wasm work

This commit is contained in:
John Smith 2023-05-15 21:20:54 -04:00
parent cbdbd34af8
commit 46e67d7b0c
10 changed files with 1016 additions and 248 deletions

3
Cargo.lock generated
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@ -4254,8 +4254,7 @@ dependencies = [
[[package]]
name = "range-set-blaze"
version = "0.1.4"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "e139f0c5edf89edb65753e67eaf8e6031de21ea59f84cb63e0cfb36aaf80e6d0"
source = "git+https://github.com/crioux/range-set-blaze.git#102c239382a8c79414dcf1257923ac2fe4772342"
dependencies = [
"gen_ops",
"itertools",

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@ -53,7 +53,7 @@ impl TableViewItem<PeerTableColumn> for PeerTableData {
PeerTableColumn::NodeId => self
.node_ids
.first()
.cloned()
.map(|n| n.to_string())
.unwrap_or_else(|| "???".to_owned()),
PeerTableColumn::Address => self.peer_address.clone(),
PeerTableColumn::LatencyAvg => format!(

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@ -69,7 +69,7 @@ keyvaluedb = { path = "../external/keyvaluedb/keyvaluedb" }
rkyv = { version = "^0", default_features = false, features = ["std", "alloc", "strict", "size_32", "validation"] }
data-encoding = { version = "^2" }
weak-table = "0.3.2"
range-set-blaze = "0.1.4"
range-set-blaze = { git = "https://github.com/crioux/range-set-blaze.git" } # "0.1.4" xxx replace with git repo
# Dependencies for native builds only
# Linux, Windows, Mac, iOS, Android

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@ -136,7 +136,7 @@ impl ProtectedStore {
pub async fn save_user_secret_rkyv<K, T>(&self, key: K, value: &T) -> EyreResult<bool>
where
K: AsRef<str> + fmt::Debug,
T: RkyvSerialize<rkyv::ser::serializers::AllocSerializer<1024>>,
T: RkyvSerialize<DefaultVeilidRkyvSerializer>,
{
let v = to_rkyv(value)?;
self.save_user_secret(key, &v).await
@ -159,8 +159,7 @@ impl ProtectedStore {
T: RkyvArchive,
<T as RkyvArchive>::Archived:
for<'t> CheckBytes<rkyv::validation::validators::DefaultValidator<'t>>,
<T as RkyvArchive>::Archived:
RkyvDeserialize<T, rkyv::de::deserializers::SharedDeserializeMap>,
<T as RkyvArchive>::Archived: RkyvDeserialize<T, VeilidSharedDeserializeMap>,
{
let out = self.load_user_secret(key).await?;
let b = match out {

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@ -7,6 +7,119 @@ import 'package:change_case/change_case.dart';
import 'veilid_encoding.dart';
import 'veilid.dart';
//////////////////////////////////////////////////////////
// FFI Platform-specific config
class VeilidFFIConfigLoggingTerminal {
bool enabled;
VeilidConfigLogLevel level;
VeilidFFIConfigLoggingTerminal({
required this.enabled,
required this.level,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
};
}
VeilidFFIConfigLoggingTerminal.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']);
}
class VeilidFFIConfigLoggingOtlp {
bool enabled;
VeilidConfigLogLevel level;
String grpcEndpoint;
String serviceName;
VeilidFFIConfigLoggingOtlp({
required this.enabled,
required this.level,
required this.grpcEndpoint,
required this.serviceName,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
'grpc_endpoint': grpcEndpoint,
'service_name': serviceName,
};
}
VeilidFFIConfigLoggingOtlp.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']),
grpcEndpoint = json['grpc_endpoint'],
serviceName = json['service_name'];
}
class VeilidFFIConfigLoggingApi {
bool enabled;
VeilidConfigLogLevel level;
VeilidFFIConfigLoggingApi({
required this.enabled,
required this.level,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
};
}
VeilidFFIConfigLoggingApi.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']);
}
class VeilidFFIConfigLogging {
VeilidFFIConfigLoggingTerminal terminal;
VeilidFFIConfigLoggingOtlp otlp;
VeilidFFIConfigLoggingApi api;
VeilidFFIConfigLogging(
{required this.terminal, required this.otlp, required this.api});
Map<String, dynamic> toJson() {
return {
'terminal': terminal.toJson(),
'otlp': otlp.toJson(),
'api': api.toJson(),
};
}
VeilidFFIConfigLogging.fromJson(dynamic json)
: terminal = VeilidFFIConfigLoggingTerminal.fromJson(json['terminal']),
otlp = VeilidFFIConfigLoggingOtlp.fromJson(json['otlp']),
api = VeilidFFIConfigLoggingApi.fromJson(json['api']);
