/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2002 by wavey@wavey.org * RTC config saving code (C) 2002 by hessu@hes.iki.fi * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include "config.h" #include "kernel.h" #include "settings.h" #include "disk.h" #include "panic.h" #include "debug.h" #include "button.h" #include "lcd.h" #include "mpeg.h" #include "string.h" #include "ata.h" #include "power.h" #include "backlight.h" #include "powermgmt.h" struct user_settings global_settings; /******************************************** Config block as saved on the battery-packed RTC user RAM memory block of 44 bytes, starting at offset 0x14 of the RTC memory space. offset abs 0x00 0x14 "Roc" header signature: 0x52 0x6f 0x63 0x03 0x17 0x04 0x18 0x05 0x19 0x06 0x1a 0x07 0x1b 0x08 0x1c 0x09 0x1d 0x0a 0x1e 0x0b 0x1f 0x0c 0x20 0x0d 0x21 0x0e 0x22 0x0f 0x23 0x10 0x24 0x11 0x25 the geeky but useless statistics part: 0x24 0x2a Config memory is reset to 0xff and initialized with 'factory defaults' if a valid header & checksum is not found. Config version number is only increased when information is _relocated_ or space is _reused_ so that old versions can read and modify configuration changed by new versions. New versions should check for the value of '0xff' in each config memory location used, and reset the setting in question with a factory default if needed. Memory locations not used by a given version should not be modified unless the header & checksum test fails. *************************************/ #include "rtc.h" static unsigned char rtc_config_block[44]; /* * Calculates the checksum for the config block and places it in the given 2-byte buffer */ static void calculate_config_checksum(unsigned char *cksum) { unsigned char *p; cksum[0] = cksum[1] = 0; for (p = rtc_config_block; p < rtc_config_block + sizeof(rtc_config_block) - 2; p++) { cksum[0] = cksum[0] ^ *p; p++; cksum[1] = cksum[1] ^ *p; } } /* * initialize the config block buffer */ static void init_config_buffer( void ) { DEBUGF( "init_config_buffer()\n" ); /* reset to 0xff - all unused */ memset(rtc_config_block, 0xff, sizeof(rtc_config_block)); /* insert header */ rtc_config_block[0] = 'R'; rtc_config_block[1] = 'o'; rtc_config_block[2] = 'c'; rtc_config_block[3] = 0x0; /* config block version number */ } #ifdef HAVE_RTC /* * save the config block buffer on the RTC RAM */ static int save_config_buffer( void ) { unsigned char addr = 0x14; int r; unsigned char *p; DEBUGF( "save_config_buffer()\n" ); /* update the checksum in the end of the block before saving */ calculate_config_checksum(rtc_config_block + sizeof(rtc_config_block) - 2); /* FIXME: okay, it _would_ be cleaner and faster to implement rtc_write so that it would write a number of bytes at a time since the RTC chip supports that, but this will have to do for now 8-) */ for (p = rtc_config_block; p < rtc_config_block + sizeof(rtc_config_block); p++) { r = rtc_write(addr, *p); if (r) { DEBUGF( "save_config_buffer: rtc_write failed at addr 0x%02x: %d\n", addr, r ); return r; } addr++; } return 0; } /* * load the config block buffer from the RTC RAM */ static int load_config_buffer( void ) { unsigned char addr = 0x14; unsigned char cksum[2]; unsigned char *p; DEBUGF( "load_config_buffer()\n" ); /* FIXME: the same comment applies here as for rtc_write */ for (p = rtc_config_block; p < rtc_config_block + sizeof(rtc_config_block); p++) { *p = rtc_read(addr); addr++; } /* calculate the checksum, check it and the header */ calculate_config_checksum(cksum); if (rtc_config_block[0x0] == 'R' && rtc_config_block[0x1] == 'o' && rtc_config_block[0x2] == 'c' && rtc_config_block[0x3] == 0x0 && cksum[0] == rtc_config_block[0x2a] && cksum[1] == rtc_config_block[0x2b]) { DEBUGF( "load_config_buffer: header & checksum test ok\n" ); return 0; /* header and checksum is valid */ } /* if checksum is not valid, initialize the config buffer to all-unused */ DEBUGF( "load_config_buffer: header & checksum test failed\n" ); init_config_buffer(); return 1; } #else /* HAVE_RTC */ /* * save the config block buffer on the 61 Sector */ static int save_config_buffer( void ) { DEBUGF( "save_config_buffer()\n" ); /* update the checksum in the end of the block before saving */ calculate_config_checksum(rtc_config_block + sizeof(rtc_config_block) - 2); #ifdef SAVE_TO_DISK if(battery_level_safe()) return !ata_write_sectors( 61, 1, rtc_config_block); else return -1; #else return 0; #endif } /* * load the config block buffer from disk */ static int load_config_buffer( void ) { #ifdef SAVE_TO_DISK unsigned char cksum[2]; DEBUGF( "load_config_buffer()\n" ); ata_read_sectors( 61, 1, rtc_config_block); /* calculate the checksum, check it and the header */ calculate_config_checksum(cksum); if (rtc_config_block[0x0] == 'R' && rtc_config_block[0x1] == 'o' && rtc_config_block[0x2] == 'c' && rtc_config_block[0x3] == 0x0 && cksum[0] == rtc_config_block[0x2a] && cksum[1] == rtc_config_block[0x2b]) { DEBUGF( "load_config_buffer: header & checksum test ok\n" ); return 0; /* header and checksum is valid */ } #endif /* if checksum is not valid, initialize the config buffer to all-unused */ DEBUGF( "load_config_buffer: header & checksum test failed\n" ); init_config_buffer(); return 1; } #endif /* HAVE_RTC */ /* * persist all runtime user settings to disk or RTC RAM */ int settings_save( void ) { DEBUGF( "settings_save()\n" ); /* update the config block buffer with current settings and save the block in the RTC */ rtc_config_block[0x4] = (unsigned char)global_settings.volume; rtc_config_block[0x5] = (unsigned char)global_settings.balance; rtc_config_block[0x6] = (unsigned char)global_settings.bass; rtc_config_block[0x7] = (unsigned char)global_settings.treble; rtc_config_block[0x8] = (unsigned char)global_settings.loudness; rtc_config_block[0x9] = (unsigned char)global_settings.bass_boost; rtc_config_block[0xa] = (unsigned char)global_settings.contrast; rtc_config_block[0xb] = (unsigned char)global_settings.backlight; rtc_config_block[0xc] = (unsigned char)global_settings.poweroff; rtc_config_block[0xd] = (unsigned char)global_settings.resume; rtc_config_block[0xe] = (unsigned char) ((global_settings.playlist_shuffle & 1) | ((global_settings.mp3filter & 1) << 1) | ((global_settings.sort_case & 1) << 2) | ((global_settings.discharge & 1) << 3) | ((global_settings.statusbar & 1) << 4)); rtc_config_block[0xf] = (unsigned char) ((global_settings.scroll_speed << 3) | (global_settings.wps_display & 7)); rtc_config_block[0x11] = (unsigned char)global_settings.avc; rtc_config_block[0x12] = (unsigned char)global_settings.contrast; memcpy(&rtc_config_block[0x24], &global_settings.total_uptime, 4); if(save_config_buffer()) { lcd_clear_display(); #ifdef HAVE_LCD_CHARCELLS lcd_puts(0, 0, "Save failed"); lcd_puts(0, 1, "Batt. low?"); #else lcd_puts(4, 2, "Save failed"); lcd_puts(2, 4, "Is battery