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Received: from ivanoab7.miniserver.com ([37.128.132.42] helo=www.kot-begemot.co.uk) by casper.infradead.org with esmtps (Exim 4.92.3 #3 (Red Hat Linux)) id 1kFDLN-0006vZ-42 for linux-um@lists.infradead.org; Mon, 07 Sep 2020 09:21:51 +0000 Received: from tun252.jain.kot-begemot.co.uk ([192.168.18.6] helo=jain.kot-begemot.co.uk) by www.kot-begemot.co.uk with esmtps (TLS1.3:ECDHE_RSA_AES_256_GCM_SHA384:256) (Exim 4.92) (envelope-from ) id 1kFDLA-0006Rw-N6; Mon, 07 Sep 2020 09:21:34 +0000 Received: from jain.kot-begemot.co.uk ([192.168.3.3]) by jain.kot-begemot.co.uk with esmtp (Exim 4.92) (envelope-from ) id 1kFDL4-0004ac-1w; Mon, 07 Sep 2020 10:21:29 +0100 From: anton.ivanov@cambridgegreys.com To: linux-um@lists.infradead.org, linux-doc@vger.kernel.org Subject: [PATCH v2] docs: add a new User Mode Linux HowTo Date: Mon, 7 Sep 2020 10:21:24 +0100 Message-Id: <20200907092124.17599-1-anton.ivanov@cambridgegreys.com> X-Mailer: git-send-email 2.20.1 MIME-Version: 1.0 X-Spam-Score: -1.0 X-Spam-Score: -1.0 X-Clacks-Overhead: GNU Terry Pratchett X-CRM114-Version: 20100106-BlameMichelson ( TRE 0.8.0 (BSD) ) MR-646709E3 X-CRM114-CacheID: sfid-20200907_102145_598048_11852EFD X-CRM114-Status: GOOD ( 43.50 ) X-Spam-Score: -1.7 (-) X-Spam-Report: SpamAssassin version 3.4.4 on casper.infradead.org summary: Content analysis details: (-1.7 points, 5.0 required) pts rule name description ---- ---------------------- -------------------------------------------------- -1.9 BAYES_00 BODY: Bayes spam probability is 0 to 1% [score: 0.0000] 0.0 SPF_NONE SPF: sender does not publish an SPF Record 0.0 SPF_HELO_NONE SPF: HELO does not publish an SPF Record 0.2 KHOP_HELO_FCRDNS Relay HELO differs from its IP's reverse DNS X-BeenThere: linux-um@lists.infradead.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Cc: richard@nod.at, Anton Ivanov , corbet@lwn.net Sender: "linux-um" Errors-To: linux-um-bounces+incoming=patchwork.ozlabs.org@lists.infradead.org From: Anton Ivanov The new howto migrates the portions of the old howto which are still relevant to a new document, updates them to linux 5.x and adds documentation for vector transports and other new features. This version addresses comments from Mike Rapoport. Signed-off-by: Anton Ivanov --- Documentation/virt/index.rst | 2 +- ...mode_linux.rst => user_mode_linux-2.4.rst} | 4 + .../virt/uml/user_mode_linux_howto_v2.rst | 1315 +++++++++++++++++ 3 files changed, 1320 insertions(+), 1 deletion(-) rename Documentation/virt/uml/{user_mode_linux.rst => user_mode_linux-2.4.rst} (99%) create mode 100644 Documentation/virt/uml/user_mode_linux_howto_v2.rst diff --git a/Documentation/virt/index.rst b/Documentation/virt/index.rst index de1ab81df958..d20490292642 100644 --- a/Documentation/virt/index.rst +++ b/Documentation/virt/index.rst @@ -8,7 +8,7 @@ Linux Virtualization Support :maxdepth: 2 kvm/index - uml/user_mode_linux + uml/user_mode_linux_howto_v2 paravirt_ops guest-halt-polling diff --git a/Documentation/virt/uml/user_mode_linux.rst b/Documentation/virt/uml/user_mode_linux-2.4.rst similarity index 99% rename from Documentation/virt/uml/user_mode_linux.rst rename to Documentation/virt/uml/user_mode_linux-2.4.rst index de0f0b2c9d5b..ed5a698cd710 100644 --- a/Documentation/virt/uml/user_mode_linux.rst +++ b/Documentation/virt/uml/user_mode_linux-2.4.rst @@ -10,6 +10,10 @@ User Mode Linux HOWTO This document describes the use and abuse of Jeff Dike's User Mode Linux: a port of the Linux kernel as a normal Intel Linux process. +*Note: - this howto is historic and correct as of kernel versions +~ 2.4. For more up-to-date information please refer to the newer +user_mode_linux_howto_v2.* + .. Table of Contents diff --git a/Documentation/virt/uml/user_mode_linux_howto_v2.rst b/Documentation/virt/uml/user_mode_linux_howto_v2.rst new file mode 100644 index 000000000000..5d0c337f884d --- /dev/null +++ b/Documentation/virt/uml/user_mode_linux_howto_v2.rst @@ -0,0 +1,1315 @@ +.. SPDX-License-Identifier: GPL-2.0 + +######### +UML HowTo +######### + +:Author: User Mode Linux Core Team +:Last-updated: Friday Sep 04 14:50:55 BST 2020 + +.. contents:: :local: + +************ +Introduction +************ + +Welcome to User Mode Linux + +User Mode Linux is the first Open Source virtualization platform (first +release date 1991) and second virtualization platform for an x86 PC. + +How is UML Different from a VM using Virtualization package X? +============================================================== + +We have come to assume that virtualization also means some level of +hardware emulation. In fact, it does not. As long as a virtualization +package provides the OS with devices which the OS can recognize and +has a driver for, the devices do not need to emulate real hardware. +Most OSes today have built-in support for a number of "fake" +devices used only under virtualization. +User Mode Linux takes this concept to the ultimate extreme - there +is not a single real device in sight. It is 100% artificial or if +we use the correct term 100% paravirtual. All UML devices are abstract +concepts which map onto something provided by the host - files, sockets, +pipes, etc. + +The other major difference between UML and various virtualization +packages is that there is a distinct difference between the way the UML +kernel and the UML programs operate. +The UML kernel is just a process running on Linux - same as any other +program. It can be run by an unprivileged user and it does not require +anything in terms of special CPU features. +The UML userspace, however, is a bit different. The Linux kernel on the +host machine assists UML in intercepting everything the program running +on a UML instance is trying to do and making the UML kernel handle all +of its requests. +This is different from other virtualization packages which do not make any +difference between the guest kernel and guest programs. This difference +results in a number of advantages and disadvantages of UML over let's say +QEMU which we will cover later in this document. + + +Why Would I Want User Mode Linux? +================================= + + +* If User Mode Linux kernel crashes, your host kernel is still fine. It + is not accelerated in any way (vhost, kvm, etc) and it is not trying to + access any