2014-08-12 16:10:43 +00:00
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package ioutils
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import (
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"bytes"
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2014-12-08 14:10:36 +00:00
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"crypto/rand"
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2015-03-29 21:17:23 +00:00
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"crypto/sha256"
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"encoding/hex"
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2014-08-12 16:10:43 +00:00
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"io"
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2014-12-08 14:10:36 +00:00
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"math/big"
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2014-08-12 16:10:43 +00:00
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"sync"
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2014-12-08 14:10:36 +00:00
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"time"
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2014-08-12 16:10:43 +00:00
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)
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type readCloserWrapper struct {
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io.Reader
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closer func() error
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}
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func (r *readCloserWrapper) Close() error {
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return r.closer()
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}
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func NewReadCloserWrapper(r io.Reader, closer func() error) io.ReadCloser {
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return &readCloserWrapper{
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Reader: r,
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closer: closer,
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}
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}
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2014-08-20 20:50:42 +00:00
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type readerErrWrapper struct {
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reader io.Reader
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closer func()
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}
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func (r *readerErrWrapper) Read(p []byte) (int, error) {
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n, err := r.reader.Read(p)
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if err != nil {
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r.closer()
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}
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return n, err
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}
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func NewReaderErrWrapper(r io.Reader, closer func()) io.Reader {
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return &readerErrWrapper{
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reader: r,
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closer: closer,
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}
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}
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2014-12-08 14:10:36 +00:00
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// bufReader allows the underlying reader to continue to produce
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// output by pre-emptively reading from the wrapped reader.
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// This is achieved by buffering this data in bufReader's
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// expanding buffer.
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type bufReader struct {
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sync.Mutex
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buf *bytes.Buffer
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reader io.Reader
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err error
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wait sync.Cond
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drainBuf []byte
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reuseBuf []byte
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maxReuse int64
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resetTimeout time.Duration
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bufLenResetThreshold int64
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maxReadDataReset int64
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2014-08-12 16:10:43 +00:00
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}
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func NewBufReader(r io.Reader) *bufReader {
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2014-12-08 14:10:36 +00:00
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var timeout int
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if randVal, err := rand.Int(rand.Reader, big.NewInt(120)); err == nil {
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timeout = int(randVal.Int64()) + 180
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} else {
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timeout = 300
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}
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reader := &bufReader{
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buf: &bytes.Buffer{},
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drainBuf: make([]byte, 1024),
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reuseBuf: make([]byte, 4096),
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maxReuse: 1000,
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resetTimeout: time.Second * time.Duration(timeout),
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bufLenResetThreshold: 100 * 1024,
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maxReadDataReset: 10 * 1024 * 1024,
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reader: r,
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2014-08-19 16:58:07 +00:00
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}
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reader.wait.L = &reader.Mutex
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go reader.drain()
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return reader
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}
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func NewBufReaderWithDrainbufAndBuffer(r io.Reader, drainBuffer []byte, buffer *bytes.Buffer) *bufReader {
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reader := &bufReader{
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buf: buffer,
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drainBuf: drainBuffer,
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reader: r,
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2014-08-12 16:10:43 +00:00
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}
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reader.wait.L = &reader.Mutex
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go reader.drain()
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return reader
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}
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func (r *bufReader) drain() {
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var (
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duration time.Duration
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lastReset time.Time
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now time.Time
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reset bool
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bufLen int64
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dataSinceReset int64
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maxBufLen int64
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reuseBufLen int64
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reuseCount int64
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)
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reuseBufLen = int64(len(r.reuseBuf))
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lastReset = time.Now()
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for {
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2014-08-19 16:58:07 +00:00
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n, err := r.reader.Read(r.drainBuf)
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2014-12-08 14:10:36 +00:00
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dataSinceReset += int64(n)
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r.Lock()
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2014-12-08 14:10:36 +00:00
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bufLen = int64(r.buf.Len())
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if bufLen > maxBufLen {
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maxBufLen = bufLen
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}
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// Avoid unbounded growth of the buffer over time.
