src/acpi/acpigen_ps2_keybd.c - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-or-later */

 #include <acpi/acpigen.h>
 #include <acpi/acpigen_ps2_keybd.h>
 #include <console/console.h>
 #include <input-event-codes.h>
 #include <stdbool.h>
 #include <stdint.h>

 #define KEYMAP(scancode, keycode) (((uint32_t)(scancode) << 16) | (keycode & 0xFFFF))
 #define SCANCODE(keymap) ((keymap >> 16) & 0xFFFF)

 /* Possible keymaps for function keys in the top row */
 static const uint32_t function_keymaps[] = {
 	KEYMAP(0x3b, KEY_F1),
 	KEYMAP(0x3c, KEY_F2),
 	KEYMAP(0x3d, KEY_F3),
 	KEYMAP(0x3e, KEY_F4),
 	KEYMAP(0x3f, KEY_F5),
 	KEYMAP(0x40, KEY_F6),
 	KEYMAP(0x41, KEY_F7),
 	KEYMAP(0x42, KEY_F8),
 	KEYMAP(0x43, KEY_F9),
 	KEYMAP(0x44, KEY_F10),
 	KEYMAP(0x57, KEY_F11),
 	KEYMAP(0x58, KEY_F12),
 	KEYMAP(0x59, KEY_F13),
 	KEYMAP(0x5a, KEY_F14),
 	KEYMAP(0x5b, KEY_F15),
 };

 /*
  * Possible keymaps for action keys in the top row. This is a superset of
  * possible keys. Individual keyboards will have a subset of these keys.
  * The scancodes are true / condensed 1 byte scancodes from set-1
  */
 static const uint32_t action_keymaps[] = {
 	[PS2_KEY_BACK] = KEYMAP(0xea, KEY_BACK),		/* e06a */
 	[PS2_KEY_FORWARD] = KEYMAP(0xe9, KEY_FORWARD),		/* e069 */
 	[PS2_KEY_REFRESH] = KEYMAP(0xe7, KEY_REFRESH),		/* e067 */
 	[PS2_KEY_FULLSCREEN] = KEYMAP(0x91, KEY_FULL_SCREEN),	/* e011 */
 	[PS2_KEY_OVERVIEW] = KEYMAP(0x92, KEY_SCALE),		/* e012 */
 	[PS2_KEY_VOL_MUTE] = KEYMAP(0xa0, KEY_MUTE),		/* e020 */
 	[PS2_KEY_VOL_DOWN] = KEYMAP(0xae, KEY_VOLUMEDOWN),	/* e02e */
 	[PS2_KEY_VOL_UP] = KEYMAP(0xb0, KEY_VOLUMEUP),		/* e030 */
 	[PS2_KEY_PLAY_PAUSE] = KEYMAP(0x9a, KEY_PLAYPAUSE),	/* e01a */
 	[PS2_KEY_NEXT_TRACK] = KEYMAP(0x99, KEY_NEXTSONG),	/* e019 */
 	[PS2_KEY_PREV_TRACK] = KEYMAP(0x90, KEY_PREVIOUSSONG),	/* e010 */
 	[PS2_KEY_SNAPSHOT] = KEYMAP(0x93, KEY_SYSRQ),		/* e013 */
 	[PS2_KEY_BRIGHTNESS_DOWN] = KEYMAP(0x94, KEY_BRIGHTNESSDOWN),	/* e014 */
 	[PS2_KEY_BRIGHTNESS_UP] = KEYMAP(0x95, KEY_BRIGHTNESSUP),	/* e015 */
 	[PS2_KEY_KBD_BKLIGHT_DOWN] = KEYMAP(0x97, KEY_KBDILLUMDOWN),	/* e017 */
 	[PS2_KEY_KBD_BKLIGHT_UP] = KEYMAP(0x98, KEY_KBDILLUMUP),	/* e018 */
 	[PS2_KEY_PRIVACY_SCRN_TOGGLE] = KEYMAP(0x96,			/* e016 */
 					  KEY_PRIVACY_SCREEN_TOGGLE),
 	[PS2_KEY_MICMUTE] = KEYMAP(0x9b, KEY_MICMUTE),			/* e01b */
 	[PS2_KEY_KBD_BKLIGHT_TOGGLE] = KEYMAP(0x9e, KEY_KBDILLUMTOGGLE),	/* e01e */
 	[PS2_KEY_MENU] = KEYMAP(0xdd, KEY_CONTROLPANEL),	/* e0d5 */
 };

