// // Copyright (c) 1997, 2006 by Mike Romberg ( mike.romberg@noaa.gov ) // // This file may be distributed under terms of the GPL // #include "btrymeter.h" #include #include #include #include #include #include #include #include #include #include #include #include #include static const char APMFILENAME[] = "/proc/apm"; static const char ACPIBATTERYDIR[] = "/proc/acpi/battery"; static const char SYSPOWERDIR[] = "/sys/class/power_supply"; BtryMeter::BtryMeter( XOSView *parent ) : FieldMeter( parent, 2, "BTRY", "CHRG/USED", 1, 1, 0 ){ // find out ONCE whether to use ACPI, APM or sysfs use_acpi = use_apm = use_syspower = false; if ( has_apm() ) { use_apm=true; use_acpi=false; use_syspower=false; } if ( has_acpi() ) { use_acpi=true; use_apm=false; use_syspower=false; } if ( has_syspower() ) { use_acpi=false; use_apm=false; use_syspower=true; } old_apm_battery_state = apm_battery_state = 0xFF; old_acpi_charge_state = acpi_charge_state = -2; } BtryMeter::~BtryMeter( void ){ } // determine if any usable source of battery information bool BtryMeter::has_source( void ){ return has_apm() || has_acpi() || has_syspower(); } // determine if /proc/apm exists and is readable bool BtryMeter::has_apm( void ){ struct stat stbuf; int fd; if ( stat(APMFILENAME, &stbuf) != 0 ) { XOSDEBUG("APM: stat failed: %d - not APM ?\n",errno); return false; } if ( S_ISREG(stbuf.st_mode) ) { XOSDEBUG("apm: %s exists and is a file\n",APMFILENAME); } else { XOSDEBUG("no APM file\n"); return false; } fd=open(APMFILENAME,O_RDONLY); if ( fd < 0 ) { XOSDEBUG("open failed on %s: with errno=%d\n",APMFILENAME,errno); return false; } else close(fd); // good enough ... // all our tests succeeded - apm seems usable return true; } // determine if /proc/acpi/battery exists and is a DIR // (XXX: too lazy - no tests for actual readability is done) bool BtryMeter::has_acpi( void ){ struct stat stbuf; if ( stat(ACPIBATTERYDIR, &stbuf) != 0 ) { XOSDEBUG("has_acpi(): stat failed: %d\n",errno); return false; } if ( S_ISDIR(stbuf.st_mode) ) { XOSDEBUG("%s exists and is a DIR.\n", ACPIBATTERYDIR); } else { XOSDEBUG("no ACPI dir\n"); return false; } // declare ACPI as usable return true; } /* * Look for something resembling a battery in /sys/class/power_supply */ bool BtryMeter::has_syspower( void ){ bool found; DIR *dir; struct dirent *dp; struct stat buf; char dirname[80], f[80]; std::ifstream type; std::string t; dir = opendir(SYSPOWERDIR); if (dir == NULL) return false; found = false; while (!found && (dp = readdir(dir))) { if (!strncmp(dp->d_name, ".", 1)) continue; if (!strncmp(dp->d_name, "..", 2)) continue; snprintf(dirname, 80, "%s/%s", SYSPOWERDIR, dp->d_name); if (stat(dirname, &buf) == 0 && S_ISDIR(buf.st_mode)) { snprintf(f, 80, "%s/%s", dirname, "/type"); type.open(f); if (type.good()) { type >> t; if (strncmp(t.c_str(), "Battery", 7) == 0) { found = true; break; } } type.close(); } } if (closedir(dir) != 0) abort(); return found; } void BtryMeter::checkResources( void ){ FieldMeter::checkResources(); setfieldcolor( 0, parent_->getResource( "batteryLeftColor" ) ); setfieldcolor( 1, parent_->getResource( "batteryUsedColor" ) ); priority_ = atoi (parent_->getResource( "batteryPriority" ) ); SetUsedFormat(parent_->getResource( "batteryUsedFormat" ) ); } void BtryMeter::handle_apm_state( void ){ switch ( apm_battery_state ) { case 0: /* high (e.g. over 25% on my box) */ XOSDEBUG("battery_status HIGH\n"); setfieldcolor( 0, parent_->getResource("batteryLeftColor")); legend("High AVAIL/USED"); break; case 1: /* low ( e.g. under 25% on my box ) */ XOSDEBUG("battery_status LOW\n"); setfieldcolor( 0, parent_->getResource("batteryLowColor")); legend("LOW avail/used"); break; case 2: /* critical ( less than 5% on my box ) */ XOSDEBUG("battery_status CRITICAL\n"); setfieldcolor( 0, parent_->getResource("batteryCritColor")); legend( "Crit LOW/Used"); break; case 3: /* Charging */ XOSDEBUG("battery_status CHARGING\n"); setfieldcolor( 