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P4_16 prototype compiler

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p4c

p4c is a new, alpha-quality reference compiler for the P4 programming language. It supports both P4-14 and P4-16; you can find more information about P4 here and the specifications for both versions of the language here.

p4c is modular; it provides a standard frontend and midend which can be combined with a target-specific backend to create a complete P4 compiler. The goal is to make adding new backends easy.

The code contains four sample backends:

  • p4c-bm2-ss: can be used to target the P4 simple_switch written using the BMv2 behavioral model https://github.com/p4lang/behavioral-model
  • p4c-ebpf: can be used to generate C code which can be compiled to EBPF https://en.wikipedia.org/wiki/Berkeley_Packet_Filter and then loaded in the Linux kernel for packet filtering
  • p4test: a source-to-source P4 translator which can be used for testing, learning compiler internals and debugging.
  • p4c-graphs: can be used to generate visual representations of a P4 program; for now it only supports generating graphs of top-level control flows.

Sample command lines:

Compile P4_16 or P4_14 source code. If your program successfully compiles, the command will create files with the same base name as the P4 program you supplied, and the following suffixes instead of the .p4:

  • a file with suffix .p4i, which is the output from running the preprocessor on your P4 program.
  • a file with suffix .p4rt, which is a binary format containing a description of the tables and other objects in your P4 program that have an auto-generated control plane API.
  • a file with suffix .json that is the JSON file format expected by BMv2 behavioral model simple_switch.
p4c --target bmv2 --arch v1model my-p4-16-prog.p4
p4c --target bmv2 --arch v1model --std p4-14 my-p4-14-prog.p4

All of these commands take the --help argument to show documentation of supported command line options. p4c --target-help shows the supported "target, arch" pairs.

p4c --help
p4c --target-help

Auto-translate P4_14 source to P4_16 source:

p4test --std p4-14 my-p4-14-prog.p4 --pp auto-translated-p4-16-prog.p4

Check syntax of P4_16 or P4_14 source code, without limitations that might be imposed by any particular compiler back end. There is no output for these commands other than error and/or warning messages.

p4test my-p4-16-prog.p4
p4test --std p4-14 my-p4-14-prog.p4

Generate GraphViz ".dot" files for parsers and controls of a P4_16 or P4_14 source program.

p4c-graphs my-p4-16-prog.p4
p4c-graphs --std p4-14 my-p4-14-prog.p4

Generate PDF of parser instance named "ParserImpl" generated by the p4c-graphs command above (search for graphviz below for its install instructions):

dot -Tpdf ParserImpl.dot > ParserImpl.pdf

Getting started

  1. Clone the repository. It includes submodules, so be sure to use --recursive to pull them in:

    git clone --recursive https://github.com/p4lang/p4c.git
    

    If you forgot --recursive, you can update the submodules at any time using:

    git submodule update --init --recursive
    
  2. Install dependencies. You can find specific instructions for Ubuntu 16.04 here and for macOS 10.12 here.

  3. Build. Building should also take place in a subdirectory named build.

    mkdir build
    cd build
    cmake .. [-DCMAKE_BUILD_TYPE=RELEASE|DEBUG] [-DCMAKE_INSTALL_PREFIX=<path>] [-DENABLE_DOCS=ON (default off)] [-DENABLE_P4RUNTIME_TO_PD=OFF (default on)] [-DENABLE_PROTOBUF_STATIC=OFF (default on)]
    make -j4
    make -j4 check
    

    If adding new targets to this build system, please see instructions.

  4. (Optional) Install the compiler and the P4 shared headers globally.

    sudo make install
    

    The compiler driver p4c and binaries for each of the backends are installed in /usr/local/bin by default; the P4 headers are placed in /usr/local/share/p4c.

  5. You're ready to go! You should be able to compile a P4-16 program for BMV2 using:

    p4c -b bmv2-ss-p4org program.p4 -o program.bmv2.json
    

If you plan to contribute to p4c, you'll find more useful information here.

Dependencies

Ubuntu 16.04 is the officially supported platform for p4c. There's also unofficial support for macOS 10.12. Other platforms are untested; you can try to use them, but YMMV.

  • A C++11 compiler. GCC 4.9 or later or Clang 3.3 or later is required.

  • git for version control

  • GNU autotools for the build process

  • CMake 3.0.2 or higher

  • Boehm-Weiser garbage-collector C++ library

  • GNU Bison and Flex for the parser and lexical analyzer generators.

