func authenticateByPassword(c *redis.Client, password string) error {
if r := c.Cmd("AUTH", password); r.Err != nil {
logger.Errorf("Faild to authenticate. %s", r.Err)
return r.Err
}
return nil
}
func (u *Universe) SpawnAsteroid(redis_client *redis.Client) {
if rand.Float32() < 0.1 {
live_asteroids := redis_client.Cmd("KEYS", "asteroid-*")
num_asteroids := 1000
if len(live_asteroids.Elems) < num_asteroids {
temp_asteroid := &asteroid.Asteroid{gameobject.GameObject{
Id: rand.Intn(500000),
X: rand.Float64(),
Y: rand.Float64(),
Velx: rand.Float64() * 100,
Vely: rand.Float64() * 100},
100}
u.Asteroids = append(u.Asteroids, temp_asteroid)
asteroid_json, _ := json.Marshal(temp_asteroid)
redis_client.Cmd("SET", fmt.Sprintf("asteroid-%v", temp_asteroid.Id), asteroid_json)
}
// temp_bullet := &bullet.Bullet{gameobject.GameObject{
// Id: rand.Intn(500000),
// X: rand.Float64(),
// Y: rand.Float64(),
// Velx: rand.Float64() * 100,
// Vely: rand.Float64() * 100},
// 100}
// u.Bullets = append(u.Bullets,temp_bullet)
// redis_client.Cmd("SET", fmt.Sprintf("bullet-%v", temp_bullet.Id), temp_bullet)
}
}
func fetchPercentageOfMemory(c *redis.Client, stat map[string]float64) error {
r := c.Cmd("CONFIG", "GET", "maxmemory")
if r.Err != nil {
logger.Errorf("Failed to run `CONFIG GET maxmemory` command. %s", r.Err)
return r.Err
}
res, err := r.Hash()
if err != nil {
logger.Errorf("Failed to fetch maxmemory. %s", err)
return err
}
maxsize, err := strconv.ParseFloat(res["maxmemory"], 64)
if err != nil {
logger.Errorf("Failed to parse maxmemory. %s", err)
return err
}
if maxsize == 0.0 {
stat["percentage_of_memory"] = 0.0
} else {
stat["percentage_of_memory"] = 100.0 * stat["used_memory"] / maxsize
}
return nil
}
func getBackend(hostname string, defaultBackendType string, redisClient *redis.Client) (string, error) {
fmt.Println("Looking up", hostname)
backends, error := redisClient.Cmd("smembers", "hostnames:"+hostname+":backends").List()
if error != nil {
fmt.Println("Error in redis lookup for hostname backend", error)
return "", error
}
if len(backends) == 0 {
backends, error = redisClient.Cmd("smembers", "hostnames:"+defaultBackendType+":backends").List()
if error != nil {
fmt.Println("Error in redis lookup for default backend", error)
return "", error
}
if len(backends) == 0 {
fmt.Println("No default backend of type", defaultBackendType)
return "", errors.New("Could not find default backend of type " + defaultBackendType)
}
}
fmt.Println("Found backends:", backends)
backend := backends[int(rand.Float32()*float32(len(backends)))]
return backend, nil
}
func getRedisInfo(c *redis.Client) (*map[string]string, error) {
info := make(map[string]string)
r := c.Cmd("info")
if r.Err != nil {
return nil, errors.New("couldn't execute query")
}
str, err := r.Str()
if err != nil {
return nil, errors.New("couldn't execute query")
}
for _, line := range strings.Split(str, "\r\n") {
if line == "" {
continue
}
if re, _ := regexp.MatchString("^#", line); re {
continue
}
record := strings.SplitN(line, ":", 2)
if len(record) < 2 {
continue
}
key, value := record[0], record[1]
info[key] = value
}
return &info, nil
}
func SetRedisValue(redisClient *redis.Client, key string, value string) {
var reply *redis.Reply = redisClient.Cmd("SET", key, value)
if reply.Err != nil {
panic(reply.Err)
}
}
func list(connection *redis.Client) map[string][]string {
var blacklisted []string
var whitelisted []string
var marked []string
repsheet := connection.Cmd("KEYS", "*:repsheet:*:*")
for i := 0; i < len(repsheet.Elems); i++ {
value, _ := repsheet.Elems[i].Str()
parts := strings.Split(value, ":")
repsheetType := parts[len(parts)-1]
switch repsheetType {
case "blacklisted":
blacklisted = append(blacklisted, parts[0])
case "whitelisted":
whitelisted = append(whitelisted, parts[0])
case "marked":
marked = append(marked, parts[0])
}
}
var list = make(map[string][]string)
list["blacklisted"] = blacklisted
list["whitelisted"] = whitelisted
list["marked"] = marked
return list
}
// Returns a client back to the pool. If the pool is full the client is closed
// instead. If the client is already closed (due to connection failure or
// what-have-you) it should not be put back in the pool. The pool will create
// more connections as needed.
