {
V128_i8x16_TYPE,
V128_i16x8_TYPE,
V128_i32x4_TYPE,
};
unsigned lanes[] = { 16, 8, 4 };
unsigned lanes[] = { 16, 8 };
if (!(rhs = simd_pop_v128_and_bitcast(comp_ctx, func_ctx,
vector_type[itype], "rhs"))
@ -325,13 +323,6 @@ aot_compile_simd_i16x8_avgr_u(AOTCompContext *comp_ctx,
return simd_v128_avg(comp_ctx, func_ctx, e_avgr_u_i16x8);
}
bool
aot_compile_simd_i32x4_avgr_u(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx)
{
return simd_v128_avg(comp_ctx, func_ctx, e_avgr_u_i32x4);
}
bool
aot_compile_simd_i32x4_dot_i16x8(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx)

4
core/iwasm/compilation/simd/simd_int_arith.h
View File

@ -76,10 +76,6 @@ bool
aot_compile_simd_i16x8_avgr_u(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx);
bool
aot_compile_simd_i32x4_avgr_u(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx);
bool
aot_compile_simd_i32x4_dot_i16x8(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx);

15
core/iwasm/compilation/simd/simd_sat_int_arith.c
View File

@ -64,18 +64,3 @@ aot_compile_simd_i16x8_saturate(AOTCompContext *comp_ctx,
is_signed ? intrinsics[arith_op][0]
: intrinsics[arith_op][1]);
}
bool
aot_compile_simd_i32x4_saturate(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx,
V128Arithmetic arith_op, bool is_signed)
{
char *intrinsics[][2] = {
{ "llvm.sadd.sat.v4i32", "llvm.uadd.sat.v4i32" },
{ "llvm.ssub.sat.v4i32", "llvm.usub.sat.v4i32" },
};
return simd_sat_int_arith(comp_ctx, func_ctx, V128_i16x8_TYPE,
is_signed ? intrinsics[arith_op][0]
: intrinsics[arith_op][1]);
}

4
core/iwasm/compilation/simd/simd_sat_int_arith.h
View File

@ -22,10 +22,6 @@ aot_compile_simd_i16x8_saturate(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx,
V128Arithmetic arith_op, bool is_signed);
bool
aot_compile_simd_i32x4_saturate(AOTCompContext *comp_ctx,
AOTFuncContext *func_ctx,
V128Arithmetic arith_op, bool is_signed);
#ifdef __cplusplus
} /* end of extern "C" */
#endif

12
core/iwasm/fast-jit/cg/x86-64/jit_codegen_x86_64.cpp
View File

@ -7511,7 +7511,7 @@ at_rmw_xor_r_base_r_offset_r(x86::Assembler &a, uint32 bytes_dst,
CHECK_KIND(r3, JIT_REG_KIND_I64); \
} \
/* r0: read/return value r2: memory base addr can't be const */ \
/* already check it's not const in LOAD_4ARGS(); */ \
/* already check it's not const in LOAD_4ARGS() */ \
reg_no_dst = jit_reg_no(r0); \
CHECK_REG_NO(reg_no_dst, jit_reg_kind(r0)); \
/* mem_data base address has to be non-const */ \
@ -9293,8 +9293,8 @@ jit_codegen_init()
imm.setValue(INT32_MAX);
a.jne(imm);
char *stream = (char *)a.code()->sectionById(0)->buffer().data()
+ a.code()->sectionById(0)->buffer().size();
char *stream_old = (char *)a.code()->sectionById(0)->buffer().data()
+ a.code()->sectionById(0)->buffer().size();
/* If yes, call jit_set_exception_with_id to throw exception,
and then set eax to JIT_INTERP_ACTION_THROWN, and jump to
@ -9319,7 +9319,7 @@ jit_codegen_init()
/* Patch the offset of jne instruction */
char *stream_new = (char *)a.code()->sectionById(0)->buffer().data()
+ a.code()->sectionById(0)->buffer().size();
*(int32 *)(stream - 4) = (int32)(stream_new - stream);
*(int32 *)(stream_old - 4) = (int32)(stream_new - stream_old);
}
/* Load compiled func ptr and call it */
@ -9419,7 +9419,7 @@ static uint8 hreg_info_F64[3][16] = {
1, 1, 1, 1, 1, 1, 1, 0 }, /* caller_saved_jitted */
};
static const JitHardRegInfo hreg_info = {
static const JitHardRegInfo g_hreg_info = {
{
{ 0, NULL, NULL, NULL }, /* VOID */
@ -9459,7 +9459,7 @@ static const JitHardRegInfo hreg_info = {
const JitHardRegInfo *
jit_codegen_get_hreg_info()
{
return &hreg_info;
return &g_hreg_info;
}
static const char *reg_names_i32[] = {

10
core/iwasm/fast-jit/fe/jit_emit_memory.c
View File

@ -636,7 +636,7 @@ wasm_init_memory(WASMModuleInstance *inst, uint32 mem_idx, uint32 seg_idx,
/* if d + n > the length of mem.data */
mem_inst = inst->memories[mem_idx];
mem_size = mem_inst->cur_page_count * mem_inst->num_bytes_per_page;
mem_size = mem_inst->cur_page_count * (uint64)mem_inst->num_bytes_per_page;
if (mem_size < mem_offset || mem_size - mem_offset < len)
goto out_of_bounds;
@ -724,8 +724,10 @@ wasm_copy_memory(WASMModuleInstance *inst, uint32 src_mem_idx,
src_mem = inst->memories[src_mem_idx];
dst_mem = inst->memories[dst_mem_idx];
src_mem_size = src_mem->cur_page_count * src_mem->num_bytes_per_page;
dst_mem_size = dst_mem->cur_page_count * dst_mem->num_bytes_per_page;
src_mem_size =
src_mem->cur_page_count * (uint64)src_mem->num_bytes_per_page;
dst_mem_size =
dst_mem->cur_page_count * (uint64)dst_mem->num_bytes_per_page;
/* if s + n > the length of mem.data */
if (src_mem_size < src_offset || src_mem_size - src_offset < len)
@ -788,7 +790,7 @@ wasm_fill_memory(WASMModuleInstance *inst, uint32 mem_idx, uint32 len,
uint8 *dst_addr;
mem_inst = inst->memories[mem_idx];
mem_size = mem_inst->cur_page_count * mem_inst->num_bytes_per_page;
mem_size = mem_inst->cur_page_count * (uint64)mem_inst->num_bytes_per_page;
if (mem_size < dst || mem_size - dst < len)
goto out_of_bounds;

6
core/iwasm/include/aot_export.h
View File

@ -3,6 +3,12 @@
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
/**
* @file aot_export.h
*
* @brief This file defines the exported AOT compilation APIs
*/
#ifndef _AOT_EXPORT_H
#define _AOT_EXPORT_H

6
core/iwasm/include/gc_export.h
View File

@ -3,6 +3,12 @@
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
/**
* @file gc_export.h
*
* @brief This file defines the exported GC APIs
*/
#ifndef _GC_EXPORT_H
#define _GC_EXPORT_H

5
core/iwasm/include/lib_export.h
View File

@ -3,6 +3,11 @@
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
/**
* @file lib_export.h
*
*/
#ifndef _LIB_EXPORT_H_
#define _LIB_EXPORT_H_

17
core/iwasm/include/wasm_c_api.h
View File

@ -1,5 +1,11 @@
// WebAssembly C API
/**
* @file wasm_c_api.h
*
* @brief This file defines the WebAssembly C APIs
*/
#ifndef _WASM_C_API_H_
#define _WASM_C_API_H_
@ -517,10 +523,21 @@ struct WASMModuleCommon;
typedef struct WASMModuleCommon *wasm_module_t;
#endif
#ifndef LOAD_ARGS_OPTION_DEFINED
#define LOAD_ARGS_OPTION_DEFINED
typedef struct LoadArgs {
char *name;
/* TODO: more fields? */
} LoadArgs;
#endif /* LOAD_ARGS_OPTION_DEFINED */
WASM_API_EXTERN own wasm_module_t* wasm_module_new(
wasm_store_t*, const wasm_byte_vec_t* binary);
// please refer to wasm_runtime_load_ex(...) in core/iwasm/include/wasm_export.h
WASM_API_EXTERN own wasm_module_t* wasm_module_new_ex(
wasm_store_t*, const wasm_byte_vec_t* binary, const LoadArgs *args);
WASM_API_EXTERN void wasm_module_delete(own wasm_module_t*);
WASM_API_EXTERN bool wasm_module_validate(wasm_store_t*, const wasm_byte_vec_t* binary);

