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|
/*
# _____ ___ ____ ___ ____
# ____| | ____| | | |____|
# | ___| |____ ___| ____| | \ PS2DEV Open Source Project.
#-----------------------------------------------------------------------
# Copyright 2001-2005, ps2dev - http://www.ps2dev.org
#
# This file is dual licensed, with permission by the original author
# TyRaNiD, under both the Academic Free License version 2.0 and the GNU
# General Public License version 2 or later.
#
# This means you can choose whether to use this code under the terms of
# the Academic Free License version 2.0, or under the terms of the GNU
# General Public License version 2 or later. As long as you comply to the
# terms of at least one of these, you are allowed to use the code as
# permitted by the respective license.
#
# $Id$
# USB Keyboard Driver for PS2
*/
#include "types.h"
#include "ioman.h"
#include "loadcore.h"
#include "stdio.h"
#include "sifcmd.h"
#include "sifrpc.h"
#include "sysclib.h"
#include "sysmem.h"
#include "usbd.h"
#include "usbd_macro.h"
#include "thbase.h"
#include "thevent.h"
#include "thsemap.h"
#include "ps2kbd.h"
#include "us_keymap.h"
#define PS2KBD_VERSION 0x100
#define USB_SUBCLASS_BOOT 1
#define USB_HIDPROTO_KEYBOARD 1
#define PS2KBD_MAXDEV 2
#define PS2KBD_MAXKEYS 6
#define PS2KBD_DEFLINELEN 4096
#define PS2KBD_DEFREPEATRATE 100
/* Default repeat rate in milliseconds */
#define PS2KBD_REPEATWAIT 1000
/* Number of milliseconds to wait before starting key repeat */
#define USB_KEYB_NUMLOCK 0x53
#define USB_KEYB_CAPSLOCK 0x39
#define USB_KEYB_SCRLOCK 0x47
#define USB_KEYB_NUMPAD_START 0x54
#define USB_KEYB_NUMPAD_END 0x63
#define SEMA_ZERO -419
#define SEMA_DELETED -425
int ps2kbd_init();
void ps2kbd_config_set(int resultCode, int bytes, void *arg);
void ps2kbd_idlemode_set(int resultCode, int bytes, void *arg);
void ps2kbd_data_recv(int resultCode, int bytes, void *arg);
int ps2kbd_probe(int devId);
int ps2kbd_connect(int devId);
int ps2kbd_disconnect(int devId);
void usb_getstring(int endp, int index, char *desc);
typedef struct _kbd_data_recv
{
u8 mod_keys;
u8 reserved;
u8 keycodes[PS2KBD_MAXKEYS];
} kbd_data_recv;
typedef struct _keyb_dev
{
int configEndp;
int dataEndp;
int packetSize;
int devId;
int interfaceNo; /* Holds the interface number selected on this device */
char repeatkeys[2];
u32 eventmask;
u8 ledStatus; /* Maintains state on the led status */
kbd_data_recv oldData;
kbd_data_recv data; /* Holds the data for the transfers */
} kbd_dev;
/* Global Variables */
int kbd_readmode;
u32 kbd_repeatrate;
kbd_dev *devices[PS2KBD_MAXDEV]; /* Holds a list of current devices */
int dev_count;
UsbDriver kbd_driver = { NULL, NULL, "PS2Kbd", ps2kbd_probe, ps2kbd_connect, ps2kbd_disconnect };
u8 *lineBuffer;
u32 lineStartP, lineEndP;
int lineSema;
int bufferSema;
u32 lineSize;
u8 keymap[PS2KBD_KEYMAP_SIZE]; /* Normal key map */
u8 shiftkeymap[PS2KBD_KEYMAP_SIZE]; /* Shifted key map */
u8 keycap[PS2KBD_KEYMAP_SIZE]; /* Does this key get shifted by capslock ? */
u8 special_keys[PS2KBD_KEYMAP_SIZE];
u8 control_map[PS2KBD_KEYMAP_SIZE];
u8 alt_map[PS2KBD_KEYMAP_SIZE];
//static struct fileio_driver kbd_fdriver;
iop_device_t kbd_filedrv;
u8 keyModValue[8] = { 0xE0, 0xE1, 0xE2, 0xE3, 0xE4, 0xE5, 0xE6, 0xE7 };
