#ifndef POWER_MANAGMENT_H #define POWER_MANAGMENT_H #include // io controls enum { // ioctl response with kMagicFreqID IDENTIFY_DEVICE = B_DEVICE_OP_CODES_END + 20001, // CPU Frequence: // get a list of freq_info, the list is terminated with a element with // frequency = 0 GET_CPU_FREQ_STATES = B_DEVICE_OP_CODES_END + 20005, // get and set a freq_info GET_CURENT_CPU_FREQ_STATE, SET_CPU_FREQ_STATE, // start watching for frequency changes, ioctl blocks until the frequency // has changed WATCH_CPU_FREQ, // stop all watching ioctl, ioctl return B_ERROR STOP_WATCHING_CPU_FREQ, GET_BATTERY_INFO, GET_EXTENDED_BATTERY_INFO, WATCH_BATTERY, STOP_WATCHING_BATTERY }; // CPU Frequence: // magic id returned by IDENTIFY_DEVICE const uint32 kMagicFreqID = 48921; #define MAX_CPU_FREQUENCY_STATES 10 typedef struct { uint16 frequency; // [Mhz] uint16 volts; uint16 id; int power; } freq_info; // ACPI Battery: // magic id returned by IDENTIFY_DEVICE const uint32 kMagicACPIBatteryID = 17822; #define BATTERY_DISCHARGING 0x01 #define BATTERY_CHARGING 0x02 #define BATTERY_CRITICAL_STATE 0x04 typedef struct { int state; int current_rate; int capacity; int voltage; } acpi_battery_info; typedef struct { int power_unit; int design_capacity; int last_full_charge; int technology; int design_voltage; int design_capacity_warning; int design_capacity_low; int capacity_granularity_1; int capacity_granularity_2; char model_number[32]; char serial_number[32]; char type[32]; char oem_info[32]; } acpi_extended_battery_info; #endif