263
core/iwasm/include/wasm_export.h
View File

@ -3,6 +3,12 @@
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
/**
* @file wasm_export.h
*
* @brief This file defines the exported common runtime APIs
*/
#ifndef _WASM_EXPORT_H
#define _WASM_EXPORT_H
@ -26,10 +32,7 @@
extern "C" {
#endif
/* clang-format off */
#define get_module_inst(exec_env) \
wasm_runtime_get_module_inst(exec_env)
#define get_module_inst(exec_env) wasm_runtime_get_module_inst(exec_env)
#define validate_app_addr(offset, size) \
wasm_runtime_validate_app_addr(module_inst, offset, size)
@ -46,8 +49,7 @@ extern "C" {
#define module_malloc(size, p_native_addr) \
wasm_runtime_module_malloc(module_inst, size, p_native_addr)
#define module_free(offset) \
wasm_runtime_module_free(module_inst, offset)
#define module_free(offset) wasm_runtime_module_free(module_inst, offset)
#define native_raw_return_type(type, args) type *raw_ret = (type *)(args)
@ -63,6 +65,25 @@ struct WASMModuleCommon;
typedef struct WASMModuleCommon *wasm_module_t;
#endif
typedef enum {
WASM_IMPORT_EXPORT_KIND_FUNC,
WASM_IMPORT_EXPORT_KIND_TABLE,
WASM_IMPORT_EXPORT_KIND_MEMORY,
WASM_IMPORT_EXPORT_KIND_GLOBAL
} wasm_import_export_kind_t;
typedef struct wasm_import_type {
const char *module_name;
const char *name;
wasm_import_export_kind_t kind;
bool linked;
} wasm_import_type;
typedef struct wasm_export_type {
const char *name;
wasm_import_export_kind_t kind;
} wasm_export_type;
/* Instantiated WASM module */
struct WASMModuleInstanceCommon;
typedef struct WASMModuleInstanceCommon *wasm_module_inst_t;
@ -107,6 +128,8 @@ typedef enum {
Alloc_With_System_Allocator,
} mem_alloc_type_t;
typedef enum { Alloc_For_Runtime, Alloc_For_LinearMemory } mem_alloc_usage_t;
/* Memory allocator option */
typedef union MemAllocOption {
struct {
@ -114,6 +137,9 @@ typedef union MemAllocOption {
uint32_t heap_size;
} pool;
struct {
/* the function signature is varied when
WASM_MEM_ALLOC_WITH_USER_DATA and
WASM_MEM_ALLOC_WITH_USAGE are defined */
void *malloc_func;
void *realloc_func;
void *free_func;
@ -183,6 +209,14 @@ typedef struct RuntimeInitArgs {
bool enable_linux_perf;
} RuntimeInitArgs;
#ifndef LOAD_ARGS_OPTION_DEFINED
#define LOAD_ARGS_OPTION_DEFINED
typedef struct LoadArgs {
char *name;
/* TODO: more fields? */
} LoadArgs;
#endif /* LOAD_ARGS_OPTION_DEFINED */
#ifndef INSTANTIATION_ARGS_OPTION_DEFINED
#define INSTANTIATION_ARGS_OPTION_DEFINED
/* WASM module instantiation arguments */
@ -351,8 +385,8 @@ wasm_runtime_is_xip_file(const uint8_t *buf, uint32_t size);
* Callback to load a module file into a buffer in multi-module feature
*/
typedef bool (*module_reader)(package_type_t module_type,
const char *module_name,
uint8_t **p_buffer, uint32_t *p_size);
const char *module_name, uint8_t **p_buffer,
uint32_t *p_size);
/**
* Callback to release the buffer loaded by module_reader callback
@ -416,8 +450,15 @@ wasm_runtime_find_module_registered(const char *module_name);
* @return return WASM module loaded, NULL if failed
*/
WASM_RUNTIME_API_EXTERN wasm_module_t
wasm_runtime_load(uint8_t *buf, uint32_t size,
char *error_buf, uint32_t error_buf_size);
wasm_runtime_load(uint8_t *buf, uint32_t size, char *error_buf,
uint32_t error_buf_size);
/**
* Load a WASM module with specified load argument.
*/
WASM_RUNTIME_API_EXTERN wasm_module_t
wasm_runtime_load_ex(uint8_t *buf, uint32_t size, const LoadArgs *args,
char *error_buf, uint32_t error_buf_size);
/**
* Load a WASM module from a specified WASM or AOT section list.
@ -486,12 +527,12 @@ wasm_runtime_get_module_hash(wasm_module_t module);
* for STDERR is used.
*/
WASM_RUNTIME_API_EXTERN void
wasm_runtime_set_wasi_args_ex(wasm_module_t module,
const char *dir_list[], uint32_t dir_count,
const char *map_dir_list[], uint32_t map_dir_count,
const char *env[], uint32_t env_count,
char *argv[], int argc, int64_t stdinfd,
int64_t stdoutfd, int64_t stderrfd);
wasm_runtime_set_wasi_args_ex(wasm_module_t module, const char *dir_list[],
uint32_t dir_count, const char *map_dir_list[],
uint32_t map_dir_count, const char *env[],
uint32_t env_count, char *argv[], int argc,
int64_t stdinfd, int64_t stdoutfd,
int64_t stderrfd);
/**
* Set WASI parameters.
@ -499,34 +540,34 @@ wasm_runtime_set_wasi_args_ex(wasm_module_t module,
* Same as wasm_runtime_set_wasi_args_ex but with default stdio handles
*/
WASM_RUNTIME_API_EXTERN void
wasm_runtime_set_wasi_args(wasm_module_t module,
const char *dir_list[], uint32_t dir_count,
const char *map_dir_list[], uint32_t map_dir_count,
const char *env[], uint32_t env_count,
char *argv[], int argc);
wasm_runtime_set_wasi_args(wasm_module_t module, const char *dir_list[],
uint32_t dir_count, const char *map_dir_list[],
uint32_t map_dir_count, const char *env[],
uint32_t env_count, char *argv[], int argc);
WASM_RUNTIME_API_EXTERN void
wasm_runtime_set_wasi_addr_pool(wasm_module_t module, const char *addr_pool[],
uint32_t addr_pool_size);
WASM_RUNTIME_API_EXTERN void
wasm_runtime_set_wasi_ns_lookup_pool(wasm_module_t module, const char *ns_lookup_pool[],
wasm_runtime_set_wasi_ns_lookup_pool(wasm_module_t module,
const char *ns_lookup_pool[],
uint32_t ns_lookup_pool_size);
/**
* Instantiate a WASM module.
*
* @param module the WASM module to instantiate
* @param default_stack_size the default stack size of the module instance when the
* exec env's operation stack isn't created by user, e.g. API
* @param default_stack_size the default stack size of the module instance when
* the exec env's operation stack isn't created by user, e.g. API
* wasm_application_execute_main() and wasm_application_execute_func()
* create the operation stack internally with the stack size specified
* here. And API wasm_runtime_create_exec_env() creates the operation
* stack with stack size specified by its parameter, the stack size
* specified here is ignored.
* @param host_managed_heap_size the default heap size of the module instance, a heap will
* be created besides the app memory space. Both wasm app and native
* function can allocate memory from the heap.
* @param host_managed_heap_size the default heap size of the module instance,
* a heap will be created besides the app memory space. Both wasm app
* and native function can allocate memory from the heap.
* @param error_buf buffer to output the error info if failed
* @param error_buf_size the size of the error buffer
*
@ -534,18 +575,20 @@ wasm_runtime_set_wasi_ns_lookup_pool(wasm_module_t module, const char *ns_lookup
*/
WASM_RUNTIME_API_EXTERN wasm_module_inst_t
wasm_runtime_instantiate(const wasm_module_t module,
uint32_t default_stack_size, uint32_t host_managed_heap_size,
char *error_buf, uint32_t error_buf_size);
uint32_t default_stack_size,
uint32_t host_managed_heap_size, char *error_buf,
uint32_t error_buf_size);
/**
* Instantiate a WASM module, with specified instantiation arguments
*
* Same as wasm_runtime_instantiate, but it also allows overwriting maximum memory
* Same as wasm_runtime_instantiate, but it also allows overwriting maximum
* memory
*/
WASM_RUNTIME_API_EXTERN wasm_module_inst_t
wasm_runtime_instantiate_ex(const wasm_module_t module,
const InstantiationArgs *args,
char *error_buf, uint32_t error_buf_size);
const InstantiationArgs *args, char *error_buf,
uint32_t error_buf_size);
/**
* Set the running mode of a WASM module instance, override the
@ -730,7 +773,8 @@ wasm_runtime_get_exec_env_singleton(wasm_module_inst_t module_inst);
* @return debug port if success, 0 otherwise.
*/
WASM_RUNTIME_API_EXTERN uint32_t
wasm_runtime_start_debug_instance_with_port(wasm_exec_env_t exec_env, int32_t port);
wasm_runtime_start_debug_instance_with_port(wasm_exec_env_t exec_env,
int32_t port);
/**
* Same as wasm_runtime_start_debug_instance_with_port(env, -1).
@ -811,8 +855,7 @@ wasm_runtime_set_module_inst(wasm_exec_env_t exec_env,
* info.
*/
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_call_wasm(wasm_exec_env_t exec_env,
wasm_function_inst_t function,
wasm_runtime_call_wasm(wasm_exec_env_t exec_env, wasm_function_inst_t function,
uint32_t argc, uint32_t argv[]);
/**
@ -833,9 +876,9 @@ wasm_runtime_call_wasm(wasm_exec_env_t exec_env,
*/
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_call_wasm_a(wasm_exec_env_t exec_env,
wasm_function_inst_t function,
uint32_t num_results, wasm_val_t results[],
uint32_t num_args, wasm_val_t *args);
wasm_function_inst_t function, uint32_t num_results,
wasm_val_t results[], uint32_t num_args,
wasm_val_t *args);
/**
* Call the given WASM function of a WASM module instance with
@ -855,9 +898,8 @@ wasm_runtime_call_wasm_a(wasm_exec_env_t exec_env,
*/
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_call_wasm_v(wasm_exec_env_t exec_env,
wasm_function_inst_t function,
uint32_t num_results, wasm_val_t results[],
uint32_t num_args, ...);
wasm_function_inst_t function, uint32_t num_results,
wasm_val_t results[], uint32_t num_args, ...);
/**
* Call a function reference of a given WASM runtime instance with
@ -899,8 +941,8 @@ wasm_runtime_call_indirect(wasm_exec_env_t exec_env, uint32_t element_index,
* the exception info.
*/
WASM_RUNTIME_API_EXTERN bool
wasm_application_execute_main(wasm_module_inst_t module_inst,
int32_t argc, char *argv[]);
wasm_application_execute_main(wasm_module_inst_t module_inst, int32_t argc,
char *argv[]);
/**
* Find the specified function in argv[0] from a WASM module instance
@ -918,8 +960,8 @@ wasm_application_execute_main(wasm_module_inst_t module_inst,
* to get the exception info.
*/
WASM_RUNTIME_API_EXTERN bool
wasm_application_execute_func(wasm_module_inst_t module_inst,
const char *name, int32_t argc, char *argv[]);
wasm_application_execute_func(wasm_module_inst_t module_inst, const char *name,
int32_t argc, char *argv[]);
/**
* Get exception info of the WASM module instance.
@ -978,8 +1020,7 @@ wasm_runtime_terminate(wasm_module_inst_t module_inst);
* @param custom_data the custom data to be set
*/
WASM_RUNTIME_API_EXTERN void
wasm_runtime_set_custom_data(wasm_module_inst_t module_inst,
void *custom_data);
wasm_runtime_set_custom_data(wasm_module_inst_t module_inst, void *custom_data);
/**
* Get the custom data within a WASM module instance.
@ -998,8 +1039,7 @@ wasm_runtime_get_custom_data(wasm_module_inst_t module_inst);
* @param enable the flag to enable/disable the memory bounds checks
*/
WASM_RUNTIME_API_EXTERN void
wasm_runtime_set_bounds_checks(wasm_module_inst_t module_inst,
bool enable);
wasm_runtime_set_bounds_checks(wasm_module_inst_t module_inst, bool enable);
/**
* Check if the memory bounds checks flag is enabled for a WASM module instance.
@ -1008,8 +1048,7 @@ wasm_runtime_set_bounds_checks(wasm_module_inst_t module_inst,
* @return true if the memory bounds checks flag is enabled, false otherwise
*/
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_is_bounds_checks_enabled(
wasm_module_inst_t module_inst);
wasm_runtime_is_bounds_checks_enabled(wasm_module_inst_t module_inst);
/**
* Allocate memory from the heap of WASM module instance
@ -1057,8 +1096,8 @@ wasm_runtime_module_free(wasm_module_inst_t module_inst, uint64_t ptr);
* Return non-zero if success, zero if failed.
*/
WASM_RUNTIME_API_EXTERN uint64_t
wasm_runtime_module_dup_data(wasm_module_inst_t module_inst,
const char *src, uint64_t size);
wasm_runtime_module_dup_data(wasm_module_inst_t module_inst, const char *src,
uint64_t size);
/**
* Validate the app address, check whether it belongs to WASM module
@ -1176,6 +1215,48 @@ wasm_runtime_get_native_addr_range(wasm_module_inst_t module_inst,
uint8_t **p_native_start_addr,
uint8_t **p_native_end_addr);
/**
* Get the number of import items for a WASM module
*
* @param module the WASM module
*
* @return the number of imports (zero for none), or -1 for failure
*/
WASM_RUNTIME_API_EXTERN int32_t
wasm_runtime_get_import_count(const wasm_module_t module);
/**
* Get information about a specific WASM module import
*
* @param module the WASM module
* @param import_index the desired import index
* @param import_type the location to store information about the import
*/
WASM_RUNTIME_API_EXTERN void
wasm_runtime_get_import_type(const wasm_module_t module, int32_t import_index,
wasm_import_type *import_type);
/**
* Get the number of export items for a WASM module
*
* @param module the WASM module
*
* @return the number of exports (zero for none), or -1 for failure
*/
WASM_RUNTIME_API_EXTERN int32_t
wasm_runtime_get_export_count(const wasm_module_t module);
/**
* Get information about a specific WASM module export
*
* @param module the WASM module
* @param export_index the desired export index
* @param export_type the location to store information about the export
*/
WASM_RUNTIME_API_EXTERN void
wasm_runtime_get_export_type(const wasm_module_t module, int32_t export_index,
wasm_export_type *export_type);
/**
* Register native functions with same module name
*
@ -1195,7 +1276,8 @@ wasm_runtime_get_native_addr_range(wasm_module_inst_t module_inst,
* 'I': the parameter is i64 type
* 'f': the parameter is f32 type
* 'F': the parameter is f64 type
* 'r': the parameter is externref type, it should be a uintptr_t in host
* 'r': the parameter is externref type, it should be a uintptr_t
* in host
* '*': the parameter is a pointer (i32 in WASM), and runtime will
* auto check its boundary before calling the native function.
* If it is followed by '~', the checked length of the pointer
@ -1229,7 +1311,6 @@ wasm_runtime_register_natives_raw(const char *module_name,
NativeSymbol *native_symbols,
uint32_t n_native_symbols);
/**
* Undo wasm_runtime_register_natives or wasm_runtime_register_natives_raw
*
@ -1306,7 +1387,7 @@ wasm_runtime_sum_wasm_exec_time(wasm_module_inst_t module_inst);
/**
* Return execution time in ms of a given wasm funciton with
* func_name. If the function is not found, return 0.
* func_name. If the function is not found, return 0.
*
* @param module_inst the WASM module instance to profile
* @param func_name could be an export name or a name in the
@ -1385,8 +1466,8 @@ wasm_runtime_join_thread(wasm_thread_t tid, void **retval);
* @return true if success, false otherwise
*/
WASM_RUNTIME_API_EXTERN bool
wasm_externref_obj2ref(wasm_module_inst_t module_inst,
void *extern_obj, uint32_t *p_externref_idx);
wasm_externref_obj2ref(wasm_module_inst_t module_inst, void *extern_obj,
uint32_t *p_externref_idx);
/**
* Delete external object registered by `wasm_externref_obj2ref`.
@ -1513,7 +1594,6 @@ WASM_RUNTIME_API_EXTERN const uint8_t *
wasm_runtime_get_custom_section(wasm_module_t const module_comm,
const char *name, uint32_t *len);
/**
* Get WAMR semantic version
*/
@ -1529,8 +1609,8 @@ wasm_runtime_is_import_func_linked(const char *module_name,
const char *func_name);
/**
* Check whether an import global `(import <module_name> <global_name> (global ...))`
* is linked or not with runtime registered natvie globals
* Check whether an import global `(import <module_name> <global_name>
* (global ...))` is linked or not with runtime registered natvie globals
*/
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_is_import_global_linked(const char *module_name,
@ -1544,8 +1624,7 @@ typedef enum {
typedef void (*enlarge_memory_error_callback_t)(
uint32_t inc_page_count, uint64_t current_memory_size,
uint32_t memory_index, enlarge_memory_error_reason_t failure_reason,
wasm_module_inst_t instance, wasm_exec_env_t exec_env,
void* user_data);
wasm_module_inst_t instance, wasm_exec_env_t exec_env, void *user_data);
/**
* Setup callback invoked when memory.grow fails
@ -1607,8 +1686,8 @@ wasm_runtime_set_enlarge_mem_error_callback(
*/
WASM_RUNTIME_API_EXTERN void *
wasm_runtime_create_context_key(
void (*dtor)(wasm_module_inst_t inst, void *ctx));
wasm_runtime_create_context_key(void (*dtor)(wasm_module_inst_t inst,
void *ctx));
WASM_RUNTIME_API_EXTERN void
wasm_runtime_destroy_context_key(void *key);
@ -1669,16 +1748,64 @@ wasm_runtime_begin_blocking_op(wasm_exec_env_t exec_env);
WASM_RUNTIME_API_EXTERN void
wasm_runtime_end_blocking_op(wasm_exec_env_t exec_env);
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_set_module_name(wasm_module_t module, const char *name,
char *error_buf, uint32_t error_buf_size);
/* return the most recently set module name or "" if never set before */
WASM_RUNTIME_API_EXTERN const char*
WASM_RUNTIME_API_EXTERN const char *
wasm_runtime_get_module_name(wasm_module_t module);
/* clang-format on */
/*
* wasm_runtime_detect_native_stack_overflow
*
* Detect native stack shortage.
* Ensure that the calling thread still has a reasonable amount of
* native stack (WASM_STACK_GUARD_SIZE bytes) available.
*
* If enough stack is left, this function returns true.
* Otherwise, this function raises a "native stack overflow" trap and
* returns false.
*
* Note: please do not expect a very strict detection. it's a good idea
* to give some margins. wasm_runtime_detect_native_stack_overflow itself
* requires a small amount of stack to run.
*/
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_detect_native_stack_overflow(wasm_exec_env_t exec_env);
/*
* wasm_runtime_detect_native_stack_overflow_size
*
* Similar to wasm_runtime_detect_native_stack_overflow,
* but use the caller-specified size instead of WASM_STACK_GUARD_SIZE.
*
* An expected usage:
* ```c
* __attribute__((noinline)) // inlining can break the stack check
* void stack_hog(void)
* {
* // consume a lot of stack here
* }
*
* void
* stack_hog_wrapper(exec_env) {
* // the amount of stack stack_hog would consume,
* // plus a small margin
* uint32_t size = 10000000;
*
* if (!wasm_runtime_detect_native_stack_overflow_size(exec_env, size)) {
* // wasm_runtime_detect_native_stack_overflow_size has raised
* // a trap.
* return;
* }
* stack_hog();
* }
* ```
*/
WASM_RUNTIME_API_EXTERN bool
wasm_runtime_detect_native_stack_overflow_size(wasm_exec_env_t exec_env,
uint32_t required_size);
#ifdef __cplusplus
}

23
core/iwasm/interpreter/wasm.h
View File

@ -274,7 +274,7 @@ typedef struct InitializerExpression {
*/
typedef struct RefHeapType_TypeIdx {
/* ref_type is REF_TYPE_HT_NULLABLE or
REF_TYPE_HT_NON_NULLABLE, (0x6C or 0x6B) */
REF_TYPE_HT_NON_NULLABLE, (0x63 or 0x64) */
uint8 ref_type;
/* true if ref_type is REF_TYPE_HT_NULLABLE */
bool nullable;
@ -288,7 +288,7 @@ typedef struct RefHeapType_TypeIdx {
*/
typedef struct RefHeapType_Common {
/* ref_type is REF_TYPE_HT_NULLABLE or
REF_TYPE_HT_NON_NULLABLE (0x6C or 0x6B) */
REF_TYPE_HT_NON_NULLABLE (0x63 or 0x64) */
uint8 ref_type;
/* true if ref_type is REF_TYPE_HT_NULLABLE */
bool nullable;
@ -338,18 +338,24 @@ typedef struct WASMType {
uint16 type_flag;
bool is_sub_final;
/* How many types are referring to this type */
uint16 ref_count;
/* The inheritance depth */
uint32 inherit_depth;
uint16 inherit_depth;
/* The root type */
struct WASMType *root_type;
/* The parent type */
struct WASMType *parent_type;
uint32 parent_type_idx;
/* number of internal types in the current rec group, if the type is not in
* a recursive group, rec_count = 0 */
/* The number of internal types in the current rec group, and if
the type is not in a recursive group, rec_count is 1 since a
single type definition is reinterpreted as a short-hand for a
recursive group containing just one type */
uint16 rec_count;
uint16 rec_idx;
/* The index of the begin type of this group */
uint32 rec_begin_type_idx;
} WASMType, *WASMTypePtr;
#endif /* end of WASM_ENABLE_GC */
@ -375,9 +381,6 @@ typedef struct WASMFuncType {
uint16 ref_type_map_count;
WASMRefTypeMap *ref_type_maps;
WASMRefTypeMap *result_ref_type_maps;
/* minimal type index of the type equal to this type,
used in type equal check in call_indirect opcode */
uint32 min_type_idx_normalized;
#else
uint16 ref_count;
#endif
@ -1329,8 +1332,8 @@ block_type_get_param_types(BlockType *block_type, uint8 **p_param_types,
param_count = func_type->param_count;
#if WASM_ENABLE_GC != 0
*p_param_reftype_maps = func_type->ref_type_maps;
*p_param_reftype_map_count =
func_type->result_ref_type_maps - func_type->ref_type_maps;
*p_param_reftype_map_count = (uint32)(func_type->result_ref_type_maps
- func_type->ref_type_maps);
#endif
}
else {

