Software flow control

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"Xon" redirects here. For the Star Trek character, see Star Trek: Phase II § Lieutenant Xon.

Software flow control is a method of flow control used in computer data links, especially RS-232 serial. It uses special codes, transmitted in-band, over the primary communications channel. These codes are generally called XOFF and XON (from "transmit off" and "transmit on", respectively). Thus, "software flow control" is sometimes called "XON/XOFF flow control". This is in contrast to flow control via dedicated out-of-band signals — "hardware flow control" — such as RS-232 RTS/CTS.

Representation[edit]

For systems using the ASCII character code, XOFF is generally represented using a character or byte with value 19; XON with value 17.

The ASCII standard does not reserve any control characters for use as XON/XOFF specifically. However, it does provide four generic "device control" characters (DC1 through DC4). The Teletype Model 33 ASR adopted two of these, DC3 and DC1, for use as XOFF and XON, respectively. This usage was copied by others, and is now a de facto standard. The keyboard equivalents of CTRL+S for XOFF, and CTRL+Q for XON, also derive from this usage.

XOFF/XON representations in ASCII
Code Meaning ASCII Dec Hex Keyboard
XOFF Pause transmission DC3 19 13 CTRL+S
XON Resume transmission DC1 17 11 CTRL+Q

Mechanism[edit]

When one end of a data link is unable to accept any more data (or approaching that point), it sends XOFF to the other end. The other end receives the XOFF code, and suspends transmission. Once the first end is ready to accept data again, it sends XON, and the other end resumes transmission.

For example, imagine a computer sending data to a slow printer. Since the computer is faster than the printer, the printer falls behind and approaches a situation where it would be overwhelmed by the data. The printer reacts to this by sending XOFF to the computer, which temporarily stops sending data. Once the printer is once again ready to receive it sends XON to the computer, which starts sending data again.

XOFF/XON can be employed in both directions, for example, two teleprinters connected to each other.

Comparison with hardware flow control[edit]

The principal advantage of software flow control is the reduction in the number of electrical conductors between sender and receiver. Given a common ground, only two signals are needed, one to send and the other to receive. Hardware flow control requires additional wires between the two devices. It also requires specific hardware implementation, which had more significant costs in earlier days of computing (i.e., 1960s and 70s).

However, software flow control is not without its problems. Sending XOFF requires at least one character time to transmit, and may be queued behind already-transmitted data still in buffers. Hardware signals may be asserted almost instantaneously, and out-of-order.

As the name "software flow control" implies, flow control using this method is usually implemented in software (or at least a higher level of firmware), which can cause further delays in XOFF response. Hardware flow control is typically under the direct control of the transmitting UART, which is able to cease transmission immediately, without the intervention of higher levels.

Finally, since the XOFF/XON codes are sent in-band, they cannot appear in the data being transmitted without being mistaken for flow control commands. Any data containing the XOFF/XON codes thus must be encoded in some manner for proper transmission, with corresponding overhead. This is frequently done with some kind of escape sequence. For printing devices that directly interpret ASCII codes, this is not a large problem, because the XON and XOFF codes use ASCII "device control" code numbers.

Applications[edit]

Software flow control is used extensively by low-speed devices, especially older printers and dumb terminals, to indicate they are temporarily unable to accept more data. Typically, this is due to a combination of limited output rate and any buffers being full. Some terminal control packages, such as termcap, employ "padding" to allow such equipment sufficient time to perform the requested actions without the need to assert XOFF.

XOFF/XON are still sometimes used manually by computer operators, to pause and restart output which otherwise would scroll off the display too quickly.

Terminal emulator software generally implements XOFF/XON support as a basic function. This generally includes the system console on modern Unix and Linux machines, as well as GUI emulators such as xterm and the Win32 console.

Robust XON is a technique to restart communication, just in case it was stopped by an accidentally received XOFF. The receiving unit sends periodic XON characters when it can receive data, and the line is idle. One common use is by serial printers (like HP LaserJet II) to indicate they are online and ready to receive data. The XON is sent every 1 to 30 seconds depending on the printers' firmware design.

See also[edit]

References[edit]