module pyth::pyth { use pyth::batch_price_attestation::{Self}; use pyth::price_identifier::{Self, PriceIdentifier}; use pyth::price_info::{Self, PriceInfo}; use pyth::price_feed::{Self}; use aptos_framework::coin::{Self, Coin}; use aptos_framework::aptos_coin::{AptosCoin}; use pyth::price::Price; use pyth::price; use pyth::data_source::{Self, DataSource}; use aptos_framework::timestamp; use pyth::deserialize::{Self}; use wormhole::cursor::{Self, Cursor}; use std::vector; use pyth::state; use wormhole::vaa; use wormhole::u16; use wormhole::external_address; use std::account; use std::signer; use deployer::deployer; use pyth::error; use pyth::event; use pyth::merkle; use pyth::keccak160; #[test_only] friend pyth::pyth_test; const PYTHNET_ACCUMULATOR_UPDATE_MAGIC: u64 = 1347305813; const ACCUMULATOR_UPDATE_WORMHOLE_VERIFICATION_MAGIC: u64 = 1096111958; // ----------------------------------------------------------------------------- // Initialisation functions public entry fun init( deployer: &signer, stale_price_threshold: u64, governance_emitter_chain_id: u64, governance_emitter_address: vector, data_sources_emitter_chain_ids: vector, data_sources_emitter_addresses: vector>, update_fee: u64, ) { // Claim the signer capability from the deployer. Note that this is a one-time operation, // so that this function can only be called once. let signer_capability = deployer::claim_signer_capability(deployer, @pyth); init_internal( signer_capability, stale_price_threshold, governance_emitter_chain_id, governance_emitter_address, parse_data_sources( data_sources_emitter_chain_ids, data_sources_emitter_addresses, ), update_fee ) } fun init_internal( signer_capability: account::SignerCapability, stale_price_threshold: u64, governance_emitter_chain_id: u64, governance_emitter_address: vector, data_sources: vector, update_fee: u64) { let pyth = account::create_signer_with_capability(&signer_capability); state::init( &pyth, stale_price_threshold, update_fee, data_source::new( governance_emitter_chain_id, external_address::from_bytes(governance_emitter_address)), data_sources, signer_capability ); event::init(&pyth); if (!coin::is_account_registered(signer::address_of(&pyth))) { coin::register(&pyth); } } fun parse_data_sources( emitter_chain_ids: vector, emitter_addresses: vector>): vector { assert!(vector::length(&emitter_chain_ids) == vector::length(&emitter_addresses), error::data_source_emitter_address_and_chain_ids_different_lengths()); let sources = vector::empty(); let i = 0; while (i < vector::length(&emitter_chain_ids)) { vector::push_back(&mut sources, data_source::new( *vector::borrow(&emitter_chain_ids, i), external_address::from_bytes(*vector::borrow(&emitter_addresses, i)) )); i = i + 1; }; sources } #[test_only] /// Expose a public initialization function for use in tests public fun init_test( signer_capability: account::SignerCapability, stale_price_threshold: u64, governance_emitter_chain_id: u64, governance_emitter_address: vector, data_sources: vector, update_fee: u64, ) { init_internal( signer_capability, stale_price_threshold, governance_emitter_chain_id, governance_emitter_address, data_sources, update_fee ) } // ----------------------------------------------------------------------------- // Update the cached prices // // Pyth uses an uses an on-demand update model, where consumers need to update the /// cached prices before using them. Please read more about this at https://docs.pyth.network/documentation/pythnet-price-feeds/on-demand. /// Update the cached price feeds with the data in the given VAAs. This is a /// convenience wrapper around update_price_feeds(), which allows you to update the price feeds /// using an entry function. /// /// If possible, it is recommended to use update_price_feeds() instead, which avoids the need /// to pass a signer account. update_price_feeds_with_funder() should only be used when /// you need to call an entry function. /// /// This function will charge an update fee, transferring some AptosCoin's /// from the given funder account to the Pyth contract. The amount of coins that will be transferred /// to perform this update can be queried with get_update_fee(&vaas). The signer must have sufficient /// account balance to pay this fee, otherwise the transaction will abort. /// /// Please read more information about the update fee here: https://docs.pyth.network/documentation/pythnet-price-feeds/on-demand#fees public entry fun update_price_feeds_with_funder(account: &signer, vaas: vector>) { let coins = coin::withdraw(account, get_update_fee(&vaas)); update_price_feeds(vaas, coins); } /// Update the cached price feeds with the data in the given VAAs. /// The vaas argument is a vector of VAAs encoded as bytes. /// /// The javascript https://github.com/pyth-network/pyth-js/tree/main/pyth-aptos-js package /// should be used to fetch these VAAs from the Price Service. More information about this /// process can be found at https://docs.pyth.network/documentation/pythnet-price-feeds. /// /// The given fee must contain a sufficient number of coins to pay the update fee for the given vaas. /// The update fee amount can be queried by calling get_update_fee(&vaas). /// /// Please read more information about the update fee here: https://docs.pyth.network/documentation/pythnet-price-feeds/on-demand#fees public fun update_price_feeds(vaas: vector>, fee: Coin) { // Charge the message update fee assert!(get_update_fee(&vaas) <= coin::value(&fee), error::insufficient_fee()); coin::deposit(@pyth, fee); // Update the price feed from each VAA while (!vector::is_empty(&vaas)) { update_price_feed_from_single_vaa(vector::pop_back(&mut vaas)); }; } fun verify_data_source(vaa: &vaa::VAA) { assert!( state::is_valid_data_source( data_source::new( u16::to_u64(vaa::get_emitter_chain(vaa)), vaa::get_emitter_address(vaa))), error::invalid_data_source()); } /// Given the payload of a VAA related to accumulator messages, asserts the verification variant is merkle and /// extracts the merkle root digest fun parse_accumulator_merkle_root_from_vaa_payload(message: vector): keccak160::Hash { let msg_payload_cursor = cursor::init(message); let payload_type = deserialize::deserialize_u32(&mut msg_payload_cursor); assert!