 /* Keymap for numeric keypad keys */
 static uint32_t numeric_keypad_keymaps[] = {
 	/* Row-0 */
 	KEYMAP(0xc9, KEY_PAGEUP),
 	KEYMAP(0xd1, KEY_PAGEDOWN),
 	KEYMAP(0xc7, KEY_HOME),
 	KEYMAP(0xcf, KEY_END),
 	/* Row-1 */
 	KEYMAP(0xd3, KEY_DELETE),
 	KEYMAP(0xb5, KEY_KPSLASH),
 	KEYMAP(0x37, KEY_KPASTERISK),
 	KEYMAP(0x4a, KEY_KPMINUS),
 	/* Row-2 */
 	KEYMAP(0x47, KEY_KP7),
 	KEYMAP(0x48, KEY_KP8),
 	KEYMAP(0x49, KEY_KP9),
 	KEYMAP(0x4e, KEY_KPPLUS),
 	/* Row-3 */
 	KEYMAP(0x4b, KEY_KP4),
 	KEYMAP(0x4c, KEY_KP5),
 	KEYMAP(0x4d, KEY_KP6),
 	/* Row-4 */
 	KEYMAP(0x4f, KEY_KP1),
 	KEYMAP(0x50, KEY_KP2),
 	KEYMAP(0x51, KEY_KP3),
 	KEYMAP(0x9c, KEY_KPENTER),
 	/* Row-5 */
 	KEYMAP(0x52, KEY_KP0),
 	KEYMAP(0x53, KEY_KPDOT),
 };

