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GettingStarted.md

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Getting Started

If you just want to install eBPF for Windows on a machine to experiment with, jump down to Installing eBPF for Windows.

If you just want to compile, but not run, eBPF programs and applications that interact with them, jump down to Using eBPF in development.

Building eBPF for Windows

Prerequisites

The following must be installed in order to build this project:

  1. Git (e.g., Git for Windows 64-bit)

  2. Visual Studio 2022 - one of the following editions should be installed (once installed, upgrade to v17.4.2 or later):

Visual Studio will prompt you to install the necessary dependencies when opening the main solution file for the first time.

You should add the paths to git.exe, cmake.exe and nuget.exe to the Windows PATH environment variable after the software packages above have been installed.

Alternative install steps (for basic Visual Studio Community edition):

  1. Launch an administrative PowerShell session.

  2. Install Chocolatey Package Manager for Windows by running the following commands in the PowerShell session:

    Set-ExecutionPolicy Bypass -Scope Process -Force; [System.Net.ServicePointManager]::SecurityProtocol = [System.Net.ServicePointManager]::SecurityProtocol -bor 3072; iex ((New-Object System.Net.WebClient).DownloadString('https://community.chocolatey.org/install.ps1'))
  3. Run the following command to automatically set up the dev environment:

    Invoke-WebRequest 'https://raw.githubusercontent.com/microsoft/ebpf-for-windows/main/scripts/Setup-DevEnv.ps1' -OutFile $env:TEMP\Setup-DeveEnv.ps1
    if ((get-filehash -Algorithm SHA256 $env:TEMP\Setup-DeveEnv.ps1).Hash -eq '36C16D8455E8867E64EFA1D1AF5223CEF9CDB4394C3B76B6AA09B46F3F26E7A8') { &"$env:TEMP\Setup-DeveEnv.ps1" }

    Note: the WDK for Windows 11 is not currently available on Chocolatey, please install manually with the link in the Prerequisites section above.

How to clone and build the project using Visual Studio

This section outlines the steps to build, prepare and build the eBPF-For-Windows project.

Cloning the project

Clone the eBPF for Windows projects and its submodules by running:

git clone --recurse-submodules https://github.com/microsoft/ebpf-for-windows.git

Note: by default this will clone the project under the ebpf-for-windows directory.

Exclusion of PE parse directory from Windows Defender Antivirus

PE parse directory includes some malformed PE images as a part of the test suite for PE image parser and Windows Defender flags these files as viruses. Please note that similar exclusions have to be done for other Antivirus products as needed. The following steps are needed to exempt PE directory from Windows Defender Antivirus:

  1. Select Start, then open Settings. Under Privacy & Security, select Virus & threat protection.
  2. Under Virus & threat protection settings, select Manage settings, and then under Exclusions, select Add or remove exclusions.
  3. Select Add an exclusion, and then select from files, folders, file types, or processes. Choose the following directory ebpf-for-windows/external/pe-parse to exclude the folder and subfolders to get flagged by the antivirus.

Prepare for first build

The following steps need to be executed once before the first build on a new clone:

  1. Launch a Developer PowerShell for VS 2022 session.

  2. Change directory to where the project is cloned (e.g. "cd ebpf-for-windows").

  3. Run the following script:

    .\scripts\initialize_ebpf_repo.ps1

    Note: you may get the following transitory error, which can be safely ignored as the WiX Toolset nuget package will be installed immediately afterwards:

    error : The WiX Toolset v3.14.1 build tools must be installed to build this project. To download the WiX Toolset, see https://github.com/wixtoolset/wix3/releases/tag/wix3141rtm

TIP: In case you need to "reset" the repo, without re-cloning it, you can just delete all the folders under the \external directory (but keep the files), and then re-run the above script.

Building using Developer Command Prompt for VS 2022

  1. Launch Developer Command Prompt for VS 2022.

  2. Change directory to where the project is cloned (e.g. cd ebpf-for-windows), and run the following command:

    msbuild /m /p:Configuration=Debug /p:Platform=x64 ebpf-for-windows.sln
Setting compile time options when building from Developer Command Prompt

To build with the specific compile time options for disabling JIT compiler and/or the Interpreter, append "/p:<option>=True". Available options are:

  1. DisableJIT - Compile eBPF's Execution Context without support for eBPF JIT compiler.
  2. DisableInterpreter - Compile eBPF's Execution Context without support for eBPF interpreter.

