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// Copyright 2019 The gVisor Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package proc
import (
"bytes"
"fmt"
"gvisor.dev/gvisor/pkg/abi/linux"
"gvisor.dev/gvisor/pkg/context"
"gvisor.dev/gvisor/pkg/sentry/fsimpl/kernfs"
"gvisor.dev/gvisor/pkg/sentry/inet"
"gvisor.dev/gvisor/pkg/sentry/kernel"
"gvisor.dev/gvisor/pkg/sentry/kernel/auth"
"gvisor.dev/gvisor/pkg/sentry/vfs"
"gvisor.dev/gvisor/pkg/sync"
"gvisor.dev/gvisor/pkg/syserror"
"gvisor.dev/gvisor/pkg/tcpip/network/ipv4"
"gvisor.dev/gvisor/pkg/usermem"
)
// +stateify savable
type tcpMemDir int
const (
tcpRMem tcpMemDir = iota
tcpWMem
)
// newSysDir returns the dentry corresponding to /proc/sys directory.
func (fs *filesystem) newSysDir(root *auth.Credentials, k *kernel.Kernel) kernfs.Inode {
return fs.newStaticDir(root, map[string]kernfs.Inode{
"kernel": fs.newStaticDir(root, map[string]kernfs.Inode{
"hostname": fs.newInode(root, 0444, &hostnameData{}),
"shmall": fs.newInode(root, 0444, shmData(linux.SHMALL)),
"shmmax": fs.newInode(root, 0444, shmData(linux.SHMMAX)),
"shmmni": fs.newInode(root, 0444, shmData(linux.SHMMNI)),
}),
"vm": fs.newStaticDir(root, map[string]kernfs.Inode{
"mmap_min_addr": fs.newInode(root, 0444, &mmapMinAddrData{k: k}),
"overcommit_memory": fs.newInode(root, 0444, newStaticFile("0\n")),
}),
"net": fs.newSysNetDir(root, k),
})
}
// newSysNetDir returns the dentry corresponding to /proc/sys/net directory.
func (fs *filesystem) newSysNetDir(root *auth.Credentials, k *kernel.Kernel) kernfs.Inode {
var contents map[string]kernfs.Inode
// TODO(gvisor.dev/issue/1833): Support for using the network stack in the
// network namespace of the calling process.
if stack := k.RootNetworkNamespace().Stack(); stack != nil {
contents = map[string]kernfs.Inode{
"ipv4": fs.newStaticDir(root, map[string]kernfs.Inode{
"tcp_recovery": fs.newInode(root, 0644, &tcpRecoveryData{stack: stack}),
"tcp_rmem": fs.newInode(root, 0644, &tcpMemData{stack: stack, dir: tcpRMem}),
"tcp_sack": fs.newInode(root, 0644, &tcpSackData{stack: stack}),
"tcp_wmem": fs.newInode(root, 0644, &tcpMemData{stack: stack, dir: tcpWMem}),
"ip_forward": fs.newInode(root, 0444, &ipForwarding{stack: stack}),
// The following files are simple stubs until they are implemented in
// netstack, most of these files are configuration related. We use the
// value closest to the actual netstack behavior or any empty file, all
// of these files will have mode 0444 (read-only for all users).
"ip_local_port_range": fs.newInode(root, 0444, newStaticFile("16000 65535")),
"ip_local_reserved_ports": fs.newInode(root, 0444, newStaticFile("")),
"ipfrag_time": fs.newInode(root, 0444, newStaticFile("30")),
"ip_nonlocal_bind": fs.newInode(root, 0444, newStaticFile("0")),
"ip_no_pmtu_disc": fs.newInode(root, 0444, newStaticFile("1")),
// tcp_allowed_congestion_control tell the user what they are able to
// do as an unprivledged process so we leave it empty.
"tcp_allowed_congestion_control": fs.newInode(root, 0444, newStaticFile("")),
"tcp_available_congestion_control": fs.newInode(root, 0444, newStaticFile("reno")),
"tcp_congestion_control": fs.newInode(root, 0444, newStaticFile("reno")),
// Many of the following stub files are features netstack doesn't
// support. The unsupported features return "0" to indicate they are
// disabled.
