mirror of
https://gitlab.torproject.org/tpo/core/tor.git
synced 2024-11-20 02:09:24 +01:00
Start re-refactoring the token bucket interface.
Begin by creating a lowest-level triple of the types needed to implement a token bucket: a configuration, a timestamp, and the raw bucket itself. Note that for low-level buckets, the units of the timestamp and the bucket itself are unspecified: each user can use a different type. (This patch breaks check-spaces; a later patch will fix it)
This commit is contained in:
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03b96882de
commit
0b40ed5e70
@ -9,8 +9,9 @@
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* Tor uses these token buckets to keep track of bandwidth usage, and
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* sometimes other things too.
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*
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* The time units we use internally are based on "timestamp" units -- see
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* monotime_coarse_to_stamp() for a rationale.
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* There are two layers of abstraction here: "raw" token buckets, in which all
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* the pieces are decoupled, and "read-write" token buckets, which combine all
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* the moving parts into one.
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*
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* Token buckets may become negative.
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**/
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@ -20,6 +21,51 @@
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#include "token_bucket.h"
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#include "util_bug.h"
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/**
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* Set the <b>rate</b> and <b>burst</b> value in a token_bucket_cfg.
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*
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* Note that the <b>rate</b> value is in arbitrary units, but those units will
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* determine the units of token_bucket_raw_dec(), token_bucket_raw_refill, and
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* so on.
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*/
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void
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token_bucket_cfg_init(token_bucket_cfg_t *cfg,
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uint32_t rate,
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uint32_t burst)
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{
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tor_assert_nonfatal(rate > 0);
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tor_assert_nonfatal(burst > 0);
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if (burst > TOKEN_BUCKET_MAX_BURST)
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burst = TOKEN_BUCKET_MAX_BURST;
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cfg->rate = rate;
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cfg->burst = burst;
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}
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/**
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* Initialize a raw token bucket and its associated timestamp to the "full"
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* state, according to <b>cfg</b>.
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*/
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void
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token_bucket_raw_reset(token_bucket_raw_t *bucket,
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token_bucket_timestamp_t *stamp,
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const token_bucket_cfg_t *cfg,
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uint32_t now)
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{
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bucket->bucket = cfg->burst;
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stamp->last_refilled_at = now;
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}
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/**
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* Adust a preexisting token bucket to respect the new configuration
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* <b>cfg</b>, by decreasing its current level if needed. */
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void
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token_bucket_raw_adjust(token_bucket_raw_t *bucket,
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const token_bucket_cfg_t *cfg)
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{
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bucket->bucket = MIN(bucket->bucket, cfg->burst);
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}
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/** Convert a rate in bytes per second to a rate in bytes per step */
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static uint32_t
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rate_per_sec_to_rate_per_step(uint32_t rate)
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@ -57,18 +103,14 @@ token_bucket_rw_init(token_bucket_rw_t *bucket,
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*/
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void
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token_bucket_rw_adjust(token_bucket_rw_t *bucket,
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uint32_t rate,
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uint32_t burst)
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uint32_t rate,
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uint32_t burst)
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{
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tor_assert_nonfatal(rate > 0);
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tor_assert_nonfatal(burst > 0);
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if (burst > TOKEN_BUCKET_RW_MAX_BURST)
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burst = TOKEN_BUCKET_RW_MAX_BURST;
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bucket->rate = rate_per_sec_to_rate_per_step(rate);
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bucket->burst = burst;
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bucket->read_bucket = MIN(bucket->read_bucket, (int32_t)burst);
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bucket->write_bucket = MIN(bucket->write_bucket, (int32_t)burst);
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token_bucket_cfg_init(&bucket->cfg,
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rate_per_sec_to_rate_per_step(rate),
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burst);
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token_bucket_raw_adjust(&bucket->read_bucket, &bucket->cfg);
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token_bucket_raw_adjust(&bucket->write_bucket, &bucket->cfg);
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}
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/**
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@ -76,36 +118,41 @@ token_bucket_rw_adjust(token_bucket_rw_t *bucket,
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*/
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void
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token_bucket_rw_reset(token_bucket_rw_t *bucket,
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uint32_t now_ts)
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uint32_t now_ts)
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{
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bucket->read_bucket = bucket->burst;
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bucket->write_bucket = bucket->burst;
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bucket->last_refilled_at_ts = now_ts;
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token_bucket_raw_reset(&bucket->read_bucket, &bucket->stamp,
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&bucket->cfg, now_ts);
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token_bucket_raw_reset(&bucket->write_bucket, &bucket->stamp,
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&bucket->cfg, now_ts);
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}
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/* Helper: see token_bucket_rw_refill */
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static int
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refill_single_bucket(int32_t *bucketptr,
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const uint32_t rate,
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const int32_t burst,
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const uint32_t elapsed_steps)
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/**
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* Given an amount of <b>elapsed</b> time units, and a bucket configuration
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* <b>cfg</b>, refill the level of <b>bucket</b> accordingly. Note that the
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* units of time in <b>elapsed</b> must correspond to those used to set the
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* rate in <b>cfg</b>, or the result will be illogical.
