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connection.go
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connection.go
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// Copyright 2015 Google Inc. All Rights Reserved.
//
// 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 fuse
import (
"context"
"fmt"
"io"
"log"
"os"
"path"
"runtime"
"sync"
"syscall"
"github.com/jacobsa/fuse/fuseops"
"github.com/jacobsa/fuse/internal/buffer"
"github.com/jacobsa/fuse/internal/freelist"
"github.com/jacobsa/fuse/internal/fusekernel"
)
type contextKeyType uint64
var contextKey interface{} = contextKeyType(0)
// Ask the Linux kernel for larger read requests.
//
// As of 2015-03-26, the behavior in the kernel is:
//
// * (http://goo.gl/bQ1f1i, http://goo.gl/HwBrR6) Set the local variable
// ra_pages to be init_response->max_readahead divided by the page size.
//
// * (http://goo.gl/gcIsSh, http://goo.gl/LKV2vA) Set
// backing_dev_info::ra_pages to the min of that value and what was sent
// in the request's max_readahead field.
//
// * (http://goo.gl/u2SqzH) Use backing_dev_info::ra_pages when deciding
// how much to read ahead.
//
// * (http://goo.gl/JnhbdL) Don't read ahead at all if that field is zero.
//
// Reading a page at a time is a drag. Ask for a larger size.
const maxReadahead = 1 << 20
// Connection represents a connection to the fuse kernel process. It is used to
// receive and reply to requests from the kernel.
type Connection struct {
cfg MountConfig
debugLogger *log.Logger
errorLogger *log.Logger
// The device through which we're talking to the kernel, and the protocol
// version that we're using to talk to it.
dev *os.File
protocol fusekernel.Protocol
mu sync.Mutex
// A map from fuse "unique" request ID (*not* the op ID for logging used
// above) to a function that cancel's its associated context.
//
// GUARDED_BY(mu)
cancelFuncs map[uint64]func()
// Freelists, serviced by freelists.go.
inMessages freelist.Freelist // GUARDED_BY(mu)
outMessages freelist.Freelist // GUARDED_BY(mu)
}
// State that is maintained for each in-flight op. This is stuffed into the
// context that the user uses to reply to the op.
type opState struct {
inMsg *buffer.InMessage
outMsg *buffer.OutMessage
op interface{}
}
// Create a connection wrapping the supplied file descriptor connected to the
// kernel. You must eventually call c.close().
//
// The loggers may be nil.
func newConnection(
cfg MountConfig,
debugLogger *log.Logger,
errorLogger *log.Logger,
dev *os.File) (*Connection, error) {
c := &Connection{
cfg: cfg,
debugLogger: debugLogger,
errorLogger: errorLogger,
dev: dev,
cancelFuncs: make(map[uint64]func()),
}
// Initialize.
if err := c.Init(); err != nil {
c.close()
return nil, fmt.Errorf("Init: %v", err)
}
return c, nil
}
// Init performs the work necessary to cause the mount process to complete.
func (c *Connection) Init() error {
// Read the init op.
ctx, op, err := c.ReadOp()
if err != nil {
return fmt.Errorf("Reading init op: %v", err)
}
initOp, ok := op.(*initOp)
if !ok {
c.Reply(ctx, syscall.EPROTO)
return fmt.Errorf("Expected *initOp, got %T", op)
}
// Make sure the protocol version spoken by the kernel is new enough.
min := fusekernel.Protocol{
fusekernel.ProtoVersionMinMajor,
fusekernel.ProtoVersionMinMinor,
}
if initOp.Kernel.LT(min) {
c.Reply(ctx, syscall.EPROTO)
return fmt.Errorf("Version too old: %v", initOp.Kernel)
}
// Downgrade our protocol if necessary.
c.protocol = fusekernel.Protocol{
fusekernel.ProtoVersionMaxMajor,
fusekernel.ProtoVersionMaxMinor,
}
if initOp.Kernel.LT(c.protocol) {
c.protocol = initOp.Kernel
}
cacheSymlinks := initOp.Flags&fusekernel.InitCacheSymlinks > 0
noOpenSupport := initOp.Flags&fusekernel.InitNoOpenSupport > 0
noOpendirSupport := initOp.Flags&fusekernel.InitNoOpendirSupport > 0
// Respond to the init op.
initOp.Library = c.protocol
initOp.MaxReadahead = maxReadahead
initOp.MaxWrite = buffer.MaxWriteSize
initOp.Flags = 0
// Tell the kernel not to use pitifully small 4 KiB writes.
initOp.Flags |= fusekernel.InitBigWrites
// Enable writeback caching if the user hasn't asked us not to.