77
core/iwasm/interpreter/wasm_interp_classic.c
View File

@ -1159,6 +1159,10 @@ wasm_interp_call_func_native(WASMModuleInstance *module_inst,
uint8 *frame_ref;
#endif
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
return;
}
all_cell_num = local_cell_num;
#if WASM_ENABLE_GC != 0
all_cell_num += (local_cell_num + 3) / 4;
@ -1290,6 +1294,14 @@ wasm_interp_call_func_import(WASMModuleInstance *module_inst,
uintptr_t aux_stack_origin_boundary = 0;
uintptr_t aux_stack_origin_bottom = 0;
/*
* perform stack overflow check before calling
* wasm_interp_call_func_bytecode recursively.
*/
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
return;
}
if (!sub_func_inst) {
snprintf(buf, sizeof(buf),
"failed to call unlinked import function (%s, %s)",
@ -1509,6 +1521,9 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
WASMStringviewIterObjectRef stringview_iter_obj;
#endif
#endif
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
bool is_return_call = false;
#endif
#if WASM_ENABLE_MEMORY64 != 0
/* TODO: multi-memories for now assuming the memory idx type is consistent
* across multi-memories */
@ -2209,6 +2224,7 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
WASMFuncType *cur_type, *cur_func_type;
WASMTableInstance *tbl_inst;
uint32 tbl_idx;
#if WASM_ENABLE_TAIL_CALL != 0
opcode = *(frame_ip - 1);
#endif
@ -2279,8 +2295,7 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
goto got_exception;
}
#else
if (cur_type->min_type_idx_normalized
!= cur_func_type->min_type_idx_normalized) {
if (!wasm_func_type_is_super_of(cur_type, cur_func_type)) {
wasm_set_exception(module, "indirect call type mismatch");
goto got_exception;
}
@ -4199,7 +4214,7 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
else
#endif
{
*(uint32 *)global_addr = aux_stack_top;
*(uint32 *)global_addr = (uint32)aux_stack_top;
frame_sp--;
}
#if WASM_ENABLE_MEMORY_PROFILING != 0
@ -6227,6 +6242,9 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
frame_ip = frame->ip;
frame_sp = frame->sp;
frame_csp = frame->csp;
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
is_return_call = false;
#endif
goto call_func_from_entry;
}
@ -6320,6 +6338,7 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
}
FREE_FRAME(exec_env, frame);
wasm_exec_env_set_cur_frame(exec_env, prev_frame);
is_return_call = true;
goto call_func_from_entry;
}
#endif
@ -6333,6 +6352,9 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
}
SYNC_ALL_TO_FRAME();
prev_frame = frame;
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
is_return_call = false;
#endif
}
call_func_from_entry:
@ -6342,15 +6364,27 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
if (cur_func->import_func_inst) {
wasm_interp_call_func_import(module, exec_env, cur_func,
prev_frame);
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
if (is_return_call) {
/* the frame was freed before tail calling and
the prev_frame was set as exec_env's cur_frame,
so here we recover context from prev_frame */
RECOVER_CONTEXT(prev_frame);
}
else
#endif
{
prev_frame = frame->prev_frame;
cur_func = frame->function;
UPDATE_ALL_FROM_FRAME();
}
#if WASM_ENABLE_EXCE_HANDLING != 0
char uncaught_exception[128] = { 0 };
bool has_exception =
wasm_copy_exception(module, uncaught_exception);
if (has_exception
&& strstr(uncaught_exception, "uncaught wasm exception")) {
/* fix framesp */
UPDATE_ALL_FROM_FRAME();
uint32 import_exception;
/* initialize imported exception index to be invalid */
SET_INVALID_TAGINDEX(import_exception);
@ -6392,12 +6426,22 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
{
wasm_interp_call_func_native(module, exec_env, cur_func,
prev_frame);
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
if (is_return_call) {
/* the frame was freed before tail calling and
the prev_frame was set as exec_env's cur_frame,
so here we recover context from prev_frame */
RECOVER_CONTEXT(prev_frame);
}
else
#endif
{
prev_frame = frame->prev_frame;
cur_func = frame->function;
UPDATE_ALL_FROM_FRAME();
}
}
prev_frame = frame->prev_frame;
cur_func = frame->function;
UPDATE_ALL_FROM_FRAME();
/* update memory size, no need to update memory ptr as
it isn't changed in wasm_enlarge_memory */
#if !defined(OS_ENABLE_HW_BOUND_CHECK) \
@ -7076,12 +7120,13 @@ wasm_interp_call_wasm(WASMModuleInstance *module_inst, WASMExecEnv *exec_env,
}
argc = function->param_cell_num;
RECORD_STACK_USAGE(exec_env, (uint8 *)&prev_frame);
#if !(defined(OS_ENABLE_HW_BOUND_CHECK) \
&& WASM_DISABLE_STACK_HW_BOUND_CHECK == 0)
if ((uint8 *)&prev_frame < exec_env->native_stack_boundary) {
wasm_set_exception((WASMModuleInstance *)exec_env->module_inst,
"native stack overflow");
#if defined(OS_ENABLE_HW_BOUND_CHECK) && WASM_DISABLE_STACK_HW_BOUND_CHECK == 0
/*
* wasm_runtime_detect_native_stack_overflow is done by
* call_wasm_with_hw_bound_check.
*/
#else
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
return;
}
#endif

57
core/iwasm/interpreter/wasm_interp_fast.c
View File

@ -1167,6 +1167,10 @@ wasm_interp_call_func_native(WASMModuleInstance *module_inst,
all_cell_num += (local_cell_num + 3) / 4;
#endif
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
return;
}
if (!(frame =
ALLOC_FRAME(exec_env, wasm_interp_interp_frame_size(all_cell_num),
prev_frame)))
@ -1275,6 +1279,14 @@ wasm_interp_call_func_import(WASMModuleInstance *module_inst,
uintptr_t aux_stack_origin_boundary = 0;
uintptr_t aux_stack_origin_bottom = 0;
/*
* perform stack overflow check before calling
* wasm_interp_call_func_bytecode recursively.
*/
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
return;
}
if (!sub_func_inst) {
snprintf(buf, sizeof(buf),
"failed to call unlinked import function (%s, %s)",
@ -1501,6 +1513,9 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
WASMStringviewIterObjectRef stringview_iter_obj;
#endif
#endif
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
bool is_return_call = false;
#endif
#if WASM_ENABLE_LABELS_AS_VALUES != 0
#define HANDLE_OPCODE(op) &&HANDLE_##op
@ -1693,7 +1708,7 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
/* clang-format off */
#if WASM_ENABLE_GC == 0
fidx = tbl_inst->elems[val];
fidx = (uint32)tbl_inst->elems[val];
if (fidx == (uint32)-1) {
wasm_set_exception(module, "uninitialized element");
goto got_exception;
@ -1733,8 +1748,7 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
goto got_exception;
}
#else
if (cur_type->min_type_idx_normalized
!= cur_func_type->min_type_idx_normalized) {
if (!wasm_func_type_is_super_of(cur_type, cur_func_type)) {
wasm_set_exception(module, "indirect call type mismatch");
goto got_exception;
}
@ -5618,6 +5632,9 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
{
frame = prev_frame;
frame_ip = frame->ip;
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
is_return_call = false;
#endif
goto call_func_from_entry;
}
@ -5766,6 +5783,7 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
FREE_FRAME(exec_env, frame);
frame_ip += cur_func->param_count * sizeof(int16);
wasm_exec_env_set_cur_frame(exec_env, (WASMRuntimeFrame *)prev_frame);
is_return_call = true;
goto call_func_from_entry;
}
#endif /* WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0 */
@ -5838,6 +5856,9 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
}
SYNC_ALL_TO_FRAME();
prev_frame = frame;
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
is_return_call = false;
#endif
}
call_func_from_entry:
@ -5855,9 +5876,20 @@ wasm_interp_call_func_bytecode(WASMModuleInstance *module,
prev_frame);
}
prev_frame = frame->prev_frame;
cur_func = frame->function;
UPDATE_ALL_FROM_FRAME();
#if WASM_ENABLE_TAIL_CALL != 0 || WASM_ENABLE_GC != 0
if (is_return_call) {
/* the frame was freed before tail calling and
the prev_frame was set as exec_env's cur_frame,
so here we recover context from prev_frame */
RECOVER_CONTEXT(prev_frame);
}
else
#endif
{
prev_frame = frame->prev_frame;
cur_func = frame->function;
UPDATE_ALL_FROM_FRAME();
}
/* update memory size, no need to update memory ptr as
it isn't changed in wasm_enlarge_memory */
@ -6061,12 +6093,13 @@ wasm_interp_call_wasm(WASMModuleInstance *module_inst, WASMExecEnv *exec_env,
}
argc = function->param_cell_num;
RECORD_STACK_USAGE(exec_env, (uint8 *)&prev_frame);
#if !(defined(OS_ENABLE_HW_BOUND_CHECK) \
&& WASM_DISABLE_STACK_HW_BOUND_CHECK == 0)
if ((uint8 *)&prev_frame < exec_env->native_stack_boundary) {
wasm_set_exception((WASMModuleInstance *)exec_env->module_inst,
"native stack overflow");
#if defined(OS_ENABLE_HW_BOUND_CHECK) && WASM_DISABLE_STACK_HW_BOUND_CHECK == 0
/*
* wasm_runtime_detect_native_stack_overflow is done by
* call_wasm_with_hw_bound_check.
*/
#else
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
return;
}
#endif

489
core/iwasm/interpreter/wasm_loader.c
View File

File diff suppressed because it is too large Load Diff

2
core/iwasm/interpreter/wasm_loader.h
View File

@ -28,7 +28,7 @@ wasm_loader_load(uint8 *buf, uint32 size,
#if WASM_ENABLE_MULTI_MODULE != 0
bool main_module,
#endif
char *error_buf, uint32 error_buf_size);
const LoadArgs *args, char *error_buf, uint32 error_buf_size);
/**
* Load a WASM module from a specified WASM section list.

175
core/iwasm/interpreter/wasm_mini_loader.c
View File

@ -25,6 +25,21 @@
#define TEMPLATE_READ_VALUE(Type, p) \
(p += sizeof(Type), *(Type *)(p - sizeof(Type)))
#if WASM_ENABLE_MEMORY64 != 0
static bool
has_module_memory64(WASMModule *module)
{
/* TODO: multi-memories for now assuming the memory idx type is consistent
* across multi-memories */
if (module->import_memory_count > 0)
return !!(module->import_memories[0].u.memory.flags & MEMORY64_FLAG);
else if (module->memory_count > 0)
return !!(module->memories[0].flags & MEMORY64_FLAG);
return false;
}
#endif
static void
set_error_buf(char *error_buf, uint32 error_buf_size, const char *string)
{
@ -52,7 +67,10 @@ set_error_buf(char *error_buf, uint32 error_buf_size, const char *string)
static bool
is_32bit_type(uint8 type)
{
if (type == VALUE_TYPE_I32 || type == VALUE_TYPE_F32
if (type == VALUE_TYPE_I32
|| type == VALUE_TYPE_F32
/* the operand stack is in polymorphic state */
|| type == VALUE_TYPE_ANY
#if WASM_ENABLE_REF_TYPES != 0
|| type == VALUE_TYPE_FUNCREF || type == VALUE_TYPE_EXTERNREF
#endif
@ -1761,7 +1779,7 @@ load_data_segment_section(const uint8 *buf, const uint8 *buf_end,
bool is_passive = false;
uint32 mem_flag;
#endif
uint8 mem_offset_type;
uint8 mem_offset_type = VALUE_TYPE_I32;
read_leb_uint32(p, p_end, data_seg_count);
@ -2567,12 +2585,13 @@ load_from_sections(WASMModule *module, WASMSection *sections,
*buf_func = NULL, *buf_func_end = NULL;
WASMGlobal *aux_data_end_global = NULL, *aux_heap_base_global = NULL;
WASMGlobal *aux_stack_top_global = NULL, *global;
uint64 aux_data_end = (uint64)-1, aux_heap_base = (uint64)-1,
aux_stack_top = (uint64)-1;
uint64 aux_data_end = (uint64)-1LL, aux_heap_base = (uint64)-1LL,
aux_stack_top = (uint64)-1LL;
uint32 global_index, func_index, i;
uint32 aux_data_end_global_index = (uint32)-1;
uint32 aux_heap_base_global_index = (uint32)-1;
WASMFuncType *func_type;
uint8 malloc_free_io_type = VALUE_TYPE_I32;
/* Find code and function sections if have */
while (section) {
@ -2689,7 +2708,7 @@ load_from_sections(WASMModule *module, WASMSection *sections,
aux_heap_base_global = global;
aux_heap_base = (uint64)(uint32)global->init_expr.u.i32;
aux_heap_base_global_index = export->index;
LOG_VERBOSE("Found aux __heap_base global, value: %d",
LOG_VERBOSE("Found aux __heap_base global, value: %" PRIu64,
aux_heap_base);
}
}
@ -2702,7 +2721,7 @@ load_from_sections(WASMModule *module, WASMSection *sections,
aux_data_end_global = global;
aux_data_end = (uint64)(uint32)global->init_expr.u.i32;
aux_data_end_global_index = export->index;
LOG_VERBOSE("Found aux __data_end global, value: %d",
LOG_VERBOSE("Found aux __data_end global, value: %" PRIu64,
aux_data_end);
aux_data_end = align_uint64(aux_data_end, 16);
}
@ -2751,10 +2770,11 @@ load_from_sections(WASMModule *module, WASMSection *sections,
aux_stack_top > aux_data_end
? (uint32)(aux_stack_top - aux_data_end)
: (uint32)aux_stack_top;
LOG_VERBOSE("Found aux stack top global, value: %d, "
"global index: %d, stack size: %d",
aux_stack_top, global_index,
module->aux_stack_size);
LOG_VERBOSE(
"Found aux stack top global, value: %" PRIu64 ", "
"global index: %d, stack size: %d",
aux_stack_top, global_index,
module->aux_stack_size);
break;
}
}
@ -2780,6 +2800,10 @@ load_from_sections(WASMModule *module, WASMSection *sections,
module->retain_function = (uint32)-1;
/* Resolve malloc/free function exported by wasm module */
#if WASM_ENABLE_MEMORY64 != 0
if (has_module_memory64(module))
malloc_free_io_type = VALUE_TYPE_I64;
#endif
export = module->exports;
for (i = 0; i < module->export_count; i++, export ++) {
if (export->kind == EXPORT_KIND_FUNC) {
@ -2788,8 +2812,8 @@ load_from_sections(WASMModule *module, WASMSection *sections,
func_index = export->index - module->import_function_count;
func_type = module->functions[func_index]->func_type;
if (func_type->param_count == 1 && func_type->result_count == 1
&& func_type->types[0] == VALUE_TYPE_I32
&& func_type->types[1] == VALUE_TYPE_I32) {
&& func_type->types[0] == malloc_free_io_type
&& func_type->types[1] == malloc_free_io_type) {
bh_assert(module->malloc_function == (uint32)-1);
module->malloc_function = export->index;
LOG_VERBOSE("Found malloc function, name: %s, index: %u",
@ -2802,9 +2826,9 @@ load_from_sections(WASMModule *module, WASMSection *sections,
func_index = export->index - module->import_function_count;
func_type = module->functions[func_index]->func_type;
if (func_type->param_count == 2 && func_type->result_count == 1
&& func_type->types[0] == VALUE_TYPE_I32
&& func_type->types[0] == malloc_free_io_type
&& func_type->types[1] == VALUE_TYPE_I32
&& func_type->types[2] == VALUE_TYPE_I32) {
&& func_type->types[2] == malloc_free_io_type) {
uint32 j;
WASMExport *export_tmp;
@ -2828,8 +2852,8 @@ load_from_sections(WASMModule *module, WASMSection *sections,
module->functions[func_index]->func_type;
if (func_type->param_count == 1
&& func_type->result_count == 1
&& func_type->types[0] == VALUE_TYPE_I32
&& func_type->types[1] == VALUE_TYPE_I32) {
&& func_type->types[0] == malloc_free_io_type
&& func_type->types[1] == malloc_free_io_type) {
bh_assert(module->retain_function
== (uint32)-1);
module->retain_function = export_tmp->index;
@ -2855,7 +2879,7 @@ load_from_sections(WASMModule *module, WASMSection *sections,
func_index = export->index - module->import_function_count;
func_type = module->functions[func_index]->func_type;
if (func_type->param_count == 1 && func_type->result_count == 0
&& func_type->types[0] == VALUE_TYPE_I32) {
&& func_type->types[0] == malloc_free_io_type) {
bh_assert(module->free_function == (uint32)-1);
module->free_function = export->index;
LOG_VERBOSE("Found free function, name: %s, index: %u",
@ -2901,7 +2925,7 @@ load_from_sections(WASMModule *module, WASMSection *sections,
/* Reset memory info to decrease memory usage */
memory_import->num_bytes_per_page = shrunk_memory_size;
memory_import->init_page_count = 1;
LOG_VERBOSE("Shrink import memory size to %d",
LOG_VERBOSE("Shrink import memory size to %" PRIu64,
shrunk_memory_size);
}
}
@ -2914,7 +2938,7 @@ load_from_sections(WASMModule *module, WASMSection *sections,
/* Reset memory info to decrease memory usage */
memory->num_bytes_per_page = shrunk_memory_size;
memory->init_page_count = 1;
LOG_VERBOSE("Shrink memory size to %d",
LOG_VERBOSE("Shrink memory size to %" PRIu64,
shrunk_memory_size);
}
}
@ -2993,7 +3017,7 @@ load_from_sections(WASMModule *module, WASMSection *sections,
}
static WASMModule *
create_module(char *error_buf, uint32 error_buf_size)
create_module(char *name, char *error_buf, uint32 error_buf_size)
{
WASMModule *module =
loader_malloc(sizeof(WASMModule), error_buf, error_buf_size);
@ -3008,7 +3032,7 @@ create_module(char *error_buf, uint32 error_buf_size)
/* Set start_function to -1, means no start function */
module->start_function = (uint32)-1;
module->name = "";
module->name = name;
#if WASM_ENABLE_FAST_INTERP == 0
module->br_table_cache_list = &module->br_table_cache_list_head;
@ -3034,7 +3058,7 @@ WASMModule *
wasm_loader_load_from_sections(WASMSection *section_list, char *error_buf,
uint32 error_buf_size)
{
WASMModule *module = create_module(error_buf, error_buf_size);
WASMModule *module = create_module("", error_buf, error_buf_size);
if (!module)
return NULL;
@ -3205,10 +3229,10 @@ load(const uint8 *buf, uint32 size, WASMModule *module, char *error_buf,
}
WASMModule *
wasm_loader_load(uint8 *buf, uint32 size, char *error_buf,
wasm_loader_load(uint8 *buf, uint32 size, const LoadArgs *args, char *error_buf,
uint32 error_buf_size)
{
WASMModule *module = create_module(error_buf, error_buf_size);
WASMModule *module = create_module(args->name, error_buf, error_buf_size);
if (!module) {
return NULL;
}
@ -5158,10 +5182,21 @@ fail:
goto fail; \
} while (0)
#define PUSH_MEM_OFFSET() PUSH_OFFSET_TYPE(mem_offset_type)
#define PUSH_MEM_OFFSET() \
do { \
if (!wasm_loader_push_frame_ref_offset(loader_ctx, mem_offset_type, \
disable_emit, operand_offset, \
error_buf, error_buf_size)) \
goto fail; \
} while (0)
#define PUSH_PAGE_COUNT() PUSH_MEM_OFFSET()
#define POP_MEM_OFFSET() POP_OFFSET_TYPE(mem_offset_type)
#define POP_MEM_OFFSET() \
do { \
if (!wasm_loader_pop_frame_ref_offset(loader_ctx, mem_offset_type, \
error_buf, error_buf_size)) \
goto fail; \
} while (0)
#define POP_AND_PUSH(type_pop, type_push) \
do { \
@ -5646,7 +5681,7 @@ fail:
wasm_runtime_free(frame_ref_buf);
#if WASM_ENABLE_FAST_INTERP != 0
if (frame_offset_buf && frame_offset_buf != frame_offset_tmp)
wasm_runtime_free(frame_offset_tmp);
wasm_runtime_free(frame_offset_buf);
#endif
return ret;
@ -5905,14 +5940,7 @@ wasm_loader_prepare_bytecode(WASMModule *module, WASMFunction *func,
func->param_cell_num, func->local_cell_num, func->ret_cell_num);
#endif
#if WASM_ENABLE_MEMORY64 != 0
bool is_memory64 = false;
/* TODO: multi-memories for now assuming the memory idx type is consistent
* across multi-memories */
if (module->import_memory_count > 0)
is_memory64 = module->import_memories[0].u.memory.flags & MEMORY64_FLAG;
else if (module->memory_count > 0)
is_memory64 = module->memories[0].flags & MEMORY64_FLAG;
bool is_memory64 = has_module_memory64(module);
mem_offset_type = is_memory64 ? VALUE_TYPE_I64 : VALUE_TYPE_I32;
#else
mem_offset_type = VALUE_TYPE_I32;
@ -6189,8 +6217,11 @@ re_scan:
BranchBlock *block = NULL;
BlockType block_type = (loader_ctx->frame_csp - 1)->block_type;
bh_assert(loader_ctx->csp_num >= 2
/* the matched if is found */
&& (loader_ctx->frame_csp - 1)->label_type
== LABEL_TYPE_IF);
== LABEL_TYPE_IF
/* duplicated else isn't found */
&& !(loader_ctx->frame_csp - 1)->else_addr);
block = loader_ctx->frame_csp - 1;
/* check whether if branch's stack matches its result type */
@ -6225,8 +6256,8 @@ re_scan:
bh_memcpy_s(loader_ctx->frame_offset, size,
block->param_frame_offsets, size);
loader_ctx->frame_offset += (size / sizeof(int16));
loader_ctx->dynamic_offset = block->start_dynamic_offset;
}
loader_ctx->dynamic_offset = block->start_dynamic_offset;
#endif
break;
@ -6323,13 +6354,11 @@ re_scan:
case WASM_OP_BR_TABLE:
{
uint8 *ret_types = NULL;
uint32 ret_count = 0;
uint32 ret_count = 0, depth = 0;
#if WASM_ENABLE_FAST_INTERP == 0
uint8 *p_depth_begin, *p_depth;
uint32 depth, j;
BrTableCache *br_table_cache = NULL;
p_org = p - 1;
uint8 *p_depth_begin, *p_depth, *p_opcode = p - 1;
uint32 j;
#endif
read_leb_uint32(p, p_end, count);
@ -6338,6 +6367,16 @@ re_scan:
#endif
POP_I32();
/* Get each depth and check it */
p_org = p;
for (i = 0; i <= count; i++) {
read_leb_uint32(p, p_end, depth);
bh_assert(loader_ctx->csp_num > 0);
bh_assert(loader_ctx->csp_num - 1 >= depth);
(void)depth;
}
p = p_org;
#if WASM_ENABLE_FAST_INTERP == 0
p_depth_begin = p_depth = p;
#endif
@ -6363,8 +6402,8 @@ re_scan:
error_buf, error_buf_size))) {
goto fail;
}
*p_org = EXT_OP_BR_TABLE_CACHE;
br_table_cache->br_table_op_addr = p_org;
*p_opcode = EXT_OP_BR_TABLE_CACHE;
br_table_cache->br_table_op_addr = p_opcode;
br_table_cache->br_count = count;
/* Copy previous depths which are one byte */
for (j = 0; j < i; j++) {
@ -6595,8 +6634,7 @@ re_scan:
&& !cur_block->is_stack_polymorphic));
if (available_stack_cell > 0) {
if (is_32bit_type(*(loader_ctx->frame_ref - 1))
|| *(loader_ctx->frame_ref - 1) == VALUE_TYPE_ANY) {
if (is_32bit_type(*(loader_ctx->frame_ref - 1))) {
loader_ctx->frame_ref--;
loader_ctx->stack_cell_num--;
#if WASM_ENABLE_FAST_INTERP != 0
@ -6658,6 +6696,7 @@ re_scan:
switch (*(loader_ctx->frame_ref - 1)) {
case REF_I32:
case REF_F32:
case REF_ANY:
break;
case REF_I64_2:
case REF_F64_2:
@ -6902,26 +6941,43 @@ re_scan:
goto fail;
}
/* Refer to a forward-declared function */
if (func_idx >= cur_func_idx + module->import_function_count) {
/* Refer to a forward-declared function:
the function must be an import, exported, or present in
a table elem segment or global initializer to be used as
the operand to ref.func */
if (func_idx >= module->import_function_count) {
WASMTableSeg *table_seg = module->table_segments;
bool func_declared = false;
uint32 j;
/* Check whether the function is declared in table segs,
note that it doesn't matter whether the table seg's mode
is passive, active or declarative. */
for (i = 0; i < module->table_seg_count; i++, table_seg++) {
if (table_seg->elem_type == VALUE_TYPE_FUNCREF) {
for (j = 0; j < table_seg->value_count; j++) {
if (table_seg->init_values[j].u.ref_index
== func_idx) {
func_declared = true;
break;
for (i = 0; i < module->global_count; i++) {
if (module->globals[i].type == VALUE_TYPE_FUNCREF
&& module->globals[i].init_expr.init_expr_type
== INIT_EXPR_TYPE_FUNCREF_CONST
&& module->globals[i].init_expr.u.u32 == func_idx) {
func_declared = true;
break;
}
}
if (!func_declared) {
/* Check whether the function is declared in table segs,
note that it doesn't matter whether the table seg's
mode is passive, active or declarative. */
for (i = 0; i < module->table_seg_count;
i++, table_seg++) {
if (table_seg->elem_type == VALUE_TYPE_FUNCREF) {
for (j = 0; j < table_seg->value_count; j++) {
if (table_seg->init_values[j].u.ref_index
== func_idx) {
func_declared = true;
break;
}
}
}
}
}
if (!func_declared) {
/* Check whether the function is exported */
for (i = 0; i < module->export_count; i++) {
@ -7350,6 +7406,7 @@ re_scan:
break;
case WASM_OP_F32_CONST:
CHECK_BUF(p, p_end, sizeof(float32));
p += sizeof(float32);
#if WASM_ENABLE_FAST_INTERP != 0
skip_label();
@ -7368,6 +7425,7 @@ re_scan:
break;
case WASM_OP_F64_CONST:
CHECK_BUF(p, p_end, sizeof(float64));
p += sizeof(float64);
#if WASM_ENABLE_FAST_INTERP != 0
skip_label();
@ -7675,6 +7733,7 @@ re_scan:
}
case WASM_OP_MEMORY_COPY:
{
CHECK_BUF(p, p_end, sizeof(int16));
/* both src and dst memory index should be 0 */
bh_assert(*(int16 *)p == 0x0000);
p += 2;