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*/
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int
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token_bucket_raw_refill_steps(token_bucket_raw_t *bucket,
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const token_bucket_cfg_t *cfg,
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const uint32_t elapsed)
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{
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const int was_empty = (*bucketptr <= 0);
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const int was_empty = (bucket->bucket <= 0);
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/* The casts here prevent an underflow.
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*
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* Note that even if the bucket value is negative, subtracting it from
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* "burst" will still produce a correct result. If this result is
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* ridiculously high, then the "elapsed_steps > gap / rate" check below
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* ridiculously high, then the "elapsed > gap / rate" check below
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* should catch it. */
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const size_t gap = ((size_t)burst) - ((size_t)*bucketptr);
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const size_t gap = ((size_t)cfg->burst) - ((size_t)bucket->bucket);
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if (elapsed_steps > gap / rate) {
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*bucketptr = burst;
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if (elapsed > gap / cfg->rate) {
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bucket->bucket = cfg->burst;
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} else {
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*bucketptr += rate * elapsed_steps;
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bucket->bucket += cfg->rate * elapsed;
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}
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return was_empty && *bucketptr > 0;
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return was_empty && bucket->bucket > 0;
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}
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/**
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@ -119,7 +166,7 @@ int
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token_bucket_rw_refill(token_bucket_rw_t *bucket,
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uint32_t now_ts)
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{
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const uint32_t elapsed_ticks = (now_ts - bucket->last_refilled_at_ts);
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const uint32_t elapsed_ticks = (now_ts - bucket->stamp.last_refilled_at);
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if (elapsed_ticks > UINT32_MAX-(300*1000)) {
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/* Either about 48 days have passed since the last refill, or the
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* monotonic clock has somehow moved backwards. (We're looking at you,
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@ -132,31 +179,35 @@ token_bucket_rw_refill(token_bucket_rw_t *bucket,
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if (!elapsed_steps) {
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/* Note that if less than one whole step elapsed, we don't advance the
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* time in last_refilled_at_ts. That's intentional: we want to make sure
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* time in last_refilled_at. That's intentional: we want to make sure
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* that we add some bytes to it eventually. */
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return 0;
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}
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int flags = 0;
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if (refill_single_bucket(&bucket->read_bucket,
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bucket->rate, bucket->burst, elapsed_steps))
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if (token_bucket_raw_refill_steps(&bucket->read_bucket,
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&bucket->cfg, elapsed_steps))
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flags |= TB_READ;
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if (refill_single_bucket(&bucket->write_bucket,
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bucket->rate, bucket->burst, elapsed_steps))
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if (token_bucket_raw_refill_steps(&bucket->write_bucket,
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&bucket->cfg, elapsed_steps))
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flags |= TB_WRITE;
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bucket->last_refilled_at_ts = now_ts;
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bucket->stamp.last_refilled_at = now_ts;
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return flags;
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}
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static int
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decrement_single_bucket(int32_t *bucketptr,
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ssize_t n)
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/**
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* Decrement a provided bucket by <b>n</b> units. Note that <b>n</b>
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* must be nonnegative.
