pckbport(9) - NetBSD Manual Pages

PCKBPORT(9)            NetBSD Kernel Developer's Manual            PCKBPORT(9)


NAME
pckbport, pckbport_attach, pckbport_attach_slot, pckbport_cnattach, pckbportintr, pckbport_set_inputhandler, pckbport_flush, pckbport_poll_cmd, pckbport_enqueue_cmd, pckbport_poll_data, pckbport_set_poll, pckbport_xt_translation, pckbport_slot_enable -- PC keyboard port interface
SYNOPSIS
#include <dev/pckbport/pckbportvar.h> pckbport_tag_t pckbport_attach(void *, struct pckbport_accessops const *); struct device * pckbport_attach_slot(struct device *, pckbport_tag_t, pckbport_slot_t); int pckbport_cnattach(void *, struct pckbport_accessops const *, pckbport_slot_t); void pckbportintr(pckbport_tag_t, pckbport_slot_t, int); void pckbport_set_inputhandler(pckbport_tag_t, pckbport_slot_t, pckbport_inputfcn, void *, char *); void pckbport_flush(pckbport_tag_t, pckbport_slot_t); int pckbport_poll_cmd(pckbport_tag_t, pckbport_slot_t, u_char *, int, int, u_char *, int); int pckbport_enqueue_cmd(pckbport_tag_t, pckbport_slot_t, u_char *, int, int, int, u_char *); int pckbport_poll_data(pckbport_tag_t, pckbport_slot_t); void pckbport_set_poll(pckbport_tag_t, pckbport_slot_t, int); int pckbport_xt_translation(pckbport_tag_t, pckbport_slot_t, int); void pckbport_slot_enable(pckbport_tag_t, pckbport_slot_t, int);
DESCRIPTION
The machine-independent pckbport subsystem provides an interface layer corresponding to the serial keyboard and mouse interface used on the IBM PS/2 and many other machines. It interfaces a controller driver such as pckbc(4) to device drivers such as pckbd(4) and pms(4). A single controller can have up to two ports (known as ``slots''), and these are identified by values of type pckbport_slot_t. The values PCKBPORT_KBD_SLOT and PCKBPORT_AUX_SLOT should be used for keyboard and mouse ports respectively. Each controller is identified by an opaque value of type pckbport_tag_t. Controller interface A PC keyboard controller registers itself by calling pckbport_attach(cookie, ops), with ops being a pointer to a struct pckbport_accessops containing pointers to functions for driving the con- troller, which will all be called with cookie as their first argument. pckbport_attach() returns the pckbport_tag_t assigned to the controller. The controller is then expected to call pckbport_attach_slot() for each slot with which it is equipped, passing the struct device * corresponding to the controller. This function returns a pointer to the child device attached to the slot, or NULL if no such device was attached. The elements of struct pckbport_accessops each take as their first two arguments the cookie passed to pckbport_attach() and the slot in ques- tion. The elements are: int (*t_xt_translation)(void *cookie, pckbport_slot_t slot, int on) If on is non-zero, enable, otherwise disable, AT-to-XT keycode translation on the slot specified. Returns 1 on success, 0 on failure (or if the controller does not support such translation). int (*t_send_devcmd)(void *cookie, pckbport_slot_t slot, u_char byte) Send a single byte to the device without waiting for completion. Returns 1 on success, 0 on failure. int (*t_poll_data1)(void *cookie, pckbport_slot_t slot) Wait for and return one byte of data from the device, without using interrupts. This function will only be called after (*t_set_poll)() has been used to put the slot in polling mode. If no data are forthcoming from the device after about 100ms, return -1. void (*t_slot_enable)(void *cookie, pckbport_slot_t slot, int on) If on is non-zero, enable, otherwise disable, the slot. If a slot is disabled, it can be powered down, and is not expected to generate any interrupts. When first attached, ports should be disabled. void (*t_intr_establish)(void *cookie, pckbport_slot_t slot) Set up an interrupt handler for the slot. Called when a device gets attached to it. void (*t_set_poll)(void *cookie, pckbport_slot_t slot, int on) If on is non-zero, enable, otherwise disable, polling mode on the slot. In polling mode, data received from the device are provided to (*t_poll_data1)() and not passed to