dockapps/wmbattery/envsys.c

#include <sys/envsys.h>
#include <prop/proplib.h>
#include <unistd.h>
#include <string.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include "envsys.h"

#define _DEV_SYSMON "/dev/sysmon"
#define ACPIBAT_FMT "acpibat%d"

int envsys_supported(void)
{
   return 1; /* XXX */
}

prop_array_t
get_battery (char * battery_name)
{
    prop_dictionary_t sys_dict;
    prop_array_t bat_arr;
    int smfd;

    if (battery_name == NULL) return NULL;

    smfd = open(_DEV_SYSMON, O_RDONLY);
    if (smfd == -1) return NULL;

    if (prop_dictionary_recv_ioctl(smfd,
                                   ENVSYS_GETDICTIONARY,
                                   &sys_dict) != 0)
    {
        return NULL;
    }

    close(smfd);

    bat_arr = prop_dictionary_get(sys_dict, battery_name);
    if (bat_arr == NULL) return NULL;

    // XXX: i think this is how the ref counting works?
    //      probably should look into that
    prop_object_retain (bat_arr);
    prop_object_release (sys_dict);

    return bat_arr;
}

bool
stat_is_valid (prop_dictionary_t stat)
{
    prop_string_t strval;

    if (stat == NULL) return false;

    strval = prop_dictionary_get (stat, "state");
    if (strval == NULL) return false;
    

    return prop_string_equals_cstring (strval, "valid");
}

int64_t
handle_stat (prop_dictionary_t stat,
             char * key)
{
    prop_number_t numval;

    if (stat == NULL || key == NULL) return -1;

    numval = (prop_number_t) prop_dictionary_get (stat, key);
    if (numval == NULL) return -1;

    return prop_number_integer_value (numval);
}

int
envsys_read (int battery,
             apm_info *info)
{
    prop_object_iterator_t iter;
    prop_dictionary_t id;
    prop_string_t desc;
    prop_array_t bat_info;
    bool is_present = false;
    int64_t charge_rate = 0,
            max_charge = 0,
            cur_charge = 0,
            warn_charge = 0,
            crit_charge = 0;
    char bat_name[] = ACPIBAT_FMT;
    int bat_id = battery - 1;

    if (info == NULL || (battery - 1 < 0)) return -1;

    info->battery_flags = 0;
    info->using_minutes = 1;

    snprintf (bat_name, strlen (ACPIBAT_FMT), ACPIBAT_FMT, bat_id);

    bat_info = get_battery (bat_name);
    if (bat_info == NULL) return -1;

    iter = prop_array_iterator (bat_info);
    while ((id = (prop_dictionary_t) prop_object_iterator_next (iter)) != NULL)
    {
        desc = (prop_string_t) prop_dictionary_get (id, "description");
        if (desc == NULL) continue;
        if (prop_string_equals_cstring (desc, "charging"))
        {
            info->ac_line_status = handle_stat (id, "cur-value");
        } else if (prop_string_equals_cstring (desc, "charge")) {
            cur_charge = handle_stat (id, "cur-value");
            max_charge = handle_stat (id, "max-value");
            warn_charge = handle_stat (id, "warning-capacity");
            crit_charge = handle_stat (id, "critical-capacity");
        } else if (prop_string_equals_cstring (desc, "charge rate")) {
            if (stat_is_valid (id)) charge_rate = handle_stat (id, "cur-value");
        } else if (prop_string_equals_cstring (desc, "discharge rate")) {
            if (stat_is_valid (id)) charge_rate = handle_stat (id, "cur-value");
        } else if (prop_string_equals_cstring (desc, "present")) {
            is_present = (handle_stat (id, "cur-value") == 1);
        }
    }
    prop_object_iterator_release (iter);
    prop_object_release (bat_info);

    if (max_charge > 1) {
        info->battery_percentage = ( cur_charge * 100 ) / max_charge;
        if (info->battery_percentage > 100) info->battery_percentage = 100;
    } else {
        info->battery_percentage = BATTERY_PERCENTAGE_UNKNOWN;
    }

    if (info->ac_line_status) {
        info->battery_status = BATTERY_STATUS_CHARGING;
        /* if charge_rate == 0, then it was either marked invalid or we're charging
         * at 0Wh (either way, we're not charging) */
        if (charge_rate > 0) {
            info->battery_flags = info->battery_flags | BATTERY_FLAGS_CHARGING;
        }
    } else {
        if (cur_charge < crit_charge) {
            info->battery_status = BATTERY_STATUS_CRITICAL;
        } else if (cur_charge < warn_charge) {
            info->battery_status = BATTERY_STATUS_LOW;
        } else {
            info->battery_status = BATTERY_STATUS_HIGH;
        }
    }

    if (!is_present) {
        info->battery_percentage = 0;
        info->battery_time = 0;
        info->battery_status = BATTERY_STATUS_ABSENT;
    }

    // calculate time
    if (charge_rate == 0) {
        info->battery_time = BATTERY_TIME_UNKNOWN;
    } else {
        info->battery_time = ( (max_charge - cur_charge) * 60) / charge_rate;
    }

    return 0;
}