Files
grin-node/api/src/foreign.rs
T
hashmap 9e51e86538 Use generic types instead of trait objects in tx pool (#3308)
Tx pool takes some parameters as trait objects. It's not an idiomatic Rust code, in this particular case we should use generic types. Trait object makes sense when we accept in runtime different concrete types which implement the trait as a value of the same field. It's not the case here. Trait objects come with a price - instead of method dispatch in compile time we have to accept runtime dispatch. My guess we did it to not clutter the code with type parameters, which is understandable but still suboptimal.
2020-04-30 17:41:49 +02:00

347 lines
10 KiB
Rust

// Copyright 2020 The Grin Developers
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//! Foreign API External Definition
use crate::chain::{Chain, SyncState};
use crate::core::core::hash::Hash;
use crate::core::core::transaction::Transaction;
use crate::core::core::verifier_cache::VerifierCache;
use crate::handlers::blocks_api::{BlockHandler, HeaderHandler};
use crate::handlers::chain_api::{ChainHandler, KernelHandler, OutputHandler};
use crate::handlers::pool_api::PoolHandler;
use crate::handlers::transactions_api::TxHashSetHandler;
use crate::handlers::version_api::VersionHandler;
use crate::pool::{self, BlockChain, PoolAdapter, PoolEntry};
use crate::rest::*;
use crate::types::{
BlockHeaderPrintable, BlockPrintable, LocatedTxKernel, OutputListing, OutputPrintable, Tip,
Version,
};
use crate::util::RwLock;
use std::sync::Weak;
/// Main interface into all node API functions.
/// Node APIs are split into two seperate blocks of functionality
/// called the ['Owner'](struct.Owner.html) and ['Foreign'](struct.Foreign.html) APIs
///
/// Methods in this API are intended to be 'single use'.
///
pub struct Foreign<B, P, V>
where
B: BlockChain,
P: PoolAdapter,
V: VerifierCache + 'static,
{
pub chain: Weak<Chain>,
pub tx_pool: Weak<RwLock<pool::TransactionPool<B, P, V>>>,
pub sync_state: Weak<SyncState>,
}
impl<B, P, V> Foreign<B, P, V>
where
B: BlockChain,
P: PoolAdapter,
V: VerifierCache + 'static,
{
/// Create a new API instance with the chain, transaction pool, peers and `sync_state`. All subsequent
/// API calls will operate on this instance of node API.
///
/// # Arguments
/// * `chain` - A non-owning reference of the chain.
/// * `tx_pool` - A non-owning reference of the transaction pool.
/// * `peers` - A non-owning reference of the peers.
/// * `sync_state` - A non-owning reference of the `sync_state`.
///
/// # Returns
/// * An instance of the Node holding references to the current chain, transaction pool, peers and sync_state.
///
pub fn new(
chain: Weak<Chain>,
tx_pool: Weak<RwLock<pool::TransactionPool<B, P, V>>>,
sync_state: Weak<SyncState>,
) -> Self {
Foreign {
chain,
tx_pool,
sync_state,
}
}
/// Gets block header given either a height, a hash or an unspent output commitment. Only one parameters is needed.
/// If multiple parameters are provided only the first one in the list is used.
///
/// # Arguments
/// * `height` - block height.
/// * `hash` - block hash.
/// * `commit` - output commitment.
///
/// # Returns
/// * Result Containing:
/// * A [`BlockHeaderPrintable`](types/struct.BlockHeaderPrintable.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_header(
&self,
height: Option<u64>,
hash: Option<Hash>,
commit: Option<String>,
) -> Result<BlockHeaderPrintable, Error> {
let header_handler = HeaderHandler {
chain: self.chain.clone(),
};
let hash = header_handler.parse_inputs(height, hash, commit)?;
header_handler.get_header_v2(&hash)
}
/// Gets block details given either a height, a hash or an unspent output commitment. Only one parameters is needed.
/// If multiple parameters are provided only the first one in the list is used.
///
/// # Arguments
/// * `height` - block height.
/// * `hash` - block hash.
/// * `commit` - output commitment.
///
/// # Returns
/// * Result Containing:
/// * A [`BlockPrintable`](types/struct.BlockPrintable.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_block(
&self,
height: Option<u64>,
hash: Option<Hash>,
commit: Option<String>,
) -> Result<BlockPrintable, Error> {
let block_handler = BlockHandler {
chain: self.chain.clone(),
};
let hash = block_handler.parse_inputs(height, hash, commit)?;
block_handler.get_block(&hash, true, true)
}
/// Returns the node version and block header version (used by grin-wallet).
///
/// # Returns
/// * Result Containing:
/// * A [`Version`](types/struct.Version.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_version(&self) -> Result<Version, Error> {
let version_handler = VersionHandler {
chain: self.chain.clone(),
};
version_handler.get_version()
}
/// Returns details about the state of the current fork tip.
///
/// # Returns
/// * Result Containing:
/// * A [`Tip`](types/struct.Tip.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_tip(&self) -> Result<Tip, Error> {
let chain_handler = ChainHandler {
chain: self.chain.clone(),
};
chain_handler.get_tip()
}
/// Returns a [`LocatedTxKernel`](types/struct.LocatedTxKernel.html) based on the kernel excess.