int repeat_tid;
int eventid; /* Id of the repeat event */
int _start ()
{
FlushDcache();
ps2kbd_init();
printf("PS2KBD - USB Keyboard Library\n");
return 0;
}
int ps2kbd_probe(int devId)
{
UsbDeviceDescriptor *dev;
UsbConfigDescriptor *conf;
UsbInterfaceDescriptor *intf;
UsbEndpointDescriptor *endp;
//UsbStringDescriptor *str;
if(dev_count >= PS2KBD_MAXDEV)
{
printf("ERROR: Maximum keyboard devices reached\n");
return 0;
}
//printf("PS2Kbd_probe devId %d\n", devId);
dev = UsbGetDeviceStaticDescriptor(devId, NULL, USB_DT_DEVICE); /* Get device descriptor */
if(!dev)
{
printf("ERROR: Couldn't get device descriptor\n");
return 0;
}
//printf("Device class %d, Size %d, Man %d, Product %d Cpnfigurations %d\n", dev->bDeviceClass, dev->bMaxPacketSize0, dev->iManufacturer, dev->iProduct, dev->bNumConfigurations);
/* Check that the device class is specified in the interfaces and it has at least one configuration */
if((dev->bDeviceClass != USB_CLASS_PER_INTERFACE) || (dev->bNumConfigurations < 1))
{
//printf("This is not the droid you're looking for\n");
return 0;
}
conf = UsbGetDeviceStaticDescriptor(devId, dev, USB_DT_CONFIG);
if(!conf)
{
printf("ERROR: Couldn't get configuration descriptor\n");
return 0;
}
//printf("Config Length %d Total %d Interfaces %d\n", conf->bLength, conf->wTotalLength, conf->bNumInterfaces);
if((conf->bNumInterfaces < 1) || (conf->wTotalLength < (sizeof(UsbConfigDescriptor) + sizeof(UsbInterfaceDescriptor))))
{
printf("ERROR: No interfaces available\n");
return 0;
}
intf = (UsbInterfaceDescriptor *) ((char *) conf + conf->bLength); /* Get first interface */
/* printf("Interface Length %d Endpoints %d Class %d Sub %d Proto %d\n", intf->bLength, */
/* intf->bNumEndpoints, intf->bInterfaceClass, intf->bInterfaceSubClass, */
/* intf->bInterfaceProtocol); */
if((intf->bInterfaceClass != USB_CLASS_HID) || (intf->bInterfaceSubClass != USB_SUBCLASS_BOOT) ||
(intf->bInterfaceProtocol != USB_HIDPROTO_KEYBOARD) || (intf->bNumEndpoints < 1))
{
//printf("We came, we saw, we told it to fuck off\n");
return 0;
}
endp = (UsbEndpointDescriptor *) ((char *) intf + intf->bLength);
endp = (UsbEndpointDescriptor *) ((char *) endp + endp->bLength); /* Go to the data endpoint */
//printf("Endpoint 1 Addr %d, Attr %d, MaxPacket %d\n", endp->bEndpointAddress, endp->bmAttributes, endp->wMaxPacketSizeLB);
if(((endp->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) != USB_ENDPOINT_XFER_INT) ||
((endp->bEndpointAddress & USB_ENDPOINT_DIR_MASK) != USB_DIR_IN))
{
printf("ERROR: Endpoint not interrupt type and/or an input\n");
return 0;
}
printf("PS2KBD: Found a keyboard device\n");
return 1;
}
int ps2kbd_connect(int devId)
{
/* Assume we can only get here if we have already checked the device is kosher */
UsbDeviceDescriptor *dev;
UsbConfigDescriptor *conf;
UsbInterfaceDescriptor *intf;
UsbEndpointDescriptor *endp;
kbd_dev *currDev;
int devLoop;
//printf("PS2Kbd_connect devId %d\n", devId);
dev = UsbGetDeviceStaticDescriptor(devId, NULL, USB_DT_DEVICE); /* Get device descriptor */
if(!dev)
{
printf("ERROR: Couldn't get device descriptor\n");
return 1;
}
conf = UsbGetDeviceStaticDescriptor(devId, dev, USB_DT_CONFIG);
if(!conf)
{
printf("ERROR: Couldn't get configuration descriptor\n");
