TUN-1615: revert miekg/dns to last known working revision

The last known good commit is 6da3249dfb57fbaa16efafcd8744cee8809d80cd before the first release tag.
This commit is contained in:
Marek Vavruša 2019-03-17 20:40:18 -07:00
parent 541cf68608
commit 781e1fef7b
274 changed files with 773 additions and 19087 deletions

17
Gopkg.lock generated
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@ -281,12 +281,14 @@
revision = "d3b731e9255b72d4571a5aac125634cf1b6031dc" revision = "d3b731e9255b72d4571a5aac125634cf1b6031dc"
[[projects]] [[projects]]
digest = "1:463e4140189f8194f9121ca1c7fe3b8e9e9a2ab3d949b43c835c21034927dc62" digest = "1:73f788f2df39614dd7d9e75c8ca5fb8b4a68937b5e6d4a15e4c3a596f6f8c07b"
name = "github.com/miekg/dns" name = "github.com/miekg/dns"
packages = ["."] packages = [
".",
"internal/socket",
]
pruneopts = "UT" pruneopts = "UT"
revision = "5a2b9fab83ff0f8bfc99684bd5f43a37abe560f1" revision = "6da3249dfb57fbaa16efafcd8744cee8809d80cd"
version = "v1.0.8"
[[projects]] [[projects]]
branch = "master" branch = "master"
@ -412,20 +414,15 @@
[[projects]] [[projects]]
branch = "master" branch = "master"
digest = "1:011ee76ffb757c7c91a3e61cf5d6f367d1fd5dd08e16a4e6ae688e7759f8509a" digest = "1:9513f8a0f1f6918181b7d744225b1931ffacafeb57067a1c26893a51058afb80"
name = "golang.org/x/net" name = "golang.org/x/net"
packages = [ packages = [
"bpf",
"context", "context",
"http/httpguts", "http/httpguts",
"http2", "http2",
"http2/hpack", "http2/hpack",
"idna", "idna",
"internal/iana",
"internal/socket",
"internal/timeseries", "internal/timeseries",
"ipv4",
"ipv6",
"trace", "trace",
"websocket", "websocket",
] ]

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@ -58,6 +58,10 @@
name = "github.com/coredns/coredns" name = "github.com/coredns/coredns"
branch = "master" branch = "master"
[[constraint]]
name = "github.com/miekg/dns"
revision = "6da3249dfb57fbaa16efafcd8744cee8809d80cd"
[[constraint]] [[constraint]]
name = "github.com/cloudflare/brotli-go" name = "github.com/cloudflare/brotli-go"
branch = "master" branch = "master"

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@ -1,8 +0,0 @@
coverage:
status:
project:
default:
target: 40%
threshold: null
patch: false
changes: false

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@ -7,15 +7,9 @@
packages = ["ed25519","ed25519/internal/edwards25519"] packages = ["ed25519","ed25519/internal/edwards25519"]
revision = "b080dc9a8c480b08e698fb1219160d598526310f" revision = "b080dc9a8c480b08e698fb1219160d598526310f"
[[projects]]
branch = "master"
name = "golang.org/x/net"
packages = ["bpf","internal/iana","internal/socket","ipv4","ipv6"]
revision = "894f8ed5849b15b810ae41e9590a0d05395bba27"
[solve-meta] [solve-meta]
analyzer-name = "dep" analyzer-name = "dep"
analyzer-version = 1 analyzer-version = 1
inputs-digest = "c4abc38abaeeeeb9be92455c9c02cae32841122b8982aaa067ef25bb8e86ff9d" inputs-digest = "5046e265393bd5e54f570ce29ae8bc6fa3f30ef5110e922996540400f287c64a"
solver-name = "gps-cdcl" solver-name = "gps-cdcl"
solver-version = 1 solver-version = 1

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@ -1,52 +0,0 @@
# Makefile for releasing.
#
# The release is controlled from version.go. The version found there is
# used to tag the git repo, we're not building any artifects so there is nothing
# to upload to github.
#
# * Up the version in version.go
# * Run: make -f Makefile.release release
# * will *commit* your change with 'Release $VERSION'
# * push to github
#
define GO
//+build ignore
package main
import (
"fmt"
"github.com/miekg/dns"
)
func main() {
fmt.Println(dns.Version.String())
}
endef
$(file > version_release.go,$(GO))
VERSION:=$(shell go run version_release.go)
TAG="v$(VERSION)"
all:
@echo Use the \'release\' target to start a release $(VERSION)
rm -f version_release.go
.PHONY: release
release: commit push
@echo Released $(VERSION)
rm -f version_release.go
.PHONY: commit
commit:
@echo Committing release $(VERSION)
git commit -am"Release $(VERSION)"
git tag $(TAG)
.PHONY: push
push:
@echo Pushing release $(VERSION) to master
git push --tags
git push

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@ -62,8 +62,6 @@ A not-so-up-to-date-list-that-may-be-actually-current:
* https://dnssectest.net/ * https://dnssectest.net/
* https://dns.apebits.com * https://dns.apebits.com
* https://github.com/oif/apex * https://github.com/oif/apex
* https://github.com/jedisct1/dnscrypt-proxy
* https://github.com/jedisct1/rpdns
Send pull request if you want to be listed here. Send pull request if you want to be listed here.

115
vendor/github.com/miekg/dns/client.go generated vendored
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@ -7,27 +7,22 @@ import (
"context" "context"
"crypto/tls" "crypto/tls"
"encoding/binary" "encoding/binary"
"fmt"
"io" "io"
"io/ioutil"
"net" "net"
"net/http"
"strings" "strings"
"time" "time"
) )
const ( const dnsTimeout time.Duration = 2 * time.Second
dnsTimeout time.Duration = 2 * time.Second const tcpIdleTimeout time.Duration = 8 * time.Second
tcpIdleTimeout time.Duration = 8 * time.Second
dohMimeType = "application/dns-message"
)
// A Conn represents a connection to a DNS server. // A Conn represents a connection to a DNS server.
type Conn struct { type Conn struct {
net.Conn // a net.Conn holding the connection net.Conn // a net.Conn holding the connection
UDPSize uint16 // minimum receive buffer for UDP messages UDPSize uint16 // minimum receive buffer for UDP messages
TsigSecret map[string]string // secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2) TsigSecret map[string]string // secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2)
rtt time.Duration
t time.Time
tsigRequestMAC string tsigRequestMAC string
} }
@ -44,7 +39,6 @@ type Client struct {
DialTimeout time.Duration // net.DialTimeout, defaults to 2 seconds, or net.Dialer.Timeout if expiring earlier - overridden by Timeout when that value is non-zero DialTimeout time.Duration // net.DialTimeout, defaults to 2 seconds, or net.Dialer.Timeout if expiring earlier - overridden by Timeout when that value is non-zero
ReadTimeout time.Duration // net.Conn.SetReadTimeout value for connections, defaults to 2 seconds - overridden by Timeout when that value is non-zero ReadTimeout time.Duration // net.Conn.SetReadTimeout value for connections, defaults to 2 seconds - overridden by Timeout when that value is non-zero
WriteTimeout time.Duration // net.Conn.SetWriteTimeout value for connections, defaults to 2 seconds - overridden by Timeout when that value is non-zero WriteTimeout time.Duration // net.Conn.SetWriteTimeout value for connections, defaults to 2 seconds - overridden by Timeout when that value is non-zero
HTTPClient *http.Client // The http.Client to use for DNS-over-HTTPS
TsigSecret map[string]string // secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2) TsigSecret map[string]string // secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2)
SingleInflight bool // if true suppress multiple outstanding queries for the same Qname, Qtype and Qclass SingleInflight bool // if true suppress multiple outstanding queries for the same Qname, Qtype and Qclass
group singleflight group singleflight
@ -89,10 +83,11 @@ func (c *Client) Dial(address string) (conn *Conn, err error) {
// create a new dialer with the appropriate timeout // create a new dialer with the appropriate timeout
var d net.Dialer var d net.Dialer
if c.Dialer == nil { if c.Dialer == nil {
d = net.Dialer{Timeout:c.getTimeoutForRequest(c.dialTimeout())} d = net.Dialer{}
} else { } else {
d = net.Dialer(*c.Dialer) d = net.Dialer(*c.Dialer)
} }
d.Timeout = c.getTimeoutForRequest(c.writeTimeout())
network := "udp" network := "udp"
useTLS := false useTLS := false
@ -141,11 +136,6 @@ func (c *Client) Dial(address string) (conn *Conn, err error) {
// attribute appropriately // attribute appropriately
func (c *Client) Exchange(m *Msg, address string) (r *Msg, rtt time.Duration, err error) { func (c *Client) Exchange(m *Msg, address string) (r *Msg, rtt time.Duration, err error) {
if !c.SingleInflight { if !c.SingleInflight {
if c.Net == "https" {
// TODO(tmthrgd): pipe timeouts into exchangeDOH
return c.exchangeDOH(context.TODO(), m, address)
}
return c.exchange(m, address) return c.exchange(m, address)
} }
@ -158,11 +148,6 @@ func (c *Client) Exchange(m *Msg, address string) (r *Msg, rtt time.Duration, er
cl = cl1 cl = cl1
} }
r, rtt, err, shared := c.group.Do(m.Question[0].Name+t+cl, func() (*Msg, time.Duration, error) { r, rtt, err, shared := c.group.Do(m.Question[0].Name+t+cl, func() (*Msg, time.Duration, error) {
if c.Net == "https" {
// TODO(tmthrgd): pipe timeouts into exchangeDOH
return c.exchangeDOH(context.TODO(), m, address)
}
return c.exchange(m, address) return c.exchange(m, address)
}) })
if r != nil && shared { if r != nil && shared {
@ -192,9 +177,8 @@ func (c *Client) exchange(m *Msg, a string) (r *Msg, rtt time.Duration, err erro
} }
co.TsigSecret = c.TsigSecret co.TsigSecret = c.TsigSecret
t := time.Now()
// write with the appropriate write timeout // write with the appropriate write timeout
co.SetWriteDeadline(t.Add(c.getTimeoutForRequest(c.writeTimeout()))) co.SetWriteDeadline(time.Now().Add(c.getTimeoutForRequest(c.writeTimeout())))
if err = co.WriteMsg(m); err != nil { if err = co.WriteMsg(m); err != nil {
return nil, 0, err return nil, 0, err
} }
@ -204,76 +188,12 @@ func (c *Client) exchange(m *Msg, a string) (r *Msg, rtt time.Duration, err erro
if err == nil && r.Id != m.Id { if err == nil && r.Id != m.Id {
err = ErrId err = ErrId
} }
rtt = time.Since(t) return r, co.rtt, err
return r, rtt, err
}
func (c *Client) exchangeDOH(ctx context.Context, m *Msg, a string) (r *Msg, rtt time.Duration, err error) {
p, err := m.Pack()
if err != nil {
return nil, 0, err
}
req, err := http.NewRequest(http.MethodPost, a, bytes.NewReader(p))
if err != nil {
return nil, 0, err
}
req.Header.Set("Content-Type", dohMimeType)
req.Header.Set("Accept", dohMimeType)
hc := http.DefaultClient
if c.HTTPClient != nil {
hc = c.HTTPClient
}
if ctx != context.Background() && ctx != context.TODO() {
req = req.WithContext(ctx)
}
t := time.Now()
resp, err := hc.Do(req)
if err != nil {
return nil, 0, err
}
defer closeHTTPBody(resp.Body)
if resp.StatusCode != http.StatusOK {
return nil, 0, fmt.Errorf("dns: server returned HTTP %d error: %q", resp.StatusCode, resp.Status)
}
if ct := resp.Header.Get("Content-Type"); ct != dohMimeType {
return nil, 0, fmt.Errorf("dns: unexpected Content-Type %q; expected %q", ct, dohMimeType)
}
p, err = ioutil.ReadAll(resp.Body)
if err != nil {
return nil, 0, err
}
rtt = time.Since(t)
r = new(Msg)
if err := r.Unpack(p); err != nil {
return r, 0, err
}
// TODO: TSIG? Is it even supported over DoH?
return r, rtt, nil
}
func closeHTTPBody(r io.ReadCloser) error {
io.Copy(ioutil.Discard, io.LimitReader(r, 8<<20))
return r.Close()
} }
// ReadMsg reads a message from the connection co. // ReadMsg reads a message from the connection co.
// If the received message contains a TSIG record the transaction signature // If the received message contains a TSIG record the transaction
// is verified. This method always tries to return the message, however if an // signature is verified.
// error is returned there are no guarantees that the returned message is a
// valid representation of the packet read.
func (co *Conn) ReadMsg() (*Msg, error) { func (co *Conn) ReadMsg() (*Msg, error) {
p, err := co.ReadMsgHeader(nil) p, err := co.ReadMsgHeader(nil)
if err != nil { if err != nil {
@ -282,11 +202,14 @@ func (co *Conn) ReadMsg() (*Msg, error) {
m := new(Msg) m := new(Msg)
if err := m.Unpack(p); err != nil { if err := m.Unpack(p); err != nil {
// If an error was returned, we still want to allow the user to use // If ErrTruncated was returned, we still want to allow the user to use
// the message, but naively they can just check err if they don't want // the message, but naively they can just check err if they don't want
// to use an erroneous message // to use a truncated message
if err == ErrTruncated {
return m, err return m, err
} }
return nil, err
}
if t := m.IsTsig(); t != nil { if t := m.IsTsig(); t != nil {
if _, ok := co.TsigSecret[t.Hdr.Name]; !ok { if _, ok := co.TsigSecret[t.Hdr.Name]; !ok {
return m, ErrSecret return m, ErrSecret
@ -318,6 +241,7 @@ func (co *Conn) ReadMsgHeader(hdr *Header) ([]byte, error) {
} }
p = make([]byte, l) p = make([]byte, l)
n, err = tcpRead(r, p) n, err = tcpRead(r, p)
co.rtt = time.Since(co.t)
default: default:
if co.UDPSize > MinMsgSize { if co.UDPSize > MinMsgSize {
p = make([]byte, co.UDPSize) p = make([]byte, co.UDPSize)
@ -325,6 +249,7 @@ func (co *Conn) ReadMsgHeader(hdr *Header) ([]byte, error) {
p = make([]byte, MinMsgSize) p = make([]byte, MinMsgSize)
} }
n, err = co.Read(p) n, err = co.Read(p)
co.rtt = time.Since(co.t)
} }
if err != nil { if err != nil {
@ -437,6 +362,7 @@ func (co *Conn) WriteMsg(m *Msg) (err error) {
if err != nil { if err != nil {
return err return err
} }
co.t = time.Now()
if _, err = co.Write(out); err != nil { if _, err = co.Write(out); err != nil {
return err return err
} }
@ -568,10 +494,6 @@ func DialTimeoutWithTLS(network, address string, tlsConfig *tls.Config, timeout
// context, if present. If there is both a context deadline and a configured // context, if present. If there is both a context deadline and a configured
// timeout on the client, the earliest of the two takes effect. // timeout on the client, the earliest of the two takes effect.
func (c *Client) ExchangeContext(ctx context.Context, m *Msg, a string) (r *Msg, rtt time.Duration, err error) { func (c *Client) ExchangeContext(ctx context.Context, m *Msg, a string) (r *Msg, rtt time.Duration, err error) {
if !c.SingleInflight && c.Net == "https" {
return c.exchangeDOH(ctx, m, a)
}
var timeout time.Duration var timeout time.Duration
if deadline, ok := ctx.Deadline(); !ok { if deadline, ok := ctx.Deadline(); !ok {
timeout = 0 timeout = 0
@ -580,7 +502,6 @@ func (c *Client) ExchangeContext(ctx context.Context, m *Msg, a string) (r *Msg,
} }
// not passing the context to the underlying calls, as the API does not support // not passing the context to the underlying calls, as the API does not support
// context. For timeouts you should set up Client.Dialer and call Client.Exchange. // context. For timeouts you should set up Client.Dialer and call Client.Exchange.
// TODO(tmthrgd): this is a race condition
c.Dialer = &net.Dialer{Timeout: timeout} c.Dialer = &net.Dialer{Timeout: timeout}
return c.Exchange(m, a) return c.Exchange(m, a)
} }

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@ -91,7 +91,7 @@ func ClientConfigFromReader(resolvconf io.Reader) (*ClientConfig, error) {
n = 1 n = 1
} }
c.Timeout = n c.Timeout = n
case len(s) >= 9 && s[:9] == "attempts:": case len(s) >= 8 && s[:9] == "attempts:":
n, _ := strconv.Atoi(s[9:]) n, _ := strconv.Atoi(s[9:])
if n < 1 { if n < 1 {
n = 1 n = 1

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@ -18,7 +18,8 @@ import (
) )
var packageHdr = ` var packageHdr = `
// Code generated by "go run compress_generate.go"; DO NOT EDIT. // *** DO NOT MODIFY ***
// AUTOGENERATED BY go generate from compress_generate.go
package dns package dns
@ -101,8 +102,7 @@ Names:
// compressionLenHelperType - all types that have domain-name/cdomain-name can be used for compressing names // compressionLenHelperType - all types that have domain-name/cdomain-name can be used for compressing names
fmt.Fprint(b, "func compressionLenHelperType(c map[string]int, r RR, initLen int) int {\n") fmt.Fprint(b, "func compressionLenHelperType(c map[string]int, r RR) {\n")
fmt.Fprint(b, "currentLen := initLen\n")
fmt.Fprint(b, "switch x := r.(type) {\n") fmt.Fprint(b, "switch x := r.(type) {\n")
for _, name := range domainTypes { for _, name := range domainTypes {
o := scope.Lookup(name) o := scope.Lookup(name)
@ -110,10 +110,7 @@ Names:
fmt.Fprintf(b, "case *%s:\n", name) fmt.Fprintf(b, "case *%s:\n", name)
for i := 1; i < st.NumFields(); i++ { for i := 1; i < st.NumFields(); i++ {
out := func(s string) { out := func(s string) { fmt.Fprintf(b, "compressionLenHelper(c, x.%s)\n", st.Field(i).Name()) }
fmt.Fprintf(b, "currentLen -= len(x.%s) + 1\n", st.Field(i).Name())
fmt.Fprintf(b, "currentLen += compressionLenHelper(c, x.%s, currentLen)\n", st.Field(i).Name())
}
if _, ok := st.Field(i).Type().(*types.Slice); ok { if _, ok := st.Field(i).Type().(*types.Slice); ok {
switch st.Tag(i) { switch st.Tag(i) {
@ -122,12 +119,8 @@ Names:
case `dns:"cdomain-name"`: case `dns:"cdomain-name"`:
// For HIP we need to slice over the elements in this slice. // For HIP we need to slice over the elements in this slice.
fmt.Fprintf(b, `for i := range x.%s { fmt.Fprintf(b, `for i := range x.%s {
currentLen -= len(x.%s[i]) + 1 compressionLenHelper(c, x.%s[i])
} }
`, st.Field(i).Name(), st.Field(i).Name())
fmt.Fprintf(b, `for i := range x.%s {
currentLen += compressionLenHelper(c, x.%s[i], currentLen)
}
`, st.Field(i).Name(), st.Field(i).Name()) `, st.Field(i).Name(), st.Field(i).Name())
} }
continue continue
@ -141,11 +134,11 @@ Names:
} }
} }
} }
fmt.Fprintln(b, "}\nreturn currentLen - initLen\n}\n\n") fmt.Fprintln(b, "}\n}\n\n")
// compressionLenSearchType - search cdomain-tags types for compressible names. // compressionLenSearchType - search cdomain-tags types for compressible names.
fmt.Fprint(b, "func compressionLenSearchType(c map[string]int, r RR) (int, bool, int) {\n") fmt.Fprint(b, "func compressionLenSearchType(c map[string]int, r RR) (int, bool) {\n")
fmt.Fprint(b, "switch x := r.(type) {\n") fmt.Fprint(b, "switch x := r.(type) {\n")
for _, name := range cdomainTypes { for _, name := range cdomainTypes {
o := scope.Lookup(name) o := scope.Lookup(name)
@ -155,7 +148,7 @@ Names:
j := 1 j := 1
for i := 1; i < st.NumFields(); i++ { for i := 1; i < st.NumFields(); i++ {
out := func(s string, j int) { out := func(s string, j int) {
fmt.Fprintf(b, "k%d, ok%d, sz%d := compressionLenSearch(c, x.%s)\n", j, j, j, st.Field(i).Name()) fmt.Fprintf(b, "k%d, ok%d := compressionLenSearch(c, x.%s)\n", j, j, st.Field(i).Name())
} }
// There are no slice types with names that can be compressed. // There are no slice types with names that can be compressed.
@ -168,15 +161,13 @@ Names:
} }
k := "k1" k := "k1"
ok := "ok1" ok := "ok1"
sz := "sz1"
for i := 2; i < j; i++ { for i := 2; i < j; i++ {
k += fmt.Sprintf(" + k%d", i) k += fmt.Sprintf(" + k%d", i)
ok += fmt.Sprintf(" && ok%d", i) ok += fmt.Sprintf(" && ok%d", i)
sz += fmt.Sprintf(" + sz%d", i)
} }
fmt.Fprintf(b, "return %s, %s, %s\n", k, ok, sz) fmt.Fprintf(b, "return %s, %s\n", k, ok)
} }
fmt.Fprintln(b, "}\nreturn 0, false, 0\n}\n\n") fmt.Fprintln(b, "}\nreturn 0, false\n}\n\n")
// gofmt // gofmt
res, err := format.Source(b.Bytes()) res, err := format.Source(b.Bytes())

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@ -273,11 +273,8 @@ func (t Type) String() string {
// String returns the string representation for the class c. // String returns the string representation for the class c.
func (c Class) String() string { func (c Class) String() string {
if s, ok := ClassToString[uint16(c)]; ok { if c1, ok := ClassToString[uint16(c)]; ok {
// Only emit mnemonics when they are unambiguous, specically ANY is in both. return c1
if _, ok := StringToType[s]; !ok {
return s
}
} }
return "CLASS" + strconv.Itoa(int(c)) return "CLASS" + strconv.Itoa(int(c))
} }

10
vendor/github.com/miekg/dns/dns.go generated vendored
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@ -55,6 +55,16 @@ func (h *RR_Header) Header() *RR_Header { return h }
// Just to implement the RR interface. // Just to implement the RR interface.
func (h *RR_Header) copy() RR { return nil } func (h *RR_Header) copy() RR { return nil }
func (h *RR_Header) copyHeader() *RR_Header {
r := new(RR_Header)
r.Name = h.Name
r.Rrtype = h.Rrtype
r.Class = h.Class
r.Ttl = h.Ttl
r.Rdlength = h.Rdlength
return r
}
func (h *RR_Header) String() string { func (h *RR_Header) String() string {
var s string var s string

View File

@ -73,7 +73,6 @@ var StringToAlgorithm = reverseInt8(AlgorithmToString)
// AlgorithmToHash is a map of algorithm crypto hash IDs to crypto.Hash's. // AlgorithmToHash is a map of algorithm crypto hash IDs to crypto.Hash's.
var AlgorithmToHash = map[uint8]crypto.Hash{ var AlgorithmToHash = map[uint8]crypto.Hash{
RSAMD5: crypto.MD5, // Deprecated in RFC 6725 RSAMD5: crypto.MD5, // Deprecated in RFC 6725
DSA: crypto.SHA1,
RSASHA1: crypto.SHA1, RSASHA1: crypto.SHA1,
RSASHA1NSEC3SHA1: crypto.SHA1, RSASHA1NSEC3SHA1: crypto.SHA1,
RSASHA256: crypto.SHA256, RSASHA256: crypto.SHA256,
@ -240,7 +239,7 @@ func (k *DNSKEY) ToDS(h uint8) *DS {
// ToCDNSKEY converts a DNSKEY record to a CDNSKEY record. // ToCDNSKEY converts a DNSKEY record to a CDNSKEY record.
func (k *DNSKEY) ToCDNSKEY() *CDNSKEY { func (k *DNSKEY) ToCDNSKEY() *CDNSKEY {
c := &CDNSKEY{DNSKEY: *k} c := &CDNSKEY{DNSKEY: *k}
c.Hdr = k.Hdr c.Hdr = *k.Hdr.copyHeader()
c.Hdr.Rrtype = TypeCDNSKEY c.Hdr.Rrtype = TypeCDNSKEY
return c return c
} }
@ -248,7 +247,7 @@ func (k *DNSKEY) ToCDNSKEY() *CDNSKEY {
// ToCDS converts a DS record to a CDS record. // ToCDS converts a DS record to a CDS record.
func (d *DS) ToCDS() *CDS { func (d *DS) ToCDS() *CDS {
c := &CDS{DS: *d} c := &CDS{DS: *d}
c.Hdr = d.Hdr c.Hdr = *d.Hdr.copyHeader()
c.Hdr.Rrtype = TypeCDS c.Hdr.Rrtype = TypeCDS
return c return c
} }
@ -542,20 +541,20 @@ func (k *DNSKEY) publicKeyRSA() *rsa.PublicKey {
explen = uint16(keybuf[1])<<8 | uint16(keybuf[2]) explen = uint16(keybuf[1])<<8 | uint16(keybuf[2])
keyoff = 3 keyoff = 3
} }
if explen > 4 {
// Larger exponent than supported by the crypto package.
return nil
}
pubkey := new(rsa.PublicKey) pubkey := new(rsa.PublicKey)
pubkey.N = big.NewInt(0) pubkey.N = big.NewInt(0)
shift := uint64((explen - 1) * 8)
expo := uint64(0) expo := uint64(0)
for i := 0; i < int(explen); i++ { for i := int(explen - 1); i > 0; i-- {
expo <<= 8 expo += uint64(keybuf[keyoff+i]) << shift
expo |= uint64(keybuf[keyoff+i]) shift -= 8
} }
if expo > 1<<31-1 { // Remainder
// Larger exponent than supported by the crypto package. expo += uint64(keybuf[keyoff])
if expo > (2<<31)+1 {
// Larger expo than supported.
// println("dns: F5 primes (or larger) are not supported")
return nil return nil
} }
pubkey.E = int(expo) pubkey.E = int(expo)

4
vendor/github.com/miekg/dns/doc.go generated vendored
View File

@ -73,11 +73,11 @@ and port to use for the connection:
Port: 12345, Port: 12345,
Zone: "", Zone: "",
} }
c.Dialer := &net.Dialer{ d := net.Dialer{
Timeout: 200 * time.Millisecond, Timeout: 200 * time.Millisecond,
LocalAddr: &laddr, LocalAddr: &laddr,
} }
in, rtt, err := c.Exchange(m1, "8.8.8.8:53") in, rtt, err := c.ExchangeWithDialer(&d, m1, "8.8.8.8:53")
If these "advanced" features are not needed, a simple UDP query can be sent, If these "advanced" features are not needed, a simple UDP query can be sent,
with: with:

