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301 lines
8.2 KiB
Go
301 lines
8.2 KiB
Go
package pacer
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import (
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"math/rand"
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"time"
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"golang.org/x/time/rate"
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)
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type (
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// MinSleep configures the minimum sleep time of a Calculator
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MinSleep time.Duration
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// MaxSleep configures the maximum sleep time of a Calculator
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MaxSleep time.Duration
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// DecayConstant configures the decay constant time of a Calculator
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DecayConstant uint
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// AttackConstant configures the attack constant of a Calculator
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AttackConstant uint
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// Burst configures the number of API calls to allow without sleeping
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Burst int
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)
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// Default is a truncated exponential attack and decay.
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//
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// On retries the sleep time is doubled, on non errors then sleeptime decays
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// according to the decay constant as set with SetDecayConstant.
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//
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// The sleep never goes below that set with SetMinSleep or above that set
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// with SetMaxSleep.
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type Default struct {
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minSleep time.Duration // minimum sleep time
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maxSleep time.Duration // maximum sleep time
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decayConstant uint // decay constant
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attackConstant uint // attack constant
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}
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// DefaultOption is the interface implemented by all options for the Default Calculator
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type DefaultOption interface {
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ApplyDefault(*Default)
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}
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// NewDefault creates a Calculator used by Pacer as the default.
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func NewDefault(opts ...DefaultOption) *Default {
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c := &Default{
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minSleep: 10 * time.Millisecond,
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maxSleep: 2 * time.Second,
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decayConstant: 2,
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attackConstant: 1,
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}
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c.Update(opts...)
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return c
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}
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// Update applies the Calculator options.
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func (c *Default) Update(opts ...DefaultOption) {
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for _, opt := range opts {
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opt.ApplyDefault(c)
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}
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}
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// ApplyDefault updates the value on the Calculator
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func (o MinSleep) ApplyDefault(c *Default) {
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c.minSleep = time.Duration(o)
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}
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// ApplyDefault updates the value on the Calculator
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func (o MaxSleep) ApplyDefault(c *Default) {
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c.maxSleep = time.Duration(o)
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}
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// ApplyDefault updates the value on the Calculator
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func (o DecayConstant) ApplyDefault(c *Default) {
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c.decayConstant = uint(o)
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}
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// ApplyDefault updates the value on the Calculator
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func (o AttackConstant) ApplyDefault(c *Default) {
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c.attackConstant = uint(o)
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}
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// Calculate takes the current Pacer state and return the wait time until the next try.
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func (c *Default) Calculate(state State) time.Duration {
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if t, ok := IsRetryAfter(state.LastError); ok {
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if t < c.minSleep {
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return c.minSleep
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}
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return t
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}
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if state.ConsecutiveRetries > 0 {
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sleepTime := c.maxSleep
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if c.attackConstant != 0 {
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sleepTime = (state.SleepTime << c.attackConstant) / ((1 << c.attackConstant) - 1)
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}
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if sleepTime > c.maxSleep {
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sleepTime = c.maxSleep
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}
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return sleepTime
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}
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sleepTime := (state.SleepTime<<c.decayConstant - state.SleepTime) >> c.decayConstant
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if sleepTime < c.minSleep {
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sleepTime = c.minSleep
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}
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return sleepTime
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}
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// ZeroDelayCalculator is a Calculator that never delays.
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type ZeroDelayCalculator struct {
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}
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// Calculate takes the current Pacer state and return the wait time until the next try.
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func (c *ZeroDelayCalculator) Calculate(state State) time.Duration {
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return 0
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}
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// AzureIMDS is a pacer for the Azure instance metadata service.
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type AzureIMDS struct {
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}
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// NewAzureIMDS returns a new Azure IMDS calculator.
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func NewAzureIMDS() *AzureIMDS {
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c := &AzureIMDS{}
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return c
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}
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// Calculate takes the current Pacer state and return the wait time until the next try.
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func (c *AzureIMDS) Calculate(state State) time.Duration {
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var addBackoff time.Duration
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if state.ConsecutiveRetries == 0 {
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// Initial condition: no backoff.
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return 0
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}
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if state.ConsecutiveRetries > 4 {
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// The number of consecutive retries shouldn't exceed five.
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// In case it does for some reason, cap delay.
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addBackoff = 0
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} else {
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addBackoff = time.Duration(2<<uint(state.ConsecutiveRetries-1)) * time.Second
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}
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return addBackoff + state.SleepTime
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}
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// GoogleDrive is a specialized pacer for Google Drive
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//
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// It implements a truncated exponential backoff strategy with randomization.
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// Normally operations are paced at the interval set with SetMinSleep. On errors
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// the sleep timer is set to (2 ^ n) + random_number_milliseconds seconds.