return 1;
}
intf = (UsbInterfaceDescriptor *) ((char *) conf + conf->bLength); /* Get first interface */
endp = (UsbEndpointDescriptor *) ((char *) intf + intf->bLength);
endp = (UsbEndpointDescriptor *) ((char *) endp + endp->bLength); /* Go to the data endpoint */
for(devLoop = 0; devLoop < PS2KBD_MAXDEV; devLoop++)
{
if(devices[devLoop] == NULL)
{
break;
}
}
if(devLoop == PS2KBD_MAXDEV)
{
/* How the f*** did we end up here ??? */
printf("ERROR: Device Weirdness!!\n");
return 1;
}
currDev = (kbd_dev *) AllocSysMemory(0, sizeof(kbd_dev), NULL);
if(!currDev)
{
printf("ERROR: Couldn't allocate a device point for the kbd\n");
return 1;
}
devices[devLoop] = currDev;
memset(currDev, 0, sizeof(kbd_dev));
currDev->configEndp = UsbOpenEndpoint(devId, NULL);
currDev->dataEndp = UsbOpenEndpoint(devId, endp);
currDev->packetSize = endp->wMaxPacketSizeLB | ((int) endp->wMaxPacketSizeHB << 8);
currDev->eventmask = (1 << devLoop);
if(currDev->packetSize > sizeof(kbd_data_recv))
{
currDev->packetSize = sizeof(kbd_data_recv);
}
if(dev->iManufacturer != 0)
{
usb_getstring(currDev->configEndp, dev->iManufacturer, "Keyboard Manufacturer");
}
if(dev->iProduct != 0)
{
usb_getstring(currDev->configEndp, dev->iProduct, "Keyboard Product");
}
currDev->devId = devId;
currDev->interfaceNo = intf->bInterfaceNumber;
currDev->ledStatus = 0;
UsbSetDevicePrivateData(devId, currDev); /* Set the index for the device data */
//printf("Configuration value %d\n", conf->bConfigurationValue);
UsbSetDeviceConfiguration(currDev->configEndp, conf->bConfigurationValue, ps2kbd_config_set, currDev);
dev_count++; /* Increment device count */
printf("PS2KBD: Connected device\n");
return 0;
}
int ps2kbd_disconnect(int devId)
{
int devLoop;
printf("PS2Kbd_disconnect devId %d\n", devId);
for(devLoop = 0; devLoop < PS2KBD_MAXDEV; devLoop++)
{
if((devices[devLoop]) && (devices[devLoop]->devId == devId))
{
dev_count--;
FreeSysMemory(devices[devLoop]);
devices[devLoop] = NULL;
printf("PS2KBD: Disconnected device\n");
break;
}
}
return 0;
}
typedef struct _string_descriptor
{
u8 buf[200];
char *desc;
} string_descriptor;
void ps2kbd_getstring_set(int resultCode, int bytes, void *arg)
{
UsbStringDescriptor *str = (UsbStringDescriptor *) arg;
string_descriptor *strBuf = (string_descriptor *) arg;
char string[50];
int strLoop;
/* printf("=========getstring=========\n"); */
/* printf("PS2KEYBOARD: GET_DESCRIPTOR res %d, bytes %d, arg %p\n", resultCode, bytes, arg); */
if(resultCode == USB_RC_OK)
{
memset(string, 0, 50);
for(strLoop = 0; strLoop < ((bytes - 2) / 2); strLoop++)
{
string[strLoop] = str->wData[strLoop] & 0xFF;
}
printf("%s: %s\n", strBuf->desc, string);
}
FreeSysMemory(arg);
}
void usb_getstring(int endp, int index, char *desc)
{
u8 *data;
string_descriptor *str;
int ret;
data = (u8 *) AllocSysMemory(0, sizeof(string_descriptor), NULL);
str = (string_descriptor *) data;
if(data != NULL)
{
str->desc = desc;
ret = UsbControlTransfer(endp, 0x80, USB_REQ_GET_DESCRIPTOR, (USB_DT_STRING << 8) | index,
0, sizeof(string_descriptor) - 4, data, ps2kbd_getstring_set, data);
if(ret != USB_RC_OK)
{
printf("PS2KBD: Error sending string descriptor request\n");
FreeSysMemory(data);
}
}
}
void ps2kbd_config_set(int resultCode, int bytes, void *arg)
