6961aed640
Source obtained from http://sourceforge.net/projects/wmacpi/files/. 2003 November 23 1.99 Finally claimed the wmacpi name as my own . . . Renamed wmacpi-ng and acpi-ng, renamed the header files, fixed up the makefile. For the Debian package, also made compilation of the command line tool optional, defaulting to not building it. This is because after the renaming, my acpi clashes with the acpi package that's already in Debian. The command line functionality is now accessible via the -w option to wmacpi. This is wmacpi 1.99, so that I can have a release packaged and in Debian before going to 2.0, so that any bugs that are left can be found by all the extra users.
523 lines
13 KiB
C
523 lines
13 KiB
C
#define _GNU_SOURCE
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#include <stdio.h>
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#include <string.h>
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#include <ctype.h>
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#include <stdlib.h>
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#include <sys/types.h>
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#include <dirent.h>
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#include "libacpi.h"
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extern char *state[];
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extern global_t *globals;
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/* temp buffer */
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char buf[512];
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/* local proto */
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int acpi_get_design_cap(int batt);
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/* initialise the batteries */
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int init_batteries(void)
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{
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DIR *battdir;
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struct dirent *batt;
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char *name, *tmp1, *tmp2;
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char *names[MAXBATT];
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int i, j;
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/* now enumerate batteries */
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batt_count = 0;
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battdir = opendir("/proc/acpi/battery");
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if (battdir == NULL) {
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perr("No batteries or ACPI not supported\n");
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return 1;
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}
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while ((batt = readdir(battdir))) {
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/* there's a serious problem with this code when there's
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* more than one battery: the readdir won't return the
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* entries in sorted order, so battery one won't
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* necessarily be the first one returned. So, we need
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* to sort them ourselves before adding them to the
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* batteries array. */
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name = batt->d_name;
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/* skip . and .. */
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if (!strncmp(".", name, 1) || !strncmp("..", name, 2))
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continue;
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names[batt_count] = strdup(name);
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batt_count++;
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}
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closedir(battdir);
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/* A nice quick insertion sort, ala CLR. */
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for (i = 1; i < batt_count; i++) {
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tmp1 = names[i];
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j = i - 1;
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while ((j >= 0) && ((strcmp(tmp1, names[j])) < 0)) {
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tmp2 = names[j+1];
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names[j+1] = names[j];
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names[j] = tmp2;
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}
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}
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for (i = 0; i < batt_count; i++) {
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snprintf(batteries[i].name, MAX_NAME, "%s", names[i]);
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snprintf(batteries[i].info_file, MAX_NAME,
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"/proc/acpi/battery/%s/info", names[i]);
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snprintf(batteries[i].state_file, MAX_NAME,
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"/proc/acpi/battery/%s/state", names[i]);
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pdebug("battery detected at %s\n", batteries[i].info_file);
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pinfo("found battery %s\n", names[i]);
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}
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/* tell user some info */
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pdebug("%d batteries detected\n", batt_count);
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pinfo("libacpi: found %d batter%s\n", batt_count,
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(batt_count == 1) ? "y" : "ies");
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return 0;
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}
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/* the actual name of the subdirectory under ac_adapter may
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* be anything, so we need to read the directory and use the
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* name we find there. */
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int init_ac_adapters(void)
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{
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DIR *acdir;
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struct dirent *adapter;
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adapter_t *ap = &globals->adapter;
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char *name;
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acdir = opendir("/proc/acpi/ac_adapter");
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if (acdir == NULL) {
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pfatal("Unable to open /proc/acpi/ac_adapter -"
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" are you sure this system supports ACPI?\n");
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return 1;
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}
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name = NULL;
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while ((adapter = readdir(acdir)) != NULL) {
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name = adapter->d_name;
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if (!strncmp(".", name, 1) || !strncmp("..", name, 2))
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continue;
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pdebug("found adapter %s\n", name);
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}
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/* we /should/ only see one filename other than . and .. so
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* we'll just use the last value name acquires . . . */
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ap->name = strdup(name);
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snprintf(ap->state_file, MAX_NAME, "/proc/acpi/ac_adapter/%s/state",
