589 lines
17 KiB
Go
589 lines
17 KiB
Go
package netlink
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import (
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"math/rand"
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"sync"
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"sync/atomic"
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"syscall"
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"time"
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"golang.org/x/net/bpf"
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)
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// A Conn is a connection to netlink. A Conn can be used to send and
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// receives messages to and from netlink.
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//
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// A Conn is safe for concurrent use, but to avoid contention in
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// high-throughput applications, the caller should almost certainly create a
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// pool of Conns and distribute them among workers.
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//
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// A Conn is capable of manipulating netlink subsystems from within a specific
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// Linux network namespace, but special care must be taken when doing so. See
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// the documentation of Config for details.
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type Conn struct {
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// Atomics must come first.
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//
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// seq is an atomically incremented integer used to provide sequence
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// numbers when Conn.Send is called.
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seq uint32
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// mu serializes access to the netlink socket for the request/response
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// transaction within Execute.
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mu sync.RWMutex
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// sock is the operating system-specific implementation of
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// a netlink sockets connection.
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sock Socket
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// pid is the PID assigned by netlink.
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pid uint32
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// d provides debugging capabilities for a Conn if not nil.
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d *debugger
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}
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// A Socket is an operating-system specific implementation of netlink
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// sockets used by Conn.
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type Socket interface {
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Close() error
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Send(m Message) error
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SendMessages(m []Message) error
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Receive() ([]Message, error)
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}
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// Dial dials a connection to netlink, using the specified netlink family.
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// Config specifies optional configuration for Conn. If config is nil, a default
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// configuration will be used.
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func Dial(family int, config *Config) (*Conn, error) {
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// TODO(mdlayher): plumb in netlink.OpError wrapping?
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// Use OS-specific dial() to create Socket.
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c, pid, err := dial(family, config)
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if err != nil {
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return nil, err
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}
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return NewConn(c, pid), nil
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}
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// NewConn creates a Conn using the specified Socket and PID for netlink
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// communications.
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//
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// NewConn is primarily useful for tests. Most applications should use
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// Dial instead.
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func NewConn(sock Socket, pid uint32) *Conn {
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// Seed the sequence number using a random number generator.
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r := rand.New(rand.NewSource(time.Now().UnixNano()))
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seq := r.Uint32()
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// Configure a debugger if arguments are set.
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var d *debugger
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if len(debugArgs) > 0 {
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d = newDebugger(debugArgs)
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}
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return &Conn{
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seq: seq,
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sock: sock,
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pid: pid,
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d: d,
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}
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}
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// debug executes fn with the debugger if the debugger is not nil.
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func (c *Conn) debug(fn func(d *debugger)) {
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if c.d == nil {
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return
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}
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fn(c.d)
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}
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// Close closes the connection and unblocks any pending read operations.
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func (c *Conn) Close() error {
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// Close does not acquire a lock because it must be able to interrupt any
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// blocked system calls, such as when Receive is waiting on a multicast
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// group message.
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//
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// We rely on the kernel to deal with concurrent operations to the netlink
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// socket itself.
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return newOpError("close", c.sock.Close())
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}
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// Execute sends a single Message to netlink using Send, receives one or more
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// replies using Receive, and then checks the validity of the replies against
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// the request using Validate.
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//
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// Execute acquires a lock for the duration of the function call which blocks
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// concurrent calls to Send, SendMessages, and Receive, in order to ensure
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// consistency between netlink request/reply messages.
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//
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// See the documentation of Send, Receive, and Validate for details about
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// each function.
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func (c *Conn) Execute(m Message) ([]Message, error) {
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// Acquire the write lock and invoke the internal implementations of Send
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// and Receive which require the lock already be held.
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c.mu.Lock()
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defer c.mu.Unlock()
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req, err := c.lockedSend(m)
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if err != nil {
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return nil, err
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}
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res, err := c.lockedReceive()
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if err != nil {
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return nil, err
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}
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if err := Validate(req, res); err != nil {
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return nil, err
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}
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return res, nil
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}
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// SendMessages sends multiple Messages to netlink. The handling of
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// a Header's Length, Sequence and PID fields is the same as when
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// calling Send.
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func (c *Conn) SendMessages(msgs []Message) ([]Message, error) {
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// Wait for any concurrent calls to Execute to finish before proceeding.
