rob thijssen
d46d8d4f6c
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Wires the in-flight TP machinery (Stage 7a workers, 7b-iii sharded
Qwen3) end to end so a non-streaming chat completion can run across
multiple GPUs via NCCL.
RPC additions (tp/rpc.rs):
- LoadDenseShard{model_id, config_json, safetensors_paths}
- GenerateStep{model_id, tokens, offset}
- ClearKvCache{model_id}
- UnloadModel{model_id}
- LoadDenseShardOk / GenerateStepOk / KvCacheCleared / Unloaded
Worker side (tp/worker.rs):
- WorkerState gains a `models: HashMap<String, TpQwen3ForCausalLM>`
keyed by model_id. LoadDenseShard mmaps safetensors via
ShardedVarBuilder (only this rank's slice materialises), builds the
TP model with the rank's NCCL Comm cloned from NcclState.
- GenerateStep runs the rank-local forward; the resulting logits are
dropped (only the leader's are used for sampling). The forward's
value here is the NCCL collectives inside the row-parallel layers
letting the leader's rank-0 forward make progress.
Pool side (tp/mod.rs):
- WorkerPool::load_dense_shard fans LoadDenseShard out to every worker,
builds rank 0's shard on the leader via spawn_blocking with a fresh
SendComm wrapper at the move boundary (Comm is !Send at the type
level), collects per-rank LoadDenseShardOk. Returns the leader's
Arc<Mutex<TpQwen3ForCausalLM>>.
- WorkerPool::generate_step fans GenerateStep out, runs the leader's
rank-0 forward in spawn_blocking (the AllReduce CustomOps inside
row-parallel layers block until every worker issues the matching
collective), returns the leader's last-position logits Tensor.
- WorkerPool::clear_kv_cache + unload_model follow the same pattern.
NcclState refactor (tp/nccl_state.rs):
- comm field becomes Option<Arc<Comm>> (was Option<Comm>) so callers
can share a clone with TpQwen3ForCausalLM::load.
- new `comm()` accessor + `SendComm` wrapper for spawn_blocking moves.
- single allow(clippy::arc_with_non_send_sync) at the canonical
construction site (Comm is !Send by type but the runtime invariant
is enforced by SendComm + the pool's Mutex).
Harness side (candle.rs):
- LoadedHandle enum (Single | Tp) replaces the bare Arc<LoadedModel>
in the harness's registry. list_models / unload_model /
inference_endpoint walk the enum uniformly.
- TpLoadedModel holds the pool + leader_model + tokenizer + devices.
- load_model dispatches on `spec.tensor_parallel > 1` to a new
cuda-gated load_tp path: resolve dense files via hf-hub, spawn the
pool, init_nccl, load_dense_shard.
- chat_completion branches on the handle variant. The TP path mirrors
run_inference: clear_kv_cache, prefill, sample, decode loop,
detokenize. Acquires the pool Mutex for the whole request.
- Streaming through TP is deferred to Stage 7c (returns Other(err)).
Script (script/validate-neuron.sh):
- 4th positional arg `tp_size` (default 1). When >1, switches to the
dense path (tp + GGUF is mutually exclusive — bails) and adds
`tensor_parallel` + `devices` to the load payload. NEURON_DEVICES
env overrides the default 0..N-1 device list.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
191 lines
7.2 KiB
Bash
Executable File
191 lines
7.2 KiB
Bash
Executable File
#!/bin/env bash
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#
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# End-to-end smoke test for a deployed neuron.
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#
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# Confirms the daemon is reachable, loads a small public Qwen3 GGUF,
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# fires a reasoning probe at /v1/chat/completions, and prints the
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# answer. Used to validate the candle harness on a real GPU host
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# before trusting it for production traffic, and as a regression test
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# after pushing new neuron builds.