Both options are set when compiling with the "NativeOnlyDebug" or "NativeOnlyRelease" configurations.

Building using Visual Studio IDE

  1. Open the ebpf-for-windows.sln solution.
  2. Switch the configuration to "Debug|x64". To build with the JIT and Interpreter disabled, switch the configuration to "NativeOnlyDebug|x64" instead.
  3. Rebuild the solution.
Setting compile time options when building from Visual Studio IDE

To build with the specific compile time options for disabling JIT compiler and/or the interpreter:

  1. Select the project to modify from the Solution Explorer.

  2. Navigate to "C/C++" -> "Preprocessor" -> "Preprocessor Definitions"

  3. Click the "V" combobox arrow and then "Edit" for adding the option(s) to the list of preprocessor options. Available options are:

    • CONFIG_BPF_JIT_DISABLED - Compile eBPF's Execution Context without support for the eBPF JIT compiler.

    • CONFIG_BPF_INTERPRETER_DISABLED - Compile eBPF's Execution Context without support for the eBPF interpreter.

      Note for Linux users: this option is similar to the CONFIG_BPF_JIT_ALWAYS_ON which, as documented here, is used to disable support for the interpreter.

Note: do the above steps for the following projects within the ebpf-for-windows.sln solution:

  • api_test
  • execution_context_kernel
  • sample_ext_app

This will build the following binaries:

  • ebpfcore.sys: The kernel-mode execution context in which eBPF programs run.
  • netebpfext.sys: The kernel-mode extension for WFP hooks.
  • ebpfapi.dll: A user-mode shared library exposing APIs for apps to call to perform operations such as loading eBPF programs.
  • ebpfnetsh.dll: A plugin for the Windows netsh.exe command line tool that provides eBPF command line utility functionality.
  • ebpfsvc.exe: A user-mode service that verifies and loads an eBPF program in the execution context.
  • unit_tests.exe: A collection of tests using the Catch framework. These tests are also run as part of the Github CI/CD so should always pass.
  • api_test.exe: A collection of tests that exercises eBPF user mode APIs. This requires EbpfSvc service to be running, and EbpfCore and NetEbpfExt drivers to be loaded.
  • sample_ebpf_ext.sys: A sample eBPF extension driver that implements a test hook (for a test program type) and test helper functions.
  • sample_ext_app.exe: A sample application for testing the sample extension driver.
  • xdp_tests.exe: Application for testing various XDP_TEST functionalities. This requires the EbpfSvc service to be running, and the EbpfCore and NetEbpfExt drivers to be loaded on a remote system to test.
  • socket_tests.exe: Application for testing the eBPF extension that implements the BPF_CGROUP_SOCK_ADDR program type and related attach types.

and a few binaries just used for demo'ing eBPF functionality, as in the demo walkthrough discussed below:

  • dnsflood.exe: A utility to send 0-byte DNS packets, to illustrate a case that the sample walkthrough uses eBPF to defend against.
  • port_leak.exe: A "buggy" utility to illustrate the effect of an app that leaks ports.
  • port_quota.exe: A sample utility to illustrate using eBPF to manage port quotas to defend against port_leak.exe and similar "buggy" apps.

Installing eBPF for Windows

Windows requires that one of the following criteria be met prior to loading a driver:

  1. Driver is signed using a certificate that chains up to the Microsoft code signing root (aka a production signed driver).
  2. The OS is booted with a kernel debugger attached.
  3. The OS is running in test-signing mode (see also VM Installation Instructions), the driver is test signed and the test certificate is installed.

Since the eBPF for Windows binaries are not yet signed by Microsoft, they will only work on a machine with a kernel debugger (KD) attached and running, or test signing is enabled. (It is expected that official releases of eBPF for Windows will eventually be production signed at some point in the future after security hardening is completed.)

For basic testing, the simplest way to install eBPF for Windows is into a Windows VM with test signing enabled. Follow the VM Installation Instructions and eBPF Installation Instructions to do so.

