solana/src/fullnode.rs

//! The `fullnode` module hosts all the fullnode microservices.

use bank::Bank;
use crdt::{Crdt, ReplicatedData, TestNode};
use entry_writer;
use ncp::Ncp;
use packet::BlobRecycler;
use rpu::Rpu;
use std::fs::File;
use std::io::Write;
use std::io::{stdin, stdout, BufReader};
use std::net::SocketAddr;
use std::net::UdpSocket;
use std::sync::atomic::AtomicBool;
use std::sync::{Arc, RwLock};
use std::thread::JoinHandle;
use std::time::Duration;
use streamer;
use tpu::Tpu;
use tvu::Tvu;

//use std::time::Duration;
pub struct FullNode {
    pub thread_hdls: Vec<JoinHandle<()>>,
}

impl FullNode {
    pub fn new(
        mut node: TestNode,
        leader: bool,
        infile: Option<String>,
        network_entry_for_validator: Option<SocketAddr>,
        outfile_for_leader: Option<String>,
        exit: Arc<AtomicBool>,
    ) -> FullNode {
        info!("creating bank...");
        let bank = Bank::default();
        let entry_height = if let Some(path) = infile {
            let f = File::open(path).unwrap();
            let mut r = BufReader::new(f);
            let entries =
                entry_writer::read_entries(&mut r).map(|e| e.expect("failed to parse entry"));
            info!("processing ledger...");
            bank.process_ledger(entries).expect("process_ledger")
        } else {
            let mut r = BufReader::new(stdin());
            let entries =
                entry_writer::read_entries(&mut r).map(|e| e.expect("failed to parse entry"));
            info!("processing ledger...");
            bank.process_ledger(entries).expect("process_ledger")
        };

        // entry_height is the network-wide agreed height of the ledger.
        //  initialize it from the input ledger
        info!("processed {} ledger...", entry_height);

        info!("creating networking stack...");

        let local_gossip_addr = node.sockets.gossip.local_addr().unwrap();
        let local_requests_addr = node.sockets.requests.local_addr().unwrap();
        info!(
            "starting... local gossip address: {} (advertising {})",
            local_gossip_addr, node.data.gossip_addr
        );
        if !leader {
            let testnet_addr = network_entry_for_validator.expect("validator requires entry");

            let network_entry_point = ReplicatedData::new_entry_point(testnet_addr);
            let server = FullNode::new_validator(
                bank,
                entry_height,
                node.data.clone(),
                node.sockets.requests,
                node.sockets.respond,
                node.sockets.replicate,
                node.sockets.gossip,
                node.sockets.repair,
                network_entry_point,
                exit.clone(),
            );
            info!(
                "validator ready... local request address: {} (advertising {}) connected to: {}",
                local_requests_addr, node.data.requests_addr, testnet_addr
            );
            server
        } else {
            node.data.current_leader_id = node.data.id.clone();
            let server = if let Some(file) = outfile_for_leader {
                FullNode::new_leader(
                    bank,
                    entry_height,
                    //Some(Duration::from_millis(1000)),
                    None,
                    node.data.clone(),
                    node.sockets.requests,
                    node.sockets.transaction,
                    node.sockets.broadcast,
                    node.sockets.respond,
                    node.sockets.gossip,
                    exit.clone(),
                    File::create(file).expect("opening ledger file"),
                )
            } else {
                FullNode::new_leader(
                    bank,
                    entry_height,
                    //Some(Duration::from_millis(1000)),
                    None,
                    node.data.clone(),
                    node.sockets.requests,
                    node.sockets.transaction,
                    node.sockets.broadcast,
                    node.sockets.respond,
                    node.sockets.gossip,
                    exit.clone(),
                    stdout(),
                )
            };
            info!(
                "leader ready... local request address: {} (advertising {})",
                local_requests_addr, node.data.requests_addr
            );
            server
        }
    }
    /// Create a server instance acting as a leader.
    ///
    /// ```text
    ///              .---------------------.
    ///              |  Leader             |
    ///              |                     |
    ///  .--------.  |  .-----.            |
    ///  |        |---->|     |            |
    ///  | Client |  |  | RPU |            |
    ///  |        |<----|     |            |
    ///  `----+---`  |  `-----`            |
    ///       |      |     ^               |
    ///       |      |     |               |
    ///       |      |  .--+---.           |
    ///       |      |  | Bank |           |
    ///       |      |  `------`           |
    ///       |      |     ^               |
    ///       |      |     |               |    .------------.
    ///       |      |  .--+--.   .-----.  |    |            |
    ///       `-------->| TPU +-->| NCP +------>| Validators |
    ///              |  `-----`   `-----`  |    |            |
    ///              |                     |    `------------`
    ///              `---------------------`
    /// ```
    pub fn new_leader<W: Write + Send + 'static>(
        bank: Bank,
        entry_height: u64,
        tick_duration: Option<Duration>,
        me: ReplicatedData,
        requests_socket: UdpSocket,
        transactions_socket: UdpSocket,
        broadcast_socket: UdpSocket,
        respond_socket: UdpSocket,
        gossip_socket: UdpSocket,
        exit: Arc<AtomicBool>,
        writer: W,
    ) -> Self {
        let bank = Arc::new(bank);
        let mut thread_hdls = vec![];
        let rpu = Rpu::new(bank.clone(), requests_socket, respond_socket, exit.clone());
        thread_hdls.extend(rpu.thread_hdls);

