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Trim the Domain Name from cached image references

Browse Source 
This commit removes the Domain Name, if any, from the cached image
reference before computing the image fingerprint. This way the same
image, if stored in some oter mirror, is still seen as the same one.

Fixes #158
This commit is contained in:
David Cassany
2021-01-29 10:50:32 +01:00
parent 9f73a334b3
commit 18e9ce4557
59 changed files with 425 additions and 7802 deletions
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202
vendor/github.com/docker/libnetwork/LICENSE generated vendored
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@@ -1,202 +0,0 @@
Apache License
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http://www.apache.org/licenses/
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1
vendor/github.com/docker/libnetwork/resolvconf/README.md generated vendored
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Package resolvconf provides utility code to query and update DNS configuration in /etc/resolv.conf

26
vendor/github.com/docker/libnetwork/resolvconf/dns/resolvconf.go generated vendored
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package dns
import (
"regexp"
)
// IPLocalhost is a regex pattern for IPv4 or IPv6 loopback range.
const IPLocalhost = `((127\.([0-9]{1,3}\.){2}[0-9]{1,3})|(::1)$)`
// IPv4Localhost is a regex pattern for IPv4 localhost address range.
const IPv4Localhost = `(127\.([0-9]{1,3}\.){2}[0-9]{1,3})`
var localhostIPRegexp = regexp.MustCompile(IPLocalhost)
var localhostIPv4Regexp = regexp.MustCompile(IPv4Localhost)
// IsLocalhost returns true if ip matches the localhost IP regular expression.
// Used for determining if nameserver settings are being passed which are
// localhost addresses
func IsLocalhost(ip string) bool {
return localhostIPRegexp.MatchString(ip)
}
// IsIPv4Localhost returns true if ip matches the IPv4 localhost regular expression.
func IsIPv4Localhost(ip string) bool {
return localhostIPv4Regexp.MatchString(ip)
}

285
vendor/github.com/docker/libnetwork/resolvconf/resolvconf.go generated vendored
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// Package resolvconf provides utility code to query and update DNS configuration in /etc/resolv.conf
package resolvconf
import (
"bytes"
"io/ioutil"
"regexp"
"strings"
"sync"
"github.com/docker/docker/pkg/ioutils"
"github.com/docker/libnetwork/resolvconf/dns"
"github.com/docker/libnetwork/types"
"github.com/sirupsen/logrus"
)
const (
// defaultPath is the default path to the resolv.conf that contains information to resolve DNS. See Path().
defaultPath = "/etc/resolv.conf"
// alternatePath is a path different from defaultPath, that may be used to resolve DNS. See Path().
alternatePath = "/run/systemd/resolve/resolv.conf"
)
var (
detectSystemdResolvConfOnce sync.Once
pathAfterSystemdDetection = defaultPath
)
// Path returns the path to the resolv.conf file that libnetwork should use.
//
// When /etc/resolv.conf contains 127.0.0.53 as the only nameserver, then
// it is assumed systemd-resolved manages DNS. Because inside the container 127.0.0.53
// is not a valid DNS server, Path() returns /run/systemd/resolve/resolv.conf
// which is the resolv.conf that systemd-resolved generates and manages.
// Otherwise Path() returns /etc/resolv.conf.
//
// Errors are silenced as they will inevitably resurface at future open/read calls.
