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// Copyright 2020 The gVisor Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Package config provides basic infrastructure to set configuration settings
// for runsc. The configuration is set by flags to the command line. They can
// also propagate to a different process using the same flags.
package config
import (
"fmt"
"gvisor.dev/gvisor/pkg/refs"
"gvisor.dev/gvisor/pkg/sentry/watchdog"
)
// Config holds configuration that is not part of the runtime spec.
//
// Follow these steps to add a new flag:
// 1. Create a new field in Config.
// 2. Add a field tag with the flag name
// 3. Register a new flag in flags.go, with name and description
// 4. Add any necessary validation into validate()
// 5. If adding an enum, follow the same pattern as FileAccessType
//
type Config struct {
// RootDir is the runtime root directory.
RootDir string `flag:"root"`
// Traceback changes the Go runtime's traceback level.
Traceback string `flag:"traceback"`
// Debug indicates that debug logging should be enabled.
Debug bool `flag:"debug"`
// LogFilename is the filename to log to, if not empty.
LogFilename string `flag:"log"`
// LogFormat is the log format.
LogFormat string `flag:"log-format"`
// DebugLog is the path to log debug information to, if not empty.
DebugLog string `flag:"debug-log"`
// PanicLog is the path to log GO's runtime messages, if not empty.
PanicLog string `flag:"panic-log"`
// DebugLogFormat is the log format for debug.
DebugLogFormat string `flag:"debug-log-format"`
// FileAccess indicates how the root filesystem is accessed.
FileAccess FileAccessType `flag:"file-access"`
// FileAccessMounts indicates how non-root volumes are accessed.
FileAccessMounts FileAccessType `flag:"file-access-mounts"`
// Overlay is whether to wrap the root filesystem in an overlay.
Overlay bool `flag:"overlay"`
// Verity is whether there's one or more verity file system to mount.
Verity bool `flag:"verity"`
// FSGoferHostUDS enables the gofer to mount a host UDS.
FSGoferHostUDS bool `flag:"fsgofer-host-uds"`
// Network indicates what type of network to use.
Network NetworkType `flag:"network"`
// EnableRaw indicates whether raw sockets should be enabled. Raw
// sockets are disabled by stripping CAP_NET_RAW from the list of
// capabilities.
EnableRaw bool `flag:"net-raw"`
// HardwareGSO indicates that hardware segmentation offload is enabled.
HardwareGSO bool `flag:"gso"`
// SoftwareGSO indicates that software segmentation offload is enabled.
SoftwareGSO bool `flag:"software-gso"`
// TXChecksumOffload indicates that TX Checksum Offload is enabled.
TXChecksumOffload bool `flag:"tx-checksum-offload"`
// RXChecksumOffload indicates that RX Checksum Offload is enabled.
RXChecksumOffload bool `flag:"rx-checksum-offload"`
// QDisc indicates the type of queuening discipline to use by default
// for non-loopback interfaces.
QDisc QueueingDiscipline `flag:"qdisc"`
// LogPackets indicates that all network packets should be logged.
LogPackets bool `flag:"log-packets"`
// Platform is the platform to run on.
Platform string `flag:"platform"`
// Strace indicates that strace should be enabled.
Strace bool `flag:"strace"`
// StraceSyscalls is the set of syscalls to trace (comma-separated values).
// If StraceEnable is true and this string is empty, then all syscalls will
// be traced.
StraceSyscalls string `flag:"strace-syscalls"`
// StraceLogSize is the max size of data blobs to display.
StraceLogSize uint `flag:"strace-log-size"`
// DisableSeccomp indicates whether seccomp syscall filters should be
// disabled. Pardon the double negation, but default to enabled is important.
DisableSeccomp bool
// WatchdogAction sets what action the watchdog takes when triggered.
WatchdogAction watchdog.Action `flag:"watchdog-action"`
// PanicSignal registers signal handling that panics. Usually set to
// SIGUSR2(12) to troubleshoot hangs. -1 disables it.
PanicSignal int `flag:"panic-signal"`
// ProfileEnable is set to prepare the sandbox to be profiled.
ProfileEnable bool `flag:"profile"`
// RestoreFile is the path to the saved container image
RestoreFile string
// NumNetworkChannels controls the number of AF_PACKET sockets that map
// to the same underlying network device. This allows netstack to better
// scale for high throughput use cases.
NumNetworkChannels int `flag:"num-network-channels"`
// Rootless allows the sandbox to be started with a user that is not root.
// Defense in depth measures are weaker in rootless mode. Specifically, the
// sandbox and Gofer process run as root inside a user namespace with root
// mapped to the caller's user.
Rootless bool `flag:"rootless"`
// AlsoLogToStderr allows to send log messages to stderr.
AlsoLogToStderr bool `flag:"alsologtostderr"`
// ReferenceLeakMode sets reference leak check mode
ReferenceLeak refs.LeakMode `flag:"ref-leak-mode"`
// OverlayfsStaleRead instructs the sandbox to assume that the root mount
// is on a Linux overlayfs mount, which does not necessarily preserve
// coherence between read-only and subsequent writable file descriptors
// representing the "same" file.
OverlayfsStaleRead bool `flag:"overlayfs-stale-read"`
// CPUNumFromQuota sets CPU number count to available CPU quota, using
// least integer value greater than or equal to quota.
