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bf1f1defa53aa1ae374101d85a22593af8a5b416
smartmate/backend/memory/service/read_service.go
Losita bf1f1defa5 Version: 0.9.14.dev.260410 
后端:
  1. LLM 客户端从 newAgent/llm 提升为 infra/llm 基础设施层
     - 删除 backend/newAgent/llm/(ark.go / ark_adapter.go / client.go / json.go)
     - 等价迁移至 backend/infra/llm/,所有 newAgent node 与 service 统一改引用 infrallm
     - 消除 newAgent 对模型客户端的私有依赖,为 memory / websearch 等多模块复用铺路
  2. RAG 基础设施完成可运行态接入(factory / runtime / observer / service 四层成型)
     - 新建 backend/infra/rag/factory.go / runtime.go / observe.go / observer.go /
  service.go:工厂创建、运行时生命周期、轻量观测接口、检索服务门面
     - 更新 infra/rag/config/config.go:补齐 Milvus / Embed / Reranker 全部配置项与默认值
     - 更新 infra/rag/embed/eino_embedder.go:增强 Eino embedding 适配,支持 BaseURL / APIKey 环境变量 / 超时 /
  维度等参数
     - 更新 infra/rag/store/milvus_store.go:完整实现 Milvus 向量存储(建集合 / 建 Index / Upsert / Search /
  Delete),支持 COSINE / L2 / IP 度量
     - 更新 infra/rag/core/pipeline.go:适配 Runtime 接口,Pipeline 由 factory 注入而非手动拼装
     - 更新 infra/rag/corpus/memory_corpus.go / vector_store.go:对接 Memory 模块数据源与 Store 接口扩展
  3. Memory 模块从 Day1 骨架升级为 Day2 完整可运行态
     - 新建 memory/module.go:统一门面 Module,对外封装 EnqueueExtract / ReadService / ManageService / WithTx /
  StartWorker,启动层只依赖这一个入口
     - 新建 memory/orchestrator/llm_write_orchestrator.go:LLM 驱动的记忆抽取编排器,替代原 mock 抽取
     - 新建 memory/service/read_service.go:按用户开关过滤 + 轻量重排 + 访问时间刷新的读取链路
     - 新建 memory/service/manage_service.go:记忆管理面能力(列出 / 软删除 / 开关读写),删除同步写审计日志
     - 新建 memory/service/common.go:服务层公共工具
     - 新建 memory/worker/loop.go:后台轮询循环 RunPollingLoop,定时抢占 pending 任务并推进
     - 新建 memory/utils/audit.go / settings.go:审计日志构造、用户设置过滤等纯函数
     - 更新 memory/model/item.go / job.go / settings.go / config.go / status.go:补齐 DTO 字段与状态常量
     - 更新 memory/repo/item_repo.go / job_repo.go / audit_repo.go / settings_repo.go:补齐 CRUD 与查询能力
     - 更新 memory/worker/runner.go:Runner 对接 Module 与 LLM 抽取器,任务状态机完整化
     - 更新 memory/README.md:同步模块现状说明
  4. newAgent 接入 Memory 读取注入与工具注册依赖预埋
     - 新建 service/agentsvc/agent_memory.go:定义 MemoryReader 接口 + injectMemoryContext,在 graph
  执行前统一补充记忆上下文
     - 更新 service/agentsvc/agent.go:新增 memoryReader 字段与 SetMemoryReader 方法
     - 更新 service/agentsvc/agent_newagent.go:调用 injectMemoryContext 注入 pinned block,检索失败仅降级不阻断主链路
     - 更新 newAgent/tools/registry.go:新增 DefaultRegistryDeps(含 RAGRuntime),工具注册表支持依赖注入
  5. 启动流程与事件处理器接线更新
     - 更新 cmd/start.go:初始化 RAG Runtime → Memory Module → 注册事件处理器 → 启动 Worker 后台轮询
     - 更新 service/events/memory_extract_requested.go:改用 memory.Module.WithTx(tx) 统一门面,事件处理器不再直接依赖
  repo/service 内部包
  6. 缓存插件与配置同步
     - 更新 middleware/cache_deleter.go:静默忽略 MemoryJob / MemoryItem / MemoryAuditLog / MemoryUserSetting
  等新模型,避免日志刷屏;清理冗余注释
     - 更新 config.example.yaml:补齐 rag / memory / websearch 配置段及默认值
     - 更新 go.mod / go.sum:新增 eino-ext/openai / json-patch / go-openai 依赖
  前端:无 仓库:无
2026-04-10 23:17:38 +08:00

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package service
import (
"context"
"fmt"
"sort"
"strconv"
"strings"
"time"
infrarag "github.com/LoveLosita/smartflow/backend/infra/rag"
memorymodel "github.com/LoveLosita/smartflow/backend/memory/model"
memoryrepo "github.com/LoveLosita/smartflow/backend/memory/repo"
memoryutils "github.com/LoveLosita/smartflow/backend/memory/utils"
"github.com/LoveLosita/smartflow/backend/model"
)
const (
defaultRetrieveLimit = 5
maxRetrieveLimit = 20
)
// ReadService 负责 memory 模块内部的读取、门控与轻量重排。
//
// 职责边界:
// 1. 负责把 memory_items 读出来并做用户设置过滤;
// 2. 负责最小可用的排序与截断,为后续 prompt 注入提供稳定入口;
// 3. 不直接依赖 newAgent不负责真正把记忆拼进 prompt。
type ReadService struct {
itemRepo *memoryrepo.ItemRepo