//
// More information at https://www.freedesktop.org/software/systemd/man/systemd-resolved.service.html#/etc/resolv.conf
func Path() string {
detectSystemdResolvConfOnce.Do(func() {
candidateResolvConf, err := ioutil.ReadFile(defaultPath)
if err != nil {
// silencing error as it will resurface at next calls trying to read defaultPath
return
}
ns := GetNameservers(candidateResolvConf, types.IP)
if len(ns) == 1 && ns[0] == "127.0.0.53" {
pathAfterSystemdDetection = alternatePath
logrus.Infof("detected 127.0.0.53 nameserver, assuming systemd-resolved, so using resolv.conf: %s", alternatePath)
}
})
return pathAfterSystemdDetection
}
var (
// Note: the default IPv4 & IPv6 resolvers are set to Google's Public DNS
defaultIPv4Dns = []string{"nameserver 8.8.8.8", "nameserver 8.8.4.4"}
defaultIPv6Dns = []string{"nameserver 2001:4860:4860::8888", "nameserver 2001:4860:4860::8844"}
ipv4NumBlock = `(25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)`
ipv4Address = `(` + ipv4NumBlock + `\.){3}` + ipv4NumBlock
// This is not an IPv6 address verifier as it will accept a super-set of IPv6, and also
// will *not match* IPv4-Embedded IPv6 Addresses (RFC6052), but that and other variants
// -- e.g. other link-local types -- either won't work in containers or are unnecessary.
// For readability and sufficiency for Docker purposes this seemed more reasonable than a
// 1000+ character regexp with exact and complete IPv6 validation
ipv6Address = `([0-9A-Fa-f]{0,4}:){2,7}([0-9A-Fa-f]{0,4})(%\w+)?`
localhostNSRegexp = regexp.MustCompile(`(?m)^nameserver\s+` + dns.IPLocalhost + `\s*\n*`)
nsIPv6Regexp = regexp.MustCompile(`(?m)^nameserver\s+` + ipv6Address + `\s*\n*`)
nsRegexp = regexp.MustCompile(`^\s*nameserver\s*((` + ipv4Address + `)|(` + ipv6Address + `))\s*$`)
nsIPv6Regexpmatch = regexp.MustCompile(`^\s*nameserver\s*((` + ipv6Address + `))\s*$`)
nsIPv4Regexpmatch = regexp.MustCompile(`^\s*nameserver\s*((` + ipv4Address + `))\s*$`)
searchRegexp = regexp.MustCompile(`^\s*search\s*(([^\s]+\s*)*)$`)
optionsRegexp = regexp.MustCompile(`^\s*options\s*(([^\s]+\s*)*)$`)
)
var lastModified struct {
sync.Mutex
sha256 string
contents []byte
}
// File contains the resolv.conf content and its hash
type File struct {
Content []byte
Hash string
}
// Get returns the contents of /etc/resolv.conf and its hash
func Get() (*File, error) {
return GetSpecific(Path())
}
// GetSpecific returns the contents of the user specified resolv.conf file and its hash
func GetSpecific(path string) (*File, error) {
resolv, err := ioutil.ReadFile(path)
if err != nil {
return nil, err
}
hash, err := ioutils.HashData(bytes.NewReader(resolv))
if err != nil {
return nil, err
}
return &File{Content: resolv, Hash: hash}, nil
}
// GetIfChanged retrieves the host /etc/resolv.conf file, checks against the last hash
// and, if modified since last check, returns the bytes and new hash.
// This feature is used by the resolv.conf updater for containers
func GetIfChanged() (*File, error) {
lastModified.Lock()
defer lastModified.Unlock()
resolv, err := ioutil.ReadFile(Path())
if err != nil {
return nil, err
}
newHash, err := ioutils.HashData(bytes.NewReader(resolv))
if err != nil {
return nil, err
}
if lastModified.sha256 != newHash {
lastModified.sha256 = newHash
lastModified.contents = resolv
return &File{Content: resolv, Hash: newHash}, nil
}
// nothing changed, so return no data
return nil, nil
}
// GetLastModified retrieves the last used contents and hash of the host resolv.conf.
