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package generate
import (
"context"
"fmt"
"net"
"sort"
"strings"
"github.com/containers/common/libimage"
"github.com/containers/podman/v3/libpod/network/types"
"github.com/containers/podman/v3/utils"
"github.com/containers/podman/v3/pkg/specgen"
"github.com/containers/podman/v3/pkg/specgenutil"
"github.com/containers/podman/v3/pkg/util"
"github.com/pkg/errors"
"github.com/sirupsen/logrus"
)
const (
protoTCP = "tcp"
protoUDP = "udp"
protoSCTP = "sctp"
)
// joinTwoPortsToRangePortIfPossible will expect two ports the previous port one must have a lower or equal hostPort than the current port.
func joinTwoPortsToRangePortIfPossible(ports *[]types.PortMapping, allHostPorts, allContainerPorts, currentHostPorts *[65536]bool,
previousPort *types.PortMapping, port types.PortMapping) (*types.PortMapping, error) {
// no previous port just return the current one
if previousPort == nil {
return &port, nil
}
if previousPort.HostPort+previousPort.Range >= port.HostPort {
// check if the port range matches the host and container ports
portDiff := port.HostPort - previousPort.HostPort
if portDiff == port.ContainerPort-previousPort.ContainerPort {
// calc the new range use the old range and add the difference between the ports
newRange := port.Range + portDiff
// if the newRange is greater than the old range use it
// this is important otherwise we would could lower the range
if newRange > previousPort.Range {
previousPort.Range = newRange
}
return previousPort, nil
}
// if both host port ranges overlap and the container port range did not match
// we have to error because we cannot assign the same host port to more than one container port
if previousPort.HostPort+previousPort.Range-1 > port.HostPort {
return nil, errors.Errorf("conflicting port mappings for host port %d (protocol %s)", port.HostPort, port.Protocol)
}
}
// we could not join the ports so we append the old one to the list
// and return the current port as previous port
addPortToUsedPorts(ports, allHostPorts, allContainerPorts, currentHostPorts, previousPort)
return &port, nil
}
// joinTwoContainerPortsToRangePortIfPossible will expect two ports with both no host port set,
// the previous port one must have a lower or equal containerPort than the current port.
func joinTwoContainerPortsToRangePortIfPossible(ports *[]types.PortMapping, allHostPorts, allContainerPorts, currentHostPorts *[65536]bool,
previousPort *types.PortMapping, port types.PortMapping) (*types.PortMapping, error) {
// no previous port just return the current one
if previousPort == nil {
return &port, nil
}
if previousPort.ContainerPort+previousPort.Range > port.ContainerPort {
// calc the new range use the old range and add the difference between the ports
newRange := port.ContainerPort - previousPort.ContainerPort + port.Range
// if the newRange is greater than the old range use it
// this is important otherwise we would could lower the range
if newRange > previousPort.Range {
previousPort.Range = newRange
}
return previousPort, nil
}
// we could not join the ports so we append the old one to the list
// and return the current port as previous port
newPort, err := getRandomHostPort(currentHostPorts, *previousPort)
if err != nil {
return nil, err
}
addPortToUsedPorts(ports, allHostPorts, allContainerPorts, currentHostPorts, &newPort)
return &port, nil
}
func addPortToUsedPorts(ports *[]types.PortMapping, allHostPorts, allContainerPorts, currentHostPorts *[65536]bool, port *types.PortMapping) {
for i := uint16(0); i < port.Range; i++ {
h := port.HostPort + i
allHostPorts[h] = true
currentHostPorts[h] = true
c := port.ContainerPort + i
allContainerPorts[c] = true
}
*ports = append(*ports, *port)
}
// getRandomHostPort get a random host port mapping for the given port
// the caller has to supply a array with he already used ports
func getRandomHostPort(hostPorts *[65536]bool, port types.PortMapping) (types.PortMapping, error) {
outer:
for i := 0; i < 15; i++ {
ranPort, err := utils.GetRandomPort()
if err != nil {
return port, err
}
// if port range is exceeds max port we cannot use it
if ranPort+int(port.Range) > 65535 {
continue
}
// check if there is a port in the range which is used
for j := 0; j < int(port.Range); j++ {
// port already used
if hostPorts[ranPort+j] {
continue outer
}
}
port.HostPort = uint16(ranPort)
return port, nil
}
// add range to error message if needed
rangePort := ""
if port.Range > 1 {
rangePort = fmt.Sprintf("with range %d ", port.Range)
}
return port, errors.Errorf("failed to find an open port to expose container port %d %son the host", port.ContainerPort, rangePort)
}
// Parse port maps to port mappings.