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*/
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int
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token_bucket_raw_dec(token_bucket_raw_t *bucket,
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ssize_t n)
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{
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if (BUG(n < 0))
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return 0;
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const int becomes_empty = *bucketptr > 0 && n >= *bucketptr;
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*bucketptr -= n;
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const int becomes_empty = bucket->bucket > 0 && n >= bucket->bucket;
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bucket->bucket -= n;
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return becomes_empty;
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}
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@ -170,7 +221,7 @@ int
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token_bucket_rw_dec_read(token_bucket_rw_t *bucket,
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ssize_t n)
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{
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return decrement_single_bucket(&bucket->read_bucket, n);
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return token_bucket_raw_dec(&bucket->read_bucket, n);
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}
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/**
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@ -183,7 +234,7 @@ int
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token_bucket_rw_dec_write(token_bucket_rw_t *bucket,
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ssize_t n)
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{
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return decrement_single_bucket(&bucket->write_bucket, n);
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return token_bucket_raw_dec(&bucket->write_bucket, n);
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}
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/**
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@ -192,9 +243,9 @@ token_bucket_rw_dec_write(token_bucket_rw_t *bucket,
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*/
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void
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token_bucket_rw_dec(token_bucket_rw_t *bucket,
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ssize_t n_read, ssize_t n_written)
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ssize_t n_read, ssize_t n_written)
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{
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token_bucket_rw_dec_read(bucket, n_read);
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token_bucket_rw_dec_read(bucket, n_written);
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token_bucket_rw_dec_write(bucket, n_written);
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}
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@ -11,15 +11,64 @@
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#include "torint.h"
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typedef struct token_bucket_rw_t {
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/** Largest allowable burst value for a token buffer. */
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#define TOKEN_BUCKET_MAX_BURST INT32_MAX
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/** A generic token buffer configuration: determines the number of tokens
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* added to the bucket in each time unit (the "rate"), and the maximum number
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* of tokens in the bucket (the "burst") */
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typedef struct token_bucket_cfg_t {
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uint32_t rate;
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int32_t burst;
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int32_t read_bucket;
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int32_t write_bucket;
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uint32_t last_refilled_at_ts;
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} token_bucket_rw_t;
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} token_bucket_cfg_t;
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#define TOKEN_BUCKET_RW_MAX_BURST INT32_MAX
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/** A raw token bucket, decoupled from its configuration and timestamp. */
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typedef struct token_bucket_raw_t {
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int32_t bucket;
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} token_bucket_raw_t;
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/** A timestamp for a token bucket. The units of this timestamp are
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* unspecified, but must match with the rate set in the token_bucket_cfg_t. */
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typedef struct token_bucket_timestamp_t {
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uint32_t last_refilled_at;
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} token_bucket_timestamp_t;
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void token_bucket_cfg_init(token_bucket_cfg_t *cfg,
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uint32_t rate,
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uint32_t burst);
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void token_bucket_raw_adjust(token_bucket_raw_t *bucket,
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const token_bucket_cfg_t *cfg);
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void token_bucket_raw_reset(token_bucket_raw_t *bucket,
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token_bucket_timestamp_t *stamp,
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const token_bucket_cfg_t *cfg,
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uint32_t now);
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int token_bucket_raw_dec(token_bucket_raw_t *bucket,
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ssize_t n);
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int token_bucket_raw_refill_steps(token_bucket_raw_t *bucket,
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const token_bucket_cfg_t *cfg,
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const uint32_t elapsed_steps);
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static inline size_t token_bucket_raw_get(const token_bucket_raw_t *bucket);
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/** Return the current number of bytes set in a token bucket. */
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static inline size_t
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token_bucket_raw_get(const token_bucket_raw_t *bucket)
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{
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return bucket->bucket >= 0 ? bucket->bucket : 0;
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}
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/** A convenience type containing all the pieces needed for a coupled
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* read-bucket and write-bucket that have the same rate limit, and which use
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* "timestamp units" (see compat_time.h) for their time. */
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typedef struct token_bucket_rw_t {
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token_bucket_cfg_t cfg;
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token_bucket_raw_t read_bucket;
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token_bucket_raw_t write_bucket;
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token_bucket_timestamp_t stamp;
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} token_bucket_rw_t;
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void token_bucket_rw_init(token_bucket_rw_t *bucket,
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uint32_t rate,
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@ -50,8 +99,7 @@ static inline size_t token_bucket_rw_get_read(const token_bucket_rw_t *bucket);
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static inline size_t
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token_bucket_rw_get_read(const token_bucket_rw_t *bucket)
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{
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const ssize_t b = bucket->read_bucket;
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return b >= 0 ? b : 0;
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return token_bucket_raw_get(&bucket->read_bucket);
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}
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static inline size_t token_bucket_rw_get_write(
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@ -59,8 +107,7 @@ static inline size_t token_bucket_rw_get_write(
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static inline size_t
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token_bucket_rw_get_write(const token_bucket_rw_t *bucket)
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{
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const ssize_t b = bucket->write_bucket;
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return b >= 0 ? b : 0;
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return token_bucket_raw_get(&bucket->write_bucket);
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}
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#ifdef TOKEN_BUCKET_PRIVATE
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@ -25,19 +25,19 @@ test_bwmgt_token_buf_init(void *arg)
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token_bucket_rw_init(&b, 16*KB, 64*KB, START_TS);
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// Burst is correct
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tt_uint_op(b.burst, OP_EQ, 64*KB);
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tt_uint_op(b.cfg.burst, OP_EQ, 64*KB);
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// Rate is correct, within 1 percent.
