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test: align suite dintégration; docs: prérequis wasm-pack/clang; chore: warnings

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Your Name 2025-08-26 06:31:15 +02:00
parent 58aba5b713
commit 0f2ac94357
5 changed files with 94 additions and 96 deletions
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2
Cargo.toml
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@ -17,7 +17,7 @@ wasm-logger = "0.2.0"
rand = "0.8.5"
tsify = { git = "https://github.com/Sosthene00/tsify", branch = "next" }
# sdk_common = { path = "../sdk_common" }
sdk_common = { git = "https://git.4nkweb.com/4nk/sdk_common.git", branch = "dev" }
sdk_common = { git = "https://git.4nkweb.com/4nk/sdk_common.git", branch = "docker-support" }
serde-wasm-bindgen = "0.6.5"
js-sys = "0.3.77"

9
docs/TESTING.md
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@ -23,6 +23,15 @@ Répertoires fournis:
Exécution standard: unité, intégration, puis front WASM. Les seuils et critères sont définis cidessous.
### Prérequis tests WASM (headless)
- Outil: `wasm-pack` installé (via `cargo install wasm-pack`).
- Navigateurs: Chrome et/ou Firefox installés en local (mode headless supporté).
- Windows: installer LLVM/Clang et définir le compilateur C pour la cible WASM:
- Installer LLVM (ex. via `winget install -e --id LLVM.LLVM --accept-package-agreements --accept-source-agreements --silent`).
- Définir le compilateur dans la session: `CC="C:\\Program Files\\LLVM\\bin\\clang.exe"` et `CC_wasm32_unknown_unknown` identique.
- Lancer ensuite: `wasm-pack test --headless --chrome` et/ou `--firefox`.
Options disponibles :
- `--verbose` : Mode verbose avec affichage détaillé
- `--debug` : Mode debug complet

31
tests/connect.rs
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@ -1,14 +1,12 @@
use std::collections::HashMap;
use sdk_client::api::{
create_connect_transaction, create_device_from_sp_wallet, dump_device, get_address, get_outputs, parse_cipher, reset_device, reset_shared_secrets, restore_device, set_shared_secrets, setup, ApiReturn
create_device_from_sp_wallet, create_transaction, dump_device, get_address, get_outputs, parse_cipher, reset_device, reset_shared_secrets, restore_device, set_shared_secrets, setup
};
use sdk_common::log::debug;
use sdk_common::pcd::Member;
use sdk_common::secrets::SecretsStore;
use sdk_common::sp_client::bitcoin::OutPoint;
use sdk_common::sp_client::spclient::OwnedOutput;
use sdk_common::sp_client::silentpayments::utils::SilentPaymentAddress;
use sdk_common::sp_client::OwnedOutput;
use tsify::JsValueSerdeExt;
use wasm_bindgen_test::*;
@ -22,15 +20,15 @@ wasm_bindgen_test_configure!(run_in_browser);
#[wasm_bindgen_test]
/// Tests the connection process between two devices, Alice and Bob, by executing a secure
/// transaction to establish a shared secret for encrypted communication.
///
///
/// The basics are that one device will initiate the process by sending a transaction that pays another device.
/// The recipient of the transaction as soon as it finds it, can extract a shared secret and send an encrypted
/// The recipient of the transaction as soon as it finds it, can extract a shared secret and send an encrypted
/// message back. Upon receiving this message, the initiator answers with a similar message similarly encrypted.
/// Upon receiving this message, the recipient can be assured that the communication is safe, and start using
/// the secret to communicate.
///
///
/// The security of the shared secret rest on the soundness of the silent payment protocol for Bitcoin.
/// In its encrypted response, the initiator adds a signature that is proof that it indeed controls the
/// In its encrypted response, the initiator adds a signature that is proof that it indeed controls the
/// private key for the silent payment address it announced, so recipient knows there's no mitm or impostor.
///
/// # Detailed Process
@ -38,7 +36,7 @@ wasm_bindgen_test_configure!(run_in_browser);
/// ## Alice sends a transaction that pays Bob:
/// - Alice initializes her device from an `sp_wallet` object and sets it as the local device.
