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|
//nolint
// most of these validate and parse functions have been taken from projectatomic/docker
// and modified for cri-o
package main
import (
"bufio"
"bytes"
"encoding/json"
"fmt"
"io/ioutil"
"net"
"os"
"path"
"regexp"
"strconv"
"strings"
units "github.com/docker/go-units"
"github.com/pkg/errors"
)
const (
Protocol_TCP Protocol = 0
Protocol_UDP Protocol = 1
)
type Protocol int32
// PortMapping specifies the port mapping configurations of a sandbox.
type PortMapping struct {
// Protocol of the port mapping.
Protocol Protocol `protobuf:"varint,1,opt,name=protocol,proto3,enum=runtime.Protocol" json:"protocol,omitempty"`
// Port number within the container. Default: 0 (not specified).
ContainerPort int32 `protobuf:"varint,2,opt,name=container_port,json=containerPort,proto3" json:"container_port,omitempty"`
// Port number on the host. Default: 0 (not specified).
HostPort int32 `protobuf:"varint,3,opt,name=host_port,json=hostPort,proto3" json:"host_port,omitempty"`
// Host IP.
HostIp string `protobuf:"bytes,4,opt,name=host_ip,json=hostIp,proto3" json:"host_ip,omitempty"`
}
// Device specifies a host device to mount into a container.
type HostDevice struct {
// Path of the device within the container.
ContainerPath string `protobuf:"bytes,1,opt,name=container_path,json=containerPath,proto3" json:"container_path,omitempty"`
// Path of the device on the host.
HostPath string `protobuf:"bytes,2,opt,name=host_path,json=hostPath,proto3" json:"host_path,omitempty"`
// Cgroups permissions of the device, candidates are one or more of
// * r - allows container to read from the specified device.
// * w - allows container to write to the specified device.
// * m - allows container to create device files that do not yet exist.
Permissions string `protobuf:"bytes,3,opt,name=permissions,proto3" json:"permissions,omitempty"`
}
// Note: for flags that are in the form <number><unit>, use the RAMInBytes function
// from the units package in docker/go-units/size.go
var (
whiteSpaces = " \t"
alphaRegexp = regexp.MustCompile(`[a-zA-Z]`)
domainRegexp = regexp.MustCompile(`^(:?(:?[a-zA-Z0-9]|(:?[a-zA-Z0-9][a-zA-Z0-9\-]*[a-zA-Z0-9]))(:?\.(:?[a-zA-Z0-9]|(:?[a-zA-Z0-9][a-zA-Z0-9\-]*[a-zA-Z0-9])))*)\.?\s*$`)
)
// validateExtraHost validates that the specified string is a valid extrahost and returns it.
// ExtraHost is in the form of name:ip where the ip has to be a valid ip (ipv4 or ipv6).
// for add-host flag
func validateExtraHost(val string) (string, error) { //nolint
// allow for IPv6 addresses in extra hosts by only splitting on first ":"
arr := strings.SplitN(val, ":", 2)
if len(arr) != 2 || len(arr[0]) == 0 {
return "", fmt.Errorf("bad format for add-host: %q", val)
}
if _, err := validateIPAddress(arr[1]); err != nil {
return "", fmt.Errorf("invalid IP address in add-host: %q", arr[1])
}
return val, nil
}
// validateIPAddress validates an Ip address.
// for dns, ip, and ip6 flags also
func validateIPAddress(val string) (string, error) {
var ip = net.ParseIP(strings.TrimSpace(val))
if ip != nil {
return ip.String(), nil
}
return "", fmt.Errorf("%s is not an ip address", val)
}
// validateAttach validates that the specified string is a valid attach option.