// Returns a set of port mappings, and maps of utilized container and
// host ports.
func ParsePortMapping(portMappings []types.PortMapping, exposePorts map[uint16][]string) ([]types.PortMapping, error) {
if len(portMappings) == 0 && len(exposePorts) == 0 {
return nil, nil
}
// tempMapping stores the ports without ip and protocol
type tempMapping struct {
hostPort uint16
containerPort uint16
rangePort uint16
}
// portMap is a temporary structure to sort all ports
// the map is hostIp -> protocol -> array of mappings
portMap := make(map[string]map[string][]tempMapping)
// allUsedContainerPorts stores all used ports for each protocol
// the key is the protocol and the array is 65536 elements long for each port.
allUsedContainerPortsMap := make(map[string][65536]bool)
allUsedHostPortsMap := make(map[string][65536]bool)
// First, we need to validate the ports passed in the specgen
for _, port := range portMappings {
// First, check proto
protocols, err := checkProtocol(port.Protocol, true)
if err != nil {
return nil, err
}
if port.HostIP != "" {
if ip := net.ParseIP(port.HostIP); ip == nil {
return nil, errors.Errorf("invalid IP address %q in port mapping", port.HostIP)
}
}
// Validate port numbers and range.
portRange := port.Range
if portRange == 0 {
portRange = 1
}
containerPort := port.ContainerPort
if containerPort == 0 {
return nil, errors.Errorf("container port number must be non-0")
}
hostPort := port.HostPort
if uint32(portRange-1)+uint32(containerPort) > 65535 {
return nil, errors.Errorf("container port range exceeds maximum allowable port number")
}
if uint32(portRange-1)+uint32(hostPort) > 65535 {
return nil, errors.Errorf("host port range exceeds maximum allowable port number")
}
hostProtoMap, ok := portMap[port.HostIP]
if !ok {
hostProtoMap = make(map[string][]tempMapping)
for _, proto := range []string{protoTCP, protoUDP, protoSCTP} {
hostProtoMap[proto] = make([]tempMapping, 0)
}
portMap[port.HostIP] = hostProtoMap
}
p := tempMapping{
hostPort: port.HostPort,
containerPort: port.ContainerPort,
rangePort: portRange,
}
for _, proto := range protocols {
hostProtoMap[proto] = append(hostProtoMap[proto], p)
}
}
// we do no longer need the original port mappings
// set it to 0 length so we can reuse it to populate
// the slice again while keeping the underlying capacity
portMappings = portMappings[:0]
for hostIP, protoMap := range portMap {
for protocol, ports := range protoMap {
ports := ports
if len(ports) == 0 {
continue
}
// 1. sort the ports by host port
// use a small hack to make sure ports with host port 0 are sorted last
sort.Slice(ports, func(i, j int) bool {
if ports[i].hostPort == ports[j].hostPort {
return ports[i].containerPort < ports[j].containerPort
}
if ports[i].hostPort == 0 {
return false
}
if ports[j].hostPort == 0 {
return true
}
return ports[i].hostPort < ports[j].hostPort
})
allUsedContainerPorts := allUsedContainerPortsMap[protocol]
allUsedHostPorts := allUsedHostPortsMap[protocol]
var usedHostPorts [65536]bool
var previousPort *types.PortMapping
var i int
for i = 0; i < len(ports); i++ {
if ports[i].hostPort == 0 {
// because the ports are sorted and host port 0 is last
// we can break when we hit 0
// we will fit them in afterwards
break
}
p := types.PortMapping{
HostIP: hostIP,
Protocol: protocol,
HostPort: ports[i].hostPort,
ContainerPort: ports[i].containerPort,
Range: ports[i].rangePort,
}
var err error
previousPort, err = joinTwoPortsToRangePortIfPossible(&portMappings, &allUsedHostPorts,
&allUsedContainerPorts, &usedHostPorts, previousPort, p)
if err != nil {
return nil, err
}
}
if previousPort != nil {
addPortToUsedPorts(&portMappings, &allUsedHostPorts,
&allUsedContainerPorts, &usedHostPorts, previousPort)
}
// now take care of the hostPort = 0 ports
previousPort = nil
for i < len(ports) {
p := types.PortMapping{
HostIP: hostIP,
Protocol: protocol,
ContainerPort: ports[i].containerPort,
