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215 lines
6.6 KiB
215 lines
6.6 KiB
/*
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*
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* Copyright 2016 gRPC authors.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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package grpc
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import (
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"fmt"
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"sync"
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"time"
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"google.golang.org/grpc/balancer"
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"google.golang.org/grpc/connectivity"
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"google.golang.org/grpc/resolver"
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)
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// The parent ClientConn should re-resolve when grpclb loses connection to the
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// remote balancer. When the ClientConn inside grpclb gets a TransientFailure,
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// it calls lbManualResolver.ResolveNow(), which calls parent ClientConn's
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// ResolveNow, and eventually results in re-resolve happening in parent
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// ClientConn's resolver (DNS for example).
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//
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// parent
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// ClientConn
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// +-----------------------------------------------------------------+
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// | parent +---------------------------------+ |
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// | DNS ClientConn | grpclb | |
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// | resolver balancerWrapper | | |
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// | + + | grpclb grpclb | |
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// | | | | ManualResolver ClientConn | |
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// | | | | + + | |
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// | | | | | | Transient | |
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// | | | | | | Failure | |
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// | | | | | <--------- | | |
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// | | | <--------------- | ResolveNow | | |
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// | | <--------- | ResolveNow | | | | |
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// | | ResolveNow | | | | | |
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// | | | | | | | |
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// | + + | + + | |
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// | +---------------------------------+ |
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// +-----------------------------------------------------------------+
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// lbManualResolver is used by the ClientConn inside grpclb. It's a manual
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// resolver with a special ResolveNow() function.
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//
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// When ResolveNow() is called, it calls ResolveNow() on the parent ClientConn,
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// so when grpclb client lose contact with remote balancers, the parent
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// ClientConn's resolver will re-resolve.
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type lbManualResolver struct {
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scheme string
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ccr resolver.ClientConn
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ccb balancer.ClientConn
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}
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func (r *lbManualResolver) Build(_ resolver.Target, cc resolver.ClientConn, _ resolver.BuildOption) (resolver.Resolver, error) {
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r.ccr = cc
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return r, nil
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}
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func (r *lbManualResolver) Scheme() string {
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return r.scheme
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}
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// ResolveNow calls resolveNow on the parent ClientConn.
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func (r *lbManualResolver) ResolveNow(o resolver.ResolveNowOption) {
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r.ccb.ResolveNow(o)
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}
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// Close is a noop for Resolver.
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func (*lbManualResolver) Close() {}
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// NewAddress calls cc.NewAddress.
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func (r *lbManualResolver) NewAddress(addrs []resolver.Address) {
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r.ccr.NewAddress(addrs)
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}
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// NewServiceConfig calls cc.NewServiceConfig.
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func (r *lbManualResolver) NewServiceConfig(sc string) {
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r.ccr.NewServiceConfig(sc)
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}
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const subConnCacheTime = time.Second * 10
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// lbCacheClientConn is a wrapper balancer.ClientConn with a SubConn cache.
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// SubConns will be kept in cache for subConnCacheTime before being removed.
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//
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// Its new and remove methods are updated to do cache first.
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type lbCacheClientConn struct {
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cc balancer.ClientConn
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timeout time.Duration
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mu sync.Mutex
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// subConnCache only keeps subConns that are being deleted.
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subConnCache map[resolver.Address]*subConnCacheEntry
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subConnToAddr map[balancer.SubConn]resolver.Address
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}
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type subConnCacheEntry struct {
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sc balancer.SubConn
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cancel func()
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abortDeleting bool
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}
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func newLBCacheClientConn(cc balancer.ClientConn) *lbCacheClientConn {
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return &lbCacheClientConn{
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cc: cc,
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timeout: subConnCacheTime,
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subConnCache: make(map[resolver.Address]*subConnCacheEntry),
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subConnToAddr: make(map[balancer.SubConn]resolver.Address),
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}
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}
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func (ccc *lbCacheClientConn) NewSubConn(addrs []resolver.Address, opts balancer.NewSubConnOptions) (balancer.SubConn, error) {
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if len(addrs) != 1 {
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return nil, fmt.Errorf("grpclb calling NewSubConn with addrs of length %v", len(addrs))
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}
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addrWithoutMD := addrs[0]
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addrWithoutMD.Metadata = nil
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ccc.mu.Lock()
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defer ccc.mu.Unlock()
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if entry, ok := ccc.subConnCache[addrWithoutMD]; ok {
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// If entry is in subConnCache, the SubConn was being deleted.
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// cancel function will never be nil.
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entry.cancel()
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delete(ccc.subConnCache, addrWithoutMD)
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return entry.sc, nil
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}
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scNew, err := ccc.cc.NewSubConn(addrs, opts)
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if err != nil {
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return nil, err
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}
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ccc.subConnToAddr[scNew] = addrWithoutMD
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return scNew, nil
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}
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func (ccc *lbCacheClientConn) RemoveSubConn(sc balancer.SubConn) {
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ccc.mu.Lock()
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defer ccc.mu.Unlock()
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addr, ok := ccc.subConnToAddr[sc]
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if !ok {
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return
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}
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if entry, ok := ccc.subConnCache[addr]; ok {
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if entry.sc != sc {
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// This could happen if NewSubConn was called multiple times for the
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// same address, and those SubConns are all removed. We remove sc
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// immediately here.
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delete(ccc.subConnToAddr, sc)
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ccc.cc.RemoveSubConn(sc)
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}
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return
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}
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entry := &subConnCacheEntry{
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sc: sc,
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}
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ccc.subConnCache[addr] = entry
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timer := time.AfterFunc(ccc.timeout, func() {
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ccc.mu.Lock()
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if entry.abortDeleting {
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return
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}
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ccc.cc.RemoveSubConn(sc)
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delete(ccc.subConnToAddr, sc)
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delete(ccc.subConnCache, addr)
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ccc.mu.Unlock()
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})
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entry.cancel = func() {
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if !timer.Stop() {
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// If stop was not successful, the timer has fired (this can only
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// happen in a race). But the deleting function is blocked on ccc.mu
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// because the mutex was held by the caller of this function.
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//
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// Set abortDeleting to true to abort the deleting function. When
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// the lock is released, the deleting function will acquire the
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// lock, check the value of abortDeleting and return.
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entry.abortDeleting = true
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}
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}
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}
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func (ccc *lbCacheClientConn) UpdateBalancerState(s connectivity.State, p balancer.Picker) {
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ccc.cc.UpdateBalancerState(s, p)
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}
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func (ccc *lbCacheClientConn) close() {
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ccc.mu.Lock()
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// Only cancel all existing timers. There's no need to remove SubConns.
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for _, entry := range ccc.subConnCache {
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entry.cancel()
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}
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ccc.mu.Unlock()
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}
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