devices directly. It is, in fact, a process like any other. + +* You can run a usermode kernel as a non-root user (you may need to + arrange appropriate permissions for some devices). + +* You can run a very small VM with a minimal footprint for a specific + task (for example 32M or less). + +* You can get extremely high performance for anything which is a "kernel + specific task" such as forwarding, firewalling, etc while still being + isolated from the host kernel. + +* You can play with kernel concepts without breaking things. + +* You are not bound by "emulating" hardware, so you can try weird and + wonderful concepts which are very difficult to support when emulating + real hardware such as time travel and making your system clock + dependent on what UML does (very useful for things like tests). + +* It's fun. + +Why not to run UML +================== + +* The syscall interception technique used by UML makes it inherently + slower for any userspace applications. While it can do kernel tasks + on par with most other virtualization packages, its userspace is + **slow**. The root cause is that UML has a very high cost of creating + new processes and threads (something most Unix/Linux applications + take for granted). + +* UML is strictly uniprocessor at present. If you want to run an + application which needs many CPUs to function, it is clearly the + wrong choice. + +*********************** +Building a UML instance +*********************** + +There is no UML installer in any distribution. While you can use off +the shelf install media to install into a blank VM using a virtualization +package, there is no UML equivalent. You have to use appropriate tools on +your host to build a viable filesystem image. + +This is extremely easy on Debian - you can do it using debootstrap. It is +also easy on OpenWRT - the build process can build UML images. All other +distros - YMMV. + +Creating an image +================= + +Create a sparse raw disk image: + +.. code-block:: shell + + dd if=/dev/zero of=disk_image_name bs=1 count=1 seek=16G + +will create a 16G disk image. The OS will initially allocate only one +block and will allocate more as they are written by UML. As of kernel +version 4.19 UML fully supports TRIM (as usually used by flash drives). +Using TRIM inside the UML image by specifying discard as a mount option +or by running ``tune2fs -o discard /dev/ubdXX`` will request UML to +return any unused blocks to the OS. + +Create a filesystem on the disk image and mount it: +--------------------------------------------------- + +.. code-block:: shell + + mkfs.ext4 ./disk_image_name + mount ./disk_image_name /mnt + +This example uses ext4, any other filesystem such as ext3, btrfs, xfs, +jfs, etc will work too. + +Create a minimal OS installation on the mounted filesystem +---------------------------------------------------------- + +.. code-block:: shell + + debootstrap buster /mnt http://deb.debian.org/debian + +debootstrap does not set up the root password, fstab, hostname or +anything related to networking. It is up to the user to do that. + +Set the root password +--------------------- + +The easiest way to do that is to chroot to the mounted image. + +.. code-block:: shell + + chroot /mnt + passwd + exit + +Edit key system files +===================== + +Edit fstab +---------- + +UML block devices are called ubds. The fstab created by debootstrap +will be empty and it needs an entry for the root file system: + +.. code-block:: text + + /dev/ubd0 ext4 discard,errors=remount-ro 0 1 + + +Edit hostname +------------- + +It will be set to the same as the host on which you are creating the +image. It is a good idea to change that to avoid "Oh, bummer, I +rebooted the wrong machine". + +Edit network/interfaces on Debian or their equivalent +----------------------------------------------------- + +UML supports two classes of network devices - the older uml_net ones +which are scheduled for obsoletion. These are called ethX. It also +supports the newer vector IO devices which are significantly faster +and have support for some standard virtual network encapsulations like +Ethernet over GRE and Ethernet over L2TPv3. These are called vec0. + +Depending on which one is in use, ``/etc/network/interfaces`` will +need an entry like + +.. code-block:: text + + auto eth0 + iface eth0 inet dhcp + +or + +.. code-block:: text + + auto vec0 + iface eth0 inet dhcp + + +We now have a UML image which is nearly ready to run, all we need is a +UML kernel and modules for it. + +Most distributions have a UML package. Even if you intend to use your own +kernel, testing the image with a stock one is always a good start. These +packages come with a set of modules which should be copied to the target +filesystem. The location is distribution dependent. For Debian these +reside under /usr/lib/uml/modules. Copy recursively the content of this +directory to the mounted UML filesystem: + + +.. code-block:: shell + + cp -rax /usr/lib/uml/modules /mnt/lib/modules + +If you have compiled your own kernel, you need to use the usual "install +modules to a location" procedure by running + +.. code-block:: shell + + make install MODULES_DIR=/mnt/lib/modules + +At this point the image is ready to be brought up. + +************************* +Setting Up UML Networking +************************* + +UML networking is designed to emulate an Ethernet connection. This +connection may be either a point-to-point (similar to a connection +between machines using a back-to-back cable) or a connection to a +switch. UML supports a wide variety of means to build these +connections to all of: local machine, remote machine(s), local and +remote UML and other VM instances. + +.. csv-table:: Supported Transports + :header: "Transport", "Type", "Capabilities", "Speed (on 3.5GHz Ryzen)" + :widths: 20, 10, 30, 20 + + "tap", "vector", "checksum and tso offloads", "> 8Gbit" + "hybrid", "vector", "checksum and tso offloads, multipacket rx", "> 6GBit" + "raw", "vector", "checksum and tso offloads, multipacket rx, tx", "> 6GBit" + "Ethernet over gre", "vector", "multipacket rx, tx", "> 3Gbit" + "Ethernet over l2tpv3", "vector", "multipacket rx, tx", "> 3Gbit" + "bess", "vector", "multipacket rx, tx ", "> 3Gbit" + "fd", "vector", "dependent on fd type", "varies, up to >6Gbit" + "tuntap", "legacy", "none", "~ 500Mbit" + "daemon", "legacy", "none", "~ 450Mbit" + "socket", "legacy", "none", "~ 450Mbit" + "pcap", "legacy", "none", "~ 400Mbit, rx only" + "ethertap", "obsolete", "none", "uknown" + "vde", "obsolete", "none", "uknown" + +* All transports which have tso and checksum offloads can deliver speeds + approaching 10G on TCP streams. + +* All transports which have multi-packet rx and/or tx can deliver pps + rates of up to 1Mps or more. + +* All legacy transports are generally limited to ~600-700MBit and 0.05Mps + +* GRE and L2TPv3 allow connections to all of: local machine, remote + machines, remote network devices and remote UML instances. + +* Socket allows connections only between UML instances. + +* Daemon and bess require running a local switch. This switch may be + connected to the host as well. + + +Network configuration privileges +================================ + +The majority of the supported networking modes need ``root`` privileges. +For example, in the legacy tuntap networking mode, users were required +to be part of the group associated with the tunnel device. + +For newer network drivers like the vector transports, ``root`` privilege +is required to fire an ioctl to setup the tun interface and/or use +raw sockets where needed. + +This can be achieved by granting the user a particular capability instead +of running UML as root. In case of vector transport, a user can add the +capability ``CAP_NET_ADMIN`` or ``CAP_NET_RAW``, to the uml binary. +Thenceforth, UML can be run with normal user privilges, along with +full networking. + +For example: + +.. code-block:: shell + + sudo setcap cap_net_raw,cap_net_admin+ep linux + +Configuring vector transports +=============================== + +All vector transports support a similar syntax: + +If X is the interface number as in vec0, vec1, vec2, etc, the general +syntax for options is: +.. code-block:: shell + + vecX:transport="Transport Name",option=value,option=value,...,option=value + +Common options +-------------- + +These options are common for all transports: + +* ``depth=int`` - sets the queue depth for vector IO. This is the + amount of packets UML will attempt to read or write in a single + system call. The default number is 64 and is generally sufficient + for most applications that need throughput in the 2-4 Gbit range. + Higher speeds may require larger values. + +* ``mac=XX:XX:XX:XX:XX`` - sets the interface MAC address value. + +* ``gro=[0,1]`` - sets GRO on or off. Enables receive/transmit offloads. + The effect of this option depends on the host side support in the transport + which is being configured. In most cases it will enable TCP segmentation and + RX/TX checksumming offloads. The setting must be identical on the host side + and the UML side. The UML kernel will produce warnings if it is not. + For example, GRO is enabled by default on local machine interfaces + (e.g. veth pairs, bridge, etc), so it should be enabled in UML in the + corresponding UML transports (raw, tap, hybrid) in order for networking to + operate correctly. + +* ``mtu=int`` - sets the interface MTU + +* ``headroom=int`` - adjusts the default headroom (32 bytes) reserved + if a packet will need to be re-encapsulated into for instance VXLAN. + +* ``vec=0`` - disable multipacket io and fall back to packet at a + time mode + +Shared Options +-------------- + +* ``ifname=str`` Transports which bind to a local network interface + have a shared option - the name of the interface to bind to. + +* ``src, dst, src_port, dst_port`` - all transports which use sockets + which have the notion of source and destination and/or source port + and destination port use these to specify them. + +* ``v6=[0,1]`` to specify if a v6 connection is desired for all + transports which operate over IP. Additionally, for transports that + have some differences in the way they operate over v4 and v6 (for example + EoL2TPv3), sets the correct mode of operation. In the absense of this + option, the socket type is determined based on what do the src and dst + arguments resolve/parse to. + +tap transport +------------- + +Example: + +.. code-block:: shell + + vecX:transport=tap,ifname=tap0,depth=128,gro=1 + +This will connect vec0 to tap0 on the host. Tap0 must already exist (for example +created using tunctl) and UP. + +tap0 can be configured as a point-to-point interface and given an ip +address so that UML can talk to the host. Alternatively, it is possible +to connect UML to a tap interface which is connected to a bridge. + +While tap relies on the vector infrastructure, it is not a true vector +transport at this point, because Linux does not support multi-packet +IO on tap file descriptors for normal userspace apps like UML. This +is a privilege which is offered only to something which can hook up +to it at kernel level via specialized interfaces like vhost-net. A +vhost-net like helper for UML is planned at some point in the future. + +Privileges required: tap transport requires either: + +* tap interface to exist and be created persistent and owned by the + UML user using tunctl. Example ``tunctl -u uml-user -t tap0`` + +* binary to have ``CAP_NET_ADMIN`` privilege + +hybrid transport +---------------- + +Example: + +.. code-block:: shell + + vecX:transport=hybrid,ifname=tap0,depth=128,gro=1 + +This is an experimental/demo transport which couples tap for transmit +and a raw socket for receive. The raw socket allows multi-packet +receive resulting in significantly higher packet rates than normal tap + +Privileges required: hybrid requires ``CAP_NET_RAW`` capability by +the UML user as well as the requirements for the tap transport. + +raw socket transport +-------------------- + +Example: + +.. code-block:: shell + + vecX:transport=raw,ifname=p-veth0,depth=128,gro=1 + + +This transport uses vector IO on raw sockets. While you can bind to any +interface including a physical one, the most common use it to bind to +the "peer" side of a veth pair with the other side configured on the +host. + +Example host configuration for Debian: + +**/etc/network/interfaces** + +.. code-block:: text + + auto veth0 + iface veth0 inet static + address 192.168.4.1 + netmask 255.255.255.252 + broadcast 192.168.4.3 + pre-up ip link add veth0 type veth peer name p-veth0 && \ + ifconfig p-veth0 up + +UML can now bind to p-veth0 like this: + +.. code-block:: text + + vec0:transport=raw,ifname=p-veth0,depth=128,gro=1 + + +If the UML guest is configured with 192.168.4.2 and netmask 255.255.255.0 +it can talk to the host on 192.168.4.1 + +The raw transport also provides some support for offloading some of the +filtering to the host. The two options to control it are: + +* bpffile = filename of raw bpf code to be loaded as a socket filter + +* bpfflash = 0/1 allow loading of bpf from inside User Mode Linux. + This option allows the use of the ethtool load firmware command to + load bpf code. + +In either case the bpf code is loaded into the host kernel. While this is +presently limited to legacy bpf syntax (not ebpf), it is still a security +risk. It is not recommended to allow this unless the User Mode Linux +instance is considered trusted. + +Privileges required: raw socket transport requires `CAP_NET_RAW` +capability. + +GRE socket transport +-------------------- + +Example: + +.. code-block:: text + + vecX:transport=gre,src=$src_host,dst=$dst_host + + +This will configure an Ethernet over ``GRE`` (aka ``GRETAP`` or +``GREIRB``) tunnel which will connect the UML instance to a ``GRE`` +endpoint at host dst_host. ``GRE`` supports the following additional +options: + +* ``rx_key=int`` - GRE 32 bit integer key for rx packets, if set, + ``txkey`` must be set too + +* ``tx_key=int`` - GRE 32 bit integer key for tx packets, if set + ``rx_key`` must be set too + +* ``sequence=[0,1]`` - enable GRE sequence + +* ``pin_sequence=[0,1]`` - pretend that the sequence is always reset + on each packet (needed to interoperate with some really broken + implementations) + +* ``v6=[0,1]`` - force IPv4 or IPv6 sockets respectively + +* GRE checksum is not presently supported + +GRE has a number of caveats: + +* You can use only one GRE connection per ip address. There is no way to + multiplex connections as each GRE tunnel is terminated directly on + the UML instance. + +* The key is not really a security feature. While it was intended as such + it's "security" is laughable. It is, however, a useful feature to + ensure that the tunnel is not misconfigured. + +An example configuration for a Linux host with a local address of +192.168.128.1 to connect to a UML instance at 192.168.129.1 + +**/etc/network/interfaces** + +.. code-block:: text + + auto gt0 + iface gt0 inet static + address 10.0.0.1 + netmask 255.255.255.0 + broadcast 10.0.0.255 + mtu 1500 + pre-up ip link add gt0 type gretap local 192.168.128.1 \ + remote 192.168.129.1 || true + down ip link del gt0 || true + +Additionally, GRE has been tested versus a variety of network equipment. + +Privileges required: GRE requires ``CAP_NET_RAW`` + +l2tpv3 socket transport +----------------------- + +_Warning_. L2TPv3 has a "bug". It is the "bug" known as "has more +options than GNU ls". While it has some advantages, there are usually +easier (and less verbose) ways to connect a UML instance to something. +For example, most devices which support L2TPv3 also support GRE. + +Example: + +.. code-block:: text + + vec0:transport=l2tpv3,udp=1,src=$src_host,dst=$dst_host,srcport=$src_port,dstport=$dst_port,depth=128,rx_session=0xffffffff,tx_session=0xffff + + +This will configure an Ethernet over L2TPv3 fixed tunnel which will +connect the UML instance to a L2TPv3 endpoint at host $dst_host using +the L2TPv3 UDP flavour and UDP destination port $dst_port. + +L2TPv3 always requires the following additional options: + +* ``rx_session=int`` - l2tpv3 32 bit integer session for rx packets + +* ``tx_session=int`` - l2tpv3 32 bit integer session for tx packets + +As the tunnel is fixed these are not negotiated and they are +preconfigured on both ends. + +Additionally, L2TPv3 supports the following optional parameters + +* ``rx_cookie=int`` - l2tpv3 32 bit integer cookie for rx packets - same + functionality as GRE key, more to prevent misconfiguration than provide + actual security + +* ``tx_cookie=int`` - l2tpv3 32 bit integer cookie for tx packets + +* ``cookie64=[0,1]`` - use 64 bit cookies instead of 32 bit. + +* ``counter=[0,1]`` - enable l2tpv3 counter + +* ``pin_counter=[0,1]`` - pretend that the counter is always reset on + each packet (needed to interoperate with some really broken + implementations) + +* ``v6=[0,1]`` - force v6 sockets + +* ``udp=[0,1]`` - use raw sockets (0) or UDP (1) version of the protocol + +L2TPv3 has a number of caveats: + +* you can use only one connection per ip address in raw mode. There is + no way to multiplex connections as each L2TPv3 tunnel is terminated + directly on the UML instance. UDP mode can use different ports for + this purpose. + +Here is an example of how to configure a linux host to connect to UML +via L2TPv3: + +**/etc/network/interfaces** + +.. code-block:: text + + auto l2tp1 + iface l2tp1 inet static + address 192.168.126.1 + netmask 255.255.255.0 + broadcast 192.168.126.255 + mtu 1500 + pre-up ip l2tp add tunnel remote 127.0.0.1 \ + local 127.0.0.1 encap udp tunnel_id 2 \ + peer_tunnel_id 2 udp_sport 1706 udp_dport 1707 && \ + ip l2tp add session name l2tp1 tunnel_id 2 \ + session_id 0xffffffff peer_session_id 0xffffffff + down ip l2tp del session tunnel_id 2 session_id 0xffffffff && \ + ip l2tp del tunnel tunnel_id 2 + + +Privileges required: L2TPv3 requires ``CAP_NET_RAW`` for raw IP mode and +no special privileges for the UDP mode. + +BESS socket transport +--------------------- + +BESS is a high performance modular network switch. + +https://github.com/NetSys/bess + +It has support for a simple sequential packet socket mode which in the +more recent versions is using vector IO for high performance. + +Example: + +.. code-block:: text + + vecX:transport=bess,src=$unix_src,dst=$unix_dst + +This will configure a BESS transport using the unix_src Unix domain +socket address as source and unix_dst socket address as destination. + +For BESS configuration and how to allocate a BESS Unix domain socket port +please see the BESS documentation. + +https://github.com/NetSys/bess/wiki/Built-In-Modules-and-Ports + +BESS transport does not require any special privileges. + +Configuring Legacy transports +============================= + +Legacy transports are now considered obsolete. Please use the vector +versions. + +*********** +Running UML +*********** + +This section assumes that either the user-mode-linux package from the +distribution or a custom built kernel has been installed on the host. + +These add an executable called linux to the system. This is the UML +kernel. It can be run just like any other executable. +It will take most normal linux kernel arguments as command line +arguments. Additionally, it will need some UML specific arguments +in order to do something useful. + +Arguments +========= + +Mandatory Arguments: +-------------------- + +* ``mem=int[K,M,G]`` - amount of memory. By default bytes. It will + also accept K, M or G qualifiers. + +* ``ubdX[s,d,c,t]=`` virtual disk specification. This is not really + mandatory, but it is likely to be needed in nearly all cases so we can + specify a root file system. + The simplest possible image specification is the name of the image + file for the filesystem (created using one of the methods described + in `Creating an image`_) + + * UBD devices support copy on write (COW). The changes are kept in + a separate file which can be discarded allowing a rollback to the + original pristine image. If COW is desired, the UBD image is + specified as: ``cow_file,master_image``. + Example:``ubd0=Filesystem.cow,Filesystem.img`` + + * UBD devices can be set to use synchronous IO. Any writes are + immediately flushed to disk. This is done by adding ``s`` after + the ``ubdX`` specification + + * UBD performs some euristics on devices specified as a single + filename to make sure that a COW file has not been specified as + the image. To turn them off, use the ``d`` flag after ``ubdX`` + + * UBD supports TRIM - asking the Host OS to reclaim any unused + blocks in the image. To turn it off, specify the ``t`` flag after + ``ubdX`` + +* ``root=`` root device - most likely ``/dev/ubd0`` (this is a Linux + filesystem image) + +Important Optional Arguments +---------------------------- + +If UML is run as "linux" with no extra arguments, it will try to start an +xterm for every console configured inside the image (up to 6 in most +linux distributions). Each console is started inside an +xterm. This makes it nice and easy to use UML on a host with a GUI. It is, however, +the wrong approach if UML is to be used as a testing harness or run in +a text-only environment. + +In order to change this behaviour we need to specify an alternative console +and wire it to one of the supported "line" channels. For this we need to map a +console to use something different from the default xterm. + +Example which will divert console number 1 to stdin/stdout: + +.. code-block:: text + + con1=fd:0,fd:1 + +UML supports a wide variety of serial line channels which are specified using +the following syntax + +.. code-block:: text + + conX=channel_type:options[,channel_type:options] + + +If the channel specification contains two parts separated by comma, the first +one is input, the second one output. + +* The null channel - Discard all input or output. Example ``con=null`` will set + all consoles to null by default. + +* The fd channel - use file descriptor numbers for input/out. Example: + ``con1=fd:0,fd:1.`` + +* The port channel - listen on tcp port number. Example: ``con1=port:4321`` + +* The pty and pts channels - use system pty/pts. + +* The tty channel - bind to an existing system tty. Example: ``con1=/dev/tty8`` + will make UML use the host 8th console (usually unused). + +* The xterm channel - this is the default - bring up an xterm on this channel and + direct IO to it. Note, that in order for xterm to work, the host must have the + UML distribution package installed. This usually contains the port-helper and + other utilities needed for UML to communicate with the xterm. Alternatively, + these need to be complied and installed from source. All options applicable + to consoles also apply to UML serial lines which are presented as ttyS inside UML. + +Starting UML +============ + +We can now run UML. + +.. code-block:: text + + linux mem=2048M umid=TEST \ + ubd0=Filesystem.img \ + vec0:transport=tap,ifname=tap0,depth=128,gro=1 \ + root=/dev/ubda con=null con0=null,fd:2 con1=fd:0,fd:1 + +This will run an instance with ``2048M RAM``, try to use the image file +called ``Filesystem.img`` as root. It will connect to the host using tap0. +All consoles except ``con1`` will be disabled and console 1 will +use standard input/output making it appear in the same terminal it was started. + +Logging in +============ + +If you have not set up a password when generating the image, you will have to +shut down the UML instance, mount the image, chroot into it and set it - as +described in the Generating an Image section. If the password is already set, +you can just log in. + +The UML Management Console +============================ + +In addition to managing the image from "the inside" using normal sysadmin tools, +it is possible to perform a number of low level operations using the UML +management console. The UML management console is a low-level interface to the +kernel on a running UML instance, somewhat like the i386 SysRq interface. Since +there is a full-blown operating system under UML, there is much greater +flexibility possible than with the SysRq mechanism. + +There are a number of things you can do with the mconsole interface: + +* get the kernel version +* add and remove devices +* halt or reboot the machine +* Send SysRq commands +* Pause and resume the UML +* Inspect processes running inside UML +* Inspect UML internal /proc state + +You need the mconsole client (uml\_mconsole) which is a part of the UML +tools package available in most Linux distritions. + +You also need ``CONFIG_MCONSOLE`` (under 'General Setup') enabled in the UML +kernel. When you boot UML, you'll see a line like: + +.. code-block:: text + + mconsole initialized on /home/jdike/.uml/umlNJ32yL/mconsole + +If you specify a unique machine id one the UML command line, i.e. + +.. code-block:: text + + umid=debian + + +you'll see this + +.. code-block:: text + + mconsole initialized on /home/jdike/.uml/debian/mconsole + + +That file is the socket that uml_mconsole will use to communicate with +UML. Run it with either the umid or the full path as its argument: + +.. code-block:: text + + host$ uml_mconsole debian + +or + +.. code-block:: text + + host$ uml_mconsole /home/jdike/.uml/debian/mconsole + + +You'll get a prompt, at which you can run one of these commands: + +* version + +* help +* halt +* reboot +* config +* remove +* sysrq +* help +* cad +* stop +* go +* proc +* stack + +version +------- + +This command takes no arguments. It prints the UML version. + +.. code-block:: text + + (mconsole) version + + OK Linux OpenWrt 4.14.106 #0 Tue Mar 19 08:19:41 2019 x86_64 + + +There are a couple actual uses for this. It's a simple no-op which +can be used to check that a UML is running. It's also a way of +sending a device interrupt to the UML. UML mconsole is treated internally as +a UML device. + +help +---- + +This command takes no arguments. It prints a short help screen with the +supported mconsole commands. + + +halt and reboot +--------------- + +These commands take no arguments. They shut the machine down immediately, with +no syncing of disks and no clean shutdown of userspace. So, they are +pretty close to crashing the machine. + +.. code-block:: text + + (mconsole) halt + + OK + +config +------ + +"config" adds a new device to the virtual machine. This is supported +by most UML device drivers. It takes one argument, which is the +device to add, with the same syntax as the kernel command line. + +.. code-block:: text + + (mconsole) config ubd3=/home/jdike/incoming/roots/root*fs*debian22 + +remove +------ + +"remove" deletes a device from the system. Its argument is just the +name of the device to be removed. The device must be idle in whatever +sense the driver considers necessary. In the case of the ubd driver, +the removed block device must not be mounted, swapped on, or otherwise +open, and in the case of the network driver, the device must be down. + +.. code-block:: text + + (mconsole) remove ubd3 + (mconsole) remove eth1 + +sysrq +----- + +This command takes one argument, which is a single letter. It calls the +generic kernel's SysRq driver, which does whatever is called for by +that argument. See the SysRq documentation in +Documentation/admin-guide/sysrq.rst in your favorite kernel tree to +see what letters are valid and what they do. + +cad +--- + +This invokes the ``Ctl-Alt-Del`` action in the running image. What exactly +this ends up doing is up to init, systemd, etc. Normally, it reboots the +machine. + +stop +---- + +This puts the UML in a loop reading mconsole requests until a 'go' +mconsole command is received. This is very useful as a +debugging/snapshotting tool. + +go +-- + +This resumes a UML after being paused by a 'stop' command. Note that +when the UML has resumed, TCP connections may have timed out and if +the UML is paused for a long period of time, crond might go a little +crazy, running all the jobs it didn't do earlier. + +proc +---- + +This takes one argument - the name of a file in /proc which is printed +to the mconsole standard output + +stack +----- + +This takes one argument - the pid number of a process. Its stack is +printed to a standard output. + +******************* +Advanced UML Topics +******************* + +Sharing Filesystems between Virtual Machines +============================================ + +Don't attempt to share filesystems simply by booting two UMLs from the +same file. That's the same thing as booting two physical machines +from a shared disk. It will result in filesystem corruption. + +Using layered block devices +--------------------------- + +The way to share a filesystem between two virtual machines is to use +the copy-on-write (COW) layering capability of the ubd block driver. +Any changed blocks are stored in the private COW file, while reads come +from either device - the private one if the requested block is valid in +it, the shared one if not. Using this scheme, the majority of data +which is unchanged is shared between an arbitrary number of virtual +machines, each of which has a much smaller file containing the changes +that it has made. With a large number of UMLs booting from a large root +filesystem, this leads to a huge disk space saving. + +Sharing file system data will also help performance, since the host will +be able to cache the shared data using a much smaller amount of memory, +so UML disk requests will be served from the host's memory rather than +its disks. There is a major caveat in doing this on multisocket NUMA +machines. On such hardware, running many UML instances with a shared +master image and COW changes may caise issues like NMIs from excess of +inter-socket traffic. + +If you are running UML on high end hardware like this, make sure to +bind UML to a set of logical cpus residing on the same socket using the +``taskset`` command or have a look at the "tuning" section. + +To add a copy-on-write layer to an existing block device file, simply +add the name of the COW file to the appropriate ubd switch: + +.. code-block:: text + + ubd0=root_fs_cow,root_fs_debian_22 + +where ``root_fs_cow`` is the private COW file and ``root_fs_debian_22`` is +the existing shared filesystem. The COW file need not exist. If it +doesn't, the driver will create and initialize it. + +Disk Usage +---------- + +UML has TRIM support which will release any unused space in its disk +image files to the underlying OS. It is important to use either ls -ls +or du to verify the actual file size. + +COW validity. +------------- + +Any changes to the master image will invalidate all COW files. If this +happens, UML will *NOT* automatically delete any of the COW files and +will refuse to boot. In this case the only solution is to either +restore the old image (including its last modified timestamp) or remove +all COW files which will result in their recreation. Any changes in +the COW files will be lost. + +Cows can moo - uml_moo : Merging a COW file with its backing file +----------------------------------------------------------------- + +Depending on how you use UML and COW devices, it may be advisable to +merge the changes in the COW file into the backing file every once in +a while. + +The utility that does this is uml_moo. Its usage is + +.. code-block:: text + + uml_moo COW_file new_backing_file + + +There's no need to specify the backing file since that information is +already in the COW file header. If you're paranoid, boot the new +merged file, and if you're happy with it, move it over the old backing +file. + +``uml_moo`` creates a new backing file by default as a safety measure. +It also has a destructive merge option which will merge the COW file +directly into its current backing file. This is really only usable +when the backing file only has one COW file associated with it. If +there are multiple COWs associated with a backing file, a -d merge of +one of them will invalidate all of the others. However, it is +convenient if you're short of disk space, and it should also be +noticeably faster than a non-destructive merge. + +``uml_moo`` is installed with the UML distribution packages and is +available as a part of UML utilities. + +Host file access +================== + +If you want to access files on the host machine from inside UML, you +can treat it as a separate machine and either nfs mount directories +from the host or copy files into the virtual machine with scp. +However, since UML is running on the host, it can access those +files just like any other process and make them available inside the +virtual machine without the need to use the network. +This is possible with the hostfs virtual filesystem. With it, you +can mount a host directory into the UML filesystem and access the +files contained in it just as you would on the host. + +*SECURITY WARNING* + +Hostfs without any parameters to the UML Image will allow the image +to mount any part of the host filesystem and write to it. Always +confine hostfs to a specific "harmless" directory (for example ``/var/tmp``) +if running UML. This is especially important if UML is being run as root. + +Using hostfs +------------ + +To begin with, make sure that hostfs is available inside the virtual +machine with + +.. code-block:: text + + UML# cat /proc/filesystems + +``hostfs`` should be listed. If it's not, either rebuild the kernel +with hostfs configured into it or make sure that hostfs is built as a +module and available inside the virtual machine, and insmod it. + + +Now all you need to do is run mount: + +.. code-block:: text + + UML# mount none /mnt/host -t hostfs + +will mount the host's ``/`` on the virtual machine's ``/mnt/host``. +If you don't want to mount the host root directory, then you can +specify a subdirectory to mount with the -o switch to mount: + +.. code-block:: text + + UML# mount none /mnt/home -t hostfs -o /home + +will mount the hosts's /home on the virtual machine's /mnt/home. + +hostfs as the root filesystem +----------------------------- + +It's possible to boot from a directory hierarchy on the host using +hostfs rather than using the standard filesystem in a file. +To start, you need that hierarchy. The easiest way is to loop mount +an existing root_fs file: + +.. code-block:: text + + host# mount root_fs uml_root_dir -o loop + + +You need to change the filesystem type of ``/`` in ``etc/fstab`` to be +'hostfs', so that line looks like this: + +.. code-block:: text + + /dev/ubd/0 / hostfs defaults 1 1 + +Then you need to chown to yourself all the files in that directory +that are owned by root. This worked for me: + +.. code-block:: text + + host# find . -uid 0 -exec chown jdike {} \; + +Next, make sure that your UML kernel has hostfs compiled in, not as a +module. Then run UML with the boot device pointing at that directory: + +.. code-block:: text + + ubd0=/path/to/uml/root/directory + +UML should then boot as it does normally. + +Hostfs Caveats +-------------- + +Hostfs does not support keeping track of host filesystem changes on the +host (outside UML). As a result, if a file is changed without UML's +knowledge, UML will not know about it and its own in-memory cache of +the file may be corrupt. While it is possible to fix this, it is not +something which is being worked on at present. + +Tuning UML +============ + +UML at present is strictly uniprocessor. It will, however spin up a +number of threads to handle various functions. + +The UBD driver, SIGIO and the MMU emulation do that. If the system is +idle, these threads will be migrated to other processors on a SMP host. +This, unfortunately, will usually result in LOWER performance because of +all of the cache/memory synchronization traffic between cores. As a +result, UML will usually benefit from being pinned on a single CPU +especially on a large system. This can result in performance differences +of 5 times or higher on some benchmarks. + +Similarly, on large multi-node NUMA systems UML will benefit if all of +its memory is allocated from the same NUMA node it will run on. The +OS will *NOT* do that by default. In order to do that, the sysadmin +needs to create a suitable tmpfs ramdisk bound to a particular node +and use that as the source for UML RAM allocation by specifying it +in the TMP or TEMP environment variables. UML will look at the values +of ``TMPDIR``, ``TMP`` or ``TEMP`` for that. If that fails, it will +look for shmfs mounted under ``/dev/shm``. If everything else fails use +``/tmp/`` regardless of the filesystem type used for it. + +.. code-block:: shell + + mount -t tmpfs -ompol=bind:X none /mnt/tmpfs-nodeX + TEMP=/mnt/tmpfs-nodeX taskset -cX linux options options options.. + +******************************************* +Contributing to UML and Developing with UML +******************************************* + +UML is an excellent platform to develop new Linux kernel concepts - +filesystems, devices, virtualization, etc. It provides unrivalled +opportunities to create and test them without being constrained to +emulating specific hardware. + +Example - want to try how linux will work with 4096 "proper" network +devices? + +Not an issue with UML. At the same time, this is something which +is difficult with other virtualization packages - they are +constrained by the number of devices allowed on the hardware bus +they are trying to emulate (for example 16 on a PCI bus in qemu). + +If you have something to contribute such as a patch, a bugfix, a +new feature, please send it to ``linux-um@lists.infradead.org`` + +Please follow all standard Linux patch guidelines such as cc-ing +relevant maintainers and run ``./sripts/checkpatch.pl`` on your patch. +For more details see ``Documentation/process/submitting-patches.rst`` + +Note - the list does not accept HTML or attachments, all emails must +be formatted as plain text. + +Developing always goes hand in hand with