11
vendor/github.com/miekg/dns/edns.go generated vendored
View File

@ -102,15 +102,12 @@ func (rr *OPT) SetVersion(v uint8) {
// ExtendedRcode returns the EDNS extended RCODE field (the upper 8 bits of the TTL). // ExtendedRcode returns the EDNS extended RCODE field (the upper 8 bits of the TTL).
func (rr *OPT) ExtendedRcode() int { func (rr *OPT) ExtendedRcode() int {
return int((rr.Hdr.Ttl&0xFF000000)>>24) + 15 return int((rr.Hdr.Ttl & 0xFF000000) >> 24)
} }
// SetExtendedRcode sets the EDNS extended RCODE field. // SetExtendedRcode sets the EDNS extended RCODE field.
func (rr *OPT) SetExtendedRcode(v uint8) { func (rr *OPT) SetExtendedRcode(v uint8) {
if v < RcodeBadVers { // Smaller than 16.. Use the 4 bits you have! rr.Hdr.Ttl = rr.Hdr.Ttl&0x00FFFFFF | (uint32(v) << 24)
return
}
rr.Hdr.Ttl = rr.Hdr.Ttl&0x00FFFFFF | (uint32(v-15) << 24)
} }
// UDPSize returns the UDP buffer size. // UDPSize returns the UDP buffer size.
@ -423,7 +420,6 @@ func (e *EDNS0_LLQ) String() string {
return s return s
} }
// EDNS0_DUA implements the EDNS0 "DNSSEC Algorithm Understood" option. See RFC 6975.
type EDNS0_DAU struct { type EDNS0_DAU struct {
Code uint16 // Always EDNS0DAU Code uint16 // Always EDNS0DAU
AlgCode []uint8 AlgCode []uint8
@ -446,7 +442,6 @@ func (e *EDNS0_DAU) String() string {
return s return s
} }
// EDNS0_DHU implements the EDNS0 "DS Hash Understood" option. See RFC 6975.
type EDNS0_DHU struct { type EDNS0_DHU struct {
Code uint16 // Always EDNS0DHU Code uint16 // Always EDNS0DHU
AlgCode []uint8 AlgCode []uint8
@ -469,7 +464,6 @@ func (e *EDNS0_DHU) String() string {
return s return s
} }
// EDNS0_N3U implements the EDNS0 "NSEC3 Hash Understood" option. See RFC 6975.
type EDNS0_N3U struct { type EDNS0_N3U struct {
Code uint16 // Always EDNS0N3U Code uint16 // Always EDNS0N3U
AlgCode []uint8 AlgCode []uint8
@ -493,7 +487,6 @@ func (e *EDNS0_N3U) String() string {
return s return s
} }
// EDNS0_EXPIRE implementes the EDNS0 option as described in RFC 7314.
type EDNS0_EXPIRE struct { type EDNS0_EXPIRE struct {
Code uint16 // Always EDNS0EXPIRE Code uint16 // Always EDNS0EXPIRE
Expire uint32 Expire uint32

View File

@ -0,0 +1,7 @@
// +build linux
package socket
func (h *cmsghdr) len() int { return int(h.Len) }
func (h *cmsghdr) lvl() int { return int(h.Level) }
func (h *cmsghdr) typ() int { return int(h.Type) }

View File

@ -1,12 +1,18 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build arm mips mipsle 386 // +build arm mips mipsle 386
// +build linux // +build linux
package socket package socket
type cmsghdr struct {
Len uint32
Level int32
Type int32
}
const (
sizeofCmsghdr = 0xc
)
func (h *cmsghdr) set(l, lvl, typ int) { func (h *cmsghdr) set(l, lvl, typ int) {
h.Len = uint32(l) h.Len = uint32(l)
h.Level = int32(lvl) h.Level = int32(lvl)

View File

@ -1,12 +1,18 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build arm64 amd64 ppc64 ppc64le mips64 mips64le s390x // +build arm64 amd64 ppc64 ppc64le mips64 mips64le s390x
// +build linux // +build linux
package socket package socket
type cmsghdr struct {
Len uint64
Level int32
Type int32
}
const (
sizeofCmsghdr = 0x10
)
func (h *cmsghdr) set(l, lvl, typ int) { func (h *cmsghdr) set(l, lvl, typ int) {
h.Len = uint64(l) h.Len = uint64(l)
h.Level = int32(lvl) h.Level = int32(lvl)

View File

@ -1,8 +1,4 @@
// Copyright 2017 The Go Authors. All rights reserved. // +build !linux
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build !darwin,!dragonfly,!freebsd,!linux,!netbsd,!openbsd,!solaris
package socket package socket

View File

@ -0,0 +1,118 @@
package socket
import (
"errors"
"unsafe"
)
func controlHeaderLen() int {
return roundup(sizeofCmsghdr)
}
func controlMessageLen(dataLen int) int {
return roundup(sizeofCmsghdr) + dataLen
}
// returns the whole length of control message.
func ControlMessageSpace(dataLen int) int {
return roundup(sizeofCmsghdr) + roundup(dataLen)
}
// A ControlMessage represents the head message in a stream of control
// messages.
//
// A control message comprises of a header, data and a few padding
// fields to conform to the interface to the kernel.
//
// See RFC 3542 for further information.
type ControlMessage []byte
// Data returns the data field of the control message at the head.
func (m ControlMessage) Data(dataLen int) []byte {
l := controlHeaderLen()
if len(m) < l || len(m) < l+dataLen {
return nil
}
return m[l : l+dataLen]
}
// ParseHeader parses and returns the header fields of the control
// message at the head.
func (m ControlMessage) ParseHeader() (lvl, typ, dataLen int, err error) {
l := controlHeaderLen()
if len(m) < l {
return 0, 0, 0, errors.New("short message")
}
h := (*cmsghdr)(unsafe.Pointer(&m[0]))
return h.lvl(), h.typ(), int(uint64(h.len()) - uint64(l)), nil
}
// Next returns the control message at the next.
func (m ControlMessage) Next(dataLen int) ControlMessage {
l := ControlMessageSpace(dataLen)
if len(m) < l {
return nil
}
return m[l:]
}
// MarshalHeader marshals the header fields of the control message at
// the head.
func (m ControlMessage) MarshalHeader(lvl, typ, dataLen int) error {
if len(m) < controlHeaderLen() {
return errors.New("short message")
}
h := (*cmsghdr)(unsafe.Pointer(&m[0]))
h.set(controlMessageLen(dataLen), lvl, typ)
return nil
}
// Marshal marshals the control message at the head, and returns the next
// control message.
func (m ControlMessage) Marshal(lvl, typ int, data []byte) (ControlMessage, error) {
l := len(data)
if len(m) < ControlMessageSpace(l) {
return nil, errors.New("short message")
}
h := (*cmsghdr)(unsafe.Pointer(&m[0]))
h.set(controlMessageLen(l), lvl, typ)
if l > 0 {
copy(m.Data(l), data)
}
return m.Next(l), nil
}
// Parse parses as a single or multiple control messages.
func (m ControlMessage) Parse() ([]ControlMessage, error) {
var ms []ControlMessage
for len(m) >= controlHeaderLen() {
h := (*cmsghdr)(unsafe.Pointer(&m[0]))
l := h.len()
if l <= 0 {
return nil, errors.New("invalid header length")
}
if uint64(l) < uint64(controlHeaderLen()) {
return nil, errors.New("invalid message length")
}
if uint64(l) > uint64(len(m)) {
return nil, errors.New("short buffer")
}
ms = append(ms, ControlMessage(m[:l]))
ll := l - controlHeaderLen()
if len(m) >= ControlMessageSpace(ll) {
m = m[ControlMessageSpace(ll):]
} else {
m = m[controlMessageLen(ll):]
}
}
return ms, nil
}
// NewControlMessage returns a new stream of control messages.
func NewControlMessage(dataLen []int) ControlMessage {
var l int
for i := range dataLen {
l += ControlMessageSpace(dataLen[i])
}
return make([]byte, l)
}

View File

@ -0,0 +1,4 @@
// Package socket contains ControlMessage parsing code from
// golang.org/x/net/internal/socket. Instead of supporting all possible
// architectures, we're only supporting linux 32/64 bit.
package socket

14
vendor/github.com/miekg/dns/internal/socket/sys.go generated vendored Normal file
View File

@ -0,0 +1,14 @@
package socket
import "unsafe"
var (
kernelAlign = func() int {
var p uintptr
return int(unsafe.Sizeof(p))
}()
)
func roundup(l int) int {
return (l + kernelAlign - 1) & ^(kernelAlign - 1)
}

146
vendor/github.com/miekg/dns/msg.go generated vendored
View File

@ -595,13 +595,6 @@ func UnpackRR(msg []byte, off int) (rr RR, off1 int, err error) {
if err != nil { if err != nil {
return nil, len(msg), err return nil, len(msg), err
} }
return UnpackRRWithHeader(h, msg, off)
}
// UnpackRRWithHeader unpacks the record type specific payload given an existing
// RR_Header.
func UnpackRRWithHeader(h RR_Header, msg []byte, off int) (rr RR, off1 int, err error) {
end := off + int(h.Rdlength) end := off + int(h.Rdlength)
if fn, known := typeToUnpack[h.Rrtype]; !known { if fn, known := typeToUnpack[h.Rrtype]; !known {
@ -619,8 +612,8 @@ func UnpackRRWithHeader(h RR_Header, msg []byte, off int) (rr RR, off1 int, err
// If we cannot unpack the whole array, then it will return nil // If we cannot unpack the whole array, then it will return nil
func unpackRRslice(l int, msg []byte, off int) (dst1 []RR, off1 int, err error) { func unpackRRslice(l int, msg []byte, off int) (dst1 []RR, off1 int, err error) {
var r RR var r RR
// Don't pre-allocate, l may be under attacker control // Optimistically make dst be the length that was sent
var dst []RR dst := make([]RR, 0, l)
for i := 0; i < l; i++ { for i := 0; i < l; i++ {
off1 := off off1 := off
r, off, err = UnpackRR(msg, off) r, off, err = UnpackRR(msg, off)
@ -691,20 +684,18 @@ func (dns *Msg) Pack() (msg []byte, err error) {
return dns.PackBuffer(nil) return dns.PackBuffer(nil)
} }
// PackBuffer packs a Msg, using the given buffer buf. If buf is too small a new buffer is allocated. // PackBuffer packs a Msg, using the given buffer buf. If buf is too small
// a new buffer is allocated.
func (dns *Msg) PackBuffer(buf []byte) (msg []byte, err error) { func (dns *Msg) PackBuffer(buf []byte) (msg []byte, err error) {
var compression map[string]int
if dns.Compress {
compression = make(map[string]int) // Compression pointer mappings.
}
return dns.packBufferWithCompressionMap(buf, compression)
}
// packBufferWithCompressionMap packs a Msg, using the given buffer buf.
func (dns *Msg) packBufferWithCompressionMap(buf []byte, compression map[string]int) (msg []byte, err error) {
// We use a similar function in tsig.go's stripTsig. // We use a similar function in tsig.go's stripTsig.
var (
dh Header
compression map[string]int
)
var dh Header if dns.Compress {
compression = make(map[string]int) // Compression pointer mappings
}
if dns.Rcode < 0 || dns.Rcode > 0xFFF { if dns.Rcode < 0 || dns.Rcode > 0xFFF {
return nil, ErrRcode return nil, ErrRcode
@ -716,11 +707,12 @@ func (dns *Msg) packBufferWithCompressionMap(buf []byte, compression map[string]
return nil, ErrExtendedRcode return nil, ErrExtendedRcode
} }
opt.SetExtendedRcode(uint8(dns.Rcode >> 4)) opt.SetExtendedRcode(uint8(dns.Rcode >> 4))
dns.Rcode &= 0xF
} }
// Convert convenient Msg into wire-like Header. // Convert convenient Msg into wire-like Header.
dh.Id = dns.Id dh.Id = dns.Id
dh.Bits = uint16(dns.Opcode)<<11 | uint16(dns.Rcode&0xF) dh.Bits = uint16(dns.Opcode)<<11 | uint16(dns.Rcode)
if dns.Response { if dns.Response {
dh.Bits |= _QR dh.Bits |= _QR
} }
@ -819,19 +811,13 @@ func (dns *Msg) Unpack(msg []byte) (err error) {
dns.CheckingDisabled = (dh.Bits & _CD) != 0 dns.CheckingDisabled = (dh.Bits & _CD) != 0
dns.Rcode = int(dh.Bits & 0xF) dns.Rcode = int(dh.Bits & 0xF)
// If we are at the end of the message we should return *just* the
// header. This can still be useful to the caller. 9.9.9.9 sends these
// when responding with REFUSED for instance.
if off == len(msg) { if off == len(msg) {
// reset sections before returning return ErrTruncated
dns.Question, dns.Answer, dns.Ns, dns.Extra = nil, nil, nil, nil
return nil
} }
// Qdcount, Ancount, Nscount, Arcount can't be trusted, as they are // Optimistically use the count given to us in the header
// attacker controlled. This means we can't use them to pre-allocate dns.Question = make([]Question, 0, int(dh.Qdcount))
// slices.
dns.Question = nil
for i := 0; i < int(dh.Qdcount); i++ { for i := 0; i < int(dh.Qdcount); i++ {
off1 := off off1 := off
var q Question var q Question
@ -923,28 +909,21 @@ func (dns *Msg) String() string {
// than packing it, measuring the size and discarding the buffer. // than packing it, measuring the size and discarding the buffer.
func (dns *Msg) Len() int { return compressedLen(dns, dns.Compress) } func (dns *Msg) Len() int { return compressedLen(dns, dns.Compress) }
func compressedLenWithCompressionMap(dns *Msg, compression map[string]int) int {
l := 12 // Message header is always 12 bytes
for _, r := range dns.Question {
compressionLenHelper(compression, r.Name, l)
l += r.len()
}
l += compressionLenSlice(l, compression, dns.Answer)
l += compressionLenSlice(l, compression, dns.Ns)
l += compressionLenSlice(l, compression, dns.Extra)
return l
}
// compressedLen returns the message length when in compressed wire format // compressedLen returns the message length when in compressed wire format
// when compress is true, otherwise the uncompressed length is returned. // when compress is true, otherwise the uncompressed length is returned.
func compressedLen(dns *Msg, compress bool) int { func compressedLen(dns *Msg, compress bool) int {
// We always return one more than needed. // We always return one more than needed.
l := 12 // Message header is always 12 bytes
if compress { if compress {
compression := map[string]int{} compression := map[string]int{}
return compressedLenWithCompressionMap(dns, compression) for _, r := range dns.Question {
l += r.len()
compressionLenHelper(compression, r.Name)
} }
l := 12 // Message header is always 12 bytes l += compressionLenSlice(compression, dns.Answer)
l += compressionLenSlice(compression, dns.Ns)
l += compressionLenSlice(compression, dns.Extra)
} else {
for _, r := range dns.Question { for _, r := range dns.Question {
l += r.len() l += r.len()
} }
@ -963,98 +942,61 @@ func compressedLen(dns *Msg, compress bool) int {
l += r.len() l += r.len()
} }
} }
}
return l return l
} }
func compressionLenSlice(lenp int, c map[string]int, rs []RR) int { func compressionLenSlice(c map[string]int, rs []RR) int {
initLen := lenp var l int
for _, r := range rs { for _, r := range rs {
if r == nil { if r == nil {
continue continue
} }
// TmpLen is to track len of record at 14bits boudaries l += r.len()
tmpLen := lenp k, ok := compressionLenSearch(c, r.Header().Name)
x := r.len()
// track this length, and the global length in len, while taking compression into account for both.
k, ok, _ := compressionLenSearch(c, r.Header().Name)
if ok { if ok {
// Size of x is reduced by k, but we add 1 since k includes the '.' and label descriptor take 2 bytes l += 1 - k
// so, basically x:= x - k - 1 + 2
x += 1 - k
} }
compressionLenHelper(c, r.Header().Name)
tmpLen += compressionLenHelper(c, r.Header().Name, tmpLen) k, ok = compressionLenSearchType(c, r)
k, ok, _ = compressionLenSearchType(c, r)
if ok { if ok {
x += 1 - k l += 1 - k
} }
lenp += x compressionLenHelperType(c, r)
tmpLen = lenp
tmpLen += compressionLenHelperType(c, r, tmpLen)
} }
return lenp - initLen return l
} }
// Put the parts of the name in the compression map, return the size in bytes added in payload // Put the parts of the name in the compression map.
func compressionLenHelper(c map[string]int, s string, currentLen int) int { func compressionLenHelper(c map[string]int, s string) {
if currentLen > maxCompressionOffset {
// We won't be able to add any label that could be re-used later anyway
return 0
}
if _, ok := c[s]; ok {
return 0
}
initLen := currentLen
pref := "" pref := ""
prev := s
lbs := Split(s) lbs := Split(s)
for j := 0; j < len(lbs); j++ { for j := len(lbs) - 1; j >= 0; j-- {
pref = s[lbs[j]:] pref = s[lbs[j]:]
currentLen += len(prev) - len(pref)
prev = pref
if _, ok := c[pref]; !ok { if _, ok := c[pref]; !ok {
// If first byte label is within the first 14bits, it might be re-used later c[pref] = len(pref)
if currentLen < maxCompressionOffset {
c[pref] = currentLen
}
} else {
added := currentLen - initLen
if j > 0 {
// We added a new PTR
added += 2
}
return added
} }
} }
return currentLen - initLen
} }
// Look for each part in the compression map and returns its length, // Look for each part in the compression map and returns its length,
// keep on searching so we get the longest match. // keep on searching so we get the longest match.
// Will return the size of compression found, whether a match has been func compressionLenSearch(c map[string]int, s string) (int, bool) {
// found and the size of record if added in payload
func compressionLenSearch(c map[string]int, s string) (int, bool, int) {
off := 0 off := 0
end := false end := false
if s == "" { // don't bork on bogus data if s == "" { // don't bork on bogus data
return 0, false, 0 return 0, false
} }
fullSize := 0
for { for {
if _, ok := c[s[off:]]; ok { if _, ok := c[s[off:]]; ok {
return len(s[off:]), true, fullSize + off return len(s[off:]), true
} }
if end { if end {
break break
} }
// Each label descriptor takes 2 bytes, add it
fullSize += 2
off, end = NextLabel(s, off) off, end = NextLabel(s, off)
} }
return 0, false, fullSize + len(s) return 0, false
} }
// Copy returns a new RR which is a deep-copy of r. // Copy returns a new RR which is a deep-copy of r.

View File

@ -18,7 +18,8 @@ import (
) )
var packageHdr = ` var packageHdr = `
// Code generated by "go run msg_generate.go"; DO NOT EDIT. // *** DO NOT MODIFY ***
// AUTOGENERATED BY go generate from msg_generate.go
package dns package dns

View File

@ -141,24 +141,20 @@ func truncateMsgFromRdlength(msg []byte, off int, rdlength uint16) (truncmsg []b
return msg[:lenrd], nil return msg[:lenrd], nil
} }
var base32HexNoPadEncoding = base32.HexEncoding.WithPadding(base32.NoPadding)
func fromBase32(s []byte) (buf []byte, err error) { func fromBase32(s []byte) (buf []byte, err error) {
for i, b := range s { for i, b := range s {
if b >= 'a' && b <= 'z' { if b >= 'a' && b <= 'z' {
s[i] = b - 32 s[i] = b - 32
} }
} }
buflen := base32HexNoPadEncoding.DecodedLen(len(s)) buflen := base32.HexEncoding.DecodedLen(len(s))
buf = make([]byte, buflen) buf = make([]byte, buflen)
n, err := base32HexNoPadEncoding.Decode(buf, s) n, err := base32.HexEncoding.Decode(buf, s)
buf = buf[:n] buf = buf[:n]
return return
} }
func toBase32(b []byte) string { func toBase32(b []byte) string { return base32.HexEncoding.EncodeToString(b) }
return base32HexNoPadEncoding.EncodeToString(b)
}
func fromBase64(s []byte) (buf []byte, err error) { func fromBase64(s []byte) (buf []byte, err error) {
buflen := base64.StdEncoding.DecodedLen(len(s)) buflen := base64.StdEncoding.DecodedLen(len(s))

View File

@ -56,7 +56,8 @@ func (r *PrivateRR) len() int { return r.Hdr.len() + r.Data.Len() }
func (r *PrivateRR) copy() RR { func (r *PrivateRR) copy() RR {
// make new RR like this: // make new RR like this:
rr := mkPrivateRR(r.Hdr.Rrtype) rr := mkPrivateRR(r.Hdr.Rrtype)
rr.Hdr = r.Hdr newh := r.Hdr.copyHeader()
rr.Hdr = *newh
err := r.Data.Copy(rr.Data) err := r.Data.Copy(rr.Data)
if err != nil { if err != nil {

View File

@ -3,7 +3,7 @@ package dns
// Dedup removes identical RRs from rrs. It preserves the original ordering. // Dedup removes identical RRs from rrs. It preserves the original ordering.
// The lowest TTL of any duplicates is used in the remaining one. Dedup modifies // The lowest TTL of any duplicates is used in the remaining one. Dedup modifies
// rrs. // rrs.
// m is used to store the RRs temporary. If it is nil a new map will be allocated. // m is used to store the RRs temporay. If it is nil a new map will be allocated.
func Dedup(rrs []RR, m map[string]RR) []RR { func Dedup(rrs []RR, m map[string]RR) []RR {
if m == nil { if m == nil {
m = make(map[string]RR) m = make(map[string]RR)

19
vendor/github.com/miekg/dns/scan.go generated vendored
View File

@ -1,10 +1,8 @@
package dns package dns
import ( import (
"fmt"
"io" "io"
"os" "os"
"path/filepath"
"strconv" "strconv"
"strings" "strings"
) )
@ -299,24 +297,16 @@ func parseZone(r io.Reader, origin, f string, defttl *ttlState, t chan *Token, i
return return
} }
// Start with the new file // Start with the new file
includePath := l.token r1, e1 := os.Open(l.token)
if !filepath.IsAbs(includePath) {
includePath = filepath.Join(filepath.Dir(f), includePath)
}
r1, e1 := os.Open(includePath)
if e1 != nil { if e1 != nil {
msg := fmt.Sprintf("failed to open `%s'", l.token) t <- &Token{Error: &ParseError{f, "failed to open `" + l.token + "'", l}}
if !filepath.IsAbs(l.token) {
msg += fmt.Sprintf(" as `%s'", includePath)
}
t <- &Token{Error: &ParseError{f, msg, l}}
return return
} }
if include+1 > 7 { if include+1 > 7 {
t <- &Token{Error: &ParseError{f, "too deeply nested $INCLUDE", l}} t <- &Token{Error: &ParseError{f, "too deeply nested $INCLUDE", l}}
return return
} }
parseZone(r1, neworigin, includePath, defttl, t, include+1) parseZone(r1, neworigin, l.token, defttl, t, include+1)
st = zExpectOwnerDir st = zExpectOwnerDir
case zExpectDirTTLBl: case zExpectDirTTLBl:
if l.value != zBlank { if l.value != zBlank {
@ -577,7 +567,6 @@ func zlexer(s *scan, c chan lex) {
return return
} }
l.value = zRrtpe l.value = zRrtpe
rrtype = true
l.torc = t l.torc = t
} }
} }
@ -601,7 +590,7 @@ func zlexer(s *scan, c chan lex) {
c <- l c <- l
} }
stri = 0 stri = 0
// I reverse space stuff here
if !space && !commt { if !space && !commt {
l.value = zBlank l.value = zBlank
l.token = " " l.token = " "

View File

@ -1255,10 +1255,8 @@ func setNSEC3(h RR_Header, c chan lex, o, f string) (RR, *ParseError, string) {
if len(l.token) == 0 || l.err { if len(l.token) == 0 || l.err {
return nil, &ParseError{f, "bad NSEC3 Salt", l}, "" return nil, &ParseError{f, "bad NSEC3 Salt", l}, ""
} }
if l.token != "-" {
rr.SaltLength = uint8(len(l.token)) / 2 rr.SaltLength = uint8(len(l.token)) / 2
rr.Salt = l.token rr.Salt = l.token
}
<-c <-c
l = <-c l = <-c
@ -1323,10 +1321,8 @@ func setNSEC3PARAM(h RR_Header, c chan lex, o, f string) (RR, *ParseError, strin
rr.Iterations = uint16(i) rr.Iterations = uint16(i)
<-c <-c
l = <-c l = <-c
if l.token != "-" {
rr.SaltLength = uint8(len(l.token)) rr.SaltLength = uint8(len(l.token))
rr.Salt = l.token rr.Salt = l.token
}
return rr, nil, "" return rr, nil, ""
} }

