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raw | patch | inline | side by side (parent: aa8c3c2)
raw | patch | inline | side by side (parent: aa8c3c2)
author | Florian Forster <octo@collectd.org> | |
Fri, 12 Sep 2014 15:06:53 +0000 (17:06 +0200) | ||
committer | Florian Forster <octo@collectd.org> | |
Sat, 13 Sep 2014 08:07:46 +0000 (10:07 +0200) |
src/battery.c | patch | blob | history |
diff --git a/src/battery.c b/src/battery.c
index f7b87f885c146e95ada7b8313e16967f8428e79a..62c2964bcffb71544c9aa341206fa6e84bfa0b32 100644 (file)
--- a/src/battery.c
+++ b/src/battery.c
# error "No applicable input method."
#endif
-#define INVALID_VALUE 47841.29
-
#if HAVE_IOKIT_IOKITLIB_H || HAVE_IOKIT_PS_IOPOWERSOURCES_H
/* No global variables */
/* #endif HAVE_IOKIT_IOKITLIB_H || HAVE_IOKIT_PS_IOPOWERSOURCES_H */
#elif KERNEL_LINUX
# define PROC_PMU_PATH_FORMAT "/proc/pmu/battery_%i"
# define PROC_ACPI_PATH "/proc/acpi/battery"
+# define PROC_ACPI_FACTOR 0.001
# define SYSFS_PATH "/sys/class/power_supply"
+# define SYSFS_FACTOR 0.000001
#endif /* KERNEL_LINUX */
static _Bool report_percent = 0;
+static _Bool report_degraded = 0;
static void battery_submit2 (char const *plugin_instance, /* {{{ */
char const *type, char const *type_instance, gauge_t value)
battery_submit2 (plugin_instance, type, NULL, value);
} /* }}} void battery_submit */
+static void submit_capacity (char const *plugin_instance, /* {{{ */
+ gauge_t capacity_charged,
+ gauge_t capacity_full,
+ gauge_t capacity_design)
+{
+ if (report_percent && (capacity_charged > capacity_full))
+ return;
+ if (report_degraded && (capacity_full > capacity_design))
+ return;
+
+ if (report_percent)
+ {
+ gauge_t capacity_max;
+
+ if (report_degraded)
+ capacity_max = capacity_design;
+ else
+ capacity_max = capacity_full;
+
+ battery_submit2 (plugin_instance, "percent", "charged",
+ 100.0 * capacity_charged / capacity_max);
+ battery_submit2 (plugin_instance, "percent", "discharged",
+ 100.0 * (capacity_full - capacity_charged) / capacity_max);
+
+ if (report_degraded)
+ battery_submit2 (plugin_instance, "percent", "degraded",
+ 100.0 * (capacity_design - capacity_full) / capacity_max);
+ }
+ else if (report_degraded) /* && !report_percent */
+ {
+ battery_submit2 (plugin_instance, "capacity", "charged",
+ capacity_charged);
+ battery_submit2 (plugin_instance, "capacity", "discharged",
+ (capacity_full - capacity_charged));
+ battery_submit2 (plugin_instance, "capacity", "degraded",
+ (capacity_design - capacity_full));
+ }
+ else /* !report_percent && !report_degraded */
+ {
+ battery_submit (plugin_instance, "capacity", capacity_charged);
+ }
+} /* }}} void submit_capacity */
+
#if HAVE_IOKIT_PS_IOPOWERSOURCES_H || HAVE_IOKIT_IOKITLIB_H
static double dict_get_double (CFDictionaryRef dict, char *key_string) /* {{{ */
{
@@ -111,14 +155,14 @@ static double dict_get_double (CFDictionaryRef dict, char *key_string) /* {{{ */
if (key_obj == NULL)
{
DEBUG ("CFStringCreateWithCString (%s) failed.\n", key_string);
- return (INVALID_VALUE);
+ return (NAN);
}
if ((val_obj = CFDictionaryGetValue (dict, key_obj)) == NULL)
{
DEBUG ("CFDictionaryGetValue (%s) failed.", key_string);
CFRelease (key_obj);
- return (INVALID_VALUE);
+ return (NAN);
}
CFRelease (key_obj);