}
class VeilidFFIConfig {
VeilidFFIConfigLogging logging;
VeilidFFIConfig({
required this.logging,
});
Map<String, dynamic> toJson() {
return {
'logging': logging.toJson(),
};
}
VeilidFFIConfig.fromJson(Map<String, dynamic> json)
: logging = VeilidFFIConfigLogging.fromJson(json['logging']);
}
//////////////////////////////////////
/// VeilidConfigLogLevel
@ -29,6 +142,95 @@ VeilidConfigLogLevel veilidConfigLogLevelFromJson(String j) {
return VeilidConfigLogLevel.values.byName(j.toCamelCase());
}
//////////////////////////////////////////////////////////
// WASM Platform-specific config
class VeilidWASMConfigLoggingPerformance {
bool enabled;
VeilidConfigLogLevel level;
bool logsInTimings;
bool logsInConsole;
VeilidWASMConfigLoggingPerformance({
required this.enabled,
required this.level,
required this.logsInTimings,
required this.logsInConsole,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
'logs_in_timings': logsInTimings,
'logs_in_console': logsInConsole,
};
}
VeilidWASMConfigLoggingPerformance.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']),
logsInTimings = json['logs_in_timings'],
logsInConsole = json['logs_in_console'];
}
class VeilidWASMConfigLoggingApi {
bool enabled;
VeilidConfigLogLevel level;
VeilidWASMConfigLoggingApi({
required this.enabled,
required this.level,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
};
}
VeilidWASMConfigLoggingApi.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']);
}
class VeilidWASMConfigLogging {
VeilidWASMConfigLoggingPerformance performance;
VeilidWASMConfigLoggingApi api;
VeilidWASMConfigLogging({required this.performance, required this.api});
Map<String, dynamic> toJson() {
return {
'performance': performance.toJson(),
'api': api.toJson(),
};
}
VeilidWASMConfigLogging.fromJson(dynamic json)
: performance =
VeilidWASMConfigLoggingPerformance.fromJson(json['performance']),
api = VeilidWASMConfigLoggingApi.fromJson(json['api']);
}
class VeilidWASMConfig {
VeilidWASMConfigLogging logging;
VeilidWASMConfig({
required this.logging,
});
Map<String, dynamic> toJson() {
return {
'logging': logging.toJson(),
};
}
VeilidWASMConfig.fromJson(dynamic json)
: logging = VeilidWASMConfigLogging.fromJson(json['logging']);
}
//////////////////////////////////////
/// VeilidConfig

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@ -145,10 +145,10 @@ abstract class VeilidCryptoSystem {
Future<SharedSecret> randomSharedSecret();
Future<KeyPair> generateKeyPair();
Future<HashDigest> generateHash(Uint8List data);
Future<HashDigest> generateHashReader(Stream<List<int>> reader);
//Future<HashDigest> generateHashReader(Stream<List<int>> reader);
Future<bool> validateKeyPair(PublicKey key, SecretKey secret);
Future<bool> validateHash(Uint8List data, HashDigest hash);
Future<bool> validateHashReader(Stream<List<int>> reader, HashDigest hash);
//Future<bool> validateHashReader(Stream<List<int>> reader, HashDigest hash);
Future<CryptoKeyDistance> distance(CryptoKey key1, CryptoKey key2);
Future<Signature> sign(PublicKey key, SecretKey secret, Uint8List data);
Future<void> verify(PublicKey key, Uint8List data, Signature signature);

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@ -10,119 +10,6 @@ import 'package:ffi/ffi.dart';
import 'veilid.dart';
import 'veilid_encoding.dart';
//////////////////////////////////////////////////////////
// FFI Platform-specific config
class VeilidFFIConfigLoggingTerminal {
bool enabled;
VeilidConfigLogLevel level;
VeilidFFIConfigLoggingTerminal({
required this.enabled,
required this.level,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
};
}
VeilidFFIConfigLoggingTerminal.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']);
}
class VeilidFFIConfigLoggingOtlp {
bool enabled;
VeilidConfigLogLevel level;
String grpcEndpoint;
String serviceName;
VeilidFFIConfigLoggingOtlp({
required this.enabled,
required this.level,
required this.grpcEndpoint,
required this.serviceName,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
'grpc_endpoint': grpcEndpoint,
'service_name': serviceName,
};
}
VeilidFFIConfigLoggingOtlp.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']),
grpcEndpoint = json['grpc_endpoint'],
serviceName = json['service_name'];