  • Google Protocol Buffers 3.0 or higher for control plane API generation

  • GNU multiple precision library GMP

  • C++ boost library (minimally used)

  • Python 2.7 for scripting and running tests

  • Optional: Documentation generation (enabled when configuring with --enable-doxygen-doc) requires Doxygen (1.8.10 or higher) and Graphviz (2.38.0 or higher).

Backends may have additional dependencies. The dependencies for the backends included with p4c are documented here:

Ubuntu dependencies

Most dependencies can be installed using apt-get install:

sudo apt-get install g++ git automake libtool libgc-dev bison flex libfl-dev libgmp-dev libboost-dev libboost-iostreams-dev libboost-graph-dev pkg-config python python-scapy python-ipaddr tcpdump cmake

For documentation building: sudo apt-get install -y doxygen graphviz texlive-full

An exception is Google Protocol Buffers; p4c depends on version 3.0 or higher, which is not available until Ubuntu 16.10. For earlier releases of Ubuntu, you'll need to install from source. You can find instructions here. We recommend that you use version 3.2.0. Earlier versions in the 3 series may not be supported by other p4lang projects, such as p4lang/PI. More recent versions may work as well, but all our CI testing is done with version 3.2.0. After cloning protobuf and before you build, check-out version 3.2.0:

git checkout v3.2.0

Please note that while all protobuf versions newer than 3.0 should work for p4c itself, you may run into trouble with some extensions and other p4lang projects unless you install version 3.2.0, so you may want to install from source even on newer releases of Ubuntu.

macOS dependencies

Installing on macOS:

  • Enable XCode's command-line tools:

    xcode-select --install
    
  • Install Homebrew:

    /usr/bin/ruby -e "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/master/install)"
    

    Be sure to add /usr/local/bin/ to your $PATH.

  • Install dependencies using Homebrew:

    brew install autoconf automake libtool bdw-gc boost bison pkg-config
    

    Install GMP built in C++11 mode:

    brew install gmp --c++11
    

    By default, Homebrew doesn't link programs into /usr/local/bin if they would conflict with a version provided by the base system. This includes Bison, since an older version ships with macOS. make check depends on the newer Bison we just installed from Homebrew (see #83), so you'll want to add it to your $PATH one way or another. One simple way to do that is to request that Homebrew link it into /usr/local/bin:

    brew link --force bison
    

    Optional documentation building tools:

    brew install doxygen graphviz
    

    Homebrew offers a protobuf formula. It installs version 3.2, which should work for p4c itself but may cause problems with some extensions. It's preferable to install Protocol Buffers 3.0 from source using the instructions here. Check out the newest tag in the 3.0 series (v3.0.2 as of this writing) before you build.

Development tools

There is a variety of design and development documentation here.

We recommend using clang++ with no optimizations for speeding up compilation and simplifying debugging.

We recommend installing a new version of gdb., because older gdb versions do not always handle C++11 correctly.

We recommend exuberant ctags for navigating source code in Emacs and vi. sudo apt-get install exuberant-ctags. The Makefile targets make ctags and make etags generate tags for vi and Emacs respectively. (Make sure that you are using the correct version of ctags; there are several competing programs with the same name in existence.)

To enable building code documentation, please run cmake .. -DENABLE_DOCS=ON. This enables the make docs rule to generate documentation. The HTML output is available in build/doxygen-out/html/index.html.

Docker

A Dockerfile is included. You can generate an image which contains a copy of p4c in /p4c/build by running:

docker build -t p4c .

On some platforms Docker limits the memory usage of any container, even containers used during the docker build process. On macOS in particular the default is 2GB, which is not enough to build p4c. Increase the memory limit to at least 4GB via Docker preferences or you are likely to see "internal compiler errors" from gcc which are caused by low memory.

Build system

The build system is based on cmake. This section describes how it can be customized.

Defining new CMake targets

When building a new backend target, add it into the development tree in the extensions subdirectory. The cmake-based build system will automatically include it if it contains a CMakeLists.txt file.

For a new backend, the cmake file should contain the following rules:

IR definition files

Backend specific IR definition files should be added to the global list of IR_DEF_FILES as they are processed together with the core IR files. Use the following rule:

set (IR_DEF_FILES ${IR_DEF_FILES} ${MY_IR_DEF_FILES} PARENT_SCOPE)

where MY_IR_DEF_FILES is a list of file names with absolute path (for example, use ${CMAKE_CURRENT_SOURCE_DIR}).

