audk/MdeModulePkg/Bus/Usb/UsbKbDxe/keyboard.c

1952 lines
57 KiB
C

/** @file
Copyright (c) 2004 - 2008, Intel Corporation
All rights reserved. This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
Module Name:
Keyboard.c
Abstract:
Helper functions for USB Keyboard Driver
Revision History
**/
#include "keyboard.h"
#include <Library/UsbLib.h>
//
// Static English keyboard layout
// Format:<efi key>, <unicode without shift>, <unicode with shift>, <Modifier>, <AffectedAttribute>
//
STATIC
UINT8 KeyboardLayoutTable[USB_KEYCODE_MAX_MAKE + 8][5] = {
{EfiKeyC1, 'a', 'A', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x04
{EfiKeyB5, 'b', 'B', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x05
{EfiKeyB3, 'c', 'C', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x06
{EfiKeyC3, 'd', 'D', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x07
{EfiKeyD3, 'e', 'E', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x08
{EfiKeyC4, 'f', 'F', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x09
{EfiKeyC5, 'g', 'G', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x0A
{EfiKeyC6, 'h', 'H', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x0B
{EfiKeyD8, 'i', 'I', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x0C
{EfiKeyC7, 'j', 'J', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x0D
{EfiKeyC8, 'k', 'K', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x0E
{EfiKeyC9, 'l', 'L', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x0F
{EfiKeyB7, 'm', 'M', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x10
{EfiKeyB6, 'n', 'N', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x11
{EfiKeyD9, 'o', 'O', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x12
{EfiKeyD10, 'p', 'P', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x13
{EfiKeyD1, 'q', 'Q', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x14
{EfiKeyD4, 'r', 'R', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x15
{EfiKeyC2, 's', 'S', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x16
{EfiKeyD5, 't', 'T', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x17
{EfiKeyD7, 'u', 'U', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x18
{EfiKeyB4, 'v', 'V', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x19
{EfiKeyD2, 'w', 'W', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x1A
{EfiKeyB2, 'x', 'X', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x1B
{EfiKeyD6, 'y', 'Y', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x1C
{EfiKeyB1, 'z', 'Z', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_CAPS_LOCK}, // 0x1D
{EfiKeyE1, '1', '!', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x1E
{EfiKeyE2, '2', '@', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x1F
{EfiKeyE3, '3', '#', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x20
{EfiKeyE4, '4', '$', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x21
{EfiKeyE5, '5', '%', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x22
{EfiKeyE6, '6', '^', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x23
{EfiKeyE7, '7', '&', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x24
{EfiKeyE8, '8', '*', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x25
{EfiKeyE9, '9', '(', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x26
{EfiKeyE10, '0', ')', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x27
{EfiKeyEnter, 0x0d, 0x0d, EFI_NULL_MODIFIER, 0}, // 0x28 Enter
{EfiKeyEsc, 0x1b, 0x1b, EFI_NULL_MODIFIER, 0}, // 0x29 Esc
{EfiKeyBackSpace, 0x08, 0x08, EFI_NULL_MODIFIER, 0}, // 0x2A Backspace
{EfiKeyTab, 0x09, 0x09, EFI_NULL_MODIFIER, 0}, // 0x2B Tab
{EfiKeySpaceBar, ' ', ' ', EFI_NULL_MODIFIER, 0}, // 0x2C Spacebar
{EfiKeyE11, '-', '_', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x2D
{EfiKeyE12, '=', '+', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x2E
{EfiKeyD11, '[', '{', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x2F
{EfiKeyD12, ']', '}', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x30
{EfiKeyD13, '\\', '|', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x31
{EfiKeyC12, '\\', '|', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x32 Keyboard Non-US # and ~
{EfiKeyC10, ';', ':', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x33
{EfiKeyC11, '\'', '"', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x34
{EfiKeyE0, '`', '~', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x35 Keyboard Grave Accent and Tlide
{EfiKeyB8, ',', '<', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x36
{EfiKeyB9, '.', '>', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x37
{EfiKeyB10, '/', '?', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x38
{EfiKeyCapsLock, 0x00, 0x00, EFI_CAPS_LOCK_MODIFIER, 0}, // 0x39 CapsLock
{EfiKeyF1, 0x00, 0x00, EFI_FUNCTION_KEY_ONE_MODIFIER, 0}, // 0x3A
{EfiKeyF2, 0x00, 0x00, EFI_FUNCTION_KEY_TWO_MODIFIER, 0}, // 0x3B
{EfiKeyF3, 0x00, 0x00, EFI_FUNCTION_KEY_THREE_MODIFIER, 0}, // 0x3C
{EfiKeyF4, 0x00, 0x00, EFI_FUNCTION_KEY_FOUR_MODIFIER, 0}, // 0x3D
{EfiKeyF5, 0x00, 0x00, EFI_FUNCTION_KEY_FIVE_MODIFIER, 0}, // 0x3E
{EfiKeyF6, 0x00, 0x00, EFI_FUNCTION_KEY_SIX_MODIFIER, 0}, // 0x3F
{EfiKeyF7, 0x00, 0x00, EFI_FUNCTION_KEY_SEVEN_MODIFIER, 0}, // 0x40
{EfiKeyF8, 0x00, 0x00, EFI_FUNCTION_KEY_EIGHT_MODIFIER, 0}, // 0x41
{EfiKeyF9, 0x00, 0x00, EFI_FUNCTION_KEY_NINE_MODIFIER, 0}, // 0x42
{EfiKeyF10, 0x00, 0x00, EFI_FUNCTION_KEY_TEN_MODIFIER, 0}, // 0x43
{EfiKeyF11, 0x00, 0x00, EFI_FUNCTION_KEY_ELEVEN_MODIFIER, 0}, // 0x44 F11
{EfiKeyF12, 0x00, 0x00, EFI_FUNCTION_KEY_TWELVE_MODIFIER, 0}, // 0x45 F12
{EfiKeyPrint, 0x00, 0x00, EFI_PRINT_MODIFIER, 0}, // 0x46 PrintScreen