}
class VeilidFFIConfigLoggingApi {
bool enabled;
VeilidConfigLogLevel level;
VeilidFFIConfigLoggingApi({
required this.enabled,
required this.level,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
};
}
VeilidFFIConfigLoggingApi.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']);
}
class VeilidFFIConfigLogging {
VeilidFFIConfigLoggingTerminal terminal;
VeilidFFIConfigLoggingOtlp otlp;
VeilidFFIConfigLoggingApi api;
VeilidFFIConfigLogging(
{required this.terminal, required this.otlp, required this.api});
Map<String, dynamic> toJson() {
return {
'terminal': terminal.toJson(),
'otlp': otlp.toJson(),
'api': api.toJson(),
};
}
VeilidFFIConfigLogging.fromJson(dynamic json)
: terminal = VeilidFFIConfigLoggingTerminal.fromJson(json['terminal']),
otlp = VeilidFFIConfigLoggingOtlp.fromJson(json['otlp']),
api = VeilidFFIConfigLoggingApi.fromJson(json['api']);
}
class VeilidFFIConfig {
VeilidFFIConfigLogging logging;
VeilidFFIConfig({
required this.logging,
});
Map<String, dynamic> toJson() {
return {
'logging': logging.toJson(),
};
}
VeilidFFIConfig.fromJson(Map<String, dynamic> json)
: logging = VeilidFFIConfigLogging.fromJson(json['logging']);
}
//////////////////////////////////////////////////////////
// Load the veilid_flutter library once
@ -961,8 +848,9 @@ class VeilidTableDBFFI extends VeilidTableDB {
// FFI implementation of VeilidCryptoSystem
class VeilidCryptoSystemFFI implements VeilidCryptoSystem {
final CryptoKind _kind;
VeilidFFI _ffi;
VeilidCryptoSystemFFI._(this._kind);
VeilidCryptoSystemFFI._(this._ffi, this._kind);
@override
CryptoKind kind() {
@ -970,42 +858,183 @@ class VeilidCryptoSystemFFI implements VeilidCryptoSystem {
}
@override
Future<SharedSecret> cachedDH(PublicKey key, SecretKey secret) {}
Future<SharedSecret> cachedDH(PublicKey key, SecretKey secret) {
final nativeKey = jsonEncode(key).toNativeUtf8();
final nativeSecret = jsonEncode(secret).toNativeUtf8();
final recvPort = ReceivePort("crypto_cached_dh");
final sendPort = recvPort.sendPort;
_ffi._cryptoCachedDH(sendPort.nativePort, _kind, nativeKey, nativeSecret);
return processFutureJson(SharedSecret.fromJson, recvPort.first);
}
@override
Future<SharedSecret> computeDH(PublicKey key, SecretKey secret) {}
Future<SharedSecret> computeDH(PublicKey key, SecretKey secret) {
final nativeKey = jsonEncode(key).toNativeUtf8();
final nativeSecret = jsonEncode(secret).toNativeUtf8();
final recvPort = ReceivePort("crypto_compute_dh");
final sendPort = recvPort.sendPort;
_ffi._cryptoComputeDH(sendPort.nativePort, _kind, nativeKey, nativeSecret);
return processFutureJson(SharedSecret.fromJson, recvPort.first);
}
@override
Future<Nonce> randomNonce() {}
Future<Nonce> randomNonce() {
final recvPort = ReceivePort("crypto_random_nonce");
final sendPort = recvPort.sendPort;
_ffi._cryptoRandomNonce(sendPort.nativePort, _kind);
return processFutureJson(Nonce.fromJson, recvPort.first);
}
@override
Future<SharedSecret> randomSharedSecret() {}
Future<SharedSecret> randomSharedSecret() {
final recvPort = ReceivePort("crypto_random_shared_secret");
final sendPort = recvPort.sendPort;
_ffi._cryptoRandomSharedSecret(sendPort.nativePort, _kind);
return processFutureJson(SharedSecret.fromJson, recvPort.first);
}
@override
Future<KeyPair> generateKeyPair() {}
Future<KeyPair> generateKeyPair() {
final recvPort = ReceivePort("crypto_generate_key_pair");
final sendPort = recvPort.sendPort;
_ffi._cryptoGenerateKeyPair(sendPort.nativePort, _kind);
return processFutureJson(KeyPair.fromJson, recvPort.first);
}
@override
Future<HashDigest> generateHash(Uint8List data) {}
Future<HashDigest> generateHash(Uint8List data) {
final nativeEncodedData = base64UrlNoPadEncode(data).toNativeUtf8();
final recvPort = ReceivePort("crypto_generate_hash");
final sendPort = recvPort.sendPort;
_ffi._cryptoGenerateHash(sendPort.nativePort, _kind, nativeEncodedData);
return processFutureJson(HashDigest.fromJson, recvPort.first);
}
@override
Future<HashDigest> generateHashReader(Stream<List<int>> reader) {}
Future<bool> validateKeyPair(PublicKey key, SecretKey secret) {
final nativeKey = jsonEncode(key).toNativeUtf8();
final nativeSecret = jsonEncode(secret).toNativeUtf8();
