# Debugging [TOC] To enable debug and system call logging, add the `runtimeArgs` below to your [Docker](../quick_start/docker/) configuration (`/etc/docker/daemon.json`): ```json { "runtimes": { "runsc": { "path": "/usr/local/bin/runsc", "runtimeArgs": [ "--debug-log=/tmp/runsc/", "--debug", "--strace" ] } } } ``` > Note: the last `/` in `--debug-log` is needed to interpret it as a directory. > Then each `runsc` command executed will create a separate log file. Otherwise, > log messages from all commands will be appended to the same file. You may also want to pass `--log-packets` to troubleshoot network problems. Then restart the Docker daemon: ```bash sudo systemctl restart docker ``` Run your container again, and inspect the files under `/tmp/runsc`. The log file ending with `.boot` will contain the strace logs from your application, which can be useful for identifying missing or broken system calls in gVisor. If you are having problems starting the container, the log file ending with `.create` may have the reason for the failure. ## Stack traces The command `runsc debug --stacks` collects stack traces while the sandbox is running which can be useful to troubleshoot issues or just to learn more about gVisor. It connects to the sandbox process, collects a stack dump, and writes it to the console. For example: ```bash docker run --runtime=runsc --rm -d alpine sh -c "while true; do echo running; sleep 1; done" 63254c6ab3a6989623fa1fb53616951eed31ac605a2637bb9ddba5d8d404b35b sudo runsc --root /var/run/docker/runtime-runsc/moby debug --stacks 63254c6ab3a6989623fa1fb53616951eed31ac605a2637bb9ddba5d8d404b35b ``` > Note: `--root` variable is provided by docker and is normally set to > `/var/run/docker/runtime-[runtime-name]/moby`. If in doubt, `--root` is logged > to `runsc` logs. ## Debugger You can debug gVisor like any other Golang program. If you're running with Docker, you'll need to find the sandbox PID and attach the debugger as root. Here is an example: ```bash # Get a runsc with debug symbols (download nightly or build with symbols). bazel build -c dbg //runsc:runsc # Start the container you want to debug. docker run --runtime=runsc --rm --name=test -d alpine sleep 1000 # Find the sandbox PID. docker inspect test | grep Pid | head -n 1 # Attach your favorite debugger. sudo dlv attach # Set a breakpoint and resume. break mm.MemoryManager.MMap continue ``` ## Profiling `runsc` integrates with Go profiling tools and gives you easy commands to profile CPU and heap usage. First you need to enable `--profile` in the command line options before starting the container: ```json { "runtimes": { "runsc-prof": { "path": "/usr/local/bin/runsc", "runtimeArgs": [ "--profile" ] } } } ``` > Note: Enabling profiling loosens the seccomp protection added to the sandbox, > and should not be run in production under normal circumstances. Then restart docker to refresh the runtime options. While the container is running, execute `runsc debug` to collect profile information and save to a file. Here are the options available: * **--profile-heap:** Generates heap profile to the speficied file. * **--profile-cpu:** Enables CPU profiler, waits for `--duration` seconds and generates CPU profile to the speficied file. For example: ```bash docker run --runtime=runsc-prof --rm -d alpine sh -c "while true; do echo running; sleep 1; done" 63254c6ab3a6989623fa1fb53616951eed31ac605a2637bb9ddba5d8d404b35b sudo runsc --root /var/run/docker/runtime-runsc-prof/moby debug --profile-heap=/tmp/heap.prof 63254c6ab3a6989623fa1fb53616951eed31ac605a2637bb9ddba5d8d404b35b sudo runsc --root /var/run/docker/runtime-runsc-prof/moby debug --profile-cpu=/tmp/cpu.prof --duration=30s 63254c6ab3a6989623fa1fb53616951eed31ac605a2637bb9ddba5d8d404b35b ``` The resulting files can be opened using `go tool pprof` or [pprof][]. The examples below create image file (`.svg`) with the heap profile and writes the top functions using CPU to the console: ```bash go tool pprof -svg /usr/local/bin/runsc /tmp/heap.prof go tool pprof -top /usr/local/bin/runsc /tmp/cpu.prof ``` [pprof]: https://github.com/google/pprof/blob/master/doc/README.md ### Docker Proxy When forwarding a port to the container, Docker will likely route traffic through the [docker-proxy][]. This proxy may make profiling noisy, so it can be helpful to bypass it. Do so by sending traffic directly to the container IP and port. e.g., if the `docker0` IP is `192.168.9.1`, the container IP is likely a subsequent IP, such as `192.168.9.2`. [docker-proxy]: https://windsock.io/the-docker-proxy/