func (p *Pool) Put(conn *redis.Client) {
select {
case p.pool <- conn:
default:
conn.Close()
}
}
func storeCacheValues(rascalData []byte, cdnName string, sampleTime int64, cacheGroupMap map[string]string, redisClient *redis.Client) error {
/* note about the redis data:
keys are cdnName:deliveryService:cacheGroup:cacheName:statName
*/
type CacheStatsJson struct {
Pp string `json:"pp"`
Date string `json:"date"`
Caches map[string]map[string][]struct {
Index uint64 `json:"index"`
Time uint64 `json:"time"`
Value string `json:"value"`
Span uint64 `json:"span"`
} `json:"caches"`
}
var jData CacheStatsJson
err := json.Unmarshal(rascalData, &jData)
errHndlr(err, ERROR)
statCount := 0
statTotals := make(map[string]float64)
for cacheName, cacheData := range jData.Caches {
for statName, statData := range cacheData {
redisKey := cdnName + ":all:" + cacheGroupMap[cacheName] + ":" + cacheName + ":" + statName
redisKey = strings.Replace(redisKey, ":bandwidth", ":kbps", 1)
statValue := statData[0].Value
//fmt.Printf("%s ->%s\n", redisKey, statValue)
statCount++
statFloatValue, err := strconv.ParseFloat(statValue, 64)
if err != nil {
statFloatValue = 0.0
}
statTotals[cdnName+":all:"+cacheGroupMap[cacheName]+":all:"+statName] += statFloatValue
statTotals[cdnName+":all:all:all:"+statName] += statFloatValue
if statName == "maxKbps" {
r := redisClient.Cmd("zadd", redisKey, sampleTime, statValue) // only care for the last val here.
errHndlr(r.Err, ERROR)
} else {
r := redisClient.Cmd("rpush", redisKey, statValue)
errHndlr(r.Err, ERROR)
}
}
}
for totalKey, totalVal := range statTotals {
totalKey = strings.Replace(totalKey, ":bandwidth", ":kbps", 1)
if strings.Contains(totalKey, "maxKbps") {
r := redisClient.Cmd("zadd", totalKey, sampleTime, strconv.FormatFloat(totalVal, 'f', 2, 64))
errHndlr(r.Err, ERROR)
} else {
r := redisClient.Cmd("rpush", totalKey, strconv.FormatFloat(totalVal, 'f', 2, 64))
errHndlr(r.Err, ERROR)
}
statCount++
}
r := redisClient.Cmd("rpush", cdnName+":tstamp", sampleTime)
errHndlr(r.Err, ERROR)
log.Info("Saved ", statCount, " values for ", cdnName, " @ ", sampleTime)
return nil
}
func someFunc(c *redis.Client) (err error) {
reply := c.Cmd("set", "mykey", "myvalue")
// what is the recommended error
if reply.Err != nil {
return reply.Err
}
// some code here
return
}
func (rp *redisPool) FreeClient(c *redis.Client) {
select {
case rp.client_chan <- c:
// redisClient on free list; nothing more to do.
default:
// Free list full, close connection and let it get GC'd
log.Info("Free list is full - closing redis connection")
go c.Close()
}
}
func search(connection *redis.Client, actor string) bool {
searchString := fmt.Sprintf("%s:*", actor)
results := connection.Cmd("KEYS", searchString)
if len(results.Elems) == 1 {
return true
} else {
return false
}
}
// Removes and calls Close() on all the connections currently in the pool.
