mirror of
https://passt.top/passt
synced 2024-11-05 20:31:11 +00:00
ca325e7583
Signed-off-by: Stefano Brivio <sbrivio@redhat.com>
431 lines
20 KiB
Markdown
431 lines
20 KiB
Markdown
<span style="font-weight: bold; color: red;">While functional and tested to some extent, this project is still in early development phase: don't use in production or critical environments yet.</span>
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# passt: Plug A Simple Socket Transport
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_passt_ implements a translation layer between a Layer-2 network interface and
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native Layer-4 sockets (TCP, UDP, ICMP/ICMPv6 echo) on a host. It doesn't
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require any capabilities or privileges, and it can be used as a simple
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replacement for Slirp.
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<img src="/builds/latest/web/passt_overview.png" usemap="#image-map" class="bright" style="z-index: 20; position: relative;">
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# pasta: Pack A Subtle Tap Abstraction
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_pasta_ (same binary as _passt_, different command) offers equivalent
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functionality, for network namespaces: traffic is forwarded using a tap
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interface inside the namespace, without the need to create further interfaces on
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the host, hence not requiring any capabilities or privileges.
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It also implements a tap bypass path for local connections: packets with a local
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destination address are moved directly between Layer-4 sockets, avoiding Layer-2
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translations, using the _splice_(2) and _recvmmsg_(2)/_sendmmsg_(2) system calls
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for TCP and UDP, respectively.
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<img src="/builds/latest/web/pasta_overview.png" class="bright" style="z-index: 20; position: relative;">
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- [Motivation](#motivation)
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- [Non-functional Targets](#non-functional-targets)
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- [Interfaces and Environment](#interfaces-and-environment)
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- [Services](#services)
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- [Addresses](#addresses)
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- [Protocols](#protocols)
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- [Ports](#ports)
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- [Demo](#demo)
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- [Continuous Integration](#continuous-integration)
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- [Performance](#performance)
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- [Try it](#try-it)
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- [Contribute](#contribute)
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## Motivation
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### passt
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When container workloads are moved to virtual machines, the network traffic is
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typically forwarded by interfaces operating at data link level. Some components
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in the containers ecosystem (such as _service meshes_), however, expect
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applications to run locally, with visible sockets and processes, for the
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purposes of socket redirection, monitoring, port mapping.
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To solve this issue, user mode networking, as provided e.g. by _libslirp_,
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can be used. Existing solutions implement a full TCP/IP stack, replaying traffic
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on sockets that are local to the pod of the service mesh. This creates the
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illusion of application processes running on the same host, eventually separated
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by user namespaces.
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While being almost transparent to the service mesh infrastructure, that kind of
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solution comes with a number of downsides:
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* three different TCP/IP stacks (guest, adaptation and host) need to be
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traversed for every service request
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* addressing needs to be coordinated to create the pretense of consistent
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addresses and routes between guest and host environments. This typically needs
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a NAT with masquerading, or some form of packet bridging
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* the traffic seen by the service mesh and observable externally is a distant
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replica of the packets forwarded to and from the guest environment:
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* TCP congestion windows and network buffering mechanisms in general operate
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differently from what would be naturally expected by the application
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* protocols carrying addressing information might pose additional challenges,
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as the applications don't see the same set of addresses and routes as they
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would if deployed with regular containers
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_passt_ implements a thinner layer between guest and host, that only implements
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what's strictly needed to pretend processes are running locally. The TCP
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adaptation doesn't keep per-connection packet buffers, and reflects observed
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sending windows and acknowledgements between the two sides. This TCP adaptation
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is needed as _passt_ runs without the `CAP_NET_RAW` capability: it can't create
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raw IP sockets on the pod, and therefore needs to map packets at Layer-2 to
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Layer-4 sockets offered by the host kernel.
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The problem and this approach are illustrated in more detail, with diagrams,
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[here](https://gitlab.com/abologna/kubevirt-and-kvm/-/blob/master/Networking.md).
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### pasta
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On Linux, regular users can create network namespaces and run application
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services inside them. However, connecting namespaces to other namespaces and to
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external hosts requires the creation of network interfaces, such as `veth`
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pairs, which needs in turn elevated privileges or the `CAP_NET_ADMIN`
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capability. _pasta_, similarly to _slirp4netns_, solves this problem by creating
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a tap interface available to processes in the namespace, and mapping network
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traffic outside the namespace using native Layer-4 sockets.
