mpstthree 0.1.17

use rand::{thread_rng, Rng};

use mpstthree::binary::struct_trait::{end::End, recv::Recv, send::Send, session::Session};
use mpstthree::functionmpst::fork::fork_mpst;
use mpstthree::meshedchannels::MeshedChannels;
use mpstthree::role::Role;

use mpstthree::checker_concat;

use std::error::Error;

use mpstthree::role::a::RoleA;
use mpstthree::role::all_to_c::RoleAlltoC;
use mpstthree::role::b::RoleB;
use mpstthree::role::c::RoleC;
use mpstthree::role::c_to_all::RoleCtoAll;
use mpstthree::role::end::RoleEnd;

use mpstthree::name::a::NameA;
use mpstthree::name::b::NameB;
use mpstthree::name::c::NameC;

use mpstthree::functionmpst::ChooseMpst;
use mpstthree::functionmpst::OfferMpst;

use petgraph::dot::Dot;

// Test our usecase
// Simple types
// Client = C
// Authenticator = A
// Server = B

type AtoCClose = End;
type AtoBClose = End;
type AtoCVideo<N> = Recv<N, Send<N, End>>;
type AtoBVideo<N> = Send<N, Recv<N, End>>;

type BtoAClose = <AtoBClose as Session>::Dual;
type BtoCClose = End;
type BtoAVideo<N> = <AtoBVideo<N> as Session>::Dual;

type CtoBClose = <BtoCClose as Session>::Dual;
type CtoAClose = <AtoCClose as Session>::Dual;
type CtoAVideo<N> = <AtoCVideo<N> as Session>::Dual;

// Stacks
type StackAEnd = RoleEnd;
type StackAVideo = RoleC<RoleB<RoleB<RoleC<RoleEnd>>>>;
type StackAVideoDual = <StackAVideo as Role>::Dual;
type StackAFull = RoleC<RoleC<RoleAlltoC<RoleEnd, RoleEnd>>>;

type StackBEnd = RoleEnd;
type StackBVideo = RoleA<RoleA<RoleEnd>>;
type StackBVideoDual = <StackBVideo as Role>::Dual;
type StackBFull = RoleAlltoC<RoleEnd, RoleEnd>;

type StackCEnd = RoleEnd;
type StackCVideo = RoleA<RoleA<RoleEnd>>;
type StackCChoice = RoleCtoAll<StackCVideo, StackCEnd>;
type StackCFull = RoleA<RoleA<StackCChoice>>;

// Creating the MP sessions
// For C
type ChooseCtoA<N> =
    ChooseMpst<BtoAVideo<N>, CtoAVideo<N>, BtoAClose, CtoAClose, StackAVideoDual, StackAEnd, NameA>;
type ChooseCtoB<N> =
    ChooseMpst<AtoBVideo<N>, CtoBClose, AtoBClose, CtoBClose, StackBVideoDual, StackBEnd, NameB>;
type InitC<N> = Send<N, Recv<N, ChooseCtoA<N>>>;
type EndpointCFull<N> = MeshedChannels<InitC<N>, ChooseCtoB<N>, StackCFull, NameC>;

// For A
type EndpointAVideo<N> = MeshedChannels<AtoBVideo<N>, AtoCVideo<N>, StackAVideo, NameA>;
type EndpointAEnd = MeshedChannels<AtoBClose, AtoCClose, StackAEnd, NameA>;

type OfferA<N> =
    OfferMpst<AtoBVideo<N>, AtoCVideo<N>, AtoBClose, AtoCClose, StackAVideo, StackAEnd, NameA>;
type InitA<N> = Recv<N, Send<N, OfferA<N>>>;
type EndpointAFull<N> = MeshedChannels<End, InitA<N>, StackAFull, NameA>;

// For B
type EndpointBVideo<N> = MeshedChannels<BtoAVideo<N>, BtoCClose, StackBVideo, NameB>;
type EndpointBEnd = MeshedChannels<BtoAClose, BtoCClose, StackBEnd, NameB>;

type OfferB<N> =
    OfferMpst<BtoAVideo<N>, BtoCClose, BtoAClose, BtoCClose, StackBVideo, StackBEnd, NameB>;
type EndpointBFull<N> = MeshedChannels<End, OfferB<N>, StackBFull, NameB>;

// Functions related to endpoints
fn server(s: EndpointBFull<i32>) -> Result<(), Box<dyn Error>> {
    s.offer(
        |s: EndpointBVideo<i32>| {
            let (request, s) = s.recv()?;
            s.send(request + 1).close()
        },
        |s: EndpointBEnd| s.close(),
    )
}

fn authenticator(s: EndpointAFull<i32>) -> Result<(), Box<dyn Error>> {
    let (id, s) = s.recv()?;
    let s = s.send(id + 1);

    s.offer(
        |s: EndpointAVideo<i32>| {
            let (request, s) = s.recv()?;
            let (video, s) = s.send(request + 1).recv()?;
            let s = s.send(video + 1);

            assert_eq!(request, id + 1);
            assert_eq!(video, id + 3);

            s.close()
        },
        |s: EndpointAEnd| s.close(),
    )
}

fn client_video(s: EndpointCFull<i32>) -> Result<(), Box<dyn Error>> {
    let id: i32 = thread_rng().gen();

