use crate::dart_isolate_wrapper::*;
use crate::tools::*;
use allo_isolate::*;
use cfg_if::*;
use data_encoding::BASE64URL_NOPAD;
use ffi_support::*;
use lazy_static::*;
use opentelemetry::sdk::*;
use opentelemetry::*;
use opentelemetry_otlp::WithExportConfig;
use parking_lot::Mutex;
use serde::*;
use std::str::FromStr;
use std::collections::BTreeMap;
use std::os::raw::c_char;
use std::sync::Arc;
use tracing::*;
use tracing_subscriber::prelude::*;
use tracing_subscriber::*;
use veilid_core::Encodable as _;
// Globals
lazy_static! {
static ref CORE_INITIALIZED: Mutex<bool> = Mutex::new(false);
static ref VEILID_API: AsyncMutex<Option<veilid_core::VeilidAPI>> = AsyncMutex::new(None);
static ref FILTERS: Mutex<BTreeMap<&'static str, veilid_core::VeilidLayerFilter>> =
Mutex::new(BTreeMap::new());
static ref ROUTING_CONTEXTS: Mutex<BTreeMap<u32, veilid_core::RoutingContext>> =
Mutex::new(BTreeMap::new());
static ref TABLE_DBS: Mutex<BTreeMap<u32, veilid_core::TableDB>> =
Mutex::new(BTreeMap::new());
static ref TABLE_DB_TRANSACTIONS: Mutex<BTreeMap<u32, veilid_core::TableDBTransaction>> =
Mutex::new(BTreeMap::new());
}
async fn get_veilid_api() -> veilid_core::VeilidAPIResult<veilid_core::VeilidAPI> {
let api_lock = VEILID_API.lock().await;
api_lock
.as_ref()
.cloned()
.ok_or(veilid_core::VeilidAPIError::NotInitialized)
}
async fn take_veilid_api() -> veilid_core::VeilidAPIResult<veilid_core::VeilidAPI> {
let mut api_lock = VEILID_API.lock().await;
api_lock
.take()
.ok_or(veilid_core::VeilidAPIError::NotInitialized)
}
/////////////////////////////////////////
// FFI Helpers
// Declare external routine to release ffi strings
define_string_destructor!(free_string);
// Utility types for async API results
type APIResult<T> = veilid_core::VeilidAPIResult<T>;
const APIRESULT_VOID: APIResult<()> = APIResult::Ok(());
// Parse target
async fn parse_target(s: String) -> APIResult<veilid_core::Target> {
// Is this a route id?
if let Ok(rrid) = veilid_core::RouteId::from_str(&s) {
let veilid_api = get_veilid_api().await?;
let routing_table = veilid_api.routing_table()?;
let rss = routing_table.route_spec_store();
// Is this a valid remote route id? (can't target allocated routes)
if rss.is_route_id_remote(&rrid) {
return Ok(veilid_core::Target::PrivateRoute(rrid));
}
}
// Is this a node id?
if let Ok(nid) = veilid_core::TypedKey::from_str(&s) {
return Ok(veilid_core::Target::NodeId(nid));
}
Err(veilid_core::VeilidAPIError::invalid_target())
}
/////////////////////////////////////////
// FFI-specific
#[derive(Debug, Deserialize, Serialize)]
pub struct VeilidFFIConfigLoggingTerminal {
pub enabled: bool,
pub level: veilid_core::VeilidConfigLogLevel,
}
#[derive(Debug, Deserialize, Serialize)]
pub struct VeilidFFIConfigLoggingOtlp {
pub enabled: bool,
pub level: veilid_core::VeilidConfigLogLevel,
pub grpc_endpoint: String,
pub service_name: String,
}
#[derive(Debug, Deserialize, Serialize)]
pub struct VeilidFFIConfigLoggingApi {
pub enabled: bool,
pub level: veilid_core::VeilidConfigLogLevel,
}
#[derive(Debug, Deserialize, Serialize)]
pub struct VeilidFFIConfigLogging {
pub terminal: VeilidFFIConfigLoggingTerminal,
pub otlp: VeilidFFIConfigLoggingOtlp,
pub api: VeilidFFIConfigLoggingApi,
}
#[derive(Debug, Deserialize, Serialize)]
pub struct VeilidFFIConfig {
pub logging: VeilidFFIConfigLogging,
}
#[derive(Debug, Deserialize, Serialize)]
pub struct VeilidFFIRouteBlob {
pub route_id: veilid_core::RouteId,
#[serde(with = "veilid_core::as_human_base64")]
pub blob: Vec<u8>,
}
/////////////////////////////////////////
// Initializer
#[no_mangle]
#[instrument]
pub extern "C" fn initialize_veilid_flutter(dart_post_c_object_ptr: ffi::DartPostCObjectFnType) {
unsafe {
store_dart_post_cobject(dart_post_c_object_ptr);
}
use std::sync::Once;
static INIT_BACKTRACE: Once = Once::new();
INIT_BACKTRACE.call_once(move || {
std::env::set_var("RUST_BACKTRACE", "1");
std::panic::set_hook(Box::new(move |panic_info| {
let (file, line) = if let Some(loc) = panic_info.location() {
(loc.file(), loc.line())
} else {
("<unknown>", 0)
};
error!("### Rust `panic!` hit at file '{}', line {}", file, line);
if let Some(s) = panic_info.payload().downcast_ref::<&str>() {
error!("panic payload: {:?}", s);
} else if let Some(s) = panic_info.payload().downcast_ref::<String>() {
error!("panic payload: {:?}", s);
} else if let Some(a) = panic_info.payload().downcast_ref::<std::fmt::Arguments>() {
error!("panic payload: {:?}", a);
} else {
error!("no panic payload");
}
error!(
" Complete stack trace:\n{:?}\n",
backtrace::Backtrace::new()
);
// And stop the process, no recovery is going to be possible here
