scylladb/net/net.cc

/*
 * Copyright (C) 2014 Cloudius Systems, Ltd.
 *
 */

#include "net.hh"
#include <utility>

using std::move;

namespace net {

__thread device *dev;

l3_protocol::l3_protocol(interface* netif, eth_protocol_num proto_num)
    : _netif(netif), _proto_num(proto_num) {
}

subscription<packet, ethernet_address> l3_protocol::receive(
        std::function<future<> (packet p, ethernet_address from)> rx_fn,
        std::function<unsigned (packet&, size_t)> forward) {
    return _netif->register_l3(_proto_num, std::move(rx_fn), std::move(forward));
};

future<> l3_protocol::send(ethernet_address to, packet p) {
    return _netif->send(_proto_num, to, std::move(p));
}

interface::interface(std::unique_ptr<device> dev)
    : _dev(std::move(dev))
    , _rx(_dev->receive([this] (packet p) { return dispatch_packet(std::move(p)); }))
    , _hw_address(_dev->hw_address())
    , _hw_features(_dev->hw_features()) {
}

subscription<packet, ethernet_address>
interface::register_l3(eth_protocol_num proto_num,
        std::function<future<> (packet p, ethernet_address from)> next,
        std::function<unsigned (packet&, size_t)> forward) {
    auto i = _proto_map.emplace(std::piecewise_construct, std::make_tuple(uint16_t(proto_num)), std::forward_as_tuple(std::move(forward)));
    assert(i.second);
    l3_rx_stream& l3_rx = i.first->second;
    return l3_rx.packet_stream.listen(std::move(next));
}

future<> interface::dispatch_packet(packet p) {
    auto eh = p.get_header<eth_hdr>();
    if (eh) {
        auto proto = eh->eth_proto;
        ntoh(proto);
        auto i = _proto_map.find(proto);
        if (i != _proto_map.end()) {
            l3_rx_stream& l3 = i->second;
            auto fw = (engine.cpu_id() == 0) ? l3.forward(p, sizeof(eth_hdr)) : engine.cpu_id();
            if (fw != engine.cpu_id() && fw < smp::count) {
                smp::submit_to(fw, [p = std::move(p), cpu = engine.cpu_id()]() mutable { net::dev->l2inject(p.free_on_cpu(cpu)); });
            } else {
                if (fw != engine.cpu_id()) { // broadcast to all cpus
                    for (unsigned i = 0; i< smp::count; i++) {
                        if (i != engine.cpu_id()) {
                            smp::submit_to(i, [n = p.share(), cpu = engine.cpu_id()] () mutable { net::dev->l2inject(n.free_on_cpu(cpu)); });
                        }
                    }
                }
                ntoh(*eh);
                auto from = eh->src_mac;
                p.trim_front(sizeof(*eh));
                // avoid chaining, since queue lenth is unlimited
                // drop instead.
                if (l3.ready.available()) {
                    l3.ready = l3.packet_stream.produce(std::move(p), from);
                }
            }
        }
    }
    return make_ready_future<>();
}

future<> interface::send(eth_protocol_num proto_num, ethernet_address to, packet p) {
    auto eh = p.prepend_header<eth_hdr>();
    eh->dst_mac = to;
    eh->src_mac = _hw_address;
    eh->eth_proto = uint16_t(proto_num);
    hton(*eh);
    return _dev->send(std::move(p));
}

}