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#ifndef HAVE_CPUTEMP2MAXFREQ_H
#define HAVE_CPUTEMP2MAXFREQ_H

// Valid frequencies are between 100MHz and 10GHz
#define VALID_FREQ_MIN 100000
#define VALID_FREQ_MAX 10000000

// Valid frequency steps are between 1MHz and 1GHz
#define VALID_STEP_MIN 1000
#define VALID_STEP_MAX 1000000

// Valid temperatures are between 10 and 150 degrees
#define VALID_TEMP_MIN 10000
#define VALID_TEMP_MAX 150000

// Valid intervals are between 1 and 30
#define VALID_INTERVAL_MIN 1
#define VALID_INTERVAL_MAX 30

struct s_cpudata {
 long int min_freq;  // CPU's minimum frequency
 long int max_freq;  // CPU's maximum frequency
 long int cur_freq;  // CPU's current frequency
 long int cur_temp;  // CPU's current temperature
 long int scale_max; // Governor's maximum scaling frequency
};

struct s_config {
 char     name[255];       // Name of this program
 char     governor[255];   // The governor to use
 long int max_temp;        // The target temperature
 char     temp_input[255]; // Input file to read the temperature
 long int freq_step;       // Step size to increase/decrease CPU frequency
 long int fallback_freq;   // CPU frquency to set if we fail to protect hardware
 unsigned int interval;    // Time interval to check CPU temperature
 char     logger_name[10]; // Name of the logging function
 void   (*logger)(char *,...); // Pointer to the logging function
 char     log_data;        // Option to log measurement data
 char     csvlog[255];     // CSV logfile
 char     csvoverwrite;    // Overwrite CSV file if it already exists
 FILE    *csvfile;         // File handle for CSV file
};

#endif