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Better notice for hibernate interval spans; when estimate is 0, start out awake.
svn:r2963
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parent
0065066dbe
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1bec1b3d37
@ -78,7 +78,8 @@ static time_t interval_start_time = 0;
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static time_t interval_end_time = 0;
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/** How far into the accounting interval should we hibernate? */
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static time_t interval_wakeup_time = 0;
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/** How much bandwidth do we 'expect' to use per minute? */
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/** How much bandwidth do we 'expect' to use per minute? (0 if we have no
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* info from the last period.) */
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static uint32_t expected_bandwidth_usage = 0;
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/** What unit are we using for our accounting? */
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static time_unit_t cfg_unit = UNIT_MONTH;
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@ -340,17 +341,16 @@ update_expected_bandwidth(void)
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uint64_t max_configured = (get_options()->BandwidthRate * 60);
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if (n_seconds_active_in_interval < 1800) {
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/* If we haven't gotten enough data last interval, guess that
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* we'll be used at our maximum capacity. This is unlikely to be
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* so, but it will give us an okay first estimate, and we'll stay
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* up until we send Max bytes. Next interval, we'll choose
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* our starting time based on how much we sent this interval.
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/* If we haven't gotten enough data last interval, set 'expected'
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* to 0. This will set our wakeup to the start of the interval.
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* Next interval, we'll choose our starting time based on how much
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* we sent this interval.
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*/
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expected = max_configured;
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expected = 0;
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} else {
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used = n_bytes_written_in_interval < n_bytes_read_in_interval ?
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n_bytes_read_in_interval : n_bytes_written_in_interval;
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expected = (used / (n_seconds_active_in_interval / 60));
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expected = used / (n_seconds_active_in_interval / 60);
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if (expected > max_configured)
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expected = max_configured;
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}
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@ -423,7 +423,6 @@ accounting_set_wakeup_time(void)
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int time_in_interval;
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int time_to_exhaust_bw;
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int time_to_consider;
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int d,h,m;
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if (! identity_key_is_set()) {
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if (init_keys() < 0) {
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@ -441,17 +440,28 @@ accounting_set_wakeup_time(void)
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crypto_digest_get_digest(d_env, digest, DIGEST_LEN);
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crypto_free_digest_env(d_env);
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if (expected_bandwidth_usage)
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if (!expected_bandwidth_usage) {
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char buf1[ISO_TIME_LEN+1];
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char buf2[ISO_TIME_LEN+1];
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format_local_iso_time(buf1, interval_start_time);
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format_local_iso_time(buf2, interval_end_time);
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time_to_exhaust_bw = 24*60*60;
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interval_wakeup_time = interval_start_time;
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log_fn(LOG_NOTICE, "Configured hibernation. This interval begins at %s "
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"and ends at %s. We have no prior estimate for bandwidth, so "
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"we will start out awake and hibernate when we exhaust our bandwidth.",
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buf1, buf2);
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return;
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}
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time_to_exhaust_bw = (int)
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(get_options()->AccountingMax/expected_bandwidth_usage)*60;
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else
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time_to_exhaust_bw = 24*60*60;
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time_in_interval = interval_end_time - interval_start_time;
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time_to_consider = time_in_interval - time_to_exhaust_bw;
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if (time_to_consider<=0) {
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interval_wakeup_time = interval_start_time;
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d=h=m=0;
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} else {
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/* XXX can we simplify this just by picking a random (non-deterministic)
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* time to be up? If we go down and come up, then we pick a new one. Is
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@ -465,6 +475,7 @@ accounting_set_wakeup_time(void)
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format_iso_time(buf, interval_wakeup_time);
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}
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{
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char buf1[ISO_TIME_LEN+1];
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char buf2[ISO_TIME_LEN+1];
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@ -475,14 +486,18 @@ accounting_set_wakeup_time(void)
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down_time = interval_end_time;
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format_local_iso_time(buf1, interval_start_time);
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format_local_iso_time(buf2, interval_wakeup_time);
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format_local_iso_time(buf3, down_time);
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format_local_iso_time(buf3,
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down_time<interval_end_time?down_time:interval_end_time);
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format_local_iso_time(buf4, interval_end_time);
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log_fn(LOG_NOTICE, "Configured hibernation. This interval begins at %s; "
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"scheduled wake-up time %s; "
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"we expect to stay up until at least %s; "
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"we will start a new interval at %s (all times local)",
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buf1, buf2, buf3, buf4);
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log_fn(LOG_NOTICE, "Configured hibernation. This interval began at %s; "
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"the scheduled wake-up time %s %s; "
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"we expect%s to exhaust our bandwidth for this interval around %s; "
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"the next interval begins at %s (all times local)",
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buf1,
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time(NULL)<interval_wakeup_time?"is":"was", buf2,
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time(NULL)<down_time?"":"ed", buf3,
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buf4);
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}
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}
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