/* Called when we have finished choosing our configuration */
{
kbd_dev *dev;
if(resultCode != USB_RC_OK)
{
printf("PS2KEYBOARD: Configuration set error res %d, bytes %d, arg %p\n", resultCode, bytes, arg);
return;
}
//printf("PS2KEYBOARD: Configuration set res %d, bytes %d, arg %p\n", resultCode, bytes, arg);
/* Do a interrupt data transfer */
dev = (kbd_dev *) arg;
if(dev != NULL)
{
int ret;
ret = UsbControlTransfer(dev->configEndp, 0x21, USB_REQ_SET_IDLE, 0, dev->interfaceNo, 0, NULL, ps2kbd_idlemode_set, arg);
}
}
void ps2kbd_idlemode_set(int resultCode, int bytes, void *arg)
{
kbd_dev *dev;
if(resultCode != USB_RC_OK)
{
printf("PS2KBD: Idlemode set error res %d, bytes %d, arg %p\n", resultCode, bytes, arg);
return;
}
dev = (kbd_dev *) arg;
if(dev != NULL)
{
int ret;
ret = UsbInterruptTransfer(dev->dataEndp, &dev->data, dev->packetSize, ps2kbd_data_recv, arg);
}
}
void ps2kbd_led_set(int resultCode, int bytes, void *arg)
{
//printf("LED Set\n");
}
void ps2kbd_build_uniquekeys(u8 *res, const u8 *new, const u8 *old)
/* Builds a list of unique keys */
{
int loopNew, loopOld;
int loopRes = 0;
int foundKey;
for(loopNew = 0; loopNew < PS2KBD_MAXKEYS; loopNew++)
{
if(new[loopNew] != 0)
{
foundKey = 0;
for(loopOld = 0; loopOld < PS2KBD_MAXKEYS; loopOld++)
{
if(new[loopNew] == old[loopOld])
{
foundKey = 1;
break;
}
}
if(!foundKey)
{
res[loopRes++] = new[loopNew];
}
}
}
}
u32 ps2kbd_repeathandler(void *arg)
{
kbd_dev *dev = arg;
iop_sys_clock_t t;
//printf("Repeat handler\n");
iSetEventFlag(eventid, dev->eventmask);
USec2SysClock(kbd_repeatrate * 1000, &t);
iSetAlarm(&t, ps2kbd_repeathandler, arg);
return t.hi;
}
void ps2kbd_getkeys(u8 keyMods, u8 ledStatus, const u8 *keys, kbd_dev *dev)
{
int loopKey;
int tempPos = 0;
int byteCount = 0;
u8 currChars[2];
if(lineStartP < lineEndP)
{
tempPos = lineStartP + lineSize;
}
else
{
tempPos = lineStartP;
}
for(loopKey = 0; loopKey < PS2KBD_MAXKEYS; loopKey++)
{
u8 currKey = keys[loopKey];
currChars[0] = 0;
currChars[1] = 0;
if(lineEndP == (tempPos - 1))
{
break;
}
if(currKey) /* If this is a valid key */
{
if((currKey >= USB_KEYB_NUMPAD_START) && (currKey <= USB_KEYB_NUMPAD_END))
/* Handle numpad specially */
{
if(ledStatus & PS2KBD_LED_NUMLOCK)
{
if(keymap[currKey])
{
currChars[0] = keymap[currKey];
}
}
else
{
if(special_keys[currKey])
{
currChars[0] = PS2KBD_ESCAPE_KEY;
currChars[1] = special_keys[currKey];
}
else if(keymap[currKey] != '5') /* Make sure this isnt a 5 key :) */
{
currChars[0] = keymap[currKey];
}
}
}
else if(special_keys[currKey]) /* This is a special key */
{
currChars[0] = PS2KBD_ESCAPE_KEY;
currChars[1] = special_keys[currKey];
}
else if(keyMods & PS2KBD_CTRL) /* CTRL */
{
if(control_map[currKey])
{
currChars[0] = control_map[currKey];
}
}
else if(keyMods & PS2KBD_ALT) /* ALT */
{
if(alt_map[currKey])
{
currChars[0] = alt_map[currKey];
}
}
else if(keyMods & PS2KBD_SHIFT) /* SHIFT */
{
if((ledStatus & PS2KBD_LED_CAPSLOCK) && (keycap[currKey]))
{
currChars[0] = keymap[currKey];
}
else
{
currChars[0] = shiftkeymap[currKey];
}
}
else /* Normal key */
{
if(keymap[keys[loopKey]])
{
if((ledStatus & PS2KBD_LED_CAPSLOCK) && (keycap[currKey]))
{
currChars[0] = shiftkeymap[currKey];
}
else
{
currChars[0] = keymap[currKey];
}
}
}
}
