Hey! This took a lot longer than we hoped to, due to the dbus transition. But here it is! systemd 209!
http://www.freedesktop.org/software/systemd/systemd-209.tar.xz With this new release almost everything is in place for kdbus (modulo the policy, see below). However, since the kdbus kernel module isn't upstream yet and we want to keep our options for API changes open you have to explicitly enable support with it for --enable-kdbus. By passing that configure time option you void your warranty though, and acknowledge that no binary compatibility will be provided. If you want to test this use the kdbus git version from today. --enable-kdbus covers not only the kdbus support itself but also a couple of new APIs we added where we want to maintain a bit of freedom to still change things for now. Again, if you specify --enable-kdbus, don't be surprised when unnannounced api changes take place! If you compile with the default of --disable-kdbus API/ABI compatibility is kept however, and that's what most people should use. If you build systemd for your distribution make sure to pass --disable-kdbus! This is a massive new release, it includes a lot of new code. You probably don't want to base your LTS release on this. We hope to return to a shorter release cycle now to stabilize the new code. Expect a couple of bugfix releases over the next weeks. We merged libsystemd-journal.so, libsystemd-id128.so, libsystemd-login and libsystemd-daemon into a a single libsystemd.so to reduce code duplication and avoid cyclic dependencies (see below). The new library exports the same symbols as the old libraries, however with a different symbol version. If "--enable-compat-libs" is specified while building systemd you will get a set of compatibility libraries built that simply map the old library calls to the new library. This is provided only to ease the transition, please don't forget to pass "--disable-compat-libs" (which is the default) after your distribution completed the transition. Sorry for the complexities this involves! This version is not available in Fedora Rawhide (unlike all other releases we did which were available in Rawhide the day we released them). The ARM toolchain is broken, doesn't do IFUNC. Since ARM is now a full architecture of Fedora we cannot update systemd in Fedora until the toolchain is fixed. Gah. (rhbz 1067245). I have no idea if and when we can upload this to Fedora. I am tempted to simply disable building of systemd on Fedora ARM for now, but I figure people might be upset. Anyway, this is something for the Fedora ARM people to figure out... CHANGES WITH 209: * A new component "systemd-networkd" has been added that can be used to configure local network interfaces statically or via DHCP. It is capable of bringing up bridges, VLANs, and bonding. Currently, no hook-ups for interactive network configuration are provided. Use this for your initrd, container, embedded, or server setup if you need a simple, yet powerful, network configuration solution. This configuration subsystem is quite nifty, as it allows wildcard hotplug matching in interfaces. For example, with a single configuration snippet, you can configure that all Ethernet interfaces showing up are automatically added to a bridge, or similar. It supports link-sensing and more. * A new tool "systemd-socket-proxyd" has been added which can act as a bidirectional proxy for TCP sockets. This is useful for adding socket activation support to services that do not actually support socket activation, including virtual machines and the like. * Add a new tool to save/restore rfkill state on shutdown/boot. * Save/restore state of keyboard backlights in addition to display backlights on shutdown/boot. * udev learned a new SECLABEL{} construct to label device nodes with a specific security label when they appear. For now, only SECLABEL{selinux} is supported, but the syntax is prepared for additional security frameworks. * udev gained a new scheme to configure link-level attributes from files in /etc/systemd/network/*.link. These files can match against MAC address, device path, driver name and type, and will apply attributes like the naming policy, link speed, MTU, duplex settings, Wake-on-LAN settings, MAC address, MAC address assignment policy (randomized, ...). * When the User= switch is used in a unit file, also initialize $SHELL= based on the user database entry. * systemd no longer depends on libdbus. All communication is now done with sd-bus, systemd's low-level bus library implementation. * kdbus support has been added to PID 1 itself. When kdbus is enabled, this causes PID 1 to set up the system bus and enable support for a new ".busname" unit type that encapsulates bus name activation on kdbus. It works a little bit like ".socket" units, except for bus names. A new generator has been added that converts classic dbus1 service activation files automatically into native systemd .busname and .service units. * sd-bus: add a light-weight vtable implementation that allows defining objects on the bus with a simple static const vtable array of its methods, signals and properties. * systemd will not generate or install static dbus introspection data anymore to /usr/share/dbus-1/interfaces, as the precise format of these files is unclear, and nothing makes use of it. * A proxy daemon is now provided to proxy clients connecting via classic D-Bus AF_UNIX sockets to kdbus, to provide full compatibility with classic D-Bus. * A bus driver implementation has been added that supports the classic