// Assuming there are no other connections waiting to be Put back this method
// effectively closes and cleans up the pool.
func (p *Pool) Empty() {
var conn *redis.Client
for {
select {
case conn = <-p.pool:
conn.Close()
default:
return
}
}
}
// Puts the connection back in the pool for the given address. Takes in a
// pointer to an error which can be used to decide whether or not to put the
// connection back. It's a pointer because this method is deferable (like
// CarefullyPut)
func (c *Cluster) putConn(addr string, conn *redis.Client, maybeErr *error) {
c.callCh <- func(c *Cluster) {
pool := c.pools[addr]
if pool == nil {
conn.Close()
return
}
pool.CarefullyPut(conn, maybeErr)
}
}
// A useful helper method which acts as a wrapper around Put. It will only
// actually Put the conn back if potentialErr is not an error or is a
// redis.CmdError. It would be used like the following:
//
// func doSomeThings(p *Pool) error {
// conn, redisErr := p.Get()
// if redisErr != nil {
// return redisErr
// }
// defer p.CarefullyPut(conn, &redisErr)
//
// var i int
// i, redisErr = conn.Cmd("GET", "foo").Int()
// if redisErr != nil {
// return redisErr
// }
//
// redisErr = conn.Cmd("SET", "foo", i * 3).Err
// return redisErr
// }
//
// If we were just using the normal Put we wouldn't be able to defer it because
// we don't want to Put back a connection which is broken. This method takes
// care of doing that check so we can still use the convenient defer
func (p *Pool) CarefullyPut(conn *redis.Client, potentialErr *error) {
if potentialErr != nil && *potentialErr != nil {
// We don't care about command errors, they don't indicate anything
// about the connection integrity
if _, ok := (*potentialErr).(*redis.CmdError); !ok {
conn.Close()
return
}
}
p.Put(conn)
}
func GetDomain(key string, conn *redis.Client) (string, error) {
reply := conn.Cmd("HGET", "$domainkeys", key)
if reply.Type == redis.NilReply {
return "", reply.Err
}
domain, err := reply.Str()
if err != nil {
return "", err
} else {
return domain, nil
}
}
/* the ds json looks like:
{
"deliveryService": {
"linear-gbr-hls-sbr": {
"location.us-ma-woburn.kbps": [{
"index": 520281,
"time": 1398893383605,
"value": "0",
"span": 520024
}],
"location.us-de-newcastle.kbps": [{
"index": 520281,
"time": 1398893383605,
"value": "0",
"span": 517707
}],
}
}
*/
func storeDsValues(rascalData []byte, cdnName string, sampleTime int64, redisClient *redis.Client, dsAggregate map[string]AggregationConfig) error {
type DsStatsJson struct {
Pp string `json:"pp"`
Date string `json:"date"`
DeliveryService map[string]map[string][]struct {
Index uint64 `json:"index"`
Time uint64 `json:"time"`
Value string `json:"value"`
Span uint64 `json:"span"`
} `json:"deliveryService"`
}
var jData DsStatsJson
err := json.Unmarshal(rascalData, &jData)
errHndlr(err, ERROR)
statCount := 0
statTotals := make(map[string]float64)
for dsName, dsData := range jData.DeliveryService {
for dsMetric, dsMetricData := range dsData {
keyPart := strings.Replace(dsMetric, "location.", "", -1)
keyPart = strings.Replace(keyPart, ".kbps", ":all:kbps", -1)
keyPart = strings.Replace(keyPart, ".tps", ":all:tps", -1)
keyPart = strings.Replace(keyPart, ".status", ":all:status", -1)
keyPart = strings.Replace(keyPart, "total:all:", "all:all:", -1) // for consistency all everywhere
redisKey := cdnName + ":" + dsName + ":" + keyPart
statValue := dsMetricData[0].Value
//fmt.Printf("%s ->%s\n", redisKey, statValue)
statCount++
aggConfig, exists := dsAggregate[dsMetric]
if exists {
statFloatValue, err := strconv.ParseFloat(statValue, 64)
if err != nil {
statFloatValue = 0.0
}
statTotals[cdnName+":all:all:all:"+aggConfig.RedisKey] += statFloatValue
}
r := redisClient.Cmd("rpush", redisKey, statValue)
errHndlr(r.Err, ERROR)
}
}
for totalKey, totalVal := range statTotals {