(payload_type == ACCUMULATOR_UPDATE_WORMHOLE_VERIFICATION_MAGIC, error::invalid_wormhole_message()); let wh_message_payload_type = deserialize::deserialize_u8(&mut msg_payload_cursor); assert!(wh_message_payload_type == 0, error::invalid_wormhole_message()); // Merkle variant let _merkle_root_slot = deserialize::deserialize_u64(&mut msg_payload_cursor); let _merkle_root_ring_size = deserialize::deserialize_u32(&mut msg_payload_cursor); let merkle_root_hash = deserialize::deserialize_vector(&mut msg_payload_cursor, 20); cursor::rest(msg_payload_cursor); keccak160::new(merkle_root_hash) } /// Given a single accumulator price update message, asserts that it is a PriceFeedMessage, /// parses the info and returns a PriceInfo representing the encoded information fun parse_accumulator_update_message(message: vector): PriceInfo { let message_cur = cursor::init(message); let message_type = deserialize::deserialize_u8(&mut message_cur); assert!(message_type == 0, error::invalid_accumulator_message()); // PriceFeedMessage variant let price_identifier = price_identifier::from_byte_vec(deserialize::deserialize_vector(&mut message_cur, 32)); let price = deserialize::deserialize_i64(&mut message_cur); let conf = deserialize::deserialize_u64(&mut message_cur); let expo = deserialize::deserialize_i32(&mut message_cur); let publish_time = deserialize::deserialize_u64(&mut message_cur); let _prev_publish_time = deserialize::deserialize_i64(&mut message_cur); let ema_price = deserialize::deserialize_i64(&mut message_cur); let ema_conf = deserialize::deserialize_u64(&mut message_cur); let price_info = price_info::new( timestamp::now_seconds(), // not used anywhere kept for backward compatibility timestamp::now_seconds(), price_feed::new( price_identifier, pyth::price::new(price, conf, expo, publish_time), pyth::price::new(ema_price, ema_conf, expo, publish_time), ) ); cursor::rest(message_cur); price_info } /// Given a cursor at the beginning of accumulator price updates array data and a merkle_root hash, /// parses the price updates and proofs, verifies the proofs against the merkle_root and /// returns an array of PriceInfo representing the updates fun parse_and_verify_accumulator_updates( cursor: &mut Cursor, merkle_root: &keccak160::Hash ): vector { let update_size = deserialize::deserialize_u8(cursor); let updates: vector = vector[]; while (update_size > 0) { let message_size = deserialize::deserialize_u16(cursor); let message = deserialize::deserialize_vector(cursor, message_size); let update = parse_accumulator_update_message(message); vector::push_back(&mut updates, update); let path_size = deserialize::deserialize_u8(cursor); let merkle_path: vector = vector[]; while (path_size > 0) { let hash = deserialize::deserialize_vector(cursor, keccak160::get_hash_length()); vector::push_back(&mut merkle_path, keccak160::new(hash)); path_size = path_size - 1; }; assert!(merkle::check(&merkle_path, merkle_root, message), error::invalid_proof()); update_size = update_size - 1; }; updates } /// Given a cursor at the beginning of an accumulator message, verifies the validity of the message and the /// embedded VAA, parses and verifies the price updates and returns an array of PriceInfo representing the updates fun parse_and_verify_accumulator_message(cursor: &mut Cursor): vector { let major = deserialize::deserialize_u8(cursor); assert!(major == 1, error::invalid_accumulator_payload()); let _minor = deserialize::deserialize_u8(cursor); let trailing_size = deserialize::deserialize_u8(cursor); deserialize::deserialize_vector(cursor, (trailing_size as u64)); let proof_type = deserialize::deserialize_u8(cursor); assert!(proof_type == 0, error::invalid_accumulator_payload()); let vaa_size = deserialize::deserialize_u16(cursor); let vaa = deserialize::deserialize_vector(cursor, vaa_size); let msg_vaa = vaa::parse_and_verify(vaa); verify_data_source(&msg_vaa); let merkle_root_hash = parse_accumulator_merkle_root_from_vaa_payload(vaa::get_payload(&msg_vaa)); vaa::destroy(msg_vaa); parse_and_verify_accumulator_updates(cursor, &merkle_root_hash) } fun update_price_feed_from_single_vaa(vaa: vector) { let cur = cursor::init(vaa); let header: u64 = deserialize::deserialize_u32(&mut cur); let updates = if (header == PYTHNET_ACCUMULATOR_UPDATE_MAGIC) { parse_and_verify_accumulator_message(&mut cur) } else { // Deserialize the VAA let vaa = vaa::parse_and_verify(vaa); // Check that the VAA is from a valid data source (emitter) verify_data_source(&vaa); // Deserialize the batch price attestation batch_price_attestation::destroy(batch_price_attestation::deserialize(vaa::destroy(vaa))) }; update_cache(updates); cursor::rest(cur); } /// Update the cache with given price updates, if they are newer than the ones currently cached. public(friend) fun update_cache(updates: vector) { while (!vector::is_empty(&updates)) { let update = vector::pop_back(&mut updates); if (is_fresh_update(&update)) { let price_feed = *price_info::get_price_feed(&update); let price_identifier = price_feed::get_price_identifier(&price_feed); state::set_latest_price_info( *price_identifier, update, ); event::emit_price_feed_update(price_feed, timestamp::now_microseconds()); } }; vector::destroy_empty(updates); } /// A convenience wrapper around update_price_feeds_if_fresh(), allowing you to conditionally /// update the price feeds using an entry function. /// /// If possible, it is recommended to use update_price_feeds_if_fresh() instead, which avoids the need /// to pass a signer account. update_price_feeds_if_fresh_with_funder() should only be used when /// you need to call an entry function. public entry fun update_price_feeds_if_fresh_with_funder( account: &signer, vaas: vector>, price_identifiers: vector>, publish_times: vector) { let coins = coin::withdraw(account, get_update_fee(&vaas)); update_price_feeds_if_fresh(vaas, price_identifiers, publish_times, coins); } #[legacy_entry_fun] /// Update the cached price feeds with the data in the given VAAs, using /// update_price_feeds(). However, this function will only have an effect if any of the /// prices in the update are fresh. The price_identifiers and publish_times parameters /// are used to determine if the update is fresh without doing any serialisation or verification /// of the VAAs, potentially saving time and gas. If the update contains no fresh data, this function /// will revert with error::no_fresh_data(). /// /// For a given price update i in the batch, that price is considered fresh if the current cached /// price for price_identifiers[i] is older than publish_times[i]. public entry fun update_price_feeds_if_fresh( vaas: vector>, price_identifiers: vector>, publish_times: vector, fee: Coin) { assert!