056a52ba64
For better consistency with GetN
438 lines
11 KiB
Go
438 lines
11 KiB
Go
// Package freeport provides a helper for reserving free TCP ports across multiple
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// processes on the same machine. Each process reserves a block of ports outside
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// the ephemeral port range. Tests can request one of these reserved ports
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// and freeport will ensure that no other test uses that port until it is returned
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// to freeport.
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//
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// Freeport is particularly useful when the code being tested does not accept
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// a net.Listener. Any code that accepts a net.Listener (or uses net/http/httptest.Server)
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// can use port 0 (ex: 127.0.0.1:0) to find an unused ephemeral port that will
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// not conflict.
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//
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// Any code that does not accept a net.Listener or can not bind directly to port
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// zero should use freeport to find an unused port.
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package freeport
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import (
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"container/list"
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"fmt"
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"math/rand"
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"net"
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"os"
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"runtime"
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"sync"
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"time"
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)
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const (
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// maxBlocks is the number of available port blocks before exclusions.
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maxBlocks = 30
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// lowPort is the lowest port number that should be used.
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lowPort = 10000
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// attempts is how often we try to allocate a port block
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// before giving up.
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attempts = 10
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)
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var (
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// blockSize is the size of the allocated port block. ports are given out
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// consecutively from that block and after that point in a LRU fashion.
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blockSize int
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// effectiveMaxBlocks is the number of available port blocks.
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// lowPort + effectiveMaxBlocks * blockSize must be less than 65535.
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effectiveMaxBlocks int
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// firstPort is the first port of the allocated block.
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firstPort int
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// lockLn is the system-wide mutex for the port block.
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lockLn net.Listener
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// mu guards:
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// - pendingPorts
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// - freePorts
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// - total
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mu sync.Mutex
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// once is used to do the initialization on the first call to retrieve free
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// ports
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once sync.Once
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// condNotEmpty is a condition variable to wait for freePorts to be not
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// empty. Linked to 'mu'
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condNotEmpty *sync.Cond
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// freePorts is a FIFO of all currently free ports. Take from the front,
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// and return to the back.
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freePorts *list.List
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// pendingPorts is a FIFO of recently freed ports that have not yet passed
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// the not-in-use check.
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pendingPorts *list.List
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// total is the total number of available ports in the block for use.
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total int
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// stopCh is used to signal to background goroutines to terminate. Only
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// really exists for the safety of reset() during unit tests.
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stopCh chan struct{}
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// stopWg is used to keep track of background goroutines that are still
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// alive. Only really exists for the safety of reset() during unit tests.
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stopWg sync.WaitGroup
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)
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// initialize is used to initialize freeport.
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func initialize() {
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var err error
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blockSize = 1500
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limit, err := systemLimit()
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if err != nil {
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panic("freeport: error getting system limit: " + err.Error())
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}
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if limit > 0 && limit < blockSize {
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logf("INFO", "blockSize %d too big for system limit %d. Adjusting...", blockSize, limit)
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blockSize = limit - 3
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}
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effectiveMaxBlocks, err = adjustMaxBlocks()
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if err != nil {
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panic("freeport: ephemeral port range detection failed: " + err.Error())
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}
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if effectiveMaxBlocks < 0 {
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panic("freeport: no blocks of ports available outside of ephemeral range")
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}
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if lowPort+effectiveMaxBlocks*blockSize > 65535 {
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panic("freeport: block size too big or too many blocks requested")
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}
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rand.Seed(time.Now().UnixNano())
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firstPort, lockLn = alloc()
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condNotEmpty = sync.NewCond(&mu)
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freePorts = list.New()
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pendingPorts = list.New()
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// fill with all available free ports
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for port := firstPort + 1; port < firstPort+blockSize; port++ {
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if used := isPortInUse(port); !used {
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freePorts.PushBack(port)
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}
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}
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total = freePorts.Len()
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stopWg.Add(1)
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stopCh = make(chan struct{})
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// Note: we pass this param explicitly to the goroutine so that we can
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// freely recreate the underlying stop channel during reset() after closing
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// the original.