// Used by containers updating on restart
func GetLastModified() *File {
lastModified.Lock()
defer lastModified.Unlock()
return &File{Content: lastModified.contents, Hash: lastModified.sha256}
}
// FilterResolvDNS cleans up the config in resolvConf. It has two main jobs:
// 1. It looks for localhost (127.*|::1) entries in the provided
// resolv.conf, removing local nameserver entries, and, if the resulting
// cleaned config has no defined nameservers left, adds default DNS entries
// 2. Given the caller provides the enable/disable state of IPv6, the filter
// code will remove all IPv6 nameservers if it is not enabled for containers
//
func FilterResolvDNS(resolvConf []byte, ipv6Enabled bool) (*File, error) {
cleanedResolvConf := localhostNSRegexp.ReplaceAll(resolvConf, []byte{})
// if IPv6 is not enabled, also clean out any IPv6 address nameserver
if !ipv6Enabled {
cleanedResolvConf = nsIPv6Regexp.ReplaceAll(cleanedResolvConf, []byte{})
}
// if the resulting resolvConf has no more nameservers defined, add appropriate
// default DNS servers for IPv4 and (optionally) IPv6
if len(GetNameservers(cleanedResolvConf, types.IP)) == 0 {
logrus.Infof("No non-localhost DNS nameservers are left in resolv.conf. Using default external servers: %v", defaultIPv4Dns)
dns := defaultIPv4Dns
if ipv6Enabled {
logrus.Infof("IPv6 enabled; Adding default IPv6 external servers: %v", defaultIPv6Dns)
dns = append(dns, defaultIPv6Dns...)
}
cleanedResolvConf = append(cleanedResolvConf, []byte("\n"+strings.Join(dns, "\n"))...)
}
hash, err := ioutils.HashData(bytes.NewReader(cleanedResolvConf))
if err != nil {
return nil, err
}
return &File{Content: cleanedResolvConf, Hash: hash}, nil
}
// getLines parses input into lines and strips away comments.
func getLines(input []byte, commentMarker []byte) [][]byte {
lines := bytes.Split(input, []byte("\n"))
var output [][]byte
for _, currentLine := range lines {
var commentIndex = bytes.Index(currentLine, commentMarker)
if commentIndex == -1 {
output = append(output, currentLine)
} else {
output = append(output, currentLine[:commentIndex])
}
}
return output
}
// GetNameservers returns nameservers (if any) listed in /etc/resolv.conf
func GetNameservers(resolvConf []byte, kind int) []string {
nameservers := []string{}
for _, line := range getLines(resolvConf, []byte("#")) {
var ns [][]byte
if kind == types.IP {
ns = nsRegexp.FindSubmatch(line)
} else if kind == types.IPv4 {
ns = nsIPv4Regexpmatch.FindSubmatch(line)
} else if kind == types.IPv6 {
ns = nsIPv6Regexpmatch.FindSubmatch(line)
}
if len(ns) > 0 {
nameservers = append(nameservers, string(ns[1]))
}
}
return nameservers
}
// GetNameserversAsCIDR returns nameservers (if any) listed in
// /etc/resolv.conf as CIDR blocks (e.g., "1.2.3.4/32")
// This function's output is intended for net.ParseCIDR
func GetNameserversAsCIDR(resolvConf []byte) []string {
nameservers := []string{}
for _, nameserver := range GetNameservers(resolvConf, types.IP) {
var address string
// If IPv6, strip zone if present
if strings.Contains(nameserver, ":") {
address = strings.Split(nameserver, "%")[0] + "/128"
} else {
address = nameserver + "/32"
}
nameservers = append(nameservers, address)
}
return nameservers
}
// GetSearchDomains returns search domains (if any) listed in /etc/resolv.conf
// If more than one search line is encountered, only the contents of the last
// one is returned.
func GetSearchDomains(resolvConf []byte) []string {
domains := []string{}
for _, line := range getLines(resolvConf, []byte("#")) {
match := searchRegexp.FindSubmatch(line)
if match == nil {
continue
}
domains = strings.Fields(string(match[1]))
}
return domains
}
// GetOptions returns options (if any) listed in /etc/resolv.conf
// If more than one options line is encountered, only the contents of the last
// one is returned.