//
// E.g. 0.2 CPU quota will result in 1, and 1.9 in 2.
CPUNumFromQuota bool `flag:"cpu-num-from-quota"`
// Enables VFS2.
VFS2 bool `flag:"vfs2"`
// Enables FUSE usage.
FUSE bool `flag:"fuse"`
// Allows overriding of flags in OCI annotations.
AllowFlagOverride bool `flag:"allow-flag-override"`
// Enables seccomp inside the sandbox.
OCISeccomp bool `flag:"oci-seccomp"`
// Mounts the cgroup filesystem backed by the sentry's cgroupfs.
Cgroupfs bool `flag:"cgroupfs"`
// TestOnlyAllowRunAsCurrentUserWithoutChroot should only be used in
// tests. It allows runsc to start the sandbox process as the current
// user, and without chrooting the sandbox process. This can be
// necessary in test environments that have limited capabilities.
TestOnlyAllowRunAsCurrentUserWithoutChroot bool `flag:"TESTONLY-unsafe-nonroot"`
// TestOnlyTestNameEnv should only be used in tests. It looks up for the
// test name in the container environment variables and adds it to the debug
// log file name. This is done to help identify the log with the test when
// multiple tests are run in parallel, since there is no way to pass
// parameters to the runtime from docker.
TestOnlyTestNameEnv string `flag:"TESTONLY-test-name-env"`
}
func (c *Config) validate() error {
if c.FileAccess == FileAccessShared && c.Overlay {
return fmt.Errorf("overlay flag is incompatible with shared file access")
}
if c.NumNetworkChannels <= 0 {
return fmt.Errorf("num_network_channels must be > 0, got: %d", c.NumNetworkChannels)
}
return nil
}
// FileAccessType tells how the filesystem is accessed.
type FileAccessType int
const (
// FileAccessExclusive gives the sandbox exclusive access over files and
// directories in the filesystem. No external modifications are permitted and
// can lead to undefined behavior.
//
// Exclusive filesystem access enables more aggressive caching and offers
// significantly better performance. This is the default mode for the root
// volume.
FileAccessExclusive FileAccessType = iota
// FileAccessShared is used for volumes that can have external changes. It
// requires revalidation on every filesystem access to detect external
// changes, and reduces the amount of caching that can be done. This is the
// default mode for non-root volumes.
FileAccessShared
)
func fileAccessTypePtr(v FileAccessType) *FileAccessType {
return &v
}
// Set implements flag.Value.
func (f *FileAccessType) Set(v string) error {
switch v {
case "shared":
*f = FileAccessShared
case "exclusive":
*f = FileAccessExclusive
default:
return fmt.Errorf("invalid file access type %q", v)
}
return nil
}
// Get implements flag.Value.
func (f *FileAccessType) Get() interface{} {
return *f
}
// String implements flag.Value.
func (f *FileAccessType) String() string {
switch *f {
case FileAccessShared:
return "shared"
case FileAccessExclusive:
return "exclusive"
}
panic(fmt.Sprintf("Invalid file access type %v", *f))
}
// NetworkType tells which network stack to use.
type NetworkType int
const (
// NetworkSandbox uses internal network stack, isolated from the host.
NetworkSandbox NetworkType = iota
// NetworkHost redirects network related syscalls to the host network.
NetworkHost
// NetworkNone sets up just loopback using netstack.
NetworkNone
)
func networkTypePtr(v NetworkType) *NetworkType {
return &v
}
// Set implements flag.Value.
func (n *NetworkType) Set(v string) error {
switch v {
case "sandbox":
*n = NetworkSandbox
case "host":
*n = NetworkHost
case "none":
*n = NetworkNone
default:
return fmt.Errorf("invalid network type %q", v)
}
return nil
}
// Get implements flag.Value.
func (n *NetworkType) Get() interface{} {
return *n
}
// String implements flag.Value.
func (n *NetworkType) String() string {
switch *n {
case NetworkSandbox:
return "sandbox"
case NetworkHost:
return "host"
case NetworkNone:
return "none"
}
panic(fmt.Sprintf("Invalid network type %v", *n))
}
// QueueingDiscipline is used to specify the kind of Queueing Discipline to
// apply for a give FDBasedLink.
type QueueingDiscipline int
const (
// QDiscNone disables any queueing for the underlying FD.
QDiscNone QueueingDiscipline = iota
// QDiscFIFO applies a simple fifo based queue to the underlying FD.
QDiscFIFO
)
func queueingDisciplinePtr(v QueueingDiscipline) *QueueingDiscipline {
return &v
}
// Set implements flag.Value.
func (q *QueueingDiscipline) Set(v string) error {
switch v {
case "none":
*q = QDiscNone
case "fifo":
*q = QDiscFIFO
default:
return fmt.Errorf("invalid qdisc %q", v)
}
return nil
}
// Get implements flag.Value.
func (q *QueueingDiscipline) Get() interface{} {
return *q
}
// String implements flag.Value.
func (q *QueueingDiscipline) String() string {
switch *q {
case QDiscNone:
return "none"
case QDiscFIFO:
return "fifo"
}
panic(fmt.Sprintf("Invalid qdisc %v", *q))
}
func leakModePtr(v refs.LeakMode) *refs.LeakMode {
return &v
}
func watchdogActionPtr(v watchdog.Action) *watchdog.Action {
return &v
}
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