| /linux-6.12.1/Documentation/networking/ |
| D | nf_conntrack-sysctl.rst | 62 nf_conntrack_frag6_timeout - INTEGER (seconds)
67 nf_conntrack_generic_timeout - INTEGER (seconds)
73 nf_conntrack_icmp_timeout - INTEGER (seconds)
78 nf_conntrack_icmpv6_timeout - INTEGER (seconds)
130 nf_conntrack_tcp_timeout_close - INTEGER (seconds)
133 nf_conntrack_tcp_timeout_close_wait - INTEGER (seconds)
136 nf_conntrack_tcp_timeout_established - INTEGER (seconds)
139 nf_conntrack_tcp_timeout_fin_wait - INTEGER (seconds)
142 nf_conntrack_tcp_timeout_last_ack - INTEGER (seconds)
145 nf_conntrack_tcp_timeout_max_retrans - INTEGER (seconds)
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| /linux-6.12.1/Documentation/devicetree/bindings/memory-controllers/ddr/ |
| D | jedec,lpddr3-timings.yaml | 36 CKE minimum pulse width (HIGH and LOW pulse width) in pico seconds.
42 SELF REFRESH) in pico seconds.
47 Four-bank activate window in pico seconds.
52 Mode register set command delay in pico seconds.
57 Additional READ-to-READ delay in chip-to-chip cases in pico seconds.
62 Row active time in pico seconds.
67 ACTIVATE-to-ACTIVATE command period in pico seconds.
72 RAS-to-CAS delay in pico seconds.
77 Refresh Cycle time in pico seconds.
82 Row precharge time (all banks) in pico seconds.
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| D | jedec,lpddr2-timings.yaml | 30 SELF REFRESH) in pico seconds.
35 DQS output data access time from CK_t/CK_c in pico seconds.
41 seconds.
46 Four-bank activate window in pico seconds.
50 Row active time in nano seconds.
55 Row active time in pico seconds.
60 RAS-to-CAS delay in pico seconds.
65 Row precharge time (all banks) in pico seconds.
70 Active bank A to active bank B in pico seconds.
75 Internal READ to PRECHARGE command delay in pico seconds.
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| /linux-6.12.1/tools/testing/selftests/rcutorture/bin/ |
| D | kvm-transform.sh | 6 # Usage: kvm-transform.sh bzImage console.log jitter_dir seconds [ bootargs ] < qemu-cmd-in > qemu-…
12 # seconds: Run duaration for *.shutdown_secs module parameter.
45 seconds="$4"
46 if test -n "$seconds" && echo $seconds | grep -q '[^0-9]'
48 echo "Invalid duration, should be numeric in seconds: '$seconds'"
62 /^# seconds=/ {
63 if (seconds == "")
66 print "# seconds=" seconds;
104 if ("" seconds != "" && $i ~ /\.shutdown_secs=[0-9]*$/)
105 sub(/[0-9]*$/, seconds, arg);
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| D | kvm-test-1-run-qemu.sh | 101 elif test $kruntime -ge $seconds || test -f "$resdir/../STOP.1"
108 if test $kruntime -lt $seconds
110 echo Completed in $kruntime vs. $seconds >> $resdir/Warnings 2>&1
161 …if test "$newline" != "$oldline" && test "$last_ts" -lt $((seconds + $TORTURE_SHUTDOWN_GRACE)) && …
164 if test $kruntime -ge $((seconds + $TORTURE_SHUTDOWN_GRACE))
169 if test $must_continue = no && test $kruntime -ge $((seconds + $TORTURE_SHUTDOWN_GRACE))
171 echo "!!! PID $qemu_pid hung at $kruntime vs. $seconds seconds `date`" >> $resdir/Warnings 2>&1
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| /linux-6.12.1/Documentation/watchdog/ |
| D | watchdog-parameters.rst | 18 Maximum time, in seconds, for which the watchdog framework will take
44 Watchdog timeout in seconds. 1<= timeout <=63, default=60.
53 Watchdog timeout in seconds. (0 < timeout < 18000, default=60
62 Watchdog timeout in seconds. (1<=timeout<=3600, default=30
74 Watchdog margin in seconds (default=60)
83 Watchdog timeout in seconds. (default=120)
92 Watchdog time in seconds. (default=5)
101 Watchdog heartbeats in seconds. (default = 15)
110 Watchdog time in seconds. (default=30)
119 Watchdog margin in seconds (default 60s)
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| D | watchdog-api.rst | 98 representing the timeout in seconds. The driver returns the real
104 printf("The timeout was set to %d seconds\n", timeout);
106 This example might actually print "The timeout was set to 60 seconds"
113 printf("The timeout was is %d seconds\n", timeout);
127 Note that the pretimeout is the number of seconds before the time
128 when the timeout will go off. It is not the number of seconds until
129 the pretimeout. So, for instance, if you set the timeout to 60 seconds
130 and the pretimeout to 10 seconds, the pretimeout will go off in 50
131 seconds. Setting a pretimeout to zero disables it.
