wasmedge-core
v0.9.0
Published
Second State WebAssembly VM for Node.js Addon
Downloads
6
Readme
WasmEdge for Node.js Addon
The WasmEdge (previously known as Second State VM, SSVM) is a high-performance WebAssembly runtime optimized for server-side applications. This project provides support for accessing WasmEdge as a Node.js addon. It allows Node.js applications to call WebAssembly functions written in Rust or other high-performance languages. Why do you want to run WebAssembly on the server-side? The WasmEdge addon could interact with the wasm files generated by the rustwasmc compiler tool.
NOTICE
In the current stage, our prebuilt version only supports x86_64 and aarch64 Linux.
Or you could use --build-from-source
flag to build from the source during addon installation.
WasmEdge versions
There are mappings of wasmedge-core versoins and corresponding WasmEdge versions:
| wasmedge-core | WasmEdge | | -------------- | ----------- | | 0.8.1 | 0.8.1 | | 0.8.2-rc.1 | 0.8.1 | | 0.8.2 | 0.8.2 | | 0.8.3 | 0.8.2 | | 0.9.0-rc.1 | 0.9.0-rc.1 | | 0.9.0 | 0.9.0 |
Development Requirements
Users should install the dependencies by the following requirments:
- boost >= 1.65.0
- llvm >= 10
- liblld-10-dev >= 10
- libstdc++6 >= 6.0.28 (GLIBCXX >= 3.4.28)
- g++ version >= 9.0 (Optional, if you have to build from source)
Prepare the environment
Use our docker image (recommended)
docker pull wasmedge/wasmedge
For ubuntu 20.04
# Tools and libraries
sudo apt install -y \
software-properties-common \
cmake \
libboost-all-dev
# And you will need to install llvm for wasmedge-aot tools
sudo apt install -y \
llvm-dev \
liblld-10-dev
# WasmEdge supports both clang++ and g++ compilers
# You can choose one of them for building this project
sudo apt install -y gcc g++
sudo apt install -y clang
Verify the version of llvm
sudo apt list | grep llvm
# Expected output
...omitted...
llvm-dev/focal,now 1:10.0-50~exp1 amd64 [installed]
llvm-runtime/focal,now 1:10.0-50~exp1 amd64 [installed,automatic]
llvm/focal,now 1:10.0-50~exp1 amd64 [installed,automatic]
...omitted...
# If the version is 1:10.x, then your llvm version is correct.
Verify the version of libstdc++6
strings /usr/lib/x86_64-linux-gnu/libstdc++.so.6 | grep GLIBCXX
# Expected output
...omitted...
GLIBCXX_3.4.24
GLIBCXX_3.4.25
GLIBCXX_3.4.26
GLIBCXX_3.4.27
GLIBCXX_3.4.28
GLIBCXX_DEBUG_MESSAGE_LENGTH
# If you can find GLIBCXX_3.4.28 in the output, then your libstdc++6 version is correct.
Running on MacOS Darwin
To run on MacOS you will need to build from source by following the steps mentioned below,
- Install WasmEdge library using the installation script
- Install all the necessary packages
- Clone the
wasmedge-core
project to your local environment - Run
npm install
Works with Rust library using Wasm-Bindgen
Please refer to Tutorial: A Wasm-Bindgen application.
Works with Rust application using standalone wasm32-wasi backend
Please refer to Tutorial: A standalone wasm32-wasi application.
APIs
Constructor: wasmedge.VM(wasm, wasmedge_options) -> vm_instance
- Create a WasmEdge instance by given wasm file and options.
- Arguments:
wasm
: Input wasm file, can be the following three formats:- Wasm file path (String, e.g.
/tmp/hello.wasm
) - Wasm bytecode format which is the content of a wasm binary file (Uint8Array)
- Wasm file path (String, e.g.
options
: An options object for setup the WasmEdge execution environment.options
args
: An array of strings that the Wasm application will get as function arguments. Default:[]
.env
: An object likeprocess.env
that Wasm application will get as its environment variables. Default:{}
.preopens
: An object which maps '<guest_path>:<host_path>'. E.g.{'/sandbox': '/some/real/path/that/wasm/can/access'}
Default:{}
.EnableWasiStartFunction
: This option will disable wasm-bindgen mode and prepare the working environment for the standalone wasm program. If you want to run an application withmain()
, you should set this totrue
. Default:false
.EnableAOT
: This option will enable WasmEdge AoT mode. Default:false
.EnableMeasurement
: This option will enable measurement but decrease its performance. Default:false
.AllowCommands
: An array of strings that indicate what commands are allowed to execute in the WasmEdge Process Module. Default[]
.AllowAllCommands
: Allow users to call any command in the WasmEdge Process Module. This option will overwrite theAllowCommands
. Default:false
.