func GetOptions(resolvConf []byte) []string {
options := []string{}
for _, line := range getLines(resolvConf, []byte("#")) {
match := optionsRegexp.FindSubmatch(line)
if match == nil {
continue
}
options = strings.Fields(string(match[1]))
}
return options
}
// Build writes a configuration file to path containing a "nameserver" entry
// for every element in dns, a "search" entry for every element in
// dnsSearch, and an "options" entry for every element in dnsOptions.
func Build(path string, dns, dnsSearch, dnsOptions []string) (*File, error) {
content := bytes.NewBuffer(nil)
if len(dnsSearch) > 0 {
if searchString := strings.Join(dnsSearch, " "); strings.Trim(searchString, " ") != "." {
if _, err := content.WriteString("search " + searchString + "\n"); err != nil {
return nil, err
}
}
}
for _, dns := range dns {
if _, err := content.WriteString("nameserver " + dns + "\n"); err != nil {
return nil, err
}
}
if len(dnsOptions) > 0 {
if optsString := strings.Join(dnsOptions, " "); strings.Trim(optsString, " ") != "" {
if _, err := content.WriteString("options " + optsString + "\n"); err != nil {
return nil, err
}
}
}
hash, err := ioutils.HashData(bytes.NewReader(content.Bytes()))
if err != nil {
return nil, err
}
return &File{Content: content.Bytes(), Hash: hash}, ioutil.WriteFile(path, content.Bytes(), 0644)
}

653
vendor/github.com/docker/libnetwork/types/types.go generated vendored
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@@ -1,653 +0,0 @@
// Package types contains types that are common across libnetwork project
package types
import (
"bytes"
"fmt"
"net"
"strconv"
"strings"
"github.com/ishidawataru/sctp"
)
// constants for the IP address type
const (
IP = iota // IPv4 and IPv6
IPv4
IPv6
)
// EncryptionKey is the libnetwork representation of the key distributed by the lead
// manager.
type EncryptionKey struct {
Subsystem string
Algorithm int32
Key []byte
LamportTime uint64
}
// UUID represents a globally unique ID of various resources like network and endpoint
type UUID string
// QosPolicy represents a quality of service policy on an endpoint
type QosPolicy struct {
MaxEgressBandwidth uint64
}
// TransportPort represents a local Layer 4 endpoint
type TransportPort struct {
Proto Protocol
Port uint16
}
// Equal checks if this instance of Transportport is equal to the passed one
func (t *TransportPort) Equal(o *TransportPort) bool {
if t == o {
return true
}
if o == nil {
return false
}
if t.Proto != o.Proto || t.Port != o.Port {
return false
}
return true
}
// GetCopy returns a copy of this TransportPort structure instance
func (t *TransportPort) GetCopy() TransportPort {
return TransportPort{Proto: t.Proto, Port: t.Port}
}
// String returns the TransportPort structure in string form
func (t *TransportPort) String() string {
return fmt.Sprintf("%s/%d", t.Proto.String(), t.Port)
}
// FromString reads the TransportPort structure from string
func (t *TransportPort) FromString(s string) error {
ps := strings.Split(s, "/")
if len(ps) == 2 {
t.Proto = ParseProtocol(ps[0])
if p, err := strconv.ParseUint(ps[1], 10, 16); err == nil {
t.Port = uint16(p)
return nil
}
}
return BadRequestErrorf("invalid format for transport port: %s", s)
}
// PortBinding represents a port binding between the container and the host
type PortBinding struct {
Proto Protocol
IP net.IP
Port uint16
HostIP net.IP
HostPort uint16
HostPortEnd uint16
}
