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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-21 11:54:28 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-21 11:54:28 +0000 |
commit | e6918187568dbd01842d8d1d2c808ce16a894239 (patch) | |
tree | 64f88b554b444a49f656b6c656111a145cbbaa28 /src/msg/async/dpdk/IP.cc | |
parent | Initial commit. (diff) | |
download | ceph-b26c4052f3542036551aa9dec9caa4226e456195.tar.xz ceph-b26c4052f3542036551aa9dec9caa4226e456195.zip |
Adding upstream version 18.2.2.upstream/18.2.2
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/msg/async/dpdk/IP.cc')
-rw-r--r-- | src/msg/async/dpdk/IP.cc | 481 |
1 files changed, 481 insertions, 0 deletions
diff --git a/src/msg/async/dpdk/IP.cc b/src/msg/async/dpdk/IP.cc new file mode 100644 index 000000000..0bfb21b16 --- /dev/null +++ b/src/msg/async/dpdk/IP.cc @@ -0,0 +1,481 @@ +// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- +/* + * This file is open source software, licensed to you under the terms + * of the Apache License, Version 2.0 (the "License"). See the NOTICE file + * distributed with this work for additional information regarding copyright + * ownership. 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. + */ +/* + * Copyright (C) 2014 Cloudius Systems, Ltd. + * + */ +/* + * Ceph - scalable distributed file system + * + * Copyright (C) 2015 XSky <haomai@xsky.com> + * + * Author: Haomai Wang <haomaiwang@gmail.com> + * + * This is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License version 2.1, as published by the Free Software + * Foundation. See file COPYING. + * + */ + +#include "common/perf_counters.h" + +#include "capture.h" +#include "IP.h" +#include "toeplitz.h" + +#include "common/dout.h" +#include "include/ceph_assert.h" + +#define dout_subsys ceph_subsys_dpdk +#undef dout_prefix +#define dout_prefix *_dout << "dpdk " + +std::ostream& operator<<(std::ostream& os, const ipv4_address& a) { + auto ip = a.ip; + return os << ((ip >> 24) & 0xff) << "." << ((ip >> 16) & 0xff) + << "." << ((ip >> 8) & 0xff) << "." << ((ip >> 0) & 0xff); +} + +utime_t ipv4::_frag_timeout = utime_t(30, 0); +constexpr uint32_t ipv4::_frag_low_thresh; +constexpr uint32_t ipv4::_frag_high_thresh; + +class C_handle_frag_timeout : public EventCallback { + ipv4 *_ipv4; + + public: + C_handle_frag_timeout(ipv4 *i): _ipv4(i) {} + void do_request(uint64_t fd_or_id) { + _ipv4->frag_timeout(); + } +}; + +enum { + l_dpdk_qp_first = 99000, + l_dpdk_total_linearize_operations, + l_dpdk_qp_last +}; + +struct icmp_hdr { + enum class msg_type : uint8_t { + echo_reply = 0, + echo_request = 8, + }; + msg_type type; + uint8_t code; + uint16_t csum; + uint32_t rest; +} __attribute__((packed)); + +ipv4::ipv4(CephContext *c, EventCenter *cen, interface* netif) + : cct(c), center(cen), _netif(netif), _global_arp(netif), + _arp(c, _global_arp, cen), + _host_address(0), _gw_address(0), _netmask(0), + _l3(netif, eth_protocol_num::ipv4, [this] { return get_packet(); }), + _rx_packets( + _l3.receive( + [this] (Packet p, ethernet_address ea) { + return handle_received_packet(std::move(p), ea); + }, + [this] (forward_hash& out_hash_data, Packet& p, size_t off) { + return forward(out_hash_data, p, off); + } + ) + ), + _tcp(*this, cen), _icmp(c, *this), + _l4({{ uint8_t(ip_protocol_num::tcp), &_tcp }, + { uint8_t(ip_protocol_num::icmp), &_icmp }}), + _packet_filter(nullptr) +{ + PerfCountersBuilder plb(cct, "ipv4", l_dpdk_qp_first, l_dpdk_qp_last); + plb.add_u64_counter(l_dpdk_total_linearize_operations, "dpdk_ip_linearize_operations", "DPDK