/* vi: set sw=4 ts=4: */ /* * A mini 'powertop' utility: * Analyze power consumption on Intel-based laptops. * Based on powertop 1.11. * * Copyright (C) 2010 Marek Polacek * * Licensed under GPLv2, see file LICENSE in this source tree. */ //config:config POWERTOP //config: bool "powertop (9.6 kb)" //config: default y //config: help //config: Analyze power consumption on Intel-based laptops //config: //config:config FEATURE_POWERTOP_INTERACTIVE //config: bool "Accept keyboard commands" //config: default y //config: depends on POWERTOP //config: help //config: Without this, powertop will only refresh display every 10 seconds. //config: No keyboard commands will work, only ^C to terminate. //applet:IF_POWERTOP(APPLET(powertop, BB_DIR_USR_SBIN, BB_SUID_DROP)) //kbuild:lib-$(CONFIG_POWERTOP) += powertop.o // XXX This should be configurable #define ENABLE_FEATURE_POWERTOP_PROCIRQ 1 #include "libbb.h" //#define debug(fmt, ...) fprintf(stderr, fmt, ## __VA_ARGS__) #define debug(fmt, ...) ((void)0) #define BLOATY_HPET_IRQ_NUM_DETECTION 0 #define MAX_CSTATE_COUNT 8 #define IRQCOUNT 40 #define DEFAULT_SLEEP 10 #define DEFAULT_SLEEP_STR "10" /* Frequency of the ACPI timer */ #define FREQ_ACPI 3579.545 #define FREQ_ACPI_1000 3579545 /* Max filename length of entry in /sys/devices subsystem */ #define BIG_SYSNAME_LEN 16 #define ESC "\033" typedef unsigned long long ullong; struct line { char *string; int count; /*int disk_count;*/ }; #if ENABLE_FEATURE_POWERTOP_PROCIRQ struct irqdata { smallint active; int number; ullong count; char irq_desc[32]; }; #endif struct globals { struct line *lines; /* the most often used member */ int lines_cnt; int lines_cumulative_count; int maxcstate; unsigned total_cpus; smallint cant_enable_timer_stats; #if ENABLE_FEATURE_POWERTOP_PROCIRQ # if BLOATY_HPET_IRQ_NUM_DETECTION smallint scanned_timer_list; int percpu_hpet_start; int percpu_hpet_end; # endif int interrupt_0; int total_interrupt; struct irqdata interrupts[IRQCOUNT]; #endif ullong start_usage[MAX_CSTATE_COUNT]; ullong last_usage[MAX_CSTATE_COUNT]; ullong start_duration[MAX_CSTATE_COUNT]; ullong last_duration[MAX_CSTATE_COUNT]; #if ENABLE_FEATURE_POWERTOP_INTERACTIVE struct termios init_settings; #endif }; #define G (*ptr_to_globals) #define INIT_G() do { \ SET_PTR_TO_GLOBALS(xzalloc(sizeof(G))); \ } while (0) #if ENABLE_FEATURE_POWERTOP_INTERACTIVE static void reset_term(void) { tcsetattr_stdin_TCSANOW(&G.init_settings); } static void sig_handler(int signo UNUSED_PARAM) { reset_term(); _exit(EXIT_FAILURE); } #endif static int write_str_to_file(const char *fname, const char *str) { FILE *fp = fopen_for_write(fname); if (!fp) return 1; fputs(str, fp); fclose(fp); return 0; } /* Make it more readable */ #define start_timer() write_str_to_file("/proc/timer_stats", "1\n") #define stop_timer() write_str_to_file("/proc/timer_stats", "0\n") static NOINLINE void clear_lines(void) { int i; if (G.lines) { for (i = 0; i < G.lines_cnt; i++) free(G.lines[i].string); free(G.lines); G.lines_cnt = 0; G.lines = NULL; } } static void update_lines_cumulative_count(void) { int i; for (i = 0; i < G.lines_cnt; i++) G.lines_cumulative_count += G.lines[i].count; } static int line_compare(const void *p1, const void *p2) { const struct line *a = p1; const struct line *b = p2; return (b->count /*+ 50 * b->disk_count*/) - (a->count /*+ 50 * a->disk_count*/); } static void sort_lines(void) { qsort(G.lines, G.lines_cnt, sizeof(G.lines[0]), line_compare); } /* Save C-state usage and duration. Also update maxcstate. */ static void read_cstate_counts(ullong *usage, ullong *duration) { DIR *dir; struct dirent *d; dir = opendir("/proc/acpi/processor"); if (!dir) return; while ((d = readdir(dir)) != NULL) { FILE *fp; char buf[192]; int level; int len; len = strlen(d->d_name); /* "CPUnn" */ if (len < 3 || len > BIG_SYSNAME_LEN) continue; sprintf(buf, "%s/%s/power", "/proc/acpi/processor", d->d_name); fp = fopen_for_read(buf); if (!fp) continue; // Example file contents: // active state: C0 // max_cstate: C8 // maximum allowed latency: 2000000000 usec // states: // C1: type[C1] promotion[--] demotion[--] latency[001] usage[00006173] duration[00000000000000000000] // C2: type[C2] promotion[--] demotion[--] latency[001] usage[00085191] duration[00000000000083024907] // C3: type[C3] promotion[--] demotion[--] latency[017] usage[01017622] duration[00000000017921327182] level = 0; while (fgets(buf, sizeof(buf), fp)) { char *p = strstr(buf, "age["); if (!p) continue; p += 4; usage[level] += bb_strtoull(p, NULL, 10) + 1; p = strstr(buf, "ation["); if (!p) continue; p += 6; duration[level] += bb_strtoull(p, NULL, 10); if (level >= MAX_CSTATE_COUNT-1) break; level++; if (level > G.maxcstate) /* update maxcstate */ G.maxcstate = level; } fclose(fp); } closedir(dir); } /* Add line and/or update count */ static void save_line(const char *string, int count) { int i; for (i = 0; i < G.lines_cnt; i++) { if (strcmp(string, G.lines[i].string) == 0) { /* It's already there, only update count */ G.lines[i].count += count; return; } } /* Add new line */ G.lines = xrealloc_vector(G.lines, 4, G.lines_cnt); G.lines[G.lines_cnt].string = xstrdup(string); G.lines[G.lines_cnt].count = count; /*G.lines[G.lines_cnt].disk_count = 0;*/ G.lines_cnt++; } #if ENABLE_FEATURE_POWERTOP_PROCIRQ static int is_hpet_irq(const char *name) { char *p; # if BLOATY_HPET_IRQ_NUM_DETECTION long hpet_chan; /* Learn the range of existing hpet timers. This is done once */ if (!G.scanned_timer_list) { FILE *fp; char buf[80]; G.scanned_timer_list = true; fp = fopen_for_read("/proc/timer_list"); if (!fp) return 0; while (fgets(buf, sizeof(buf), fp)) { p = strstr(buf, "Clock Event Device: hpet"); if (!p) continue; p += sizeof("Clock Event Device: hpet")-1; if (!isdigit(*p)) continue; hpet_chan = xatoi_positive(p); if (hpet_chan < G.percpu_hpet_start) G.percpu_hpet_start = hpet_chan; if (hpet_chan > G.percpu_hpet_end) G.percpu_hpet_end = hpet_chan; } fclose(fp); } # endif //TODO: optimize p = strstr(name, "hpet"); if (!p) return 0; p += 4; if (!isdigit(*p)) return 0; # if BLOATY_HPET_IRQ_NUM_DETECTION hpet_chan = xatoi_positive(p); if (hpet_chan < G.percpu_hpet_start || hpet_chan > G.percpu_hpet_end) return 0; # endif return 1; } /* Save new IRQ count, return delta from old one */ static int save_irq_count(int irq, ullong count) { int unused = IRQCOUNT; int i; for (i = 0; i < IRQCOUNT; i++) { if (G.interrupts[i].active && G.interrupts[i].number == irq) { ullong old = G.interrupts[i].count; G.interrupts[i].count = count; return count - old; } if (!G.interrupts[i].active && unused > i) unused = i; } if (unused < IRQCOUNT) { G.interrupts[unused].active = 1; G.interrupts[unused].count = count; G.interrupts[unused].number = irq; } return count; } /* Read /proc/interrupts, save IRQ counts and IRQ description */ static void process_irq_counts(void) { FILE *fp; char buf[128]; /* Reset values */ G.interrupt_0 = 0; G.total_interrupt = 0; fp = xfopen_for_read("/proc/interrupts"); while (fgets(buf, sizeof(buf), fp)) { char irq_desc[sizeof(" : ") + sizeof(buf)]; char *p; const char *name; int nr; ullong count; ullong delta; p = strchr(buf, ':'); if (!p) continue; /* 0: 143646045 153901007 IO-APIC-edge timer * ^ */ *p = '\0'; /* Deal with non-maskable interrupts -- make up fake numbers */ nr = index_in_strings("NMI\0RES\0CAL\0TLB\0TRM\0THR\0SPU\0", buf); if (nr >= 0) { nr += 20000; } else { /* bb_strtou doesn't eat leading spaces, using strtoul */ errno = 0; nr = strtoul(buf, NULL, 10); if (errno) continue; } p++; /* 0: 143646045 153901007 IO-APIC-edge timer * ^ */ /* Sum counts for this IRQ */ count = 0; while (1) { char *tmp; p = skip_whitespace(p); if (!isdigit(*p)) break; count += bb_strtoull(p, &tmp, 10); p = tmp; } /* 0: 143646045 153901007 IO-APIC-edge timer * NMI: 1 2 Non-maskable interrupts * ^ */ if (nr < 20000) { /* Skip to the interrupt name, e.g. 'timer' */ p = strchr(p, ' '); if (!p) continue; p = skip_whitespace(p); } name = p; chomp(p); /* Save description of the interrupt */ if (nr >= 20000) sprintf(irq_desc, " : %s", name); else sprintf(irq_desc, " : %s", name); delta = save_irq_count(nr, count); /* Skip per CPU timer interrupts */ if (is_hpet_irq(name)) continue; if (nr != 0 && delta != 0) save_line(irq_desc, delta); if (nr == 0) G.interrupt_0 = delta; else G.total_interrupt += delta; } fclose(fp); } #else /* !ENABLE_FEATURE_POWERTOP_PROCIRQ */ # define process_irq_counts() ((void)0) #endif static NOINLINE int process_timer_stats(void) { char buf[128]; char line[15 + 3 + 128]; int n; FILE *fp; buf[0] = '\0'; n = 0; fp = NULL; if (!G.cant_enable_timer_stats) fp = fopen_for_read("/proc/timer_stats"); if (fp) { // Example file contents: // Timer Stats Version: v0.2 // Sample period: 1.329 s // 76, 0 swapper hrtimer_start_range_ns (tick_sched_timer) // 88, 0 swapper hrtimer_start_range_ns (tick_sched_timer) // 24, 3787 firefox hrtimer_start_range_ns (hrtimer_wakeup) // 46D, 1136 kondemand/1 do_dbs_timer (delayed_work_timer_fn) // ... // 1, 1656 Xorg hrtimer_start_range_ns (hrtimer_wakeup) // 1, 2159 udisks-daemon hrtimer_start_range_ns (hrtimer_wakeup) // 331 total events, 249.059 events/sec while (fgets(buf, sizeof(buf), fp)) { const char *count, *process, *func; char *p; int idx; unsigned cnt; count = skip_whitespace(buf); p = strchr(count, ','); if (!p) continue; *p++ = '\0'; cnt = bb_strtou(count, NULL, 10); if (strcmp(skip_non_whitespace(count), " total events") == 0) { #if ENABLE_FEATURE_POWERTOP_PROCIRQ n = cnt / G.total_cpus; if (n > 0 && n < G.interrupt_0) { sprintf(line, " : %s", "extra timer interrupt"); save_line(line, G.interrupt_0 - n); } #endif