@@ -141,7 +185,7 @@ static double dict_get_double (CFDictionaryRef dict, char *key_string) /* {{{ */
else
{
DEBUG ("CFGetTypeID (val_obj) = %i", (int) CFGetTypeID (val_obj));
- return (INVALID_VALUE);
+ return (NAN);
}
return (val_double);
/* FIXME: Check if this is really an internal battery */
- if (*ret_charge == INVALID_VALUE)
+ if (isnan (*ret_charge))
{
/* This is the charge in percent. */
temp_double = dict_get_double (ps_dict,
kIOPSCurrentCapacityKey);
- if ((temp_double != INVALID_VALUE)
+ if (!isnan ((temp_double))
&& (temp_double >= 0.0)
&& (temp_double <= 100.0))
*ret_charge = temp_double;
}
- if (*ret_current == INVALID_VALUE)
+ if (isnan (*ret_current))
{
temp_double = dict_get_double (ps_dict,
kIOPSCurrentKey);
- if (temp_double != INVALID_VALUE)
+ if (!isnan (temp_double))
*ret_current = temp_double / 1000.0;
}
- if (*ret_voltage == INVALID_VALUE)
+ if (isnan (*ret_voltage))
{
temp_double = dict_get_double (ps_dict,
kIOPSVoltageKey);
- if (temp_double != INVALID_VALUE)
+ if (!isnan (temp_double))
*ret_voltage = temp_double / 1000.0;
}
}
# endif /* HAVE_IOKIT_PS_IOPOWERSOURCES_H */
# if HAVE_IOKIT_IOKITLIB_H
-static void get_via_generic_iokit (double *ret_charge, /* {{{ */
+static void get_via_generic_iokit (double *ret_capacity_full, /* {{{ */
+ double *ret_capacity_design,
double *ret_current,
double *ret_voltage)
{
{
bat_info_dict = (CFDictionaryRef) CFArrayGetValueAtIndex (bat_info_arry, bat_info_arry_pos);
- /* Design capacity available in "AbsoluteMaxCapacity" */
- if (*ret_charge == INVALID_VALUE)
+ if (isnan (*ret_capacity_full))
{
- temp_double = dict_get_double (bat_info_dict,
- "Capacity");
- if (temp_double != INVALID_VALUE)
- *ret_charge = temp_double / 1000.0;
+ temp_double = dict_get_double (bat_info_dict, "Capacity");
+ *ret_capacity_full = temp_double / 1000.0;
}
- if (*ret_current == INVALID_VALUE)
+ if (isnan (*ret_capacity_design))
{
- temp_double = dict_get_double (bat_info_dict,
- "Current");
- if (temp_double != INVALID_VALUE)
- *ret_current = temp_double / 1000.0;
+ temp_double = dict_get_double (bat_info_dict, "AbsoluteMaxCapacity");
+ *ret_capacity_design = temp_double / 1000.0;
}
- if (*ret_voltage == INVALID_VALUE)
+ if (isnan (*ret_current))
{
- temp_double = dict_get_double (bat_info_dict,
- "Voltage");
- if (temp_double != INVALID_VALUE)
- *ret_voltage = temp_double / 1000.0;
+ temp_double = dict_get_double (bat_info_dict, "Current");
+ *ret_current = temp_double / 1000.0;
+ }
+
+ if (isnan (*ret_voltage))
+ {
+ temp_double = dict_get_double (bat_info_dict, "Voltage");
+ *ret_voltage = temp_double / 1000.0;
}
}
static int battery_read (void) /* {{{ */
{
- double current = INVALID_VALUE; /* Current in A */
- double voltage = INVALID_VALUE; /* Voltage in V */
+ gauge_t current = NAN; /* Current in A */
+ gauge_t voltage = NAN; /* Voltage in V */
/* We only get the charged capacity as a percentage from
* IOPowerSources. IOKit, on the other hand, only reports the full
* capacity. We use the two to calculate the current charged capacity. */
- double charge_rel = INVALID_VALUE; /* Current charge in percent */
- double charge_abs = INVALID_VALUE; /* Total capacity */
+ gauge_t charge_rel = NAN; /* Current charge in percent */
+ gauge_t capacity_charged = NAN; /* Charged capacity */
