github.com/hxx258456/ccgo@v0.0.5-0.20230213014102-48b35f46f66f/internal/poll/copy_file_range_linux.go (about)

     1  // Copyright 2020 The Go Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  package poll
     6  
     7  import (
     8  	"sync/atomic"
     9  	"syscall"
    10  
    11  	"github.com/hxx258456/ccgo/internal/syscall/unix"
    12  )
    13  
    14  var copyFileRangeSupported int32 = -1 // accessed atomically
    15  
    16  const maxCopyFileRangeRound = 1 << 30
    17  
    18  func kernelVersion() (major int, minor int) {
    19  	var uname syscall.Utsname
    20  	if err := syscall.Uname(&uname); err != nil {
    21  		return
    22  	}
    23  
    24  	rl := uname.Release
    25  	var values [2]int
    26  	vi := 0
    27  	value := 0
    28  	for _, c := range rl {
    29  		if '0' <= c && c <= '9' {
    30  			value = (value * 10) + int(c-'0')
    31  		} else {
    32  			// Note that we're assuming N.N.N here.  If we see anything else we are likely to
    33  			// mis-parse it.
    34  			values[vi] = value
    35  			vi++
    36  			if vi >= len(values) {
    37  				break
    38  			}
    39  			value = 0
    40  		}
    41  	}
    42  	switch vi {
    43  	case 0:
    44  		return 0, 0
    45  	case 1:
    46  		return values[0], 0
    47  	case 2:
    48  		return values[0], values[1]
    49  	}
    50  	return
    51  }
    52  
    53  // CopyFileRange copies at most remain bytes of data from src to dst, using
    54  // the copy_file_range system call. dst and src must refer to regular files.
    55  func CopyFileRange(dst, src *FD, remain int64) (written int64, handled bool, err error) {
    56  	if supported := atomic.LoadInt32(&copyFileRangeSupported); supported == 0 {
    57  		return 0, false, nil
    58  	} else if supported == -1 {
    59  		major, minor := kernelVersion()
    60  		if major > 5 || (major == 5 && minor >= 3) {
    61  			atomic.StoreInt32(&copyFileRangeSupported, 1)
    62  		} else {
    63  			// copy_file_range(2) is broken in various ways on kernels older than 5.3,
    64  			// see issue #42400 and
    65  			// https://man7.org/linux/man-pages/man2/copy_file_range.2.html#VERSIONS
    66  			atomic.StoreInt32(&copyFileRangeSupported, 0)
    67  			return 0, false, nil
    68  		}
    69  	}
    70  	for remain > 0 {
    71  		max := remain
    72  		if max > maxCopyFileRangeRound {
    73  			max = maxCopyFileRangeRound
    74  		}
    75  		n, err := copyFileRange(dst, src, int(max))
    76  		switch err {
    77  		case syscall.ENOSYS:
    78  			// copy_file_range(2) was introduced in Linux 4.5.
    79  			// Go supports Linux >= 2.6.33, so the system call
    80  			// may not be present.
    81  			//
    82  			// If we see ENOSYS, we have certainly not transferred
    83  			// any data, so we can tell the caller that we
    84  			// couldn't handle the transfer and let them fall
    85  			// back to more generic code.
    86  			//
    87  			// Seeing ENOSYS also means that we will not try to
    88  			// use copy_file_range(2) again.
    89  			atomic.StoreInt32(&copyFileRangeSupported, 0)
    90  			return 0, false, nil
    91  		case syscall.EXDEV, syscall.EINVAL, syscall.EIO, syscall.EOPNOTSUPP, syscall.EPERM:
    92  			// Prior to Linux 5.3, it was not possible to
    93  			// copy_file_range across file systems. Similarly to
    94  			// the ENOSYS case above, if we see EXDEV, we have
    95  			// not transferred any data, and we can let the caller
    96  			// fall back to generic code.
    97  			//
    98  			// As for EINVAL, that is what we see if, for example,
    99  			// dst or src refer to a pipe rather than a regular
   100  			// file. This is another case where no data has been
   101  			// transferred, so we consider it unhandled.
   102  			//
   103  			// If src and dst are on CIFS, we can see EIO.
   104  			// See issue #42334.
   105  			//
   106  			// If the file is on NFS, we can see EOPNOTSUPP.
   107  			// See issue #40731.
   108  			//
   109  			// If the process is running inside a Docker container,
   110  			// we might see EPERM instead of ENOSYS. See issue
   111  			// #40893. Since EPERM might also be a legitimate error,
   112  			// don't mark copy_file_range(2) as unsupported.
   113  			return 0, false, nil
   114  		case nil:
   115  			if n == 0 {
   116  				// If we did not read any bytes at all,
   117  				// then this file may be in a file system
   118  				// where copy_file_range silently fails.
   119  				// https://lore.kernel.org/linux-fsdevel/20210126233840.GG4626@dread.disaster.area/T/#m05753578c7f7882f6e9ffe01f981bc223edef2b0
   120  				if written == 0 {
   121  					return 0, false, nil
   122  				}
   123  				// Otherwise src is at EOF, which means
   124  				// we are done.
   125  				return written, true, nil
   126  			}
   127  			remain -= n
   128  			written += n
   129  		default:
   130  			return written, true, err
   131  		}
   132  	}
   133  	return written, true, nil
   134  }
   135  
   136  // copyFileRange performs one round of copy_file_range(2).
   137  func copyFileRange(dst, src *FD, max int) (written int64, err error) {
   138  	// The signature of copy_file_range(2) is:
   139  	//
   140  	// ssize_t copy_file_range(int fd_in, loff_t *off_in,
   141  	//                         int fd_out, loff_t *off_out,
   142  	//                         size_t len, unsigned int flags);
   143  	//
   144  	// Note that in the call to unix.CopyFileRange below, we use nil
   145  	// values for off_in and off_out. For the system call, this means
   146  	// "use and update the file offsets". That is why we must acquire
   147  	// locks for both file descriptors (and why this whole machinery is
   148  	// in the internal/poll package to begin with).
   149  	if err := dst.writeLock(); err != nil {
   150  		return 0, err
   151  	}
   152  	defer dst.writeUnlock()
   153  	if err := src.readLock(); err != nil {
   154  		return 0, err
   155  	}
   156  	defer src.readUnlock()
   157  	var n int
   158  	for {
   159  		n, err = unix.CopyFileRange(src.Sysfd, nil, dst.Sysfd, nil, max, 0)
   160  		if err != syscall.EINTR {
   161  			break
   162  		}
   163  	}
   164  	return int64(n), err
   165  }