        let blob_recycler = BlobRecycler::default();
        let tpu = Tpu::new(
            bank.clone(),
            tick_duration,
            transactions_socket,
            blob_recycler.clone(),
            exit.clone(),
            writer,
        );
        thread_hdls.extend(tpu.thread_hdls);

        let crdt = Arc::new(RwLock::new(Crdt::new(me)));
        let window = streamer::default_window();
        let gossip_send_socket = UdpSocket::bind("0.0.0.0:0").expect("bind 0");
        let ncp = Ncp::new(
            crdt.clone(),
            window.clone(),
            gossip_socket,
            gossip_send_socket,
            exit.clone(),
        ).expect("Ncp::new");
        thread_hdls.extend(ncp.thread_hdls);

        let t_broadcast = streamer::broadcaster(
            broadcast_socket,
            exit.clone(),
            crdt,
            window,
            entry_height,
            blob_recycler.clone(),
            tpu.blob_receiver,
        );
        thread_hdls.extend(vec![t_broadcast]);

        FullNode { thread_hdls }
    }

    /// Create a server instance acting as a validator.
    ///
    /// ```text
    ///               .-------------------------------.
    ///               | Validator                     |
    ///               |                               |
    ///   .--------.  |            .-----.            |
    ///   |        |-------------->|     |            |
    ///   | Client |  |            | RPU |            |
    ///   |        |<--------------|     |            |
    ///   `--------`  |            `-----`            |
    ///               |               ^               |
    ///               |               |               |
    ///               |            .--+---.           |
    ///               |            | Bank |           |
    ///               |            `------`           |
    ///               |               ^               |
    ///   .--------.  |               |               |    .------------.
    ///   |        |  |            .--+--.            |    |            |
    ///   | Leader |<------------->| TVU +<--------------->|            |
    ///   |        |  |            `-----`            |    | Validators |
    ///   |        |  |               ^               |    |            |
    ///   |        |  |               |               |    |            |
    ///   |        |  |            .--+--.            |    |            |
    ///   |        |<------------->| NCP +<--------------->|            |
    ///   |        |  |            `-----`            |    |            |
    ///   `--------`  |                               |    `------------`
    ///               `-------------------------------`
    /// ```
    pub fn new_validator(
        bank: Bank,
        entry_height: u64,
        me: ReplicatedData,
        requests_socket: UdpSocket,
        respond_socket: UdpSocket,
        replicate_socket: UdpSocket,
        gossip_listen_socket: UdpSocket,
        repair_socket: UdpSocket,
        entry_point: ReplicatedData,
        exit: Arc<AtomicBool>,
    ) -> Self {
        let bank = Arc::new(bank);
        let mut thread_hdls = vec![];
        let rpu = Rpu::new(bank.clone(), requests_socket, respond_socket, exit.clone());
        thread_hdls.extend(rpu.thread_hdls);