Using eBPF for Windows

If you're not already familiar with eBPF, or want a detailed walkthrough, see our eBPF tutorial.

For API documentation, see https://microsoft.github.io/ebpf-for-windows/

Port leak and bind observability demo

This section shows how to use eBPF for Windows in a demo that lets us control a UDP port leak by attaching an eBPF program to the socket bind() call via the EBPF_ATTACH_TYPE_BIND hook.

Prep

  1. Build the solution with the Release configuration. (Debug will also work for the usermode components.)
  2. Install eBPF on the test machine; see Installing eBPF for Windows, using Method 2

Note

If Method 2 will not work for your envrionment for whatever reason (you aren't using a local Hyper-V VM, for instance), manually copy over the contents of the build folder, then proceed with the instructions above from the target VM. If the script is unavailable, install the MSI that you copied over on the VM, then run ebpfSvc.exe install to register the usermode service, which is required for port_quota.exe to work.

Demo

  1. At a command prompt running as Administrator, run port_quota.exe load to load the port quota eBPF program attached to the bind hook.
  2. Set a limit to a threshold number of ports you want to permit an application to bind to by doing port_quota.exe limit 5000
  3. Run port_leak.exe in another command prompt. This will just leak UDP ports. Observe the output that bind starts to fail after this app binds 5000 ports.
  4. Running port_quota.exe stats will dump how many ports are taken up by an application. Under the covers, the eBPF program communicates this information up to the user mode application via an eBPF map.

DNS flood attack demo

This section shows how to use eBPF for Windows in a demo that defends against a 0-byte UDP attack on a DNS server.

Prep

Set up 2 VMs, which we will refer to as the "attacker" machine and the "defender" machine.

On a defender machine with eBPF installed, do the following:

  1. Install and set up a DNS server.
  2. Make sure that either test signing was enabled as discussed in Installing eBPF for Windows, or the kernel debugger (KD) is attached and running.
  3. Install clang if not already installed on the defender machine.
  4. Copy droppacket.c and ebpf.h to a folder (such as c:\test).

On the attacker machine, do the following:

  1. Copy DnsFlood.exe to attacker machine

Demo

On the attacker machine
  1. Run for /L %i in (1,1,4) do start /min DnsFlood <ip of defender>
On the defender machine
  1. Start performance monitor and add UDPv4 Datagrams/sec

  2. Show that 200K packets per second are being received

  3. Show & explain code of droppacket.c

  4. Compile droppacket.c:

    clang -target bpf -O2 -Werror -c droppacket.c -o droppacket.o
  5. Show eBPF byte code for droppacket.o:

    netsh ebpf show disassembly droppacket.o xdp_test
  6. Show that the verifier checks the code:

    netsh ebpf show verification droppacket.o xdp_test
  7. Launch netsh netsh

  8. Switch to ebpf context ebpf

  9. Load eBPF program, and note the ID:

    add program droppacket.o xdp_test
  10. Show UDP datagrams received drop to under 10 per second

  11. Unload program:

    delete program <id>     #Note: where `<id>` is the ID noted above.
  12. Show UDP datagrams received drop to back up to ~200K per second

  13. Modify droppacket.c to be unsafe - Comment out line 20 & 21

  14. Compile droppacket.c:

    clang -target bpf -O2 -Werror -c droppacket.c -o droppacket.o
  15. Show that the verifier rejects the code:

    netsh ebpf show verification droppacket.o xdp_test
  16. Show that loading the program fails:

    netsh ebpf add program droppacket.o xdp_test

Tests in Ebpf-For-Windows

The tests in Ebpf-For-Windows are written using the Catch2 test framework.

unit_tests.exe

This test uses a mocking layer to bind the user mode components to the kernel mode components via a Mock IOCTL interface. The tests initialize the user mode and kernel mode components, load an eBPF program from an ELF file, and then run the eBPF program by having the mocked extensions emit events.

api_test.exe

This test exercises various eBPF user mode eBPF APIs, including those to load programs, enumerate maps and programs etc. This test requires the eBPF user mode service (EbpfSvc), and the kernel execution context (EbpfCore.sys) and the Network Extension (NetEbpfExt.sys) to be running. There is a group of tests in this suite with tag "regression-tests". These tests are used to ensure any release of the eBPF framework is backwards compatible, so that a program from a previous release can run against the latest release. If this test suite is run manually, then the corresponding test from the previous release would need to be copied locally on the test machine. Alternatively ~[regression_tests] can be specified in the command-line to skip these tests.

sample_ext_app.exe

This is a test application for the sample eBPF extension. This application loads a test eBPF program and attaches it to the test hook implemented by the sample extension and validates if the eBPF program executed as expected.

