### Recent Work Timeline 1. [<timestamp>] <action/request> 2. [<timestamp>] <action/request> 3. [<timestamp>] <action/request> ### Pending/Incomplete Actions - ⏳ "<quoted incomplete action>" - ⏳ "<another incomplete item>" ### Key References | Type | Value | |------|-------| | PR | #<number> | | Branch | <name> | | Files | <paths> | | URLs | <links> | ### Last User Request > "<quoted request that may not have been completed>" ### Confidence Level - Channel context: <high/medium/low> - Session logs: <available/partial/unavailable> - Memory entries: <found/none> ``` ### Step 6: Cache Recovered Context **Persist to memory for future reference:** ```bash # Write to daily memory file MEMORY_FILE=~/clawd-*/memory/$(date +%Y-%m-%d).md cat >> "$MEMORY_FILE" << EOF ## Context Recovery — $(date +%H:%M) **Channel:** #<channel-name> **Recovered context for:** <project/task summary> ### Key State - <bullet points of critical context> ### Pending Items - <incomplete actions> EOF ``` This ensures context survives future compactions. ### Step 7: Respond with Context Present the recovered context, then prompt: > "Context recovered. Your last request was [X]. This action [completed/did not complete]. Shall I [continue/retry/clarify]?" --- ## Channel-Specific Notes ### Discord - Use `channelId` from the incoming message metadata - Guild channels have full history access - Thread recovery: check for `threadId` in message metadata - DMs may have limited history ### Slack - Use `channel` parameter with Slack channel ID - Thread context requires `threadId` — always check for thread context first - Parent channel fetch provides surrounding conversation context - May need workspace-level permissions for full history ### Telegram / Signal / Others - Same `message:read` interface - History depth may vary by platform - Group vs. DM context may differ --- ## Constraints - **MANDATORY:** Execute this protocol before responding "insufficient data" or asking clarifying questions when context appears missing - Adaptive depth: start with 50, expand to 100 max - Time-based goal: capture at least 2 hours of context when possible - Session log extraction: last 3 session files maximum - Memory cache: append to daily file, do not overwrite - If recovery fails, state what was attempted and what data sources were unavailable --- ## Auto-Trigger Detection At session start, scan for compaction indicators: ```python # Pseudocode for trigger detection if message contains "<summary>": trigger_context_recovery() elif message contains any of ["Summary unavailable", "context limits", "truncated", "compacted"]: trigger_context_recovery() elif message matches continuation_patterns: # "continue", "where were we", "did this happen", etc. trigger_context_recovery() ``` **Do not wait for user to ask** — if compaction is detected, proactively recover and present context. --- ## Example **Scenario:** Session starts with compaction summary ``` User message: "<summary>Summary unavailable due to context limits...</summary>" User message: "did this happen?" ``` **Agent executes:** 1. Detects compaction via `<summary>` tag 2. `message:read channel=discord channelId=1460342116516364533 limit=50` 3. Calculates time span: 2.5 hours — sufficient, no expansion needed 4. Parses messages, finds last action: "Now let me extract the key orchestration decisions..." 5. Checks session logs — extracts recent user requests 6. Writes context summary to `memory/YYYY-MM-DD.md` 7. Responds: > "Context recovered. Your last request was to extract orchestration decisions from Nexus archived sessions for PR #137 (Skills & Agents System). This action did not complete before context was truncated. > > **Recovered state:** > - PR #137: 15,053 additions, 91 files, CONFLICTING merge state > - Spec location: `content/spec-skills-agents-system.md` (2,067 lines) > - Nexus sessions: `~/.clawdbot-duke-leto/archive/nexus-sessions/` (96 files) >

--- name: context-recovery description: Automatically recover working context after session compaction or when continuation is implied but context is missing. Works across Discord, Slack, Telegram, Signal, and other supported channels. metadata: {"clawdbot":{"emoji":"🔄"}} --- # Context Recovery Automatically recover working context after session compaction or when continuation is implied but context is missing. Works across Discord, Slack, Telegram, Signal, and other supported channels. **Use when**: Session starts with truncated context, user references prior work without specifying details, or compaction indicators appear. --- ## Triggers ### Automatic Triggers - Session begins with a `

` tag (compaction detected) - User message contains compaction indicators: "Summary unavailable", "context limits", "truncated" ### Manual Triggers - User says "continue", "did this happen?", "where were we?", "what was I working on?" - User references "the project", "the PR", "the branch", "the issue" without specifying which - User implies prior work exists but context is unclear - User asks "do you remember...?" or "we were working on..." --- ## Execution Protocol ### Step 1: Detect Active Channel Extract from runtime context: - `channel` — discord | slack | telegram | signal | etc. - `channelId` — the specific channel/conversation ID - `threadId` — for threaded conversations (Slack, Discord threads) ### Step 2: Fetch Channel History (Adaptive Depth) **Initial fetch:** ``` message:read channel: channelId: limit: 50 ``` **Adaptive expansion logic:** 1. Parse timestamps from returned messages 2. Calculate time span: `newest_timestamp - oldest_timestamp` 3. If time span < 2 hours AND message count == limit: - Fetch additional 50 messages (using `before` parameter if supported) - Repeat until