// +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 }