0, parent_->getResource("batteryChargeColor")); legend( "AC/Charging"); break; case 4: /* selected batt not present */ /* no idea how this state ever could happen with APM */ XOSDEBUG("battery_status not present\n"); setfieldcolor( 0, parent_->getResource("batteryNoneColor")); legend( "Not Present/N.A."); break; case 255: /* unknown - do nothing - maybe not APM */ // on my system this state comes if you pull both batteries // ( while on AC of course :-)) ) XOSDEBUG("apm battery_state not known\n"); setfieldcolor( 0, parent_->getResource("batteryNoneColor")); legend( "Unknown/N.A."); break; } } void BtryMeter::handle_acpi_state( void ){ switch ( acpi_charge_state ) { case 0: // charged XOSDEBUG("battery_status CHARGED\n"); setfieldcolor( 0, parent_->getResource("batteryFullColor")); legend( "CHRG/FULL"); break; case -1: // discharging XOSDEBUG("battery_status DISCHARGING\n"); setfieldcolor( 0, parent_->getResource("batteryLeftColor")); legend( "CHRG/USED"); break; case -2: // discharging - below alarm XOSDEBUG("battery_status ALARM DISCHARGING\n"); setfieldcolor( 0, parent_->getResource("batteryCritColor")); legend( "CHRG/USED"); break; case -3: // not present XOSDEBUG("battery_status NOT PRESENT\n"); setfieldcolor( 0, parent_->getResource("batteryNoneColor")); legend( "NONE/NONE"); break; case 1: // charging XOSDEBUG("battery_status CHARGING\n"); setfieldcolor( 0, parent_->getResource("batteryChargeColor")); legend( "CHRG/AC"); break; } } /* * All redraws come from this function (not children) */ void BtryMeter::checkevent( void ){ getpwrinfo(); if ( old_apm_battery_state != apm_battery_state ) { /* APM only changes if we have APM */ handle_apm_state(); drawlegend(); drawfields(1); return; } if ( old_acpi_charge_state != acpi_charge_state ) { handle_acpi_state(); drawlegend(); drawfields(1); return; } drawfields(); } void BtryMeter::getpwrinfo( void ){ if ( use_acpi || use_syspower ) { getacpi_or_sys_info(); return; } if ( use_apm ) { getapminfo(); return; } // We can hit this spot in any of two cases: // - We have an ACPI system and the battery is removed // - We have neither ACPI nor APM in the system // We report an empty battery (i.e., we are running off AC power) instead of // original behavior of just exiting the program. // (Refer to Debian bug report #281565) total_ = 100; fields_[0] = 0; fields_[1] = 100; setUsed(fields_[0], total_); } bool BtryMeter::getapminfo( void ){ std::ifstream loadinfo( APMFILENAME ); /* just a tiny note here about APM states: See: arch/i386/kernel/apm.c apm_get_info() Arguments, with symbols from linux/apm_bios.h. Information is from the Get Power Status (0x0a) call unless otherwise noted. 0) Linux driver version (this will change if format changes) 1) APM BIOS Version. Usually 1.0, 1.1 or 1.2. 2) APM flags from APM Installation Check (0x00): bit 0: APM_16_BIT_SUPPORT bit 1: APM_32_BIT_SUPPORT bit 2: APM_IDLE_SLOWS_CLOCK bit 3: APM_BIOS_DISABLED bit 4: APM_BIOS_DISENGAGED 3) AC line status 0x00: Off-line 0x01: On-line 0x02: On backup power (BIOS >= 1.1 only) 0xff: Unknown 4) Battery status 0x00: High 0x01: Low 0x02: Critical 0x03: Charging 0x04: Selected battery not present (BIOS >= 1.2 only) 0xff: Unknown 5) Battery flag bit 0: High bit 1: Low bit 2: Critical bit 3: Charging bit 7: No system battery 0xff: Unknown 6) Remaining battery life (percentage of charge): 0-100: valid -1: Unknown 7) Remaining battery life (time units): Number of remaining minutes or seconds -1: Unknown 8) min = minutes; sec = seconds */ if ( !loadinfo.good() ){ XOSDEBUG("Can not open file : %s\n", APMFILENAME); return false; } int battery_status=0xff; // assume unknown as default char buff[256]; loadinfo >> buff >> buff >> buff >> buff >> std::hex >> battery_status >> buff >> fields_[0]; // XOSDEBUG("apm battery_status is: %d\n",battery_status); // save previous state // if there was no state-change - the gui won't do full redraw old_apm_battery_state=apm_battery_state; apm_battery_state=battery_status; // If the battery status is reported as