// HostAddr returns the host side transport address
func (p PortBinding) HostAddr() (net.Addr, error) {
switch p.Proto {
case UDP:
return &net.UDPAddr{IP: p.HostIP, Port: int(p.HostPort)}, nil
case TCP:
return &net.TCPAddr{IP: p.HostIP, Port: int(p.HostPort)}, nil
case SCTP:
return &sctp.SCTPAddr{IPAddrs: []net.IPAddr{{IP: p.HostIP}}, Port: int(p.HostPort)}, nil
default:
return nil, ErrInvalidProtocolBinding(p.Proto.String())
}
}
// ContainerAddr returns the container side transport address
func (p PortBinding) ContainerAddr() (net.Addr, error) {
switch p.Proto {
case UDP:
return &net.UDPAddr{IP: p.IP, Port: int(p.Port)}, nil
case TCP:
return &net.TCPAddr{IP: p.IP, Port: int(p.Port)}, nil
case SCTP:
return &sctp.SCTPAddr{IPAddrs: []net.IPAddr{{IP: p.IP}}, Port: int(p.Port)}, nil
default:
return nil, ErrInvalidProtocolBinding(p.Proto.String())
}
}
// GetCopy returns a copy of this PortBinding structure instance
func (p *PortBinding) GetCopy() PortBinding {
return PortBinding{
Proto: p.Proto,
IP: GetIPCopy(p.IP),
Port: p.Port,
HostIP: GetIPCopy(p.HostIP),
HostPort: p.HostPort,
HostPortEnd: p.HostPortEnd,
}
}
// String returns the PortBinding structure in string form
func (p *PortBinding) String() string {
ret := fmt.Sprintf("%s/", p.Proto)
if p.IP != nil {
ret += p.IP.String()
}
ret = fmt.Sprintf("%s:%d/", ret, p.Port)
if p.HostIP != nil {
ret += p.HostIP.String()
}
ret = fmt.Sprintf("%s:%d", ret, p.HostPort)
return ret
}
// FromString reads the PortBinding structure from string s.
// String s is a triple of "protocol/containerIP:port/hostIP:port"
// containerIP and hostIP can be in dotted decimal ("192.0.2.1") or IPv6 ("2001:db8::68") form.
// Zoned addresses ("169.254.0.23%eth0" or "fe80::1ff:fe23:4567:890a%eth0") are not supported.
// If string s is incorrectly formatted or the IP addresses or ports cannot be parsed, FromString
// returns an error.
func (p *PortBinding) FromString(s string) error {
ps := strings.Split(s, "/")
if len(ps) != 3 {
return BadRequestErrorf("invalid format for port binding: %s", s)
}
p.Proto = ParseProtocol(ps[0])
var err error
if p.IP, p.Port, err = parseIPPort(ps[1]); err != nil {
return BadRequestErrorf("failed to parse Container IP/Port in port binding: %s", err.Error())
}
if p.HostIP, p.HostPort, err = parseIPPort(ps[2]); err != nil {
return BadRequestErrorf("failed to parse Host IP/Port in port binding: %s", err.Error())
}
return nil
}
func parseIPPort(s string) (net.IP, uint16, error) {
hoststr, portstr, err := net.SplitHostPort(s)
if err != nil {
return nil, 0, err
}
ip := net.ParseIP(hoststr)
if ip == nil {
return nil, 0, BadRequestErrorf("invalid ip: %s", hoststr)
}
port, err := strconv.ParseUint(portstr, 10, 16)
if err != nil {
return nil, 0, BadRequestErrorf("invalid port: %s", portstr)
}
return ip, uint16(port), nil
}
// Equal checks if this instance of PortBinding is equal to the passed one
func (p *PortBinding) Equal(o *PortBinding) bool {
if p == o {
return true
}
if o == nil {
return false
}
if p.Proto != o.Proto || p.Port != o.Port ||
p.HostPort != o.HostPort || p.HostPortEnd != o.HostPortEnd {
return false
}
if p.IP != nil {
if !p.IP.Equal(o.IP) {
return false
}
} else {
if o.IP != nil {
return false
}
}
if p.HostIP != nil {
if !p.HostIP.Equal(o.HostIP) {
return false
}
} else {
if o.HostIP != nil {
return false
}
}
return true
}
// ErrInvalidProtocolBinding is returned when the port binding protocol is not valid.