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c.mu.RLock()
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defer c.mu.RUnlock()
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for i := range msgs {
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c.fixMsg(&msgs[i], nlmsgLength(len(msgs[i].Data)))
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}
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c.debug(func(d *debugger) {
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for _, m := range msgs {
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d.debugf(1, "send msgs: %+v", m)
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}
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})
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if err := c.sock.SendMessages(msgs); err != nil {
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c.debug(func(d *debugger) {
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d.debugf(1, "send msgs: err: %v", err)
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})
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return nil, newOpError("send-messages", err)
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}
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return msgs, nil
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}
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// Send sends a single Message to netlink. In most cases, a Header's Length,
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// Sequence, and PID fields should be set to 0, so they can be populated
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// automatically before the Message is sent. On success, Send returns a copy
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// of the Message with all parameters populated, for later validation.
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//
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// If Header.Length is 0, it will be automatically populated using the
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// correct length for the Message, including its payload.
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//
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// If Header.Sequence is 0, it will be automatically populated using the
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// next sequence number for this connection.
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//
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// If Header.PID is 0, it will be automatically populated using a PID
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// assigned by netlink.
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func (c *Conn) Send(m Message) (Message, error) {
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// Wait for any concurrent calls to Execute to finish before proceeding.
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c.mu.RLock()
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defer c.mu.RUnlock()
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return c.lockedSend(m)
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}
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// lockedSend implements Send, but must be called with c.mu acquired for reading.
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// We rely on the kernel to deal with concurrent reads and writes to the netlink
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// socket itself.
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func (c *Conn) lockedSend(m Message) (Message, error) {
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c.fixMsg(&m, nlmsgLength(len(m.Data)))
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c.debug(func(d *debugger) {
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d.debugf(1, "send: %+v", m)
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})
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if err := c.sock.Send(m); err != nil {
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c.debug(func(d *debugger) {
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d.debugf(1, "send: err: %v", err)
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})
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return Message{}, newOpError("send", err)
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}
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return m, nil
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}
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// Receive receives one or more messages from netlink. Multi-part messages are
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// handled transparently and returned as a single slice of Messages, with the
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// final empty "multi-part done" message removed.
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//
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// If any of the messages indicate a netlink error, that error will be returned.
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func (c *Conn) Receive() ([]Message, error) {
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// Wait for any concurrent calls to Execute to finish before proceeding.
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c.mu.RLock()
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defer c.mu.RUnlock()
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return c.lockedReceive()
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}
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// lockedReceive implements Receive, but must be called with c.mu acquired for reading.
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// We rely on the kernel to deal with concurrent reads and writes to the netlink
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// socket itself.
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func (c *Conn) lockedReceive() ([]Message, error) {
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msgs, err := c.receive()
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if err != nil {
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c.debug(func(d *debugger) {
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d.debugf(1, "recv: err: %v", err)
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})
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return nil, err
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}
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c.debug(func(d *debugger) {
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for _, m := range msgs {
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d.debugf(1, "recv: %+v", m)
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}
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})
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// When using nltest, it's possible for zero messages to be returned by receive.
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if len(msgs) == 0 {
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return msgs, nil
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}
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// Trim the final message with multi-part done indicator if
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// present.
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if m := msgs[len(msgs)-1]; m.Header.Flags&Multi != 0 && m.Header.Type == Done {
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return msgs[:len(msgs)-1], nil
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}
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return msgs, nil
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}
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// receive is the internal implementation of Conn.Receive, which can be called
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// recursively to handle multi-part messages.
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func (c *Conn) receive() ([]Message, error) {
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// NB: All non-nil errors returned from this function *must* be of type
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// OpError in order to maintain the appropriate contract with callers of
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// this package.
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//
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// This contract also applies to functions called within this function,
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// such as checkMessage.
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var res []Message
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for {
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msgs, err := c.sock.Receive()
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if err != nil {
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return nil, newOpError("receive", err)
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}
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// If this message is multi-part, we will need to continue looping to
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// drain all the messages from the socket.
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var multi bool
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for _, m := range msgs {
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if err := checkMessage(m); err != nil {
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return nil, err
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}
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// Does this message indicate a multi-part message?
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if m.Header.Flags&Multi == 0 {
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// No, check the next messages.
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continue
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}
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// Does this message indicate the last message in a series of
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// multi-part messages from a single read?
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multi = m.Header.Type != Done
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}
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res = append(res, msgs...)
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if !multi {
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// No more messages coming.
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return res, nil
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}
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}
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}
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// A groupJoinLeaver is a Socket that supports joining and leaving
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// netlink multicast groups.
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type groupJoinLeaver interface {
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Socket
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JoinGroup(group uint32) error
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LeaveGroup(group uint32) error
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}
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// JoinGroup joins a netlink multicast group by its ID.