if((currChars[0] == PS2KBD_ESCAPE_KEY) && (currChars[1] != 0))
{
if(lineEndP != (tempPos - 2))
{
lineBuffer[lineEndP++] = currChars[0];
lineEndP %= lineSize;
lineBuffer[lineEndP++] = currChars[1];
lineEndP %= lineSize;
byteCount += 2;
}
dev->repeatkeys[0] = currChars[0];
dev->repeatkeys[1] = currChars[1];
}
else if(currChars[0] != 0)
{
lineBuffer[lineEndP++] = currChars[0];
lineEndP %= lineSize;
byteCount++;
dev->repeatkeys[0] = currChars[0];
dev->repeatkeys[1] = 0;
}
}
if(byteCount > 0)
{
iop_sys_clock_t t;
/* Set alarm to do repeat rate */
//printf("repeatkeys %d %d\n", kbd_repeatkeys[0], kbd_repeatkeys[1]);
USec2SysClock(PS2KBD_REPEATWAIT * 1000, &t);
SetAlarm(&t, ps2kbd_repeathandler, dev);
}
for(loopKey = 0; loopKey < byteCount; loopKey++) /* Signal the sema to indicate data */
{
SignalSema(bufferSema);
}
/* lineBuffer[PS2KBD_DEFLINELEN - 1] = 0; */
/* printf(lineBuffer); */
//printf("lineStart %d, lineEnd %d\n", lineStartP, lineEndP);
}
void ps2kbd_getkeys_raw(u8 newKeyMods, u8 oldKeyMods, u8 *new, const u8 *old)
{
int loopKey;
u8 currKey;
u8 keyMods = newKeyMods ^ oldKeyMods;
u8 keyModsMap = newKeyMods & keyMods;
int tempPos = 0;
int byteCount = 0;
if(lineStartP < lineEndP)
{
tempPos = lineStartP + lineSize;
}
else
{
tempPos = lineStartP;
}
for(loopKey = 0; loopKey < 8; loopKey++)
{
int currMod = (1 << loopKey);
if(keyMods & currMod)
{
if(lineEndP == (tempPos - 2))
{
return;
}
currKey = keyModValue[loopKey];
if(keyModsMap & currMod) /* If key pressed */
{
lineBuffer[lineEndP++] = PS2KBD_RAWKEY_DOWN;
//printf("Key down\n");
}
else
{
lineBuffer[lineEndP++] = PS2KBD_RAWKEY_UP;
//printf("Key up\n");
}
lineEndP %= lineSize;
lineBuffer[lineEndP++] = currKey;
lineEndP %= lineSize;
byteCount += 2;
//printf("Key %d\n", currKey);
}
}
for(loopKey = 0; loopKey < PS2KBD_MAXKEYS; loopKey++)
{
if(lineEndP == (tempPos - 2))
{
return;
}
if(new[loopKey] != 0)
{
lineBuffer[lineEndP++] = PS2KBD_RAWKEY_DOWN;
lineEndP %= lineSize;
lineBuffer[lineEndP++] = new[loopKey];
lineEndP %= lineSize;
byteCount += 2;
//printf("Key down\nKey %d\n", new[loopKey]);
}
}
for(loopKey = 0; loopKey < PS2KBD_MAXKEYS; loopKey++)
{
if(lineEndP == (tempPos - 2))
{
return;
}
if(old[loopKey] != 0)
{
lineBuffer[lineEndP++] = PS2KBD_RAWKEY_UP;
lineEndP %= lineSize;
lineBuffer[lineEndP++] = old[loopKey];
lineEndP %= lineSize;
byteCount += 2;
//printf("Key up\nKey %d\n", old[loopKey]);
}
}
for(loopKey = 0; loopKey < byteCount; loopKey++) /* Signal the sema for the number of bytes read */
{
SignalSema(bufferSema);
}
}
void ps2kbd_data_recv(int resultCode, int bytes, void *arg)
{
kbd_dev *dev;
int ret;
int phantom;
int loop;
if(resultCode != USB_RC_OK)
{
printf("PS2KEYBOARD: Data Recv set res %d, bytes %d, arg %p\n", resultCode, bytes, arg);
return;
}
//printf("PS2KBD: Data Recv set res %d, bytes %d, arg %p\n", resultCode, bytes, arg);
dev = (kbd_dev *) arg;
if(dev == NULL)
{
printf("PS2KBD: dev == NULL\n");
return;
}
/* printf("PS2KBD Modifiers %02X, Keys ", dev->data.mod_keys); */
/* for(loop = 0; loop < PS2KBD_MAXKEYS; loop++) */
/* { */
/* printf("%02X ", dev->data.keycodes[loop]); */
/* } */
/* printf("\n"); */
CancelAlarm(ps2kbd_repeathandler, dev); /* Make sure repeat alarm is cancelled */
/* Check for phantom states */
phantom = 1;
for(loop = 0; loop < PS2KBD_MAXKEYS; loop++)
