package handler import ( "context" "encoding/json" "log/slog" "net/http" "time" "github.com/go-chi/chi/v5" "github.com/jackc/pgx/v5/pgtype" "github.com/multica-ai/multica/server/internal/logger" "github.com/multica-ai/multica/server/internal/mention" "github.com/multica-ai/multica/server/internal/service" "github.com/multica-ai/multica/server/internal/util" db "github.com/multica-ai/multica/server/pkg/db/generated" "github.com/multica-ai/multica/server/pkg/protocol" ) type CommentResponse struct { ID string `json:"id"` IssueID string `json:"issue_id"` AuthorType string `json:"author_type"` AuthorID string `json:"author_id"` Content string `json:"content"` Type string `json:"type"` ParentID *string `json:"parent_id"` CreatedAt string `json:"created_at"` UpdatedAt string `json:"updated_at"` ResolvedAt *string `json:"resolved_at"` ResolvedByType *string `json:"resolved_by_type"` ResolvedByID *string `json:"resolved_by_id"` Reactions []ReactionResponse `json:"reactions"` Attachments []AttachmentResponse `json:"attachments"` } func commentToResponse(c db.Comment, reactions []ReactionResponse, attachments []AttachmentResponse) CommentResponse { if reactions == nil { reactions = []ReactionResponse{} } if attachments == nil { attachments = []AttachmentResponse{} } return CommentResponse{ ID: uuidToString(c.ID), IssueID: uuidToString(c.IssueID), AuthorType: c.AuthorType, AuthorID: uuidToString(c.AuthorID), Content: c.Content, Type: c.Type, ParentID: uuidToPtr(c.ParentID), CreatedAt: timestampToString(c.CreatedAt), UpdatedAt: timestampToString(c.UpdatedAt), ResolvedAt: timestampToPtr(c.ResolvedAt), ResolvedByType: textToPtr(c.ResolvedByType), ResolvedByID: uuidToPtr(c.ResolvedByID), Reactions: reactions, Attachments: attachments, } } // commentHardCap bounds the comments returned per issue. Sized as a defensive // safety net rather than a UX paging window: prod p99 is ~30 comments and // the all-time max observed is ~1.1k, so 2000 leaves ~2x headroom while still // preventing a runaway response if some user manages to accumulate a wild // number of rows on a single issue. const commentHardCap = 2000 func (h *Handler) ListComments(w http.ResponseWriter, r *http.Request) { issueID := chi.URLParam(r, "id") issue, ok := h.loadIssueForUser(w, r, issueID) if !ok { return } // Only `since` is honoured — used by the CLI's `--since` agent-polling // flow to fetch incremental comments. The previous limit/offset cursor // was ripped out (#1929): time-based pagination breaks reply threads, // and at the actual data sizes there is no win from paging. var sinceTime pgtype.Timestamptz if v := r.URL.Query().Get("since"); v != "" { t, err := time.Parse(time.RFC3339, v) if err != nil { writeError(w, http.StatusBadRequest, "invalid since parameter; expected RFC3339 format") return } sinceTime = pgtype.Timestamptz{Time: t, Valid: true} } var comments []db.Comment var err error if sinceTime.Valid { comments, err = h.Queries.ListCommentsSinceForIssue(r.Context(), db.ListCommentsSinceForIssueParams{ IssueID: issue.ID, WorkspaceID: issue.WorkspaceID, CreatedAt: sinceTime, Limit: commentHardCap, }) } else { comments, err = h.Queries.ListCommentsForIssue(r.Context(), db.ListCommentsForIssueParams{ IssueID: issue.ID, WorkspaceID: issue.WorkspaceID, Limit: commentHardCap, }) } if err != nil { writeError(w, http.StatusInternalServerError, "failed to list comments") return } commentIDs := make([]pgtype.UUID, len(comments)) for i, c := range comments { commentIDs[i] = c.ID } grouped := h.groupReactions(r, commentIDs) groupedAtt := h.groupAttachments(r, commentIDs) resp := make([]CommentResponse, len(comments)) for i, c := range comments { cid := uuidToString(c.ID) resp[i] = commentToResponse(c, grouped[cid], groupedAtt[cid]) } writeJSON(w, http.StatusOK, resp) } type CreateCommentRequest struct { Content string `json:"content"` Type string `json:"type"` ParentID *string `json:"parent_id"` AttachmentIDs []string `json:"attachment_ids"` } func (h *Handler) CreateComment(w http.ResponseWriter, r *http.Request) { issueID := chi.URLParam(r, "id") issue, ok := h.loadIssueForUser(w, r, issueID) if !ok { return } userID, ok := requireUserID(w, r) if !ok { return } var req CreateCommentRequest if err := json.NewDecoder(r.Body).Decode(&req); err != nil { writeError(w, http.StatusBadRequest, "invalid request body") return } if req.Content == "" { writeError(w, http.StatusBadRequest, "content is required") return } if req.Type == "" { req.Type = "comment" } var parentID pgtype.UUID var parentComment *db.Comment if req.ParentID != nil { var parsed pgtype.UUID parsed, ok = parseUUIDOrBadRequest(w, *req.ParentID, "parent_id") if !ok { return } parentID = parsed parent, err := h.Queries.GetComment(r.Context(), parentID) if err != nil || uuidToString(parent.IssueID) != uuidToString(issue.ID) { writeError(w, http.StatusBadRequest, "invalid parent comment") return } parentComment = &parent } attachmentIDs, ok := parseUUIDSliceOrBadRequest(w, req.AttachmentIDs, "attachment_ids") if !ok { return } // Determine author identity: agent (via X-Agent-ID header) or member. authorType, authorID := h.resolveActor(r, userID, uuidToString(issue.WorkspaceID)) // Defense against resumed-session drift: when an agent posts from inside a // comment-triggered task AND the comment is being posted on that same // issue, the parent_id must exactly match the task's trigger comment. // Resumed Claude sessions otherwise carry forward a previous turn's // --parent UUID and silently misplace the reply. // // The task.IssueID scope is important: the CLI stamps X-Task-ID on every // request, so an agent legitimately commenting on a different issue must // not be blocked by its current task's trigger. Assignment-triggered // tasks (no TriggerCommentID) are also unaffected. if authorType == "agent" { if taskIDHeader := r.Header.Get("X-Task-ID"); taskIDHeader != "" { taskUUID, parseErr := util.ParseUUID(taskIDHeader) if parseErr == nil { task, err := h.Queries.GetAgentTask(r.Context(), taskUUID) if err == nil && task.IssueID.Valid && uuidToString(task.IssueID) == uuidToString(issue.ID) { if task.TriggerCommentID.Valid { if uuidToString(parentID) != uuidToString(task.TriggerCommentID) { writeError(w, http.StatusConflict, "parent_id must equal this task's trigger comment id ("+uuidToString(task.TriggerCommentID)+")") return } } noAction, checkErr := service.HasSquadLeaderNoActionEvaluationForTask(r.Context(), h.Queries, task) if checkErr != nil { slog.Warn("checking squad leader no_action evaluation failed", append(logger.RequestAttrs(r), "error", checkErr, "task_id", taskIDHeader, "issue_id", issueID, )...) } else if noAction { writeError(w, http.StatusConflict, "squad leader recorded no_action; comments are not allowed for this task") return } } } } } // Expand bare issue identifiers (e.g. MUL-117) into mention links. req.Content = mention.ExpandIssueIdentifiers(r.Context(), h.Queries, issue.WorkspaceID, req.Content) // NOTE: Comment content is stored as Markdown source. XSS is handled at the // rendering layer (rehype-sanitize) and at the editor layer // (@tiptap/markdown with html:false). Running an HTML sanitizer here would // entity-encode Markdown syntax characters (>, ", &, <) and corrupt the // source. See issue #1303 / discussion in MUL-1119, MUL-1125. comment, err := h.Queries.CreateComment(r.Context(), db.CreateCommentParams{ IssueID: issue.ID, WorkspaceID: issue.WorkspaceID, AuthorType: authorType, AuthorID: parseUUID(authorID), Content: req.Content, Type: req.Type, ParentID: parentID, }) if err != nil { slog.Warn("create comment failed", append(logger.RequestAttrs(r), "error", err, "issue_id", issueID)...) writeError(w, http.StatusInternalServerError, "failed to create comment: "+err.Error()) return } // Link uploaded attachments to this comment. if len(attachmentIDs) > 0 { h.linkAttachmentsByIDs(r.Context(), comment.ID, issue.ID, attachmentIDs) } // Fetch linked attachments so the response includes them. groupedAtt := h.groupAttachments(r, []pgtype.UUID{comment.ID}) resp := commentToResponse(comment, nil, groupedAtt[uuidToString(comment.ID)]) slog.Info("comment created", append(logger.RequestAttrs(r), "comment_id", uuidToString(comment.ID), "issue_id", issueID)...) h.publish(protocol.EventCommentCreated, uuidToString(issue.WorkspaceID), authorType, authorID, map[string]any{ "comment": resp, "issue_title": issue.Title, "issue_assignee_type": textToPtr(issue.AssigneeType), "issue_assignee_id": uuidToPtr(issue.AssigneeID), "issue_status": issue.Status, }) // A reply in a resolved thread re-opens it. Done after CreateComment commits // so the reply is visible regardless of the unresolve outcome. Shared with // the agent task path (TaskService.createAgentComment) — both reply paths // must keep the resolved root in sync. h.TaskService.AutoUnresolveThreadOnReply(r.Context(), parentComment, uuidToString(issue.WorkspaceID), authorType, authorID) // If the issue is assigned to an agent with on_comment trigger, enqueue a new task. // Skip when the comment comes from the assigned agent itself to avoid loops. // Also skip when the comment @mentions others but not the assignee agent — // the user is talking to someone else, not requesting work from the assignee. // Also skip when replying in a member-started thread without mentioning the // assignee — the user is continuing a member-to-member conversation. if authorType == "member" && h.shouldEnqueueOnComment(r.Context(), issue) && !h.commentMentionsOthersButNotAssignee(comment.Content, issue) && !h.isReplyToMemberThread(r.Context(), parentComment, comment.Content, issue) { // Always use the current comment as the trigger so the agent reads // the actual new reply, not the thread root. Reply placement (flat // thread grouping) is handled downstream by createAgentComment, // which resolves parent_id to the thread root before posting. This // mirrors the mention path's behavior (see enqueueMentionedAgentTasks). if _, err := h.TaskService.EnqueueTaskForIssue(r.Context(), issue, comment.ID); err != nil { slog.Warn("enqueue agent task on comment failed", "issue_id", issueID, "error", err) } } // Squad trigger: if the issue is assigned to a squad, trigger the squad leader. // Skip when the comment author is the leader (prevent internal loops), or // when a member explicitly @mentions anyone (agent/member/squad/all) — that // counts as deliberate routing and the leader stays out. if h.shouldEnqueueSquadLeaderOnComment(r.Context(), issue, comment.Content, authorType, authorID) { h.enqueueSquadLeaderTask(r.Context(), issue, comment.ID, authorType, authorID) } // Trigger @mentioned agents: parse agent mentions and enqueue tasks for each. // Pass parentComment so that replies inherit mentions from the thread root. h.enqueueMentionedAgentTasks(r.Context(), issue, comment, parentComment, authorType, authorID) writeJSON(w, http.StatusCreated, resp) } // commentMentionsOthersButNotAssignee returns true if the comment @mentions // anyone but does NOT @mention the issue's assignee agent. This is used to // suppress the on_comment trigger when the user is directing their comment at // someone else (e.g. sharing results with a colleague, asking another agent). // @all is treated as a broadcast — it suppresses the trigger because the user // is announcing to everyone, not specifically requesting work from the agent. func (h *Handler) commentMentionsOthersButNotAssignee(content string, issue db.Issue) bool { mentions := util.ParseMentions(content) // Filter out issue mentions — they are cross-references, not @people. filtered := mentions[:0] for _, m := range mentions { if m.Type != "issue" { filtered = append(filtered, m) } } mentions = filtered if len(mentions) == 0 { return false // No mentions (or only issue refs) — normal on_comment behavior } // @all is a broadcast to all members — suppress agent trigger. if util.HasMentionAll(mentions) { return true } if !issue.AssigneeID.Valid { return true // No assignee — mentions target others } assigneeID := uuidToString(issue.AssigneeID) for _, m := range mentions { if m.ID == assigneeID { return false // Assignee is mentioned — allow trigger } } return true // Others mentioned but not assignee — suppress trigger } // isReplyToMemberThread returns true if the comment is a reply in a thread // started by a member and does NOT @mention the issue's assignee agent. // When a member replies in a member-started thread, they are most likely // continuing a human conversation — not requesting