break; } if (strchr(count, 'D')) continue; /* deferred */ p = skip_whitespace(p); /* points to pid now */ process = NULL; get_func_name: p = strchr(p, ' '); if (!p) continue; *p++ = '\0'; p = skip_whitespace(p); if (process == NULL) { process = p; goto get_func_name; } func = p; //if (strcmp(process, "swapper") == 0 // && strcmp(func, "hrtimer_start_range_ns (tick_sched_timer)\n") == 0 //) { // process = "[kernel scheduler]"; // func = "Load balancing tick"; //} if (is_prefixed_with(func, "tick_nohz_")) continue; if (is_prefixed_with(func, "tick_setup_sched_timer")) continue; //if (strcmp(process, "powertop") == 0) // continue; idx = index_in_strings("insmod\0modprobe\0swapper\0", process); if (idx != -1) { process = idx < 2 ? "[kernel module]" : ""; } chomp(p); // 46D\01136\0kondemand/1\0do_dbs_timer (delayed_work_timer_fn) // ^ ^ ^ // count process func //if (strchr(process, '[')) sprintf(line, "%15.15s : %s", process, func); //else // sprintf(line, "%s", process); save_line(line, cnt); } fclose(fp); } return n; } #ifdef __i386__ /* * Get information about CPU using CPUID opcode. */ static void cpuid(unsigned int *eax, unsigned int *ebx, unsigned int *ecx, unsigned int *edx) { /* EAX value specifies what information to return */ asm ( " pushl %%ebx\n" /* Save EBX */ " cpuid\n" " movl %%ebx, %1\n" /* Save content of EBX */ " popl %%ebx\n" /* Restore EBX */ : "=a"(*eax), /* Output */ "=r"(*ebx), "=c"(*ecx), "=d"(*edx) : "0"(*eax), /* Input */ "1"(*ebx), "2"(*ecx), "3"(*edx) /* No clobbered registers */ ); } #endif #ifdef __i386__ static NOINLINE void print_intel_cstates(void) { int bios_table[8] = { 0 }; int nbios = 0; DIR *cpudir; struct dirent *d; int i; unsigned eax, ebx, ecx, edx; cpudir = opendir("/sys/devices/system/cpu"); if (!cpudir) return; /* Loop over cpuN entries */ while ((d = readdir(cpudir)) != NULL) { DIR *dir; int len; char fname[sizeof("/sys/devices/system/cpu//cpuidle//desc") + 2*BIG_SYSNAME_LEN]; len = strlen(d->d_name); if (len < 3 || len > BIG_SYSNAME_LEN) continue; if (!isdigit(d->d_name[3])) continue; len = sprintf(fname, "%s/%s/cpuidle", "/sys/devices/system/cpu", d->d_name); dir = opendir(fname); if (!dir) continue; /* * Every C-state has its own stateN directory, that * contains a 'time' and a 'usage' file. */ while ((d = readdir(dir)) != NULL) { FILE *fp; char buf[64]; int n; n = strlen(d->d_name); if (n < 3 || n > BIG_SYSNAME_LEN) continue; sprintf(fname + len, "/%s/desc", d->d_name); fp = fopen_for_read(fname); if (fp) { char *p = fgets(buf, sizeof(buf), fp); fclose(fp); if (!p) break; p = strstr(p, "MWAIT "); if (p) { int pos; p += sizeof("MWAIT ") - 1; pos = (bb_strtoull(p, NULL, 16) >> 4) + 1; if (pos >= ARRAY_SIZE(bios_table)) continue; bios_table[pos]++; nbios++; } } } closedir(dir); } closedir(cpudir); if (!nbios) return; eax = 5; ebx = ecx = edx = 0; cpuid(&eax, &ebx, &ecx, &edx); if (!edx || !