IP Packet linearization operations"); + perf_logger = plb.create_perf_counters(); + cct->get_perfcounters_collection()->add(perf_logger); + frag_handler = new C_handle_frag_timeout(this); +} + +bool ipv4::forward(forward_hash& out_hash_data, Packet& p, size_t off) +{ + auto iph = p.get_header<ip_hdr>(off); + + out_hash_data.push_back(iph->src_ip.ip); + out_hash_data.push_back(iph->dst_ip.ip); + + auto h = iph->ntoh(); + auto l4 = _l4[h.ip_proto]; + if (l4) { + if (h.mf() == false && h.offset() == 0) { + // This IP datagram is atomic, forward according to tcp connection hash + l4->forward(out_hash_data, p, off + sizeof(ip_hdr)); + } + // else forward according to ip fields only + } + return true; +} + +int ipv4::handle_received_packet(Packet p, ethernet_address from) +{ + auto iph = p.get_header<ip_hdr>(0); + if (!iph) { + return 0; + } + + // Skip checking csum of reassembled IP datagram + if (!get_hw_features().rx_csum_offload && !p.offload_info_ref().reassembled) { + checksummer csum; + csum.sum(reinterpret_cast<char*>(iph), sizeof(*iph)); + if (csum.get() != 0) { + return 0; + } + } + + auto h = iph->ntoh(); + unsigned ip_len = h.len; + unsigned ip_hdr_len = h.ihl * 4; + unsigned pkt_len = p.len(); + auto offset = h.offset(); + + ldout(cct, 10) << __func__ << " get " << std::hex << int(h.ip_proto) + << std::dec << " packet from " + << h.src_ip << " -> " << h.dst_ip << " id=" << h.id + << " ip_len=" << ip_len << " ip_hdr_len=" << ip_hdr_len + << " pkt_len=" << pkt_len << " offset=" << offset << dendl; + + if (pkt_len > ip_len) { + // Trim extra data in the packet beyond IP total length + p.trim_back(pkt_len - ip_len); + } else if (pkt_len < ip_len) { + // Drop if it contains less than IP total length + return 0; + } + // Drop if the reassembled datagram will be larger than maximum IP size + if (offset + p.len() > ip_packet_len_max) { + return 0; + } + + // FIXME: process options + if (in_my_netmask(h.src_ip) && h.src_ip != _host_address) { + ldout(cct, 20) << __func__ << " learn mac " << from << " with " << h.src_ip << dendl; + _arp.learn(from, h.src_ip); + } + + if (_packet_filter) { + bool handled = false; + _packet_filter->handle(p, &h, from, handled); + if (handled) { + return 0; + } + } + + if (h.dst_ip != _host_address) { + // FIXME: forward + return 0; + } + + // Does this IP datagram need reassembly + auto mf = h.mf(); + if (mf == true || offset != 0) { + frag_limit_mem(); + auto frag_id = ipv4_frag_id{h.src_ip, h.dst_ip, h.id, h.ip_proto}; + auto& frag = _frags[frag_id]; + if (mf == false) { + frag.last_frag_received = true; + } + // This is a newly created frag_id + if (frag.mem_size == 0) { + _frags_age.push_back(frag_id); + frag.rx_time = ceph_clock_now(); + } + auto added_size = frag.merge(h, offset, std::move(p)); + _frag_mem += added_size; + if (frag.is_complete()) { + // All the fragments are received + auto dropped_size = frag.mem_size; + auto& ip_data = frag.data.map.begin()->second; + // Choose a cpu to forward this packet + auto cpu_id = center->get_id(); + auto l4 = _l4[h.ip_proto]; + if (l4) { + size_t l4_offset = 0; + forward_hash hash_data; + hash_data.push_back(hton(h.src_ip.ip)); + hash_data.push_back(hton(h.dst_ip.ip)); + l4->forward(hash_data, ip_data, l4_offset); + cpu_id = _netif->hash2cpu(toeplitz_hash(_netif->rss_key(), hash_data)); + } + + // No need to forward if the dst cpu is the current cpu + if (cpu_id == center->get_id()) { + l4->received(std::move(ip_data), h.src_ip, h.dst_ip); + } else { + auto to = _netif->hw_address(); + auto pkt = frag.get_assembled_packet(from, to); + _netif->forward(center, cpu_id, std::move(pkt)); + } + + // Delete this frag from _frags and _frags_age + frag_drop(frag_id, dropped_size); + _frags_age.remove(frag_id); + perf_logger->set(l_dpdk_total_linearize_operations, + ipv4_packet_merger::linearizations()); + } else { + // Some of the fragments are missing + if (frag_timefd) { + frag_arm(); + } + } + return 0; + } + + auto l4 = _l4[h.ip_proto]; + if (l4) { + // Trim IP header and pass to upper layer + p.trim_front(ip_hdr_len); + l4->received(std::move(p), h.src_ip, h.dst_ip); + } + return 0; +} + +void ipv4::wait_l2_dst_address(ipv4_address to, Packet p, resolution_cb cb) { + // Figure out where to send the packet to. If it is a directly connected + // host, send to it directly, otherwise send to the default gateway. + ipv4_address dst; + if (in_my_netmask(to)) { + dst = to; + } else { + dst = _gw_address; + } + + _arp.wait(std::move(dst), std::move(p), std::move(cb)); +} + +const hw_features& ipv4::get_hw_features() const +{ + return _netif->get_hw_features(); +} + +void ipv4::send(ipv4_address to, ip_protocol_num proto_num, + Packet p, ethernet_address e_dst) { + auto needs_frag = this->needs_frag(p, proto_num, get_hw_features()); + + auto send_pkt = [this, to, proto_num, needs_frag, e_dst] (Packet& pkt, uint16_t remaining, uint16_t offset) mutable { + static uint16_t id = 0; + auto iph = pkt.prepend_header<ip_hdr>(); + iph->ihl = sizeof(*iph) / 4; + iph->ver = 4; + iph->dscp = 0; + iph->ecn = 0; + iph->len = pkt.len(); + // FIXME: a proper id + iph->id = id++; + if (needs_frag) { + uint16_t mf = remaining > 0; + // The fragment offset is measured in units of 8 octets (64 bits) + auto off = offset / 8; + iph->frag = (mf << uint8_t(ip_hdr::frag_bits::mf)) | off; + } else { + iph->frag = 0; + } + iph->ttl = 64; + iph->ip_proto = (uint8_t)proto_num; + iph->csum = 0; + iph->src_ip = _host_address; + iph->dst_ip = to; + ldout(cct, 20) << " ipv4::send " << " id=" << iph->id << " " << _host_address << " -> " << to + << " len " << pkt.len() << dendl; + *iph = iph->hton(); + + if (get_hw_features().tx_csum_ip_offload) { + iph->csum = 0; + pkt.offload_info_ref().needs_ip_csum = true; + } else { + checksummer csum; + csum.sum(reinterpret_cast<char*>(iph), sizeof(*iph)); + iph->csum = csum.get(); + } + + _packetq.push_back( + l3_protocol::l3packet{eth_protocol_num::ipv4, e_dst, std::move(pkt)}); + }; + + if (needs_frag) { + uint16_t offset = 0; + uint16_t remaining = p.len(); + auto mtu = get_hw_features().mtu; + + while (remaining) { + auto can_send = std::min(uint16_t(mtu - ipv4_hdr_len_min), remaining); + remaining -= can_send; + auto pkt = p.share(offset, can_send); + send_pkt(pkt, remaining, offset); + offset += can_send; + } + } else { + // The whole packet can be send in one shot + send_pkt(p, 0, 0); + } +} + +std::optional<l3_protocol::l3packet> ipv4::get_packet() { + // _packetq will be mostly empty here unless it hold remnants of previously + // fragmented packet + if (_packetq.empty()) { + for (size_t i = 0; i < _pkt_providers.size(); i++) { + auto l4p = _pkt_providers[_pkt_provider_idx++](); + if (_pkt_provider_idx == _pkt_providers.size()) { + _pkt_provider_idx = 0; + } + if (l4p) { + ldout(cct, 20) << " ipv4::get_packet len " << l4p->p.len() << dendl; + send(l4p->to, l4p->proto_num, std::move(l4p->p), l4p->e_dst); + break; + } + } + } + + std::optional<l3_protocol::l3packet> p; + if (!