/*------------------------------------------------------------------------------------------*\ * * Copyright (C) 2006 AVM GmbH * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA \*------------------------------------------------------------------------------------------*/ /*------------------------------------------------------------------------------------------*\ * In dieser Datei werden die moeglichen Blinkmodi definiert bzw. erzeugt. * \*------------------------------------------------------------------------------------------*/ #include #include #include #include #include #include #include "avm_sammel.h" #include "avm_led.h" /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 0) #include #else #endif /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ struct _led_time_step { #define BRIGHTNESS(lux, optional_virtled) ((lux == 0 ? 0 : \ lux == 1 ? 0x1 : \ lux == 2 ? 0x3 : \ lux == 3 ? 0x7 : 0xF) << (optional_virtled * 4)) #define BRIGHTNESS_LIST(luxv0, luxv1, luxv2, luxv3, luxv4) \ BRIGHTNESS(luxv0, 0) | \ BRIGHTNESS(luxv1, 1) | \ BRIGHTNESS(luxv2, 2) | \ BRIGHTNESS(luxv3, 3) | \ BRIGHTNESS(luxv4, 4) unsigned int on; #define TIME_STEP_FLAG_TIMER 0x00 #define TIME_STEP_FLAG_REFRESH_TIMER 0x01 #define TIME_STEP_FLAG_USE_PARAM1 0x02 #define TIME_STEP_FLAG_USE_PARAM2 0x04 #define TIME_STEP_FLAG_DEC_PARAM2 0x08 #define TIME_STEP_FLAG_RESTART 0x10 #define TIME_STEP_FLAG_RESTART_IF_PARAM2 0x20 #define TIME_STEP_FLAG_RESTART_RELOAD 0x40 #define TIME_STEP_FLAG_END 0x80 #define TIME_STEP_PARAM1_AS_ON 0x100 unsigned short flag; unsigned char mult_factor; unsigned char div_factor; }; /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_off[] = { { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_END } }; /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_on[] = { { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_RESTART | TIME_STEP_FLAG_REFRESH_TIMER | TIME_STEP_FLAG_END, mult_factor: 1000, div_factor: 1 } }; /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_flash_on[] = { { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_END } }; /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_flash_off[] = { { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_END } }; /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_symmetric_blink[] = { { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_RESTART | TIME_STEP_FLAG_USE_PARAM2 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 } }; /*------------------------------------------------------------------------------------------*\ * count = 2 * XXXX____XXXX________________XXXX____XXXX________________XXXX____XXXX____________ * | | | | | | | | | | | | | | | | | | | | \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_blink_code[] = { { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_DEC_PARAM2 | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_RESTART_IF_PARAM2 | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_RESTART_RELOAD | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 4, div_factor: 1 } }; /*------------------------------------------------------------------------------------------*\ * count = 2 * abcde abcde f qbcde abcde f * _X_X_____X_X_________________X_X_____X_X_________________X_X_____X_X____________ * | | | | | | | | | | | | | | | | | | | | \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_double_blink_code[] = { /*--- (a) 1/4 param1 aus, decrement param2 ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_DEC_PARAM2 | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 4 }, /*--- (b) 1/4 param1 ein ---*/ { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 4 }, /*--- (c) 1/4 param1 aus ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 4 }, /*--- (d) 1/4 param1 ein ---*/ { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 4 }, /*--- (e) 1 param1 aus ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_RESTART_IF_PARAM2 | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, /*--- (f) 1 param1 aus ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_RESTART_RELOAD | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 3, div_factor: 1 } }; /*------------------------------------------------------------------------------------------*\ * count = 2 * a b cdefg a b cdefg h * XXXX_____X_X____XXXX_____X_X____________________XXXX_____X_X____XXXX_____X_X_ * | | | | | | | | | | | | | | | | | | | | \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_mixed_blink_code[] = { /*--- (a) 1 param1 ein ---*/ { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_DEC_PARAM2 | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, /*--- (b) 1 param1 aus ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, /*--- (c) 1/4 param1 aus ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 4 }, /*--- (d) 1/4 param1 ein ---*/ { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 4 }, /*--- (e) 1/4 param1 aus ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 4 }, /*--- (f) 1/4 param1 ein ---*/ { on: BRIGHTNESS(4,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 4 }, /*--- (g) 1 param1 aus ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_RESTART_IF_PARAM2 | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 1 }, /*--- (g) 5 param1 aus ---*/ { on: BRIGHTNESS(0,0), flag: TIME_STEP_FLAG_RESTART_RELOAD | TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 4, div_factor: 1 } }; #if defined(CONFIG_AVM_LED_BIER_HOLEN) /*------------------------------------------------------------------------------------------*\ * bier holen effects \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_bier_holen_code[] = { { on: BRIGHTNESS_LIST(1,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(2,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(3,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,1,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,2,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,3,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,1,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,2,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,3,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,1,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,2,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,3,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,1), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,2), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,3), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(3,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(2,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(1,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,3,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,2,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,1,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,3,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,2,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,1,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,3,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,2,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,1,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,3), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,2), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,1), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,1), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,2), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,3), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,1,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,2,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,3,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,1,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,2,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,3,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,1,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,2,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,3,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(1,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(2,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(3,4,4,4,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,3), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,2), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,1), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,4,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,3,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,2,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,1,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,4,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,3,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,2,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,1,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,4,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,3,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,2,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,1,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(4,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(3,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(2,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(1,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 80 }, { on: BRIGHTNESS_LIST(0,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_RESTART_RELOAD, mult_factor: 1, div_factor: 80} }; /*------------------------------------------------------------------------------------------*\ * durchlaufende LED's mit "Schleimleuchtspur" \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_walking_led[] = { { on: BRIGHTNESS_LIST(0,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 16 }, { on: BRIGHTNESS_LIST(1,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(2,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(3,0,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(4,1,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(4,2,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(3,3,0,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(2,4,1,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(1,4,2,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,3,3,0,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,2,4,1,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,1,4,2,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,3,3,0), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,2,4,1), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,1,4,2), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,0,3,3), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,0,2,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,0,1,4), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,0,0,3), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,0,0,2), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_TIMER, mult_factor: 1, div_factor: 21 }, { on: BRIGHTNESS_LIST(0,0,0,0,1), flag: TIME_STEP_FLAG_USE_PARAM1 | TIME_STEP_FLAG_RESTART_RELOAD, mult_factor: 1, div_factor: 21 }, }; /*------------------------------------------------------------------------------------------*\ * VU-Meter: \*------------------------------------------------------------------------------------------*/ struct _led_time_step led_mode_vu_meter[] = { { on: BRIGHTNESS_LIST(0,0,0,0,0), flag: TIME_STEP_PARAM1_AS_ON | TIME_STEP_FLAG_END, mult_factor: 1, div_factor: 1}, }; #endif/*--- #if defined(CONFIG_AVM_LED_BIER_HOLEN) ---*/ /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ struct _led_mode_table { struct _led_time_step *led_mode; } led_mode_table[AVM_LED_MAX_MODE_DRIVER] = { /*--- mode 0 ---*/ { led_mode_off }, /*--- mode 1 ---*/ { led_mode_on }, /*--- mode 2 ---*/ { led_mode_flash_on }, /*--- mode 3 ---*/ { led_mode_flash_off }, /*--- mode 4 ---*/ { led_mode_symmetric_blink }, /*--- mode 5 ---*/ { led_mode_blink_code }, /*--- mode 6 ---*/ { led_mode_double_blink_code }, /*--- mode 7 ---*/ { led_mode_mixed_blink_code }, #if defined(CONFIG_AVM_LED_BIER_HOLEN) /*--- mode 8 ---*/ { led_mode_bier_holen_code }, /*--- mode 9 ---*/ { led_mode_walking_led }, /*--- mode 10 ---*/ { led_mode_vu_meter }, #endif/*--- #if defined(CONFIG_AVM_LED_BIER_HOLEN) ---*/ { NULL } }; struct _avm_led_mode { struct _led_time_step *step; unsigned int current_param1; unsigned int current_param2; unsigned int reload_param1; unsigned int reload_param2; unsigned int current_pos; struct timer_list timer; struct _avm_virt_led *virt_led; }; /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ int avm_led_mode_init(unsigned int table_index, struct _avm_virt_led *virt_led) { struct _avm_led_mode *mode; mode = (struct _avm_led_mode *)kmalloc(sizeof(struct _avm_led_mode), GFP_ATOMIC); if(table_index >= (sizeof(led_mode_table)/ sizeof(struct _led_mode_table) - 1)) { /*--- zu grosser table-Index: auf led_mode_off ---*/ table_index = 0; } DEB_NOTE("[avm_led_mode_init] mode=%p table_index=%u %p\n", mode, table_index, led_mode_table[table_index].led_mode); mode->step = led_mode_table[table_index].led_mode; mode->current_param1 = 0; mode->current_param2 = 0; mode->reload_param1 = 0; mode->reload_param2 = 0; mode->current_pos = 0; mode->virt_led = virt_led; init_timer(&(mode->timer)); mode->timer.function = avm_led_mode_timer; mode->timer.data = (int)mode; return (int)mode; } /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ void avm_led_mode_exit(int handle) { DEB_NOTE("[avm_led_mode_exit] mode=%x\n", handle); avm_led_mode_stop(handle); kfree((void *)handle); } /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ static void avm_led_mode_output_to_driver(int handle, int on) { struct _avm_led_mode *mode = (struct _avm_led_mode *)handle; if(mode->virt_led && mode->virt_led->driver && mode->virt_led->driver->action) { unsigned int i, ignore = 0; struct _avm_led_instance_handle *I = mode->virt_led->instance_handle; if(I) { if(mode->virt_led->driver->get_flags) { unsigned int prio_instance = (*mode->virt_led->driver->get_flags)() & 0xF; if(mode->virt_led->instance_handle->V[prio_instance]) { if(mode->virt_led->instance_handle->V[prio_instance]->current_state) { if(mode->virt_led->instance_handle->V[prio_instance]->current_state->mode_index) { /*--- printk("[prio] prio is %u current is %u ", prio_instance, mode->virt_led->instance); ---*/ if(prio_instance != mode->virt_led->instance) { /*--- printk("ignore\n"); ---*/ ignore = 1; } else { /*--- printk("leave\n"); ---*/ } } } } } else { I->mask[mode->virt_led->instance] = on; for(i = 0, on = 0 ; i < AVM_LED_MAX_INSTANCE ; i++) { on |= I->mask[i] & I->enable[i]; } } } if(ignore == 0) (*mode->virt_led->driver->action)(mode->virt_led->driver_handle, on); } } /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ void avm_led_mode_sync(int virt_led_handle) { struct _avm_virt_led *V = (struct _avm_virt_led *)virt_led_handle; if(V && V->driver && V->driver->action) { unsigned int i, on = 0; struct _avm_led_instance_handle *I = V->instance_handle; if(I) { for(i = 0 ; i < AVM_LED_MAX_INSTANCE ; i++) { on |= I->mask[i] & I->enable[i]; } } (*V->driver->action)(V->driver_handle, on); } } /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ void avm_led_mode_stop(int handle) { struct _avm_led_mode *mode = (struct _avm_led_mode *)handle; del_timer(&(mode->timer)); avm_led_mode_output_to_driver(handle, 0); mode->current_pos = 0; } /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ void avm_led_mode_timer(unsigned long handle) { avm_led_mode_action(handle, 0, 0); } /*------------------------------------------------------------------------------------------*\ \*------------------------------------------------------------------------------------------*/ void avm_led_mode_action(int handle, unsigned int param1, unsigned int param2) { struct _avm_led_mode *mode = (struct _avm_led_mode *)handle; struct _led_time_step *step = &(mode->step[mode->current_pos]); unsigned int timer_value = 0; unsigned int timer_call = 1; if(param1) { mode->current_param1 = mode->reload_param1 = param1; timer_call = 0; } if(param2) { mode->current_param2 = mode->reload_param2 = param2; } if(timer_call == 0) DEB_NOTE("[avm_led_mode_action] current_pos=%u param1=%u param2=%u\n", mode->current_pos, param1, param2); /*--- DEB_NOTE("[avm_led_mode_action] mode=%p step=%p curpos: %u f=%x p1 %u p2 %u\n", mode, step, mode->current_pos, step->flag, mode->current_param1, mode->current_param2); ---*/ if(step->flag & TIME_STEP_PARAM1_AS_ON) { /*--- printk("[avm_led_mode_output_to_driver] param1=0x%x\n", param1); ---*/ avm_led_mode_output_to_driver(handle, param1); } else { avm_led_mode_output_to_driver(handle, step->on); } if(step->flag & TIME_STEP_FLAG_END) { if(step->flag & TIME_STEP_FLAG_REFRESH_TIMER) { timer_value = 1; } else { mode->current_pos = 0; DEB_NOTE("[avm_led_mode_action] end, no timer\n"); return; } } if(step->flag & TIME_STEP_FLAG_USE_PARAM1) timer_value = mode->current_param1; else if(step->flag & TIME_STEP_FLAG_USE_PARAM2) timer_value = mode->current_param2; if(step->flag & TIME_STEP_FLAG_DEC_PARAM2) mode->current_param2--; timer_value = (timer_value * step->mult_factor) / step->div_factor; del_timer(&(mode->timer)); mode->timer.expires = ((HZ * timer_value) / 1000) + jiffies; add_timer(&(mode->timer)); if((step->flag & TIME_STEP_FLAG_RESTART_IF_PARAM2) && (mode->current_param2)) { DEB_NOTE("[avm_led_mode_action] restart (param2 != 0) with timer\n"); mode->current_pos = 0; return; } if(step->flag & TIME_STEP_FLAG_RESTART_RELOAD) { mode->current_pos = 0; mode->current_param1 = mode->reload_param1; mode->current_param2 = mode->reload_param2; DEB_NOTE("[avm_led_mode_action] restart and reload with timer\n"); return; } if(step->flag & TIME_STEP_FLAG_RESTART) { /*--- DEB_NOTE("[avm_led_mode_action] restart with timer\n"); ---*/ mode->current_pos = 0; return; } mode->current_pos++; return; }