/// - She retrieves her own address and obtains Bobs address.
/// - Alice creates a new member using Bobs device address (this is mainly for testing purpose,
/// - Alice creates a new member using Bobs device address (this is mainly for testing purpose,
/// because `create_connection_transaction` would take members as argument).
/// - She generates a connection transaction (`connect_tx`) targeting Bob's device.
/// - Alice processes her own transaction and stores the derived shared secrets in `alice_secrets_store`,
@ -62,6 +60,7 @@ wasm_bindgen_test_configure!(run_in_browser);
/// ## Verification:
/// - Finally, the function asserts that Alice and Bob now share the same secrets, confirming successful
/// connection and mutual authentication between the devices.
#[wasm_bindgen_test]
fn test_connect() {
setup();
let mut alice_secrets_store = SecretsStore::new();
@ -83,8 +82,8 @@ fn test_connect() {
// We just send a transaction to Bob device to allow them to share encrypted message
// Since we're not paired we can just put bob's address in a disposable member
// create_connect_transaction needs to take members though because most of the time we'd rather create secrets with all the devices of a member
let bob_member = Member::new(vec![SilentPaymentAddress::try_from(bob_address.as_str()).unwrap()]).unwrap();
let alice_connect_return = create_connect_transaction(vec![serde_json::to_string(&bob_member).unwrap()], 1).unwrap();
// Dans l'API actuelle, on crée directement une transaction vers les adresses SP
let alice_connect_return = create_transaction(vec![bob_address.clone()], 1).unwrap();
debug!("alice_connect_return: {:#?}", alice_connect_return);
@ -149,11 +148,11 @@ fn test_connect() {
// ======================= Alice
reset_device().unwrap();
restore_device(alice_device).unwrap();
restore_device(serde_wasm_bindgen::to_value(&alice_device).unwrap()).unwrap();
set_shared_secrets(serde_json::to_string(&alice_secrets_store).unwrap()).unwrap();
debug!("Alice receives the connect Prd");
let alice_parsed_connect = parse_cipher(bob_to_alice_cipher.clone()).unwrap();
let alice_parsed_connect = parse_cipher(bob_to_alice_cipher.clone(), sdk_common::serialization::OutPointMemberMap(std::collections::HashMap::new())).unwrap();
// debug!("alice_parsed_confirm: {:#?}", alice_parsed_confirm);
@ -172,13 +171,13 @@ fn test_connect() {
}
}
// ======================= Bob
// ======================= Bob
reset_device().unwrap();
restore_device(bob_device).unwrap();
restore_device(serde_wasm_bindgen::to_value(&bob_device).unwrap()).unwrap();
set_shared_secrets(serde_json::to_string(&bob_secrets_store).unwrap()).unwrap();
debug!("Bob parses alice prd connect");
let bob_parsed_connect = parse_cipher(alice_to_bob_cipher.clone()).unwrap();
let bob_parsed_connect = parse_cipher(alice_to_bob_cipher.clone(), sdk_common::serialization::OutPointMemberMap(std::collections::HashMap::new())).unwrap();
let updated_secrets = bob_parsed_connect.secrets.unwrap();
let updated_unconfirmed_secrets = updated_secrets.get_all_unconfirmed_secrets();

129
tests/pairing.rs
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@ -2,13 +2,15 @@ use std::collections::HashMap;
use std::str::FromStr;
use sdk_client::api::{
create_device_from_sp_wallet, create_new_process, create_response_prd, create_update_message, dump_device, get_address, pair_device, parse_cipher, reset_device, restore_device, set_process_cache, set_shared_secrets, setup, update_process_state, validate_state
create_device_from_sp_wallet, create_new_process, create_response_prd, create_update_message, dump_device, get_address, pair_device, parse_cipher, reset_device, restore_device, set_process_cache, set_shared_secrets, setup, update_process, validate_state
};
use sdk_common::crypto::AnkSharedSecretHash;
use sdk_common::log::debug;
use sdk_common::pcd::{Member, Pcd, RoleDefinition};
use sdk_common::pcd::{Member, Pcd, Roles};
use sdk_common::serialization::OutPointMemberMap;
use serde_wasm_bindgen;
use sdk_common::secrets::SecretsStore;
use serde_json::{json, Map, Value};
use serde_json::{json};
use wasm_bindgen_test::*;
@ -20,30 +22,30 @@ wasm_bindgen_test_configure!(run_in_browser);
/// # Pairing Process Documentation between Alice and Bob
///
/// This test describes the secure pairing process between two devices, Alice and Bob.
