In noncanonical input mode, the special editing characters such as ERASE and KILL are ignored. The system facilities for the user to edit input are disabled in noncanonical mode, so that all input characters (unless they are special for signal or flow-control purposes) are passed to the application program exactly as typed. It is up to the application program to give the user ways to edit the input, if appropriate.
Noncanonical mode offers special parameters called MIN and TIME for controlling whether and how long to wait for input to be available. You can even use them to avoid ever waiting—to return immediately with whatever input is available, or with no input.
The MIN and TIME are stored in elements of the c_cc
array, which
is a member of the struct termios
structure. Each element of
this array has a particular role, and each element has a symbolic
constant that stands for the index of that element. VMIN
and
VMAX
are the names for the indices in the array of the MIN and
TIME slots.
This is the subscript for the MIN slot in the
c_cc
array. Thus, termios.c_cc[VMIN]
is the value itself.The MIN slot is only meaningful in noncanonical input mode; it specifies the minimum number of bytes that must be available in the input queue in order for
read
to return.
This is the subscript for the TIME slot in the
c_cc
array. Thus, termios.c_cc[VTIME]
is the value itself.The TIME slot is only meaningful in noncanonical input mode; it specifies how long to wait for input before returning, in units of 0.1 seconds.
The MIN and TIME values interact to determine the criterion for when
read
should return; their precise meanings depend on which of
them are nonzero. There are four possible cases:
In this case, TIME specifies how long to wait after each input character
to see if more input arrives. After the first character received,
read
keeps waiting until either MIN bytes have arrived in all, or
TIME elapses with no further input.
read
always blocks until the first character arrives, even if
TIME elapses first. read
can return more than MIN characters if
more than MIN happen to be in the queue.
In this case, read
always returns immediately with as many
characters as are available in the queue, up to the number requested.
If no input is immediately available, read
returns a value of
zero.
In this case, read
waits for time TIME for input to become
available; the availability of a single byte is enough to satisfy the
read request and cause read
to return. When it returns, it
returns as many characters as are available, up to the number requested.
If no input is available before the timer expires, read
returns a
value of zero.
In this case, read
waits until at least MIN bytes are available
in the queue. At that time, read
returns as many characters as
are available, up to the number requested. read
can return more
than MIN characters if more than MIN happen to be in the queue.
What happens if MIN is 50 and you ask to read just 10 bytes?
Normally, read
waits until there are 50 bytes in the buffer (or,
more generally, the wait condition described above is satisfied), and
then reads 10 of them, leaving the other 40 buffered in the operating
system for a subsequent call to read
.
Portability note: On some systems, the MIN and TIME slots are actually the same as the EOF and EOL slots. This causes no serious problem because the MIN and TIME slots are used only in noncanonical input and the EOF and EOL slots are used only in canonical input, but it isn't very clean. The GNU C Library allocates separate slots for these uses.
This function provides an easy way to set up
*
termios-p for what has traditionally been called “raw mode” in BSD. This uses noncanonical input, and turns off most processing to give an unmodified channel to the terminal.It does exactly this:
termios-p->c_iflag &= ~(IGNBRK|BRKINT|PARMRK|ISTRIP |INLCR|IGNCR|ICRNL|IXON); termios-p->c_oflag &= ~OPOST; termios-p->c_lflag &= ~(ECHO|ECHONL|ICANON|ISIG|IEXTEN); termios-p->c_cflag &= ~(CSIZE|PARENB); termios-p->c_cflag |= CS8;