灵感来了挡也挡不住，基于Redis解决业务场景中延迟队列

在一次产品需求设计中，有这样一种场景，对于一个工单，专员可以选择将工单挂起（一次挂起2小时；二次挂起12小时），或者转存（表单输入转存的天数），然后提交工单 到既定时间后，该工单需要重新被领单，然后再次审核。对于工单，有优先级概念，意味着优先级越大，该工单则需要优先被派单，对于这种场景，我们可以基于Redis来解决场景问题。

一、业务概述

我们假定设置两个队列，一个队列维护正式工单，另一个队列维护挂起工单。对于挂起操作，我们通过Redis设置key有效时间，当key失效时，客户端监听失效事件，获取工单，实现 挂起工单队列的移除，正式队列的入队即可。

业务流程图：

 

二、代码实现

 

整个业务实现，可以分为三个大模块。

• 队列模块，通过WorkOrderQueueTransfer带外提供内部的调用。
• 工单模块、通过OperateStrategyManager管理器实现工单相关场景的操作。
• 事件监听、通过继承KeyExpirationEventMessageListener，实现对Key过期失效的监听（特别说明：Redis服务器redis.conf需要开启Key过期失效通知）。

2.1、工单队列实现

我们可以基于Redis ZSet数据存储，ZSet是个有序集合，可以实现基于score排序。

2.1.1、定义上下文类（WorkOrderContext）

1. /**

2. * @description: 工单上下文对象

3. * @Date : 2020/7/13 下午4:28

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Data

7. @NoArgsConstructor

8. @AllArgsConstructor

9. @Builder

10. public class WorkOrderContext {

11. /**

12. * 是否测试人员专用

13. */

14. private boolean isTest;

15. /**

16. * 工单号

17. */

18. private WorkOrder worOrder;

19. /**

20. * 队列类型

21. */

22. private QueueType queueType;

23. /**

24. * 创建-正式队列（立即需要被派单

25. * @return

26. */

27. public static WorkOrderContext buildImmediate() {

28. return WorkOrderContext.builder().queueType(QueueType.immediate).build();

29. } /**

30. * 创建-挂起队列（挂起n小时执行）

31. * @return

32. */

33. public static WorkOrderContext buildSuspended() {

34. return WorkOrderContext.builder().queueType(QueueType.suspended).build();

35. } /**

36. * 转存队列（转存n天后执行）

37. * @return

38. */

39. public static WorkOrderContext buildStored() {

40. return WorkOrderContext.builder().queueType(QueueType.stored).build();

41. } /**

42. * 创建-正式队列（立即需要被派单）

43. *

44. * @param workCode

45. * @param priority

46. * @return

47. */

48. public static WorkOrderContext buildImmediate(String workCode, double priority) {

49. WorkOrder workOrder = WorkOrder.builder().workCode(workCode).priority(priority).delayedTime(0).build();

50. return WorkOrderContext.builder().worOrder(workOrder).queueType(QueueType.immediate).build();

51. } /**

52. * 创建-挂起队列（挂起n小时执行）

53. *

54. * @param workCode

55. * @param priority

56. * @param delayedTime

57. * @return

58. */

59. public static WorkOrderContext buildSuspended(String workCode, double priority, long delayedTime) {

60. WorkOrder workOrder = WorkOrder.builder().workCode(workCode).priority(priority).delayedTime(delayedTime).build(); return WorkOrderContext.builder().worOrder(workOrder).queueType(QueueType.suspended).build();

61. } /**

62. * 转存队列（转存n天后执行）

63. *

64. * @param workCode

65. * @param priority

66. * @param delayedTime

67. * @return

68. */

69. public static WorkOrderContext buildStored(String workCode, double priority, long delayedTime) {

70. WorkOrder workOrder = WorkOrder.builder().workCode(workCode).priority(priority).delayedTime(delayedTime).build(); return WorkOrderContext.builder().worOrder(workOrder).queueType(QueueType.stored).build();

71. } /**

72. * 队列类型

73. */

74. public enum QueueType {

75. /**

76. * 正式队列（立即需要被派单）

77. */

78. immediate, /**

79. * 挂起队列（挂起n小时执行）

80. */

81. suspended, /**

82. * 转存队列（转存n天后执行）

83. */

84. stored } @Data

85. @NoArgsConstructor

86. @AllArgsConstructor

87. @Builder

88. public static class WorkOrder {

89. /**

90. * 工单号

91. */

92. private String workCode;

93. /**

94. * 优先级

95. */

96. private double priority;

97. /**

98. * 延迟时间

99. */

100. private long delayedTime;

101. }}

2.1.2、定义抽象缓存类（AbstractCacheManager）

该抽象类定义了一个方法，抽象定义了一个具有重试机制的方法。其中注入的BeanRedisService是咱们子类基于Redis API的封装。

1. /**

2. * @description: 抽象缓存管理器

3. * @Date : 2020/7/18 下午9:41

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Slf4j

7. public abstract class AbstractCacheManager {

8. final int MAX_RETRIES = 3;

9. @Autowired

10. RedisService redisService; /**

11. * 重试操作

12. * @param retries 重试次数

13. * @param context 上下文

14. * @param call 重试动作

15. */

16. public <T> void retry(int retries, T context, Function<Integer,Boolean> call){

17. boolean done = false;