r := redisClient.Cmd("rpush", totalKey, strconv.FormatFloat(totalVal, 'f', 2, 64))
errHndlr(r.Err, ERROR)
statCount++
}
log.Info("Saved ", statCount, " ds values for ", cdnName, " @ ", sampleTime)
return nil
}
func addToList(connection *redis.Client, list string, actor string, reason string, ttl int) {
actorString := fmt.Sprintf("%s:repsheet:ip:%sed", actor, list)
if reason == "" {
reason = "true"
}
if ttl < 0 {
connection.Cmd("SET", actorString, reason)
} else {
connection.Cmd("SETEX", actorString, ttl, reason)
}
}
// benchmark benchmarks the given command with the given parameters
// and displays the given test name.
func benchmark(c *redis.Client, testname string, command string, params ...interface{}) {
fmt.Printf("===== %s =====\n", testname)
start := time.Now()
for i := 0; i < *requests; i++ {
c.Cmd(command, params...)
}
duration := time.Now().Sub(start)
rps := float64(*requests) / duration.Seconds()
fmt.Println("Requests per second:", rps)
fmt.Printf("Duration: %v\n\n", duration.Seconds())
}
// A useful helper method, analagous to the pool package's CarefullyPut method.
// Since we don't want to Put a connection which is having connectivity
// issues, this can be defered inside a function to make sure we only put back a
// connection when we should. It should be used like the following:
//
// func doSomeThings(c *Client) error {
// conn, redisErr := c.GetMaster("bucket0")
// if redisErr != nil {
// return redisErr
// }
// defer c.CarefullyPutMaster("bucket0", conn, &redisErr)
//
// var i int
// i, redisErr = conn.Cmd("GET", "foo").Int()
// if redisErr != nil {
// return redisErr
// }
//
// redisErr = conn.Cmd("SET", "foo", i * 3).Err
// return redisErr
// }
func (c *Client) CarefullyPutMaster(
name string, client *redis.Client, potentialErr *error,
) {
if potentialErr != nil && *potentialErr != nil {
// If the client sent back that it's READONLY then we don't want to keep
// this connection around. Otherwise, we don't care about command errors
if cerr, ok := (*potentialErr).(*redis.CmdError); !ok || cerr.Readonly() {
client.Close()
return
}
}
c.PutMaster(name, client)
}
func (self *OutputConfig) closeRedisClient() (err error) {
var (
client *redis.Client
)
for _, client = range self.clients {
client.Close()
}
self.clients = self.clients[:0]
return
}
func (u *Universe) InitUniverse(redis_client *redis.Client) {
live_asteroids := redis_client.Cmd("KEYS", "asteroid-*")
//load asteroids from db
u.Asteroids = make([]*asteroid.Asteroid, 0, len(live_asteroids.Elems))
for key := range live_asteroids.Elems {
asteroid := &asteroid.Asteroid{}
temp_asteroid := redis_client.Cmd("GET", live_asteroids.Elems[key])
if err := json.Unmarshal([]byte(temp_asteroid.String()), &asteroid); err != nil {
}
u.Asteroids = append(u.Asteroids, asteroid)
}
}
// Release pushes back client to pool (if number of available clients in the pool is < MaxClients),
// otherwise closes client
func Release(client *redis.Client) {
if client != nil {
if len(clients) < config.Cfg.DB.MaxClients {
log.Println("Releasing Db Client")
clients <- client
log.Println("Number of idle Db Clients: ", len(clients))
} else {
log.Println("Closing Db Client")
if err := client.Close(); err != nil {
log.Println("Close error: ", err)
}
}
}
}
func (s *Server) GetIdentIndex(db *redis.Client, start int, stop int) ([]Ident, error) {
zrange, err := db.Cmd("zrange", "nodes", start, stop).List()
if err != nil {
return []Ident{}, err
}
idents := make([]Ident, len(zrange))
for index, signature := range zrange {
ident, err := s.GetIdent(db, signature)
if err != nil {
return []Ident{}, err
}
idents[index] = ident
}
return idents, nil
}
func (u *Universe) Update(delta_time float64, redis_client *redis.Client) {
//here we run the game simulation
//check redis for api spawned things
//bullets
//should we spawn more asteroids?
