wasmer/lib/runtime-c-api/tests/test-wasi-import-object.c

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#include <stdio.h>
#include "../wasmer.h"
#include <assert.h>
#include <stdint.h>
#include <string.h>
static bool host_print_called = false;
// Host function that will be imported into the Web Assembly Instance
void host_print(const wasmer_instance_context_t *ctx, int32_t ptr, int32_t len)
{
host_print_called = true;
const wasmer_memory_t *memory = wasmer_instance_context_memory(ctx, 0);
uint32_t mem_len = wasmer_memory_length(memory);
uint8_t *mem_bytes = wasmer_memory_data(memory);
printf("%.*s", len, mem_bytes + ptr);
}
// Use the last_error API to retrieve error messages
void print_wasmer_error()
{
int error_len = wasmer_last_error_length();
printf("Error len: `%d`\n", error_len);
char *error_str = malloc(error_len);
wasmer_last_error_message(error_str, error_len);
printf("Error str: `%s`\n", error_str);
}
// helper function to print byte array to stdout
void print_byte_array(wasmer_byte_array *arr) {
for (int i = 0; i < arr->bytes_len; ++i) {
putchar(arr->bytes[i]);
}
}
int main()
{
// Create a new func to hold the parameter and signature
// of our `host_print` host function
wasmer_value_tag params_sig[] = {WASM_I32, WASM_I32};
wasmer_value_tag returns_sig[] = {};
wasmer_import_func_t *func = wasmer_import_func_new((void (*)(void *)) host_print, params_sig, 2, returns_sig, 0);
// Create module name for our imports
// represented in bytes for UTF-8 compatability
const char *module_name = "env";
wasmer_byte_array module_name_bytes;
module_name_bytes.bytes = (const uint8_t *) module_name;
module_name_bytes.bytes_len = strlen(module_name);
// Define a function import
const char *import_name = "host_print";
wasmer_byte_array import_name_bytes;
import_name_bytes.bytes = (const uint8_t *) import_name;
import_name_bytes.bytes_len = strlen(import_name);
wasmer_import_t func_import;
func_import.module_name = module_name_bytes;
func_import.import_name = import_name_bytes;
func_import.tag = WASM_FUNCTION;
func_import.value.func = func;
// Define a memory import
const char *import_memory_name = "memory";
wasmer_byte_array import_memory_name_bytes;
import_memory_name_bytes.bytes = (const uint8_t *) import_memory_name;
import_memory_name_bytes.bytes_len = strlen(import_memory_name);
wasmer_import_t memory_import;
memory_import.module_name = module_name_bytes;
memory_import.import_name = import_memory_name_bytes;
memory_import.tag = WASM_MEMORY;
wasmer_memory_t *memory = NULL;
wasmer_limits_t descriptor;
descriptor.min = 256;
wasmer_limit_option_t max;
max.has_some = true;
max.some = 256;
descriptor.max = max;
wasmer_result_t memory_result = wasmer_memory_new(&memory, descriptor);
if (memory_result != WASMER_OK)
{
print_wasmer_error();
}
memory_import.value.memory = memory;
// Define a global import
const char *import_global_name = "__memory_base";
wasmer_byte_array import_global_name_bytes;
import_global_name_bytes.bytes = (const uint8_t *) import_global_name;
import_global_name_bytes.bytes_len = strlen(import_global_name);
wasmer_import_t global_import;
global_import.module_name = module_name_bytes;
global_import.import_name = import_global_name_bytes;
global_import.tag = WASM_GLOBAL;
wasmer_value_t val;
val.tag = WASM_I32;
val.value.I32 = 1024;
wasmer_global_t *global = wasmer_global_new(val, false);
global_import.value.global = global;
// Define a table import
const char *import_table_name = "table";
wasmer_byte_array import_table_name_bytes;
import_table_name_bytes.bytes = (const uint8_t *) import_table_name;
import_table_name_bytes.bytes_len = strlen(import_table_name);
wasmer_import_t table_import;
table_import.module_name = module_name_bytes;
table_import.import_name = import_table_name_bytes;
table_import.tag = WASM_TABLE;
wasmer_table_t *table = NULL;
wasmer_limits_t table_descriptor;
table_descriptor.min = 256;
wasmer_limit_option_t table_max;
table_max.has_some = true;
table_max.some = 256;
table_descriptor.max = table_max;
wasmer_result_t table_result = wasmer_table_new(&table, table_descriptor);
if (table_result != WASMER_OK)
{
print_wasmer_error();
}
table_import.value.table = table;
// Create arbitrary arguments for our program
// Set up data for our WASI import object
//
// Environment variables and program arguments are processed by the WASI
// program. They will not have any effects unless the program includes
// logic to process them.
