package netavark import ( "encoding/json" "errors" "os" "os/exec" "strconv" "github.com/sirupsen/logrus" ) type netavarkError struct { exitCode int // Set the json key to "error" so we can directly unmarshal into this struct Msg string `json:"error"` err error } func (e *netavarkError) Error() string { ec := "" // only add the exit code the the error message if we have at least info log level // the normal user does not need to care about the number if e.exitCode > 0 && logrus.IsLevelEnabled(logrus.InfoLevel) { ec = " (exit code " + strconv.Itoa(e.exitCode) + ")" } msg := "netavark" + ec if len(msg) > 0 { msg += ": " + e.Msg } if e.err != nil { msg += ": " + e.err.Error() } return msg } func (e *netavarkError) Unwrap() error { return e.err } func newNetavarkError(msg string, err error) error { return &netavarkError{ Msg: msg, err: err, } } // getRustLogEnv returns the RUST_LOG env var based on the current logrus level func getRustLogEnv() string { level := logrus.GetLevel().String() // rust env_log uses warn instead of warning if level == "warning" { level = "warn" } // the rust netlink library is very verbose // make sure to only log netavark logs return "RUST_LOG=netavark=" + level } // execNetavark will execute netavark with the following arguments // It takes the path to the binary, the list of args and an interface which is // marshaled to json and send via stdin to netavark. The result interface is // used to marshal the netavark output into it. This can be nil. // All errors return by this function should be of the type netavarkError // to provide a helpful error message. func execNetavark(binary string, args []string, stdin, result interface{}) error { stdinR, stdinW, err := os.Pipe() if err != nil { return newNetavarkError("failed to create stdin pipe", err) } defer stdinR.Close() stdoutR, stdoutW, err := os.Pipe() if err != nil { return newNetavarkError("failed to create stdout pipe", err) } defer stdoutR.Close() defer stdoutW.Close() cmd := exec.Command(binary, args...) // connect the pipes to stdin and stdout cmd.Stdin = stdinR cmd.Stdout = stdoutW // connect stderr to the podman stderr for logging cmd.Stderr = os.Stderr // set the netavark log level to the same as the podman cmd.Env = append(os.Environ(), getRustLogEnv()) // if we run with debug log level lets also set RUST_BACKTRACE=1 so we can get the full stack trace in case of panics if logrus.IsLevelEnabled(logrus.DebugLevel) { cmd.Env = append(cmd.Env, "RUST_BACKTRACE=1") } err = cmd.Start() if err != nil { return newNetavarkError("failed to start process", err) } err = json.NewEncoder(stdinW).Encode(stdin) stdinW.Close() if err != nil { return newNetavarkError("failed to encode stdin data", err) } dec := json.NewDecoder(stdoutR) err = cmd.Wait() stdoutW.Close() if err != nil { exitError := &exec.ExitError{} if errors.As(err, &exitError) { ne := &netavarkError{} // lets disallow unknown fields to make sure we do not get some unexpected stuff dec.DisallowUnknownFields() // this will unmarshal the error message into the error struct ne.err = dec.Decode(ne) ne.exitCode = exitError.ExitCode() return ne } return newNetavarkError("unexpected failure during execution", err) } if result != nil { err = dec.Decode(result) if err != nil { return newNetavarkError("failed to decode result", err) } } return nil }