Files
2026-07-13 13:39:12 +08:00

881 lines
28 KiB
TypeScript

import test from "node:test";
import assert from "node:assert/strict";
const {
resolveComboConfig,
getDefaultComboConfig,
resolveComboTargetTimeoutMs,
DEFAULT_COMBO_TARGET_TIMEOUT_MS,
resolveComboQueueDepth,
} = await import("../../open-sse/services/comboConfig.ts");
const { createComboSchema, updateComboDefaultsSchema } =
await import("../../src/shared/validation/schemas.ts");
const { MAX_TIMER_TIMEOUT_MS } = await import("../../src/shared/utils/runtimeTimeouts.ts");
test("getDefaultComboConfig returns a fresh copy of the defaults", () => {
const first = getDefaultComboConfig();
const second = getDefaultComboConfig();
assert.notEqual(first, second);
assert.equal(first.strategy, "priority");
assert.equal(first.maxRetries, 1);
assert.equal(first.retryDelayMs, 2000);
assert.equal(first.fallbackDelayMs, 0);
assert.ok(!("timeoutMs" in first));
assert.ok(!("healthCheckEnabled" in first));
assert.equal(first.handoffThreshold, 0.85);
assert.equal(first.maxMessagesForSummary, 30);
assert.deepEqual(first.handoffProviders, ["codex"]);
assert.equal(first.nestedComboMode, "flatten");
assert.equal(first.failoverBeforeRetry, true);
assert.equal(first.maxSetRetries, 0);
assert.equal(first.setRetryDelayMs, 2000);
assert.equal(first.reasoningTokenBufferEnabled, true);
assert.equal(first.zeroLatencyOptimizationsEnabled, false);
assert.equal(first.hedging, false);
assert.equal(first.fallbackCompressionMode, "lite");
assert.equal(first.fallbackCompressionThreshold, 1000);
assert.equal(first.predictiveTtftMs, 0);
assert.equal(first.evalRouting.enabled, false);
assert.equal(first.evalRouting.maxAgeHours, 720);
first.strategy = "weighted";
assert.equal(second.strategy, "priority");
});
test("resolveComboConfig applies the full cascade from defaults to combo overrides", () => {
const result = resolveComboConfig(
{
config: {
maxRetries: 4,
},
},
{
comboDefaults: {
strategy: "round-robin",
timeoutMs: 120000,
targetTimeoutMs: 90000,
},
providerOverrides: {
openai: {
timeoutMs: 60000,
targetTimeoutMs: 45000,
retryDelayMs: 500,
fallbackDelayMs: 100,
},
},
},
"openai"
);
assert.equal(result.strategy, "round-robin");
assert.equal(result.retryDelayMs, 500);
assert.equal(result.fallbackDelayMs, 100);
assert.equal(result.maxRetries, 4);
assert.equal(result.targetTimeoutMs, 45000);
assert.ok(!("timeoutMs" in result));
assert.ok(!("healthCheckEnabled" in result));
});
test("resolveComboConfig cascades reasoning token buffer feature flag", () => {
const providerDisabled = resolveComboConfig(
{},
{
comboDefaults: {
reasoningTokenBufferEnabled: true,
},
providerOverrides: {
openai: {
reasoningTokenBufferEnabled: false,
},
},
},
"openai"
);
const comboEnabled = resolveComboConfig(
{
config: {
reasoningTokenBufferEnabled: true,
},
},
{
comboDefaults: {
reasoningTokenBufferEnabled: false,
},
}
);
assert.equal(providerDisabled.reasoningTokenBufferEnabled, false);
assert.equal(comboEnabled.reasoningTokenBufferEnabled, true);
});
test("resolveComboConfig preserves nested routing defaults for partial overrides", () => {
const result = resolveComboConfig(
{
config: {
shadowRouting: { enabled: true },
evalRouting: { enabled: true, suiteIds: ["coding-proficiency"] },
},
},
{
comboDefaults: {
shadowRouting: { sampleRate: 0.5 },
evalRouting: { maxAgeHours: 168 },
},
}
);
assert.equal(result.shadowRouting.enabled, true);
assert.equal(result.shadowRouting.sampleRate, 0.5);
assert.equal(result.shadowRouting.maxTargets, 2);
assert.equal(result.shadowRouting.timeoutMs, 30000);
