blob: 9128d77799c92d91f2bc332905d46d79d73c51e1 [file] [log] [blame]
#include <docopt.h>
#include <spdlog/sinks/ansicolor_sink.h>
#include <spdlog/spdlog.h>
#include <sysrepo-cpp/Session.hpp>
#include "VELIA_VERSION.h"
#include "main.h"
#include "system/Firmware.h"
#include "system/Authentication.h"
#include "system/Network.h"
#include "system_vars.h"
#include "system/IETFSystem.h"
#include "utils/exceptions.h"
#include "utils/exec.h"
#include "utils/journal.h"
#include "utils/log.h"
#include "utils/log-init.h"
static const char usage[] =
R"(Sysrepo-powered system management.
Usage:
veliad-system
[--sysrepo-log-level=<Level>]
[--system-log-level=<Level>]
veliad-system (-h | --help)
veliad-system --version
Options:
-h --help Show this screen.
--version Show version.
--sysrepo-log-level=<N> Log level for the sysrepo library [default: 2]
--system-log-level=<N> Log level for the system stuff [default: 3]
(0 -> critical, 1 -> error, 2 -> warning, 3 -> info,
4 -> debug, 5 -> trace)
)";
DBUS_EVENTLOOP_INIT
int main(int argc, char* argv[])
{
std::shared_ptr<spdlog::sinks::sink> loggingSink;
if (velia::utils::isJournaldActive()) {
loggingSink = velia::utils::create_journald_sink();
} else {
loggingSink = std::make_shared<spdlog::sinks::ansicolor_stderr_sink_mt>();
}
auto args = docopt::docopt(usage, {argv + 1, argv + argc}, true, "veliad-system " VELIA_VERSION, true);
velia::utils::initLogs(loggingSink);
spdlog::set_level(spdlog::level::info);
try {
spdlog::get("sysrepo")->set_level(parseLogLevel("Sysrepo library", args["--sysrepo-log-level"]));
spdlog::get("main")->debug("Opening Sysrepo connection");
auto srConn = std::make_shared<sysrepo::Connection>();
auto srSess = std::make_shared<sysrepo::Session>(srConn);
DBUS_EVENTLOOP_START
// initialize ietf-system
spdlog::get("main")->debug("Initializing Sysrepo for system models");
auto sysrepoIETFSystem = velia::system::IETFSystem(srSess, "/etc/os-release");
auto dbusConnection = sdbus::createConnection(); // second connection for RAUC (for calling methods).
dbusConnection->enterEventLoopAsync();
// initialize czechlight-system:networking
const std::filesystem::path runtimeNetworkDirectory("/run/systemd/network"), persistentNetworkDirectory("/cfg/network/");
std::filesystem::create_directories(runtimeNetworkDirectory);
std::filesystem::create_directories(persistentNetworkDirectory);
auto srSessStartup = std::make_shared<sysrepo::Session>(srConn, SR_DS_STARTUP);
auto sysrepoNetworkStartup = velia::system::Network(srSess, persistentNetworkDirectory, []([[maybe_unused]] const std::vector<std::string>& reconfiguredInterfaces) {});
auto sysrepoNetworkRunning = velia::system::Network(srSess, runtimeNetworkDirectory, [](const std::vector<std::string>& reconfiguredInterfaces) {
auto log = spdlog::get("system");
/* Bring all the updated interfaces down (they will later be brought up by executing `networkctl reload`).
*
* This is required when transitioning from bridge to DHCP configuration. systemd-networkd apparently does not reset many
* interface properties when reconfiguring the interface into new "bridge-less" configuration (the interface stays in the
* bridge and it also does not obtain link local address).
*
* This doesn't seem to be required when transitioning from DHCP to bridge configuration. It's just a "precaution" because
* there might be hidden some caveats that I am unable to see now (some leftover setting). Bringing the interface
* down seems to reset the interface (and it is something we can afford in the interface reconfiguration process).
*/
for (const auto& interfaceName : reconfiguredInterfaces) {
velia::utils::execAndWait(log, NETWORKCTL_EXECUTABLE, {"down", interfaceName}, "");
}
velia::utils::execAndWait(log, NETWORKCTL_EXECUTABLE, {"reload"}, "");
});
auto sysrepoFirmware = velia::system::Firmware(srConn, *g_dbusConnection, *dbusConnection);
auto srSess2 = std::make_shared<sysrepo::Session>(srConn);
auto authentication = velia::system::Authentication(srSess2, REAL_ETC_PASSWD_FILE, REAL_ETC_SHADOW_FILE, AUTHORIZED_KEYS_FORMAT, velia::system::impl::changePassword);
DBUS_EVENTLOOP_END
return 0;
} catch (std::exception& e) {
velia::utils::fatalException(spdlog::get("main"), e, "main");
}
}