18. int retry = 1;

19. do {

20. try {

21. done = call.apply(retry); log.info("[retry] context={},retry={},done={}", JSONObject.toJSON(context),retry,done);

22. retry ++; TimeUnit.MILLISECONDS.sleep(100);

23. } catch (Exception e) {

24. log.error("[retry] 异常 ctx={}", JSONObject.toJSON(context),e);

25. retry ++; } }while (retry <= retries && !done);

26. }}

2.1.3、定义基于Redis Cache的Manager类（WorkOrderCacheManager）

该类的主要作用，基于Redis String对象存储，实现具有Key失效机制的存储。

• 内部静态类CacheValue，作为Redis String对象存储的Value值。
• 内部枚举类CacheType，维护了缓存Key的业务前缀。
• 特别说明的是，我们构成Redis String存储Key的命名规则，例如：carCarthage:stored_cache_单号。

1. /**

2. * @description: 工单缓存管理器

3. * @Date : 2020/7/14 下午4:28

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Component

7. @Slf4j

8. public class WorkOrderCacheManager extends AbstractCacheManager{

9. /**

10. * 设置缓存并设置缓存失效日期

11. * @param cache

12. */

13. public void setCacheInExpire(CacheValue cache){

14. retry(MAX_RETRIES,cache,idx -> { String redisKey = redisService.getKey(getRedisKeySuffix(cache.getType(),cache.getWorkCode())); redisService.set(redisKey, JSONObject.toJSONString(cache),cache.getExpireSeconds()); log.info("[setCacheInExpire],redisKey={},CacheValue={}",redisKey,JSONObject.toJSONString(cache));

15. return Boolean.TRUE;

16. }); } /**

17. * 查询某个工单号的缓存值

18. * @param cacheType 缓存类型 {@link CacheType}

19. * @param workCode 工单号

20. * @return

21. */

22. public CacheValue get(CacheType cacheType,String workCode){

23. String redisKey = redisService.getKey(getRedisKeySuffix(cacheType,workCode)); String value = redisService.get(redisKey,String.class);

24. return JSONObject.parseObject(value,CacheValue.class);

25. } /**

26. * 从上下文队列类型获取队列redis key

27. * @param cacheType 缓存类型 {@link CacheType}

28. * @param workCode 工单号

29. * @return

30. */

31. String getRedisKeySuffix(CacheType cacheType,String workCode){

32. switch (cacheType){

33. case stored_cache:

34. return CacheType.stored_cache.getKey() + workCode;

35. case suspended_cache:

36. return CacheType.suspended_cache.getKey() + workCode;

37. default:

38. break;

39. } return null;

40. } /**

41. * 缓存值

42. */

43. @Data

44. @NoArgsConstructor

45. @AllArgsConstructor

46. @Builder

47. public static class CacheValue{

48. /**

49. * 缓存类型

50. */

51. private CacheType type;

52. /**

53. * 工单号

54. */

55. private String workCode;

56. /**

57. * 优先级

58. */

59. private double priority;

60. /**

61. * 延迟截止时间(单位：时间戳)

62. */

63. private long delayedTime;

64. /**

65. * 缓存失效时间(单位：秒)

66. */

67. private long expireSeconds;

68. /**

69. * 创建-挂起队列（挂起n小时执行）

70. *

71. * @param workCode

72. * @param priority

73. * @param delayedTime

74. * @param expireSeconds

75. * @return

76. */

77. public static CacheValue buildSuspended(String workCode, double priority, long delayedTime,long expireSeconds) {

78. return CacheValue.builder()

79. .type(CacheType.suspended_cache) .workCode(workCode) .priority(priority) .delayedTime(delayedTime) .expireSeconds(expireSeconds) .build(); } /**

80. * 转存队列（转存n天后执行）

81. *

82. * @param workCode

83. * @param priority

84. * @param delayedTime

85. * @param expireSeconds

86. * @return

87. */

88. public static CacheValue buildStored(String workCode, double priority, long delayedTime,long expireSeconds) {

89. return CacheValue.builder()

90. .type(CacheType.stored_cache) .workCode(workCode) .priority(priority) .delayedTime(delayedTime) .expireSeconds(expireSeconds) .build(); } } /**

91. * 实现 挂起|转存 缓存key

92. */

93. @Getter

94. public enum CacheType{

95. stored_cache("stored_cache_"),

96. suspended_cache("suspended_cache_"),

97. ; CacheType(String key) { this.key = key;

98. } private String key;

99. }}

2.1.4、工单队列管理器（WorkOrderQueueManager）

该类基于Redis ZSet 对象结构的有序集合，可以实现按照优先级出队。

相关方法介绍：

• String getRedisKey(WorkOrderContext context)：从 WorkOrderContext中获取队列类型，返回集合要存储的Key。
• Long queueSize(WorkOrderContext context)：返回队列大小
• Boolean leftPush(WorkOrderContext context)：执行处理（入队操作）
• Boolean leftPushIfAbsent(WorkOrderContext context)：执行处理（入队操作），如果入队元素缺席则入队，返回true；否则返回false。
• Long remove(WorkOrderContext context)：从队列移除某个元素
• WorkOrderContext.WorkOrder pop(WorkOrderContext context)：从集合中获取评分最小的成员出队
• Set<WorkOrderContext.WorkOrder> rank(WorkOrderContext context)：按照升序查看队列中所有成员
• Long removeRange(String key, long start, long end)：按照范围移除队列元素
• Long removeValues(String key, List<Object> values)：移除指定元素
• long getDelayedTime(WorkOrderContext.QueueType queueType,String workCode)：获取对应工单的延迟时间（适用于 挂起 和 转存）