final recvPort = ReceivePort("crypto_validate_key_pair");
final sendPort = recvPort.sendPort;
_ffi._cryptoValidateKeyPair(
sendPort.nativePort, _kind, nativeKey, nativeSecret);
return processFuturePlain(recvPort.first);
}
@override
Future<bool> validateKeyPair(PublicKey key, SecretKey secret) {}
Future<bool> validateHash(Uint8List data, HashDigest hash) {
final nativeEncodedData = base64UrlNoPadEncode(data).toNativeUtf8();
final nativeHash = jsonEncode(hash).toNativeUtf8();
final recvPort = ReceivePort("crypto_validate_hash");
final sendPort = recvPort.sendPort;
_ffi._cryptoValidateHash(
sendPort.nativePort, _kind, nativeEncodedData, nativeHash);
return processFuturePlain(recvPort.first);
}
@override
Future<bool> validateHash(Uint8List data, HashDigest hash) {}
Future<CryptoKeyDistance> distance(CryptoKey key1, CryptoKey key2) {
final nativeKey1 = jsonEncode(key1).toNativeUtf8();
final nativeKey2 = jsonEncode(key2).toNativeUtf8();
final recvPort = ReceivePort("crypto_distance");
final sendPort = recvPort.sendPort;
_ffi._cryptoDistance(sendPort.nativePort, _kind, nativeKey1, nativeKey2);
return processFutureJson(CryptoKeyDistance.fromJson, recvPort.first);
}
@override
Future<bool> validateHashReader(Stream<List<int>> reader, HashDigest hash) {}
Future<Signature> sign(PublicKey key, SecretKey secret, Uint8List data) {
final nativeKey = jsonEncode(key).toNativeUtf8();
final nativeSecret = jsonEncode(secret).toNativeUtf8();
final nativeEncodedData = base64UrlNoPadEncode(data).toNativeUtf8();
final recvPort = ReceivePort("crypto_sign");
final sendPort = recvPort.sendPort;
_ffi._cryptoSign(
sendPort.nativePort, _kind, nativeKey, nativeSecret, nativeEncodedData);
return processFutureJson(Signature.fromJson, recvPort.first);
}
@override
Future<CryptoKeyDistance> distance(CryptoKey key1, CryptoKey key2) {}
Future<void> verify(PublicKey key, Uint8List data, Signature signature) {
final nativeKey = jsonEncode(key).toNativeUtf8();
final nativeEncodedData = base64UrlNoPadEncode(data).toNativeUtf8();
final nativeSignature = jsonEncode(signature).toNativeUtf8();
final recvPort = ReceivePort("crypto_sign");
final sendPort = recvPort.sendPort;
_ffi._cryptoSign(sendPort.nativePort, _kind, nativeKey, nativeEncodedData,
nativeSignature);
return processFutureVoid(recvPort.first);
}
@override
Future<Signature> sign(PublicKey key, SecretKey secret, Uint8List data) {}
@override
Future<void> verify(PublicKey key, Uint8List data, Signature signature) {}
@override
Future<int> aeadOverhead() {}
Future<int> aeadOverhead() {
final recvPort = ReceivePort("crypto_aead_overhead");
final sendPort = recvPort.sendPort;
_ffi._cryptoAeadOverhead(
sendPort.nativePort,
_kind,
);
return processFuturePlain(recvPort.first);
}
@override
Future<Uint8List> decryptAead(Uint8List body, Nonce nonce,
SharedSecret sharedSecret, Uint8List? associatedData) {}
SharedSecret sharedSecret, Uint8List? associatedData) async {
final nativeEncodedBody = base64UrlNoPadEncode(body).toNativeUtf8();
final nativeNonce = jsonEncode(nonce).toNativeUtf8();
final nativeSharedSecret = jsonEncode(sharedSecret).toNativeUtf8();
final nativeSignature = (associatedData != null)
? jsonEncode(associatedData).toNativeUtf8()
: nullptr;
final recvPort = ReceivePort("crypto_decrypt_aead");
final sendPort = recvPort.sendPort;
_ffi._cryptoDecryptAead(sendPort.nativePort, _kind, nativeEncodedBody,
nativeNonce, nativeSharedSecret, nativeSignature);
final out = await processFuturePlain(recvPort.first);
return base64UrlNoPadDecode(out);
}
@override
Future<Uint8List> encryptAead(Uint8List body, Nonce nonce,
SharedSecret sharedSecret, Uint8List? associatedData) {}
SharedSecret sharedSecret, Uint8List? associatedData) async {
final nativeEncodedBody = base64UrlNoPadEncode(body).toNativeUtf8();
final nativeNonce = jsonEncode(nonce).toNativeUtf8();
final nativeSharedSecret = jsonEncode(sharedSecret).toNativeUtf8();
final nativeSignature = (associatedData != null)
? jsonEncode(associatedData).toNativeUtf8()
: nullptr;
final recvPort = ReceivePort("crypto_encrypt_aead");
final sendPort = recvPort.sendPort;
_ffi._cryptoEncryptAead(sendPort.nativePort, _kind, nativeEncodedBody,
nativeNonce, nativeSharedSecret, nativeSignature);