20
core/iwasm/interpreter/wasm_opcode.h
View File

@ -593,8 +593,8 @@ typedef enum WASMSimdEXTOpcode {
/* placeholder = 0xa2 */
SIMD_i32x4_all_true = 0xa3,
SIMD_i32x4_bitmask = 0xa4,
SIMD_i32x4_narrow_i64x2_s = 0xa5,
SIMD_i32x4_narrow_i64x2_u = 0xa6,
/* placeholder = 0xa5 */
/* placeholder = 0xa6 */
SIMD_i32x4_extend_low_i16x8_s = 0xa7,
SIMD_i32x4_extend_high_i16x8_s = 0xa8,
SIMD_i32x4_extend_low_i16x8_u = 0xa9,
@ -603,19 +603,19 @@ typedef enum WASMSimdEXTOpcode {
SIMD_i32x4_shr_s = 0xac,
SIMD_i32x4_shr_u = 0xad,
SIMD_i32x4_add = 0xae,
SIMD_i32x4_add_sat_s = 0xaf,
SIMD_i32x4_add_sat_u = 0xb0,
/* placeholder = 0xaf */
/* placeholder = 0xb0 */
SIMD_i32x4_sub = 0xb1,
SIMD_i32x4_sub_sat_s = 0xb2,
SIMD_i32x4_sub_sat_u = 0xb3,
/* placeholder = 0xb4 */
/* placeholder = 0xb2 */
/* placeholder = 0xb3 */
/* placeholder = 0xb4 */
SIMD_i32x4_mul = 0xb5,
SIMD_i32x4_min_s = 0xb6,
SIMD_i32x4_min_u = 0xb7,
SIMD_i32x4_max_s = 0xb8,
SIMD_i32x4_max_u = 0xb9,
SIMD_i32x4_dot_i16x8_s = 0xba,
SIMD_i32x4_avgr_u = 0xbb,
/* placeholder = 0xbb */
SIMD_i32x4_extmul_low_i16x8_s = 0xbc,
SIMD_i32x4_extmul_high_i16x8_s = 0xbd,
SIMD_i32x4_extmul_low_i16x8_u = 0xbe,
@ -658,7 +658,7 @@ typedef enum WASMSimdEXTOpcode {
/* f32x4 operation */
SIMD_f32x4_abs = 0xe0,
SIMD_f32x4_neg = 0xe1,
SIMD_f32x4_round = 0xe2,
/* placeholder = 0xe2 */
SIMD_f32x4_sqrt = 0xe3,
SIMD_f32x4_add = 0xe4,
SIMD_f32x4_sub = 0xe5,
@ -672,7 +672,7 @@ typedef enum WASMSimdEXTOpcode {
/* f64x2 operation */
SIMD_f64x2_abs = 0xec,
SIMD_f64x2_neg = 0xed,
SIMD_f64x2_round = 0xee,
/* placeholder = 0xee */
SIMD_f64x2_sqrt = 0xef,
SIMD_f64x2_add = 0xf0,
SIMD_f64x2_sub = 0xf1,