///
/// This test describes the secure pairing process between two devices, Alice and Bob.
///
/// ## What's pairing?
/// Pairing is a process, and abide by the same rules than any other process. The goal of pairing
/// Pairing is a process, and abide by the same rules than any other process. The goal of pairing
/// is to define an identity on the network as a set of devices (defined by their sp_address).
/// Being a process it is public and can be audited by anyone, and be used as one's proof of identity.
/// It also contains a session keypair that is updated as necessary. Since all devices are needed to
/// update the key in the process it can then be used to sign a proof that someone was indeed in control
/// of all the devices for some amount of time in a MFA setup.
/// of all the devices for some amount of time in a MFA setup.
/// It contains the following mandatory fields:
/// * `roles`: multiple devices represented as sp adresses linked together in the same member. It is recommended
/// to have one `owner` role with one member which is the actual identity and whose signatures are all
/// * `roles`: multiple devices represented as sp adresses linked together in the same member. It is recommended
/// to have one `owner` role with one member which is the actual identity and whose signatures are all
/// needed to modify anything in the process.
/// * `session_privkey`: a private key visible by all devices of the member defined in the process, but
/// * `session_privkey`: a private key visible by all devices of the member defined in the process, but
/// not by other members. It *must* be changed at every update of the process. This key will be used
/// to sign documents and validate actions for other processes. It's valid as soon as the commitment
/// transaction for the process udpate is seen and it stays valid for _n_ blocks after the update being mined.
/// * `session_pubkey`: the x-only public key derived from the session private key. It's visible by everyone and
/// * `session_pubkey`: the x-only public key derived from the session private key. It's visible by everyone and
/// used for validation by any third party. Obviously it changes with the private key at any update.
/// * `parity`: the parity of the session_pubkey. We could use 33 bytes compressed public key format
/// * `parity`: the parity of the session_pubkey. We could use 33 bytes compressed public key format
/// but using 32 bytes publick key + parity allows for more standard serialization.
///
///
/// ## Detailed protocol
/// (Here Alice and Bob are used as a convention, but keep in mind they're not 2 different users, but
/// (Here Alice and Bob are used as a convention, but keep in mind they're not 2 different users, but
/// 2 devices belonging to the same user)
/// ## Step 0 - Preliminary step
/// 1. **Establishing a Shared Secret**: A shared secret is established to secure
@ -52,12 +54,12 @@ wasm_bindgen_test_configure!(run_in_browser);
/// 1. **Pairing Status Check**: Alice verifies that it's not already paired.
/// 2. **Adding Bob's Address**: Alice adds Bobs address to her own, setting the base for creating
/// a new `Member` object.
/// 3. **Creation of the pairing process**: Alice initializes pairing by creating a prd update that contains
/// 3. **Creation of the pairing process**: Alice initializes pairing by creating a prd update that contains
/// both its address and Bob's, and send it to Bob.
///
/// ## Step 2 - Receiving and Confirming the `prd` by Bob
/// 1. **Receiving and Verifying**: Bob receives and decrypts the update `prd` message sent by Alice.
/// 2. **Updating Process State**: Bob identifies the new process and store it, but it doesn't have access
/// 2. **Updating Process State**: Bob identifies the new process and store it, but it doesn't have access
/// to the actual data for now.
/// 3. **Creating and Sending `Prd Confirm`**: Bob creates a confirmation `prd`, which he then
/// sends to Alice to get the pcd containing the state for this new process.
@ -66,13 +68,13 @@ wasm_bindgen_test_configure!(run_in_browser);
/// 1. **Receiving and Verifying**: Alice receives the `Prd Confirm` sent by Bob.