final out = await processFuturePlain(recvPort.first);
return base64UrlNoPadDecode(out);
}
@override
Future<Uint8List> cryptNoAuth(
Uint8List body, Nonce nonce, SharedSecret sharedSecret) {}
Uint8List body, Nonce nonce, SharedSecret sharedSecret) async {
final nativeEncodedBody = base64UrlNoPadEncode(body).toNativeUtf8();
final nativeNonce = jsonEncode(nonce).toNativeUtf8();
final nativeSharedSecret = jsonEncode(sharedSecret).toNativeUtf8();
final recvPort = ReceivePort("crypto_crypt_no_auth");
final sendPort = recvPort.sendPort;
_ffi._cryptoCryptNoAuth(sendPort.nativePort, _kind, nativeEncodedBody,
nativeNonce, nativeSharedSecret);
final out = await processFuturePlain(recvPort.first);
return base64UrlNoPadDecode(out);
}
}
// FFI implementation of high level Veilid API
@ -1363,16 +1392,15 @@ class VeilidFFI implements Veilid {
@override
Future<RouteBlob> newCustomPrivateRoute(
Stability stability, Sequencing sequencing) async {
Stability stability, Sequencing sequencing) {
final recvPort = ReceivePort("new_custom_private_route");
final sendPort = recvPort.sendPort;
_newCustomPrivateRoute(
sendPort.nativePort,
jsonEncode(stability).toNativeUtf8(),
jsonEncode(sequencing).toNativeUtf8());
final routeBlob =
await processFutureJson(RouteBlob.fromJson, recvPort.first);
return routeBlob;
return processFutureJson(RouteBlob.fromJson, recvPort.first);
}
@override
@ -1436,12 +1464,12 @@ class VeilidFFI implements Veilid {
if (!validCryptoKinds().contains(kind)) {
throw VeilidAPIExceptionGeneric("unsupported cryptosystem");
}
return VeilidCryptoSystemFFI._(kind);
return VeilidCryptoSystemFFI._(this, kind);
}
@override
Future<VeilidCryptoSystem> bestCryptoSystem() async {
return VeilidCryptoSystemFFI._(_bestCryptoKind());
return VeilidCryptoSystemFFI._(this, _bestCryptoKind());
}
@override
@ -1451,19 +1479,41 @@ class VeilidFFI implements Veilid {
final nativeData = base64UrlNoPadEncode(data).toNativeUtf8();
final nativeSignatures = jsonEncode(signatures).toNativeUtf8();
final recvPort = ReceivePort("app_call_reply");
final recvPort = ReceivePort("verify_signatures");
final sendPort = recvPort.sendPort;
_verifySignatures(
sendPort.nativePort, nativeNodeIds, nativeData, nativeSignatures);
return processFutureJson(
jsonListConstructor<TypedKey>(TypedKey.fromJson), recvPort.first);
}
xxx
@override
Future<List<TypedSignature>> generateSignatures(
Uint8List data, List<TypedKeyPair> keyPairs) {}
Uint8List data, List<TypedKeyPair> keyPairs) {
final nativeData = base64UrlNoPadEncode(data).toNativeUtf8();
final nativeKeyPairs = jsonEncode(keyPairs).toNativeUtf8();
final recvPort = ReceivePort("generate_signatures");
final sendPort = recvPort.sendPort;
_generateSignatures(sendPort.nativePort, nativeData, nativeKeyPairs);
return processFutureJson(
jsonListConstructor<TypedSignature>(TypedSignature.fromJson),
recvPort.first);
}
@override
Future<TypedKeyPair> generateKeyPair(CryptoKind kind) {}
Timestamp now() {
final ts = _now();
return Timestamp(value: BigInt.from(ts));
}
@override
Future<TypedKeyPair> generateKeyPair(CryptoKind kind) {
final recvPort = ReceivePort("generate_key_pair");
final sendPort = recvPort.sendPort;
_generateKeyPair(sendPort.nativePort, kind);
return processFutureJson(TypedKeyPair.fromJson, recvPort.first);
}
@override
Future<String> debug(String command) async {

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@ -9,95 +9,6 @@ import 'dart:typed_data';
import 'veilid_encoding.dart';
//////////////////////////////////////////////////////////
// WASM Platform-specific config
class VeilidWASMConfigLoggingPerformance {
bool enabled;
VeilidConfigLogLevel level;
bool logsInTimings;
bool logsInConsole;
VeilidWASMConfigLoggingPerformance({
required this.enabled,
required this.level,
required this.logsInTimings,
required this.logsInConsole,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
'logs_in_timings': logsInTimings,
'logs_in_console': logsInConsole,
};
}
VeilidWASMConfigLoggingPerformance.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']),
logsInTimings = json['logs_in_timings'],
logsInConsole = json['logs_in_console'];
}
class VeilidWASMConfigLoggingApi {
bool enabled;
VeilidConfigLogLevel level;
VeilidWASMConfigLoggingApi({