(vector::length(&price_identifiers) == vector::length(&publish_times), error::invalid_publish_times_length()); let fresh_data = false; let i = 0; while (i < vector::length(&publish_times)) { let price_identifier = price_identifier::from_byte_vec( *vector::borrow(&price_identifiers, i)); if (!state::price_info_cached(price_identifier)) { fresh_data = true; break }; let cached_timestamp = price::get_timestamp(&get_price_unsafe(price_identifier)); if (cached_timestamp < *vector::borrow(&publish_times, i)) { fresh_data = true; break }; i = i + 1; }; assert!(fresh_data, error::no_fresh_data()); update_price_feeds(vaas, fee); } /// Determine if the given price update is "fresh": we have nothing newer already cached for that /// price feed. fun is_fresh_update(update: &PriceInfo): bool { // Get the timestamp of the update's current price let price_feed = price_info::get_price_feed(update); let update_timestamp = price::get_timestamp(&price_feed::get_price(price_feed)); // Get the timestamp of the cached data for the price identifier let price_identifier = price_feed::get_price_identifier(price_feed); if (!price_feed_exists(*price_identifier)) { return true }; let cached_timestamp = price::get_timestamp(&get_price_unsafe(*price_identifier)); update_timestamp > cached_timestamp } // ----------------------------------------------------------------------------- // Query the cached prices // // It is strongly recommended to update the cached prices using the functions above, // before using the functions below to query the cached data. /// Determine if a price feed for the given price_identifier exists public fun price_feed_exists(price_identifier: PriceIdentifier): bool { state::price_info_cached(price_identifier) } /// Get the latest available price cached for the given price identifier, if that price is /// no older than the stale price threshold. /// /// Please refer to the documentation at https://docs.pyth.network/documentation/pythnet-price-feeds/best-practices for /// how to how this price safely. /// /// Important: Pyth uses an on-demand update model, where consumers need to update the /// cached prices before using them. Please read more about this at https://docs.pyth.network/documentation/pythnet-price-feeds/on-demand. /// get_price() is likely to abort unless you call update_price_feeds() to update the cached price /// beforehand, as the cached prices may be older than the stale price threshold. /// /// Note that the price_identifier does not correspond to a seperate Aptos account: /// all price feeds are stored in the single pyth account. The price identifier is an /// opaque identifier for a price feed. public fun get_price(price_identifier: PriceIdentifier): Price { get_price_no_older_than(price_identifier, state::get_stale_price_threshold_secs()) } /// Get the latest available price cached for the given price identifier, if that price is /// no older than the given age. public fun get_price_no_older_than(price_identifier: PriceIdentifier, max_age_secs: u64): Price { let price = get_price_unsafe(price_identifier); check_price_is_fresh(&price, max_age_secs); price } /// Get the latest available price cached for the given price identifier. /// /// WARNING: the returned price can be from arbitrarily far in the past. /// This function makes no guarantees that the returned price is recent or /// useful for any particular application. Users of this function should check /// the returned timestamp to ensure that the returned price is sufficiently /// recent for their application. The checked get_price_no_older_than() /// function should be used in preference to this. public fun get_price_unsafe(price_identifier: PriceIdentifier): Price { price_feed::get_price( price_info::get_price_feed(&state::get_latest_price_info(price_identifier))) } fun abs_diff(x: u64, y: u64): u64 { if (x > y) { return x - y } else { return y - x } } /// Get the stale price threshold: the amount of time after which a cached price /// is considered stale and no longer returned by get_price()/get_ema_price(). public fun get_stale_price_threshold_secs(): u64 { state::get_stale_price_threshold_secs() } fun check_price_is_fresh(price: &Price, max_age_secs: u64) { let age = abs_diff(timestamp::now_seconds(), price::get_timestamp(price)); assert!(age < max_age_secs, error::stale_price_update()); } /// Get the latest available exponentially moving average price cached for the given /// price identifier, if that price is no older than the stale price threshold. /// /// Important: Pyth uses an on-demand update model, where consumers need to update the /// cached prices before using them. Please read more about this at https://docs.pyth.network/documentation/pythnet-price-feeds/on-demand. /// get_ema_price() is likely to abort unless you call update_price_feeds() to update the cached price /// beforehand, as the cached prices may be older than the stale price threshold. public fun get_ema_price(price_identifier: PriceIdentifier): Price { get_ema_price_no_older_than(price_identifier, state::get_stale_price_threshold_secs()) } /// Get the latest available exponentially moving average price cached for the given price identifier, /// if that price is no older than the given age. public fun get_ema_price_no_older_than(price_identifier: PriceIdentifier, max_age_secs: u64): Price { let price = get_ema_price_unsafe(price_identifier); check_price_is_fresh(&price, max_age_secs); price } /// Get the latest available exponentially moving average price cached for the given price identifier. /// /// WARNING: the returned