Running the tests

  1. Set the build output folder as the current working directory.
  2. Invoke the appropriate exe.

The Catch2 exes have various command line options to control behavior. Default behavior is to run all the tests and only print information about failing test cases.

Other useful options include:

  1. -s to list both passing and failing test cases
  2. -b to break into the debugger on test failure
  3. -l to list test cases
  4. Test_name to run a single test

xdp_tests.exe

This application tests various XDP_TEST functionalities. These tests require two hosts to run. There are three variations of the XDP_TEST tests.

Reflection Test

This tests the XDP_TX functionality.

  1. On the first host:

    1. Install eBPF for Windows.

    2. Load the test eBPF program by running the following command, and note the ID (see Note 3 below):

      netsh ebpf add program reflect_packet.o xdp_test
  2. On the second host:

    1. Allow inbound traffic for xdp_tests.exe through Windows Defender Firewall. See Note 1 below.

    2. Run (see Note 2 below):

      xdp_tests.exe xdp_reflect_test --remote-ip <IP on the first host>

Encapsulation Test

This uses bpf_xdp_adjust_head helper function to encapsulate an outer IP header to a packet.

  1. On the first host:

    1. Install eBPF for Windows.

    2. Load the test eBPF program by running the following command, and note the ID (see Note 3 below):

      netsh ebpf add program encap_reflect_packet.o xdp_test
  2. On the second host:

    1. Allow inbound traffic for xdp_tests.exe through Windows Defender Firewall. See Note 1 below.

    2. Run (see Note 3 below):

      xdp_tests.exe xdp_encap_reflect_test --remote-ip <IP on the first host>

Decapsulation Test

This uses bpf_xdp_adjust_head helper function to decapsulate an outer IP header from a packet.

  1. On both the hosts, install eBPF for Windows.

  2. On the first host load the first test eBPF program by running the following command. and note the ID (see Note 3 below):

    netsh ebpf add program encap_reflect_packet.o xdp_test
  3. On the second host:

    1. Load the second test eBPF program by running the following command, and note the ID (see Note 3 below):

      netsh ebpf add program decap_permit_packet.o xdp_test
    2. Allow inbound traffic for xdp_tests.exe through Windows Defender Firewall. See Note 1 below.

    3. Run the following command (see Note 3 below):

      xdp_tests.exe xdp_reflect_test --remote-ip <IP on the first host>

      Note 1: To allow inbound traffic to xdp_tests.exe, in a Windows Powershell with administrative privilege, run:

      New-NetFirewallRule -DisplayName "XDP_Test" -Program "<Full path to xdp_tests.exe>" -Direction Inbound -Action Allow

      Note 2: For the --remote-ip parameter to xdp_tests.exe program that is run on the second host, pass an IPv4 or IPv6 address of an Ethernet-like interface on the first host in string format.

      Note 3: After completion of each test variation, unload the eBPF programs from both host machines by running delete program <id> on the netsh prompt, where <id> is the ID noted when the eBPF programs were loaded.

      Advanced: The eBPF program can be attached to a specific interface by passing interface=<IfIndex> parameter either to the netsh add program or set program commands.

socket_tests.exe

This application loads the cgroup_sock_addr.o eBPF program and attaches to hooks to handle various socket operations. Currently it tests authorizing ingress and egress connections based on entries in a map passed to the program.

Using tracing

eBPF for Windows uses ETW for tracing. A trace can be captured in a file, or viewed in real-time.

Capturing traces

To capture a trace in a file use the following commands:

  1. Start tracing:

    wpr.exe -start "%ProgramFiles%\ebpf-for-windows\ebpfforwindows.wprp" -filemode

    This will capture traces from eBPF execution context and the network eBPF extension drivers.