assert.equal(result.evalRouting.enabled, true);
assert.deepEqual(result.evalRouting.suiteIds, ["coding-proficiency"]);
assert.equal(result.evalRouting.maxAgeHours, 168);
assert.equal(result.evalRouting.minCases, 1);
assert.equal(result.evalRouting.cacheTtlMs, 60000);
});
test("resolveComboConfig ignores null, undefined, and legacy resilience overrides", () => {
const result = resolveComboConfig(
{
config: {
timeoutMs: null,
trackMetrics: false,
},
},
{
comboDefaults: {
timeoutMs: undefined,
queueTimeoutMs: 15000,
},
providerOverrides: {
openai: {
strategy: null,
concurrencyPerModel: 9,
},
},
},
"openai"
);
assert.ok(!("timeoutMs" in result));
assert.equal(result.queueTimeoutMs, 15000);
assert.equal(result.concurrencyPerModel, 9);
assert.equal(result.trackMetrics, false);
assert.equal(result.strategy, "priority");
});
test("updateComboDefaultsSchema accepts arbitrarily large timeout defaults and provider overrides", () => {
const parsed = updateComboDefaultsSchema.parse({
comboDefaults: {
timeoutMs: 3600000,
targetTimeoutMs: 30000,
reasoningTokenBufferEnabled: false,
},
providerOverrides: {
anthropic: {
timeoutMs: 5400000,
targetTimeoutMs: 45000,
reasoningTokenBufferEnabled: false,
},
},
});
assert.equal(parsed.comboDefaults.timeoutMs, 3600000);
assert.equal(parsed.comboDefaults.targetTimeoutMs, 30000);
assert.equal(parsed.comboDefaults.reasoningTokenBufferEnabled, false);
assert.equal(parsed.providerOverrides.anthropic.timeoutMs, 5400000);
assert.equal(parsed.providerOverrides.anthropic.targetTimeoutMs, 45000);
assert.equal(parsed.providerOverrides.anthropic.reasoningTokenBufferEnabled, false);
});
test("combo config schema accepts explicit zero-latency opt-in controls", () => {
const parsed = createComboSchema.parse({
name: "zero-latency-opt-in",
models: ["openai/gpt-4o-mini", "anthropic/claude-3-haiku"],
config: {
zeroLatencyOptimizationsEnabled: true,
hedging: true,
hedgeDelayMs: 250,
fallbackCompressionMode: "lite",
fallbackCompressionThreshold: 2500,
predictiveTtftMs: 1800,
},
});
assert.equal(parsed.config.zeroLatencyOptimizationsEnabled, true);
assert.equal(parsed.config.hedging, true);
assert.equal(parsed.config.hedgeDelayMs, 250);
assert.equal(parsed.config.fallbackCompressionMode, "lite");
assert.equal(parsed.config.fallbackCompressionThreshold, 2500);
assert.equal(parsed.config.predictiveTtftMs, 1800);
});
test("combo config schema auto-promotes the zero-latency gate for legacy configs without opt-in", () => {
// Pre-3.8.33 combos carry zero-latency subfeatures without the
// zeroLatencyOptimizationsEnabled gate. The schema now auto-promotes the gate
// (instead of 400-ing on the first GUI edit) so they round-trip. See #4774/#4382.
const result = createComboSchema.safeParse({
name: "zero-latency-legacy",
models: ["openai/gpt-4o-mini", "anthropic/claude-3-haiku"],
config: {
hedging: true,
fallbackCompressionMode: "lite",
predictiveTtftMs: 1800,
},
});
assert.equal(result.success, true);
assert.equal(result.data.config.zeroLatencyOptimizationsEnabled, true);
// The enabled subfeatures are preserved verbatim.
assert.equal(result.data.config.hedging, true);
assert.equal(result.data.config.fallbackCompressionMode, "lite");
assert.equal(result.data.config.predictiveTtftMs, 1800);
});
test("combo config schema leaves the zero-latency gate untouched when no subfeature is enabled", () => {
// A plain config with no zero-latency subfeature must NOT be auto-promoted —
// the gate stays at its default (false) so we don't silently flip optimizations on.