{EfiKeySLck, 0x00, 0x00, EFI_SCROLL_LOCK_MODIFIER, 0}, // 0x47 Scroll Lock
{EfiKeyPause, 0x00, 0x00, EFI_PAUSE_MODIFIER, 0}, // 0x48 Pause
{EfiKeyIns, 0x00, 0x00, EFI_INSERT_MODIFIER, 0}, // 0x49
{EfiKeyHome, 0x00, 0x00, EFI_HOME_MODIFIER, 0}, // 0x4A
{EfiKeyPgUp, 0x00, 0x00, EFI_PAGE_UP_MODIFIER, 0}, // 0x4B
{EfiKeyDel, 0x00, 0x00, EFI_DELETE_MODIFIER, 0}, // 0x4C
{EfiKeyEnd, 0x00, 0x00, EFI_END_MODIFIER, 0}, // 0x4D
{EfiKeyPgDn, 0x00, 0x00, EFI_PAGE_DOWN_MODIFIER, 0}, // 0x4E
{EfiKeyRightArrow, 0x00, 0x00, EFI_RIGHT_ARROW_MODIFIER, 0}, // 0x4F
{EfiKeyLeftArrow, 0x00, 0x00, EFI_LEFT_ARROW_MODIFIER, 0}, // 0x50
{EfiKeyDownArrow, 0x00, 0x00, EFI_DOWN_ARROW_MODIFIER, 0}, // 0x51
{EfiKeyUpArrow, 0x00, 0x00, EFI_UP_ARROW_MODIFIER, 0}, // 0x52
{EfiKeyNLck, 0x00, 0x00, EFI_NUM_LOCK_MODIFIER, 0}, // 0x53 NumLock
{EfiKeySlash, '/', '/', EFI_NULL_MODIFIER, 0}, // 0x54
{EfiKeyAsterisk, '*', '*', EFI_NULL_MODIFIER, 0}, // 0x55
{EfiKeyMinus, '-', '-', EFI_NULL_MODIFIER, 0}, // 0x56
{EfiKeyPlus, '+', '+', EFI_NULL_MODIFIER, 0}, // 0x57
{EfiKeyEnter, 0x0d, 0x0d, EFI_NULL_MODIFIER, 0}, // 0x58
{EfiKeyOne, '1', '1', EFI_END_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x59
{EfiKeyTwo, '2', '2', EFI_DOWN_ARROW_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x5A
{EfiKeyThree, '3', '3', EFI_PAGE_DOWN_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x5B
{EfiKeyFour, '4', '4', EFI_LEFT_ARROW_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x5C
{EfiKeyFive, '5', '5', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x5D
{EfiKeySix, '6', '6', EFI_RIGHT_ARROW_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x5E
{EfiKeySeven, '7', '7', EFI_HOME_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x5F
{EfiKeyEight, '8', '8', EFI_UP_ARROW_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x60
{EfiKeyNine, '9', '9', EFI_PAGE_UP_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x61
{EfiKeyZero, '0', '0', EFI_INSERT_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x62
{EfiKeyPeriod, '.', '.', EFI_DELETE_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT | EFI_AFFECTED_BY_NUM_LOCK}, // 0x63
{EfiKeyB0, '\\', '|', EFI_NULL_MODIFIER, EFI_AFFECTED_BY_STANDARD_SHIFT}, // 0x64 Keyboard Non-US \ and |
{EfiKeyA4, 0x00, 0x00, EFI_MENU_MODIFIER, 0}, // 0x65 Keyboard Application
{EfiKeyLCtrl, 0, 0, EFI_LEFT_CONTROL_MODIFIER, 0}, // 0xe0
{EfiKeyLShift, 0, 0, EFI_LEFT_SHIFT_MODIFIER, 0}, // 0xe1
{EfiKeyLAlt, 0, 0, EFI_LEFT_ALT_MODIFIER, 0}, // 0xe2
{EfiKeyA0, 0, 0, EFI_LEFT_LOGO_MODIFIER, 0}, // 0xe3
{EfiKeyRCtrl, 0, 0, EFI_RIGHT_CONTROL_MODIFIER, 0}, // 0xe4
{EfiKeyRShift, 0, 0, EFI_RIGHT_SHIFT_MODIFIER, 0}, // 0xe5
{EfiKeyA2, 0, 0, EFI_RIGHT_ALT_MODIFIER, 0}, // 0xe6
{EfiKeyA3, 0, 0, EFI_RIGHT_LOGO_MODIFIER, 0}, // 0xe7
};
VOID
LoadDefaultKeyboardLayout (
IN USB_KB_DEV *UsbKeyboardDevice
)
/*++
Routine Description:
Initialize KeyConvertionTable by using default keyboard layout.
Arguments:
UsbKeyboardDevice The USB_KB_DEV instance.
Returns:
None.
--*/
{
UINTN Index;
EFI_KEY_DESCRIPTOR *KeyDescriptor;
//
// Construct KeyConvertionTable by default keyboard layout
//
KeyDescriptor = &UsbKeyboardDevice->KeyConvertionTable[0];
for (Index = 0; Index < (USB_KEYCODE_MAX_MAKE + 8); Index++) {
KeyDescriptor->Key = (EFI_KEY) KeyboardLayoutTable[Index][0];
KeyDescriptor->Unicode = KeyboardLayoutTable[Index][1];
KeyDescriptor->ShiftedUnicode = KeyboardLayoutTable[Index][2];
KeyDescriptor->AltGrUnicode = 0;
KeyDescriptor->ShiftedAltGrUnicode = 0;
KeyDescriptor->Modifier = KeyboardLayoutTable[Index][3];
KeyDescriptor->AffectedAttribute = KeyboardLayoutTable[Index][4];
KeyDescriptor++;
}
}
//
// EFI_KEY to USB Scan Code convertion table
//
STATIC
UINT8 UsbScanCodeConvertionTable[] = {
0xe0, // EfiKeyLCtrl
0xe3, // EfiKeyA0
0xe2, // EfiKeyLAlt
0x2c, // EfiKeySpaceBar
0xe6, // EfiKeyA2
0xe7, // EfiKeyA3
0x65, // EfiKeyA4
0xe4, // EfiKeyRCtrl
0x50, // EfiKeyLeftArrow
0x51, // EfiKeyDownArrow
0x4F, // EfiKeyRightArrow
0x62, // EfiKeyZero
0x63, // EfiKeyPeriod
0x28, // EfiKeyEnter
0xe1, // EfiKeyLShift
0x64, // EfiKeyB0
0x1D, // EfiKeyB1
0x1B, // EfiKeyB2
0x06, // EfiKeyB3
0x19, // EfiKeyB4
0x05, // EfiKeyB5
0x11, // EfiKeyB6
0x10, // EfiKeyB7
0x36, // EfiKeyB8
0x37, // EfiKeyB9
0x38, // EfiKeyB10
0xe5, // EfiKeyRShift
0x52, // EfiKeyUpArrow
0x59, // EfiKeyOne
0x5A, // EfiKeyTwo
0x5B, // EfiKeyThree
0x39, // EfiKeyCapsLock
0x04, // EfiKeyC1
0x16, // EfiKeyC2
0x07, // EfiKeyC3
0x09, // EfiKeyC4
0x0A, // EfiKeyC5
0x0B, // EfiKeyC6
0x0D, // EfiKeyC7
0x0E, // EfiKeyC8
0x0F, // EfiKeyC9
0x33, // EfiKeyC10
0x34, // EfiKeyC11
0x32, // EfiKeyC12
0x5C, // EfiKeyFour
0x5D, // EfiKeyFive
0x5E, // EfiKeySix
0x57, // EfiKeyPlus
0x2B, // EfiKeyTab
0x14, // EfiKeyD1
0x1A, // EfiKeyD2
0x08, // EfiKeyD3
0x15, // EfiKeyD4
0x17, // EfiKeyD5
0x1C, // EfiKeyD6
0x18, // EfiKeyD7
0x0C, // EfiKeyD8
0x12, // EfiKeyD9
0x13, // EfiKeyD10
0x2F, // EfiKeyD11
0x30, // EfiKeyD12
0x31, // EfiKeyD13
0x4C, // EfiKeyDel
0x4D, // EfiKeyEnd
0x4E, // EfiKeyPgDn
0x5F, // EfiKeySeven
0x60, // EfiKeyEight
0x61, // EfiKeyNine
0x35, // EfiKeyE0
0x1E, // EfiKeyE1
0x1F, // EfiKeyE2
0x20, // EfiKeyE3
0x21, // EfiKeyE4
0x22, // EfiKeyE5
0x23, // EfiKeyE6
0x24, // EfiKeyE7
0x25, // EfiKeyE8
0x26, // EfiKeyE9
0x27, // EfiKeyE10
0x2D, // EfiKeyE11
0x2E, // EfiKeyE12
0x2A, // EfiKeyBackSpace
0x49, // EfiKeyIns
0x4A, // EfiKeyHome
0x4B, // EfiKeyPgUp
0x53, // EfiKeyNLck
0x54, // EfiKeySlash
0x55, // EfiKeyAsterisk
0x56, // EfiKeyMinus
0x29, // EfiKeyEsc
0x3A, // EfiKeyF1
0x3B, // EfiKeyF2
0x3C, // EfiKeyF3
0x3D, // EfiKeyF4
0x3E, // EfiKeyF5
0x3F, // EfiKeyF6
0x40, // EfiKeyF7
0x41, // EfiKeyF8