211
vendor/github.com/miekg/dns/server.go generated vendored
View File

@ -9,19 +9,12 @@ import (
"io" "io"
"net" "net"
"sync" "sync"
"sync/atomic"
"time" "time"
) )
// Default maximum number of TCP queries before we close the socket. // Maximum number of TCP queries before we close the socket.
const maxTCPQueries = 128 const maxTCPQueries = 128
// Interval for stop worker if no load
const idleWorkerTimeout = 10 * time.Second
// Maximum number of workers
const maxWorkersCount = 10000
// Handler is implemented by any value that implements ServeDNS. // Handler is implemented by any value that implements ServeDNS.
type Handler interface { type Handler interface {
ServeDNS(w ResponseWriter, r *Msg) ServeDNS(w ResponseWriter, r *Msg)
@ -50,7 +43,6 @@ type ResponseWriter interface {
} }
type response struct { type response struct {
msg []byte
hijacked bool // connection has been hijacked by handler hijacked bool // connection has been hijacked by handler
tsigStatus error tsigStatus error
tsigTimersOnly bool tsigTimersOnly bool
@ -59,6 +51,7 @@ type response struct {
udp *net.UDPConn // i/o connection if UDP was used udp *net.UDPConn // i/o connection if UDP was used
tcp net.Conn // i/o connection if TCP was used tcp net.Conn // i/o connection if TCP was used
udpSession *SessionUDP // oob data to get egress interface right udpSession *SessionUDP // oob data to get egress interface right
remoteAddr net.Addr // address of the client
writer Writer // writer to output the raw DNS bits writer Writer // writer to output the raw DNS bits
} }
@ -303,63 +296,12 @@ type Server struct {
DecorateReader DecorateReader DecorateReader DecorateReader
// DecorateWriter is optional, allows customization of the process that writes raw DNS messages. // DecorateWriter is optional, allows customization of the process that writes raw DNS messages.
DecorateWriter DecorateWriter DecorateWriter DecorateWriter
// Maximum number of TCP queries before we close the socket. Default is maxTCPQueries (unlimited if -1).
MaxTCPQueries int
// UDP packet or TCP connection queue
queue chan *response
// Workers count
workersCount int32
// Shutdown handling // Shutdown handling
lock sync.RWMutex lock sync.RWMutex
started bool started bool
} }
func (srv *Server) worker(w *response) {
srv.serve(w)
for {
count := atomic.LoadInt32(&srv.workersCount)
if count > maxWorkersCount {
return
}
if atomic.CompareAndSwapInt32(&srv.workersCount, count, count+1) {
break
}
}
defer atomic.AddInt32(&srv.workersCount, -1)
inUse := false
timeout := time.NewTimer(idleWorkerTimeout)
defer timeout.Stop()
LOOP:
for {
select {
case w, ok := <-srv.queue:
if !ok {
break LOOP
}
inUse = true
srv.serve(w)
case <-timeout.C:
if !inUse {
break LOOP
}
inUse = false
timeout.Reset(idleWorkerTimeout)
}
}
}
func (srv *Server) spawnWorker(w *response) {
select {
case srv.queue <- w:
default:
go srv.worker(w)
}
}
// ListenAndServe starts a nameserver on the configured address in *Server. // ListenAndServe starts a nameserver on the configured address in *Server.
func (srv *Server) ListenAndServe() error { func (srv *Server) ListenAndServe() error {
srv.lock.Lock() srv.lock.Lock()
@ -367,7 +309,6 @@ func (srv *Server) ListenAndServe() error {
if srv.started { if srv.started {
return &Error{err: "server already started"} return &Error{err: "server already started"}
} }
addr := srv.Addr addr := srv.Addr
if addr == "" { if addr == "" {
addr = ":domain" addr = ":domain"
@ -375,8 +316,6 @@ func (srv *Server) ListenAndServe() error {
if srv.UDPSize == 0 { if srv.UDPSize == 0 {
srv.UDPSize = MinMsgSize srv.UDPSize = MinMsgSize
} }
srv.queue = make(chan *response)
defer close(srv.queue)
switch srv.Net { switch srv.Net {
case "tcp", "tcp4", "tcp6": case "tcp", "tcp4", "tcp6":
a, err := net.ResolveTCPAddr(srv.Net, addr) a, err := net.ResolveTCPAddr(srv.Net, addr)
@ -441,11 +380,8 @@ func (srv *Server) ActivateAndServe() error {
if srv.started { if srv.started {
return &Error{err: "server already started"} return &Error{err: "server already started"}
} }
pConn := srv.PacketConn pConn := srv.PacketConn
l := srv.Listener l := srv.Listener
srv.queue = make(chan *response)
defer close(srv.queue)
if pConn != nil { if pConn != nil {
if srv.UDPSize == 0 { if srv.UDPSize == 0 {
srv.UDPSize = MinMsgSize srv.UDPSize = MinMsgSize
@ -503,6 +439,7 @@ func (srv *Server) getReadTimeout() time.Duration {
} }
// serveTCP starts a TCP listener for the server. // serveTCP starts a TCP listener for the server.
// Each request is handled in a separate goroutine.
func (srv *Server) serveTCP(l net.Listener) error { func (srv *Server) serveTCP(l net.Listener) error {
defer l.Close() defer l.Close()
@ -510,8 +447,26 @@ func (srv *Server) serveTCP(l net.Listener) error {
srv.NotifyStartedFunc() srv.NotifyStartedFunc()
} }
reader := Reader(&defaultReader{srv})
if srv.DecorateReader != nil {
reader = srv.DecorateReader(reader)
}
handler := srv.Handler
if handler == nil {
handler = DefaultServeMux
}
rtimeout := srv.getReadTimeout()
// deadline is not used here
for { for {
rw, err := l.Accept() rw, err := l.Accept()
if err != nil {
if neterr, ok := err.(net.Error); ok && neterr.Temporary() {
continue
}
return err
}
m, err := reader.ReadTCP(rw, rtimeout)
srv.lock.RLock() srv.lock.RLock()
if !srv.started { if !srv.started {
srv.lock.RUnlock() srv.lock.RUnlock()
@ -519,16 +474,14 @@ func (srv *Server) serveTCP(l net.Listener) error {
} }
srv.lock.RUnlock() srv.lock.RUnlock()
if err != nil { if err != nil {
if neterr, ok := err.(net.Error); ok && neterr.Temporary() {
continue continue
} }
return err go srv.serve(rw.RemoteAddr(), handler, m, nil, nil, rw)
}
srv.spawnWorker(&response{tsigSecret: srv.TsigSecret, tcp: rw})
} }
} }
// serveUDP starts a UDP listener for the server. // serveUDP starts a UDP listener for the server.
// Each request is handled in a separate goroutine.
func (srv *Server) serveUDP(l *net.UDPConn) error { func (srv *Server) serveUDP(l *net.UDPConn) error {
defer l.Close() defer l.Close()
@ -541,6 +494,10 @@ func (srv *Server) serveUDP(l *net.UDPConn) error {
reader = srv.DecorateReader(reader) reader = srv.DecorateReader(reader)
} }
handler := srv.Handler
if handler == nil {
handler = DefaultServeMux
}
rtimeout := srv.getReadTimeout() rtimeout := srv.getReadTimeout()
// deadline is not used here // deadline is not used here
for { for {
@ -552,106 +509,82 @@ func (srv *Server) serveUDP(l *net.UDPConn) error {
} }
srv.lock.RUnlock() srv.lock.RUnlock()
if err != nil { if err != nil {
if netErr, ok := err.(net.Error); ok && netErr.Temporary() {
continue continue
} }
return err go srv.serve(s.RemoteAddr(), handler, m, l, s, nil)
}
if len(m) < headerSize {
continue
}
srv.spawnWorker(&response{msg: m, tsigSecret: srv.TsigSecret, udp: l, udpSession: s})
} }
} }
func (srv *Server) serve(w *response) { // Serve a new connection.
func (srv *Server) serve(a net.Addr, h Handler, m []byte, u *net.UDPConn, s *SessionUDP, t net.Conn) {
w := &response{tsigSecret: srv.TsigSecret, udp: u, tcp: t, remoteAddr: a, udpSession: s}
if srv.DecorateWriter != nil { if srv.DecorateWriter != nil {
w.writer = srv.DecorateWriter(w) w.writer = srv.DecorateWriter(w)
} else { } else {
w.writer = w w.writer = w
} }
if w.udp != nil { q := 0 // counter for the amount of TCP queries we get
// serve UDP
srv.serveDNS(w)
return
}
reader := Reader(&defaultReader{srv}) reader := Reader(&defaultReader{srv})
if srv.DecorateReader != nil { if srv.DecorateReader != nil {
reader = srv.DecorateReader(reader) reader = srv.DecorateReader(reader)
} }
Redo:
defer func() {
if !w.hijacked {
w.Close()
}
}()
idleTimeout := tcpIdleTimeout
if srv.IdleTimeout != nil {
idleTimeout = srv.IdleTimeout()
}
timeout := srv.getReadTimeout()
limit := srv.MaxTCPQueries
if limit == 0 {
limit = maxTCPQueries
}
for q := 0; q < limit || limit == -1; q++ {
var err error
w.msg, err = reader.ReadTCP(w.tcp, timeout)
if err != nil {
// TODO(tmthrgd): handle error
break
}
srv.serveDNS(w)
if w.tcp == nil {
break // Close() was called
}
if w.hijacked {
break // client will call Close() themselves
}
// The first read uses the read timeout, the rest use the
// idle timeout.
timeout = idleTimeout
}
}
func (srv *Server) serveDNS(w *response) {
req := new(Msg) req := new(Msg)
err := req.Unpack(w.msg) err := req.Unpack(m)
if err != nil { // Send a FormatError back if err != nil { // Send a FormatError back
x := new(Msg) x := new(Msg)
x.SetRcodeFormatError(req) x.SetRcodeFormatError(req)
w.WriteMsg(x) w.WriteMsg(x)
return goto Exit
} }
if !srv.Unsafe && req.Response { if !srv.Unsafe && req.Response {
return goto Exit
} }
w.tsigStatus = nil w.tsigStatus = nil
if w.tsigSecret != nil { if w.tsigSecret != nil {
if t := req.IsTsig(); t != nil { if t := req.IsTsig(); t != nil {
if secret, ok := w.tsigSecret[t.Hdr.Name]; ok { secret := t.Hdr.Name
w.tsigStatus = TsigVerify(w.msg, secret, "", false) if _, ok := w.tsigSecret[secret]; !ok {
} else { w.tsigStatus = ErrKeyAlg
w.tsigStatus = ErrSecret
} }
w.tsigStatus = TsigVerify(m, w.tsigSecret[secret], "", false)
w.tsigTimersOnly = false w.tsigTimersOnly = false
w.tsigRequestMAC = req.Extra[len(req.Extra)-1].(*TSIG).MAC w.tsigRequestMAC = req.Extra[len(req.Extra)-1].(*TSIG).MAC
} }
} }
h.ServeDNS(w, req) // Writes back to the client
handler := srv.Handler Exit:
if handler == nil { if w.tcp == nil {
handler = DefaultServeMux return
}
// TODO(miek): make this number configurable?
if q > maxTCPQueries { // close socket after this many queries
w.Close()
return
} }
handler.ServeDNS(w, req) // Writes back to the client if w.hijacked {
return // client calls Close()
}
if u != nil { // UDP, "close" and return
w.Close()
return
}
idleTimeout := tcpIdleTimeout
if srv.IdleTimeout != nil {
idleTimeout = srv.IdleTimeout()
}
m, err = reader.ReadTCP(w.tcp, idleTimeout)
if err == nil {
q++
goto Redo
}
w.Close()
return
} }
func (srv *Server) readTCP(conn net.Conn, timeout time.Duration) ([]byte, error) { func (srv *Server) readTCP(conn net.Conn, timeout time.Duration) ([]byte, error) {
@ -693,9 +626,12 @@ func (srv *Server) readUDP(conn *net.UDPConn, timeout time.Duration) ([]byte, *S
conn.SetReadDeadline(time.Now().Add(timeout)) conn.SetReadDeadline(time.Now().Add(timeout))
m := make([]byte, srv.UDPSize) m := make([]byte, srv.UDPSize)
n, s, err := ReadFromSessionUDP(conn, m) n, s, err := ReadFromSessionUDP(conn, m)
if err != nil || n == 0 {
if err != nil { if err != nil {
return nil, nil, err return nil, nil, err
} }
return nil, nil, ErrShortRead
}
m = m[:n] m = m[:n]
return m, s, nil return m, s, nil
} }
@ -754,12 +690,7 @@ func (w *response) LocalAddr() net.Addr {
} }
// RemoteAddr implements the ResponseWriter.RemoteAddr method. // RemoteAddr implements the ResponseWriter.RemoteAddr method.
func (w *response) RemoteAddr() net.Addr { func (w *response) RemoteAddr() net.Addr { return w.remoteAddr }
if w.tcp != nil {
return w.tcp.RemoteAddr()
}
return w.udpSession.RemoteAddr()
}
// TsigStatus implements the ResponseWriter.TsigStatus method. // TsigStatus implements the ResponseWriter.TsigStatus method.
func (w *response) TsigStatus() error { return w.tsigStatus } func (w *response) TsigStatus() error { return w.tsigStatus }

View File

@ -27,7 +27,8 @@ var skipLen = map[string]struct{}{
} }
var packageHdr = ` var packageHdr = `
// Code generated by "go run types_generate.go"; DO NOT EDIT. // *** DO NOT MODIFY ***
// AUTOGENERATED BY go generate from types_generate.go
package dns package dns
@ -181,8 +182,6 @@ func main() {
fallthrough fallthrough
case st.Tag(i) == `dns:"base64"`: case st.Tag(i) == `dns:"base64"`:
o("l += base64.StdEncoding.DecodedLen(len(rr.%s))\n") o("l += base64.StdEncoding.DecodedLen(len(rr.%s))\n")
case strings.HasPrefix(st.Tag(i), `dns:"size-hex:`): // this has an extra field where the length is stored
o("l += len(rr.%s)/2\n")
case strings.HasPrefix(st.Tag(i), `dns:"size-hex`): case strings.HasPrefix(st.Tag(i), `dns:"size-hex`):
fallthrough fallthrough
case st.Tag(i) == `dns:"hex"`: case st.Tag(i) == `dns:"hex"`:
@ -226,7 +225,7 @@ func main() {
continue continue
} }
fmt.Fprintf(b, "func (rr *%s) copy() RR {\n", name) fmt.Fprintf(b, "func (rr *%s) copy() RR {\n", name)
fields := []string{"rr.Hdr"} fields := []string{"*rr.Hdr.copyHeader()"}
for i := 1; i < st.NumFields(); i++ { for i := 1; i < st.NumFields(); i++ {
f := st.Field(i).Name() f := st.Field(i).Name()
if sl, ok := st.Field(i).Type().(*types.Slice); ok { if sl, ok := st.Field(i).Type().(*types.Slice); ok {

67
vendor/github.com/miekg/dns/udp.go generated vendored
View File

@ -4,27 +4,8 @@ package dns
import ( import (
"net" "net"
"golang.org/x/net/ipv4"
"golang.org/x/net/ipv6"
) )
// This is the required size of the OOB buffer to pass to ReadMsgUDP.
var udpOOBSize = func() int {
// We can't know whether we'll get an IPv4 control message or an
// IPv6 control message ahead of time. To get around this, we size
// the buffer equal to the largest of the two.
oob4 := ipv4.NewControlMessage(ipv4.FlagDst | ipv4.FlagInterface)
oob6 := ipv6.NewControlMessage(ipv6.FlagDst | ipv6.FlagInterface)
if len(oob4) > len(oob6) {
return len(oob4)
}
return len(oob6)
}()
// SessionUDP holds the remote address and the associated // SessionUDP holds the remote address and the associated
// out-of-band data. // out-of-band data.
type SessionUDP struct { type SessionUDP struct {
@ -38,7 +19,7 @@ func (s *SessionUDP) RemoteAddr() net.Addr { return s.raddr }
// ReadFromSessionUDP acts just like net.UDPConn.ReadFrom(), but returns a session object instead of a // ReadFromSessionUDP acts just like net.UDPConn.ReadFrom(), but returns a session object instead of a
// net.UDPAddr. // net.UDPAddr.
func ReadFromSessionUDP(conn *net.UDPConn, b []byte) (int, *SessionUDP, error) { func ReadFromSessionUDP(conn *net.UDPConn, b []byte) (int, *SessionUDP, error) {
oob := make([]byte, udpOOBSize) oob := make([]byte, 40)
n, oobn, _, raddr, err := conn.ReadMsgUDP(b, oob) n, oobn, _, raddr, err := conn.ReadMsgUDP(b, oob)
if err != nil { if err != nil {
return n, nil, err return n, nil, err
@ -53,50 +34,12 @@ func WriteToSessionUDP(conn *net.UDPConn, b []byte, session *SessionUDP) (int, e
return n, err return n, err
} }
func setUDPSocketOptions(conn *net.UDPConn) error {
// Try setting the flags for both families and ignore the errors unless they
// both error.
err6 := ipv6.NewPacketConn(conn).SetControlMessage(ipv6.FlagDst|ipv6.FlagInterface, true)
err4 := ipv4.NewPacketConn(conn).SetControlMessage(ipv4.FlagDst|ipv4.FlagInterface, true)
if err6 != nil && err4 != nil {
return err4
}
return nil
}
// parseDstFromOOB takes oob data and returns the destination IP.
func parseDstFromOOB(oob []byte) net.IP {
// Start with IPv6 and then fallback to IPv4
// TODO(fastest963): Figure out a way to prefer one or the other. Looking at
// the lvl of the header for a 0 or 41 isn't cross-platform.
cm6 := new(ipv6.ControlMessage)
if cm6.Parse(oob) == nil && cm6.Dst != nil {
return cm6.Dst
}
cm4 := new(ipv4.ControlMessage)
if cm4.Parse(oob) == nil && cm4.Dst != nil {
return cm4.Dst
}
return nil
}
// correctSource takes oob data and returns new oob data with the Src equal to the Dst // correctSource takes oob data and returns new oob data with the Src equal to the Dst
func correctSource(oob []byte) []byte { func correctSource(oob []byte) []byte {
dst := parseDstFromOOB(oob) dst, err := parseUDPSocketDst(oob)
if dst == nil { // If the destination could not be determined, ignore.
if err != nil || dst == nil {
return nil return nil
} }
// If the dst is definitely an IPv6, then use ipv6's ControlMessage to return marshalUDPSocketSrc(dst)
// respond otherwise use ipv4's because ipv6's marshal ignores ipv4
// addresses.
if dst.To4() == nil {
cm := new(ipv6.ControlMessage)
cm.Src = dst
oob = cm.Marshal()
} else {
cm := new(ipv4.ControlMessage)
cm.Src = dst
oob = cm.Marshal()
}
return oob
} }

220
vendor/github.com/miekg/dns/udp_linux.go generated vendored Normal file
View File

@ -0,0 +1,220 @@
// +build linux,!appengine
package dns
// See:
// * http://stackoverflow.com/questions/3062205/setting-the-source-ip-for-a-udp-socket and
// * http://blog.powerdns.com/2012/10/08/on-binding-datagram-udp-sockets-to-the-any-addresses/
//
// Why do we need this: When listening on 0.0.0.0 with UDP so kernel decides what is the outgoing
// interface, this might not always be the correct one. This code will make sure the egress
// packet's interface matched the ingress' one.
import (
"net"
"syscall"
"unsafe"
"github.com/miekg/dns/internal/socket"
)
const (
sizeofInet6Pktinfo = 0x14
sizeofInetPktinfo = 0xc
protocolIP = 0
protocolIPv6 = 41
)
type inetPktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex int32
}
type inetControlMessage struct {
Src net.IP // source address, specifying only
Dst net.IP // destination address, receiving only
}
// setUDPSocketOptions sets the UDP socket options.
// This function is implemented on a per platform basis. See udp_*.go for more details
func setUDPSocketOptions(conn *net.UDPConn) error {
sa, err := getUDPSocketName(conn)
if err != nil {
return err
}
switch sa.(type) {
case *syscall.SockaddrInet6:
v6only, err := getUDPSocketOptions6Only(conn)
if err != nil {
return err
}
setUDPSocketOptions6(conn)
if !v6only {
setUDPSocketOptions4(conn)
}
case *syscall.SockaddrInet4:
setUDPSocketOptions4(conn)
}
return nil
}
// setUDPSocketOptions4 prepares the v4 socket for sessions.
func setUDPSocketOptions4(conn *net.UDPConn) error {
file, err := conn.File()
if err != nil {
return err
}
if err := syscall.SetsockoptInt(int(file.Fd()), syscall.IPPROTO_IP, syscall.IP_PKTINFO, 1); err != nil {
file.Close()
return err
}
// Calling File() above results in the connection becoming blocking, we must fix that.
// See https://github.com/miekg/dns/issues/279
err = syscall.SetNonblock(int(file.Fd()), true)
if err != nil {
file.Close()
return err
}
file.Close()
return nil
}
// setUDPSocketOptions6 prepares the v6 socket for sessions.
func setUDPSocketOptions6(conn *net.UDPConn) error {
file, err := conn.File()
if err != nil {
return err
}
if err := syscall.SetsockoptInt(int(file.Fd()), syscall.IPPROTO_IPV6, syscall.IPV6_RECVPKTINFO, 1); err != nil {
file.Close()
return err
}
err = syscall.SetNonblock(int(file.Fd()), true)
if err != nil {
file.Close()
return err
}
file.Close()
return nil
}
// getUDPSocketOption6Only return true if the socket is v6 only and false when it is v4/v6 combined
// (dualstack).
func getUDPSocketOptions6Only(conn *net.UDPConn) (bool, error) {
file, err := conn.File()
if err != nil {
return false, err
}
// dual stack. See http://stackoverflow.com/questions/1618240/how-to-support-both-ipv4-and-ipv6-connections
v6only, err := syscall.GetsockoptInt(int(file.Fd()), syscall.IPPROTO_IPV6, syscall.IPV6_V6ONLY)
if err != nil {
file.Close()
return false, err
}
file.Close()
return v6only == 1, nil
}
func getUDPSocketName(conn *net.UDPConn) (syscall.Sockaddr, error) {
file, err := conn.File()
if err != nil {
return nil, err
}
defer file.Close()
return syscall.Getsockname(int(file.Fd()))
}
// marshalInetPacketInfo marshals a ipv4 control message, returning
// the byte slice for the next marshal, if any
func marshalInetPacketInfo(b []byte, cm *inetControlMessage) []byte {
m := socket.ControlMessage(b)
m.MarshalHeader(protocolIP, syscall.IP_PKTINFO, sizeofInetPktinfo)
if cm != nil {
pi := (*inetPktinfo)(unsafe.Pointer(&m.Data(sizeofInetPktinfo)[0]))
if ip := cm.Src.To4(); ip != nil {
copy(pi.Spec_dst[:], ip)
}
}
return m.Next(sizeofInetPktinfo)
}
// marshalInet6PacketInfo marshals a ipv6 control message, returning
// the byte slice for the next marshal, if any
func marshalInet6PacketInfo(b []byte, cm *inetControlMessage) []byte {
m := socket.ControlMessage(b)
m.MarshalHeader(protocolIPv6, syscall.IPV6_PKTINFO, sizeofInet6Pktinfo)
if cm != nil {
pi := (*inet6Pktinfo)(unsafe.Pointer(&m.Data(sizeofInet6Pktinfo)[0]))
if ip := cm.Src.To16(); ip != nil && ip.To4() == nil {
copy(pi.Addr[:], ip)
}
}
return m.Next(sizeofInet6Pktinfo)
}
func parseInetPacketInfo(cm *inetControlMessage, b []byte) {
pi := (*inetPktinfo)(unsafe.Pointer(&b[0]))
if len(cm.Dst) < net.IPv4len {
cm.Dst = make(net.IP, net.IPv4len)
}
copy(cm.Dst, pi.Addr[:])
}
func parseInet6PacketInfo(cm *inetControlMessage, b []byte) {
pi := (*inet6Pktinfo)(unsafe.Pointer(&b[0]))
if len(cm.Dst) < net.IPv6len {
cm.Dst = make(net.IP, net.IPv6len)
}
copy(cm.Dst, pi.Addr[:])
}
// parseUDPSocketDst takes out-of-band data from ReadMsgUDP and parses it for
// the Dst address
func parseUDPSocketDst(oob []byte) (net.IP, error) {
cm := new(inetControlMessage)
ms, err := socket.ControlMessage(oob).Parse()
if err != nil {
return nil, err
}
for _, m := range ms {
lvl, typ, l, err := m.ParseHeader()
if err != nil {
return nil, err
}
if lvl == protocolIPv6 { // IPv6
if typ == syscall.IPV6_PKTINFO && l >= sizeofInet6Pktinfo {
parseInet6PacketInfo(cm, m.Data(l))
}
} else if lvl == protocolIP { // IPv4
if typ == syscall.IP_PKTINFO && l >= sizeofInetPktinfo {
parseInetPacketInfo(cm, m.Data(l))
}
}
}
return cm.Dst, nil
}
// marshalUDPSocketSrc takes the given src address and returns out-of-band data
// to give to WriteMsgUDP
func marshalUDPSocketSrc(src net.IP) []byte {
var oob []byte
// If the dst is definitely an ipv6, then use ipv6 control to respond
// otherwise use ipv4 because the ipv6 marshal ignores ipv4 messages.
// See marshalInet6PacketInfo
cm := new(inetControlMessage)
cm.Src = src
if src.To4() == nil {
oob = make([]byte, socket.ControlMessageSpace(sizeofInet6Pktinfo))
marshalInet6PacketInfo(oob, cm)
} else {
oob = make([]byte, socket.ControlMessageSpace(sizeofInetPktinfo))
marshalInetPacketInfo(oob, cm)
}
return oob
}

17
vendor/github.com/miekg/dns/udp_other.go generated vendored Normal file
View File

@ -0,0 +1,17 @@
// +build !linux appengine
package dns
import (
"net"
)
// These do nothing. See udp_linux.go for an example of how to implement this.
// We tried to adhire to some kind of naming scheme.
func setUDPSocketOptions(conn *net.UDPConn) error { return nil }
func setUDPSocketOptions4(conn *net.UDPConn) error { return nil }
func setUDPSocketOptions6(conn *net.UDPConn) error { return nil }
func getUDPSocketOptions6Only(conn *net.UDPConn) (bool, error) { return false, nil }
func parseUDPSocketDst(oob []byte) (net.IP, error) { return nil, nil }
func marshalUDPSocketSrc(src net.IP) []byte { return nil }

View File

@ -14,7 +14,6 @@ func (s *SessionUDP) RemoteAddr() net.Addr { return s.raddr }
// ReadFromSessionUDP acts just like net.UDPConn.ReadFrom(), but returns a session object instead of a // ReadFromSessionUDP acts just like net.UDPConn.ReadFrom(), but returns a session object instead of a
// net.UDPAddr. // net.UDPAddr.
// TODO(fastest963): Once go1.10 is released, use ReadMsgUDP.
func ReadFromSessionUDP(conn *net.UDPConn, b []byte) (int, *SessionUDP, error) { func ReadFromSessionUDP(conn *net.UDPConn, b []byte) (int, *SessionUDP, error) {
n, raddr, err := conn.ReadFrom(b) n, raddr, err := conn.ReadFrom(b)
if err != nil { if err != nil {
@ -25,13 +24,7 @@ func ReadFromSessionUDP(conn *net.UDPConn, b []byte) (int, *SessionUDP, error) {
} }
// WriteToSessionUDP acts just like net.UDPConn.WriteTo(), but uses a *SessionUDP instead of a net.Addr. // WriteToSessionUDP acts just like net.UDPConn.WriteTo(), but uses a *SessionUDP instead of a net.Addr.
// TODO(fastest963): Once go1.10 is released, use WriteMsgUDP.
func WriteToSessionUDP(conn *net.UDPConn, b []byte, session *SessionUDP) (int, error) { func WriteToSessionUDP(conn *net.UDPConn, b []byte, session *SessionUDP) (int, error) {
n, err := conn.WriteTo(b, session.raddr) n, err := conn.WriteTo(b, session.raddr)
return n, err return n, err
} }
// TODO(fastest963): Once go1.10 is released and we can use *MsgUDP methods
// use the standard method in udp.go for these.
func setUDPSocketOptions(*net.UDPConn) error { return nil }
func parseDstFromOOB([]byte, net.IP) net.IP { return nil }