const result = createComboSchema.safeParse({
name: "no-zero-latency",
models: ["openai/gpt-4o-mini", "anthropic/claude-3-haiku"],
config: {
fallbackCompressionMode: "off",
},
});
assert.equal(result.success, true);
assert.notEqual(result.data.config.zeroLatencyOptimizationsEnabled, true);
});
test("combo config schema no longer rejects v3.8.31-era removed config keys (#4382 round-trip)", () => {
// Keys dropped after v3.8.31 still live in stored JSON. The schema switched
// .strict() (which 400'd) → .passthrough(); the route + migration 103 scrub them.
const result = createComboSchema.safeParse({
name: "legacy-removed-keys",
models: ["openai/gpt-4o-mini", "anthropic/claude-3-haiku"],
config: {
queueDepth: 4,
fallbackDelayMs: 200,
maxComboDepth: 3,
shadowRouting: { enabled: false },
resetAwareEnabled: true,
},
});
assert.equal(result.success, true);
});
test("combo config schema allows zero-latency tuning fields when subfeatures stay disabled", () => {
const parsed = createComboSchema.parse({
name: "zero-latency-disabled-tuning",
models: ["openai/gpt-4o-mini", "anthropic/claude-3-haiku"],
config: {
hedgeDelayMs: 250,
fallbackCompressionMode: "off",
fallbackCompressionThreshold: 2500,
predictiveTtftMs: 0,
},
});
assert.equal(parsed.config.hedgeDelayMs, 250);
assert.equal(parsed.config.fallbackCompressionMode, "off");
assert.equal(parsed.config.fallbackCompressionThreshold, 2500);
assert.equal(parsed.config.predictiveTtftMs, 0);
});
test("resolveComboTargetTimeoutMs inherits the upstream timeout and only shortens it", () => {
assert.equal(resolveComboTargetTimeoutMs({}, 600000), 600000);
assert.equal(resolveComboTargetTimeoutMs({ targetTimeoutMs: 30000 }, 600000), 30000);
assert.equal(resolveComboTargetTimeoutMs({ targetTimeoutMs: 900000 }, 600000), 600000);
assert.equal(resolveComboTargetTimeoutMs({ targetTimeoutMs: 0 }, 600000), 600000);
assert.equal(resolveComboTargetTimeoutMs({ targetTimeoutMs: 30000 }, 0), 30000);
assert.equal(resolveComboTargetTimeoutMs({}, 0), 0);
assert.equal(
resolveComboTargetTimeoutMs({ targetTimeoutMs: 999999999999 }, 0),
MAX_TIMER_TIMEOUT_MS
);
assert.equal(resolveComboTargetTimeoutMs({}, 999999999999), MAX_TIMER_TIMEOUT_MS);
});
test("resolveComboTargetTimeoutMs falls back to the saner combo default when unset", () => {
// The combo default is the documented 120s fallback-latency cap.
assert.equal(DEFAULT_COMBO_TARGET_TIMEOUT_MS, 120000);
// Unset config → use the default (capped at the ceiling), NOT the full upstream ceiling.
// This is what shortens a hung-target failover from 600s to 120s (escalated cmqlrhd7c).
assert.equal(resolveComboTargetTimeoutMs({}, 600000, 120000), 120000);
// Operators can still extend beyond the default, up to the ceiling.
assert.equal(resolveComboTargetTimeoutMs({ targetTimeoutMs: 300000 }, 600000, 120000), 300000);
// Explicit config above the ceiling is still capped at the ceiling.
assert.equal(resolveComboTargetTimeoutMs({ targetTimeoutMs: 900000 }, 600000, 120000), 600000);
// A default larger than the ceiling is clamped to the ceiling.
assert.equal(resolveComboTargetTimeoutMs({}, 100000, 120000), 100000);
// Backward-compat: omitting the default arg keeps the legacy inherit-the-ceiling behavior.
assert.equal(resolveComboTargetTimeoutMs({}, 600000), 600000);
// Disabled upstream timeout (0 = unbounded) stays unbounded even with a default present.