0x42, // EfiKeyF9
0x43, // EfiKeyF10
0x44, // EfiKeyF11
0x45, // EfiKeyF12
0x46, // EfiKeyPrint
0x47, // EfiKeySLck
0x48 // EfiKeyPause
};
//
// Keyboard Layout Modifier to EFI Scan Code convertion table
//
STATIC
UINT8 EfiScanCodeConvertionTable[] = {
SCAN_NULL, // EFI_NULL_MODIFIER
SCAN_NULL, // EFI_LEFT_CONTROL_MODIFIER
SCAN_NULL, // EFI_RIGHT_CONTROL_MODIFIER
SCAN_NULL, // EFI_LEFT_ALT_MODIFIER
SCAN_NULL, // EFI_RIGHT_ALT_MODIFIER
SCAN_NULL, // EFI_ALT_GR_MODIFIER
SCAN_INSERT, // EFI_INSERT_MODIFIER
SCAN_DELETE, // EFI_DELETE_MODIFIER
SCAN_PAGE_DOWN, // EFI_PAGE_DOWN_MODIFIER
SCAN_PAGE_UP, // EFI_PAGE_UP_MODIFIER
SCAN_HOME, // EFI_HOME_MODIFIER
SCAN_END, // EFI_END_MODIFIER
SCAN_NULL, // EFI_LEFT_SHIFT_MODIFIER
SCAN_NULL, // EFI_RIGHT_SHIFT_MODIFIER
SCAN_NULL, // EFI_CAPS_LOCK_MODIFIER
SCAN_NULL, // EFI_NUM_LOCK_MODIFIER
SCAN_LEFT, // EFI_LEFT_ARROW_MODIFIER
SCAN_RIGHT, // EFI_RIGHT_ARROW_MODIFIER
SCAN_DOWN, // EFI_DOWN_ARROW_MODIFIER
SCAN_UP, // EFI_UP_ARROW_MODIFIER
SCAN_NULL, // EFI_NS_KEY_MODIFIER
SCAN_NULL, // EFI_NS_KEY_DEPENDENCY_MODIFIER
SCAN_F1, // EFI_FUNCTION_KEY_ONE_MODIFIER
SCAN_F2, // EFI_FUNCTION_KEY_TWO_MODIFIER
SCAN_F3, // EFI_FUNCTION_KEY_THREE_MODIFIER
SCAN_F4, // EFI_FUNCTION_KEY_FOUR_MODIFIER
SCAN_F5, // EFI_FUNCTION_KEY_FIVE_MODIFIER
SCAN_F6, // EFI_FUNCTION_KEY_SIX_MODIFIER
SCAN_F7, // EFI_FUNCTION_KEY_SEVEN_MODIFIER
SCAN_F8, // EFI_FUNCTION_KEY_EIGHT_MODIFIER
SCAN_F9, // EFI_FUNCTION_KEY_NINE_MODIFIER
SCAN_F10, // EFI_FUNCTION_KEY_TEN_MODIFIER
SCAN_F11, // EFI_FUNCTION_KEY_ELEVEN_MODIFIER
SCAN_F12, // EFI_FUNCTION_KEY_TWELVE_MODIFIER
};
EFI_GUID mKeyboardLayoutEventGuid = EFI_HII_SET_KEYBOARD_LAYOUT_EVENT_GUID;
STATIC KB_MODIFIER KB_Mod[8] = {
{ MOD_CONTROL_L, 0xe0 }, // 11100000
{ MOD_CONTROL_R, 0xe4 }, // 11100100
{ MOD_SHIFT_L, 0xe1 }, // 11100001
{ MOD_SHIFT_R, 0xe5 }, // 11100101
{ MOD_ALT_L, 0xe2 }, // 11100010
{ MOD_ALT_R, 0xe6 }, // 11100110
{ MOD_WIN_L, 0xe3 }, // 11100011
{ MOD_WIN_R, 0xe7 }, // 11100111
};
/**
Uses USB I/O to check whether the device is a USB Keyboard device.
UsbIo: Points to a USB I/O protocol instance.
**/
BOOLEAN
IsUSBKeyboard (
IN EFI_USB_IO_PROTOCOL *UsbIo
)
{
EFI_STATUS Status;
EFI_USB_INTERFACE_DESCRIPTOR InterfaceDescriptor;
//
// Get the Default interface descriptor, currently we
// assume it is interface 1
//
Status = UsbIo->UsbGetInterfaceDescriptor (
UsbIo,
&InterfaceDescriptor
);
if (EFI_ERROR (Status)) {
return FALSE;
}
if (InterfaceDescriptor.InterfaceClass == CLASS_HID &&
InterfaceDescriptor.InterfaceSubClass == SUBCLASS_BOOT &&
InterfaceDescriptor.InterfaceProtocol == PROTOCOL_KEYBOARD
) {
return TRUE;
}
return FALSE;
}
EFI_HII_KEYBOARD_LAYOUT *
GetCurrentKeyboardLayout (
VOID
)
/*++
Routine Description:
Get current keyboard layout from HII database.
Arguments:
None.
Returns:
Pointer to EFI_HII_KEYBOARD_LAYOUT.
--*/
{
EFI_STATUS Status;
EFI_HII_DATABASE_PROTOCOL *HiiDatabase;
EFI_HII_KEYBOARD_LAYOUT *KeyboardLayout;
UINT16 Length;
//
// Locate Hii database protocol
//
Status = gBS->LocateProtocol (
&gEfiHiiDatabaseProtocolGuid,
NULL,
(VOID **) &HiiDatabase
);
if (EFI_ERROR (Status)) {
return NULL;
}
//
// Get current keyboard layout from HII database
//
Length = 0;
KeyboardLayout = NULL;
Status = HiiDatabase->GetKeyboardLayout (
HiiDatabase,
NULL,
&Length,
KeyboardLayout
);
if (Status == EFI_BUFFER_TOO_SMALL) {
KeyboardLayout = AllocatePool (Length);
ASSERT (KeyboardLayout != NULL);
Status = HiiDatabase->GetKeyboardLayout (
HiiDatabase,
NULL,
&Length,
KeyboardLayout
);
if (EFI_ERROR (Status)) {
gBS->FreePool (KeyboardLayout);
KeyboardLayout = NULL;
}
}
return KeyboardLayout;
}
EFI_KEY_DESCRIPTOR *
GetKeyDescriptor (
IN USB_KB_DEV *UsbKeyboardDevice,
IN UINT8 ScanCode
)
/*++
Routine Description:
Find Key Descriptor in KeyConvertionTable given its scan code.
Arguments:
UsbKeyboardDevice - The USB_KB_DEV instance.
ScanCode - USB scan code.
Returns:
The Key descriptor in KeyConvertionTable.
--*/
{
UINT8 Index;
if (((ScanCode > 0x65) && (ScanCode < 0xe0)) || (ScanCode > 0xe7)) {
return NULL;
}
if (ScanCode <= 0x65) {
Index = (UINT8) (ScanCode - 4);
} else {
Index = (UINT8) (ScanCode - 0xe0 + USB_KEYCODE_MAX_MAKE);
}
return &UsbKeyboardDevice->KeyConvertionTable[Index];
}
USB_NS_KEY *
FindUsbNsKey (
IN USB_KB_DEV *UsbKeyboardDevice,
IN EFI_KEY_DESCRIPTOR *KeyDescriptor
)
/*++
Routine Description:
Find Non-Spacing key for given KeyDescriptor.
Arguments:
UsbKeyboardDevice - The USB_KB_DEV instance.
KeyDescriptor - Key descriptor.
Returns:
The Non-Spacing key.
--*/
{
LIST_ENTRY *Link;
USB_NS_KEY *UsbNsKey;
Link = GetFirstNode (&UsbKeyboardDevice->NsKeyList);
while (!IsNull (&UsbKeyboardDevice->NsKeyList, Link)) {
UsbNsKey = USB_NS_KEY_FORM_FROM_LINK (Link);
if (UsbNsKey->NsKey[0].Key == KeyDescriptor->Key) {
return UsbNsKey;
}
Link = GetNextNode (&UsbKeyboardDevice->NsKeyList, Link);
}
return NULL;
}
EFI_KEY_DESCRIPTOR *
FindPhysicalKey (
IN USB_NS_KEY *UsbNsKey,
IN EFI_KEY_DESCRIPTOR *KeyDescriptor
)
/*++
Routine Description:
Find physical key definition for a given Key stroke.
Arguments:
UsbNsKey - The Non-Spacing key information.
KeyDescriptor - The key stroke.
Returns:
The physical key definition.
--*/
{
UINTN Index;
EFI_KEY_DESCRIPTOR *PhysicalKey;
PhysicalKey = &UsbNsKey->NsKey[1];
for (Index = 0; Index < UsbNsKey->KeyCount; Index++) {
if (KeyDescriptor->Key == PhysicalKey->Key) {
return PhysicalKey;
}
PhysicalKey++;
}
//
// No children definition matched, return original key
//
return KeyDescriptor;
}
VOID
EFIAPI
SetKeyboardLayoutEvent (
EFI_EVENT Event,
VOID *Context
)
/*++
Routine Description:
The notification function for SET_KEYBOARD_LAYOUT_EVENT.