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go checkFreedPorts(stopCh)
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}
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func shutdownGoroutine() {
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mu.Lock()
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if stopCh == nil {
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mu.Unlock()
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return
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}
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close(stopCh)
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stopCh = nil
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mu.Unlock()
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stopWg.Wait()
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}
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// reset will reverse the setup from initialize() and then redo it (for tests)
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func reset() {
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logf("INFO", "resetting the freeport package state")
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shutdownGoroutine()
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mu.Lock()
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defer mu.Unlock()
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effectiveMaxBlocks = 0
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firstPort = 0
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if lockLn != nil {
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lockLn.Close()
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lockLn = nil
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}
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once = sync.Once{}
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freePorts = nil
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pendingPorts = nil
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total = 0
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}
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func checkFreedPorts(stopCh <-chan struct{}) {
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defer stopWg.Done()
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ticker := time.NewTicker(250 * time.Millisecond)
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for {
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select {
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case <-stopCh:
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logf("INFO", "Closing checkFreedPorts()")
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return
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case <-ticker.C:
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checkFreedPortsOnce()
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}
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}
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}
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func checkFreedPortsOnce() {
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mu.Lock()
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defer mu.Unlock()
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pending := pendingPorts.Len()
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remove := make([]*list.Element, 0, pending)
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for elem := pendingPorts.Front(); elem != nil; elem = elem.Next() {
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port := elem.Value.(int)
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if used := isPortInUse(port); !used {
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freePorts.PushBack(port)
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remove = append(remove, elem)
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}
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}
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retained := pending - len(remove)
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if retained > 0 {
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logf("WARN", "%d out of %d pending ports are still in use; something probably didn't wait around for the port to be closed!", retained, pending)
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}
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if len(remove) == 0 {
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return
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}
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for _, elem := range remove {
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pendingPorts.Remove(elem)
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}
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condNotEmpty.Broadcast()
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}
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// adjustMaxBlocks avoids having the allocation ranges overlap the ephemeral
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// port range.
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func adjustMaxBlocks() (int, error) {
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ephemeralPortMin, ephemeralPortMax, err := getEphemeralPortRange()
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if err != nil {
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return 0, err
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}
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if ephemeralPortMin <= 0 || ephemeralPortMax <= 0 {
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logf("INFO", "ephemeral port range detection not configured for GOOS=%q", runtime.GOOS)
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return maxBlocks, nil
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}
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logf("INFO", "detected ephemeral port range of [%d, %d]", ephemeralPortMin, ephemeralPortMax)
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for block := 0; block < maxBlocks; block++ {
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min := lowPort + block*blockSize
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max := min + blockSize
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overlap := intervalOverlap(min, max-1, ephemeralPortMin, ephemeralPortMax)
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if overlap {
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logf("INFO", "reducing max blocks from %d to %d to avoid the ephemeral port range", maxBlocks, block)
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return block, nil
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}
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}
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return maxBlocks, nil
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}
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// alloc reserves a port block for exclusive use for the lifetime of the
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// application. lockLn serves as a system-wide mutex for the port block and is
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// implemented as a TCP listener which is bound to the firstPort and which will
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// be automatically released when the application terminates.
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func alloc() (int, net.Listener) {
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for i := 0; i < attempts; i++ {
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block := int(rand.Int31n(int32(effectiveMaxBlocks)))
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firstPort := lowPort + block*blockSize
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ln, err := net.ListenTCP("tcp", tcpAddr("127.0.0.1", firstPort))
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if err != nil {
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continue
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}
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// logf("DEBUG", "allocated port block %d (%d-%d)", block, firstPort, firstPort+blockSize-1)
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return firstPort, ln
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}
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panic("freeport: cannot allocate port block")
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}
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// MustTake is the same as Take except it panics on error.
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//
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// Deprecated: Use GetN or GetOne instead.
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func MustTake(n int) (ports []int) {
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ports, err := Take(n)
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if err != nil {
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panic(err)
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}
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return ports
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}
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// Take returns a list of free ports from the reserved port block. It is safe
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// to call this method concurrently. Ports have been tested to be available on
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// 127.0.0.1 TCP but there is no guarantee that they will remain free in the
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// future.
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//
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// Most callers should prefer GetN or GetOne.