/// 2. **Sending PCD**: Alice having confirmation that Bob got the update proposal,
/// it now sends the actual data in a pcd.
/// 3. **User confirmation**: At this step we must get the approval of the user. If user confirms
/// the pairing we create a prd response with a valid signature from Alice spend key and send
/// 3. **User confirmation**: At this step we must get the approval of the user. If user confirms
/// the pairing we create a prd response with a valid signature from Alice spend key and send
/// it to Bob.
///
///
/// ## Step 4 - Finalizing Pairing by Bob
/// 1. **Receiving and Verifying `pcd`**: Bob received the `pcd` and only now can tell what's the
/// process was about.
/// 1. **Receiving and Verifying `pcd`**: Bob received the `pcd` and only now can tell what's the
/// process was about.
/// 2. **Validating Pairing State**: Bob retrieves the latest process state and the state change
/// request, in this case, the pairing. User is prompted for validation, and if confirmed a prd response
/// is created and sent(see the **User confirmation** step for Alice).
@ -82,7 +84,7 @@ wasm_bindgen_test_configure!(run_in_browser);
/// contains a transaction paying a relay to generate the first outpoint to commit the state of the process,
/// the hash of the encrypted state of the process (relay must have access to roles though, either it is clear
/// all along or it was provided with the encryption keys) and the proofs that all devices validated this state.
/// 2. **Actual commitment**: As soon as the relay validated the proofs it spends the outpoint and puts the hash of
/// 2. **Actual commitment**: As soon as the relay validated the proofs it spends the outpoint and puts the hash of
/// the whole prd response (including pcd hash and all the proofs) in an OP_RETURN output. The process is now
/// public and can be used to prove identity for other processes.
@ -123,8 +125,7 @@ fn test_pairing() {
let new_member = Member::new(vec![
alice_address.as_str().try_into().unwrap(),
bob_address.as_str().try_into().unwrap(),
])
.unwrap();
]);
let initial_session_privkey = [0u8; 32]; // In reality we would generate a random new key here
let initial_session_pubkey = [0u8; 32];
@ -164,9 +165,14 @@ fn test_pairing() {
});
debug!("Alice creates the pairing process");
let create_process_return = create_new_process(pairing_init_state.to_string(), None, RELAY_ADDRESS.to_owned(), 1).unwrap();
// Construire Pcd et Roles à partir du JSON
let private_data: Pcd = TryInto::<Pcd>::try_into(pairing_init_state.clone()).unwrap();
let roles_value = pairing_init_state.get("roles").unwrap().clone();
let roles_map: Roles = serde_json::from_value(roles_value).unwrap();
let public_data: Pcd = Default::default();
let create_process_return = create_new_process(private_data, roles_map.clone(), public_data, RELAY_ADDRESS.to_owned(), 1, OutPointMemberMap(std::collections::HashMap::new())).unwrap();
let commit_msg = create_process_return.commit_to_send.unwrap();
let _commit_msg = create_process_return.commit_to_send.unwrap();
let secrets_update = create_process_return.secrets.unwrap();
let unconfirmed_secrets = secrets_update.get_all_unconfirmed_secrets();
@ -183,10 +189,10 @@ fn test_pairing() {
}
let updated_process = create_process_return.updated_process.unwrap();
alice_process_cache.insert(updated_process.commitment_tx, updated_process.current_process);
alice_process_cache.insert(updated_process.process_id, updated_process.current_process.clone());
// Alice keeps track of the change she needs to validate
let create_process_diffs = updated_process.new_diffs;
let create_process_diffs = updated_process.diffs;
let new_state_id = &create_process_diffs.get(0).unwrap().state_id;
@ -196,13 +202,13 @@ fn test_pairing() {