1. /**

2. * @description: 工单队列管理器

3. * @Date : 2020/7/14 下午4:28

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Component

7. @Slf4j

8. public class WorkOrderQueueManager extends AbstractCacheManager{

9. final String LOCK_KEY = "ZSET_ATOMIC_LOCK";

10. @Autowired

11. ZSetOperations<String, Object> zSetOperations; @Autowired

12. WorkOrderCacheManager workOrderCacheManager; /**

13. * 从上下文队列类型获取队列redis key

14. * @param context

15. * @return

16. */

17. String getRedisKey(WorkOrderContext context){ String keySuffix = null;

18. switch (context.getQueueType()){ case immediate: keySuffix = CarthageConst.WorkOrderKey.IMMEDIATE_QUEUE_DEFAULT; break;

19. case stored: keySuffix = CarthageConst.WorkOrderKey.STORED_QUEUE_DEFAULT; break;

20. case suspended: keySuffix = CarthageConst.WorkOrderKey.SUSPENDED_QUEUE_DEFAULT; break;

21. default:

22. break;

23. } if(null != keySuffix){

24. if(context.isTest()){

25. keySuffix += CarthageConst.TEST_SUFFIX; } return redisService.getKey(keySuffix);

26. } return null;

27. } /**

28. * 返回队列大小

29. * @param context

30. * @return

31. */

32. public Long queueSize(WorkOrderContext context) {

33. return zSetOperations.size(getRedisKey(context));

34. } /**

35. * 执行处理（入队操作）

36. * @param context

37. * @return

38. */

39. public Boolean leftPush(WorkOrderContext context) {

40. String redisKey = getRedisKey(context); String workCode = context.getWorOrder().getWorkCode(); double priority = context.getWorOrder().getPriority(); Boolean action = zSetOperations.add(redisKey,workCode,priority);

41. if(Objects.equals(Boolean.FALSE,action)){

42. Long value = zSetOperations.rank(redisKey,workCode);

43. log.info("[Queue.leftPush],hasLeftPushed,action={},value={}, context={}", action,value,JSONObject.toJSON(context));

44. if(Objects.nonNull(value)){

45. return Boolean.TRUE;

46. } } log.info("[Queue.leftPush] context={}", JSONObject.toJSON(context));

47. retry(MAX_RETRIES,context,idx -> action); return Optional.ofNullable(action).orElse(Boolean.FALSE);

48. } /**

49. * 执行处理（入队操作）

50. * 如果入队元素缺席则入队，返回true；否则返回false。

51. * @param context

52. * @return

53. */

54. public Boolean leftPushIfAbsent(WorkOrderContext context) {

55. String redisKey = getRedisKey(context); String workCode = context.getWorOrder().getWorkCode(); double priority = context.getWorOrder().getPriority(); Boolean action = zSetOperations.add(redisKey,workCode,priority);

56. log.info("[WorkOrderQueue.leftPushIfAbsent,action={},context={}",action, JSONObject.toJSON(context));

57. return Optional.ofNullable(action).orElse(Boolean.FALSE);

58. } /**

59. * 从队列移除某个元素

60. * @param context

61. * @return

62. */

63. public Long remove(WorkOrderContext context){

64. String redisKey = getRedisKey(context); String workCode = context.getWorOrder().getWorkCode(); log.info("[WorkOrderQueue.remove] context={}", JSONObject.toJSON(context));

65. Long rem = zSetOperations.remove(redisKey,workCode);

66. Long action = Optional.ofNullable(rem).orElse(0L);

67. retry(MAX_RETRIES,context,idx -> action.longValue() > 0);

68. return action;

69. } /**

70. * 从集合中获取评分最小的成员出队

71. * @param context

72. * @return

73. */

74. public WorkOrderContext.WorkOrder pop(WorkOrderContext context) {

75. WorkOrderContext.WorkOrder workOrder = null;

76. try {

77. String redisKey = getRedisKey(context); //通过分布式锁，实现 zset 的 zpopmin 命令操作

78. boolean locked = redisService.lock(LOCK_KEY,5000);

79. if(locked){

80. //1、取出第一个最小评分元素

81. Set<ZSetOperations.TypedTuple<Object>> set = redisService.zSetOperations().rangeWithScores(redisKey,0,0);

82. if(set.isEmpty()){

83. return null;

84. }

85. //2、移除该最小评分元素

86. Long value = redisService.zSetOperations().removeRange(redisKey,0,0);

87. retry(MAX_RETRIES,context,idx -> value.longValue() > 0);

88. //3、返回出队成员

89. workOrder = WorkOrderContext.WorkOrder.builder().build();

90. for(ZSetOperations.TypedTuple<Object> each : set){

91. workOrder.setWorkCode(each.getValue().toString());

92. workOrder.setPriority(each.getScore());

93. workOrder.setDelayedTime(0);

94. break;

95. }

96. }

97. } catch (Exception e) {

98. log.error("[WorkOrderQueue.pop] exception ctx={}", JSONObject.toJSON(context));

99. }finally {

100. redisService.unlock(LOCK_KEY);

101. }

102. return workOrder;

103. }

104. /**

105. * 按照升序查看队列中所有成员

106. * @param context

107. * @return

108. */

109. public Set<WorkOrderContext.WorkOrder> rank(WorkOrderContext context) {

110. Set<ZSetOperations.TypedTuple<Object>> set = redisService.zSetOperations().rangeWithScores(getRedisKey(context),0,-1);

111. Set<WorkOrderContext.WorkOrder> members = Sets.newLinkedHashSetWithExpectedSize(set.size());

112. set.forEach(each -> {

113. WorkOrderContext.WorkOrder every = WorkOrderContext.WorkOrder.builder()

114. .workCode(each.getValue().toString())

115. .priority(each.getScore())

116. .delayedTime(getDelayedTime(context.getQueueType(),each.getValue().toString()))

117. .build();

118. members.add(every);

119. });

120. return members;

121. }

122. /**

123. * 按照范围移除队列元素

124. * @param key

125. * @param start

126. * @param end

127. * @return

128. */

129. public Long removeRange(String key, long start, long end){

130. String redisKey = redisService.getKey(key);

131. Long count = zSetOperations.removeRange(redisKey,start,end);

132. log.info("[WorkOrderQueue.removeRange] redisKey={},start={},end={},count={}", redisKey,start,end,count);

133. return count;

134. }

135. /**

136. * 移除指定元素

137. * @param key

138. * @param values

139. * @return

140. */

141. public Long removeValues(String key, List<Object> values){

142. String redisKey = redisService.getKey(key);

143. LongAdder longAdder = new LongAdder();

144. values.forEach(each -> {

145. Long count = zSetOperations.remove(redisKey,each);

146. longAdder.add(count);

147. });

148. Long count = longAdder.longValue();

149. log.info("[WorkOrderQueue.removeValues] redisKey={},values={},count={}", redisKey,JSONObject.toJSONString(values),count);

150. return count;

151. }

152. /**

153. * 获取对应工单的延迟时间（适用于 挂起 和 转存）

154. * @param queueType

155. * @param workCode

156. * @return

157. */

158. long getDelayedTime(WorkOrderContext.QueueType queueType,String workCode){

159. long delayedTime = 0;

160. WorkOrderCacheManager.CacheType cacheType = null;

161. switch (queueType){

162. case suspended:

163. cacheType = WorkOrderCacheManager.CacheType.suspended_cache;

164. break;

165. case stored:

166. cacheType = WorkOrderCacheManager.CacheType.stored_cache;

167. break;

168. default:

169. break;

170. }

171. if(null != cacheType){

172. WorkOrderCacheManager.CacheValue cacheValue = workOrderCacheManager.get(cacheType,workCode);

173. if(null != cacheValue){

174. delayedTime = cacheValue.getDelayedTime();

175. }

176. }

177. return delayedTime;

178. }

179. }

2.2、工单队列转移管理器

2.2.1、工单队列转移管理器（WorkOrderQueueTransfer）

该类实现延迟队列出队、正式队列入队的原子操作（通过Redis分布式锁实现）。

1. /**

2. * @description: 工单队列转移管理器

3. * @Date : 2020/7/23 下午6:15

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Component

7. @Slf4j

8. public class WorkOrderQueueTransfer extends AbstractCacheManager{

9. final static String ATOMIC_KEY = "delayed_queue_key_expire_lock_{0}";

10. final static long ATOMIC_KEY_EXPIRE = 5000;

11. @Autowired

12. RedisService redisService; @Autowired

13. WorkOrderQueueManager workOrderQueueManager; @Autowired

14. WorkOrderCacheManager workOrderCacheManager; /**

15. * 从[挂起|暂存]队列转移到正式队列中

16. * @param cacheType 挂起|暂存

17. * @param delayedContext

18. * @return

19. */

20. public Boolean transferImmediateQueue(WorkOrderCacheManager.CacheType cacheType,WorkOrderContext delayedContext){

21. boolean tryLock = false;

22. Boolean done = Boolean.FALSE; String lockKey = null;

23. try {

24. WorkOrderContext.WorkOrder workOrder = delayedContext.getWorOrder(); lockKey = redisService.getKey(MessageFormat.format(ATOMIC_KEY,workOrder.getWorkCode())); tryLock = redisService.lock(lockKey,ATOMIC_KEY_EXPIRE); if(tryLock){

25. //1、构建正式队列

26. WorkOrderContext immediateContext = WorkOrderContext.buildImmediate(workOrder.getWorkCode(),workOrder.getPriority());

27. done = workOrderQueueManager.leftPushIfAbsent(immediateContext);

28. //2、从当前延迟队列移除该元素

29. Long count = workOrderQueueManager.remove(delayedContext);

30. log.info("[挂起|转存队remove],count={},delayedContext={}", count,JSONObject.toJSONString(delayedContext));

31. }

32. } catch (Exception e) {

33. log.error("[transferImmediateQueue]异常,delayedContext={},cacheType={}", JSONObject.toJSONString(delayedContext),cacheType);

34. }finally {

35. if(Objects.nonNull(lockKey) && tryLock){

36. redisService.unlock(lockKey);