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func Take(n int) (ports []int, err error) {
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if n <= 0 {
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return nil, fmt.Errorf("freeport: cannot take %d ports", n)
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}
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mu.Lock()
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defer mu.Unlock()
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// Reserve a port block
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once.Do(initialize)
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if n > total {
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return nil, fmt.Errorf("freeport: block size too small")
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}
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for len(ports) < n {
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for freePorts.Len() == 0 {
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if total == 0 {
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return nil, fmt.Errorf("freeport: impossible to satisfy request; there are no actual free ports in the block anymore")
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}
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condNotEmpty.Wait()
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}
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elem := freePorts.Front()
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freePorts.Remove(elem)
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port := elem.Value.(int)
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if used := isPortInUse(port); used {
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// Something outside of the test suite has stolen this port, possibly
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// due to assignment to an ephemeral port, remove it completely.
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logf("WARN", "leaked port %d due to theft; removing from circulation", port)
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total--
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continue
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}
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ports = append(ports, port)
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}
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// logf("DEBUG", "free ports: %v", ports)
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return ports, nil
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}
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// peekFree returns the next port that will be returned by Take to aid in testing.
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func peekFree() int {
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mu.Lock()
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defer mu.Unlock()
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return freePorts.Front().Value.(int)
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}
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// peekAllFree returns all free ports that could be returned by Take to aid in testing.
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func peekAllFree() []int {
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mu.Lock()
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defer mu.Unlock()
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var out []int
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for elem := freePorts.Front(); elem != nil; elem = elem.Next() {
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port := elem.Value.(int)
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out = append(out, port)
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}
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return out
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}
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// stats returns diagnostic data to aid in testing
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func stats() (numTotal, numPending, numFree int) {
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mu.Lock()
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defer mu.Unlock()
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return total, pendingPorts.Len(), freePorts.Len()
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}
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// Return returns a block of ports back to the general pool. These ports should
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// have been returned from a call to Take().
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func Return(ports []int) {
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if len(ports) == 0 {
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return // convenience short circuit for test ergonomics
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}
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mu.Lock()
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defer mu.Unlock()
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for _, port := range ports {
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if port > firstPort && port < firstPort+blockSize {
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pendingPorts.PushBack(port)
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}
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}
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}
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func isPortInUse(port int) bool {
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ln, err := net.ListenTCP("tcp", tcpAddr("127.0.0.1", port))
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if err != nil {
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return true
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}
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ln.Close()
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return false
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}
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func tcpAddr(ip string, port int) *net.TCPAddr {
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return &net.TCPAddr{IP: net.ParseIP(ip), Port: port}
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}
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// intervalOverlap returns true if the doubly-inclusive integer intervals
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// represented by [min1, max1] and [min2, max2] overlap.
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func intervalOverlap(min1, max1, min2, max2 int) bool {
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if min1 > max1 {
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logf("WARN", "interval1 is not ordered [%d, %d]", min1, max1)
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return false
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}
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if min2 > max2 {
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logf("WARN", "interval2 is not ordered [%d, %d]", min2, max2)
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return false
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}
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return min1 <= max2 && min2 <= max1
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}
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func logf(severity string, format string, a ...interface{}) {
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fmt.Fprintf(os.Stderr, "["+severity+"] freeport: "+format+"\n", a...)
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}
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// TestingT is the minimal set of methods implemented by *testing.T that are
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// used by functions in freelist.
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//
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// In the future new methods may be added to this interface, but those methods
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// should always be implemented by *testing.T
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type TestingT interface {
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Helper()
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Fatalf(format string, args ...interface{})
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Cleanup(func())
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}
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// GetN returns n free ports from the reserved port block, and returns the
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// ports to the pool when the test ends. See Take for more details.
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func GetN(t TestingT, n int) []int {
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t.Helper()
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ports, err := Take(n)
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if err != nil {
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t.Fatalf("failed to take %v ports: %w", n, err)
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}
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t.Cleanup(func() {
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Return(ports)
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})
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return ports
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}
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// GetOne returns a single free port from the reserved port block, and returns the
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// port to the pool when the test ends. See Take for more details.
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// Use GetN if more than a single port is required.
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func GetOne(t TestingT) int {
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t.Helper()
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return GetN(t, 1)[0]
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}
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// Deprecated: Please use Take/Return calls instead.
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func Get(n int) (ports []int) { return MustTake(n) }
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// Deprecated: Please use Take/Return calls instead.
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func GetT(t TestingT, n int) (ports []int) { return MustTake(n) }
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// Deprecated: Please use Take/Return calls instead.
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func Free(n int) (ports []int, err error) { return MustTake(n), nil }
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