price can be from arbitrarily far in the past. /// This function makes no guarantees that the returned price is recent or /// useful for any particular application. Users of this function should check /// the returned timestamp to ensure that the returned price is sufficiently /// recent for their application. The checked get_ema_price_no_older_than() /// function should be used in preference to this. public fun get_ema_price_unsafe(price_identifier: PriceIdentifier): Price { price_feed::get_ema_price( price_info::get_price_feed(&state::get_latest_price_info(price_identifier))) } /// Get the number of AptosCoin's required to perform the given price updates. /// /// Please read more information about the update fee here: https://docs.pyth.network/documentation/pythnet-price-feeds/on-demand#fees public fun get_update_fee(update_data: &vector>): u64 { let i = 0; let total_updates = 0; while (i < vector::length(update_data)) { let cur = cursor::init(*vector::borrow(update_data, i)); let header: u64 = deserialize::deserialize_u32(&mut cur); if (header == PYTHNET_ACCUMULATOR_UPDATE_MAGIC) { //TODO: this may be expensive and can be optimized by not verifying the messages let updates = parse_and_verify_accumulator_message(&mut cur); total_updates = total_updates + vector::length(&updates); } else { total_updates = total_updates + 1; }; cursor::rest(cur); i = i + 1; }; state::get_base_update_fee() * total_updates } } // ----------------------------------------------------------------------------- // Tests #[test_only] module pyth::pyth_test { use pyth::pyth; use pyth::price_identifier::{Self}; use pyth::price_info::{Self, PriceInfo}; use pyth::price_feed::{Self}; use aptos_framework::coin::{Self, Coin, BurnCapability, MintCapability}; use aptos_framework::aptos_coin::{Self, AptosCoin}; use pyth::i64; use pyth::price; use pyth::data_source::{Self, DataSource}; use aptos_framework::timestamp; use std::vector; use wormhole::external_address; use std::account; use std::signer; use wormhole::wormhole; #[test_only] fun setup_test( aptos_framework: &signer, stale_price_threshold: u64, governance_emitter_chain_id: u64, governance_emitter_address: vector, data_sources: vector, update_fee: u64, to_mint: u64): (BurnCapability, MintCapability, Coin) { // Initialize wormhole with a large message collection fee wormhole::wormhole_test::setup(100000); // Set the current time timestamp::update_global_time_for_test_secs(1663680745); // Deploy and initialize a test instance of the Pyth contract let deployer = account::create_signer_with_capability(& account::create_test_signer_cap(@0x277fa055b6a73c42c0662d5236c65c864ccbf2d4abd21f174a30c8b786eab84b)); let (_pyth, signer_capability) = account::create_resource_account(&deployer, b"pyth"); pyth::init_test(signer_capability, stale_price_threshold, governance_emitter_chain_id, governance_emitter_address, data_sources, update_fee); let (burn_capability, mint_capability) = aptos_coin::initialize_for_test(aptos_framework); let coins = coin::mint(to_mint, &mint_capability); (burn_capability, mint_capability, coins) } #[test_only] fun cleanup_test(burn_capability: BurnCapability, mint_capability: MintCapability) { coin::destroy_mint_cap(mint_capability); coin::destroy_burn_cap(burn_capability); } #[test_only] fun get_mock_price_infos(): vector { vector[ price_info::new( 1663680747, 1663074349, price_feed::new( price_identifier::from_byte_vec(x"c6c75c89f14810ec1c54c03ab8f1864a4c4032791f05747f560faec380a695d1"), price::new(i64::new(1557, false), 7, i64::new(5, true), 1663680740), price::new(i64::new(1500, false), 3, i64::new(5, true), 1663680740), ), ), price_info::new( 1663680747, 1663074349, price_feed::new( price_identifier::from_byte_vec(x"3b9551a68d01d954d6387aff4df1529027ffb2fee413082e509feb29cc4904fe"), price::new(i64::new(1050, false), 3, i64::new(5, true), 1663680745), price::new(i64::new(1483, false), 3, i64::new(5, true), 1663680745), ), ), price_info::new( 1663680747, 1663074349, price_feed::new( price_identifier::from_byte_vec(x"33832fad6e36eb05a8972fe5f219b27b5b2bb2230a79ce79beb4c5c5e7ecc76d"), price::new(i64::new(1010, false), 2, i64::new(5, true), 1663680745), price::new(i64::new(1511, false), 3, i64::new(5, true), 1663680745), ), ), price_info::new( 1663680747, 1663074349, price_feed::new( price_identifier::from_byte_vec(x"21a28b4c6619968bd8c20e95b0aaed7df2187fd310275347e0376a2cd7427db8"), price::new(i64::new(1739, false), 1, i64::new(5, true), 1663680745), price::new(i64::new(1508, false), 3, i64::new(5, true), 1663680745), ), ), ] } #[test_only] /// A vector containing a single VAA with: /// - emitter chain ID 17 /// - emitter address 0x71f8dcb863d176e2c420ad6610cf687359612b6fb392e0642b0ca6b1f186aa3b /// - payload corresponding to the batch price attestation of the prices returned by get_mock_price_infos() const TEST_VAAS: vector> = vector[x"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"]; #[test_only] const TEST_ACCUMULATOR: vector = x"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"; #[test_only] const TEST_ACCUMULATOR_3_MSGS: vector = x"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"; #[test_only] const TEST_ACCUMULATOR_3_MSGS_LATER: vector = x"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"; #[test_only] const TEST_ACCUMULATOR_INVALID_PROOF_1: vector = x"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"; #[test_only] const TEST_ACCUMULATOR_INVALID_ACC_MSG: vector = x"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"; #[test_only] const TEST_ACCUMULATOR_INVALID_WH_MSG: vector = x"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"; #[test_only] const TEST_ACCUMULATOR_INVALID_MAJOR_VERSION: vector = x"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"; #[test_only] const TEST_ACCUMULATOR_INCREASED_MINOR_VERSION: vector = x"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"; #[test_only] const TEST_ACCUMULATOR_EXTRA_PAYLOAD: vector = x"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"; #[test_only] /// Allow anyone to update the cache with given updates. For testing purpose only. public fun update_cache_for_test(updates: vector) { pyth::update_cache(updates); } #[test(aptos_framework = @aptos_framework)] fun test_get_update_fee(aptos_framework: &signer) { let single_update_fee = 50; let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 23, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", vector[], 50, 0); // Pass in a single VAA assert!