const char *wasi_prog_name = "wasi_test_program";
const char *wasi_first_arg = "--help";
wasmer_byte_array args[] = {
{ .bytes = (const uint8_t *) wasi_prog_name,
.bytes_len = strlen(wasi_prog_name) },
{ .bytes = (const uint8_t *) wasi_first_arg,
.bytes_len = strlen(wasi_first_arg) }
};
int wasi_argc = sizeof(args) / sizeof(args[0]);
// Create arbitrary environment variables for our program;
const char *wasi_color_env = "COLOR=TRUE";
const char *wasi_app_should_log = "APP_SHOULD_LOG=FALSE";
wasmer_byte_array envs[] = {
{ .bytes = (const uint8_t *) wasi_color_env,
.bytes_len = strlen(wasi_color_env) },
{ .bytes = (const uint8_t *) wasi_app_should_log,
.bytes_len = strlen(wasi_app_should_log) }
};
int wasi_env_len = sizeof(args) / sizeof(args[0]);
// Open the host's current directory under a different name.
// WARNING: this gives the WASI module limited access to your host's file system,
// use caution when granting these permissions to untrusted Wasm modules.
const char *wasi_map_dir_alias = "the_host_current_dir";
const char *wasi_map_dir_host_path = ".";
wasmer_wasi_map_dir_entry_t mapped_dirs[] = {
{ .alias =
{ .bytes = (const uint8_t *) wasi_map_dir_alias,
.bytes_len = strlen(wasi_map_dir_alias) },
.host_file_path =
{ .bytes = (const uint8_t *) wasi_map_dir_host_path,
.bytes_len = strlen(wasi_map_dir_host_path) } }
};
int mapped_dir_len = sizeof(mapped_dirs) / sizeof(mapped_dirs[0]);
// Read the Wasm file bytes.
FILE *file = fopen("assets/extended_wasi.wasm", "r");
assert(file);
fseek(file, 0, SEEK_END);
long len = ftell(file);
uint8_t *bytes = malloc(len);
fseek(file, 0, SEEK_SET);
fread(bytes, 1, len, file);
fclose(file);
wasmer_module_t *module = NULL;
// Compile the WebAssembly module
wasmer_result_t compile_result = wasmer_compile(&module, bytes, len);
printf("Compile result: %d\n", compile_result);
if (compile_result != WASMER_OK)
{
print_wasmer_error();
}
assert(compile_result == WASMER_OK);
// Detect the WASI version if any. This step is not mandatory, we
// use it to test the WASI version API.
Version wasi_version = wasmer_wasi_get_version(module);
printf("WASI version: %d\n", wasi_version);
// Create the WASI import object
wasmer_import_object_t *import_object =
wasmer_wasi_generate_import_object_for_version(wasi_version,
args, wasi_argc,
envs, wasi_env_len,
NULL, 0,
mapped_dirs, mapped_dir_len);
// Create our imports
wasmer_import_t imports[] = {func_import, global_import, memory_import, table_import};
int imports_len = sizeof(imports) / sizeof(imports[0]);
// Add our imports to the import object
wasmer_import_object_extend(import_object, imports, imports_len);
// Instantiatoe the module with our import_object
wasmer_instance_t *instance = NULL;
wasmer_result_t instantiate_result = wasmer_module_import_instantiate(&instance, module, import_object);
printf("Instantiate result: %d\n", instantiate_result);
if (instantiate_result != WASMER_OK)
{
print_wasmer_error();
}
assert(instantiate_result == WASMER_OK);
// Call the exported "hello_wasm" function of our instance
wasmer_value_t params[] = {};
wasmer_value_t result_one;
wasmer_value_t results[] = {result_one};
// _start runs before main for WASI programs
wasmer_result_t call_result = wasmer_instance_call(instance, "_start", params, 0, results, 1);
printf("Call result: %d\n", call_result);
assert(call_result == WASMER_OK);
assert(host_print_called);
wasmer_import_object_iter_t *func_iter = wasmer_import_object_iterate_functions(import_object);
puts("Functions in import object:");
while ( !wasmer_import_object_iter_at_end(func_iter) ) {
wasmer_import_t import;
wasmer_result_t result = wasmer_import_object_iter_next(func_iter, &import);
assert(result == WASMER_OK);
print_byte_array(&import.module_name);
putchar(' ');
print_byte_array(&import.import_name);
putchar('\n');
assert(import.tag == WASM_FUNCTION);
assert(import.value.func);
wasmer_import_object_imports_destroy(&import, 1);
}
wasmer_import_object_iter_destroy(func_iter);
// Use *_destroy methods to cleanup as specified in the header documentation
wasmer_import_func_destroy(func);
wasmer_global_destroy(global);
wasmer_memory_destroy(memory);
wasmer_table_destroy(table);
wasmer_instance_destroy(instance);
wasmer_import_object_destroy(import_object);
wasmer_module_destroy(module);
return 0;
}