7.5 KiB
libextism API
We generate C headers so that any language with a C-compatible FFI can bind functions to the runtime itself and embed Extism. This is how most of the official SDKs are created.
If you would like to embed Extism into a language that we currently do not support, you should take a look at the header file linked above.
The general set of functions that is necessary to satisfy the runtime requirements is:
extism_plugin_new
Create a new plugin.
wasm: is a WASM module (wat or wasm) or a JSON encoded manifestwasm_size: the length of thewasmparameterfunctions: is an array ofExtismFunction*n_functions: is the number of functionswith_wasi: enables/disables WASIerrmsg: error message during plugin creation, this should be freed withextism_plugin_new_error_free
ExtismPlugin extism_plugin_new(const uint8_t *wasm,
ExtismSize wasm_size,
const ExtismFunction **functions,
ExtismSize n_functions,
bool with_wasi,
char **errmsg);
extism_plugin_new_error_free
Frees the error message returned when creating a plugin
void extism_plugin_new_error_free(char *err);
extism_plugin_free
Remove a plugin from the registry and free associated memory.
void extism_plugin_free(ExtismPlugin *plugin);
extism_plugin_config
Update plugin config values, this will merge with the existing values.
bool extism_plugin_config(ExtismPlugin *plugin,
const uint8_t *json,
ExtismSize json_size);
extism_plugin_function_exists
Returns true if func_name exists.
bool extism_plugin_function_exists(ExtismPlugin *plugin,
const char *func_name);
extism_plugin_call
Call a function.
func_name: is the function to calldata: is the input datadata_len: is the length ofdata
Returns 0 when the call is successful.
int32_t extism_plugin_call(ExtismPlugin *plugin,
const char *func_name,
const uint8_t *data,
ExtismSize data_len);
extism_plugin_call_with_host_context
Call a function with additional host context that can be accessed from inside host functions.
func_name: is the function to calldata: is the input datadata_len: is the length ofdatahost_ctx: an opaque pointer that can be accessed in host functions
Returns 0 when the call is successful.
int32_t extism_plugin_call_with_host_context(ExtismPlugin *plugin,
const char *func_name,
const uint8_t *data,
ExtismSize data_len,
void *host_ctx);
extism_plugin_error
Get the error associated with a Plugin
const char *extism_plugin_error(ExtismPlugin *plugin);
extism_plugin_output_length
Get the length of a plugin's output data.
ExtismSize extism_plugin_output_length(ExtismPlugin *plugin);
extism_plugin_output_data
Get the plugin's output data.
const uint8_t *extism_plugin_output_data(ExtismPlugin *plugin);
extism_plugin_reset
Reset the Extism runtime, this will invalidate all allocated memory.
bool extism_plugin_reset(ExtismPlugin *plugin);
extism_log_file
Set log file and level.
bool extism_log_file(const char *filename, const char *log_level);
extism_log_custom
Enable a custom log handler, this will buffer logs until extism_log_drain
is called Log level should be one of: info, error, trace, debug, warn
bool extism_log_custom(const char *log_level);
extism_log_drain
Calls the provided callback function for each buffered log line.
This is only needed when extism_log_custom is used.
void extism_log_drain(void (*handler)(const char *, uintptr_t));
extism_version
Get the Extism version string.
const char *extism_version(void);
extism_current_plugin_memory
Returns a pointer to the memory of the currently running plugin
uint8_t *extism_current_plugin_memory(ExtismCurrentPlugin *plugin);
extism_current_plugin_host_context
Get access to the host context, passed in using extism_plugin_call_with_host_context
void *extism_current_plugin_host_context(ExtismCurrentPlugin *plugin);
extism_current_plugin_memory_alloc
Allocate a memory block in the currently running plugin
uint64_t extism_current_plugin_memory_alloc(ExtismCurrentPlugin *plugin, ExtismSize n);
extism_current_plugin_memory_length
Get the length of an allocated block
ExtismSize extism_current_plugin_memory_length(ExtismCurrentPlugin *plugin, ExtismSize n);
extism_current_plugin_memory_free
Free an allocated memory block
void extism_current_plugin_memory_free(ExtismCurrentPlugin *plugin, uint64_t ptr);
extism_function_new
Create a new host function
name: function name, this should be valid UTF-8inputs: argument typesn_inputs: number of argument typesoutputs: return typesn_outputs: number of return typesfunc: the function to calluser_data: a pointer that will be passed to the function when it's called this value should live as long as the function existsfree_user_data: a callback to release theuser_datavalue when the resultingExtismFunctionis freed.
Returns a new ExtismFunction or null if the name argument is invalid.
ExtismFunction *extism_function_new(const char *name,
const ExtismValType *inputs,
ExtismSize n_inputs,
const ExtismValType *outputs,
ExtismSize n_outputs,
ExtismFunctionType func,
void *user_data,
void (*free_user_data)(void *_));
extism_function_set_namespace
Set the namespace of an ExtismFunction
void extism_function_set_namespace(ExtismFunction *ptr, const char *namespace_);
extism_function_free
Free an ExtismFunction
void extism_function_free(ExtismFunction *ptr);
extism_plugin_cancel_handle
Get handle for plugin cancellation
const ExtismCancelHandle *extism_plugin_cancel_handle(const ExtismPlugin *plugin);
extism_plugin_cancel
Cancel a running plugin from another thread
bool extism_plugin_cancel(const ExtismCancelHandle *handle);
Type definitions:
ExtismPlugin
typedef struct ExtismPlugin ExtismPlugin;
ExtismSize
typedef uint64_t ExtismSize;
ExtismFunction
ExtismFunction is used to register host functions with plugins
typedef struct ExtismFunction ExtismFunction;
ExtismCurrentPlugin
ExtismCurrentPlugin provides access to the currently executing plugin from within a host function
typedef struct ExtismCurrentPlugin ExtismCurrentPlugin;
ExtismCancelHandle
ExtismCancelHandle can be used to cancel a running plugin from another thread
typedef struct ExtismCancelHandle ExtismCancelHandle;