{
if(dev->data.keycodes[loop] != 1)
{
phantom = 0;
break;
}
}
if(!phantom) /* If not in a phantom state */
{
u8 uniqueKeys[PS2KBD_MAXKEYS];
u8 missingKeys[PS2KBD_MAXKEYS];
int loopKey;
memset(uniqueKeys, 0, PS2KBD_MAXKEYS);
memset(missingKeys, 0, PS2KBD_MAXKEYS);
ps2kbd_build_uniquekeys(uniqueKeys, dev->data.keycodes, dev->oldData.keycodes);
ps2kbd_build_uniquekeys(missingKeys, dev->oldData.keycodes, dev->data.keycodes);
/* Build new and missing key lists */
/* printf("Unique keys : "); */
/* for(loopKey = 0; loopKey < PS2KBD_MAXKEYS; loopKey++) */
/* { */
/* printf("%02X ", uniqueKeys[loopKey]); */
/* } */
/* printf("\n"); */
/* printf("Missing keys : "); */
/* for(loopKey = 0; loopKey < PS2KBD_MAXKEYS; loopKey++) */
/* { */
/* printf("%02X ", missingKeys[loopKey]); */
/* } */
/* printf("\n"); */
if(kbd_readmode == PS2KBD_READMODE_NORMAL)
{
u8 ledStatus;
ledStatus = dev->ledStatus;
//printf("ledStatus %02X\n", ledStatus);
for(loopKey = 0; loopKey < PS2KBD_MAXKEYS; loopKey++) /* Process key codes */
{
switch(uniqueKeys[loopKey])
{
case USB_KEYB_NUMLOCK :
ledStatus ^= PS2KBD_LED_NUMLOCK;
uniqueKeys[loopKey] = 0;
break;
case USB_KEYB_CAPSLOCK :
ledStatus ^= PS2KBD_LED_CAPSLOCK;
uniqueKeys[loopKey] = 0;
break;
case USB_KEYB_SCRLOCK :
ledStatus ^= PS2KBD_LED_SCRLOCK;
uniqueKeys[loopKey] = 0;
break;
}
}
if(ledStatus != dev->ledStatus)
{
dev->ledStatus = ledStatus & PS2KBD_LED_MASK;
//printf("LEDS %02X\n", dev->ledStatus);
/* Call Set LEDS */
UsbControlTransfer(dev->configEndp, 0x21, USB_REQ_SET_REPORT, 0x200,
dev->interfaceNo, 1, &dev->ledStatus, ps2kbd_led_set, arg);
}
WaitSema(lineSema); /* Make sure no other thread is going to manipulate the buffer */
ps2kbd_getkeys(dev->data.mod_keys, dev->ledStatus, uniqueKeys, dev); /* read in remaining keys */
SignalSema(lineSema);
}
else /* RAW Mode */
{
WaitSema(lineSema);
ps2kbd_getkeys_raw(dev->data.mod_keys, dev->oldData.mod_keys, uniqueKeys, missingKeys);
SignalSema(lineSema);
}
memcpy(&dev->oldData, &dev->data, sizeof(kbd_data_recv));
}
ret = UsbInterruptTransfer(dev->dataEndp, &dev->data, dev->packetSize, ps2kbd_data_recv, arg);
}
void flushbuffer()
{
iop_sema_t s;
lineStartP = 0;
lineEndP = 0;
memset(lineBuffer, 0, lineSize);
DeleteSema(bufferSema);
s.initial = 0;
s.max = lineSize;
s.option = 0;
s.attr = 0;
bufferSema = CreateSema(&s); /* Create a sema to maintain status of readable data */
if(bufferSema <= 0)
{
printf("Error creating buffer sema\n");
}
}
void ps2kbd_rpc_setreadmode(u32 readmode)
{
int devLoop;
if(readmode == kbd_readmode) return;
if((readmode == PS2KBD_READMODE_NORMAL) || (readmode == PS2KBD_READMODE_RAW))
{
/* Reset line buffer */
//printf("ioctl_setreadmode %d\n", readmode);
for(devLoop = 0; devLoop < PS2KBD_MAXDEV; devLoop++)
{
CancelAlarm(ps2kbd_repeathandler, devices[devLoop]);
}
WaitSema(lineSema);
kbd_readmode = readmode;
flushbuffer();
SignalSema(lineSema);
}
}
void ps2kbd_rpc_setkeymap(kbd_keymap *keymaps)
{
//printf("ioctl_setkeymap %p\n", keymaps);
WaitSema(lineSema); /* Lock the input so you dont end up with weird results */
memcpy(keymap, keymaps->keymap, PS2KBD_KEYMAP_SIZE);
memcpy(shiftkeymap, keymaps->shiftkeymap, PS2KBD_KEYMAP_SIZE);
memcpy(keycap, keymaps->keycap, PS2KBD_KEYMAP_SIZE);