 /*
  * Keymap for rest of non-top-row keys. This is a superset of all the possible
  * keys that any chromeos keyboards can have.
  */
 static uint32_t rest_of_keymaps[] = {
 	/* Row-0 */
 	KEYMAP(0x01, KEY_ESC),
 	/* Row-1 */
 	KEYMAP(0x29, KEY_GRAVE),
 	KEYMAP(0x02, KEY_1),
 	KEYMAP(0x03, KEY_2),
 	KEYMAP(0x04, KEY_3),
 	KEYMAP(0x05, KEY_4),
 	KEYMAP(0x06, KEY_5),
 	KEYMAP(0x07, KEY_6),
 	KEYMAP(0x08, KEY_7),
 	KEYMAP(0x09, KEY_8),
 	KEYMAP(0x0a, KEY_9),
 	KEYMAP(0x0b, KEY_0),
 	KEYMAP(0x0c, KEY_MINUS),
 	KEYMAP(0x0d, KEY_EQUAL),
 	KEYMAP(0x7d, KEY_YEN),		/* JP keyboards only */
 	KEYMAP(0x0e, KEY_BACKSPACE),
 	/* Row-2 */
 	KEYMAP(0x0f, KEY_TAB),
 	KEYMAP(0x10, KEY_Q),
 	KEYMAP(0x11, KEY_W),
 	KEYMAP(0x12, KEY_E),
 	KEYMAP(0x13, KEY_R),
 	KEYMAP(0x14, KEY_T),
 	KEYMAP(0x15, KEY_Y),
 	KEYMAP(0x16, KEY_U),
 	KEYMAP(0x17, KEY_I),
 	KEYMAP(0x18, KEY_O),
 	KEYMAP(0x19, KEY_P),
 	KEYMAP(0x1a, KEY_LEFTBRACE),
 	KEYMAP(0x1b, KEY_RIGHTBRACE),
 	KEYMAP(0x2b, KEY_BACKSLASH),
 	/* Row-3 */
 	KEYMAP(0xdb, KEY_LEFTMETA),	/* Search Key */
 	KEYMAP(0x1e, KEY_A),
 	KEYMAP(0x1f, KEY_S),
 	KEYMAP(0x20, KEY_D),
 	KEYMAP(0x21, KEY_F),
 	KEYMAP(0x22, KEY_G),
 	KEYMAP(0x23, KEY_H),
 	KEYMAP(0x24, KEY_J),
 	KEYMAP(0x25, KEY_K),
 	KEYMAP(0x26, KEY_L),
 	KEYMAP(0x27, KEY_SEMICOLON),
 	KEYMAP(0x28, KEY_APOSTROPHE),
 	KEYMAP(0x1c, KEY_ENTER),
 	/* Row-4 */
 	KEYMAP(0x2a, KEY_LEFTSHIFT),
 	KEYMAP(0x56, KEY_102ND),	/* UK keyboards only */
 	KEYMAP(0x2c, KEY_Z),
 	KEYMAP(0x2d, KEY_X),
 	KEYMAP(0x2e, KEY_C),
 	KEYMAP(0x2f, KEY_V),
 	KEYMAP(0x30, KEY_B),
 	KEYMAP(0x31, KEY_N),
 	KEYMAP(0x32, KEY_M),
 	KEYMAP(0x33, KEY_COMMA),
 	KEYMAP(0x34, KEY_DOT),
 	KEYMAP(0x35, KEY_SLASH),
 	KEYMAP(0x73, KEY_RO),		/* JP keyboards only */
 	KEYMAP(0x36, KEY_RIGHTSHIFT),
 	/* Row-5 */
 	KEYMAP(0x1d, KEY_LEFTCTRL),
 	KEYMAP(0x38, KEY_LEFTALT),
 	KEYMAP(0x7b, KEY_MUHENKAN),	/* JP keyboards only */
 	KEYMAP(0x39, KEY_SPACE),
 	KEYMAP(0x79, KEY_HENKAN),	/* JP keyboards only */
 	KEYMAP(0xb8, KEY_RIGHTALT),
 	KEYMAP(0x9d, KEY_RIGHTCTRL),
 	/* Arrow keys */
 	KEYMAP(0xcb, KEY_LEFT),
 	KEYMAP(0xd0, KEY_DOWN),
 	KEYMAP(0xcd, KEY_RIGHT),
 	KEYMAP(0xc8, KEY_UP),
 	/* Power Key */
 	KEYMAP(0xde, KEY_POWER),
 };

 static void ssdt_generate_physmap(struct acpi_dp *dp, uint8_t num_top_row_keys,
 				  enum ps2_action_key action_keys[])
 {
 	struct acpi_dp *dp_array;
 	enum ps2_action_key key;
 	uint32_t keymap, i;

 	dp_array = acpi_dp_new_table("function-row-physmap");
 	if (!dp_array) {
 		printk(BIOS_ERR, "PS2K: couldn't write function-row-physmap\n");
 		return;
 	}

 	printk(BIOS_INFO, "PS2K: Physmap: [");
 	for (i = 0; i < num_top_row_keys; i++) {
 		key = action_keys[i];
 		if (key && key < ARRAY_SIZE(action_keymaps)) {
 			keymap = action_keymaps[key];
 		} else {
 			keymap = 0;
 			printk(BIOS_ERR,
 			       "PS2K: invalid top-action-key-%u: %u(skipped)\n",
 			       i, key);
 		}
 		acpi_dp_add_integer(dp_array, NULL, SCANCODE(keymap));
 		printk(BIOS_INFO, " %X", SCANCODE(keymap));
 	}