type ErrInvalidProtocolBinding string
func (ipb ErrInvalidProtocolBinding) Error() string {
return fmt.Sprintf("invalid transport protocol: %s", string(ipb))
}
const (
// ICMP is for the ICMP ip protocol
ICMP = 1
// TCP is for the TCP ip protocol
TCP = 6
// UDP is for the UDP ip protocol
UDP = 17
// SCTP is for the SCTP ip protocol
SCTP = 132
)
// Protocol represents an IP protocol number
type Protocol uint8
func (p Protocol) String() string {
switch p {
case ICMP:
return "icmp"
case TCP:
return "tcp"
case UDP:
return "udp"
case SCTP:
return "sctp"
default:
return fmt.Sprintf("%d", p)
}
}
// ParseProtocol returns the respective Protocol type for the passed string
func ParseProtocol(s string) Protocol {
switch strings.ToLower(s) {
case "icmp":
return ICMP
case "udp":
return UDP
case "tcp":
return TCP
case "sctp":
return SCTP
default:
return 0
}
}
// GetMacCopy returns a copy of the passed MAC address
func GetMacCopy(from net.HardwareAddr) net.HardwareAddr {
if from == nil {
return nil
}
to := make(net.HardwareAddr, len(from))
copy(to, from)
return to
}
// GetIPCopy returns a copy of the passed IP address
func GetIPCopy(from net.IP) net.IP {
if from == nil {
return nil
}
to := make(net.IP, len(from))
copy(to, from)
return to
}
// GetIPNetCopy returns a copy of the passed IP Network
func GetIPNetCopy(from *net.IPNet) *net.IPNet {
if from == nil {
return nil
}
bm := make(net.IPMask, len(from.Mask))
copy(bm, from.Mask)
return &net.IPNet{IP: GetIPCopy(from.IP), Mask: bm}
}
// GetIPNetCanonical returns the canonical form for the passed network
func GetIPNetCanonical(nw *net.IPNet) *net.IPNet {
if nw == nil {
return nil
}
c := GetIPNetCopy(nw)
c.IP = c.IP.Mask(nw.Mask)
return c
}
// CompareIPNet returns equal if the two IP Networks are equal
func CompareIPNet(a, b *net.IPNet) bool {
if a == b {
return true
}
if a == nil || b == nil {
return false
}
return a.IP.Equal(b.IP) && bytes.Equal(a.Mask, b.Mask)
}
// GetMinimalIP returns the address in its shortest form
// If ip contains an IPv4-mapped IPv6 address, the 4-octet form of the IPv4 address will be returned.
// Otherwise ip is returned unchanged.
func GetMinimalIP(ip net.IP) net.IP {
if ip != nil && ip.To4() != nil {
return ip.To4()
}
return ip
}
// GetMinimalIPNet returns a copy of the passed IP Network with congruent ip and mask notation
func GetMinimalIPNet(nw *net.IPNet) *net.IPNet {
if nw == nil {
return nil
}
if len(nw.IP) == 16 && nw.IP.To4() != nil {
m := nw.Mask
if len(m) == 16 {
m = m[12:16]
}
return &net.IPNet{IP: nw.IP.To4(), Mask: m}
}
return nw
}
// IsIPNetValid returns true if the ipnet is a valid network/mask
// combination. Otherwise returns false.
func IsIPNetValid(nw *net.IPNet) bool {
return nw.String() != "0.0.0.0/0"
}
var v4inV6MaskPrefix = []byte{0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}
// compareIPMask checks if the passed ip and mask are semantically compatible.
