#include "rtnetlink.hpp" #include "netlink.hpp" #include "util.hpp" #include namespace phosphor::network::netlink { using std::literals::string_view_literals::operator""sv; static void parseVlanInfo(InterfaceInfo& info, std::string_view msg) { if (msg.data() == nullptr) { throw std::runtime_error("Missing VLAN data"); } while (!msg.empty()) { auto [hdr, data] = netlink::extractRtAttr(msg); switch (hdr.rta_type) { case IFLA_VLAN_ID: info.vlan_id.emplace(stdplus::raw::copyFrom(data)); break; } } } static void parseLinkInfo(InterfaceInfo& info, std::string_view msg) { std::string_view submsg; while (!msg.empty()) { auto [hdr, data] = netlink::extractRtAttr(msg); switch (hdr.rta_type) { case IFLA_INFO_KIND: data.remove_suffix(1); info.kind.emplace(data); break; case IFLA_INFO_DATA: submsg = data; break; } } if (info.kind == "vlan"sv) { parseVlanInfo(info, submsg); } } InterfaceInfo intfFromRtm(std::string_view msg) { const auto& ifinfo = netlink::extractRtData(msg); InterfaceInfo ret; ret.type = ifinfo.ifi_type; ret.idx = ifinfo.ifi_index; ret.flags = ifinfo.ifi_flags; while (!msg.empty()) { auto [hdr, data] = netlink::extractRtAttr(msg); switch (hdr.rta_type) { case IFLA_IFNAME: ret.name.emplace(data.begin(), data.end() - 1); break; case IFLA_ADDRESS: if (data.size() == sizeof(stdplus::EtherAddr)) { ret.mac.emplace( stdplus::raw::copyFrom(data)); } break; case IFLA_MTU: ret.mtu.emplace(stdplus::raw::copyFrom(data)); break; case IFLA_LINK: ret.parent_idx.emplace(stdplus::raw::copyFrom(data)); break; case IFLA_LINKINFO: parseLinkInfo(ret, data); break; } } return ret; } template static std::optional> parse(std::string_view msg) { std::optional ifIdx; std::optional gw; while (!msg.empty()) { auto [hdr, data] = extractRtAttr(msg); switch (hdr.rta_type) { case RTA_OIF: ifIdx.emplace(stdplus::raw::copyFromStrict(data)); break; case RTA_GATEWAY: gw.emplace(stdplus::raw::copyFromStrict(data)); break; } } if (ifIdx && gw) { return std::make_tuple(*ifIdx, *gw); } return std::nullopt; } std::optional> gatewayFromRtm(std::string_view msg) { const auto& rtm = extractRtData(msg); if (rtm.rtm_table != RT_TABLE_MAIN || rtm.rtm_dst_len != 0) { return std::nullopt; } switch (rtm.rtm_family) { case AF_INET: return parse(msg); case AF_INET6: return parse(msg); } return std::nullopt; } AddressInfo addrFromRtm(std::string_view msg) { const auto& ifa = extractRtData(msg); AddressInfo ret; ret.ifidx = ifa.ifa_index; ret.flags = ifa.ifa_flags; ret.scope = ifa.ifa_scope; std::optional addr; while (!msg.empty()) { auto [hdr, data] = extractRtAttr(msg); if (hdr.rta_type == IFA_ADDRESS) { addr.emplace(addrFromBuf(ifa.ifa_family, data)); } else if (hdr.rta_type == IFA_FLAGS) { ret.flags = stdplus::raw::copyFromStrict(data); } } if (!addr) { throw std::runtime_error("Missing address"); } ret.ifaddr = {*addr, ifa.ifa_prefixlen}; return ret; } NeighborInfo neighFromRtm(std::string_view msg) { const auto& ndm = netlink::extractRtData(msg); NeighborInfo ret; ret.ifidx = ndm.ndm_ifindex; ret.state = ndm.ndm_state; while (!msg.empty()) { auto [hdr, data] = netlink::extractRtAttr(msg); if (hdr.rta_type == NDA_LLADDR) { ret.mac = stdplus::raw::copyFrom(data); } else if (hdr.rta_type == NDA_DST) { ret.addr = addrFromBuf(ndm.ndm_family, data); } } return ret; } } // namespace phosphor::network::netlink