Adds a NIXL-backed counterpart to unified_kv_both so we can attribute
the kv_both substrate overhead measured in the elastic_migration_v2
section to either Mooncake-specific code or a generic v1-connector
cost shared by all connectors.
- scripts/cache_aware_proxy.py: register --policy unified_nixl_both.
Picker is identical to unified (and unified_kv_both); routing
decisions never go through the PD-sep branch. Differs only at the
vLLM launch layer.
- scripts/b3_isolated_policy.sh: new KV_CONNECTOR env var
(Mooncake|Nixl), auto-set based on POLICY. NIXL launch path uses
--kv-transfer-config '{"kv_connector":"NixlConnector","kv_role":"kv_both"}'
with no VLLM_MOONCAKE_BOOTSTRAP_PORT (NIXL uses UCX side-channels).
- Health-check timeout: 90 iterations * 2s -> 180 iterations * 2s
(180s -> 360s). Empirically NIXL needs ~100-150s per instance to
initialize the UCX agent and register KV cache memory; 8
concurrent NIXL launches frequently overshoot the previous 180s
budget. Mooncake is unaffected (still finishes well inside the new
budget). The 8-vLLM unified_nixl_both first launch tripped the
old timeout despite 7/8 instances reaching startup-complete.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
197 lines
7.2 KiB
Bash
Executable File
197 lines
7.2 KiB
Bash
Executable File
#!/usr/bin/env bash
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# Run a single B3 policy with a cold-start vLLM (clean APC).
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#
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# Usage:
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# bash scripts/b3_isolated_policy.sh <policy> <trace> <rundir>
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#
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# Launches 8 fresh vLLM instances, captures their engine_state into
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# <rundir>/engine_state/, runs the policy through the proxy on
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# <trace>, then kills everything. Distinct from b3_sweep.sh which
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# shares one vLLM-set across all five policies (faster but warm-cache).
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set -euo pipefail
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ROOT="${ROOT:-/home/admin/cpfs/wjh/agentic-kv}"
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VENV="$ROOT/.venv/bin"
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MODEL="${MODEL:-/home/admin/cpfs/wjh/models/Qwen/Qwen3-Coder-30B-A3B-Instruct}"
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PROXY_PORT="${PROXY_PORT:-9300}"
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BASE_PORT="${BASE_PORT:-8000}"
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GPU_INDICES="${GPU_INDICES:-0 1 2 3 4 5 6 7}"
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EXTRA_VLLM_ARGS="${EXTRA_VLLM_ARGS:---enable-prompt-tokens-details}"
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N_INSTANCES=$(echo $GPU_INDICES | wc -w)
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# When ENABLE_KV_BOTH=1, vLLM launches with the Mooncake KV connector in
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# kv_both role and the proxy is given bootstrap ports. This is required
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# for --policy unified_v2 (per-request PD-sep) but disabled by default
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# because it adds always-on KV-transfer overhead even when not triggered.
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ENABLE_KV_BOTH="${ENABLE_KV_BOTH:-0}"
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BOOTSTRAP_BASE_PORT="${BOOTSTRAP_BASE_PORT:-8998}"
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POLICY="${1:?usage: $0 <policy> <trace> <rundir>}"
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TRACE="${2:?usage: $0 <policy> <trace> <rundir>}"
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RUNDIR="${3:?usage: $0 <policy> <trace> <rundir>}"
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# Auto-enable kv_both when the policy requires it.
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# KV_CONNECTOR (Mooncake|Nixl) selects the underlying connector when KV_BOTH=1.