(ecx & 1)) return; printf("Your %s the following C-states: ", "CPU supports"); i = 0; while (edx) { if (edx & 7) printf("C%u ", i); edx >>= 4; i++; } bb_putchar('\n'); /* Print BIOS C-States */ printf("Your %s the following C-states: ", "BIOS reports"); for (i = 0; i < ARRAY_SIZE(bios_table); i++) if (bios_table[i]) printf("C%u ", i); bb_putchar('\n'); } #else # define print_intel_cstates() ((void)0) #endif static void show_timerstats(void) { unsigned lines; /* Get terminal height */ get_terminal_width_height(STDOUT_FILENO, NULL, &lines); /* We don't have whole terminal just for timerstats */ lines -= 12; if (!G.cant_enable_timer_stats) { int i, n = 0; char strbuf6[6]; puts("\nTop causes for wakeups:"); for (i = 0; i < G.lines_cnt; i++) { if ((G.lines[i].count > 0 /*|| G.lines[i].disk_count > 0*/) && n++ < lines ) { /* NB: upstream powertop prints "(wakeups/sec)", * we print just "(wakeup counts)". */ /*char c = ' '; if (G.lines[i].disk_count) c = 'D';*/ smart_ulltoa5(G.lines[i].count, strbuf6, " KMGTPEZY")[0] = '\0'; printf(/*" %5.1f%% (%s)%c %s\n"*/ " %5.1f%% (%s) %s\n", G.lines[i].count * 100.0 / G.lines_cumulative_count, strbuf6, /*c,*/ G.lines[i].string); } } } else { bb_putchar('\n'); bb_simple_error_msg("no stats available; run as root or" " enable the timer_stats module"); } } // Example display from powertop version 1.11 // Cn Avg residency P-states (frequencies) // C0 (cpu running) ( 0.5%) 2.00 Ghz 0.0% // polling 0.0ms ( 0.0%) 1.67 Ghz 0.0% // C1 mwait 0.0ms ( 0.0%) 1333 Mhz 0.1% // C2 mwait 0.1ms ( 0.1%) 1000 Mhz 99.9% // C3 mwait 12.1ms (99.4%) // // Wakeups-from-idle per second : 93.6 interval: 15.0s // no ACPI power usage estimate available // // Top causes for wakeups: // 32.4% ( 26.7) : extra timer interrupt // 29.0% ( 23.9) : hrtimer_start_range_ns (tick_sched_timer) // 9.0% ( 7.5) : hrtimer_start (tick_sched_timer) // 6.5% ( 5.3) : ata_piix // 5.0% ( 4.1) inetd : hrtimer_start_range_ns (hrtimer_wakeup) //usage:#define powertop_trivial_usage //usage: "" //usage:#define powertop_full_usage "\n\n" //usage: "Analyze power consumption on Intel-based laptops" int powertop_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int powertop_main(int argc UNUSED_PARAM, char UNUSED_PARAM **argv) { ullong cur_usage[MAX_CSTATE_COUNT]; ullong cur_duration[MAX_CSTATE_COUNT]; char cstate_lines[MAX_CSTATE_COUNT + 2][64]; #if ENABLE_FEATURE_POWERTOP_INTERACTIVE struct pollfd pfd[1]; pfd[0].fd = 0; pfd[0].events = POLLIN; #endif INIT_G(); #if ENABLE_FEATURE_POWERTOP_PROCIRQ && BLOATY_HPET_IRQ_NUM_DETECTION G.percpu_hpet_start = INT_MAX; G.percpu_hpet_end = INT_MIN; #endif /* Print warning when we don't have superuser privileges */ if (geteuid() != 0) bb_simple_error_msg("run as root to collect enough information"); /* Get number of CPUs */ G.total_cpus = get_cpu_count(); puts("Collecting data for "DEFAULT_SLEEP_STR" seconds"); #if ENABLE_FEATURE_POWERTOP_INTERACTIVE /* Turn on unbuffered input; turn off echoing, ^C ^Z etc */ set_termios_to_raw(STDIN_FILENO, &G.init_settings, TERMIOS_CLEAR_ISIG); bb_signals(BB_FATAL_SIGS, sig_handler); /* So we don't forget to reset term settings */ die_func = reset_term; #endif /* Collect initial data */ process_irq_counts(); /* Read initial usage and duration */ read_cstate_counts(G.start_usage, G.start_duration); /* Copy them to "last" */ memcpy(G.last_usage, G.start_usage, sizeof(G.last_usage)); memcpy(G.last_duration, G.start_duration, sizeof(G.last_duration)); /* Display C-states */ print_intel_cstates(); G.cant_enable_timer_stats |= stop_timer(); /* 