time span ≥ 2 hours OR total messages ≥ 100 4. Hard cap: 100 messages maximum (token budget constraint) **Thread-aware recovery (Slack/Discord):** ``` # If threadId is present, fetch thread messages first message:read channel: threadId: limit: 50 # Then fetch parent channel for broader context message:read channel: channelId: limit: 30 ``` **Parse for:** - Recent user requests (what was asked) - Recent assistant responses (what was done) - URLs, file paths, branch names, PR numbers - Incomplete actions (promises made but not fulfilled) - Project identifiers and working directories ### Step 3: Fetch Session Logs (if available) ```bash # Find most recent session files for this agent SESSION_DIR=$(ls -d ~/.clawdbot-*/agents/*/sessions 2>/dev/null | head -1) SESSIONS=$(ls -t "$SESSION_DIR"/*.jsonl 2>/dev/null | head -3) for SESSION in $SESSIONS; do echo "=== Session: $SESSION ===" # Extract user requests jq -r 'select(.message.role == "user") | .message.content[0].text // empty' "$SESSION" | tail -20 # Extract assistant actions (look for tool calls and responses) jq -r 'select(.message.role == "assistant") | .message.content[]? | select(.type == "text") | .text // empty' "$SESSION" | tail -50 done ``` ### Step 4: Check Shared Memory ```bash # Extract keywords from channel history (project names, PR numbers, branch names) # Search memory for relevant entries grep -ri "" ~/clawd-*/memory/ 2>/dev/null | head -10 # Check for recent daily logs ls -t ~/clawd-*/memory/202*.md 2>/dev/null | head -3 | xargs grep -l "" 2>/dev/null ``` ### Step 5: Synthesize Context Compile a structured summary: ```markdown ## Recovered Context **Channel:** # () **Time Range:** to **Messages Analyzed:** ### Active Project/Task - **Repository:** - **Branch:** - **PR:** # — ### Recent Work Timeline 1. [<timestamp>] <action/request> 2. [<timestamp>] <action/request> 3. [<timestamp>] <action/request> ### Pending/Incomplete Actions - ⏳ "<quoted incomplete action>" - ⏳ "<another incomplete item>" ### Key References | Type | Value | |------|-------| | PR | #<number> | | Branch | <name> | | Files | <paths> | | URLs | <links> | ### Last User Request > "<quoted request that may not have been completed>" ### Confidence Level - Channel context: <high/medium/low> - Session logs: <available/partial/unavailable> - Memory entries: <found/none> ``` ### Step 6: Cache Recovered Context **Persist to memory for future reference:** ```bash # Write to daily memory file MEMORY_FILE=~/clawd-*/memory/$(date +%Y-%m-%d).md cat >> "$MEMORY_FILE" << EOF ## Context Recovery — $(date +%H:%M) **Channel:** #<channel-name> **Recovered context for:** <project/task summary> ### Key State - <bullet points of critical context> ### Pending Items - <incomplete actions> EOF ``` This ensures context survives future compactions. ### Step 7: Respond with Context Present the recovered context, then prompt: > "Context recovered. Your last request was [X]. This action [completed/did not complete]. Shall I [continue/retry/clarify]?" --- ## Channel-Specific Notes ### Discord - Use `channelId` from the incoming message metadata - Guild channels have full history access - Thread recovery: check for `threadId` in message metadata - DMs may have limited history ### Slack - Use `channel` parameter with Slack channel ID - Thread context requires `threadId` — always check for thread context first - Parent channel fetch provides surrounding conversation context - May need workspace-level permissions for full history ### Telegram / Signal / Others - Same `message:read` interface - History depth may vary by platform - Group vs. DM context may differ --- ## Constraints - **MANDATORY:** Execute this protocol before responding "insufficient data" or asking clarifying questions when context appears missing - Adaptive depth: start with 50, expand to 100 max - Time-based goal: capture at least 2 hours of context when possible - Session log extraction: last 3 session files maximum - Memory cache: append to daily file, do not overwrite - If recovery fails, state what was attempted and what data sources were unavailable --- ## Auto-Trigger Detection At session start, scan for compaction indicators: ```python # Pseudocode for trigger detection if message contains "<summary>": trigger_context_recovery() elif message contains any of ["Summary unavailable", "context limits", "truncated", "compacted"]: trigger_context_recovery() elif message matches continuation_patterns: # "continue", "where were we", "did this happen", etc. trigger_context_recovery() ``` **Do not wait for user to ask** — if compaction is detected, proactively recover and present context. --- ## Example **Scenario:** Session starts with compaction summary ``` User message: "<summary>Summary unavailable due to context limits...</summary>" User message: "did this happen?" ``` **Agent executes:** 1. Detects compaction via `<summary>` tag 2. `message:read channel=discord channelId=1460342116516364533 limit=50` 3. Calculates time span: 2.5 hours — sufficient, no expansion needed 4. Parses messages, finds last action: "Now let me extract the key orchestration decisions..." 5. Checks session logs — extracts recent user requests 6. Writes context summary to `memory/YYYY-MM-DD.md` 7. Responds: > "Context recovered. Your last request was to extract orchestration decisions from Nexus archived sessions for PR #137 (Skills & Agents System). This action did not complete before context was truncated. > > **Recovered state:** > - PR #137: 15,053 additions, 91 files, CONFLICTING merge state > - Spec location: `content/spec-skills-agents-system.md` (2,067 lines) > - Nexus sessions: `~/.clawdbot-duke-leto/archive/nexus-sessions/` (96 files) > > Shall I proceed with the extraction?"