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KV_CONNECTOR="${KV_CONNECTOR:-Mooncake}"
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if [ "$POLICY" = "unified_v2" ] || [ "$POLICY" = "unified_kv_both" ]; then
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ENABLE_KV_BOTH=1
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KV_CONNECTOR="Mooncake"
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fi
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if [ "$POLICY" = "unified_nixl_both" ]; then
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ENABLE_KV_BOTH=1
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KV_CONNECTOR="Nixl"
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fi
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mkdir -p "$RUNDIR/engine_state" "$RUNDIR/logs"
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echo "[isolated] policy=$POLICY trace=$(basename $TRACE) rundir=$RUNDIR"
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cleanup() {
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pkill -9 -f cache_aware_proxy 2>/dev/null || true
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pkill -9 -f "vllm serve" 2>/dev/null || true
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pkill -9 -f "EngineCore" 2>/dev/null || true
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sleep 3
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}
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trap cleanup EXIT
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# Hard reset first
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cleanup
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echo "[isolated] launching $N_INSTANCES vLLM on GPUs $GPU_INDICES ENABLE_KV_BOTH=$ENABLE_KV_BOTH KV_CONNECTOR=$KV_CONNECTOR ..."
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i=0
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for gpu in $GPU_INDICES; do
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port=$((BASE_PORT + i))
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master=$((29500 + i))
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bp=$((BOOTSTRAP_BASE_PORT + i))
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if [ "$ENABLE_KV_BOTH" = "1" ] && [ "$KV_CONNECTOR" = "Mooncake" ]; then
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PYTHONHASHSEED=42 \
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VLLM_MOONCAKE_BOOTSTRAP_PORT=$bp \
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AGENTIC_STEP_LOG_PATH="$RUNDIR/engine_state/engine_${i}.jsonl" \
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AGENTIC_WORKER_ID="engine_${i}" \
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CUDA_VISIBLE_DEVICES=$gpu \
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MASTER_PORT=$master \
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nohup "$VENV/vllm" serve "$MODEL" \
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--host 0.0.0.0 --port "$port" \
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--tensor-parallel-size 1 \
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--trust-remote-code --enable-prefix-caching \
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--dtype auto --gpu-memory-utilization 0.9 \
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--max-model-len 200000 \
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--kv-transfer-config '{"kv_connector":"MooncakeConnector","kv_role":"kv_both"}' \
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$EXTRA_VLLM_ARGS \
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> "$RUNDIR/logs/vllm_inst_${i}_gpu${gpu}.log" 2>&1 &
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elif [ "$ENABLE_KV_BOTH" = "1" ] && [ "$KV_CONNECTOR" = "Nixl" ]; then
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# NixlConnector uses UCX side-channels for handshake (no bootstrap
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# port needed). Side-channel host defaults to NIC IP discovered
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# at register_kv_caches time.
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AGENTIC_STEP_LOG_PATH="$RUNDIR/engine_state/engine_${i}.jsonl" \
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AGENTIC_WORKER_ID="engine_${i}" \
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CUDA_VISIBLE_DEVICES=$gpu \
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MASTER_PORT=$master \
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nohup "$VENV/vllm" serve "$MODEL" \
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--host 0.0.0.0 --port "$port" \
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--tensor-parallel-size 1 \
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--trust-remote-code --enable-prefix-caching \
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--dtype auto --gpu-memory-utilization 0.9 \
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--max-model-len 200000 \
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--kv-transfer-config '{"kv_connector":"NixlConnector","kv_role":"kv_both"}' \
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$EXTRA_VLLM_ARGS \
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> "$RUNDIR/logs/vllm_inst_${i}_gpu${gpu}.log" 2>&1 &
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else
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AGENTIC_STEP_LOG_PATH="$RUNDIR/engine_state/engine_${i}.jsonl" \
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AGENTIC_WORKER_ID="engine_${i}" \
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CUDA_VISIBLE_DEVICES=$gpu \
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MASTER_PORT=$master \
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nohup "$VENV/vllm" serve "$MODEL" \
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--host 0.0.0.0 --port "$port" \
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--tensor-parallel-size 1 \
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--trust-remote-code --enable-prefix-caching \
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--dtype auto --gpu-memory-utilization 0.9 \
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--max-model-len 200000 \
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$EXTRA_VLLM_ARGS \
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> "$RUNDIR/logs/vllm_inst_${i}_gpu${gpu}.log" 2>&1 &
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fi
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disown
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sleep 2
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i=$((i + 1))
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done
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echo "[isolated] waiting for vLLM health ..."