        let crdt = Arc::new(RwLock::new(Crdt::new(me)));
        crdt.write()
            .expect("'crdt' write lock before insert() in pub fn replicate")
            .insert(&entry_point);
        let window = streamer::default_window();
        let gossip_send_socket = UdpSocket::bind("0.0.0.0:0").expect("bind 0");
        let retransmit_socket = UdpSocket::bind("0.0.0.0:0").expect("bind 0");
        let ncp = Ncp::new(
            crdt.clone(),
            window.clone(),
            gossip_listen_socket,
            gossip_send_socket,
            exit.clone(),
        ).expect("Ncp::new");

        let tvu = Tvu::new(
            bank.clone(),
            entry_height,
            crdt.clone(),
            window.clone(),
            replicate_socket,
            repair_socket,
            retransmit_socket,
            exit.clone(),
        );
        thread_hdls.extend(tvu.thread_hdls);
        thread_hdls.extend(ncp.thread_hdls);
        FullNode { thread_hdls }
    }
}
#[cfg(test)]
mod tests {
    use bank::Bank;
    use crdt::TestNode;
    use fullnode::FullNode;
    use mint::Mint;
    use std::sync::atomic::{AtomicBool, Ordering};
    use std::sync::Arc;
    #[test]
    fn validator_exit() {
        let tn = TestNode::new();
        let alice = Mint::new(10_000);
        let bank = Bank::new(&alice);
        let exit = Arc::new(AtomicBool::new(false));
        let v = FullNode::new_validator(
            bank,
            0,
            tn.data.clone(),
            tn.sockets.requests,
            tn.sockets.respond,
            tn.sockets.replicate,
            tn.sockets.gossip,
            tn.sockets.repair,
            tn.data,
            exit.clone(),
        );
        exit.store(true, Ordering::Relaxed);
        for t in v.thread_hdls {
            t.join().unwrap();
        }
    }
}
rename server to fullnode 2018-07-02 15:24:40 -07:00			//! The `fullnode` module hosts all the fullnode microservices.