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ap->name);
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pinfo("libacpi: found ac adapter %s\n", ap->name);
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return 0;
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}
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/* see if we have ACPI support and check version */
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int power_init(void)
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{
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FILE *acpi;
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char buf[4096];
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int acpi_ver = 0;
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int retval;
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if (!(acpi = fopen("/proc/acpi/info", "r"))) {
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pfatal("This system does not support ACPI\n");
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return 1;
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}
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/* okay, now see if we got the right version */
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fread(buf, 4096, 1, acpi);
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acpi_ver = strtol(buf + 25, NULL, 10);
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pinfo("ACPI version detected: %d\n", acpi_ver);
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if (acpi_ver < 20020214) {
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pfatal("This version requires ACPI subsystem version 20020214\n");
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fclose(acpi);
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return 1;
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}
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/* yep, all good */
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fclose(acpi);
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if (!(retval = init_batteries()))
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retval = init_ac_adapters();
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return retval;
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}
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char *get_value(char *string)
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{
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char *retval;
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int i;
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if (string == NULL)
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return NULL;
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i = 0;
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while (string[i] != ':') i++;
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while (!isalnum(string[i])) i++;
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retval = (string + i);
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return retval;
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}
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power_state_t get_power_status(void)
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{
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FILE *file;
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char buf[1024];
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char *val;
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adapter_t *ap = &globals->adapter;
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if ((file = fopen(ap->state_file, "r")) == NULL) {
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snprintf(buf, 1024, "Could not open state file %s", ap->state_file);
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perror(buf);
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return PS_ERR;
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}
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fgets(buf, 1024, file);
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fclose(file);
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val = get_value(buf);
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if ((strncmp(val, "on-line", 7)) == 0)
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return AC;
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else
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return BATT;
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}
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int get_battery_info(int batt_no)
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{
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FILE *file;
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battery_t *info = &batteries[batt_no];
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char buf[1024];
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char *entry;
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int buflen;
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char *val;
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if ((file = fopen(info->info_file, "r")) == NULL) {
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/* this is cheating, but string concatenation should work . . . */
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pfatal("Could not open %s:", info->info_file );
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perror(NULL);
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return 0;
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}
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/* grab the contents of the file */
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buflen = fread(buf, sizeof(buf), 1, file);
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fclose(file);
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/* check to see if battery is present */
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entry = strstr(buf, "present:");
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val = get_value(entry);
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if ((strncmp(val, "yes", 3)) == 0) {
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info->present = 1;
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} else {
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pinfo("Battery %s not present\n", info->name);
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info->present = 0;
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return 0;
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}
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/* get design capacity
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* note that all these integer values can also contain the
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* string 'unknown', so we need to check for this. */
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entry = strstr(buf, "design capacity:");
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val = get_value(entry);
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if (val[0] == 'u')
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info->design_cap = -1;
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else
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info->design_cap = strtoul(val, NULL, 10);
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/* get last full capacity */
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entry = strstr(buf, "last full capacity:");
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val = get_value(entry);
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if (val[0] == 'u')
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info->last_full_cap = -1;
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else
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info->last_full_cap = strtoul(val, NULL, 10);
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/* get design voltage */
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entry = strstr(buf, "design voltage:");
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val = get_value(entry);
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if (val[0] == 'u')
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info->design_voltage = -1;
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else