// for attach flag
func validateAttach(val string) (string, error) { //nolint
s := strings.ToLower(val)
for _, str := range []string{"stdin", "stdout", "stderr"} {
if s == str {
return s, nil
}
}
return val, fmt.Errorf("valid streams are STDIN, STDOUT and STDERR")
}
// validate the blkioWeight falls in the range of 10 to 1000
// for blkio-weight flag
func validateBlkioWeight(val int64) (int64, error) { //nolint
if val >= 10 && val <= 1000 {
return val, nil
}
return -1, errors.Errorf("invalid blkio weight %q, should be between 10 and 1000", val)
}
// weightDevice is a structure that holds device:weight pair
type weightDevice struct {
path string
weight uint16
}
func (w *weightDevice) String() string {
return fmt.Sprintf("%s:%d", w.path, w.weight)
}
// validateweightDevice validates that the specified string has a valid device-weight format
// for blkio-weight-device flag
func validateweightDevice(val string) (*weightDevice, error) {
split := strings.SplitN(val, ":", 2)
if len(split) != 2 {
return nil, fmt.Errorf("bad format: %s", val)
}
if !strings.HasPrefix(split[0], "/dev/") {
return nil, fmt.Errorf("bad format for device path: %s", val)
}
weight, err := strconv.ParseUint(split[1], 10, 0)
if err != nil {
return nil, fmt.Errorf("invalid weight for device: %s", val)
}
if weight > 0 && (weight < 10 || weight > 1000) {
return nil, fmt.Errorf("invalid weight for device: %s", val)
}
return &weightDevice{
path: split[0],
weight: uint16(weight),
}, nil
}
// parseDevice parses a device mapping string to a container.DeviceMapping struct
// for device flag
func parseDevice(device string) (*HostDevice, error) { //nolint
_, err := validateDevice(device)
if err != nil {
return nil, errors.Wrapf(err, "device string not valid %q", device)
}
src := ""
dst := ""
permissions := "rwm"
arr := strings.Split(device, ":")
switch len(arr) {
case 3:
permissions = arr[2]
fallthrough
case 2:
if validDeviceMode(arr[1]) {
permissions = arr[1]
} else {
dst = arr[1]
}
fallthrough
case 1:
src = arr[0]
default:
return nil, fmt.Errorf("invalid device specification: %s", device)
}
if dst == "" {
dst = src
}
deviceMapping := &HostDevice{
ContainerPath: dst,
HostPath: src,
Permissions: permissions,
}
return deviceMapping, nil
}
// validDeviceMode checks if the mode for device is valid or not.
// Valid mode is a composition of r (read), w (write), and m (mknod).
func validDeviceMode(mode string) bool {
var legalDeviceMode = map[rune]bool{
'r': true,
'w': true,
'm': true,
}
if mode == "" {
return false
}
for _, c := range mode {
if !legalDeviceMode[c] {
return false
}
legalDeviceMode[c] = false
}
return true
}
// validateDevice validates a path for devices
// It will make sure 'val' is in the form:
// [host-dir:]container-path[:mode]
// It also validates the device mode.
func validateDevice(val string) (string, error) {
return validatePath(val, validDeviceMode)
}
func validatePath(val string, validator func(string) bool) (string, error) {
var containerPath string
var mode string
if strings.Count(val, ":") > 2 {
return val, fmt.Errorf("bad format for path: %s", val)
}
split := strings.SplitN(val, ":", 3)
if split[0] == "" {
return val, fmt.Errorf("bad format for path: %s", val)
}
switch len(split) {
case 1:
containerPath = split[0]
val = path.Clean(containerPath)
case 2:
if isValid := validator(split[1]); isValid {
containerPath = split[0]
mode = split[1]
val = fmt.Sprintf("%s:%s", path.Clean(containerPath), mode)
} else {
containerPath = split[1]
val = fmt.Sprintf("%s:%s", split[0], path.Clean(containerPath))
}
case 3:
containerPath = split[1]
mode = split[2]
if isValid := validator(split[2]); !isValid {
return val, fmt.Errorf("bad mode specified: %s", mode)
}
val = fmt.Sprintf("%s:%s:%s", split[0], containerPath, mode)
}
if !path.IsAbs(containerPath) {
return val, fmt.Errorf("%s is not an absolute path", containerPath)
}
return val, nil
}
// throttleDevice is a structure that holds device:rate_per_second pair
type throttleDevice struct {