error!("aborting!");
std::process::abort();
}));
});
}
//////////////////////////////////////////////////////////////////////////////////
/// C-compatible FFI Functions
#[no_mangle]
#[instrument]
pub extern "C" fn initialize_veilid_core(platform_config: FfiStr) {
// Only do this once, ever
// Until we have Dart native finalizers running on hot-restart, this will cause a crash if run more than once
{
let mut core_init = CORE_INITIALIZED.lock();
if *core_init {
return;
}
*core_init = true;
}
let platform_config = platform_config.into_opt_string();
let platform_config: VeilidFFIConfig = veilid_core::deserialize_opt_json(platform_config)
.expect("failed to deserialize plaform config json");
// Set up subscriber and layers
let subscriber = Registry::default();
let mut layers = Vec::new();
let mut filters = (*FILTERS).lock();
// Terminal logger
if platform_config.logging.terminal.enabled {
let filter =
veilid_core::VeilidLayerFilter::new(platform_config.logging.terminal.level, None);
let layer = fmt::Layer::new()
.compact()
.with_writer(std::io::stdout)
.with_filter(filter.clone());
filters.insert("terminal", filter);
layers.push(layer.boxed());
};
// OpenTelemetry logger
if platform_config.logging.otlp.enabled {
let grpc_endpoint = platform_config.logging.otlp.grpc_endpoint.clone();
cfg_if! {
if #[cfg(feature="rt-async-std")] {
let exporter = opentelemetry_otlp::new_exporter()
.grpcio()
.with_endpoint(grpc_endpoint);
let batch = opentelemetry::runtime::AsyncStd;
} else if #[cfg(feature="rt-tokio")] {
let exporter = opentelemetry_otlp::new_exporter()
.tonic()
.with_endpoint(format!("http://{}", grpc_endpoint));
let batch = opentelemetry::runtime::Tokio;
}
}
let tracer =
opentelemetry_otlp::new_pipeline()
.tracing()
.with_exporter(exporter)
.with_trace_config(opentelemetry::sdk::trace::config().with_resource(
Resource::new(vec![KeyValue::new(
opentelemetry_semantic_conventions::resource::SERVICE_NAME,
format!(
"{}:{}",
platform_config.logging.otlp.service_name,
hostname::get()
.map(|s| s.to_string_lossy().into_owned())
.unwrap_or_else(|_| "unknown".to_owned())),
)]),
))
.install_batch(batch)
.map_err(|e| format!("failed to install OpenTelemetry tracer: {}", e))
.unwrap();
let filter = veilid_core::VeilidLayerFilter::new(platform_config.logging.otlp.level, None);
let layer = tracing_opentelemetry::layer()
.with_tracer(tracer)
.with_filter(filter.clone());
filters.insert("otlp", filter);
layers.push(layer.boxed());
}
// API logger
if platform_config.logging.api.enabled {
let filter = veilid_core::VeilidLayerFilter::new(platform_config.logging.api.level, None);
let layer = veilid_core::ApiTracingLayer::get().with_filter(filter.clone());
filters.insert("api", filter);
layers.push(layer.boxed());
}
let subscriber = subscriber.with(layers);
subscriber
.try_init()
.map_err(|e| format!("failed to initialize logging: {}", e))
.expect("failed to initalize ffi platform");
}
#[no_mangle]
pub extern "C" fn change_log_level(layer: FfiStr, log_level: FfiStr) {
// get layer to change level on
let layer = layer.into_opt_string().unwrap_or("all".to_owned());
let layer = if layer == "all" { "".to_owned() } else { layer };
// get log level to change layer to
let log_level = log_level.into_opt_string();
let log_level: veilid_core::VeilidConfigLogLevel =
veilid_core::deserialize_opt_json(log_level).unwrap();
// change log level on appropriate layer
let filters = (*FILTERS).lock();
if layer.is_empty() {
// Change all layers
for f in filters.values() {
f.set_max_level(log_level);
}
} else {
// Change a specific layer
let f = filters.get(layer.as_str()).unwrap();
f.set_max_level(log_level);
}
}
#[no_mangle]
#[instrument]
pub extern "C" fn startup_veilid_core(port: i64, stream_port: i64, config: FfiStr) {
let config = config.into_opt_string();
let stream = DartIsolateStream::new(stream_port);
DartIsolateWrapper::new(port).spawn_result(async move {
let config_json = match config {
Some(v) => v,
None => {
let err = veilid_core::VeilidAPIError::MissingArgument {
context: "startup_veilid_core".to_owned(),
argument: "config".to_owned(),
};
return APIResult::Err(err);
}
};
let mut api_lock = VEILID_API.lock().await;
if api_lock.is_some() {
return APIResult::Err(veilid_core::VeilidAPIError::AlreadyInitialized);
}
let sink = stream.clone();
let update_callback = Arc::new(move |update: veilid_core::VeilidUpdate| {
let sink = sink.clone();
match update {
veilid_core::VeilidUpdate::Shutdown => {
sink.close();
}
_ => {
sink.item_json(update);
}
}
});
let veilid_api = veilid_core::api_startup_json(update_callback, config_json).await?;
*api_lock = Some(veilid_api);