37. }

38. }

39. return Optional.ofNullable(done).orElse(Boolean.FALSE);

40. }

41. }

2.3、Redis过期key监听

2.3.1、Redis过期回调监听（RedisKeyExpirationListener）

1. /**

2. * @description: Redis过期回调监听

3. * @Date : 2020/7/18 上午10:43

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Component

7. @Slf4j

8. public class RedisKeyExpirationListener extends KeyExpirationEventMessageListener {

9. final static String STORED_CACHE_KEY_PREFIX = WorkOrderCacheManager.CacheType.stored_cache.getKey();

10. final static String SUSPENDED_CACHE_KEY_PREFIX = WorkOrderCacheManager.CacheType.suspended_cache.getKey();

11. @Autowired

12. TraceLogService traceLogService; @Autowired

13. RedisService redisService; @Autowired

14. WorkOrderService workOrderService; @Autowired

15. DelayedScheduledOperateBridge delayedScheduledOperateBridge; public RedisKeyExpirationListener(RedisMessageListenerContainer listenerContainer) {

16. super(listenerContainer);

17. } @Override

18. public void onMessage(Message message, byte[] pattern) {

19. Date startTime = TimeTools.createNowTime(); String expiredKey = message.toString(); String bizPrefix = redisService.getKeyPrefix().getName(); if(!expiredKey.startsWith(bizPrefix)){

20. return;

21. } String caseOfStored = redisService.getKey(STORED_CACHE_KEY_PREFIX); String caseOfSuspended = redisService.getKey(SUSPENDED_CACHE_KEY_PREFIX); WorkOrderCacheManager.CacheType cacheType; WorkOrderContext.QueueType queueType; if(expiredKey.startsWith(caseOfStored)){

22. queueType = WorkOrderContext.QueueType.stored; cacheType = WorkOrderCacheManager.CacheType.stored_cache; }else if(expiredKey.startsWith(caseOfSuspended)){

23. queueType = WorkOrderContext.QueueType.suspended; cacheType = WorkOrderCacheManager.CacheType.suspended_cache; }else{

24. return;

25. } String workCode = getWorkCode(expiredKey); log.info("监听到 redis key=[{}] 已过期",expiredKey);

26. if(Objects.nonNull(workCode)){

27. log.info("监听到 redis key=[{}],挂起|转存工单开始处理，workCode={}",expiredKey,workCode);

28. WorkOrder workOrder = workOrderService.queryOne(workCode); if(Objects.isNull(workOrder)){

29. log.info("监听到 redis key=[{}],挂起|转存工单开始处理，未找到工单，workCode={}",expiredKey,workCode);

30. return;

31. } WorkOrderContext delayedContext = WorkOrderContext.builder() .worOrder(WorkOrderContext.WorkOrder.builder().delayedTime(5).priority(workOrder.getCasePriority()).workCode(workOrder.getWorkCode()).build())

32. .queueType(queueType). build(); Boolean done = delayedScheduledOperateBridge.transferImmediateQueue(cacheType,delayedContext); saveTraceLog(delayedContext,done,traceLog -> { JSONObject requestBody = new JSONObject();

33. requestBody.put("expiredKey",expiredKey);

34. requestBody.put("workCode",workCode);

35. traceLog.setRequestBody(requestBody.toJSONString()); traceLog.setRequestTime(startTime); }); } } /**

36. * traceLog入库

37. * @param context

38. * @param done

39. * @param consumer

40. */

41. void saveTraceLog(WorkOrderContext context, Boolean done, Consumer<TraceLog> consumer){

42. try {

43. String hostAddress = InetAddress.getLocalHost().getHostAddress(); JSONObject responseBody = new JSONObject();

44. responseBody.put("workOrderContext",context);

45. responseBody.put("transferImmediateQueue",done);

46. TraceLog traceLog = TraceLog.builder() .appCode(context.getWorOrder().getWorkCode()) .url("["+hostAddress+"]redisKeyExpirationListener.onMessage")

47. .target(this.getClass().getPackage().getName() + "." + this.getClass().getSimpleName())

48. .responseBody(responseBody.toJSONString()) .responseTime(TimeTools.createNowTime()) .traceType(TraceTypeEnum.REDIS_KEY_EXPIRE.getIndex()) .build(); consumer.accept(traceLog); traceLogService.insertRecord(traceLog); } catch (Exception e) {

49. log.error("saveTraceLog exception,[context={}]",JSONObject.toJSONString(context),e);

50. } } /**

51. * 从字符串截取制定的工单号

52. * @param value

53. * @return

54. */

55. String getWorkCode(String value){

56. return value.substring(value.lastIndexOf("_") + 1);

57. }}

2.4、延迟订单既定处理桥接器

该类的主要作用，就是通过WorkOrderQueueTransfer实现队列元素的转移，同时通过OperateStrategyManager实现工单的数据库表操作。

1. /**

2. * @description: 延迟订单既定处理处理桥接

3. * 场景描述：挂起|转存 工单到既定时间的处理

4. * @Date : 2020/7/23 22:20

5. * @Author : Seig Heil

6. */

7. @Slf4j

8. @Component

9. public class DelayedScheduledOperateBridge {

10. static final String LOCK_KEY = CarthageConst.KEY_EXPIRE_LISTENER_LOCK;