(pyth::get_update_fee(&vector[ x"fb1543888001083cf2e6ef3afdcf827e89b11efd87c563638df6e1995ada9f93", ]) == single_update_fee, 1); // Pass in multiple VAAs assert!(pyth::get_update_fee(&vector[ x"4ee17a1a4524118de513fddcf82b77454e51be5d6fc9e29fc72dd6c204c0e4fa", x"c72fdf81cfc939d4286c93fbaaae2eec7bae28a5926fa68646b43a279846ccc1", x"d9a8123a793529c31200339820a3210059ecace6c044f81ecad62936e47ca049", x"84e4f21b3e65cef47fda25d15b4eddda1edf720a1d062ccbf441d6396465fbe6", x"9e73f9041476a93701a0b9c7501422cc2aa55d16100bec628cf53e0281b6f72f" ]) == 250, 1); coin::destroy_zero(coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 6, location = wormhole::vaa)] fun test_update_price_feeds_corrupt_vaa(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 23, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", vector[], 50, 100); // Pass in a corrupt VAA, which should fail deseriaizing let corrupt_vaa = x"90F8bf6A479f320ead074411a4B0e7944Ea8c9C1"; pyth::update_price_feeds(vector[corrupt_vaa], coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65539, location = pyth::pyth)] fun test_update_price_feeds_invalid_data_source(aptos_framework: &signer) { // Initialize the contract with some valid data sources, excluding our test VAA's source let data_sources = vector[ data_source::new( 4, external_address::from_bytes(x"0000000000000000000000000000000000000000000000000000000000007742")), data_source::new( 5, external_address::from_bytes(x"0000000000000000000000000000000000000000000000000000000000007637")) ]; let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources, 50, 100); pyth::update_price_feeds(TEST_VAAS, coins); cleanup_test(burn_capability, mint_capability); } #[test_only] fun data_sources_for_test_vaa(): vector { // Set some valid data sources, including our test VAA's source vector[ data_source::new( 1, external_address::from_bytes(x"0000000000000000000000000000000000000000000000000000000000000004")), data_source::new( 5, external_address::from_bytes(x"0000000000000000000000000000000000000000000000000000000000007637")), data_source::new( 17, external_address::from_bytes(x"71f8dcb863d176e2c420ad6610cf687359612b6fb392e0642b0ca6b1f186aa3b")), data_source::new( 1, external_address::from_bytes(x"71f8dcb863d176e2c420ad6610cf687359612b6fb392e0642b0ca6b1f186aa3b")), ] } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65542, location = pyth::pyth)] fun test_update_price_feeds_insufficient_fee(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), // Update fee 50, // Coins provided to update < update fee 20); pyth::update_price_feeds(TEST_VAAS, coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_update_price_feeds_success(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), 50, 100); // Update the price feeds from the VAA pyth::update_price_feeds(TEST_VAAS, coins); // Check that the cache has been updated let expected = get_mock_price_infos(); check_price_feeds_cached(&expected); cleanup_test(burn_capability, mint_capability); } #[test_only] fun setup_accumulator_test( aptos_framework: &signer, data_sources: vector, to_mint: u64 ): (BurnCapability, MintCapability, Coin) { let aptos_framework_account = std::account::create_account_for_test(@aptos_framework); std::timestamp::set_time_has_started_for_testing(&aptos_framework_account); wormhole::init_test( 22, 1, x"0000000000000000000000000000000000000000000000000000000000000004", x"7E5F4552091A69125d5DfCb7b8C2659029395Bdf", 100000 ); // Set the current time timestamp::update_global_time_for_test_secs(1687276659); // Deploy and initialize a test instance of the Pyth contract let deployer = account::create_signer_with_capability( &account::create_test_signer_cap(@0x277fa055b6a73c42c0662d5236c65c864ccbf2d4abd21f174a30c8b786eab84b) ); let (_pyth, signer_capability) = account::create_resource_account(&deployer, b"pyth"); pyth::init_test(signer_capability, 500, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources, 50); let (burn_capability, mint_capability) = aptos_coin::initialize_for_test(aptos_framework); let coins = coin::mint(to_mint, &mint_capability); (burn_capability, mint_capability, coins) } #[test(aptos_framework = @aptos_framework)] fun test_accumulator_update_price(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 50 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR], coins); let expected = vector[ price_info::new( 1663680747, 1663074349, price_feed::new( price_identifier::from_byte_vec( x"b10e2d527612073b26eecdfd717e6a320cf44b4afac2b0732d9fcbe2b7fa0cf6" ), price::new( i64::new(6887568746747646632, false), 13092246197863718329, i64::new(1559537863, false), 1687276661 ), price::new( i64::new(4772242609775910581, false), 358129956189946877, i64::new(1559537863, false), 1687276661 ), ), )]; check_price_feeds_cached(&expected); cleanup_test(burn_capability, mint_capability); } #[test_only] fun check_accumulator_test_price_feeds(offset: u64) { let i = 0; let feed_ids = vector[x"b10e2d527612073b26eecdfd717e6a320cf44b4afac2b0732d9fcbe2b7fa0cf6", x"6e1540171b6c0c960b71a7020d9f60077f6af931a8bbf590da0223dacf75c7af", x"31ecc21a745e3968a04e9570e4425bc18fa8019c68028196b546d1669c200c68"]; let expected: vector = vector[]; while (i < 3) { vector::push_back(&mut expected, price_info::new( 1663680747, 1663074349, price_feed::new( price_identifier::from_byte_vec( *vector::borrow(&feed_ids, i) ), price::new( i64::new(100 + i + offset, false), 50 + i + offset, i64::new(9 + i + offset, false), 1687276660 + i + offset ), price::new( i64::new(99 + i + offset, false), 52 + i + offset, i64::new(9 + i + offset, false), 1687276660 + i + offset ), ), )); i = i + 1; }; check_price_feeds_cached(&expected); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65542, location = pyth::pyth)] fun test_accumulator_update_price_feeds_insufficient_fee(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 149 