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn get_veilid_state(port: i64) {
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let core_state = veilid_api.get_state().await?;
APIResult::Ok(core_state)
});
}
#[no_mangle]
pub extern "C" fn attach(port: i64) {
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
veilid_api.attach().await?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn detach(port: i64) {
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
veilid_api.detach().await?;
APIRESULT_VOID
});
}
#[no_mangle]
#[instrument]
pub extern "C" fn shutdown_veilid_core(port: i64) {
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = take_veilid_api().await?;
veilid_api.shutdown().await;
APIRESULT_VOID
});
}
fn add_routing_context(routing_context: veilid_core::RoutingContext) -> u32 {
let mut next_id: u32 = 1;
let mut rc = ROUTING_CONTEXTS.lock();
while rc.contains_key(&next_id) {
next_id += 1;
}
rc.insert(next_id, routing_context);
next_id
}
#[no_mangle]
pub extern "C" fn routing_context(port: i64) {
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let routing_context = veilid_api.routing_context();
let new_id = add_routing_context(routing_context);
APIResult::Ok(new_id)
});
}
#[no_mangle]
pub extern "C" fn release_routing_context(id: u32) -> i32 {
let mut rc = ROUTING_CONTEXTS.lock();
if rc.remove(&id).is_none() {
return 0;
}
return 1;
}
#[no_mangle]
pub extern "C" fn routing_context_with_privacy(id: u32) -> u32 {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return 0;
};
let Ok(routing_context) = routing_context.clone().with_privacy() else {
return 0;
};
let new_id = add_routing_context(routing_context);
new_id
}
#[no_mangle]
pub extern "C" fn routing_context_with_custom_privacy(id: u32, safety_selection: FfiStr) -> u32 {
let safety_selection: veilid_core::SafetySelection =
veilid_core::deserialize_opt_json(safety_selection.into_opt_string()).unwrap();
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return 0;
};
let Ok(routing_context) = routing_context.clone().with_custom_privacy(safety_selection) else {
return 0;
};
let new_id = add_routing_context(routing_context);
new_id
}
#[no_mangle]
pub extern "C" fn routing_context_with_sequencing(id: u32, sequencing: FfiStr) -> u32 {
let sequencing: veilid_core::Sequencing =
veilid_core::deserialize_opt_json(sequencing.into_opt_string()).unwrap();
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return 0;
};
let routing_context = routing_context.clone().with_sequencing(sequencing);
let new_id = add_routing_context(routing_context);
new_id
}
#[no_mangle]
pub extern "C" fn routing_context_app_call(port: i64, id: u32, target: FfiStr, request: FfiStr) {
let target_string: String = target.into_opt_string().unwrap();
let request: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
request.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_app_call", "id", id));
};
routing_context.clone()
};
let target = parse_target(target_string).await?;
let answer = routing_context.app_call(target, request).await?;
let answer = data_encoding::BASE64URL_NOPAD.encode(&answer);
APIResult::Ok(answer)
});
}
#[no_mangle]
pub extern "C" fn routing_context_app_message(port: i64, id: u32, target: FfiStr, message: FfiStr) {
let target_string: String = target.into_opt_string().unwrap();
let message: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
message.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_app_message", "id", id));
};
routing_context.clone()
};
let target = parse_target(target_string).await?;
routing_context.app_message(target, message).await?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn routing_context_create_dht_record(port: i64, id: u32, schema: FfiStr, kind: u32) {
let crypto_kind = if kind == 0 {
None
} else {
Some(veilid_core::FourCC::from(kind))
};
let schema: veilid_core::DHTSchema = veilid_core::deserialize_opt_json(schema.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_create_dht_record", "id", id));
};
routing_context.clone()
};
let dht_record_descriptor = routing_context.create_dht_record(schema, crypto_kind).await?;
APIResult::Ok(dht_record_descriptor)
});
}
#[no_mangle]
pub extern "C" fn routing_context_open_dht_record(port: i64, id: u32, key: FfiStr, writer: FfiStr) {
let key: veilid_core::TypedKey = veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let writer: Option<veilid_core::KeyPair> = writer.into_opt_string().map(|s| veilid_core::deserialize_json(&s).unwrap());
DartIsolateWrapper::new(port).spawn_result_json(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_open_dht_record", "id", id));
};