D-Bus bus driver calls on kdbus, also for compatibility purposes. * A new API "sd-event.h" has been added that implements a minimal event loop API built around epoll. It provides a couple of features that direct epoll usage is lacking: prioritization of events, scales to large numbers of timer events, per-event timer slack (accuracy), system-wide coalescing of timer events, exit handlers, watchdog supervision support using systemd's sd_notify() API, child process handling. * A new API "sd-rntl.h" has been added that provides an API around the route netlink interface of the kernel, similar in style to "sd-bus.h". * A new API "sd-dhcp-client.h" has been added that provides a small DHCPv4 client-side implementation. This is used by "systemd-networkd". * There is a new kernel command line option "systemd.restore_state=0|1". When set to "0", none of the systemd tools will restore saved runtime state to hardware devices. More specifically, the rfkill and backlight states are not restored. * The FsckPassNo= compatibility option in mount/service units has been removed. The fstab generator will now add the necessary dependencies automatically, and does not require PID1's support for that anymore. * journalctl gained a new switch, --list-boots, that lists recent boots with their times and boot IDs. * The various tools like systemctl, loginctl, timedatectl, busctl, systemd-run, ... have gained a new switch "-M" to connect to a specific, local OS container (as direct connection, without requiring SSH). This works on any container that is registered with machined, such as those created by libvirt-lxc or nspawn. * systemd-run and systemd-analyze also gained support for "-H" to connect to remote hosts via SSH. This is particularly useful for systemd-run because it enables queuing of jobs onto remote systems. * machinectl gained a new command "login" to open a getty login in any local container. This works with any container that is registered with machined (such as those created by libvirt-lxc or nspawn), and which runs systemd inside. * machinectl gained a new "reboot" command that may be used to trigger a reboot on a specific container that is registered with machined. This works on any container that runs an init system of some kind. * systemctl gained a new "list-timers" command to print a nice listing of installed timer units with the times they elapse next. * Alternative reboot() parameters may now be specified on the "systemctl reboot" command line and are passed to the reboot() system call. * systemctl gained a new --job-mode= switch to configure the mode to queue a job with. This is a more generic version of --fail, --irreversible, and --ignore-dependencies, which are still available but not advertised anymore. * /etc/systemd/system.conf gained new settings to configure various default timeouts of units, as well as the default start limit interval and burst. These may still be overridden within each Unit. * PID1 will now export on the bus profile data of the security policy upload process (such as the SELinux policy upload to the kernel). * journald: when forwarding logs to the console, include timestamps (following the setting in /sys/module/printk/parameters/time). * OnCalendar= in timer units now understands the special strings "yearly" and "annually". (Both are equivalent) * The accuracy of timer units is now configurable with the new AccuracySec= setting. It defaults to 1min. * A new dependency type JoinsNamespaceOf= has been added that allows running two services within the same /tmp and network namespace, if PrivateNetwork= or PrivateTmp= are used. * A new command "cat" has been added to systemctl. It outputs the original unit file of a unit, and concatenates the contents of additional "drop-in" unit file snippets, so that the full configuration is shown. * systemctl now supports globbing on the various "list-xyz" commands, like "list-units" or "list-sockets", as well as on those commands which take multiple unit names. * journalctl's --unit= switch gained support for globbing. * All systemd daemons now make use of the watchdog logic so that systemd automatically notices when they hang. * If the $container_ttys environment variable is set, getty-generator will automatically spawn a getty for each listed tty. This is useful for container managers to request login gettys to be spawned on as many ttys as needed. * %h, %s, %U specifier support is not available anymore when used in unit files for PID 1. This is because NSS calls are not safe from PID 1. They stay available for --user instances of systemd, and as special case for the root user. * loginctl gained a new "--no-legend" switch to turn off output of the legend text. * The "sd-login.h" API gained three new calls: sd_session_is_remote(), sd_session_get_remote_user(), sd_session_get_remote_host() to query information about remote sessions. * The udev hardware database now also carries vendor/product information of SDIO devices. * The "sd-daemon.h" API gained a new sd_watchdog_enabled() to determine whether watchdog notifications are requested by the system manager. * Socket-activated per-connection services now include a short description of the connection parameters in the description. * tmpfiles gained a new "--boot" option. When this is not used, only lines where the command character is not suffixed with "!" are executed. When this option is specified, those options are executed too. This partitions tmpfiles directives into those that can be safely executed at any time, and those