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wasmtime/examples/hello.c
Alex Crichton bd374fd6fc Add Wasmtime-specific C API functions to return errors (#1467) 
* Add Wasmtime-specific C API functions to return errors

This commit adds new `wasmtime_*` symbols to the C API, many of which
mirror the existing counterparts in the `wasm.h` header. These APIs are
enhanced in a number of respects:

* Detailed error information is now available through a
  `wasmtime_error_t`. Currently this only exposes one function which is
  to extract a string version of the error.

* There is a distinction now between traps and errors during
  instantiation and function calling. Traps only happen if wasm traps,
  and errors can happen for things like runtime type errors when
  interacting with the API.

* APIs have improved safety with respect to embedders where the lengths
  of arrays are now taken as explicit parameters rather than assumed
  from other parameters.

* Handle trap updates

* Update C examples

* Fix memory.c compile on MSVC

* Update test assertions

* Refactor C slightly

* Bare-bones .NET update

* Remove bogus nul handling
2020-04-06 15:13:06 -05:00

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/*
Example of instantiating of the WebAssembly module and invoking its exported
function.
You can compile and run this example on Linux with:
cargo build --release -p wasmtime
cc examples/hello.c \
-I crates/c-api/include \
-I crates/c-api/wasm-c-api/include \
target/release/libwasmtime.a \
-lpthread -ldl -lm \
-o hello
./hello
Note that on Windows and macOS the command will be similar, but you'll need
to tweak the `-lpthread` and such annotations as well as the name of the
`libwasmtime.a` file on Windows.
*/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <wasm.h>
#include <wasmtime.h>
static void exit_with_error(const char *message, wasmtime_error_t *error, wasm_trap_t *trap);
static wasm_trap_t* hello_callback(const wasm_val_t args[], wasm_val_t results[]) {
printf("Calling back...\n");
printf("> Hello World!\n");
return NULL;
}
int main() {
int ret = 0;
// Set up our compilation context. Note that we could also work with a
// `wasm_config_t` here to configure what feature are enabled and various
// compilation settings.
printf("Initializing...\n");
wasm_engine_t *engine = wasm_engine_new();
assert(engine != NULL);
// With an engine we can create a *store* which is a long-lived group of wasm
// modules.
wasm_store_t *store = wasm_store_new(engine);
assert(store != NULL);
// Read our input file, which in this case is a wasm text file.
FILE* file = fopen("examples/hello.wat", "r");
assert(file != NULL);
fseek(file, 0L, SEEK_END);
size_t file_size = ftell(file);
fseek(file, 0L, SEEK_SET);
wasm_byte_vec_t wat;
wasm_byte_vec_new_uninitialized(&wat, file_size);
assert(fread(wat.data, file_size, 1, file) == 1);
fclose(file);
// Parse the wat into the binary wasm format
wasm_byte_vec_t wasm;
wasmtime_error_t *error = wasmtime_wat2wasm(&wat, &wasm);
if (error != NULL)
exit_with_error("failed to parse wat", error, NULL);
wasm_byte_vec_delete(&wat);
// Now that we've got our binary webassembly we can compile our module.
printf("Compiling module...\n");
wasm_module_t *module = NULL;
error = wasmtime_module_new(store, &wasm, &module);
wasm_byte_vec_delete(&wasm);
if (error != NULL)
exit_with_error("failed to compile module", error, NULL);
// Next up we need to create the function that the wasm module imports. Here
// we'll be hooking up a thunk function to the `hello_callback` native
// function above.
printf("Creating callback...\n");
wasm_functype_t *hello_ty = wasm_functype_new_0_0();
wasm_func_t *hello = wasm_func_new(store, hello_ty, hello_callback);
// With our callback function we can now instantiate the compiled module,
// giving us an instance we can then execute exports from. Note that
// instantiation can trap due to execution of the `start` function, so we need
// to handle that here too.
printf("Instantiating module...\n");
wasm_trap_t *trap = NULL;
wasm_instance_t *instance = NULL;
const wasm_extern_t *imports[] = { wasm_func_as_extern(hello) };
error = wasmtime_instance_new(module, imports, 1, &instance, &trap);
if (instance == NULL)
exit_with_error("failed to instantiate", error, trap);
// Lookup our `run` export function
printf("Extracting export...\n");
wasm_extern_vec_t externs;
wasm_instance_exports(instance, &externs);
assert(externs.size == 1);
wasm_func_t *run = wasm_extern_as_func(externs.data[0]);
assert(run != NULL);
// And call it!
printf("Calling export...\n");
error = wasmtime_func_call(run, NULL, 0, NULL, 0, &trap);
if (error != NULL || trap != NULL)
exit_with_error("failed to call function", error, trap);
// Clean up after ourselves at this point
printf("All finished!\n");
ret = 0;
wasm_extern_vec_delete(&externs);
wasm_instance_delete(instance);
wasm_module_delete(module);
wasm_store_delete(store);
wasm_engine_delete(engine);
return ret;
}
static void exit_with_error(const char *message, wasmtime_error_t *error, wasm_trap_t *trap) {
fprintf(stderr, "error: %s\n", message);
wasm_byte_vec_t error_message;
if (error != NULL) {
wasmtime_error_message(error, &error_message);
wasmtime_error_delete(error);
} else {
wasm_trap_message(trap, &error_message);
wasm_trap_delete(trap);
}
fprintf(stderr, "%.*s\n", (int) error_message.size, error_message.data);
wasm_byte_vec_delete(&error_message);
exit(1);
}
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