 	printk(BIOS_INFO, " ]\n");
 	acpi_dp_add_array(dp, dp_array);
 }

 static void ssdt_generate_keymap(struct acpi_dp *dp, uint8_t num_top_row_keys,
 				 enum ps2_action_key action_keys[],
 				 bool can_send_function_keys,
 				 bool has_numeric_keypad,
 				 bool has_scrnlock_key,
 				 bool has_alpha_num_punct_keys)
 {
 	struct acpi_dp *dp_array;
 	enum ps2_action_key key;
 	uint32_t keymap;
 	unsigned int i, total = 0;

 	dp_array = acpi_dp_new_table("linux,keymap");
 	if (!dp_array) {
 		printk(BIOS_ERR, "PS2K: couldn't write linux,keymap\n");
 		return;
 	}

 	/* Write out keymap for top row action keys */
 	for (i = 0; i < num_top_row_keys; i++) {
 		key = action_keys[i];
 		if (!key || key >= ARRAY_SIZE(action_keymaps)) {
 			printk(BIOS_ERR,
 			       "PS2K: invalid top-action-key-%u: %u\n", i, key);
 			continue;
 		}
 		keymap = action_keymaps[key];
 		acpi_dp_add_integer(dp_array, NULL, keymap);
 		total++;
 	}

 	/* Write out keymap for function keys, if keyboard can send them */
 	if (can_send_function_keys) {
 		for (i = 0; i < num_top_row_keys; i++) {
 			keymap = function_keymaps[i];
 			acpi_dp_add_integer(dp_array, NULL, keymap);
 		}

 		total += num_top_row_keys;
 	}

 	/* Write out keymap for numeric keypad, if the keyboard has it */
 	if (has_numeric_keypad) {
 		for (i = 0; i < ARRAY_SIZE(numeric_keypad_keymaps); i++) {
 			keymap = numeric_keypad_keymaps[i];
 			acpi_dp_add_integer(dp_array, NULL, keymap);
 		}

 		total += ARRAY_SIZE(numeric_keypad_keymaps);
 	}

 	/* Provide keymap for screenlock only if it is present */
 	if (has_scrnlock_key) {
 		acpi_dp_add_integer(dp_array, NULL, KEYMAP(0x5d, KEY_SLEEP));
 		total++;
 	}

 	/* Provide alphanumeric and punctuation keys (rest of the keyboard) if
 	 * present
 	 */
 	if (has_alpha_num_punct_keys) {
 		for (i = 0; i < ARRAY_SIZE(rest_of_keymaps); i++) {
 			keymap = rest_of_keymaps[i];
 			acpi_dp_add_integer(dp_array, NULL, keymap);
 		}
 	}

 	total += ARRAY_SIZE(rest_of_keymaps);
 	printk(BIOS_INFO, "PS2K: Passing %u keymaps to kernel\n", total);

 	acpi_dp_add_array(dp, dp_array);
 }

 void acpigen_ps2_keyboard_dsd(const char *scope, uint8_t num_top_row_keys,
 			      enum ps2_action_key action_keys[],
 			      bool can_send_function_keys,
 			      bool has_numeric_keypad,
 			      bool has_scrnlock_key,
 			      bool has_alpha_num_punct_keys)
 {
 	struct acpi_dp *dsd;

 	if (!scope ||
 	    num_top_row_keys < PS2_MIN_TOP_ROW_KEYS ||
 	    num_top_row_keys > PS2_MAX_TOP_ROW_KEYS) {
 		printk(BIOS_ERR, "PS2K: %s: invalid args\n", __func__);
 		return;
 	}

 	dsd = acpi_dp_new_table("_DSD");
 	if (!dsd) {
 		printk(BIOS_ERR, "PS2K: couldn't write _DSD\n");
 		return;
 	}

 	acpigen_write_scope(scope);
 	ssdt_generate_physmap(dsd, num_top_row_keys, action_keys);
 	ssdt_generate_keymap(dsd, num_top_row_keys, action_keys,
 			     can_send_function_keys, has_numeric_keypad,
 			     has_scrnlock_key, has_alpha_num_punct_keys);
 	acpi_dp_write(dsd);
 	acpigen_pop_len(); /* Scope */
 }
	/* SPDX-License-Identifier: GPL-2.0-or-later */