work from the assigned agent. // Replying to an agent-started thread, or explicitly @mentioning the assignee // in the reply, still triggers on_comment as expected. // If the parent (thread root) itself @mentions the assignee, the thread is // considered a conversation with the agent, so replies are allowed to trigger. // If the assigned agent has already replied in the thread, the member is // conversing with the agent, so replies are allowed to trigger. func (h *Handler) isReplyToMemberThread(ctx context.Context, parent *db.Comment, content string, issue db.Issue) bool { if parent == nil { return false // Not a reply — normal top-level comment } if parent.AuthorType != "member" { return false // Thread started by an agent — allow trigger } // Thread was started by a member. Suppress on_comment unless the reply // or the parent explicitly @mentions the assignee agent, or the agent // has already participated in this thread. if !issue.AssigneeID.Valid { return true // No assignee to mention } assigneeID := uuidToString(issue.AssigneeID) // Check current comment mentions. for _, m := range util.ParseMentions(content) { if m.ID == assigneeID { return false // Assignee explicitly mentioned in reply — allow trigger } } // Check parent (thread root) mentions — if the thread was started by // mentioning the assignee, replies continue that conversation. for _, m := range util.ParseMentions(parent.Content) { if m.ID == assigneeID { return false // Assignee mentioned in thread root — allow trigger } } // Check if the assigned agent has already replied in this thread — // if so, the member is continuing a conversation with the agent. if h.Queries != nil { hasReplied, err := h.Queries.HasAgentRepliedInThread(ctx, db.HasAgentRepliedInThreadParams{ ParentID: parent.ID, AgentID: issue.AssigneeID, }) if err == nil && hasReplied { return false // Agent participated in thread — allow trigger } } return true // Reply to member thread without agent participation — suppress } // shouldInheritParentMentions decides whether a reply with no explicit // mentions should inherit the parent (thread root) comment's mentions. // // Inheritance lets a member who started a thread by @mentioning an agent // continue the conversation with that agent without re-typing the mention // on every follow-up reply. // // It is intentionally narrow: // // - Only when the reply contains zero mentions of its own. Any explicit // mention in the reply is a deliberate choice about who to involve. // - Only when the reply author is a member. Agent-authored replies must // never inherit, otherwise an agent posting in a thread whose root // mentioned another agent would re-trigger that agent and create a loop. // - Only when the parent author is a member. When an agent authors a // comment that @mentions another agent, it is typically a one-shot // delegation (e.g. an agent posting a PR completion that @mentions a // reviewer agent). Subsequent member follow-ups in the same thread are // directed at the assignee, not at the delegated agent — inheriting // would re-trigger the delegated agent on every plain reply. func shouldInheritParentMentions(parentComment *db.Comment, replyMentions []util.Mention, replyAuthorType string) bool { if parentComment == nil { return false } if len(replyMentions) > 0 { return false } if replyAuthorType == "agent" { return false } return parentComment.AuthorType == "member" } // enqueueMentionedAgentTasks parses @agent mentions from comment content and // enqueues a task for each mentioned agent. When parentComment is non-nil // (i.e. the comment is a reply), mentions from the parent (thread root) are // also included so that agents mentioned in the top-level comment are // re-triggered by subsequent replies in the same thread — unless the reply // explicitly @mentions only non-agent entities (members, issues), which // signals the user is talking to other people and not the agent. // Skips self-mentions, agents with on_mention trigger disabled, and private // agents mentioned by non-owner members (only the agent owner or workspace // admin/owner can mention a private agent). // Note: no status gate here — @mention