    Note: The path %ProgramFiles%\ebpf-for-windows assumes you installed eBPF for Windows via the MSI file, using the default installation folder. If you installed it in another folder or via some other method, ebpfforwindows.wprp may be in some other location.

  2. Run the scenario to be traced.

  3. Stop tracing:

    wpr.exe -stop ebpfforwindows.etl
  4. Convert the traces to text format:

    netsh trace convert ebpfforwindows.etl overwrite=yes

    or, to convert to CSV format, use:

    netsh trace convert ebpfforwindows.etl ebpfforwindows.csv csv

Viewing traces in real-time

To view traces in real-time, the tracelog.exe and tracefmt.exe commands from the WDK can be used. If you are running eBPF for Windows in a VM, you can either install the full WDK in the VM (see the Prerequisites section above) or just copy the two executables into the VM.

To view all eBPF trace events that would be captured to a file, use the following commands:

  1. Create a trace session with some name such as MyTrace:

    tracelog -start MyTrace -guid "%ProgramFiles%\[eBPF for Windows install folder]ebpf-all.guid" -rt
  2. View the session in real-time on stdout:

    tracefmt -rt MyTrace -displayonly -jsonMeta 0

    This will continue until you break out of the executable with Ctrl-C.

  3. Close the trace session:

    tracelog -stop MyTrace

Often when tracing eBPF programs, it is useful to only view output generated by the bpf_printk helper. To do so, use ebpf-printk.guid instead of ebpf-all.guid when creating a trace session. That is:

  1. Create a trace session with some name such as MyTrace:

    tracelog -start MyTrace -guid "%ProgramFiles%\[eBPF for Windows install folder]\ebpf-printk.guid" -rt
  2. View the session in real-time on stdout:

    tracefmt -rt MyTrace -displayonly -jsonMeta 0

    This will continue until you break out of the executable with Ctrl-C.

  3. Close the trace session:

    tracelog -stop MyTrace

This will display lines like the following for bpf_printk("Hello, world");:

[3]1760.1910::03/10/2022-13:56:14.226 [EbpfForWindowsProvider]{"Message":"Hello, world"}

where [3] is the CPU ID, 1760 is the Process ID in hex, and 1910 is the Thread ID in hex.

If you want the prefix to look closer to Linux output, set the following environment variable:

set TRACE_FORMAT_PREFIX=%8!u! [%9!03d!] %4!s!:

This will result in lines like:

5984 [003] 03/10/2022-13:56:14.226:{"Message":"Hello, world"}

where 5984 is the Process ID in decimal, and 003 is the CPU ID.

To view all trace events from the network eBPF extension (netebpfext.sys), use the following commands:

  1. Create a trace session with some name such as MyTrace:

    tracelog -start MyTrace -guid net-ebpf-ext.guid -rt
  2. View the session in real-time on stdout:

    tracefmt -rt NetEbpfExtTrace -displayonly -jsonMeta 0

    This will continue until you break out of the executable with Ctrl-C.

  3. Close the trace session:

    tracelog -stop NetEbpfExtTrace

Using eBPF in Development

If you are developing eBPF programs and applications that interact with them, your Visual Studio development will need to reference the eBPF for Windows project as follows.

If using Visual Studio as your IDE, your project can add a reference to the eBPF-for-Windows nuget package. (You can also manually download the nuget package from the latest release.)

If you installed eBPF for Windows via the MSI and checked the Development checkbox, installation was completed for you. Otherwise, after installing the nuget package, as a one-time operation, you will currently need to run the export_program_info.exe tool to complete the install. This tool can be found in your project's packages\eBPF-for-Windows\build\native\bin directory.

If you are using WinDbg to work on the EbpfCore or the NetEbpfExt drivers, you may find the WinDbg command .kdfiles to be useful. This command allows the replacement of a driver binary on the target machine with another binary from the machine WinDbg is running on (typically the development machine) at driver load time.

This eliminates the need for repeated manual copy of the modified driver binary and saves considerable time during the development cycle. See the Windows Hardware Developer documentation for more details.

eBPF external extensions

Extensions that integrate with eBPF for Windows: