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test_redis_client.go
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test_redis_client.go
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package rmq
import (
"errors"
"strings"
"sync"
"time"
)
//TestRedisClient is a mock for redis
type TestRedisClient struct {
store sync.Map
ttl sync.Map
}
var lock sync.Mutex
//NewTestRedisClient returns a NewTestRedisClient
func NewTestRedisClient() *TestRedisClient {
return &TestRedisClient{}
}
// Set sets key to hold the string value.
// If key already holds a value, it is overwritten, regardless of its type.
// Any previous time to live associated with the key is discarded on successful SET operation.
func (client *TestRedisClient) Set(key string, value string, expiration time.Duration) bool {
lock.Lock()
defer lock.Unlock()
client.store.Store(key, value)
//Delete any previous time to live associated with the key
client.ttl.Delete(key)
//0.0 expiration means that the value won't expire
if expiration.Seconds() != 0.0 {
//Store the unix time at which we should delete this
client.ttl.Store(key, time.Now().Add(expiration).Unix())
}
return true
}
// Get the value of key.
// If the key does not exist or isn't a string
// the special value nil is returned.
func (client *TestRedisClient) Get(key string) string {
value, found := client.store.Load(key)
if found {
if stringValue, casted := value.(string); casted {
return stringValue
}
}
return "nil"
}
//Del removes the specified key. A key is ignored if it does not exist.
func (client *TestRedisClient) Del(key string) (affected int, ok bool) {
_, found := client.store.Load(key)
client.store.Delete(key)
client.ttl.Delete(key)
if found {
return 1, true
}
return 0, false
}
// TTL returns the remaining time to live of a key that has a timeout.
// This introspection capability allows a Redis client to check how many seconds a given key will continue to be part of the dataset.
// In Redis 2.6 or older the command returns -1 if the key does not exist or if the key exist but has no associated expire.
// Starting with Redis 2.8 the return value in case of error changed:
// The command returns -2 if the key does not exist.
// The command returns -1 if the key exists but has no associated expire.
func (client *TestRedisClient) TTL(key string) (ttl time.Duration, ok bool) {
//Lookup the expiration map
expiration, found := client.ttl.Load(key)
//Found an expiration time
if found {
//It was there, but it expired; removing it now
if expiration.(int64) < time.Now().Unix() {
client.ttl.Delete(key)
return -2, false
}
ttl = time.Duration(expiration.(int64) - time.Now().Unix())
return ttl, true
}
//Lookup the store in case this key exists but don't have an expiration
//date
_, found = client.store.Load(key)
//The key was in store but didn't have an expiration associated
//to it.
if found {
return -1, false
}
return -2, false
}
// LPush inserts the specified value at the head of the list stored at key.
// If key does not exist, it is created as empty list before performing the push operations.
// When key holds a value that is not a list, an error is returned.
// It is possible to push multiple elements using a single command call just specifying multiple arguments
// at the end of the command. Elements are inserted one after the other to the head of the list,
// from the leftmost element to the rightmost element.
func (client *TestRedisClient) LPush(key, value string) bool {
lock.Lock()
defer lock.Unlock()
list, err := client.findList(key)
if err != nil {
return false
}
client.storeList(key, append([]string{value}, list...))
return true
}
//LLen returns the length of the list stored at key.
//If key does not exist, it is interpreted as an empty list and 0 is returned.
//An error is returned when the value stored at key is not a list.
func (client *TestRedisClient) LLen(key string) (affected int, ok bool) {
list, err := client.findList(key)
if err != nil {
return 0, false
}
return len(list), true
}
// LRem removes the first count occurrences of elements equal to
// value from the list stored at key. The count argument influences
// the operation in the following ways:
// count > 0: Remove elements equal to value moving from head to tail.
// count < 0: Remove elements equal to value moving from tail to head.
// count = 0: Remove all elements equal to value. For example,
// LREM list -2 "hello" will remove the last two occurrences of "hello" in
// the list stored at list. Note that non-existing keys are treated like empty
// lists, so when key does not exist, the command will always return 0.
func (client *TestRedisClient) LRem(key string, count int, value string) (affected int, ok bool) {
lock.Lock()
defer lock.Unlock()
list, err := client.findList(key)
//Wasn't a list, or is empty
if err != nil || len(list) == 0 {
return 0, true
}
//Create a list that have the capacity to store
//the old one
//This will be much more performant in case of
//very long list
newList := make([]string, 0, len(list))
if err != nil {
return 0, false
}
//left to right removal of count elements
if count >= 0 {
//All the elements are to be removed.
//Set count to max possible elements
if count == 0 {
count = len(list)
}
//left to right traversal
for index := 0; index < len(list); index++ {
//isn't what we look for or we found enough element already
if strings.Compare(list[index], value) != 0 || affected > count {
newList = append(newList, list[index])
} else {
affected++
}
}
//right to left removal of count elements
} else if count < 0 {
//right to left traversal
for index := len(list) - 1; index >= 0; index-- {
//isn't what we look for or we found enough element already
if strings.Compare(list[index], value) != 0 || affected > count {
//prepend instead of append to keep the order
newList = append([]string{list[index]}, newList...)
} else {
affected++
}
}
}
//store the updated list
client.storeList(key, newList)
return affected, true
}
// LTrim trims an existing list so that it will contain only the specified range of elements specified.
// Both start and stop are zero-based indexes, where 0 is the first element of the list (the head),
// 1 the next element and so on. For example: LTRIM foobar 0 2 will modify the list stored
// at foobar so that only the first three elements of the list will remain.
// start and end can also be negative numbers indicating offsets from the end of the list,
// where -1 is the last element of the list, -2 the penultimate element and so on.