is an explicit action and should work // even on done/cancelled issues (the agent can reopen the issue if needed). func (h *Handler) enqueueMentionedAgentTasks(ctx context.Context, issue db.Issue, comment db.Comment, parentComment *db.Comment, authorType, authorID string) { wsID := uuidToString(issue.WorkspaceID) mentions := util.ParseMentions(comment.Content) if shouldInheritParentMentions(parentComment, mentions, authorType) { mentions = util.ParseMentions(parentComment.Content) } for _, m := range mentions { if m.Type == "squad" { // @squad mention → trigger the squad's leader agent. squadUUID := parseUUID(m.ID) squad, err := h.Queries.GetSquadInWorkspace(ctx, db.GetSquadInWorkspaceParams{ ID: squadUUID, WorkspaceID: issue.WorkspaceID, }) if err != nil { continue } leaderID := squad.LeaderID // Prevent self-trigger only when the agent's last activity on this // issue was itself a leader task. An agent that holds both the // leader and a worker role in the squad must still wake its // leader role after posting a comment from its worker task. if authorType == "agent" && authorID == uuidToString(leaderID) && h.lastTaskWasLeader(ctx, issue.ID, leaderID) { continue } // Verify leader agent is ready (has runtime, not archived). agent, err := h.Queries.GetAgentInWorkspace(ctx, db.GetAgentInWorkspaceParams{ ID: leaderID, WorkspaceID: issue.WorkspaceID, }) if err != nil || !agent.RuntimeID.Valid || agent.ArchivedAt.Valid { continue } // Private-agent gate: prevent triggering a private leader via squad mention. if !h.canAccessPrivateAgent(ctx, agent, authorType, authorID, wsID) { continue } // Dedup: skip if leader already has a pending task for this issue. hasPending, err := h.Queries.HasPendingTaskForIssueAndAgent(ctx, db.HasPendingTaskForIssueAndAgentParams{ IssueID: issue.ID, AgentID: leaderID, }) if err != nil || hasPending { continue } if _, err := h.TaskService.EnqueueTaskForSquadLeader(ctx, issue, leaderID, comment.ID); err != nil { slog.Warn("enqueue squad leader mention task failed", "issue_id", uuidToString(issue.ID), "squad_id", m.ID, "error", err) } continue } if m.Type != "agent" { continue } // Prevent self-trigger: skip if the comment author is this agent. if authorType == "agent" && authorID == m.ID { continue } agentUUID := parseUUID(m.ID) // Load the agent scoped to the current issue's workspace. Using the // bare GetAgent here would let a mention resolve to an agent in a // different workspace, and the visibility check below would then be // applied against the wrong workspace's roles (a workspace owner in // THIS workspace would pass the gate for a private agent that lives // in someone else's workspace). agent, err := h.Queries.GetAgentInWorkspace(ctx, db.GetAgentInWorkspaceParams{ ID: agentUUID, WorkspaceID: issue.WorkspaceID, }) if err != nil || !agent.RuntimeID.Valid || agent.ArchivedAt.Valid { continue } // Private-agent gate (member→private requires allowed_principals; // agent→agent always passes). if !h.canAccessPrivateAgent(ctx, agent, authorType, authorID, wsID) { continue } // Dedup: skip if this agent already has a pending task for this issue. hasPending, err := h.Queries.HasPendingTaskForIssueAndAgent(ctx, db.HasPendingTaskForIssueAndAgentParams{ IssueID: issue.ID, AgentID: agentUUID, }) if err != nil || hasPending { continue } // Always use the current comment as the trigger so the agent reads the // actual reply that mentioned it, not the thread root. if _, err := h.TaskService.EnqueueTaskForMention(ctx, issue, agentUUID, comment.ID); err != nil { slog.Warn("enqueue mention agent task failed", "issue_id", uuidToString(issue.ID), "agent_id", m.ID, "error", err) } } } func (h *Handler) UpdateComment(w http.ResponseWriter, r *http.Request) { commentId := chi.URLParam(r, "commentId") userID, ok := requireUserID(w, r) if !ok { return } commentUUID, ok := parseUUIDOrBadRequest(w, commentId, "comment id") if !ok { return } // Load comment scoped to current workspace. workspaceID := h.resolveWorkspaceID(r) wsUUID, ok := parseUUIDOrBadRequest(w, workspaceID, "workspace id") if !ok { return } existing, err := h.Queries.GetCommentInWorkspace(r.Context(), db.GetCommentInWorkspaceParams{ ID: commentUUID, WorkspaceID: wsUUID, }) if err != nil { writeError(w, http.StatusNotFound, "comment not found") return } member, ok := h.workspaceMember(w, r, workspaceID) if !ok { return } actorType, actorID := h.resolveActor(r, userID, workspaceID) isAuthor := existing.AuthorType == actorType && uuidToString(existing.AuthorID) == actorID isAdmin := roleAllowed(member.Role, "owner", "admin") if !isAuthor && !isAdmin { writeError(w, http.StatusForbidden, "only comment author or admin can edit") return } var req struct { Content string `json:"content"` AttachmentIDs []string `json:"attachment_ids"` } if err := json.NewDecoder(r.Body).Decode(&req); err != nil { writeError(w, http.StatusBadRequest, "invalid request body") return } if req.Content == "" { writeError(w, http.StatusBadRequest, "content is required") return } attachmentIDs, ok := parseUUIDSliceOrBadRequest(w, req.AttachmentIDs, "attachment_ids") if !ok { return } // NOTE: See CreateComment — Markdown is sanitized at render/edit time, not here. comment, err := h.Queries.UpdateComment(r.Context(), db.UpdateCommentParams{ ID: commentUUID, Content: req.Content, }) if err != nil { slog.Warn("update comment failed", append(logger.RequestAttrs(r), "error", err, "comment_id", commentId)...) writeError(w, http.StatusInternalServerError, "failed to update comment") return } // Bind any newly uploaded attachments referenced in the edited content so // they appear in the timeline's comment.attachments after refresh. Existing // attachments already point at this comment via the upload flow; passing // them again is a no-op at the SQL level. if len(attachmentIDs) > 0 { h.linkAttachmentsByIDs(r.Context(), comment.ID, existing.IssueID, attachmentIDs) } // Fetch reactions and attachments for the updated comment. grouped := h.groupReactions(r, []pgtype.UUID{comment.ID}) groupedAtt := h.groupAttachments(r, []pgtype.UUID{comment.ID}) cid := uuidToString(comment.ID) resp := commentToResponse(comment, grouped[cid], groupedAtt[cid]) slog.Info("comment updated", append(logger.RequestAttrs(r), "comment_id", commentId)...) h.publish(protocol.EventCommentUpdated, workspaceID, actorType, actorID, map[string]any{"comment": resp}) writeJSON(w, http.StatusOK, resp) } func (h *Handler) DeleteComment(w http.ResponseWriter, r *http.Request) { commentId := chi.URLParam(r, "commentId") userID, ok := requireUserID(w, r) if !ok { return } commentUUID, ok := parseUUIDOrBadRequest(w, commentId, "comment id") if !ok { return } // Load comment scoped to current workspace. workspaceID := h.resolveWorkspaceID(r) wsUUID, ok := parseUUIDOrBadRequest(w, workspaceID, "workspace id") if !ok { return } comment, err := h.Queries.GetCommentInWorkspace(r.Context(), db.GetCommentInWorkspaceParams{ ID: commentUUID, WorkspaceID: wsUUID, }) if err != nil { writeError(w, http.StatusNotFound, "comment not found") return } member, ok := h.workspaceMember(w, r, workspaceID) if !ok { return } actorType, actorID := h.resolveActor(r, userID, workspaceID) isAuthor := comment.AuthorType == actorType && uuidToString(comment.AuthorID) == actorID isAdmin := roleAllowed(member.Role, "owner", "admin") if !isAuthor && !isAdmin { writeError(w, http.StatusForbidden, "only comment author or admin can delete") return } // Collect attachment URLs before CASCADE delete removes them. attachmentURLs, _ := h.Queries.ListAttachmentURLsByCommentID(r.Context(), comment.ID) // Cancel any active tasks triggered by this comment so the agent does not // run with the now-deleted content already embedded in its prompt. Must // run before DeleteComment because the FK ON DELETE SET NULL would // otherwise nullify trigger_comment_id and orphan those tasks in queued. if err := h.TaskService.CancelTasksByTriggerComment(r.Context(), comment.ID); err != nil { slog.Warn("cancel tasks for deleted trigger comment failed", append(logger.RequestAttrs(r), "error", err, "comment_id", commentId)...) } if err := h.Queries.DeleteComment(r.Context(), comment.ID); err != nil { slog.Warn("delete comment failed", append(logger.RequestAttrs(r), "error", err, "comment_id", commentId)...) writeError(w, http.StatusInternalServerError, "failed