	#include <acpi/acpigen.h>
	#include <acpi/acpigen_ps2_keybd.h>
	#include <console/console.h>
	#include <input-event-codes.h>
	#include <stdbool.h>
	#include <stdint.h>

	#define KEYMAP(scancode, keycode) (((uint32_t)(scancode) << 16) \| (keycode & 0xFFFF))
	#define SCANCODE(keymap) ((keymap >> 16) & 0xFFFF)

	/* Possible keymaps for function keys in the top row */
	static const uint32_t function_keymaps[] = {
	KEYMAP(0x3b, KEY_F1),
	KEYMAP(0x3c, KEY_F2),
	KEYMAP(0x3d, KEY_F3),
	KEYMAP(0x3e, KEY_F4),
	KEYMAP(0x3f, KEY_F5),
	KEYMAP(0x40, KEY_F6),
	KEYMAP(0x41, KEY_F7),
	KEYMAP(0x42, KEY_F8),
	KEYMAP(0x43, KEY_F9),
	KEYMAP(0x44, KEY_F10),
	KEYMAP(0x57, KEY_F11),
	KEYMAP(0x58, KEY_F12),
	KEYMAP(0x59, KEY_F13),
	KEYMAP(0x5a, KEY_F14),
	KEYMAP(0x5b, KEY_F15),
	};

	/*
	* Possible keymaps for action keys in the top row. This is a superset of
	* possible keys. Individual keyboards will have a subset of these keys.
	* The scancodes are true / condensed 1 byte scancodes from set-1
	*/
	static const uint32_t action_keymaps[] = {
	[PS2_KEY_BACK] = KEYMAP(0xea, KEY_BACK), /* e06a */
	[PS2_KEY_FORWARD] = KEYMAP(0xe9, KEY_FORWARD), /* e069 */
	[PS2_KEY_REFRESH] = KEYMAP(0xe7, KEY_REFRESH), /* e067 */
	[PS2_KEY_FULLSCREEN] = KEYMAP(0x91, KEY_FULL_SCREEN), /* e011 */
	[PS2_KEY_OVERVIEW] = KEYMAP(0x92, KEY_SCALE), /* e012 */
	[PS2_KEY_VOL_MUTE] = KEYMAP(0xa0, KEY_MUTE), /* e020 */
	[PS2_KEY_VOL_DOWN] = KEYMAP(0xae, KEY_VOLUMEDOWN), /* e02e */
	[PS2_KEY_VOL_UP] = KEYMAP(0xb0, KEY_VOLUMEUP), /* e030 */
	[PS2_KEY_PLAY_PAUSE] = KEYMAP(0x9a, KEY_PLAYPAUSE), /* e01a */
	[PS2_KEY_NEXT_TRACK] = KEYMAP(0x99, KEY_NEXTSONG), /* e019 */
	[PS2_KEY_PREV_TRACK] = KEYMAP(0x90, KEY_PREVIOUSSONG), /* e010 */
	[PS2_KEY_SNAPSHOT] = KEYMAP(0x93, KEY_SYSRQ), /* e013 */
	[PS2_KEY_BRIGHTNESS_DOWN] = KEYMAP(0x94, KEY_BRIGHTNESSDOWN), /* e014 */
	[PS2_KEY_BRIGHTNESS_UP] = KEYMAP(0x95, KEY_BRIGHTNESSUP), /* e015 */
	[PS2_KEY_KBD_BKLIGHT_DOWN] = KEYMAP(0x97, KEY_KBDILLUMDOWN), /* e017 */
	[PS2_KEY_KBD_BKLIGHT_UP] = KEYMAP(0x98, KEY_KBDILLUMUP), /* e018 */
	[PS2_KEY_PRIVACY_SCRN_TOGGLE] = KEYMAP(0x96, /* e016 */
	KEY_PRIVACY_SCREEN_TOGGLE),
	[PS2_KEY_MICMUTE] = KEYMAP(0x9b, KEY_MICMUTE), /* e01b */
	[PS2_KEY_KBD_BKLIGHT_TOGGLE] = KEYMAP(0x9e, KEY_KBDILLUMTOGGLE), /* e01e */
	[PS2_KEY_MENU] = KEYMAP(0xdd, KEY_CONTROLPANEL), /* e0d5 */
	};

