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forgejo/modules/nosql/manager_redis.go
Gusted 9df10c5ac5
[FEAT] Only implement used API of Redis client
- Currently for the `nosql` module (which simply said provides a manager
for redis clients) returns the
[`redis.UniversalClient`](https://pkg.go.dev/github.com/redis/go-redis/v9#UniversalClient)
interface. The interfaces exposes all available commands.
- In generalm, dead code elimination should be able to take care of not
generating the machine code for methods that aren't being used. However
in this specific case, dead code elimination either is disabled or gives
up on trying because of exhaustive call stack the client by
`GetRedisClient` is used.
- Help the Go compiler by explicitly specifying which methods we use.
This reduces the binary size by ~400KB (397312 bytes). As Go no longer
generate machine code for commands that aren't being used.
- There's a **CAVEAT** with this, if a developer wants to use a new
method that isn't specified, they will have to know about this
hack (by following the definition of existing Redis methods) and add the
method definition from the Redis library to the `RedisClient` interface.
2024-08-30 04:33:15 +02:00

259 lines
6.8 KiB
Go

// Copyright 2020 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package nosql
import (
"crypto/tls"
"net/url"
"path"
"runtime/pprof"
"strconv"
"strings"
"code.gitea.io/gitea/modules/log"
"github.com/redis/go-redis/v9"
)
var replacer = strings.NewReplacer("_", "", "-", "")
// CloseRedisClient closes a redis client
func (m *Manager) CloseRedisClient(connection string) error {
m.mutex.Lock()
defer m.mutex.Unlock()
client, ok := m.RedisConnections[connection]
if !ok {
connection = ToRedisURI(connection).String()
client, ok = m.RedisConnections[connection]
}
if !ok {
return nil
}
client.count--
if client.count > 0 {
return nil
}
for _, name := range client.name {
delete(m.RedisConnections, name)
}
return client.RedisClient.Close()
}
// GetRedisClient gets a redis client for a particular connection
func (m *Manager) GetRedisClient(connection string) (client RedisClient) {
// Because we want associate any goroutines created by this call to the main nosqldb context we need to
// wrap this in a goroutine labelled with the nosqldb context
done := make(chan struct{})
var recovered any
go func() {
defer func() {
recovered = recover()
if recovered != nil {
log.Critical("PANIC during GetRedisClient: %v\nStacktrace: %s", recovered, log.Stack(2))
}
close(done)
}()
pprof.SetGoroutineLabels(m.ctx)
client = m.getRedisClient(connection)
}()
<-done
if recovered != nil {
panic(recovered)
}
return client
}
func (m *Manager) getRedisClient(connection string) RedisClient {
m.mutex.Lock()
defer m.mutex.Unlock()
client, ok := m.RedisConnections[connection]
if ok {
client.count++
return client
}
uri := ToRedisURI(connection)
client, ok = m.RedisConnections[uri.String()]
if ok {
client.count++
return client
}
client = &redisClientHolder{
name: []string{connection, uri.String()},
}
opts := getRedisOptions(uri)
tlsConfig := getRedisTLSOptions(uri)
clientName := uri.Query().Get("clientname")
if len(clientName) > 0 {
client.name = append(client.name, clientName)
}
switch uri.Scheme {
case "redis+sentinels":
fallthrough
case "rediss+sentinel":
opts.TLSConfig = tlsConfig
fallthrough
case "redis+sentinel":
client.RedisClient = redis.NewFailoverClient(opts.Failover())
case "redis+clusters":
fallthrough
case "rediss+cluster":
opts.TLSConfig = tlsConfig
fallthrough
case "redis+cluster":
client.RedisClient = redis.NewClusterClient(opts.Cluster())
case "redis+socket":
simpleOpts := opts.Simple()
simpleOpts.Network = "unix"
simpleOpts.Addr = path.Join(uri.Host, uri.Path)
client.RedisClient = redis.NewClient(simpleOpts)
case "rediss":
opts.TLSConfig = tlsConfig
fallthrough
case "redis":
client.RedisClient = redis.NewClient(opts.Simple())
default:
return nil
}
for _, name := range client.name {
m.RedisConnections[name] = client
}
client.count++
return client
}
// getRedisOptions pulls various configuration options based on the RedisUri format and converts them to go-redis's
// UniversalOptions fields. This function explicitly excludes fields related to TLS configuration, which is
// conditionally attached to this options struct before being converted to the specific type for the redis scheme being
// used, and only in scenarios where TLS is applicable (e.g. rediss://, redis+clusters://).