low?"); lcd_update(); #endif sleep(HZ*2); return -1; } return 0; } /* * load settings from disk or RTC RAM */ void settings_load(void) { unsigned char c; DEBUGF( "reload_all_settings()\n" ); /* populate settings with default values */ settings_reset(); /* load the buffer from the RTC (resets it to all-unused if the block is invalid) and decode the settings which are set in the block */ if (!load_config_buffer()) { if (rtc_config_block[0x4] != 0xFF) global_settings.volume = rtc_config_block[0x4]; if (rtc_config_block[0x5] != 0xFF) global_settings.balance = rtc_config_block[0x5]; if (rtc_config_block[0x6] != 0xFF) global_settings.bass = rtc_config_block[0x6]; if (rtc_config_block[0x7] != 0xFF) global_settings.treble = rtc_config_block[0x7]; if (rtc_config_block[0x8] != 0xFF) global_settings.loudness = rtc_config_block[0x8]; if (rtc_config_block[0x9] != 0xFF) global_settings.bass_boost = rtc_config_block[0x9]; if (rtc_config_block[0xa] != 0xFF) global_settings.contrast = rtc_config_block[0xa]; if (rtc_config_block[0xb] != 0xFF) global_settings.backlight = rtc_config_block[0xb]; if (rtc_config_block[0xc] != 0xFF) global_settings.poweroff = rtc_config_block[0xc]; if (rtc_config_block[0xd] != 0xFF) global_settings.resume = rtc_config_block[0xd]; if (rtc_config_block[0xe] != 0xFF) { global_settings.playlist_shuffle = rtc_config_block[0xe] & 1; global_settings.mp3filter = (rtc_config_block[0xe] >> 1) & 1; global_settings.sort_case = (rtc_config_block[0xe] >> 2) & 1; global_settings.discharge = (rtc_config_block[0xe] >> 3) & 1; global_settings.statusbar = (rtc_config_block[0xe] >> 4) & 1; } c = rtc_config_block[0xf] >> 3; if (c != 31) global_settings.scroll_speed = c; c = rtc_config_block[0xf] & 7; if (c != 7) global_settings.wps_display = c; if (rtc_config_block[0x11] != 0xFF) global_settings.avc = rtc_config_block[0x11]; if (rtc_config_block[0x12] != 0xff) global_settings.contrast = rtc_config_block[0x12]; if (rtc_config_block[0x24] != 0xFF) memcpy(&global_settings.total_uptime, &rtc_config_block[0x24], 4); } lcd_set_contrast(global_settings.contrast); lcd_scroll_speed(global_settings.scroll_speed); backlight_time(global_settings.backlight); #ifdef HAVE_CHARGE_CTRL charge_restart_level = global_settings.discharge ? CHARGE_RESTART_LO : CHARGE_RESTART_HI; #endif } /* * reset all settings to their default value */ void settings_reset(void) { DEBUGF( "settings_reset()\n" ); global_settings.volume = mpeg_sound_default(SOUND_VOLUME); global_settings.balance = DEFAULT_BALANCE_SETTING; global_settings.bass = mpeg_sound_default(SOUND_BASS); global_settings.treble = mpeg_sound_default(SOUND_TREBLE); global_settings.loudness = DEFAULT_LOUDNESS_SETTING; global_settings.bass_boost = DEFAULT_BASS_BOOST_SETTING; global_settings.avc = DEFAULT_AVC_SETTING; global_settings.contrast = DEFAULT_CONTRAST_SETTING; global_settings.poweroff = DEFAULT_POWEROFF_SETTING; global_settings.backlight = DEFAULT_BACKLIGHT_SETTING; global_settings.wps_display = DEFAULT_WPS_DISPLAY; global_settings.mp3filter = true; global_settings.sort_case = false; global_settings.statusbar = true; global_settings.loop_playlist = true; global_settings.playlist_shuffle = false; global_settings.discharge = 0; global_settings.total_uptime = 0; global_settings.scroll_speed = 8; } /* * dump the list of current settings */ void settings_display(void) { #ifdef DEBUG DEBUGF( "\nsettings_display()\n" ); DEBUGF( "\nvolume:\t\t%d\nbalance:\t%d\nbass:\t\t%d\ntreble:\t\t%d\nloudness:\t%d\nbass