1 on error */ /* The main loop */ for (;;) { //double maxsleep = 0.0; ullong totalticks, totalevents; int i; G.cant_enable_timer_stats |= start_timer(); /* 1 on error */ #if !ENABLE_FEATURE_POWERTOP_INTERACTIVE sleep(DEFAULT_SLEEP); #else if (safe_poll(pfd, 1, DEFAULT_SLEEP * 1000) > 0) { unsigned char c; if (safe_read(STDIN_FILENO, &c, 1) != 1) break; /* EOF/error */ if (c == G.init_settings.c_cc[VINTR]) break; /* ^C */ if ((c | 0x20) == 'q') break; } #endif G.cant_enable_timer_stats |= stop_timer(); /* 1 on error */ clear_lines(); process_irq_counts(); /* Clear the stats */ memset(cur_duration, 0, sizeof(cur_duration)); memset(cur_usage, 0, sizeof(cur_usage)); /* Read them */ read_cstate_counts(cur_usage, cur_duration); /* Count totalticks and totalevents */ totalticks = totalevents = 0; for (i = 0; i < MAX_CSTATE_COUNT; i++) { if (cur_usage[i] != 0) { totalticks += cur_duration[i] - G.last_duration[i]; totalevents += cur_usage[i] - G.last_usage[i]; } } /* Home; clear screen */ printf(ESC"[H" ESC"[J"); /* Clear C-state lines */ memset(&cstate_lines, 0, sizeof(cstate_lines)); if (totalevents == 0 && G.maxcstate <= 1) { /* This should not happen */ strcpy(cstate_lines[0], "C-state information is not available\n"); } else { double percentage; unsigned newticks; newticks = G.total_cpus * DEFAULT_SLEEP * FREQ_ACPI_1000 - totalticks; /* Handle rounding errors: do not display negative values */ if ((int)newticks < 0) newticks = 0; sprintf(cstate_lines[0], "Cn\t\t Avg residency\n"); percentage = newticks * 100.0 / (G.total_cpus * DEFAULT_SLEEP * FREQ_ACPI_1000); sprintf(cstate_lines[1], "C0 (cpu running) (%4.1f%%)\n", percentage); /* Compute values for individual C-states */ for (i = 0; i < MAX_CSTATE_COUNT; i++) { if (cur_usage[i] != 0) { double slept; slept = (cur_duration[i] - G.last_duration[i]) / (cur_usage[i] - G.last_usage[i] + 0.1) / FREQ_ACPI; percentage = (cur_duration[i] - G.last_duration[i]) * 100 / (G.total_cpus * DEFAULT_SLEEP * FREQ_ACPI_1000); sprintf(cstate_lines[i + 2], "C%u\t\t%5.1fms (%4.1f%%)\n", i + 1, slept, percentage); //if (maxsleep < slept) // maxsleep = slept; } } } for (i = 0; i < MAX_CSTATE_COUNT + 2; i++) if (cstate_lines[i][0]) fputs_stdout(cstate_lines[i]); i = process_timer_stats(); #if ENABLE_FEATURE_POWERTOP_PROCIRQ if (totalevents == 0) { /* No C-state info available, use timerstats */ totalevents = i * G.total_cpus + G.total_interrupt; if (i < 0) totalevents += G.interrupt_0 - i; } #endif /* Upstream powertop prints wakeups per sec per CPU, * we print just raw wakeup counts. */ //TODO: show real seconds (think about manual refresh) printf("\nWakeups-from-idle in %u seconds: %llu\n", DEFAULT_SLEEP, totalevents ); update_lines_cumulative_count(); sort_lines(); show_timerstats(); fflush(stdout); /* Clear the stats */ memset(cur_duration, 0, sizeof(cur_duration)); memset(cur_usage, 0, sizeof(cur_usage)); /* Get new values */ read_cstate_counts(cur_usage, cur_duration); /* Save them */ memcpy(G.last_usage, cur_usage, sizeof(G.last_usage)); memcpy(G.last_duration, cur_duration, sizeof(G.last_duration)); } /* for (;;) */ bb_putchar('\n'); #if ENABLE_FEATURE_POWERTOP_INTERACTIVE reset_term(); #endif return EXIT_SUCCESS; }