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func (c *Conn) JoinGroup(group uint32) error {
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conn, ok := c.sock.(groupJoinLeaver)
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if !ok {
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return notSupported("join-group")
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}
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return newOpError("join-group", conn.JoinGroup(group))
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}
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// LeaveGroup leaves a netlink multicast group by its ID.
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func (c *Conn) LeaveGroup(group uint32) error {
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conn, ok := c.sock.(groupJoinLeaver)
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if !ok {
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return notSupported("leave-group")
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}
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return newOpError("leave-group", conn.LeaveGroup(group))
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}
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// A bpfSetter is a Socket that supports setting and removing BPF filters.
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type bpfSetter interface {
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Socket
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bpf.Setter
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RemoveBPF() error
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}
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// SetBPF attaches an assembled BPF program to a Conn.
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func (c *Conn) SetBPF(filter []bpf.RawInstruction) error {
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conn, ok := c.sock.(bpfSetter)
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if !ok {
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return notSupported("set-bpf")
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}
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return newOpError("set-bpf", conn.SetBPF(filter))
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}
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// RemoveBPF removes a BPF filter from a Conn.
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func (c *Conn) RemoveBPF() error {
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conn, ok := c.sock.(bpfSetter)
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if !ok {
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return notSupported("remove-bpf")
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}
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return newOpError("remove-bpf", conn.RemoveBPF())
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}
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// A deadlineSetter is a Socket that supports setting deadlines.
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type deadlineSetter interface {
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Socket
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SetDeadline(time.Time) error
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SetReadDeadline(time.Time) error
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SetWriteDeadline(time.Time) error
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}
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// SetDeadline sets the read and write deadlines associated with the connection.
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func (c *Conn) SetDeadline(t time.Time) error {
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conn, ok := c.sock.(deadlineSetter)
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if !ok {
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return notSupported("set-deadline")
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}
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return newOpError("set-deadline", conn.SetDeadline(t))
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}
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// SetReadDeadline sets the read deadline associated with the connection.
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func (c *Conn) SetReadDeadline(t time.Time) error {
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conn, ok := c.sock.(deadlineSetter)
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if !ok {
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return notSupported("set-read-deadline")
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}
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return newOpError("set-read-deadline", conn.SetReadDeadline(t))
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}
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// SetWriteDeadline sets the write deadline associated with the connection.
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func (c *Conn) SetWriteDeadline(t time.Time) error {
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conn, ok := c.sock.(deadlineSetter)
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if !ok {
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return notSupported("set-write-deadline")
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}
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return newOpError("set-write-deadline", conn.SetWriteDeadline(t))
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}
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// A ConnOption is a boolean option that may be set for a Conn.
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type ConnOption int
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// Possible ConnOption values. These constants are equivalent to the Linux
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// setsockopt boolean options for netlink sockets.
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const (
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PacketInfo ConnOption = iota
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BroadcastError
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NoENOBUFS
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ListenAllNSID
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CapAcknowledge
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ExtendedAcknowledge
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GetStrictCheck
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)
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// An optionSetter is a Socket that supports setting netlink options.
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type optionSetter interface {
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Socket
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SetOption(option ConnOption, enable bool) error
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}
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// SetOption enables or disables a netlink socket option for the Conn.
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func (c *Conn) SetOption(option ConnOption, enable bool) error {
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conn, ok := c.sock.(optionSetter)
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if !ok {
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return notSupported("set-option")
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}
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return newOpError("set-option", conn.SetOption(option, enable))
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}
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// A bufferSetter is a Socket that supports setting connection buffer sizes.
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type bufferSetter interface {
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Socket
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SetReadBuffer(bytes int) error
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SetWriteBuffer(bytes int) error
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}
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// SetReadBuffer sets the size of the operating system's receive buffer
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// associated with the Conn.
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func (c *Conn) SetReadBuffer(bytes int) error {
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conn, ok := c.sock.(bufferSetter)
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if !ok {
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return notSupported("set-read-buffer")
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}
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return newOpError("set-read-buffer", conn.SetReadBuffer(bytes))
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}
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// SetWriteBuffer sets the size of the operating system's transmit buffer
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// associated with the Conn.
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func (c *Conn) SetWriteBuffer(bytes int) error {
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conn, ok := c.sock.(bufferSetter)
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if !ok {
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return notSupported("set-write-buffer")
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}
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return newOpError("set-write-buffer", conn.SetWriteBuffer(bytes))
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}
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// A syscallConner is a Socket that supports syscall.Conn.