131
core/iwasm/interpreter/wasm_runtime.c
View File

@ -60,13 +60,13 @@ wasm_load(uint8 *buf, uint32 size,
#if WASM_ENABLE_MULTI_MODULE != 0
bool main_module,
#endif
char *error_buf, uint32 error_buf_size)
const LoadArgs *name, char *error_buf, uint32 error_buf_size)
{
return wasm_loader_load(buf, size,
#if WASM_ENABLE_MULTI_MODULE != 0
main_module,
#endif
error_buf, error_buf_size);
name, error_buf, error_buf_size);
}
WASMModule *
@ -273,7 +273,7 @@ memory_instantiate(WASMModuleInstance *module_inst, WASMModuleInstance *parent,
/* For memory32, the global value should be i32 */
*(uint32 *)global_addr = (uint32)aux_heap_base;
}
LOG_VERBOSE("Reset __heap_base global to %lu", aux_heap_base);
LOG_VERBOSE("Reset __heap_base global to %" PRIu64, aux_heap_base);
}
else {
/* Insert app heap before new page */
@ -300,7 +300,8 @@ memory_instantiate(WASMModuleInstance *module_inst, WASMModuleInstance *parent,
LOG_VERBOSE("Memory instantiate:");
LOG_VERBOSE(" page bytes: %u, init pages: %u, max pages: %u",
num_bytes_per_page, init_page_count, max_page_count);
LOG_VERBOSE(" heap offset: %u, heap size: %d\n", heap_offset, heap_size);
LOG_VERBOSE(" heap offset: %" PRIu64 ", heap size: %u\n", heap_offset,
heap_size);
max_memory_data_size = (uint64)num_bytes_per_page * max_page_count;
bh_assert(max_memory_data_size
@ -1399,30 +1400,39 @@ fail:
static bool
execute_malloc_function(WASMModuleInstance *module_inst, WASMExecEnv *exec_env,
WASMFunctionInstance *malloc_func,
WASMFunctionInstance *retain_func, uint32 size,
uint32 *p_result)
WASMFunctionInstance *retain_func, uint64 size,
uint64 *p_result)
{
#ifdef OS_ENABLE_HW_BOUND_CHECK
WASMExecEnv *exec_env_tls = wasm_runtime_get_exec_env_tls();
#endif
WASMExecEnv *exec_env_created = NULL;
WASMModuleInstanceCommon *module_inst_old = NULL;
uint32 argv[2], argc;
uint32 argv[3], argc;
bool ret;
argv[0] = size;
argc = 1;
#if WASM_ENABLE_MEMORY64 != 0
bool is_memory64 = module_inst->memories[0]->is_memory64;
if (is_memory64) {
argc = 2;
PUT_I64_TO_ADDR(&argv[0], size);
}
else
#endif
{
argc = 1;
argv[0] = (uint32)size;
}
/* if __retain is exported, then this module is compiled by
assemblyscript, the memory should be managed by as's runtime,
in this case we need to call the retain function after malloc
the memory */
if (retain_func) {
/* the malloc functino from assemblyscript is:
/* the malloc function from assemblyscript is:
function __new(size: usize, id: u32)
id = 0 means this is an ArrayBuffer object */
argv[1] = 0;
argc = 2;
argv[argc] = 0;
argc++;
}
if (exec_env) {
@ -1474,24 +1484,42 @@ execute_malloc_function(WASMModuleInstance *module_inst, WASMExecEnv *exec_env,
if (exec_env_created)
wasm_exec_env_destroy(exec_env_created);
if (ret)
*p_result = argv[0];
if (ret) {
#if WASM_ENABLE_MEMORY64 != 0
if (is_memory64)
*p_result = GET_I64_FROM_ADDR(&argv[0]);
else
#endif
{
*p_result = argv[0];
}
}
return ret;
}
static bool
execute_free_function(WASMModuleInstance *module_inst, WASMExecEnv *exec_env,
WASMFunctionInstance *free_func, uint32 offset)
WASMFunctionInstance *free_func, uint64 offset)
{
#ifdef OS_ENABLE_HW_BOUND_CHECK
WASMExecEnv *exec_env_tls = wasm_runtime_get_exec_env_tls();
#endif
WASMExecEnv *exec_env_created = NULL;
WASMModuleInstanceCommon *module_inst_old = NULL;
uint32 argv[2];
uint32 argv[2], argc;
bool ret;
argv[0] = offset;
#if WASM_ENABLE_MEMORY64 != 0
if (module_inst->memories[0]->is_memory64) {
PUT_I64_TO_ADDR(&argv[0], offset);
argc = 2;
}
else
#endif
{
argv[0] = (uint32)offset;
argc = 1;
}
if (exec_env) {
#ifdef OS_ENABLE_HW_BOUND_CHECK
@ -1530,7 +1558,7 @@ execute_free_function(WASMModuleInstance *module_inst, WASMExecEnv *exec_env,
}
}
ret = wasm_call_function(exec_env, free_func, 1, argv);
ret = wasm_call_function(exec_env, free_func, argc, argv);
if (module_inst_old)
/* Restore the existing exec_env's module inst */
@ -2379,8 +2407,13 @@ wasm_instantiate(WASMModule *module, WASMModuleInstance *parent,
/* check offset */
if (base_offset > memory_size) {
LOG_DEBUG("base_offset(%d) > memory_size(%d)", base_offset,
#if WASM_ENABLE_MEMORY64 != 0
LOG_DEBUG("base_offset(%" PRIu64 ") > memory_size(%" PRIu64 ")",
base_offset, memory_size);
#else
LOG_DEBUG("base_offset(%u) > memory_size(%" PRIu64 ")", base_offset,
memory_size);
#endif
#if WASM_ENABLE_REF_TYPES != 0 || WASM_ENABLE_GC != 0
set_error_buf(error_buf, error_buf_size,
"out of bounds memory access");
@ -2394,8 +2427,14 @@ wasm_instantiate(WASMModule *module, WASMModuleInstance *parent,
/* check offset + length(could be zero) */
length = data_seg->data_length;
if ((uint64)base_offset + length > memory_size) {
LOG_DEBUG("base_offset(%d) + length(%d) > memory_size(%d)",
#if WASM_ENABLE_MEMORY64 != 0
LOG_DEBUG("base_offset(%" PRIu64
") + length(%d) > memory_size(%" PRIu64 ")",
base_offset, length, memory_size);
#else
LOG_DEBUG("base_offset(%u) + length(%d) > memory_size(%" PRIu64 ")",
base_offset, length, memory_size);
#endif
#if WASM_ENABLE_REF_TYPES != 0 || WASM_ENABLE_GC != 0
set_error_buf(error_buf, error_buf_size,
"out of bounds memory access");
@ -3100,8 +3139,6 @@ call_wasm_with_hw_bound_check(WASMModuleInstance *module_inst,
{
WASMExecEnv *exec_env_tls = wasm_runtime_get_exec_env_tls();
WASMJmpBuf jmpbuf_node = { 0 }, *jmpbuf_node_pop;
uint32 page_size = os_getpagesize();
uint32 guard_page_count = STACK_OVERFLOW_CHECK_GUARD_PAGE_COUNT;
WASMRuntimeFrame *prev_frame = wasm_exec_env_get_cur_frame(exec_env);
uint8 *prev_top = exec_env->wasm_stack.top;
#ifdef BH_PLATFORM_WINDOWS
@ -3114,10 +3151,7 @@ call_wasm_with_hw_bound_check(WASMModuleInstance *module_inst,
/* Check native stack overflow firstly to ensure we have enough
native stack to run the following codes before actually calling
the aot function in invokeNative function. */
RECORD_STACK_USAGE(exec_env, (uint8 *)&exec_env_tls);
if ((uint8 *)&exec_env_tls < exec_env->native_stack_boundary
+ page_size * (guard_page_count + 1)) {
wasm_set_exception(module_inst, "native stack overflow");
if (!wasm_runtime_detect_native_stack_overflow(exec_env)) {
return;
}
@ -3324,7 +3358,7 @@ wasm_module_malloc_internal(WASMModuleInstance *module_inst,
{
WASMMemoryInstance *memory = wasm_get_default_memory(module_inst);
uint8 *addr = NULL;
uint32 offset = 0;
uint64 offset = 0;
/* TODO: Memory64 size check based on memory idx type */
bh_assert(size <= UINT32_MAX);
@ -3340,7 +3374,7 @@ wasm_module_malloc_internal(WASMModuleInstance *module_inst,
else if (module_inst->e->malloc_function && module_inst->e->free_function) {
if (!execute_malloc_function(
module_inst, exec_env, module_inst->e->malloc_function,
module_inst->e->retain_function, (uint32)size, &offset)) {
module_inst->e->retain_function, size, &offset)) {
return 0;
}
/* If we use app's malloc function,
@ -3356,7 +3390,8 @@ wasm_module_malloc_internal(WASMModuleInstance *module_inst,
wasm_set_exception(module_inst, "app heap corrupted");
}
else {
LOG_WARNING("warning: allocate %u bytes memory failed", size);
LOG_WARNING("warning: allocate %" PRIu64 " bytes memory failed",
size);
}
return 0;
}
@ -3439,7 +3474,7 @@ wasm_module_free_internal(WASMModuleInstance *module_inst,
&& module_inst->e->free_function && memory->memory_data <= addr
&& addr < memory_data_end) {
execute_free_function(module_inst, exec_env,
module_inst->e->free_function, (uint32)ptr);
module_inst->e->free_function, ptr);
}
}
}
@ -3555,7 +3590,7 @@ call_indirect(WASMExecEnv *exec_env, uint32 tbl_idx, uint32 tbl_elem_idx,
}
#if WASM_ENABLE_GC == 0
func_idx = tbl_elem_val;
func_idx = (uint32)tbl_elem_val;
#else
func_idx =
wasm_func_obj_get_func_idx_bound((WASMFuncObjectRef)tbl_elem_val);
@ -4340,11 +4375,21 @@ llvm_jit_table_grow(WASMModuleInstance *module_inst, uint32 tbl_idx,
}
if (tbl_inst->cur_size > UINT32_MAX - inc_size) { /* integer overflow */
#if WASM_ENABLE_SPEC_TEST == 0
LOG_WARNING("table grow (%" PRIu32 "-> %" PRIu32
") failed because of integer overflow",
tbl_inst->cur_size, inc_size);
#endif
return (uint32)-1;
}
total_size = tbl_inst->cur_size + inc_size;
if (total_size > tbl_inst->max_size) {
#if WASM_ENABLE_SPEC_TEST == 0
LOG_WARNING("table grow (%" PRIu32 "-> %" PRIu32
") failed because of over max size",
tbl_inst->cur_size, inc_size);
#endif
return (uint32)-1;
}
@ -4381,6 +4426,22 @@ llvm_jit_obj_is_instance_of(WASMModuleInstance *module_inst,
return wasm_obj_is_instance_of(gc_obj, type_index, types, type_count);
}
bool
llvm_jit_func_type_is_super_of(WASMModuleInstance *module_inst,
uint32 type_idx1, uint32 type_idx2)
{
WASMModule *module = module_inst->module;
WASMType **types = module->types;
if (type_idx1 == type_idx2)
return true;
bh_assert(types[type_idx1]->type_flag == WASM_TYPE_FUNC);
bh_assert(types[type_idx2]->type_flag == WASM_TYPE_FUNC);
return wasm_func_type_is_super_of((WASMFuncType *)types[type_idx1],
(WASMFuncType *)types[type_idx2]);
}
WASMRttTypeRef
llvm_jit_rtt_type_new(WASMModuleInstance *module_inst, uint32 type_index)
{
@ -4586,8 +4647,8 @@ wasm_set_module_name(WASMModule *module, const char *name, char *error_buf,
return false;
module->name =
wasm_const_str_list_insert((const uint8 *)name, strlen(name), module,
false, error_buf, error_buf_size);
wasm_const_str_list_insert((const uint8 *)name, (uint32)strlen(name),
module, false, error_buf, error_buf_size);
return module->name != NULL;
}
@ -4595,4 +4656,4 @@ const char *
wasm_get_module_name(WASMModule *module)
{
return module->name;
}
}

7
core/iwasm/interpreter/wasm_runtime.h
View File

@ -508,7 +508,7 @@ wasm_load(uint8 *buf, uint32 size,
#if WASM_ENABLE_MULTI_MODULE != 0
bool main_module,
#endif
char *error_buf, uint32 error_buf_size);
const LoadArgs *args, char *error_buf, uint32 error_buf_size);
WASMModule *
wasm_load_from_sections(WASMSection *section_list, char *error_buf,
@ -811,6 +811,11 @@ bool
llvm_jit_obj_is_instance_of(WASMModuleInstance *module_inst,
WASMObjectRef gc_obj, uint32 type_index);
/* Whether func type1 is one of super types of func type2 */
bool
llvm_jit_func_type_is_super_of(WASMModuleInstance *module_inst,
uint32 type_idx1, uint32 type_idx2);
WASMRttTypeRef
llvm_jit_rtt_type_new(WASMModuleInstance *module_inst, uint32 type_index);

4
core/iwasm/libraries/debug-engine/handler.c
View File

@ -309,9 +309,11 @@ handle_general_query(WASMGDBServer *server, char *payload)
}
if (!strcmp(name, "WasmData")) {
write_packet(server, "");
}
if (!strcmp(name, "WasmMem")) {
write_packet(server, "");
}
if (!strcmp(name, "Symbol")) {
@ -447,7 +449,7 @@ send_thread_stop_status(WASMGDBServer *server, uint32 status, korp_tid tid)
"thread-pcs:%" PRIx64 ";00:%s;reason:%s;", pc,
pc_string, "trace");
}
else if (status > 0) {
else { /* status > 0 (== 0 is checked at the function beginning) */
len += snprintf(tmpbuf + len, MAX_PACKET_SIZE - len,
"thread-pcs:%" PRIx64 ";00:%s;reason:%s;", pc,
pc_string, "signal");

3
core/iwasm/libraries/lib-pthread/lib_pthread_wrapper.c
View File

@ -1123,7 +1123,8 @@ posix_memalign_wrapper(wasm_exec_env_t exec_env, void **memptr, int32 align,
wasm_module_inst_t module_inst = get_module_inst(exec_env);
void *p = NULL;
*((int32 *)memptr) = module_malloc(size, (void **)&p);
/* TODO: for memory 64, module_malloc may return uint64 offset */
*((uint32 *)memptr) = (uint32)module_malloc(size, (void **)&p);
if (!p)
return -1;

5
core/iwasm/libraries/libc-wasi/sandboxed-system-primitives/src/blocking_op.h
View File

@ -3,6 +3,9 @@
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
#ifndef _BLOCKING_OP_H_
#define _BLOCKING_OP_H_
#include "bh_platform.h"
#include "wasm_export.h"
@ -57,3 +60,5 @@ __wasi_errno_t
blocking_op_poll(wasm_exec_env_t exec_env, struct pollfd *pfds, nfds_t nfds,
int timeout, int *retp);
#endif
#endif /* end of _BLOCKING_OP_H_ */

15
core/iwasm/libraries/thread-mgr/thread_manager.c
View File

@ -558,6 +558,7 @@ wasm_cluster_spawn_exec_env(WASMExecEnv *exec_env)
aux_stack_size)) {
goto fail3;
}
new_exec_env->is_aux_stack_allocated = true;
/* Inherit suspend_flags of parent thread */
new_exec_env->suspend_flags.flags =
@ -603,7 +604,9 @@ wasm_cluster_destroy_spawned_exec_env(WASMExecEnv *exec_env)
exec_env_tls = exec_env;
}
/* Free aux stack space */
/* Free aux stack space which was allocated in
wasm_cluster_spawn_exec_env */
bh_assert(exec_env_tls->is_aux_stack_allocated);
wasm_cluster_free_aux_stack(exec_env_tls,
(uint64)exec_env->aux_stack_bottom);
@ -655,7 +658,9 @@ thread_manager_start_routine(void *arg)
#endif
/* Free aux stack space */
wasm_cluster_free_aux_stack(exec_env, (uint64)exec_env->aux_stack_bottom);
if (exec_env->is_aux_stack_allocated)
wasm_cluster_free_aux_stack(exec_env,
(uint64)exec_env->aux_stack_bottom);
os_mutex_lock(&cluster_list_lock);
@ -723,11 +728,13 @@ wasm_cluster_create_thread(WASMExecEnv *exec_env,
aux_stack_size)) {
goto fail2;
}
new_exec_env->is_aux_stack_allocated = true;
}
else {
/* Disable aux stack */
new_exec_env->aux_stack_boundary = 0;
new_exec_env->aux_stack_bottom = UINTPTR_MAX;
new_exec_env->is_aux_stack_allocated = false;
}
/* Inherit suspend_flags of parent thread */
@ -1049,7 +1056,9 @@ wasm_cluster_exit_thread(WASMExecEnv *exec_env, void *retval)
#endif
/* Free aux stack space */
wasm_cluster_free_aux_stack(exec_env, (uint64)exec_env->aux_stack_bottom);
if (exec_env->is_aux_stack_allocated)
wasm_cluster_free_aux_stack(exec_env,
(uint64)exec_env->aux_stack_bottom);
/* App exit the thread, free the resources before exit native thread */

4
core/shared/mem-alloc/ems/ems_alloc.c
View File

@ -785,8 +785,8 @@ gc_alloc_wo_internal(void *vheap, gc_size_t size, const char *file, int line)
if (!hmu)
goto finish;
/* Do we need to memset the memory to 0? */
/* memset((char *)hmu + sizeof(*hmu), 0, tot_size - sizeof(*hmu)); */
/* Don't memset the memory to improve performance, the caller should
decide whether to memset it or not */
bh_assert(hmu_get_size(hmu) >= tot_size);
/* the total size allocated may be larger than

16
core/shared/mem-alloc/ems/ems_gc.c
View File

@ -114,8 +114,8 @@ sweep_instance_heap(gc_heap_t *heap)
else {
/* current block is still live */
if (last) {
tot_free += (char *)cur - (char *)last;
gci_add_fc(heap, last, (char *)cur - (char *)last);
tot_free += (gc_size_t)((char *)cur - (char *)last);
gci_add_fc(heap, last, (gc_size_t)((char *)cur - (char *)last));
hmu_mark_pinuse(last);
last = NULL;
}
@ -132,8 +132,8 @@ sweep_instance_heap(gc_heap_t *heap)
bh_assert(cur == end);
if (last) {
tot_free += (char *)cur - (char *)last;
gci_add_fc(heap, last, (char *)cur - (char *)last);
tot_free += (gc_size_t)((char *)cur - (char *)last);
gci_add_fc(heap, last, (gc_size_t)((char *)cur - (char *)last));
hmu_mark_pinuse(last);
}
@ -449,7 +449,9 @@ gci_gc_heap(void *h)
LOG_VERBOSE("#reclaim instance heap %p", heap);
gct_vm_gc_prepare();
/* TODO: get exec_env of current thread when GC multi-threading
is enabled, and pass it to runtime */
gct_vm_gc_prepare(NULL);
gct_vm_mutex_lock(&heap->lock);
heap->is_doing_reclaim = 1;
@ -459,7 +461,9 @@ gci_gc_heap(void *h)
heap->is_doing_reclaim = 0;
gct_vm_mutex_unlock(&heap->lock);
gct_vm_gc_finished();
/* TODO: get exec_env of current thread when GC multi-threading
is enabled, and pass it to runtime */
gct_vm_gc_finished(NULL);
LOG_VERBOSE("#reclaim instance heap %p done", heap);

4
core/shared/mem-alloc/mem_alloc.c
View File

@ -77,13 +77,13 @@ mem_allocator_free_with_gc(mem_allocator_t allocator, void *ptr)
void
mem_allocator_enable_gc_reclaim(mem_allocator_t allocator, void *exec_env)
{
return gc_enable_gc_reclaim((gc_handle_t)allocator, exec_env);
gc_enable_gc_reclaim((gc_handle_t)allocator, exec_env);
}
#else
void
mem_allocator_enable_gc_reclaim(mem_allocator_t allocator, void *cluster)
{
return gc_enable_gc_reclaim((gc_handle_t)allocator, cluster);
gc_enable_gc_reclaim((gc_handle_t)allocator, cluster);
}
#endif

9
core/shared/platform/common/posix/posix_file.c
View File

@ -823,7 +823,7 @@ os_fadvise(os_file_handle handle, __wasi_filesize_t offset,
int ret = posix_fadvise(handle, (off_t)offset, (off_t)length, nadvice);
if (ret < 0)
if (ret != 0)
return convert_errno(ret);
return __WASI_ESUCCESS;
@ -920,7 +920,12 @@ os_readdir(os_dir_stream dir_stream, __wasi_dirent_t *entry,
if (dent == NULL) {
*d_name = NULL;
return convert_errno(errno);
if (errno != 0) {
return convert_errno(errno);
}
else {
return 0;
}
}
long offset = (__wasi_dircookie_t)telldir(dir_stream);

5
core/shared/platform/common/posix/posix_thread.c
View File

@ -445,9 +445,6 @@ os_thread_get_stack_boundary()
pthread_attr_destroy(&attr);
if (stack_size > max_stack_size)
addr = addr + stack_size - max_stack_size;
if (guard_size < (size_t)page_size)
/* Reserved 1 guard page at least for safety */
guard_size = (size_t)page_size;
addr += guard_size;
}
(void)stack_size;
@ -466,8 +463,6 @@ os_thread_get_stack_boundary()
stack_size = max_stack_size;
addr -= stack_size;
/* Reserved 1 guard page at least for safety */
addr += page_size;
}
#endif