settingsRepo *memoryrepo.SettingsRepo
ragRuntime infrarag.Runtime
cfg memorymodel.Config
}
func NewReadService(
itemRepo *memoryrepo.ItemRepo,
settingsRepo *memoryrepo.SettingsRepo,
ragRuntime infrarag.Runtime,
cfg memorymodel.Config,
) *ReadService {
return &ReadService{
itemRepo: itemRepo,
settingsRepo: settingsRepo,
ragRuntime: ragRuntime,
cfg: cfg,
}
}
// Retrieve 读取可供后续注入使用的候选记忆。
func (s *ReadService) Retrieve(ctx context.Context, req memorymodel.RetrieveRequest) ([]memorymodel.ItemDTO, error) {
if s == nil || s.itemRepo == nil || s.settingsRepo == nil {
return nil, nil
}
if req.UserID <= 0 {
return nil, nil
}
now := req.Now
if now.IsZero() {
now = time.Now()
}
setting, err := s.settingsRepo.GetByUserID(ctx, req.UserID)
if err != nil {
return nil, err
}
effectiveSetting := memoryutils.EffectiveUserSetting(setting, req.UserID)
if !effectiveSetting.MemoryEnabled {
return nil, nil
}
limit := normalizeLimit(req.Limit, defaultRetrieveLimit, maxRetrieveLimit)
if s.cfg.RAGEnabled && s.ragRuntime != nil && strings.TrimSpace(req.Query) != "" {
items, ragErr := s.retrieveByRAG(ctx, req, effectiveSetting, limit, now)
if ragErr == nil && len(items) > 0 {
return items, nil
}
}
return s.retrieveByLegacy(ctx, req, limit, now, effectiveSetting)
}
func (s *ReadService) retrieveByLegacy(
ctx context.Context,
req memorymodel.RetrieveRequest,
limit int,
now time.Time,
effectiveSetting model.MemoryUserSetting,
) ([]memorymodel.ItemDTO, error) {
if !effectiveSetting.MemoryEnabled {
return nil, nil
}
query := memorymodel.ItemQuery{
UserID: req.UserID,
ConversationID: req.ConversationID,
AssistantID: req.AssistantID,
RunID: req.RunID,
Statuses: []string{model.MemoryItemStatusActive},
MemoryTypes: normalizeRetrieveMemoryTypes(req.MemoryTypes),
IncludeGlobal: true,
OnlyUnexpired: true,
Limit: normalizeLimit(limit*3, limit*3, maxRetrieveLimit*3),
Now: now,
}
items, err := s.itemRepo.FindByQuery(ctx, query)
if err != nil {
return nil, err
}
items = memoryutils.FilterItemsBySetting(items, effectiveSetting)
if len(items) == 0 {
return nil, nil
}
sort.SliceStable(items, func(i, j int) bool {
left := scoreRetrievedItem(items[i], now, req.ConversationID)
right := scoreRetrievedItem(items[j], now, req.ConversationID)
if left == right {
return items[i].ID > items[j].ID
}
return left > right
})
if len(items) > limit {
items = items[:limit]
}
_ = s.itemRepo.TouchLastAccessAt(ctx, collectMemoryIDs(items), now)
return toItemDTOs(items), nil
}
func (s *ReadService) retrieveByRAG(
ctx context.Context,
req memorymodel.RetrieveRequest,
effectiveSetting model.MemoryUserSetting,
limit int,
now time.Time,
) ([]memorymodel.ItemDTO, error) {
if !effectiveSetting.MemoryEnabled {
return nil, nil
}
result, err := s.ragRuntime.RetrieveMemory(ctx, infrarag.MemoryRetrieveRequest{
Query: req.Query,
TopK: limit,
Threshold: s.cfg.Threshold,
Action: "search",
UserID: req.UserID,
ConversationID: req.ConversationID,
AssistantID: req.AssistantID,
RunID: req.RunID,
MemoryTypes: normalizeRetrieveMemoryTypes(req.MemoryTypes),
})
if err != nil || result == nil || len(result.Items) == 0 {
return nil, err
}
items := make([]memorymodel.ItemDTO, 0, len(result.Items))
ids := make([]int64, 0, len(result.Items))
for _, hit := range result.Items {
dto, memoryID := buildMemoryDTOFromRetrieveHit(hit)
if !effectiveSetting.ImplicitMemoryEnabled && !dto.IsExplicit {
continue
}
if !effectiveSetting.SensitiveMemoryEnabled && dto.SensitivityLevel > 0 {
continue
}
if dto.ID <= 0 && memoryID > 0 {
dto.ID = memoryID
}
items = append(items, dto)
if dto.ID > 0 {
ids = append(ids, dto.ID)
}
}
if len(items) > limit {
items = items[:limit]
}
