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package configs
import (
"bytes"
"encoding/json"
"fmt"
"os/exec"
"time"
"github.com/Sirupsen/logrus"
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"github.com/opencontainers/runtime-spec/specs-go"
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)
type Rlimit struct {
Type int ` json:"type" `
Hard uint64 ` json:"hard" `
Soft uint64 ` json:"soft" `
}
// IDMap represents UID/GID Mappings for User Namespaces.
type IDMap struct {
ContainerID int ` json:"container_id" `
HostID int ` json:"host_id" `
Size int ` json:"size" `
}
// Seccomp represents syscall restrictions
// By default, only the native architecture of the kernel is allowed to be used
// for syscalls. Additional architectures can be added by specifying them in
// Architectures.
type Seccomp struct {
DefaultAction Action ` json:"default_action" `
Architectures [ ] string ` json:"architectures" `
Syscalls [ ] * Syscall ` json:"syscalls" `
}
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// Action is taken upon rule match in Seccomp
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type Action int
const (
Kill Action = iota + 1
Errno
Trap
Allow
Trace
)
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// Operator is a comparison operator to be used when matching syscall arguments in Seccomp
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type Operator int
const (
EqualTo Operator = iota + 1
NotEqualTo
GreaterThan
GreaterThanOrEqualTo
LessThan
LessThanOrEqualTo
MaskEqualTo
)
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// Arg is a rule to match a specific syscall argument in Seccomp
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type Arg struct {
Index uint ` json:"index" `
Value uint64 ` json:"value" `
ValueTwo uint64 ` json:"value_two" `
Op Operator ` json:"op" `
}
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// Syscall is a rule to match a syscall in Seccomp
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type Syscall struct {
Name string ` json:"name" `
Action Action ` json:"action" `
Args [ ] * Arg ` json:"args" `
}
// TODO Windows. Many of these fields should be factored out into those parts
// which are common across platforms, and those which are platform specific.
// Config defines configuration options for executing a process inside a contained environment.
type Config struct {
// NoPivotRoot will use MS_MOVE and a chroot to jail the process into the container's rootfs
// This is a common option when the container is running in ramdisk
NoPivotRoot bool ` json:"no_pivot_root" `
// ParentDeathSignal specifies the signal that is sent to the container's process in the case
// that the parent process dies.
ParentDeathSignal int ` json:"parent_death_signal" `
// Path to a directory containing the container's root filesystem.
Rootfs string ` json:"rootfs" `
// Readonlyfs will remount the container's rootfs as readonly where only externally mounted
// bind mounts are writtable.
Readonlyfs bool ` json:"readonlyfs" `
// Specifies the mount propagation flags to be applied to /.
RootPropagation int ` json:"rootPropagation" `
// Mounts specify additional source and destination paths that will be mounted inside the container's
// rootfs and mount namespace if specified
Mounts [ ] * Mount ` json:"mounts" `
// The device nodes that should be automatically created within the container upon container start. Note, make sure that the node is marked as allowed in the cgroup as well!
Devices [ ] * Device ` json:"devices" `
MountLabel string ` json:"mount_label" `
// Hostname optionally sets the container's hostname if provided
Hostname string ` json:"hostname" `
// Namespaces specifies the container's namespaces that it should setup when cloning the init process
// If a namespace is not provided that namespace is shared from the container's parent process
Namespaces Namespaces ` json:"namespaces" `
// Capabilities specify the capabilities to keep when executing the process inside the container
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// All capabilities not specified will be dropped from the processes capability mask
Capabilities * Capabilities ` json:"capabilities" `
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// Networks specifies the container's network setup to be created
Networks [ ] * Network ` json:"networks" `
// Routes can be specified to create entries in the route table as the container is started
Routes [ ] * Route ` json:"routes" `
// Cgroups specifies specific cgroup settings for the various subsystems that the container is
// placed into to limit the resources the container has available
Cgroups * Cgroup ` json:"cgroups" `
// AppArmorProfile specifies the profile to apply to the process running in the container and is
// change at the time the process is execed
AppArmorProfile string ` json:"apparmor_profile,omitempty" `
// ProcessLabel specifies the label to apply to the process running in the container. It is
// commonly used by selinux
ProcessLabel string ` json:"process_label,omitempty" `
// Rlimits specifies the resource limits, such as max open files, to set in the container
// If Rlimits are not set, the container will inherit rlimits from the parent process
Rlimits [ ] Rlimit ` json:"rlimits,omitempty" `
// OomScoreAdj specifies the adjustment to be made by the kernel when calculating oom scores
// for a process. Valid values are between the range [-1000, '1000'], where processes with
// higher scores are preferred for being killed.
// More information about kernel oom score calculation here: https://lwn.net/Articles/317814/
OomScoreAdj int ` json:"oom_score_adj" `
// UidMappings is an array of User ID mappings for User Namespaces
UidMappings [ ] IDMap ` json:"uid_mappings" `
// GidMappings is an array of Group ID mappings for User Namespaces
GidMappings [ ] IDMap ` json:"gid_mappings" `
// MaskPaths specifies paths within the container's rootfs to mask over with a bind
// mount pointing to /dev/null as to prevent reads of the file.
MaskPaths [ ] string ` json:"mask_paths" `
// ReadonlyPaths specifies paths within the container's rootfs to remount as read-only
// so that these files prevent any writes.