if !c.cfg.DisableWritebackCaching {
initOp.Flags |= fusekernel.InitWritebackCache
}
// Enable caching symlink targets in the kernel page cache if the user opted
// into it (might require fixing the size field of inode attributes first):
if c.cfg.EnableSymlinkCaching && cacheSymlinks {
initOp.Flags |= fusekernel.InitCacheSymlinks
}
// Tell the kernel to treat returning -ENOSYS on OpenFile as not needing
// OpenFile calls at all (Linux >= 3.16):
if c.cfg.EnableNoOpenSupport && noOpenSupport {
initOp.Flags |= fusekernel.InitNoOpenSupport
}
// Tell the kernel to treat returning -ENOSYS on OpenDir as not needing
// OpenDir calls at all (Linux >= 5.1):
if c.cfg.EnableNoOpendirSupport && noOpendirSupport {
initOp.Flags |= fusekernel.InitNoOpendirSupport
}
c.Reply(ctx, nil)
return nil
}
// Log information for an operation with the given ID. calldepth is the depth
// to use when recovering file:line information with runtime.Caller.
func (c *Connection) debugLog(
fuseID uint64,
calldepth int,
format string,
v ...interface{}) {
if c.debugLogger == nil {
return
}
// Get file:line info.
var file string
var line int
var ok bool
_, file, line, ok = runtime.Caller(calldepth)
if !ok {
file = "???"
}
fileLine := fmt.Sprintf("%v:%v", path.Base(file), line)
// Format the actual message to be printed.
msg := fmt.Sprintf(
"Op 0x%08x %24s] %v",
fuseID,
fileLine,
fmt.Sprintf(format, v...))
// Print it.
c.debugLogger.Println(msg)
}
// LOCKS_EXCLUDED(c.mu)
func (c *Connection) recordCancelFunc(
fuseID uint64,
f func()) {
c.mu.Lock()
defer c.mu.Unlock()
if _, ok := c.cancelFuncs[fuseID]; ok {
panic(fmt.Sprintf("Already have cancel func for request %v", fuseID))
}
c.cancelFuncs[fuseID] = f
}
// Set up state for an op that is about to be returned to the user, given its
// underlying fuse opcode and request ID.
//
// Return a context that should be used for the op.
//
// LOCKS_EXCLUDED(c.mu)
func (c *Connection) beginOp(
opCode uint32,
fuseID uint64) context.Context {
// Start with the parent context.
ctx := c.cfg.OpContext
// Set up a cancellation function.
//
// Special case: On Darwin, osxfuse aggressively reuses "unique" request IDs.
// This matters for Forget requests, which have no reply associated and
// therefore have IDs that are immediately eligible for reuse. For these, we
// should not record any state keyed on their ID.
//
// Cf. https://github.com/osxfuse/osxfuse/issues/208
if opCode != fusekernel.OpForget {
var cancel func()
ctx, cancel = context.WithCancel(ctx)
c.recordCancelFunc(fuseID, cancel)
}
return ctx
}
// Clean up all state associated with an op to which the user has responded,
// given its underlying fuse opcode and request ID. This must be called before
// a response is sent to the kernel, to avoid a race where the request's ID
// might be reused by osxfuse.
//
// LOCKS_EXCLUDED(c.mu)
func (c *Connection) finishOp(
opCode uint32,
fuseID uint64) {
c.mu.Lock()
defer c.mu.Unlock()
// Even though the op is finished, context.WithCancel requires us to arrange
// for the cancellation function to be invoked. We also must remove it from
// our map.
//
// Special case: we don't do this for Forget requests. See the note in
// beginOp above.
if opCode != fusekernel.OpForget {
cancel, ok := c.cancelFuncs[fuseID]
if !ok {
panic(fmt.Sprintf("Unknown request ID in finishOp: %v", fuseID))
}
cancel()
delete(c.cancelFuncs, fuseID)
}
}
// LOCKS_EXCLUDED(c.mu)
func (c *Connection) handleInterrupt(fuseID uint64) {
c.mu.Lock()
defer c.mu.Unlock()
// NOTE(jacobsa): fuse.txt in the Linux kernel documentation
// (https://goo.gl/H55Dnr) defines the kernel <-> userspace protocol for
// interrupts.
//
// In particular, my reading of it is that an interrupt request cannot be
// delivered to userspace before the original request. The part about the
// race and EAGAIN appears to be aimed at userspace programs that
// concurrently process requests (cf. http://goo.gl/BES2rs).
//
// So in this method if we can't find the ID to be interrupted, it means that
// the request has already been replied to.
//
// Cf. https://github.com/osxfuse/osxfuse/issues/208
// Cf. http://comments.gmane.org/gmane.comp.file-systems.fuse.devel/14675
cancel, ok := c.cancelFuncs[fuseID]
if !ok {
return
}
cancel()
}
// Read the next message from the kernel. The message must later be destroyed
// using destroyInMessage.
func (c *Connection) readMessage() (*buffer.InMessage, error) {
// Allocate a message.
m := c.getInMessage()
// Loop past transient errors.
for {
// Attempt a reaed.
err := m.Init(c.dev)
// Special cases:
//
// * ENODEV means fuse has hung up.