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{
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uint32_t ticks_per_sec =
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(uint32_t) monotime_msec_to_approx_coarse_stamp_units(1000);
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uint32_t rate_per_sec = (b.rate * ticks_per_sec / TICKS_PER_STEP);
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uint32_t rate_per_sec = (b.cfg.rate * ticks_per_sec / TICKS_PER_STEP);
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tt_uint_op(rate_per_sec, OP_GT, 16*KB-160);
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tt_uint_op(rate_per_sec, OP_LT, 16*KB+160);
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}
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// Bucket starts out full:
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tt_uint_op(b.last_refilled_at_ts, OP_EQ, START_TS);
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tt_int_op(b.read_bucket, OP_EQ, 64*KB);
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tt_uint_op(b.stamp.last_refilled_at, OP_EQ, START_TS);
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tt_int_op(b.read_bucket.bucket, OP_EQ, 64*KB);
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done:
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;
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@ -51,31 +51,31 @@ test_bwmgt_token_buf_adjust(void *arg)
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token_bucket_rw_init(&b, 16*KB, 64*KB, START_TS);
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uint32_t rate_orig = b.rate;
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uint32_t rate_orig = b.cfg.rate;
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// Increasing burst
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token_bucket_rw_adjust(&b, 16*KB, 128*KB);
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tt_uint_op(b.rate, OP_EQ, rate_orig);
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tt_uint_op(b.read_bucket, OP_EQ, 64*KB);
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tt_uint_op(b.burst, OP_EQ, 128*KB);
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tt_uint_op(b.cfg.rate, OP_EQ, rate_orig);
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tt_uint_op(b.read_bucket.bucket, OP_EQ, 64*KB);
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tt_uint_op(b.cfg.burst, OP_EQ, 128*KB);
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// Decreasing burst but staying above bucket
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token_bucket_rw_adjust(&b, 16*KB, 96*KB);
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tt_uint_op(b.rate, OP_EQ, rate_orig);
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tt_uint_op(b.read_bucket, OP_EQ, 64*KB);
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tt_uint_op(b.burst, OP_EQ, 96*KB);
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tt_uint_op(b.cfg.rate, OP_EQ, rate_orig);
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tt_uint_op(b.read_bucket.bucket, OP_EQ, 64*KB);
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tt_uint_op(b.cfg.burst, OP_EQ, 96*KB);
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// Decreasing burst below bucket,
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token_bucket_rw_adjust(&b, 16*KB, 48*KB);
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tt_uint_op(b.rate, OP_EQ, rate_orig);
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tt_uint_op(b.read_bucket, OP_EQ, 48*KB);
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tt_uint_op(b.burst, OP_EQ, 48*KB);
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tt_uint_op(b.cfg.rate, OP_EQ, rate_orig);
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tt_uint_op(b.read_bucket.bucket, OP_EQ, 48*KB);
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tt_uint_op(b.cfg.burst, OP_EQ, 48*KB);
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// Changing rate.
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token_bucket_rw_adjust(&b, 32*KB, 48*KB);
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tt_uint_op(b.rate, OP_GE, rate_orig*2 - 10);
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tt_uint_op(b.rate, OP_LE, rate_orig*2 + 10);
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tt_uint_op(b.read_bucket, OP_EQ, 48*KB);
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tt_uint_op(b.burst, OP_EQ, 48*KB);
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tt_uint_op(b.cfg.rate, OP_GE, rate_orig*2 - 10);
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tt_uint_op(b.cfg.rate, OP_LE, rate_orig*2 + 10);
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tt_uint_op(b.read_bucket.bucket, OP_EQ, 48*KB);
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tt_uint_op(b.cfg.burst, OP_EQ, 48*KB);
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done:
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;
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@ -90,29 +90,29 @@ test_bwmgt_token_buf_dec(void *arg)
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// full-to-not-full.