View File

@ -1,15 +0,0 @@
package dns
import "fmt"
// Version is current version of this library.
var Version = V{1, 0, 8}
// V holds the version of this library.
type V struct {
Major, Minor, Patch int
}
func (v V) String() string {
return fmt.Sprintf("%d.%d.%d", v.Major, v.Minor, v.Patch)
}

View File

@ -1,155 +1,119 @@
// Code generated by "go run compress_generate.go"; DO NOT EDIT. // *** DO NOT MODIFY ***
// AUTOGENERATED BY go generate from compress_generate.go
package dns package dns
func compressionLenHelperType(c map[string]int, r RR, initLen int) int { func compressionLenHelperType(c map[string]int, r RR) {
currentLen := initLen
switch x := r.(type) { switch x := r.(type) {
case *AFSDB: case *AFSDB:
currentLen -= len(x.Hostname) + 1 compressionLenHelper(c, x.Hostname)
currentLen += compressionLenHelper(c, x.Hostname, currentLen)
case *CNAME: case *CNAME:
currentLen -= len(x.Target) + 1 compressionLenHelper(c, x.Target)
currentLen += compressionLenHelper(c, x.Target, currentLen)
case *DNAME: case *DNAME:
currentLen -= len(x.Target) + 1 compressionLenHelper(c, x.Target)
currentLen += compressionLenHelper(c, x.Target, currentLen)
case *HIP: case *HIP:
for i := range x.RendezvousServers { for i := range x.RendezvousServers {
currentLen -= len(x.RendezvousServers[i]) + 1 compressionLenHelper(c, x.RendezvousServers[i])
}
for i := range x.RendezvousServers {
currentLen += compressionLenHelper(c, x.RendezvousServers[i], currentLen)
} }
case *KX: case *KX:
currentLen -= len(x.Exchanger) + 1 compressionLenHelper(c, x.Exchanger)
currentLen += compressionLenHelper(c, x.Exchanger, currentLen)
case *LP: case *LP:
currentLen -= len(x.Fqdn) + 1 compressionLenHelper(c, x.Fqdn)
currentLen += compressionLenHelper(c, x.Fqdn, currentLen)
case *MB: case *MB:
currentLen -= len(x.Mb) + 1 compressionLenHelper(c, x.Mb)
currentLen += compressionLenHelper(c, x.Mb, currentLen)
case *MD: case *MD:
currentLen -= len(x.Md) + 1 compressionLenHelper(c, x.Md)
currentLen += compressionLenHelper(c, x.Md, currentLen)
case *MF: case *MF:
currentLen -= len(x.Mf) + 1 compressionLenHelper(c, x.Mf)
currentLen += compressionLenHelper(c, x.Mf, currentLen)
case *MG: case *MG:
currentLen -= len(x.Mg) + 1 compressionLenHelper(c, x.Mg)
currentLen += compressionLenHelper(c, x.Mg, currentLen)
case *MINFO: case *MINFO:
currentLen -= len(x.Rmail) + 1 compressionLenHelper(c, x.Rmail)
currentLen += compressionLenHelper(c, x.Rmail, currentLen) compressionLenHelper(c, x.Email)
currentLen -= len(x.Email) + 1
currentLen += compressionLenHelper(c, x.Email, currentLen)
case *MR: case *MR:
currentLen -= len(x.Mr) + 1 compressionLenHelper(c, x.Mr)
currentLen += compressionLenHelper(c, x.Mr, currentLen)
case *MX: case *MX:
currentLen -= len(x.Mx) + 1 compressionLenHelper(c, x.Mx)
currentLen += compressionLenHelper(c, x.Mx, currentLen)
case *NAPTR: case *NAPTR:
currentLen -= len(x.Replacement) + 1 compressionLenHelper(c, x.Replacement)
currentLen += compressionLenHelper(c, x.Replacement, currentLen)
case *NS: case *NS:
currentLen -= len(x.Ns) + 1 compressionLenHelper(c, x.Ns)
currentLen += compressionLenHelper(c, x.Ns, currentLen)
case *NSAPPTR: case *NSAPPTR:
currentLen -= len(x.Ptr) + 1 compressionLenHelper(c, x.Ptr)
currentLen += compressionLenHelper(c, x.Ptr, currentLen)
case *NSEC: case *NSEC:
currentLen -= len(x.NextDomain) + 1 compressionLenHelper(c, x.NextDomain)
currentLen += compressionLenHelper(c, x.NextDomain, currentLen)
case *PTR: case *PTR:
currentLen -= len(x.Ptr) + 1 compressionLenHelper(c, x.Ptr)
currentLen += compressionLenHelper(c, x.Ptr, currentLen)
case *PX: case *PX:
currentLen -= len(x.Map822) + 1 compressionLenHelper(c, x.Map822)
currentLen += compressionLenHelper(c, x.Map822, currentLen) compressionLenHelper(c, x.Mapx400)
currentLen -= len(x.Mapx400) + 1
currentLen += compressionLenHelper(c, x.Mapx400, currentLen)
case *RP: case *RP:
currentLen -= len(x.Mbox) + 1 compressionLenHelper(c, x.Mbox)
currentLen += compressionLenHelper(c, x.Mbox, currentLen) compressionLenHelper(c, x.Txt)
currentLen -= len(x.Txt) + 1
currentLen += compressionLenHelper(c, x.Txt, currentLen)
case *RRSIG: case *RRSIG:
currentLen -= len(x.SignerName) + 1 compressionLenHelper(c, x.SignerName)
currentLen += compressionLenHelper(c, x.SignerName, currentLen)
case *RT: case *RT:
currentLen -= len(x.Host) + 1 compressionLenHelper(c, x.Host)
currentLen += compressionLenHelper(c, x.Host, currentLen)
case *SIG: case *SIG:
currentLen -= len(x.SignerName) + 1 compressionLenHelper(c, x.SignerName)
currentLen += compressionLenHelper(c, x.SignerName, currentLen)
case *SOA: case *SOA:
currentLen -= len(x.Ns) + 1 compressionLenHelper(c, x.Ns)
currentLen += compressionLenHelper(c, x.Ns, currentLen) compressionLenHelper(c, x.Mbox)
currentLen -= len(x.Mbox) + 1
currentLen += compressionLenHelper(c, x.Mbox, currentLen)
case *SRV: case *SRV:
currentLen -= len(x.Target) + 1 compressionLenHelper(c, x.Target)
currentLen += compressionLenHelper(c, x.Target, currentLen)
case *TALINK: case *TALINK:
currentLen -= len(x.PreviousName) + 1 compressionLenHelper(c, x.PreviousName)
currentLen += compressionLenHelper(c, x.PreviousName, currentLen) compressionLenHelper(c, x.NextName)
currentLen -= len(x.NextName) + 1
currentLen += compressionLenHelper(c, x.NextName, currentLen)
case *TKEY: case *TKEY:
currentLen -= len(x.Algorithm) + 1 compressionLenHelper(c, x.Algorithm)
currentLen += compressionLenHelper(c, x.Algorithm, currentLen)
case *TSIG: case *TSIG:
currentLen -= len(x.Algorithm) + 1 compressionLenHelper(c, x.Algorithm)
currentLen += compressionLenHelper(c, x.Algorithm, currentLen)
} }
return currentLen - initLen
} }
func compressionLenSearchType(c map[string]int, r RR) (int, bool, int) { func compressionLenSearchType(c map[string]int, r RR) (int, bool) {
switch x := r.(type) { switch x := r.(type) {
case *AFSDB: case *AFSDB:
k1, ok1, sz1 := compressionLenSearch(c, x.Hostname) k1, ok1 := compressionLenSearch(c, x.Hostname)
return k1, ok1, sz1 return k1, ok1
case *CNAME: case *CNAME:
k1, ok1, sz1 := compressionLenSearch(c, x.Target) k1, ok1 := compressionLenSearch(c, x.Target)
return k1, ok1, sz1 return k1, ok1
case *MB: case *MB:
k1, ok1, sz1 := compressionLenSearch(c, x.Mb) k1, ok1 := compressionLenSearch(c, x.Mb)
return k1, ok1, sz1 return k1, ok1
case *MD: case *MD:
k1, ok1, sz1 := compressionLenSearch(c, x.Md) k1, ok1 := compressionLenSearch(c, x.Md)
return k1, ok1, sz1 return k1, ok1
case *MF: case *MF:
k1, ok1, sz1 := compressionLenSearch(c, x.Mf) k1, ok1 := compressionLenSearch(c, x.Mf)
return k1, ok1, sz1 return k1, ok1
case *MG: case *MG:
k1, ok1, sz1 := compressionLenSearch(c, x.Mg) k1, ok1 := compressionLenSearch(c, x.Mg)
return k1, ok1, sz1 return k1, ok1
case *MINFO: case *MINFO:
k1, ok1, sz1 := compressionLenSearch(c, x.Rmail) k1, ok1 := compressionLenSearch(c, x.Rmail)
k2, ok2, sz2 := compressionLenSearch(c, x.Email) k2, ok2 := compressionLenSearch(c, x.Email)
return k1 + k2, ok1 && ok2, sz1 + sz2 return k1 + k2, ok1 && ok2
case *MR: case *MR:
k1, ok1, sz1 := compressionLenSearch(c, x.Mr) k1, ok1 := compressionLenSearch(c, x.Mr)
return k1, ok1, sz1 return k1, ok1
case *MX: case *MX:
k1, ok1, sz1 := compressionLenSearch(c, x.Mx) k1, ok1 := compressionLenSearch(c, x.Mx)
return k1, ok1, sz1 return k1, ok1
case *NS: case *NS:
k1, ok1, sz1 := compressionLenSearch(c, x.Ns) k1, ok1 := compressionLenSearch(c, x.Ns)
return k1, ok1, sz1 return k1, ok1
case *PTR: case *PTR:
k1, ok1, sz1 := compressionLenSearch(c, x.Ptr) k1, ok1 := compressionLenSearch(c, x.Ptr)
return k1, ok1, sz1 return k1, ok1
case *RT: case *RT:
k1, ok1, sz1 := compressionLenSearch(c, x.Host) k1, ok1 := compressionLenSearch(c, x.Host)
return k1, ok1, sz1 return k1, ok1
case *SOA: case *SOA:
k1, ok1, sz1 := compressionLenSearch(c, x.Ns) k1, ok1 := compressionLenSearch(c, x.Ns)
k2, ok2, sz2 := compressionLenSearch(c, x.Mbox) k2, ok2 := compressionLenSearch(c, x.Mbox)
return k1 + k2, ok1 && ok2, sz1 + sz2 return k1 + k2, ok1 && ok2
} }
return 0, false, 0 return 0, false
} }

View File

@ -1,4 +1,5 @@
// Code generated by "go run msg_generate.go"; DO NOT EDIT. // *** DO NOT MODIFY ***
// AUTOGENERATED BY go generate from msg_generate.go
package dns package dns

145
vendor/github.com/miekg/dns/ztypes.go generated vendored
View File

@ -1,4 +1,5 @@
// Code generated by "go run types_generate.go"; DO NOT EDIT. // *** DO NOT MODIFY ***
// AUTOGENERATED BY go generate from types_generate.go
package dns package dns
@ -347,7 +348,7 @@ func (rr *HIP) len() int {
l++ // HitLength l++ // HitLength
l++ // PublicKeyAlgorithm l++ // PublicKeyAlgorithm
l += 2 // PublicKeyLength l += 2 // PublicKeyLength
l += len(rr.Hit) / 2 l += len(rr.Hit)/2 + 1
l += base64.StdEncoding.DecodedLen(len(rr.PublicKey)) l += base64.StdEncoding.DecodedLen(len(rr.PublicKey))
for _, x := range rr.RendezvousServers { for _, x := range rr.RendezvousServers {
l += len(x) + 1 l += len(x) + 1
@ -470,7 +471,7 @@ func (rr *NSEC3PARAM) len() int {
l++ // Flags l++ // Flags
l += 2 // Iterations l += 2 // Iterations
l++ // SaltLength l++ // SaltLength
l += len(rr.Salt) / 2 l += len(rr.Salt)/2 + 1
return l return l
} }
func (rr *OPENPGPKEY) len() int { func (rr *OPENPGPKEY) len() int {
@ -591,9 +592,9 @@ func (rr *TKEY) len() int {
l += 2 // Mode l += 2 // Mode
l += 2 // Error l += 2 // Error
l += 2 // KeySize l += 2 // KeySize
l += len(rr.Key) / 2 l += len(rr.Key) + 1
l += 2 // OtherLen l += 2 // OtherLen
l += len(rr.OtherData) / 2 l += len(rr.OtherData) + 1
return l return l
} }
func (rr *TLSA) len() int { func (rr *TLSA) len() int {
@ -610,11 +611,11 @@ func (rr *TSIG) len() int {
l += 6 // TimeSigned l += 6 // TimeSigned
l += 2 // Fudge l += 2 // Fudge
l += 2 // MACSize l += 2 // MACSize
l += len(rr.MAC) / 2 l += len(rr.MAC)/2 + 1
l += 2 // OrigId l += 2 // OrigId
l += 2 // Error l += 2 // Error
l += 2 // OtherLen l += 2 // OtherLen
l += len(rr.OtherData) / 2 l += len(rr.OtherData)/2 + 1
return l return l
} }
func (rr *TXT) len() int { func (rr *TXT) len() int {
@ -649,215 +650,215 @@ func (rr *X25) len() int {
// copy() functions // copy() functions
func (rr *A) copy() RR { func (rr *A) copy() RR {
return &A{rr.Hdr, copyIP(rr.A)} return &A{*rr.Hdr.copyHeader(), copyIP(rr.A)}
} }
func (rr *AAAA) copy() RR { func (rr *AAAA) copy() RR {
return &AAAA{rr.Hdr, copyIP(rr.AAAA)} return &AAAA{*rr.Hdr.copyHeader(), copyIP(rr.AAAA)}
} }
func (rr *AFSDB) copy() RR { func (rr *AFSDB) copy() RR {
return &AFSDB{rr.Hdr, rr.Subtype, rr.Hostname} return &AFSDB{*rr.Hdr.copyHeader(), rr.Subtype, rr.Hostname}
} }
func (rr *ANY) copy() RR { func (rr *ANY) copy() RR {
return &ANY{rr.Hdr} return &ANY{*rr.Hdr.copyHeader()}
} }
func (rr *AVC) copy() RR { func (rr *AVC) copy() RR {
Txt := make([]string, len(rr.Txt)) Txt := make([]string, len(rr.Txt))
copy(Txt, rr.Txt) copy(Txt, rr.Txt)
return &AVC{rr.Hdr, Txt} return &AVC{*rr.Hdr.copyHeader(), Txt}
} }
func (rr *CAA) copy() RR { func (rr *CAA) copy() RR {
return &CAA{rr.Hdr, rr.Flag, rr.Tag, rr.Value} return &CAA{*rr.Hdr.copyHeader(), rr.Flag, rr.Tag, rr.Value}
} }
func (rr *CERT) copy() RR { func (rr *CERT) copy() RR {
return &CERT{rr.Hdr, rr.Type, rr.KeyTag, rr.Algorithm, rr.Certificate} return &CERT{*rr.Hdr.copyHeader(), rr.Type, rr.KeyTag, rr.Algorithm, rr.Certificate}
} }
func (rr *CNAME) copy() RR { func (rr *CNAME) copy() RR {
return &CNAME{rr.Hdr, rr.Target} return &CNAME{*rr.Hdr.copyHeader(), rr.Target}
} }
func (rr *CSYNC) copy() RR { func (rr *CSYNC) copy() RR {
TypeBitMap := make([]uint16, len(rr.TypeBitMap)) TypeBitMap := make([]uint16, len(rr.TypeBitMap))
copy(TypeBitMap, rr.TypeBitMap) copy(TypeBitMap, rr.TypeBitMap)
return &CSYNC{rr.Hdr, rr.Serial, rr.Flags, TypeBitMap} return &CSYNC{*rr.Hdr.copyHeader(), rr.Serial, rr.Flags, TypeBitMap}
} }
func (rr *DHCID) copy() RR { func (rr *DHCID) copy() RR {
return &DHCID{rr.Hdr, rr.Digest} return &DHCID{*rr.Hdr.copyHeader(), rr.Digest}
} }
func (rr *DNAME) copy() RR { func (rr *DNAME) copy() RR {
return &DNAME{rr.Hdr, rr.Target} return &DNAME{*rr.Hdr.copyHeader(), rr.Target}
} }
func (rr *DNSKEY) copy() RR { func (rr *DNSKEY) copy() RR {
return &DNSKEY{rr.Hdr, rr.Flags, rr.Protocol, rr.Algorithm, rr.PublicKey} return &DNSKEY{*rr.Hdr.copyHeader(), rr.Flags, rr.Protocol, rr.Algorithm, rr.PublicKey}
} }
func (rr *DS) copy() RR { func (rr *DS) copy() RR {
return &DS{rr.Hdr, rr.KeyTag, rr.Algorithm, rr.DigestType, rr.Digest} return &DS{*rr.Hdr.copyHeader(), rr.KeyTag, rr.Algorithm, rr.DigestType, rr.Digest}
} }
func (rr *EID) copy() RR { func (rr *EID) copy() RR {
return &EID{rr.Hdr, rr.Endpoint} return &EID{*rr.Hdr.copyHeader(), rr.Endpoint}
} }
func (rr *EUI48) copy() RR { func (rr *EUI48) copy() RR {
return &EUI48{rr.Hdr, rr.Address} return &EUI48{*rr.Hdr.copyHeader(), rr.Address}
} }
func (rr *EUI64) copy() RR { func (rr *EUI64) copy() RR {
return &EUI64{rr.Hdr, rr.Address} return &EUI64{*rr.Hdr.copyHeader(), rr.Address}
} }
func (rr *GID) copy() RR { func (rr *GID) copy() RR {
return &GID{rr.Hdr, rr.Gid} return &GID{*rr.Hdr.copyHeader(), rr.Gid}
} }
func (rr *GPOS) copy() RR { func (rr *GPOS) copy() RR {
return &GPOS{rr.Hdr, rr.Longitude, rr.Latitude, rr.Altitude} return &GPOS{*rr.Hdr.copyHeader(), rr.Longitude, rr.Latitude, rr.Altitude}
} }
func (rr *HINFO) copy() RR { func (rr *HINFO) copy() RR {
return &HINFO{rr.Hdr, rr.Cpu, rr.Os} return &HINFO{*rr.Hdr.copyHeader(), rr.Cpu, rr.Os}
} }
func (rr *HIP) copy() RR { func (rr *HIP) copy() RR {
RendezvousServers := make([]string, len(rr.RendezvousServers)) RendezvousServers := make([]string, len(rr.RendezvousServers))
copy(RendezvousServers, rr.RendezvousServers) copy(RendezvousServers, rr.RendezvousServers)
return &HIP{rr.Hdr, rr.HitLength, rr.PublicKeyAlgorithm, rr.PublicKeyLength, rr.Hit, rr.PublicKey, RendezvousServers} return &HIP{*rr.Hdr.copyHeader(), rr.HitLength, rr.PublicKeyAlgorithm, rr.PublicKeyLength, rr.Hit, rr.PublicKey, RendezvousServers}
} }
func (rr *KX) copy() RR { func (rr *KX) copy() RR {
return &KX{rr.Hdr, rr.Preference, rr.Exchanger} return &KX{*rr.Hdr.copyHeader(), rr.Preference, rr.Exchanger}
} }
func (rr *L32) copy() RR { func (rr *L32) copy() RR {
return &L32{rr.Hdr, rr.Preference, copyIP(rr.Locator32)} return &L32{*rr.Hdr.copyHeader(), rr.Preference, copyIP(rr.Locator32)}
} }
func (rr *L64) copy() RR { func (rr *L64) copy() RR {
return &L64{rr.Hdr, rr.Preference, rr.Locator64} return &L64{*rr.Hdr.copyHeader(), rr.Preference, rr.Locator64}
} }
func (rr *LOC) copy() RR { func (rr *LOC) copy() RR {
return &LOC{rr.Hdr, rr.Version, rr.Size, rr.HorizPre, rr.VertPre, rr.Latitude, rr.Longitude, rr.Altitude} return &LOC{*rr.Hdr.copyHeader(), rr.Version, rr.Size, rr.HorizPre, rr.VertPre, rr.Latitude, rr.Longitude, rr.Altitude}
} }
func (rr *LP) copy() RR { func (rr *LP) copy() RR {
return &LP{rr.Hdr, rr.Preference, rr.Fqdn} return &LP{*rr.Hdr.copyHeader(), rr.Preference, rr.Fqdn}
} }
func (rr *MB) copy() RR { func (rr *MB) copy() RR {
return &MB{rr.Hdr, rr.Mb} return &MB{*rr.Hdr.copyHeader(), rr.Mb}
} }
func (rr *MD) copy() RR { func (rr *MD) copy() RR {
return &MD{rr.Hdr, rr.Md} return &MD{*rr.Hdr.copyHeader(), rr.Md}
} }
func (rr *MF) copy() RR { func (rr *MF) copy() RR {
return &MF{rr.Hdr, rr.Mf} return &MF{*rr.Hdr.copyHeader(), rr.Mf}
} }
func (rr *MG) copy() RR { func (rr *MG) copy() RR {
return &MG{rr.Hdr, rr.Mg} return &MG{*rr.Hdr.copyHeader(), rr.Mg}
} }
func (rr *MINFO) copy() RR { func (rr *MINFO) copy() RR {
return &MINFO{rr.Hdr, rr.Rmail, rr.Email} return &MINFO{*rr.Hdr.copyHeader(), rr.Rmail, rr.Email}
} }
func (rr *MR) copy() RR { func (rr *MR) copy() RR {
return &MR{rr.Hdr, rr.Mr} return &MR{*rr.Hdr.copyHeader(), rr.Mr}
} }
func (rr *MX) copy() RR { func (rr *MX) copy() RR {
return &MX{rr.Hdr, rr.Preference, rr.Mx} return &MX{*rr.Hdr.copyHeader(), rr.Preference, rr.Mx}
} }
func (rr *NAPTR) copy() RR { func (rr *NAPTR) copy() RR {
return &NAPTR{rr.Hdr, rr.Order, rr.Preference, rr.Flags, rr.Service, rr.Regexp, rr.Replacement} return &NAPTR{*rr.Hdr.copyHeader(), rr.Order, rr.Preference, rr.Flags, rr.Service, rr.Regexp, rr.Replacement}
} }
func (rr *NID) copy() RR { func (rr *NID) copy() RR {
return &NID{rr.Hdr, rr.Preference, rr.NodeID} return &NID{*rr.Hdr.copyHeader(), rr.Preference, rr.NodeID}
} }
func (rr *NIMLOC) copy() RR { func (rr *NIMLOC) copy() RR {
return &NIMLOC{rr.Hdr, rr.Locator} return &NIMLOC{*rr.Hdr.copyHeader(), rr.Locator}
} }
func (rr *NINFO) copy() RR { func (rr *NINFO) copy() RR {
ZSData := make([]string, len(rr.ZSData)) ZSData := make([]string, len(rr.ZSData))
copy(ZSData, rr.ZSData) copy(ZSData, rr.ZSData)
return &NINFO{rr.Hdr, ZSData} return &NINFO{*rr.Hdr.copyHeader(), ZSData}
} }
func (rr *NS) copy() RR { func (rr *NS) copy() RR {
return &NS{rr.Hdr, rr.Ns} return &NS{*rr.Hdr.copyHeader(), rr.Ns}
} }
func (rr *NSAPPTR) copy() RR { func (rr *NSAPPTR) copy() RR {
return &NSAPPTR{rr.Hdr, rr.Ptr} return &NSAPPTR{*rr.Hdr.copyHeader(), rr.Ptr}
} }
func (rr *NSEC) copy() RR { func (rr *NSEC) copy() RR {
TypeBitMap := make([]uint16, len(rr.TypeBitMap)) TypeBitMap := make([]uint16, len(rr.TypeBitMap))
copy(TypeBitMap, rr.TypeBitMap) copy(TypeBitMap, rr.TypeBitMap)
return &NSEC{rr.Hdr, rr.NextDomain, TypeBitMap} return &NSEC{*rr.Hdr.copyHeader(), rr.NextDomain, TypeBitMap}
} }
func (rr *NSEC3) copy() RR { func (rr *NSEC3) copy() RR {
TypeBitMap := make([]uint16, len(rr.TypeBitMap)) TypeBitMap := make([]uint16, len(rr.TypeBitMap))
copy(TypeBitMap, rr.TypeBitMap) copy(TypeBitMap, rr.TypeBitMap)
return &NSEC3{rr.Hdr, rr.Hash, rr.Flags, rr.Iterations, rr.SaltLength, rr.Salt, rr.HashLength, rr.NextDomain, TypeBitMap} return &NSEC3{*rr.Hdr.copyHeader(), rr.Hash, rr.Flags, rr.Iterations, rr.SaltLength, rr.Salt, rr.HashLength, rr.NextDomain, TypeBitMap}
} }
func (rr *NSEC3PARAM) copy() RR { func (rr *NSEC3PARAM) copy() RR {
return &NSEC3PARAM{rr.Hdr, rr.Hash, rr.Flags, rr.Iterations, rr.SaltLength, rr.Salt} return &NSEC3PARAM{*rr.Hdr.copyHeader(), rr.Hash, rr.Flags, rr.Iterations, rr.SaltLength, rr.Salt}
} }
func (rr *OPENPGPKEY) copy() RR { func (rr *OPENPGPKEY) copy() RR {
return &OPENPGPKEY{rr.Hdr, rr.PublicKey} return &OPENPGPKEY{*rr.Hdr.copyHeader(), rr.PublicKey}
} }
func (rr *OPT) copy() RR { func (rr *OPT) copy() RR {
Option := make([]EDNS0, len(rr.Option)) Option := make([]EDNS0, len(rr.Option))
copy(Option, rr.Option) copy(Option, rr.Option)
return &OPT{rr.Hdr, Option} return &OPT{*rr.Hdr.copyHeader(), Option}
} }
func (rr *PTR) copy() RR { func (rr *PTR) copy() RR {
return &PTR{rr.Hdr, rr.Ptr} return &PTR{*rr.Hdr.copyHeader(), rr.Ptr}
} }
func (rr *PX) copy() RR { func (rr *PX) copy() RR {
return &PX{rr.Hdr, rr.Preference, rr.Map822, rr.Mapx400} return &PX{*rr.Hdr.copyHeader(), rr.Preference, rr.Map822, rr.Mapx400}
} }
func (rr *RFC3597) copy() RR { func (rr *RFC3597) copy() RR {
return &RFC3597{rr.Hdr, rr.Rdata} return &RFC3597{*rr.Hdr.copyHeader(), rr.Rdata}
} }
func (rr *RKEY) copy() RR { func (rr *RKEY) copy() RR {
return &RKEY{rr.Hdr, rr.Flags, rr.Protocol, rr.Algorithm, rr.PublicKey} return &RKEY{*rr.Hdr.copyHeader(), rr.Flags, rr.Protocol, rr.Algorithm, rr.PublicKey}
} }
func (rr *RP) copy() RR { func (rr *RP) copy() RR {
return &RP{rr.Hdr, rr.Mbox, rr.Txt} return &RP{*rr.Hdr.copyHeader(), rr.Mbox, rr.Txt}
} }
func (rr *RRSIG) copy() RR { func (rr *RRSIG) copy() RR {
return &RRSIG{rr.Hdr, rr.TypeCovered, rr.Algorithm, rr.Labels, rr.OrigTtl, rr.Expiration, rr.Inception, rr.KeyTag, rr.SignerName, rr.Signature} return &RRSIG{*rr.Hdr.copyHeader(), rr.TypeCovered, rr.Algorithm, rr.Labels, rr.OrigTtl, rr.Expiration, rr.Inception, rr.KeyTag, rr.SignerName, rr.Signature}
} }
func (rr *RT) copy() RR { func (rr *RT) copy() RR {
return &RT{rr.Hdr, rr.Preference, rr.Host} return &RT{*rr.Hdr.copyHeader(), rr.Preference, rr.Host}
} }
func (rr *SMIMEA) copy() RR { func (rr *SMIMEA) copy() RR {
return &SMIMEA{rr.Hdr, rr.Usage, rr.Selector, rr.MatchingType, rr.Certificate} return &SMIMEA{*rr.Hdr.copyHeader(), rr.Usage, rr.Selector, rr.MatchingType, rr.Certificate}
} }
func (rr *SOA) copy() RR { func (rr *SOA) copy() RR {
return &SOA{rr.Hdr, rr.Ns, rr.Mbox, rr.Serial, rr.Refresh, rr.Retry, rr.Expire, rr.Minttl} return &SOA{*rr.Hdr.copyHeader(), rr.Ns, rr.Mbox, rr.Serial, rr.Refresh, rr.Retry, rr.Expire, rr.Minttl}
} }
func (rr *SPF) copy() RR { func (rr *SPF) copy() RR {
Txt := make([]string, len(rr.Txt)) Txt := make([]string, len(rr.Txt))
copy(Txt, rr.Txt) copy(Txt, rr.Txt)
return &SPF{rr.Hdr, Txt} return &SPF{*rr.Hdr.copyHeader(), Txt}
} }
func (rr *SRV) copy() RR { func (rr *SRV) copy() RR {
return &SRV{rr.Hdr, rr.Priority, rr.Weight, rr.Port, rr.Target} return &SRV{*rr.Hdr.copyHeader(), rr.Priority, rr.Weight, rr.Port, rr.Target}
} }
func (rr *SSHFP) copy() RR { func (rr *SSHFP) copy() RR {
return &SSHFP{rr.Hdr, rr.Algorithm, rr.Type, rr.FingerPrint} return &SSHFP{*rr.Hdr.copyHeader(), rr.Algorithm, rr.Type, rr.FingerPrint}
} }
func (rr *TA) copy() RR { func (rr *TA) copy() RR {
return &TA{rr.Hdr, rr.KeyTag, rr.Algorithm, rr.DigestType, rr.Digest} return &TA{*rr.Hdr.copyHeader(), rr.KeyTag, rr.Algorithm, rr.DigestType, rr.Digest}
} }
func (rr *TALINK) copy() RR { func (rr *TALINK) copy() RR {
return &TALINK{rr.Hdr, rr.PreviousName, rr.NextName} return &TALINK{*rr.Hdr.copyHeader(), rr.PreviousName, rr.NextName}
} }
func (rr *TKEY) copy() RR { func (rr *TKEY) copy() RR {
return &TKEY{rr.Hdr, rr.Algorithm, rr.Inception, rr.Expiration, rr.Mode, rr.Error, rr.KeySize, rr.Key, rr.OtherLen, rr.OtherData} return &TKEY{*rr.Hdr.copyHeader(), rr.Algorithm, rr.Inception, rr.Expiration, rr.Mode, rr.Error, rr.KeySize, rr.Key, rr.OtherLen, rr.OtherData}
} }
func (rr *TLSA) copy() RR { func (rr *TLSA) copy() RR {
return &TLSA{rr.Hdr, rr.Usage, rr.Selector, rr.MatchingType, rr.Certificate} return &TLSA{*rr.Hdr.copyHeader(), rr.Usage, rr.Selector, rr.MatchingType, rr.Certificate}
} }
func (rr *TSIG) copy() RR { func (rr *TSIG) copy() RR {
return &TSIG{rr.Hdr, rr.Algorithm, rr.TimeSigned, rr.Fudge, rr.MACSize, rr.MAC, rr.OrigId, rr.Error, rr.OtherLen, rr.OtherData} return &TSIG{*rr.Hdr.copyHeader(), rr.Algorithm, rr.TimeSigned, rr.Fudge, rr.MACSize, rr.MAC, rr.OrigId, rr.Error, rr.OtherLen, rr.OtherData}
} }
func (rr *TXT) copy() RR { func (rr *TXT) copy() RR {
Txt := make([]string, len(rr.Txt)) Txt := make([]string, len(rr.Txt))
copy(Txt, rr.Txt) copy(Txt, rr.Txt)
return &TXT{rr.Hdr, Txt} return &TXT{*rr.Hdr.copyHeader(), Txt}
} }
func (rr *UID) copy() RR { func (rr *UID) copy() RR {
return &UID{rr.Hdr, rr.Uid} return &UID{*rr.Hdr.copyHeader(), rr.Uid}
} }
func (rr *UINFO) copy() RR { func (rr *UINFO) copy() RR {
return &UINFO{rr.Hdr, rr.Uinfo} return &UINFO{*rr.Hdr.copyHeader(), rr.Uinfo}
} }
func (rr *URI) copy() RR { func (rr *URI) copy() RR {
return &URI{rr.Hdr, rr.Priority, rr.Weight, rr.Target} return &URI{*rr.Hdr.copyHeader(), rr.Priority, rr.Weight, rr.Target}
} }
func (rr *X25) copy() RR { func (rr *X25) copy() RR {
return &X25{rr.Hdr, rr.PSDNAddress} return &X25{*rr.Hdr.copyHeader(), rr.PSDNAddress}
} }