SignalSema(lineSema);
}
void ps2kbd_rpc_setctrlmap(u8 *ctrlmap)
{
//printf("ioctl_setctrlmap %p\n", ctrlmap);
WaitSema(lineSema);
memcpy(control_map, ctrlmap, PS2KBD_KEYMAP_SIZE);
SignalSema(lineSema);
}
void ps2kbd_rpc_setaltmap(u8 *altmap)
{
//printf("ioctl_setaltmap %p\n", altmap);
WaitSema(lineSema);
memcpy(alt_map, altmap, PS2KBD_KEYMAP_SIZE);
SignalSema(lineSema);
}
void ps2kbd_rpc_setspecialmap(u8 *special)
{
//printf("ioctl_setspecialmap %p\n", special);
WaitSema(lineSema);
memcpy(special_keys, special, PS2KBD_KEYMAP_SIZE);
SignalSema(lineSema);
}
void ps2kbd_rpc_resetkeymap()
/* Reset keymap to default US variety */
{
//printf("ioctl_resetkeymap()\n");
WaitSema(lineSema);
memcpy(keymap, us_keymap, PS2KBD_KEYMAP_SIZE);
memcpy(shiftkeymap, us_shiftkeymap, PS2KBD_KEYMAP_SIZE);
memcpy(keycap, us_keycap, PS2KBD_KEYMAP_SIZE);
memcpy(special_keys, us_special_keys, PS2KBD_KEYMAP_SIZE);
memcpy(control_map, us_control_map, PS2KBD_KEYMAP_SIZE);
memcpy(alt_map, us_alt_map, PS2KBD_KEYMAP_SIZE);
SignalSema(lineSema);
}
void ps2kbd_rpc_flushbuffer()
/* Flush the internal buffer */
{
//printf("ioctl_flushbuffer()\n");
WaitSema(lineSema);
flushbuffer();
SignalSema(lineSema);
}
void ps2kbd_rpc_setleds(u8 ledStatus)
{
int devLoop;
kbd_dev *dev;
//printf("ioctl_setleds %d\n", ledStatus);
ledStatus &= PS2KBD_LED_MASK;
for(devLoop = 0; devLoop < PS2KBD_MAXDEV; devLoop++)
{
dev = devices[devLoop];
if(dev)
{
if(ledStatus != dev->ledStatus)
{
dev->ledStatus = ledStatus & PS2KBD_LED_MASK;
UsbControlTransfer(dev->configEndp, 0x21, USB_REQ_SET_REPORT, 0x200,
dev->interfaceNo, 1, &dev->ledStatus, ps2kbd_led_set, dev);
}
}
}
}
void ps2kbd_rpc_setrepeatrate(u32 rate)
{
kbd_repeatrate = rate;
}
int kbd_read(void *buf, int size)
{
int count = 0;
char *data = (char *) buf;
if(kbd_readmode == PS2KBD_READMODE_RAW)
size &= ~1; /* Ensure size of a multiple of 2 */
if (PollSema(bufferSema) >= 0) {
SignalSema(bufferSema);
if (WaitSema(lineSema) >= 0) {
while((count < size) && (lineStartP != lineEndP)) {
data[count] = lineBuffer[lineStartP++];
lineStartP %= lineSize;
count++;
PollSema(bufferSema); /* Take off one count from the sema */
}
SignalSema(lineSema);
}
}
return count;
}
void repeat_thread(void *arg)
{
u32 eventmask;
int devLoop;
for(;;)
{
WaitEventFlag(eventid, 0xFFFFFFFF, 0x01 | 0x10, &eventmask);
//printf("Recieved event %08X\n", eventmask);
for(devLoop = 0; devLoop < PS2KBD_MAXDEV; devLoop++)
{
if((eventmask & (1 << devLoop)) && (devices[devLoop]))
{
int tempPos = 0;
WaitSema(lineSema);
if(lineStartP < lineEndP)
{
tempPos = lineStartP + lineSize;
}
else
{
tempPos = lineStartP;
}
if((devices[devLoop]->repeatkeys[0]) && (devices[devLoop]->repeatkeys[1]))
{
if(lineEndP != (tempPos - 2))
{
lineBuffer[lineEndP++] = devices[devLoop]->repeatkeys[0];
lineEndP %= lineSize;
lineBuffer[lineEndP++] = devices[devLoop]->repeatkeys[1];
lineEndP %= lineSize;
SignalSema(bufferSema);
SignalSema(bufferSema);
}
}
else if(devices[devLoop]->repeatkeys[0])
{
if(lineEndP != (tempPos - 1))
{
lineBuffer[lineEndP++] = devices[devLoop]->repeatkeys[0];
lineEndP %= lineSize;
SignalSema(bufferSema);
}
}
SignalSema(lineSema);
}
}
}
}
int init_repeatthread()
/* Creates a thread to handle key repeats */
{
iop_thread_t param;
iop_event_t event;
event.attr = 0;