/// The `min_height` and `max_height` parameters are both optional.
/// If not supplied, `min_height` will be set to 0 and `max_height` will be set to the head of the chain.
/// The method will start at the block height `max_height` and traverse the kernel MMR backwards,
/// until either the kernel is found or `min_height` is reached.
///
/// # Arguments
/// * `excess` - kernel excess to look for.
/// * `min_height` - minimum height to stop the lookup.
/// * `max_height` - maximum height to start the lookup.
///
/// # Returns
/// * Result Containing:
/// * A [`LocatedTxKernel`](types/struct.LocatedTxKernel.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_kernel(
&self,
excess: String,
min_height: Option<u64>,
max_height: Option<u64>,
) -> Result<LocatedTxKernel, Error> {
let kernel_handler = KernelHandler {
chain: self.chain.clone(),
};
kernel_handler.get_kernel_v2(excess, min_height, max_height)
}
/// Retrieves details about specifics outputs. Supports retrieval of multiple outputs in a single request.
/// Support retrieval by both commitment string and block height.
///
/// # Arguments
/// * `commits` - a vector of unspent output commitments.
/// * `start_height` - start height to start the lookup.
/// * `end_height` - end height to stop the lookup.
/// * `include_proof` - whether or not to include the range proof in the response.
/// * `include_merkle_proof` - whether or not to include the merkle proof in the response.
///
/// # Returns
/// * Result Containing:
/// * An [`OutputPrintable`](types/struct.OutputPrintable.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_outputs(
&self,
commits: Option<Vec<String>>,
start_height: Option<u64>,
end_height: Option<u64>,
include_proof: Option<bool>,
include_merkle_proof: Option<bool>,
) -> Result<Vec<OutputPrintable>, Error> {
let output_handler = OutputHandler {
chain: self.chain.clone(),
};
output_handler.get_outputs_v2(
commits,
start_height,
end_height,
include_proof,
include_merkle_proof,
)
}
/// UTXO traversal. Retrieves last utxos since a `start_index` until a `max`.
///
/// # Arguments
/// * `start_index` - start index in the MMR.
/// * `end_index` - optional index so stop in the MMR.
/// * `max` - max index in the MMR.
/// * `include_proof` - whether or not to include the range proof in the response.
///
/// # Returns
/// * Result Containing:
/// * An [`OutputListing`](types/struct.OutputListing.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_unspent_outputs(
&self,
start_index: u64,
end_index: Option<u64>,
max: u64,
include_proof: Option<bool>,
) -> Result<OutputListing, Error> {
let output_handler = OutputHandler {
chain: self.chain.clone(),
};
output_handler.get_unspent_outputs(start_index, end_index, max, include_proof)
}
/// Retrieves the PMMR indices based on the provided block height(s).
///
/// # Arguments
/// * `start_block_height` - start index in the MMR.
/// * `end_block_height` - optional index so stop in the MMR.
///
/// # Returns
/// * Result Containing:
/// * An [`OutputListing`](types/struct.OutputListing.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_pmmr_indices(
&self,
start_block_height: u64,
end_block_height: Option<u64>,
) -> Result<OutputListing, Error> {
let txhashset_handler = TxHashSetHandler {
chain: self.chain.clone(),
};
txhashset_handler.block_height_range_to_pmmr_indices(start_block_height, end_block_height)
}
/// Returns the number of transaction in the transaction pool.
///
/// # Returns
/// * Result Containing:
/// * `usize`
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_pool_size(&self) -> Result<usize, Error> {
let pool_handler = PoolHandler {
tx_pool: self.tx_pool.clone(),
};
pool_handler.get_pool_size()
}
/// Returns the number of transaction in the stem transaction pool.
///
/// # Returns
/// * Result Containing:
/// * `usize`
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_stempool_size(&self) -> Result<usize, Error> {
let pool_handler = PoolHandler {
tx_pool: self.tx_pool.clone(),
};
pool_handler.get_stempool_size()
}
/// Returns the unconfirmed transactions in the transaction pool.
/// Will not return transactions in the stempool.
///
/// # Returns
/// * Result Containing:
/// * A vector of [`PoolEntry`](types/struct.PoolEntry.html)
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn get_unconfirmed_transactions(&self) -> Result<Vec<PoolEntry>, Error> {
let pool_handler = PoolHandler {
tx_pool: self.tx_pool.clone(),
};
pool_handler.get_unconfirmed_transactions()
}
/// Push new transaction to our local transaction pool.
///
/// # Arguments
/// * `tx` - the Grin transaction to push.
/// * `fluff` - boolean to bypass Dandelion relay.
///
/// # Returns
/// * Result Containing:
/// * `Ok(())` if the transaction was pushed successfully
/// * or [`Error`](struct.Error.html) if an error is encountered.
///
pub fn push_transaction(&self, tx: Transaction, fluff: Option<bool>) -> Result<(), Error> {
let pool_handler = PoolHandler {
tx_pool: self.tx_pool.clone(),
};
pool_handler.push_transaction(tx, fluff)
}
}