Range: ports[i].rangePort,
}
var err error
previousPort, err = joinTwoContainerPortsToRangePortIfPossible(&portMappings, &allUsedHostPorts,
&allUsedContainerPorts, &usedHostPorts, previousPort, p)
if err != nil {
return nil, err
}
i++
}
if previousPort != nil {
newPort, err := getRandomHostPort(&usedHostPorts, *previousPort)
if err != nil {
return nil, err
}
addPortToUsedPorts(&portMappings, &allUsedHostPorts,
&allUsedContainerPorts, &usedHostPorts, &newPort)
}
allUsedContainerPortsMap[protocol] = allUsedContainerPorts
allUsedHostPortsMap[protocol] = allUsedHostPorts
}
}
if len(exposePorts) > 0 {
logrus.Debugf("Adding exposed ports")
for port, protocols := range exposePorts {
newProtocols := make([]string, 0, len(protocols))
for _, protocol := range protocols {
if !allUsedContainerPortsMap[protocol][port] {
p := types.PortMapping{
ContainerPort: port,
Protocol: protocol,
Range: 1,
}
allPorts := allUsedContainerPortsMap[protocol]
p, err := getRandomHostPort(&allPorts, p)
if err != nil {
return nil, err
}
portMappings = append(portMappings, p)
} else {
newProtocols = append(newProtocols, protocol)
}
}
// make sure to delete the key from the map if there are no protocols left
if len(newProtocols) == 0 {
delete(exposePorts, port)
} else {
exposePorts[port] = newProtocols
}
}
}
return portMappings, nil
}
func appendProtocolsNoDuplicates(slice []string, protocols []string) []string {
for _, proto := range protocols {
if util.StringInSlice(proto, slice) {
continue
}
slice = append(slice, proto)
}
return slice
}
// Make final port mappings for the container
func createPortMappings(ctx context.Context, s *specgen.SpecGenerator, imageData *libimage.ImageData) ([]types.PortMapping, map[uint16][]string, error) {
expose := make(map[uint16]string)
var err error
if imageData != nil {
expose, err = GenExposedPorts(imageData.Config.ExposedPorts)
if err != nil {
return nil, nil, err
}
}
toExpose := make(map[uint16][]string, len(s.Expose)+len(expose))
for _, expose := range []map[uint16]string{expose, s.Expose} {
for port, proto := range expose {
if port == 0 {
return nil, nil, errors.Errorf("cannot expose 0 as it is not a valid port number")
}
protocols, err := checkProtocol(proto, false)
if err != nil {
return nil, nil, errors.Wrapf(err, "error validating protocols for exposed port %d", port)
}
toExpose[port] = appendProtocolsNoDuplicates(toExpose[port], protocols)
}
}
publishPorts := toExpose
if !s.PublishExposedPorts {
publishPorts = nil
}
finalMappings, err := ParsePortMapping(s.PortMappings, publishPorts)
if err != nil {
return nil, nil, err
}
return finalMappings, toExpose, nil
}
// Check a string to ensure it is a comma-separated set of valid protocols
func checkProtocol(protocol string, allowSCTP bool) ([]string, error) {
protocols := make(map[string]struct{})
splitProto := strings.Split(protocol, ",")
// Don't error on duplicates - just deduplicate
for _, p := range splitProto {
p = strings.ToLower(p)
switch p {
case protoTCP, "":
protocols[protoTCP] = struct{}{}
case protoUDP:
protocols[protoUDP] = struct{}{}
case protoSCTP:
if !allowSCTP {
return nil, errors.Errorf("protocol SCTP is not allowed for exposed ports")
}
protocols[protoSCTP] = struct{}{}
default:
return nil, errors.Errorf("unrecognized protocol %q in port mapping", p)
}
}
finalProto := []string{}
for p := range protocols {
finalProto = append(finalProto, p)
}
// This shouldn't be possible, but check anyways
if len(finalProto) == 0 {
return nil, errors.Errorf("no valid protocols specified for port mapping")
}
return finalProto, nil
}
func GenExposedPorts(exposedPorts map[string]struct{}) (map[uint16]string, error) {
expose := make([]string, 0, len(exposedPorts))
for e := range exposedPorts {
expose = append(expose, e)
}
toReturn, err := specgenutil.CreateExpose(expose)
if err != nil {
return nil, errors.Wrapf(err, "unable to convert image EXPOSE")
}
return toReturn, nil
}
|