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//
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// See https://developers.google.com/drive/v2/web/handle-errors#exponential-backoff
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type GoogleDrive struct {
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minSleep time.Duration // minimum sleep time
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burst int // number of requests without sleeping
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limiter *rate.Limiter // rate limiter for the minSleep
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}
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// GoogleDriveOption is the interface implemented by all options for the GoogleDrive Calculator
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type GoogleDriveOption interface {
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ApplyGoogleDrive(*GoogleDrive)
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}
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// NewGoogleDrive returns a new GoogleDrive Calculator with default values
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func NewGoogleDrive(opts ...GoogleDriveOption) *GoogleDrive {
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c := &GoogleDrive{
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minSleep: 10 * time.Millisecond,
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burst: 100,
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}
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c.Update(opts...)
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return c
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}
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// Update applies the Calculator options.
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func (c *GoogleDrive) Update(opts ...GoogleDriveOption) {
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for _, opt := range opts {
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opt.ApplyGoogleDrive(c)
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}
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if c.burst <= 0 {
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c.burst = 1
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}
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c.limiter = rate.NewLimiter(rate.Every(c.minSleep), c.burst)
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}
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// ApplyGoogleDrive updates the value on the Calculator
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func (o MinSleep) ApplyGoogleDrive(c *GoogleDrive) {
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c.minSleep = time.Duration(o)
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}
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// ApplyGoogleDrive updates the value on the Calculator
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func (o Burst) ApplyGoogleDrive(c *GoogleDrive) {
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c.burst = int(o)
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}
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// Calculate takes the current Pacer state and return the wait time until the next try.
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func (c *GoogleDrive) Calculate(state State) time.Duration {
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if t, ok := IsRetryAfter(state.LastError); ok {
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if t < c.minSleep {
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return c.minSleep
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}
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return t
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}
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consecutiveRetries := state.ConsecutiveRetries
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if consecutiveRetries == 0 {
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return c.limiter.Reserve().Delay()
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}
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if consecutiveRetries > 5 {
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consecutiveRetries = 5
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}
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// consecutiveRetries starts at 1 so go from 1,2,3,4,5,5 => 1,2,4,8,16,16
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// maxSleep is 2**(consecutiveRetries-1) seconds + random milliseconds
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return time.Second<<uint(consecutiveRetries-1) + time.Duration(rand.Int63n(int64(time.Second)))
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}
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// S3 implements a pacer compatible with our expectations of S3, where it tries to not
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// delay at all between successful calls, but backs off in the default fashion in response
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// to any errors.
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// The assumption is that errors should be exceedingly rare (S3 seems to have largely solved
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// the sort of stability questions rclone is likely to run into), and in the happy case
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// it can handle calls with no delays between them.
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//
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// Basically defaultPacer, but with some handling of sleepTime going to/from 0ms
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type S3 struct {
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minSleep time.Duration // minimum sleep time
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maxSleep time.Duration // maximum sleep time
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decayConstant uint // decay constant
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attackConstant uint // attack constant
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}
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// S3Option is the interface implemented by all options for the S3 Calculator
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type S3Option interface {
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ApplyS3(*S3)
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}
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// NewS3 returns a new S3 Calculator with default values
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func NewS3(opts ...S3Option) *S3 {
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c := &S3{
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maxSleep: 2 * time.Second,
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decayConstant: 2,
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attackConstant: 1,
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}
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c.Update(opts...)
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return c
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}
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// Update applies the Calculator options.
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func (c *S3) Update(opts ...S3Option) {
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for _, opt := range opts {
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opt.ApplyS3(c)
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}
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}
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// ApplyS3 updates the value on the Calculator
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func (o MaxSleep) ApplyS3(c *S3) {
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c.maxSleep = time.Duration(o)
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}
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// ApplyS3 updates the value on the Calculator
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func (o MinSleep) ApplyS3(c *S3) {
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c.minSleep = time.Duration(o)
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}
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// ApplyS3 updates the value on the Calculator
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func (o DecayConstant) ApplyS3(c *S3) {
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c.decayConstant = uint(o)
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}
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// ApplyS3 updates the value on the Calculator
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func (o AttackConstant) ApplyS3(c *S3) {
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c.attackConstant = uint(o)
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}
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// Calculate takes the current Pacer state and return the wait time until the next try.
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func (c *S3) Calculate(state State) time.Duration {
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if t, ok := IsRetryAfter(state.LastError); ok {
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if t < c.minSleep {
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return c.minSleep
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}
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return t
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}
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if state.ConsecutiveRetries > 0 {
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if c.attackConstant == 0 {
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return c.maxSleep
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}
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if state.SleepTime == 0 {
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return c.minSleep
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}
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sleepTime := (state.SleepTime << c.attackConstant) / ((1 << c.attackConstant) - 1)
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if sleepTime > c.maxSleep {
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sleepTime = c.maxSleep
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}
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return sleepTime
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}
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sleepTime := (state.SleepTime<<c.decayConstant - state.SleepTime) >> c.decayConstant
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if sleepTime < c.minSleep {
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sleepTime = 0
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}
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return sleepTime
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}
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