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

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TypeScript

/**
* Cache Control Policy
*
* Determines when to preserve client-side prompt caching headers (cache_control)
* vs. applying OmniRoute's own caching strategy.
*
* Client-side caching (e.g., Claude Code) should be preserved when:
* 1. Client is Claude Code or similar caching-aware client
* 2. Request will hit a deterministic target (single model or deterministic combo strategy)
* 3. Provider supports prompt caching (Anthropic, Alibaba Qwen, etc.)
*/
import type { RoutingStrategyValue } from "../../src/shared/constants/routingStrategies";
/**
* Cache control preservation modes
*/
export type CacheControlMode = "auto" | "always" | "never";
/**
* Cache control settings from the database
*/
export interface CacheControlSettings {
alwaysPreserveClientCache?: CacheControlMode;
}
/**
* Cache metrics for tracking effectiveness
*/
export interface CacheControlMetrics {
// Totals
totalRequests: number;
requestsWithCacheControl: number;
// Token counts
totalInputTokens: number;
totalCachedTokens: number;
totalCacheCreationTokens: number;
// Savings
tokensSaved: number;
estimatedCostSaved: number;
// Breakdowns
byProvider: Record<
string,
{
requests: number;
inputTokens: number;
cachedTokens: number;
cacheCreationTokens: number;
}
>;
byStrategy: Record<
string,
{
requests: number;
inputTokens: number;
cachedTokens: number;
cacheCreationTokens: number;
}
>;
lastUpdated: string;
}
/**
* Routing strategies that are deterministic (same request → same provider)
*/
const DETERMINISTIC_STRATEGIES: Set<RoutingStrategyValue> = new Set(["priority", "cost-optimized"]);
/**
* Providers that support prompt caching
*/
const CACHING_PROVIDERS = new Set([
"claude",
"anthropic",
"zai",
"qwen",
"deepseek",
// #3088 — Xiaomi MiMo honors OpenAI-format cache_control breakpoints. Without
// this entry, shouldPreserveCacheControl() returns false for Claude Code
// clients and filterToOpenAIFormat() strips cache_control, so Xiaomi never
// sees the cache hints and every request is a cache miss.
"xiaomi-mimo",
// #3955 — OpenAI / Codex / Azure-OpenAI use AUTOMATIC prefix caching: the longest
// matching prefix of a request is cached upstream WITHOUT any explicit cache_control
// markers. They must count as caching providers so the cache-aware compression guard
// preserves the cacheable prefix (system prompt / earliest messages) instead of
// rewriting it and forcing a cache miss. This also activates the intended
// `prompt_cache_key` cache-routing hint for OpenAI in chatCore.
"openai",
"codex",
"azure",
// #2069 — Alibaba DashScope's OpenAI-compatible endpoints (alibaba /
// alibaba-cn, upstream "alicode"/"alicode-intl") natively honor
// `cache_control: {type:"ephemeral"}` breakpoints. Without these entries
// shouldPreserveCacheControl() returns false for Claude Code clients and the
// OpenAI-format translator strips cache_control, so DashScope never sees the
// hints and every request is a cache miss.
"alibaba",
"alibaba-cn",
]);
/**
* Providers that honor EXPLICIT `cache_control` breakpoints carried inside an
* OpenAI-format request body (i.e. the markers must be passed THROUGH the
* Claude→OpenAI translation instead of stripped).
*
* This is a strict subset of CACHING_PROVIDERS and deliberately excludes
* `openai` / `codex` / `azure`: those use AUTOMATIC prefix caching (#3955) and
* do NOT accept explicit `cache_control` fields in the request — forwarding the
* markers there is meaningless at best and a 400 "unknown field" at worst, and
* it broke the chatCore "strips cache markers for non-Claude providers" test.
* Claude-format providers re-inject markers via prepareClaudeRequest, so they
* are not listed here either.
*/
const OPENAI_FORMAT_CACHE_CONTROL_PROVIDERS = new Set([
// #2069 — DashScope OpenAI-compatible endpoints accept ephemeral breakpoints.
"alibaba",
"alibaba-cn",
// #3088 — Xiaomi MiMo honors OpenAI-format cache_control breakpoints.
"xiaomi-mimo",
]);
/**
* Whether `cache_control` markers should be PASSED THROUGH the OpenAI-format
* translation for this provider (vs. stripped). Used to gate the request-side
* passthrough so generic / implicit-cache OpenAI providers keep getting cleaned.