routing_context.clone()
};
let dht_record_descriptor = routing_context.open_dht_record(key, writer).await?;
APIResult::Ok(dht_record_descriptor)
});
}
#[no_mangle]
pub extern "C" fn routing_context_close_dht_record(port: i64, id: u32, key: FfiStr) {
let key: veilid_core::TypedKey = veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_close_dht_record", "id", id));
};
routing_context.clone()
};
routing_context.close_dht_record(key).await?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn routing_context_delete_dht_record(port: i64, id: u32, key: FfiStr) {
let key: veilid_core::TypedKey = veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_delete_dht_record", "id", id));
};
routing_context.clone()
};
routing_context.delete_dht_record(key).await?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn routing_context_get_dht_value(port: i64, id: u32, key: FfiStr, subkey: u32, force_refresh: bool) {
let key: veilid_core::TypedKey = veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_opt_json(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_get_dht_value", "id", id));
};
routing_context.clone()
};
let res = routing_context.get_dht_value(key, subkey, force_refresh).await?;
APIResult::Ok(res)
});
}
#[no_mangle]
pub extern "C" fn routing_context_set_dht_value(port: i64, id: u32, key: FfiStr, subkey: u32, data: FfiStr) {
let key: veilid_core::TypedKey = veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
data.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result_opt_json(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_set_dht_value", "id", id));
};
routing_context.clone()
};
let res = routing_context.set_dht_value(key, subkey, data).await?;
APIResult::Ok(res)
});
}
#[no_mangle]
pub extern "C" fn routing_context_watch_dht_values(port: i64, id: u32, key: FfiStr, subkeys: FfiStr, expiration: u64, count: u32) {
let key: veilid_core::TypedKey = veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let subkeys: veilid_core::ValueSubkeyRangeSet = veilid_core::deserialize_opt_json(subkeys.into_opt_string()).unwrap();
let expiration = veilid_core::Timestamp::from(expiration);
DartIsolateWrapper::new(port).spawn_result(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_watch_dht_values", "id", id));
};
routing_context.clone()
};
let res = routing_context.watch_dht_values(key, subkeys, expiration, count).await?;
APIResult::Ok(res.as_u64())
});
}
#[no_mangle]
pub extern "C" fn routing_context_cancel_dht_watch(port: i64, id: u32, key: FfiStr, subkeys: FfiStr) {
let key: veilid_core::TypedKey = veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let subkeys: veilid_core::ValueSubkeyRangeSet = veilid_core::deserialize_opt_json(subkeys.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let routing_context = {
let rc = ROUTING_CONTEXTS.lock();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_set_dht_value", "id", id));
};
routing_context.clone()
};
let res = routing_context.cancel_dht_watch(key, subkeys).await?;
APIResult::Ok(res)
});
}
#[no_mangle]
pub extern "C" fn new_private_route(port: i64) {
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let (route_id, blob) = veilid_api.new_private_route().await?;
let route_blob = VeilidFFIRouteBlob { route_id, blob };
APIResult::Ok(route_blob)
});
}
#[no_mangle]
pub extern "C" fn new_custom_private_route(port: i64, stability: FfiStr, sequencing: FfiStr) {
let stability: veilid_core::Stability =
veilid_core::deserialize_opt_json(stability.into_opt_string()).unwrap();
let sequencing: veilid_core::Sequencing =
veilid_core::deserialize_opt_json(sequencing.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let (route_id, blob) = veilid_api
.new_custom_private_route(&veilid_core::VALID_CRYPTO_KINDS, stability, sequencing)
.await?;
let route_blob = VeilidFFIRouteBlob { route_id, blob };
APIResult::Ok(route_blob)
});
}
#[no_mangle]
pub extern "C" fn import_remote_private_route(port: i64, blob: FfiStr) {
let blob: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
veilid_core::deserialize_opt_json::<String>(blob.into_opt_string())
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let route_id = veilid_api.import_remote_private_route(blob)?;
APIResult::Ok(route_id.encode())
});
}
#[no_mangle]
pub extern "C" fn release_private_route(port: i64, route_id: FfiStr) {
let route_id: veilid_core::RouteId =
veilid_core::deserialize_opt_json(route_id.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
veilid_api.release_private_route(route_id)?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn app_call_reply(port: i64, call_id: FfiStr, message: FfiStr) {