136 printf("The pretimeout was is %d seconds\n", timeout);
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| /linux-6.12.1/include/linux/ |
| D | timekeeper_internal.h | 21 * @xtime_nsec: Shifted (fractional) nano seconds offset for readout
49 * @xtime_sec: Current CLOCK_REALTIME time in seconds
50 * @ktime_sec: Current CLOCK_MONOTONIC time in seconds
55 * @tai_offset: The current UTC to TAI offset in seconds
59 * @raw_sec: CLOCK_MONOTONIC_RAW time in seconds
62 * @xtime_interval: Number of clock shifted nano seconds in one NTP
64 * @xtime_remainder: Shifted nano seconds left over when rounding
66 * @raw_interval: Shifted raw nano seconds accumulated per NTP interval.
68 * shifted nano seconds.
69 * @ntp_error_shift: Shift conversion between clock shifted nano seconds and
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| /linux-6.12.1/drivers/rtc/ |
| D | rtc-msc313.c | 53 unsigned long seconds; in msc313_rtc_read_alarm() local
55 seconds = readw(priv->rtc_base + REG_RTC_MATCH_VAL_L) in msc313_rtc_read_alarm()
58 rtc_time64_to_tm(seconds, &alarm->time); in msc313_rtc_read_alarm()
83 unsigned long seconds; in msc313_rtc_set_alarm() local
85 seconds = rtc_tm_to_time64(&alarm->time); in msc313_rtc_set_alarm()
86 writew((seconds & 0xFFFF), priv->rtc_base + REG_RTC_MATCH_VAL_L); in msc313_rtc_set_alarm()
87 writew((seconds >> 16) & 0xFFFF, priv->rtc_base + REG_RTC_MATCH_VAL_H); in msc313_rtc_set_alarm()
111 u32 seconds; in msc313_rtc_read_time() local
124 seconds = readw(priv->rtc_base + REG_RTC_CNT_VAL_L) in msc313_rtc_read_time()
127 rtc_time64_to_tm(seconds, tm); in msc313_rtc_read_time()
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| D | rtc-mc13xxx.c | 63 unsigned int seconds, days1, days2; in mc13xxx_rtc_read_time() local
75 ret = mc13xxx_reg_read(priv->mc13xxx, MC13XXX_RTCTOD, &seconds); in mc13xxx_rtc_read_time()
84 rtc_time64_to_tm((time64_t)days1 * SEC_PER_DAY + seconds, tm); in mc13xxx_rtc_read_time()
92 unsigned int seconds, days; in mc13xxx_rtc_set_time() local
96 days = div_s64_rem(rtc_tm_to_time64(tm), SEC_PER_DAY, &seconds); in mc13xxx_rtc_set_time()
116 * write seconds=0 to prevent a day switch between writing days in mc13xxx_rtc_set_time()
117 * and seconds below in mc13xxx_rtc_set_time()
127 ret = mc13xxx_reg_write(priv->mc13xxx, MC13XXX_RTCTOD, seconds); in mc13xxx_rtc_set_time()
158 unsigned int seconds, days; in mc13xxx_rtc_read_alarm() local
165 ret = mc13xxx_reg_read(priv->mc13xxx, MC13XXX_RTCTODA, &seconds); in mc13xxx_rtc_read_alarm()
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| D | rtc-tps6586x.c | 60 time64_t seconds; in tps6586x_rtc_read_time() local
76 seconds = ticks >> 10; in tps6586x_rtc_read_time()
77 rtc_time64_to_tm(seconds, tm); in tps6586x_rtc_read_time()
86 time64_t seconds; in tps6586x_rtc_set_time() local
90 seconds = rtc_tm_to_time64(tm); in tps6586x_rtc_set_time()
92 ticks = (unsigned long long)seconds << 10; in tps6586x_rtc_set_time()
139 time64_t seconds; in tps6586x_rtc_set_alarm() local
148 seconds = rtc_tm_to_time64(&alrm->time); in tps6586x_rtc_set_alarm()
169 if ((seconds - rtc_current_time) > ALM1_VALID_RANGE_IN_SEC) in tps6586x_rtc_set_alarm()
170 seconds = rtc_current_time - 1; in tps6586x_rtc_set_alarm()
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| D | rtc-mc146818-lib.c | 21 bool mc146818_avoid_UIP(void (*callback)(unsigned char seconds, void *param), in mc146818_avoid_UIP() argument
27 unsigned char seconds; in mc146818_avoid_UIP() local
41 seconds = CMOS_READ(RTC_SECONDS); in mc146818_avoid_UIP()
50 if (seconds != CMOS_READ(RTC_SECONDS)) { in mc146818_avoid_UIP()
56 callback(seconds, param); in mc146818_avoid_UIP()