which should be run only at boot (for example, a line that creates /run/nologin). * A new API "sd-resolve.h" has been added which provides a simple asynchronous wrapper around glibc NSS host name resolution calls, such as getaddrinfo(). In contrast to glibc's getaddrinfo_a(), it does not use signals. In contrast to most other asynchronous name resolution libraries, this one does not reimplement DNS, but reuses NSS, so that alternate host name resolution systems continue to work, such as mDNS, LDAP, etc. This API is based on libasyncns, but it has been cleaned up for inclusion in systemd. * The APIs "sd-journal.h", "sd-login.h", "sd-id128.h" are no longer found in individual libraries libsystemd-journal.so, libsystemd-login.so, libsystemd-id128.so. Instead, we have merged them into a single library, libsystemd.so, which provides all symbols. The reason for this is cyclic dependencies, as these libraries tend to use each other's symbols. So far, we've managed to workaround that by linking a copy of a good part of our code into each of these libraries again and again, which, however, makes certain things hard to do, like sharing static variables. Also, it substantially increases footprint. With this change, there is only one library for the basic APIs systemd provides. Also, "sd-bus.h", "sd-memfd.h", "sd-event.h", "sd-rtnl.h", "sd-resolve.h", "sd-utf8.h" are found in this library as well, however are subject to the --enable-kdbus switch (see below). Note that "sd-dhcp-client.h" and "sd-daemon.h" are not part of this library (the former because it only consumes, never provides, services of/to other APIs, and the latter because it is completely standalone). To make the transition easy from the separate libraries to the unified one, we provide the --enable-compat-libs compile-time switch which will generate stub libraries that are compatible with the old ones but redirect all calls to the new one. * All of the kdbus logic and the new APIs "sd-bus.h", "sd-memfd.h", "sd-event.h", "sd-rtnl.h", "sd-resolve.h", and "sd-utf8.h" are compile-time optional via the "--enable-kdbus" switch, and they are not compiled in by default. To make use of kdbus, you have to explicitly enable the switch. Note however, that neither the kernel nor the userspace API for all of this is considered stable yet. We want to maintain the freedom to still change the APIs for now. By specifying this build-time switch, you acknowledge that you are aware of the instability of the current APIs. * Also, note that while kdbus is pretty much complete, it lacks one thing: proper policy support. This means you can build a fully working system with all features; however, it will be highly insecure. Policy support will be added in one of the next releases, at the same time that we will declare the APIs stable. * When the kernel command-line argument "kdbus" is specified, systemd will automatically load the kdbus.ko kernel module. At this stage of development, it is only useful for testing kdbus and should not be used in production. Note: if "--enable-kdbus" is specified, and the kdbus.ko kernel module is available, and "kdbus" is added to the kernel command line, the entire system runs with kdbus instead of dbus-daemon, with the above mentioned problem of missing the system policy enforcement. Also a future version of kdbus.ko or a newer systemd will not be compatible with each other, and will unlikely be able to boot the machine if only one of them is updated. * systemctl gained a new "import-environment" command which uploads the caller's environment (or parts thereof) into the service manager so that it is inherited by services started by the manager. This is useful to upload variables like $DISPLAY into the user service manager. * A new PrivateDevices= switch has been added to service units which allows running a service with a namespaced /dev directory that does not contain any device nodes for physical devices. More specifically, it only includes devices such as /dev/null, /dev/urandom, and /dev/zero which are API entry points. * logind has been extended to support behaviour like VT switching on seats that do not support a VT. This makes multi-session available on seats that are not the first seat (seat0), and on systems where kernel support for VTs has been disabled at compile-time. * If a process holds a delay lock for system sleep or shutdown and fails to release it in time, we will now log its identity. This makes it easier to identify processes that cause slow suspends or power-offs. * When parsing /etc/crypttab, support for a new key-slot= option as supported by Debian is added. It allows indicating which LUKS slot to use on disk, speeding up key loading. * The sd_journald_sendv() API call has been checked and officially declared to be async-signal-safe so that it may be invoked from signal handlers for logging purposes. * Boot-time status output is now enabled automatically after a short timeout if boot does not progress, in order to give the user an indication what she or he is waiting for. * The boot-time output has been improved to show how much time remains until jobs expire. * The KillMode= switch in service units gained a new possible value "mixed". If set, and the unit is shut down, then the initial SIGTERM signal is sent only to the main daemon process, while the following SIGKILL signal is sent to all remaining processes of the service. * When a scope unit is registered, a new property "Controller" may be set. If set to a valid bus name, systemd will send a