"tcp_base_mss": fs.newInode(root, 0444, newStaticFile("1280")),
"tcp_dsack": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_early_retrans": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_fack": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_fastopen": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_fastopen_key": fs.newInode(root, 0444, newStaticFile("")),
"tcp_invalid_ratelimit": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_keepalive_intvl": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_keepalive_probes": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_keepalive_time": fs.newInode(root, 0444, newStaticFile("7200")),
"tcp_mtu_probing": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_no_metrics_save": fs.newInode(root, 0444, newStaticFile("1")),
"tcp_probe_interval": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_probe_threshold": fs.newInode(root, 0444, newStaticFile("0")),
"tcp_retries1": fs.newInode(root, 0444, newStaticFile("3")),
"tcp_retries2": fs.newInode(root, 0444, newStaticFile("15")),
"tcp_rfc1337": fs.newInode(root, 0444, newStaticFile("1")),
"tcp_slow_start_after_idle": fs.newInode(root, 0444, newStaticFile("1")),
"tcp_synack_retries": fs.newInode(root, 0444, newStaticFile("5")),
"tcp_syn_retries": fs.newInode(root, 0444, newStaticFile("3")),
"tcp_timestamps": fs.newInode(root, 0444, newStaticFile("1")),
}),
"core": fs.newStaticDir(root, map[string]kernfs.Inode{
"default_qdisc": fs.newInode(root, 0444, newStaticFile("pfifo_fast")),
"message_burst": fs.newInode(root, 0444, newStaticFile("10")),
"message_cost": fs.newInode(root, 0444, newStaticFile("5")),
"optmem_max": fs.newInode(root, 0444, newStaticFile("0")),
"rmem_default": fs.newInode(root, 0444, newStaticFile("212992")),
"rmem_max": fs.newInode(root, 0444, newStaticFile("212992")),
"somaxconn": fs.newInode(root, 0444, newStaticFile("128")),
"wmem_default": fs.newInode(root, 0444, newStaticFile("212992")),
"wmem_max": fs.newInode(root, 0444, newStaticFile("212992")),
}),
}
}
return fs.newStaticDir(root, contents)
}
// mmapMinAddrData implements vfs.DynamicBytesSource for
// /proc/sys/vm/mmap_min_addr.
//
// +stateify savable
type mmapMinAddrData struct {
kernfs.DynamicBytesFile
k *kernel.Kernel
}
var _ dynamicInode = (*mmapMinAddrData)(nil)
// Generate implements vfs.DynamicBytesSource.Generate.
func (d *mmapMinAddrData) Generate(ctx context.Context, buf *bytes.Buffer) error {
fmt.Fprintf(buf, "%d\n", d.k.Platform.MinUserAddress())
return nil
}
// hostnameData implements vfs.DynamicBytesSource for /proc/sys/kernel/hostname.
//
// +stateify savable
type hostnameData struct {
kernfs.DynamicBytesFile
}
var _ dynamicInode = (*hostnameData)(nil)
// Generate implements vfs.DynamicBytesSource.Generate.
func (*hostnameData) Generate(ctx context.Context, buf *bytes.Buffer) error {
utsns := kernel.UTSNamespaceFromContext(ctx)
buf.WriteString(utsns.HostName())
buf.WriteString("\n")
return nil
}
// tcpSackData implements vfs.WritableDynamicBytesSource for
// /proc/sys/net/tcp_sack.
//
// +stateify savable
type tcpSackData struct {
kernfs.DynamicBytesFile
stack inet.Stack `state:"wait"`
enabled *bool
}
var _ vfs.WritableDynamicBytesSource = (*tcpSackData)(nil)
// Generate implements vfs.DynamicBytesSource.Generate.
func (d *tcpSackData) Generate(ctx context.Context, buf *bytes.Buffer) error {
if d.enabled == nil {
sack, err := d.stack.TCPSACKEnabled()
if err != nil {
return err
}
d.enabled = &sack
}
val := "0\n"
if *d.enabled {
// Technically, this is not quite compatible with Linux. Linux stores these
// as an integer, so if you write "2" into tcp_sack, you should get 2 back.
// Tough luck.
val = "1\n"
}
_, err := buf.WriteString(val)
return err
}
// Write implements vfs.WritableDynamicBytesSource.Write.
func (d *tcpSackData) Write(ctx context.Context, src usermem.IOSequence, offset int64) (int64, error) {
if offset != 0 {
// No need to handle partial writes thus far.
return 0, syserror.EINVAL
}
if src.NumBytes() == 0 {
return 0, nil
}
// Limit the amount of memory allocated.
src = src.TakeFirst(usermem.PageSize - 1)
var v int32
n, err := usermem.CopyInt32StringInVec(ctx, src.IO, src.Addrs, &v, src.Opts)
if err != nil {
return 0, err
}
if d.enabled == nil {
d.enabled = new(bool)
}
*d.enabled = v != 0
return n, d.stack.SetTCPSACKEnabled(*d.enabled)
}
// tcpRecoveryData implements vfs.WritableDynamicBytesSource for
// /proc/sys/net/ipv4/tcp_recovery.
//
// +stateify savable
type tcpRecoveryData struct {
kernfs.DynamicBytesFile
stack inet.Stack `state:"wait"`
}
var _ vfs.WritableDynamicBytesSource = (*tcpRecoveryData)(nil)
// Generate implements vfs.DynamicBytesSource.Generate.
func (d *tcpRecoveryData) Generate(ctx context.Context, buf *bytes.Buffer) error {
recovery, err := d.stack.TCPRecovery()
if err != nil {
return err
}
_, err = buf.WriteString(fmt.Sprintf("%d\n", recovery))
return err
}
// Write implements vfs.WritableDynamicBytesSource.Write.
func (d *tcpRecoveryData) Write(ctx context.Context, src usermem.IOSequence, offset int64) (int64, error) {
if offset != 0 {
// No need to handle partial writes thus far.
return 0, syserror.EINVAL
}
if src.NumBytes() == 0 {
return 0, nil
}
// Limit the amount of memory allocated.
src = src.TakeFirst(usermem.PageSize - 1)
var v int32
n, err := usermem.CopyInt32StringInVec(ctx, src.IO, src.Addrs, &v, src.Opts)
if err != nil {
return 0, err
}
if err := d.stack.SetTCPRecovery(inet.TCPLossRecovery(v)); err != nil {
return 0, err
}
return n, nil
}
// tcpMemData implements vfs.WritableDynamicBytesSource for
// /proc/sys/net/ipv4/tcp_rmem and /proc/sys/net/ipv4/tcp_wmem.