_ = s.itemRepo.TouchLastAccessAt(ctx, ids, now)
return items, nil
}
func normalizeRetrieveMemoryTypes(raw []string) []string {
normalized := normalizeMemoryTypes(raw)
if len(normalized) > 0 {
return normalized
}
return []string{
memorymodel.MemoryTypeConstraint,
memorymodel.MemoryTypePreference,
memorymodel.MemoryTypeTodoHint,
memorymodel.MemoryTypeFact,
}
}
func scoreRetrievedItem(item model.MemoryItem, now time.Time, conversationID string) float64 {
score := 0.35*clamp01(item.Importance) + 0.3*clamp01(item.Confidence) + 0.2*recencyScore(item, now)
if item.IsExplicit {
score += 0.1
}
if strValue(item.ConversationID) != "" && strValue(item.ConversationID) == conversationID {
score += 0.08
}
switch item.MemoryType {
case memorymodel.MemoryTypeConstraint:
score += 0.12
case memorymodel.MemoryTypePreference:
score += 0.08
case memorymodel.MemoryTypeTodoHint:
score += 0.05
}
return score
}
func recencyScore(item model.MemoryItem, now time.Time) float64 {
base := item.UpdatedAt
if base == nil {
base = item.CreatedAt
}
if base == nil || now.Before(*base) {
return 0.5
}
age := now.Sub(*base)
switch {
case age <= 24*time.Hour:
return 1
case age <= 7*24*time.Hour:
return 0.85
case age <= 30*24*time.Hour:
return 0.65
case age <= 90*24*time.Hour:
return 0.45
default:
return 0.25
}
}
func clamp01(v float64) float64 {
if v < 0 {
return 0
}
if v > 1 {
return 1
}
return v
}
func collectMemoryIDs(items []model.MemoryItem) []int64 {
if len(items) == 0 {
return nil
}
ids := make([]int64, 0, len(items))
for _, item := range items {
if item.ID <= 0 {
continue
}
ids = append(ids, item.ID)
}
return ids
}
func buildMemoryDTOFromRetrieveHit(hit infrarag.RetrieveHit) (memorymodel.ItemDTO, int64) {
memoryID := parseMemoryIDFromDocumentID(hit.DocumentID)
metadata := hit.Metadata
dto := memorymodel.ItemDTO{
ID: memoryID,
UserID: int(readFloatLike(metadata["user_id"])),
ConversationID: readString(metadata["conversation_id"]),
AssistantID: readString(metadata["assistant_id"]),
RunID: readString(metadata["run_id"]),
MemoryType: readString(metadata["memory_type"]),
Title: readString(metadata["title"]),
Content: strings.TrimSpace(hit.Text),
Confidence: readFloatLike(metadata["confidence"]),
Importance: readFloatLike(metadata["importance"]),
SensitivityLevel: int(readFloatLike(metadata["sensitivity_level"])),
IsExplicit: readBoolLike(metadata["is_explicit"]),
Status: readString(metadata["status"]),
TTLAt: readTimeLike(metadata["ttl_at"]),
}
return dto, memoryID
}
func parseMemoryIDFromDocumentID(documentID string) int64 {
documentID = strings.TrimSpace(documentID)
if !strings.HasPrefix(documentID, "memory:") {
return 0
}
raw := strings.TrimPrefix(documentID, "memory:")
if strings.HasPrefix(raw, "uid:") {
return 0
}
parsed, err := strconv.ParseInt(raw, 10, 64)
if err != nil {
return 0
}
return parsed
}
func readString(v any) string {
if v == nil {
return ""
}
return strings.TrimSpace(fmt.Sprintf("%v", v))
}
func readFloatLike(v any) float64 {
switch value := v.(type) {
case float64:
return value
case float32:
return float64(value)
case int:
return float64(value)
case int64:
return float64(value)
case string:
parsed, err := strconv.ParseFloat(strings.TrimSpace(value), 64)
if err == nil {
return parsed
}
}
return 0
}
func readBoolLike(v any) bool {
switch value := v.(type) {
case bool:
return value
case string:
return strings.EqualFold(strings.TrimSpace(value), "true")
default:
return false
}
}
func readTimeLike(v any) *time.Time {
text := readString(v)
if text == "" {
return nil
}
parsed, err := time.Parse(time.RFC3339, text)
if err != nil {
return nil
}
return &parsed
}
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