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Existing approaches typically implement a full, generic TCP/IP stack for this
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translation between data and transport layers, without the possibility of
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speeding up local connections, and usually requiring NAT. _pasta_:
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* avoids the need for a generic, full-fledged TCP/IP stack by coordinating TCP
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connection dynamics between sender and receiver
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* offers a fast bypass path for local connections: if a process connects to
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another process on the same host across namespaces, data is directly forwarded
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using pairs of Layer-4 sockets
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* with default options, maps routing and addressing information to the
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namespace, avoiding any need for NAT
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## Non-functional Targets
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Security and maintainability goals:
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* no dynamic memory allocation
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* ~5 000 LoC target
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* no external dependencies
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## Interfaces and Environment
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_passt_ exchanges packets with _qemu_ via UNIX domain socket, using the `socket`
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back-end in qemu. Currently, qemu can only connect to a listening process via
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TCP. Two temporary solutions are available:
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* a [patch](https://passt.top/passt/tree/qemu) for qemu
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* a wrapper, [qrap](https://passt.top/passt/tree/qrap.c), that connects to a
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UNIX domain socket and starts qemu, which can now use the file descriptor
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that's already opened
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This approach, compared to using a _tap_ device, doesn't require any security
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capabilities, as we don't need to create any interface.
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_pasta_ runs out of the box with any recent (post-3.8) Linux kernel.
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## Services
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_passt_ and _pasta_ provide some minimalistic implementations of networking
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services:
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* [ARP proxy](https://passt.top/passt/tree/arp.c), that resolves the address of
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the host (which is used as gateway) to the original MAC address of the host
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* [DHCP server](https://passt.top/passt/tree/dhcp.c), a simple implementation
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handing out one single IPv4 address to the guest or namespace, namely, the
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same address as the first one configured for the upstream host interface, and
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passing the nameservers configured on the host
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* [NDP proxy](https://passt.top/passt/tree/ndp.c), which can also assign prefix
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and nameserver using SLAAC
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* [DHCPv6 server](https://passt.top/passt/tree/dhcpv6.c): a simple
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implementation handing out one single IPv6 address to the guest or namespace,
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namely, the the same address as the first one configured for the upstream host
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interface, and passing the nameservers configured on the host
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## Addresses
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For IPv4, the guest or namespace is assigned, via DHCP, the same address as the
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upstream interface of the host, and the same default gateway as the default
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gateway of the host. Addresses are translated in case the guest is seen using a
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different address from the assigned one.
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For IPv6, the guest or namespace is assigned, via SLAAC, the same prefix as the
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upstream interface of the host, the same default route as the default route of
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the host, and, if a DHCPv6 client is running in the guest or namespace, also the
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same address as the upstream address of the host. This means that, with a DHCPv6
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client in the guest or namespace, addresses don't need to be translated. Should
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the client use a different address, the destination address is translated for
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packets going to the guest or to the namespace.
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### Local connections with _passt_
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For UDP and TCP, for both IPv4 and IPv6, packets from the host addressed to a
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loopback address are forwarded to the guest with their source address changed to
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the address of the gateway or first hop of the default route. This mapping is
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reversed on the other way.
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### Local connections with _pasta_
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Packets addressed to a loopback address in either namespace are directly
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forwarded to the corresponding (or configured) port in the other namespace.
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Similarly as _passt_, packets from the non-init namespace addressed to the
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default gateway, which are therefore sent via the tap device, will have their
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destination address translated to the loopback address.
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## Protocols
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_passt_ and _pasta_ support TCP, UDP and ICMP/ICMPv6 echo (requests and
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replies). More details about the TCP implementation are available
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[here](https://passt.top/passt/tree/tcp.c), and for the UDP
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implementation [here](https://passt.top/passt/tree/udp.c).
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An IGMP/MLD proxy is currently work in progress.
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## Ports
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### passt
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To avoid the need for explicit port mapping configuration, _passt_ can bind to
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all unbound non-ephemeral (0-49152) TCP and UDP ports. Binding to low ports
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(0-1023) will fail without additional capabilities, and ports already bound
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(service proxies, etc.) will also not be used. Smaller subsets of ports, with
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port translations, are also configurable.
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UDP ephemeral ports are bound dynamically, as the guest uses them.
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If all ports are forwarded, service proxies and other services running in the
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container need to be started before _passt_ starts.
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### pasta
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With default options, _pasta_ scans for bound ports on init and non-init
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namespaces, and automatically forwards them from the other side. Port forwarding
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is fully configurable with command line options.
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## Demo
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### pasta
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<p><video id="demo_pasta_video" style="width: 70%; height: auto; max-height: 90%" controls>
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<source src="/builds/latest/web/demo_pasta.webm" type="video/webm">
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</video></p>
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### passt
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<p><video id="demo_passt_video" style="width: 70%; height: auto; max-height: 90%" controls>
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<source src="/builds/latest/web/demo_passt.webm" type="video/webm">
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</video></p>
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## Continuous Integration
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<p><video id="ci_video" style="width: 90%; height: auto; max-height: 90%" controls>
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<source src="/builds/latest/web/ci.webm" type="video/webm">
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</video></p>
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<script src="/builds/latest/web/ci.js"></script>
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Test logs [here](https://passt.top/builds/latest/test/).