*/
export function providerHonorsOpenAIFormatCacheControl(
provider: string | null | undefined
): boolean {
if (!provider) return false;
return OPENAI_FORMAT_CACHE_CONTROL_PROVIDERS.has(provider.toLowerCase());
}
/**
* Detect if the client is Claude Code or another caching-aware client
*/
export function isClaudeCodeClient(userAgent: string | null | undefined): boolean {
if (!userAgent) return false;
const ua = userAgent.toLowerCase();
// Claude Code user agents
if (ua.includes("claude-code") || ua.includes("claude_code")) return true;
if (ua.includes("claude-cli/")) return true;
if (ua.includes("sdk-cli")) return true;
if (ua.includes("anthropic") && ua.includes("cli")) return true;
return false;
}
/**
* Check if a provider supports prompt caching
* Supports caching if:
* 1. Provider is in the known caching providers list, OR
* 2. Provider uses Claude protocol (detected via targetFormat)
*/
export function providerSupportsCaching(
provider: string | null | undefined,
targetFormat?: string | null
): boolean {
if (!provider) return false;
if (CACHING_PROVIDERS.has(provider.toLowerCase())) return true;
// All Claude-protocol providers support prompt caching
if (targetFormat === "claude") return true;
return false;
}
/**
* Check if a routing strategy is deterministic
*/
export function isDeterministicStrategy(
strategy: RoutingStrategyValue | null | undefined
): boolean {
if (!strategy) return false;
return DETERMINISTIC_STRATEGIES.has(strategy);
}
/**
* Determine if client-side cache_control headers should be preserved
*
* @param userAgent - User-Agent header from the request
* @param isCombo - Whether this is a combo model
* @param comboStrategy - The combo's routing strategy (if applicable)
* @param targetProvider - The target provider for the request
* @param settings - Cache control settings from database (optional)
* @returns true if cache_control should be preserved, false if OmniRoute should manage it
*/
export function shouldPreserveCacheControl({
userAgent,
isCombo,
comboStrategy,
targetProvider,
targetFormat,
settings,
}: {
userAgent: string | null | undefined;
isCombo: boolean;
comboStrategy?: RoutingStrategyValue | null;
targetProvider: string | null | undefined;
targetFormat?: string | null;
settings?: CacheControlSettings;
}): boolean {
// User override takes precedence
if (settings?.alwaysPreserveClientCache === "always") {
return true;
}
if (settings?.alwaysPreserveClientCache === "never") {
return false;
}
// Auto mode: use automatic detection (existing logic)
// Must be a caching-aware client
if (!isClaudeCodeClient(userAgent)) {
return false;
}
// Target provider must support caching
if (!providerSupportsCaching(targetProvider, targetFormat)) {
return false;
}
// Single model: always preserve (deterministic)
if (!isCombo) {
return true;
}
// Combo: only preserve if strategy is deterministic
return isDeterministicStrategy(comboStrategy);
}
/**
* Track cache control metrics for a request
*/
export function trackCacheMetrics({
preserved,
provider,
strategy,
metrics,
inputTokens,
cachedTokens,
cacheCreationTokens,
}: {
preserved: boolean;
provider: string;
strategy: string | null | undefined;
metrics: CacheControlMetrics;
inputTokens?: number;
cachedTokens?: number;
cacheCreationTokens?: number;
}): CacheControlMetrics {
const now = new Date().toISOString();
// Initialize metrics if empty
if (!metrics) {
metrics = {
totalRequests: 0,
requestsWithCacheControl: 0,
totalInputTokens: 0,
totalCachedTokens: 0,
totalCacheCreationTokens: 0,
tokensSaved: 0,
estimatedCostSaved: 0,
byProvider: {},
byStrategy: {},
lastUpdated: now,
};
}
// Increment total requests
metrics.totalRequests++;
// Track token counts
const input = inputTokens || 0;
const cached = cachedTokens || 0;
const creation = cacheCreationTokens || 0;
metrics.totalInputTokens += input;
metrics.totalCachedTokens += cached;
metrics.totalCacheCreationTokens += creation;
// Calculate tokens saved (cached tokens are reused, not charged)
if (cached > 0) {
metrics.tokensSaved += cached;
}
// Only track requests where cache_control was preserved
if (preserved) {
metrics.requestsWithCacheControl++;
// Initialize provider tracking
if (!metrics.byProvider[provider]) {
metrics.byProvider[provider] = {
requests: 0,
inputTokens: 0,
cachedTokens: 0,
cacheCreationTokens: 0,
};
}
metrics.byProvider[provider].requests++;
metrics.byProvider[provider].inputTokens += input;
metrics.byProvider[provider].cachedTokens += cached;
metrics.byProvider[provider].cacheCreationTokens += creation;
// Initialize strategy tracking
if (strategy && !metrics.byStrategy[strategy]) {
metrics.byStrategy[strategy] = {
requests: 0,
inputTokens: 0,
cachedTokens: 0,
cacheCreationTokens: 0,
};
}
if (strategy) {
metrics.byStrategy[strategy].requests++;
metrics.byStrategy[strategy].inputTokens += input;
metrics.byStrategy[strategy].cachedTokens += cached;
metrics.byStrategy[strategy].cacheCreationTokens += creation;
}
}
metrics.lastUpdated = now;
return metrics;
}
/**
* Record cache token usage and update metrics
*/
export function updateCacheTokenMetrics({
metrics,
provider,
strategy,
inputTokens,
cachedTokens,
cacheCreationTokens,
costSaved,
}: {
metrics: CacheControlMetrics;
provider: string;
strategy: string | null | undefined;
inputTokens: number;
cachedTokens: number;
cacheCreationTokens: number;
costSaved?: number;
}): CacheControlMetrics {
metrics.totalCachedTokens += cachedTokens;
metrics.totalCacheCreationTokens += cacheCreationTokens;
metrics.totalInputTokens += inputTokens;
// Cached tokens are reused (saved), creation tokens are new cache writes
metrics.tokensSaved += cachedTokens;
if (costSaved !== undefined) {
metrics.estimatedCostSaved += costSaved;
}
// Update provider tracking
if (metrics.byProvider[provider]) {
metrics.byProvider[provider].cachedTokens += cachedTokens;
metrics.byProvider[provider].cacheCreationTokens += cacheCreationTokens;
metrics.byProvider[provider].inputTokens += inputTokens;
}
// Update strategy tracking
if (strategy && metrics.byStrategy[strategy]) {
metrics.byStrategy[strategy].cachedTokens += cachedTokens;
metrics.byStrategy[strategy].cacheCreationTokens += cacheCreationTokens;
metrics.byStrategy[strategy].inputTokens += inputTokens;
}
metrics.lastUpdated = new Date().toISOString();
return metrics;
}