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tt_int_op(0, OP_EQ, token_bucket_rw_dec_read(&b, KB));
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tt_int_op(b.read_bucket, OP_EQ, 63*KB);
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tt_int_op(b.read_bucket.bucket, OP_EQ, 63*KB);
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// Full to almost-not-full
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tt_int_op(0, OP_EQ, token_bucket_rw_dec_read(&b, 63*KB - 1));
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tt_int_op(b.read_bucket, OP_EQ, 1);
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tt_int_op(b.read_bucket.bucket, OP_EQ, 1);
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// almost-not-full to empty.
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tt_int_op(1, OP_EQ, token_bucket_rw_dec_read(&b, 1));
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tt_int_op(b.read_bucket, OP_EQ, 0);
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tt_int_op(b.read_bucket.bucket, OP_EQ, 0);
|
||||
|
||||
// reset bucket, try full-to-empty
|
||||
token_bucket_rw_init(&b, 16*KB, 64*KB, START_TS);
|
||||
tt_int_op(1, OP_EQ, token_bucket_rw_dec_read(&b, 64*KB));
|
||||
tt_int_op(b.read_bucket, OP_EQ, 0);
|
||||
tt_int_op(b.read_bucket.bucket, OP_EQ, 0);
|
||||
|
||||
// reset bucket, try underflow.
|
||||
token_bucket_rw_init(&b, 16*KB, 64*KB, START_TS);
|
||||
tt_int_op(1, OP_EQ, token_bucket_rw_dec_read(&b, 64*KB + 1));
|
||||
tt_int_op(b.read_bucket, OP_EQ, -1);
|
||||
tt_int_op(b.read_bucket.bucket, OP_EQ, -1);
|
||||
|
||||
// A second underflow does not make the bucket empty.
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_dec_read(&b, 1000));
|
||||
tt_int_op(b.read_bucket, OP_EQ, -1001);
|
||||
tt_int_op(b.read_bucket.bucket, OP_EQ, -1001);
|
||||
|
||||
done:
|
||||
;
|
||||
@ -125,68 +125,67 @@ test_bwmgt_token_buf_refill(void *arg)
|
||||
token_bucket_rw_t b;
|
||||
const uint32_t SEC =
|
||||
(uint32_t)monotime_msec_to_approx_coarse_stamp_units(1000);
|
||||
printf("%d\n", (int)SEC);
|
||||
token_bucket_rw_init(&b, 16*KB, 64*KB, START_TS);
|
||||
|
||||
/* Make the buffer much emptier, then let one second elapse. */
|
||||
token_bucket_rw_dec_read(&b, 48*KB);
|
||||
tt_int_op(b.read_bucket, OP_EQ, 16*KB);
|
||||
tt_int_op(b.read_bucket.bucket, OP_EQ, 16*KB);
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC));
|
||||
tt_int_op(b.read_bucket, OP_GT, 32*KB - 300);
|
||||
tt_int_op(b.read_bucket, OP_LT, 32*KB + 300);
|
||||
tt_int_op(b.read_bucket.bucket, OP_GT, 32*KB - 300);
|
||||
tt_int_op(b.read_bucket.bucket, OP_LT, 32*KB + 300);
|
||||
|
||||
/* Another half second. */
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*3/2));
|
||||
tt_int_op(b.read_bucket, OP_GT, 40*KB - 400);
|
||||
tt_int_op(b.read_bucket, OP_LT, 40*KB + 400);
|
||||
tt_uint_op(b.last_refilled_at_ts, OP_EQ, START_TS + SEC*3/2);
|
||||
tt_int_op(b.read_bucket.bucket, OP_GT, 40*KB - 400);
|
||||
tt_int_op(b.read_bucket.bucket, OP_LT, 40*KB + 400);
|
||||
tt_uint_op(b.stamp.last_refilled_at, OP_EQ, START_TS + SEC*3/2);
|
||||
|
||||
/* No time: nothing happens. */
|
||||
{
|
||||
const uint32_t bucket_orig = b.read_bucket;
|
||||
const uint32_t bucket_orig = b.read_bucket.bucket;
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*3/2));