Arguments:
Returns:
--*/
{
USB_KB_DEV *UsbKeyboardDevice;
EFI_HII_KEYBOARD_LAYOUT *KeyboardLayout;
EFI_KEY_DESCRIPTOR TempKey;
EFI_KEY_DESCRIPTOR *KeyDescriptor;
EFI_KEY_DESCRIPTOR *TableEntry;
EFI_KEY_DESCRIPTOR *NsKey;
USB_NS_KEY *UsbNsKey;
UINTN Index;
UINTN Index2;
UINTN KeyCount;
UINT8 ScanCode;
UsbKeyboardDevice = (USB_KB_DEV *) Context;
//
// Try to get current Keyboard Layout from HII database
//
KeyboardLayout = GetCurrentKeyboardLayout ();
if (KeyboardLayout == NULL) {
return;
}
//
// Allocate resource for KeyConvertionTable
//
ReleaseKeyboardLayoutResources (UsbKeyboardDevice);
UsbKeyboardDevice->KeyConvertionTable = AllocateZeroPool ((USB_KEYCODE_MAX_MAKE + 8) * sizeof (EFI_KEY_DESCRIPTOR));
ASSERT (UsbKeyboardDevice->KeyConvertionTable != NULL);
KeyDescriptor = (EFI_KEY_DESCRIPTOR *) (((UINT8 *) KeyboardLayout) + sizeof (EFI_HII_KEYBOARD_LAYOUT));
for (Index = 0; Index < KeyboardLayout->DescriptorCount; Index++) {
//
// Copy from HII keyboard layout package binary for alignment
//
CopyMem (&TempKey, KeyDescriptor, sizeof (EFI_KEY_DESCRIPTOR));
//
// Fill the key into KeyConvertionTable (which use USB Scan Code as index)
//
ScanCode = UsbScanCodeConvertionTable [(UINT8) (TempKey.Key)];
TableEntry = GetKeyDescriptor (UsbKeyboardDevice, ScanCode);
CopyMem (TableEntry, KeyDescriptor, sizeof (EFI_KEY_DESCRIPTOR));
if (TempKey.Modifier == EFI_NS_KEY_MODIFIER) {
//
// Non-spacing key
//
UsbNsKey = AllocatePool (sizeof (USB_NS_KEY));
ASSERT (UsbNsKey != NULL);
//
// Search for sequential children physical key definitions
//
KeyCount = 0;
NsKey = KeyDescriptor + 1;
for (Index2 = Index + 1; Index2 < KeyboardLayout->DescriptorCount; Index2++) {
CopyMem (&TempKey, NsKey, sizeof (EFI_KEY_DESCRIPTOR));
if (TempKey.Modifier & EFI_NS_KEY_DEPENDENCY_MODIFIER) {
KeyCount++;
} else {
break;
}
NsKey++;
}
UsbNsKey->Signature = USB_NS_KEY_SIGNATURE;
UsbNsKey->KeyCount = KeyCount;
UsbNsKey->NsKey = AllocateCopyPool (
(KeyCount + 1) * sizeof (EFI_KEY_DESCRIPTOR),
KeyDescriptor
);
InsertTailList (&UsbKeyboardDevice->NsKeyList, &UsbNsKey->Link);
//
// Skip over the child physical keys
//
Index += KeyCount;
KeyDescriptor += KeyCount;
}
KeyDescriptor++;
}
//
// There are two EfiKeyEnter, duplicate its Key Descriptor
//
TableEntry = GetKeyDescriptor (UsbKeyboardDevice, 0x58);
KeyDescriptor = GetKeyDescriptor (UsbKeyboardDevice, 0x28);
CopyMem (TableEntry, KeyDescriptor, sizeof (EFI_KEY_DESCRIPTOR));
gBS->FreePool (KeyboardLayout);
}
VOID
ReleaseKeyboardLayoutResources (
IN USB_KB_DEV *UsbKeyboardDevice
)
/*++
Routine Description:
Destroy resources for Keyboard layout.
Arguments:
UsbKeyboardDevice - The USB_KB_DEV instance.
Returns:
None.
--*/
{
USB_NS_KEY *UsbNsKey;
LIST_ENTRY *Link;
SafeFreePool (UsbKeyboardDevice->KeyConvertionTable);
UsbKeyboardDevice->KeyConvertionTable = NULL;
while (!IsListEmpty (&UsbKeyboardDevice->NsKeyList)) {
Link = GetFirstNode (&UsbKeyboardDevice->NsKeyList);
UsbNsKey = USB_NS_KEY_FORM_FROM_LINK (Link);
RemoveEntryList (&UsbNsKey->Link);
gBS->FreePool (UsbNsKey->NsKey);
gBS->FreePool (UsbNsKey);
}
}
EFI_STATUS
InitKeyboardLayout (
IN USB_KB_DEV *UsbKeyboardDevice
)
/*++
Routine Description:
Initialize USB Keyboard layout.
Arguments:
UsbKeyboardDevice The USB_KB_DEV instance.
Returns:
EFI_SUCCESS - Success
Other - Keyboard layout initial failed.
--*/
{
EFI_HII_KEYBOARD_LAYOUT *KeyboardLayout;
EFI_STATUS Status;
UsbKeyboardDevice->KeyConvertionTable = AllocateZeroPool ((USB_KEYCODE_MAX_MAKE + 8) * sizeof (EFI_KEY_DESCRIPTOR));
ASSERT (UsbKeyboardDevice->KeyConvertionTable != NULL);
InitializeListHead (&UsbKeyboardDevice->NsKeyList);
UsbKeyboardDevice->CurrentNsKey = NULL;
UsbKeyboardDevice->KeyboardLayoutEvent = NULL;
//
// Register SET_KEYBOARD_LAYOUT_EVENT notification
//
Status = gBS->CreateEventEx (
EFI_EVENT_NOTIFY_SIGNAL,
TPL_NOTIFY,
SetKeyboardLayoutEvent,
UsbKeyboardDevice,
&mKeyboardLayoutEventGuid,
&UsbKeyboardDevice->KeyboardLayoutEvent
);
if (EFI_ERROR (Status)) {
return Status;
}
//
// Try to get current keyboard layout from HII database
//
KeyboardLayout = GetCurrentKeyboardLayout ();
if (KeyboardLayout != NULL) {
//
// Force to initialize the keyboard layout
//
gBS->SignalEvent (UsbKeyboardDevice->KeyboardLayoutEvent);
} else {
if (FeaturePcdGet (PcdDisableDefaultKeyboardLayoutInUsbKbDriver)) {
return EFI_NOT_READY;
} else {
//
// Fail to get keyboard layout from HII database,
// use default keyboard layout
//
LoadDefaultKeyboardLayout (UsbKeyboardDevice);
}
}
return EFI_SUCCESS;
}
/**
Initialize USB Keyboard device and all private data structures.
UsbKeyboardDevice The USB_KB_DEV instance.
@retval EFI_SUCCESS Success
@retval EFI_DEVICE_ERROR Hardware Error
**/
EFI_STATUS
InitUSBKeyboard (
IN USB_KB_DEV *UsbKeyboardDevice
)
{
UINT8 ConfigValue;
UINT8 Protocol;
UINT8 ReportId;
UINT8 Duration;
EFI_STATUS Status;
UINT32 TransferResult;
KbdReportStatusCode (
UsbKeyboardDevice->DevicePath,
EFI_PROGRESS_CODE,
PcdGet32 (PcdStatusCodeValueKeyboardSelfTest)
);
InitUSBKeyBuffer (&(UsbKeyboardDevice->KeyboardBuffer));
//
// default configurations
//
ConfigValue = 0x01;
//
// Uses default configuration to configure the USB Keyboard device.
