From 19056b94935b42be53e17c0803d8cedfc719b01c Mon Sep 17 00:00:00 2001 From: Rob Watson Date: Sun, 17 Nov 2024 20:01:23 +0100 Subject: [PATCH] feat: add ebpf post --- content/posts/bpf-tools.md | 183 +++++++++++++++++++++++++++++++++++++ hugo.toml | 1 + 2 files changed, 184 insertions(+) create mode 100644 content/posts/bpf-tools.md diff --git a/content/posts/bpf-tools.md b/content/posts/bpf-tools.md new file mode 100644 index 0000000..324e684 --- /dev/null +++ b/content/posts/bpf-tools.md @@ -0,0 +1,183 @@ ++++ +title = 'Handy tracing tools with eBPF' +date = 2024-11-17T14:36:07+01:00 +draft = true +tags = ['ebpf', 'tracing', 'network', 'kernel'] ++++ + +[eBPF](https://ebpf.io/) allows event-driven programs, written in high-level languages, to be configured to run against +pre-defined hooks such as syscalls, function invocations, and network events. The technology enables the creation of +user-space implementations of many tools which previously required a kernel implementation or module. + +While researching the technology and scoping out potentially interesting use-cases, I've discovered that eBPF ships with +a collection of simple but useful tracing tools. I suspect that I'll be reaching for these frequently in the future +— especially for those tricky bugs where more traditional debugging techniques fail to deliver. + +The introspection provided by many, if not all of these tools was previously achievable in other ways. However, +oftentimes it was using tooling such as [strace](https://man7.org/linux/man-pages/man1/strace.1.html) which has +performance issues and is not always a convenient choice. Additionally, the tooling provided by eBPF should +theoretically be cross-platform, meaning it works on both Linux and MacOS alike. This is something that frequently is +not the case for more legacy solutions. + +## Installing bcc-tools + +The tooling is provided by [bcc-tools](https://github.com/iovisor/bcc) package. To install on Arch Linux: + +```bash +% pacman -S bcc bcc-tools python-bcc linux-headers + +# required for bashreadline: +% pacman -S python-pyelftools +``` + +The tools will be installed to `/usr/share/bcc/tools`. Inconveniently, this is probably outside of your search path. +It's easy to add this path to your `PATH` variable: + +```bash +% export PATH=/usr/share/bcc/tools:$PATH +``` + +Now, let's try the `execsnoop` command. This tool traces the creation of new processes. + +```sh +% execsnoop +bpf: Failed to load program: Operation not permitted + +Traceback (most recent call last): + File "/usr/share/bcc/tools/execsnoop", line 268, in + b.attach_kprobe(event=execve_fnname, fn_name="syscall__execve") + File "/usr/lib/python3.12/site-packages/bcc/__init__.py", line 851, in attach_kprobe + fn = self.load_func(fn_name, BPF.KPROBE) + ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + File "/usr/lib/python3.12/site-packages/bcc/__init__.py", line 523, in load_func + raise Exception("Need super-user privileges to run") +Exception: Need super-user privileges to run +``` + +Running code which installs eBPF hooks requires root privileges or the `CAP_BPF` capacity. When running outside of +containerized environments this probably means running bcc tools with `sudo`. However, when I tried to run the +`execsnoop` tool with sudo: + +```bash +% sudo execsnoop +sudo: execsnoop: command not found +``` + +Of course, this is a common issue with sudo. Many Linux distributions are configured to not preserve environment +variables, including `$PATH`, when running commands with `sudo`. Somehow I've managed to live with this over the years +with a number of unsatisfying workarounds but the prospect of being able to run this tooling with minimal friction +finally provided the inspiration for me to find a better way. This [was +achieved](https://git.netflux.io/rob/dotfiles/commit/c39ec29b21751744a645b9bef5ba06d5fabee9bf) with a simple alias: + +```bash +alias sudop='sudo env PATH=$PATH' +``` + +After adding the alias, it's easy to run a bcc tool: :tada: + +```bash +% sudop execsnoop +PCOMM PID PPID RET ARGS +``` + +## Useful commands + +This section only scratches the surface of what's available out-of-the-box with bcc-tools. Most of my inspiration came +from Brendan Gregg's [blog