| name | mem0-status |
| description | Diagnoses mem0 connectivity, API key validity, and memory read/write functionality. Use when memory operations fail, searches return empty, add_memory errors occur, or to verify the plugin is working correctly. |
Mem0 Status
Run a diagnostic check on the mem0 plugin. Useful for troubleshooting.
Execution
Run ALL checks, then display a single summary. Do not stop on the first failure.
Check 1: API key
_KEY="${MEM0_API_KEY:-}"
[ -n "$_KEY" ] && echo "${_KEY:0:6}..." || echo "NOT_SET"
- If
NOT_SET: FAIL — "No API key configured"
- If set: PASS — the command already prints only the first 6 chars
Check 2: Identity resolution
Resolve identity from the MEM0_* environment variables set by the plugin's shell.env hook. These are the exact values the plugin uses to scope memories, so report them directly. Do NOT re-run git here: the plugin already resolved branch and project from git at session start, and re-shelling git can disagree with it — e.g. it prints an empty branch that renders as (not a git repo) while the Session check below shows branch=main. One source of truth keeps the two lines consistent.
echo "user_id=${MEM0_USER_ID:-${USER:-default}}"
echo "project_id=${MEM0_APP_ID:-}"
echo "branch=${MEM0_BRANCH:-main}"
_S="$HOME/.mem0/settings.json"
_SCOPE="$(grep -o '"default_scope"[[:space:]]*:[[:space:]]*"[a-z]*"' "$_S" 2>/dev/null | grep -o '[a-z]*"$' | tr -d '"')"
echo "default_scope=${_SCOPE:-project}"
user_id: from MEM0_USER_ID, falling back to $USER
project_id: from MEM0_APP_ID
branch: from MEM0_BRANCH (the plugin's resolved value; falls back to main outside a git repo)
default_scope: from ~/.mem0/settings.json (default_scope), falling back to project. This is the scope memory tools use when none is given; change it with /mem0-scope.
PASS if user_id and project_id are non-empty. WARN if project_id is empty — the shell.env hook may not have fired (restart OpenCode). Report the branch verbatim from MEM0_BRANCH; never invent a string like (not a git repo).
Check 3: Memory tool connectivity
Call search_memories with:
-
query="health check"
-
filters={"AND": [{"user_id": "<active_user_id>"}, {"app_id": "<active_project_id>"}]}
-
top_k=1
-
If returns successfully (even empty): PASS
-
If errors: FAIL — show the error message
Check 4: Memory write capability
Call add_memory with:
text="Health check probe — safe to delete."
user_id=<active_user_id>
app_id=<active_project_id>
metadata={"type": "health_check", "probe": true}
infer=False
The response returns event_id (v3 writes are async). Call get_event_status(event_id=<event_id>) to check processing.
- If status is
SUCCEEDED: PASS — extract the memory ID from the event result, then call delete_memory with that ID to clean up.
- If status is
PENDING after 5 seconds: PASS (write accepted, processing delayed)
- If errors: FAIL — show the error.
Check 5: Session context
Check that the plugin's shell.env hook has injected session context into the environment:
echo "session_id=${MEM0_SESSION_ID:-}"
echo "app_id=${MEM0_APP_ID:-}"
echo "branch=${MEM0_BRANCH:-}"
- If all three are non-empty: PASS — "Session active"
- If any are missing: WARN — "Plugin env vars not set; shell.env hook may not have fired"
Check 6: Auto-dream readiness
Explain whether auto-dream (memory consolidation) is eligible to run, and if not, exactly which gate is blocking. Auto-dream runs at most once per session and only when all gates pass: time since last consolidation ≥ minHours, sessions since ≥ minSessions, and project memory count ≥ minMemories.