41
vendor/golang.org/x/net/bpf/asm.go generated vendored
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@ -1,41 +0,0 @@
// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package bpf
import "fmt"
// Assemble converts insts into raw instructions suitable for loading
// into a BPF virtual machine.
//
// Currently, no optimization is attempted, the assembled program flow
// is exactly as provided.
func Assemble(insts []Instruction) ([]RawInstruction, error) {
ret := make([]RawInstruction, len(insts))
var err error
for i, inst := range insts {
ret[i], err = inst.Assemble()
if err != nil {
return nil, fmt.Errorf("assembling instruction %d: %s", i+1, err)
}
}
return ret, nil
}
// Disassemble attempts to parse raw back into
// Instructions. Unrecognized RawInstructions are assumed to be an
// extension not implemented by this package, and are passed through
// unchanged to the output. The allDecoded value reports whether insts
// contains no RawInstructions.
func Disassemble(raw []RawInstruction) (insts []Instruction, allDecoded bool) {
insts = make([]Instruction, len(raw))
allDecoded = true
for i, r := range raw {
insts[i] = r.Disassemble()
if _, ok := insts[i].(RawInstruction); ok {
allDecoded = false
}
}
return insts, allDecoded
}

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@ -1,218 +0,0 @@
// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package bpf
// A Register is a register of the BPF virtual machine.
type Register uint16
const (
// RegA is the accumulator register. RegA is always the
// destination register of ALU operations.
RegA Register = iota
// RegX is the indirection register, used by LoadIndirect
// operations.
RegX
)
// An ALUOp is an arithmetic or logic operation.
type ALUOp uint16
// ALU binary operation types.
const (
ALUOpAdd ALUOp = iota << 4
ALUOpSub
ALUOpMul
ALUOpDiv
ALUOpOr
ALUOpAnd
ALUOpShiftLeft
ALUOpShiftRight
aluOpNeg // Not exported because it's the only unary ALU operation, and gets its own instruction type.
ALUOpMod
ALUOpXor
)
// A JumpTest is a comparison operator used in conditional jumps.
type JumpTest uint16
// Supported operators for conditional jumps.
const (
// K == A
JumpEqual JumpTest = iota
// K != A
JumpNotEqual
// K > A
JumpGreaterThan
// K < A
JumpLessThan
// K >= A
JumpGreaterOrEqual
// K <= A
JumpLessOrEqual
// K & A != 0
JumpBitsSet
// K & A == 0
JumpBitsNotSet
)
// An Extension is a function call provided by the kernel that
// performs advanced operations that are expensive or impossible
// within the BPF virtual machine.
//
// Extensions are only implemented by the Linux kernel.
//
// TODO: should we prune this list? Some of these extensions seem
// either broken or near-impossible to use correctly, whereas other
// (len, random, ifindex) are quite useful.
type Extension int
// Extension functions available in the Linux kernel.
const (
// extOffset is the negative maximum number of instructions used
// to load instructions by overloading the K argument.
extOffset = -0x1000
// ExtLen returns the length of the packet.
ExtLen Extension = 1
// ExtProto returns the packet's L3 protocol type.
ExtProto Extension = 0
// ExtType returns the packet's type (skb->pkt_type in the kernel)
//
// TODO: better documentation. How nice an API do we want to
// provide for these esoteric extensions?
ExtType Extension = 4
// ExtPayloadOffset returns the offset of the packet payload, or
// the first protocol header that the kernel does not know how to
// parse.
ExtPayloadOffset Extension = 52
// ExtInterfaceIndex returns the index of the interface on which
// the packet was received.
ExtInterfaceIndex Extension = 8
// ExtNetlinkAttr returns the netlink attribute of type X at
// offset A.
ExtNetlinkAttr Extension = 12
// ExtNetlinkAttrNested returns the nested netlink attribute of
// type X at offset A.
ExtNetlinkAttrNested Extension = 16
// ExtMark returns the packet's mark value.
ExtMark Extension = 20
// ExtQueue returns the packet's assigned hardware queue.
ExtQueue Extension = 24
// ExtLinkLayerType returns the packet's hardware address type
// (e.g. Ethernet, Infiniband).
ExtLinkLayerType Extension = 28
// ExtRXHash returns the packets receive hash.
//
// TODO: figure out what this rxhash actually is.
ExtRXHash Extension = 32
// ExtCPUID returns the ID of the CPU processing the current
// packet.
ExtCPUID Extension = 36
// ExtVLANTag returns the packet's VLAN tag.
ExtVLANTag Extension = 44
// ExtVLANTagPresent returns non-zero if the packet has a VLAN
// tag.
//
// TODO: I think this might be a lie: it reads bit 0x1000 of the
// VLAN header, which changed meaning in recent revisions of the
// spec - this extension may now return meaningless information.
ExtVLANTagPresent Extension = 48
// ExtVLANProto returns 0x8100 if the frame has a VLAN header,
// 0x88a8 if the frame has a "Q-in-Q" double VLAN header, or some
// other value if no VLAN information is present.
ExtVLANProto Extension = 60
// ExtRand returns a uniformly random uint32.
ExtRand Extension = 56
)
// The following gives names to various bit patterns used in opcode construction.
const (
opMaskCls uint16 = 0x7
// opClsLoad masks
opMaskLoadDest = 0x01
opMaskLoadWidth = 0x18
opMaskLoadMode = 0xe0
// opClsALU
opMaskOperandSrc = 0x08
opMaskOperator = 0xf0
// opClsJump
opMaskJumpConst = 0x0f
opMaskJumpCond = 0xf0
)
const (
// +---------------+-----------------+---+---+---+
// | AddrMode (3b) | LoadWidth (2b) | 0 | 0 | 0 |
// +---------------+-----------------+---+---+---+
opClsLoadA uint16 = iota
// +---------------+-----------------+---+---+---+
// | AddrMode (3b) | LoadWidth (2b) | 0 | 0 | 1 |
// +---------------+-----------------+---+---+---+
opClsLoadX
// +---+---+---+---+---+---+---+---+
// | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 |
// +---+---+---+---+---+---+---+---+
opClsStoreA
// +---+---+---+---+---+---+---+---+
// | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 1 |
// +---+---+---+---+---+---+---+---+
opClsStoreX
// +---------------+-----------------+---+---+---+
// | Operator (4b) | OperandSrc (1b) | 1 | 0 | 0 |
// +---------------+-----------------+---+---+---+
opClsALU
// +-----------------------------+---+---+---+---+
// | TestOperator (4b) | 0 | 1 | 0 | 1 |
// +-----------------------------+---+---+---+---+
opClsJump
// +---+-------------------------+---+---+---+---+
// | 0 | 0 | 0 | RetSrc (1b) | 0 | 1 | 1 | 0 |
// +---+-------------------------+---+---+---+---+
opClsReturn
// +---+-------------------------+---+---+---+---+
// | 0 | 0 | 0 | TXAorTAX (1b) | 0 | 1 | 1 | 1 |
// +---+-------------------------+---+---+---+---+
opClsMisc
)
const (
opAddrModeImmediate uint16 = iota << 5
opAddrModeAbsolute
opAddrModeIndirect
opAddrModeScratch
opAddrModePacketLen // actually an extension, not an addressing mode.
opAddrModeMemShift
)
const (
opLoadWidth4 uint16 = iota << 3
opLoadWidth2
opLoadWidth1
)
// Operator defined by ALUOp*
const (
opALUSrcConstant uint16 = iota << 3
opALUSrcX
)
const (
opJumpAlways = iota << 4
opJumpEqual
opJumpGT
opJumpGE
opJumpSet
)
const (
opRetSrcConstant uint16 = iota << 4
opRetSrcA
)
const (
opMiscTAX = 0x00
opMiscTXA = 0x80
)

82
vendor/golang.org/x/net/bpf/doc.go generated vendored
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@ -1,82 +0,0 @@
// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
/*
Package bpf implements marshaling and unmarshaling of programs for the
Berkeley Packet Filter virtual machine, and provides a Go implementation
of the virtual machine.
BPF's main use is to specify a packet filter for network taps, so that
the kernel doesn't have to expensively copy every packet it sees to
userspace. However, it's been repurposed to other areas where running
user code in-kernel is needed. For example, Linux's seccomp uses BPF
to apply security policies to system calls. For simplicity, this
documentation refers only to packets, but other uses of BPF have their
own data payloads.
BPF programs run in a restricted virtual machine. It has almost no
access to kernel functions, and while conditional branches are
allowed, they can only jump forwards, to guarantee that there are no
infinite loops.
The virtual machine
The BPF VM is an accumulator machine. Its main register, called
register A, is an implicit source and destination in all arithmetic
and logic operations. The machine also has 16 scratch registers for
temporary storage, and an indirection register (register X) for
indirect memory access. All registers are 32 bits wide.
Each run of a BPF program is given one packet, which is placed in the
VM's read-only "main memory". LoadAbsolute and LoadIndirect
instructions can fetch up to 32 bits at a time into register A for
examination.
The goal of a BPF program is to produce and return a verdict (uint32),
which tells the kernel what to do with the packet. In the context of
packet filtering, the returned value is the number of bytes of the
packet to forward to userspace, or 0 to ignore the packet. Other
contexts like seccomp define their own return values.
In order to simplify programs, attempts to read past the end of the
packet terminate the program execution with a verdict of 0 (ignore
packet). This means that the vast majority of BPF programs don't need
to do any explicit bounds checking.
In addition to the bytes of the packet, some BPF programs have access
to extensions, which are essentially calls to kernel utility
functions. Currently, the only extensions supported by this package
are the Linux packet filter extensions.
Examples
This packet filter selects all ARP packets.
bpf.Assemble([]bpf.Instruction{
// Load "EtherType" field from the ethernet header.
bpf.LoadAbsolute{Off: 12, Size: 2},
// Skip over the next instruction if EtherType is not ARP.
bpf.JumpIf{Cond: bpf.JumpNotEqual, Val: 0x0806, SkipTrue: 1},
// Verdict is "send up to 4k of the packet to userspace."
bpf.RetConstant{Val: 4096},
// Verdict is "ignore packet."
bpf.RetConstant{Val: 0},
})
This packet filter captures a random 1% sample of traffic.
bpf.Assemble([]bpf.Instruction{
// Get a 32-bit random number from the Linux kernel.
bpf.LoadExtension{Num: bpf.ExtRand},
// 1% dice roll?
bpf.JumpIf{Cond: bpf.JumpLessThan, Val: 2^32/100, SkipFalse: 1},
// Capture.
bpf.RetConstant{Val: 4096},
// Ignore.
bpf.RetConstant{Val: 0},
})
*/
package bpf // import "golang.org/x/net/bpf"

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@ -1,704 +0,0 @@
// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package bpf
import "fmt"
// An Instruction is one instruction executed by the BPF virtual
// machine.
type Instruction interface {
// Assemble assembles the Instruction into a RawInstruction.
Assemble() (RawInstruction, error)
}
// A RawInstruction is a raw BPF virtual machine instruction.
type RawInstruction struct {
// Operation to execute.
Op uint16
// For conditional jump instructions, the number of instructions
// to skip if the condition is true/false.
Jt uint8
Jf uint8
// Constant parameter. The meaning depends on the Op.
K uint32
}
// Assemble implements the Instruction Assemble method.
func (ri RawInstruction) Assemble() (RawInstruction, error) { return ri, nil }
// Disassemble parses ri into an Instruction and returns it. If ri is
// not recognized by this package, ri itself is returned.
func (ri RawInstruction) Disassemble() Instruction {
switch ri.Op & opMaskCls {
case opClsLoadA, opClsLoadX:
reg := Register(ri.Op & opMaskLoadDest)
sz := 0
switch ri.Op & opMaskLoadWidth {
case opLoadWidth4:
sz = 4
case opLoadWidth2:
sz = 2
case opLoadWidth1:
sz = 1
default:
return ri
}
switch ri.Op & opMaskLoadMode {
case opAddrModeImmediate:
if sz != 4 {
return ri
}
return LoadConstant{Dst: reg, Val: ri.K}
case opAddrModeScratch:
if sz != 4 || ri.K > 15 {
return ri
}
return LoadScratch{Dst: reg, N: int(ri.K)}
case opAddrModeAbsolute:
if ri.K > extOffset+0xffffffff {
return LoadExtension{Num: Extension(-extOffset + ri.K)}
}
return LoadAbsolute{Size: sz, Off: ri.K}
case opAddrModeIndirect:
return LoadIndirect{Size: sz, Off: ri.K}
case opAddrModePacketLen:
if sz != 4 {
return ri
}
return LoadExtension{Num: ExtLen}
case opAddrModeMemShift:
return LoadMemShift{Off: ri.K}
default:
return ri
}
case opClsStoreA:
if ri.Op != opClsStoreA || ri.K > 15 {
return ri
}
return StoreScratch{Src: RegA, N: int(ri.K)}
case opClsStoreX:
if ri.Op != opClsStoreX || ri.K > 15 {
return ri
}
return StoreScratch{Src: RegX, N: int(ri.K)}
case opClsALU:
switch op := ALUOp(ri.Op & opMaskOperator); op {
case ALUOpAdd, ALUOpSub, ALUOpMul, ALUOpDiv, ALUOpOr, ALUOpAnd, ALUOpShiftLeft, ALUOpShiftRight, ALUOpMod, ALUOpXor:
if ri.Op&opMaskOperandSrc != 0 {
return ALUOpX{Op: op}
}
return ALUOpConstant{Op: op, Val: ri.K}
case aluOpNeg:
return NegateA{}
default:
return ri
}
case opClsJump:
if ri.Op&opMaskJumpConst != opClsJump {
return ri
}
switch ri.Op & opMaskJumpCond {
case opJumpAlways:
return Jump{Skip: ri.K}
case opJumpEqual:
if ri.Jt == 0 {
return JumpIf{
Cond: JumpNotEqual,
Val: ri.K,
SkipTrue: ri.Jf,
SkipFalse: 0,
}
}
return JumpIf{
Cond: JumpEqual,
Val: ri.K,
SkipTrue: ri.Jt,
SkipFalse: ri.Jf,
}
case opJumpGT:
if ri.Jt == 0 {
return JumpIf{
Cond: JumpLessOrEqual,
Val: ri.K,
SkipTrue: ri.Jf,
SkipFalse: 0,
}
}
return JumpIf{
Cond: JumpGreaterThan,
Val: ri.K,
SkipTrue: ri.Jt,
SkipFalse: ri.Jf,
}
case opJumpGE:
if ri.Jt == 0 {
return JumpIf{
Cond: JumpLessThan,
Val: ri.K,
SkipTrue: ri.Jf,
SkipFalse: 0,
}
}
return JumpIf{
Cond: JumpGreaterOrEqual,
Val: ri.K,
SkipTrue: ri.Jt,
SkipFalse: ri.Jf,
}
case opJumpSet:
return JumpIf{
Cond: JumpBitsSet,
Val: ri.K,
SkipTrue: ri.Jt,
SkipFalse: ri.Jf,
}
default:
return ri
}
case opClsReturn:
switch ri.Op {
case opClsReturn | opRetSrcA:
return RetA{}
case opClsReturn | opRetSrcConstant:
return RetConstant{Val: ri.K}
default:
return ri
}
case opClsMisc:
switch ri.Op {
case opClsMisc | opMiscTAX:
return TAX{}
case opClsMisc | opMiscTXA:
return TXA{}
default:
return ri
}
default:
panic("unreachable") // switch is exhaustive on the bit pattern
}
}
// LoadConstant loads Val into register Dst.
type LoadConstant struct {
Dst Register
Val uint32
}
// Assemble implements the Instruction Assemble method.
func (a LoadConstant) Assemble() (RawInstruction, error) {
return assembleLoad(a.Dst, 4, opAddrModeImmediate, a.Val)
}
// String returns the instruction in assembler notation.
func (a LoadConstant) String() string {
switch a.Dst {
case RegA:
return fmt.Sprintf("ld #%d", a.Val)
case RegX:
return fmt.Sprintf("ldx #%d", a.Val)
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
// LoadScratch loads scratch[N] into register Dst.
type LoadScratch struct {
Dst Register
N int // 0-15
}
// Assemble implements the Instruction Assemble method.
func (a LoadScratch) Assemble() (RawInstruction, error) {
if a.N < 0 || a.N > 15 {
return RawInstruction{}, fmt.Errorf("invalid scratch slot %d", a.N)
}
return assembleLoad(a.Dst, 4, opAddrModeScratch, uint32(a.N))
}
// String returns the instruction in assembler notation.
func (a LoadScratch) String() string {
switch a.Dst {
case RegA:
return fmt.Sprintf("ld M[%d]", a.N)
case RegX:
return fmt.Sprintf("ldx M[%d]", a.N)
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
// LoadAbsolute loads packet[Off:Off+Size] as an integer value into
// register A.
type LoadAbsolute struct {
Off uint32
Size int // 1, 2 or 4
}
// Assemble implements the Instruction Assemble method.
func (a LoadAbsolute) Assemble() (RawInstruction, error) {
return assembleLoad(RegA, a.Size, opAddrModeAbsolute, a.Off)
}
// String returns the instruction in assembler notation.
func (a LoadAbsolute) String() string {
switch a.Size {
case 1: // byte
return fmt.Sprintf("ldb [%d]", a.Off)
case 2: // half word
return fmt.Sprintf("ldh [%d]", a.Off)
case 4: // word
if a.Off > extOffset+0xffffffff {
return LoadExtension{Num: Extension(a.Off + 0x1000)}.String()
}
return fmt.Sprintf("ld [%d]", a.Off)
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
// LoadIndirect loads packet[X+Off:X+Off+Size] as an integer value
// into register A.
type LoadIndirect struct {
Off uint32
Size int // 1, 2 or 4
}
// Assemble implements the Instruction Assemble method.
func (a LoadIndirect) Assemble() (RawInstruction, error) {
return assembleLoad(RegA, a.Size, opAddrModeIndirect, a.Off)
}
// String returns the instruction in assembler notation.
func (a LoadIndirect) String() string {
switch a.Size {
case 1: // byte
return fmt.Sprintf("ldb [x + %d]", a.Off)
case 2: // half word
return fmt.Sprintf("ldh [x + %d]", a.Off)
case 4: // word
return fmt.Sprintf("ld [x + %d]", a.Off)
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
// LoadMemShift multiplies the first 4 bits of the byte at packet[Off]
// by 4 and stores the result in register X.
//
// This instruction is mainly useful to load into X the length of an
// IPv4 packet header in a single instruction, rather than have to do
// the arithmetic on the header's first byte by hand.
type LoadMemShift struct {
Off uint32
}
// Assemble implements the Instruction Assemble method.
func (a LoadMemShift) Assemble() (RawInstruction, error) {
return assembleLoad(RegX, 1, opAddrModeMemShift, a.Off)
}
// String returns the instruction in assembler notation.
func (a LoadMemShift) String() string {
return fmt.Sprintf("ldx 4*([%d]&0xf)", a.Off)
}
// LoadExtension invokes a linux-specific extension and stores the
// result in register A.
type LoadExtension struct {
Num Extension
}
// Assemble implements the Instruction Assemble method.
func (a LoadExtension) Assemble() (RawInstruction, error) {
if a.Num == ExtLen {
return assembleLoad(RegA, 4, opAddrModePacketLen, 0)
}
return assembleLoad(RegA, 4, opAddrModeAbsolute, uint32(extOffset+a.Num))
}
// String returns the instruction in assembler notation.
func (a LoadExtension) String() string {
switch a.Num {
case ExtLen:
return "ld #len"
case ExtProto:
return "ld #proto"
case ExtType:
return "ld #type"
case ExtPayloadOffset:
return "ld #poff"
case ExtInterfaceIndex:
return "ld #ifidx"
case ExtNetlinkAttr:
return "ld #nla"
case ExtNetlinkAttrNested:
return "ld #nlan"
case ExtMark:
return "ld #mark"
case ExtQueue:
return "ld #queue"
case ExtLinkLayerType:
return "ld #hatype"
case ExtRXHash:
return "ld #rxhash"
case ExtCPUID:
return "ld #cpu"
case ExtVLANTag:
return "ld #vlan_tci"
case ExtVLANTagPresent:
return "ld #vlan_avail"
case ExtVLANProto:
return "ld #vlan_tpid"
case ExtRand:
return "ld #rand"
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
// StoreScratch stores register Src into scratch[N].
type StoreScratch struct {
Src Register
N int // 0-15
}
// Assemble implements the Instruction Assemble method.
func (a StoreScratch) Assemble() (RawInstruction, error) {
if a.N < 0 || a.N > 15 {
return RawInstruction{}, fmt.Errorf("invalid scratch slot %d", a.N)
}
var op uint16
switch a.Src {
case RegA:
op = opClsStoreA
case RegX:
op = opClsStoreX
default:
return RawInstruction{}, fmt.Errorf("invalid source register %v", a.Src)
}
return RawInstruction{
Op: op,
K: uint32(a.N),
}, nil
}
// String returns the instruction in assembler notation.
func (a StoreScratch) String() string {
switch a.Src {
case RegA:
return fmt.Sprintf("st M[%d]", a.N)
case RegX:
return fmt.Sprintf("stx M[%d]", a.N)
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
// ALUOpConstant executes A = A <Op> Val.
type ALUOpConstant struct {
Op ALUOp
Val uint32
}
// Assemble implements the Instruction Assemble method.
func (a ALUOpConstant) Assemble() (RawInstruction, error) {
return RawInstruction{
Op: opClsALU | opALUSrcConstant | uint16(a.Op),
K: a.Val,
}, nil
}
// String returns the instruction in assembler notation.
func (a ALUOpConstant) String() string {
switch a.Op {
case ALUOpAdd:
return fmt.Sprintf("add #%d", a.Val)
case ALUOpSub:
return fmt.Sprintf("sub #%d", a.Val)
case ALUOpMul:
return fmt.Sprintf("mul #%d", a.Val)
case ALUOpDiv:
return fmt.Sprintf("div #%d", a.Val)
case ALUOpMod:
return fmt.Sprintf("mod #%d", a.Val)
case ALUOpAnd:
return fmt.Sprintf("and #%d", a.Val)
case ALUOpOr:
return fmt.Sprintf("or #%d", a.Val)
case ALUOpXor:
return fmt.Sprintf("xor #%d", a.Val)
case ALUOpShiftLeft:
return fmt.Sprintf("lsh #%d", a.Val)
case ALUOpShiftRight:
return fmt.Sprintf("rsh #%d", a.Val)
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
// ALUOpX executes A = A <Op> X
type ALUOpX struct {
Op ALUOp
}
// Assemble implements the Instruction Assemble method.
func (a ALUOpX) Assemble() (RawInstruction, error) {
return RawInstruction{
Op: opClsALU | opALUSrcX | uint16(a.Op),
}, nil
}
// String returns the instruction in assembler notation.
func (a ALUOpX) String() string {
switch a.Op {
case ALUOpAdd:
return "add x"
case ALUOpSub:
return "sub x"
case ALUOpMul:
return "mul x"
case ALUOpDiv:
return "div x"
case ALUOpMod:
return "mod x"
case ALUOpAnd:
return "and x"
case ALUOpOr:
return "or x"
case ALUOpXor:
return "xor x"
case ALUOpShiftLeft:
return "lsh x"
case ALUOpShiftRight:
return "rsh x"
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
// NegateA executes A = -A.
type NegateA struct{}
// Assemble implements the Instruction Assemble method.
func (a NegateA) Assemble() (RawInstruction, error) {
return RawInstruction{
Op: opClsALU | uint16(aluOpNeg),
}, nil
}
// String returns the instruction in assembler notation.
func (a NegateA) String() string {
return fmt.Sprintf("neg")
}
// Jump skips the following Skip instructions in the program.
type Jump struct {
Skip uint32
}
// Assemble implements the Instruction Assemble method.
func (a Jump) Assemble() (RawInstruction, error) {
return RawInstruction{
Op: opClsJump | opJumpAlways,
K: a.Skip,
}, nil
}
// String returns the instruction in assembler notation.
func (a Jump) String() string {
return fmt.Sprintf("ja %d", a.Skip)
}
// JumpIf skips the following Skip instructions in the program if A
// <Cond> Val is true.
type JumpIf struct {
Cond JumpTest
Val uint32
SkipTrue uint8
SkipFalse uint8
}
// Assemble implements the Instruction Assemble method.
func (a JumpIf) Assemble() (RawInstruction, error) {
var (
cond uint16
flip bool
)
switch a.Cond {
case JumpEqual:
cond = opJumpEqual
case JumpNotEqual:
cond, flip = opJumpEqual, true
case JumpGreaterThan:
cond = opJumpGT
case JumpLessThan:
cond, flip = opJumpGE, true
case JumpGreaterOrEqual:
cond = opJumpGE
case JumpLessOrEqual:
cond, flip = opJumpGT, true
case JumpBitsSet:
cond = opJumpSet
case JumpBitsNotSet:
cond, flip = opJumpSet, true
default:
return RawInstruction{}, fmt.Errorf("unknown JumpTest %v", a.Cond)
}
jt, jf := a.SkipTrue, a.SkipFalse
if flip {
jt, jf = jf, jt
}
return RawInstruction{
Op: opClsJump | cond,
Jt: jt,
Jf: jf,
K: a.Val,
}, nil
}
// String returns the instruction in assembler notation.
func (a JumpIf) String() string {
switch a.Cond {
// K == A
case JumpEqual:
return conditionalJump(a, "jeq", "jneq")
// K != A
case JumpNotEqual:
return fmt.Sprintf("jneq #%d,%d", a.Val, a.SkipTrue)
// K > A
case JumpGreaterThan:
return conditionalJump(a, "jgt", "jle")
// K < A
case JumpLessThan:
return fmt.Sprintf("jlt #%d,%d", a.Val, a.SkipTrue)
// K >= A
case JumpGreaterOrEqual:
return conditionalJump(a, "jge", "jlt")
// K <= A
case JumpLessOrEqual:
return fmt.Sprintf("jle #%d,%d", a.Val, a.SkipTrue)
// K & A != 0
case JumpBitsSet:
if a.SkipFalse > 0 {
return fmt.Sprintf("jset #%d,%d,%d", a.Val, a.SkipTrue, a.SkipFalse)
}
return fmt.Sprintf("jset #%d,%d", a.Val, a.SkipTrue)
// K & A == 0, there is no assembler instruction for JumpBitNotSet, use JumpBitSet and invert skips
case JumpBitsNotSet:
return JumpIf{Cond: JumpBitsSet, SkipTrue: a.SkipFalse, SkipFalse: a.SkipTrue, Val: a.Val}.String()
default:
return fmt.Sprintf("unknown instruction: %#v", a)
}
}
func conditionalJump(inst JumpIf, positiveJump, negativeJump string) string {
if inst.SkipTrue > 0 {
if inst.SkipFalse > 0 {
return fmt.Sprintf("%s #%d,%d,%d", positiveJump, inst.Val, inst.SkipTrue, inst.SkipFalse)
}
return fmt.Sprintf("%s #%d,%d", positiveJump, inst.Val, inst.SkipTrue)
}
return fmt.Sprintf("%s #%d,%d", negativeJump, inst.Val, inst.SkipFalse)
}
// RetA exits the BPF program, returning the value of register A.
type RetA struct{}
// Assemble implements the Instruction Assemble method.
func (a RetA) Assemble() (RawInstruction, error) {
return RawInstruction{
Op: opClsReturn | opRetSrcA,
}, nil
}
// String returns the instruction in assembler notation.
func (a RetA) String() string {
return fmt.Sprintf("ret a")
}
// RetConstant exits the BPF program, returning a constant value.
type RetConstant struct {
Val uint32
}
// Assemble implements the Instruction Assemble method.
func (a RetConstant) Assemble() (RawInstruction, error) {
return RawInstruction{
Op: opClsReturn | opRetSrcConstant,
K: a.Val,
}, nil
}
// String returns the instruction in assembler notation.
func (a RetConstant) String() string {
return fmt.Sprintf("ret #%d", a.Val)
}
// TXA copies the value of register X to register A.
type TXA struct{}
// Assemble implements the Instruction Assemble method.
func (a TXA) Assemble() (RawInstruction, error) {
return RawInstruction{
Op: opClsMisc | opMiscTXA,
}, nil
}
// String returns the instruction in assembler notation.
func (a TXA) String() string {
return fmt.Sprintf("txa")
}
// TAX copies the value of register A to register X.
type TAX struct{}
// Assemble implements the Instruction Assemble method.
func (a TAX) Assemble() (RawInstruction, error) {
return RawInstruction{
Op: opClsMisc | opMiscTAX,
}, nil
}
// String returns the instruction in assembler notation.
func (a TAX) String() string {
return fmt.Sprintf("tax")
}
func assembleLoad(dst Register, loadSize int, mode uint16, k uint32) (RawInstruction, error) {
var (
cls uint16
sz uint16
)
switch dst {
case RegA:
cls = opClsLoadA
case RegX:
cls = opClsLoadX
default:
return RawInstruction{}, fmt.Errorf("invalid target register %v", dst)
}
switch loadSize {
case 1:
sz = opLoadWidth1
case 2:
sz = opLoadWidth2
case 4:
sz = opLoadWidth4
default:
return RawInstruction{}, fmt.Errorf("invalid load byte length %d", sz)
}
return RawInstruction{
Op: cls | sz | mode,
K: k,
}, nil
}