+ gauge_t capacity_full = NAN; /* Total capacity */
+ gauge_t capacity_design = NAN; /* Full design capacity */
#if HAVE_IOKIT_PS_IOPOWERSOURCES_H
get_via_io_power_sources (&charge_rel, ¤t, &voltage);
#endif
#if HAVE_IOKIT_IOKITLIB_H
- get_via_generic_iokit (&charge_abs, ¤t, &voltage);
+ get_via_generic_iokit (&capacity_full, &capacity_design, ¤t, &voltage);
#endif
- if (charge_rel != INVALID_VALUE)
- {
- if (report_percent)
- battery_submit2 ("0", "percent", "charged", charge_rel);
- else if (charge_abs != INVALID_VALUE)
- battery_submit ("0", "charge", charge_abs * charge_rel / 100.0);
- }
- if (current != INVALID_VALUE)
+ capacity_charged = charge_rel * capacity_full / 100.0;
+ submit_capacity ("0", capacity_charged, capacity_full, capacity_design);
+
+ if (!isnan (current))
battery_submit ("0", "current", current);
- if (voltage != INVALID_VALUE)
+ if (!isnan (voltage))
battery_submit ("0", "voltage", voltage);
} /* }}} int battery_read */
/* #endif HAVE_IOKIT_IOKITLIB_H || HAVE_IOKIT_PS_IOPOWERSOURCES_H */
return (strtogauge (buffer, ret_value));
} /* }}} sysfs_file_to_gauge */
+static int read_sysfs_capacity (char const *dir, /* {{{ */
+ char const *power_supply,
+ char const *plugin_instance)
+{
+ gauge_t capacity_charged = NAN;
+ gauge_t capacity_full = NAN;
+ gauge_t capacity_design = NAN;
+ int status;
+
+ status = sysfs_file_to_gauge (dir, power_supply, "energy_now", &capacity_charged);
+ if (status != 0)
+ return (status);
+
+ status = sysfs_file_to_gauge (dir, power_supply, "energy_full", &capacity_full);
+ if (status != 0)
+ return (status);
+
+ status = sysfs_file_to_gauge (dir, power_supply, "energy_full_design", &capacity_design);
+ if (status != 0)
+ return (status);
+
+ submit_capacity (plugin_instance,
+ capacity_charged * SYSFS_FACTOR,
+ capacity_full * SYSFS_FACTOR,
+ capacity_design * SYSFS_FACTOR);
+ return (0);
+} /* }}} int read_sysfs_capacity */
+
static int read_sysfs_callback (char const *dir, /* {{{ */
char const *power_supply,
void *user_data)
plugin_instance = (*battery_index == 0) ? "0" : power_supply;
(*battery_index)++;
- if (report_percent)
- {
- gauge_t now = NAN;
- gauge_t max = NAN;
-
- if ((sysfs_file_to_gauge (dir, power_supply, "energy_now", &now) == 0)
- && (sysfs_file_to_gauge (dir, power_supply, "energy_full", &max) == 0))
- {
- v = 100.0 * now / max;
- battery_submit2 (plugin_instance, "percent", "charged", v);
- }
- }
- else if (sysfs_file_to_gauge (dir, power_supply, "energy_now", &v) == 0)
- battery_submit (plugin_instance, "charge", v / 1000000.0);
+ read_sysfs_capacity (dir, power_supply, plugin_instance);
if (sysfs_file_to_gauge (dir, power_supply, "power_now", &v) == 0)
{
if (discharging)
v *= -1.0;
- battery_submit (plugin_instance, "power", v / 1000000.0);
+ battery_submit (plugin_instance, "power", v * SYSFS_FACTOR);
}
if (sysfs_file_to_gauge (dir, power_supply, "voltage_now", &v) == 0)
- battery_submit (plugin_instance, "voltage", v / 1000000.0);
+ battery_submit (plugin_instance, "voltage", v * SYSFS_FACTOR);
#if 0
- if (sysfs_file_to_gauge (dir, power_supply, "energy_full_design", &v) == 0)
- battery_submit (plugin_instance, "charge", v / 1000000.0);
- if (sysfs_file_to_gauge (dir, power_supply, "energy_full", &v) == 0)