func getRedisOptions(uri *url.URL) *redis.UniversalOptions {
opts := &redis.UniversalOptions{}
// Handle username/password
if password, ok := uri.User.Password(); ok {
opts.Password = password
// Username does not appear to be handled by redis.Options
opts.Username = uri.User.Username()
} else if uri.User.Username() != "" {
// assume this is the password
opts.Password = uri.User.Username()
}
// Now handle the uri query sets
for k, v := range uri.Query() {
switch replacer.Replace(strings.ToLower(k)) {
case "addr":
opts.Addrs = append(opts.Addrs, v...)
case "addrs":
opts.Addrs = append(opts.Addrs, strings.Split(v[0], ",")...)
case "username":
opts.Username = v[0]
case "password":
opts.Password = v[0]
case "database":
fallthrough
case "db":
opts.DB, _ = strconv.Atoi(v[0])
case "maxretries":
opts.MaxRetries, _ = strconv.Atoi(v[0])
case "minretrybackoff":
opts.MinRetryBackoff = valToTimeDuration(v)
case "maxretrybackoff":
opts.MaxRetryBackoff = valToTimeDuration(v)
case "timeout":
timeout := valToTimeDuration(v)
if timeout != 0 {
if opts.DialTimeout == 0 {
opts.DialTimeout = timeout
}
if opts.ReadTimeout == 0 {
opts.ReadTimeout = timeout
}
}
case "dialtimeout":
opts.DialTimeout = valToTimeDuration(v)
case "readtimeout":
opts.ReadTimeout = valToTimeDuration(v)
case "writetimeout":
opts.WriteTimeout = valToTimeDuration(v)
case "poolsize":
opts.PoolSize, _ = strconv.Atoi(v[0])
case "minidleconns":
opts.MinIdleConns, _ = strconv.Atoi(v[0])
case "pooltimeout":
opts.PoolTimeout = valToTimeDuration(v)
case "maxredirects":
opts.MaxRedirects, _ = strconv.Atoi(v[0])
case "readonly":
opts.ReadOnly, _ = strconv.ParseBool(v[0])
case "routebylatency":
opts.RouteByLatency, _ = strconv.ParseBool(v[0])
case "routerandomly":
opts.RouteRandomly, _ = strconv.ParseBool(v[0])
case "sentinelmasterid":
fallthrough
case "mastername":
opts.MasterName = v[0]
case "sentinelusername":
opts.SentinelUsername = v[0]
case "sentinelpassword":
opts.SentinelPassword = v[0]
}
}
if uri.Host != "" {
opts.Addrs = append(opts.Addrs, strings.Split(uri.Host, ",")...)
}
// A redis connection string uses the path section of the URI in two different ways. In a TCP-based connection, the
// path will be a database index to automatically have the client SELECT. In a Unix socket connection, it will be the
// file path. We only want to try to coerce this to the database index when we're not expecting a file path so that
// the error log stays clean.
if uri.Path != "" && uri.Scheme != "redis+socket" {
if db, err := strconv.Atoi(uri.Path[1:]); err == nil {
opts.DB = db
} else {
log.Error("Provided database identifier '%s' is not a valid integer. Forgejo will ignore this option.", uri.Path)
}
}
return opts
}
// getRedisTlsOptions parses RedisUri TLS configuration parameters and converts them to the go TLS configuration
// equivalent fields.
func getRedisTLSOptions(uri *url.URL) *tls.Config {
tlsConfig := &tls.Config{}
skipverify := uri.Query().Get("skipverify")
if len(skipverify) > 0 {
skipverify, err := strconv.ParseBool(skipverify)
if err == nil {
tlsConfig.InsecureSkipVerify = skipverify
}
}
insecureskipverify := uri.Query().Get("insecureskipverify")
if len(insecureskipverify) > 0 {
insecureskipverify, err := strconv.ParseBool(insecureskipverify)
if err == nil {
tlsConfig.InsecureSkipVerify = insecureskipverify
}
}
return tlsConfig
}