	/* Keymap for numeric keypad keys */
	static uint32_t numeric_keypad_keymaps[] = {
	/* Row-0 */
	KEYMAP(0xc9, KEY_PAGEUP),
	KEYMAP(0xd1, KEY_PAGEDOWN),
	KEYMAP(0xc7, KEY_HOME),
	KEYMAP(0xcf, KEY_END),
	/* Row-1 */
	KEYMAP(0xd3, KEY_DELETE),
	KEYMAP(0xb5, KEY_KPSLASH),
	KEYMAP(0x37, KEY_KPASTERISK),
	KEYMAP(0x4a, KEY_KPMINUS),
	/* Row-2 */
	KEYMAP(0x47, KEY_KP7),
	KEYMAP(0x48, KEY_KP8),
	KEYMAP(0x49, KEY_KP9),
	KEYMAP(0x4e, KEY_KPPLUS),
	/* Row-3 */
	KEYMAP(0x4b, KEY_KP4),
	KEYMAP(0x4c, KEY_KP5),
	KEYMAP(0x4d, KEY_KP6),
	/* Row-4 */
	KEYMAP(0x4f, KEY_KP1),
	KEYMAP(0x50, KEY_KP2),
	KEYMAP(0x51, KEY_KP3),
	KEYMAP(0x9c, KEY_KPENTER),
	/* Row-5 */
	KEYMAP(0x52, KEY_KP0),
	KEYMAP(0x53, KEY_KPDOT),
	};