// It returns the byte indexes for the address and mask so that caller can
// do bitwise operations without modifying address representation.
func compareIPMask(ip net.IP, mask net.IPMask) (is int, ms int, err error) {
// Find the effective starting of address and mask
if len(ip) == net.IPv6len && ip.To4() != nil {
is = 12
}
if len(ip[is:]) == net.IPv4len && len(mask) == net.IPv6len && bytes.Equal(mask[:12], v4inV6MaskPrefix) {
ms = 12
}
// Check if address and mask are semantically compatible
if len(ip[is:]) != len(mask[ms:]) {
err = fmt.Errorf("ip and mask are not compatible: (%#v, %#v)", ip, mask)
}
return
}
// GetHostPartIP returns the host portion of the ip address identified by the mask.
// IP address representation is not modified. If address and mask are not compatible
// an error is returned.
func GetHostPartIP(ip net.IP, mask net.IPMask) (net.IP, error) {
// Find the effective starting of address and mask
is, ms, err := compareIPMask(ip, mask)
if err != nil {
return nil, fmt.Errorf("cannot compute host portion ip address because %s", err)
}
// Compute host portion
out := GetIPCopy(ip)
for i := 0; i < len(mask[ms:]); i++ {
out[is+i] &= ^mask[ms+i]
}
return out, nil
}
// GetBroadcastIP returns the broadcast ip address for the passed network (ip and mask).
// IP address representation is not modified. If address and mask are not compatible
// an error is returned.
func GetBroadcastIP(ip net.IP, mask net.IPMask) (net.IP, error) {
// Find the effective starting of address and mask
is, ms, err := compareIPMask(ip, mask)
if err != nil {
return nil, fmt.Errorf("cannot compute broadcast ip address because %s", err)
}
// Compute broadcast address
out := GetIPCopy(ip)
for i := 0; i < len(mask[ms:]); i++ {
out[is+i] |= ^mask[ms+i]
}
return out, nil
}
// ParseCIDR returns the *net.IPNet represented by the passed CIDR notation
func ParseCIDR(cidr string) (n *net.IPNet, e error) {
var i net.IP
if i, n, e = net.ParseCIDR(cidr); e == nil {
n.IP = i
}
return
}
const (
// NEXTHOP indicates a StaticRoute with an IP next hop.
NEXTHOP = iota
// CONNECTED indicates a StaticRoute with an interface for directly connected peers.
CONNECTED
)
// StaticRoute is a statically-provisioned IP route.
type StaticRoute struct {
Destination *net.IPNet
RouteType int // NEXT_HOP or CONNECTED
// NextHop will be resolved by the kernel (i.e. as a loose hop).
NextHop net.IP
}
// GetCopy returns a copy of this StaticRoute structure
func (r *StaticRoute) GetCopy() *StaticRoute {
d := GetIPNetCopy(r.Destination)
nh := GetIPCopy(r.NextHop)
return &StaticRoute{Destination: d,
RouteType: r.RouteType,
NextHop: nh,
}
}
// InterfaceStatistics represents the interface's statistics
type InterfaceStatistics struct {
RxBytes uint64
RxPackets uint64
RxErrors uint64
RxDropped uint64
TxBytes uint64
TxPackets uint64
TxErrors uint64
TxDropped uint64
}
func (is *InterfaceStatistics) String() string {
return fmt.Sprintf("\nRxBytes: %d, RxPackets: %d, RxErrors: %d, RxDropped: %d, TxBytes: %d, TxPackets: %d, TxErrors: %d, TxDropped: %d",
is.RxBytes, is.RxPackets, is.RxErrors, is.RxDropped, is.TxBytes, is.TxPackets, is.TxErrors, is.TxDropped)
}
/******************************
* Well-known Error Interfaces
******************************/
// MaskableError is an interface for errors which can be ignored by caller
type MaskableError interface {
// Maskable makes implementer into MaskableError type
Maskable()
}
// RetryError is an interface for errors which might get resolved through retry
type RetryError interface {
// Retry makes implementer into RetryError type
Retry()
}
// BadRequestError is an interface for errors originated by a bad request
type BadRequestError interface {
// BadRequest makes implementer into BadRequestError type
BadRequest()
}
// NotFoundError is an interface for errors raised because a needed resource is not available
type NotFoundError interface {