//
// +stateify savable
type tcpMemData struct {
kernfs.DynamicBytesFile
dir tcpMemDir
stack inet.Stack `state:"wait"`
// mu protects against concurrent reads/writes to FDs based on the dentry
// backing this byte source.
mu sync.Mutex `state:"nosave"`
}
var _ vfs.WritableDynamicBytesSource = (*tcpMemData)(nil)
// Generate implements vfs.DynamicBytesSource.Generate.
func (d *tcpMemData) Generate(ctx context.Context, buf *bytes.Buffer) error {
d.mu.Lock()
defer d.mu.Unlock()
size, err := d.readSizeLocked()
if err != nil {
return err
}
_, err = buf.WriteString(fmt.Sprintf("%d\t%d\t%d\n", size.Min, size.Default, size.Max))
return err
}
// Write implements vfs.WritableDynamicBytesSource.Write.
func (d *tcpMemData) Write(ctx context.Context, src usermem.IOSequence, offset int64) (int64, error) {
if offset != 0 {
// No need to handle partial writes thus far.
return 0, syserror.EINVAL
}
if src.NumBytes() == 0 {
return 0, nil
}
d.mu.Lock()
defer d.mu.Unlock()
// Limit the amount of memory allocated.
src = src.TakeFirst(usermem.PageSize - 1)
size, err := d.readSizeLocked()
if err != nil {
return 0, err
}
buf := []int32{int32(size.Min), int32(size.Default), int32(size.Max)}
n, err := usermem.CopyInt32StringsInVec(ctx, src.IO, src.Addrs, buf, src.Opts)
if err != nil {
return 0, err
}
newSize := inet.TCPBufferSize{
Min: int(buf[0]),
Default: int(buf[1]),
Max: int(buf[2]),
}
if err := d.writeSizeLocked(newSize); err != nil {
return 0, err
}
return n, nil
}
// Precondition: d.mu must be locked.
func (d *tcpMemData) readSizeLocked() (inet.TCPBufferSize, error) {
switch d.dir {
case tcpRMem:
return d.stack.TCPReceiveBufferSize()
case tcpWMem:
return d.stack.TCPSendBufferSize()
default:
panic(fmt.Sprintf("unknown tcpMemFile type: %v", d.dir))
}
}
// Precondition: d.mu must be locked.
func (d *tcpMemData) writeSizeLocked(size inet.TCPBufferSize) error {
switch d.dir {
case tcpRMem:
return d.stack.SetTCPReceiveBufferSize(size)
case tcpWMem:
return d.stack.SetTCPSendBufferSize(size)
default:
panic(fmt.Sprintf("unknown tcpMemFile type: %v", d.dir))
}
}
// ipForwarding implements vfs.WritableDynamicBytesSource for
// /proc/sys/net/ipv4/ip_forwarding.
//
// +stateify savable
type ipForwarding struct {
kernfs.DynamicBytesFile
stack inet.Stack `state:"wait"`
enabled *bool
}
var _ vfs.WritableDynamicBytesSource = (*ipForwarding)(nil)
// Generate implements vfs.DynamicBytesSource.Generate.
func (ipf *ipForwarding) Generate(ctx context.Context, buf *bytes.Buffer) error {
if ipf.enabled == nil {
enabled := ipf.stack.Forwarding(ipv4.ProtocolNumber)
ipf.enabled = &enabled
}
val := "0\n"
if *ipf.enabled {
// Technically, this is not quite compatible with Linux. Linux stores these
// as an integer, so if you write "2" into tcp_sack, you should get 2 back.
// Tough luck.
val = "1\n"
}
buf.WriteString(val)
return nil
}
// Write implements vfs.WritableDynamicBytesSource.Write.
func (ipf *ipForwarding) Write(ctx context.Context, src usermem.IOSequence, offset int64) (int64, error) {
if offset != 0 {
// No need to handle partial writes thus far.
return 0, syserror.EINVAL
}
if src.NumBytes() == 0 {
return 0, nil
}
// Limit input size so as not to impact performance if input size is large.
src = src.TakeFirst(usermem.PageSize - 1)
var v int32
n, err := usermem.CopyInt32StringInVec(ctx, src.IO, src.Addrs, &v, src.Opts)
if err != nil {
return 0, err
}
if ipf.enabled == nil {
ipf.enabled = new(bool)
}
*ipf.enabled = v != 0
if err := ipf.stack.SetForwarding(ipv4.ProtocolNumber, *ipf.enabled); err != nil {
return 0, err
}
return n, nil
}
|