	/*
	* Keymap for rest of non-top-row keys. This is a superset of all the possible
	* keys that any chromeos keyboards can have.
	*/
	static uint32_t rest_of_keymaps[] = {
	/* Row-0 */
	KEYMAP(0x01, KEY_ESC),
	/* Row-1 */
	KEYMAP(0x29, KEY_GRAVE),
	KEYMAP(0x02, KEY_1),
	KEYMAP(0x03, KEY_2),
	KEYMAP(0x04, KEY_3),
	KEYMAP(0x05, KEY_4),
	KEYMAP(0x06, KEY_5),
	KEYMAP(0x07, KEY_6),
	KEYMAP(0x08, KEY_7),
	KEYMAP(0x09, KEY_8),
	KEYMAP(0x0a, KEY_9),
	KEYMAP(0x0b, KEY_0),
	KEYMAP(0x0c, KEY_MINUS),
	KEYMAP(0x0d, KEY_EQUAL),
	KEYMAP(0x7d, KEY_YEN), /* JP keyboards only */
	KEYMAP(0x0e, KEY_BACKSPACE),
	/* Row-2 */
	KEYMAP(0x0f, KEY_TAB),
	KEYMAP(0x10, KEY_Q),
	KEYMAP(0x11, KEY_W),
	KEYMAP(0x12, KEY_E),
	KEYMAP(0x13, KEY_R),
	KEYMAP(0x14, KEY_T),
	KEYMAP(0x15, KEY_Y),
	KEYMAP(0x16, KEY_U),
	KEYMAP(0x17, KEY_I),
	KEYMAP(0x18, KEY_O),
	KEYMAP(0x19, KEY_P),
	KEYMAP(0x1a, KEY_LEFTBRACE),
	KEYMAP(0x1b, KEY_RIGHTBRACE),
	KEYMAP(0x2b, KEY_BACKSLASH),
	/* Row-3 */
	KEYMAP(0xdb, KEY_LEFTMETA), /* Search Key */
	KEYMAP(0x1e, KEY_A),
	KEYMAP(0x1f, KEY_S),
	KEYMAP(0x20, KEY_D),
	KEYMAP(0x21, KEY_F),
	KEYMAP(0x22, KEY_G),
	KEYMAP(0x23, KEY_H),
	KEYMAP(0x24, KEY_J),
	KEYMAP(0x25, KEY_K),
	KEYMAP(0x26, KEY_L),
	KEYMAP(0x27, KEY_SEMICOLON),
	KEYMAP(0x28, KEY_APOSTROPHE),
	KEYMAP(0x1c, KEY_ENTER),
	/* Row-4 */
	KEYMAP(0x2a, KEY_LEFTSHIFT),
	KEYMAP(0x56, KEY_102ND), /* UK keyboards only */
	KEYMAP(0x2c, KEY_Z),
	KEYMAP(0x2d, KEY_X),
	KEYMAP(0x2e, KEY_C),
	KEYMAP(0x2f, KEY_V),
	KEYMAP(0x30, KEY_B),
	KEYMAP(0x31, KEY_N),
	KEYMAP(0x32, KEY_M),
	KEYMAP(0x33, KEY_COMMA),
	KEYMAP(0x34, KEY_DOT),
	KEYMAP(0x35, KEY_SLASH),
	KEYMAP(0x73, KEY_RO), /* JP keyboards only */
	KEYMAP(0x36, KEY_RIGHTSHIFT),
	/* Row-5 */
	KEYMAP(0x1d, KEY_LEFTCTRL),
	KEYMAP(0x38, KEY_LEFTALT),
	KEYMAP(0x7b, KEY_MUHENKAN), /* JP keyboards only */
	KEYMAP(0x39, KEY_SPACE),
	KEYMAP(0x79, KEY_HENKAN), /* JP keyboards only */
	KEYMAP(0xb8, KEY_RIGHTALT),
	KEYMAP(0x9d, KEY_RIGHTCTRL),
	/* Arrow keys */
	KEYMAP(0xcb, KEY_LEFT),
	KEYMAP(0xd0, KEY_DOWN),
	KEYMAP(0xcd, KEY_RIGHT),
	KEYMAP(0xc8, KEY_UP),
	/* Power Key */
	KEYMAP(0xde, KEY_POWER),
	};

	static void ssdt_generate_physmap(struct acpi_dp *dp, uint8_t num_top_row_keys,
	enum ps2_action_key action_keys[])
	{
	struct acpi_dp *dp_array;
	enum ps2_action_key key;
	uint32_t keymap, i;

	dp_array = acpi_dp_new_table("function-row-physmap");
	if (!dp_array) {
	printk(BIOS_ERR, "PS2K: couldn't write function-row-physmap\n");
	return;
	}

	printk(BIOS_INFO, "PS2K: Physmap: [");
	for (i = 0; i < num_top_row_keys; i++) {
	key = action_keys[i];
	if (key && key < ARRAY_SIZE(action_keymaps)) {
	keymap = action_keymaps[key];
	} else {
	keymap = 0;
	printk(BIOS_ERR,
	"PS2K: invalid top-action-key-%u: %u(skipped)\n",
	i, key);
	}
	acpi_dp_add_integer(dp_array, NULL, SCANCODE(keymap));
	printk(BIOS_INFO, " %X", SCANCODE(keymap));
	}