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_3_MSGS], coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_accumulator_update_price_multi_feed(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 150 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_3_MSGS], coins); check_accumulator_test_price_feeds(0); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_accumulator_update_price_out_of_order(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 300 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_3_MSGS_LATER, TEST_ACCUMULATOR_3_MSGS], coins); check_accumulator_test_price_feeds(10); // we pass the old message again in a separate call to make sure it will not overwrite the recent values in neither case let coins_second_call = coin::mint(150, &mint_capability); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_3_MSGS], coins_second_call); check_accumulator_test_price_feeds(10); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_accumulator_update_price_multi_msg(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 150 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_3_MSGS], coins); check_accumulator_test_price_feeds(0); let coins_second_call = coin::mint(150, &mint_capability); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_3_MSGS_LATER], coins_second_call); check_accumulator_test_price_feeds(10); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65562, location = pyth::pyth)] fun test_accumulator_invalid_payload(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 100 ); pyth::update_price_feeds(vector[x"504e415500000000"], coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65563, location = pyth::pyth)] fun test_accumulator_invalid_accumulator_message(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 100 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_INVALID_ACC_MSG], coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65564, location = pyth::pyth)] fun test_accumulator_invalid_wormhole_message(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 100 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_INVALID_WH_MSG], coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65562, location = pyth::pyth)] fun test_accumulator_invalid_major_version(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 100 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_INVALID_MAJOR_VERSION], coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_accumulator_forward_compatibility(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 100 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_INCREASED_MINOR_VERSION], coins); let coins_second_call = coin::mint(100, &mint_capability); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_EXTRA_PAYLOAD], coins_second_call); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65539, location = pyth::pyth)] fun test_accumulator_invalid_data_source(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test(aptos_framework, vector[data_source::new( 2, // correct emitter chain is 1 external_address::from_bytes(x"71f8dcb863d176e2c420ad6610cf687359612b6fb392e0642b0ca6b1f186aa3b") )], 100); pyth::update_price_feeds(vector[TEST_ACCUMULATOR], coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_accumulator_update_fee(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 0 ); let single_update_fee = 50; assert!(pyth::get_update_fee(&vector[ TEST_ACCUMULATOR, ]) == single_update_fee, 1); assert!(pyth::get_update_fee(&vector[ TEST_ACCUMULATOR, TEST_ACCUMULATOR, ]) == single_update_fee * 2, 1); assert!(pyth::get_update_fee(&vector[ TEST_ACCUMULATOR, TEST_ACCUMULATOR_3_MSGS, ]) == single_update_fee * 4, 1); assert!(pyth::get_update_fee(&vector[ TEST_ACCUMULATOR, TEST_ACCUMULATOR_3_MSGS, x"deaddeaddead", // random non-accumulator data ]) == single_update_fee * 5, 1); coin::destroy_zero(coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65565, location = pyth::pyth)] fun test_accumulator_invalid_proof(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_accumulator_test( aptos_framework, data_sources_for_test_vaa(), 100 ); pyth::update_price_feeds(vector[TEST_ACCUMULATOR_INVALID_PROOF_1], coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_update_price_feeds_with_funder(aptos_framework: &signer) { let update_fee = 50; let initial_balance = 75; let (burn_capability, mint_capability, coins) = setup_test( aptos_framework, 500, 23, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), update_fee, initial_balance ); // Create a test funder account and register it to store funds let funder_addr = @0xbfbffd8e2af9a3e3ce20d2d2b22bd640; let funder = account::create_account_for_test(funder_addr); coin::register(&funder); coin::deposit(funder_addr, coins); assert!(pyth::get_update_fee(&TEST_VAAS) == update_fee, 1); assert!(coin::balance(signer::address_of(&funder)) == initial_balance, 1); assert!(coin::balance(@pyth) == 0, 1); // Update the price feeds using the funder pyth::update_price_feeds_with_funder(&funder, TEST_VAAS); // Check that the price feeds are now cached check_price_feeds_cached(&get_mock_price_infos()); // Check that the funder's balance has decreased by the update_fee amount assert!(coin::balance(signer::address_of(&funder)) == initial_balance - pyth::get_update_fee(&TEST_VAAS), 1); // Check that the amount has been transferred to the Pyth contract assert!(coin::balance(@pyth) == pyth::get_update_fee(&TEST_VAAS), 1); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65542, location = aptos_framework::coin)] fun test_update_price_feeds_with_funder_insufficient_balance(aptos_framework: &signer) { let update_fee = 50; let initial_balance = 25; let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 23, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), update_fee, initial_balance); // Create a test funder account and register it to store funds let funder_addr = @0xbfbffd8e2af9a3e3ce20d2d2b22bd640; let funder = account::create_account_for_test(funder_addr); coin::register(&funder); coin::deposit(funder_addr, coins); assert!(pyth::get_update_fee(&TEST_VAAS) == update_fee, 1); assert!(coin::balance(signer::address_of(&funder)) == initial_balance, 1); assert!