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@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package bpf
// A Setter is a type which can attach a compiled BPF filter to itself.
type Setter interface {
SetBPF(filter []RawInstruction) error
}

140
vendor/golang.org/x/net/bpf/vm.go generated vendored
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@ -1,140 +0,0 @@
// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package bpf
import (
"errors"
"fmt"
)
// A VM is an emulated BPF virtual machine.
type VM struct {
filter []Instruction
}
// NewVM returns a new VM using the input BPF program.
func NewVM(filter []Instruction) (*VM, error) {
if len(filter) == 0 {
return nil, errors.New("one or more Instructions must be specified")
}
for i, ins := range filter {
check := len(filter) - (i + 1)
switch ins := ins.(type) {
// Check for out-of-bounds jumps in instructions
case Jump:
if check <= int(ins.Skip) {
return nil, fmt.Errorf("cannot jump %d instructions; jumping past program bounds", ins.Skip)
}
case JumpIf:
if check <= int(ins.SkipTrue) {
return nil, fmt.Errorf("cannot jump %d instructions in true case; jumping past program bounds", ins.SkipTrue)
}
if check <= int(ins.SkipFalse) {
return nil, fmt.Errorf("cannot jump %d instructions in false case; jumping past program bounds", ins.SkipFalse)
}
// Check for division or modulus by zero
case ALUOpConstant:
if ins.Val != 0 {
break
}
switch ins.Op {
case ALUOpDiv, ALUOpMod:
return nil, errors.New("cannot divide by zero using ALUOpConstant")
}
// Check for unknown extensions
case LoadExtension:
switch ins.Num {
case ExtLen:
default:
return nil, fmt.Errorf("extension %d not implemented", ins.Num)
}
}
}
// Make sure last instruction is a return instruction
switch filter[len(filter)-1].(type) {
case RetA, RetConstant:
default:
return nil, errors.New("BPF program must end with RetA or RetConstant")
}
// Though our VM works using disassembled instructions, we
// attempt to assemble the input filter anyway to ensure it is compatible
// with an operating system VM.
_, err := Assemble(filter)
return &VM{
filter: filter,
}, err
}
// Run runs the VM's BPF program against the input bytes.
// Run returns the number of bytes accepted by the BPF program, and any errors
// which occurred while processing the program.
func (v *VM) Run(in []byte) (int, error) {
var (
// Registers of the virtual machine
regA uint32
regX uint32
regScratch [16]uint32
// OK is true if the program should continue processing the next
// instruction, or false if not, causing the loop to break
ok = true
)
// TODO(mdlayher): implement:
// - NegateA:
// - would require a change from uint32 registers to int32
// registers
// TODO(mdlayher): add interop tests that check signedness of ALU
// operations against kernel implementation, and make sure Go
// implementation matches behavior
for i := 0; i < len(v.filter) && ok; i++ {
ins := v.filter[i]
switch ins := ins.(type) {
case ALUOpConstant:
regA = aluOpConstant(ins, regA)
case ALUOpX:
regA, ok = aluOpX(ins, regA, regX)
case Jump:
i += int(ins.Skip)
case JumpIf:
jump := jumpIf(ins, regA)
i += jump
case LoadAbsolute:
regA, ok = loadAbsolute(ins, in)
case LoadConstant:
regA, regX = loadConstant(ins, regA, regX)
case LoadExtension:
regA = loadExtension(ins, in)
case LoadIndirect:
regA, ok = loadIndirect(ins, in, regX)
case LoadMemShift:
regX, ok = loadMemShift(ins, in)
case LoadScratch:
regA, regX = loadScratch(ins, regScratch, regA, regX)
case RetA:
return int(regA), nil
case RetConstant:
return int(ins.Val), nil
case StoreScratch:
regScratch = storeScratch(ins, regScratch, regA, regX)
case TAX:
regX = regA
case TXA:
regA = regX
default:
return 0, fmt.Errorf("unknown Instruction at index %d: %T", i, ins)
}
}
return 0, nil
}

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@ -1,174 +0,0 @@
// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package bpf
import (
"encoding/binary"
"fmt"
)
func aluOpConstant(ins ALUOpConstant, regA uint32) uint32 {
return aluOpCommon(ins.Op, regA, ins.Val)
}
func aluOpX(ins ALUOpX, regA uint32, regX uint32) (uint32, bool) {
// Guard against division or modulus by zero by terminating
// the program, as the OS BPF VM does
if regX == 0 {
switch ins.Op {
case ALUOpDiv, ALUOpMod:
return 0, false
}
}
return aluOpCommon(ins.Op, regA, regX), true
}
func aluOpCommon(op ALUOp, regA uint32, value uint32) uint32 {
switch op {
case ALUOpAdd:
return regA + value
case ALUOpSub:
return regA - value
case ALUOpMul:
return regA * value
case ALUOpDiv:
// Division by zero not permitted by NewVM and aluOpX checks
return regA / value
case ALUOpOr:
return regA | value
case ALUOpAnd:
return regA & value
case ALUOpShiftLeft:
return regA << value
case ALUOpShiftRight:
return regA >> value
case ALUOpMod:
// Modulus by zero not permitted by NewVM and aluOpX checks
return regA % value
case ALUOpXor:
return regA ^ value
default:
return regA
}
}
func jumpIf(ins JumpIf, value uint32) int {
var ok bool
inV := uint32(ins.Val)
switch ins.Cond {
case JumpEqual:
ok = value == inV
case JumpNotEqual:
ok = value != inV
case JumpGreaterThan:
ok = value > inV
case JumpLessThan:
ok = value < inV
case JumpGreaterOrEqual:
ok = value >= inV
case JumpLessOrEqual:
ok = value <= inV
case JumpBitsSet:
ok = (value & inV) != 0
case JumpBitsNotSet:
ok = (value & inV) == 0
}
if ok {
return int(ins.SkipTrue)
}
return int(ins.SkipFalse)
}
func loadAbsolute(ins LoadAbsolute, in []byte) (uint32, bool) {
offset := int(ins.Off)
size := int(ins.Size)
return loadCommon(in, offset, size)
}
func loadConstant(ins LoadConstant, regA uint32, regX uint32) (uint32, uint32) {
switch ins.Dst {
case RegA:
regA = ins.Val
case RegX:
regX = ins.Val
}
return regA, regX
}
func loadExtension(ins LoadExtension, in []byte) uint32 {
switch ins.Num {
case ExtLen:
return uint32(len(in))
default:
panic(fmt.Sprintf("unimplemented extension: %d", ins.Num))
}
}
func loadIndirect(ins LoadIndirect, in []byte, regX uint32) (uint32, bool) {
offset := int(ins.Off) + int(regX)
size := int(ins.Size)
return loadCommon(in, offset, size)
}
func loadMemShift(ins LoadMemShift, in []byte) (uint32, bool) {
offset := int(ins.Off)
if !inBounds(len(in), offset, 0) {
return 0, false
}
// Mask off high 4 bits and multiply low 4 bits by 4
return uint32(in[offset]&0x0f) * 4, true
}
func inBounds(inLen int, offset int, size int) bool {
return offset+size <= inLen
}
func loadCommon(in []byte, offset int, size int) (uint32, bool) {
if !inBounds(len(in), offset, size) {
return 0, false
}
switch size {
case 1:
return uint32(in[offset]), true
case 2:
return uint32(binary.BigEndian.Uint16(in[offset : offset+size])), true
case 4:
return uint32(binary.BigEndian.Uint32(in[offset : offset+size])), true
default:
panic(fmt.Sprintf("invalid load size: %d", size))
}
}
func loadScratch(ins LoadScratch, regScratch [16]uint32, regA uint32, regX uint32) (uint32, uint32) {
switch ins.Dst {
case RegA:
regA = regScratch[ins.N]
case RegX:
regX = regScratch[ins.N]
}
return regA, regX
}
func storeScratch(ins StoreScratch, regScratch [16]uint32, regA uint32, regX uint32) [16]uint32 {
switch ins.Src {
case RegA:
regScratch[ins.N] = regA
case RegX:
regScratch[ins.N] = regX
}
return regScratch
}

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@ -1,223 +0,0 @@
// go generate gen.go
// Code generated by the command above; DO NOT EDIT.
// Package iana provides protocol number resources managed by the Internet Assigned Numbers Authority (IANA).
package iana // import "golang.org/x/net/internal/iana"
// Differentiated Services Field Codepoints (DSCP), Updated: 2018-05-04
const (
DiffServCS0 = 0x00 // CS0
DiffServCS1 = 0x20 // CS1
DiffServCS2 = 0x40 // CS2
DiffServCS3 = 0x60 // CS3
DiffServCS4 = 0x80 // CS4
DiffServCS5 = 0xa0 // CS5
DiffServCS6 = 0xc0 // CS6
DiffServCS7 = 0xe0 // CS7
DiffServAF11 = 0x28 // AF11
DiffServAF12 = 0x30 // AF12
DiffServAF13 = 0x38 // AF13
DiffServAF21 = 0x48 // AF21
DiffServAF22 = 0x50 // AF22
DiffServAF23 = 0x58 // AF23
DiffServAF31 = 0x68 // AF31
DiffServAF32 = 0x70 // AF32
DiffServAF33 = 0x78 // AF33
DiffServAF41 = 0x88 // AF41
DiffServAF42 = 0x90 // AF42
DiffServAF43 = 0x98 // AF43
DiffServEF = 0xb8 // EF
DiffServVOICEADMIT = 0xb0 // VOICE-ADMIT
NotECNTransport = 0x00 // Not-ECT (Not ECN-Capable Transport)
ECNTransport1 = 0x01 // ECT(1) (ECN-Capable Transport(1))
ECNTransport0 = 0x02 // ECT(0) (ECN-Capable Transport(0))
CongestionExperienced = 0x03 // CE (Congestion Experienced)
)
// Protocol Numbers, Updated: 2017-10-13
const (
ProtocolIP = 0 // IPv4 encapsulation, pseudo protocol number
ProtocolHOPOPT = 0 // IPv6 Hop-by-Hop Option
ProtocolICMP = 1 // Internet Control Message
ProtocolIGMP = 2 // Internet Group Management
ProtocolGGP = 3 // Gateway-to-Gateway
ProtocolIPv4 = 4 // IPv4 encapsulation
ProtocolST = 5 // Stream
ProtocolTCP = 6 // Transmission Control
ProtocolCBT = 7 // CBT
ProtocolEGP = 8 // Exterior Gateway Protocol
ProtocolIGP = 9 // any private interior gateway (used by Cisco for their IGRP)
ProtocolBBNRCCMON = 10 // BBN RCC Monitoring
ProtocolNVPII = 11 // Network Voice Protocol
ProtocolPUP = 12 // PUP
ProtocolEMCON = 14 // EMCON
ProtocolXNET = 15 // Cross Net Debugger
ProtocolCHAOS = 16 // Chaos
ProtocolUDP = 17 // User Datagram
ProtocolMUX = 18 // Multiplexing
ProtocolDCNMEAS = 19 // DCN Measurement Subsystems
ProtocolHMP = 20 // Host Monitoring
ProtocolPRM = 21 // Packet Radio Measurement
ProtocolXNSIDP = 22 // XEROX NS IDP
ProtocolTRUNK1 = 23 // Trunk-1
ProtocolTRUNK2 = 24 // Trunk-2
ProtocolLEAF1 = 25 // Leaf-1
ProtocolLEAF2 = 26 // Leaf-2
ProtocolRDP = 27 // Reliable Data Protocol
ProtocolIRTP = 28 // Internet Reliable Transaction
ProtocolISOTP4 = 29 // ISO Transport Protocol Class 4
ProtocolNETBLT = 30 // Bulk Data Transfer Protocol
ProtocolMFENSP = 31 // MFE Network Services Protocol
ProtocolMERITINP = 32 // MERIT Internodal Protocol
ProtocolDCCP = 33 // Datagram Congestion Control Protocol
Protocol3PC = 34 // Third Party Connect Protocol
ProtocolIDPR = 35 // Inter-Domain Policy Routing Protocol
ProtocolXTP = 36 // XTP
ProtocolDDP = 37 // Datagram Delivery Protocol
ProtocolIDPRCMTP = 38 // IDPR Control Message Transport Proto
ProtocolTPPP = 39 // TP++ Transport Protocol
ProtocolIL = 40 // IL Transport Protocol
ProtocolIPv6 = 41 // IPv6 encapsulation
ProtocolSDRP = 42 // Source Demand Routing Protocol
ProtocolIPv6Route = 43 // Routing Header for IPv6
ProtocolIPv6Frag = 44 // Fragment Header for IPv6
ProtocolIDRP = 45 // Inter-Domain Routing Protocol
ProtocolRSVP = 46 // Reservation Protocol
ProtocolGRE = 47 // Generic Routing Encapsulation
ProtocolDSR = 48 // Dynamic Source Routing Protocol
ProtocolBNA = 49 // BNA
ProtocolESP = 50 // Encap Security Payload
ProtocolAH = 51 // Authentication Header
ProtocolINLSP = 52 // Integrated Net Layer Security TUBA
ProtocolNARP = 54 // NBMA Address Resolution Protocol
ProtocolMOBILE = 55 // IP Mobility
ProtocolTLSP = 56 // Transport Layer Security Protocol using Kryptonet key management
ProtocolSKIP = 57 // SKIP
ProtocolIPv6ICMP = 58 // ICMP for IPv6
ProtocolIPv6NoNxt = 59 // No Next Header for IPv6
ProtocolIPv6Opts = 60 // Destination Options for IPv6
ProtocolCFTP = 62 // CFTP
ProtocolSATEXPAK = 64 // SATNET and Backroom EXPAK
ProtocolKRYPTOLAN = 65 // Kryptolan
ProtocolRVD = 66 // MIT Remote Virtual Disk Protocol
ProtocolIPPC = 67 // Internet Pluribus Packet Core
ProtocolSATMON = 69 // SATNET Monitoring
ProtocolVISA = 70 // VISA Protocol
ProtocolIPCV = 71 // Internet Packet Core Utility
ProtocolCPNX = 72 // Computer Protocol Network Executive
ProtocolCPHB = 73 // Computer Protocol Heart Beat
ProtocolWSN = 74 // Wang Span Network
ProtocolPVP = 75 // Packet Video Protocol
ProtocolBRSATMON = 76 // Backroom SATNET Monitoring
ProtocolSUNND = 77 // SUN ND PROTOCOL-Temporary
ProtocolWBMON = 78 // WIDEBAND Monitoring
ProtocolWBEXPAK = 79 // WIDEBAND EXPAK
ProtocolISOIP = 80 // ISO Internet Protocol
ProtocolVMTP = 81 // VMTP
ProtocolSECUREVMTP = 82 // SECURE-VMTP
ProtocolVINES = 83 // VINES
ProtocolTTP = 84 // Transaction Transport Protocol
ProtocolIPTM = 84 // Internet Protocol Traffic Manager
ProtocolNSFNETIGP = 85 // NSFNET-IGP
ProtocolDGP = 86 // Dissimilar Gateway Protocol
ProtocolTCF = 87 // TCF
ProtocolEIGRP = 88 // EIGRP
ProtocolOSPFIGP = 89 // OSPFIGP
ProtocolSpriteRPC = 90 // Sprite RPC Protocol
ProtocolLARP = 91 // Locus Address Resolution Protocol
ProtocolMTP = 92 // Multicast Transport Protocol
ProtocolAX25 = 93 // AX.25 Frames
ProtocolIPIP = 94 // IP-within-IP Encapsulation Protocol
ProtocolSCCSP = 96 // Semaphore Communications Sec. Pro.
ProtocolETHERIP = 97 // Ethernet-within-IP Encapsulation
ProtocolENCAP = 98 // Encapsulation Header
ProtocolGMTP = 100 // GMTP
ProtocolIFMP = 101 // Ipsilon Flow Management Protocol
ProtocolPNNI = 102 // PNNI over IP
ProtocolPIM = 103 // Protocol Independent Multicast
ProtocolARIS = 104 // ARIS
ProtocolSCPS = 105 // SCPS
ProtocolQNX = 106 // QNX
ProtocolAN = 107 // Active Networks
ProtocolIPComp = 108 // IP Payload Compression Protocol
ProtocolSNP = 109 // Sitara Networks Protocol
ProtocolCompaqPeer = 110 // Compaq Peer Protocol
ProtocolIPXinIP = 111 // IPX in IP
ProtocolVRRP = 112 // Virtual Router Redundancy Protocol
ProtocolPGM = 113 // PGM Reliable Transport Protocol
ProtocolL2TP = 115 // Layer Two Tunneling Protocol
ProtocolDDX = 116 // D-II Data Exchange (DDX)
ProtocolIATP = 117 // Interactive Agent Transfer Protocol
ProtocolSTP = 118 // Schedule Transfer Protocol
ProtocolSRP = 119 // SpectraLink Radio Protocol
ProtocolUTI = 120 // UTI
ProtocolSMP = 121 // Simple Message Protocol
ProtocolPTP = 123 // Performance Transparency Protocol
ProtocolISIS = 124 // ISIS over IPv4
ProtocolFIRE = 125 // FIRE
ProtocolCRTP = 126 // Combat Radio Transport Protocol
ProtocolCRUDP = 127 // Combat Radio User Datagram
ProtocolSSCOPMCE = 128 // SSCOPMCE
ProtocolIPLT = 129 // IPLT
ProtocolSPS = 130 // Secure Packet Shield
ProtocolPIPE = 131 // Private IP Encapsulation within IP
ProtocolSCTP = 132 // Stream Control Transmission Protocol
ProtocolFC = 133 // Fibre Channel
ProtocolRSVPE2EIGNORE = 134 // RSVP-E2E-IGNORE
ProtocolMobilityHeader = 135 // Mobility Header
ProtocolUDPLite = 136 // UDPLite
ProtocolMPLSinIP = 137 // MPLS-in-IP
ProtocolMANET = 138 // MANET Protocols
ProtocolHIP = 139 // Host Identity Protocol
ProtocolShim6 = 140 // Shim6 Protocol
ProtocolWESP = 141 // Wrapped Encapsulating Security Payload
ProtocolROHC = 142 // Robust Header Compression
ProtocolReserved = 255 // Reserved
)
// Address Family Numbers, Updated: 2018-04-02
const (
AddrFamilyIPv4 = 1 // IP (IP version 4)
AddrFamilyIPv6 = 2 // IP6 (IP version 6)
AddrFamilyNSAP = 3 // NSAP
AddrFamilyHDLC = 4 // HDLC (8-bit multidrop)
AddrFamilyBBN1822 = 5 // BBN 1822
AddrFamily802 = 6 // 802 (includes all 802 media plus Ethernet "canonical format")
AddrFamilyE163 = 7 // E.163
AddrFamilyE164 = 8 // E.164 (SMDS, Frame Relay, ATM)
AddrFamilyF69 = 9 // F.69 (Telex)
AddrFamilyX121 = 10 // X.121 (X.25, Frame Relay)
AddrFamilyIPX = 11 // IPX
AddrFamilyAppletalk = 12 // Appletalk
AddrFamilyDecnetIV = 13 // Decnet IV
AddrFamilyBanyanVines = 14 // Banyan Vines
AddrFamilyE164withSubaddress = 15 // E.164 with NSAP format subaddress
AddrFamilyDNS = 16 // DNS (Domain Name System)
AddrFamilyDistinguishedName = 17 // Distinguished Name
AddrFamilyASNumber = 18 // AS Number
AddrFamilyXTPoverIPv4 = 19 // XTP over IP version 4
AddrFamilyXTPoverIPv6 = 20 // XTP over IP version 6
AddrFamilyXTPnativemodeXTP = 21 // XTP native mode XTP
AddrFamilyFibreChannelWorldWidePortName = 22 // Fibre Channel World-Wide Port Name
AddrFamilyFibreChannelWorldWideNodeName = 23 // Fibre Channel World-Wide Node Name
AddrFamilyGWID = 24 // GWID
AddrFamilyL2VPN = 25 // AFI for L2VPN information
AddrFamilyMPLSTPSectionEndpointID = 26 // MPLS-TP Section Endpoint Identifier
AddrFamilyMPLSTPLSPEndpointID = 27 // MPLS-TP LSP Endpoint Identifier
AddrFamilyMPLSTPPseudowireEndpointID = 28 // MPLS-TP Pseudowire Endpoint Identifier
AddrFamilyMTIPv4 = 29 // MT IP: Multi-Topology IP version 4
AddrFamilyMTIPv6 = 30 // MT IPv6: Multi-Topology IP version 6
AddrFamilyEIGRPCommonServiceFamily = 16384 // EIGRP Common Service Family
AddrFamilyEIGRPIPv4ServiceFamily = 16385 // EIGRP IPv4 Service Family
AddrFamilyEIGRPIPv6ServiceFamily = 16386 // EIGRP IPv6 Service Family
AddrFamilyLISPCanonicalAddressFormat = 16387 // LISP Canonical Address Format (LCAF)
AddrFamilyBGPLS = 16388 // BGP-LS
AddrFamily48bitMAC = 16389 // 48-bit MAC
AddrFamily64bitMAC = 16390 // 64-bit MAC
AddrFamilyOUI = 16391 // OUI
AddrFamilyMACFinal24bits = 16392 // MAC/24
AddrFamilyMACFinal40bits = 16393 // MAC/40
AddrFamilyIPv6Initial64bits = 16394 // IPv6/64
AddrFamilyRBridgePortID = 16395 // RBridge Port ID
AddrFamilyTRILLNickname = 16396 // TRILL Nickname
)