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# NIXL init takes ~100-150s per instance even with concurrent launches;
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# Mooncake is closer to ~30-60s. Use a generous 360s timeout to cover
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# both (90s -> 360s vs the previous 180s).
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HEALTH_MAX_TRIES=180
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for i in $(seq 0 $((N_INSTANCES - 1))); do
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port=$((BASE_PORT + i))
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tries=0
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while ! curl -sf "http://127.0.0.1:$port/health" >/dev/null 2>&1; do
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tries=$((tries + 1))
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if [ $tries -gt $HEALTH_MAX_TRIES ]; then
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echo "[isolated] FATAL: inst_$i not healthy after $((HEALTH_MAX_TRIES * 2))s"
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exit 1
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fi
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sleep 2
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done
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echo " inst_$i ready"
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done
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echo "[isolated] launching proxy with --policy $POLICY ..."
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combined_args=""
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for i in $(seq 0 $((N_INSTANCES - 1))); do
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combined_args="$combined_args http://127.0.0.1:$((BASE_PORT + i))"
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done
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proxy_extra=""
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if [ "$ENABLE_KV_BOTH" = "1" ]; then
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bp_list=""
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for i in $(seq 0 $((N_INSTANCES - 1))); do
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if [ -z "$bp_list" ]; then
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bp_list="$((BOOTSTRAP_BASE_PORT + i))"
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else
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bp_list="$bp_list,$((BOOTSTRAP_BASE_PORT + i))"
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fi
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done
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proxy_extra="--bootstrap-ports $bp_list"
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fi
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nohup "$VENV/python" "$ROOT/scripts/cache_aware_proxy.py" \
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--port "$PROXY_PORT" \
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--combined $combined_args \
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--policy "$POLICY" \
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$proxy_extra \
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> "$RUNDIR/proxy.log" 2>&1 &
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disown
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tries=0
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until curl -sf "http://127.0.0.1:$PROXY_PORT/stats" >/dev/null 2>&1; do
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tries=$((tries + 1))
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if [ $tries -gt 30 ]; then
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echo "[isolated] FATAL: proxy did not come up in 60s"
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tail -30 "$RUNDIR/proxy.log"
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exit 1
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fi
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sleep 2
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done
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t_start=$(date +%s.%N)
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echo "[isolated] running replayer ..."
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PYTHONPATH="$ROOT" "$VENV/python" -m replayer \
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--trace "$TRACE" \
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--output "$RUNDIR/metrics.jsonl" \
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--endpoint "http://127.0.0.1:$PROXY_PORT" \
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--model "$MODEL" \
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2>&1 | tee "$RUNDIR/replayer.log" | tail -3
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t_end=$(date +%s.%N)
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python3 - "$RUNDIR" "$POLICY" "$TRACE" "$t_start" "$t_end" <<'PY'
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import json, sys
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rundir, policy, trace, t_start, t_end = sys.argv[1:]
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with open(f"{rundir}/run_window.json", "w") as f:
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json.dump({
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"policy": policy, "trace": trace,
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"t_start_unix": float(t_start),
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"t_end_unix": float(t_end),
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"isolated": True,
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}, f, indent=2)
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PY
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curl -s "http://127.0.0.1:$PROXY_PORT/breakdown" > "$RUNDIR/breakdown.json"
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curl -s "http://127.0.0.1:$PROXY_PORT/worker_state" > "$RUNDIR/worker_state.json"
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curl -s "http://127.0.0.1:$PROXY_PORT/stats" > "$RUNDIR/stats.json"
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echo "[isolated] $POLICY done: $(wc -l < "$RUNDIR/metrics.jsonl") metric rows"
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