path string
rate uint64
}
func (t *throttleDevice) String() string {
return fmt.Sprintf("%s:%d", t.path, t.rate)
}
// validateBpsDevice validates that the specified string has a valid device-rate format
// for device-read-bps and device-write-bps flags
func validateBpsDevice(val string) (*throttleDevice, error) {
split := strings.SplitN(val, ":", 2)
if len(split) != 2 {
return nil, fmt.Errorf("bad format: %s", val)
}
if !strings.HasPrefix(split[0], "/dev/") {
return nil, fmt.Errorf("bad format for device path: %s", val)
}
rate, err := units.RAMInBytes(split[1])
if err != nil {
return nil, fmt.Errorf("invalid rate for device: %s. The correct format is <device-path>:<number>[<unit>]. Number must be a positive integer. Unit is optional and can be kb, mb, or gb", val)
}
if rate < 0 {
return nil, fmt.Errorf("invalid rate for device: %s. The correct format is <device-path>:<number>[<unit>]. Number must be a positive integer. Unit is optional and can be kb, mb, or gb", val)
}
return &throttleDevice{
path: split[0],
rate: uint64(rate),
}, nil
}
// validateIOpsDevice validates that the specified string has a valid device-rate format
// for device-write-iops and device-read-iops flags
func validateIOpsDevice(val string) (*throttleDevice, error) { //nolint
split := strings.SplitN(val, ":", 2)
if len(split) != 2 {
return nil, fmt.Errorf("bad format: %s", val)
}
if !strings.HasPrefix(split[0], "/dev/") {
return nil, fmt.Errorf("bad format for device path: %s", val)
}
rate, err := strconv.ParseUint(split[1], 10, 64)
if err != nil {
return nil, fmt.Errorf("invalid rate for device: %s. The correct format is <device-path>:<number>. Number must be a positive integer", val)
}
if rate < 0 {
return nil, fmt.Errorf("invalid rate for device: %s. The correct format is <device-path>:<number>. Number must be a positive integer", val)
}
return &throttleDevice{
path: split[0],
rate: uint64(rate),
}, nil
}
// validateDNSSearch validates domain for resolvconf search configuration.
// A zero length domain is represented by a dot (.).
// for dns-search flag
func validateDNSSearch(val string) (string, error) { //nolint
if val = strings.Trim(val, " "); val == "." {
return val, nil
}
return validateDomain(val)
}
func validateDomain(val string) (string, error) {
if alphaRegexp.FindString(val) == "" {
return "", fmt.Errorf("%s is not a valid domain", val)
}
ns := domainRegexp.FindSubmatch([]byte(val))
if len(ns) > 0 && len(ns[1]) < 255 {
return string(ns[1]), nil
}
return "", fmt.Errorf("%s is not a valid domain", val)
}
// validateEnv validates an environment variable and returns it.
// If no value is specified, it returns the current value using os.Getenv.
// for env flag
func validateEnv(val string) (string, error) { //nolint
arr := strings.Split(val, "=")
if len(arr) > 1 {
return val, nil
}
if !doesEnvExist(val) {
return val, nil
}
return fmt.Sprintf("%s=%s", val, os.Getenv(val)), nil
}
func doesEnvExist(name string) bool {
for _, entry := range os.Environ() {
parts := strings.SplitN(entry, "=", 2)
if parts[0] == name {
return true
}
}
return false
}
// reads a file of line terminated key=value pairs, and overrides any keys
// present in the file with additional pairs specified in the override parameter
// for env-file and labels-file flags
func readKVStrings(env map[string]string, files []string, override []string) error {
for _, ef := range files {
if err := parseEnvFile(env, ef); err != nil {
return err
}
}
for _, line := range override {
if err := parseEnv(env, line); err != nil {
return err
}
}
return nil
}
func parseEnv(env map[string]string, line string) error {
data := strings.SplitN(line, "=", 2)
// trim the front of a variable, but nothing else
name := strings.TrimLeft(data[0], whiteSpaces)
if strings.ContainsAny(name, whiteSpaces) {
return errors.Errorf("name %q has white spaces, poorly formatted name", name)
}
if len(data) > 1 {
env[name] = data[1]
} else {
// if only a pass-through variable is given, clean it up.