(coin::balance(@pyth) == 0, 1); // Update the price feeds using the funder pyth::update_price_feeds_with_funder(&funder, TEST_VAAS); cleanup_test(burn_capability, mint_capability); } #[test_only] fun check_price_feeds_cached(expected: &vector) { // Check that we can retrieve the correct current price and ema price for each price feed let i = 0; while (i < vector::length(expected)) { let price_feed = price_info::get_price_feed(vector::borrow(expected, i)); let price = price_feed::get_price(price_feed); let price_identifier = *price_feed::get_price_identifier(price_feed); assert!(pyth::price_feed_exists(price_identifier), 1); let cached_price = pyth::get_price(price_identifier); assert!(cached_price == price, 1); let ema_price = price_feed::get_ema_price(price_feed); let cached_ema_price = pyth::get_ema_price(price_identifier); assert!(cached_ema_price == ema_price, 1); i = i + 1; }; } #[test(aptos_framework = @aptos_framework)] fun test_update_cache(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), 50, 0); let updates = get_mock_price_infos(); // Check that initially the price feeds are not cached let i = 0; while (i < vector::length(&updates)) { let price_feed = price_info::get_price_feed(vector::borrow(&updates, i)); assert!(!pyth::price_feed_exists(*price_feed::get_price_identifier(price_feed)), 1); i = i + 1; }; // Submit the updates pyth::update_cache(updates); // Check that the price feeds are now cached check_price_feeds_cached(&updates); cleanup_test(burn_capability, mint_capability); coin::destroy_zero(coins); } #[test(aptos_framework = @aptos_framework)] fun test_update_cache_old_update(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 1000, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), 50, 0); // Submit a price update let timestamp = 1663680700; let price_identifier = price_identifier::from_byte_vec(x"baa284eaf23edf975b371ba2818772f93dbae72836bbdea28b07d40f3cf8b485"); let price = price::new(i64::new(7648, false), 674, i64::new(8, true), timestamp); let ema_price = price::new(i64::new(1536, true), 869, i64::new(100, false), timestamp); let update = price_info::new( 1257278600, 1690226180, price_feed::new( price_identifier, price, ema_price, ) ); pyth::update_cache(vector[update]); // Check that we can retrieve the current price assert!(pyth::get_price(price_identifier) == price, 1); // Attempt to update the price with an update older than the current cached one let old_price = price::new(i64::new(1243, true), 9802, i64::new(6, false), timestamp - 200); let old_ema_price = price::new(i64::new(8976, true), 234, i64::new(897, false), timestamp - 200); let old_update = price_info::new( 1257278600, 1690226180, price_feed::new( price_identifier, old_price, old_ema_price, ) ); pyth::update_cache(vector[old_update]); // Confirm that the current price and ema price didn't change assert!(pyth::get_price(price_identifier) == price, 1); assert!(pyth::get_ema_price(price_identifier) == ema_price, 1); // Update the cache with a fresh update let fresh_price = price::new(i64::new(4857, true), 9979, i64::new(243, false), timestamp + 200); let fresh_ema_price = price::new(i64::new(74637, false), 9979, i64::new(1433, false), timestamp + 1); let fresh_update = price_info::new( 1257278600, 1690226180, price_feed::new( price_identifier, fresh_price, fresh_ema_price, ) ); pyth::update_cache(vector[fresh_update]); // Confirm that the current price was updated assert!(pyth::get_price(price_identifier) == fresh_price, 1); assert!(pyth::get_ema_price(price_identifier) == fresh_ema_price, 1); cleanup_test(burn_capability, mint_capability); coin::destroy_zero(coins); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 524292, location = pyth::pyth)] fun test_stale_price_threshold_exceeded(aptos_framework: &signer) { let stale_price_threshold = 500; let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, stale_price_threshold, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), 50, 0); // Submit a price update let current_timestamp = timestamp::now_seconds(); let price_identifier = price_identifier::from_byte_vec(x"baa284eaf23edf975b371ba2818772f93dbae72836bbdea28b07d40f3cf8b485"); let price = price::new(i64::new(7648, false), 674, i64::new(8, true), current_timestamp); let update = price_info::new( 1257278600, 1690226180, price_feed::new( price_identifier, price, price::new(i64::new(1536, true), 869, i64::new(100, false), 1257212500), ) ); pyth::update_cache(vector[update]); assert!(pyth::get_price(price_identifier) == price, 1); // Now advance the clock on the target chain, until the age of the cached update exceeds the // stale_price_threshold. timestamp::update_global_time_for_test_secs(current_timestamp + stale_price_threshold); // Check that we can access the price if we increase the threshold by 1 assert!(pyth::get_price_no_older_than( price_identifier, pyth::get_stale_price_threshold_secs() + 1) == price, 1); // However, retrieving the latest price fails assert!(pyth::get_price(price_identifier) == price, 1); cleanup_test(burn_capability, mint_capability); coin::destroy_zero(coins); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 524292, location = pyth::pyth)] fun test_stale_price_threshold_exceeded_ema(aptos_framework: &signer) { let stale_price_threshold = 500; let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, stale_price_threshold, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), 50, 0); // Submit a price update let current_timestamp = timestamp::now_seconds(); let price_identifier = price_identifier::from_byte_vec(x"baa284eaf23edf975b371ba2818772f93dbae72836bbdea28b07d40f3cf8b485"); let ema_price = price::new(i64::new(1536, true), 869, i64::new(100, false), current_timestamp); let update = price_info::new( 1257278600, 1690226180, price_feed::new( price_identifier, price::new(i64::new(7648, false), 674, i64::new(8, true), 1257212500), ema_price, ) ); pyth::update_cache(vector[update]); // Check that the EMA price has been updated assert!(pyth::get_ema_price(price_identifier) == ema_price, 1); // Now advance the clock on the target chain, until the age of the cached update exceeds the // stale_price_threshold. timestamp::update_global_time_for_test_secs(current_timestamp + stale_price_threshold); // Check that we can access the EMA price if we increase the threshold by 1 assert!