pckbportintr(), whether or not interrupts are enabled. In non-polling mode, data from the device are expected to cause interrupts. The controller interrupt handler should call pckbportintr(tag, slot, byte) once for each byte received from the device. When first attached, a port should be in non-polling mode. Device interface Devices that attach to pckbport controllers do so using the normal autoconf(9) mechanism. Their (*ca_match)() and (*ca_attach)() functions get passed a struct pckbport_attach_args which contains the controller and slot number where the device was found. Device drivers can use the following functions to communicate with the controller. Each takes tag and slot arguments to specify the slot to be acted on. pckbport_set_inputhandler(tag, slot, fn, arg, name) Arrange for fn to be called with argument arg whenever an unsolicited byte is received from the slot. The function will be called at spltty(). pckbport_flush(tag, slot) Ensure that there is no pending input from the slot. pckbport_poll_cmd(tag, slot, cmd, len, responselen, respbuf, slow) Issue a complete device command, cmd, len bytes long, expecting a response responselen bytes long, which will be placed in respbuf. If slow is true, the command is expected to take over a second to execute. pckbport_poll_cmd() handles getting an acknowledgement from the device and retrying the command if necessary. Returns 0 on success, and an error value on failure. This function should only be called during autoconfigu- ration or when the slot has been placed into polling mode by pckbport_set_poll(). pckbport_enqueue_cmd(tag, slot, cmd, len, responselen, sync, respbuf) Issue a complete device command, cmd, len bytes long, expecting a response responselen bytes long, which will be places in respbuf. If sync is true, pckbport_enqueue_cmd() waits for the command to com- plete before returning, otherwise it returns immedi- ately. It is not safe to set sync when calling from an interrupt context. The pckbport layer handles getting an acknowledgement from the device and retrying the command if necessary. Returns 0 on success, and an error value on failure. pckbport_poll_data(tag, slot) Low-level command to poll for a single byte of data from the device, but ignoring bytes that are part of the response to a command issued through pckbport_enqueue_command(). pckbport_set_poll(tag, slot, on) If on is true, enable polling on the slot, otherwise disable it. In polling mode, pckbport_poll_cmd() can be used to issue commands and pckbport_poll_data() to read unsolicited data, without enabling interrupts. In non-polling mode, commands should be issued using pckbport_enqueue_cmd(), unsolicited data are handled by the input function, and disabling interrupts will sus- pend pckbport operation. pckbport_xt_translation(tag, slot, on) Passthrough of (*t_xt_translation)() (see above). pckbport_slot(enable, tag, slot, on) Passthrough of (*t_slot_enable)() (see above). Console interface On systems that can attach consoles through pckbport, the controller's console attachment function (called very early in autoconfiguration) calls pckbport_cnattach(cookie, ops, slot). The first two arguments are the same as for pckbport_attach(), while the third indicates which slot the console keyboard is attached to. pckbport_cnattach() either calls pckbd_cnattach(), if it is available, or pckbport_machdep_cnattach(). The latter allows machine-dependent keyboard drivers to attach them- selves, but it is only called if a device with the `pckbport_machdep_cnattach' attribute is configured into the system. pckbport_cnattach() returns 0 on success and an error value on failure. pckbport_machdep_cnattach() is expected to do the same.
CODE REFERENCES
The pckbport code, and the pckbd(4) and pms(4) device drivers are in sys/dev/pckbport.
SEE ALSO
pckbc(4), pckbd(4), pms(4), autoconf(9), spl(9)
HISTORY
The pckbport system appeared in NetBSD 2.0. Before that, pckbd(4) and pms(4) attached directly to pckbc(4) without any sensible way of using a different controller. NetBSD 10.1 August 5, 2004 NetBSD 10.1

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