a negative number, it means we are // running on AC power and no battery status is available - Report it as // completely empty (0). (Refer to Debian bug report #281565) if (fields_[0] < 0) fields_[0] = 0; total_ = 100; if ( apm_battery_state != 0xFF ) { fields_[1] = total_ - fields_[0]; } else { // prevent setting it to '-1' if no batt fields_[0] = 0; fields_[1] = total_; } setUsed (fields_[0], total_); return true; } // ACPI provides a lot of info, // but munging it into something usefull is ugly // esp. as you can have more than one battery ... bool BtryMeter::getacpi_or_sys_info( void ){ DIR *dir = NULL; std::string abs_battery_dir; if (use_acpi) { abs_battery_dir = ACPIBATTERYDIR; } else { abs_battery_dir = SYSPOWERDIR; } dir = opendir(abs_battery_dir.c_str()); if (dir==NULL) { XOSDEBUG("ACPI/SYS: Cannot open directory : %s\n", abs_battery_dir.c_str()); return false; } bool found = false; // whether we found at least ONE battery // reset all sums acpi_sum_cap=0; acpi_sum_remain=0; acpi_sum_rate=0; acpi_sum_alarm=0; // save old state old_acpi_charge_state=acpi_charge_state; acpi_charge_state=0; // assume charged for (struct dirent *dirent; (dirent = readdir(dir)) != NULL; ) { if (strncmp(dirent->d_name, ".", 1) == 0 || strncmp(dirent->d_name, "..", 2) == 0) continue; std::string abs_battery_name = abs_battery_dir + "/" + dirent->d_name; XOSDEBUG("ACPI/SYS Batt: %s\n", dirent->d_name); // still can happen that it's not present: if ( (use_acpi && (acpi_battery_present(abs_battery_name + "/info" )) && (acpi_parse_battery(abs_battery_name))) || (use_syspower && (sys_battery_present(abs_battery_name + "/present" )) && (sys_parse_battery(abs_battery_name))) ) { // sum up: // clip values to get realistic on full-charged batteries if ( battery.remaining_capacity >= battery.last_full_capacity) battery.remaining_capacity=battery.last_full_capacity; acpi_sum_cap +=battery.last_full_capacity; acpi_sum_remain+=battery.remaining_capacity; acpi_sum_rate +=battery.present_rate; acpi_sum_alarm +=battery.alarm; // sum up charge state ... // works only w. signed formats acpi_charge_state|=battery.charging_state; found = true; // found at least one } } closedir(dir); total_ = 100; // convert into percent vals // XOSDEBUG("acpi: total max=%d, remain=%d\n",acpi_sum_cap,acpi_sum_remain); // below alarm ? if ( acpi_sum_alarm >= acpi_sum_remain && acpi_charge_state != 1 ) acpi_charge_state=-2; // if NONE of the batts is present: if ( found ) { fields_[0] = (float)acpi_sum_remain/(float)acpi_sum_cap*100.0; } else { // none of the batts is present // (just pull out both while on AC) fields_[0] = 0; acpi_charge_state=-3; } fields_[1] = total_ - fields_[0]; setUsed (fields_[0], total_); return true; } // present yes/no can change anytime ! // by adding/removing a battery bool BtryMeter::acpi_battery_present(const std::string& filename) { std::ifstream loadinfo( filename.c_str() ); std::string argname; std::string argval; while ( !loadinfo.eof() ) { argname.clear(); argval.clear(); loadinfo >> argname >> argval; XOSDEBUG("batt ?: a=\"%s\" v=\"%s\"\n",argname.c_str(),argval.c_str() ); if ( argname == "present:" ) if ( argval == "yes" ) return true; } XOSDEBUG("batt %s not present\n",filename.c_str() ); return false; } bool BtryMeter::acpi_parse_battery(const std::string& dirname) { // actually there are THREE files to check: // 'alarm', 'info' and 'state' std::string filename; std::ifstream loadinfo; std::istringstream inp_strm; std::string inp_line; std::string argname; std::string argval; filename = dirname + "/alarm"; loadinfo.open(filename.c_str() ); while ( loadinfo.good() ) { std::getline(loadinfo,inp_line); inp_strm.str(inp_line.c_str() ); argname.clear(); argval.clear(); inp_strm >> argname >> argval; XOSDEBUG("alarm: a=\"%s\" v=\"%s\"\n",argname.c_str(),argval.c_str() ); if ( argname == "alarm:" ) { battery.alarm = atoi(argval.c_str()); break; } } loadinfo.close(); loadinfo.clear(); filename = dirname + "/info"; loadinfo.open(filename.c_str() ); while ( loadinfo.good() ) { argname.clear(); std::getline(loadinfo,argname,':'); argval.clear(); std::getline(loadinfo,argval); XOSDEBUG("info: a=\"%s\" v=\"%s\"\n",argname.c_str(),argval.c_str() ); if ( argname == "design capacity" ) { battery.design_capacity=atoi(argval.c_str() ); } if ( argname == "last full capacity" ) { battery.last_full_capacity=atoi(argval.c_str() ); } if ( argname == "last full capacity" ) { battery.last_full_capacity=atoi(argval.c_str() ); } } loadinfo.close(); loadinfo.clear(); // clear eof-bit filename = dirname + "/state"; loadinfo.open(filename.c_str() ); while ( loadinfo.good() ) { // argname can contain spaces argname.clear(); std::getline(loadinfo,argname,':'); // argval should NOT contain blanks inp_line.clear(); std::getline(loadinfo,inp_line); inp_strm.clear(); inp_strm.seekg(0); inp_strm.str(inp_line.c_str() ); argval.clear(); inp_strm >> argval; // this ignores leading spaces XOSDEBUG("state: a=\"%s\" v=\"%s\"\n",argname.c_str(),argval.c_str() ); if ( argname == "charging state" ) { if ( argval == "charged" ) battery.charging_state=0; if ( argval == "discharging" ) battery.charging_state=-1; if ( argval == "charging" ) battery.charging_state=1; } if ( argname == "last full capacity" ) { battery.last_full_capacity=atoi(argval.c_str() ); } if ( argname == "last full capacity" ) { battery.last_full_capacity=atoi(argval.c_str() ); } if ( argname == "remaining capacity" ) { battery.remaining_capacity=atoi(argval.c_str() ); } } return true; } // present yes/no can change anytime ! // by adding/removing a battery bool BtryMeter::sys_battery_present(const std::string& filename) { std::ifstream loadinfo( filename.c_str() ); std::string value; while ( loadinfo.good() ) { value.clear(); loadinfo >> value; if (value == "1") return true; } XOSDEBUG("batt %s not present\n",filename.c_str() ); return false; } bool BtryMeter::sys_parse_battery(const std::string& dirname) { std::string filename; std::ifstream loadinfo; std::string value; struct stat stbuf; filename = dirname + "/alarm"; loadinfo.open(filename.c_str() ); while ( loadinfo.good() ) { value.clear(); loadinfo >> value; XOSDEBUG("alarm (%s): v=\"%s\"\n", filename.c_str(), value.c_str() ); battery.alarm = atoi(value.c_str()); break; } loadinfo.close(); loadinfo.clear(); filename = dirname + "/energy_full_design"; if (stat(filename.c_str(),&stbuf)!=0) filename=dirname+"/charge_full_design"; loadinfo.open(filename.c_str() ); while ( loadinfo.good() ) { value.clear(); loadinfo >> value; XOSDEBUG("design_capacity (%s): v=\"%s\"\n", filename.c_str(), value.c_str() ); battery.design_capacity = atoi(value.c_str()); break; } loadinfo.close(); loadinfo.clear(); filename = dirname + "/energy_full"; if (stat(filename.c_str(),&stbuf)!=0) filename=dirname+"/charge_full"; loadinfo.open(filename.c_str() ); if (!loadinfo.good()) { loadinfo.close(); loadinfo.clear(); filename=dirname+"/charge_full_design"; loadinfo.open(filename.c_str()); } while ( loadinfo.good() ) { value.clear(); loadinfo >> value; XOSDEBUG("last_full_capacity (%s): v=\"%s\"\n", filename.c_str(), value.c_str() ); battery.last_full_capacity = atoi(value.c_str()); break; } loadinfo.close(); loadinfo.clear(); filename = dirname + "/energy_now"; if (stat(filename.c_str(),&stbuf)!=0) filename=dirname+"/charge_now"; loadinfo.open(filename.c_str() ); while ( loadinfo.good() ) { value.clear(); loadinfo >> value; XOSDEBUG("remaining_capacity (%s): v=\"%s\"\n", filename.c_str(), value.c_str() ); battery.remaining_capacity = atoi(value.c_str()); break; } loadinfo.close(); loadinfo.clear(); filename = dirname + "/status"; loadinfo.open(filename.c_str() ); while ( loadinfo.good() ) { value.clear(); loadinfo >> value; XOSDEBUG("status (%s): v=\"%s\"\n", filename.c_str(), value.c_str() ); battery.charging_state=0; if ( value == "Discharging" ) battery.charging_state=-1; if ( value == "Charging" ) battery.charging_state=1; break; } loadinfo.close(); loadinfo.clear(); return true; }