f8f61dc898
* Implement memory profiler, optimize memory usage, modify code indent * Implement memory.grow and limit heap space base offset to 1G; modify iwasm build type to Release and 64 bit by default * Add a new extension library: connection * Fix bug of reading magic number and version in big endian platform * Re-org platform APIs: move most platform APIs from iwasm to shared-lib * Enhance wasm loader to fix some security issues * Fix issue about illegal load of EXC_RETURN into PC on stm32 board * Updates that let a restricted version of the interpreter run in SGX * Enable native/app address validation and conversion for wasm app * Remove wasm_application_exectue_* APIs from wasm_export.h which makes confused * Refine binary size and fix several minor issues Optimize interpreter LOAD/STORE opcodes to decrease the binary size Fix issues when using iwasm library: _bh_log undefined, bh_memory.h not found Remove unused _stdin/_stdout/_stderr global variables resolve in libc wrapper Add macros of global heap size, stack size, heap size for Zephyr main.c Clear compile warning of wasm_application.c * Add more strict security checks for libc wrapper API's * Use one libc wrapper copy for sgx and other platforms; remove bh_printf macro for other platform header files * Enhance security of libc strcpy/sprintf wrapper function * Fix issue of call native for x86_64/arm/mips, add module inst parameter for native wrapper functions * Remove get_module_inst() and fix issue of call native * Refine wgl lib: remove module_inst parameter from widget functions; move function index check to runtime instantiate * Refine interpreter call native process, refine memory boudary check * Fix issues of invokeNative function of arm/mips/general version * Add a switch to build simple sample without gui support |
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.. | ||
src | ||
wasm-apps | ||
build_no_gui.sh | ||
build.sh | ||
CMakeLists.txt | ||
README.md |
Introduction
This project builds out both host tools running on the host side, and an application running on the device side. The device application consists of iwasm, application library, application manager, timers and sensors support. The device runs on Linux OS and interacts with host tools.
It demonstrates an end to end scenario, the wasm applications life cycle management and communication programming models.
Directory structure
simple/
├── build.sh
├── CMakeLists.txt
├── README.md
├── src
│ ├── ext_lib_export.c
│ ├── iwasm_main.c
│ └── main.c
└── wasm-apps
├── connection.c
├── event_publisher.c
├── event_subscriber.c
├── gui.c
├── request_handler.c
├── request_sender.c
├── sensor.c
└── timer.c
- build.sh
The script to build all binaries. - build_no_gui.sh
The script to build all binaries without gui library support. - CMakeLists.txt
CMake file used to build the simple application. - README.md
The file you are reading currently. - src/ext_lib_export.c
This file is used to export native APIs. See theThe mechanism of exporting Native API to WASM application
section in WAMR README.md for detail. - src/iwam_main.c
This file is the implementation by platform integrator. It implements the interfaces that enable the application manager communicating with the host side. See{WAMR_ROOT}/core/app-mgr/app-mgr-shared/app_manager_export.h
for the definition of the host interface.
/* Interfaces of host communication */
typedef struct host_interface {
host_init_func init;
host_send_fun send;
host_destroy_fun destroy;
} host_interface;
host_interface interface = {
.init = host_init,
.send = host_send,
.destroy = host_destroy
};
This interface is passed to application manager by calling
app_manager_startup(&interface);
The host_init_func
is called when the application manager starts up. And host_send_fun
is called by the application manager to send data to the host.
Note: Currently application manager keeps running and never exit,
host_destroy_fun
has no chance to get executed. So you can leave this API implementation empty.
- src/main.c
The main file. - wasm-apps
Source files of sample wasm applications.
Configure 32 bit or 64 bit build
On 64 bit operating system, there is an option to build 32 bit or 64 bit binaries. In file CMakeLists.txt
, modify the line:
set (BUILD_AS_64BIT_SUPPORT "YES")
where YES
means 64 bit build while NO
means 32 bit build.
Install required SDK and libraries
- 32 bit SDL(simple directmedia layer) (Note: only necessary when
BUILD_AS_64BIT_SUPPORT
is set toNO
) Use apt-get:sudo apt-get install libsdl2-dev:i386
Or download source from www.libsdl.org:
./configure C_FLAGS=-m32 CXX_FLAGS=-m32 LD_FLAGS=-m32
make
sudo make install
- 64 bit SDL(simple directmedia layer) (Note: only necessary when
BUILD_AS_64BIT_SUPPORT
is set toYES
) Use apt-get:sudo apt-get install libsdl2-dev
Or download source from www.libsdl.org:
./configure
make
sudo make install
- Install EMSDK
https://emscripten.org/docs/tools_reference/emsdk.html
Build all binaries
Execute the build.sh script then all binaries including wasm application files would be generated in 'out' directory.
./build.sh
Or execute the build_no_gui.sh script to build all binaries without gui library support.
./build_no_gui.sh
Out directory structure
out/
├── host_tool
├── simple
└── wasm-apps
├── connection.wasm
├── event_publisher.wasm
├── event_subscriber.wasm
├── gui.wasm
├── request_handler.wasm
├── request_sender.wasm
├── sensor.wasm
└── timer.wasm
-
host_tool: A small testing tool to interact with WAMR. See the usage of this tool by executing "./host_tool -h".
./host_tool -h
-
simple: A simple testing tool running on the host side that interact with WAMR. It is used to install, uninstall and query WASM applications in WAMR, and send request or subscribe event, etc. See the usage of this application by executing "./simple -h".
./simple -h
Note: The connection between simple and host_tool is TCP by default and is what this guide uses. The simple application works as a server and the host_tool works as a client. You can also use UART connection. To achieve this you have to uncomment the below line in CMakeLists.txt and rebuild. You have to set up a UART hardware connection between 2 machines one of which runs the host_tool and the other runs the simple application. See the help of host_tool and the simple application to know how to specify UART device parameters.