RequestStop() signal to this name when it would like to shut down the scope. This may be used to hook manager logic into the shutdown logic of scope units. Also, scope units may now be put in a special "abandoned" state, in which case the manager process which created them takes no further responsibilities for it. * When reading unit files, systemd will now verify the access mode of these files, and warn about certain suspicious combinations. This has been added to make it easier to track down packaging bugs where unit files are marked executable or world-writable. * systemd-nspawn gained a new "--setenv=" switch to set container-wide environment variables. The similar option in systemd-activate was renamed from "--environment=" to "--setenv=" for consistency. * systemd-nspawn has been updated to create a new kdbus domain for each container that is invoked, thus allowing each container to have its own set of system and user buses, independent of the host. * systemd-nspawn gained a new --drop-capability= switch to run the container with less capabilities than the default. Both --drop-capability= and --capability= now take the special string "all" for dropping or keeping all capabilities. * systemd-nspawn gained new switches for executing containers with specific SELinux labels set. * systemd-nspawn gained a new --quiet switch to not generate any additional output but the container's own console output. * systemd-nspawn gained a new --share-system switch to run a container without PID namespacing enabled. * systemd-nspawn gained a new --register= switch to control whether the container is registered with systemd-machined or not. This is useful for containers that do not run full OS images, but only specific apps. * systemd-nspawn gained a new --keep-unit which may be used when invoked as the only program from a service unit, and results in registration of the unit service itself in systemd-machined, instead of a newly opened scope unit. * systemd-nspawn gained a new --network-interface= switch for moving arbitrary interfaces to the container. The new --network-veth switch creates a virtual Ethernet connection between host and container. The new --network-bridge= switch then allows assigning the host side of this virtual Ethernet connection to a bridge device. * systemd-nspawn gained a new --personality= switch for setting the kernel personality for the container. This is useful when running a 32bit container on a 64bit host. A similar option Personality= is now also available in service units. * logind will now also track a "Desktop" identifier for each session which encodes the desktop environment of it. This is useful for desktop environments that want to identify multiple running sessions of itself easily. * A new SELinuxContext= setting for service units has been added that allows setting a specific SELinux execution context for a service. * Most systemd client tools will now honour $SYSTEMD_LESS for settings of the "less" pager. By default, these tools will override $LESS to allow certain operations to work, such as jump-to-the-end. With $SYSTEMD_LESS, it is possible to influence this logic. * systemd's "seccomp" hook-up has been changed to make use of the libseccomp library instead of using its own implementation. This has benefits for portability among other things. * For usage together with SystemCallFilter=, a new SystemCallErrorNumber= setting has been introduced that allows configuration of a system error number to return on filtered system calls, instead of immediately killing the process. Also, SystemCallArchitectures= has been added to limit access to system calls of a particular architecture (in order to turn off support for unused secondary architectures). There is also a global SystemCallArchitectures= setting in system.conf now to turn off support for non-native system calls system-wide. Contributions from: Adam Williamson, Alex Jia, Anatol Pomozov, Ansgar Burchardt, AppleBloom, Auke Kok, Bastien Nocera, Chengwei Yang, Christian Seiler, Colin Guthrie, Colin Walters, Cristian Rodríguez, Daniel Buch, Daniele Medri, Daniel J Walsh, Daniel Mack, Dan McGee, Dave Reisner, David Coppa, David Herrmann, David Strauss, Djalal Harouni, Dmitry Pisklov, Elia Pinto, Florian Weimer, George McCollister, Goffredo Baroncelli, Greg Kroah-Hartman, Hendrik Brueckner, Igor Zhbanov, Jan Engelhardt, Jan Janssen, Jason A. Donenfeld, Jason St. John, Jasper St. Pierre, Jóhann B. Guðmundsson, Jose Ignacio Naranjo, Karel Zak, Kay Sievers, Kristian Høgsberg, Lennart Poettering, Lubomir Rintel, Lukas Nykryn, Lukasz Skalski, Łukasz Stelmach, Luke Shumaker, Mantas Mikulėnas, Marc-Antoine Perennou, Marcel Holtmann, Marcos Felipe Rasia de Mello, Marko Myllynen, Martin Pitt, Matthew Monaco, Michael Marineau, Michael Scherer, Michał Górny, Michal Sekletar, Michele Curti, Oleksii Shevchuk, Olivier Brunel, Patrik Flykt, Pavel Holica, Raudi, Richard Marko, Ronny Chevalier, Sébastien Luttringer, Sergey Ptashnick, Shawn Landden, Simon Peeters, Stefan Beller, Susant Sahani, Sylvain Plantefeve, Sylvia Else, Tero Roponen, Thomas Bächler, Thomas Hindoe Paaboel Andersen, Tom Gundersen, Umut Tezduyar Lindskog, Unai Uribarri, Václav Pavlín, Vincent Batts, WaLyong Cho, William Giokas, Yang Zhiyong, Yin Kangkai, Yuxuan Shui, Zbigniew Jędrzejewski-Szmek -- Berlin, 2014-02-20 Lennart -- Lennart Poettering, Red Hat _______________________________________________ systemd-devel mailing list systemd-devel@lists.freedesktop.org http://lists.freedesktop.org/mailman/listinfo/systemd-devel