- battery_submit (plugin_instance, "charge", v / 1000000.0);
if (sysfs_file_to_gauge (dir, power_supply, "voltage_min_design", &v) == 0)
- battery_submit (plugin_instance, "voltage", v / 1000000.0);
+ battery_submit (plugin_instance, "voltage", v * SYSFS_FACTOR);
#endif
return (0);
static int read_acpi_full_capacity (char const *dir, /* {{{ */
char const *power_supply,
- gauge_t *ret_capacity)
+ gauge_t *ret_capacity_full,
+ gauge_t *ret_capacity_design)
+
{
char filename[PATH_MAX];
char buffer[1024];
/* last full capacity: 40090 mWh */
while (fgets (buffer, sizeof (buffer), fh) != NULL)
{
+ gauge_t *value_ptr;
+ int fields_num;
char *fields[8];
- int numfields;
- int status;
+ int index;
- if (strncmp ("last full capacity:", buffer, strlen ("last full capacity:")) != 0)
+ if (strncmp ("last full capacity:", buffer, strlen ("last full capacity:")) == 0)
+ {
+ value_ptr = ret_capacity_full;
+ index = 3;
+ }
+ else if (strncmp ("design capacity:", buffer, strlen ("design capacity:")) == 0)
+ {
+ value_ptr = ret_capacity_design;
+ index = 2;
+ }
+ else
+ {
continue;
+ }
- numfields = strsplit (buffer, fields, STATIC_ARRAY_SIZE (fields));
- if (numfields < 5)
+ fields_num = strsplit (buffer, fields, STATIC_ARRAY_SIZE (fields));
+ if (fields_num <= index)
continue;
- status = strtogauge (fields[3], ret_capacity);
- fclose (fh);
- return (status);
+ strtogauge (fields[index], value_ptr);
}
fclose (fh);
- return (ENOENT);
+ return (0);
} /* }}} int read_acpi_full_capacity */
static int read_acpi_callback (char const *dir, /* {{{ */
gauge_t power = NAN;
gauge_t voltage = NAN;
- gauge_t charge = NAN;
+ gauge_t capacity_charged = NAN;
+ gauge_t capacity_full = NAN;
+ gauge_t capacity_design = NAN;
_Bool charging = 0;
_Bool is_current = 0;
}
else if ((strcmp (fields[0], "remaining") == 0)
&& (strcmp (fields[1], "capacity:") == 0))
- strtogauge (fields[2], &charge);
+ strtogauge (fields[2], &capacity_charged);
else if ((strcmp (fields[0], "present") == 0)
&& (strcmp (fields[1], "voltage:") == 0))
strtogauge (fields[2], &voltage);
plugin_instance = (*battery_index == 0) ? "0" : power_supply;
(*battery_index)++;
- if (report_percent)
- {
- gauge_t full_capacity;
- int status;
+ read_acpi_full_capacity (dir, power_supply, &capacity_full, &capacity_design);
- status = read_acpi_full_capacity (dir, power_supply, &full_capacity);
- if (status == 0)
- battery_submit2 (plugin_instance, "percent", "charged",
- 100.0 * charge / full_capacity);
- }
- else
- {
- battery_submit (plugin_instance, "charge", charge / 1000.0);
- }
+ submit_capacity (plugin_instance,
+ capacity_charged * PROC_ACPI_FACTOR,
+ capacity_full * PROC_ACPI_FACTOR,
+ capacity_design * PROC_ACPI_FACTOR);
battery_submit (plugin_instance,
is_current ? "current" : "power",
- power / 1000.0);
- battery_submit (plugin_instance, "voltage", voltage / 1000.0);
+ power * PROC_ACPI_FACTOR);
+ battery_submit (plugin_instance, "voltage", voltage * PROC_ACPI_FACTOR);
return 0;
} /* }}} int read_acpi_callback */
if (strcasecmp ("ValuesPercentage", child->key) == 0)
cf_util_get_boolean (child, &report_percent);
+ else if (strcasecmp ("ReportDegraded", child->key) == 0)
+ cf_util_get_boolean (child, &report_degraded);
else
WARNING ("battery plugin: Ignoring unknown "
"configuration option \"%s\".",