post](https://www.brendangregg.com/ebpf.html). + +### Tracing newly created processes + +As mentioned above, you can watch process creation with `execsnoop`, which is named after the `exec` syscall: + +```bash +% sudop execsnoop +PCOMM PID PPID RET ARGS +sh 497415 2580 0 /bin/sh -c tmbatinfo +tmbatinfo 497415 2580 0 /home/rob/script/tmbatinfo +bash 497415 2580 0 /usr/bin/bash /home/rob/script/tmbatinfo +batinfo 497417 497415 0 /home/rob/script/batinfo +bash 497417 497415 0 /usr/bin/bash /home/rob/script/batinfo +sh 497416 2580 0 /bin/sh -c sysinfo +sysinfo 497416 2580 0 /home/rob/script/sysinfo +``` + +This outputs columns: + +* `PCOMM`: some googling suggests this should be the _parent_ command name, but it seems to me to be the name of the +launched (child) command. +* `PID`: the PID of the launched process. +* `PPID`: the PID of the parent process. +* `RET`: I assume this is the return value of the syscall. +* `ARGS`: the arguments provided to the syscall, which at least in my experiments seems to include the file or + path of the command as well as the arguments. + +Importantly, the `-x` flag can be passed to make `execsnoop` show failed syscall attempts as well as those that are +successful. + +### Tracing open files + +Similarly, `opensnoop` allows tracing of the `open` syscall which is used to open files. + +I used to rely heavily on the pre-eBPF, dtrace-based implementation of `opensnoop` back in my Mac days, and it's nice +to discover that I can call upon it from Linux. + +```bash +% sudop opensnoop +PID COMM FD ERR PATH +347357 ThreadPoolForeg 27 0 /home/rob/.cache/google-chrome/Default/Cache/Cache_Data/1b2c2ddd2d7ef7c5_0 +347357 Chrome_ChildIOT 32 0 /dev/shm/.com.google.Chrome.ZkPQQO +347312 ThreadPoolForeg 103 0 /home/rob/.config/google-chrome/Default/.com.google.Chrome.lWY8pP +347312 ThreadPoolForeg 114 0 /dev/shm/.com.google.Chrome.aLGFXG +347312 ThreadPoolForeg 192 0 /proc/347426/stat +347312 ThreadPoolSingl 192 0 /proc/347426/task/347426/status +347312 chrome 192 0 /dev/shm/.com.google.Chrome.ddntL8 +347312 ThreadPoolForeg 109 0 /proc/347426/stat +347312 ThreadPoolForeg 103 0 /proc/347426/stat +347312 ThreadPoolForeg 103 0 /home/rob/.config/google-chrome/Default/Extensions/fmkadmapgofadopljbjfkapdkoienihi/6.0.1_0/build/proxy.js +347312 ThreadPoolForeg 103 0 /home/rob/.config/google-chrome/Default/Extensions/fmkadmapgofadopljbjfkapdkoienihi/6.0.1_0/build/fileFetcher.js +``` + +The columns are similar to `execsnoop`: + +* `PID`: the PID of the process calling `open`. +* `COMM`: the name of the calling process. +* `FD`: this is the process-scoped Linux file descriptor which is opened. +* `ERR`: error code, 0 for success. +* `PATH`: the path of the file being opened, which may of course be a Linux virtual filesystem. + +### Tracing outgoing TCP connections + +With `tcpconnect` we can trace outgoing TCP connections (using the `connect` syscall) — in this case triggered by +a `curl https://google.com` from my local network address (`192.168.1.147`) to Google's server at `172.217.14.14:443`. + +```bash +% sudop tcpconnect +Tracing connect ... Hit Ctrl-C to end +PID COMM IP SADDR DADDR DPORT +515773 curl 4 192.168.1.147 172.217.17.14 443 +``` + +### Tracing incoming TCP connections + +Simialrly, with `tcpaccept` we can trace incoming TCP connections (using the `accept` syscall). In this case, I used +Ruby to spun up an HTTP server on port 8001: + +```bash +$ ruby -run -ehttpd . -p8001 +``` + +And then again used `curl` to make a request which was traced successfully: + +```bash +% sudop tcpaccept +PID COMM IP RADDR RPORT LADDR LPORT +516996 ruby 6 ::1 41200 ::1 8001 +``` + +## Conclusions + +I am just starting to explore the world of eBPF but I'm excited to discover a suite of lightweight system tracing +utilities that I can see being a genuinely useful addition to my toolkit. + +Once again, don't forget to check out the [eBPF website](https://ebpf.io) and [Brendan Gregg's +blog](https://brendangregg.com/ebpf.html) to dive deeper. diff --git a/hugo.toml b/hugo.toml index bc3802a..3c56917 100644 --- a/hugo.toml +++ b/hugo.toml @@ -2,6 +2,7 @@ baseURL = 'https://example.org/' languageCode = 'en-us' title = 'netflux.io blog' theme = 'hugo-flex' +enableEmoji = true [params] color = '#016f21'