//
Status = UsbSetConfiguration (
UsbKeyboardDevice->UsbIo,
(UINT16) ConfigValue,
&TransferResult
);
if (EFI_ERROR (Status)) {
//
// If configuration could not be set here, it means
// the keyboard interface has some errors and could
// not be initialized
//
KbdReportStatusCode (
UsbKeyboardDevice->DevicePath,
EFI_ERROR_CODE | EFI_ERROR_MINOR,
PcdGet32 (PcdStatusCodeValueKeyboardInterfaceError)
);
return EFI_DEVICE_ERROR;
}
UsbGetProtocolRequest (
UsbKeyboardDevice->UsbIo,
UsbKeyboardDevice->InterfaceDescriptor.InterfaceNumber,
&Protocol
);
//
// Sets boot protocol for the USB Keyboard.
// This driver only supports boot protocol.
// !!BugBug: How about the device that does not support boot protocol?
//
if (Protocol != BOOT_PROTOCOL) {
UsbSetProtocolRequest (
UsbKeyboardDevice->UsbIo,
UsbKeyboardDevice->InterfaceDescriptor.InterfaceNumber,
BOOT_PROTOCOL
);
}
//
// the duration is indefinite, so the endpoint will inhibit reporting forever,
// and only reporting when a change is detected in the report data.
//
//
// idle value for all report ID
//
ReportId = 0;
//
// idle forever until there is a key pressed and released.
//
Duration = 0;
UsbSetIdleRequest (
UsbKeyboardDevice->UsbIo,
UsbKeyboardDevice->InterfaceDescriptor.InterfaceNumber,
ReportId,
Duration
);
UsbKeyboardDevice->CtrlOn = 0;
UsbKeyboardDevice->AltOn = 0;
UsbKeyboardDevice->ShiftOn = 0;
UsbKeyboardDevice->NumLockOn = 0;
UsbKeyboardDevice->CapsOn = 0;
UsbKeyboardDevice->ScrollOn = 0;
UsbKeyboardDevice->LeftCtrlOn = 0;
UsbKeyboardDevice->LeftAltOn = 0;
UsbKeyboardDevice->LeftShiftOn = 0;
UsbKeyboardDevice->LeftLogoOn = 0;
UsbKeyboardDevice->RightCtrlOn = 0;
UsbKeyboardDevice->RightAltOn = 0;
UsbKeyboardDevice->RightShiftOn = 0;
UsbKeyboardDevice->RightLogoOn = 0;
UsbKeyboardDevice->MenuKeyOn = 0;
UsbKeyboardDevice->SysReqOn = 0;
UsbKeyboardDevice->AltGrOn = 0;
UsbKeyboardDevice->CurrentNsKey = NULL;
//
// Sync the initial state of lights
//
SetKeyLED (UsbKeyboardDevice);
ZeroMem (UsbKeyboardDevice->LastKeyCodeArray, sizeof (UINT8) * 8);
//
// Set a timer for repeat keys' generation.
//
if (UsbKeyboardDevice->RepeatTimer) {
gBS->CloseEvent (UsbKeyboardDevice->RepeatTimer);
UsbKeyboardDevice->RepeatTimer = 0;
}
Status = gBS->CreateEvent (
EVT_TIMER | EVT_NOTIFY_SIGNAL,
TPL_NOTIFY,
USBKeyboardRepeatHandler,
UsbKeyboardDevice,
&UsbKeyboardDevice->RepeatTimer
);
if (UsbKeyboardDevice->DelayedRecoveryEvent) {
gBS->CloseEvent (UsbKeyboardDevice->DelayedRecoveryEvent);
UsbKeyboardDevice->DelayedRecoveryEvent = 0;
}
Status = gBS->CreateEvent (
EVT_TIMER | EVT_NOTIFY_SIGNAL,
TPL_NOTIFY,
USBKeyboardRecoveryHandler,
UsbKeyboardDevice,
&UsbKeyboardDevice->DelayedRecoveryEvent
);
return EFI_SUCCESS;
}
/**
Handler function for USB Keyboard's asynchronous interrupt transfer.
Data A pointer to a buffer that is filled with key data which is
retrieved via asynchronous interrupt transfer.
DataLength Indicates the size of the data buffer.
Context Pointing to USB_KB_DEV instance.
Result Indicates the result of the asynchronous interrupt transfer.
@retval EFI_SUCCESS Success
@retval EFI_DEVICE_ERROR Hardware Error
**/
EFI_STATUS
EFIAPI
KeyboardHandler (
IN VOID *Data,
IN UINTN DataLength,
IN VOID *Context,
IN UINT32 Result
)
{
USB_KB_DEV *UsbKeyboardDevice;
EFI_USB_IO_PROTOCOL *UsbIo;
UINT8 *CurKeyCodeBuffer;
UINT8 *OldKeyCodeBuffer;
UINT8 CurModifierMap;
UINT8 OldModifierMap;
UINT8 Index;
UINT8 Index2;
BOOLEAN Down;
BOOLEAN KeyRelease;
BOOLEAN KeyPress;
UINT8 SavedTail;
USB_KEY UsbKey;
UINT8 NewRepeatKey;
UINT32 UsbStatus;
EFI_KEY_DESCRIPTOR *KeyDescriptor;
ASSERT (Context);
NewRepeatKey = 0;
UsbKeyboardDevice = (USB_KB_DEV *) Context;
UsbIo = UsbKeyboardDevice->UsbIo;
//
// Analyzes the Result and performs corresponding action.
//
if (Result != EFI_USB_NOERROR) {
//
// Some errors happen during the process
//
KbdReportStatusCode (
UsbKeyboardDevice->DevicePath,
EFI_ERROR_CODE | EFI_ERROR_MINOR,
PcdGet32 (PcdStatusCodeValueKeyboardInputError)
);
//
// stop the repeat key generation if any
//
UsbKeyboardDevice->RepeatKey = 0;
gBS->SetTimer (
UsbKeyboardDevice->RepeatTimer,
TimerCancel,
USBKBD_REPEAT_RATE
);
if ((Result & EFI_USB_ERR_STALL) == EFI_USB_ERR_STALL) {
UsbClearEndpointHalt (
UsbIo,
UsbKeyboardDevice->IntEndpointDescriptor.EndpointAddress,
&UsbStatus
);
}
//
// Delete & Submit this interrupt again
//
UsbIo->UsbAsyncInterruptTransfer (
UsbIo,
UsbKeyboardDevice->IntEndpointDescriptor.EndpointAddress,
FALSE,
0,
0,
NULL,
NULL
);
gBS->SetTimer (
UsbKeyboardDevice->DelayedRecoveryEvent,
TimerRelative,
EFI_USB_INTERRUPT_DELAY
);
return EFI_DEVICE_ERROR;
}
if (DataLength == 0 || Data == NULL) {
return EFI_SUCCESS;
}
CurKeyCodeBuffer = (UINT8 *) Data;
OldKeyCodeBuffer = UsbKeyboardDevice->LastKeyCodeArray;
//
// checks for new key stroke.
// if no new key got, return immediately.
//
for (Index = 0; Index < 8; Index++) {
if (OldKeyCodeBuffer[Index] != CurKeyCodeBuffer[Index]) {
break;
}
}
if (Index == 8) {
return EFI_SUCCESS;
}
//
// Parse the modifier key
//
CurModifierMap = CurKeyCodeBuffer[0];
OldModifierMap = OldKeyCodeBuffer[0];
//
// handle modifier key's pressing or releasing situation.
//
for (Index = 0; Index < 8; Index++) {
if ((CurModifierMap & KB_Mod[Index].Mask) != (OldModifierMap & KB_Mod[Index].Mask)) {
//
// if current modifier key is up, then
// CurModifierMap & KB_Mod[Index].Mask = 0;
// otherwize it is a non-zero value.
// Inserts the pressed modifier key into key buffer.
//
Down = (UINT8) (CurModifierMap & KB_Mod[Index].Mask);
InsertKeyCode (&(UsbKeyboardDevice->KeyboardBuffer), KB_Mod[Index].Key, Down);
}
}
//
// handle normal key's releasing situation
//
KeyRelease = FALSE;
for (Index = 2; Index < 8; Index++) {
if (!USBKBD_VALID_KEYCODE (OldKeyCodeBuffer[Index])) {
continue;
}
KeyRelease = TRUE;
for (Index2 = 2; Index2 < 8; Index2++) {
if (!USBKBD_VALID_KEYCODE (CurKeyCodeBuffer[Index2])) {
continue;
}
if (OldKeyCodeBuffer[Index] == CurKeyCodeBuffer[Index2]) {
KeyRelease = FALSE;
break;
}
}
if (KeyRelease) {
InsertKeyCode (
&(UsbKeyboardDevice->KeyboardBuffer),
OldKeyCodeBuffer[Index],
0
);
//
// the original reapeat key is released.