- Return value:
vm_instance
: A WasmEdge instance.
Methods
Start() -> Integer
- Emit
_start()
and expect the return value type isInteger
which represents the error code frommain()
. - Arguments:
- If you want to append arguments for the standalone wasm program, please set the
args
inwasi options
.
- If you want to append arguments for the standalone wasm program, please set the
- Example:
let error_code = Start();
Run(function_name, args...) -> void
- Emit
function_name
withargs
and expect the return value type isvoid
. - Arguments:
function_name
: The function name which users want to emit.args
<Integer/String/Uint8Array>*: The function arguments. The delimiter is,
- Example:
Run("Print", 1234);
RunInt(function_name, args...) -> Integer
- Emit
function_name
withargs
and expect the return value type isInteger
(Int32). - Arguments:
function_name
: The function name which users want to emit.args
<Integer/String/Uint8Array>*: The function arguments. The delimiter is,
- Example:
let result = RunInt("Add", 1, 2);
// result should be 3
RunUInt(function_name, args...) -> Integer
- Emit
function_name
withargs
and expect the return value type isInteger
(UInt32). - Arguments:
function_name
: The function name which users want to emit.args
<Integer/String/Uint8Array>*: The function arguments. The delimiter is,
- Example:
let result = RunInt("Add", 1, 2);
// result should be 3
RunInt64(function_name, args...) -> BigInt
- Emit
function_name
withargs
and expect the return value type isBigInt
(Int64). - Arguments:
function_name
: The function name which users want to emit.args
<Integer/String/Uint8Array>*: The function arguments. The delimiter is,
- Example:
let result = RunInt("Add", 1, 2);
// result should be 3
RunUInt64(function_name, args...) -> BigInt
- Emit
function_name
withargs
and expect the return value type isBigInt
(UInt64). - Arguments:
function_name
: The function name which users want to emit.args
<Integer/String/Uint8Array>*: The function arguments. The delimiter is,
- Example:
let result = RunInt("Add", 1, 2);
// result should be 3
RunString(function_name, args...) -> String
- Emit
function_name
withargs
and expect the return value type isString
. - Arguments:
function_name
: The function name which users want to emit.args
<Integer/String/Uint8Array>*: The function arguments. The delimiter is,
- Example:
let result = RunString("PrintMathScore", "Amy", 98);
// result: "Amy’s math score is 98".
RunUint8Array(function_name, args...) -> Uint8Array
- Emit
function_name
withargs
and expect the return value type isUint8Array
. - Arguments:
function_name
: The function name which users want to emit.args
<Integer/String/Uint8Array>*: The function arguments. The delimiter is,
- Example:
let result = RunUint8Array("Hash", "Hello, world!");
// result: "[12, 22, 33, 42, 51]".
Compile(output_filename) -> boolean
- Compile a given wasm file (can be a file path or a byte array) into a native binary whose name is the given
output_filename
. - This function uses WasmEdge AoT compiler.
- Return
false
when the compilation failed.
// Compile only
let vm = wasmedge.VM("/path/to/wasm/file", options);
vm.Compile("/path/to/aot/file");
// When you want to run the compiled file
let vm = wasmedge.VM("/path/to/aot/file", options);
vm.RunXXX("Func", args);
GetStatistics() -> Object
- If you want to enable measurement, set the option
EnableMeasurement
totrue
. But please notice that enabling measurement will significantly affect performance. - Get the statistics of execution runtime.
- Return Value
Statistics
Measure
-> : To show if the measurement is enabled or not.TotalExecutionTime
-> : Total execution time (Wasm exeuction time + Host function execution time) in `` unit.WasmExecutionTime
-> : Wasm instructions execution time inns
unit.HostFunctionExecutionTime
-> : Host functions (e.g. eei or wasi functions) execution time inns
unit.InstructionCount
-> : The number of executed instructions in this execution.TotalGasCost
-> : The cost of this execution.InstructionPerSecond
-> : The instructions per second of this execution.
let result = RunInt("Add", 1, 2);
// result should be 3
let stat = GetStatistics();
/*
If the `EnableMeasurement: true`:
stat = Statistics: {
Measure: true,
TotalExecutionTime: 1512,
WasmExecutionTime: 1481,
HostFunctionExecutionTime: 31,
InstructionCount: 27972,
TotalGasCost: 27972,
InstructionPerSecond: 18887238.35246455
}
Else:
stat = Statistics: {
Measure: false
}
*/