88
core/shared/platform/esp-idf/espidf_clock.c Normal file
View File

@ -0,0 +1,88 @@
/*
* Copyright (C) 2023 Amazon Inc. All rights reserved.
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
#include "libc_errno.h"
#include "platform_api_extension.h"
#define NANOSECONDS_PER_SECOND 1000000000ULL
static __wasi_errno_t
wasi_clockid_to_clockid(__wasi_clockid_t in, clockid_t *out)
{
switch (in) {
case __WASI_CLOCK_MONOTONIC:
*out = CLOCK_MONOTONIC;
return __WASI_ESUCCESS;
case __WASI_CLOCK_REALTIME:
*out = CLOCK_REALTIME;
return __WASI_ESUCCESS;
case __WASI_CLOCK_PROCESS_CPUTIME_ID:
#if defined(CLOCK_PROCESS_CPUTIME_ID)
*out = CLOCK_PROCESS_CPUTIME_ID;
return __WASI_ESUCCESS;
#else
return __WASI_ENOTSUP;
#endif
case __WASI_CLOCK_THREAD_CPUTIME_ID:
#if defined(CLOCK_THREAD_CPUTIME_ID)
*out = CLOCK_THREAD_CPUTIME_ID;
return __WASI_ESUCCESS;
#else
return __WASI_ENOTSUP;
#endif
default:
return __WASI_EINVAL;
}
}
static __wasi_timestamp_t
timespec_to_nanoseconds(const struct timespec *ts)
{
if (ts->tv_sec < 0)
return 0;
if ((__wasi_timestamp_t)ts->tv_sec >= UINT64_MAX / NANOSECONDS_PER_SECOND)
return UINT64_MAX;
return (__wasi_timestamp_t)ts->tv_sec * NANOSECONDS_PER_SECOND
+ (__wasi_timestamp_t)ts->tv_nsec;
}
__wasi_errno_t
os_clock_res_get(__wasi_clockid_t clock_id, __wasi_timestamp_t *resolution)
{
clockid_t nclock_id;
__wasi_errno_t error = wasi_clockid_to_clockid(clock_id, &nclock_id);
if (error != __WASI_ESUCCESS)
return error;
struct timespec ts;
if (clock_getres(nclock_id, &ts) < 0)
return convert_errno(errno);
*resolution = timespec_to_nanoseconds(&ts);
return error;
}
__wasi_errno_t
os_clock_time_get(__wasi_clockid_t clock_id, __wasi_timestamp_t precision,
__wasi_timestamp_t *time)
{
clockid_t nclock_id;
__wasi_errno_t error = wasi_clockid_to_clockid(clock_id, &nclock_id);
(void)precision;
if (error != __WASI_ESUCCESS)
return error;
struct timespec ts;
if (clock_gettime(nclock_id, &ts) < 0)
return convert_errno(errno);
*time = timespec_to_nanoseconds(&ts);
return error;
}

1014
core/shared/platform/esp-idf/espidf_file.c Normal file
View File

File diff suppressed because it is too large Load Diff

26
core/shared/platform/esp-idf/espidf_memmap.c
View File

@ -9,11 +9,10 @@
#include "soc/mmu.h"
#include "rom/cache.h"
#define MEM_DUAL_BUS_OFFSET (IRAM0_CACHE_ADDRESS_LOW - DRAM0_CACHE_ADDRESS_LOW)
#define MEM_DUAL_BUS_OFFSET (SOC_IROM_LOW - SOC_IROM_HIGH)
#define in_ibus_ext(addr) \
(((uint32)addr >= IRAM0_CACHE_ADDRESS_LOW) \
&& ((uint32)addr < IRAM0_CACHE_ADDRESS_HIGH))
#define in_ibus_ext(addr) \
(((uint32)addr >= SOC_IROM_LOW) && ((uint32)addr < SOC_IROM_HIGH))
static portMUX_TYPE s_spinlock = portMUX_INITIALIZER_UNLOCKED;
#endif
@ -55,7 +54,24 @@ os_mmap(void *hint, size_t size, int prot, int flags, os_file_handle file)
#else
uint32_t mem_caps = MALLOC_CAP_8BIT;
#endif
return heap_caps_malloc(size, mem_caps);
void *buf_origin =
heap_caps_malloc(size + 4 + sizeof(uintptr_t), mem_caps);
if (!buf_origin) {
return NULL;
}
// Memory allocation with MALLOC_CAP_SPIRAM or MALLOC_CAP_8BIT will
// return 4-byte aligned Reserve extra 4 byte to fixup alignment and
// size for the pointer to the originally allocated address
void *buf_fixed = buf_origin + sizeof(void *);
if ((uintptr_t)buf_fixed & (uintptr_t)0x7) {
buf_fixed = (void *)((uintptr_t)(buf_fixed + 4) & (~(uintptr_t)7));
}
uintptr_t *addr_field = buf_fixed - sizeof(uintptr_t);
*addr_field = (uintptr_t)buf_origin;
return buf_fixed;
}
}

60
core/shared/platform/esp-idf/espidf_platform.c
View File

@ -3,9 +3,25 @@
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
#include "sdkconfig.h"
#include "platform_api_vmcore.h"
#include "platform_api_extension.h"
#if (ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(5, 0, 0)) \
&& (ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5, 2, 0))
#define UTIMENSAT_TIMESPEC_POINTER 1
#define FUTIMENS_TIMESPEC_POINTER 1
#endif
#if CONFIG_LITTLEFS_OPEN_DIR && CONFIG_LITTLEFS_FCNTL_GET_PATH
#define OPENAT_SUPPORT 1
#undef F_GETPATH
#define F_GETPATH CONFIG_LITTLEFS_FCNTL_F_GETPATH_VALUE
#define DIR_PATH_LEN (CONFIG_LITTLEFS_OBJ_NAME_LEN + 1)
#endif
int
bh_platform_init()
{
@ -177,12 +193,40 @@ writev(int fildes, const struct iovec *iov, int iovcnt)
return ntotal;
}
#if OPENAT_SUPPORT
int
openat(int fd, const char *pathname, int flags, ...)
{
int new_fd;
int ret;
char dir_path[DIR_PATH_LEN];
char *full_path;
ret = fcntl(fd, F_GETPATH, dir_path);
if (ret != 0) {
errno = -EINVAL;
return -1;
}
ret = asprintf(&full_path, "%s/%s", dir_path, pathname);
if (ret < 0) {
errno = ENOMEM;
return -1;
}
new_fd = open(full_path, flags);
free(full_path);
return new_fd;
}
#else
int
openat(int fd, const char *path, int oflags, ...)
{
errno = ENOSYS;
return -1;
}
#endif
int
fstatat(int fd, const char *path, struct stat *buf, int flag)
@ -234,7 +278,13 @@ unlinkat(int fd, const char *path, int flag)
}
int
utimensat(int fd, const char *path, const struct timespec ts[2], int flag)
utimensat(int fd, const char *path,
#if UTIMENSAT_TIMESPEC_POINTER
const struct timespec *ts,
#else
const struct timespec ts[2],
#endif
int flag)
{
errno = ENOSYS;
return -1;
@ -257,7 +307,13 @@ ftruncate(int fd, off_t length)
#endif
int
futimens(int fd, const struct timespec times[2])
futimens(int fd,
#if FUTIMENS_TIMESPEC_POINTER
const struct timespec *times
#else
const struct timespec times[2]
#endif
)
{
errno = ENOSYS;
return -1;