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#
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# Usage:
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# script/validate-neuron.sh [host] [model_id] [quant] [tp_size]
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#
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# Defaults:
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# host = beast.hanzalova.internal
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# model_id = unsloth/Qwen3-0.6B-GGUF (official Qwen3-*-GGUF repos
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# ship Q8_0 only; unsloth's mirror ships the full Q-spectrum
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# including Q4_K_M)
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# quant = Q4_K_M (empty = dense safetensors path)
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# tp_size = unset (= 1 = single-GPU; pass 2 to drive the TP path)
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set -euo pipefail
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HOST="${1:-beast.hanzalova.internal}"
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MODEL_ID="${2:-unsloth/Qwen3-0.6B-GGUF}"
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# `${3-Q4_K_M}` (no colon) only uses the default when the arg is
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# UNSET — passing an explicit empty string drives the dense path.
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QUANT="${3-Q4_K_M}"
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# tp_size > 1 forces the dense path (TP requires safetensors) and adds
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# `tensor_parallel: N` to the load payload. The harness picks device
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# indices 0..N-1 by default; override by passing NEURON_DEVICES="0,1,..."
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# in the environment.
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TP_SIZE="${4-1}"
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PORT="${NEURON_PORT:-13131}"
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BASE="http://${HOST}:${PORT}"
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# Reasoning probe — concrete, low-temperature answer that small models
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# can still get right. "Paris" is a strong signal of basic competence
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# beyond gibberish.
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PROBE_PROMPT='What is the capital of Georgia (Caucasus)? Respond with the city name only, no punctuation.'
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EXPECT_SUBSTR='Tbilisi'
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# Qwen3 prepends <think>...</think> reasoning before the answer when the
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# chat template enables thinking mode, which eats most of a small token
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# budget. 256 leaves enough room for thinking + final answer.
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MAX_TOKENS=256
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# /models/load is synchronous — neuron blocks the response until the
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# hf-hub download + GGUF parse + tensor materialisation is done. A
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# fresh 0.6B-Q4_K_M is ~400 MB; on a slow link or cold cache that's
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# easily a minute. Pick a generous ceiling.
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LOAD_TIMEOUT=600
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INFER_TIMEOUT=120
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# Status messages go to stderr so command substitutions like
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# `raw=$(run_probe)` capture only the function's intended return value
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# (an HTTP body), not the progress chatter.
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say() { printf '[%s] %s\n' "${HOST}" "$*" >&2; }
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die() { say "FAIL: $*"; exit 1; }
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probe_health() {
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curl --silent --fail --max-time 5 "${BASE}/health" >/dev/null \
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|| die "neuron not reachable at ${BASE}/health"
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}
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list_loaded_ids() {
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# The manifest is YAML and uses yq; HTTP responses are JSON and use
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# jq directly. pip-yq parses input as YAML by default, which trips
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# on JSON content that happens to look like YAML aliases (chatcmpl
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# ids, escaped quotes inside `<think>...</think>` blocks, etc.).
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curl --silent --fail "${BASE}/models" | jq -r '.[].id'
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}
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is_loaded() {
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list_loaded_ids 2>/dev/null | grep -Fxq "${MODEL_ID}"
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}
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trigger_load() {
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# Build the per-rank CUDA device list as a JSON array. Either
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# honour NEURON_DEVICES (`0,1,2`) verbatim or default to
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# `[0, 1, ..., tp_size - 1]`.
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local devices_json
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if [[ -n "${NEURON_DEVICES:-}" ]]; then
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devices_json=$(jq -n -c --arg s "${NEURON_DEVICES}" \
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'$s | split(",") | map(tonumber)')
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else
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devices_json=$(jq -n -c --argjson n "${TP_SIZE}" '[range(0; $n)]')
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fi
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say "POST /models/load ${MODEL_ID} (quant=${QUANT:-<dense>}, tp=${TP_SIZE}, devices=${devices_json})"
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say " (synchronous; may take a minute on first run while HF downloads)"
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if (( TP_SIZE > 1 )) && [[ -n "${QUANT}" ]]; then
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die "tp_size>1 requires dense safetensors — pass quant='' as the 3rd argument"
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fi
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# Build the payload via jq so the optional `quant` and
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# `tensor_parallel` fields are omitted entirely when not in use —
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# that's how the harness tells dense from quantized and single-GPU
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# from TP.