boost:\t%d\n", global_settings.volume, global_settings.balance, global_settings.bass, global_settings.treble, global_settings.loudness, global_settings.bass_boost ); DEBUGF( "contrast:\t%d\npoweroff:\t%d\nbacklight:\t%d\n", global_settings.contrast, global_settings.poweroff, global_settings.backlight ); #endif } void set_bool(char* string, bool* variable ) { bool done = false; int button; lcd_clear_display(); lcd_puts_scroll(0,0,string); while ( !done ) { lcd_puts(0, 1, *variable ? "on " : "off"); lcd_update(); button = button_get(true); switch ( button ) { #ifdef HAVE_RECORDER_KEYPAD case BUTTON_LEFT: #else case BUTTON_STOP: case BUTTON_MENU: #endif done = true; break; default: if(!(button & BUTTON_REL)) *variable = !*variable; break; } } lcd_stop_scroll(); } void set_int(char* string, char* unit, int* variable, void (*function)(int), int step, int min, int max ) { bool done = false; lcd_clear_display(); lcd_puts_scroll(0,0,string); while (!done) { char str[32]; snprintf(str,sizeof str,"%d %s ", *variable, unit); lcd_puts(0,1,str); lcd_update(); switch( button_get(true) ) { #ifdef HAVE_RECORDER_KEYPAD case BUTTON_UP: case BUTTON_UP | BUTTON_REPEAT: #else case BUTTON_RIGHT: case BUTTON_RIGHT | BUTTON_REPEAT: #endif *variable += step; if(*variable > max ) *variable = max; break; #ifdef HAVE_RECORDER_KEYPAD case BUTTON_DOWN: case BUTTON_DOWN | BUTTON_REPEAT: #else case BUTTON_LEFT: case BUTTON_LEFT | BUTTON_REPEAT: #endif *variable -= step; if(*variable < min ) *variable = min; break; #ifdef HAVE_RECORDER_KEYPAD case BUTTON_LEFT: #else case BUTTON_STOP: case BUTTON_MENU: #endif done = true; break; } if ( function ) function(*variable); } lcd_stop_scroll(); } void set_option(char* string, int* variable, char* options[], int numoptions ) { bool done = false; lcd_clear_display(); lcd_puts_scroll(0,0,string); while ( !done ) { lcd_puts(0, 1, options[*variable]); lcd_update(); switch ( button_get(true) ) { #ifdef HAVE_RECORDER_KEYPAD case BUTTON_UP: case BUTTON_UP | BUTTON_REPEAT: #else case BUTTON_RIGHT: case BUTTON_RIGHT | BUTTON_REPEAT: #endif if ( *variable < (numoptions-1) ) (*variable)++; break; #ifdef HAVE_RECORDER_KEYPAD case BUTTON_DOWN: case BUTTON_DOWN | BUTTON_REPEAT: #else case BUTTON_LEFT: case BUTTON_LEFT | BUTTON_REPEAT: #endif if ( *variable > 0 ) (*variable)--; break; #ifdef HAVE_RECORDER_KEYPAD case BUTTON_LEFT: #else case BUTTON_STOP: case BUTTON_MENU: #endif done = true; break; } } lcd_stop_scroll(); } #ifdef HAVE_RTC #define INDEX_X 0 #define INDEX_Y 1 #define INDEX_WIDTH 2 char *dayname[]={"Sun","Mon","Tue","Wed","Thu","Fri","Sat"}; char *monthname[]={"Jan","Feb","Mar","Apr","May","Jun","Jul","Aug","Sep","Oct","Nov","Dec"}; char cursor[][3]={{0, 1, 2}, {3, 1, 2}, {6, 1, 2}, {4, 2, 4}, {9, 2, 3}, {13, 2, 2}}; char daysinmonth[]={31,28,31,30,31,30,31,31,30,31,30,31}; void set_time(char* string, int timedate[]) { bool done = false; int button; int min=0,steps=0; int cursorpos=0; int lastcursorpos=!cursorpos; unsigned char buffer[19]; int realyear; int julianday; int i; lcd_clear_display(); lcd_puts_scroll(0,0,string); while ( !done ) { /* calculate the number of days in febuary */ realyear=timedate[3]+2000; if((realyear%4==0 && !(realyear%100 == 0)) || realyear%400 == 0) /* for february depends on year */ daysinmonth[1]=29; else daysinmonth[1]=28; /* fix day if month or year changed */ timedate[5]=timedate[5]