fullnode lib 2018-07-02 11:20:35 -07:00			`use bank::Bank;`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`use crdt::{Crdt, ReplicatedData, TestNode};`
fullnode lib 2018-07-02 11:20:35 -07:00			`use entry_writer;`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`use ncp::Ncp;`
			`use packet::BlobRecycler;`
			`use rpu::Rpu;`
wtfr 2018-07-02 14:46:23 -07:00			`use std::fs::File;`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`use std::io::Write;`
wtfr 2018-07-02 14:46:23 -07:00			`use std::io::{stdin, stdout, BufReader};`
fullnode lib 2018-07-02 11:20:35 -07:00			`use std::net::SocketAddr;`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`use std::net::UdpSocket;`
fullnode lib 2018-07-02 11:20:35 -07:00			`use std::sync::atomic::AtomicBool;`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`use std::sync::{Arc, RwLock};`
fullnode lib 2018-07-02 11:20:35 -07:00			`use std::thread::JoinHandle;`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`use std::time::Duration;`
			`use streamer;`
			`use tpu::Tpu;`
			`use tvu::Tvu;`
fullnode lib 2018-07-02 11:20:35 -07:00
rename server to fullnode 2018-07-02 15:24:40 -07:00			`//use std::time::Duration;`
			`pub struct FullNode {`
			`pub thread_hdls: Vec<JoinHandle<()>>,`
			`}`
fullnode lib 2018-07-02 11:20:35 -07:00
rename server to fullnode 2018-07-02 15:24:40 -07:00			`impl FullNode {`
			`pub fn new(`
			`mut node: TestNode,`
			`leader: bool,`
			`infile: Option<String>,`
			`network_entry_for_validator: Option<SocketAddr>,`
			`outfile_for_leader: Option<String>,`
			`exit: Arc<AtomicBool>,`
			`) -> FullNode {`
			`info!("creating bank...");`
			`let bank = Bank::default();`
			`let entry_height = if let Some(path) = infile {`
			`let f = File::open(path).unwrap();`
			`let mut r = BufReader::new(f);`
			`let entries =`
			`entry_writer::read_entries(&mut r).map(\|e\| e.expect("failed to parse entry"));`
			`info!("processing ledger...");`
			`bank.process_ledger(entries).expect("process_ledger")`
			`} else {`
			`let mut r = BufReader::new(stdin());`
			`let entries =`
			`entry_writer::read_entries(&mut r).map(\|e\| e.expect("failed to parse entry"));`
			`info!("processing ledger...");`
			`bank.process_ledger(entries).expect("process_ledger")`
			`};`
fullnode lib 2018-07-02 11:20:35 -07:00
rename server to fullnode 2018-07-02 15:24:40 -07:00			`// entry_height is the network-wide agreed height of the ledger.`
			`// initialize it from the input ledger`
			`info!("processed {} ledger...", entry_height);`
fullnode lib 2018-07-02 11:20:35 -07:00
rename server to fullnode 2018-07-02 15:24:40 -07:00			`info!("creating networking stack...");`
fullnode lib 2018-07-02 11:20:35 -07:00
rename server to fullnode 2018-07-02 15:24:40 -07:00			`let local_gossip_addr = node.sockets.gossip.local_addr().unwrap();`
			`let local_requests_addr = node.sockets.requests.local_addr().unwrap();`
fullnode lib 2018-07-02 11:20:35 -07:00			`info!(`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`"starting... local gossip address: {} (advertising {})",`
			`local_gossip_addr, node.data.gossip_addr`
fullnode lib 2018-07-02 11:20:35 -07:00			`);`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`if !leader {`
			`let testnet_addr = network_entry_for_validator.expect("validator requires entry");`

