zrepl/rpc/dataconn/timeoutconn/timoutconn_readv.go

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// +build !illumos
// +build !solaris
package timeoutconn
import (
"io"
"net"
"syscall"
"unsafe"
)
func buildIovecs(buffers net.Buffers) (totalLen int64, vecs []syscall.Iovec) {
vecs = make([]syscall.Iovec, 0, len(buffers))
for i := range buffers {
totalLen += int64(len(buffers[i]))
if len(buffers[i]) == 0 {
continue
}
v := syscall.Iovec{
Base: &buffers[i][0],
}
// syscall.Iovec.Len has platform-dependent size, thus use SetLen
v.SetLen(len(buffers[i]))
vecs = append(vecs, v)
}
return totalLen, vecs
}
func (c Conn) readv(buffers net.Buffers) (n int64, err error) {
scc, ok := c.Wire.(SyscallConner)
if !ok {
return c.readvFallback(buffers)
}
rawConn, err := scc.SyscallConn()
if err == SyscallConnNotSupported {
return c.readvFallback(buffers)
}
if err != nil {
return 0, err
}
_, iovecs := buildIovecs(buffers)
for len(iovecs) > 0 {
if err := c.renewReadDeadline(); err != nil {
return n, err
}
oneN, oneErr := c.doOneReadv(rawConn, &iovecs)
n += oneN
if netErr, ok := oneErr.(net.Error); ok && netErr.Timeout() && oneN > 0 { // TODO likely not working
continue
} else if oneErr == nil && oneN > 0 {
continue
} else {
return n, oneErr
}
}
return n, nil
}
func (c Conn) doOneReadv(rawConn syscall.RawConn, iovecs *[]syscall.Iovec) (n int64, err error) {
rawReadErr := rawConn.Read(func(fd uintptr) (done bool) {
// iovecs, n and err must not be shadowed!
// NOTE: unsafe.Pointer safety rules
// https://tip.golang.org/pkg/unsafe/#Pointer
//
// (4) Conversion of a Pointer to a uintptr when calling syscall.Syscall.
// ...
// uintptr() conversions must appear within the syscall.Syscall argument list.
// (even though we are not the escape analysis Likely not )
thisReadN, _, errno := syscall.Syscall(
syscall.SYS_READV,
fd,
uintptr(unsafe.Pointer(&(*iovecs)[0])),
uintptr(len(*iovecs)),
)
if thisReadN == ^uintptr(0) {
if errno == syscall.EAGAIN {
return false
}
err = syscall.Errno(errno)
return true
}
if int(thisReadN) < 0 {
panic("unexpected return value")
}
n += int64(thisReadN) // TODO check overflow
// shift iovecs forward
for left := int(thisReadN); left > 0; {
// conversion to uint does not change value, see TestIovecLenFieldIsMachineUint, and left > 0
thisIovecConsumedCompletely := uint((*iovecs)[0].Len) <= uint(left)
if thisIovecConsumedCompletely {
// Update left, cannot go below 0 due to
// a) definition of thisIovecConsumedCompletely
// b) left > 0 due to loop invariant
// Converting .Len to int64 is thus also safe now, because it is < left < INT_MAX
left -= int((*iovecs)[0].Len)
*iovecs = (*iovecs)[1:]
} else {
// trim this iovec to remaining length
// NOTE: unsafe.Pointer safety rules
// https://tip.golang.org/pkg/unsafe/#Pointer
// (3) Conversion of a Pointer to a uintptr and back, with arithmetic.
// ...
// Note that both conversions must appear in the same expression,
// with only the intervening arithmetic between them:
(*iovecs)[0].Base = (*byte)(unsafe.Pointer(uintptr(unsafe.Pointer((*iovecs)[0].Base)) + uintptr(left)))
curVecNewLength := uint((*iovecs)[0].Len) - uint(left) // casts to uint do not change value
(*iovecs)[0].SetLen(int(curVecNewLength)) // int and uint have the same size, no change of value
break // inner
}
}
if thisReadN == 0 {
err = io.EOF
return true
}
return true
})
if rawReadErr != nil {
err = rawReadErr
}
return n, err
}