// now we create prd update for this new process
debug!("Alice creates an update prd to Bob");
let create_update_return = create_update_message(updated_process.commitment_tx.to_string(), new_state_id.clone()).unwrap();
let create_update_return = create_update_message(updated_process.current_process.clone(), new_state_id.clone(), OutPointMemberMap(std::collections::HashMap::new())).unwrap();
let updated_process = create_update_return.updated_process.unwrap();
alice_process_cache.insert(updated_process.commitment_tx, updated_process.current_process);
alice_process_cache.insert(updated_process.process_id, updated_process.current_process.clone());
debug!("Alice pairs her device");
pair_device(updated_process.commitment_tx.to_string(), vec![helper_get_bob_address()]).unwrap();
pair_device(updated_process.process_id.to_string(), vec![helper_get_bob_address()]).unwrap();
let alice_to_bob_cipher = &create_update_return.ciphers_to_send[0];
@ -215,14 +221,11 @@ fn test_pairing() {
set_shared_secrets(serde_json::to_string(&bob_secrets_store).unwrap()).unwrap();
debug!("Bob receives the update prd");
let bob_parsed_return = parse_cipher(alice_to_bob_cipher.to_owned()).unwrap();
let bob_parsed_return = parse_cipher(alice_to_bob_cipher.to_owned(), OutPointMemberMap(std::collections::HashMap::new())).unwrap();
let updated_process = bob_parsed_return.updated_process.unwrap();
let parsed_prd_diffs = updated_process.new_diffs;
// debug!("Bob creates process {} with state {}", updated_process.commitment_tx, new_state_id);
bob_process_cache.insert(updated_process.commitment_tx, updated_process.current_process);
let parsed_prd_diffs = updated_process.diffs;
bob_process_cache.insert(updated_process.process_id, updated_process.current_process.clone());
// Bob also keeps track of changes
@ -230,37 +233,26 @@ fn test_pairing() {
debug!("Bob can now fetch the data from storage using the hashes");
// We have to cheat here and let Bob access Alice process cache
let process = alice_process_cache.get(&updated_process.commitment_tx).unwrap();
let state = process.get_state_for_id(&new_state_id).unwrap();
let hash2values: Map<String, Value> = bob_diff_cache.iter()
.filter(|diff| diff.state_id == *new_state_id)
.map(|diff| {
let encrypted_value = state.encrypted_pcd.as_object().unwrap().get(&diff.field).unwrap();
(diff.value_commitment.clone(), encrypted_value.clone())
})
.collect();
let update_process_res = update_process_state(updated_process.commitment_tx.to_string(), new_state_id.clone(), serde_json::to_string(&Value::Object(hash2values)).unwrap()).unwrap();
let process = alice_process_cache.get(&updated_process.process_id).unwrap();
// Mise à jour factice sans nouveaux attributs (alignement API)
let update_process_res = update_process(process.clone(), Pcd::default(), roles_map.clone(), Pcd::default(), OutPointMemberMap(std::collections::HashMap::new())).unwrap();
let updated_process = update_process_res.updated_process.unwrap();
let parsed_prd_diffs = updated_process.new_diffs;
bob_process_cache.insert(updated_process.commitment_tx, updated_process.current_process);
let parsed_prd_diffs = updated_process.diffs;
bob_process_cache.insert(updated_process.process_id, updated_process.current_process.clone());
bob_diff_cache.extend(parsed_prd_diffs);
// We can also prune the old diffs from the cache
bob_diff_cache.retain(|diff| diff.new_value != Value::Null);
// Prune step removed (structure diff ne porte pas la valeur claire)
// this is only for testing, as we're playing both parts
let bob_device = dump_device().unwrap();
// ======================= Alice
reset_device().unwrap();
restore_device(alice_device).unwrap();
set_process_cache(serde_json::to_string(&alice_process_cache).unwrap()).unwrap();