let call_id = call_id.into_opt_string().unwrap_or_default();
let message = message.into_opt_string().unwrap_or_default();
DartIsolateWrapper::new(port).spawn_result(async move {
let call_id = match call_id.parse() {
Ok(v) => v,
Err(e) => {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument(e, "call_id", call_id))
}
};
let message = data_encoding::BASE64URL_NOPAD
.decode(message.as_bytes())
.map_err(|e| veilid_core::VeilidAPIError::invalid_argument(e, "message", message))?;
let veilid_api = get_veilid_api().await?;
veilid_api.app_call_reply(call_id, message).await?;
APIRESULT_VOID
});
}
fn add_table_db(table_db: veilid_core::TableDB) -> u32 {
let mut next_id: u32 = 1;
let mut rc = TABLE_DBS.lock();
while rc.contains_key(&next_id) {
next_id += 1;
}
rc.insert(next_id, table_db);
next_id
}
#[no_mangle]
pub extern "C" fn open_table_db(port: i64, name: FfiStr, column_count: u32) {
let name = name.into_opt_string().unwrap_or_default();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let tstore = veilid_api.table_store()?;
let table_db = tstore.open(&name, column_count).await.map_err(veilid_core::VeilidAPIError::generic)?;
let new_id = add_table_db(table_db);
APIResult::Ok(new_id)
});
}
#[no_mangle]
pub extern "C" fn release_table_db(id: u32) -> i32 {
let mut rc = TABLE_DBS.lock();
if rc.remove(&id).is_none() {
return 0;
}
return 1;
}
#[no_mangle]
pub extern "C" fn delete_table_db(port: i64, name: FfiStr) {
let name = name.into_opt_string().unwrap_or_default();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let tstore = veilid_api.table_store()?;
let deleted = tstore.delete(&name).await.map_err(veilid_core::VeilidAPIError::generic)?;
APIResult::Ok(deleted)
});
}
#[no_mangle]
pub extern "C" fn table_db_get_column_count(id: u32) -> u32 {
let table_dbs = TABLE_DBS.lock();
let Some(table_db) = table_dbs.get(&id) else {
return 0;
};
let Ok(cc) = table_db.clone().get_column_count() else {
return 0;
};
return cc;
}
#[no_mangle]
pub extern "C" fn table_db_get_keys(port: i64, id: u32, col: u32) {
DartIsolateWrapper::new(port).spawn_result_json(async move {
let table_db = {
let table_dbs = TABLE_DBS.lock();
let Some(table_db) = table_dbs.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("table_db_get_keys", "id", id));
};
table_db.clone()
};
let keys = table_db.get_keys(col).await?;
let out: Vec<String> = keys.into_iter().map(|k| BASE64URL_NOPAD.encode(&k)).collect();
APIResult::Ok(out)
});
}
fn add_table_db_transaction(tdbt: veilid_core::TableDBTransaction) -> u32 {
let mut next_id: u32 = 1;
let mut tdbts = TABLE_DB_TRANSACTIONS.lock();
while tdbts.contains_key(&next_id) {
next_id += 1;
}
tdbts.insert(next_id, tdbt);
next_id
}
#[no_mangle]
pub extern "C" fn table_db_transact(id: u32) -> u32 {
let table_dbs = TABLE_DBS.lock();
let Some(table_db) = table_dbs.get(&id) else {
return 0;
};
let tdbt = table_db.clone().transact();
let tdbtid = add_table_db_transaction(tdbt);
return tdbtid;
}
#[no_mangle]
pub extern "C" fn release_table_db_transaction(id: u32) -> i32 {
let mut tdbts = TABLE_DB_TRANSACTIONS.lock();
if tdbts.remove(&id).is_none() {
return 0;
}
return 1;
}
#[no_mangle]
pub extern "C" fn table_db_transaction_commit(port: i64, id: u32) {
DartIsolateWrapper::new(port).spawn_result(async move {
let tdbt = {
let tdbts = TABLE_DB_TRANSACTIONS.lock();
let Some(tdbt) = tdbts.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("table_db_transaction_commit", "id", id));
};
tdbt.clone()
};
tdbt.commit().await?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn table_db_transaction_rollback(port: i64, id: u32) {
DartIsolateWrapper::new(port).spawn_result(async move {
let tdbt = {
let tdbts = TABLE_DB_TRANSACTIONS.lock();
let Some(tdbt) = tdbts.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("table_db_transaction_rollback", "id", id));
};
tdbt.clone()
};
tdbt.rollback();
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn table_db_transaction_store(port: i64, id: u32, col: u32, key: FfiStr, value: FfiStr) {
let key: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
key.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let value: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
value.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let tdbt = {
let tdbts = TABLE_DB_TRANSACTIONS.lock();
let Some(tdbt) = tdbts.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("table_db_transaction_store", "id", id));
};
tdbt.clone()
};
tdbt.store(col, &key, &value)?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn table_db_transaction_delete(port: i64, id: u32, col: u32, key: FfiStr) {
let key: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