assert.equal(resolveComboTargetTimeoutMs({}, 0, 120000), 0);
});
test("combo timeout schema rejects values beyond the safe timer limit", () => {
const result = createComboSchema.safeParse({
name: "unsafe-timeout",
models: ["openai/gpt-4"],
config: {
targetTimeoutMs: MAX_TIMER_TIMEOUT_MS + 1,
},
});
assert.equal(result.success, false);
});
test("resolveComboConfig preserves explicit empty handoffProviders overrides", () => {
const result = resolveComboConfig(
{
config: {
handoffProviders: [],
},
},
{
comboDefaults: {
handoffProviders: ["codex"],
},
}
);
assert.deepEqual(result.handoffProviders, []);
});
test("resolveComboConfig skips provider overrides when provider is absent", () => {
const result = resolveComboConfig(
{ config: {} },
{
comboDefaults: { strategy: "random" },
providerOverrides: {
openai: { strategy: "weighted" },
},
}
);
assert.equal(result.strategy, "random");
});
test("resolveComboConfig tolerates invalid or missing inputs and falls back to defaults", () => {
assert.deepEqual(resolveComboConfig(null, null, "openai"), getDefaultComboConfig());
assert.deepEqual(resolveComboConfig({}, { comboDefaults: null }, null), getDefaultComboConfig());
});
test("createComboSchema accepts context-relay strategy with handoff config", () => {
const parsed = createComboSchema.parse({
name: "codex-relay",
models: ["codex/gpt-5.4"],
strategy: "context-relay",
config: {
handoffThreshold: 0.85,
maxMessagesForSummary: 24,
handoffModel: "",
},
});
assert.equal(parsed.strategy, "context-relay");
assert.equal(parsed.config.handoffThreshold, 0.85);
assert.equal(parsed.config.maxMessagesForSummary, 24);
});
test("createComboSchema accepts eval-driven routing config", () => {
const parsed = createComboSchema.parse({
name: "eval-ranked",
models: ["openai/gpt-4o-mini", "anthropic/claude-3-haiku"],
strategy: "priority",
config: {
evalRouting: {
enabled: true,
suiteIds: ["golden-set", "coding-proficiency"],
maxAgeHours: 168,
minCases: 5,
qualityWeight: 0.9,
latencyWeight: 0.1,
cacheTtlMs: 30000,
},
},
});
assert.equal(parsed.config.evalRouting.enabled, true);
assert.deepEqual(parsed.config.evalRouting.suiteIds, ["golden-set", "coding-proficiency"]);
});
test("createComboSchema accepts SLA-aware auto routing config", () => {
const parsed = createComboSchema.parse({
name: "sla-auto",
models: ["openai/gpt-4o-mini", "gemini/gemini-2.5-flash"],
strategy: "auto",
config: {
routerStrategy: "sla-aware",
slaTargetP95Ms: "1500",
slaMaxErrorRate: "0.05",
slaMaxCostPer1MTokens: "4.5",
slaHardConstraints: true,
sla: {
targetP95Ms: "2000",
maxErrorRate: "0.1",
hardConstraints: false,
},
},
});
assert.equal(parsed.strategy, "auto");
assert.equal(parsed.config.routerStrategy, "sla-aware");
assert.equal(parsed.config.slaTargetP95Ms, 1500);
assert.equal(parsed.config.slaMaxErrorRate, 0.05);
assert.equal(parsed.config.slaMaxCostPer1MTokens, 4.5);
assert.equal(parsed.config.slaHardConstraints, true);
assert.equal(parsed.config.sla.targetP95Ms, 2000);
assert.equal(parsed.config.sla.maxErrorRate, 0.1);
});
test("createComboSchema accepts structured combo steps with pinned connection and combo refs", () => {
const parsed = createComboSchema.parse({
name: "codex-pinned",
strategy: "priority",
models: [
{
kind: "model",
id: "step-codex-a",
providerId: "codex",
model: "gpt-5.4",
connectionId: "conn-codex-a",
weight: 10,
},
{
kind: "combo-ref",
id: "step-fallback",
comboName: "backup-codex",
weight: 5,
},
],
});
assert.equal(parsed.models[0].kind, "model");
assert.equal(parsed.models[0].providerId, "codex");
assert.equal(parsed.models[0].connectionId, "conn-codex-a");
assert.equal(parsed.models[1].kind, "combo-ref");
assert.equal(parsed.models[1].comboName, "backup-codex");
});
test("createComboSchema accepts composite tiers that reference normalized combo steps", () => {
const parsed = createComboSchema.parse({
name: "tiered-codex",