If in addition you have additional supporting source files, they should be added to the frontend sources, as follows:

set(EXTENSION_FRONTEND_SOURCES ${EXTENSION_FRONTEND_SOURCES} ${MY_IR_SRCS} PARENT_SCOPE)

Again, MY_IR_SRCS is a list of file names with absolute path.

Source files

Sources (.cpp and .h) should be added to the cpplint target using the following rule:

add_cpplint_files (${CMAKE_CURRENT_SOURCE_DIR} "${MY_SOURCES_AND_HEADERS}")

where mybackend is the name of the directory you added under extensions. The p4c CMakeLists.txt will use that name to figure the full path of the files to lint.

Target

Define a target for your executable. The target should link against the core P4C_LIBRARIES and P4C_LIB_DEPS. P4C_LIB_DEPS are package dependencies. If you need additional libraries for your project, add them to P4C_LIB_DEPS.

In addition, your target should depend on the genIR target, since you need all the IR generation to happen before you start compiling your backend. If you chose to have your backend as a library (seem the backends/bmv2 example), the library should depend on genIR, and there is no longer necessary for your executable to depend on it.

add_executable(p4c-mybackend ${MY_SOURCES})
target_link_libraries (p4c-mybackend ${P4C_LIBRARIES} ${P4C_LIB_DEPS})
add_dependencies(p4c-mybackend genIR)

Tests

We implemented support equivalent to the automake make check rules. All tests should be included in make check and in addition, we support make check-* rules. To enable this support, add the following rules:

set(MY_DRIVER <driver or compiler executable>)

set (MY_TEST_SUITES
  ${P4C_SOURCE_DIR}/testdata/p4_16_samples/*.p4
  ${P4C_SOURCE_DIR}/testdata/p4_16_errors/*.p4
  )
set (MY_XFAIL_TESTS
  testdata/p4_16_errors/this_test_fails.p4
 )
p4c_add_tests("mybackend" ${MY_DRIVER} "${MY_TEST_SUITES}" "${MY_XFAIL_TESTS}")

In addition, you can add individual tests to a suite using the following macro:

set(isXFail FALSE)
set(SWITCH_P4 testdata/p4_14_samples/switch_20160512/switch.p4)

p4c_add_test_with_args ("mybackend" ${MY_DRIVER} ${isXFail}
  "switch_with_custom_profile" ${SWITCH_P4} "-DCUSTOM_PROFILE")

See the documentation for p4c_add_test_with_args and p4c_add_tests for more information on the arguments to these macros.

To pass custom arguments to p4c, you can set the environment variable P4C_ARGS:

make check P4C_ARGS="-Xp4c=MY_CUSTOM_FLAG"

Installation

Define rules to install your backend. Typically you need to install the binary, the additional architecture headers, and the configuration file for the p4c driver.

install (TARGETS p4c-mybackend
  RUNTIME DESTINATION ${P4C_RUNTIME_OUTPUT_DIRECTORY})
install (DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}/p4include
  DESTINATION ${P4C_ARTIFACTS_OUTPUT_DIRECTORY})
install (FILES ${CMAKE_CURRENT_SOURCE_DIR}/driver/p4c.mybackend.cfg
  DESTINATION ${P4C_ARTIFACTS_OUTPUT_DIRECTORY}/p4c_src)

Known issues

The P4C compiler is in early development. Issues with the compiler are tracked on GitHub. Before opening a new issue, please check whether a similar issue is already opened. Opening issues and submitting a pull request with fixes for those issues is much appreciated.

In addition to the list of issues on Github, there are a number of currently unsupported features listed below:

Frontend

P4_14 features not supported in P4_16

  • extern/blackbox attributes -- there is support for carrying them in the IR, but they are lost if P4_16 code is output. Backends can access them from the IR

  • Nonstandard extension primitives from P4_14

    • Execute_meter extra arguments
    • Recirculate variants
    • Bypass_egress
    • Sample_ primitives
    • invalidate
  • No support for P4_14 parser exceptions.

Backends

Bmv2 Backend

  • Range "set" not supported in parser transitions
  • Tables with multiple apply calls

See also unsupported P4_16 language features.

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P4_16 prototype compiler

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