val, exists := os.LookupEnv(name)
if !exists {
return errors.Errorf("environment variable %q does not exist", name)
}
env[name] = val
}
return nil
}
// parseEnvFile reads a file with environment variables enumerated by lines
func parseEnvFile(env map[string]string, filename string) error {
fh, err := os.Open(filename)
if err != nil {
return err
}
defer fh.Close()
scanner := bufio.NewScanner(fh)
for scanner.Scan() {
// trim the line from all leading whitespace first
line := strings.TrimLeft(scanner.Text(), whiteSpaces)
// line is not empty, and not starting with '#'
if len(line) > 0 && !strings.HasPrefix(line, "#") {
if err := parseEnv(env, line); err != nil {
return err
}
}
}
return scanner.Err()
}
// NsIpc represents the container ipc stack.
// for ipc flag
type NsIpc string
// IsPrivate indicates whether the container uses its private ipc stack.
func (n NsIpc) IsPrivate() bool {
return !(n.IsHost() || n.IsContainer())
}
// IsHost indicates whether the container uses the host's ipc stack.
func (n NsIpc) IsHost() bool {
return n == "host"
}
// IsContainer indicates whether the container uses a container's ipc stack.
func (n NsIpc) IsContainer() bool {
parts := strings.SplitN(string(n), ":", 2)
return len(parts) > 1 && parts[0] == "container"
}
// Valid indicates whether the ipc stack is valid.
func (n NsIpc) Valid() bool {
parts := strings.Split(string(n), ":")
switch mode := parts[0]; mode {
case "", "host":
case "container":
if len(parts) != 2 || parts[1] == "" {
return false
}
default:
return false
}
return true
}
// Container returns the name of the container ipc stack is going to be used.
func (n NsIpc) Container() string {
parts := strings.SplitN(string(n), ":", 2)
if len(parts) > 1 {
return parts[1]
}
return ""
}
// validateLabel validates that the specified string is a valid label, and returns it.
// Labels are in the form on key=value.
// for label flag
func validateLabel(val string) (string, error) { //nolint
if strings.Count(val, "=") < 1 {
return "", fmt.Errorf("bad attribute format: %s", val)
}
return val, nil
}
// validateMACAddress validates a MAC address.
// for mac-address flag
func validateMACAddress(val string) (string, error) { //nolint
_, err := net.ParseMAC(strings.TrimSpace(val))
if err != nil {
return "", err
}
return val, nil
}
// parseLoggingOpts validates the logDriver and logDriverOpts
// for log-opt and log-driver flags
func parseLoggingOpts(logDriver string, logDriverOpt []string) (map[string]string, error) { //nolint
logOptsMap := convertKVStringsToMap(logDriverOpt)
if logDriver == "none" && len(logDriverOpt) > 0 {
return map[string]string{}, errors.Errorf("invalid logging opts for driver %s", logDriver)
}
return logOptsMap, nil
}
// NsPid represents the pid namespace of the container.
//for pid flag
type NsPid string
// IsPrivate indicates whether the container uses its own new pid namespace.
func (n NsPid) IsPrivate() bool {
return !(n.IsHost() || n.IsContainer())
}
// IsHost indicates whether the container uses the host's pid namespace.
func (n NsPid) IsHost() bool {
return n == "host"
}
// IsContainer indicates whether the container uses a container's pid namespace.
func (n NsPid) IsContainer() bool {
parts := strings.SplitN(string(n), ":", 2)
return len(parts) > 1 && parts[0] == "container"
}
// Valid indicates whether the pid namespace is valid.
func (n NsPid) Valid() bool {
parts := strings.Split(string(n), ":")
switch mode := parts[0]; mode {
case "", "host":
case "container":
if len(parts) != 2 || parts[1] == "" {
return false
}
default:
return false
}
return true
}
// Container returns the name of the container whose pid namespace is going to be used.
func (n NsPid) Container() string {
parts := strings.SplitN(string(n), ":", 2)
if len(parts) > 1 {
return parts[1]
}
return ""
}
// parsePortSpecs receives port specs in the format of ip:public:private/proto and parses
// these in to the internal types
// for publish, publish-all, and expose flags
func parsePortSpecs(ports []string) ([]*PortMapping, error) { //nolint
var portMappings []*PortMapping
for _, rawPort := range ports {
portMapping, err := parsePortSpec(rawPort)
if err != nil {
return nil, err
}
portMappings = append(portMappings, portMapping...)
