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198 lines
6.9 KiB
Go
198 lines
6.9 KiB
Go
package main
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import (
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"errors"
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"io"
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"log"
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"math/rand"
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"sync"
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"sync/atomic"
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"time"
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)
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// Pool manages a set of resources that can be shared safely by
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// multiply goroutines. The resource been managed must implement
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// the io.Closer interface.
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// declares a struct named Pool that allows
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// the caller to create as many different pools as needed. Each pool can manage any type
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// of resource as long as the type implements the io.Closer interface.
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type Pool struct {
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// This mutex is used to keep all the operations against a Pool value-safe for multigoroutine access.
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m sync.Mutex
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// The second field is named resources and is declared as a channel of interface type io.Closer.
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// This channel will be created as a buffered channel and will contain the resources being shared.
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// Because an interface type is being used, the pool can manage any type of resource that
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// implements the io.Closer interface
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resources chan io.Closer
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// The factory field is of a function type. Any function that takes no parameters and
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// returns an io.Closer and an error interface value can be assigned to this field. The
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// purpose of this function is to create a new resource when the pool requires one. This
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// functionality is an implementation detail beyond the scope of the pool package and
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// needs to be implemented and supplied by the user using this package.
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factory func() (io.Closer, error)
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// This field is a flag that indicates the Pool is being shut down or is already shut down.
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closed bool
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}
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// ErrPoolClosed is returned when an Acquire returns on a closed pool.
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// Creating error interface variables is a common practice in Go. This allows the caller
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// to identify specific returned error values from any function or method within the package.
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var ErrPoolClosed = errors.New("Pool has been closed")
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// New creates a pool that manage resources. A pool requires a function
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// that can allocate a new resource and the size of the pool.
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// The function parameter represents a factory function that creates values of the resource being managed by the pool.
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// The second parameter, size, represents the size of the buffered channel created to hold the resources.
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func New(fn func() (io.Closer, error), size uint32) (*Pool, error) {
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// The first parameter, fn, is declared as a function type that accepts no parameters and
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// returns an io.Closer and an error interface value
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if size <= 0 {
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return nil, errors.New("Size value too small")
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}
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return &Pool{
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factory: fn,
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resources: make(chan io.Closer, size),
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}, nil
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}
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// Acquire retrieves a resource from the pool.
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// This method returns a resource from the pool if one is available, or creates a new one for the call.
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func (p *Pool) Acquire() (io.Closer, error) {
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select {
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// Check for free resources
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// using a select / case statement to check if there’s a resource in the buffered channel.
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case r, ok := <-p.resources:
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if !ok {
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return nil, ErrPoolClosed
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}
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log.Println("Aquire: ", "Shared Resource")
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return r, nil
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default:
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log.Println("Aquire: ", "New Resource")
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return p.factory()
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}
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}
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// Release place a new resource into the pool.
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// After a resource is acquired and no longer needed, it must be released back into
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// the pool. This is where the Release method comes in.
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func (p *Pool) Release(r io.Closer) {
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// Secure this operation with the Close operation.
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// The use of the mutex serves two purposes. First, it protects the
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// read on the closed flag on line 65 from happening at the same time as a write on this
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// flag in the Close method. Second, we don’t want to attempt to send on a closed channel because this will cause a panic. When the closed
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// field is false, we know the resources channel has been closed
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p.m.Lock()
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defer p.m.Unlock()
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// If the pool is closed, discard the resource
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// the Close method on the resource is called directly when the pool is
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// closed. This is because there’s no way to release the resource back into the pool. At
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// this point the pool has been both closed and flushed.
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if p.closed {
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r.Close()
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return
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}
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select {
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// Attempt to place the new resource on the queue
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case p.resources <- r:
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log.Println("Release: ", "In Queue")
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default:
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// If the queue is already at capacity we close the resource
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log.Println("Release:", "Closing")
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r.Close()
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}
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}
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// Close will shutdown the pool and close all existing resources.
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// Once the program is finished with the pool, it should call the Close method.
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// The method closes and flushes the buffered channel on lines 98 and 101, closing any resources that exist until the channel is
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// empty. All the code in this method must be executed by only one goroutine at a time.
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// In fact, when this code is being executed, goroutines must also be
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// prevented from executing code in the Release method. You’ll understand why this is important soon
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func (p *Pool) Close() {
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// Secure this operation with release operation.
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p.m.Lock()
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defer p.m.Unlock()
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// If the pool is already closed, do not do anything.
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if p.closed {
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return
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}
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// set the pool as closed.
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p.closed = true
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// Close the channel before we drain the channel of its
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// resources
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close(p.resources)
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// Close the resources
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for r := range p.resources {
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r.Close()
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}
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}
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const (
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maxGoroutines = 25
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pooledResources = 2
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)
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// dbConnection simulates a resource to share.
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type dbConnection struct {
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ID int32
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}
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// Close implements the io.Closer interface so dbConnection
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// can be managed by the pool. Close performs any resource
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// release management.
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func (dbConn *dbConnection) Close() error {
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log.Println("Close: Connection", dbConn.ID)
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return nil
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}
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// idCounter provides support for giving each connection a unique id.
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var idCounter int32
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// createConnection is a factory method that will be called by
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// the pool when a new connection is needed.
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func createConnection() (io.Closer, error) {
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id := atomic.AddInt32(&idCounter, 1)
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log.Println("Create: New Connection", id)
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return &dbConnection{id}, nil
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}
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func main() {
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var wg sync.WaitGroup
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wg.Add(maxGoroutines)
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// Create the pool to manage our connections.
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p, err := New(createConnection, pooledResources)
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if err != nil {
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log.Println(err)
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}
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// Perform queries using connections from the pool.
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for query := 0; query < maxGoroutines; query++ {
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// Each goroutine needs its own copy of the query
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// value else they will all be sharing the same query
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// variable.
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go func(q int) {
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performQueries(q, p)
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wg.Done()
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}(query)
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}
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// Wait for the goroutines to finish.
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wg.Wait()
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// Close the pool.
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log.Println("Shutdown Program.")
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p.Close()
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}
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// performQueries tests the resource pool of connections.
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func performQueries(query int, p *Pool) {
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// Acquire a connection from the pool.
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conn, err := p.Acquire()
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if err != nil {
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log.Println(err)
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return
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}
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// Release the connection back to the pool.
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defer p.Release(conn)
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// Wait to simulate a query response.
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time.Sleep(time.Duration(rand.Intn(1000)) * time.Millisecond)
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log.Printf("QID[%d] CID[%d]\n", query, conn.(*dbConnection).ID)
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}
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