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## Performance
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<script src="/builds/latest/web/perf.js"></script>
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## Try it
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### passt
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* build from source:
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git clone https://passt.top/passt
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cd passt
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make
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* alternatively, static builds for x86_64, with or without AVX2 instructions,
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as of the latest commit are also available for convenience
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[here](https://passt.top/builds/latest/x86_64/avx2/) and
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[here](https://passt.top/builds/latest/x86_64/). Convenience, non-official
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packages for Debian (and derivatives) and RPM-based distributions are also
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available there. These binaries and packages are simply built with:
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CFLAGS="-static" make avx2
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make pkgs
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make static
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make pkgs
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* have a look at the _man_ page for synopsis and options:
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man ./passt.1
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* run the demo script, that creates a network namespace called `passt`, sets up
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sets up a _veth_ pair and and addresses, together with NAT for IPv4 and NDP
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proxying for IPv6, then starts _passt_ in the network namespace:
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doc/demo.sh
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* from the same network namespace, start qemu. At the moment, qemu doesn't
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support UNIX domain sockets for the `socket` back-end. Two alternatives:
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* use the _qrap_ wrapper, which maps a tap socket descriptor to _passt_'s
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UNIX domain socket, for example:
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ip netns exec passt ./qrap 5 qemu-system-x86_64 ... -net socket,fd=5 -net nic,model=virtio ...
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* or patch qemu with [this patch](https://passt.top/passt/tree/qemu/0001-net-Allow-also-UNIX-domain-sockets-to-be-used-as-net.patch)
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and start it like this:
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qemu-system-x86_64 ... -net socket,connect=/tmp/passt.socket -net nic,model=virtio
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* alternatively, you can use libvirt, with [this patch](https://passt.top/passt/tree/libvirt/0001-conf-Introduce-support-for-UNIX-domain-socket-as-qem.patch),
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to start qemu (with the patch mentioned above), with this kind of network
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interface configuration:
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<interface type='client'>
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<mac address='52:54:00:02:6b:60'/>
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<source path='/tmp/passt.socket'/>
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<model type='virtio'/>
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<address type='pci' domain='0x0000' bus='0x01' slot='0x00' function='0x0'/>
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</interface>
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* and that's it, you should now have TCP connections, UDP, and ICMP/ICMPv6
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echo working from/to the guest for IPv4 and IPv6
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* to connect to a service on the VM, just connect to the same port directly
|
|
with the address of the network namespace. For example, to ssh to the guest,
|
|
from the main namespace on the host:
|
|
|
|
ssh 192.0.2.2
|
|
|
|
### passt
|
|
|
|
* build from source:
|
|
|
|
git clone https://passt.top/passt
|
|
cd passt
|
|
make
|
|
|
|
* alternatively, static builds for x86_64, with or without AVX2 instructions,
|
|
as of the latest commit are also available for convenience
|
|
[here](https://passt.top/builds/latest/x86_64/avx2/) and
|
|
[here](https://passt.top/builds/latest/x86_64/). Convenience, non-official
|
|
packages for Debian (and derivatives) and RPM-based distributions are also
|
|
available there. These binaries and packages are simply built with:
|
|
|
|
CFLAGS="-static" make avx2
|
|
make pkgs
|
|
make static
|
|
make pkgs
|
|
|
|
* have a look at the _man_ page for synopsis and options:
|
|
|
|
man ./pasta.1
|
|
|
|
* start pasta with:
|
|
|
|
./pasta
|
|
|
|
* you're now inside a new user and network namespace. For IPv6, SLAAC happens
|
|
right away as _pasta_ sets up the interface, but DHCPv6 support is available
|
|
as well. For IPv4, configure the interface with a DHCP client:
|
|
|
|
dhclient
|
|
|
|
and, optionally:
|
|
|
|
dhclient -6
|
|
|
|
* and that's it, you should now have TCP connections, UDP, and ICMP/ICMPv6
|
|
echo working from/to the guest for IPv4 and IPv6
|
|
|
|
* to connect to a service inside the namespace, just connect to the same port
|
|
using the loopback address.
|
|
|
|
## Contribute
|
|
|
|
Public bug tracker and mailing lists are coming soon. For the moment being, send
|
|
patches and issue reports to [sbrivio@redhat.com](mailto:sbrivio@redhat.com).
|