to delete comment") return } h.deleteS3Objects(r.Context(), attachmentURLs) slog.Info("comment deleted", append(logger.RequestAttrs(r), "comment_id", commentId, "issue_id", uuidToString(comment.IssueID))...) h.publish(protocol.EventCommentDeleted, workspaceID, actorType, actorID, map[string]any{ "comment_id": uuidToString(comment.ID), "issue_id": uuidToString(comment.IssueID), }) w.WriteHeader(http.StatusNoContent) } // loadRootCommentForActor resolves a {commentId} URL param to a root comment in // the caller's workspace. Returns the comment, the workspace UUID, the actor // identity, and ok. Resolve / unresolve handlers share this scaffolding so the // "must be a root comment" rule lives in one place. func (h *Handler) loadRootCommentForActor(w http.ResponseWriter, r *http.Request) (db.Comment, string, string, string, bool) { commentId := chi.URLParam(r, "commentId") userID, ok := requireUserID(w, r) if !ok { return db.Comment{}, "", "", "", false } commentUUID, ok := parseUUIDOrBadRequest(w, commentId, "comment id") if !ok { return db.Comment{}, "", "", "", false } workspaceID := h.resolveWorkspaceID(r) wsUUID, ok := parseUUIDOrBadRequest(w, workspaceID, "workspace id") if !ok { return db.Comment{}, "", "", "", false } if _, ok := h.workspaceMember(w, r, workspaceID); !ok { return db.Comment{}, "", "", "", false } comment, err := h.Queries.GetCommentInWorkspace(r.Context(), db.GetCommentInWorkspaceParams{ ID: commentUUID, WorkspaceID: wsUUID, }) if err != nil { writeError(w, http.StatusNotFound, "comment not found") return db.Comment{}, "", "", "", false } if comment.ParentID.Valid { writeError(w, http.StatusBadRequest, "only root comments can be resolved") return db.Comment{}, "", "", "", false } actorType, actorID := h.resolveActor(r, userID, workspaceID) return comment, workspaceID, actorType, actorID, true } func (h *Handler) ResolveComment(w http.ResponseWriter, r *http.Request) { comment, workspaceID, actorType, actorID, ok := h.loadRootCommentForActor(w, r) if !ok { return } wasResolved := comment.ResolvedAt.Valid actorUUID, err := util.ParseUUID(actorID) if err != nil { writeError(w, http.StatusBadRequest, "invalid actor id") return } updated, err := h.Queries.ResolveComment(r.Context(), db.ResolveCommentParams{ ID: comment.ID, ResolvedByType: pgtype.Text{String: actorType, Valid: true}, ResolvedByID: actorUUID, }) if err != nil { slog.Warn("resolve comment failed", append(logger.RequestAttrs(r), "error", err, "comment_id", uuidToString(comment.ID))...) writeError(w, http.StatusInternalServerError, "failed to resolve comment") return } grouped := h.groupReactions(r, []pgtype.UUID{updated.ID}) groupedAtt := h.groupAttachments(r, []pgtype.UUID{updated.ID}) cid := uuidToString(updated.ID) resp := commentToResponse(updated, grouped[cid], groupedAtt[cid]) // Suppress the event on a re-resolve no-op so consumers do not re-process // an unchanged thread (notifications, log spam). if !wasResolved { slog.Info("comment resolved", append(logger.RequestAttrs(r), "comment_id", cid)...) h.publish(protocol.EventCommentResolved, workspaceID, actorType, actorID, map[string]any{"comment": resp}) } writeJSON(w, http.StatusOK, resp) } func (h *Handler) UnresolveComment(w http.ResponseWriter, r *http.Request) { comment, workspaceID, actorType, actorID, ok := h.loadRootCommentForActor(w, r) if !ok { return } wasResolved := comment.ResolvedAt.Valid updated, err := h.Queries.UnresolveComment(r.Context(), comment.ID) if err != nil { slog.Warn("unresolve comment failed", append(logger.RequestAttrs(r), "error", err, "comment_id", uuidToString(comment.ID))...) writeError(w, http.StatusInternalServerError, "failed to unresolve comment") return } grouped := h.groupReactions(r, []pgtype.UUID{updated.ID}) groupedAtt := h.groupAttachments(r, []pgtype.UUID{updated.ID}) cid := uuidToString(updated.ID) resp := commentToResponse(updated, grouped[cid], groupedAtt[cid]) if wasResolved { slog.Info("comment unresolved", append(logger.RequestAttrs(r), "comment_id", cid)...) h.publish(protocol.EventCommentUnresolved, workspaceID, actorType, actorID, map[string]any{"comment": resp}) } writeJSON(w, http.StatusOK, resp) }