70 * whether the seconds value has changed which indicates that in mc146818_avoid_UIP()
74 if (seconds != CMOS_READ(RTC_SECONDS)) { in mc146818_avoid_UIP()
111 static void mc146818_get_time_callback(unsigned char seconds, void *param_in) in mc146818_get_time_callback() argument
121 p->time->tm_sec = seconds; in mc146818_get_time_callback()
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| D | class.c | 47 /* IMPORTANT: the RTC only stores whole seconds. It is arbitrary
49 * seconds truncated. However, it is important that we use it to store
219 * The default is what most RTCs do: Increment seconds exactly one in rtc_allocate_device()
305 * If the start_secs is larger than the maximum seconds (rtc->range_max) in rtc_device_get_offset()
306 * supported by RTC hardware or the maximum seconds of new expanded in rtc_device_get_offset()
308 * rtc->range_min, which means the minimum seconds (rtc->range_min) of in rtc_device_get_offset()
310 * the offset seconds calculation formula should be: in rtc_device_get_offset()
313 * If the start_secs is larger than the minimum seconds (rtc->range_min) in rtc_device_get_offset()
318 * seconds of RTC hardware (rtc->range_min) should be mapped to in rtc_device_get_offset()
319 * rtc->range_max + 1, then the offset seconds formula should be: in rtc_device_get_offset()
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| /linux-6.12.1/tools/testing/selftests/dma/ |
| D | dma_map_benchmark.c | 28 /* default single thread, run 20 seconds on NUMA_NO_NODE */ in main()
29 int threads = 1, seconds = 20, node = -1; in main() local
43 seconds = atoi(optarg); in main()
71 if (seconds <= 0 || seconds > DMA_MAP_MAX_SECONDS) { in main()
72 fprintf(stderr, "invalid number of seconds, must be in 1-%d\n", in main()
107 map.seconds = seconds; in main()
120 printf("dma mapping benchmark: threads:%d seconds:%d node:%d dir:%s granule: %d\n", in main()
121 threads, seconds, node, dir[directions], granule); in main()
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| /linux-6.12.1/drivers/char/ |
| D | hangcheck-timer.c | 17 * duration in seconds. The hangcheck_margin parameter defines the
18 * margin of error, in seconds. The defaults are 60 seconds for the
19 * timer and 180 seconds for the margin of error. IOW, a timer is set
20 * for 60 seconds. When the timer fires, the callback checks the
22 * allotted time and margin (here 60 + 180, or 240 seconds), the machine
43 #define DEFAULT_IOFENCE_MARGIN 60 /* Default fudge factor, in seconds */
44 #define DEFAULT_IOFENCE_TICK 180 /* Default timer timeout, in seconds */
55 …gin, "If the hangcheck timer has been delayed more than hangcheck_margin seconds, the driver will …
155 printk("Hangcheck: starting hangcheck timer %s (tick is %d seconds, margin is %d seconds).\n", in hangcheck_init()
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| /linux-6.12.1/include/uapi/linux/ |
| D | fsi.h | 65 * The command timeout is specified in seconds. The minimum value of command
66 * timeout is 1 seconds (default) and the maximum value of command timeout is
67 * 120 seconds. A command timeout of 0 will reset the value to the default of
68 * 1 seconds.
75 * The read timeout is specified in seconds. The minimum value of read
76 * timeout is 10 seconds (default) and the maximum value of read timeout is
77 * 120 seconds. A read timeout of 0 will reset the value to the default of
78 * (10 seconds).
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| /linux-6.12.1/tools/testing/selftests/firmware/ |
| D | settings | 2 # 2 seconds). There are 3 test configs, each done with and without firmware
4 # normal execution should be 2 * 3 * 2 * 2 * 5 = 120 seconds for those alone.