u.SpawnAsteroid(redis_client)
//asteroid updates a.Update()
for _, a := range u.Asteroids {
a.Update(delta_time)
//write to redis
redis_client.Cmd("SET", fmt.Sprintf("asteroid-%v", a.Id), a.Dump())
}
}
func (s *Server) PutIdent(db *redis.Client, identity Ident) (Ident, error) {
data, err := identity.ToJson()
if err != nil {
return identity, err
}
zadd := db.Cmd("zadd", "nodes", time.Now().Unix(), identity.Signature)
if zadd.Err != nil {
return identity, zadd.Err
}
set := db.Cmd("set", node_key(identity.Signature), data)
if set.Err != nil {
return identity, set.Err
}
return identity, nil
}
func (s *Server) GetIdent(db *redis.Client, signature string) (Ident, error) {
ident := Ident{}
get := db.Cmd("get", node_key(signature))
if get.Err != nil {
return ident, get.Err
}
if get.Type == redis.NilReply {
return ident, errors.New(fmt.Sprintf("Ident %s does not exist.", signature))
}
str, err := get.Str()
if err != nil {
panic(err)
}
return NewIdentFromString(str)
}
func NewConnection() (*redis.Client, chan bool) {
var r *redis.Client
// we try to get a connection from the pool a number of times
for retries := 0; retries < 20; retries++ {
r = GetConnectionFromPool()
if r != nil {
break
}
redisLock.Lock()
breakOnCount := *connectionsAllocated < (connectionPoolCount / 4)
redisLock.Unlock()
if breakOnCount {
break
}
time.Sleep(time.Millisecond * 1)
}
if r == nil {
redisLock.Lock()
*connectionsAllocated++
r = redisinterface.SetupRedisConnection()
redisLock.Unlock()
fmt.Print("Connections initialized: ", *connectionsAllocated, "\n")
}
// buffered channel, as the connection
// may time out
returnChannel := make(chan bool, 1)
defer func(rChan chan bool) {
go func() {
select {
case _ = <-rChan:
AddConnectionToPool(r)
case <-time.After(time.Second * 60):
fmt.Print("Connection Timeout")
r.Close()
}
}()
}(returnChannel)
return r, returnChannel
}
func slugExists(redis *redis.Client, slug string) bool {
exists, err := redis.Cmd("HEXISTS", UrlStore, slug).Bool()
if err != nil {
fmt.Println("[!ERR] slugExists - ", err)
// TODO: Better to return true, but it could make infinite loop. Make better.
return false
}
return exists
}
func (self *OutputConfig) redisSend(client *redis.Client, key string, raw []byte) (err error) {
var (
res *redis.Reply
)
switch self.DataType {
case "list":
res = client.Cmd("rpush", key, raw)
err = res.Err
case "channel":
res = client.Cmd("publish", key, raw)
err = res.Err
default:
err = errors.New("unknown DataType: " + self.DataType)
}
return
}