11. static final long EXPIRE_SECONDS = 120;

12. @Autowired

13. RedisService redisService; @Autowired

14. WorkOrderQueueTransfer workOrderQueueTransfer; @Autowired

15. OperateStrategyManager operateStrategyManager; /**

16. * 实现从延迟队列到正式队列的转移业务处理，同时更新工单的状态

17. * @param cacheType

18. * @param delayedContext

19. * @return

20. */

21. public Boolean transferImmediateQueue(WorkOrderCacheManager.CacheType cacheType, WorkOrderContext delayedContext){

22. String workCode = delayedContext.getWorOrder().getWorkCode(); boolean tryLock = false;

23. String redisKey = null;

24. try {

25. redisKey = redisService.getKey(MessageFormat.format(LOCK_KEY,workCode)); tryLock = redisService.lock(redisKey,EXPIRE_SECONDS); if(!tryLock){

26. log.info("[DelayedScheduledOperateBridge.tryLock={}获取锁失败,redisKey={}]挂起|转存既定时间处理幂等，workCode={}",tryLock,redisKey,workCode);

27. } if(tryLock){

28. log.info("[DelayedScheduledOperateBridge.tryLock={}获取锁成功,redisKey={}]挂起|转存既定时间处理幂等，workCode={}",tryLock,redisKey,workCode);

29. Boolean done = workOrderQueueTransfer.transferImmediateQueue(cacheType,delayedContext);

30. if(!done.booleanValue()){

31. return Boolean.FALSE;

32. } OperateContext operateContext = OperateContext.builder() .operateStrategyEnum(OperateContext.OperateStrategyEnum.DELAYED_SCHEDULED_ORDER) .operateParam( OperateContext.OperateParam.builder().workCode(workCode).build() ).build(); operateStrategyManager.execute(operateContext); log.info("[DelayedScheduledOperateBridge.transferImmediateQueue],delayedContext={},callResult={}",

33. JSONObject.toJSONString(delayedContext),JSONObject.toJSONString(operateContext.getExecuteResult())); return operateContext.getExecuteResult().isSuccess();

34. } } catch (Exception e) {

35. log.error("[DelayedScheduledOperateBridge]挂起|转存既定时间处理异常，workCode={},delayedContext={}",workCode,JSONObject.toJSONString(delayedContext));

36. }finally {

37. if(tryLock){

38. redisService.unlock(redisKey); } } return false;

39. }}

2.5、工单操作管理器

该类的主要作用，就是对外暴露工单操作策略类的管理，外部无需关注策略类的存在，策略类实例的创建由该类负责。

• 通过OPERATE_STRATEGY_MAP维护枚举和策略类Bean的映射。
• 通过init()实现OPERATE_STRATEGY_MAP容器的初始化工作。
• 通过Result<String> execute(OperateContext context)实现对外提供策略类的操作。

1. /**

2. * @description: GPS工单操作策略管理类

3. * @Date : 2020/7/15 下午5:43

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Component

7. @Slf4j

8. public class OperateStrategyManager {

9. static final Map<OperateContext.OperateStrategyEnum, AbstractOperateStrategy> OPERATE_STRATEGY_MAP = Maps.newHashMapWithExpectedSize(6);

10. @Autowired

11. CreateOperateStrategy createOperateStrategy; @Autowired

12. AllotOrderOperateStrategy allotOrderOperateStrategy; @Autowired

13. SubmitWithFinishOperateStrategy submitWithFinishOperateStrategy; @Autowired

14. SubmitWithStoreOperateStrategy submitWithStoreOperateStrategy; @Autowired

15. SubmitWithSuspendOperateStrategy submitWithSuspendOperateStrategy; @Autowired

16. DelayedScheduledOperateStrategy delayedScheduledOperateStrategy; @Autowired

17. AssignOrderOperateStrategy assignOrderOperateStrategy; @PostConstruct

18. private void init() {

19. OPERATE_STRATEGY_MAP.put(OperateContext.OperateStrategyEnum.INIT_WORK_ORDER, createOperateStrategy); OPERATE_STRATEGY_MAP.put(OperateContext.OperateStrategyEnum.ALLOT_WORK_ORDER, allotOrderOperateStrategy); OPERATE_STRATEGY_MAP.put(OperateContext.OperateStrategyEnum.STORE_WORK_ORDER, submitWithStoreOperateStrategy); OPERATE_STRATEGY_MAP.put(OperateContext.OperateStrategyEnum.SUSPEND_WORK_ORDER, submitWithSuspendOperateStrategy); OPERATE_STRATEGY_MAP.put(OperateContext.OperateStrategyEnum.FINISH_WORK_ORDER, submitWithFinishOperateStrategy); OPERATE_STRATEGY_MAP.put(OperateContext.OperateStrategyEnum.DELAYED_SCHEDULED_ORDER, delayedScheduledOperateStrategy); OPERATE_STRATEGY_MAP.put(OperateContext.OperateStrategyEnum.ASSIGN_ORDER, assignOrderOperateStrategy); } /**

20. * 对外提供对策略类的调用

21. * @param context

22. * @return

23. */

24. public Result<String> execute(OperateContext context) {

25. StopWatch stopWatch = new StopWatch();

26. stopWatch.start("OperateStrategyManager.execute");