// NotFound makes implementer into NotFoundError type
NotFound()
}
// ForbiddenError is an interface for errors which denote a valid request that cannot be honored
type ForbiddenError interface {
// Forbidden makes implementer into ForbiddenError type
Forbidden()
}
// NoServiceError is an interface for errors returned when the required service is not available
type NoServiceError interface {
// NoService makes implementer into NoServiceError type
NoService()
}
// TimeoutError is an interface for errors raised because of timeout
type TimeoutError interface {
// Timeout makes implementer into TimeoutError type
Timeout()
}
// NotImplementedError is an interface for errors raised because of requested functionality is not yet implemented
type NotImplementedError interface {
// NotImplemented makes implementer into NotImplementedError type
NotImplemented()
}
// InternalError is an interface for errors raised because of an internal error
type InternalError interface {
// Internal makes implementer into InternalError type
Internal()
}
/******************************
* Well-known Error Formatters
******************************/
// BadRequestErrorf creates an instance of BadRequestError
func BadRequestErrorf(format string, params ...interface{}) error {
return badRequest(fmt.Sprintf(format, params...))
}
// NotFoundErrorf creates an instance of NotFoundError
func NotFoundErrorf(format string, params ...interface{}) error {
return notFound(fmt.Sprintf(format, params...))
}
// ForbiddenErrorf creates an instance of ForbiddenError
func ForbiddenErrorf(format string, params ...interface{}) error {
return forbidden(fmt.Sprintf(format, params...))
}
// NoServiceErrorf creates an instance of NoServiceError
func NoServiceErrorf(format string, params ...interface{}) error {
return noService(fmt.Sprintf(format, params...))
}
// NotImplementedErrorf creates an instance of NotImplementedError
func NotImplementedErrorf(format string, params ...interface{}) error {
return notImpl(fmt.Sprintf(format, params...))
}
// TimeoutErrorf creates an instance of TimeoutError
func TimeoutErrorf(format string, params ...interface{}) error {
return timeout(fmt.Sprintf(format, params...))
}
// InternalErrorf creates an instance of InternalError
func InternalErrorf(format string, params ...interface{}) error {
return internal(fmt.Sprintf(format, params...))
}
// InternalMaskableErrorf creates an instance of InternalError and MaskableError
func InternalMaskableErrorf(format string, params ...interface{}) error {
return maskInternal(fmt.Sprintf(format, params...))
}
// RetryErrorf creates an instance of RetryError
func RetryErrorf(format string, params ...interface{}) error {
return retry(fmt.Sprintf(format, params...))
}
/***********************
* Internal Error Types
***********************/
type badRequest string
func (br badRequest) Error() string {
return string(br)
}
func (br badRequest) BadRequest() {}
type maskBadRequest string
type notFound string
func (nf notFound) Error() string {
return string(nf)
}
func (nf notFound) NotFound() {}
type forbidden string
func (frb forbidden) Error() string {
return string(frb)
}
func (frb forbidden) Forbidden() {}
type noService string
func (ns noService) Error() string {
return string(ns)
}
func (ns noService) NoService() {}
type maskNoService string
type timeout string
func (to timeout) Error() string {
return string(to)
}
func (to timeout) Timeout() {}
type notImpl string
func (ni notImpl) Error() string {
return string(ni)
}
func (ni notImpl) NotImplemented() {}
type internal string
func (nt internal) Error() string {
return string(nt)
}
func (nt internal) Internal() {}
type maskInternal string
func (mnt maskInternal) Error() string {
return string(mnt)
}
func (mnt maskInternal) Internal() {}
func (mnt maskInternal) Maskable() {}
type retry string
func (r retry) Error() string {
return string(r)
}
func (r retry) Retry() {}