//
if (OldKeyCodeBuffer[Index] == UsbKeyboardDevice->RepeatKey) {
UsbKeyboardDevice->RepeatKey = 0;
}
}
}
//
// original repeat key is released, cancel the repeat timer
//
if (UsbKeyboardDevice->RepeatKey == 0) {
gBS->SetTimer (
UsbKeyboardDevice->RepeatTimer,
TimerCancel,
USBKBD_REPEAT_RATE
);
}
//
// handle normal key's pressing situation
//
KeyPress = FALSE;
for (Index = 2; Index < 8; Index++) {
if (!USBKBD_VALID_KEYCODE (CurKeyCodeBuffer[Index])) {
continue;
}
KeyPress = TRUE;
for (Index2 = 2; Index2 < 8; Index2++) {
if (!USBKBD_VALID_KEYCODE (OldKeyCodeBuffer[Index2])) {
continue;
}
if (CurKeyCodeBuffer[Index] == OldKeyCodeBuffer[Index2]) {
KeyPress = FALSE;
break;
}
}
if (KeyPress) {
InsertKeyCode (&(UsbKeyboardDevice->KeyboardBuffer), CurKeyCodeBuffer[Index], 1);
//
// NumLock pressed or CapsLock pressed
//
KeyDescriptor = GetKeyDescriptor (UsbKeyboardDevice, CurKeyCodeBuffer[Index]);
if (KeyDescriptor->Modifier == EFI_NUM_LOCK_MODIFIER || KeyDescriptor->Modifier == EFI_CAPS_LOCK_MODIFIER) {
UsbKeyboardDevice->RepeatKey = 0;
} else {
NewRepeatKey = CurKeyCodeBuffer[Index];
//
// do not repeat the original repeated key
//
UsbKeyboardDevice->RepeatKey = 0;
}
}
}
//
// Update LastKeycodeArray[] buffer in the
// Usb Keyboard Device data structure.
//
for (Index = 0; Index < 8; Index++) {
UsbKeyboardDevice->LastKeyCodeArray[Index] = CurKeyCodeBuffer[Index];
}
//
// pre-process KeyboardBuffer, pop out the ctrl,alt,del key in sequence
// and judge whether it will invoke reset event.
//
SavedTail = UsbKeyboardDevice->KeyboardBuffer.bTail;
Index = UsbKeyboardDevice->KeyboardBuffer.bHead;
while (Index != SavedTail) {
RemoveKeyCode (&(UsbKeyboardDevice->KeyboardBuffer), &UsbKey);
KeyDescriptor = GetKeyDescriptor (UsbKeyboardDevice, UsbKey.KeyCode);
switch (KeyDescriptor->Modifier) {
case EFI_LEFT_CONTROL_MODIFIER:
case EFI_RIGHT_CONTROL_MODIFIER:
if (UsbKey.Down) {
UsbKeyboardDevice->CtrlOn = 1;
} else {
UsbKeyboardDevice->CtrlOn = 0;
}
break;
case EFI_LEFT_ALT_MODIFIER:
case EFI_RIGHT_ALT_MODIFIER:
if (UsbKey.Down) {
UsbKeyboardDevice->AltOn = 1;
} else {
UsbKeyboardDevice->AltOn = 0;
}
break;
case EFI_ALT_GR_MODIFIER:
if (UsbKey.Down) {
UsbKeyboardDevice->AltGrOn = 1;
} else {
UsbKeyboardDevice->AltGrOn = 0;
}
break;
//
// Del Key Code
//
case EFI_DELETE_MODIFIER:
if (UsbKey.Down) {
if (UsbKeyboardDevice->CtrlOn && UsbKeyboardDevice->AltOn) {
gRT->ResetSystem (EfiResetWarm, EFI_SUCCESS, 0, NULL);
}
}
break;
default:
break;
}
//
// insert the key back to the buffer.
// so the key sequence will not be destroyed.
//
InsertKeyCode (
&(UsbKeyboardDevice->KeyboardBuffer),
UsbKey.KeyCode,
UsbKey.Down
);
Index = UsbKeyboardDevice->KeyboardBuffer.bHead;
}
//
// If have new key pressed, update the RepeatKey value, and set the
// timer to repeate delay timer
//
if (NewRepeatKey != 0) {
//
// sets trigger time to "Repeat Delay Time",
// to trigger the repeat timer when the key is hold long
// enough time.
//
gBS->SetTimer (
UsbKeyboardDevice->RepeatTimer,
TimerRelative,
USBKBD_REPEAT_DELAY
);
UsbKeyboardDevice->RepeatKey = NewRepeatKey;
}
return EFI_SUCCESS;
}
/**
Retrieves a key character after parsing the raw data in keyboard buffer.
UsbKeyboardDevice The USB_KB_DEV instance.
KeyChar Points to the Key character after key parsing.
@retval EFI_SUCCESS Success
@retval EFI_NOT_READY Device is not ready
**/
EFI_STATUS
USBParseKey (
IN OUT USB_KB_DEV *UsbKeyboardDevice,
OUT UINT8 *KeyChar
)
{
USB_KEY UsbKey;
EFI_KEY_DESCRIPTOR *KeyDescriptor;
*KeyChar = 0;
while (!IsUSBKeyboardBufferEmpty (&UsbKeyboardDevice->KeyboardBuffer)) {
//
// pops one raw data off.
//
RemoveKeyCode (&(UsbKeyboardDevice->KeyboardBuffer), &UsbKey);
KeyDescriptor = GetKeyDescriptor (UsbKeyboardDevice, UsbKey.KeyCode);
if (!UsbKey.Down) {
switch (KeyDescriptor->Modifier) {
//
// CTRL release
//
case EFI_LEFT_CONTROL_MODIFIER:
UsbKeyboardDevice->LeftCtrlOn = 0;
UsbKeyboardDevice->CtrlOn = 0;
break;
case EFI_RIGHT_CONTROL_MODIFIER:
UsbKeyboardDevice->RightCtrlOn = 0;
UsbKeyboardDevice->CtrlOn = 0;
break;
//
// Shift release
//
case EFI_LEFT_SHIFT_MODIFIER:
UsbKeyboardDevice->LeftShiftOn = 0;
UsbKeyboardDevice->ShiftOn = 0;
break;
case EFI_RIGHT_SHIFT_MODIFIER:
UsbKeyboardDevice->RightShiftOn = 0;
UsbKeyboardDevice->ShiftOn = 0;
break;
//
// Alt release
//
case EFI_LEFT_ALT_MODIFIER:
UsbKeyboardDevice->LeftAltOn = 0;
UsbKeyboardDevice->AltOn = 0;
break;
case EFI_RIGHT_ALT_MODIFIER:
UsbKeyboardDevice->RightAltOn = 0;
UsbKeyboardDevice->AltOn = 0;
break;
//
// Left Logo release
//
case EFI_LEFT_LOGO_MODIFIER:
UsbKeyboardDevice->LeftLogoOn = 0;
break;
//
// Right Logo release
//
case EFI_RIGHT_LOGO_MODIFIER:
UsbKeyboardDevice->RightLogoOn = 0;
break;
//
// Menu key release
//
case EFI_MENU_MODIFIER:
UsbKeyboardDevice->MenuKeyOn = 0;
break;
//
// SysReq release
//
case EFI_PRINT_MODIFIER:
case EFI_SYS_REQUEST_MODIFIER:
UsbKeyboardDevice->SysReqOn = 0;
break;
//
// AltGr release
//
case EFI_ALT_GR_MODIFIER:
UsbKeyboardDevice->AltGrOn = 0;
break;
default:
break;
}
continue;
}
//
// Analyzes key pressing situation
//
switch (KeyDescriptor->Modifier) {
//
// CTRL press
//
case EFI_LEFT_CONTROL_MODIFIER:
UsbKeyboardDevice->LeftCtrlOn = 1;
UsbKeyboardDevice->CtrlOn = 1;
continue;
break;
case EFI_RIGHT_CONTROL_MODIFIER:
UsbKeyboardDevice->RightCtrlOn = 1;
UsbKeyboardDevice->CtrlOn = 1;
continue;
break;
//
// Shift press
//
case EFI_LEFT_SHIFT_MODIFIER:
UsbKeyboardDevice->LeftShiftOn = 1;
UsbKeyboardDevice->ShiftOn = 1;
continue;
break;
case EFI_RIGHT_SHIFT_MODIFIER:
UsbKeyboardDevice->RightShiftOn = 1;
UsbKeyboardDevice->ShiftOn = 1;
continue;
break;
//
// Alt press
//
case EFI_LEFT_ALT_MODIFIER:
UsbKeyboardDevice->LeftAltOn = 1;
UsbKeyboardDevice->AltOn = 1;
continue;
break;
case EFI_RIGHT_ALT_MODIFIER:
UsbKeyboardDevice->RightAltOn = 1;
UsbKeyboardDevice->AltOn = 1;
continue;
break;
//
// Left Logo press
//
case EFI_LEFT_LOGO_MODIFIER:
UsbKeyboardDevice->LeftLogoOn = 1;
break;
//
// Right Logo press
//
case EFI_RIGHT_LOGO_MODIFIER:
UsbKeyboardDevice->RightLogoOn = 1;