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local payload
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if [[ -z "${QUANT}" ]] && (( TP_SIZE > 1 )); then
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payload=$(jq -n -c \
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--arg id "${MODEL_ID}" \
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--argjson tp "${TP_SIZE}" \
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--argjson devices "${devices_json}" \
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'{model_id: $id, harness: "candle", tensor_parallel: $tp, devices: $devices}')
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elif [[ -z "${QUANT}" ]]; then
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payload=$(jq -n -c \
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--arg id "${MODEL_ID}" \
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--argjson devices "${devices_json}" \
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'{model_id: $id, harness: "candle", devices: $devices}')
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else
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payload=$(jq -n -c \
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--arg id "${MODEL_ID}" \
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--arg q "${QUANT}" \
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--argjson devices "${devices_json}" \
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'{model_id: $id, harness: "candle", quant: $q, devices: $devices}')
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fi
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# --write-out captures the response code on a separate line so we
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# can surface a real diagnostic instead of relying on --fail.
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local resp http_code body
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resp=$(curl --silent --show-error --max-time "${LOAD_TIMEOUT}" \
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--write-out '\n__HTTP__%{http_code}' \
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-X POST "${BASE}/models/load" \
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-H 'content-type: application/json' \
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--data "${payload}") || die "curl /models/load failed: $?"
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http_code=$(echo "${resp}" | grep -oP '(?<=__HTTP__)\d+$' | tail -1)
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body=$(echo "${resp}" | sed '$ s/__HTTP__.*$//')
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if [[ "${http_code}" != "200" ]]; then
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die "load returned HTTP ${http_code}: ${body}"
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fi
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say "load returned ${http_code}: ${body}"
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}
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run_probe() {
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say "POST /v1/chat/completions (probe: ${PROBE_PROMPT})"
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local payload
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payload=$(jq -n -c \
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--arg model "${MODEL_ID}" \
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--arg content "${PROBE_PROMPT}" \
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--argjson tokens "${MAX_TOKENS}" \
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'{
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model: $model,
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messages: [{role: "user", content: $content}],
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temperature: 0.1,
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max_tokens: $tokens
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}')
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local resp http_code body
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resp=$(curl --silent --show-error --max-time "${INFER_TIMEOUT}" \
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--write-out '\n__HTTP__%{http_code}' \
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-X POST "${BASE}/v1/chat/completions" \
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-H 'content-type: application/json' \
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--data "${payload}") || die "curl /v1/chat/completions failed: $?"
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http_code=$(echo "${resp}" | grep -oP '(?<=__HTTP__)\d+$' | tail -1)
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body=$(echo "${resp}" | sed '$ s/__HTTP__.*$//')
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if [[ "${http_code}" != "200" ]]; then
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die "inference returned HTTP ${http_code}: ${body}"
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fi
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echo "${body}"
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}
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say "validating neuron at ${BASE}"
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probe_health
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say "/health OK"
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if is_loaded; then
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say "${MODEL_ID} already loaded"
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else
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trigger_load
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fi
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raw=$(run_probe)
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echo "---"
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# Dump the raw JSON. Don't pipe through `yq -r '.'` — yq's default
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# YAML output mode chokes on JSON strings that contain `<` (and the
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# `<think>` markers Qwen3 emits during reasoning are a perfect
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# example). The targeted `yq -r '.path'` calls below work fine
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# because jq's path filter mode bypasses the YAML re-emit.
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echo "${raw}"
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echo "---"
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content=$(echo "${raw}" | jq -r '.choices[0].message.content // empty')
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if [[ -z "${content}" ]]; then
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die "no content in chat completion response"
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fi
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say "assistant said: ${content}"
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if echo "${content}" | grep -qiF "${EXPECT_SUBSTR}"; then
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say "PASS — response contains expected substring '${EXPECT_SUBSTR}'"
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exit 0
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else
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die "response did not contain '${EXPECT_SUBSTR}'"
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fi
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