strategy: "priority",
models: [
{
kind: "model",
id: "step-primary",
providerId: "codex",
model: "gpt-5.4",
connectionId: "conn-codex-a",
},
{
kind: "model",
id: "step-backup",
providerId: "codex",
model: "gpt-5.4",
connectionId: "conn-codex-b",
},
],
config: {
compositeTiers: {
defaultTier: "primary",
tiers: {
primary: {
stepId: "step-primary",
fallbackTier: "backup",
label: "Codex A",
},
backup: {
stepId: "step-backup",
description: "Fallback account",
},
},
},
},
});
assert.equal(parsed.config.compositeTiers.defaultTier, "primary");
assert.equal(parsed.config.compositeTiers.tiers.primary.stepId, "step-primary");
assert.equal(parsed.config.compositeTiers.tiers.primary.fallbackTier, "backup");
assert.equal(parsed.config.compositeTiers.tiers.backup.stepId, "step-backup");
});
test("updateComboDefaultsSchema rejects composite tiers in global defaults and provider overrides", () => {
const result = updateComboDefaultsSchema.safeParse({
comboDefaults: {
compositeTiers: {
defaultTier: "primary",
tiers: {
primary: {
stepId: "step-primary",
},
},
},
},
providerOverrides: {
codex: {
compositeTiers: {
defaultTier: "backup",
tiers: {
backup: {
stepId: "step-backup",
},
},
},
},
},
});
assert.equal(result.success, false);
assert.deepEqual(
result.error.issues.map((issue) => ({
path: issue.path.join("."),
message: issue.message,
})),
[
{
path: "comboDefaults.compositeTiers",
message: "compositeTiers is only supported on concrete combos",
},
{
path: "providerOverrides.codex.compositeTiers",
message: "compositeTiers is only supported on concrete combos",
},
]
);
});
test("createComboSchema accepts failoverBeforeRetry, maxSetRetries and setRetryDelayMs", () => {
const parsed = createComboSchema.parse({
name: "failover-test",
models: ["openai/gpt-4"],
strategy: "priority",
config: {
failoverBeforeRetry: true,
maxSetRetries: 3,
setRetryDelayMs: 1500,
},
});
assert.equal(parsed.config.failoverBeforeRetry, true);
assert.equal(parsed.config.maxSetRetries, 3);
assert.equal(parsed.config.setRetryDelayMs, 1500);
});
test("createComboSchema accepts nestedComboMode and rejects invalid values", () => {
const parsed = createComboSchema.parse({
name: "nested-execute",
models: [{ kind: "combo-ref", comboName: "child" }],
strategy: "priority",
config: { nestedComboMode: "execute" },
});
assert.equal(parsed.config.nestedComboMode, "execute");
const flatten = createComboSchema.parse({
name: "nested-flatten",
models: ["openai/gpt-4o-mini"],
config: { nestedComboMode: "flatten" },
});
assert.equal(flatten.config.nestedComboMode, "flatten");
const invalid = createComboSchema.safeParse({
name: "nested-invalid",
models: ["openai/gpt-4o-mini"],
config: { nestedComboMode: "redirect" },
});
assert.equal(invalid.success, false);
});
test("createComboSchema accepts per-combo stickyRoundRobinLimit and rejects out-of-range", () => {
const parsed = createComboSchema.parse({
name: "sticky-override",
models: ["openai/gpt-4o-mini"],
strategy: "round-robin",
config: { stickyRoundRobinLimit: 2 },
});
assert.equal(parsed.config.stickyRoundRobinLimit, 2);
const tooHigh = createComboSchema.safeParse({
name: "sticky-too-high",
models: ["openai/gpt-4o-mini"],
strategy: "round-robin",
config: { stickyRoundRobinLimit: 1001 },
});
assert.equal(tooHigh.success, false);
});
test("createComboSchema accepts per-combo stickyWeightedLimit and rejects out-of-range", () => {
const parsed = createComboSchema.parse({
name: "sticky-weighted",
models: [{ model: "openai/gpt-4o-mini", weight: 100 }],
strategy: "weighted",
config: { stickyWeightedLimit: 2 },
});
assert.equal(parsed.config.stickyWeightedLimit, 2);
const tooHigh = createComboSchema.safeParse({
name: "sticky-weighted-too-high",
models: [{ model: "openai/gpt-4o-mini", weight: 100 }],
strategy: "weighted",
config: { stickyWeightedLimit: 1001 },
});
assert.equal(tooHigh.success, false);
});