Read the gate state and thresholds:
_ST="$HOME/.mem0/mem0-dream-state.json"
_SET="$HOME/.mem0/settings.json"
echo "sessions_since=$(grep -o '"sessionsSince"[[:space:]]*:[[:space:]]*[0-9]*' "$_ST" 2>/dev/null | grep -o '[0-9]*$' || echo 0)"
echo "last_consolidated_ms=$(grep -o '"lastConsolidatedAt"[[:space:]]*:[[:space:]]*[0-9]*' "$_ST" 2>/dev/null | grep -o '[0-9]*$' || echo 0)"
echo "min_hours=$(grep -o '"minHours"[[:space:]]*:[[:space:]]*[0-9]*' "$_SET" 2>/dev/null | grep -o '[0-9]*$' || echo 24)"
echo "min_sessions=$(grep -o '"minSessions"[[:space:]]*:[[:space:]]*[0-9]*' "$_SET" 2>/dev/null | grep -o '[0-9]*$' || echo 5)"
echo "min_memories=$(grep -o '"minMemories"[[:space:]]*:[[:space:]]*[0-9]*' "$_SET" 2>/dev/null | grep -o '[0-9]*$' || echo 20)"
echo "now_s=$(date +%s)"
echo "dream_env=${MEM0_DREAM:-unset}"
For the memory count, reuse the project memory count from Check 3/4 (or call get_memories with the project filter, page_size=1, and read count).
Compute each gate:
- time:
hours_since = (now_s - last_consolidated_ms/1000) / 3600. Passes when ≥ min_hours. If last_consolidated_ms is 0 it has never run → time gate passes.
- sessions: passes when
sessions_since ≥ min_sessions.
- memories: passes when project memory count
≥ min_memories.
Report:
- If
dream_env is false/0/no/off, or dream.enabled is false in settings: WARN — "Auto-dream disabled".
- If all three gates pass: PASS — "eligible (runs at next session start)".
- Otherwise: WARN — list the blocking gate(s), e.g.
sessions 2/5, memories 3/20. This is expected, not an error — auto-dream is just waiting. Note the user can run /mem0-dream to consolidate now, or lower the thresholds via the dream block in ~/.mem0/settings.json.
Display
## mem0 status
PASS API Key m0-dVe...
PASS Identity user=kartik, project=mem0, branch=main
PASS Default scope project
PASS Memory Tools 142ms
PASS Write/Read write + delete OK
PASS Session session_id=abc123, app_id=mem0, branch=main
WARN Auto-dream waiting — sessions 2/5, memories 3/20 (/mem0-dream to run now)
All checks passed.
The Auto-dream line is informational: WARN here means "waiting on gates", not a failure. Show PASS when eligible, or "disabled" when turned off.
If any check fails, add a ## Troubleshooting section with specific fix steps for each failure.
Extended mode: Memory Quality Analysis
When invoked with --deep (e.g., /mem0-status --deep), run the standard 6 checks above plus a memory quality scan.
Quality Check 1: Duplicates
Call get_memories with filters={"AND": [{"user_id": "<active_user_id>"}, {"app_id": "<active_project_id>"}]}, page_size=200. Compare all pairs within the same metadata.type group for high textual overlap (shared nouns/keywords > 60%). Report:
Potential duplicates: <N> pairs
[mem0:<id1>] ≈ [mem0:<id2>] — both about "<shared topic>"
Quality Check 2: Stale memories
Flag memories where:
metadata.type is session_state or compact_summary AND older than 90 days
metadata.confidence < 0.3 AND older than 30 days
Stale candidates: <N>
[mem0:<id>] — session_state, 142d old
Quality Check 2b: Low-confidence memories
Flag memories where metadata.confidence < 0.5 (regardless of age). Report separately from stale:
Low-confidence memories: <N>
[mem0:<id>] — confidence=0.3, "<content preview>"
Quality Check 3: Contradictions
Within each metadata.type group, flag pairs that assert opposing facts about the same topic. Use semantic judgment — look for negation patterns, conflicting tool/framework choices, or reversed decisions.
Possible contradictions: <N>
[mem0:<idA>] vs [mem0:<idB>] — conflicting on "<topic>"
Quality Check 4: Orphan memories
Memories with no metadata.type set, or with metadata.type not in the 17 known coding categories. These were likely written without proper tagging.
Untagged/orphan memories: <N>
Quality summary
## Memory Quality
Duplicates: <N> · Stale: <N> · Contradictions: <N> · Orphans: <N>
If all counts are 0: Memory quality: clean.
If any non-zero: append Run /mem0-dream to fix.
To fix issues found by --deep, run /mem0-dream for automated consolidation (merges, prunes, conflict resolution).
Output formatting
IMPORTANT: Do NOT use markdown in your output. OpenCode TUI renders text verbatim — markdown like bold, ## headers, and | table | syntax appears as raw characters. Use plain text with indentation for structure. Use dashes for lists. Use spaces to align columns instead of markdown tables.