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@ -1,383 +0,0 @@
// Copyright 2013 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build ignore
//go:generate go run gen.go
// This program generates internet protocol constants and tables by
// reading IANA protocol registries.
package main
import (
"bytes"
"encoding/xml"
"fmt"
"go/format"
"io"
"io/ioutil"
"net/http"
"os"
"strconv"
"strings"
)
var registries = []struct {
url string
parse func(io.Writer, io.Reader) error
}{
{
"https://www.iana.org/assignments/dscp-registry/dscp-registry.xml",
parseDSCPRegistry,
},
{
"https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xml",
parseProtocolNumbers,
},
{
"https://www.iana.org/assignments/address-family-numbers/address-family-numbers.xml",
parseAddrFamilyNumbers,
},
}
func main() {
var bb bytes.Buffer
fmt.Fprintf(&bb, "// go generate gen.go\n")
fmt.Fprintf(&bb, "// Code generated by the command above; DO NOT EDIT.\n\n")
fmt.Fprintf(&bb, "// Package iana provides protocol number resources managed by the Internet Assigned Numbers Authority (IANA).\n")
fmt.Fprintf(&bb, `package iana // import "golang.org/x/net/internal/iana"`+"\n\n")
for _, r := range registries {
resp, err := http.Get(r.url)
if err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
fmt.Fprintf(os.Stderr, "got HTTP status code %v for %v\n", resp.StatusCode, r.url)
os.Exit(1)
}
if err := r.parse(&bb, resp.Body); err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
fmt.Fprintf(&bb, "\n")
}
b, err := format.Source(bb.Bytes())
if err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
if err := ioutil.WriteFile("const.go", b, 0644); err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
}
func parseDSCPRegistry(w io.Writer, r io.Reader) error {
dec := xml.NewDecoder(r)
var dr dscpRegistry
if err := dec.Decode(&dr); err != nil {
return err
}
fmt.Fprintf(w, "// %s, Updated: %s\n", dr.Title, dr.Updated)
fmt.Fprintf(w, "const (\n")
for _, dr := range dr.escapeDSCP() {
fmt.Fprintf(w, "DiffServ%s = %#02x", dr.Name, dr.Value)
fmt.Fprintf(w, "// %s\n", dr.OrigName)
}
for _, er := range dr.escapeECN() {
fmt.Fprintf(w, "%s = %#02x", er.Descr, er.Value)
fmt.Fprintf(w, "// %s\n", er.OrigDescr)
}
fmt.Fprintf(w, ")\n")
return nil
}
type dscpRegistry struct {
XMLName xml.Name `xml:"registry"`
Title string `xml:"title"`
Updated string `xml:"updated"`
Note string `xml:"note"`
Registries []struct {
Title string `xml:"title"`
Registries []struct {
Title string `xml:"title"`
Records []struct {
Name string `xml:"name"`
Space string `xml:"space"`
} `xml:"record"`
} `xml:"registry"`
Records []struct {
Value string `xml:"value"`
Descr string `xml:"description"`
} `xml:"record"`
} `xml:"registry"`
}
type canonDSCPRecord struct {
OrigName string
Name string
Value int
}
func (drr *dscpRegistry) escapeDSCP() []canonDSCPRecord {
var drs []canonDSCPRecord
for _, preg := range drr.Registries {
if !strings.Contains(preg.Title, "Differentiated Services Field Codepoints") {
continue
}
for _, reg := range preg.Registries {
if !strings.Contains(reg.Title, "Pool 1 Codepoints") {
continue
}
drs = make([]canonDSCPRecord, len(reg.Records))
sr := strings.NewReplacer(
"+", "",
"-", "",
"/", "",
".", "",
" ", "",
)
for i, dr := range reg.Records {
s := strings.TrimSpace(dr.Name)
drs[i].OrigName = s
drs[i].Name = sr.Replace(s)
n, err := strconv.ParseUint(dr.Space, 2, 8)
if err != nil {
continue
}
drs[i].Value = int(n) << 2
}
}
}
return drs
}
type canonECNRecord struct {
OrigDescr string
Descr string
Value int
}
func (drr *dscpRegistry) escapeECN() []canonECNRecord {
var ers []canonECNRecord
for _, reg := range drr.Registries {
if !strings.Contains(reg.Title, "ECN Field") {
continue
}
ers = make([]canonECNRecord, len(reg.Records))
sr := strings.NewReplacer(
"Capable", "",
"Not-ECT", "",
"ECT(1)", "",
"ECT(0)", "",
"CE", "",
"(", "",
")", "",
"+", "",
"-", "",
"/", "",
".", "",
" ", "",
)
for i, er := range reg.Records {
s := strings.TrimSpace(er.Descr)
ers[i].OrigDescr = s
ss := strings.Split(s, " ")
if len(ss) > 1 {
ers[i].Descr = strings.Join(ss[1:], " ")
} else {
ers[i].Descr = ss[0]
}
ers[i].Descr = sr.Replace(er.Descr)
n, err := strconv.ParseUint(er.Value, 2, 8)
if err != nil {
continue
}
ers[i].Value = int(n)
}
}
return ers
}
func parseProtocolNumbers(w io.Writer, r io.Reader) error {
dec := xml.NewDecoder(r)
var pn protocolNumbers
if err := dec.Decode(&pn); err != nil {
return err
}
prs := pn.escape()
prs = append([]canonProtocolRecord{{
Name: "IP",
Descr: "IPv4 encapsulation, pseudo protocol number",
Value: 0,
}}, prs...)
fmt.Fprintf(w, "// %s, Updated: %s\n", pn.Title, pn.Updated)
fmt.Fprintf(w, "const (\n")
for _, pr := range prs {
if pr.Name == "" {
continue
}
fmt.Fprintf(w, "Protocol%s = %d", pr.Name, pr.Value)
s := pr.Descr
if s == "" {
s = pr.OrigName
}
fmt.Fprintf(w, "// %s\n", s)
}
fmt.Fprintf(w, ")\n")
return nil
}
type protocolNumbers struct {
XMLName xml.Name `xml:"registry"`
Title string `xml:"title"`
Updated string `xml:"updated"`
RegTitle string `xml:"registry>title"`
Note string `xml:"registry>note"`
Records []struct {
Value string `xml:"value"`
Name string `xml:"name"`
Descr string `xml:"description"`
} `xml:"registry>record"`
}
type canonProtocolRecord struct {
OrigName string
Name string
Descr string
Value int
}
func (pn *protocolNumbers) escape() []canonProtocolRecord {
prs := make([]canonProtocolRecord, len(pn.Records))
sr := strings.NewReplacer(
"-in-", "in",
"-within-", "within",
"-over-", "over",
"+", "P",
"-", "",
"/", "",
".", "",
" ", "",
)
for i, pr := range pn.Records {
if strings.Contains(pr.Name, "Deprecated") ||
strings.Contains(pr.Name, "deprecated") {
continue
}
prs[i].OrigName = pr.Name
s := strings.TrimSpace(pr.Name)
switch pr.Name {
case "ISIS over IPv4":
prs[i].Name = "ISIS"
case "manet":
prs[i].Name = "MANET"
default:
prs[i].Name = sr.Replace(s)
}
ss := strings.Split(pr.Descr, "\n")
for i := range ss {
ss[i] = strings.TrimSpace(ss[i])
}
if len(ss) > 1 {
prs[i].Descr = strings.Join(ss, " ")
} else {
prs[i].Descr = ss[0]
}
prs[i].Value, _ = strconv.Atoi(pr.Value)
}
return prs
}
func parseAddrFamilyNumbers(w io.Writer, r io.Reader) error {
dec := xml.NewDecoder(r)
var afn addrFamilylNumbers
if err := dec.Decode(&afn); err != nil {
return err
}
afrs := afn.escape()
fmt.Fprintf(w, "// %s, Updated: %s\n", afn.Title, afn.Updated)
fmt.Fprintf(w, "const (\n")
for _, afr := range afrs {
if afr.Name == "" {
continue
}
fmt.Fprintf(w, "AddrFamily%s = %d", afr.Name, afr.Value)
fmt.Fprintf(w, "// %s\n", afr.Descr)
}
fmt.Fprintf(w, ")\n")
return nil
}
type addrFamilylNumbers struct {
XMLName xml.Name `xml:"registry"`
Title string `xml:"title"`
Updated string `xml:"updated"`
RegTitle string `xml:"registry>title"`
Note string `xml:"registry>note"`
Records []struct {
Value string `xml:"value"`
Descr string `xml:"description"`
} `xml:"registry>record"`
}
type canonAddrFamilyRecord struct {
Name string
Descr string
Value int
}
func (afn *addrFamilylNumbers) escape() []canonAddrFamilyRecord {
afrs := make([]canonAddrFamilyRecord, len(afn.Records))
sr := strings.NewReplacer(
"IP version 4", "IPv4",
"IP version 6", "IPv6",
"Identifier", "ID",
"-", "",
"-", "",
"/", "",
".", "",
" ", "",
)
for i, afr := range afn.Records {
if strings.Contains(afr.Descr, "Unassigned") ||
strings.Contains(afr.Descr, "Reserved") {
continue
}
afrs[i].Descr = afr.Descr
s := strings.TrimSpace(afr.Descr)
switch s {
case "IP (IP version 4)":
afrs[i].Name = "IPv4"
case "IP6 (IP version 6)":
afrs[i].Name = "IPv6"
case "AFI for L2VPN information":
afrs[i].Name = "L2VPN"
case "E.164 with NSAP format subaddress":
afrs[i].Name = "E164withSubaddress"
case "MT IP: Multi-Topology IP version 4":
afrs[i].Name = "MTIPv4"
case "MAC/24":
afrs[i].Name = "MACFinal24bits"
case "MAC/40":
afrs[i].Name = "MACFinal40bits"
case "IPv6/64":
afrs[i].Name = "IPv6Initial64bits"
default:
n := strings.Index(s, "(")
if n > 0 {
s = s[:n]
}
n = strings.Index(s, ":")
if n > 0 {
s = s[:n]
}
afrs[i].Name = sr.Replace(s)
}
afrs[i].Value, _ = strconv.Atoi(afr.Value)
}
return afrs
}

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@ -1,11 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build darwin dragonfly freebsd linux netbsd openbsd solaris
package socket
func (h *cmsghdr) len() int { return int(h.Len) }
func (h *cmsghdr) lvl() int { return int(h.Level) }
func (h *cmsghdr) typ() int { return int(h.Type) }

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@ -1,13 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build darwin dragonfly freebsd netbsd openbsd
package socket
func (h *cmsghdr) set(l, lvl, typ int) {
h.Len = uint32(l)
h.Level = int32(lvl)
h.Type = int32(typ)
}

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@ -1,14 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build amd64
// +build solaris
package socket
func (h *cmsghdr) set(l, lvl, typ int) {
h.Len = uint32(l)
h.Level = int32(lvl)
h.Type = int32(typ)
}

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@ -1,44 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build ignore
// +godefs map struct_in_addr [4]byte /* in_addr */
// +godefs map struct_in6_addr [16]byte /* in6_addr */
package socket
/*
#include <sys/socket.h>
#include <netinet/in.h>
*/
import "C"
const (
sysAF_UNSPEC = C.AF_UNSPEC
sysAF_INET = C.AF_INET
sysAF_INET6 = C.AF_INET6
sysSOCK_RAW = C.SOCK_RAW
)
type iovec C.struct_iovec
type msghdr C.struct_msghdr
type cmsghdr C.struct_cmsghdr
type sockaddrInet C.struct_sockaddr_in
type sockaddrInet6 C.struct_sockaddr_in6
const (
sizeofIovec = C.sizeof_struct_iovec
sizeofMsghdr = C.sizeof_struct_msghdr
sizeofCmsghdr = C.sizeof_struct_cmsghdr
sizeofSockaddrInet = C.sizeof_struct_sockaddr_in
sizeofSockaddrInet6 = C.sizeof_struct_sockaddr_in6
)

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@ -1,44 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build ignore
// +godefs map struct_in_addr [4]byte /* in_addr */
// +godefs map struct_in6_addr [16]byte /* in6_addr */
package socket
/*
#include <sys/socket.h>
#include <netinet/in.h>
*/
import "C"
const (
sysAF_UNSPEC = C.AF_UNSPEC
sysAF_INET = C.AF_INET
sysAF_INET6 = C.AF_INET6
sysSOCK_RAW = C.SOCK_RAW
)
type iovec C.struct_iovec
type msghdr C.struct_msghdr
type cmsghdr C.struct_cmsghdr
type sockaddrInet C.struct_sockaddr_in
type sockaddrInet6 C.struct_sockaddr_in6
const (
sizeofIovec = C.sizeof_struct_iovec
sizeofMsghdr = C.sizeof_struct_msghdr
sizeofCmsghdr = C.sizeof_struct_cmsghdr
sizeofSockaddrInet = C.sizeof_struct_sockaddr_in
sizeofSockaddrInet6 = C.sizeof_struct_sockaddr_in6
)

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@ -1,44 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build ignore
// +godefs map struct_in_addr [4]byte /* in_addr */
// +godefs map struct_in6_addr [16]byte /* in6_addr */
package socket
/*
#include <sys/socket.h>
#include <netinet/in.h>
*/
import "C"
const (
sysAF_UNSPEC = C.AF_UNSPEC
sysAF_INET = C.AF_INET
sysAF_INET6 = C.AF_INET6
sysSOCK_RAW = C.SOCK_RAW
)
type iovec C.struct_iovec
type msghdr C.struct_msghdr
type cmsghdr C.struct_cmsghdr
type sockaddrInet C.struct_sockaddr_in
type sockaddrInet6 C.struct_sockaddr_in6
const (
sizeofIovec = C.sizeof_struct_iovec
sizeofMsghdr = C.sizeof_struct_msghdr
sizeofCmsghdr = C.sizeof_struct_cmsghdr
sizeofSockaddrInet = C.sizeof_struct_sockaddr_in
sizeofSockaddrInet6 = C.sizeof_struct_sockaddr_in6
)

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@ -1,49 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build ignore
// +godefs map struct_in_addr [4]byte /* in_addr */
// +godefs map struct_in6_addr [16]byte /* in6_addr */
package socket
/*
#include <linux/in.h>
#include <linux/in6.h>
#define _GNU_SOURCE
#include <sys/socket.h>
*/
import "C"
const (
sysAF_UNSPEC = C.AF_UNSPEC
sysAF_INET = C.AF_INET
sysAF_INET6 = C.AF_INET6
sysSOCK_RAW = C.SOCK_RAW
)
type iovec C.struct_iovec
type msghdr C.struct_msghdr
type mmsghdr C.struct_mmsghdr
type cmsghdr C.struct_cmsghdr
type sockaddrInet C.struct_sockaddr_in
type sockaddrInet6 C.struct_sockaddr_in6
const (
sizeofIovec = C.sizeof_struct_iovec
sizeofMsghdr = C.sizeof_struct_msghdr
sizeofMmsghdr = C.sizeof_struct_mmsghdr
sizeofCmsghdr = C.sizeof_struct_cmsghdr
sizeofSockaddrInet = C.sizeof_struct_sockaddr_in
sizeofSockaddrInet6 = C.sizeof_struct_sockaddr_in6
)

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@ -1,47 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build ignore
// +godefs map struct_in_addr [4]byte /* in_addr */
// +godefs map struct_in6_addr [16]byte /* in6_addr */
package socket
/*
#include <sys/socket.h>
#include <netinet/in.h>
*/
import "C"
const (
sysAF_UNSPEC = C.AF_UNSPEC
sysAF_INET = C.AF_INET
sysAF_INET6 = C.AF_INET6
sysSOCK_RAW = C.SOCK_RAW
)
type iovec C.struct_iovec
type msghdr C.struct_msghdr
type mmsghdr C.struct_mmsghdr
type cmsghdr C.struct_cmsghdr
type sockaddrInet C.struct_sockaddr_in
type sockaddrInet6 C.struct_sockaddr_in6
const (
sizeofIovec = C.sizeof_struct_iovec
sizeofMsghdr = C.sizeof_struct_msghdr
sizeofMmsghdr = C.sizeof_struct_mmsghdr
sizeofCmsghdr = C.sizeof_struct_cmsghdr
sizeofSockaddrInet = C.sizeof_struct_sockaddr_in
sizeofSockaddrInet6 = C.sizeof_struct_sockaddr_in6
)

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@ -1,44 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build ignore
// +godefs map struct_in_addr [4]byte /* in_addr */
// +godefs map struct_in6_addr [16]byte /* in6_addr */
package socket
/*
#include <sys/socket.h>
#include <netinet/in.h>
*/
import "C"
const (
sysAF_UNSPEC = C.AF_UNSPEC
sysAF_INET = C.AF_INET
sysAF_INET6 = C.AF_INET6
sysSOCK_RAW = C.SOCK_RAW
)
type iovec C.struct_iovec
type msghdr C.struct_msghdr
type cmsghdr C.struct_cmsghdr
type sockaddrInet C.struct_sockaddr_in
type sockaddrInet6 C.struct_sockaddr_in6
const (
sizeofIovec = C.sizeof_struct_iovec
sizeofMsghdr = C.sizeof_struct_msghdr
sizeofCmsghdr = C.sizeof_struct_cmsghdr
sizeofSockaddrInet = C.sizeof_struct_sockaddr_in
sizeofSockaddrInet6 = C.sizeof_struct_sockaddr_in6
)

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@ -1,44 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build ignore
// +godefs map struct_in_addr [4]byte /* in_addr */
// +godefs map struct_in6_addr [16]byte /* in6_addr */
package socket
/*
#include <sys/socket.h>
#include <netinet/in.h>
*/
import "C"
const (
sysAF_UNSPEC = C.AF_UNSPEC
sysAF_INET = C.AF_INET
sysAF_INET6 = C.AF_INET6
sysSOCK_RAW = C.SOCK_RAW
)
type iovec C.struct_iovec
type msghdr C.struct_msghdr
type cmsghdr C.struct_cmsghdr
type sockaddrInet C.struct_sockaddr_in
type sockaddrInet6 C.struct_sockaddr_in6
const (
sizeofIovec = C.sizeof_struct_iovec
sizeofMsghdr = C.sizeof_struct_msghdr
sizeofCmsghdr = C.sizeof_struct_cmsghdr
sizeofSockaddrInet = C.sizeof_struct_sockaddr_in
sizeofSockaddrInet6 = C.sizeof_struct_sockaddr_in6
)

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@ -1,31 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build darwin dragonfly freebsd linux netbsd openbsd solaris
package socket
import "syscall"
var (
errEAGAIN error = syscall.EAGAIN
errEINVAL error = syscall.EINVAL
errENOENT error = syscall.ENOENT
)
// errnoErr returns common boxed Errno values, to prevent allocations
// at runtime.
func errnoErr(errno syscall.Errno) error {
switch errno {
case 0:
return nil
case syscall.EAGAIN:
return errEAGAIN
case syscall.EINVAL:
return errEINVAL
case syscall.ENOENT:
return errENOENT
}
return errno
}

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@ -1,26 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
import "syscall"
var (
errERROR_IO_PENDING error = syscall.ERROR_IO_PENDING
errEINVAL error = syscall.EINVAL
)
// errnoErr returns common boxed Errno values, to prevent allocations
// at runtime.
func errnoErr(errno syscall.Errno) error {
switch errno {
case 0:
return nil
case syscall.ERROR_IO_PENDING:
return errERROR_IO_PENDING
case syscall.EINVAL:
return errEINVAL
}
return errno
}

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@ -1,19 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build arm mips mipsle 386
// +build darwin dragonfly freebsd linux netbsd openbsd
package socket
import "unsafe"
func (v *iovec) set(b []byte) {
l := len(b)
if l == 0 {
return
}
v.Base = (*byte)(unsafe.Pointer(&b[0]))
v.Len = uint32(l)
}

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@ -1,19 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build arm64 amd64 ppc64 ppc64le mips64 mips64le s390x
// +build darwin dragonfly freebsd linux netbsd openbsd
package socket
import "unsafe"
func (v *iovec) set(b []byte) {
l := len(b)
if l == 0 {
return
}
v.Base = (*byte)(unsafe.Pointer(&b[0]))
v.Len = uint64(l)
}

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@ -1,19 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build amd64
// +build solaris
package socket
import "unsafe"
func (v *iovec) set(b []byte) {
l := len(b)
if l == 0 {
return
}
v.Base = (*int8)(unsafe.Pointer(&b[0]))
v.Len = uint64(l)
}

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@ -1,11 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build !darwin,!dragonfly,!freebsd,!linux,!netbsd,!openbsd,!solaris
package socket
type iovec struct{}
func (v *iovec) set(b []byte) {}

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@ -1,21 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build !linux,!netbsd
package socket
import "net"
type mmsghdr struct{}
type mmsghdrs []mmsghdr
func (hs mmsghdrs) pack(ms []Message, parseFn func([]byte, string) (net.Addr, error), marshalFn func(net.Addr) []byte) error {
return nil
}
func (hs mmsghdrs) unpack(ms []Message, parseFn func([]byte, string) (net.Addr, error), hint string) error {
return nil
}

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@ -1,42 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build linux netbsd
package socket
import "net"
type mmsghdrs []mmsghdr
func (hs mmsghdrs) pack(ms []Message, parseFn func([]byte, string) (net.Addr, error), marshalFn func(net.Addr) []byte) error {
for i := range hs {
vs := make([]iovec, len(ms[i].Buffers))
var sa []byte
if parseFn != nil {
sa = make([]byte, sizeofSockaddrInet6)
}
if marshalFn != nil {
sa = marshalFn(ms[i].Addr)
}
hs[i].Hdr.pack(vs, ms[i].Buffers, ms[i].OOB, sa)
}
return nil
}
func (hs mmsghdrs) unpack(ms []Message, parseFn func([]byte, string) (net.Addr, error), hint string) error {
for i := range hs {
ms[i].N = int(hs[i].Len)
ms[i].NN = hs[i].Hdr.controllen()
ms[i].Flags = hs[i].Hdr.flags()
if parseFn != nil {
var err error
ms[i].Addr, err = parseFn(hs[i].Hdr.name(), hint)
if err != nil {
return err
}
}
}
return nil
}

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@ -1,39 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build darwin dragonfly freebsd netbsd openbsd
package socket
import "unsafe"
func (h *msghdr) pack(vs []iovec, bs [][]byte, oob []byte, sa []byte) {
for i := range vs {
vs[i].set(bs[i])
}
h.setIov(vs)
if len(oob) > 0 {
h.Control = (*byte)(unsafe.Pointer(&oob[0]))
h.Controllen = uint32(len(oob))
}
if sa != nil {
h.Name = (*byte)(unsafe.Pointer(&sa[0]))
h.Namelen = uint32(len(sa))
}
}
func (h *msghdr) name() []byte {
if h.Name != nil && h.Namelen > 0 {
return (*[sizeofSockaddrInet6]byte)(unsafe.Pointer(h.Name))[:h.Namelen]
}
return nil
}
func (h *msghdr) controllen() int {
return int(h.Controllen)
}
func (h *msghdr) flags() int {
return int(h.Flags)
}