27. AbstractOperateStrategy operateStrategy = OPERATE_STRATEGY_MAP.get(context.getOperateStrategyEnum()); context.buildExecuteResultWithSuccess(); operateStrategy.execute(context); Result<Boolean> executeResult = context.getExecuteResult(); if(context.getExecuteResult().isSuccess()) {

28. return Result.suc(executeResult.getMsg());

29. } stopWatch.stop(); long spendMillSeconds = stopWatch.getLastTaskTimeMillis();

30. long duration = (System.currentTimeMillis() - spendMillSeconds) / 1000;

31. String executeResultMsg = executeResult.getMsg(); log.info("[execute] done,duration={},executeResultMsg={}",duration,executeResultMsg);

32. return Result.fail(RemoteEnum.FAILURE, executeResultMsg);

33. }}

2.6、工单策略类实现

由于工单涉及到创建、挂起、转存、处理完结等操作，因此对于这类场景我们可以通过策略类来实现。

2.6.1、挂起操作

1. /**

2. * @description: 提交调查结果（挂起操作）-策略类

3. * @Date : 2020/7/15 下午5:32

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Slf4j

7. @Component

8. public class SubmitWithSuspendOperateStrategy extends AbstractSubmitOperateStrategy{

9. static final Map<MoveToEnum,AttentionEventEnum> suspend_to_attention_event_map = new HashMap<>();

10. static final Map<MoveToEnum,WorkOrderStatusEnum.SubStatusEnum> suspend_to_sub_status_map = new HashMap<>();

11. static final Map<MoveToEnum,Integer> suspend_count_map = new HashMap<>();

12. static {

13. suspend_to_attention_event_map.put(MoveToEnum.SUSPENDED_AT_ONCE,AttentionEventEnum.SUSPENDED_AT_ONCE); suspend_to_attention_event_map.put(MoveToEnum.SUSPENDED_AT_TWICE,AttentionEventEnum.SUSPENDED_AT_TWICE); suspend_to_sub_status_map.put(MoveToEnum.SUSPENDED_AT_ONCE,WorkOrderStatusEnum.SubStatusEnum.SUSPENDED_AT_ONCE); suspend_to_sub_status_map.put(MoveToEnum.SUSPENDED_AT_TWICE,WorkOrderStatusEnum.SubStatusEnum.SUSPENDED_AT_TWICE); suspend_count_map.put(MoveToEnum.SUSPENDED_AT_ONCE,1);

14. suspend_count_map.put(MoveToEnum.SUSPENDED_AT_TWICE,2);

15. log.info("init... suspend_to_attention_event_map={}",suspend_to_attention_event_map.toString());

16. log.info("init... suspend_to_sub_status_map={}",suspend_to_sub_status_map.toString());

17. log.info("init... suspend_count_map={}",suspend_count_map.toString());

18. } @Autowired

19. DiamondConfigProxy diamondConfigProxy; @Override

20. public void prepare(OperateContext context) {

21. super.prepare(context);

22. SurveyResult surveyResult = context.getSurveyResult(); MoveToEnum moveToEnum = MoveToEnum.getByIndex(surveyResult.getMoveTo()); AttentionEvent attentionEvent = suspend_to_attention_event_map.getOrDefault(moveToEnum,null);

23. ATTENTION_EVENT_CONTEXT.set(attentionEvent); context.setAttentionEvent(attentionEvent); } @Override

24. WorkOrder buildWorkOrder(OperateContext context){

25. SurveyResult surveyResult = context.getSurveyResult(); MoveToEnum moveToEnum = MoveToEnum.getByIndex(surveyResult.getMoveTo()); WorkOrder workOrder = super.buildWorkOrder(context);

26. workOrder.setSuspendedCount(suspend_count_map.getOrDefault(moveToEnum,0).intValue());

27. workOrder.setMainStatus(WorkOrderStatusEnum.WAITING.getIndex()); workOrder.setSubStatus(suspend_to_sub_status_map.get(moveToEnum).getIndex()); workOrder.setIsFinished(Const.NON_INDEX); workOrder.setIsStore(Const.NON_INDEX); workOrder.setDelayedTime(context.getOperateParam().getDelayedTime()); return workOrder;

28. } @Override

29. void operationExtend(OperateContext context) {

30. long delayedTime = context.getOperateParam().getDelayedTime().getTime();

31. int delayedSeconds = context.getOperateParam().getDelayedSeconds();

32. WorkOrder workOrder = context.getWorkOrder(); WorkOrderContext cxt = WorkOrderContext.buildSuspended(workOrder.getWorkCode(),workOrder.getCasePriority(),delayedTime); workOrderQueueManager.leftPush(cxt); WorkOrderCacheManager.CacheValue cacheValue = WorkOrderCacheManager.CacheValue. buildSuspended(workOrder.getWorkCode(),workOrder.getCasePriority(),delayedTime,delayedSeconds); workOrderCacheManager.setCacheInExpire(cacheValue); super.operationExtend(context);

33. } @Override

34. public void setDelayedTime(OperateContext context) {

35. SurveyResult surveyResult = context.getSurveyResult(); MoveToEnum moveToEnum = MoveToEnum.getByIndex(surveyResult.getMoveTo()); DiamondConfig.SuspendOrderConfig suspendOrderConfig = diamondConfigProxy.suspendOrderConfig(); Date delayedTime = TimeTools.createNowTime(); int timeUnit = Calendar.HOUR_OF_DAY;