			`let network_entry_point = ReplicatedData::new_entry_point(testnet_addr);`
			`let server = FullNode::new_validator(`
wtfr 2018-07-02 14:46:23 -07:00			`bank,`
			`entry_height,`
			`node.data.clone(),`
			`node.sockets.requests,`
			`node.sockets.respond,`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`node.sockets.replicate,`
wtfr 2018-07-02 14:46:23 -07:00			`node.sockets.gossip,`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`node.sockets.repair,`
			`network_entry_point,`
wtfr 2018-07-02 14:46:23 -07:00			`exit.clone(),`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`);`
			`info!(`
			`"validator ready... local request address: {} (advertising {}) connected to: {}",`
			`local_requests_addr, node.data.requests_addr, testnet_addr`
			`);`
			`server`
wtfr 2018-07-02 14:46:23 -07:00			`} else {`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`node.data.current_leader_id = node.data.id.clone();`
			`let server = if let Some(file) = outfile_for_leader {`
			`FullNode::new_leader(`
			`bank,`
			`entry_height,`
			`//Some(Duration::from_millis(1000)),`
			`None,`
			`node.data.clone(),`
			`node.sockets.requests,`
			`node.sockets.transaction,`
			`node.sockets.broadcast,`
			`node.sockets.respond,`
			`node.sockets.gossip,`
			`exit.clone(),`
			`File::create(file).expect("opening ledger file"),`
			`)`
			`} else {`
			`FullNode::new_leader(`
			`bank,`
			`entry_height,`
			`//Some(Duration::from_millis(1000)),`
			`None,`
			`node.data.clone(),`
			`node.sockets.requests,`
			`node.sockets.transaction,`
			`node.sockets.broadcast,`
			`node.sockets.respond,`
			`node.sockets.gossip,`
			`exit.clone(),`
			`stdout(),`
			`)`
			`};`
			`info!(`
			`"leader ready... local request address: {} (advertising {})",`
			`local_requests_addr, node.data.requests_addr`
			`);`
			`server`
			`}`
			`}`
			`/// Create a server instance acting as a leader.`
			`///`
			/// ```text
			`/// .---------------------.`
			`/// \| Leader \|`
			`/// \| \|`
			`/// .--------. \| .-----. \|`
			`/// \| \|---->\| \| \|`
			`/// \| Client \| \| \| RPU \| \|`
			`/// \| \|<----\| \| \|`
			/// `----+---` \| `-----` \|
			`/// \| \| ^ \|`
			`/// \| \| \| \|`
			`/// \| \| .--+---. \|`
			`/// \| \| \| Bank \| \|`
			/// \| \| `------` \|
			`/// \| \| ^ \|`
			`/// \| \| \| \| .------------.`
			`/// \| \| .--+--. .-----. \| \| \|`
			/// `-------->\| TPU +-->\| NCP +------>\| Validators \|
			/// \| `-----` `-----` \| \| \|
			/// \| \| `------------`
			/// `---------------------`
			/// ```
			`pub fn new_leader<W: Write + Send + 'static>(`
			`bank: Bank,`
			`entry_height: u64,`
			`tick_duration: Option<Duration>,`
			`me: ReplicatedData,`
			`requests_socket: UdpSocket,`
			`transactions_socket: UdpSocket,`
			`broadcast_socket: UdpSocket,`
			`respond_socket: UdpSocket,`
			`gossip_socket: UdpSocket,`
			`exit: Arc<AtomicBool>,`
			`writer: W,`
			`) -> Self {`
			`let bank = Arc::new(bank);`
			`let mut thread_hdls = vec![];`
			`let rpu = Rpu::new(bank.clone(), requests_socket, respond_socket, exit.clone());`
			`thread_hdls.extend(rpu.thread_hdls);`

			`let blob_recycler = BlobRecycler::default();`
			`let tpu = Tpu::new(`
			`bank.clone(),`
			`tick_duration,`
			`transactions_socket,`
			`blob_recycler.clone(),`
			`exit.clone(),`
			`writer,`
			`);`
			`thread_hdls.extend(tpu.thread_hdls);`

			`let crdt = Arc::new(RwLock::new(Crdt::new(me)));`
			`let window = streamer::default_window();`
			`let gossip_send_socket = UdpSocket::bind("0.0.0.0:0").expect("bind 0");`
			`let ncp = Ncp::new(`
			`crdt.clone(),`
			`window.clone(),`
			`gossip_socket,`
			`gossip_send_socket,`
			`exit.clone(),`
			`).expect("Ncp::new");`
			`thread_hdls.extend(ncp.thread_hdls);`

			`let t_broadcast = streamer::broadcaster(`
			`broadcast_socket,`
			`exit.clone(),`
			`crdt,`
			`window,`
			`entry_height,`
			`blob_recycler.clone(),`
			`tpu.blob_receiver,`
			`);`
			`thread_hdls.extend(vec![t_broadcast]);`

			`FullNode { thread_hdls }`
			`}`

			`/// Create a server instance acting as a validator.`
			`///`
			/// ```text
			`/// .-------------------------------.`
			`/// \| Validator \|`
			`/// \| \|`
			`/// .--------. \| .-----. \|`
			`/// \| \|-------------->\| \| \|`
			`/// \| Client \| \| \| RPU \| \|`
			`/// \| \|<--------------\| \| \|`
			/// `--------` \| `-----` \|
			`/// \| ^ \|`
			`/// \| \| \|`
			`/// \| .--+---. \|`
			`/// \| \| Bank \| \|`
			/// \| `------` \|
			`/// \| ^ \|`
			`/// .--------. \| \| \| .------------.`
			`/// \| \| \| .--+--. \| \| \|`
			`/// \| Leader \|<------------->\| TVU +<--------------->\| \|`
			/// \| \| \| `-----` \| \| Validators \|
			`/// \| \| \| ^ \| \| \|`
			`/// \| \| \| \| \| \| \|`
			`/// \| \| \| .--+--. \| \| \|`
			`/// \| \|<------------->\| NCP +<--------------->\| \|`
			/// \| \| \| `-----` \| \| \|
			/// `--------` \| \| `------------`
			/// `-------------------------------`
			/// ```
			`pub fn new_validator(`
			`bank: Bank,`
			`entry_height: u64,`
			`me: ReplicatedData,`
			`requests_socket: UdpSocket,`
			`respond_socket: UdpSocket,`
			`replicate_socket: UdpSocket,`
			`gossip_listen_socket: UdpSocket,`
			`repair_socket: UdpSocket,`
			`entry_point: ReplicatedData,`
			`exit: Arc<AtomicBool>,`
			`) -> Self {`
			`let bank = Arc::new(bank);`
			`let mut thread_hdls = vec![];`
			`let rpu = Rpu::new(bank.clone(), requests_socket, respond_socket, exit.clone());`
			`thread_hdls.extend(rpu.thread_hdls);`

			`let crdt = Arc::new(RwLock::new(Crdt::new(me)));`
			`crdt.write()`
			`.expect("'crdt' write lock before insert() in pub fn replicate")`
			`.insert(&entry_point);`
			`let window = streamer::default_window();`
			`let gossip_send_socket = UdpSocket::bind("0.0.0.0:0").expect("bind 0");`
			`let retransmit_socket = UdpSocket::bind("0.0.0.0:0").expect("bind 0");`
			`let ncp = Ncp::new(`
			`crdt.clone(),`
			`window.clone(),`
			`gossip_listen_socket,`
			`gossip_send_socket,`
			`exit.clone(),`
			`).expect("Ncp::new");`

			`let tvu = Tvu::new(`
			`bank.clone(),`
			`entry_height,`
			`crdt.clone(),`
			`window.clone(),`
			`replicate_socket,`
			`repair_socket,`
			`retransmit_socket,`
			`exit.clone(),`
			`);`
			`thread_hdls.extend(tvu.thread_hdls);`
			`thread_hdls.extend(ncp.thread_hdls);`
			`FullNode { thread_hdls }`
			`}`
			`}`
			`#[cfg(test)]`
			`mod tests {`
			`use bank::Bank;`
			`use crdt::TestNode;`
			`use fullnode::FullNode;`
			`use mint::Mint;`
			`use std::sync::atomic::{AtomicBool, Ordering};`
			`use std::sync::Arc;`
			`#[test]`
			`fn validator_exit() {`
			`let tn = TestNode::new();`
			`let alice = Mint::new(10_000);`
			`let bank = Bank::new(&alice);`
			`let exit = Arc::new(AtomicBool::new(false));`
			`let v = FullNode::new_validator(`
			`bank,`
			`0,`
			`tn.data.clone(),`
			`tn.sockets.requests,`
			`tn.sockets.respond,`
			`tn.sockets.replicate,`
			`tn.sockets.gossip,`
			`tn.sockets.repair,`
			`tn.data,`
			`exit.clone(),`
fullnode lib 2018-07-02 11:20:35 -07:00			`);`
rename server to fullnode 2018-07-02 15:24:40 -07:00			`exit.store(true, Ordering::Relaxed);`
			`for t in v.thread_hdls {`
			`t.join().unwrap();`
			`}`
fullnode lib 2018-07-02 11:20:35 -07:00			`}`
			`}`