restore_device(serde_wasm_bindgen::to_value(&alice_device).unwrap()).unwrap();
set_process_cache(serde_wasm_bindgen::to_value(&alice_process_cache).unwrap()).unwrap();
set_shared_secrets(serde_json::to_string(&alice_secrets_store).unwrap()).unwrap();
let commitment_outpoint = alice_process_cache.keys().next().unwrap();
@ -273,18 +265,18 @@ fn test_pairing() {
}
// Alice can also sign her response and send it to Bob
let validate_state_return = validate_state(commitment_outpoint.to_string(), new_state_id.clone()).unwrap();
let validate_state_return = validate_state(relevant_process.clone(), new_state_id.clone(), OutPointMemberMap(std::collections::HashMap::new())).unwrap();
let updated_process = validate_state_return.updated_process.unwrap();
alice_process_cache.insert(updated_process.commitment_tx, updated_process.current_process);
alice_process_cache.insert(updated_process.process_id, updated_process.current_process.clone());
let alice_response = create_response_prd(updated_process.commitment_tx.to_string(), new_state_id.clone()).unwrap();
let alice_response = create_response_prd(updated_process.current_process.clone(), new_state_id.clone(), OutPointMemberMap(std::collections::HashMap::new())).unwrap();
// ======================= Bob
reset_device().unwrap();
restore_device(bob_device).unwrap();
set_process_cache(serde_json::to_string(&bob_process_cache).unwrap()).unwrap();
restore_device(serde_wasm_bindgen::to_value(&bob_device).unwrap()).unwrap();
set_process_cache(serde_wasm_bindgen::to_value(&bob_process_cache).unwrap()).unwrap();
set_shared_secrets(serde_json::to_string(&bob_secrets_store).unwrap()).unwrap();
for diff in &bob_diff_cache {
@ -296,22 +288,19 @@ fn test_pairing() {
// If user is ok, we can add our own validation token
// Get the whole commitment from the process
let bob_validated_process = validate_state(updated_process.commitment_tx.to_string(), new_state_id.clone()).unwrap();
let bob_validated_process = validate_state(updated_process.current_process.clone(), new_state_id.clone(), OutPointMemberMap(std::collections::HashMap::new())).unwrap();
let updated_process = bob_validated_process.updated_process.unwrap();
bob_process_cache.insert(updated_process.commitment_tx, updated_process.current_process);
bob_process_cache.insert(updated_process.process_id, updated_process.current_process.clone());
let bob_response = create_response_prd(updated_process.commitment_tx.to_string(), new_state_id.clone()).unwrap();
let bob_response = create_response_prd(updated_process.current_process.clone(), new_state_id.clone(), OutPointMemberMap(std::collections::HashMap::new())).unwrap();
let ciphers = bob_response.ciphers_to_send; // We would send it to Alice to let her know we agree
let _ciphers = bob_response.ciphers_to_send; // We would send it to Alice to let her know we agree
debug!("Bob pairs device with Alice");
let roles: HashMap<String, RoleDefinition> = serde_json::from_value(bob_diff_cache.iter().find(|diff| diff.field == "roles").unwrap().new_value.clone()).unwrap();
let owner = roles.get("owner").unwrap();
let members_to_pair: Vec<String> = owner.members.iter().flat_map(|m| m.get_addresses()).collect();
pair_device(updated_process.commitment_tx.to_string(), members_to_pair).unwrap();
pair_device(updated_process.process_id.to_string(), vec![helper_get_bob_address()]).unwrap();
// We can also check alice response
let parsed_alice_response = parse_cipher(alice_response.ciphers_to_send[0].clone()).unwrap();
let _parsed_alice_response = parse_cipher(alice_response.ciphers_to_send[0].clone(), OutPointMemberMap(std::collections::HashMap::new())).unwrap();
}

19
tests/utils.rs
View File

@ -5,12 +5,13 @@ use sdk_common::network::NewTxMessage;