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type syscallConner interface {
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Socket
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syscall.Conn
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}
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var _ syscall.Conn = &Conn{}
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// SyscallConn returns a raw network connection. This implements the
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// syscall.Conn interface.
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//
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// SyscallConn is intended for advanced use cases, such as getting and setting
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// arbitrary socket options using the netlink socket's file descriptor.
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//
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// Once invoked, it is the caller's responsibility to ensure that operations
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// performed using Conn and the syscall.RawConn do not conflict with
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// each other.
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func (c *Conn) SyscallConn() (syscall.RawConn, error) {
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sc, ok := c.sock.(syscallConner)
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if !ok {
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return nil, notSupported("syscall-conn")
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}
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// TODO(mdlayher): mutex or similar to enforce syscall.RawConn contract of
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// FD remaining valid for duration of calls?
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return sc.SyscallConn()
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}
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// fixMsg updates the fields of m using the logic specified in Send.
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func (c *Conn) fixMsg(m *Message, ml int) {
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if m.Header.Length == 0 {
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m.Header.Length = uint32(nlmsgAlign(ml))
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}
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if m.Header.Sequence == 0 {
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m.Header.Sequence = c.nextSequence()
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}
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if m.Header.PID == 0 {
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m.Header.PID = c.pid
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}
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}
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// nextSequence atomically increments Conn's sequence number and returns
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// the incremented value.
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func (c *Conn) nextSequence() uint32 {
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return atomic.AddUint32(&c.seq, 1)
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}
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// Validate validates one or more reply Messages against a request Message,
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// ensuring that they contain matching sequence numbers and PIDs.
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func Validate(request Message, replies []Message) error {
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for _, m := range replies {
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// Check for mismatched sequence, unless:
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// - request had no sequence, meaning we are probably validating
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// a multicast reply
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if m.Header.Sequence != request.Header.Sequence && request.Header.Sequence != 0 {
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return newOpError("validate", errMismatchedSequence)
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}
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// Check for mismatched PID, unless:
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// - request had no PID, meaning we are either:
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// - validating a multicast reply
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// - netlink has not yet assigned us a PID
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// - response had no PID, meaning it's from the kernel as a multicast reply
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if m.Header.PID != request.Header.PID && request.Header.PID != 0 && m.Header.PID != 0 {
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return newOpError("validate", errMismatchedPID)
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}
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}
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return nil
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}
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// Config contains options for a Conn.
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type Config struct {
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// Groups is a bitmask which specifies multicast groups. If set to 0,
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// no multicast group subscriptions will be made.
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Groups uint32
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// NetNS specifies the network namespace the Conn will operate in.
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//
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// If set (non-zero), Conn will enter the specified network namespace and
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// an error will occur in Dial if the operation fails.
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//
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// If not set (zero), a best-effort attempt will be made to enter the
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// network namespace of the calling thread: this means that any changes made
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// to the calling thread's network namespace will also be reflected in Conn.
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// If this operation fails (due to lack of permissions or because network
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// namespaces are disabled by kernel configuration), Dial will not return
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// an error, and the Conn will operate in the default network namespace of
|
|
// the process. This enables non-privileged use of Conn in applications
|
|
// which do not require elevated privileges.
|
|
//
|
|
// Entering a network namespace is a privileged operation (root or
|
|
// CAP_SYS_ADMIN are required), and most applications should leave this set
|
|
// to 0.
|
|
NetNS int
|
|
|
|
// DisableNSLockThread is a no-op.
|
|
//
|
|
// Deprecated: internal changes have made this option obsolete and it has no
|
|
// effect. Do not use.
|
|
DisableNSLockThread bool
|
|
|
|
// PID specifies the port ID used to bind the netlink socket. If set to 0,
|
|
// the kernel will assign a port ID on the caller's behalf.
|
|
//
|
|
// Most callers should leave this field set to 0. This option is intended
|
|
// for advanced use cases where the kernel expects a fixed unicast address
|
|
// destination for netlink messages.
|
|
PID uint32
|
|
|
|
// Strict applies a more strict default set of options to the Conn,
|
|
// including:
|
|
// - ExtendedAcknowledge: true
|
|
// - provides more useful error messages when supported by the kernel
|
|
// - GetStrictCheck: true
|
|
// - more strictly enforces request validation for some families such
|
|
// as rtnetlink which were historically misused
|
|
//
|
|
// If any of the options specified by Strict cannot be configured due to an
|
|
// outdated kernel or similar, an error will be returned.
|
|
//
|
|
// When possible, setting Strict to true is recommended for applications
|
|
// running on modern Linux kernels.
|
|
Strict bool
|
|
}
|