event.option = 0;
event.bits = 0;
eventid = CreateEventFlag(&event);
param.attr = TH_C;
param.thread = repeat_thread;
param.priority = 40;
param.stacksize = 0x800;
param.option = 0;
repeat_tid = CreateThread(¶m);
if (repeat_tid > 0) {
StartThread(repeat_tid, 0);
return 0;
}
else
{
return 1;
}
}
static unsigned long retKey;
void *ps2kbd_rpc_server(int fno, void *data, int size) {
retKey = 0;
switch (fno) {
case KBD_RPC_SETREADMODE:
ps2kbd_rpc_setreadmode(*(u32 *)data);
break;
case KBD_RPC_SETKEYMAP:
ps2kbd_rpc_setkeymap((kbd_keymap *) data);
break;
case KBD_RPC_SETALTMAP:
ps2kbd_rpc_setaltmap((u8 *) data);
break;
case KBD_RPC_SETCTRLMAP:
ps2kbd_rpc_setctrlmap((u8 *) data);
break;
case KBD_RPC_SETSPECIALMAP:
ps2kbd_rpc_setspecialmap((u8 *) data);
break;
case KBD_RPC_FLUSHBUFFER:
ps2kbd_rpc_flushbuffer();
break;
case KBD_RPC_SETLEDS:
ps2kbd_rpc_setleds(*(u8*) data);
break;
case KBD_RPC_RESETKEYMAP:
ps2kbd_rpc_resetkeymap();
break;
case KBD_RPC_SETREPEATRATE:
ps2kbd_rpc_setrepeatrate(*(u32 *) data);
break;
case KBD_RPC_READRAW:
kbd_read(&retKey, 2);
return &retKey;
case KBD_RPC_READKEY:
kbd_read(&retKey, 1);
return &retKey;
default:
printf("Ps2Kbd: Unknown RPC command %d\n", fno);
break;
}
return NULL;
}
struct t_SifRpcDataQueue qd;
struct t_SifRpcServerData sd0;
void *rpcRcvBuf;
void ps2kbd_start_rpc(unsigned long tid) {
rpcRcvBuf = AllocSysMemory(0, 3 * PS2KBD_KEYMAP_SIZE, NULL);
printf("Ps2Kbd: starting RPC server\n");
SifInitRpc(0);
SifSetRpcQueue(&qd, tid);
SifRegisterRpc(&sd0, PS2KBD_RPC_ID, ps2kbd_rpc_server, rpcRcvBuf, 0, 0, &qd);
SifRpcLoop(&qd);
}
int ps2kbd_init_rpc(void) {
struct _iop_thread param;
int th;
param.attr = 0x02000000;
param.thread = (void*)ps2kbd_start_rpc;
param.priority = 40;
param.stacksize = 0x800;
param.option = 0;
th = CreateThread(¶m);
if (th > 0) {
StartThread(th, (void *)th);
return 0;
} else
return -1;
}
int ps2kbd_init() {
int ret;
iop_sema_t s;
s.initial = 1;
s.max = 1;
s.option = 0;
s.attr = 0;
lineSema = CreateSema(&s);
if(lineSema <= 0)
{
printf("Error creating sema\n");
return 1;
}
s.initial = 0;
s.max = PS2KBD_DEFLINELEN;
s.option = 0;
s.attr = 0;
bufferSema = CreateSema(&s); /* Create a sema to maintain status of readable data */
if(bufferSema <= 0)
{
printf("Error creating buffer sema\n");
return 1;
}
lineBuffer = (u8 *) AllocSysMemory(0, PS2KBD_DEFLINELEN, NULL);
if(lineBuffer == NULL)
{
printf("Error allocating line buffer\n");
return 1;
}
lineStartP = 0;
lineEndP = 0;
lineSize = PS2KBD_DEFLINELEN;
memset(lineBuffer, 0, PS2KBD_DEFLINELEN);
memset(devices, 0, sizeof(kbd_dev *) * PS2KBD_MAXDEV);
dev_count = 0;
kbd_readmode = PS2KBD_READMODE_NORMAL;
kbd_repeatrate = PS2KBD_DEFREPEATRATE;
memcpy(keymap, us_keymap, PS2KBD_KEYMAP_SIZE);
memcpy(shiftkeymap, us_shiftkeymap, PS2KBD_KEYMAP_SIZE);
memcpy(keycap, us_keycap, PS2KBD_KEYMAP_SIZE);
memcpy(special_keys, us_special_keys, PS2KBD_KEYMAP_SIZE);
memcpy(control_map, us_control_map, PS2KBD_KEYMAP_SIZE);
memcpy(alt_map, us_alt_map, PS2KBD_KEYMAP_SIZE);
ps2kbd_init_rpc();
init_repeatthread();
ret = UsbRegisterDriver(&kbd_driver);
if(ret != USB_RC_OK)
{
printf("Error registering USB devices\n");
return 1;
}
printf("UsbRegisterDriver %d\n", ret);
return 0;
}
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