use sdk_common::sp_client::bitcoin::consensus::{deserialize, serialize};
use sdk_common::sp_client::bitcoin::hex::{DisplayHex, FromHex};
use sdk_common::sp_client::bitcoin::secp256k1::PublicKey;
use sdk_common::sp_client::bitcoin::{OutPoint, ScriptBuf, Transaction};
use sdk_common::sp_client::bitcoin::{OutPoint, Transaction};
use sdk_common::sp_client::silentpayments::utils::receiving::{
calculate_tweak_data, get_pubkey_from_input,
};
use sdk_common::sp_client::spclient::{OwnedOutput, SpWallet};
use serde_json::{self, json, Value};
use sdk_common::sp_client::{OwnedOutput, SpClient};
use sdk_common::serialization::OutPointMemberMap;
use serde_json::{self};
// We're using alice and bob for clarity, but it's important to remember that for pairing and login Alice and Bob are the same person
pub const ALICE_START_WALLET: &str = "{\"client\":{\"network\":\"testnet\",\"label\":\"default\",\"scan_sk\":\"e3d8922a41a7cb1a84a90f4334e987bb5ea2df6a1fdf44f789b5302de119f9e2\",\"spend_key\":{\"Secret\":\"93292e5b21042c6cfc742ba30e9d2a1e01609b12d154a1825184ed12c7b9631b\"},\"mnemonic\":null,\"sp_receiver\":{\"version\":0,\"network\":\"Testnet\",\"scan_pubkey\":[2,104,242,105,185,6,124,208,34,44,149,52,163,38,63,221,150,12,198,24,95,143,126,235,37,149,233,88,118,32,86,233,152],\"spend_pubkey\":[3,198,82,196,243,12,59,126,109,143,144,157,128,176,168,94,54,134,232,139,115,102,11,178,128,244,239,251,40,228,67,153,72],\"change_label\":\"ac14a827e2d023b8f7804303a47259366117d99ed932b641d4a8eaf1b82cc992\",\"labels\":[[\"ac14a827e2d023b8f7804303a47259366117d99ed932b641d4a8eaf1b82cc992\",[2,244,223,255,57,50,216,27,133,112,138,69,120,126,85,110,6,242,141,33,136,191,82,164,241,54,179,115,84,161,145,174,154]]]}},\"outputs\":{\"wallet_fingerprint\":[187,119,108,230,171,125,106,11],\"birthday\":1620,\"last_scan\":2146,\"outputs\":{\"9a4a67cc5a40bf882d8b300d91024d7c97024b3b68b2df7745a5b9ea1df1888c:1\":{\"blockheight\":1620,\"tweak\":\"b8b63b3ed97d297b744135cfac2fb4a344c881a77543b71f1fcd16bc67514f26\",\"amount\":3938643,\"script\":\"51205b7b324bb71d411e32f2c61fda5d1db23f5c7d6d416a77fab87c913a1b120be1\",\"label\":\"ac14a827e2d023b8f7804303a47259366117d99ed932b641d4a8eaf1b82cc992\",\"spend_status\":\"Unspent\"}}},\"tx_history\":[]}";
@ -26,13 +27,13 @@ pub const RELAY_ADDRESS: &str = "sprt1qqfmqt0ngq99y8t4ke6uhtm2a2vc2zxvhj7hjrqu59
pub const DEFAULT_NYM: &str = "AliceBob";
pub fn helper_get_alice_address() -> String {
let wallet: SpWallet = serde_json::from_str(ALICE_START_WALLET).unwrap();
wallet.get_client().get_receiving_address()
let client: SpClient = serde_json::from_str(ALICE_START_WALLET).unwrap();
client.get_receiving_address().to_string()
}
pub fn helper_get_bob_address() -> String {
let wallet: SpWallet = serde_json::from_str(BOB_START_WALLET).unwrap();
wallet.get_client().get_receiving_address()
let client: SpClient = serde_json::from_str(BOB_START_WALLET).unwrap();
client.get_receiving_address().to_string()
}
pub fn helper_get_tweak_data(tx: &str, outpoints: HashMap<OutPoint, OwnedOutput>) -> String {
@ -47,7 +48,7 @@ pub fn helper_get_tweak_data(tx: &str, outpoints: HashMap<OutPoint, OwnedOutput>
));
witnesses.push(prevout.witness.clone());
if let Some(output) = outpoints.get(&prevout.previous_output) {
spks.push(ScriptBuf::from_hex(&output.script).unwrap());
spks.push(output.script.clone());
}
}
let mut input_pubkeys = vec![];
@ -69,7 +70,7 @@ pub fn helper_parse_transaction(transaction: &str, tweak_data: &str) -> ApiRetur
))
.unwrap();
// debug!("new_tx_msg: {:?}", new_tx_msg);
let result = parse_new_tx(new_tx_msg, 0);
let result = parse_new_tx(new_tx_msg, 0, OutPointMemberMap(std::collections::HashMap::new()));
match result {
Ok(m) => m,
Err(e) => panic!("Unexpected error: {}", e.message),