_packetq.empty()) { + p = std::move(_packetq.front()); + _packetq.pop_front(); + } + return p; +} + +void ipv4::frag_limit_mem() { + if (_frag_mem <= _frag_high_thresh) { + return; + } + auto drop = _frag_mem - _frag_low_thresh; + while (drop) { + if (_frags_age.empty()) { + return; + } + // Drop the oldest frag (first element) from _frags_age + auto frag_id = _frags_age.front(); + _frags_age.pop_front(); + + // Drop from _frags as well + auto& frag = _frags[frag_id]; + auto dropped_size = frag.mem_size; + frag_drop(frag_id, dropped_size); + + drop -= std::min(drop, dropped_size); + } +} + +void ipv4::frag_timeout() { + if (_frags.empty()) { + return; + } + auto now = ceph_clock_now(); + for (auto it = _frags_age.begin(); it != _frags_age.end();) { + auto frag_id = *it; + auto& frag = _frags[frag_id]; + if (now > frag.rx_time + _frag_timeout) { + auto dropped_size = frag.mem_size; + // Drop from _frags + frag_drop(frag_id, dropped_size); + // Drop from _frags_age + it = _frags_age.erase(it); + } else { + // The further items can only be younger + break; + } + } + if (_frags.size() != 0) { + frag_arm(now); + } else { + _frag_mem = 0; + } +} + +int32_t ipv4::frag::merge(ip_hdr &h, uint16_t offset, Packet p) { + uint32_t old = mem_size; + unsigned ip_hdr_len = h.ihl * 4; + // Store IP header + if (offset == 0) { + header = p.share(0, ip_hdr_len); + } + // Sotre IP payload + p.trim_front(ip_hdr_len); + data.merge(offset, std::move(p)); + // Update mem size + mem_size = header.memory(); + for (const auto& x : data.map) { + mem_size += x.second.memory(); + } + auto added_size = mem_size - old; + return added_size; +} + +bool ipv4::frag::is_complete() { + // If all the fragments are received, ipv4::frag::merge() should merge all + // the fragments into a single packet + auto offset = data.map.begin()->first; + auto nr_packet = data.map.size(); + return last_frag_received && nr_packet == 1 && offset == 0; +} + +Packet ipv4::frag::get_assembled_packet(ethernet_address from, ethernet_address to) { + auto& ip_header = header; + auto& ip_data = data.map.begin()->second; + // Append a ethernet header, needed for forwarding + auto eh = ip_header.prepend_header<eth_hdr>(); + eh->src_mac = from; + eh->dst_mac = to; + eh->eth_proto = uint16_t(eth_protocol_num::ipv4); + *eh = eh->hton(); + // Prepare a packet contains both ethernet header, ip header and ip data + ip_header.append(std::move(ip_data)); + auto pkt = std::move(ip_header); + auto iph = pkt.get_header<ip_hdr>(sizeof(eth_hdr)); + // len is the sum of each fragment + iph->len = hton(uint16_t(pkt.len() - sizeof(eth_hdr))); + // No fragmentation for the assembled datagram + iph->frag = 0; + // Since each fragment's csum is checked, no need to csum + // again for the assembled datagram + offload_info oi; + oi.reassembled = true; + pkt.set_offload_info(oi); + return pkt; +} + +void icmp::received(Packet p, ipaddr from, ipaddr to) { + auto hdr = p.get_header<icmp_hdr>(0); + if (!hdr || hdr->type != icmp_hdr::msg_type::echo_request) { + return; + } + hdr->type = icmp_hdr::msg_type::echo_reply; + hdr->code = 0; + hdr->csum = 0; + checksummer csum; + csum.sum(reinterpret_cast<char*>(hdr), p.len()); + hdr->csum = csum.get(); + + if (_queue_space.get_or_fail(p.len())) { // drop packets that do not fit the queue + auto cb = [this, from] (const ethernet_address e_dst, Packet p, int r) mutable { + if (r == 0) { + _packetq.emplace_back(ipv4_traits::l4packet{from, std::move(p), e_dst, ip_protocol_num::icmp}); + } + }; + _inet.wait_l2_dst_address(from, std::move(p), cb); + } +} |