|
||||
tt_int_op(b.read_bucket, OP_EQ, bucket_orig);
|
||||
tt_int_op(b.read_bucket.bucket, OP_EQ, bucket_orig);
|
||||
}
|
||||
|
||||
/* Another 30 seconds: fill the bucket. */
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*3/2 + SEC*30));
|
||||
tt_int_op(b.read_bucket, OP_EQ, b.burst);
|
||||
tt_uint_op(b.last_refilled_at_ts, OP_EQ, START_TS + SEC*3/2 + SEC*30);
|
||||
tt_int_op(b.read_bucket.bucket, OP_EQ, b.cfg.burst);
|
||||
tt_uint_op(b.stamp.last_refilled_at, OP_EQ, START_TS + SEC*3/2 + SEC*30);
|
||||
|
||||
/* Another 30 seconds: nothing happens. */
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*3/2 + SEC*60));
|
||||
tt_int_op(b.read_bucket, OP_EQ, b.burst);
|
||||
tt_uint_op(b.last_refilled_at_ts, OP_EQ, START_TS + SEC*3/2 + SEC*60);
|
||||
tt_int_op(b.read_bucket.bucket, OP_EQ, b.cfg.burst);
|
||||
tt_uint_op(b.stamp.last_refilled_at, OP_EQ, START_TS + SEC*3/2 + SEC*60);
|
||||
|
||||
/* Empty the bucket, let two seconds pass, and make sure that a refill is
|
||||
* noticed. */
|
||||
tt_int_op(1, OP_EQ, token_bucket_rw_dec_read(&b, b.burst));
|
||||
tt_int_op(0, OP_EQ, b.read_bucket);
|
||||
tt_int_op(1, OP_EQ, token_bucket_rw_dec_read(&b, b.cfg.burst));
|
||||
tt_int_op(0, OP_EQ, b.read_bucket.bucket);
|
||||
tt_int_op(1, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*3/2 + SEC*61));
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*3/2 + SEC*62));
|
||||
tt_int_op(b.read_bucket, OP_GT, 32*KB-400);
|
||||
tt_int_op(b.read_bucket, OP_LT, 32*KB+400);
|
||||
tt_int_op(b.read_bucket.bucket, OP_GT, 32*KB-400);
|
||||
tt_int_op(b.read_bucket.bucket, OP_LT, 32*KB+400);
|
||||
|
||||
/* Underflow the bucket, make sure we detect when it has tokens again. */
|
||||
tt_int_op(1, OP_EQ, token_bucket_rw_dec_read(&b, b.read_bucket+16*KB));
|
||||
tt_int_op(-16*KB, OP_EQ, b.read_bucket);
|
||||
tt_int_op(1, OP_EQ, token_bucket_rw_dec_read(&b, b.read_bucket.bucket+16*KB));
|
||||
tt_int_op(-16*KB, OP_EQ, b.read_bucket.bucket);
|
||||
// half a second passes...
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*64));
|
||||
tt_int_op(b.read_bucket, OP_GT, -8*KB-300);
|
||||
tt_int_op(b.read_bucket, OP_LT, -8*KB+300);
|
||||
tt_int_op(b.read_bucket.bucket, OP_GT, -8*KB-300);
|
||||
tt_int_op(b.read_bucket.bucket, OP_LT, -8*KB+300);
|
||||
// a second passes
|
||||
tt_int_op(1, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*65));
|
||||
tt_int_op(b.read_bucket, OP_GT, 8*KB-400);
|
||||
tt_int_op(b.read_bucket, OP_LT, 8*KB+400);
|
||||
tt_int_op(b.read_bucket.bucket, OP_GT, 8*KB-400);
|
||||
tt_int_op(b.read_bucket.bucket, OP_LT, 8*KB+400);
|
||||
|
||||
// We step a second backwards, and nothing happens.
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, START_TS + SEC*64));
|
||||
tt_int_op(b.read_bucket, OP_GT, 8*KB-400);
|
||||
tt_int_op(b.read_bucket, OP_LT, 8*KB+400);
|
||||
tt_int_op(b.read_bucket.bucket, OP_GT, 8*KB-400);
|
||||
tt_int_op(b.read_bucket.bucket, OP_LT, 8*KB+400);
|
||||
|
||||
// A ridiculous amount of time passes.
|
||||
tt_int_op(0, OP_EQ, token_bucket_rw_refill(&b, INT32_MAX));
|
||||
tt_int_op(b.read_bucket, OP_EQ, b.burst);
|
||||
tt_int_op(b.read_bucket.bucket, OP_EQ, b.cfg.burst);
|
||||
|
||||
done:
|
||||
;
|
||||
|
Loading…
Reference in New Issue
Block a user