5 # Additionally, fw_fallback may take 5 seconds for internal timeouts in each
6 # of the 3 configs, so at least another 15 seconds are needed. Add another
7 # 10 seconds for each testing config: 120 + 15 + 30
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| /linux-6.12.1/Documentation/devicetree/bindings/input/ |
| D | ti,palmas-pwrbutton.txt | 16 - ti,palmas-long-press-seconds: Duration in seconds which the power
20 - ti,palmas-pwron-debounce-milli-seconds: Duration in milliseconds
32 ti,palmas-long-press-seconds = <12>;
33 ti,palmas-pwron-debounce-milli-seconds = <15>;
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| /linux-6.12.1/drivers/net/wireless/intel/iwlwifi/fw/api/ |
| D | datapath.h | 273 * sender side in units of 10 nano seconds
275 * sender side in units of 10 nano seconds
276 * @t1_max_err: maximum t1-time error in units of 10 nano seconds
278 * sender side in units of 10 nano seconds
280 * sender side in units of 10 nano seconds
281 * @t4_max_err: maximum t4-time error in units of 10 nano seconds
283 * receiver side in units of 10 nano seconds
285 * receiver side in units of 10 nano seconds
286 * @t2_max_err: maximum t2-time error in units of 10 nano seconds
288 * receiver side in units of 10 nano seconds
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| /linux-6.12.1/tools/testing/selftests/watchdog/ |
| D | watchdog-test.c | 91 printf(" -p, --pingrate=P\tSet ping rate to P seconds (default %d)\n", in usage()
93 printf(" -t, --timeout=T\tSet timeout to T seconds\n"); in usage()
95 printf(" -n, --pretimeout=T\tSet the pretimeout to T seconds\n"); in usage()
112 {WDIOF_SETTIMEOUT, "Set timeout (in seconds)"},
114 {WDIOF_PRETIMEOUT, "Pretimeout (in seconds), get/set"},
249 printf("Watchdog ping rate set to %u seconds.\n", ping_rate); in main()
270 printf("Watchdog timeout set to %u seconds.\n", flags); in main()
280 printf("WDIOC_GETTIMEOUT returns %u seconds.\n", flags); in main()
288 printf("Watchdog pretimeout set to %u seconds.\n", flags); in main()
298 printf("WDIOC_GETPRETIMEOUT returns %u seconds.\n", flags); in main()
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| /linux-6.12.1/drivers/net/ethernet/microchip/ |
| D | lan743x_ptp.c | 25 u32 seconds, u32 nano_seconds,
78 u32 seconds, u32 nano_seconds, in lan743x_ptp_tx_ts_enqueue_ts() argument
85 ptp->tx_ts_seconds_queue[ptp->tx_ts_queue_size] = seconds; in lan743x_ptp_tx_ts_enqueue_ts()
100 u32 header, nseconds, seconds; in lan743x_ptp_tx_ts_complete() local
118 seconds = ptp->tx_ts_seconds_queue[i]; in lan743x_ptp_tx_ts_complete()
122 tstamps.hwtstamp = ktime_set(seconds, nseconds); in lan743x_ptp_tx_ts_complete()
192 u32 *seconds, u32 *nano_seconds,
381 u32 seconds = 0; in lan743x_ptpci_gettime64() local
384 lan743x_ptp_io_clock_get(adapter, &seconds, &nano_seconds, in lan743x_ptpci_gettime64()
387 lan743x_ptp_clock_get(adapter, &seconds, &nano_seconds, NULL); in lan743x_ptpci_gettime64()
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| /linux-6.12.1/kernel/time/ |
| D | itimer.c | 266 * alarm_setitimer - set alarm in seconds
268 * @seconds: number of seconds until alarm
271 * Returns the remaining time in seconds of a pending timer or 0 when
274 * On 32 bit machines the seconds value is limited to (INT_MAX/2) to avoid
277 static unsigned int alarm_setitimer(unsigned int seconds) in alarm_setitimer() argument
282 if (seconds > INT_MAX) in alarm_setitimer()
283 seconds = INT_MAX; in alarm_setitimer()
285 it_new.it_value.tv_sec = seconds; in alarm_setitimer()
306 SYSCALL_DEFINE1(alarm, unsigned int, seconds) in SYSCALL_DEFINE1() argument
308 return alarm_setitimer(seconds); in SYSCALL_DEFINE1()
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| /linux-6.12.1/Documentation/devicetree/bindings/memory-controllers/ |
| D | arm,pl172.txt | 68 enable (WE signal) in nano seconds.
71 enable (OE signal) in nano seconds.
74 access in nano seconds.
77 access in nano seconds.
80 accesses in nano seconds.
83 seconds.
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| /linux-6.12.1/Documentation/locking/ |
| D | locktorture.rst | 80 The number of seconds to run the test before terminating
86 The number of seconds between each attempt to execute a
94 The number of seconds to wait until starting CPU-hotplug
103 Number of seconds between statistics-related printk()s.
104 By default, locktorture will report stats every 60 seconds.
116 The number of seconds to keep the test threads affinitized
117 to a particular subset of the CPUs, defaults to 3 seconds.
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| /linux-6.12.1/fs/udf/ |
| D | udftime.c | 18 * We don't take into account leap seconds. This may be correct or incorrect.
19 * For more NIST information (especially dealing with leap seconds), see:
66 time64_t seconds; in udf_time_to_disk_stamp() local
74 seconds = ts.tv_sec + offset * 60; in udf_time_to_disk_stamp()
75 time64_to_tm(seconds, 0, &tm); in udf_time_to_disk_stamp()
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