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info->design_voltage = strtoul(val, NULL, 10);
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if ((file = fopen(info->state_file, "r")) == NULL) {
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perr("Could not open %s:", info->state_file );
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perror(NULL);
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return 0;
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}
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/* grab the file contents */
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buflen = fread(buf, sizeof(buf), 1, file);
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fclose(file);
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/* check to see if battery is present */
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entry = strstr(buf, "present:");
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val = get_value(entry);
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if ((strncmp(val, "yes", 3)) == 0) {
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info->present = 1;
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} else {
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info->present = 0;
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perr("Battery %s no longer present\n", info->name);
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return 0;
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}
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/* get capacity state
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* note that this has only two values (at least, in the 2.4.21-rc2
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* source code) - ok and critical. */
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entry = strstr(buf, "capacity state:");
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val = get_value(entry);
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if (val[0] == 'u')
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info->capacity_state = CS_ERR;
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else if ((strncmp(val, "ok", 2)) == 0)
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info->capacity_state = OK;
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else
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info->capacity_state = CRITICAL;
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/* get charging state */
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entry = strstr(buf, "charging state:");
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val = get_value(entry);
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if (val[0] == 'u')
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info->charge_state = CH_ERR;
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else if ((strncmp(val, "discharging", 10)) == 0)
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info->charge_state = DISCHARGE;
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else
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info->charge_state = CHARGE;
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/* get current rate of burn
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* note that if it's on AC, this will report 0 */
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entry = strstr(buf, "present rate:");
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val = get_value(entry);
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if (val[0] == 'u') {
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info->present_rate = -1;
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} else {
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int rate;
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rate = strtoul(val, NULL, 10);
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if (rate != 0)
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info->present_rate = rate;
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}
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/* get remaining capacity */
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entry = strstr(buf, "remaining capacity:");
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val = get_value(entry);
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if (val[0] == 'u')
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info->remaining_cap = -1;
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else
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info->remaining_cap = strtoul(val, NULL, 10);
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/* get current voltage */
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entry = strstr(buf, "present voltage:");
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val = get_value(entry);
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if (val[0] == 'u')
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info->present_voltage = -1;
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else
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info->present_voltage = strtoul(val, NULL, 10);
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return 1;
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}
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/*
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* 2003-7-1.
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* In order to make this code more convenient for things other than
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* just plain old wmacpi-ng I'm breaking the basic functionality
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* up into several chunks: collecting and collating info for a
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* single battery, calculating the global info (such as rtime), and
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* some stuff to provide a similar interface to now.
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*/
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/* calculate the percentage remaining, using the values of
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* remaining capacity and last full capacity, as outlined in
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* the ACPI spec v2.0a, section 3.9.3. */
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static int calc_remaining_percentage(int batt)
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{
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float rcap, lfcap;
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battery_t *binfo;
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int retval;
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binfo = &batteries[batt];
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rcap = (float)binfo->remaining_cap;
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lfcap = (float)binfo->last_full_cap;
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/* we use -1 to indicate that the value is unknown . . . */
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if (rcap < 0) {
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perr("unknown percentage value\n");
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retval = -1;
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} else {
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if (lfcap <= 0)
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lfcap = 1;
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retval = (int)((rcap/lfcap) * 100.0);
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pdebug("percent: %d\n", retval);
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}
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return retval;
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}
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/* calculate remaining time until the battery is charged.
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* when charging, the battery state file reports the
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* current being used to charge the battery. We can use
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* this and the remaining capacity to work out how long
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* until it reaches the last full capacity of the battery.