866
core/shared/platform/esp-idf/espidf_socket.c
View File

@ -8,19 +8,44 @@
#include "libc_errno.h"
#include <arpa/inet.h>
#include <netdb.h>
#include <netinet/tcp.h>
#include <netinet/in.h>
static void
textual_addr_to_sockaddr(const char *textual, int port, struct sockaddr_in *out)
static bool
textual_addr_to_sockaddr(const char *textual, int port, struct sockaddr *out,
socklen_t *out_len)
{
struct sockaddr_in *v4;
#ifdef IPPROTO_IPV6
struct sockaddr_in6 *v6;
#endif
assert(textual);
out->sin_family = AF_INET;
out->sin_port = htons(port);
out->sin_addr.s_addr = inet_addr(textual);
v4 = (struct sockaddr_in *)out;
if (inet_pton(AF_INET, textual, &v4->sin_addr.s_addr) == 1) {
v4->sin_family = AF_INET;
v4->sin_port = htons(port);
*out_len = sizeof(struct sockaddr_in);
return true;
}
#ifdef IPPROTO_IPV6
v6 = (struct sockaddr_in6 *)out;
if (inet_pton(AF_INET6, textual, &v6->sin6_addr.s6_addr) == 1) {
v6->sin6_family = AF_INET6;
v6->sin6_port = htons(port);
*out_len = sizeof(struct sockaddr_in6);
return true;
}
#endif
return false;
}
static int
sockaddr_to_bh_sockaddr(const struct sockaddr *sockaddr, socklen_t socklen,
sockaddr_to_bh_sockaddr(const struct sockaddr *sockaddr,
bh_sockaddr_t *bh_sockaddr)
{
switch (sockaddr->sa_family) {
@ -28,31 +53,82 @@ sockaddr_to_bh_sockaddr(const struct sockaddr *sockaddr, socklen_t socklen,
{
struct sockaddr_in *addr = (struct sockaddr_in *)sockaddr;
assert(socklen >= sizeof(struct sockaddr_in));
bh_sockaddr->port = ntohs(addr->sin_port);
bh_sockaddr->addr_buffer.ipv4 = ntohl(addr->sin_addr.s_addr);
bh_sockaddr->is_ipv4 = true;
return BHT_OK;
}
#ifdef IPPROTO_IPV6
case AF_INET6:
{
struct sockaddr_in6 *addr = (struct sockaddr_in6 *)sockaddr;
size_t i;
bh_sockaddr->port = ntohs(addr->sin6_port);
for (i = 0; i < sizeof(bh_sockaddr->addr_buffer.ipv6)
/ sizeof(bh_sockaddr->addr_buffer.ipv6[0]);
i++) {
uint16 part_addr = addr->sin6_addr.s6_addr[i * 2]
| (addr->sin6_addr.s6_addr[i * 2 + 1] << 8);
bh_sockaddr->addr_buffer.ipv6[i] = ntohs(part_addr);
}
bh_sockaddr->is_ipv4 = false;
return BHT_OK;
}
#endif
default:
errno = EAFNOSUPPORT;
return BHT_ERROR;
}
}
static void
bh_sockaddr_to_sockaddr(const bh_sockaddr_t *bh_sockaddr,
struct sockaddr_storage *sockaddr, socklen_t *socklen)
{
if (bh_sockaddr->is_ipv4) {
struct sockaddr_in *addr = (struct sockaddr_in *)sockaddr;
addr->sin_port = htons(bh_sockaddr->port);
addr->sin_family = AF_INET;
addr->sin_addr.s_addr = htonl(bh_sockaddr->addr_buffer.ipv4);
*socklen = sizeof(*addr);
}
#ifdef IPPROTO_IPV6
else {
struct sockaddr_in6 *addr = (struct sockaddr_in6 *)sockaddr;
size_t i;
addr->sin6_port = htons(bh_sockaddr->port);
addr->sin6_family = AF_INET6;
for (i = 0; i < sizeof(bh_sockaddr->addr_buffer.ipv6)
/ sizeof(bh_sockaddr->addr_buffer.ipv6[0]);
i++) {
uint16 part_addr = htons(bh_sockaddr->addr_buffer.ipv6[i]);
addr->sin6_addr.s6_addr[i * 2] = 0xff & part_addr;
addr->sin6_addr.s6_addr[i * 2 + 1] = (0xff00 & part_addr) >> 8;
}
*socklen = sizeof(*addr);
}
#endif
}
int
os_socket_create(bh_socket_t *sock, bool is_ipv4, bool is_tcp)
{
int af = is_ipv4 ? AF_INET : AF_INET6;
if (!sock) {
return BHT_ERROR;
}
if (is_tcp) {
*sock = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
*sock = socket(af, SOCK_STREAM, IPPROTO_TCP);
}
else {
*sock = socket(AF_INET, SOCK_DGRAM, 0);
*sock = socket(af, SOCK_DGRAM, 0);
}
return (*sock == -1) ? BHT_ERROR : BHT_OK;
@ -61,28 +137,47 @@ os_socket_create(bh_socket_t *sock, bool is_ipv4, bool is_tcp)
int
os_socket_bind(bh_socket_t socket, const char *host, int *port)
{
struct sockaddr_in addr;
struct sockaddr_storage addr = { 0 };
struct linger ling;
socklen_t socklen;
int ret;
assert(host);
assert(port);
addr.sin_addr.s_addr = inet_addr(host);
addr.sin_port = htons(*port);
addr.sin_family = AF_INET;
ling.l_onoff = 1;
ling.l_linger = 0;
ret = bind(socket, (struct sockaddr *)&addr, sizeof(addr));
if (!textual_addr_to_sockaddr(host, *port, (struct sockaddr *)&addr,
&socklen)) {
goto fail;
}
ret = setsockopt(socket, SOL_SOCKET, SO_LINGER, &ling, sizeof(ling));
if (ret < 0) {
goto fail;
}
ret = bind(socket, (struct sockaddr *)&addr, socklen);
if (ret < 0) {
goto fail;
}
socklen = sizeof(addr);
if (getsockname(socket, (struct sockaddr *)&addr, &socklen) == -1) {
if (getsockname(socket, (void *)&addr, &socklen) == -1) {
goto fail;
}
*port = ntohs(addr.sin_port);
if (addr.ss_family == AF_INET) {
*port = ntohs(((struct sockaddr_in *)&addr)->sin_port);
}
else {
#ifdef IPPROTO_IPV6
*port = ntohs(((struct sockaddr_in6 *)&addr)->sin6_port);
#else
goto fail;
#endif
}
return BHT_OK;
@ -120,10 +215,7 @@ int
os_socket_accept(bh_socket_t server_sock, bh_socket_t *sock, void *addr,
unsigned int *addrlen)
{
struct sockaddr addr_tmp;
socklen_t len = sizeof(struct sockaddr);
*sock = accept(server_sock, (struct sockaddr *)&addr_tmp, &len);
*sock = accept(server_sock, addr, (socklen_t *)addrlen);
if (*sock < 0) {
return BHT_ERROR;
@ -135,11 +227,14 @@ os_socket_accept(bh_socket_t server_sock, bh_socket_t *sock, void *addr,
int
os_socket_connect(bh_socket_t socket, const char *addr, int port)
{
struct sockaddr_in addr_in = { 0 };
socklen_t addr_len = sizeof(struct sockaddr_in);
struct sockaddr_storage addr_in = { 0 };
socklen_t addr_len;
int ret = 0;
textual_addr_to_sockaddr(addr, port, &addr_in);
if (!textual_addr_to_sockaddr(addr, port, (struct sockaddr *)&addr_in,
&addr_len)) {
return BHT_ERROR;
}
ret = connect(socket, (struct sockaddr *)&addr_in, addr_len);
if (ret == -1) {
@ -155,12 +250,53 @@ os_socket_recv(bh_socket_t socket, void *buf, unsigned int len)
return recv(socket, buf, len, 0);
}
int
os_socket_recv_from(bh_socket_t socket, void *buf, unsigned int len, int flags,
bh_sockaddr_t *src_addr)
{
struct sockaddr_storage sock_addr = { 0 };
socklen_t socklen = sizeof(sock_addr);
int ret;
ret = recvfrom(socket, buf, len, flags, (struct sockaddr *)&sock_addr,
&socklen);
if (ret < 0) {
return ret;
}
if (src_addr && socklen > 0) {
if (sockaddr_to_bh_sockaddr((struct sockaddr *)&sock_addr, src_addr)
== BHT_ERROR) {
return -1;
}
}
else if (src_addr) {
memset(src_addr, 0, sizeof(*src_addr));
}
return ret;
}
int
os_socket_send(bh_socket_t socket, const void *buf, unsigned int len)
{
return send(socket, buf, len, 0);
}
int
os_socket_send_to(bh_socket_t socket, const void *buf, unsigned int len,
int flags, const bh_sockaddr_t *dest_addr)
{
struct sockaddr_storage sock_addr = { 0 };
socklen_t socklen = 0;
bh_sockaddr_to_sockaddr(dest_addr, &sock_addr, &socklen);
return sendto(socket, buf, len, flags, (const struct sockaddr *)&sock_addr,
socklen);
}
int
os_socket_close(bh_socket_t socket)
{
@ -191,41 +327,701 @@ os_socket_inet_network(bool is_ipv4, const char *cp, bh_ip_addr_buffer_t *out)
out->ipv4 = ntohl(out->ipv4);
}
else {
#ifdef IPPROTO_IPV6
if (inet_pton(AF_INET6, cp, out->ipv6) != 1) {
return BHT_ERROR;
}
for (int i = 0; i < 8; i++) {
out->ipv6[i] = ntohs(out->ipv6[i]);
}
#else
errno = EAFNOSUPPORT;
return BHT_ERROR;
#endif
}
return BHT_OK;
}
static int
getaddrinfo_error_to_errno(int error)
{
switch (error) {
case EAI_AGAIN:
return EAGAIN;
case EAI_FAIL:
return EFAULT;
case EAI_MEMORY:
return ENOMEM;
default:
return EINVAL;
}
}
static int
is_addrinfo_supported(struct addrinfo *info)
{
return
// Allow only IPv4 and IPv6
(info->ai_family == AF_INET || info->ai_family == AF_INET6)
// Allow only UDP and TCP
&& (info->ai_socktype == SOCK_DGRAM || info->ai_socktype == SOCK_STREAM)
&& (info->ai_protocol == IPPROTO_TCP
|| info->ai_protocol == IPPROTO_UDP);
}
int
os_socket_addr_resolve(const char *host, const char *service,
uint8_t *hint_is_tcp, uint8_t *hint_is_ipv4,
bh_addr_info_t *addr_info, size_t addr_info_size,
size_t *max_info_size)
{
struct addrinfo hints = { 0 }, *res, *result;
int hints_enabled = hint_is_tcp || hint_is_ipv4;
int ret;
size_t pos = 0;
if (hints_enabled) {
if (hint_is_ipv4) {
hints.ai_family = *hint_is_ipv4 ? AF_INET : AF_INET6;
}
if (hint_is_tcp) {
hints.ai_socktype = *hint_is_tcp ? SOCK_STREAM : SOCK_DGRAM;
}
}
ret = getaddrinfo(host, strlen(service) == 0 ? NULL : service,
hints_enabled ? &hints : NULL, &result);
if (ret != BHT_OK) {
errno = getaddrinfo_error_to_errno(ret);
return BHT_ERROR;
}
res = result;
while (res) {
if (addr_info_size > pos) {
if (!is_addrinfo_supported(res)) {
res = res->ai_next;
continue;
}
ret =
sockaddr_to_bh_sockaddr(res->ai_addr, &addr_info[pos].sockaddr);
if (ret == BHT_ERROR) {
freeaddrinfo(result);
return BHT_ERROR;
}
addr_info[pos].is_tcp = res->ai_socktype == SOCK_STREAM;
}
pos++;
res = res->ai_next;
}
*max_info_size = pos;
freeaddrinfo(result);
return BHT_OK;
}
static int
os_socket_setbooloption(bh_socket_t socket, int level, int optname,
bool is_enabled)
{
int option = (int)is_enabled;
if (setsockopt(socket, level, optname, &option, sizeof(option)) != 0) {
return BHT_ERROR;
}
return BHT_OK;
}
static int
os_socket_getbooloption(bh_socket_t socket, int level, int optname,
bool *is_enabled)
{
assert(is_enabled);
int optval;
socklen_t optval_size = sizeof(optval);
if (getsockopt(socket, level, optname, &optval, &optval_size) != 0) {
return BHT_ERROR;
}
*is_enabled = (bool)optval;
return BHT_OK;
}
int
os_socket_set_send_buf_size(bh_socket_t socket, size_t bufsiz)
{
int buf_size_int = (int)bufsiz;
if (setsockopt(socket, SOL_SOCKET, SO_SNDBUF, &buf_size_int,
sizeof(buf_size_int))
!= 0) {
return BHT_ERROR;
}
return BHT_OK;
}
int
os_socket_get_send_buf_size(bh_socket_t socket, size_t *bufsiz)
{
assert(bufsiz);
int buf_size_int;
socklen_t bufsiz_len = sizeof(buf_size_int);
if (getsockopt(socket, SOL_SOCKET, SO_SNDBUF, &buf_size_int, &bufsiz_len)
!= 0) {
return BHT_ERROR;
}
*bufsiz = (size_t)buf_size_int;
return BHT_OK;
}
int
os_socket_set_recv_buf_size(bh_socket_t socket, size_t bufsiz)
{
int buf_size_int = (int)bufsiz;
if (setsockopt(socket, SOL_SOCKET, SO_RCVBUF, &buf_size_int,
sizeof(buf_size_int))
!= 0) {
return BHT_ERROR;
}
return BHT_OK;
}
int
os_socket_get_recv_buf_size(bh_socket_t socket, size_t *bufsiz)
{
assert(bufsiz);
int buf_size_int;
socklen_t bufsiz_len = sizeof(buf_size_int);
if (getsockopt(socket, SOL_SOCKET, SO_RCVBUF, &buf_size_int, &bufsiz_len)
!= 0) {
return BHT_ERROR;
}
*bufsiz = (size_t)buf_size_int;
return BHT_OK;
}
int
os_socket_set_keep_alive(bh_socket_t socket, bool is_enabled)
{
return os_socket_setbooloption(socket, SOL_SOCKET, SO_KEEPALIVE,
is_enabled);
}
int
os_socket_get_keep_alive(bh_socket_t socket, bool *is_enabled)
{
return os_socket_getbooloption(socket, SOL_SOCKET, SO_KEEPALIVE,
is_enabled);
}
int
os_socket_set_reuse_addr(bh_socket_t socket, bool is_enabled)
{
return os_socket_setbooloption(socket, SOL_SOCKET, SO_REUSEADDR,
is_enabled);
}
int
os_socket_get_reuse_addr(bh_socket_t socket, bool *is_enabled)
{
return os_socket_getbooloption(socket, SOL_SOCKET, SO_REUSEADDR,
is_enabled);
}
int
os_socket_set_reuse_port(bh_socket_t socket, bool is_enabled)
{
#if defined(SO_REUSEPORT) /* NuttX doesn't have SO_REUSEPORT */
return os_socket_setbooloption(socket, SOL_SOCKET, SO_REUSEPORT,
is_enabled);
#else
errno = ENOTSUP;
return BHT_ERROR;
#endif /* defined(SO_REUSEPORT) */
}
int
os_socket_get_reuse_port(bh_socket_t socket, bool *is_enabled)
{
#if defined(SO_REUSEPORT) /* NuttX doesn't have SO_REUSEPORT */
return os_socket_getbooloption(socket, SOL_SOCKET, SO_REUSEPORT,
is_enabled);
#else
errno = ENOTSUP;
return BHT_ERROR;
#endif /* defined(SO_REUSEPORT) */
}
int
os_socket_set_linger(bh_socket_t socket, bool is_enabled, int linger_s)
{
struct linger linger_opts = { .l_onoff = (int)is_enabled,
.l_linger = linger_s };
if (setsockopt(socket, SOL_SOCKET, SO_LINGER, &linger_opts,
sizeof(linger_opts))
!= 0) {
return BHT_ERROR;
}
return BHT_OK;
}
int
os_socket_get_linger(bh_socket_t socket, bool *is_enabled, int *linger_s)
{
assert(is_enabled);
assert(linger_s);
struct linger linger_opts;
socklen_t linger_opts_len = sizeof(linger_opts);
if (getsockopt(socket, SOL_SOCKET, SO_LINGER, &linger_opts,
&linger_opts_len)
!= 0) {
return BHT_ERROR;
}
*linger_s = linger_opts.l_linger;
*is_enabled = (bool)linger_opts.l_onoff;
return BHT_OK;
}
int
os_socket_set_tcp_no_delay(bh_socket_t socket, bool is_enabled)
{
return os_socket_setbooloption(socket, IPPROTO_TCP, TCP_NODELAY,
is_enabled);
}
int
os_socket_get_tcp_no_delay(bh_socket_t socket, bool *is_enabled)
{
return os_socket_getbooloption(socket, IPPROTO_TCP, TCP_NODELAY,
is_enabled);
}
int
os_socket_set_tcp_quick_ack(bh_socket_t socket, bool is_enabled)
{
#ifdef TCP_QUICKACK
return os_socket_setbooloption(socket, IPPROTO_TCP, TCP_QUICKACK,
is_enabled);
#else
errno = ENOSYS;
return BHT_ERROR;
#endif
}
int
os_socket_get_tcp_quick_ack(bh_socket_t socket, bool *is_enabled)
{
#ifdef TCP_QUICKACK
return os_socket_getbooloption(socket, IPPROTO_TCP, TCP_QUICKACK,
is_enabled);
#else
errno = ENOSYS;
return BHT_ERROR;
#endif
}
int
os_socket_set_tcp_keep_idle(bh_socket_t socket, uint32 time_s)
{
int time_s_int = (int)time_s;
#ifdef TCP_KEEPIDLE
if (setsockopt(socket, IPPROTO_TCP, TCP_KEEPIDLE, &time_s_int,
sizeof(time_s_int))
!= 0) {
return BHT_ERROR;
}
return BHT_OK;
#elif defined(TCP_KEEPALIVE)
if (setsockopt(socket, IPPROTO_TCP, TCP_KEEPALIVE, &time_s_int,
sizeof(time_s_int))
!= 0) {
return BHT_ERROR;
}
return BHT_OK;
#else
errno = ENOSYS;
return BHT_ERROR;
#endif
}
int
os_socket_get_tcp_keep_idle(bh_socket_t socket, uint32 *time_s)
{
assert(time_s);
int time_s_int;
socklen_t time_s_len = sizeof(time_s_int);
#ifdef TCP_KEEPIDLE
if (getsockopt(socket, IPPROTO_TCP, TCP_KEEPIDLE, &time_s_int, &time_s_len)
!= 0) {
return BHT_ERROR;
}
*time_s = (uint32)time_s_int;
return BHT_OK;
#elif defined(TCP_KEEPALIVE)
if (getsockopt(socket, IPPROTO_TCP, TCP_KEEPALIVE, &time_s_int, &time_s_len)
!= 0) {
return BHT_ERROR;
}
*time_s = (uint32)time_s_int;
return BHT_OK;
#else
errno = ENOSYS;
return BHT_ERROR;
#endif
}
int
os_socket_set_tcp_keep_intvl(bh_socket_t socket, uint32 time_s)
{
int time_s_int = (int)time_s;
#ifdef TCP_KEEPINTVL
if (setsockopt(socket, IPPROTO_TCP, TCP_KEEPINTVL, &time_s_int,
sizeof(time_s_int))
!= 0) {
return BHT_ERROR;
}
return BHT_OK;
#else
errno = ENOSYS;
return BHT_ERROR;
#endif
}
int
os_socket_get_tcp_keep_intvl(bh_socket_t socket, uint32 *time_s)
{
#ifdef TCP_KEEPINTVL
assert(time_s);
int time_s_int;
socklen_t time_s_len = sizeof(time_s_int);
if (getsockopt(socket, IPPROTO_TCP, TCP_KEEPINTVL, &time_s_int, &time_s_len)
!= 0) {
return BHT_ERROR;
}
*time_s = (uint32)time_s_int;
return BHT_OK;
#else
errno = ENOSYS;
return BHT_ERROR;
#endif
}
int
os_socket_set_tcp_fastopen_connect(bh_socket_t socket, bool is_enabled)
{
#ifdef TCP_FASTOPEN_CONNECT
return os_socket_setbooloption(socket, IPPROTO_TCP, TCP_FASTOPEN_CONNECT,
is_enabled);
#else
errno = ENOSYS;
return BHT_ERROR;
#endif
}
int
os_socket_get_tcp_fastopen_connect(bh_socket_t socket, bool *is_enabled)
{
#ifdef TCP_FASTOPEN_CONNECT
return os_socket_getbooloption(socket, IPPROTO_TCP, TCP_FASTOPEN_CONNECT,
is_enabled);
#else
errno = ENOSYS;
return BHT_ERROR;
#endif
}
int
os_socket_set_ip_multicast_loop(bh_socket_t socket, bool ipv6, bool is_enabled)
{
if (ipv6) {
#ifdef IPPROTO_IPV6
return os_socket_setbooloption(socket, IPPROTO_IPV6,
IPV6_MULTICAST_LOOP, is_enabled);
#else
errno = EAFNOSUPPORT;
return BHT_ERROR;
#endif
}
else {
return os_socket_setbooloption(socket, IPPROTO_IP, IP_MULTICAST_LOOP,
is_enabled);
}
}
int
os_socket_get_ip_multicast_loop(bh_socket_t socket, bool ipv6, bool *is_enabled)
{
if (ipv6) {
#ifdef IPPROTO_IPV6
return os_socket_getbooloption(socket, IPPROTO_IPV6,
IPV6_MULTICAST_LOOP, is_enabled);
#else
errno = EAFNOSUPPORT;
return BHT_ERROR;
#endif
}
else {
return os_socket_getbooloption(socket, IPPROTO_IP, IP_MULTICAST_LOOP,
is_enabled);
}
}
int
os_socket_set_ip_add_membership(bh_socket_t socket,
bh_ip_addr_buffer_t *imr_multiaddr,
uint32_t imr_interface, bool is_ipv6)
{
assert(imr_multiaddr);
if (is_ipv6) {
#if defined(IPPROTO_IPV6) && !defined(BH_PLATFORM_COSMOPOLITAN)
struct ipv6_mreq mreq;
for (int i = 0; i < 8; i++) {
((uint16_t *)mreq.ipv6mr_multiaddr.s6_addr)[i] =
imr_multiaddr->ipv6[i];
}
mreq.ipv6mr_interface = imr_interface;
if (setsockopt(socket, IPPROTO_IPV6, IPV6_JOIN_GROUP, &mreq,
sizeof(mreq))
!= 0) {
return BHT_ERROR;
}
#else
errno = EAFNOSUPPORT;
return BHT_ERROR;
#endif
}
else {
struct ip_mreq mreq;
mreq.imr_multiaddr.s_addr = imr_multiaddr->ipv4;
mreq.imr_interface.s_addr = imr_interface;
if (setsockopt(socket, IPPROTO_IP, IP_ADD_MEMBERSHIP, &mreq,
sizeof(mreq))
!= 0) {
return BHT_ERROR;
}
}
return BHT_OK;
}
int
os_socket_addr_remote(bh_socket_t socket, bh_sockaddr_t *sockaddr)
os_socket_set_ip_drop_membership(bh_socket_t socket,
bh_ip_addr_buffer_t *imr_multiaddr,
uint32_t imr_interface, bool is_ipv6)
{
struct sockaddr_in addr;
socklen_t addr_len = sizeof(addr);
assert(imr_multiaddr);
if (is_ipv6) {
#if defined(IPPROTO_IPV6) && !defined(BH_PLATFORM_COSMOPOLITAN)
struct ipv6_mreq mreq;
for (int i = 0; i < 8; i++) {
((uint16_t *)mreq.ipv6mr_multiaddr.s6_addr)[i] =
imr_multiaddr->ipv6[i];
}
mreq.ipv6mr_interface = imr_interface;
if (setsockopt(socket, IPPROTO_IPV6, IPV6_LEAVE_GROUP, &mreq,
sizeof(mreq))
!= 0) {
return BHT_ERROR;
}
#else
errno = EAFNOSUPPORT;
return BHT_ERROR;
#endif
}
else {
struct ip_mreq mreq;
mreq.imr_multiaddr.s_addr = imr_multiaddr->ipv4;
mreq.imr_interface.s_addr = imr_interface;
if (setsockopt(socket, IPPROTO_IP, IP_DROP_MEMBERSHIP, &mreq,
sizeof(mreq))
!= 0) {
return BHT_ERROR;
}
}
if (getpeername(socket, (struct sockaddr *)&addr, &addr_len) == -1) {
return BHT_OK;
}
int
os_socket_set_ip_ttl(bh_socket_t socket, uint8_t ttl_s)
{
if (setsockopt(socket, IPPROTO_IP, IP_TTL, &ttl_s, sizeof(ttl_s)) != 0) {
return BHT_ERROR;
}
return sockaddr_to_bh_sockaddr((struct sockaddr *)&addr, addr_len,
sockaddr);
return BHT_OK;
}
int
os_socket_get_ip_ttl(bh_socket_t socket, uint8_t *ttl_s)
{
socklen_t opt_len = sizeof(*ttl_s);
if (getsockopt(socket, IPPROTO_IP, IP_TTL, ttl_s, &opt_len) != 0) {
return BHT_ERROR;
}
return BHT_OK;
}
int
os_socket_set_ip_multicast_ttl(bh_socket_t socket, uint8_t ttl_s)
{
if (setsockopt(socket, IPPROTO_IP, IP_MULTICAST_TTL, &ttl_s, sizeof(ttl_s))
!= 0) {
return BHT_ERROR;
}
return BHT_OK;
}
int
os_socket_get_ip_multicast_ttl(bh_socket_t socket, uint8_t *ttl_s)
{
socklen_t opt_len = sizeof(*ttl_s);
if (getsockopt(socket, IPPROTO_IP, IP_MULTICAST_TTL, ttl_s, &opt_len)
!= 0) {
return BHT_ERROR;
}
return BHT_OK;
}
int
os_socket_set_ipv6_only(bh_socket_t socket, bool is_enabled)
{
#ifdef IPPROTO_IPV6
return os_socket_setbooloption(socket, IPPROTO_IPV6, IPV6_V6ONLY,
is_enabled);
#else
errno = EAFNOSUPPORT;
return BHT_ERROR;
#endif
}
int
os_socket_get_ipv6_only(bh_socket_t socket, bool *is_enabled)
{
#ifdef IPPROTO_IPV6
return os_socket_getbooloption(socket, IPPROTO_IPV6, IPV6_V6ONLY,
is_enabled);
#else
errno = EAFNOSUPPORT;
return BHT_ERROR;
#endif
}
int
os_socket_set_broadcast(bh_socket_t socket, bool is_enabled)
{
return os_socket_setbooloption(socket, SOL_SOCKET, SO_BROADCAST,
is_enabled);
}
int
os_socket_get_broadcast(bh_socket_t socket, bool *is_enabled)
{
return os_socket_getbooloption(socket, SOL_SOCKET, SO_BROADCAST,
is_enabled);
}
int
os_socket_set_send_timeout(bh_socket_t socket, uint64 timeout_us)
{
struct timeval tv;
tv.tv_sec = timeout_us / 1000000UL;
tv.tv_usec = timeout_us % 1000000UL;
if (setsockopt(socket, SOL_SOCKET, SO_SNDTIMEO, &tv, sizeof(tv)) != 0) {
return BHT_ERROR;
}
return BHT_OK;
}
int
os_socket_get_send_timeout(bh_socket_t socket, uint64 *timeout_us)
{
struct timeval tv;
socklen_t tv_len = sizeof(tv);
if (getsockopt(socket, SOL_SOCKET, SO_SNDTIMEO, &tv, &tv_len) != 0) {
return BHT_ERROR;
}
*timeout_us = (tv.tv_sec * 1000000UL) + tv.tv_usec;
return BHT_OK;
}
int
os_socket_set_recv_timeout(bh_socket_t socket, uint64 timeout_us)
{
struct timeval tv;
tv.tv_sec = timeout_us / 1000000UL;
tv.tv_usec = timeout_us % 1000000UL;
if (setsockopt(socket, SOL_SOCKET, SO_RCVTIMEO, &tv, sizeof(tv)) != 0) {
return BHT_ERROR;
}
return BHT_OK;
}
int
os_socket_get_recv_timeout(bh_socket_t socket, uint64 *timeout_us)
{
struct timeval tv;
socklen_t tv_len = sizeof(tv);
if (getsockopt(socket, SOL_SOCKET, SO_RCVTIMEO, &tv, &tv_len) != 0) {
return BHT_ERROR;
}
*timeout_us = (tv.tv_sec * 1000000UL) + tv.tv_usec;
return BHT_OK;
}
int
os_socket_addr_local(bh_socket_t socket, bh_sockaddr_t *sockaddr)
{
struct sockaddr_in addr;
socklen_t addr_len = sizeof(addr);
struct sockaddr_storage addr_storage = { 0 };
socklen_t addr_len = sizeof(addr_storage);
int ret;
if (getsockname(socket, (struct sockaddr *)&addr, &addr_len) == -1) {
ret = getsockname(socket, (struct sockaddr *)&addr_storage, &addr_len);
if (ret != BHT_OK) {
return BHT_ERROR;
}
return sockaddr_to_bh_sockaddr((struct sockaddr *)&addr, addr_len,
sockaddr);
return sockaddr_to_bh_sockaddr((struct sockaddr *)&addr_storage, sockaddr);
}
int
os_socket_addr_remote(bh_socket_t socket, bh_sockaddr_t *sockaddr)
{
struct sockaddr_storage addr_storage = { 0 };
socklen_t addr_len = sizeof(addr_storage);
int ret;
ret = getpeername(socket, (struct sockaddr *)&addr_storage, &addr_len);
if (ret != BHT_OK) {
return BHT_ERROR;
}
return sockaddr_to_bh_sockaddr((struct sockaddr *)&addr_storage, sockaddr);
}

