branch: master
ratelimit.c
8702 bytesRaw
/***************************************************************************
* _ _ ____ _
* Project ___| | | | _ \| |
* / __| | | | |_) | |
* | (__| |_| | _ <| |___
* \___|\___/|_| \_\_____|
*
* Copyright (C) Daniel Stenberg, <daniel@haxx.se>, et al.
*
* This software is licensed as described in the file COPYING, which
* you should have received as part of this distribution. The terms
* are also available at https://curl.se/docs/copyright.html.
*
* You may opt to use, copy, modify, merge, publish, distribute and/or sell
* copies of the Software, and permit persons to whom the Software is
* furnished to do so, under the terms of the COPYING file.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
* SPDX-License-Identifier: curl
*
***************************************************************************/
#include "curl_setup.h"
#include "urldata.h"
#include "ratelimit.h"
#define CURL_US_PER_SEC 1000000
#define CURL_RLIMIT_MIN_RATE (4 * 1024) /* minimum step rate */
#define CURL_RLIMIT_STEP_MIN_MS 2 /* minimum step duration */
static void rlimit_update(struct Curl_rlimit *r,
const struct curltime *pts)
{
timediff_t elapsed_us, elapsed_steps;
int64_t token_gain;
DEBUGASSERT(r->rate_per_step);
if((r->ts.tv_sec == pts->tv_sec) && (r->ts.tv_usec == pts->tv_usec))
return;
elapsed_us = curlx_ptimediff_us(pts, &r->ts);
if(elapsed_us < 0) { /* not going back in time */
DEBUGASSERT(0);
return;
}
elapsed_us += r->spare_us;
if(elapsed_us < r->step_us)
return;
/* we do the update */
r->ts = *pts;
elapsed_steps = elapsed_us / r->step_us;
r->spare_us = elapsed_us % r->step_us;
/* How many tokens did we gain since the last update? */
if(r->rate_per_step > (INT64_MAX / elapsed_steps))
token_gain = INT64_MAX;
else {
token_gain = r->rate_per_step * elapsed_steps;
}
if((INT64_MAX - token_gain) > r->tokens)
r->tokens += token_gain;
else
r->tokens = INT64_MAX;
/* Limit the token again by the burst rate (if set), so we
* do not suddenly have a huge number of tokens after inactivity. */
if(r->burst_per_step && (r->tokens > r->burst_per_step)) {
r->tokens = r->burst_per_step;
}
}
static void rlimit_tune_steps(struct Curl_rlimit *r,
int64_t tokens_total)
{
int64_t tokens_last, tokens_main, msteps;
/* Tune the ratelimit at the start *if* we know how many tokens
* are expected to be consumed in total.
* The reason for tuning is that rlimit provides tokens to be consumed
* per "step" which starts out to be a second. The tokens may be consumed
* in full at the beginning of a step. The remainder of the second will
* have no tokens available, effectively blocking the consumption and
* so keeping the "step average" in line.
* This works will up to the last step. When no more tokens are needed,
* no wait will happen and the last step would be too fast. This is
* especially noticeable when only a few steps are needed.
*
* Example: downloading 1.5kb with a ratelimit of 1k could be done in
* roughly 1 second (1k in the first second and the 0.5 at the start of
* the second one).
*
* The tuning tries to make the last step small, using only
* 1 percent of the total tokens (at least 1). The rest of the tokens
* are to be consumed in the steps before by adjusting the duration of
* the step and the amount of tokens it provides. */
if(!r->rate_per_step ||
(tokens_total <= 1) ||
(tokens_total > (INT64_MAX / 1000)))
return;
/* Calculate tokens for the last step and the ones before. */
tokens_last = tokens_total / 100;
if(!tokens_last) /* less than 100 total, use 1 */
tokens_last = 1;
else if(tokens_last > CURL_RLIMIT_MIN_RATE)
tokens_last = CURL_RLIMIT_MIN_RATE;
DEBUGASSERT(tokens_last);
tokens_main = tokens_total - tokens_last;
DEBUGASSERT(tokens_main);
/* how many milli-steps will it take to consume those, give the
* original rate limit per second? */
DEBUGASSERT(r->step_us == CURL_US_PER_SEC);
msteps = (tokens_main * 1000 / r->rate_per_step);
if(msteps < CURL_RLIMIT_STEP_MIN_MS) {
/* Steps this small will not work. Do not tune. */
return;
}
else if(msteps < 1000) {
/* It needs less than one step to provide the needed tokens.