}
return portMappings, nil
}
func validateProto(proto string) bool {
for _, availableProto := range []string{"tcp", "udp"} {
if availableProto == proto {
return true
}
}
return false
}
// parsePortSpec parses a port specification string into a slice of PortMappings
func parsePortSpec(rawPort string) ([]*PortMapping, error) {
var proto string
rawIP, hostPort, containerPort := splitParts(rawPort)
proto, containerPort = splitProtoPort(containerPort)
// Strip [] from IPV6 addresses
ip, _, err := net.SplitHostPort(rawIP + ":")
if err != nil {
return nil, fmt.Errorf("Invalid ip address %v: %s", rawIP, err)
}
if ip != "" && net.ParseIP(ip) == nil {
return nil, fmt.Errorf("Invalid ip address: %s", ip)
}
if containerPort == "" {
return nil, fmt.Errorf("No port specified: %s<empty>", rawPort)
}
startPort, endPort, err := parsePortRange(containerPort)
if err != nil {
return nil, fmt.Errorf("Invalid containerPort: %s", containerPort)
}
var startHostPort, endHostPort uint64 = 0, 0
if len(hostPort) > 0 {
startHostPort, endHostPort, err = parsePortRange(hostPort)
if err != nil {
return nil, fmt.Errorf("Invalid hostPort: %s", hostPort)
}
}
if hostPort != "" && (endPort-startPort) != (endHostPort-startHostPort) {
// Allow host port range iff containerPort is not a range.
// In this case, use the host port range as the dynamic
// host port range to allocate into.
if endPort != startPort {
return nil, fmt.Errorf("Invalid ranges specified for container and host Ports: %s and %s", containerPort, hostPort)
}
}
if !validateProto(strings.ToLower(proto)) {
return nil, fmt.Errorf("invalid proto: %s", proto)
}
protocol := Protocol_TCP
if strings.ToLower(proto) == "udp" {
protocol = Protocol_UDP
}
var ports []*PortMapping
for i := uint64(0); i <= (endPort - startPort); i++ {
containerPort = strconv.FormatUint(startPort+i, 10)
if len(hostPort) > 0 {
hostPort = strconv.FormatUint(startHostPort+i, 10)
}
// Set hostPort to a range only if there is a single container port
// and a dynamic host port.
if startPort == endPort && startHostPort != endHostPort {
hostPort = fmt.Sprintf("%s-%s", hostPort, strconv.FormatUint(endHostPort, 10))
}
ctrPort, err := strconv.ParseInt(containerPort, 10, 32)
if err != nil {
return nil, err
}
hPort, err := strconv.ParseInt(hostPort, 10, 32)
if err != nil {
return nil, err
}
port := &PortMapping{
Protocol: protocol,
ContainerPort: int32(ctrPort),
HostPort: int32(hPort),
HostIp: ip,
}
ports = append(ports, port)
}
return ports, nil
}
// parsePortRange parses and validates the specified string as a port-range (8000-9000)
func parsePortRange(ports string) (uint64, uint64, error) {
if ports == "" {
return 0, 0, fmt.Errorf("empty string specified for ports")
}
if !strings.Contains(ports, "-") {
start, err := strconv.ParseUint(ports, 10, 16)
end := start
return start, end, err
}
parts := strings.Split(ports, "-")
start, err := strconv.ParseUint(parts[0], 10, 16)
if err != nil {
return 0, 0, err
}
end, err := strconv.ParseUint(parts[1], 10, 16)
if err != nil {
return 0, 0, err
}
if end < start {
return 0, 0, fmt.Errorf("Invalid range specified for the Port: %s", ports)
}
return start, end, nil
}
// splitParts separates the different parts of rawPort
func splitParts(rawport string) (string, string, string) {
parts := strings.Split(rawport, ":")
n := len(parts)
containerport := parts[n-1]
switch n {
case 1:
return "", "", containerport
case 2:
return "", parts[0], containerport
case 3:
return parts[0], parts[1], containerport
default:
return strings.Join(parts[:n-2], ":"), parts[n-2], containerport