ReadonlyPaths [ ] string ` json:"readonly_paths" `
// Sysctl is a map of properties and their values. It is the equivalent of using
// sysctl -w my.property.name value in Linux.
Sysctl map [ string ] string ` json:"sysctl" `
// Seccomp allows actions to be taken whenever a syscall is made within the container.
// A number of rules are given, each having an action to be taken if a syscall matches it.
// A default action to be taken if no rules match is also given.
Seccomp * Seccomp ` json:"seccomp" `
// NoNewPrivileges controls whether processes in the container can gain additional privileges.
NoNewPrivileges bool ` json:"no_new_privileges,omitempty" `
// Hooks are a collection of actions to perform at various container lifecycle events.
// CommandHooks are serialized to JSON, but other hooks are not.
Hooks * Hooks
// Version is the version of opencontainer specification that is supported.
Version string ` json:"version" `
// Labels are user defined metadata that is stored in the config and populated on the state
Labels [ ] string ` json:"labels" `
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// NoNewKeyring will not allocated a new session keyring for the container. It will use the
// callers keyring in this case.
NoNewKeyring bool ` json:"no_new_keyring" `
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// Rootless specifies whether the container is a rootless container.
Rootless bool ` json:"rootless" `
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}
type Hooks struct {
// Prestart commands are executed after the container namespaces are created,
// but before the user supplied command is executed from init.
Prestart [ ] Hook
// Poststart commands are executed after the container init process starts.
Poststart [ ] Hook
// Poststop commands are executed after the container init process exits.
Poststop [ ] Hook
}
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type Capabilities struct {
// Bounding is the set of capabilities checked by the kernel.
Bounding [ ] string
// Effective is the set of capabilities checked by the kernel.
Effective [ ] string
// Inheritable is the capabilities preserved across execve.
Inheritable [ ] string
// Permitted is the limiting superset for effective capabilities.
Permitted [ ] string
// Ambient is the ambient set of capabilities that are kept.
Ambient [ ] string
}
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func ( hooks * Hooks ) UnmarshalJSON ( b [ ] byte ) error {
var state struct {
Prestart [ ] CommandHook
Poststart [ ] CommandHook
Poststop [ ] CommandHook
}
if err := json . Unmarshal ( b , & state ) ; err != nil {
return err
}
deserialize := func ( shooks [ ] CommandHook ) ( hooks [ ] Hook ) {
for _ , shook := range shooks {
hooks = append ( hooks , shook )
}
return hooks
}
hooks . Prestart = deserialize ( state . Prestart )
hooks . Poststart = deserialize ( state . Poststart )
hooks . Poststop = deserialize ( state . Poststop )
return nil
}
func ( hooks Hooks ) MarshalJSON ( ) ( [ ] byte , error ) {
serialize := func ( hooks [ ] Hook ) ( serializableHooks [ ] CommandHook ) {
for _ , hook := range hooks {
switch chook := hook . ( type ) {
case CommandHook :
serializableHooks = append ( serializableHooks , chook )
default :
logrus . Warnf ( "cannot serialize hook of type %T, skipping" , hook )
}
}
return serializableHooks
}
return json . Marshal ( map [ string ] interface { } {
"prestart" : serialize ( hooks . Prestart ) ,
"poststart" : serialize ( hooks . Poststart ) ,
"poststop" : serialize ( hooks . Poststop ) ,
} )
}
// HookState is the payload provided to a hook on execution.
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type HookState specs . State
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type Hook interface {
// Run executes the hook with the provided state.
Run ( HookState ) error
}
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// NewFunctionHook will call the provided function when the hook is run.
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func NewFunctionHook ( f func ( HookState ) error ) FuncHook {
return FuncHook {
run : f ,
}
}
type FuncHook struct {
run func ( HookState ) error
}
func ( f FuncHook ) Run ( s HookState ) error {
return f . run ( s )
}
type Command struct {
Path string ` json:"path" `
Args [ ] string ` json:"args" `
Env [ ] string ` json:"env" `
Dir string ` json:"dir" `
Timeout * time . Duration ` json:"timeout" `
}
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// NewCommandHook will execute the provided command when the hook is run.
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func NewCommandHook ( cmd Command ) CommandHook {
return CommandHook {
Command : cmd ,
}
}
type CommandHook struct {
Command
}
func ( c Command ) Run ( s HookState ) error {
b , err := json . Marshal ( s )
if err != nil {
return err
}
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var stdout , stderr bytes . Buffer
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cmd := exec . Cmd {
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Path : c . Path ,
Args : c . Args ,
Env : c . Env ,
Stdin : bytes . NewReader ( b ) ,
Stdout : & stdout ,
Stderr : & stderr ,
}
if err := cmd . Start ( ) ; err != nil {
return err
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}
errC := make ( chan error , 1 )
go func ( ) {
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err := cmd . Wait ( )
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if err != nil {
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err = fmt . Errorf ( "error running hook: %v, stdout: %s, stderr: %s" , err , stdout . String ( ) , stderr . String ( ) )
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}
errC <- err
} ( )
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var timerCh <- chan time . Time
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if c . Timeout != nil {
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timer := time . NewTimer ( * c . Timeout )
defer timer . Stop ( )
timerCh = timer . C
}
select {
case err := <- errC :
return err
case <- timerCh :
cmd . Process . Kill ( )
cmd . Wait ( )
return fmt . Errorf ( "hook ran past specified timeout of %.1fs" , c . Timeout . Seconds ( ) )
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}
}