    let (accept, s) = s.send(id).recv()?;

    assert_eq!(accept, id + 1);

    let (result, s) = s.choose_left().send(accept).recv()?;

    assert_eq!(result, accept + 3);

    s.close()
}

fn client_close(s: EndpointCFull<i32>) -> Result<(), Box<dyn Error>> {
    let id: i32 = thread_rng().gen();

    let (accept, s) = s.send(id).recv()?;

    assert_eq!(accept, id + 1);

    s.choose_right().close()
}

/////////////////////////////////////////

pub fn run_c_usecase_left() {
    let (thread_a, thread_b, thread_c) = fork_mpst(authenticator, server, client_video);

    assert!(thread_a.join().is_ok());
    assert!(thread_b.join().is_ok());
    assert!(thread_c.join().is_ok());
}

pub fn run_c_usecase_right() {
    let (thread_a, thread_b, thread_c) = fork_mpst(authenticator, server, client_close);

    assert!(thread_a.join().is_ok());
    assert!(thread_b.join().is_ok());
    assert!(thread_c.join().is_ok());
}

pub fn run_c_usecase_checker() {
    let (graphs, kmc) = checker_concat!(
        "",
        EndpointBFull<i32>,
        EndpointAFull<i32>,
        EndpointCFull<i32>
    )
    .unwrap();

    ////////////// Test graph A
    let graph_a = &graphs["RoleA"];

    assert_eq!(
        format!("{:?}", Dot::new(&graph_a)),
        "digraph {\n    \
            0 [ label = \"\\\"0\\\"\" ]\n    \
            1 [ label = \"\\\"1\\\"\" ]\n    \
            2 [ label = \"\\\"2\\\"\" ]\n    \
            3 [ label = \"\\\"2.1\\\"\" ]\n    \
            4 [ label = \"\\\"2.2\\\"\" ]\n    \
            5 [ label = \"\\\"2.3\\\"\" ]\n    \
            6 [ label = \"\\\"2.4\\\"\" ]\n    \
            7 [ label = \"\\\"2.5\\\"\" ]\n    \
            8 [ label = \"\\\"2.1\\\"\" ]\n    \
            0 -> 1 [ label = \"\\\"RoleA?RoleC: i32\\\"\" ]\n    \
            1 -> 2 [ label = \"\\\"RoleA!RoleC: i32\\\"\" ]\n    \
            2 -> 3 [ label = \"\\\"RoleA?RoleC: i32\\\"\" ]\n    \
            3 -> 4 [ label = \"\\\"RoleA!RoleB: i32\\\"\" ]\n    \
            4 -> 5 [ label = \"\\\"RoleA?RoleB: i32\\\"\" ]\n    \
            5 -> 6 [ label = \"\\\"RoleA!RoleC: i32\\\"\" ]\n    \
            6 -> 7 [ label = \"\\\"0\\\"\" ]\n    \
            2 -> 8 [ label = \"\\\"0\\\"\" ]\n\
        }\n"
    );

    ////////////// Test graph B
    let graph_b = &graphs["RoleB"];

    assert_eq!(
        format!("{:?}", Dot::new(&graph_b)),
        "digraph {\n    \
            0 [ label = \"\\\"0\\\"\" ]\n    \
            1 [ label = \"\\\"0.1\\\"\" ]\n    \
            2 [ label = \"\\\"0.2\\\"\" ]\n    \
            3 [ label = \"\\\"0.3\\\"\" ]\n    \
            4 [ label = \"\\\"0.1\\\"\" ]\n    \
            0 -> 1 [ label = \"\\\"RoleB?RoleA: i32\\\"\" ]\n    \
            1 -> 2 [ label = \"\\\"RoleB!RoleA: i32\\\"\" ]\n    \
            2 -> 3 [ label = \"\\\"0\\\"\" ]\n    \
            0 -> 4 [ label = \"\\\"0\\\"\" ]\n\
        }\n"
    );

    ////////////// Test graph C
    let graph_c = &graphs["RoleC"];

    assert_eq!(
        format!("{:?}", Dot::new(&graph_c)),
        "digraph {\n    \
            0 [ label = \"\\\"0\\\"\" ]\n    \
            1 [ label = \"\\\"1\\\"\" ]\n    \
            2 [ label = \"\\\"2\\\"\" ]\n    \
            3 [ label = \"\\\"2.1\\\"\" ]\n    \
            4 [ label = \"\\\"2.2\\\"\" ]\n    \
            5 [ label = \"\\\"2.3\\\"\" ]\n    \
            6 [ label = \"\\\"2.1\\\"\" ]\n    \
            0 -> 1 [ label = \"\\\"RoleC!RoleA: i32\\\"\" ]\n    \
            1 -> 2 [ label = \"\\\"RoleC?RoleA: i32\\\"\" ]\n    \
            2 -> 3 [ label = \"\\\"RoleC!RoleA: i32\\\"\" ]\n    \
            3 -> 4 [ label = \"\\\"RoleC?RoleA: i32\\\"\" ]\n    \
            4 -> 5 [ label = \"\\\"0\\\"\" ]\n    \
            2 -> 6 [ label = \"\\\"0\\\"\" ]\n\
        }\n"
    );

    ////////////// Test KMC output
    assert_eq!(kmc, None);
}