36. int delayedSeconds = 0;

37. int value = suspendOrderConfig.getConfig().getOrDefault(moveToEnum.name(),0);

38. switch (suspendOrderConfig.getTimeUnit()){

39. case "DAY":

40. timeUnit = Calendar.DAY_OF_YEAR; delayedSeconds = value * 24 * 3600;

41. break;

42. case "HOUR":

43. timeUnit = Calendar.HOUR_OF_DAY; delayedSeconds = value * 3600;

44. break;

45. case "MINUTE":

46. timeUnit = Calendar.MINUTE; delayedSeconds = value * 60;

47. break;

48. case "SECOND":

49. timeUnit = Calendar.SECOND; delayedSeconds = value; break;

50. default:

51. break;

52. } TimeTools.addTimeField(delayedTime, timeUnit,value); context.getOperateParam().setDelayedTime(delayedTime); context.getOperateParam().setDelayedSeconds(delayedSeconds); }}

2.6.2、转存操作

1. /**

2. * @description: 提交调查结果（转存操作）-策略类

3. * @Date : 2020/7/15 下午5:32

4. * @Author : 石冬冬-Seig Heil

5. */

6. @Slf4j

7. @Component

8. public class SubmitWithStoreOperateStrategy extends AbstractSubmitOperateStrategy{

9. /**

10. * 转存天数 换算 秒数

11. */

12. static final int DAY_TO_SECONDS = 24 * 60 * 60;

13. @Override

14. public void prepare(OperateContext context) {

15. ATTENTION_EVENT_CONTEXT.set(AttentionEventEnum.STORE_ORDER); context.setAttentionEvent(AttentionEventEnum.STORE_ORDER); super.prepare(context);

16. } @Override

17. public boolean paramCheck(OperateContext context) {

18. if(Objects.isNull(context.getSurveyResult().getDelayedDays())){

19. context.buildExecuteResultWithFailure("[surveyResult.delayedDays]为空！");

20. } if(context.getSurveyResult().getDelayedDays() == 0){

21. context.buildExecuteResultWithFailure("等待天数[delayedDays]必须大于0！");

22. } return super.paramCheck(context);

23. } @Override

24. WorkOrder buildWorkOrder(OperateContext context){

25. WorkOrder workOrder = super.buildWorkOrder(context);

26. workOrder.setMainStatus(WorkOrderStatusEnum.PENDING.getIndex()); workOrder.setSubStatus(WorkOrderStatusEnum.SubStatusEnum.STORED.getIndex()); workOrder.setIsFinished(Const.NON_INDEX); workOrder.setIsStore(Const.YES_INDEX); //setSuspendedCount 这里需要重置为0，转存后派单流程状态依赖该字段

27. workOrder.setSuspendedCount(0);

28. workOrder.setDelayedTime(context.getOperateParam().getDelayedTime());

29. return workOrder;

30. }

31. @Override

32. void operationExtend(OperateContext context) {

33. long delayedTime = context.getOperateParam().getDelayedTime().getTime();

34. int delayedSeconds = context.getOperateParam().getDelayedSeconds();

35. WorkOrder workOrder = context.getWorkOrder();

36. WorkOrderContext cxt = WorkOrderContext.buildStored(workOrder.getWorkCode(),workOrder.getCasePriority(),delayedTime);

37. workOrderQueueManager.leftPush(cxt);

38. WorkOrderCacheManager.CacheValue cacheValue = WorkOrderCacheManager.CacheValue.

39. buildStored(workOrder.getWorkCode(),workOrder.getCasePriority(),delayedTime,delayedSeconds);

40. workOrderCacheManager.setCacheInExpire(cacheValue);

41. super.operationExtend(context);

42. }

43. @Override

44. public void setDelayedTime(OperateContext context) {

45. int delayedDays = context.getSurveyResult().getDelayedDays();

46. Date delayedTime = TimeTools.createNowTime();

47. TimeTools.addTimeField(delayedTime, Calendar.DAY_OF_YEAR,delayedDays);

48. context.getOperateParam().setDelayedTime(delayedTime);

49. context.getOperateParam().setDelayedSeconds(delayedDays * DAY_TO_SECONDS);

50. }

51. }

三、交互UI介绍

• 系统链路日志

 

我们可以实现对于key失效事件监听，把工单落库，便于后期排查问题，无需再查看服务器日志。

• 队列监控

 

输出队列元素，直观看到当前挂起、转存的工单。我们可以直观看到key的剩余存活时间。

• 参数配置

挂起配置，尽管业务实现按照天维度、但是我代码依然实现了可以支持天、时、分、秒维度，提供了可扩展性。具体可以看 SubmitWithStoreOperateStrategy类 方法void setDelayedTime(OperateContext context) 的实现。

四、总结

在接到该需求后，尽管这个只是其中需求的一小部分，整个产品需求33页，内容还是丰富的，对于延迟队列操作，我在调研技术方案时，也考虑过其他方法，譬如java自带的带有延迟特性的 队列DelayedQueue（对于分布式多实例场景它就不适合了），以及可以通过RabbitMQ实现（感觉实现比较复杂），最终选择了Redis（可以利用相关数据特性比如ZSet,String,Expire），技术实现比较简单上手。