key.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let tdbt = {
let tdbts = TABLE_DB_TRANSACTIONS.lock();
let Some(tdbt) = tdbts.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("table_db_transaction_delete", "id", id));
};
tdbt.clone()
};
tdbt.delete(col, &key)?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn table_db_store(port: i64, id: u32, col: u32, key: FfiStr, value: FfiStr) {
let key: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
key.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let value: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
value.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let table_db = {
let table_dbs = TABLE_DBS.lock();
let Some(table_db) = table_dbs.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("table_db_store", "id", id));
};
table_db.clone()
};
table_db.store(col, &key, &value).await?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn table_db_load(port: i64, id: u32, col: u32, key: FfiStr) {
let key: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(key.into_opt_string()
.unwrap()
.as_bytes()
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let table_db = {
let table_dbs = TABLE_DBS.lock();
let Some(table_db) = table_dbs.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("table_db_load", "id", id));
};
table_db.clone()
};
let out = table_db.load(col, &key).await?;
let out = out.map(|x| data_encoding::BASE64URL_NOPAD.encode(&x));
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn table_db_delete(port: i64, id: u32, col: u32, key: FfiStr) {
let key: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
key.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let table_db = {
let table_dbs = TABLE_DBS.lock();
let Some(table_db) = table_dbs.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("table_db_delete", "id", id));
};
table_db.clone()
};
let out = table_db.delete(col, &key).await?;
let out = out.map(|x| data_encoding::BASE64URL_NOPAD.encode(&x));
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn valid_crypto_kinds() -> *mut c_char {
veilid_core::serialize_json(veilid_core::VALID_CRYPTO_KINDS.iter().map(|k| (*k).into()).collect::<Vec<u32>>()).into_ffi_value()
}
#[no_mangle]
pub extern "C" fn best_crypto_kind() -> u32 {
veilid_core::best_crypto_kind().into()
}
#[no_mangle]
pub extern "C" fn verify_signatures(port: i64, node_ids: FfiStr, data: FfiStr, signatures: FfiStr) {
let node_ids: Vec<veilid_core::TypedKey> =
veilid_core::deserialize_opt_json(node_ids.into_opt_string()).unwrap();
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
data.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let typed_signatures: Vec<veilid_core::TypedSignature> =
veilid_core::deserialize_opt_json(signatures.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let out = crypto.verify_signatures(&node_ids, &data, &typed_signatures)?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn generate_signatures(port: i64, data: FfiStr, key_pairs: FfiStr) {
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
data.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let key_pairs: Vec<veilid_core::TypedKeyPair> =
veilid_core::deserialize_opt_json(key_pairs.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let out = crypto.generate_signatures(&data, &key_pairs, |k, s| {
veilid_core::TypedSignature::new(k.kind, s)
})?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn generate_key_pair(port: i64, kind: u32) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
DartIsolateWrapper::new(port).spawn_result_json(async move {
let out = veilid_core::Crypto::generate_keypair(kind)?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_cached_dh(port: i64, kind: u32, key: FfiStr, secret: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::PublicKey =
veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let secret: veilid_core::SecretKey =
veilid_core::deserialize_opt_json(secret.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_cached_dh", "kind", kind.to_string()))?;
let out = csv.cached_dh(&key, &secret)?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_compute_dh(port: i64, kind: u32, key: FfiStr, secret: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::PublicKey =
veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let secret: veilid_core::SecretKey =
veilid_core::deserialize_opt_json(secret.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_compute_dh", "kind", kind.to_string()))?;
let out = csv.compute_dh(&key, &secret)?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_random_bytes(port: i64, kind: u32, len: u32) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_random_bytes", "kind", kind.to_string()))?;