57
core/shared/platform/esp-idf/espidf_thread.c
View File

@ -230,4 +230,59 @@ int
os_cond_broadcast(korp_cond *cond)
{
return pthread_cond_broadcast(cond);
}
}
int
os_rwlock_init(korp_rwlock *lock)
{
assert(lock);
if (pthread_rwlock_init(lock, NULL) != BHT_OK)
return BHT_ERROR;
return BHT_OK;
}
int
os_rwlock_rdlock(korp_rwlock *lock)
{
assert(lock);
if (pthread_rwlock_rdlock(lock) != BHT_OK)
return BHT_ERROR;
return BHT_OK;
}
int
os_rwlock_wrlock(korp_rwlock *lock)
{
assert(lock);
if (pthread_rwlock_wrlock(lock) != BHT_OK)
return BHT_ERROR;
return BHT_OK;
}
int
os_rwlock_unlock(korp_rwlock *lock)
{
assert(lock);
if (pthread_rwlock_unlock(lock) != BHT_OK)
return BHT_ERROR;
return BHT_OK;
}
int
os_rwlock_destroy(korp_rwlock *lock)
{
assert(lock);
if (pthread_rwlock_destroy(lock) != BHT_OK)
return BHT_ERROR;
return BHT_OK;
}

73
core/shared/platform/esp-idf/platform_internal.h
View File

@ -56,39 +56,29 @@ typedef unsigned int korp_sem;
#define UTIME_OMIT ((1l << 30) - 2l)
#endif
#ifdef DT_UNKNOWN
#undef DT_UNKNOWN
#endif
#ifdef DT_REG
#undef DT_REG
#endif
#ifdef DT_DIR
#undef DT_DIR
#endif
/* Below parts of d_type define are ported from Nuttx, under Apache License v2.0
*/
/* File type code for the d_type field in dirent structure.
* Note that because of the simplified filesystem organization of the NuttX,
* top-level, pseudo-file system, an inode can be BOTH a file and a directory
/* Following macros are defined in espressif GCC of esp-idf v5.3
*/
#define DTYPE_UNKNOWN 0
#define DTYPE_FIFO 1
#define DTYPE_CHR 2
#define DTYPE_SEM 3
#define DTYPE_DIRECTORY 4
#define DTYPE_MQ 5
#define DTYPE_BLK 6
#define DTYPE_SHM 7
#define DTYPE_FILE 8
#define DTYPE_MTD 9
#define DTYPE_FILE 1
#define DTYPE_DIRECTORY 2
#define DTYPE_CHR 4
#define DTYPE_BLK 5
#define DTYPE_FIFO 8
#define DTYPE_LINK 10
#define DTYPE_SOCK 12
/* Following macros are not defined in espressif GCC of esp-idf v5.3
*/
#define DTYPE_SEM 100
#define DTYPE_MQ 101
#define DTYPE_SHM 102
#define DTYPE_MTD 103
/* The d_type field of the dirent structure is not specified by POSIX. It
* is a non-standard, 4.5BSD extension that is implemented by most OSs. A
* POSIX compliant OS may not implement the d_type field at all. Many OS's
@ -96,18 +86,53 @@ typedef unsigned int korp_sem;
* type names:
*/
#ifndef DT_UNKNOWN
#define DT_UNKNOWN DTYPE_UNKNOWN
#endif
#ifndef DT_FIFO
#define DT_FIFO DTYPE_FIFO
#endif
#ifndef DT_CHR
#define DT_CHR DTYPE_CHR
#endif
#ifndef DT_SEM
#define DT_SEM DTYPE_SEM
#endif
#ifndef DT_DIR
#define DT_DIR DTYPE_DIRECTORY
#endif
#ifndef DT_MQ
#define DT_MQ DTYPE_MQ
#endif
#ifndef DT_BLK
#define DT_BLK DTYPE_BLK
#endif
#ifndef DT_SHM
#define DT_SHM DTYPE_SHM
#endif
#ifndef DT_REG
#define DT_REG DTYPE_FILE
#endif
#ifndef DT_MTD
#define DT_MTD DTYPE_MTD
#endif
#ifndef DT_LNK
#define DT_LNK DTYPE_LINK
#endif
#ifndef DT_SOCK
#define DT_SOCK DTYPE_SOCK
#endif
static inline int
os_getpagesize()

4
core/shared/platform/linux-sgx/sgx_ipfs.c
View File

@ -350,7 +350,7 @@ ipfs_fopen(int fd, int flags)
errno = __WASI_ECANCELED;
sgx_fclose(sgx_file);
os_printf("An error occurred while inserting the IPFS file pointer in "
"the map.");
"the map.\n");
return NULL;
}
@ -529,4 +529,4 @@ ipfs_ftruncate(int fd, off_t len)
return 0;
}
#endif /* end of WASM_ENABLE_SGX_IPFS */
#endif /* end of WASM_ENABLE_SGX_IPFS */

9
core/shared/platform/linux-sgx/sgx_platform.c
View File

@ -154,8 +154,8 @@ os_mmap(void *hint, size_t size, int prot, int flags, os_file_handle file)
ret = sgx_alloc_rsrv_mem(aligned_size);
if (ret == NULL) {
os_printf("os_mmap(size=%u, aligned size=%lu, prot=0x%x) failed.", size,
aligned_size, prot);
os_printf("os_mmap(size=%u, aligned size=%lu, prot=0x%x) failed.\n",
size, aligned_size, prot);
return NULL;
}
@ -168,7 +168,7 @@ os_mmap(void *hint, size_t size, int prot, int flags, os_file_handle file)
st = sgx_tprotect_rsrv_mem(ret, aligned_size, mprot);
if (st != SGX_SUCCESS) {
os_printf("os_mmap(size=%u, prot=0x%x) failed to set protect.", size,
os_printf("os_mmap(size=%u, prot=0x%x) failed to set protect.\n", size,
prot);
sgx_free_rsrv_mem(ret, aligned_size);
return NULL;
@ -205,7 +205,8 @@ os_mprotect(void *addr, size_t size, int prot)
mprot |= SGX_PROT_EXEC;
st = sgx_tprotect_rsrv_mem(addr, aligned_size, mprot);
if (st != SGX_SUCCESS)
os_printf("os_mprotect(addr=0x%" PRIx64 ", size=%u, prot=0x%x) failed.",
os_printf("os_mprotect(addr=0x%" PRIx64
", size=%u, prot=0x%x) failed.\n",
(uintptr_t)addr, size, prot);
return (st == SGX_SUCCESS ? 0 : -1);

32
core/shared/platform/zephyr/zephyr_thread.c
View File

@ -577,4 +577,34 @@ os_thread_get_stack_boundary()
void
os_thread_jit_write_protect_np(bool enabled)
{}
{}
int
os_thread_detach(korp_tid thread)
{
(void)thread;
return BHT_OK;
}
void
os_thread_exit(void *retval)
{
(void)retval;
os_thread_cleanup();
k_thread_abort(k_current_get());
}
int
os_cond_broadcast(korp_cond *cond)
{
os_thread_wait_node *node;
k_mutex_lock(&cond->wait_list_lock, K_FOREVER);
node = cond->thread_wait_list;
while (node) {
os_thread_wait_node *next = node->next;
k_sem_give(&node->sem);
node = next;
}
k_mutex_unlock(&cond->wait_list_lock);
return BHT_OK;
}

2
core/shared/utils/runtime_timer.c
View File

@ -394,7 +394,7 @@ handle_expired_timers(timer_ctx_t ctx, app_timer_t *expired)
operation may change expired->next */
expired = expired->next;
if (t->is_periodic) {
/* if it is repeating, then reschedule it; */
/* if it is repeating, then reschedule it */
reschedule_timer(ctx, t);
}
else {

6
core/version.h
View File

@ -5,7 +5,7 @@
#ifndef _WAMR_VERSION_H_
#define _WAMR_VERSION_H_
#define WAMR_VERSION_MAJOR 1
#define WAMR_VERSION_MINOR 3
#define WAMR_VERSION_PATCH 2
#define WAMR_VERSION_MAJOR 2
#define WAMR_VERSION_MINOR 0
#define WAMR_VERSION_PATCH 0
#endif

17
doc/build_wamr.md
View File

@ -76,6 +76,11 @@ cmake -DWAMR_BUILD_PLATFORM=linux -DWAMR_BUILD_TARGET=ARM
#### **Enable bulk memory feature**
- **WAMR_BUILD_BULK_MEMORY**=1/0, default to disable if not set
#### **Enable memory64 feature**
- **WAMR_BUILD_MEMORY64**=1/0, default to disable if not set
> Note: Currently, the memory64 feature is only supported in classic interpreter running mode.
#### **Enable thread manager**
- **WAMR_BUILD_THREAD_MGR**=1/0, default to disable if not set
@ -129,6 +134,14 @@ cmake -DWAMR_BUILD_PLATFORM=linux -DWAMR_BUILD_TARGET=ARM
- **WAMR_BUILD_SIMD**=1/0, default to enable if not set
> Note: only supported in AOT mode x86-64 target.
#### **Enable Exception Handling**
- **WAMR_BUILD_EXCE_HANDLING**=1/0, default to disable if not set
> Note: Currently, the exception handling feature is only supported in classic interpreter running mode.
#### **Enable Garbage Collection**
- **WAMR_BUILD_GC**=1/0, default to disable if not set
#### **Configure Debug**
- **WAMR_BUILD_CUSTOM_NAME_SECTION**=1/0, load the function name from custom name section, default to disable if not set
@ -241,6 +254,10 @@ Currently we only profile the memory consumption of module, module_instance and
> See [Enable segue optimization for wamrc when generating the aot file](./perf_tune.md#3-enable-segue-optimization-for-wamrc-when-generating-the-aot-file) for more details.
#### **User defined linear memory allocator**
- **WAMR_BUILD_ALLOC_WITH_USAGE**=1/0, default to disable if not set
> Notes: by default, the linear memory is allocated by system. when it's set to 1 and Alloc_With_Allocator is selected, it will be allocated by customer.
#### **Enable running PGO(Profile-Guided Optimization) instrumented AOT file**
- **WAMR_BUILD_STATIC_PGO**=1/0, default to disable if not set
> Note: See [Use the AOT static PGO method](./perf_tune.md#5-use-the-aot-static-pgo-method) for more details.

2
doc/export_native_api.md
View File

@ -89,7 +89,7 @@ Each letter in the "()" represents a parameter type, and the one following after
- '**I**': i64
- '**f**': f32
- '**F**': f64
- '**r**': externref (has to be the value of a `uintptr_t` variable)
- '**r**': externref (has to be the value of a `uintptr_t` variable), or all kinds of GC reference types when GC feature is enabled
- '**\***': the parameter is a buffer address in WASM application
- '**~**': the parameter is the byte length of WASM buffer as referred by preceding argument "\*". It must follow after '*', otherwise, registration will fail
- '**$**': the parameter is a string in WASM application

4
doc/perf_tune.md
View File

@ -28,7 +28,7 @@ emcc -msimd128 -O3 -o <wasm_file> <c/c++ source files>
- Reduce the footprint of JIT/AOT, the JIT/AOT code generated is smaller
- Reduce the compilation time of JIT/AOT
Currently it is supported on linux x86-64, developer can use `--enable-segue=[<flags>]` for wamrc:
Currently it is only supported on linux x86-64, developer can use `--enable-segue=[<flags>]` for wamrc:
```bash
wamrc --enable-segue -o aot_file wasm_file
@ -50,6 +50,8 @@ iwasm --enable-segue wasm_file (iwasm is built with llvm-jit enabled)
iwasm --enable-segue=[<flags>] wasm_file
```
> Note: Currently it is only supported on linux x86-64.
## 5. Use the AOT static PGO method
LLVM PGO (Profile-Guided Optimization) allows the compiler to better optimize code for how it actually runs. WAMR supports AOT static PGO, currently it is tested on Linux x86-64 and x86-32. The basic steps are:

15
idf_component.yml Normal file
View File

@ -0,0 +1,15 @@
version: "2.0.0"
description: WebAssembly Micro Runtime - A lightweight standalone WebAssembly (Wasm) runtime with small footprint, high performance and highly configurable features
url: https://bytecodealliance.org/
repository: https://github.com/bytecodealliance/wasm-micro-runtime.git
documentation: https://wamr.gitbook.io/
issues: https://github.com/bytecodealliance/wasm-micro-runtime/issues
dependencies:
idf: ">=4.4"
targets:
- esp32
- esp32s3
- esp32c3
- esp32c6
examples:
- path: product-mini/platforms/esp-idf

3
product-mini/platforms/esp-idf/CMakeLists.txt
View File

@ -6,7 +6,4 @@ cmake_minimum_required(VERSION 3.5)
include($ENV{IDF_PATH}/tools/cmake/project.cmake)
set (COMPONENTS ${IDF_TARGET} main freertos esptool_py wamr)
list(APPEND EXTRA_COMPONENT_DIRS "$ENV{WAMR_PATH}/build-scripts/esp-idf")
project(wamr-simple)

3
product-mini/platforms/esp-idf/main/CMakeLists.txt
View File

@ -2,5 +2,4 @@
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
idf_component_register(SRCS "main.c"
INCLUDE_DIRS "."
REQUIRES wamr)
INCLUDE_DIRS ".")

7
product-mini/platforms/esp-idf/main/idf_component.yml Normal file
View File

@ -0,0 +1,7 @@
## IDF Component Manager Manifest File
dependencies:
wasm-micro-runtime:
version: "^2"
override_path: "../../../.."
idf:
version: ">=4.4"

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