}
}
// splitProtoPort splits a port in the format of port/proto
func splitProtoPort(rawPort string) (string, string) {
parts := strings.Split(rawPort, "/")
l := len(parts)
if len(rawPort) == 0 || l == 0 || len(parts[0]) == 0 {
return "", ""
}
if l == 1 {
return "tcp", rawPort
}
if len(parts[1]) == 0 {
return "tcp", parts[0]
}
return parts[1], parts[0]
}
// takes a local seccomp file and reads its file contents
// for security-opt flag
func parseSecurityOpts(securityOpts []string) ([]string, error) { //nolint
for key, opt := range securityOpts {
con := strings.SplitN(opt, "=", 2)
if len(con) == 1 && con[0] != "no-new-privileges" {
if strings.Index(opt, ":") != -1 {
con = strings.SplitN(opt, ":", 2)
} else {
return securityOpts, fmt.Errorf("Invalid --security-opt: %q", opt)
}
}
if con[0] == "seccomp" && con[1] != "unconfined" {
f, err := ioutil.ReadFile(con[1])
if err != nil {
return securityOpts, fmt.Errorf("opening seccomp profile (%s) failed: %v", con[1], err)
}
b := bytes.NewBuffer(nil)
if err := json.Compact(b, f); err != nil {
return securityOpts, fmt.Errorf("compacting json for seccomp profile (%s) failed: %v", con[1], err)
}
securityOpts[key] = fmt.Sprintf("seccomp=%s", b.Bytes())
}
}
return securityOpts, nil
}
// convertKVStringsToMap converts ["key=value"] to {"key":"value"}
func convertKVStringsToMap(values []string) map[string]string {
result := make(map[string]string, len(values))
for _, value := range values {
kv := strings.SplitN(value, "=", 2)
if len(kv) == 1 {
result[kv[0]] = ""
} else {
result[kv[0]] = kv[1]
}
}
return result
}
// NsUser represents userns mode in the container.
// for userns flag
type NsUser string
// IsHost indicates whether the container uses the host's userns.
func (n NsUser) IsHost() bool {
return n == "host"
}
// IsPrivate indicates whether the container uses the a private userns.
func (n NsUser) IsPrivate() bool {
return !(n.IsHost())
}
// Valid indicates whether the userns is valid.
func (n NsUser) Valid() bool {
parts := strings.Split(string(n), ":")
switch mode := parts[0]; mode {
case "", "host":
default:
return false
}
return true
}
// NsUts represents the UTS namespace of the container.
// for uts flag
type NsUts string
// IsPrivate indicates whether the container uses its private UTS namespace.
func (n NsUts) IsPrivate() bool {
return !(n.IsHost())
}
// IsHost indicates whether the container uses the host's UTS namespace.
func (n NsUts) IsHost() bool {
return n == "host"
}
// Valid indicates whether the UTS namespace is valid.
func (n NsUts) Valid() bool {
parts := strings.Split(string(n), ":")
switch mode := parts[0]; mode {
case "", "host":
default:
return false
}
return true
}
// Takes a stringslice and converts to a uint32slice
func stringSlicetoUint32Slice(inputSlice []string) ([]uint32, error) {
var outputSlice []uint32
for _, v := range inputSlice {
u, err := strconv.ParseUint(v, 10, 32)
if err != nil {
return outputSlice, err
}
outputSlice = append(outputSlice, uint32(u))
}
return outputSlice, nil
}
func getLoggingPath(opts []string) string {
for _, opt := range opts {
arr := strings.SplitN(opt, "=", 2)
if len(arr) == 2 {
if strings.TrimSpace(arr[0]) == "path" {
return strings.TrimSpace(arr[1])
}
}
}
return ""
}
// validateFileName returns an error if filename contains ":"
// as it is currently not supported
func validateFileName(filename string) error {
if strings.Contains(filename, ":") {
return errors.Errorf("invalid filename (should not contain ':') %q", filename)
}
return nil
}
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