let out = csv.random_bytes(len);
let out = data_encoding::BASE64URL_NOPAD.encode(&out);
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_default_salt_length(port: i64, kind: u32) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_default_salt_length", "kind", kind.to_string()))?;
let out = csv.default_salt_length();
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_hash_password(port: i64, kind: u32, password: FfiStr, salt: FfiStr ) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let password: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
password.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let salt: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
salt.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_hash_password", "kind", kind.to_string()))?;
let out = csv.hash_password(&password, &salt)?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_verify_password(port: i64, kind: u32, password: FfiStr, password_hash: FfiStr ) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let password: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
password.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let password_hash = password_hash.into_opt_string().unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_verify_password", "kind", kind.to_string()))?;
let out = csv.verify_password(&password, &password_hash)?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_derive_shared_secret(port: i64, kind: u32, password: FfiStr, salt: FfiStr ) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let password: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
password.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let salt: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
salt.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_derive_shared_secret", "kind", kind.to_string()))?;
let out = csv.derive_shared_secret(&password, &salt)?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_random_nonce(port: i64, kind: u32) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_random_nonce", "kind", kind.to_string()))?;
let out = csv.random_nonce();
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_random_shared_secret(port: i64, kind: u32) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_random_shared_secret", "kind", kind.to_string()))?;
let out = csv.random_shared_secret();
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_generate_key_pair(port: i64, kind: u32) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_generate_key_pair", "kind", kind.to_string()))?;
let out = csv.generate_keypair();
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_generate_hash(port: i64, kind: u32, data: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
data.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_generate_hash", "kind", kind.to_string()))?;
let out = csv.generate_hash(&data);
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_validate_key_pair(port: i64, kind: u32, key: FfiStr, secret: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::PublicKey =
veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let secret: veilid_core::SecretKey =
veilid_core::deserialize_opt_json(secret.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_validate_key_pair", "kind", kind.to_string()))?;
let out = csv.validate_keypair(&key, &secret);
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_validate_hash(port: i64, kind: u32, data: FfiStr, hash: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
data.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let hash: veilid_core::HashDigest =
veilid_core::deserialize_opt_json(hash.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_validate_hash", "kind", kind.to_string()))?;
let out = csv.validate_hash(&data, &hash);
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_distance(port: i64, kind: u32, key1: FfiStr, key2: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key1: veilid_core::CryptoKey =
veilid_core::deserialize_opt_json(key1.into_opt_string()).unwrap();
let key2: veilid_core::CryptoKey =
veilid_core::deserialize_opt_json(key2.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_distance", "kind", kind.to_string()))?;
let out = csv.distance(&key1, &key2);
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_sign(port: i64, kind: u32, key: FfiStr, secret: FfiStr, data: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::CryptoKey =
veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let secret: veilid_core::CryptoKey =