required this.enabled,
required this.level,
});
Map<String, dynamic> toJson() {
return {
'enabled': enabled,
'level': level.toJson(),
};
}
VeilidWASMConfigLoggingApi.fromJson(dynamic json)
: enabled = json['enabled'],
level = veilidConfigLogLevelFromJson(json['level']);
}
class VeilidWASMConfigLogging {
VeilidWASMConfigLoggingPerformance performance;
VeilidWASMConfigLoggingApi api;
VeilidWASMConfigLogging({required this.performance, required this.api});
Map<String, dynamic> toJson() {
return {
'performance': performance.toJson(),
'api': api.toJson(),
};
}
VeilidWASMConfigLogging.fromJson(dynamic json)
: performance =
VeilidWASMConfigLoggingPerformance.fromJson(json['performance']),
api = VeilidWASMConfigLoggingApi.fromJson(json['api']);
}
class VeilidWASMConfig {
VeilidWASMConfigLogging logging;
VeilidWASMConfig({
required this.logging,
});
Map<String, dynamic> toJson() {
return {
'logging': logging.toJson(),
};
}
VeilidWASMConfig.fromJson(dynamic json)
: logging = VeilidWASMConfigLogging.fromJson(json['logging']);
}
//////////////////////////////////////////////////////////
Veilid getVeilid() => VeilidJS();

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@ -615,7 +615,7 @@ pub extern "C" fn routing_context_watch_dht_values(port: i64, id: u32, key: FfiS
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));
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_watch_dht_values", "id", id));
};
routing_context.clone()
};

View File

@ -375,9 +375,6 @@ pub fn routing_context_app_call(id: u32, target: String, request: String) -> Pro
.decode(request.as_bytes())
.unwrap();
wrap_api_future_plain(async move {
let veilid_api = get_veilid_api()?;
let routing_table = veilid_api.routing_table()?;
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
let Some(routing_context) = rc.get(&id) else {
@ -399,9 +396,6 @@ pub fn routing_context_app_message(id: u32, target: String, message: String) ->
.decode(message.as_bytes())
.unwrap();
wrap_api_future_void(async move {
let veilid_api = get_veilid_api()?;
let routing_table = veilid_api.routing_table()?;
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
let Some(routing_context) = rc.get(&id) else {
@ -416,6 +410,167 @@ pub fn routing_context_app_message(id: u32, target: String, message: String) ->
})
}
#[wasm_bindgen()]
pub fn routing_context_create_dht_record(id: u32, kind: u32, schema: String) -> Promise {
let crypto_kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let schema: veilid_core::DHTSchema = veilid_core::deserialize_json(&schema).unwrap();
wrap_api_future_json(async move {
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
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(crypto_kind, schema)
.await?;
APIResult::Ok(dht_record_descriptor)
})
}
#[wasm_bindgen()]
pub fn routing_context_open_dht_record(id: u32, key: String, writer: Option<String>) -> Promise {
let key: veilid_core::TypedKey = veilid_core::deserialize_json(&key).unwrap();
let writer: Option<veilid_core::KeyPair> =
writer.map(|s| veilid_core::deserialize_json(&s).unwrap());
wrap_api_future_json(async move {
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
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)
})
}
#[wasm_bindgen()]
pub fn routing_context_close_dht_record(id: u32, key: String) -> Promise {
let key: veilid_core::TypedKey = veilid_core::deserialize_json(&key).unwrap();
wrap_api_future_void(async move {
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
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_UNDEFINED
})
}
#[wasm_bindgen()]
pub fn routing_context_delete_dht_record(id: u32, key: String) -> Promise {
let key: veilid_core::TypedKey = veilid_core::deserialize_json(&key).unwrap();
wrap_api_future_void(async move {
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
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_UNDEFINED
})
}
#[wasm_bindgen()]
pub fn routing_context_get_dht_value(
id: u32,
key: String,
subkey: u32,
force_refresh: bool,
) -> Promise {
let key: veilid_core::TypedKey = veilid_core::deserialize_json(&key).unwrap();
wrap_api_future_json(async move {
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
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)