	printk(BIOS_INFO, " ]\n");
	acpi_dp_add_array(dp, dp_array);
	}

	static void ssdt_generate_keymap(struct acpi_dp *dp, uint8_t num_top_row_keys,
	enum ps2_action_key action_keys[],
	bool can_send_function_keys,
	bool has_numeric_keypad,
	bool has_scrnlock_key,
	bool has_alpha_num_punct_keys)
	{
	struct acpi_dp *dp_array;
	enum ps2_action_key key;
	uint32_t keymap;
	unsigned int i, total = 0;

	dp_array = acpi_dp_new_table("linux,keymap");
	if (!dp_array) {
	printk(BIOS_ERR, "PS2K: couldn't write linux,keymap\n");
	return;
	}

	/* Write out keymap for top row action keys */
	for (i = 0; i < num_top_row_keys; i++) {
	key = action_keys[i];
	if (!key \|\| key >= ARRAY_SIZE(action_keymaps)) {
	printk(BIOS_ERR,
	"PS2K: invalid top-action-key-%u: %u\n", i, key);
	continue;
	}
	keymap = action_keymaps[key];
	acpi_dp_add_integer(dp_array, NULL, keymap);
	total++;
	}

	/* Write out keymap for function keys, if keyboard can send them */
	if (can_send_function_keys) {
	for (i = 0; i < num_top_row_keys; i++) {
	keymap = function_keymaps[i];
	acpi_dp_add_integer(dp_array, NULL, keymap);
	}

	total += num_top_row_keys;
	}

	/* Write out keymap for numeric keypad, if the keyboard has it */
	if (has_numeric_keypad) {
	for (i = 0; i < ARRAY_SIZE(numeric_keypad_keymaps); i++) {
	keymap = numeric_keypad_keymaps[i];
	acpi_dp_add_integer(dp_array, NULL, keymap);
	}

	total += ARRAY_SIZE(numeric_keypad_keymaps);
	}

	/* Provide keymap for screenlock only if it is present */
	if (has_scrnlock_key) {
	acpi_dp_add_integer(dp_array, NULL, KEYMAP(0x5d, KEY_SLEEP));
	total++;
	}

	/* Provide alphanumeric and punctuation keys (rest of the keyboard) if
	* present
	*/
	if (has_alpha_num_punct_keys) {
	for (i = 0; i < ARRAY_SIZE(rest_of_keymaps); i++) {
	keymap = rest_of_keymaps[i];
	acpi_dp_add_integer(dp_array, NULL, keymap);
	}
	}

	total += ARRAY_SIZE(rest_of_keymaps);
	printk(BIOS_INFO, "PS2K: Passing %u keymaps to kernel\n", total);

	acpi_dp_add_array(dp, dp_array);
	}

	void acpigen_ps2_keyboard_dsd(const char *scope, uint8_t num_top_row_keys,
	enum ps2_action_key action_keys[],
	bool can_send_function_keys,
	bool has_numeric_keypad,
	bool has_scrnlock_key,
	bool has_alpha_num_punct_keys)
	{
	struct acpi_dp *dsd;

	if (!scope \|\|
	num_top_row_keys < PS2_MIN_TOP_ROW_KEYS \|\|
	num_top_row_keys > PS2_MAX_TOP_ROW_KEYS) {
	printk(BIOS_ERR, "PS2K: %s: invalid args\n", __func__);
	return;
	}

	dsd = acpi_dp_new_table("_DSD");
	if (!dsd) {
	printk(BIOS_ERR, "PS2K: couldn't write _DSD\n");
	return;
	}

	acpigen_write_scope(scope);
	ssdt_generate_physmap(dsd, num_top_row_keys, action_keys);
	ssdt_generate_keymap(dsd, num_top_row_keys, action_keys,
	can_send_function_keys, has_numeric_keypad,
	has_scrnlock_key, has_alpha_num_punct_keys);
	acpi_dp_write(dsd);
	acpigen_pop_len(); /* Scope */
	}