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// This has been discovered to be the only non-intrusive
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// solution to the unbounded growth of the buffer.
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// Alternative solutions such as compression, multiple
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// buffers, channels and other similar pieces of code
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// were reducing throughput, overall Docker performance
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// or simply crashed Docker.
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// This solution releases the buffer when specific
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// conditions are met to avoid the continuous resizing
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// of the buffer for long lived containers.
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//
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// Move data to the front of the buffer if it's
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// smaller than what reuseBuf can store
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if bufLen > 0 && reuseBufLen >= bufLen {
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n, _ := r.buf.Read(r.reuseBuf)
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r.buf.Write(r.reuseBuf[0:n])
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// Take action if the buffer has been reused too many
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// times and if there's data in the buffer.
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// The timeout is also used as means to avoid doing
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// these operations more often or less often than
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// required.
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// The various conditions try to detect heavy activity
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// in the buffer which might be indicators of heavy
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// growth of the buffer.
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} else if reuseCount >= r.maxReuse && bufLen > 0 {
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now = time.Now()
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duration = now.Sub(lastReset)
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timeoutReached := duration >= r.resetTimeout
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// The timeout has been reached and the
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// buffered data couldn't be moved to the front
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// of the buffer, so the buffer gets reset.
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if timeoutReached && bufLen > reuseBufLen {
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reset = true
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}
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// The amount of buffered data is too high now,
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// reset the buffer.
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if timeoutReached && maxBufLen >= r.bufLenResetThreshold {
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reset = true
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}
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// Reset the buffer if a certain amount of
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// data has gone through the buffer since the
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// last reset.
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if timeoutReached && dataSinceReset >= r.maxReadDataReset {
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reset = true
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}
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// The buffered data is moved to a fresh buffer,
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// swap the old buffer with the new one and
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// reset all counters.
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if reset {
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newbuf := &bytes.Buffer{}
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newbuf.ReadFrom(r.buf)
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r.buf = newbuf
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lastReset = now
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reset = false
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dataSinceReset = 0
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maxBufLen = 0
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reuseCount = 0
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}
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}
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2014-08-12 16:10:43 +00:00
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if err != nil {
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r.err = err
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} else {
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2014-08-19 16:58:07 +00:00
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r.buf.Write(r.drainBuf[0:n])
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2014-08-12 16:10:43 +00:00
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}
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2014-12-08 14:10:36 +00:00
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reuseCount++
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2014-08-12 16:10:43 +00:00
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r.wait.Signal()
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r.Unlock()
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2015-07-09 23:23:03 +00:00
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callSchedulerIfNecessary()
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2014-08-12 16:10:43 +00:00
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if err != nil {
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break
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}
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}
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}
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func (r *bufReader) Read(p []byte) (n int, err error) {
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r.Lock()
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defer r.Unlock()
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for {
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n, err = r.buf.Read(p)
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if n > 0 {
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return n, err
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}
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if r.err != nil {
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return 0, r.err
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}
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r.wait.Wait()
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}
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}
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func (r *bufReader) Close() error {
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closer, ok := r.reader.(io.ReadCloser)
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if !ok {
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return nil
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}
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return closer.Close()
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}
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2015-03-29 21:17:23 +00:00
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func HashData(src io.Reader) (string, error) {
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h := sha256.New()
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if _, err := io.Copy(h, src); err != nil {
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return "", err
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}
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return "sha256:" + hex.EncodeToString(h.Sum(nil)), nil
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}
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2015-05-17 09:07:48 +00:00
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type OnEOFReader struct {
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Rc io.ReadCloser
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Fn func()
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}
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func (r *OnEOFReader) Read(p []byte) (n int, err error) {
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n, err = r.Rc.Read(p)
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if err == io.EOF {
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r.runFunc()
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}
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return
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}
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func (r *OnEOFReader) Close() error {
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err := r.Rc.Close()
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r.runFunc()
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return err
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}
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func (r *OnEOFReader) runFunc() {
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if fn := r.Fn; fn != nil {
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fn()
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r.Fn = nil
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}
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}
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