// Out of range indexes will not produce an error: if start is larger than the end of the list,
// or start > end, the result will be an empty list (which causes key to be removed).
// If end is larger than the end of the list, Redis will treat it like the last element of the list
func (client *TestRedisClient) LTrim(key string, start, stop int) {
lock.Lock()
defer lock.Unlock()
list, err := client.findList(key)
//Wasn't a list, or is empty
if err != nil || len(list) == 0 {
return
}
if start < 0 {
start += len(list)
}
if stop < 0 {
stop += len(list)
}
//invalid values cause the remove of the key
if start > stop {
client.store.Delete(key)
return
}
client.storeList(key, list[start:stop])
}
// RPopLPush atomically returns and removes the last element (tail) of the list stored at source,
// and pushes the element at the first element (head) of the list stored at destination.
// For example: consider source holding the list a,b,c, and destination holding the list x,y,z.
// Executing RPOPLPUSH results in source holding a,b and destination holding c,x,y,z.
// If source does not exist, the value nil is returned and no operation is performed.
// If source and destination are the same, the operation is equivalent to removing the
// last element from the list and pushing it as first element of the list,
// so it can be considered as a list rotation command.
func (client *TestRedisClient) RPopLPush(source, destination string) (value string, ok bool) {
lock.Lock()
defer lock.Unlock()
sourceList, sourceErr := client.findList(source)
destList, destErr := client.findList(destination)
//One of the two isn't a list
if sourceErr != nil || destErr != nil {
return "", false
}
//we have one element to move
if len(sourceList) > 0 {
//Remove the last element of source (tail)
client.storeList(source, sourceList[0:len(sourceList)-1])
//Put the last element of source (tail) and prepend it to dest
client.storeList(destination, append([]string{sourceList[len(sourceList)-1]}, destList...))
return sourceList[len(sourceList)-1], true
}
return "", false
}
// LRange returns the specified elements of the list stored at key.
// The offsets start and stop are zero-based indexes, with 0 being
// the first element of the list (the head of the list), 1 being
// the next element and so on.
// These offsets can also be negative numbers indicating offsets
// starting at the end of the list. For example, -1 is the last
// element of the list, -2 the penultimate, and so on.
func (client *TestRedisClient) LRange(key string, start, end int) []string {
list, err := client.findList(key)
if list == nil || err != nil || len(list) == 0 || end < 0 {
return []string{}
}
if start >= 0 {
if end >= len(list) {
end = len(list)
}
return list[start:end]
}
if end > -start {
return list[len(list)+start:]
}
return list[len(list)+start : len(list)+start+end]
}
// SAdd adds the specified members to the set stored at key.
// Specified members that are already a member of this set are ignored.
// If key does not exist, a new set is created before adding the specified members.
// An error is returned when the value stored at key is not a set.
func (client *TestRedisClient) SAdd(key, value string) bool {
lock.Lock()
defer lock.Unlock()
set, err := client.findSet(key)
if err != nil {
return false
}
set[value] = struct{}{}
client.storeSet(key, set)
return true
}
// SMembers returns all the members of the set value stored at key.
// This has the same effect as running SINTER with one argument key.
func (client *TestRedisClient) SMembers(key string) (members []string) {
set, err := client.findSet(key)
if err != nil {
return members
}
members = make([]string, 0, len(set))
for k := range set {
members = append(members, k)
}
return members
}
// SRem removes the specified members from the set stored at key.
// Specified members that are not a member of this set are ignored.
// If key does not exist, it is treated as an empty set and this command returns 0.
// An error is returned when the value stored at key is not a set.
func (client *TestRedisClient) SRem(key, value string) (affected int, ok bool) {
lock.Lock()
defer lock.Unlock()
set, err := client.findSet(key)
if err != nil || len(set) == 0 {
return 0, false
}
if _, found := set[value]; found != false {
delete(set, value)
return 1, true
}
return 0, true
}
// FlushDb delete all the keys of the currently selected DB. This command never fails.
func (client *TestRedisClient) FlushDb() {
client.store = *new(sync.Map)
client.ttl = *new(sync.Map)
}
//storeSet stores a set
func (client *TestRedisClient) storeSet(key string, set map[string]struct{}) {
client.store.Store(key, set)
}
//findSet finds a set
func (client *TestRedisClient) findSet(key string) (map[string]struct{}, error) {
//Lookup the store for the list
storedValue, found := client.store.Load(key)
if found {
//list are stored as pointer to []string
set, casted := storedValue.(map[string]struct{})
if casted {
return set, nil
}
return nil, errors.New("Stored value wasn't a set")
}
//return an empty set if not found
return make(map[string]struct{}), nil
}
//storeList is an helper function so others don't have to deal with pointers
func (client *TestRedisClient) storeList(key string, list []string) {
client.store.Store(key, &list)
}
//findList returns the list stored at key.
//if key doesn't exist, an empty list is returned
//an error is returned when the value at key isn't a list
func (client *TestRedisClient) findList(key string) ([]string, error) {
//Lookup the store for the list
storedValue, found := client.store.Load(key)
if found {
//list are stored as pointer to []string
list, casted := storedValue.(*[]string)
//Successful cass from interface{} to *[]string
//Preprend the new key
if casted {
//This mock use sync.Map to be thread safe.
//sync.Map only accepts interface{} as values and
//in order to store an array as interface{}, you need
//to use a pointer to it.
//We could return the pointer instead of the value
//and gain some performances here. Returning the pointer,
//however, will open us up to race conditions.
return *list, nil
}
return nil, errors.New("Stored value wasn't a list")
}
//return an empty list if not found
return []string{}, nil
}