break;
//
// Menu key press
//
case EFI_MENU_MODIFIER:
UsbKeyboardDevice->MenuKeyOn = 1;
break;
//
// SysReq press
//
case EFI_PRINT_MODIFIER:
case EFI_SYS_REQUEST_MODIFIER:
UsbKeyboardDevice->SysReqOn = 1;
continue;
break;
//
// AltGr press
//
case EFI_ALT_GR_MODIFIER:
UsbKeyboardDevice->AltGrOn = 1;
break;
case EFI_NUM_LOCK_MODIFIER:
UsbKeyboardDevice->NumLockOn ^= 1;
//
// Turn on the NumLock light on KB
//
SetKeyLED (UsbKeyboardDevice);
continue;
break;
case EFI_CAPS_LOCK_MODIFIER:
UsbKeyboardDevice->CapsOn ^= 1;
//
// Turn on the CapsLock light on KB
//
SetKeyLED (UsbKeyboardDevice);
continue;
break;
case EFI_SCROLL_LOCK_MODIFIER:
UsbKeyboardDevice->ScrollOn ^= 1;
//
// Turn on the ScrollLock light on KB
//
SetKeyLED (UsbKeyboardDevice);
continue;
break;
//
// F11,F12,PrintScreen,Pause/Break
// could not be retrieved via SimpleTxtInEx protocol
//
case EFI_FUNCTION_KEY_ELEVEN_MODIFIER:
case EFI_FUNCTION_KEY_TWELVE_MODIFIER:
case EFI_PAUSE_MODIFIER:
case EFI_BREAK_MODIFIER:
//
// fall through
//
continue;
break;
default:
break;
}
//
// When encountered Del Key...
//
if (KeyDescriptor->Modifier == EFI_DELETE_MODIFIER) {
if (UsbKeyboardDevice->CtrlOn && UsbKeyboardDevice->AltOn) {
gRT->ResetSystem (EfiResetWarm, EFI_SUCCESS, 0, NULL);
}
}
*KeyChar = UsbKey.KeyCode;
return EFI_SUCCESS;
}
return EFI_NOT_READY;
}
/**
Converts USB Keyboard code to EFI Scan Code.
UsbKeyboardDevice The USB_KB_DEV instance.
KeyChar Indicates the key code that will be interpreted.
Key A pointer to a buffer that is filled in with
the keystroke information for the key that
was pressed.
@retval EFI_NOT_READY Device is not ready
@retval EFI_SUCCESS Success
**/
EFI_STATUS
USBKeyCodeToEFIScanCode (
IN USB_KB_DEV *UsbKeyboardDevice,
IN UINT8 KeyChar,
OUT EFI_INPUT_KEY *Key
)
{
UINT8 Index;
EFI_KEY_DESCRIPTOR *KeyDescriptor;
if (!USBKBD_VALID_KEYCODE (KeyChar)) {
return EFI_NOT_READY;
}
//
// valid USB Key Code starts from 4
//
Index = (UINT8) (KeyChar - 4);
if (Index >= USB_KEYCODE_MAX_MAKE) {
return EFI_NOT_READY;
}
KeyDescriptor = GetKeyDescriptor (UsbKeyboardDevice, KeyChar);
//
// Check for Non-spacing key
//
if (KeyDescriptor->Modifier == EFI_NS_KEY_MODIFIER) {
UsbKeyboardDevice->CurrentNsKey = FindUsbNsKey (UsbKeyboardDevice, KeyDescriptor);
return EFI_NOT_READY;
}
//
// Check whether this keystroke follows a Non-spacing key
//
if (UsbKeyboardDevice->CurrentNsKey != NULL) {
KeyDescriptor = FindPhysicalKey (UsbKeyboardDevice->CurrentNsKey, KeyDescriptor);
UsbKeyboardDevice->CurrentNsKey = NULL;
}
Key->ScanCode = EfiScanCodeConvertionTable[KeyDescriptor->Modifier];
Key->UnicodeChar = KeyDescriptor->Unicode;
if (KeyDescriptor->AffectedAttribute & EFI_AFFECTED_BY_STANDARD_SHIFT) {
if (UsbKeyboardDevice->ShiftOn) {
Key->UnicodeChar = KeyDescriptor->ShiftedUnicode;
//
// Need not return associated shift state if a class of printable characters that
// are normally adjusted by shift modifiers. e.g. Shift Key + 'f' key = 'F'
//
if (KeyDescriptor->AffectedAttribute & EFI_AFFECTED_BY_CAPS_LOCK) {
UsbKeyboardDevice->LeftShiftOn = 0;
UsbKeyboardDevice->RightShiftOn = 0;
}
if (UsbKeyboardDevice->AltGrOn) {
Key->UnicodeChar = KeyDescriptor->ShiftedAltGrUnicode;
}
} else {
//
// Shift off
//
Key->UnicodeChar = KeyDescriptor->Unicode;
if (UsbKeyboardDevice->AltGrOn) {
Key->UnicodeChar = KeyDescriptor->AltGrUnicode;
}
}
}
if (KeyDescriptor->AffectedAttribute & EFI_AFFECTED_BY_CAPS_LOCK) {
if (UsbKeyboardDevice->CapsOn) {
if (Key->UnicodeChar == KeyDescriptor->Unicode) {
Key->UnicodeChar = KeyDescriptor->ShiftedUnicode;
} else if (Key->UnicodeChar == KeyDescriptor->ShiftedUnicode) {
Key->UnicodeChar = KeyDescriptor->Unicode;
}
}
}
//
// Translate the CTRL-Alpha characters to their corresponding control value (ctrl-a = 0x0001 through ctrl-Z = 0x001A)
//
if (UsbKeyboardDevice->CtrlOn) {
if (Key->UnicodeChar >= 'a' && Key->UnicodeChar <= 'z') {
Key->UnicodeChar = (UINT8) (Key->UnicodeChar - 'a' + 1);
} else if (Key->UnicodeChar >= 'A' && Key->UnicodeChar <= 'Z') {
Key->UnicodeChar = (UINT8) (Key->UnicodeChar - 'A' + 1);
}
}
if (KeyDescriptor->AffectedAttribute & EFI_AFFECTED_BY_NUM_LOCK) {
if (UsbKeyboardDevice->NumLockOn && !UsbKeyboardDevice->ShiftOn) {
Key->ScanCode = SCAN_NULL;
} else {
Key->UnicodeChar = 0x00;
}
}
//
// Translate Unicode 0x1B (ESC) to EFI Scan Code
//
if (Key->UnicodeChar == 0x1B && Key->ScanCode == SCAN_NULL) {
Key->ScanCode = SCAN_ESC;
Key->UnicodeChar = 0x00;
}
if (Key->UnicodeChar == 0 && Key->ScanCode == SCAN_NULL) {
return EFI_NOT_READY;
}
//
// Save Shift/Toggle state
//
if (UsbKeyboardDevice->LeftCtrlOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_LEFT_CONTROL_PRESSED;
}
if (UsbKeyboardDevice->RightCtrlOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_RIGHT_CONTROL_PRESSED;
}
if (UsbKeyboardDevice->LeftAltOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_LEFT_ALT_PRESSED;
}
if (UsbKeyboardDevice->RightAltOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_RIGHT_ALT_PRESSED;
}
if (UsbKeyboardDevice->LeftShiftOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_LEFT_SHIFT_PRESSED;
}
if (UsbKeyboardDevice->RightShiftOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_RIGHT_SHIFT_PRESSED;
}
if (UsbKeyboardDevice->LeftLogoOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_LEFT_LOGO_PRESSED;
}
if (UsbKeyboardDevice->RightLogoOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_RIGHT_LOGO_PRESSED;
}
if (UsbKeyboardDevice->MenuKeyOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_MENU_KEY_PRESSED;
}
if (UsbKeyboardDevice->SysReqOn == 1) {
UsbKeyboardDevice->KeyState.KeyShiftState |= EFI_SYS_REQ_PRESSED;
}
if (UsbKeyboardDevice->ScrollOn == 1) {
UsbKeyboardDevice->KeyState.KeyToggleState |= EFI_SCROLL_LOCK_ACTIVE;
}
if (UsbKeyboardDevice->NumLockOn == 1) {
UsbKeyboardDevice->KeyState.KeyToggleState |= EFI_NUM_LOCK_ACTIVE;
}
if (UsbKeyboardDevice->CapsOn == 1) {
UsbKeyboardDevice->KeyState.KeyToggleState |= EFI_CAPS_LOCK_ACTIVE;
}
return EFI_SUCCESS;
}
/**
Resets USB Keyboard Buffer.