(pyth::get_ema_price_no_older_than( price_identifier, pyth::get_stale_price_threshold_secs() + 1) == ema_price, 1); // However, retrieving the latest EMA price fails assert!(pyth::get_ema_price(price_identifier) == ema_price, 1); cleanup_test(burn_capability, mint_capability); coin::destroy_zero(coins); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 65541, location = pyth::pyth)] fun test_update_price_feeds_if_fresh_invalid_length(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), 50, 0); // Update the price feeds let bytes = vector[vector[0u8, 1u8, 2u8]]; let price_identifiers = vector[ x"baa284eaf23edf975b371ba2818772f93dbae72836bbdea28b07d40f3cf8b485", x"c9d5fe0d836688f4c88c221415d23e4bcabee21a6a21124bfcc9a5410a297818", x"eaa020c61cc479712813461ce153894a96a6c00b21ed0cfc2798d1f9a9e9c94a", ]; let publish_times = vector[ 734639463 ]; pyth::update_price_feeds_if_fresh(bytes, price_identifiers, publish_times, coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_update_price_feeds_if_fresh_fresh_data(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), 50, 50); // Update the price feeds let bytes = TEST_VAAS; let price_identifiers = vector[ x"c6c75c89f14810ec1c54c03ab8f1864a4c4032791f05747f560faec380a695d1", x"3b9551a68d01d954d6387aff4df1529027ffb2fee413082e509feb29cc4904fe", x"33832fad6e36eb05a8972fe5f219b27b5b2bb2230a79ce79beb4c5c5e7ecc76d", x"21a28b4c6619968bd8c20e95b0aaed7df2187fd310275347e0376a2cd7427db8", ]; let publish_times = vector[ 1663680745, 1663680730, 1663680760, 1663680720 ]; pyth::update_price_feeds_if_fresh(bytes, price_identifiers, publish_times, coins); // Check that the cache has been updated let expected = get_mock_price_infos(); check_price_feeds_cached(&expected); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] fun test_update_price_feeds_if_fresh_with_funder_fresh_data(aptos_framework: &signer) { let update_fee = 50; let initial_balance = 75; let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 23, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), update_fee, initial_balance); // Create a test funder account and register it to store funds let funder_addr = @0xbfbffd8e2af9a3e3ce20d2d2b22bd640; let funder = account::create_account_for_test(funder_addr); coin::register(&funder); coin::deposit(funder_addr, coins); assert!(pyth::get_update_fee(&TEST_VAAS) == update_fee, 1); assert!(coin::balance(signer::address_of(&funder)) == initial_balance, 1); assert!(coin::balance(@pyth) == 0, 1); // Update the price feeds using the funder let bytes = TEST_VAAS; let price_identifiers = vector[ x"c6c75c89f14810ec1c54c03ab8f1864a4c4032791f05747f560faec380a695d1", x"3b9551a68d01d954d6387aff4df1529027ffb2fee413082e509feb29cc4904fe", x"33832fad6e36eb05a8972fe5f219b27b5b2bb2230a79ce79beb4c5c5e7ecc76d", x"21a28b4c6619968bd8c20e95b0aaed7df2187fd310275347e0376a2cd7427db8", ]; let publish_times = vector[ 1663680790, 1663680730, 1663680760, 1663680720 ]; pyth::update_price_feeds_if_fresh_with_funder(&funder, bytes, price_identifiers, publish_times); // Check that the price feeds are now cached check_price_feeds_cached(&get_mock_price_infos()); // Check that the funder's balance has decreased by the update_fee amount assert!(coin::balance(signer::address_of(&funder)) == initial_balance - pyth::get_update_fee(&TEST_VAAS), 1); // Check that the amount has been transferred to the Pyth contract assert!(coin::balance(@pyth) == pyth::get_update_fee(&TEST_VAAS), 1); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 524295, location = pyth::pyth)] fun test_update_price_feeds_if_fresh_stale_data(aptos_framework: &signer) { let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 1, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), 50, 50); // First populate the cache pyth::update_cache(get_mock_price_infos()); // Now attempt to update the price feeds with publish_times that are older than those we have cached // This should abort with error::no_fresh_data() let bytes = TEST_VAAS; let price_identifiers = vector[ x"c6c75c89f14810ec1c54c03ab8f1864a4c4032791f05747f560faec380a695d1", x"3b9551a68d01d954d6387aff4df1529027ffb2fee413082e509feb29cc4904fe", x"33832fad6e36eb05a8972fe5f219b27b5b2bb2230a79ce79beb4c5c5e7ecc76d", x"21a28b4c6619968bd8c20e95b0aaed7df2187fd310275347e0376a2cd7427db8", ]; let publish_times = vector[ 67, 35, 26, 64 ]; pyth::update_price_feeds_if_fresh(bytes, price_identifiers, publish_times, coins); cleanup_test(burn_capability, mint_capability); } #[test(aptos_framework = @aptos_framework)] #[expected_failure(abort_code = 524295, location = pyth::pyth)] fun test_update_price_feeds_if_fresh_with_funder_stale_data(aptos_framework: &signer) { let update_fee = 50; let initial_balance = 75; let (burn_capability, mint_capability, coins) = setup_test(aptos_framework, 500, 23, x"5d1f252d5de865279b00c84bce362774c2804294ed53299bc4a0389a5defef92", data_sources_for_test_vaa(), update_fee, initial_balance); // Create a test funder account and register it to store funds let funder_addr = @0xbfbffd8e2af9a3e3ce20d2d2b22bd640; let funder = account::create_account_for_test(funder_addr); coin::register(&funder); coin::deposit(funder_addr, coins); assert!(pyth::get_update_fee(&TEST_VAAS) == update_fee, 1); assert!(coin::balance(signer::address_of(&funder)) == initial_balance, 1); assert!(coin::balance(@pyth) == 0, 1); // First populate the cache pyth::update_cache(get_mock_price_infos()); // Now attempt to update the price feeds with publish_times that are older than those we have cached // This should abort with error::no_fresh_data() let bytes = TEST_VAAS; let price_identifiers = vector[ x"c6c75c89f14810ec1c54c03ab8f1864a4c4032791f05747f560faec380a695d1", x"3b9551a68d01d954d6387aff4df1529027ffb2fee413082e509feb29cc4904fe", x"33832fad6e36eb05a8972fe5f219b27b5b2bb2230a79ce79beb4c5c5e7ecc76d", x"21a28b4c6619968bd8c20e95b0aaed7df2187fd310275347e0376a2cd7427db8", ]; let publish_times = vector[ 100, 76, 29, 64 ]; pyth::update_price_feeds_if_fresh_with_funder(&funder, bytes, price_identifiers, publish_times); cleanup_test(burn_capability, mint_capability); } }