test("createComboSchema coerces string numbers for maxSetRetries and setRetryDelayMs", () => {
const parsed = createComboSchema.parse({
name: "coerce-test",
models: ["openai/gpt-4"],
strategy: "priority",
config: {
maxSetRetries: "2",
setRetryDelayMs: "500",
},
});
assert.equal(parsed.config.maxSetRetries, 2);
assert.equal(parsed.config.setRetryDelayMs, 500);
});
test("createComboSchema rejects maxSetRetries out of range", () => {
const tooHigh = createComboSchema.safeParse({
name: "bad-max",
models: ["openai/gpt-4"],
strategy: "priority",
config: { maxSetRetries: 11 },
});
assert.equal(tooHigh.success, false);
const negative = createComboSchema.safeParse({
name: "bad-max",
models: ["openai/gpt-4"],
strategy: "priority",
config: { maxSetRetries: -1 },
});
assert.equal(negative.success, false);
});
test("createComboSchema rejects setRetryDelayMs out of range", () => {
const tooHigh = createComboSchema.safeParse({
name: "bad-delay",
models: ["openai/gpt-4"],
strategy: "priority",
config: { setRetryDelayMs: 60001 },
});
assert.equal(tooHigh.success, false);
const negative = createComboSchema.safeParse({
name: "bad-delay",
models: ["openai/gpt-4"],
strategy: "priority",
config: { setRetryDelayMs: -1 },
});
assert.equal(negative.success, false);
});
test("resolveComboConfig cascades nestedComboMode", () => {
const result = resolveComboConfig(
{ config: { nestedComboMode: "execute" } },
{ comboDefaults: { nestedComboMode: "flatten" } }
);
assert.equal(result.nestedComboMode, "execute");
const defaulted = resolveComboConfig({ config: {} }, { comboDefaults: {} });
assert.equal(defaulted.nestedComboMode, "flatten");
});
test("resolveComboConfig cascades failoverBeforeRetry, maxSetRetries and setRetryDelayMs", () => {
const result = resolveComboConfig(
{
config: {
failoverBeforeRetry: true,
maxSetRetries: 2,
setRetryDelayMs: 3000,
},
},
{
comboDefaults: {
failoverBeforeRetry: false,
maxSetRetries: 0,
setRetryDelayMs: 2000,
},
}
);
assert.equal(result.failoverBeforeRetry, true);
assert.equal(result.maxSetRetries, 2);
assert.equal(result.setRetryDelayMs, 3000);
});
// Issue #3872: combo round-robin always queued ~20 deep before cascading on
// semaphore saturation because handleRoundRobinCombo never threaded a queue depth
// into accountSemaphore.acquire (it fell back to the hardcoded DEFAULT_MAX_QUEUE_SIZE
// of 20). Expose `queueDepth` as combo config so operators can shrink the pre-cascade
// queue (0 = fail over immediately) for faster failover, while keeping 20 as the
// backward-compatible default.
test("getDefaultComboConfig exposes the backward-compatible queueDepth default of 20", () => {
assert.equal(getDefaultComboConfig().queueDepth, 20);
});
test("resolveComboConfig cascades queueDepth from defaults through provider and combo overrides", () => {
const fromDefault = resolveComboConfig({ config: {} }, { comboDefaults: {} });
assert.equal(fromDefault.queueDepth, 20);
const cascaded = resolveComboConfig(
{
config: {
queueDepth: 1,
},
},
{
comboDefaults: {
queueDepth: 10,
},
providerOverrides: {
openai: {
queueDepth: 5,
},
},
},
"openai"
);
// Most specific (combo.config) wins over provider override and global default.
assert.equal(cascaded.queueDepth, 1);
});
test("resolveComboQueueDepth defaults to 20, honors configured values, and clamps the range", () => {
assert.equal(resolveComboQueueDepth(null), 20);
assert.equal(resolveComboQueueDepth({}), 20);
assert.equal(resolveComboQueueDepth({ queueDepth: 5 }), 5);
// 0 is a valid, meaningful value: queue nothing → fail over to the next member immediately.
assert.equal(resolveComboQueueDepth({ queueDepth: 0 }), 0);
// Invalid / negative inputs fall back to the safe default.
assert.equal(resolveComboQueueDepth({ queueDepth: -3 }), 20);
assert.equal(resolveComboQueueDepth({ queueDepth: Number.NaN }), 20);
// Out-of-range high values are clamped, not trusted.