veilid_core::deserialize_opt_json(secret.into_opt_string()).unwrap();
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
data.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_sign", "kind", kind.to_string()))?;
let out = csv.sign(&key, &secret, &data)?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_verify(port: i64, kind: u32, key: FfiStr, data: FfiStr, signature: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::CryptoKey =
veilid_core::deserialize_opt_json(key.into_opt_string()).unwrap();
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
data.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let signature: veilid_core::Signature =
veilid_core::deserialize_opt_json(signature.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_verify", "kind", kind.to_string()))?;
csv.verify(&key, &data, &signature)?;
APIRESULT_VOID
});
}
#[no_mangle]
pub extern "C" fn crypto_aead_overhead(port: i64, kind: u32) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_aead_overhead", "kind", kind.to_string()))?;
let out = csv.aead_overhead();
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_decrypt_aead(port: i64, kind: u32, body: FfiStr, nonce: FfiStr, shared_secret: FfiStr, associated_data: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let body: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
body.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let nonce: veilid_core::Nonce =
veilid_core::deserialize_opt_json(nonce.into_opt_string()).unwrap();
let shared_secret: veilid_core::SharedSecret =
veilid_core::deserialize_opt_json(shared_secret.into_opt_string()).unwrap();
let associated_data: Option<Vec<u8>> = associated_data.into_opt_string().map(|s| data_encoding::BASE64URL_NOPAD.decode(s.as_bytes()).unwrap());
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_decrypt_aead", "kind", kind.to_string()))?;
let out = csv.decrypt_aead(&body, &nonce, &shared_secret, match &associated_data {
Some(ad) => Some(ad.as_slice()),
None => None
})?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_encrypt_aead(port: i64, kind: u32, body: FfiStr, nonce: FfiStr, shared_secret: FfiStr, associated_data: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let body: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
body.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let nonce: veilid_core::Nonce =
veilid_core::deserialize_opt_json(nonce.into_opt_string()).unwrap();
let shared_secret: veilid_core::SharedSecret =
veilid_core::deserialize_opt_json(shared_secret.into_opt_string()).unwrap();
let associated_data: Option<Vec<u8>> = associated_data.into_opt_string().map(|s| data_encoding::BASE64URL_NOPAD.decode(s.as_bytes()).unwrap());
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_encrypt_aead", "kind", kind.to_string()))?;
let out = csv.encrypt_aead(&body, &nonce, &shared_secret, match &associated_data {
Some(ad) => Some(ad.as_slice()),
None => None
})?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn crypto_crypt_no_auth(port: i64, kind: u32, body: FfiStr, nonce: FfiStr, shared_secret: FfiStr) {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let mut body: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(
body.into_opt_string()
.unwrap()
.as_bytes(),
)
.unwrap();
let nonce: veilid_core::Nonce =
veilid_core::deserialize_opt_json(nonce.into_opt_string()).unwrap();
let shared_secret: veilid_core::SharedSecret =
veilid_core::deserialize_opt_json(shared_secret.into_opt_string()).unwrap();
DartIsolateWrapper::new(port).spawn_result_json(async move {
let veilid_api = get_veilid_api().await?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| veilid_core::VeilidAPIError::invalid_argument("crypto_crypt_no_auth", "kind", kind.to_string()))?;
csv.crypt_in_place_no_auth(&mut body, &nonce, &shared_secret);
APIResult::Ok(body)
});
}
#[no_mangle]
pub extern "C" fn now() -> u64 {
veilid_core::get_aligned_timestamp().as_u64()
}
#[no_mangle]
pub extern "C" fn debug(port: i64, command: FfiStr) {
let command = command.into_opt_string().unwrap_or_default();
DartIsolateWrapper::new(port).spawn_result(async move {
let veilid_api = get_veilid_api().await?;
let out = veilid_api.debug(command).await?;
APIResult::Ok(out)
});
}
#[no_mangle]
pub extern "C" fn veilid_version_string() -> *mut c_char {
veilid_core::veilid_version_string().into_ffi_value()
}
#[repr(C)]
pub struct VeilidVersion {
pub major: u32,
pub minor: u32,
pub patch: u32,
}
#[no_mangle]
pub extern "C" fn veilid_version() -> VeilidVersion {
let (major, minor, patch) = veilid_core::veilid_version();
VeilidVersion {
major,
minor,
patch,
}
}