#add_definitions (-DCONNECTION_UART)
- wasm-apps:
Sample wasm applications that demonstrate all APIs of the WAMR programming model. The source codes are in the wasm-apps directory under the root of this project.
- connection.wasm
This application shows the connection programming model. It connects to a TCP server on 127.0.0.1:7777 and periodically sends message to it. - event_publisher.wasm
This application shows the sub/pub programming model. The pub application publishes the event "alert/overheat" by calling api_publish_event() API. The subscriber could be host_tool or other wasm application. - event_subscriber.wasm
This application shows the sub/pub programming model. The sub application subscribes the "alert/overheat" event by calling api_subscribe_event() API so that it is able to receive the event once generated and published by the pub application. To make the process clear to interpret, the sub application dumps the event when receiving it. - gui.wasm
This application shows the built-in 2D graphical user interface API with which various widgets could be created. - request_handler.wasm
This application shows the request/response programming model. The request handler application registers 2 resources(/url1 and /url2) by calling api_register_resource_handler() API. The request sender could be host_tool or other wasm application. - request_sender.wasm
This application shows the request/response programming model. The sender application sends 2 requests, one is "/app/request_handler/url1" and the other is "url1". The former is an accurate request which explicitly specifies the name of request handler application in the middle of the URL and the later is a general request. - sensor.wasm
This application shows the sensor programming model. It opens a test sensor and configures the sensor event generating interval to 1 second. To make the process clear to interpret, the application dumps the sensor event when receiving it. - timer.wasm
This application shows the timer programming model. It creates a periodic timer that prints the current expiry number in every second.
- connection.wasm
Run the scenario
- Enter the out directory
$ cd ./out/
- Startup the 'simple' process works in TCP server mode and you would see "App Manager started." is printed.
$ ./simple -s
App Manager started.
- Query all installed applications
$ ./host_tool -q
response status 69
{
"num": 0
}
The 69
stands for response status to this query request which means query success and a payload is attached with the response. See {WAMR_ROOT}/core/iwasm/lib/app-libs/base/wasm_app.h
for the definitions of response codes. The payload is printed with JSON format where the num
stands for application installations number and value 0
means currently no application is installed yet.
- Install the request handler wasm application
$ ./host_tool -i request_handler -f ./wasm-apps/request_handler.wasm
response status 65
The 65
stands for response status to this installation request which means success.
Output of simple
Install WASM app success!
sent 16 bytes to host
WASM app 'request_handler' started
Now the request handler application is running and waiting for host or other wasm application to send a request.
- Query again
$ ./host_tool -q
response status 69
{
"num": 1,
"applet1": "request_handler",
"heap1": 49152
}
In the payload, we can see num
is 1 which means 1 application is installed. applet1
stands for the name of the 1st application. heap1
stands for the heap size of the 1st application.
- Send request from host to specific wasm application
$ ./host_tool -r /app/request_handler/url1 -A GET
response status 69
{
"key1": "value1",
"key2": "value2"
}
We can see a response with status 69
and a payload is received.
Output of simple
connection established!
Send request to applet: request_handler
Send request to app request_handler success.
App request_handler got request, url url1, action 1
[resp] ### user resource 1 handler called
sent 150 bytes to host
Wasm app process request success.
- Send a general request from host (not specify target application name)
$ ./host_tool -r /url1 -A GET
response status 69
{
"key1": "value1",
"key2": "value2"
}
Output of simple
connection established!
Send request to app request_handler success.
App request_handler got request, url /url1, action 1
[resp] ### user resource 1 handler called
sent 150 bytes to host
Wasm app process request success.
- Install the event publisher wasm application
$ ./host_tool -i pub -f ./wasm-apps/event_publisher.wasm
response status 65
- Subscribe event by host_tool
$ ./host_tool -s /alert/overheat -a 3000
response status 69
received an event alert/overheat
{
"warning": "temperature is over high"
}
received an event alert/overheat
{
"warning": "temperature is over high"
}
received an event alert/overheat
{
"warning": "temperature is over high"
}
received an event alert/overheat
{
"warning": "temperature is over high"
}
We can see 4 alert/overheat
events are received in 3 seconds which is published by the pub
application.
Output of simple
connection established!
am_register_event adding url:(alert/overheat)
client: -3 registered event (alert/overheat)
sent 16 bytes to host
sent 142 bytes to host
sent 142 bytes to host
sent 142 bytes to host
sent 142 bytes to host
- Install the event subscriber wasm application
$ ./host_tool -i sub -f ./wasm-apps/event_subscriber.wasm
response status 65
The sub
application is installed.
Output of simple
connection established!
Install WASM app success!
WASM app 'sub' started
am_register_event adding url:(alert/overheat)
client: 3 registered event (alert/overheat)
sent 16 bytes to host
Send request to app sub success.
App sub got request, url alert/overheat, action 6
### user over heat event handler called
Attribute container dump:
Tag:
Attribute list:
key: warning, type: string, value: temperature is over high
Wasm app process request success.
We can see the sub
application receives the alert/overheat
event and dumps it out.
At device side, the event is represented by an attribute container which contains key-value pairs like below:
Attribute container dump:
Tag:
Attribute list:
key: warning, type: string, value: temperature is over high
warning
is the key's name. string
means this is a string value and temperature is over high
is the value.
- Uninstall the wasm application
$ ./host_tool -u request_handler
response status 66
$ ./host_tool -u pub
response status 66
$ ./host_tool -u sub
response status 66
- Query again
$ ./host_tool -q
response status 69
{
"num": 0
}
Note: Here we only installed part of the sample WASM applications. You can try others by yourself.
Note: You have to manually kill the simple process by Ctrl+C after use.