* Make it exactly that long and with exactly those tokens. */
r->step_us = (timediff_t)msteps * 1000;
r->rate_per_step = tokens_main;
r->tokens = r->rate_per_step;
}
else {
/* More than 1 step. Spread the remainder milli steps and
* the tokens they need to provide across all steps. If integer
* arithmetic can do it. */
curl_off_t ms_unaccounted = (msteps % 1000);
curl_off_t mstep_inc = (ms_unaccounted / (msteps / 1000));
if(mstep_inc) {
curl_off_t rate_inc = ((r->rate_per_step * mstep_inc) / 1000);
if(rate_inc) {
r->step_us = CURL_US_PER_SEC + ((timediff_t)mstep_inc * 1000);
r->rate_per_step += rate_inc;
r->tokens = r->rate_per_step;
}
}
}
if(r->burst_per_step)
r->burst_per_step = r->rate_per_step;
}
void Curl_rlimit_init(struct Curl_rlimit *r,
int64_t rate_per_sec,
int64_t burst_per_sec,
const struct curltime *pts)
{
DEBUGASSERT(rate_per_sec >= 0);
DEBUGASSERT(burst_per_sec >= rate_per_sec || !burst_per_sec);
DEBUGASSERT(pts);
r->rate_per_step = rate_per_sec;
r->burst_per_step = burst_per_sec;
r->step_us = CURL_US_PER_SEC;
r->spare_us = 0;
r->tokens = r->rate_per_step;
r->ts = *pts;
r->blocked = FALSE;
}
void Curl_rlimit_start(struct Curl_rlimit *r, const struct curltime *pts,
int64_t total_tokens)
{
r->tokens = r->rate_per_step;
r->spare_us = 0;
r->ts = *pts;
rlimit_tune_steps(r, total_tokens);
}
int64_t Curl_rlimit_per_step(struct Curl_rlimit *r)
{
return r->rate_per_step;
}
bool Curl_rlimit_active(struct Curl_rlimit *r)
{
return (r->rate_per_step > 0) || r->blocked;
}
bool Curl_rlimit_is_blocked(struct Curl_rlimit *r)
{
return (bool)r->blocked;
}
int64_t Curl_rlimit_avail(struct Curl_rlimit *r,
const struct curltime *pts)
{
if(r->blocked)
return 0;
else if(r->rate_per_step) {
rlimit_update(r, pts);
return r->tokens;
}
else
return INT64_MAX;
}
void Curl_rlimit_drain(struct Curl_rlimit *r,
size_t tokens,
const struct curltime *pts)
{
if(r->blocked || !r->rate_per_step)
return;
rlimit_update(r, pts);
#if 8 <= SIZEOF_SIZE_T
if(tokens > INT64_MAX) {
r->tokens = INT64_MAX;
}
else
#endif
{
int64_t val = (int64_t)tokens;
if((INT64_MIN + val) < r->tokens)
r->tokens -= val;
else
r->tokens = INT64_MIN;
}
}
timediff_t Curl_rlimit_wait_ms(struct Curl_rlimit *r,
const struct curltime *pts)
{
timediff_t wait_us, elapsed_us;
if(r->blocked || !r->rate_per_step)
return 0;
rlimit_update(r, pts);
if(r->tokens > 0)
return 0;
/* How much time will it take tokens to become positive again?
* Deduct `spare_us` and check against already elapsed time */
wait_us = r->step_us - r->spare_us;
if(r->tokens < 0) {
curl_off_t debt_pct = ((-r->tokens) * 100 / r->rate_per_step);
if(debt_pct)
wait_us += (r->step_us * debt_pct / 100);
}
elapsed_us = curlx_ptimediff_us(pts, &r->ts);
if(elapsed_us >= wait_us)
return 0;
wait_us -= elapsed_us;
return (wait_us + 999) / 1000; /* in milliseconds */
}
timediff_t Curl_rlimit_next_step_ms(struct Curl_rlimit *r,
const struct curltime *pts)
{
if(!r->blocked && r->rate_per_step) {
timediff_t elapsed_us, next_us;
elapsed_us = curlx_ptimediff_us(pts, &r->ts) + r->spare_us;
if(r->step_us > elapsed_us) {
next_us = r->step_us - elapsed_us;
return (next_us + 999) / 1000; /* in milliseconds */
}
}
return 0;
}
void Curl_rlimit_block(struct Curl_rlimit *r,
bool activate,
const struct curltime *pts)
{
if(!activate == !r->blocked)
return;
r->ts = *pts;
r->blocked = activate;
if(!r->blocked) {
/* Start rate limiting fresh. The amount of time this was blocked
* does not generate extra tokens. */
Curl_rlimit_start(r, pts, -1);
}
else {
r->tokens = 0;
}
}