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@ -1,16 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build darwin dragonfly freebsd netbsd
package socket
func (h *msghdr) setIov(vs []iovec) {
l := len(vs)
if l == 0 {
return
}
h.Iov = &vs[0]
h.Iovlen = int32(l)
}

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@ -1,36 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
import "unsafe"
func (h *msghdr) pack(vs []iovec, bs [][]byte, oob []byte, sa []byte) {
for i := range vs {
vs[i].set(bs[i])
}
h.setIov(vs)
if len(oob) > 0 {
h.setControl(oob)
}
if sa != nil {
h.Name = (*byte)(unsafe.Pointer(&sa[0]))
h.Namelen = uint32(len(sa))
}
}
func (h *msghdr) name() []byte {
if h.Name != nil && h.Namelen > 0 {
return (*[sizeofSockaddrInet6]byte)(unsafe.Pointer(h.Name))[:h.Namelen]
}
return nil
}
func (h *msghdr) controllen() int {
return int(h.Controllen)
}
func (h *msghdr) flags() int {
return int(h.Flags)
}

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@ -1,24 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build arm mips mipsle 386
// +build linux
package socket
import "unsafe"
func (h *msghdr) setIov(vs []iovec) {
l := len(vs)
if l == 0 {
return
}
h.Iov = &vs[0]
h.Iovlen = uint32(l)
}
func (h *msghdr) setControl(b []byte) {
h.Control = (*byte)(unsafe.Pointer(&b[0]))
h.Controllen = uint32(len(b))
}

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@ -1,24 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build arm64 amd64 ppc64 ppc64le mips64 mips64le s390x
// +build linux
package socket
import "unsafe"
func (h *msghdr) setIov(vs []iovec) {
l := len(vs)
if l == 0 {
return
}
h.Iov = &vs[0]
h.Iovlen = uint64(l)
}
func (h *msghdr) setControl(b []byte) {
h.Control = (*byte)(unsafe.Pointer(&b[0]))
h.Controllen = uint64(len(b))
}

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@ -1,14 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
func (h *msghdr) setIov(vs []iovec) {
l := len(vs)
if l == 0 {
return
}
h.Iov = &vs[0]
h.Iovlen = uint32(l)
}

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@ -1,36 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build amd64
// +build solaris
package socket
import "unsafe"
func (h *msghdr) pack(vs []iovec, bs [][]byte, oob []byte, sa []byte) {
for i := range vs {
vs[i].set(bs[i])
}
if len(vs) > 0 {
h.Iov = &vs[0]
h.Iovlen = int32(len(vs))
}
if len(oob) > 0 {
h.Accrights = (*int8)(unsafe.Pointer(&oob[0]))
h.Accrightslen = int32(len(oob))
}
if sa != nil {
h.Name = (*byte)(unsafe.Pointer(&sa[0]))
h.Namelen = uint32(len(sa))
}
}
func (h *msghdr) controllen() int {
return int(h.Accrightslen)
}
func (h *msghdr) flags() int {
return int(NativeEndian.Uint32(h.Pad_cgo_2[:]))
}

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@ -1,14 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build !darwin,!dragonfly,!freebsd,!linux,!netbsd,!openbsd,!solaris
package socket
type msghdr struct{}
func (h *msghdr) pack(vs []iovec, bs [][]byte, oob []byte, sa []byte) {}
func (h *msghdr) name() []byte { return nil }
func (h *msghdr) controllen() int { return 0 }
func (h *msghdr) flags() int { return 0 }

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@ -1,66 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build go1.9
package socket
import (
"errors"
"net"
"os"
"syscall"
)
// A Conn represents a raw connection.
type Conn struct {
network string
c syscall.RawConn
}
// NewConn returns a new raw connection.
func NewConn(c net.Conn) (*Conn, error) {
var err error
var cc Conn
switch c := c.(type) {
case *net.TCPConn:
cc.network = "tcp"
cc.c, err = c.SyscallConn()
case *net.UDPConn:
cc.network = "udp"
cc.c, err = c.SyscallConn()
case *net.IPConn:
cc.network = "ip"
cc.c, err = c.SyscallConn()
default:
return nil, errors.New("unknown connection type")
}
if err != nil {
return nil, err
}
return &cc, nil
}
func (o *Option) get(c *Conn, b []byte) (int, error) {
var operr error
var n int
fn := func(s uintptr) {
n, operr = getsockopt(s, o.Level, o.Name, b)
}
if err := c.c.Control(fn); err != nil {
return 0, err
}
return n, os.NewSyscallError("getsockopt", operr)
}
func (o *Option) set(c *Conn, b []byte) error {
var operr error
fn := func(s uintptr) {
operr = setsockopt(s, o.Level, o.Name, b)
}
if err := c.c.Control(fn); err != nil {
return err
}
return os.NewSyscallError("setsockopt", operr)
}

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@ -1,74 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build go1.9
// +build linux
package socket
import (
"net"
"os"
"syscall"
)
func (c *Conn) recvMsgs(ms []Message, flags int) (int, error) {
hs := make(mmsghdrs, len(ms))
var parseFn func([]byte, string) (net.Addr, error)
if c.network != "tcp" {
parseFn = parseInetAddr
}
if err := hs.pack(ms, parseFn, nil); err != nil {
return 0, err
}
var operr error
var n int
fn := func(s uintptr) bool {
n, operr = recvmmsg(s, hs, flags)
if operr == syscall.EAGAIN {
return false
}
return true
}
if err := c.c.Read(fn); err != nil {
return n, err
}
if operr != nil {
return n, os.NewSyscallError("recvmmsg", operr)
}
if err := hs[:n].unpack(ms[:n], parseFn, c.network); err != nil {
return n, err
}
return n, nil
}
func (c *Conn) sendMsgs(ms []Message, flags int) (int, error) {
hs := make(mmsghdrs, len(ms))
var marshalFn func(net.Addr) []byte
if c.network != "tcp" {
marshalFn = marshalInetAddr
}
if err := hs.pack(ms, nil, marshalFn); err != nil {
return 0, err
}
var operr error
var n int
fn := func(s uintptr) bool {
n, operr = sendmmsg(s, hs, flags)
if operr == syscall.EAGAIN {
return false
}
return true
}
if err := c.c.Write(fn); err != nil {
return n, err
}
if operr != nil {
return n, os.NewSyscallError("sendmmsg", operr)
}
if err := hs[:n].unpack(ms[:n], nil, ""); err != nil {
return n, err
}
return n, nil
}

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@ -1,77 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build go1.9
// +build darwin dragonfly freebsd linux netbsd openbsd solaris windows
package socket
import (
"os"
"syscall"
)
func (c *Conn) recvMsg(m *Message, flags int) error {
var h msghdr
vs := make([]iovec, len(m.Buffers))
var sa []byte
if c.network != "tcp" {
sa = make([]byte, sizeofSockaddrInet6)
}
h.pack(vs, m.Buffers, m.OOB, sa)
var operr error
var n int
fn := func(s uintptr) bool {
n, operr = recvmsg(s, &h, flags)
if operr == syscall.EAGAIN {
return false
}
return true
}
if err := c.c.Read(fn); err != nil {
return err
}
if operr != nil {
return os.NewSyscallError("recvmsg", operr)
}
if c.network != "tcp" {
var err error
m.Addr, err = parseInetAddr(sa[:], c.network)
if err != nil {
return err
}
}
m.N = n
m.NN = h.controllen()
m.Flags = h.flags()
return nil
}
func (c *Conn) sendMsg(m *Message, flags int) error {
var h msghdr
vs := make([]iovec, len(m.Buffers))
var sa []byte
if m.Addr != nil {
sa = marshalInetAddr(m.Addr)
}
h.pack(vs, m.Buffers, m.OOB, sa)
var operr error
var n int
fn := func(s uintptr) bool {
n, operr = sendmsg(s, &h, flags)
if operr == syscall.EAGAIN {
return false
}
return true
}
if err := c.c.Write(fn); err != nil {
return err
}
if operr != nil {
return os.NewSyscallError("sendmsg", operr)
}
m.N = n
m.NN = len(m.OOB)
return nil
}

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@ -1,18 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build go1.9
// +build !linux
package socket
import "errors"
func (c *Conn) recvMsgs(ms []Message, flags int) (int, error) {
return 0, errors.New("not implemented")
}
func (c *Conn) sendMsgs(ms []Message, flags int) (int, error) {
return 0, errors.New("not implemented")
}

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@ -1,18 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build go1.9
// +build !darwin,!dragonfly,!freebsd,!linux,!netbsd,!openbsd,!solaris,!windows
package socket
import "errors"
func (c *Conn) recvMsg(m *Message, flags int) error {
return errors.New("not implemented")
}
func (c *Conn) sendMsg(m *Message, flags int) error {
return errors.New("not implemented")
}

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@ -1,25 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build !go1.9
package socket
import "errors"
func (c *Conn) recvMsg(m *Message, flags int) error {
return errors.New("not implemented")
}
func (c *Conn) sendMsg(m *Message, flags int) error {
return errors.New("not implemented")
}
func (c *Conn) recvMsgs(ms []Message, flags int) (int, error) {
return 0, errors.New("not implemented")
}
func (c *Conn) sendMsgs(ms []Message, flags int) (int, error) {
return 0, errors.New("not implemented")
}

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@ -1,62 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build !go1.9
package socket
import (
"errors"
"net"
"os"
"reflect"
"runtime"
)
// A Conn represents a raw connection.
type Conn struct {
c net.Conn
}
// NewConn returns a new raw connection.
func NewConn(c net.Conn) (*Conn, error) {
return &Conn{c: c}, nil
}
func (o *Option) get(c *Conn, b []byte) (int, error) {
s, err := socketOf(c.c)
if err != nil {
return 0, err
}
n, err := getsockopt(s, o.Level, o.Name, b)
return n, os.NewSyscallError("getsockopt", err)
}
func (o *Option) set(c *Conn, b []byte) error {
s, err := socketOf(c.c)
if err != nil {
return err
}
return os.NewSyscallError("setsockopt", setsockopt(s, o.Level, o.Name, b))
}
func socketOf(c net.Conn) (uintptr, error) {
switch c.(type) {
case *net.TCPConn, *net.UDPConn, *net.IPConn:
v := reflect.ValueOf(c)
switch e := v.Elem(); e.Kind() {
case reflect.Struct:
fd := e.FieldByName("conn").FieldByName("fd")
switch e := fd.Elem(); e.Kind() {
case reflect.Struct:
sysfd := e.FieldByName("sysfd")
if runtime.GOOS == "windows" {
return uintptr(sysfd.Uint()), nil
}
return uintptr(sysfd.Int()), nil
}
}
}
return 0, errors.New("invalid type")
}

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@ -1,285 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package socket provides a portable interface for socket system
// calls.
package socket // import "golang.org/x/net/internal/socket"
import (
"errors"
"net"
"unsafe"
)
// An Option represents a sticky socket option.
type Option struct {
Level int // level
Name int // name; must be equal or greater than 1
Len int // length of value in bytes; must be equal or greater than 1
}
// Get reads a value for the option from the kernel.
// It returns the number of bytes written into b.
func (o *Option) Get(c *Conn, b []byte) (int, error) {
if o.Name < 1 || o.Len < 1 {
return 0, errors.New("invalid option")
}
if len(b) < o.Len {
return 0, errors.New("short buffer")
}
return o.get(c, b)
}
// GetInt returns an integer value for the option.
//
// The Len field of Option must be either 1 or 4.
func (o *Option) GetInt(c *Conn) (int, error) {
if o.Len != 1 && o.Len != 4 {
return 0, errors.New("invalid option")
}
var b []byte
var bb [4]byte
if o.Len == 1 {
b = bb[:1]
} else {
b = bb[:4]
}
n, err := o.get(c, b)
if err != nil {
return 0, err
}
if n != o.Len {
return 0, errors.New("invalid option length")
}
if o.Len == 1 {
return int(b[0]), nil
}
return int(NativeEndian.Uint32(b[:4])), nil
}
// Set writes the option and value to the kernel.
func (o *Option) Set(c *Conn, b []byte) error {
if o.Name < 1 || o.Len < 1 {
return errors.New("invalid option")
}
if len(b) < o.Len {
return errors.New("short buffer")
}
return o.set(c, b)
}
// SetInt writes the option and value to the kernel.
//
// The Len field of Option must be either 1 or 4.
func (o *Option) SetInt(c *Conn, v int) error {
if o.Len != 1 && o.Len != 4 {
return errors.New("invalid option")
}
var b []byte
if o.Len == 1 {
b = []byte{byte(v)}
} else {
var bb [4]byte
NativeEndian.PutUint32(bb[:o.Len], uint32(v))
b = bb[:4]
}
return o.set(c, b)
}
func controlHeaderLen() int {
return roundup(sizeofCmsghdr)
}
func controlMessageLen(dataLen int) int {
return roundup(sizeofCmsghdr) + dataLen
}
// ControlMessageSpace returns the whole length of control message.
func ControlMessageSpace(dataLen int) int {
return roundup(sizeofCmsghdr) + roundup(dataLen)
}
// A ControlMessage represents the head message in a stream of control
// messages.
//
// A control message comprises of a header, data and a few padding
// fields to conform to the interface to the kernel.
//
// See RFC 3542 for further information.
type ControlMessage []byte
// Data returns the data field of the control message at the head on
// m.
func (m ControlMessage) Data(dataLen int) []byte {
l := controlHeaderLen()
if len(m) < l || len(m) < l+dataLen {
return nil
}
return m[l : l+dataLen]
}
// Next returns the control message at the next on m.
//
// Next works only for standard control messages.
func (m ControlMessage) Next(dataLen int) ControlMessage {
l := ControlMessageSpace(dataLen)
if len(m) < l {
return nil
}
return m[l:]
}
// MarshalHeader marshals the header fields of the control message at
// the head on m.
func (m ControlMessage) MarshalHeader(lvl, typ, dataLen int) error {
if len(m) < controlHeaderLen() {
return errors.New("short message")
}
h := (*cmsghdr)(unsafe.Pointer(&m[0]))
h.set(controlMessageLen(dataLen), lvl, typ)
return nil
}
// ParseHeader parses and returns the header fields of the control
// message at the head on m.
func (m ControlMessage) ParseHeader() (lvl, typ, dataLen int, err error) {
l := controlHeaderLen()
if len(m) < l {
return 0, 0, 0, errors.New("short message")
}
h := (*cmsghdr)(unsafe.Pointer(&m[0]))
return h.lvl(), h.typ(), int(uint64(h.len()) - uint64(l)), nil
}
// Marshal marshals the control message at the head on m, and returns
// the next control message.
func (m ControlMessage) Marshal(lvl, typ int, data []byte) (ControlMessage, error) {
l := len(data)
if len(m) < ControlMessageSpace(l) {
return nil, errors.New("short message")
}
h := (*cmsghdr)(unsafe.Pointer(&m[0]))
h.set(controlMessageLen(l), lvl, typ)
if l > 0 {
copy(m.Data(l), data)
}
return m.Next(l), nil
}
// Parse parses m as a single or multiple control messages.
//
// Parse works for both standard and compatible messages.
func (m ControlMessage) Parse() ([]ControlMessage, error) {
var ms []ControlMessage
for len(m) >= controlHeaderLen() {
h := (*cmsghdr)(unsafe.Pointer(&m[0]))
l := h.len()
if l <= 0 {
return nil, errors.New("invalid header length")
}
if uint64(l) < uint64(controlHeaderLen()) {
return nil, errors.New("invalid message length")
}
if uint64(l) > uint64(len(m)) {
return nil, errors.New("short buffer")
}
// On message reception:
//
// |<- ControlMessageSpace --------------->|
// |<- controlMessageLen ---------->| |
// |<- controlHeaderLen ->| | |
// +---------------+------+---------+------+
// | Header | PadH | Data | PadD |
// +---------------+------+---------+------+
//
// On compatible message reception:
//
// | ... |<- controlMessageLen ----------->|
// | ... |<- controlHeaderLen ->| |
// +-----+---------------+------+----------+
// | ... | Header | PadH | Data |
// +-----+---------------+------+----------+
ms = append(ms, ControlMessage(m[:l]))
ll := l - controlHeaderLen()
if len(m) >= ControlMessageSpace(ll) {
m = m[ControlMessageSpace(ll):]
} else {
m = m[controlMessageLen(ll):]
}
}
return ms, nil
}
// NewControlMessage returns a new stream of control messages.
func NewControlMessage(dataLen []int) ControlMessage {
var l int
for i := range dataLen {
l += ControlMessageSpace(dataLen[i])
}
return make([]byte, l)
}
// A Message represents an IO message.
type Message struct {
// When writing, the Buffers field must contain at least one
// byte to write.
// When reading, the Buffers field will always contain a byte
// to read.
Buffers [][]byte
// OOB contains protocol-specific control or miscellaneous
// ancillary data known as out-of-band data.
OOB []byte
// Addr specifies a destination address when writing.
// It can be nil when the underlying protocol of the raw
// connection uses connection-oriented communication.
// After a successful read, it may contain the source address
// on the received packet.
Addr net.Addr
N int // # of bytes read or written from/to Buffers
NN int // # of bytes read or written from/to OOB
Flags int // protocol-specific information on the received message
}
// RecvMsg wraps recvmsg system call.
//
// The provided flags is a set of platform-dependent flags, such as
// syscall.MSG_PEEK.
func (c *Conn) RecvMsg(m *Message, flags int) error {
return c.recvMsg(m, flags)
}
// SendMsg wraps sendmsg system call.
//
// The provided flags is a set of platform-dependent flags, such as
// syscall.MSG_DONTROUTE.
func (c *Conn) SendMsg(m *Message, flags int) error {
return c.sendMsg(m, flags)
}
// RecvMsgs wraps recvmmsg system call.
//
// It returns the number of processed messages.
//
// The provided flags is a set of platform-dependent flags, such as
// syscall.MSG_PEEK.
//
// Only Linux supports this.
func (c *Conn) RecvMsgs(ms []Message, flags int) (int, error) {
return c.recvMsgs(ms, flags)
}
// SendMsgs wraps sendmmsg system call.
//
// It returns the number of processed messages.
//
// The provided flags is a set of platform-dependent flags, such as
// syscall.MSG_DONTROUTE.
//
// Only Linux supports this.
func (c *Conn) SendMsgs(ms []Message, flags int) (int, error) {
return c.sendMsgs(ms, flags)
}

View File

@ -1,33 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
import (
"encoding/binary"
"unsafe"
)
var (
// NativeEndian is the machine native endian implementation of
// ByteOrder.
NativeEndian binary.ByteOrder
kernelAlign int
)
func init() {
i := uint32(1)
b := (*[4]byte)(unsafe.Pointer(&i))
if b[0] == 1 {
NativeEndian = binary.LittleEndian
} else {
NativeEndian = binary.BigEndian
}
kernelAlign = probeProtocolStack()
}
func roundup(l int) int {
return (l + kernelAlign - 1) & ^(kernelAlign - 1)
}

View File

@ -1,17 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build darwin dragonfly freebsd openbsd
package socket
import "errors"
func recvmmsg(s uintptr, hs []mmsghdr, flags int) (int, error) {
return 0, errors.New("not implemented")
}
func sendmmsg(s uintptr, hs []mmsghdr, flags int) (int, error) {
return 0, errors.New("not implemented")
}

View File

@ -1,14 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build freebsd netbsd openbsd
package socket
import "unsafe"
func probeProtocolStack() int {
var p uintptr
return int(unsafe.Sizeof(p))
}

View File

@ -1,7 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
func probeProtocolStack() int { return 4 }

View File

@ -1,7 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
func probeProtocolStack() int { return 4 }

View File

@ -1,27 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build linux,!s390x,!386
package socket
import (
"syscall"
"unsafe"
)
func probeProtocolStack() int {
var p uintptr
return int(unsafe.Sizeof(p))
}
func recvmmsg(s uintptr, hs []mmsghdr, flags int) (int, error) {
n, _, errno := syscall.Syscall6(sysRECVMMSG, s, uintptr(unsafe.Pointer(&hs[0])), uintptr(len(hs)), uintptr(flags), 0, 0)
return int(n), errnoErr(errno)
}
func sendmmsg(s uintptr, hs []mmsghdr, flags int) (int, error) {
n, _, errno := syscall.Syscall6(sysSENDMMSG, s, uintptr(unsafe.Pointer(&hs[0])), uintptr(len(hs)), uintptr(flags), 0, 0)
return int(n), errnoErr(errno)
}

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@ -1,55 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
import (
"syscall"
"unsafe"
)
func probeProtocolStack() int { return 4 }
const (
sysSETSOCKOPT = 0xe
sysGETSOCKOPT = 0xf
sysSENDMSG = 0x10
sysRECVMSG = 0x11
sysRECVMMSG = 0x13
sysSENDMMSG = 0x14
)
func socketcall(call, a0, a1, a2, a3, a4, a5 uintptr) (uintptr, syscall.Errno)
func rawsocketcall(call, a0, a1, a2, a3, a4, a5 uintptr) (uintptr, syscall.Errno)
func getsockopt(s uintptr, level, name int, b []byte) (int, error) {
l := uint32(len(b))
_, errno := socketcall(sysGETSOCKOPT, s, uintptr(level), uintptr(name), uintptr(unsafe.Pointer(&b[0])), uintptr(unsafe.Pointer(&l)), 0)
return int(l), errnoErr(errno)
}
func setsockopt(s uintptr, level, name int, b []byte) error {
_, errno := socketcall(sysSETSOCKOPT, s, uintptr(level), uintptr(name), uintptr(unsafe.Pointer(&b[0])), uintptr(len(b)), 0)
return errnoErr(errno)
}
func recvmsg(s uintptr, h *msghdr, flags int) (int, error) {
n, errno := socketcall(sysRECVMSG, s, uintptr(unsafe.Pointer(h)), uintptr(flags), 0, 0, 0)
return int(n), errnoErr(errno)
}
func sendmsg(s uintptr, h *msghdr, flags int) (int, error) {
n, errno := socketcall(sysSENDMSG, s, uintptr(unsafe.Pointer(h)), uintptr(flags), 0, 0, 0)
return int(n), errnoErr(errno)
}
func recvmmsg(s uintptr, hs []mmsghdr, flags int) (int, error) {
n, errno := socketcall(sysRECVMMSG, s, uintptr(unsafe.Pointer(&hs[0])), uintptr(len(hs)), uintptr(flags), 0, 0)
return int(n), errnoErr(errno)
}
func sendmmsg(s uintptr, hs []mmsghdr, flags int) (int, error) {
n, errno := socketcall(sysSENDMMSG, s, uintptr(unsafe.Pointer(&hs[0])), uintptr(len(hs)), uintptr(flags), 0, 0)
return int(n), errnoErr(errno)
}

View File

@ -1,11 +0,0 @@
// Copyright 2014 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
#include "textflag.h"
TEXT ·socketcall(SB),NOSPLIT,$0-36
JMP syscall·socketcall(SB)
TEXT ·rawsocketcall(SB),NOSPLIT,$0-36
JMP syscall·rawsocketcall(SB)

View File

@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0x12b
sysSENDMMSG = 0x133
)

View File

@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0x16d
sysSENDMMSG = 0x176
)

View File

@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0xf3
sysSENDMMSG = 0x10d
)

View File

@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0x10ef
sysSENDMMSG = 0x10f7
)

View File

@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0x14ae
sysSENDMMSG = 0x14b6
)

View File

@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0x14ae
sysSENDMMSG = 0x14b6
)

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@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0x10ef
sysSENDMMSG = 0x10f7
)

View File

@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0x157
sysSENDMMSG = 0x15d
)

View File

@ -1,10 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
const (
sysRECVMMSG = 0x157
sysSENDMMSG = 0x15d
)

View File

@ -1,55 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package socket
import (
"syscall"
"unsafe"
)
func probeProtocolStack() int { return 8 }
const (
sysSETSOCKOPT = 0xe
sysGETSOCKOPT = 0xf
sysSENDMSG = 0x10
sysRECVMSG = 0x11
sysRECVMMSG = 0x13
sysSENDMMSG = 0x14
)
func socketcall(call, a0, a1, a2, a3, a4, a5 uintptr) (uintptr, syscall.Errno)
func rawsocketcall(call, a0, a1, a2, a3, a4, a5 uintptr) (uintptr, syscall.Errno)
func getsockopt(s uintptr, level, name int, b []byte) (int, error) {
l := uint32(len(b))
_, errno := socketcall(sysGETSOCKOPT, s, uintptr(level), uintptr(name), uintptr(unsafe.Pointer(&b[0])), uintptr(unsafe.Pointer(&l)), 0)
return int(l), errnoErr(errno)
}
func setsockopt(s uintptr, level, name int, b []byte) error {
_, errno := socketcall(sysSETSOCKOPT, s, uintptr(level), uintptr(name), uintptr(unsafe.Pointer(&b[0])), uintptr(len(b)), 0)
return errnoErr(errno)
}
func recvmsg(s uintptr, h *msghdr, flags int) (int, error) {
n, errno := socketcall(sysRECVMSG, s, uintptr(unsafe.Pointer(h)), uintptr(flags), 0, 0, 0)
return int(n), errnoErr(errno)
}
func sendmsg(s uintptr, h *msghdr, flags int) (int, error) {
n, errno := socketcall(sysSENDMSG, s, uintptr(unsafe.Pointer(h)), uintptr(flags), 0, 0, 0)
return int(n), errnoErr(errno)
}
func recvmmsg(s uintptr, hs []mmsghdr, flags int) (int, error) {
n, errno := socketcall(sysRECVMMSG, s, uintptr(unsafe.Pointer(&hs[0])), uintptr(len(hs)), uintptr(flags), 0, 0)
return int(n), errnoErr(errno)
}
func sendmmsg(s uintptr, hs []mmsghdr, flags int) (int, error) {
n, errno := socketcall(sysSENDMMSG, s, uintptr(unsafe.Pointer(&hs[0])), uintptr(len(hs)), uintptr(flags), 0, 0)
return int(n), errnoErr(errno)
}

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@ -1,11 +0,0 @@
// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
#include "textflag.h"
TEXT ·socketcall(SB),NOSPLIT,$0-72
JMP syscall·socketcall(SB)
TEXT ·rawsocketcall(SB),NOSPLIT,$0-72
JMP syscall·rawsocketcall(SB)

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