debugging. First of all, +you can always run UML under gdb and there will be a whole section +later on on how to do that. That, however, is not the only way to +debug a linux kernel. Quite often adding tracing statements and/or +using UML specific approaches such as ptracing the UML kernel process +are significantly more informative. + +Tracing UML +============= + +When running UML consists of a main kernel thread and a number of +helper threads. The ones of interest for tracing are NOT the ones +that are already ptraced by UML as a part of its MMU emulation. + +These are usually the first three threads visible in a ps display. +The one with the lowest PID number and using most CPU is usually the +kernel thread. The other threads are the disk +(ubd) device helper thread and the sigio helper thread. +Running ptrace on this thread usually results in the following picture: + + +.. code-block:: text + + host$ strace -p 16566 + --- SIGIO {si_signo=SIGIO, si_code=POLL_IN, si_band=65} --- + epoll_wait(4, [{EPOLLIN, {u32=3721159424, u64=3721159424}}], 64, 0) = 1 + epoll_wait(4, [], 64, 0) = 0 + rt_sigreturn({mask=[PIPE]}) = 16967 + ptrace(PTRACE_GETREGS, 16967, NULL, 0xd5f34f38) = 0 + ptrace(PTRACE_GETREGSET, 16967, NT_X86_XSTATE, [{iov_base=0xd5f35010, iov_len=832}]) = 0 + ptrace(PTRACE_GETSIGINFO, 16967, NULL, {si_signo=SIGTRAP, si_code=0x85, si_pid=16967, si_uid=0}) = 0 + ptrace(PTRACE_SETREGS, 16967, NULL, 0xd5f34f38) = 0 + ptrace(PTRACE_SETREGSET, 16967, NT_X86_XSTATE, [{iov_base=0xd5f35010, iov_len=2696}]) = 0 + ptrace(PTRACE_SYSEMU, 16967, NULL, 0) = 0 + --- SIGCHLD {si_signo=SIGCHLD, si_code=CLD_TRAPPED, si_pid=16967, si_uid=0, si_status=SIGTRAP, si_utime=65, si_stime=89} --- + wait4(16967, [{WIFSTOPPED(s) && WSTOPSIG(s) == SIGTRAP | 0x80}], WSTOPPED|__WALL, NULL) = 16967 + ptrace(PTRACE_GETREGS, 16967, NULL, 0xd5f34f38) = 0 + ptrace(PTRACE_GETREGSET, 16967, NT_X86_XSTATE, [{iov_base=0xd5f35010, iov_len=832}]) = 0 + ptrace(PTRACE_GETSIGINFO, 16967, NULL, {si_signo=SIGTRAP, si_code=0x85, si_pid=16967, si_uid=0}) = 0 + timer_settime(0, 0, {it_interval={tv_sec=0, tv_nsec=0}, it_value={tv_sec=0, tv_nsec=2830912}}, NULL) = 0 + getpid() = 16566 + clock_nanosleep(CLOCK_MONOTONIC, 0, {tv_sec=1, tv_nsec=0}, NULL) = ? ERESTART_RESTARTBLOCK (Interrupted by signal) + --- SIGALRM {si_signo=SIGALRM, si_code=SI_TIMER, si_timerid=0, si_overrun=0, si_value={int=1631716592, ptr=0x614204f0}} --- + rt_sigreturn({mask=[PIPE]}) = -1 EINTR (Interrupted system call) + +This is a typical picture from a mostly idle UML instance + +* UML interrupt controller uses epoll - this is UML waiting for IO + interrupts: + +.. code-block:: text + + epoll_wait(4, [{EPOLLIN, {u32=3721159424, u64=3721159424}}], 64, 0) = 1 + +* The sequence of ptrace calls is part of MMU emulation and runnin the + UML userspace +* ``timer_settime`` is part of the UML high res timer subsystem mapping + timer requests from inside UML onto the host high resultion timers. +* ``clock_nanosleep`` is UML going into idle (similar to the way a PC + will execute an ACPI idle). + +As you can see UML will generate quite a bit of output even in idle.The output +can be very informative when observing IO. It shows the actual IO calls, their +arguments and returns values. + +Kernel debugging +================ + +You can run UML under gdb now, though it will not necessarily agree to +be started under it. If you are trying to track a runtime bug, it is +much better to attach gdb to a running UML instance and let UML run. + +Assuming the same PID number as in the previous example, this would be: + +.. code-block:: text + + gdb -p 16566 + +This will STOP the UML instance, so you must enter `cont` at the GDB +command line to request it to continue. It may be a good idea to make +this into a gdb script and pass it to gdb as an argument. + +Developing Device Drivers +========================= + +Nearly all UML drivers are monolithic. While it is possible to build a +UML driver as a kernel module, that limits the possible functionality +to in-kernel only and non-UML specific. The reason for this is that +in order to really leverage UML, one needs to write a piece of +userspace code which maps driver concepts onto actual userspace host +calls. + +This forms the so called "user" portion of the driver. While it can +reuse a lot of kernel concepts, it is generally just another piece of +userspace code. This portion needs some matching "kernel" code which +resides inside the UML image and which implements the Linux kernel part. + +*Note: There are very few limitations in the way "kernel" and "user" interact*. + +UML does not have a strictly defined kernel to host API. It does not +try to emulate a specific architecture or bus. UML's "kernel" and +"user" can share memory, code and interact as needed to implement +whatever design the software developer has in mind. The only +limitations are purely technical. Due to a lot of functions and +variables having the same names, the developer should be careful +which includes and libraries they are trying to refer to. + +As a result a lot of userspace code consists of simple wrappers. +F.e. ``os_close_file()`` is just a wrapper around ``close()`` +which ensures that the userspace function close does not clash +with similarly named function(s) in the kernel part. + +Security Considerations +----------------------- + +Drivers or any new functionality should default to not +accepting arbitrary filename, bpf code or other parameters +which can affect the host from inside the UML instance. +For example, specifying the socket used for IPC communication +between a driver and the host at the UML command line is OK +security-wise. Allowing it as a loadable module parameter +isn't. + +If such functionality is desireable for a particular application +(e.g. loading BPF "firmware" for raw socket network transports), +it should be off by default and should be explicitly turned on +as a command line parameter at startup. + +Even with this in mind, the level of isolation between UML +and the host is relatively weak. If the UML userspace is +allowed to load arbitrary kernel drivers, an attacker can +use this to break out of UML. Thus, if UML is used in +a production application, it is recommended that all modules +are loaded at boot and kernel module loading is disabled +afterwards.