})
}
#[wasm_bindgen()]
pub fn routing_context_set_dht_value(id: u32, key: String, subkey: u32, data: String) -> Promise {
let key: veilid_core::TypedKey = veilid_core::deserialize_json(&key).unwrap();
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(&data.as_bytes())
.unwrap();
wrap_api_future_json(async move {
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
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)
})
}
#[wasm_bindgen()]
pub fn routing_context_watch_dht_values(
id: u32,
key: String,
subkeys: String,
expiration: String,
count: u32,
) -> Promise {
let key: veilid_core::TypedKey = veilid_core::deserialize_json(&key).unwrap();
let subkeys: veilid_core::ValueSubkeyRangeSet =
veilid_core::deserialize_json(&subkeys).unwrap();
let expiration = veilid_core::Timestamp::from_str(&expiration).unwrap();
wrap_api_future_plain(async move {
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
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.to_string())
})
}
#[wasm_bindgen()]
pub fn routing_context_cancel_dht_watch(id: u32, key: String, subkeys: String) -> Promise {
let key: veilid_core::TypedKey = veilid_core::deserialize_json(&key).unwrap();
let subkeys: veilid_core::ValueSubkeyRangeSet =
veilid_core::deserialize_json(&subkeys).unwrap();
wrap_api_future_plain(async move {
let routing_context = {
let rc = (*ROUTING_CONTEXTS).borrow();
let Some(routing_context) = rc.get(&id) else {
return APIResult::Err(veilid_core::VeilidAPIError::invalid_argument("routing_context_cancel_dht_watch", "id", id));
};
routing_context.clone()
};
let res = routing_context.cancel_dht_watch(key, subkeys).await?;
APIResult::Ok(res)
})
}
#[wasm_bindgen()]
pub fn new_private_route() -> Promise {
wrap_api_future_json(async move {
@ -738,6 +893,458 @@ pub fn table_db_delete(id: u32, col: u32, key: String) -> Promise {
})
}
#[wasm_bindgen()]
pub fn valid_crypto_kinds() -> String {
veilid_core::serialize_json(
veilid_core::VALID_CRYPTO_KINDS
.iter()
.map(|k| (*k).into())
.collect::<Vec<u32>>(),
)
}
#[wasm_bindgen()]
pub fn best_crypto_kind() -> u32 {
veilid_core::best_crypto_kind().into()
}
#[wasm_bindgen()]
pub fn verify_signatures(node_ids: String, data: String, signatures: String) -> Promise {
let node_ids: Vec<veilid_core::TypedKey> = veilid_core::deserialize_json(&node_ids).unwrap();
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(data.as_bytes())
.unwrap();
let typed_signatures: Vec<veilid_core::TypedSignature> =
veilid_core::deserialize_json(&signatures).unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
let crypto = veilid_api.crypto()?;
let out = crypto.verify_signatures(&node_ids, &data, &typed_signatures)?;
APIResult::Ok(out)
})
}
#[wasm_bindgen()]
pub fn generate_signatures(data: String, key_pairs: String) -> Promise {
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(data.as_bytes())
.unwrap();
let key_pairs: Vec<veilid_core::TypedKeyPair> =
veilid_core::deserialize_json(&key_pairs).unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn generate_key_pair(kind: u32) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
wrap_api_future_json(async move {
let out = veilid_core::Crypto::generate_keypair(kind)?;
APIResult::Ok(out)
})
}
#[wasm_bindgen()]
pub fn crypto_cached_dh(kind: u32, key: String, secret: String) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::PublicKey = veilid_core::deserialize_json(&key).unwrap();
let secret: veilid_core::SecretKey = veilid_core::deserialize_json(&secret).unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_compute_dh(kind: u32, key: String, secret: String) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::PublicKey = veilid_core::deserialize_json(&key).unwrap();
let secret: veilid_core::SecretKey = veilid_core::deserialize_json(&secret).unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_random_nonce(kind: u32) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_random_shared_secret(kind: u32) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_generate_key_pair(kind: u32) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_generate_hash(kind: u32, data: String) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(data.as_bytes())
.unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_validate_key_pair(kind: u32, key: String, secret: String) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::PublicKey = veilid_core::deserialize_json(&key).unwrap();
let secret: veilid_core::SecretKey = veilid_core::deserialize_json(&secret).unwrap();
wrap_api_future_plain(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_validate_hash(kind: u32, data: String, hash: String) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(data.as_bytes())
.unwrap();
let hash: veilid_core::HashDigest = veilid_core::deserialize_json(&hash).unwrap();
wrap_api_future_plain(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_distance(kind: u32, key1: String, key2: String) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key1: veilid_core::CryptoKey = veilid_core::deserialize_json(&key1).unwrap();
let key2: veilid_core::CryptoKey = veilid_core::deserialize_json(&key2).unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_sign(kind: u32, key: String, secret: String, data: String) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::CryptoKey = veilid_core::deserialize_json(&key).unwrap();
let secret: veilid_core::CryptoKey = veilid_core::deserialize_json(&secret).unwrap();
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(data.as_bytes())
.unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_verify(kind: u32, key: String, data: String, signature: String) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let key: veilid_core::CryptoKey = veilid_core::deserialize_json(&key).unwrap();
let data: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(data.as_bytes())
.unwrap();
let signature: veilid_core::Signature = veilid_core::deserialize_json(&signature).unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
let crypto = veilid_api.crypto()?;
let csv = crypto.get(kind).ok_or_else(|| {
veilid_core::VeilidAPIError::invalid_argument("crypto_verify", "kind", kind.to_string())
})?;
let out = csv.verify(&key, &data, &signature)?;
APIResult::Ok(out)
})
}
#[wasm_bindgen()]
pub fn crypto_aead_overhead(kind: u32) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
wrap_api_future_plain(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_decrypt_aead(
kind: u32,
body: String,
nonce: String,
shared_secret: String,
associated_data: Option<String>,
) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let body: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(body.as_bytes())
.unwrap();
let nonce: veilid_core::Nonce = veilid_core::deserialize_json(&nonce).unwrap();
let shared_secret: veilid_core::SharedSecret =
veilid_core::deserialize_json(&shared_secret).unwrap();
let associated_data: Option<Vec<u8>> = associated_data.map(|ad| {
data_encoding::BASE64URL_NOPAD
.decode(ad.as_bytes())
.unwrap()
});
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_encrypt_aead(
kind: u32,
body: String,
nonce: String,
shared_secret: String,
associated_data: Option<String>,
) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let body: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(body.as_bytes())
.unwrap();
let nonce: veilid_core::Nonce = veilid_core::deserialize_json(&nonce).unwrap();
let shared_secret: veilid_core::SharedSecret =
veilid_core::deserialize_json(&shared_secret).unwrap();
let associated_data: Option<Vec<u8>> = associated_data.map(|ad| {
data_encoding::BASE64URL_NOPAD
.decode(ad.as_bytes())
.unwrap()
});
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn crypto_crypt_no_auth(
kind: u32,
body: String,
nonce: String,
shared_secret: String,
) -> Promise {
let kind: veilid_core::CryptoKind = veilid_core::FourCC::from(kind);
let mut body: Vec<u8> = data_encoding::BASE64URL_NOPAD
.decode(body.as_bytes())
.unwrap();
let nonce: veilid_core::Nonce = veilid_core::deserialize_json(&nonce).unwrap();
let shared_secret: veilid_core::SharedSecret =
veilid_core::deserialize_json(&shared_secret).unwrap();
wrap_api_future_json(async move {
let veilid_api = get_veilid_api()?;
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)
})
}
#[wasm_bindgen()]
pub fn now() -> u64 {
veilid_core::get_aligned_timestamp().as_u64()
}
#[wasm_bindgen()]
pub fn debug(command: String) -> Promise {
wrap_api_future_plain(async move {