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* XXX: make sure this is actually portable . . . */
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static int calc_charge_time(int batt)
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{
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float rcap, lfcap;
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battery_t *binfo;
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int charge_time = 0;
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binfo = &batteries[batt];
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if (binfo->charge_state == CHARGE) {
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if (binfo->present_rate == -1) {
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perr("unknown present rate\n");
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charge_time = -1;
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} else {
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lfcap = (float)binfo->last_full_cap;
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rcap = (float)binfo->remaining_cap;
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charge_time = (int)(((lfcap - rcap)/binfo->present_rate) * 60.0);
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}
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} else
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if (binfo->charge_time)
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charge_time = 0;
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return charge_time;
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}
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void acquire_batt_info(int batt)
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{
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battery_t *binfo;
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adapter_t *ap = &globals->adapter;
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get_battery_info(batt);
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binfo = &batteries[batt];
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if (!binfo->present) {
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binfo->percentage = 0;
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binfo->valid = 0;
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binfo->charge_time = 0;
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globals->rtime = 0;
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return;
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}
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binfo->percentage = calc_remaining_percentage(batt);
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/* set the battery's capacity state, based (at present) on some
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* guesstimated values: more than 75% == HIGH, 25% to 75% MED, and
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* less than 25% is LOW. Less than globals->crit_level is CRIT. */
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if (binfo->percentage == -1)
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binfo->state = BS_ERR;
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if (binfo->percentage < globals->crit_level)
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binfo->state = CRIT;
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else if (binfo->percentage > 75)
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binfo->state = HIGH;
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else if (binfo->percentage > 25)
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binfo->state = MED;
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else
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binfo->state = LOW;
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/* we need to /know/ that we've got a valid state for the
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* globals->power value . . . .*/
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ap->power = get_power_status();
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if ((ap->power != AC) && (binfo->charge_state == DISCHARGE)) {
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/* we're not on power, and not charging. So we might as well
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* check if we're at a critical battery level, and calculate
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* other interesting stuff . . . */
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if (binfo->capacity_state == CRITICAL) {
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pinfo("Received critical battery status");
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ap->power = HARD_CRIT;
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}
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}
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binfo->charge_time = calc_charge_time(batt);
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/* and finally, we tell anyone who wants to use this information
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* that it's now valid . . .*/
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binfo->valid = 1;
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}
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void acquire_all_batt_info(void)
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{
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int i;
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for(i = 0; i < batt_count; i++)
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acquire_batt_info(i);
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}
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void acquire_global_info(void)
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{
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int i;
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int rtime;
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float rcap = 0;
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float rate = 0;
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battery_t *binfo;
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adapter_t *ap = &globals->adapter;
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static float rate_samples[SAMPLES];
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static int j = 0;
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static int sample_count = 0;
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static int n = 0;
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/* calculate the time remaining, using the battery's remaining
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* capacity and the reported burn rate (3.9.3).
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* For added accuracy, we average the value over the last
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* SAMPLES number of calls, or for anything less than this we
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* simply report the raw number. */
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/* XXX: this needs to correctly handle the case where
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* any of the values used is unknown (which we flag using
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* -1). */
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for (i = 0; i < batt_count; i++) {
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binfo = &batteries[i];
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if (binfo->present && binfo->valid) {
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rcap += (float)binfo->remaining_cap;
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rate += (float)binfo->present_rate;
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}
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}
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rate_samples[j] = rate;
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j++, sample_count++;
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j = j % SAMPLES;
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/* for the first SAMPLES number of calls we calculate the
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* average based on sample_count, then we use SAMPLES to
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* calculate the rolling average. */
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/* when this fails, n should be equal to SAMPLES. */
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if (sample_count < SAMPLES)
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n++;
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for (i = 0, rate = 0; i < n; i++) {
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/* if any of our samples are invalid, we drop
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* straight out, and flag our unknown values. */
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if (rate_samples[i] < 0) {
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rate = -1;
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rtime = -1;
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goto out;
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}
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rate += rate_samples[i];
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}
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rate = rate/(float)n;
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if ((rcap < 1) || (rate < 1)) {
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rtime = 0;
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goto out;
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}
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if (rate <= 0)
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rate = 1;
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/* time remaining in minutes */
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rtime = (int)((rcap/rate) * 60.0);
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if(rtime <= 0)
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rtime = 0;
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out:
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pdebug("time rem: %d\n", rtime);
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globals->rtime = rtime;
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/* get the power status.
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* note that this is actually reported seperately from the
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* battery info, under /proc/acpi/ac_adapter/AC/state */
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ap->power = get_power_status();
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}
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void acquire_all_info(void)
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{
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acquire_all_batt_info();
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acquire_global_info();
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}
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