assert.equal(resolveComboQueueDepth({ queueDepth: 99999 }), 100);
// Fractional values floor to an integer queue slot count.
assert.equal(resolveComboQueueDepth({ queueDepth: 3.9 }), 3);
});
test("createComboSchema accepts queueDepth, coerces strings, and allows 0 for immediate failover", () => {
const parsed = createComboSchema.parse({
name: "fast-failover",
models: ["openai/gpt-4o-mini", "anthropic/claude-3-haiku"],
strategy: "round-robin",
config: {
queueDepth: "0",
},
});
assert.equal(parsed.config.queueDepth, 0);
});
test("createComboSchema rejects queueDepth outside the supported range", () => {
const tooHigh = createComboSchema.safeParse({
name: "bad-queue-depth-high",
models: ["openai/gpt-4"],
strategy: "round-robin",
config: { queueDepth: 101 },
});
assert.equal(tooHigh.success, false);
const negative = createComboSchema.safeParse({
name: "bad-queue-depth-negative",
models: ["openai/gpt-4"],
strategy: "round-robin",
config: { queueDepth: -1 },
});
assert.equal(negative.success, false);
});
// ─── Fusion strategy config (judgeModel + fusionTuning) ──────────────────
// Backs the dashboard combo-editor Fusion fields (judge model + tuning). The
// editor only writes these; the backend (open-sse/services/fusion.ts) reads
// config.judgeModel / config.fusionTuning. The schema must accept + bound them.
test("createComboSchema accepts judgeModel and fusionTuning for a fusion combo", () => {
const result = createComboSchema.safeParse({
name: "fusion-panel",
models: ["cc/claude-opus-4-7", "cx/gpt-5.5", "glm/glm-5.1"],
strategy: "fusion",
config: {
judgeModel: "cc/claude-opus-4-7",
fusionTuning: { minPanel: 2, stragglerGraceMs: 8000, panelHardTimeoutMs: 90000 },
},
});
assert.equal(result.success, true);
assert.equal(result.data.config.judgeModel, "cc/claude-opus-4-7");
assert.deepEqual(result.data.config.fusionTuning, {
minPanel: 2,
stragglerGraceMs: 8000,
panelHardTimeoutMs: 90000,
});
});
test("createComboSchema accepts a fusion combo with no fusion config (defaults apply at runtime)", () => {
const result = createComboSchema.safeParse({
name: "fusion-bare",
models: ["cc/claude-opus-4-7", "cx/gpt-5.5"],
strategy: "fusion",
config: {},
});
assert.equal(result.success, true);
});
test("createComboSchema coerces numeric-string fusionTuning values", () => {
const result = createComboSchema.safeParse({
name: "fusion-coerce",
models: ["a/m1", "b/m2"],
strategy: "fusion",
config: { fusionTuning: { minPanel: "3", stragglerGraceMs: "5000" } },
});
assert.equal(result.success, true);
assert.equal(result.data.config.fusionTuning.minPanel, 3);
assert.equal(result.data.config.fusionTuning.stragglerGraceMs, 5000);
});
test("createComboSchema rejects out-of-range fusionTuning values", () => {
const minPanelTooHigh = createComboSchema.safeParse({
name: "fusion-bad-minpanel",
models: ["a/m1", "b/m2"],
strategy: "fusion",
config: { fusionTuning: { minPanel: 51 } },
});
assert.equal(minPanelTooHigh.success, false);
const graceNegative = createComboSchema.safeParse({
name: "fusion-bad-grace",
models: ["a/m1", "b/m2"],
strategy: "fusion",
config: { fusionTuning: { stragglerGraceMs: -1 } },
});
assert.equal(graceNegative.success, false);
const hardTimeoutTooLow = createComboSchema.safeParse({
name: "fusion-bad-hardtimeout",
models: ["a/m1", "b/m2"],
strategy: "fusion",
config: { fusionTuning: { panelHardTimeoutMs: 500 } },
});
assert.equal(hardTimeoutTooLow.success, false);
});
test("createComboSchema rejects unknown keys inside fusionTuning (strict object)", () => {
const result = createComboSchema.safeParse({
name: "fusion-unknown-key",
models: ["a/m1", "b/m2"],
strategy: "fusion",
config: { fusionTuning: { minPanel: 2, bogusKey: 1 } },
});
assert.equal(result.success, false);
});