@param KeyboardBuffer Points to the USB Keyboard Buffer.
@retval EFI_SUCCESS Success
**/
EFI_STATUS
InitUSBKeyBuffer (
IN OUT USB_KB_BUFFER *KeyboardBuffer
)
{
ZeroMem (KeyboardBuffer, sizeof (USB_KB_BUFFER));
KeyboardBuffer->bHead = KeyboardBuffer->bTail;
return EFI_SUCCESS;
}
/**
Check whether USB Keyboard buffer is empty.
@param KeyboardBuffer USB Keyboard Buffer.
**/
BOOLEAN
IsUSBKeyboardBufferEmpty (
IN USB_KB_BUFFER *KeyboardBuffer
)
{
//
// meet FIFO empty condition
//
return (BOOLEAN) (KeyboardBuffer->bHead == KeyboardBuffer->bTail);
}
/**
Check whether USB Keyboard buffer is full.
@param KeyboardBuffer USB Keyboard Buffer.
**/
BOOLEAN
IsUSBKeyboardBufferFull (
IN USB_KB_BUFFER *KeyboardBuffer
)
{
return (BOOLEAN)(((KeyboardBuffer->bTail + 1) % (MAX_KEY_ALLOWED + 1)) ==
KeyboardBuffer->bHead);
}
/**
Inserts a key code into keyboard buffer.
@param KeyboardBuffer Points to the USB Keyboard Buffer.
@param Key Key code
@param Down Special key
@retval EFI_SUCCESS Success
**/
EFI_STATUS
InsertKeyCode (
IN OUT USB_KB_BUFFER *KeyboardBuffer,
IN UINT8 Key,
IN UINT8 Down
)
{
USB_KEY UsbKey;
//
// if keyboard buffer is full, throw the
// first key out of the keyboard buffer.
//
if (IsUSBKeyboardBufferFull (KeyboardBuffer)) {
RemoveKeyCode (KeyboardBuffer, &UsbKey);
}
KeyboardBuffer->buffer[KeyboardBuffer->bTail].KeyCode = Key;
KeyboardBuffer->buffer[KeyboardBuffer->bTail].Down = Down;
//
// adjust the tail pointer of the FIFO keyboard buffer.
//
KeyboardBuffer->bTail = (UINT8) ((KeyboardBuffer->bTail + 1) % (MAX_KEY_ALLOWED + 1));
return EFI_SUCCESS;
}
/**
Pops a key code off from keyboard buffer.
@param KeyboardBuffer Points to the USB Keyboard Buffer.
@param UsbKey Points to the buffer that contains a usb key code.
@retval EFI_SUCCESS Success
@retval EFI_DEVICE_ERROR Hardware Error
**/
EFI_STATUS
RemoveKeyCode (
IN OUT USB_KB_BUFFER *KeyboardBuffer,
OUT USB_KEY *UsbKey
)
{
if (IsUSBKeyboardBufferEmpty (KeyboardBuffer)) {
return EFI_DEVICE_ERROR;
}
UsbKey->KeyCode = KeyboardBuffer->buffer[KeyboardBuffer->bHead].KeyCode;
UsbKey->Down = KeyboardBuffer->buffer[KeyboardBuffer->bHead].Down;
//
// adjust the head pointer of the FIFO keyboard buffer.
//
KeyboardBuffer->bHead = (UINT8) ((KeyboardBuffer->bHead + 1) % (MAX_KEY_ALLOWED + 1));
return EFI_SUCCESS;
}
/**
Sets USB Keyboard LED state.
@param UsbKeyboardDevice The USB_KB_DEV instance.
@retval EFI_SUCCESS Success
**/
EFI_STATUS
SetKeyLED (
IN USB_KB_DEV *UsbKeyboardDevice
)
{
LED_MAP Led;
UINT8 ReportId;
//
// Set each field in Led map.
//
Led.NumLock = (UINT8) UsbKeyboardDevice->NumLockOn;
Led.CapsLock = (UINT8) UsbKeyboardDevice->CapsOn;
Led.ScrollLock = (UINT8) UsbKeyboardDevice->ScrollOn;
Led.Resrvd = 0;
ReportId = 0;
//
// call Set Report Request to lighten the LED.
//
UsbSetReportRequest (
UsbKeyboardDevice->UsbIo,
UsbKeyboardDevice->InterfaceDescriptor.InterfaceNumber,
ReportId,
HID_OUTPUT_REPORT,
1,
(UINT8 *) &Led
);
return EFI_SUCCESS;
}
/**
Timer handler for Repeat Key timer.
@param Event The Repeat Key event.
@param Context Points to the USB_KB_DEV instance.
**/
VOID
EFIAPI
USBKeyboardRepeatHandler (
IN EFI_EVENT Event,
IN VOID *Context
)
{
USB_KB_DEV *UsbKeyboardDevice;
UsbKeyboardDevice = (USB_KB_DEV *) Context;
//
// Do nothing when there is no repeat key.
//
if (UsbKeyboardDevice->RepeatKey != 0) {
//
// Inserts one Repeat key into keyboard buffer,
//
InsertKeyCode (
&(UsbKeyboardDevice->KeyboardBuffer),
UsbKeyboardDevice->RepeatKey,
1
);
//
// set repeate rate for repeat key generation.
//
gBS->SetTimer (
UsbKeyboardDevice->RepeatTimer,
TimerRelative,
USBKBD_REPEAT_RATE
);
}
}
/**
Timer handler for Delayed Recovery timer.
@param Event The Delayed Recovery event.
@param Context Points to the USB_KB_DEV instance.
**/
VOID
EFIAPI
USBKeyboardRecoveryHandler (
IN EFI_EVENT Event,
IN VOID *Context
)
{
USB_KB_DEV *UsbKeyboardDevice;
EFI_USB_IO_PROTOCOL *UsbIo;
UINT8 PacketSize;
UsbKeyboardDevice = (USB_KB_DEV *) Context;
UsbIo = UsbKeyboardDevice->UsbIo;
PacketSize = (UINT8) (UsbKeyboardDevice->IntEndpointDescriptor.MaxPacketSize);
UsbIo->UsbAsyncInterruptTransfer (
UsbIo,
UsbKeyboardDevice->IntEndpointDescriptor.EndpointAddress,
TRUE,
UsbKeyboardDevice->IntEndpointDescriptor.Interval,
PacketSize,
KeyboardHandler,
UsbKeyboardDevice
);
}