//
// * EINTR means we should try again. (This seems to happen often on
// OS X, cf. http://golang.org/issue/11180)
//
if pe, ok := err.(*os.PathError); ok {
switch pe.Err {
case syscall.ENODEV:
err = io.EOF
case syscall.EINTR:
err = nil
continue
}
}
if err != nil {
c.putInMessage(m)
return nil, err
}
return m, nil
}
}
// Write the supplied message to the kernel.
func (c *Connection) writeMessage(msg []byte) error {
// Avoid the retry loop in os.File.Write.
n, err := syscall.Write(int(c.dev.Fd()), msg)
if err != nil {
return err
}
if n != len(msg) {
return fmt.Errorf("Wrote %d bytes; expected %d", n, len(msg))
}
return nil
}
// ReadOp consumes the next op from the kernel process, returning the op and a
// context that should be used for work related to the op. It returns io.EOF if
// the kernel has closed the connection.
//
// If err != nil, the user is responsible for later calling c.Reply with the
// returned context.
//
// This function delivers ops in exactly the order they are received from
// /dev/fuse. It must not be called multiple times concurrently.
//
// LOCKS_EXCLUDED(c.mu)
func (c *Connection) ReadOp() (_ context.Context, op interface{}, _ error) {
// Keep going until we find a request we know how to convert.
for {
// Read the next message from the kernel.
inMsg, err := c.readMessage()
if err != nil {
return nil, nil, err
}
// Convert the message to an op.
outMsg := c.getOutMessage()
op, err = convertInMessage(inMsg, outMsg, c.protocol)
if err != nil {
c.putOutMessage(outMsg)
return nil, nil, fmt.Errorf("convertInMessage: %v", err)
}
// Choose an ID for this operation for the purposes of logging, and log it.
if c.debugLogger != nil {
c.debugLog(inMsg.Header().Unique, 1, "<- %s", describeRequest(op))
}
// Special case: handle interrupt requests inline.
if interruptOp, ok := op.(*interruptOp); ok {
c.handleInterrupt(interruptOp.FuseID)
continue
}
// Set up a context that remembers information about this op.
ctx := c.beginOp(inMsg.Header().Opcode, inMsg.Header().Unique)
ctx = context.WithValue(ctx, contextKey, opState{inMsg, outMsg, op})
// Return the op to the user.
return ctx, op, nil
}
}
// Skip errors that happen as a matter of course, since they spook users.
func (c *Connection) shouldLogError(
op interface{},
err error) bool {
// We don't log non-errors.
if err == nil {
return false
}
// We can't log if there's nothing to log to.
if c.errorLogger == nil {
return false
}
switch op.(type) {
case *fuseops.LookUpInodeOp:
// It is totally normal for the kernel to ask to look up an inode by name
// and find the name doesn't exist. For example, this happens when linking
// a new file.
if err == syscall.ENOENT {
return false
}
case *fuseops.GetXattrOp:
if err == syscall.ENODATA || err == syscall.ERANGE {
return false
}
case *unknownOp:
// Don't bother the user with methods we intentionally don't support.
if err == syscall.ENOSYS {
return false
}
}
return true
}
// Reply replies to an op previously read using ReadOp, with the supplied error
// (or nil if successful). The context must be the context returned by ReadOp.
//
// LOCKS_EXCLUDED(c.mu)
func (c *Connection) Reply(ctx context.Context, opErr error) {
// Extract the state we stuffed in earlier.
var key interface{} = contextKey
foo := ctx.Value(key)
state, ok := foo.(opState)
if !ok {
panic(fmt.Sprintf("Reply called with invalid context: %#v", ctx))
}
op := state.op
inMsg := state.inMsg
outMsg := state.outMsg
fuseID := inMsg.Header().Unique
// Make sure we destroy the messages when we're done.
defer c.putInMessage(inMsg)
defer c.putOutMessage(outMsg)
// Clean up state for this op.
c.finishOp(inMsg.Header().Opcode, inMsg.Header().Unique)
// Debug logging
if c.debugLogger != nil {
if opErr == nil {
c.debugLog(fuseID, 1, "-> OK (%s)", describeResponse(op))
} else {
c.debugLog(fuseID, 1, "-> Error: %q", opErr.Error())
}
}
// Error logging
if c.shouldLogError(op, opErr) {
c.errorLogger.Printf("%T error: %v", op, opErr)
}
// Send the reply to the kernel, if one is required.
noResponse := c.kernelResponse(outMsg, inMsg.Header().Unique, op, opErr)
if !noResponse {
err := c.writeMessage(outMsg.Bytes())
if err != nil && c.errorLogger != nil {
c.errorLogger.Printf("writeMessage: %v %v", err, outMsg.Bytes())
}
}
}
// Close the connection. Must not be called until operations that were read
// from the connection have been responded to.
func (c *Connection) close() error {
// Posix doesn't say that close can be called concurrently with read or
// write, but luckily we exclude the possibility of a race by requiring the
// user to respond to all ops first.
return c.dev.Close()
}